Package: bibtexconv Version: 2.2.3-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 767 Depends: file, poppler-utils, zip, libc6 (>= 2.38), libcurl4t64 (>= 7.16.2), libgcc-s1 (>= 4.2), libssl3t64 (>= 3.0.0), libstdc++6 (>= 5.2) Recommends: ietf2bibtex Filename: s390x/bibtexconv_2.2.3-1_s390x.deb Size: 242354 MD5sum: 945ea6b3ec25b20b3ba1c9b936100ebc SHA1: 946b3865310d8fc02db8d026c6a48ec4e7100640 SHA256: 9c48206bbbcfa183f6085c750224f52a57bd82e4eb81af90c6a185dd75647833 Section: tex Priority: optional Homepage: https://www.nntb.no/~dreibh/bibtexconv/ Description: BibTeX Converter BibTeXConv is a BibTeX file converter which allows one to export BibTeX entries to other formats, including customly defined text output. Furthermore, it provides the possibility to check URLs (including MD5, size and MIME type computations) and to verify ISBN and ISSN numbers. Package: bibtexconv Version: 2.2.3-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 799 Depends: file, poppler-utils, zip, libc6 (>= 2.38), libcurl4t64 (>= 7.16.2), libgcc-s1 (>= 3.3.1), libssl3t64 (>= 3.0.0), libstdc++6 (>= 5.2) Recommends: ietf2bibtex Filename: ppc64el/bibtexconv_2.2.3-1_ppc64el.deb Size: 248682 MD5sum: 841a4ef6da456965e538cfc84242de5a SHA1: e7f489d6a82e628e7a55ce900f4adc2d3c0ecf40 SHA256: f20f237d7d287ec5b548cfeda4c1f018dabf3a2edcf169e32c153a93dbbfe1eb Section: tex Priority: optional Homepage: https://www.nntb.no/~dreibh/bibtexconv/ Description: BibTeX Converter BibTeXConv is a BibTeX file converter which allows one to export BibTeX entries to other formats, including customly defined text output. Furthermore, it provides the possibility to check URLs (including MD5, size and MIME type computations) and to verify ISBN and ISSN numbers. Package: bibtexconv Version: 2.2.3-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 799 Depends: file, poppler-utils, zip, libc6 (>= 2.38), libcurl4t64 (>= 7.16.2), libgcc-s1 (>= 3.3.1), libssl3t64 (>= 3.0.0), libstdc++6 (>= 5.2) Recommends: ietf2bibtex Filename: arm64/bibtexconv_2.2.3-1_arm64.deb Size: 240332 MD5sum: 1c885fbdf25da57f45af420eb54e2a13 SHA1: 19dd618339635dde0d0b8341c3676aa5af6a531b SHA256: 7e0e5c2022f9a8d7473581d941ef72a34c1d1af442a3d1535a645f6e7e098264 Section: tex Priority: optional Homepage: https://www.nntb.no/~dreibh/bibtexconv/ Description: BibTeX Converter BibTeXConv is a BibTeX file converter which allows one to export BibTeX entries to other formats, including customly defined text output. Furthermore, it provides the possibility to check URLs (including MD5, size and MIME type computations) and to verify ISBN and ISSN numbers. Package: bibtexconv Version: 2.2.3-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 775 Depends: file, poppler-utils, zip, libc6 (>= 2.38), libcurl4t64 (>= 7.16.2), libgcc-s1 (>= 3.3.1), libssl3t64 (>= 3.0.0), libstdc++6 (>= 5.2) Recommends: ietf2bibtex Filename: amd64/bibtexconv_2.2.3-1_amd64.deb Size: 242166 MD5sum: fb33397f4b0c2430af6c99cf1e7d87a3 SHA1: 3b97597d508e262f050dff8a9d7be7729007e992 SHA256: 3a884e860b8fbe93f3ac5bc6583f42dc188b2f63a3499528f0dd06b1c22f82b3 Section: tex Priority: optional Homepage: https://www.nntb.no/~dreibh/bibtexconv/ Description: BibTeX Converter BibTeXConv is a BibTeX file converter which allows one to export BibTeX entries to other formats, including customly defined text output. Furthermore, it provides the possibility to check URLs (including MD5, size and MIME type computations) and to verify ISBN and ISSN numbers. Package: clifractgen Source: fractgen Version: 3.0.12-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 132 Depends: fractgen-common (>= 3.0.12-1), libc6 (>= 2.34), libgcc-s1 (>= 4.0), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6widgets6 (>= 6.1.2), libqt6xml6 (>= 6.6.0), libstdc++6 (>= 13.1) Recommends: fractgen-examples (>= 3.0.12-1), qt6-image-formats-plugins Suggests: rsplib-tools Filename: s390x/clifractgen_3.0.12-1_s390x.deb Size: 62892 MD5sum: 70805d76712afb264c9132eee3ca8de3 SHA1: 9dd2a2786fadfa46bf8eecb2d52b46f5b45507a6 SHA256: eb37b4157c78614686c36eb3b41e136e655f35ce31373990f26a08b06aeef176 Section: graphics Priority: optional Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Fractal images calculation application (command-line version) FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This is the command-line version of FractGen. Package: clifractgen Source: fractgen Version: 3.0.12-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 180 Depends: fractgen-common (>= 3.0.12-1), libc6 (>= 2.34), libgcc-s1 (>= 4.0), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6widgets6 (>= 6.1.2), libqt6xml6 (>= 6.6.0), libstdc++6 (>= 13.1) Recommends: fractgen-examples (>= 3.0.12-1), qt6-image-formats-plugins Suggests: rsplib-tools Filename: ppc64el/clifractgen_3.0.12-1_ppc64el.deb Size: 64806 MD5sum: 0de1e4bd4f3a7740140b5ad3a4fca21d SHA1: c9b7d37547e2488fc389cd19567794efa62976e5 SHA256: 3db1322e0441d2ecbb898522534a920d0f6a28769969dfc0e5fd1bec2cec7b99 Section: graphics Priority: optional Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Fractal images calculation application (command-line version) FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This is the command-line version of FractGen. Package: clifractgen Source: fractgen Version: 3.0.12-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 180 Depends: fractgen-common (>= 3.0.12-1), libc6 (>= 2.34), libgcc-s1 (>= 4.0), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6widgets6 (>= 6.1.2), libqt6xml6 (>= 6.6.0), libstdc++6 (>= 13.1) Recommends: fractgen-examples (>= 3.0.12-1), qt6-image-formats-plugins Suggests: rsplib-tools Filename: arm64/clifractgen_3.0.12-1_arm64.deb Size: 61382 MD5sum: fbf8d829675b83c5a1a62010bbe11889 SHA1: ad96e4f87d294d5cafef00aff0edbc8510e453e7 SHA256: 259437d810bbaef26c58540b54ee5f00048bd296319e181e6bed82c6d13227a4 Section: graphics Priority: optional Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Fractal images calculation application (command-line version) FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This is the command-line version of FractGen. Package: clifractgen Source: fractgen Version: 3.0.12-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 136 Depends: fractgen-common (>= 3.0.12-1), libc6 (>= 2.34), libgcc-s1 (>= 4.0), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6widgets6 (>= 6.1.2), libqt6xml6 (>= 6.6.0), libstdc++6 (>= 13.1) Recommends: fractgen-examples (>= 3.0.12-1), qt6-image-formats-plugins Suggests: rsplib-tools Filename: amd64/clifractgen_3.0.12-1_amd64.deb Size: 62084 MD5sum: 76fb9959e4c761bf947ae097c3df0bcc SHA1: b2d1d0dc4d5eb6fc70e4ba5272f77a4bda608ff4 SHA256: 95438d38fa5201e5adea70ceff97ca7493c6a6c5705ae902a3f182b1d5e7b39b Section: graphics Priority: optional Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Fractal images calculation application (command-line version) FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This is the command-line version of FractGen. Package: dynmhs Version: 0.3.5-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 430 Depends: iproute2, libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libboost-thread1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Recommends: hipercontracer, netperfmeter, subnetcalc Suggests: iputils-tracepath, ping | iputils-ping, td-system-tools, traceroute | inetutils-traceroute, tsctp Filename: ppc64el/dynmhs_0.3.5-1_ppc64el.deb Size: 122176 MD5sum: a262cd94879692b4fb44fec37644f4b2 SHA1: c3ed8073d3be869987b3d2cf4a49c44f9cfe61c7 SHA256: bdc26d0e4ee8255aa24c01538e6dcff82ecdac08797b68fa0bb2a7efa90babfa Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/dynmhs/ Description: Dynamic Multi-Homing Setup (DynMHS) DynMHS dynamically sets up IP routing rules, to allow using multiple network connections simultaneously. That is, for each relevant network interface, a separate routing table is created and maintained. For each source address of a network interface managed by DynMHS, routing rules are maintained to point to the corresponding routing table. Software binding to a specific interface address can then use a specific network. In addition, multi-homing-capable network protocols like the Multi-Path TCP (MPTCP) or the Stream Control Transmission Protocol (SCTP) can take advantage of multi-homing for redundancy and load balancing. Package: dynmhs Version: 0.3.5-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 366 Depends: iproute2, libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libboost-thread1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Recommends: hipercontracer, netperfmeter, subnetcalc Suggests: iputils-tracepath, ping | iputils-ping, td-system-tools, traceroute | inetutils-traceroute, tsctp Filename: arm64/dynmhs_0.3.5-1_arm64.deb Size: 108906 MD5sum: b21518224940186731e055a27d0cf145 SHA1: 19b368d1a0846798c287eb38e6164e1b01d97db4 SHA256: ab7a0e4c0b5c3133c22df32d7c8b4f99a8375c42d83e16465068b74197c26100 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/dynmhs/ Description: Dynamic Multi-Homing Setup (DynMHS) DynMHS dynamically sets up IP routing rules, to allow using multiple network connections simultaneously. That is, for each relevant network interface, a separate routing table is created and maintained. For each source address of a network interface managed by DynMHS, routing rules are maintained to point to the corresponding routing table. Software binding to a specific interface address can then use a specific network. In addition, multi-homing-capable network protocols like the Multi-Path TCP (MPTCP) or the Stream Control Transmission Protocol (SCTP) can take advantage of multi-homing for redundancy and load balancing. Package: dynmhs Version: 0.3.5-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 338 Depends: iproute2, libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libboost-thread1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Recommends: hipercontracer, netperfmeter, subnetcalc Suggests: iputils-tracepath, ping | iputils-ping, td-system-tools, traceroute | inetutils-traceroute, tsctp Filename: amd64/dynmhs_0.3.5-1_amd64.deb Size: 113906 MD5sum: 67a771787e8bbe07eb0d0269e7ede554 SHA1: 009ad96a935f4402f46e42104252fccc96c11b78 SHA256: 8fef4397bcb93554dd57330321011bb0825bfa99d88df2ee60ac66147872412e Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/dynmhs/ Description: Dynamic Multi-Homing Setup (DynMHS) DynMHS dynamically sets up IP routing rules, to allow using multiple network connections simultaneously. That is, for each relevant network interface, a separate routing table is created and maintained. For each source address of a network interface managed by DynMHS, routing rules are maintained to point to the corresponding routing table. Software binding to a specific interface address can then use a specific network. In addition, multi-homing-capable network protocols like the Multi-Path TCP (MPTCP) or the Stream Control Transmission Protocol (SCTP) can take advantage of multi-homing for redundancy and load balancing. Package: dynmhs Version: 0.3.5~rc0-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 337 Depends: iproute2, libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libboost-thread1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 4.2), libstdc++6 (>= 13.1) Recommends: hipercontracer, netperfmeter, subnetcalc Suggests: iputils-tracepath, ping | iputils-ping, td-system-tools, traceroute | inetutils-traceroute, tsctp Filename: s390x/dynmhs_0.3.5~rc0-1_s390x.deb Size: 113132 MD5sum: f784004d8ac884fe46fdf5d510f99f0f SHA1: 604c5a02e7f831c330b2ceb8331c3c528ca7ee26 SHA256: 78d56d34672758a2eb82577ba8ffb57c0b0dc24ce0c9fb72e8d221d2f8eec37f Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/dynmhs/ Description: Dynamic Multi-Homing Setup (DynMHS) DynMHS dynamically sets up IP routing rules, to allow using multiple network connections simultaneously. That is, for each relevant network interface, a separate routing table is created and maintained. For each source address of a network interface managed by DynMHS, routing rules are maintained to point to the corresponding routing table. Software binding to a specific interface address can then use a specific network. In addition, multi-homing-capable network protocols like the Multi-Path TCP (MPTCP) or the Stream Control Transmission Protocol (SCTP) can take advantage of multi-homing for redundancy and load balancing. Package: fractgen Version: 3.0.12-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 213 Depends: fractgen-common (>= 3.0.12-1), libc6 (>= 2.34), libgcc-s1 (>= 4.0), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6printsupport6 (>= 6.1.2), libqt6widgets6 (>= 6.3.0), libqt6xml6 (>= 6.6.0), libstdc++6 (>= 13.1) Recommends: fractgen-examples (>= 3.0.12-1), qt6-image-formats-plugins, rsplib-tools Filename: s390x/fractgen_3.0.12-1_s390x.deb Size: 84410 MD5sum: 21655984f09580318b001b3425358f84 SHA1: 6d81527193181dbbeab3154e69dad5c7f08c5686 SHA256: dcaa9032da8dd5272bd88dcd8866cff0df5697d5ab3a0a362d1aec78f328fd72 Section: graphics Priority: optional Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Fractal images calculation application (Qt version) FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This is the Qt version of FractGen. Package: fractgen Version: 3.0.12-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 249 Depends: fractgen-common (>= 3.0.12-1), libc6 (>= 2.34), libgcc-s1 (>= 4.0), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6printsupport6 (>= 6.1.2), libqt6widgets6 (>= 6.3.0), libqt6xml6 (>= 6.6.0), libstdc++6 (>= 13.1) Recommends: fractgen-examples (>= 3.0.12-1), qt6-image-formats-plugins, rsplib-tools Filename: ppc64el/fractgen_3.0.12-1_ppc64el.deb Size: 88038 MD5sum: 808fbf1e0372ff9f844dc144999c1062 SHA1: 90b92eb03b38222cbb964ae1ea1fab34f730dd24 SHA256: b46f1bf4f92d544df331d227e1f9eca6dbc8ba584f25e8b661b3fdd73369afd1 Section: graphics Priority: optional Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Fractal images calculation application (Qt version) FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This is the Qt version of FractGen. Package: fractgen Version: 3.0.12-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 249 Depends: fractgen-common (>= 3.0.12-1), libc6 (>= 2.34), libgcc-s1 (>= 4.0), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6printsupport6 (>= 6.1.2), libqt6widgets6 (>= 6.3.0), libqt6xml6 (>= 6.6.0), libstdc++6 (>= 13.1) Recommends: fractgen-examples (>= 3.0.12-1), qt6-image-formats-plugins, rsplib-tools Filename: arm64/fractgen_3.0.12-1_arm64.deb Size: 81558 MD5sum: ded7a94f1c86486494a79b56f5774ae7 SHA1: 2d04fefaff0a786c252b3721f6a6441efeaac335 SHA256: a0a582c97d129ed53ef2d8f53dffdb1081e34ba4ee548ae351b910fca1d43f39 Section: graphics Priority: optional Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Fractal images calculation application (Qt version) FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This is the Qt version of FractGen. Package: fractgen Version: 3.0.12-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 209 Depends: fractgen-common (>= 3.0.12-1), libc6 (>= 2.34), libgcc-s1 (>= 4.0), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6printsupport6 (>= 6.1.2), libqt6widgets6 (>= 6.3.0), libqt6xml6 (>= 6.6.0), libstdc++6 (>= 13.1) Recommends: fractgen-examples (>= 3.0.12-1), qt6-image-formats-plugins, rsplib-tools Filename: amd64/fractgen_3.0.12-1_amd64.deb Size: 82352 MD5sum: 3c989fc23ea4fb3f9a5df9374a5b69c8 SHA1: 814a37d5d7b326d1c5688f19de518ab4b4a64eae SHA256: f6d0f07f51cd08d7595f6518893249dd0178cdc626bb523ce550104070f34db3 Section: graphics Priority: optional Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Fractal images calculation application (Qt version) FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This is the Qt version of FractGen. Package: fractgen-common Source: fractgen Version: 3.0.12-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 232 Breaks: fractgen (<< 3.0.0) Replaces: fractgen (<< 3.0.0) Filename: all/fractgen-common_3.0.12-1_all.deb Size: 213162 MD5sum: 3a256c89f5caa1c244289708c6fead79 SHA1: ecc7f53a5fb044cbafdcf91b0e15c0443cdfc1d3 SHA256: f89e381da1141507b3af4b771609d0cf288ec59e58bd7de92e34315c4ac3d1ca Section: graphics Priority: optional Multi-Arch: foreign Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Common files for FractGen FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This package contains common files for the Qt, KDE and command-line versions of FractGen. Package: fractgen-examples Source: fractgen Version: 3.0.12-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 333 Recommends: fractgen Breaks: fractgen (<< 3.0.0) Replaces: fractgen (<< 3.0.0) Filename: all/fractgen-examples_3.0.12-1_all.deb Size: 73856 MD5sum: aa7ced8639d13e6198570bf9e998cfd6 SHA1: 349df83283132ce34437ccbef63952f74f643395 SHA256: 5f5166f940aa26563d96c297af99bb15105540f68f135ed0e8b9123026f15499 Section: graphics Priority: optional Multi-Arch: foreign Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Example files for FractGen FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This package contains some example input files for the fractal generator program FractGen. The example files contain the parameters for the fractal calculations. FractGen can perform the computations and display the resulting images. Package: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 512 Depends: hipercontracer-common, iproute2, libhipercontracer2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 4.2), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Recommends: ethtool, hipercontracer-examples, hipercontracer-viewer Suggests: hipercontracer-collector, hipercontracer-dbeaver-tools, hipercontracer-dbshell, hipercontracer-importer, hipercontracer-node, hipercontracer-query, hipercontracer-results, hipercontracer-sync, hipercontracer-trigger, hipercontracer-udp-echo-server, netperfmeter, td-system-info Filename: s390x/hipercontracer_2.2.6-1_s390x.deb Size: 242330 MD5sum: 717f2ce661224b9fbe79c7d85c8e47ff SHA1: fe0406b58681be07976c45d906a2f24c415b7cd9 SHA256: 67f9855ec08889eb7853e828f3b460258e3ad0ab0c8b49d257bee60db95bc13e Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: High-Performance Connectivity Tracer (HiPerConTracer) High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the core HiPerConTracer measurement program. Package: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 572 Depends: hipercontracer-common, iproute2, libhipercontracer2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Recommends: ethtool, hipercontracer-examples, hipercontracer-viewer Suggests: hipercontracer-collector, hipercontracer-dbeaver-tools, hipercontracer-dbshell, hipercontracer-importer, hipercontracer-node, hipercontracer-query, hipercontracer-results, hipercontracer-sync, hipercontracer-trigger, hipercontracer-udp-echo-server, netperfmeter, td-system-info Filename: ppc64el/hipercontracer_2.2.6-1_ppc64el.deb Size: 252196 MD5sum: 8ce0faf01208ecb9d27999d963bc9627 SHA1: 32f058426aa3a55428d9a339a8525256847fb938 SHA256: a862fec988d9065190809221ebb9233d712f53a2a021aa93986bdbffb6ba632f Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: High-Performance Connectivity Tracer (HiPerConTracer) High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the core HiPerConTracer measurement program. Package: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 508 Depends: hipercontracer-common, iproute2, libhipercontracer2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Recommends: ethtool, hipercontracer-examples, hipercontracer-viewer Suggests: hipercontracer-collector, hipercontracer-dbeaver-tools, hipercontracer-dbshell, hipercontracer-importer, hipercontracer-node, hipercontracer-query, hipercontracer-results, hipercontracer-sync, hipercontracer-trigger, hipercontracer-udp-echo-server, netperfmeter, td-system-info Filename: arm64/hipercontracer_2.2.6-1_arm64.deb Size: 238592 MD5sum: b02b2fd73956bad38b05d0deffd1440a SHA1: c5ec3f1d65144d03699c4bd3b8a340522a3eae1b SHA256: c18927f017daa75a41125635c7658f943b4ffe2fa5adddc7da930c46c85c291a Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: High-Performance Connectivity Tracer (HiPerConTracer) High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the core HiPerConTracer measurement program. Package: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 512 Depends: hipercontracer-common, iproute2, libhipercontracer2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Recommends: ethtool, hipercontracer-examples, hipercontracer-viewer Suggests: hipercontracer-collector, hipercontracer-dbeaver-tools, hipercontracer-dbshell, hipercontracer-importer, hipercontracer-node, hipercontracer-query, hipercontracer-results, hipercontracer-sync, hipercontracer-trigger, hipercontracer-udp-echo-server, netperfmeter, td-system-info Filename: amd64/hipercontracer_2.2.6-1_amd64.deb Size: 244104 MD5sum: ab4a4cd46af6a7af8d1cc08f117cc63b SHA1: 4daba50f46e4491dc6c60ff7b7e0f60e2c23a666 SHA256: 4306a8cdb6ab8960a39a52c1dca819aaefbe0622e9b5ae4c183b78668440f212 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: High-Performance Connectivity Tracer (HiPerConTracer) High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the core HiPerConTracer measurement program. Package: hipercontracer-all Source: hipercontracer Version: 2.2.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 139 Depends: hipercontracer, hipercontracer-collector, hipercontracer-dbeaver-tools, hipercontracer-dbshell, hipercontracer-examples, hipercontracer-importer, hipercontracer-node, hipercontracer-query, hipercontracer-results, hipercontracer-sync, hipercontracer-trigger, hipercontracer-udp-echo-server, hipercontracer-viewer Filename: all/hipercontracer-all_2.2.6-1_all.deb Size: 134304 MD5sum: 06ef46adf827e1af52a0075e5375a779 SHA1: 325947f41bd4e955e900217f574d5b12e782eb41 SHA256: 7c6bdcf45bd5c7366e4f9ad9a225735f3f16ad6aeba2aa8c6bacc4a42781b410 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer metapackage for all tools of the framework High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This metapackage installs all sub-packages of the HiPerConTracer Framework. Package: hipercontracer-collector Source: hipercontracer Version: 2.2.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 178 Depends: hipercontracer-common, iproute2, openssh-client, openssh-server, rsync, sudo Recommends: td-system-info, td-system-maintenance, unattended-upgrades Filename: all/hipercontracer-collector_2.2.6-1_all.deb Size: 142428 MD5sum: 1a6fb89b9992860d0c6dbcafb9c86ccf SHA1: 798ddf955f0d5b51090f015e642d22845577741c SHA256: 3137323361081d537f6963c4185a54c03a75487a57e7fbc6f336da779a20ff8c Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Collector Tools for collecting measurement results High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides helper scripts to set up and maintain a collector server. Package: hipercontracer-common Source: hipercontracer Version: 2.2.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 1258 Depends: acl, passwd Filename: all/hipercontracer-common_2.2.6-1_all.deb Size: 955102 MD5sum: ff98427d5f2d531313fb1fc0dd91f8b7 SHA1: fd68db7393e1fadb396d0bc080149b9d3d6a405e SHA256: 6a473f4f81bc48eab944c25571bafeed4f07f4a8eec753b0835097d90e98e7c5 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer common files High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains common files for HiPerConTracer and the HiPerConTracer Tools packages. Package: hipercontracer-dbeaver-tools Source: hipercontracer Version: 2.2.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 164 Depends: hipercontracer-dbshell (>= 2.2.6-1), jq, openssl Filename: all/hipercontracer-dbeaver-tools_2.2.6-1_all.deb Size: 140940 MD5sum: f9b2070eab2f65063ed627fd4533b2b1 SHA1: 3020dd07b447b46fa2be242d54d40f9d77d87ad2 SHA256: 0d15ec4ca08c041ca6d267e598e528fe1f2ea083ae29614af74af7c6e74ce57b Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer DBeaver Tools for configuring access to databases High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains tools to integrate database settings into DBeaver. Package: hipercontracer-dbshell Source: hipercontracer Version: 2.2.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 164 Recommends: hipercontracer-dbeaver-tools, mariadb-client | default-mysql-client, postgresql-client, pwgen Suggests: mongodb-mongosh Filename: all/hipercontracer-dbshell_2.2.6-1_all.deb Size: 140322 MD5sum: bde769d60196e14c7d5130668d604537 SHA1: 4618dbfba15ec44a42c75f5b740ee4231c3b4938 SHA256: ffd0b697ffc0ffbbfa7c3960b8f891a15adff8bd5754be561e7becb9253d6ed8 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Database Shell for access testing to a database High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This tool provides a command-line interface to test database configurations. Package: hipercontracer-examples Source: hipercontracer Version: 2.2.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 2209 Depends: python3, python3-netifaces, r-base-core Recommends: r-cran-data.table, r-cran-digest, r-cran-dplyr, r-cran-nanotime, r-cran-xtable Filename: all/hipercontracer-examples_2.2.6-1_all.deb Size: 2146550 MD5sum: f774bc12387bf0dd5be2056956645a2f SHA1: a6b5836412b4d5420aa309e3a62b95946179ab51 SHA256: 93c8a0c29b5b1628123f87ed61256db379a3d7ed52cd49543ddbccb92c3ddd70 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer example scripts and results files High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains example scripts and result files. Package: hipercontracer-importer Source: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 833 Depends: hipercontracer-common, libuniversalimporter2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctdb2 (>= 2.2.6), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Recommends: hipercontracer-dbshell, python3, python3-netifaces Suggests: hipercontracer Filename: s390x/hipercontracer-importer_2.2.6-1_s390x.deb Size: 319234 MD5sum: e38b057ee5dacdf249556fe458bd2945 SHA1: dc6f2f7959af5b8e1255173dc9bc6b904664eb7a SHA256: 9035e59b51a8d29d997fb5d1c579862f90590ac8a55e62e591371a2b8f11f175 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Importer for importing results into a database High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the Importer Tool to import results into SQL or NoSQL databases. Package: hipercontracer-importer Source: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 917 Depends: hipercontracer-common, libuniversalimporter2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctdb2 (>= 2.2.6), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Recommends: hipercontracer-dbshell, python3, python3-netifaces Suggests: hipercontracer Filename: ppc64el/hipercontracer-importer_2.2.6-1_ppc64el.deb Size: 333378 MD5sum: 4eab43509ad16bc7c4cd47d4f61de789 SHA1: ab2d2be0a6c7655a3070f795ec456b897907c3a7 SHA256: 369f8e6cd856104a15460804b41fa488bad3a10d39eb7d6c7246cb98a0861648 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Importer for importing results into a database High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the Importer Tool to import results into SQL or NoSQL databases. Package: hipercontracer-importer Source: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 853 Depends: hipercontracer-common, libuniversalimporter2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctdb2 (>= 2.2.6), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Recommends: hipercontracer-dbshell, python3, python3-netifaces Suggests: hipercontracer Filename: arm64/hipercontracer-importer_2.2.6-1_arm64.deb Size: 307328 MD5sum: e5dbc0114d9f9ffbdaad4e55bed1afc4 SHA1: 43392ec85b96eb338574d960adbe49d83b6c3bf4 SHA256: 95470e8e8a835d0c1e3f9bc880dd7a04d831da300aea6cc4b37c10052a49ac97 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Importer for importing results into a database High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the Importer Tool to import results into SQL or NoSQL databases. Package: hipercontracer-importer Source: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 845 Depends: hipercontracer-common, libuniversalimporter2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctdb2 (>= 2.2.6), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Recommends: hipercontracer-dbshell, python3, python3-netifaces Suggests: hipercontracer Filename: amd64/hipercontracer-importer_2.2.6-1_amd64.deb Size: 316990 MD5sum: 18380c2a46530653c88e7677fab0ca6a SHA1: db42a4b8bf2ce3123b337b3b88bdfab65814f310 SHA256: 148a192aeab140bac35fe39e044f4b358953c2ce10764fe0d288b6b669a92385 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Importer for importing results into a database High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the Importer Tool to import results into SQL or NoSQL databases. Package: hipercontracer-node Source: hipercontracer Version: 2.2.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 162 Depends: hipercontracer, hipercontracer-rtunnel, hipercontracer-sync, sudo Recommends: td-system-info, td-system-maintenance, unattended-upgrades Filename: all/hipercontracer-node_2.2.6-1_all.deb Size: 139536 MD5sum: 9212b13f2ac67c03581dba569652e2fc SHA1: 461d5926b7ed83a1a7d2770ee466048a727453f4 SHA256: a5bdd3a28b9445debe6c607ea78a20c92269ebf53db317ba8bb04fde4791c7f5 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Node Tools for maintaining a measurement node High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides helper scripts to manage and attach a measurement node. Package: hipercontracer-query Source: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 375 Depends: hipercontracer-common, libuniversalimporter2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctdb2 (>= 2.2.6), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Recommends: hipercontracer-dbshell, hipercontracer-results, hipercontracer-viewer Suggests: hipercontracer Breaks: hipercontracer-query-tool (<< 2.2.6-1) Replaces: hipercontracer-query-tool Provides: hipercontracer-query-tool Filename: s390x/hipercontracer-query_2.2.6-1_s390x.deb Size: 213332 MD5sum: 9a9471e3f2836402007046b8ac34f695 SHA1: 218fe82cee250a50809f808efcfee69efbacd33b SHA256: 9e640b06bbbe4360f07cf18e3643b2e69233f73c4fa47dae41f2e3a3e5d5e84e Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Query Tool to query results from a database High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the Query Tool to retrieve results from a database. Package: hipercontracer-query Source: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 411 Depends: hipercontracer-common, libuniversalimporter2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctdb2 (>= 2.2.6), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Recommends: hipercontracer-dbshell, hipercontracer-results, hipercontracer-viewer Suggests: hipercontracer Breaks: hipercontracer-query-tool (<< 2.2.6-1) Replaces: hipercontracer-query-tool Provides: hipercontracer-query-tool Filename: ppc64el/hipercontracer-query_2.2.6-1_ppc64el.deb Size: 215880 MD5sum: 7a448ecf0a699beba3a22dc98170deb4 SHA1: b70cb12c5ea44460a2fffce747b578e524aa757b SHA256: 717759970072bd907fa3d82f6c0fa5b6df6fbd199b3c525dcbe755d616c1f557 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Query Tool to query results from a database High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the Query Tool to retrieve results from a database. Package: hipercontracer-query Source: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 411 Depends: hipercontracer-common, libuniversalimporter2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctdb2 (>= 2.2.6), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Recommends: hipercontracer-dbshell, hipercontracer-results, hipercontracer-viewer Suggests: hipercontracer Breaks: hipercontracer-query-tool (<< 2.2.6-1) Replaces: hipercontracer-query-tool Provides: hipercontracer-query-tool Filename: arm64/hipercontracer-query_2.2.6-1_arm64.deb Size: 209556 MD5sum: 61fe32d186b0e3ccae2f256ed71ea0ef SHA1: 9a89f46cdee6d249b6c3ee20d9b9fc51bc1b5b53 SHA256: d88851b845c0112853ec57db932edce07166635067d50884187d581d382d1553 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Query Tool to query results from a database High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the Query Tool to retrieve results from a database. Package: hipercontracer-query Source: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 383 Depends: hipercontracer-common, libuniversalimporter2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctdb2 (>= 2.2.6), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Recommends: hipercontracer-dbshell, hipercontracer-results, hipercontracer-viewer Suggests: hipercontracer Breaks: hipercontracer-query-tool (<< 2.2.6-1) Replaces: hipercontracer-query-tool Provides: hipercontracer-query-tool Filename: amd64/hipercontracer-query_2.2.6-1_amd64.deb Size: 214068 MD5sum: a53d44bb5f35972491f9258516c43b64 SHA1: 27ed537d5ed3c9ff86cff81ac51a6e3da8cc79d7 SHA256: b3f83048c07f00d6d00e2cfe904991415469e796fe1d6bf557919e1d42b42eb2 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Query Tool to query results from a database High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the Query Tool to retrieve results from a database. Package: hipercontracer-results Source: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 481 Depends: hipercontracer-common, libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 4.2), libhpctio2 (>= 2.2.6), libssl3t64 (>= 3.0.0), libstdc++6 (>= 14) Recommends: hipercontracer-viewer Suggests: hipercontracer Breaks: hipercontracer-results-tool (<< 2.2.6-1) Replaces: hipercontracer-results-tool Provides: hipercontracer-results-tool Filename: s390x/hipercontracer-results_2.2.6-1_s390x.deb Size: 245712 MD5sum: e55e7f5d58dd3b1f6da09c69bd5b1a2f SHA1: 052f7b8c31b1c16f151c54ca797a13eb6418a62d SHA256: 38496cb8a524df11e6ee43e7c41cbcfaff1ffb4b2caabf8ba2a841c728a5d249 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Results Tool to process results files High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the Results Tool to process, merge, and convert result files. Package: hipercontracer-results Source: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 549 Depends: hipercontracer-common, libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libssl3t64 (>= 3.0.0), libstdc++6 (>= 14) Recommends: hipercontracer-viewer Suggests: hipercontracer Breaks: hipercontracer-results-tool (<< 2.2.6-1) Replaces: hipercontracer-results-tool Provides: hipercontracer-results-tool Filename: ppc64el/hipercontracer-results_2.2.6-1_ppc64el.deb Size: 254098 MD5sum: 8cb982a5934f2b779bcd70e98e43d884 SHA1: b18e8e1a0f303a8d0331f2c14713d25e1b76666d SHA256: e2b7d7e1c5295d7e679055e9dc3fc6e0a3c32b532854476542c83cb36cf7853d Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Results Tool to process results files High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the Results Tool to process, merge, and convert result files. Package: hipercontracer-results Source: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 549 Depends: hipercontracer-common, libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libssl3t64 (>= 3.0.0), libstdc++6 (>= 14) Recommends: hipercontracer-viewer Suggests: hipercontracer Breaks: hipercontracer-results-tool (<< 2.2.6-1) Replaces: hipercontracer-results-tool Provides: hipercontracer-results-tool Filename: arm64/hipercontracer-results_2.2.6-1_arm64.deb Size: 240238 MD5sum: 4b2a2f5570a719f854da9f42863e0927 SHA1: 6745761c0a670cd488918ab26536293b42d51d54 SHA256: 5083b2abf051316243f6bb14690505079ac130000142e68f2f2e4a6d45e840f0 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Results Tool to process results files High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the Results Tool to process, merge, and convert result files. Package: hipercontracer-results Source: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 493 Depends: hipercontracer-common, libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libssl3t64 (>= 3.0.0), libstdc++6 (>= 14) Recommends: hipercontracer-viewer Suggests: hipercontracer Breaks: hipercontracer-results-tool (<< 2.2.6-1) Replaces: hipercontracer-results-tool Provides: hipercontracer-results-tool Filename: amd64/hipercontracer-results_2.2.6-1_amd64.deb Size: 247510 MD5sum: 619297a66f2d461732cdd995bfcb84dd SHA1: 47d0f6f0543fad75bd09a13c6e7fdaa26b892410 SHA256: 3eaa44b1fa77bcbfb961080ac8a2a0244c566b9a0cb3ee6dda69e81af6c28f58 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Results Tool to process results files High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the Results Tool to process, merge, and convert result files. Package: hipercontracer-rtunnel Source: hipercontracer Version: 2.2.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 166 Depends: hipercontracer-common, hipercontracer-sync, openssh-server Filename: all/hipercontracer-rtunnel_2.2.6-1_all.deb Size: 139652 MD5sum: cd4858dc17a105681db66a1a63afab6c SHA1: 32eaa04aed06cad41cfae5d5184e49f2825de042 SHA256: 124dc4d65764230cffc1263112937100082fc8334b33f3e1d8826ddb5e991eb5 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Reverse Tunnel Tool for reverse SSH tunnel setup High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the tool to maintain a reverse SSH tunnel for remote node maintenance. Package: hipercontracer-sync Source: hipercontracer Version: 2.2.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 173 Depends: hipercontracer-common, openssh-client, rsync Recommends: hipercontracer-results Suggests: hipercontracer Breaks: hipercontracer-sync-tool (<< 2.2.6-1) Replaces: hipercontracer-sync-tool Provides: hipercontracer-sync-tool Filename: all/hipercontracer-sync_2.2.6-1_all.deb Size: 139864 MD5sum: 586d225b34d925ae363eb2bc55829896 SHA1: 09574192da28827a45a1e3db906c94f9e08ae5d6 SHA256: 3882f38cf12735404547302d5408e59cf904f46d75166b2a353d3c4c7f0f8b5d Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Sync Tool to synchronise results files to a server High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the HiPerConTracer Sync Tool for running RSync synchronisation of data to a central HiPerConTracer Collector server. Package: hipercontracer-trigger Source: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 522 Depends: hipercontracer-common, libhipercontracer2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 4.2), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Recommends: hipercontracer Filename: s390x/hipercontracer-trigger_2.2.6-1_s390x.deb Size: 244766 MD5sum: 9be41b30cbcf42cf271377a5c5675f09 SHA1: c3c66c7204f5189d300fed74743eea3b323e69ea SHA256: 2edc0503cd708207aa6524acf2d58f2b580d3d6d0424718b5036ae14d1bddb74 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Triggered HiPerConTracer service High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the tool to trigger measurements via incoming "Ping" packets. Package: hipercontracer-trigger Source: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 622 Depends: hipercontracer-common, libhipercontracer2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Recommends: hipercontracer Filename: ppc64el/hipercontracer-trigger_2.2.6-1_ppc64el.deb Size: 253350 MD5sum: 535bf751ab014de74212c39576c201d0 SHA1: 0d586df8515f2934c9ee8f7ab763f48bba1838f5 SHA256: f414f23404cbd3a5f33956028cef7161481cee373709c500f830d9d1d10e62cb Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Triggered HiPerConTracer service High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the tool to trigger measurements via incoming "Ping" packets. Package: hipercontracer-trigger Source: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 558 Depends: hipercontracer-common, libhipercontracer2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Recommends: hipercontracer Filename: arm64/hipercontracer-trigger_2.2.6-1_arm64.deb Size: 240428 MD5sum: 8e8afec6605d31eea77ca802e2a3ef1f SHA1: c60c64e84fae6bcd4619c3c5ab6b9d9c95719aba SHA256: 4d1f8647ba4c8c59092924d84b69eedcc490882679a7aa8dd97a2b1980bf3308 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Triggered HiPerConTracer service High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the tool to trigger measurements via incoming "Ping" packets. Package: hipercontracer-trigger Source: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 526 Depends: hipercontracer-common, libhipercontracer2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Recommends: hipercontracer Filename: amd64/hipercontracer-trigger_2.2.6-1_amd64.deb Size: 245710 MD5sum: f9277faf5a997bc7c79752fbc46e40b9 SHA1: 5e4950e1117e1227de8f20f83742e904e6859eef SHA256: 954499fca8c96ef5ac55711bf4d98c47da3396019be929f4235a00471fc71291 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Triggered HiPerConTracer service High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the tool to trigger measurements via incoming "Ping" packets. Package: hipercontracer-udp-echo-server Source: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 508 Depends: libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libboost-thread1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 4.2), libstdc++6 (>= 14) Suggests: hipercontracer Filename: s390x/hipercontracer-udp-echo-server_2.2.6-1_s390x.deb Size: 248682 MD5sum: 2c29add65212eaf52dec060cd878d927 SHA1: c01423350abb0658e72a7319e8823fdbc39a7477 SHA256: 818fb83330f43b3345e52a91e7f84a4f57f583d3001908a0926bf2e0d52d6de1 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer UDP Echo server for responding to UDP Pings High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains a simple UDP Echo server to respond to UDP Pings. Package: hipercontracer-udp-echo-server Source: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 616 Depends: libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libboost-thread1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 14) Suggests: hipercontracer Filename: ppc64el/hipercontracer-udp-echo-server_2.2.6-1_ppc64el.deb Size: 255192 MD5sum: ca418753b41ff09d69c321b4fc512f71 SHA1: 651d184d2f088fcfef20a7eebb367410ee5624c5 SHA256: dce84e581df25e7b23dcdc56ce1002e46a76950d85013c308d021f5bb40bf467 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer UDP Echo server for responding to UDP Pings High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains a simple UDP Echo server to respond to UDP Pings. Package: hipercontracer-udp-echo-server Source: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 552 Depends: libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libboost-thread1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 14) Suggests: hipercontracer Filename: arm64/hipercontracer-udp-echo-server_2.2.6-1_arm64.deb Size: 244930 MD5sum: aa96c522118127f7e3bbd1698e3d146b SHA1: 09a15359060b00f3101f38c0ec399fe41634e6f3 SHA256: e942747d28993392fa1692a1feae7bbb5cf5a44489b70c5e4b7b623348c764b2 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer UDP Echo server for responding to UDP Pings High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains a simple UDP Echo server to respond to UDP Pings. Package: hipercontracer-udp-echo-server Source: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 512 Depends: libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libboost-thread1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 14) Suggests: hipercontracer Filename: amd64/hipercontracer-udp-echo-server_2.2.6-1_amd64.deb Size: 249218 MD5sum: b4c3f9afdac1d29f62b5b08ff173ccff SHA1: 8c6d8f838f226fe202b0a4db27f84ca5d8890002 SHA256: 024ee431db51982c4c57695bbf3b623980052e26c80196152ca3a58485f0bca6 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer UDP Echo server for responding to UDP Pings High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains a simple UDP Echo server to respond to UDP Pings. Package: hipercontracer-viewer Source: hipercontracer Version: 2.2.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 161 Depends: bzip2, hipercontracer-common, less, xz-utils, zstd Recommends: hipercontracer-results, tree Suggests: hipercontracer Breaks: hipercontracer-viewer-tool (<< 2.2.6-1) Replaces: hipercontracer-viewer-tool Provides: hipercontracer-viewer-tool Filename: all/hipercontracer-viewer_2.2.6-1_all.deb Size: 139558 MD5sum: a300de17197d3073c4522ef9440e66dc SHA1: 39406d5c78ec4e6c02e053d3bcdaa03f5e2d7cf3 SHA256: 2e3f090770cc694a2ed792afe4c609674d3fd99eafc45f41d7f68344a1fd6cdf Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: HiPerConTracer Viewer Tool to display results files High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package contains the Viewer Tool to display results files. Package: ietf2bibtex Source: bibtexconv Version: 2.2.3-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 107 Depends: bibtexconv (>= 2.2.3-1), python3 (>= 3.9), python3-urllib3 Filename: all/ietf2bibtex_2.2.3-1_all.deb Size: 70034 MD5sum: 99ad01bf6161254f5a1512faa6409aee SHA1: 250dd2001c8ede5727b6337b8a29a3410dd25e62 SHA256: 42f16e9e9f2ea47bd57026ea03052e81ef7330660649f49903727507030a0390 Section: tex Priority: optional Homepage: https://www.nntb.no/~dreibh/bibtexconv/ Description: Create BibTeX entry for IETF document (RFC or Internet Draft) ietf2bibtex creates a BibTeX entry for an IETF document (i.e. RFC or Internet Draft). The necessary information is automatically obtained from online XML references and the actual document. Package: kfractgen Source: fractgen Version: 3.0.12-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 225 Depends: fractgen-common (>= 3.0.12-1), libc6 (>= 2.34), libgcc-s1 (>= 4.0), libkf6widgetsaddons6 (>= 6.0.0), libkf6xmlgui6 (>= 6.0.0), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6printsupport6 (>= 6.1.2), libqt6widgets6 (>= 6.3.0), libqt6xml6 (>= 6.6.0), libstdc++6 (>= 13.1) Recommends: fractgen-examples (>= 3.0.12-1), qt6-image-formats-plugins, rsplib-tools Filename: s390x/kfractgen_3.0.12-1_s390x.deb Size: 87264 MD5sum: 7a4bcaf72af0addb152e102ad3504b68 SHA1: e1bb7662695d85701dfcd9cec2737df9a860dd6a SHA256: cadd8808f13afadf1042f7bd018cd554e74d1c2076085fcfd007810c53cf55d7 Section: graphics Priority: optional Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Fractal images calculation application (KDE version) FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This is the KDE version of FractGen. Package: kfractgen Source: fractgen Version: 3.0.12-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 313 Depends: fractgen-common (>= 3.0.12-1), libc6 (>= 2.34), libgcc-s1 (>= 4.0), libkf6widgetsaddons6 (>= 6.0.0), libkf6xmlgui6 (>= 6.0.0), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6printsupport6 (>= 6.1.2), libqt6widgets6 (>= 6.3.0), libqt6xml6 (>= 6.6.0), libstdc++6 (>= 13.1) Recommends: fractgen-examples (>= 3.0.12-1), qt6-image-formats-plugins, rsplib-tools Filename: ppc64el/kfractgen_3.0.12-1_ppc64el.deb Size: 89752 MD5sum: 93a9afce941910df312ad19e3e561d0c SHA1: 9fba0941ae5acd67ac6335dbb91eae92fc403309 SHA256: cd381bc4bd85857e22fe68fdf36b7a5b459606404c977fb5a9daf3cec1247299 Section: graphics Priority: optional Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Fractal images calculation application (KDE version) FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This is the KDE version of FractGen. Package: kfractgen Source: fractgen Version: 3.0.12-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 249 Depends: fractgen-common (>= 3.0.12-1), libc6 (>= 2.34), libgcc-s1 (>= 4.0), libkf6widgetsaddons6 (>= 6.0.0), libkf6xmlgui6 (>= 6.0.0), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6printsupport6 (>= 6.1.2), libqt6widgets6 (>= 6.3.0), libqt6xml6 (>= 6.6.0), libstdc++6 (>= 13.1) Recommends: fractgen-examples (>= 3.0.12-1), qt6-image-formats-plugins, rsplib-tools Filename: arm64/kfractgen_3.0.12-1_arm64.deb Size: 83562 MD5sum: edc22647c085cb9e2d0ee2a6dc51be31 SHA1: 9efc8ebd3933009eee57a96422c71aeed688e85a SHA256: 7a4ede72e094c5e0e4ea45269ec90c2348c23ca85deb6dec33ce2b3503031ed5 Section: graphics Priority: optional Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Fractal images calculation application (KDE version) FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This is the KDE version of FractGen. Package: kfractgen Source: fractgen Version: 3.0.12-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 221 Depends: fractgen-common (>= 3.0.12-1), libc6 (>= 2.34), libgcc-s1 (>= 4.0), libkf6widgetsaddons6 (>= 6.0.0), libkf6xmlgui6 (>= 6.0.0), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6printsupport6 (>= 6.1.2), libqt6widgets6 (>= 6.3.0), libqt6xml6 (>= 6.6.0), libstdc++6 (>= 13.1) Recommends: fractgen-examples (>= 3.0.12-1), qt6-image-formats-plugins, rsplib-tools Filename: amd64/kfractgen_3.0.12-1_amd64.deb Size: 84720 MD5sum: a4e9c247328cd76b2284242271df0aa7 SHA1: 59228505e81f5c722de91d59beaf627c0cae23ad SHA256: 7238a6514f1d2dfba8e257ae198f50391270f1e674707a91594aa96401158908 Section: graphics Priority: optional Homepage: https://www.nntb.no/~dreibh/fractalgenerator/ Description: Fractal images calculation application (KDE version) FractGen is a simple Qt-based fractal generator program for Mandelbrot fractals. The image size is only limited by virtual memory. It is possible to zoom into images. Image parameters are saved in and loaded from XML-encoded FractGen Settings Files (FSF). Calculated images can be exported as graphics files. . The intention of this program is to generate graphics to be post-processed by other image tools, e.g. in order to generate nice screen backgrounds or book covers. . This is the KDE version of FractGen. Package: libcpprspserver-dev Source: rsplib Version: 3.5.10-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 210 Depends: libcpprspserver3t64 (= 3.5.10-1), librsplib-dev (>= 3.5.10-1) Recommends: rsplib-doc (>= 3.5.10-1) Filename: s390x/libcpprspserver-dev_3.5.10-1_s390x.deb Size: 141456 MD5sum: b7221e1cdd1d3f89a083f949379fe101 SHA1: 9e18b7c745fc32a00cebf8b8a9c06c1f973a3225 SHA256: f7696a69ae9c095972682bb02df60b01859fc6650ee0ef2735ebb9fc4adc4b06 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: headers of the C++ RSerPool client/server API library Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the header files for the rsplib C++ API. You need them to develop your own RSerPool-based clients and servers based on the C++ API. Package: libcpprspserver-dev Source: rsplib Version: 3.5.10-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 228 Depends: libcpprspserver3t64 (= 3.5.10-1), librsplib-dev (>= 3.5.10-1) Recommends: rsplib-doc (>= 3.5.10-1) Filename: ppc64el/libcpprspserver-dev_3.5.10-1_ppc64el.deb Size: 143992 MD5sum: 12f28e657cb8bea64a0c282b8d4484e8 SHA1: 637d38350044cc5323ccfbadbae11b1b88a10445 SHA256: 705a265ecb072ef18a8c9a5877bd527104c0ccb85ecfdbde911715deecba6078 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: headers of the C++ RSerPool client/server API library Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the header files for the rsplib C++ API. You need them to develop your own RSerPool-based clients and servers based on the C++ API. Package: libcpprspserver-dev Source: rsplib Version: 3.5.10-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 213 Depends: libcpprspserver3t64 (= 3.5.10-1), librsplib-dev (>= 3.5.10-1) Recommends: rsplib-doc (>= 3.5.10-1) Filename: arm64/libcpprspserver-dev_3.5.10-1_arm64.deb Size: 140966 MD5sum: 2ba72f9a7008c5d015c7902f2d0798f1 SHA1: d744fee675def1894728bdf021bc65395fab5ae5 SHA256: b0323ab38aa075886e351f3a76d03d92119c3f646ca6b337eff632116cdcbded Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: headers of the C++ RSerPool client/server API library Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the header files for the rsplib C++ API. You need them to develop your own RSerPool-based clients and servers based on the C++ API. Package: libcpprspserver-dev Source: rsplib Version: 3.5.10-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 214 Depends: libcpprspserver3t64 (= 3.5.10-1), librsplib-dev (>= 3.5.10-1) Recommends: rsplib-doc (>= 3.5.10-1) Filename: amd64/libcpprspserver-dev_3.5.10-1_amd64.deb Size: 141486 MD5sum: 08f9b163d4c69339eca3bf5e8e8188f1 SHA1: 26dc8f226a6348433b742c06fe4c5f39b1dd60e4 SHA256: 462b168b465ce8feae8c8ddc3d915bd5df8713659ae8f3b1fb4931edf22e5a44 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: headers of the C++ RSerPool client/server API library Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the header files for the rsplib C++ API. You need them to develop your own RSerPool-based clients and servers based on the C++ API. Package: libcpprspserver3t64 Source: rsplib Version: 3.5.10-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 189 Depends: librsplib3t64 (= 3.5.10-1), libc6 (>= 2.34), libgcc-s1 (>= 4.2), libstdc++6 (>= 5) Breaks: libcpprspserver3 (<< 3.5.10-1) Replaces: libcpprspserver3 Provides: libcpprspserver3 (= 3.5.10-1) Filename: s390x/libcpprspserver3t64_3.5.10-1_s390x.deb Size: 140788 MD5sum: 456bb34e3cfd2d91d6d3993ace5ec4d7 SHA1: 0dc82d85373969f68137c4b90e15aa077442a78c SHA256: 224231fc239233749f016a8ddbe66cc3983f2018d5695f4dd7e0d037e140f08c Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: C++ RSerPool client/server API library Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides an object-oriented API for the rsplib library. Package: libcpprspserver3t64 Source: rsplib Version: 3.5.10-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 277 Depends: librsplib3t64 (= 3.5.10-1), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 5) Breaks: libcpprspserver3 (<< 3.5.10-1) Replaces: libcpprspserver3 Provides: libcpprspserver3 (= 3.5.10-1) Filename: ppc64el/libcpprspserver3t64_3.5.10-1_ppc64el.deb Size: 142090 MD5sum: 0c08e02a0482168d08f5ce10241044b3 SHA1: 714823f2491322b757bc7b2edfe308bc9db5f0c5 SHA256: dc548daca03803e9202493db060d1b516153029c0e107c600d84e57345ba7d42 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: C++ RSerPool client/server API library Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides an object-oriented API for the rsplib library. Package: libcpprspserver3t64 Source: rsplib Version: 3.5.10-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 277 Depends: librsplib3t64 (= 3.5.10-1), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 5) Breaks: libcpprspserver3 (<< 3.5.10-1) Replaces: libcpprspserver3 Provides: libcpprspserver3 (= 3.5.10-1) Filename: arm64/libcpprspserver3t64_3.5.10-1_arm64.deb Size: 139854 MD5sum: 010814364f980d364b27404771242d0c SHA1: 357501b2f81bc87915b503dc517d596b88732074 SHA256: 3b0b1372da320dcd3746c6546025a06537a15c12c05adf22a619af9828f6b496 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: C++ RSerPool client/server API library Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides an object-oriented API for the rsplib library. Package: libcpprspserver3t64 Source: rsplib Version: 3.5.10-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 197 Depends: librsplib3t64 (= 3.5.10-1), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 5) Breaks: libcpprspserver3 (<< 3.5.10-1) Replaces: libcpprspserver3 Provides: libcpprspserver3 (= 3.5.10-1) Filename: amd64/libcpprspserver3t64_3.5.10-1_amd64.deb Size: 140728 MD5sum: 2d23194f05c3dcb2898aa97a745b4037 SHA1: aa8c6349a8ec365bacfe4a682046acaccb534227 SHA256: 0d9553a478d6c22354cbbd035ac9de4dabc10820fb2c7034f5c391b281911572 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: C++ RSerPool client/server API library Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides an object-oriented API for the rsplib library. Package: libexamplelibrary-dev Source: td-build-tools-template Version: 0.1.3-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 25 Depends: libexamplelibrary0 (= 0.1.3-1) Filename: s390x/libexamplelibrary-dev_0.1.3-1_s390x.deb Size: 8892 MD5sum: 2748c5203678511256dae5944d17c625 SHA1: 6bc36733a2fbe4fa23fdbdb0281486b4ff1d8b32 SHA256: 0aa41998c9953e403cf51465f56b79f0aa944cf668509ddd4327963e3f48f8da Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Development files for example library This is a simple example library to be build and packaged by Build Tool. . This package provides header files for the library. Package: libexamplelibrary-dev Source: td-build-tools-template Version: 0.1.3-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 26 Depends: libexamplelibrary0 (= 0.1.3-1) Filename: ppc64el/libexamplelibrary-dev_0.1.3-1_ppc64el.deb Size: 9062 MD5sum: 51c2ec27cdc74ad5702de053435fd0d1 SHA1: c4c4dc08a54ea5d4a1e5b0bbaad21b1c8e1eac82 SHA256: f157edd9169c5c0bd50bac911f15eac335575660587f9a851fe4ba6d5d510fcd Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Development files for example library This is a simple example library to be build and packaged by Build Tool. . This package provides header files for the library. Package: libexamplelibrary-dev Source: td-build-tools-template Version: 0.1.3-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 26 Depends: libexamplelibrary0 (= 0.1.3-1) Filename: arm64/libexamplelibrary-dev_0.1.3-1_arm64.deb Size: 9010 MD5sum: 5b439cdbd9015cbe444b421dd431c261 SHA1: f7528fd850b65507ba5d1325ffab8174d9c4fab4 SHA256: df1a8bdf6f3c8fec19dc70e1ade0e0228bac763d406ac07c7a391265bfb08286 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Development files for example library This is a simple example library to be build and packaged by Build Tool. . This package provides header files for the library. Package: libexamplelibrary-dev Source: td-build-tools-template Version: 0.1.3-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 25 Depends: libexamplelibrary0 (= 0.1.3-1) Filename: amd64/libexamplelibrary-dev_0.1.3-1_amd64.deb Size: 8950 MD5sum: 941993e4ba83053b94e76d467a260b8a SHA1: 475e9432481b2e210147500b38c03df400395fd6 SHA256: 5a1bd8b5a3baca0f0e330d7fb6226305bba03fbfae87c4d4710024bbf16d20bc Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Development files for example library This is a simple example library to be build and packaged by Build Tool. . This package provides header files for the library. Package: libexamplelibrary0 Source: td-build-tools-template Version: 0.1.3-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 28 Depends: libc6 (>= 2.2), libstdc++6 (>= 13.1) Filename: s390x/libexamplelibrary0_0.1.3-1_s390x.deb Size: 9860 MD5sum: 97924adc68c356a2b809480892705dd3 SHA1: d5fa61eea3fb008f3c13f1b50d75a4eb32931584 SHA256: cd975863179f14669c0c8b6a1ab97cd891766ff3a7b509719f67b9a0d36ef86d Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Example library This is a simple example library to be build and packaged by Build Tool. . The example library is provided by this package. Package: libexamplelibrary0 Source: td-build-tools-template Version: 0.1.3-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 88 Depends: libc6 (>= 2.17), libstdc++6 (>= 13.1) Filename: ppc64el/libexamplelibrary0_0.1.3-1_ppc64el.deb Size: 10024 MD5sum: 991baf8f5d47b1200f78bda64e76ef95 SHA1: 63384ff6d4730e9145cae6c7ff1989bf0ff138f7 SHA256: e0dda82a74dcfc85ef3ceec22e84eb4930ca62f9ab4c5162ec9f2ef0e8d6184b Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Example library This is a simple example library to be build and packaged by Build Tool. . The example library is provided by this package. Package: libexamplelibrary0 Source: td-build-tools-template Version: 0.1.3-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 89 Depends: libc6 (>= 2.17), libstdc++6 (>= 13.1) Filename: arm64/libexamplelibrary0_0.1.3-1_arm64.deb Size: 10040 MD5sum: c1630fc71380a7307b577d1a65395efa SHA1: 908b0c980101b0e9deabe142aaa8805576e52a43 SHA256: 70efe47cca5fb9f1c86372c3c27eb5a78a2916c0ff4d6d4d309a220cd1230661 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Example library This is a simple example library to be build and packaged by Build Tool. . The example library is provided by this package. Package: libexamplelibrary0 Source: td-build-tools-template Version: 0.1.3-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 37 Depends: libc6 (>= 2.2.5), libstdc++6 (>= 13.1) Filename: amd64/libexamplelibrary0_0.1.3-1_amd64.deb Size: 9982 MD5sum: 575071ec5f743f0897b2180bb0d56688 SHA1: d2abe99283678e8c408c49d7a49f2ad6fbbb8137 SHA256: fe3a0212c7d4bb3f45d7bdf048a41f73be109c76d0b3d1ce6b7158de546d1d3f Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Example library This is a simple example library to be build and packaged by Build Tool. . The example library is provided by this package. Package: libhipercontracer-dev Source: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 3555 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhipercontracer2 (= 2.2.6-1), libhpctio-dev (>= 2.2.6-1) Filename: s390x/libhipercontracer-dev_2.2.6-1_s390x.deb Size: 477860 MD5sum: 50c98a0ca8e89e346e97212dc94b62a7 SHA1: 18c09fa09d37920f2fb5ac6e10e11f5c37622e22 SHA256: 9f86e092220dc4895a391e033da8d478e7e4dd06d409b9026175d03be6127d1f Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for HiPerConTracer API library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the HiPerConTracer library. You need them to integrate HiPerConTracer into your own programs. Package: libhipercontracer-dev Source: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 3860 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhipercontracer2 (= 2.2.6-1), libhpctio-dev (>= 2.2.6-1) Filename: ppc64el/libhipercontracer-dev_2.2.6-1_ppc64el.deb Size: 503752 MD5sum: d8156919ea938734d850990f513972f3 SHA1: e97cd4ff7690c6cbeda6615736978842a6cfa436 SHA256: 8262da71c451f874703b7717ad50f3ffaba0214a9dcde7d9315f40739ddd3ebc Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for HiPerConTracer API library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the HiPerConTracer library. You need them to integrate HiPerConTracer into your own programs. Package: libhipercontracer-dev Source: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 3851 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhipercontracer2 (= 2.2.6-1), libhpctio-dev (>= 2.2.6-1) Filename: arm64/libhipercontracer-dev_2.2.6-1_arm64.deb Size: 487944 MD5sum: d4340d2c4c74bf1cc1a8fd7389e6327c SHA1: 0a1c8d1347a16fc9282ab6d85d8516cec41914b6 SHA256: d2157f653abaf684049edf7ffc576453a498352188eef2e38e0021ae62a4462b Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for HiPerConTracer API library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the HiPerConTracer library. You need them to integrate HiPerConTracer into your own programs. Package: libhipercontracer-dev Source: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 3568 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhipercontracer2 (= 2.2.6-1), libhpctio-dev (>= 2.2.6-1) Filename: amd64/libhipercontracer-dev_2.2.6-1_amd64.deb Size: 471400 MD5sum: 3435d4b1bc80edaef7c4786713dc2bec SHA1: aa675d6cfacc9a2c2a59cde0226441b9c66c9e23 SHA256: 1ab9dc921d22e50413f8f7625fbc0a178d464a7397d7fcb75eeb9f70aa41f515 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for HiPerConTracer API library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the HiPerConTracer library. You need them to integrate HiPerConTracer into your own programs. Package: libhipercontracer2 Source: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 586 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 14) Filename: s390x/libhipercontracer2_2.2.6-1_s390x.deb Size: 283638 MD5sum: 1fdaaaa5aee3c6db28d857b1ab498596 SHA1: 499b2cb50805fb8c226c2fce2ce99d97f0aee7d3 SHA256: 7734c14cedc42b3bd6c2fa40691af18dd7e82d44fc5bd9f8b8182bde362a6e8f Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: API library of HiPerConTracer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the HiPerConTracer API library. Package: libhipercontracer2 Source: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 726 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 14) Filename: ppc64el/libhipercontracer2_2.2.6-1_ppc64el.deb Size: 301118 MD5sum: 8d1d2a77ab0586b1b4d9dff8b9efeffc SHA1: 8780f8ccee8c6dabd33fff9cac007fa8399cb48f SHA256: 40fdda7395db5cdff225a3f42316a1831124581dc006c7cb219f505e22ebd98b Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: API library of HiPerConTracer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the HiPerConTracer API library. Package: libhipercontracer2 Source: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 599 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 14) Filename: arm64/libhipercontracer2_2.2.6-1_arm64.deb Size: 277588 MD5sum: f72fdfe374be677bd538a3056e79d413 SHA1: f2330abd278d8507b7563924930946e4ed79d171 SHA256: 2b1c394b38d65f6966ae719eccba1ba091c35362ae9e2c451278d8ee7678b35d Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: API library of HiPerConTracer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the HiPerConTracer API library. Package: libhipercontracer2 Source: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 590 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 14) Filename: amd64/libhipercontracer2_2.2.6-1_amd64.deb Size: 283190 MD5sum: 4835c97a5d3675ee5bf3f70cbd1ee31e SHA1: dc13e71ac2783282cbe3fe60316159ea167eec56 SHA256: df065d62986c8ff6a1ef524a773b547baa9ffc30fe68a777272636416fc6353e Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: API library of HiPerConTracer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the HiPerConTracer API library. Package: libhpctdb-dev Source: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 19910 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhpctdb2 (= 2.2.6-1), libhpctio-dev (>= 2.2.6-1) Breaks: libhipercontracer-dev (<< 2.2.6-1), libhpctio-dev (<< 2.2.2), libuniversalimporter-dev (<< 2.2.6-1) Replaces: libhipercontracer-dev (<< 2.1.12-1), libhpctio-dev (<< 2.2.2) Filename: s390x/libhpctdb-dev_2.2.6-1_s390x.deb Size: 4590790 MD5sum: bce9ff18ec7d8782a75c4c8929c51c1e SHA1: bbfd4862ca868d64bbf4840761c2e4a699097174 SHA256: e587767a15a35315a4c5dff7dfc23cb0fcc344973f66fe5cac7f97b5c21956ac Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for the HiPerConTracer database access library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the HiPerConTracer database access library. Package: libhpctdb-dev Source: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 1164 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhpctdb2 (= 2.2.6-1), libhpctio-dev (>= 2.2.6-1) Breaks: libhipercontracer-dev (<< 2.2.6-1), libhpctio-dev (<< 2.2.2), libuniversalimporter-dev (<< 2.2.6-1) Replaces: libhipercontracer-dev (<< 2.1.12-1), libhpctio-dev (<< 2.2.2) Filename: ppc64el/libhpctdb-dev_2.2.6-1_ppc64el.deb Size: 272948 MD5sum: ee34bc5f907748873f37ac34e4efe101 SHA1: 5bc39f2ccf315fbeff8c2d18ce0a462b82b709e6 SHA256: 733b30dfd4caca23f1950112405889b762173ab9bf19e926bcfa0971095c6fe2 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for the HiPerConTracer database access library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the HiPerConTracer database access library. Package: libhpctdb-dev Source: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 20014 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhpctdb2 (= 2.2.6-1), libhpctio-dev (>= 2.2.6-1) Breaks: libhipercontracer-dev (<< 2.2.6-1), libhpctio-dev (<< 2.2.2), libuniversalimporter-dev (<< 2.2.6-1) Replaces: libhipercontracer-dev (<< 2.1.12-1), libhpctio-dev (<< 2.2.2) Filename: arm64/libhpctdb-dev_2.2.6-1_arm64.deb Size: 4608772 MD5sum: 53b7ee8de939a5a0ba2f94542876f92c SHA1: bfebbf9e12c6f6b463fcfa74dc4ae905651c43ed SHA256: 7fa3c2a1a39c686072ca495d7d813046fbb43267442cf6d5ff9bd433e549d3a3 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for the HiPerConTracer database access library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the HiPerConTracer database access library. Package: libhpctdb-dev Source: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 20034 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhpctdb2 (= 2.2.6-1), libhpctio-dev (>= 2.2.6-1) Breaks: libhipercontracer-dev (<< 2.2.6-1), libhpctio-dev (<< 2.2.2), libuniversalimporter-dev (<< 2.2.6-1) Replaces: libhipercontracer-dev (<< 2.1.12-1), libhpctio-dev (<< 2.2.2) Filename: amd64/libhpctdb-dev_2.2.6-1_amd64.deb Size: 4666108 MD5sum: 90df8222aad60e9445813d33579c8efa SHA1: 78ffc88b8d805efc661dea555df5900ac66e2cba SHA256: 91c025908a154bb026a91ef883a3fb2733e357afddf2d6d0a4861e8cea91220a Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for the HiPerConTracer database access library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the HiPerConTracer database access library. Package: libhpctdb2 Source: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 359 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libbson2-2 (>= 2.2.2), libc6 (>= 2.38), libgcc-s1 (>= 4.2), libmariadb3 (>= 3.0.0), libmongoc2-2 (>= 2.2.2), libpqxx-7.10 (>= 7.10.0), libstdc++6 (>= 14) Filename: s390x/libhpctdb2_2.2.6-1_s390x.deb Size: 201622 MD5sum: 2a27f98ebd92de5f4e1386cd3adc43c3 SHA1: 0dc5b62e64c1744c7f8775e3d71412b9a6e2bea0 SHA256: 67a87e1edd7628b44eb42cab79a526e140d63074529d1ddf44667233389d4c3a Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Database access library of HiPerConTracer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the database access library shared by HiPerConTracer components. Package: libhpctdb2 Source: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 411 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libbson2-2 (>= 2.2.2), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libmariadb3 (>= 3.0.0), libmongoc2-2 (>= 2.2.2), libpqxx-7.10 (>= 7.10.0), libstdc++6 (>= 14) Filename: ppc64el/libhpctdb2_2.2.6-1_ppc64el.deb Size: 207448 MD5sum: b40b55542b61396805baa1de0391123f SHA1: dc1ff91aa7a9cee1a81220efae22dff841bd636b SHA256: dd66faabb4c086e392309b2e5b46dfb5c4180e0f48ca013642700bec3c37130f Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Database access library of HiPerConTracer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the database access library shared by HiPerConTracer components. Package: libhpctdb2 Source: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 411 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libbson2-2 (>= 2.2.2), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libmariadb3 (>= 3.0.0), libmongoc2-2 (>= 2.2.2), libpqxx-7.10 (>= 7.10.0), libstdc++6 (>= 14) Filename: arm64/libhpctdb2_2.2.6-1_arm64.deb Size: 199220 MD5sum: a2ae02da42c7c7433812da38af975d92 SHA1: 1084d86f72c9737923f7f06636941c40097c27a0 SHA256: e6f890f6bcd017918026cb0c113cfce36b4ab97997113021a5dc9ee6fa2fee38 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Database access library of HiPerConTracer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the database access library shared by HiPerConTracer components. Package: libhpctdb2 Source: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 367 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libbson2-2 (>= 2.2.2), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libmariadb3 (>= 3.0.0), libmongoc2-2 (>= 2.2.2), libpqxx-7.10 (>= 7.10.0), libstdc++6 (>= 14) Filename: amd64/libhpctdb2_2.2.6-1_amd64.deb Size: 203516 MD5sum: efdb4ef053f5ad43255aa67ca778fa3c SHA1: 3efb351e80449ef9c9bc7a90b2291a8cd4ff7a55 SHA256: 0d6f11784dd7facd4ba824b9ac38587fea36c3f539af55d646d6124ecbaa8b90 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Database access library of HiPerConTracer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the database access library shared by HiPerConTracer components. Package: libhpctio-dev Source: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 2012 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhpctio2 (= 2.2.6-1) Breaks: libhipercontracer-dev (<< 2.2.6-1), libuniversalimporter-dev (<< 2.2.6-1) Replaces: libhipercontracer-dev (<< 2.1.12-1) Filename: s390x/libhpctio-dev_2.2.6-1_s390x.deb Size: 339702 MD5sum: 3d8adff5cd348d7fe9f3324e46367ef5 SHA1: 5ee00fa5c903fdf211b60c929e5975e88ddd5691 SHA256: bf1c87e58f1ddf9dc9a14a1d88d1291f07f534fb62b1e4acb1cb44b20935c04b Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for the HiPerConTracer I/O library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the HiPerConTracer I/O library. Package: libhpctio-dev Source: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 2161 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhpctio2 (= 2.2.6-1) Breaks: libhipercontracer-dev (<< 2.2.6-1), libuniversalimporter-dev (<< 2.2.6-1) Replaces: libhipercontracer-dev (<< 2.1.12-1) Filename: ppc64el/libhpctio-dev_2.2.6-1_ppc64el.deb Size: 356590 MD5sum: 33d3a2891f4938ef226daae5f88e40fc SHA1: 054e475d2e0913a3c8f101f5c2d9d60800088b08 SHA256: 26049026288e38131ef7da078004606c52ad4ed71b4c8dc485f56c454ea0c72b Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for the HiPerConTracer I/O library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the HiPerConTracer I/O library. Package: libhpctio-dev Source: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 2168 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhpctio2 (= 2.2.6-1) Breaks: libhipercontracer-dev (<< 2.2.6-1), libuniversalimporter-dev (<< 2.2.6-1) Replaces: libhipercontracer-dev (<< 2.1.12-1) Filename: arm64/libhpctio-dev_2.2.6-1_arm64.deb Size: 346098 MD5sum: 3cd5f371d10ca54d4d8a18412e58edcb SHA1: fe1651a7099de358e017e3479102a8db95bad378 SHA256: e1bb6f92760d960e11254442eafe59ad11bd980fb73de2719042898b36916ceb Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for the HiPerConTracer I/O library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the HiPerConTracer I/O library. Package: libhpctio-dev Source: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 2014 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhpctio2 (= 2.2.6-1) Breaks: libhipercontracer-dev (<< 2.2.6-1), libuniversalimporter-dev (<< 2.2.6-1) Replaces: libhipercontracer-dev (<< 2.1.12-1) Filename: amd64/libhpctio-dev_2.2.6-1_amd64.deb Size: 341210 MD5sum: e76d3bf97da300d5e26dc2588c7152bd SHA1: 9543c7ea23d43ac3f18e97a4b437654ff9044584 SHA256: b7e11d09180de93cac924bd44bc3983e3283a937bdf8ef68a6ea2eb0ed64bb4e Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for the HiPerConTracer I/O library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the HiPerConTracer I/O library. Package: libhpctio2 Source: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 726 Depends: libboost-iostreams1.90.0 (>= 1.90.0), libboost-log1.90.0 (>= 1.90.0), libboost-thread1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 4.2), libstdc++6 (>= 14) Filename: s390x/libhpctio2_2.2.6-1_s390x.deb Size: 286560 MD5sum: 38ffd65f8317e81d3065c6e3a679c203 SHA1: 9567b6d533388edc4ebf6278d4a792a4dd015219 SHA256: b17e7c6b9038b2da8abb6a4316670d0f2c9d563d2af5311e4db89d7bd3c69e13 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: I/O library of HiPerConTracer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the I/O library shared by HiPerConTracer components. Package: libhpctio2 Source: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 854 Depends: libboost-iostreams1.90.0 (>= 1.90.0), libboost-log1.90.0 (>= 1.90.0), libboost-thread1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 14) Filename: ppc64el/libhpctio2_2.2.6-1_ppc64el.deb Size: 301144 MD5sum: e5c4ce516a3fc2f3918c10312f81517a SHA1: d0835dcd58bab4404ab274e840e46a27b36c720f SHA256: 3bf474c35a196f237a8d2ca3fb6e4c2493b77a1a371b4d9e0c0b121478c21d01 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: I/O library of HiPerConTracer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the I/O library shared by HiPerConTracer components. Package: libhpctio2 Source: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 727 Depends: libboost-iostreams1.90.0 (>= 1.90.0), libboost-log1.90.0 (>= 1.90.0), libboost-thread1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 14) Filename: arm64/libhpctio2_2.2.6-1_arm64.deb Size: 282740 MD5sum: 8316a00250e7fe360d0666cf3cb48f72 SHA1: d97922f013b45e230e756b36d648928830671406 SHA256: c402549746e48899b881cf5c41af3b55633b73e0f3a5fca36d8b46dcfc06a3f1 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: I/O library of HiPerConTracer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the I/O library shared by HiPerConTracer components. Package: libhpctio2 Source: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 734 Depends: libboost-iostreams1.90.0 (>= 1.90.0), libboost-log1.90.0 (>= 1.90.0), libboost-thread1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 14) Filename: amd64/libhpctio2_2.2.6-1_amd64.deb Size: 292036 MD5sum: c938a828499f7c7913d539094a313655 SHA1: 05d1989f93a8fc3ff7beca2117f55488eb3b6f0d SHA256: 63f896e872146f64bc4473f036ee9199cfa394e1ffee96da05fc35d53eed80a2 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: I/O library of HiPerConTracer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the I/O library shared by HiPerConTracer components. Package: libneat-dev Source: libneat Version: 1.0.9-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 865 Depends: libneat1 (= 1.0.9-1), libuv1-dev (>= 1.0.2) Filename: s390x/libneat-dev_1.0.9-1_s390x.deb Size: 247794 MD5sum: 563f29eadfb6830b19e6c5657335ec46 SHA1: 8872a0acb56f51e1ed53ca9fe4f6d4e722af918e SHA256: 643499acbf608f80ccb2c8ee7c18c6b0928c41f263b946a48514407efd30df30 Section: libdevel Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Core API Development Files The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the development files for the NEAT Core API. Package: libneat-dev Source: libneat Version: 1.0.9-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 932 Depends: libneat1 (= 1.0.9-1), libuv1-dev (>= 1.0.2) Filename: ppc64el/libneat-dev_1.0.9-1_ppc64el.deb Size: 264698 MD5sum: 32fb42fb30624a81e6cbdc0237b2ec0e SHA1: ebb3a860c537b234df2a65d3bbc4823670d76275 SHA256: a94200cf9b2ffddbfba3a3a8253d8a80a19633cddcdc6e522f9674ee9d77bd3f Section: libdevel Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Core API Development Files The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the development files for the NEAT Core API. Package: libneat-dev Source: libneat Version: 1.0.9-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 882 Depends: libneat1 (= 1.0.9-1), libuv1-dev (>= 1.0.2) Filename: arm64/libneat-dev_1.0.9-1_arm64.deb Size: 252008 MD5sum: 030f2a5ee8eef331b97475b8c73fa857 SHA1: db91088147475ca988942736b0f7f14c35f1fcbe SHA256: da185fa0b68e8522b58f42efab194419bed6dd27d4be123f2be0c1cd9504ff47 Section: libdevel Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Core API Development Files The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the development files for the NEAT Core API. Package: libneat-dev Source: libneat Version: 1.0.9-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 871 Depends: libneat1 (= 1.0.9-1), libuv1-dev (>= 1.0.2) Filename: amd64/libneat-dev_1.0.9-1_amd64.deb Size: 249202 MD5sum: 0ad94872821ab8fef2a27c05e3cda53f SHA1: f3eed8f146863bb45dcf89f06f43440ca6e505d8 SHA256: 0d074b485e07539fb1cac04a29144589f158a4b3bc9da1617620c570dba3e7e8 Section: libdevel Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Core API Development Files The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the development files for the NEAT Core API. Package: libneat-doc Source: libneat Version: 1.0.9-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 18 Filename: all/libneat-doc_1.0.9-1_all.deb Size: 5194 MD5sum: 047c1d09e0006c50c4b3737943a23d16 SHA1: 28846db4cfe75643397584bd0c5e456c763356f6 SHA256: 6eed4c0a4c4cf423db60711aa1aa7ca3892a829cf7a11c6e66aacfe65e392cbd Section: doc Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Core API Documentation The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the common documentation. Package: libneat-examples Source: libneat Version: 1.0.9-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 310 Depends: libneat1 (= 1.0.9-1), libc6 (>= 2.34), libjansson4 (>= 2.14), libuv1t64 (>= 1.4.2) Filename: s390x/libneat-examples_1.0.9-1_s390x.deb Size: 55594 MD5sum: bf1daca47329f7239107c28253448c88 SHA1: e370e8ff35a211229596bb5b6da66f087e8b69cf SHA256: 7d9a14cb74e1f7db9aef977bad0d05b0e375aac231bdbc887712e04ff7b20fe4 Section: net Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Core API Examples The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the built examples for the NEAT Core API. Package: libneat-examples Source: libneat Version: 1.0.9-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 1162 Depends: libneat1 (= 1.0.9-1), libc6 (>= 2.34), libjansson4 (>= 2.14), libuv1t64 (>= 1.4.2) Filename: ppc64el/libneat-examples_1.0.9-1_ppc64el.deb Size: 55454 MD5sum: 546f955e3895bca0c8b4efb8dc4e37c5 SHA1: e1081708a3f65224d15a44d8a9ad0fb2e8506024 SHA256: 06af7e6657ca234f8c9db61590e2d63dbe8f43afcfe834b8112db5a8b6da4c27 Section: net Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Core API Examples The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the built examples for the NEAT Core API. Package: libneat-examples Source: libneat Version: 1.0.9-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 1162 Depends: libneat1 (= 1.0.9-1), libc6 (>= 2.34), libjansson4 (>= 2.14), libuv1t64 (>= 1.4.2) Filename: arm64/libneat-examples_1.0.9-1_arm64.deb Size: 53524 MD5sum: 44cd8be4b4d1cf484f37dfcf1379d32b SHA1: 7e05c14842cb8d3ada7272ad54feacebb500470d SHA256: 5b1e3ba43eccee03b12b581aeb5ca01befa75b5c9a1325f3360e6f15ae4e178b Section: net Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Core API Examples The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the built examples for the NEAT Core API. Package: libneat-examples Source: libneat Version: 1.0.9-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 378 Depends: libneat1 (= 1.0.9-1), libc6 (>= 2.34), libjansson4 (>= 2.14), libuv1t64 (>= 1.4.2) Filename: amd64/libneat-examples_1.0.9-1_amd64.deb Size: 54506 MD5sum: 7470218b08adcb3f09bbd7daee3e4ebe SHA1: 47e318b969b480fba942e9cf8755b0f037fdab97 SHA256: f536e2db0860aa20ffbb7b95f6a3bbd91449f3ba26b27f0b85c8558083ad1e23 Section: net Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Core API Examples The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the built examples for the NEAT Core API. Package: libneat-socketapi-dev Source: libneat Version: 1.0.9-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 136 Depends: libneat-dev (= 1.0.9-1), libneat-socketapi1 (= 1.0.9-1) Filename: s390x/libneat-socketapi-dev_1.0.9-1_s390x.deb Size: 30732 MD5sum: 639176f0c66fc88ac380353be46fefca SHA1: 152cc8454e28e0d974154f5156b856fa49eb5493 SHA256: a164add36f08d7a7626fa31901b1c43e5c4b4dd18a74d9b3b3b137db7c9283a9 Section: libdevel Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Sockets API Development Files The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the development files for the NEAT Sockets API. Package: libneat-socketapi-dev Source: libneat Version: 1.0.9-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 163 Depends: libneat-dev (= 1.0.9-1), libneat-socketapi1 (= 1.0.9-1) Filename: ppc64el/libneat-socketapi-dev_1.0.9-1_ppc64el.deb Size: 35956 MD5sum: e897ad94a02862de94bc6263f8b760e6 SHA1: a4706de91bd27fe301de175d590610c60b7bd67d SHA256: ea95c4bdd82385ca10773be2e809d57747f08cbe4cbbd52aa3f6f843c3c93b36 Section: libdevel Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Sockets API Development Files The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the development files for the NEAT Sockets API. Package: libneat-socketapi-dev Source: libneat Version: 1.0.9-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 146 Depends: libneat-dev (= 1.0.9-1), libneat-socketapi1 (= 1.0.9-1) Filename: arm64/libneat-socketapi-dev_1.0.9-1_arm64.deb Size: 32106 MD5sum: 9d9e892f7ad371ca0b6a2f100c491471 SHA1: 5b43b315e48abc0fa2d008bdf085fd3abf5edfdb SHA256: 0ee8b1df7462ca0e7d78b25e78a90b9024173bde0142cd18b086bca2af6a4491 Section: libdevel Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Sockets API Development Files The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the development files for the NEAT Sockets API. Package: libneat-socketapi-dev Source: libneat Version: 1.0.9-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 140 Depends: libneat-dev (= 1.0.9-1), libneat-socketapi1 (= 1.0.9-1) Filename: amd64/libneat-socketapi-dev_1.0.9-1_amd64.deb Size: 31594 MD5sum: edc6441f9160ae266aef2eb9af858f5d SHA1: e199387d545b73908eadf1bc34f0d7835040499c SHA256: 13f77dd2dcef4fa7b5ad909231a18848e8be326a49dba3bed16bb44ddb56b746 Section: libdevel Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Sockets API Development Files The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the development files for the NEAT Sockets API. Package: libneat-socketapi-examples Source: libneat Version: 1.0.9-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 204 Depends: libneat1 (= 1.0.9-1), libc6 (>= 2.38), libgcc-s1 (>= 4.2), libneat-socketapi1 (>= 1.0.9), libstdc++6 (>= 13.1) Filename: s390x/libneat-socketapi-examples_1.0.9-1_s390x.deb Size: 67026 MD5sum: f6a3f56210d1f48377f5407f59b41418 SHA1: 57d532276b74c46de1b6e5039f6675c39f10745e SHA256: 06cd6abf23fb3c6ac34bc81bafc412698a2588fbba6838b943924ee355b091fe Section: net Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Sockets API Examples The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the built examples for the NEAT Sockets API. Package: libneat-socketapi-examples Source: libneat Version: 1.0.9-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 420 Depends: libneat1 (= 1.0.9-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libneat-socketapi1 (>= 1.0.9), libstdc++6 (>= 13.1) Filename: ppc64el/libneat-socketapi-examples_1.0.9-1_ppc64el.deb Size: 78694 MD5sum: 4156345d6e6de0620abe0ccaa87d07be SHA1: fc5e1e55b805063875be8cd0398fb70ba1eea054 SHA256: 851f7954979d2c9a2530f919b1982497be3f7792071b1d2585d19d55e4dcbf3e Section: net Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Sockets API Examples The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the built examples for the NEAT Sockets API. Package: libneat-socketapi-examples Source: libneat Version: 1.0.9-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 356 Depends: libneat1 (= 1.0.9-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libneat-socketapi1 (>= 1.0.9), libstdc++6 (>= 13.1) Filename: arm64/libneat-socketapi-examples_1.0.9-1_arm64.deb Size: 60344 MD5sum: ccc7ea1bd0d2d60730f62788061d4efb SHA1: f5eb340fd1fbf46119b799a9a94a1b01207011da SHA256: 424998ae66b1da567fe4ce35bd24a88d49b3a181eba00d345f70c4bed08bb8e8 Section: net Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Sockets API Examples The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the built examples for the NEAT Sockets API. Package: libneat-socketapi-examples Source: libneat Version: 1.0.9-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 228 Depends: libneat1 (= 1.0.9-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libneat-socketapi1 (>= 1.0.9), libstdc++6 (>= 13.1) Filename: amd64/libneat-socketapi-examples_1.0.9-1_amd64.deb Size: 64190 MD5sum: 4f50dcadcfca68f5d9bc7ab8fc1bdbff SHA1: f6b9c2dcd34981cf33977f1dd2eead138530a330 SHA256: 4371caa14ca69120b46df53a964e69e3451804441ebbb7fb2d52e41048d7b3e1 Section: net Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Sockets API Examples The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the built examples for the NEAT Sockets API. Package: libneat-socketapi1 Source: libneat Version: 1.0.9-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 88 Depends: libneat1 (= 1.0.9-1), libc6 (>= 2.34), libsctp1 (>= 1.0.12+dfsg) Filename: s390x/libneat-socketapi1_1.0.9-1_s390x.deb Size: 27642 MD5sum: 3b5b0195ad63610169161640043517b8 SHA1: f70ca118d5fbc07d045ae1eadef05a460da7238e SHA256: fabcc3d718f4bcc0533418f553021ca8cac5eafd21cbbde5e0c4001749491b3d Section: libs Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Sockets API The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the shared library for the NEAT Sockets API. Package: libneat-socketapi1 Source: libneat Version: 1.0.9-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 152 Depends: libneat1 (= 1.0.9-1), libc6 (>= 2.34), libsctp1 (>= 1.0.12+dfsg) Filename: ppc64el/libneat-socketapi1_1.0.9-1_ppc64el.deb Size: 31060 MD5sum: 6c830e6bbb5c1b40241eb43a0a79904d SHA1: 035f281a992eeae91147d0df7c6d0a0f809dca34 SHA256: 391abc82e3ad96b47a938c8fd530adbe4c176d4e686a5eb8ca76eba65ef02a64 Section: libs Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Sockets API The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the shared library for the NEAT Sockets API. Package: libneat-socketapi1 Source: libneat Version: 1.0.9-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 89 Depends: libneat1 (= 1.0.9-1), libc6 (>= 2.34), libsctp1 (>= 1.0.12+dfsg) Filename: arm64/libneat-socketapi1_1.0.9-1_arm64.deb Size: 27476 MD5sum: 7850df70e56bc179972fde34a49764a8 SHA1: ddcbc0b4d9d659ff5e1170ceec9af167488fc895 SHA256: f240602800698d7e6020c0c2da442f6235e8902a7e1d690ff21f80254c72fc08 Section: libs Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Sockets API The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the shared library for the NEAT Sockets API. Package: libneat-socketapi1 Source: libneat Version: 1.0.9-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 93 Depends: libneat1 (= 1.0.9-1), libc6 (>= 2.34), libsctp1 (>= 1.0.12+dfsg) Filename: amd64/libneat-socketapi1_1.0.9-1_amd64.deb Size: 28260 MD5sum: 331ad96dc6fd04762cb29e89ad4f3436 SHA1: 58d5cf0d5d9c1d953b468fffcfc55d3f466e69cf SHA256: ac48e67792ee88261dfdf77e2ebe2d52717ca953c06851d5124a012074e4258a Section: libs Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Sockets API The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the shared library for the NEAT Sockets API. Package: libneat1 Source: libneat Version: 1.0.9-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 425 Depends: libc6 (>= 2.42), libjansson4 (>= 2.14), libldns3t64 (>= 1.7.1), libmnl0 (>= 1.0.3-4~), libsctp1 (>= 1.0.10+dfsg), libssl3t64 (>= 3.0.0), libuv1t64 (>= 1.4.2) Filename: s390x/libneat1_1.0.9-1_s390x.deb Size: 205776 MD5sum: 89c723487e37c63b41dbf13262261d69 SHA1: 06085476da1cbab135013c508b0f1feee1e2d98a SHA256: 408e02493f03a5f5ca34171ea7da3a531ebe883d67cd321376f3aed9e03bcb35 Section: libs Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Core API The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the shared library for the NEAT Core API. Package: libneat1 Source: libneat Version: 1.0.9-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 473 Depends: libc6 (>= 2.42), libjansson4 (>= 2.14), libldns3t64 (>= 1.7.1), libmnl0 (>= 1.0.3-4~), libsctp1 (>= 1.0.10+dfsg), libssl3t64 (>= 3.0.0), libuv1t64 (>= 1.4.2) Filename: ppc64el/libneat1_1.0.9-1_ppc64el.deb Size: 217862 MD5sum: 145aa8a3c137bf0f9204ad1004ed3ffc SHA1: 0f533fbc15ac327529b9aa26a9e99b0b822d4600 SHA256: d3e0917c8dd8b8559b2e87ae0d9308b2735bef75b0c0bd6aab093bbbabc92499 Section: libs Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Core API The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the shared library for the NEAT Core API. Package: libneat1 Source: libneat Version: 1.0.9-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 473 Depends: libc6 (>= 2.42), libjansson4 (>= 2.14), libldns3t64 (>= 1.7.1), libmnl0 (>= 1.0.3-4~), libsctp1 (>= 1.0.10+dfsg), libssl3t64 (>= 3.0.0), libuv1t64 (>= 1.4.2) Filename: arm64/libneat1_1.0.9-1_arm64.deb Size: 207274 MD5sum: ce5ed5be155590d266b211c0d0eefd78 SHA1: 1da42621fbc56dce5407ad8d9ec98e57896cd055 SHA256: 875829df77020cf77d96c725170d02b3bd47acfafa762f4dafefaf0f5f7a3309 Section: libs Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Core API The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the shared library for the NEAT Core API. Package: libneat1 Source: libneat Version: 1.0.9-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 433 Depends: libc6 (>= 2.42), libjansson4 (>= 2.14), libldns3t64 (>= 1.7.1), libmnl0 (>= 1.0.3-4~), libsctp1 (>= 1.0.10+dfsg), libssl3t64 (>= 3.0.0), libuv1t64 (>= 1.4.2) Filename: amd64/libneat1_1.0.9-1_amd64.deb Size: 207296 MD5sum: 86d58a3370c7a4c945e9d246a251e0dc SHA1: 2acb2b7d421a7436ed3ff010109c32bc8fdf186f SHA256: ff5a7adda0d0c8361a643c5a54491e6133bd86d40954de0f6b19963fdbbb14f9 Section: libs Priority: optional Homepage: https://github.com/NEAT-project/neat Description: NEAT Core API The NEAT project wants to achieve a complete redesign of the way in which Internet applications interact with the network. The goal is to allow network “services” offered to applications – such as reliability, low-delay communication or security – to be dynamically tailored based on application demands, current network conditions, hardware capabilities or local policies, and also to support the integration of new network functionality in an evolutionary fashion, without applications having to be rewritten. This architectural change will make the Internet truly “enhanceable”, by allowing applications to seamlessly and more easily take advantage of new network features as they evolve. . This package contains the shared library for the NEAT Core API. Package: librsplib-dev Source: rsplib Version: 3.5.10-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 1029 Depends: librsplib3t64 (= 3.5.10-1) Recommends: rsplib-doc (>= 3.5.10-1) Filename: s390x/librsplib-dev_3.5.10-1_s390x.deb Size: 286816 MD5sum: f7be13776d03804f8aad7b7075fbbc38 SHA1: 2d71c4cf7a238e31e1a66b5be5c3b792c934cb61 SHA256: 3707a0f0c3f8faea60b89776728b31ad8cc121c385f1069a5eba4d4e183c33bd Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: headers of the RSerPool client/server API library rsplib Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides header files for the rsplib library. You need them to develop your own RSerPool-based clients and servers. Package: librsplib-dev Source: rsplib Version: 3.5.10-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 1243 Depends: librsplib3t64 (= 3.5.10-1) Recommends: rsplib-doc (>= 3.5.10-1) Filename: ppc64el/librsplib-dev_3.5.10-1_ppc64el.deb Size: 320730 MD5sum: 57e79340fba4f3f9c5bd0cb96ff3d648 SHA1: c0631595fafa776323d2b784e1c24de8f92af24d SHA256: f555fda6efaa1de49e6a76d4df1eed8c321de872de27703bd8b5bc2e1a063736 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: headers of the RSerPool client/server API library rsplib Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides header files for the rsplib library. You need them to develop your own RSerPool-based clients and servers. Package: librsplib-dev Source: rsplib Version: 3.5.10-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 1088 Depends: librsplib3t64 (= 3.5.10-1) Recommends: rsplib-doc (>= 3.5.10-1) Filename: arm64/librsplib-dev_3.5.10-1_arm64.deb Size: 291198 MD5sum: 2ffc0a669790170f3a96970c376f4491 SHA1: 57f5b6150ecb74ee0919b47a9e71640d187da64e SHA256: 3e0af3ed2f0b50091ba0919c3b0dfd060a9b4819ef8d242d3b97bddb18a982b0 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: headers of the RSerPool client/server API library rsplib Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides header files for the rsplib library. You need them to develop your own RSerPool-based clients and servers. Package: librsplib-dev Source: rsplib Version: 3.5.10-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 1060 Depends: librsplib3t64 (= 3.5.10-1) Recommends: rsplib-doc (>= 3.5.10-1) Filename: amd64/librsplib-dev_3.5.10-1_amd64.deb Size: 286748 MD5sum: 10f9dfd528a76fc7c5cefe4453b274d3 SHA1: f24fa04ac1ad5b3c1312063c16db937e4cbf5554 SHA256: 5f98092b50fbb72c49d7eae2ea54794f88de185100716f4b61234bbf67c00554 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: headers of the RSerPool client/server API library rsplib Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides header files for the rsplib library. You need them to develop your own RSerPool-based clients and servers. Package: librsplib3t64 Source: rsplib Version: 3.5.10-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 700 Depends: libc6 (>= 2.38), libsctp1 (>= 1.0.19+dfsg) Breaks: librsplib3 (<< 3.5.10-1) Replaces: librsplib3 Provides: librsplib3 (= 3.5.10-1) Filename: s390x/librsplib3t64_3.5.10-1_s390x.deb Size: 279018 MD5sum: fc22804f78fdc38f255d3dbe1ace4c57 SHA1: 99bcc3830077d02dd42d80760c75243ad27fca64 SHA256: 9864ff8fa8553b4c1d7551eb021765839a13e9838fcbec1e344d9e5344615de9 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool client/server API library for session management Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . The API library is provided by this package. Package: librsplib3t64 Source: rsplib Version: 3.5.10-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 1372 Depends: libc6 (>= 2.38), libsctp1 (>= 1.0.19+dfsg) Breaks: librsplib3 (<< 3.5.10-1) Replaces: librsplib3 Provides: librsplib3 (= 3.5.10-1) Filename: ppc64el/librsplib3t64_3.5.10-1_ppc64el.deb Size: 292264 MD5sum: 66baa4db8cbf46c39dd87521221549ba SHA1: 17a605df6574420c12cf6ef923f82c55e009b7ed SHA256: 91c5349f1c7b793a4f1814731073155e8205ebab109c8c74cb3c71b49415bc6c Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool client/server API library for session management Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . The API library is provided by this package. Package: librsplib3t64 Source: rsplib Version: 3.5.10-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 1373 Depends: libc6 (>= 2.38), libsctp1 (>= 1.0.19+dfsg) Breaks: librsplib3 (<< 3.5.10-1) Replaces: librsplib3 Provides: librsplib3 (= 3.5.10-1) Filename: arm64/librsplib3t64_3.5.10-1_arm64.deb Size: 271716 MD5sum: c4d0eaa85b60bb25aaa5aebde82de413 SHA1: 46956826c9f3be87f6206d3ac12b6c3f2fa905e9 SHA256: 05654dd2dda332b25ec9aa9eb86fd8c83a178db5c043abe171b0b87bf4532c29 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool client/server API library for session management Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . The API library is provided by this package. Package: librsplib3t64 Source: rsplib Version: 3.5.10-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 737 Depends: libc6 (>= 2.38), libsctp1 (>= 1.0.19+dfsg) Breaks: librsplib3 (<< 3.5.10-1) Replaces: librsplib3 Provides: librsplib3 (= 3.5.10-1) Filename: amd64/librsplib3t64_3.5.10-1_amd64.deb Size: 276436 MD5sum: c80a76427a53d6e5436f27ccf7875aea SHA1: dd8056420edfe9795e0deff39ac922ad10f9235c SHA256: 007a55df2eba9daa7066ef4a3800b02f270bf5970c82d1643d3049732c2546eb Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool client/server API library for session management Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . The API library is provided by this package. Package: libsctplib-dev Source: sctplib Version: 1:1.0.35-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 403 Depends: libsctplib1 (= 1:1.0.35-1) Recommends: sctplib-doc Filename: s390x/libsctplib-dev_1.0.35-1_s390x.deb Size: 134884 MD5sum: f9b92696f71c88e510cf132870eb9676 SHA1: 22da602bd3976559f417f757a28e400a369e9051 SHA256: c2d90caf2a702b2b49766473d1e55e67295080dcee938034ff23c558d85457c9 Section: libdevel Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: Headers and libraries of the user-space SCTP implementation SCTPLIB This package contains development files for SCTPLIB. . The SCTPLIB library is a fairly complete prototype implementation of the Stream Control Transmission Protocol (SCTP), a message-oriented reliable transport protocol that supports multi-homing, and multiple message streams multiplexed within an SCTP connection (also named association). SCTP is described in RFC 4960. This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. . The API of the library was modeled after Section 10 of RFC 4960, and most parameters and functions should be self-explanatory to the user familiar with this document. In addition to these interface functions between an Upper Layer Protocol (ULP) and an SCTP instance, the library also provides a number of helper functions that can be used to manage callback function routines to make them execute at a certain point of time (i.e. timer-based) or open and bind UDP sockets on a configurable port, which may then be used for an asynchronous interprocess communication. Package: libsctplib-dev Source: sctplib Version: 1:1.0.35-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 481 Depends: libsctplib1 (= 1:1.0.35-1) Recommends: sctplib-doc Filename: ppc64el/libsctplib-dev_1.0.35-1_ppc64el.deb Size: 150578 MD5sum: 2892aa4ae56ef16d5633970128b1d385 SHA1: c04d3d3f927ebcff283e3a2e702c1f538c970736 SHA256: 9de3521c1ba36e4c1e95aa24e6662034d03bc668e1d418a09a5a226dd28ba21d Section: libdevel Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: Headers and libraries of the user-space SCTP implementation SCTPLIB This package contains development files for SCTPLIB. . The SCTPLIB library is a fairly complete prototype implementation of the Stream Control Transmission Protocol (SCTP), a message-oriented reliable transport protocol that supports multi-homing, and multiple message streams multiplexed within an SCTP connection (also named association). SCTP is described in RFC 4960. This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. . The API of the library was modeled after Section 10 of RFC 4960, and most parameters and functions should be self-explanatory to the user familiar with this document. In addition to these interface functions between an Upper Layer Protocol (ULP) and an SCTP instance, the library also provides a number of helper functions that can be used to manage callback function routines to make them execute at a certain point of time (i.e. timer-based) or open and bind UDP sockets on a configurable port, which may then be used for an asynchronous interprocess communication. Package: libsctplib-dev Source: sctplib Version: 1:1.0.35-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 407 Depends: libsctplib1 (= 1:1.0.35-1) Recommends: sctplib-doc Filename: arm64/libsctplib-dev_1.0.35-1_arm64.deb Size: 136668 MD5sum: 66f3a98914ab89f4df58aa139a12a319 SHA1: 8219e4cd74b53d97003ae77b69a7f24aca311432 SHA256: e90a44e78783ba6ddf662641ec0dc9424cb0cc0843b810b35a1bb1af2396a8e9 Section: libdevel Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: Headers and libraries of the user-space SCTP implementation SCTPLIB This package contains development files for SCTPLIB. . The SCTPLIB library is a fairly complete prototype implementation of the Stream Control Transmission Protocol (SCTP), a message-oriented reliable transport protocol that supports multi-homing, and multiple message streams multiplexed within an SCTP connection (also named association). SCTP is described in RFC 4960. This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. . The API of the library was modeled after Section 10 of RFC 4960, and most parameters and functions should be self-explanatory to the user familiar with this document. In addition to these interface functions between an Upper Layer Protocol (ULP) and an SCTP instance, the library also provides a number of helper functions that can be used to manage callback function routines to make them execute at a certain point of time (i.e. timer-based) or open and bind UDP sockets on a configurable port, which may then be used for an asynchronous interprocess communication. Package: libsctplib-dev Source: sctplib Version: 1:1.0.35-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 390 Depends: libsctplib1 (= 1:1.0.35-1) Recommends: sctplib-doc Filename: amd64/libsctplib-dev_1.0.35-1_amd64.deb Size: 131442 MD5sum: 04f6805d7572b8c88ec7a8a1ffa499ff SHA1: 6566fe7b380bfcaaf2fc9f68fc133786290a4484 SHA256: cbcc511549acf13a961c8a6a733b2bddefc81a70162151afa07644ffba2b3441 Section: libdevel Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: Headers and libraries of the user-space SCTP implementation SCTPLIB This package contains development files for SCTPLIB. . The SCTPLIB library is a fairly complete prototype implementation of the Stream Control Transmission Protocol (SCTP), a message-oriented reliable transport protocol that supports multi-homing, and multiple message streams multiplexed within an SCTP connection (also named association). SCTP is described in RFC 4960. This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. . The API of the library was modeled after Section 10 of RFC 4960, and most parameters and functions should be self-explanatory to the user familiar with this document. In addition to these interface functions between an Upper Layer Protocol (ULP) and an SCTP instance, the library also provides a number of helper functions that can be used to manage callback function routines to make them execute at a certain point of time (i.e. timer-based) or open and bind UDP sockets on a configurable port, which may then be used for an asynchronous interprocess communication. Package: libsctplib1 Source: sctplib Version: 1:1.0.35-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 245 Depends: libc6 (>= 2.38), libglib2.0-0t64 (>= 2.12.0) Filename: s390x/libsctplib1_1.0.35-1_s390x.deb Size: 121318 MD5sum: dc508e1f91ede2362a1beb7f85e9e570 SHA1: 6e614793c31de116daaba96e5e08d7da8d5dc46a SHA256: f8c7f269d0889168797fe38968801d106e47a3c3115db3d2e0bb0481e30d4ddf Section: libs Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: User-space implementation of the SCTP protocol RFC 4960 This package contains the shared library for SCTPLIB. . The SCTPLIB library is a fairly complete prototype implementation of the Stream Control Transmission Protocol (SCTP), a message-oriented reliable transport protocol that supports multi-homing, and multiple message streams multiplexed within an SCTP connection (also named association). SCTP is described in RFC 4960. This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. . The API of the library was modeled after Section 10 of RFC 4960, and most parameters and functions should be self-explanatory to the user familiar with this document. In addition to these interface functions between an Upper Layer Protocol (ULP) and an SCTP instance, the library also provides a number of helper functions that can be used to manage callback function routines to make them execute at a certain point of time (i.e. timer-based) or open and bind UDP sockets on a configurable port, which may then be used for an asynchronous interprocess communication. Package: libsctplib1 Source: sctplib Version: 1:1.0.35-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 325 Depends: libc6 (>= 2.38), libglib2.0-0t64 (>= 2.12.0) Filename: ppc64el/libsctplib1_1.0.35-1_ppc64el.deb Size: 129182 MD5sum: 21af345391fd9e7a54e5903d41cecec6 SHA1: ec5531a776b6a822b55911b2efee1d4424171531 SHA256: 46149d02061d786ac50bc243b08859c22bdb56bd89482b42e562af12111d73a0 Section: libs Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: User-space implementation of the SCTP protocol RFC 4960 This package contains the shared library for SCTPLIB. . The SCTPLIB library is a fairly complete prototype implementation of the Stream Control Transmission Protocol (SCTP), a message-oriented reliable transport protocol that supports multi-homing, and multiple message streams multiplexed within an SCTP connection (also named association). SCTP is described in RFC 4960. This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. . The API of the library was modeled after Section 10 of RFC 4960, and most parameters and functions should be self-explanatory to the user familiar with this document. In addition to these interface functions between an Upper Layer Protocol (ULP) and an SCTP instance, the library also provides a number of helper functions that can be used to manage callback function routines to make them execute at a certain point of time (i.e. timer-based) or open and bind UDP sockets on a configurable port, which may then be used for an asynchronous interprocess communication. Package: libsctplib1 Source: sctplib Version: 1:1.0.35-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 262 Depends: libc6 (>= 2.38), libglib2.0-0t64 (>= 2.12.0) Filename: arm64/libsctplib1_1.0.35-1_arm64.deb Size: 118618 MD5sum: 3c93541e3ec41d9e909842af9b32d97e SHA1: f728dd8a9ec5467e7753c69f8c80780d8b04c1af SHA256: ee87c87f11a7ddbad95c6d6a9ad66e86046698cb2adb309e4b665aa5aad6c5e7 Section: libs Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: User-space implementation of the SCTP protocol RFC 4960 This package contains the shared library for SCTPLIB. . The SCTPLIB library is a fairly complete prototype implementation of the Stream Control Transmission Protocol (SCTP), a message-oriented reliable transport protocol that supports multi-homing, and multiple message streams multiplexed within an SCTP connection (also named association). SCTP is described in RFC 4960. This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. . The API of the library was modeled after Section 10 of RFC 4960, and most parameters and functions should be self-explanatory to the user familiar with this document. In addition to these interface functions between an Upper Layer Protocol (ULP) and an SCTP instance, the library also provides a number of helper functions that can be used to manage callback function routines to make them execute at a certain point of time (i.e. timer-based) or open and bind UDP sockets on a configurable port, which may then be used for an asynchronous interprocess communication. Package: libsctplib1 Source: sctplib Version: 1:1.0.35-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 234 Depends: libc6 (>= 2.38), libglib2.0-0t64 (>= 2.12.0) Filename: amd64/libsctplib1_1.0.35-1_amd64.deb Size: 117438 MD5sum: cf24b0f1aa68e2c6138e0e9478d25828 SHA1: 843300b3a8690776f647f2c911195ae599b44ef6 SHA256: 71ab74d33dff05bf541e0a65e12473c0cd4e3a9f9c4b866e502ee5b83b12a9f8 Section: libs Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: User-space implementation of the SCTP protocol RFC 4960 This package contains the shared library for SCTPLIB. . The SCTPLIB library is a fairly complete prototype implementation of the Stream Control Transmission Protocol (SCTP), a message-oriented reliable transport protocol that supports multi-homing, and multiple message streams multiplexed within an SCTP connection (also named association). SCTP is described in RFC 4960. This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. . The API of the library was modeled after Section 10 of RFC 4960, and most parameters and functions should be self-explanatory to the user familiar with this document. In addition to these interface functions between an Upper Layer Protocol (ULP) and an SCTP instance, the library also provides a number of helper functions that can be used to manage callback function routines to make them execute at a certain point of time (i.e. timer-based) or open and bind UDP sockets on a configurable port, which may then be used for an asynchronous interprocess communication. Package: libsctpsocket-dev Source: socketapi Version: 2:2.2.28-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 438 Depends: libsctpsocket2 (= 2:2.2.28-1) Conflicts: libsocketapi-dev Replaces: libsocketapi-dev Filename: s390x/libsctpsocket-dev_2.2.28-1_s390x.deb Size: 125986 MD5sum: 496e8f6c0d7f7a6a48a3f669eb5f4268 SHA1: 75ffe62c6d75f35c26f98eb8d2c2cc1f13b29a14 SHA256: 9826c08c1a96f4e773a7a515948eb7e7d8ab2bee83d856b94b842a89e01fd7a8 Section: libdevel Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: Development package for Socket-API This package contains development files for Socket-API. . Socket-API provides a socket API for the SCTP user-space implementation SCTPLIB, conforming to RFC 6458. . This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. Package: libsctpsocket-dev Source: socketapi Version: 2:2.2.28-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 511 Depends: libsctpsocket2 (= 2:2.2.28-1) Conflicts: libsocketapi-dev Replaces: libsocketapi-dev Filename: ppc64el/libsctpsocket-dev_2.2.28-1_ppc64el.deb Size: 137564 MD5sum: 2acd6852c335be8d74df5f9009709309 SHA1: 471a30c39178741276b5d31194ed8c4b3617aa1a SHA256: d90417c99b72c3f576bf2d2c8b20a2e6d822328fc1cd3a88f3db7deb0d4529fc Section: libdevel Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: Development package for Socket-API This package contains development files for Socket-API. . Socket-API provides a socket API for the SCTP user-space implementation SCTPLIB, conforming to RFC 6458. . This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. Package: libsctpsocket-dev Source: socketapi Version: 2:2.2.28-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 479 Depends: libsctpsocket2 (= 2:2.2.28-1) Conflicts: libsocketapi-dev Replaces: libsocketapi-dev Filename: arm64/libsctpsocket-dev_2.2.28-1_arm64.deb Size: 131144 MD5sum: 3b17e7b633a9ff0950c23b6d805872ea SHA1: 10a402fa6bf08158449466b0f4b5a53277ccc48e SHA256: 395d750ee7274b2d030f916132b049e711f7477d71b1e9de5824dd4afd255834 Section: libdevel Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: Development package for Socket-API This package contains development files for Socket-API. . Socket-API provides a socket API for the SCTP user-space implementation SCTPLIB, conforming to RFC 6458. . This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. Package: libsctpsocket-dev Source: socketapi Version: 2:2.2.28-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 461 Depends: libsctpsocket2 (= 2:2.2.28-1) Conflicts: libsocketapi-dev Replaces: libsocketapi-dev Filename: amd64/libsctpsocket-dev_2.2.28-1_amd64.deb Size: 124206 MD5sum: 1f22a0a3ada93c2c93ec96abd02820c9 SHA1: 4b4071383b86bcb1787659ee591a7a72abc5fe03 SHA256: 0087fdfb83c517ed0dd4bf0fc5a174ce2513bee4da652bacb5319f319d1a3fe0 Section: libdevel Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: Development package for Socket-API This package contains development files for Socket-API. . Socket-API provides a socket API for the SCTP user-space implementation SCTPLIB, conforming to RFC 6458. . This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. Package: libsctpsocket2 Source: socketapi Version: 2:2.2.28-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 259 Depends: libsctplib1 (>= 1:1.0.10), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Conflicts: libsocketapi2 Replaces: libsocketapi2 Filename: s390x/libsctpsocket2_2.2.28-1_s390x.deb Size: 110938 MD5sum: 090c5f98ba046d6198f64aed1bc64750 SHA1: 5fe2e67545de102379381125fe2175f60ea45b67 SHA256: 0d5cebf2ea69458087e1b797ca5dc9423a32a0a82c0314425c139ad4e9ebd14c Section: libs Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: Socket API library for sctplib Socket-API provides a socket API for the SCTP user-space implementation SCTPLIB, conforming to RFC 6458. . This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. Package: libsctpsocket2 Source: socketapi Version: 2:2.2.28-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 323 Depends: libsctplib1 (>= 1:1.0.10), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Conflicts: libsocketapi2 Replaces: libsocketapi2 Filename: ppc64el/libsctpsocket2_2.2.28-1_ppc64el.deb Size: 117356 MD5sum: 8af1e6b8ec78a5d2a9143668cc2e7680 SHA1: 8a602d72fc21a4c53ddd4e771e3a08839e817ccf SHA256: 7bbf051e4ada06c483124dda78a9f59ee18bd513fa472fa8099123ba8ec43229 Section: libs Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: Socket API library for sctplib Socket-API provides a socket API for the SCTP user-space implementation SCTPLIB, conforming to RFC 6458. . This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. Package: libsctpsocket2 Source: socketapi Version: 2:2.2.28-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 259 Depends: libsctplib1 (>= 1:1.0.10), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Conflicts: libsocketapi2 Replaces: libsocketapi2 Filename: arm64/libsctpsocket2_2.2.28-1_arm64.deb Size: 109404 MD5sum: 3f1a166cefbab2aa3f279e6ffc035f6b SHA1: e5f4a87d5e00e77cb10eb935b17f119357139930 SHA256: 14f0136b25c3dd8ad361d9de70478b5196adabb53c77711223ec42f3df23e2fb Section: libs Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: Socket API library for sctplib Socket-API provides a socket API for the SCTP user-space implementation SCTPLIB, conforming to RFC 6458. . This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. Package: libsctpsocket2 Source: socketapi Version: 2:2.2.28-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 259 Depends: libsctplib1 (>= 1:1.0.10), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Conflicts: libsocketapi2 Replaces: libsocketapi2 Filename: amd64/libsctpsocket2_2.2.28-1_amd64.deb Size: 110100 MD5sum: 3d4abe4cbf2158ff22efbd4aa3b7473c SHA1: 14524979b085899e62173614c93314f2c7201314 SHA256: 4c0f155729c808029b5bcc5ca2b82476e86fd1f76bca5d2ac26a1fc879457718 Section: libs Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: Socket API library for sctplib Socket-API provides a socket API for the SCTP user-space implementation SCTPLIB, conforming to RFC 6458. . This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. Package: libuniversalimporter-dev Source: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 1843 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhpctdb-dev (>= 2.2.6-1), libuniversalimporter2 (= 2.2.6-1) Filename: s390x/libuniversalimporter-dev_2.2.6-1_s390x.deb Size: 363012 MD5sum: 38c4229460e08fd381c6e120a0e4da0a SHA1: b2a32b0d1051077f7281b40d9bcbc82037603f85 SHA256: 44ec3c0782b5779bacd44626b7bfcf63bdbe6e2e40d5ed3e833e0b3892a10f41 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for HiPerConTracer Universal Importer API library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the Universal Importer library. You need them to integrate Universal Importer into your own programs. Package: libuniversalimporter-dev Source: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 2046 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhpctdb-dev (>= 2.2.6-1), libuniversalimporter2 (= 2.2.6-1) Filename: ppc64el/libuniversalimporter-dev_2.2.6-1_ppc64el.deb Size: 397724 MD5sum: ee45c0aac0880f2848f0f0722809961b SHA1: 18dd59ca63d6cfb8edc2e30f6ea052ed112d9713 SHA256: fe6a3ee8f00f5d6c45581293845a3e6a5fdb6a7401ee929dca386bc584c801ce Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for HiPerConTracer Universal Importer API library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the Universal Importer library. You need them to integrate Universal Importer into your own programs. Package: libuniversalimporter-dev Source: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 1919 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhpctdb-dev (>= 2.2.6-1), libuniversalimporter2 (= 2.2.6-1) Filename: arm64/libuniversalimporter-dev_2.2.6-1_arm64.deb Size: 362718 MD5sum: bcb4eed972d3573063af1333c062c34e SHA1: f03b78c37f8dd30da4ad24077e303324080f0fca SHA256: 932d411964c33ddedff54d534b15a21e60384014e36435592143546399fcca91 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for HiPerConTracer Universal Importer API library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the Universal Importer library. You need them to integrate Universal Importer into your own programs. Package: libuniversalimporter-dev Source: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 1829 Depends: libboost-date-time-dev, libboost-filesystem-dev, libboost-iostreams-dev, libboost-log-dev, libboost-thread-dev, libhpctdb-dev (>= 2.2.6-1), libuniversalimporter2 (= 2.2.6-1) Filename: amd64/libuniversalimporter-dev_2.2.6-1_amd64.deb Size: 361478 MD5sum: 527eca4b23005e300bb84f6769f34b24 SHA1: f77ea50acc4de455bfaba5e8db0b61855b7d4394 SHA256: 2ceb59a6e4af70b9f08534b4019c8193c11a8c5863f7ddb26c1797b4c3ff37cc Section: libdevel Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: Development files for HiPerConTracer Universal Importer API library High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides header files for the Universal Importer library. You need them to integrate Universal Importer into your own programs. Package: libuniversalimporter2 Source: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 604 Depends: libhpctdb2 (= 2.2.6-1), libboost-filesystem1.90.0 (>= 1.90.0), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Filename: s390x/libuniversalimporter2_2.2.6-1_s390x.deb Size: 282068 MD5sum: a3dd9f4e65ae965d65ea7e2954517a76 SHA1: 4bd49e1b520361c4c08db4a2f10be2f1e489cd41 SHA256: 469b131e603bfbb9afcdedaa3d564ff0607b7af0947d5a37175d543d463407b7 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: API library of HiPerConTracer Universal Importer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the Universal Importer API library. Package: libuniversalimporter2 Source: hipercontracer Version: 2.2.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 728 Depends: libhpctdb2 (= 2.2.6-1), libboost-filesystem1.90.0 (>= 1.90.0), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Filename: ppc64el/libuniversalimporter2_2.2.6-1_ppc64el.deb Size: 302538 MD5sum: 6f96af4e695176fc9d8511fd689552d6 SHA1: 1b8140fe6060c79a1aa96b5123693704eef6de36 SHA256: 4936a98547e92932443772c96d0fe14a58f48abe74c37735f2a2c55d36a9b77e Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: API library of HiPerConTracer Universal Importer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the Universal Importer API library. Package: libuniversalimporter2 Source: hipercontracer Version: 2.2.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 600 Depends: libhpctdb2 (= 2.2.6-1), libboost-filesystem1.90.0 (>= 1.90.0), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Filename: arm64/libuniversalimporter2_2.2.6-1_arm64.deb Size: 274046 MD5sum: 93ab682b933595db26fa13bc1fe4bea8 SHA1: cbdb9afc96d99aed077621e2a1e429a818ac24bd SHA256: ffaac3e3c13f4301aada2fda648f55f26418246333d1b376edfbddf83ce6606c Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: API library of HiPerConTracer Universal Importer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the Universal Importer API library. Package: libuniversalimporter2 Source: hipercontracer Version: 2.2.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 608 Depends: libhpctdb2 (= 2.2.6-1), libboost-filesystem1.90.0 (>= 1.90.0), libboost-log1.90.0 (>= 1.90.0), libboost-program-options1.90.0 (>= 1.90.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 14) Filename: amd64/libuniversalimporter2_2.2.6-1_amd64.deb Size: 283874 MD5sum: daa5f87a141baa8cc450df1f9fa7249c SHA1: 3edc1de8da77e1cb9a69ffcbb90e1373b871d26d SHA256: cac180df4fb34ea044c2688b34616e66d5333d2b4988f695196ec4d7ae0dc746 Section: libs Priority: optional Multi-Arch: same Homepage: https://www.nntb.no/~dreibh/hipercontracer/ Description: API library of HiPerConTracer Universal Importer High-Performance Connectivity Tracer (HiPerConTracer) is a Ping/Traceroute measurement framework. HiPerConTracer refers to the core measurement tool, which performs regular Ping and Traceroute runs among sites. Key features include: - Multi-transport-protocol support (ICMP, UDP); - Multi-homing and parallelism support; - Handling of network load balancing; - Multi-platform support (currently Linux and FreeBSD); - High-precision (nanosecond) timing (Linux software and hardware timestamping); - Integrated library (shared/static) for third-party software (libhipercontracer); - Open-source C++ codebase focused on performance and portability with only a small number of dependencies. . Furthermore, the HiPerConTracer framework provides additional tools for obtaining, processing, collecting, storing, and retrieving measurement data: - Viewer Tool: Displays the contents of results files. - Results Tool: Merges and converts results files (e.g., to CSV format). - Sync Tool: Copies data from a measurement node (vantage point) to a remote collector server via RSync/SSH. - Reverse Tunnel Tool: Maintains a reverse SSH tunnel from a remote measurement node to a collector server. - Collector/Node Tools: Simplify the setup of nodes and collectors. - Trigger Tool: Triggers measurements in the reverse direction. - Importer Tool: Stores measurement data into SQL (MariaDB/MySQL, PostgreSQL) or NoSQL (MongoDB) databases. - Query Tool: Queries data from a database and stores it into a results file. - Database Shell: A simple command-line front-end for the underlying database backends. - Database Tools: Helper scripts to join database configurations into an existing DBeaver configuration. - UDP Echo Server: A UDP Echo (RFC 862) protocol endpoint. . This package provides the Universal Importer API library. Package: netperfmeter Version: 2.0.8-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 473 Depends: netperfmeter-common, libbz2-1.0, libc6 (>= 2.38), libgcc-s1 (>= 4.2), libsctp1 (>= 1.0.10+dfsg), libstdc++6 (>= 13.1) Recommends: hipercontracer, iproute2, libgnutls28-dev, netperfmeter-examples, netperfmeter-plotting, rsplib-tools, subnetcalc, tshark Suggests: dynmhs, iputils-tracepath, netperfmeter-service, ping | iputils-ping, td-system-tools, traceroute | inetutils-traceroute Filename: s390x/netperfmeter_2.0.8-1_s390x.deb Size: 224548 MD5sum: 426c08c4b7057801e7aa26728e1ddd73 SHA1: 422cc5cf788a6a27c1a4e4030feb556c017d237b SHA256: 34d5af77497fb9e65ff22146ae15c6ba50f42ab23212bbdb4883eca7a92f37f3 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/netperfmeter/ Description: Network Performance Meter (measurement program) NetPerfMeter is a network performance meter for the TCP, MPTCP, SCTP, UDP, DCCP, and QUIC transport protocols over IPv4 and IPv6. It simultaneously transmits bidirectional flows to an endpoint and measures the resulting flow bandwidths and QoS. Flows can be saturated (i.e. “send as much as possible” or non-saturated with frame rate and frame sizes (like a multimedia transmission). Non-saturated flows can be configured with constant or variable frame rate/frame size, i.e. to realise Constant Bit Rate (CBR) or Variable Bit Rate (VBR) traffic. For both, frame rate and frame size, it is not only possible to set constant values but to also to use random distributions. Furthermore, flows can be set up as on/off flows. Of course, the flow parameters can be configured individually per flow and flow direction. The measurement results can be recorded as scalar files (summary of the run) and vector files (time series). These files can be processed further, e.g. for detailed analysis and plotting of the results. The Wireshark network protocol analyser provides out-of-the-box support for analysing NetPerfMeter packet traffic. . This package contains the measurement program. Package: netperfmeter Version: 2.0.8-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 753 Depends: netperfmeter-common, libbz2-1.0, libc6 (>= 2.38), libgcc-s1 (>= 3.0), libsctp1 (>= 1.0.10+dfsg), libstdc++6 (>= 13.1) Recommends: hipercontracer, iproute2, libgnutls28-dev, netperfmeter-examples, netperfmeter-plotting, rsplib-tools, subnetcalc, tshark Suggests: dynmhs, iputils-tracepath, netperfmeter-service, ping | iputils-ping, td-system-tools, traceroute | inetutils-traceroute Filename: ppc64el/netperfmeter_2.0.8-1_ppc64el.deb Size: 237456 MD5sum: b3a2c04197c2a7dba84c11186eecec15 SHA1: 553089df929d06e34aa71094239ef59d025ec013 SHA256: cebe77af290b5592e258a9273edaa8db7bccef5d90d4534affd42fea41ec3d90 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/netperfmeter/ Description: Network Performance Meter (measurement program) NetPerfMeter is a network performance meter for the TCP, MPTCP, SCTP, UDP, DCCP, and QUIC transport protocols over IPv4 and IPv6. It simultaneously transmits bidirectional flows to an endpoint and measures the resulting flow bandwidths and QoS. Flows can be saturated (i.e. “send as much as possible” or non-saturated with frame rate and frame sizes (like a multimedia transmission). Non-saturated flows can be configured with constant or variable frame rate/frame size, i.e. to realise Constant Bit Rate (CBR) or Variable Bit Rate (VBR) traffic. For both, frame rate and frame size, it is not only possible to set constant values but to also to use random distributions. Furthermore, flows can be set up as on/off flows. Of course, the flow parameters can be configured individually per flow and flow direction. The measurement results can be recorded as scalar files (summary of the run) and vector files (time series). These files can be processed further, e.g. for detailed analysis and plotting of the results. The Wireshark network protocol analyser provides out-of-the-box support for analysing NetPerfMeter packet traffic. . This package contains the measurement program. Package: netperfmeter Version: 2.0.8-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 689 Depends: netperfmeter-common, libbz2-1.0, libc6 (>= 2.38), libgcc-s1 (>= 3.0), libsctp1 (>= 1.0.10+dfsg), libstdc++6 (>= 13.1) Recommends: hipercontracer, iproute2, libgnutls28-dev, netperfmeter-examples, netperfmeter-plotting, rsplib-tools, subnetcalc, tshark Suggests: dynmhs, iputils-tracepath, netperfmeter-service, ping | iputils-ping, td-system-tools, traceroute | inetutils-traceroute Filename: arm64/netperfmeter_2.0.8-1_arm64.deb Size: 216094 MD5sum: 301e66705712914e8fb06a7804c6cbe0 SHA1: 33ebb18a85589e0a8fe4279a50201e38182faea2 SHA256: 741c4df55bc9b66f88ddd90c87a0a5af86054d4d36294238bb43ad36f5afbc63 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/netperfmeter/ Description: Network Performance Meter (measurement program) NetPerfMeter is a network performance meter for the TCP, MPTCP, SCTP, UDP, DCCP, and QUIC transport protocols over IPv4 and IPv6. It simultaneously transmits bidirectional flows to an endpoint and measures the resulting flow bandwidths and QoS. Flows can be saturated (i.e. “send as much as possible” or non-saturated with frame rate and frame sizes (like a multimedia transmission). Non-saturated flows can be configured with constant or variable frame rate/frame size, i.e. to realise Constant Bit Rate (CBR) or Variable Bit Rate (VBR) traffic. For both, frame rate and frame size, it is not only possible to set constant values but to also to use random distributions. Furthermore, flows can be set up as on/off flows. Of course, the flow parameters can be configured individually per flow and flow direction. The measurement results can be recorded as scalar files (summary of the run) and vector files (time series). These files can be processed further, e.g. for detailed analysis and plotting of the results. The Wireshark network protocol analyser provides out-of-the-box support for analysing NetPerfMeter packet traffic. . This package contains the measurement program. Package: netperfmeter Version: 2.0.8-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 497 Depends: netperfmeter-common, libbz2-1.0, libc6 (>= 2.38), libgcc-s1 (>= 3.0), libsctp1 (>= 1.0.10+dfsg), libstdc++6 (>= 13.1) Recommends: hipercontracer, iproute2, libgnutls28-dev, netperfmeter-examples, netperfmeter-plotting, rsplib-tools, subnetcalc, tshark Suggests: dynmhs, iputils-tracepath, netperfmeter-service, ping | iputils-ping, td-system-tools, traceroute | inetutils-traceroute Filename: amd64/netperfmeter_2.0.8-1_amd64.deb Size: 224018 MD5sum: 4ac2009363ad7cb0ed57184f248c6844 SHA1: ba6f9d4276e2fd5cf8b8cd365daa36f4d7314059 SHA256: b89272ac9ba5673eaca892ac3c3f20752d07100878c80e3a774a1c83963c119d Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/netperfmeter/ Description: Network Performance Meter (measurement program) NetPerfMeter is a network performance meter for the TCP, MPTCP, SCTP, UDP, DCCP, and QUIC transport protocols over IPv4 and IPv6. It simultaneously transmits bidirectional flows to an endpoint and measures the resulting flow bandwidths and QoS. Flows can be saturated (i.e. “send as much as possible” or non-saturated with frame rate and frame sizes (like a multimedia transmission). Non-saturated flows can be configured with constant or variable frame rate/frame size, i.e. to realise Constant Bit Rate (CBR) or Variable Bit Rate (VBR) traffic. For both, frame rate and frame size, it is not only possible to set constant values but to also to use random distributions. Furthermore, flows can be set up as on/off flows. Of course, the flow parameters can be configured individually per flow and flow direction. The measurement results can be recorded as scalar files (summary of the run) and vector files (time series). These files can be processed further, e.g. for detailed analysis and plotting of the results. The Wireshark network protocol analyser provides out-of-the-box support for analysing NetPerfMeter packet traffic. . This package contains the measurement program. Package: netperfmeter-all Source: netperfmeter Version: 2.0.8-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 99 Depends: netperfmeter, netperfmeter-common, netperfmeter-examples, netperfmeter-plotting, netperfmeter-service, pdfproctools Filename: all/netperfmeter-all_2.0.8-1_all.deb Size: 93256 MD5sum: 3d3369284efe71a8d3d7ea8e19c14ec0 SHA1: b6434c32e64dcc73104a66e750cc9f6173ef7a43 SHA256: 27698ced0c608a8769b16ba1aa38ebd9a77c392712460c51ca612e754842906c Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/netperfmeter/ Description: NetPerfMeter metapackage for all sub-packages NetPerfMeter is a network performance meter for the TCP, MPTCP, SCTP, UDP, DCCP, and QUIC transport protocols over IPv4 and IPv6. It simultaneously transmits bidirectional flows to an endpoint and measures the resulting flow bandwidths and QoS. Flows can be saturated (i.e. “send as much as possible” or non-saturated with frame rate and frame sizes (like a multimedia transmission). Non-saturated flows can be configured with constant or variable frame rate/frame size, i.e. to realise Constant Bit Rate (CBR) or Variable Bit Rate (VBR) traffic. For both, frame rate and frame size, it is not only possible to set constant values but to also to use random distributions. Furthermore, flows can be set up as on/off flows. Of course, the flow parameters can be configured individually per flow and flow direction. The measurement results can be recorded as scalar files (summary of the run) and vector files (time series). These files can be processed further, e.g. for detailed analysis and plotting of the results. The Wireshark network protocol analyser provides out-of-the-box support for analysing NetPerfMeter packet traffic. . This metapackage installs all sub-packages of NetPerfMeter. Package: netperfmeter-common Source: netperfmeter Version: 2.0.8-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 1361 Filename: all/netperfmeter-common_2.0.8-1_all.deb Size: 994238 MD5sum: 587e138987aef6bf70ea6cf278e048b3 SHA1: 1467833d7fadf175dbd92a75f0fa78418da6e9eb SHA256: beeccac05c6fa21b7074710d3a2f4cc4d28ac18b9b56884f602c70913f9766de Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/netperfmeter/ Description: Network Performance Meter (common files) NetPerfMeter is a network performance meter for the TCP, MPTCP, SCTP, UDP, DCCP, and QUIC transport protocols over IPv4 and IPv6. It simultaneously transmits bidirectional flows to an endpoint and measures the resulting flow bandwidths and QoS. Flows can be saturated (i.e. “send as much as possible” or non-saturated with frame rate and frame sizes (like a multimedia transmission). Non-saturated flows can be configured with constant or variable frame rate/frame size, i.e. to realise Constant Bit Rate (CBR) or Variable Bit Rate (VBR) traffic. For both, frame rate and frame size, it is not only possible to set constant values but to also to use random distributions. Furthermore, flows can be set up as on/off flows. Of course, the flow parameters can be configured individually per flow and flow direction. The measurement results can be recorded as scalar files (summary of the run) and vector files (time series). These files can be processed further, e.g. for detailed analysis and plotting of the results. The Wireshark network protocol analyser provides out-of-the-box support for analysing NetPerfMeter packet traffic. . This package contains common NetPerfMeter files. Package: netperfmeter-examples Source: netperfmeter Version: 2.0.8-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 1894 Depends: r-base-core, r-cran-bit64, r-cran-data.table, r-cran-dplyr, r-cran-ggplot2, r-cran-r.utils Filename: all/netperfmeter-examples_2.0.8-1_all.deb Size: 1076624 MD5sum: e52e83cdefd97399306f7d204f83bbe1 SHA1: b56cfb0396cb24f57756181c18f1f97ef11734b6 SHA256: 210a6b19afa92241ab33fca8b0060716a46f709ea5d4083d978d4084a0e243dc Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/netperfmeter/ Description: Network Performance Meter (example scripts and results files) NetPerfMeter is a network performance meter for the TCP, MPTCP, SCTP, UDP, DCCP, and QUIC transport protocols over IPv4 and IPv6. It simultaneously transmits bidirectional flows to an endpoint and measures the resulting flow bandwidths and QoS. Flows can be saturated (i.e. “send as much as possible” or non-saturated with frame rate and frame sizes (like a multimedia transmission). Non-saturated flows can be configured with constant or variable frame rate/frame size, i.e. to realise Constant Bit Rate (CBR) or Variable Bit Rate (VBR) traffic. For both, frame rate and frame size, it is not only possible to set constant values but to also to use random distributions. Furthermore, flows can be set up as on/off flows. Of course, the flow parameters can be configured individually per flow and flow direction. The measurement results can be recorded as scalar files (summary of the run) and vector files (time series). These files can be processed further, e.g. for detailed analysis and plotting of the results. The Wireshark network protocol analyser provides out-of-the-box support for analysing NetPerfMeter packet traffic. . This package contains some NetPerfMeter example scripts and results files. Package: netperfmeter-plotting Source: netperfmeter Version: 2.0.8-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 212 Depends: pdfproctools, r-base-core, r-cran-bit64, r-cran-data.table, r-cran-dplyr, r-cran-ggplot2, r-cran-r.utils Recommends: netperfmeter-examples Filename: all/netperfmeter-plotting_2.0.8-1_all.deb Size: 113148 MD5sum: 6f46c6bf711ad1a5f51c7ae9b7fde0ef SHA1: 5c21098d874f55d2067ed827824f7fdbebe7c907 SHA256: 83b6948aa1b7de76058f47020362dc77a9dd51683ed7e580a65211675cc90746 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/netperfmeter/ Description: Network Performance Meter (plotting program) NetPerfMeter is a network performance meter for the TCP, MPTCP, SCTP, UDP, DCCP, and QUIC transport protocols over IPv4 and IPv6. It simultaneously transmits bidirectional flows to an endpoint and measures the resulting flow bandwidths and QoS. Flows can be saturated (i.e. “send as much as possible” or non-saturated with frame rate and frame sizes (like a multimedia transmission). Non-saturated flows can be configured with constant or variable frame rate/frame size, i.e. to realise Constant Bit Rate (CBR) or Variable Bit Rate (VBR) traffic. For both, frame rate and frame size, it is not only possible to set constant values but to also to use random distributions. Furthermore, flows can be set up as on/off flows. Of course, the flow parameters can be configured individually per flow and flow direction. The measurement results can be recorded as scalar files (summary of the run) and vector files (time series). These files can be processed further, e.g. for detailed analysis and plotting of the results. The Wireshark network protocol analyser provides out-of-the-box support for analysing NetPerfMeter packet traffic. . This package contains a plotting program for the results. Package: netperfmeter-service Source: netperfmeter Version: 2.0.8-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 112 Depends: netperfmeter Suggests: hipercontracer, hipercontracer-trigger, td-system-tools Filename: all/netperfmeter-service_2.0.8-1_all.deb Size: 94732 MD5sum: 954f473eeca689d7fa13e660e7305cae SHA1: ad6726781f3ea55db4e3fac3b35b0b87c817550d SHA256: f8c53e515f079df639e3b1ca600ad0b0cfaf9f52e2fa202c535fdf24aec4e896 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/netperfmeter/ Description: Network Performance Meter (server service) NetPerfMeter is a network performance meter for the TCP, MPTCP, SCTP, UDP, DCCP, and QUIC transport protocols over IPv4 and IPv6. It simultaneously transmits bidirectional flows to an endpoint and measures the resulting flow bandwidths and QoS. Flows can be saturated (i.e. “send as much as possible” or non-saturated with frame rate and frame sizes (like a multimedia transmission). Non-saturated flows can be configured with constant or variable frame rate/frame size, i.e. to realise Constant Bit Rate (CBR) or Variable Bit Rate (VBR) traffic. For both, frame rate and frame size, it is not only possible to set constant values but to also to use random distributions. Furthermore, flows can be set up as on/off flows. Of course, the flow parameters can be configured individually per flow and flow direction. The measurement results can be recorded as scalar files (summary of the run) and vector files (time series). These files can be processed further, e.g. for detailed analysis and plotting of the results. The Wireshark network protocol analyser provides out-of-the-box support for analysing NetPerfMeter packet traffic. . This package sets up a service running a NetPerfMeter server instance. Package: pdfproctools Source: netperfmeter Version: 2.0.8-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 125 Depends: ghostscript, libpdf-api2-perl, perl (>= 5.8.0), qpdf, perl:any Filename: all/pdfproctools_2.0.8-1_all.deb Size: 98954 MD5sum: aec94dd5dbe1f2dfacb1ef168872702e SHA1: 668eae3131a7be9cbed46d6771d1fc2729c84cf8 SHA256: 7ba8def25db471f57728445a293f199698453749672b3f4c16f6ad22a9da3cd6 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/netperfmeter/ Description: PDF Processing Tools This package contains tools for PDF file processing. . SetPDFMetadata updates the metadata of a PDF file. In particular, it can be used to add outlines (bookmarks) to a document. Furthermore, it can set the document properties (e.g. author, title, keywords, creator, producer). . PDFEmbedFonts embeds all referenced fonts into a PDF file. Optionally, it can also linearize the PDF file for online publication ("fast web view", "optimized"). Package: rsplib-all Source: rsplib Version: 3.5.10-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 130 Depends: libcpprspserver-dev (>= 3.5.10-1), libcpprspserver3t64 (= 3.5.10-1), librsplib-dev (>= 3.5.10-1), librsplib3t64 (= 3.5.10-1), rsplib-common (>= 3.5.10-1), rsplib-doc (>= 3.5.10-1), rsplib-fractalpooluser (= 3.5.10-1), rsplib-registrar (= 3.5.10-1), rsplib-services (= 3.5.10-1), rsplib-tools (= 3.5.10-1) Filename: s390x/rsplib-all_3.5.10-1_s390x.deb Size: 125718 MD5sum: e25274820e24730491b50cab328d8f3c SHA1: a6c36acb5658b8f7b312e669b90050a012fe128b SHA256: ea0c5f8335e2c3f3bd6dbaf1335c8749b28777c329bcc5ccbfadbd2cfb762f44 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool implementation RSPLIB Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This is the installation metapackage for the RSerPool implementation RSPLIB. It installs all RSPLIB components. Package: rsplib-all Source: rsplib Version: 3.5.10-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 130 Depends: libcpprspserver-dev (>= 3.5.10-1), libcpprspserver3t64 (= 3.5.10-1), librsplib-dev (>= 3.5.10-1), librsplib3t64 (= 3.5.10-1), rsplib-common (>= 3.5.10-1), rsplib-doc (>= 3.5.10-1), rsplib-fractalpooluser (= 3.5.10-1), rsplib-registrar (= 3.5.10-1), rsplib-services (= 3.5.10-1), rsplib-tools (= 3.5.10-1) Filename: ppc64el/rsplib-all_3.5.10-1_ppc64el.deb Size: 125720 MD5sum: 363136b80ed93a01ab59bcd357f24424 SHA1: bbf754e8b58c336d3fa1d5505df73f9fd96795ac SHA256: 91e762d3e9e3d92efd2a4874968866d64fc5647cf2f7d46ad1eb006cd16f9b49 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool implementation RSPLIB Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This is the installation metapackage for the RSerPool implementation RSPLIB. It installs all RSPLIB components. Package: rsplib-all Source: rsplib Version: 3.5.10-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 130 Depends: libcpprspserver-dev (>= 3.5.10-1), libcpprspserver3t64 (= 3.5.10-1), librsplib-dev (>= 3.5.10-1), librsplib3t64 (= 3.5.10-1), rsplib-common (>= 3.5.10-1), rsplib-doc (>= 3.5.10-1), rsplib-fractalpooluser (= 3.5.10-1), rsplib-registrar (= 3.5.10-1), rsplib-services (= 3.5.10-1), rsplib-tools (= 3.5.10-1) Filename: arm64/rsplib-all_3.5.10-1_arm64.deb Size: 125714 MD5sum: 1e61b6a0cd0373b03b829f53e717ce6c SHA1: 848d737c6b0fbe3ab7884c0b6c070e803b6d7458 SHA256: 687fc199a5fde065261bb0aa752b65c934bf92273e83d01e350ff552caf35b30 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool implementation RSPLIB Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This is the installation metapackage for the RSerPool implementation RSPLIB. It installs all RSPLIB components. Package: rsplib-all Source: rsplib Version: 3.5.10-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 130 Depends: libcpprspserver-dev (>= 3.5.10-1), libcpprspserver3t64 (= 3.5.10-1), librsplib-dev (>= 3.5.10-1), librsplib3t64 (= 3.5.10-1), rsplib-common (>= 3.5.10-1), rsplib-doc (>= 3.5.10-1), rsplib-fractalpooluser (= 3.5.10-1), rsplib-registrar (= 3.5.10-1), rsplib-services (= 3.5.10-1), rsplib-tools (= 3.5.10-1) Filename: amd64/rsplib-all_3.5.10-1_amd64.deb Size: 125714 MD5sum: 33b78478ec6a99d30f455d07cfe67574 SHA1: 8777d073843fcf51f0caa89c5c93cedabcb1cad5 SHA256: 1e43e41f8c7c46a9a54d8052e91d2393d5235ece60bfbbb9beebf663ee8e7e7c Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool implementation RSPLIB Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This is the installation metapackage for the RSerPool implementation RSPLIB. It installs all RSPLIB components. Package: rsplib-common Source: rsplib Version: 3.5.10-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 1093 Recommends: rsplib-tools Breaks: rsplib-fgp-cfgfiles (<< 3.5.10-1) Replaces: rsplib-fgp-cfgfiles Provides: rsplib-fgp-cfgfiles Filename: all/rsplib-common_3.5.10-1_all.deb Size: 620230 MD5sum: e4bdbdb07b3d7e0353c6dec827edbfcf SHA1: b44de2f36945acbcf7b25728058d9582449e417b SHA256: f46aba76d8eead15eca667e181699c29006bd3cffb06d6d2a38e529797aab400 Section: net Priority: optional Multi-Arch: foreign Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool Fractal Generator Service example input files Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides common files for the example service. Package: rsplib-doc Source: rsplib Version: 3.5.10-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 334 Recommends: rsplib-tools Replaces: rsplib-docs Provides: rsplib-docs Filename: all/rsplib-doc_3.5.10-1_all.deb Size: 331884 MD5sum: 29cfac8a38eb1e27905bfd269e2e02f9 SHA1: 4700a00ac323d1a6de8e1569ac7e659c2c8ad779 SHA256: 62bfad442956b33de0b9a82f0c8a3d54eae94280ba9e648ddac6aae7abd12026 Section: doc Priority: optional Multi-Arch: foreign Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: documentation of the RSerPool implementation RSPLIB Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package contains the documentation for the RSerPool implementation RSPLIB. Package: rsplib-fractalpooluser Source: rsplib Version: 3.5.10-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 224 Depends: rsplib-common (>= 3.5.10-1), rsplib-tools (= 3.5.10-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6widgets6 (>= 6.3.0), libqt6xml6 (>= 6.6.0), librsplib3t64 (>= 2.7.8), libstdc++6 (>= 13.1) Recommends: rsplib-doc (>= 3.5.10-1), rsplib-services (= 3.5.10-1) Breaks: rsplib-services (<< 3.5.1) Replaces: rsplib-services (<< 3.5.1) Filename: s390x/rsplib-fractalpooluser_3.5.10-1_s390x.deb Size: 155998 MD5sum: 76a07f948758888a8fcd22fe608c4a48 SHA1: c7a54321edd67788a1370cd8b3c0a6284a28ff87 SHA256: 22085c5b8d015988435a1c538c393ecd93256a27643225704a904a47b57cb12b Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool-based fractal generator client Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the provides the Pool User client for the FractalGenerator service. Is uses a Qt-based GUI. Package: rsplib-fractalpooluser Source: rsplib Version: 3.5.10-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 284 Depends: rsplib-common (>= 3.5.10-1), rsplib-tools (= 3.5.10-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6widgets6 (>= 6.3.0), libqt6xml6 (>= 6.6.0), librsplib3t64 (>= 2.7.8), libstdc++6 (>= 13.1) Recommends: rsplib-doc (>= 3.5.10-1), rsplib-services (= 3.5.10-1) Breaks: rsplib-services (<< 3.5.1) Replaces: rsplib-services (<< 3.5.1) Filename: ppc64el/rsplib-fractalpooluser_3.5.10-1_ppc64el.deb Size: 158428 MD5sum: f0541443e3424b7a88d76e07e83c928e SHA1: e52f13113df722e52cc73dfb419b6992d78f96e9 SHA256: 13041fb7d8b03a94e5fd9ae8fc0d909fc79bf1c744e45867ff68afc36c4c2038 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool-based fractal generator client Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the provides the Pool User client for the FractalGenerator service. Is uses a Qt-based GUI. Package: rsplib-fractalpooluser Source: rsplib Version: 3.5.10-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 284 Depends: rsplib-common (>= 3.5.10-1), rsplib-tools (= 3.5.10-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6widgets6 (>= 6.3.0), libqt6xml6 (>= 6.6.0), librsplib3t64 (>= 2.7.8), libstdc++6 (>= 13.1) Recommends: rsplib-doc (>= 3.5.10-1), rsplib-services (= 3.5.10-1) Breaks: rsplib-services (<< 3.5.1) Replaces: rsplib-services (<< 3.5.1) Filename: arm64/rsplib-fractalpooluser_3.5.10-1_arm64.deb Size: 155548 MD5sum: 13e293a5dc4166c6165de58bd65bceba SHA1: df6e1c7d4166409448de4791fb96202d12b5192f SHA256: 25e40dbcdadaf31910f86897e92f636873fda851e40099082e9f1cb8b45eb7bd Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool-based fractal generator client Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the provides the Pool User client for the FractalGenerator service. Is uses a Qt-based GUI. Package: rsplib-fractalpooluser Source: rsplib Version: 3.5.10-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 232 Depends: rsplib-common (>= 3.5.10-1), rsplib-tools (= 3.5.10-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libqt6core6t64 (>= 6.10.2), libqt6gui6 (>= 6.1.2), libqt6widgets6 (>= 6.3.0), libqt6xml6 (>= 6.6.0), librsplib3t64 (>= 2.7.8), libstdc++6 (>= 13.1) Recommends: rsplib-doc (>= 3.5.10-1), rsplib-services (= 3.5.10-1) Breaks: rsplib-services (<< 3.5.1) Replaces: rsplib-services (<< 3.5.1) Filename: amd64/rsplib-fractalpooluser_3.5.10-1_amd64.deb Size: 155678 MD5sum: 58113a221d6dc3aaf41cd88fd0c036a0 SHA1: f6704ecc192053cd8398182ffa8df62b8754d892 SHA256: 8f65718b5c9ec1e82867aa349022b76e5821ae68aa06fd53e4188fb0f68c8b9d Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool-based fractal generator client Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the provides the Pool User client for the FractalGenerator service. Is uses a Qt-based GUI. Package: rsplib-registrar Source: rsplib Version: 3.5.10-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 280 Depends: libbz2-1.0, libc6 (>= 2.38), librsplib3t64 (>= 3.4.9) Recommends: rsplib-doc (>= 3.5.10-1) Filename: s390x/rsplib-registrar_3.5.10-1_s390x.deb Size: 176702 MD5sum: 7b9ac183d52e3110960fdcfeb7ac1d41 SHA1: 0fa87b7ee8d90aac5da40df205d64f8bdb07cbd3 SHA256: 75c3c3badc83c431346c9575a06011273864cca7e072292d8d1308cfd9d2a25b Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool Registrar service Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the registrar, which is the management component for RSerPool-based server pools. You need at least one registrar in a setup, but for redundancy reasons, you should have at least two. Package: rsplib-registrar Source: rsplib Version: 3.5.10-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 348 Depends: libbz2-1.0, libc6 (>= 2.38), librsplib3t64 (>= 3.4.9) Recommends: rsplib-doc (>= 3.5.10-1) Filename: ppc64el/rsplib-registrar_3.5.10-1_ppc64el.deb Size: 180684 MD5sum: b2c68d2a020b5a60c2f39c38f61ee5e7 SHA1: 45c2b5b9da5cd1225f26a01865c0d105a3ceb134 SHA256: edfa9c5fd664a14d7f5cbc2174ab449db776292b9ea785a155ca97b1cf2b986e Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool Registrar service Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the registrar, which is the management component for RSerPool-based server pools. You need at least one registrar in a setup, but for redundancy reasons, you should have at least two. Package: rsplib-registrar Source: rsplib Version: 3.5.10-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 284 Depends: libbz2-1.0, libc6 (>= 2.38), librsplib3t64 (>= 3.4.9) Recommends: rsplib-doc (>= 3.5.10-1) Filename: arm64/rsplib-registrar_3.5.10-1_arm64.deb Size: 173530 MD5sum: 46750ff8e860bf2c3d47c42836738ab1 SHA1: a851adbc65b70d450ef0a39c632ea6e4b059df3e SHA256: 795c64a45f974d2543825adb4485d5cfc6ba1313e2e55c99c73db7e6b0e1ef54 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool Registrar service Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the registrar, which is the management component for RSerPool-based server pools. You need at least one registrar in a setup, but for redundancy reasons, you should have at least two. Package: rsplib-registrar Source: rsplib Version: 3.5.10-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 284 Depends: libbz2-1.0, libc6 (>= 2.38), librsplib3t64 (>= 3.4.9) Recommends: rsplib-doc (>= 3.5.10-1) Filename: amd64/rsplib-registrar_3.5.10-1_amd64.deb Size: 176950 MD5sum: 070b0227d76fc9e6bca0976c45e0e9c6 SHA1: c07fe50cf6ea0525a691d4a2e622699250028426 SHA256: 7d68321d9a9def3baa6c2448d48487c59be61b55d2408c9ad48da0e4e2832488 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool Registrar service Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the registrar, which is the management component for RSerPool-based server pools. You need at least one registrar in a setup, but for redundancy reasons, you should have at least two. Package: rsplib-services Source: rsplib Version: 3.5.10-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 239 Depends: rsplib-common (>= 3.5.10-1), rsplib-tools (= 3.5.10-1), libc6 (>= 2.38), libgcc-s1 (>= 4.2), librsplib3t64 (>= 2.7.8), libstdc++6 (>= 13.1) Recommends: rsplib-doc (>= 3.5.10-1) Suggests: rsplib-fractalpooluser Filename: s390x/rsplib-services_3.5.10-1_s390x.deb Size: 160160 MD5sum: f94aaaa2566a7de4812594ada81a9578 SHA1: aec9f3103d87dacfcb3ac051065069f9cb139f30 SHA256: 9f24a02aa78b7548d18d646fb6124af9dcee4491445dd90817bb929a9afc49be Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool example services Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the rsplib RSerPool example services: Echo, Discard, Daytime, CharGen, CalcApp, and ScriptingService. Package: rsplib-services Source: rsplib Version: 3.5.10-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 371 Depends: rsplib-common (>= 3.5.10-1), rsplib-tools (= 3.5.10-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), librsplib3t64 (>= 2.7.8), libstdc++6 (>= 13.1) Recommends: rsplib-doc (>= 3.5.10-1) Suggests: rsplib-fractalpooluser Filename: ppc64el/rsplib-services_3.5.10-1_ppc64el.deb Size: 162484 MD5sum: 7e17f49c0a1fadd08c92c5fd4d1b6677 SHA1: 561378315b9af9221d71b2773edc77c8b9de70ef SHA256: 2a30520c08ab6bf5a751d31858fbbaeb95bf2539f9454302aacef37d59101005 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool example services Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the rsplib RSerPool example services: Echo, Discard, Daytime, CharGen, CalcApp, and ScriptingService. Package: rsplib-services Source: rsplib Version: 3.5.10-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 371 Depends: rsplib-common (>= 3.5.10-1), rsplib-tools (= 3.5.10-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), librsplib3t64 (>= 2.7.8), libstdc++6 (>= 13.1) Recommends: rsplib-doc (>= 3.5.10-1) Suggests: rsplib-fractalpooluser Filename: arm64/rsplib-services_3.5.10-1_arm64.deb Size: 159098 MD5sum: 31f26cfe9d75290422fc3385604acae7 SHA1: 54b5f774233c65f3aecc1ff619282c18cdce3d6d SHA256: 22cd707e033a792b90945888b69f6a94ec2c51a7828ad8aca91ab3a4a2e63e41 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool example services Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the rsplib RSerPool example services: Echo, Discard, Daytime, CharGen, CalcApp, and ScriptingService. Package: rsplib-services Source: rsplib Version: 3.5.10-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 255 Depends: rsplib-common (>= 3.5.10-1), rsplib-tools (= 3.5.10-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), librsplib3t64 (>= 2.7.8), libstdc++6 (>= 13.1) Recommends: rsplib-doc (>= 3.5.10-1) Suggests: rsplib-fractalpooluser Filename: amd64/rsplib-services_3.5.10-1_amd64.deb Size: 160674 MD5sum: 05e9307824fbda9637bb5321b29c7bd7 SHA1: 52b2707841801b9971036fde39d7be73d925275e SHA256: 4f9a29c401808a2994a4badb478399448dc078d453ef043aa8f6494ffd0d9203 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool example services Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides the rsplib RSerPool example services: Echo, Discard, Daytime, CharGen, CalcApp, and ScriptingService. Package: rsplib-tools Source: rsplib Version: 3.5.10-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 300 Depends: libc6 (>= 2.38), libcpprspserver3t64 (>= 2.7.8), libgcc-s1 (>= 4.0), librsplib3t64 (>= 3.4.9), libstdc++6 (>= 13.1) Recommends: chrpath, rsplib-doc (>= 3.5.10-1) Filename: s390x/rsplib-tools_3.5.10-1_s390x.deb Size: 181696 MD5sum: 254cf07e2c5384c2e1f851be9f27f7d6 SHA1: e7eeb4ad9e94f55f7f5220ab53f12533716bb38e SHA256: f0338849d04690e517f8b9c5b3d29cfc083e728bc4063130f4b1474f7bf79466 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool test tools Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides some test tools for RSerPool setups. Package: rsplib-tools Source: rsplib Version: 3.5.10-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 496 Depends: libc6 (>= 2.38), libcpprspserver3t64 (>= 2.7.8), libgcc-s1 (>= 4.0), librsplib3t64 (>= 3.4.9), libstdc++6 (>= 13.1) Recommends: chrpath, rsplib-doc (>= 3.5.10-1) Filename: ppc64el/rsplib-tools_3.5.10-1_ppc64el.deb Size: 188820 MD5sum: 035846f6612baa9c3ef9ef5f5d3c7ba8 SHA1: 06805ef99b3b0553ef30ff0b996f5bdd7ee4dc8a SHA256: 14fdf675b6f164d682b66985a83e970c2ab012aef34df0e8e20946684d8aea1d Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool test tools Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides some test tools for RSerPool setups. Package: rsplib-tools Source: rsplib Version: 3.5.10-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 496 Depends: libc6 (>= 2.38), libcpprspserver3t64 (>= 2.7.8), libgcc-s1 (>= 4.0), librsplib3t64 (>= 3.4.9), libstdc++6 (>= 13.1) Recommends: chrpath, rsplib-doc (>= 3.5.10-1) Filename: arm64/rsplib-tools_3.5.10-1_arm64.deb Size: 179748 MD5sum: 45259938b3f5db6f439098980bffb000 SHA1: ab4973f5282a772e0e86f752fb0f960d5fdc2e32 SHA256: d382b90297d586fff1fefb2255c42eed677bfde940ceb62a2e8feb98214cbe1e Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool test tools Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides some test tools for RSerPool setups. Package: rsplib-tools Source: rsplib Version: 3.5.10-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 316 Depends: libc6 (>= 2.38), libcpprspserver3t64 (>= 2.7.8), libgcc-s1 (>= 4.0), librsplib3t64 (>= 3.4.9), libstdc++6 (>= 13.1) Recommends: chrpath, rsplib-doc (>= 3.5.10-1) Filename: amd64/rsplib-tools_3.5.10-1_amd64.deb Size: 181876 MD5sum: 8b5ec464398c79af907a238fe76ad4ad SHA1: 105a01a01089acb2c45dc9988fc4955790c08a8e SHA256: f31bab4f4564216bc41b05720c63f805a468fc7137a23d94eac0e04f59a96e29 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/ Description: RSerPool test tools Reliable Server Pooling (RSerPool) is the IETF's standard (RFC 5351 to RFC 5356) for a lightweight server pool and session management framework. It provides highly available pool management (that is registration handling and load distribution/balancing) by components called Registrar and a client-side/server-side API for accessing the service of a pool. . This package provides some test tools for RSerPool setups. Package: sctplib-doc Source: sctplib Version: 1:1.0.35-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 190 Depends: libsctplib1 Conflicts: sctplib-stable-doc Replaces: sctplib-docs Provides: sctplib-docs Filename: all/sctplib-doc_1.0.35-1_all.deb Size: 183400 MD5sum: 22ea72cfd6c8c4b1f7527a6c429cc360 SHA1: 321015b04ca957215628b24b7524974a3eee74e8 SHA256: 61c94537e5355cc9b141187ef5f72956204ef6b6460831a90cbda527a4df5948 Section: doc Priority: optional Homepage: https://www.nntb.no/~dreibh/sctplib/index.html Description: Documentation of the user-space SCTP implementation SCTPLIB This package contains documentation files for SCTPLIB. . The SCTPLIB library is a fairly complete prototype implementation of the Stream Control Transmission Protocol (SCTP), a message-oriented reliable transport protocol that supports multi-homing, and multiple message streams multiplexed within an SCTP connection (also named association). SCTP is described in RFC 4960. This implementation is the product of a cooperation between Siemens AG (ICN), Munich, Germany and the Computer Networking Technology Group at the IEM of the University of Essen, Germany. Package: subnetcalc Version: 2.7.4-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 119 Depends: libc6 (>= 2.42), libgcc-s1 (>= 3.3.1), libmaxminddb0 (>= 1.0.2), libstdc++6 (>= 13.1) Recommends: iproute2, iputils-tracepath, ping | iputils-ping, rsplib-tools, traceroute | inetutils-traceroute, whois Filename: s390x/subnetcalc_2.7.4-1_s390x.deb Size: 56860 MD5sum: ee7ebb92c794b8592c96a143cbb8c337 SHA1: b7b354b091083e6255e920f90851f862ca6ee419 SHA256: de05c57b74d8fdcd47233be406574ded14a9c3cb624e9bb1152e31ac00438699 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/subnetcalc/ Description: IPv4/IPv6 Subnet Calculator SubNetCalc is an IPv4/IPv6 subnet address calculator. For given IPv4 or IPv6 address and netmask or prefix length, it calculates network address, broadcast address, maximum number of hosts and host address range. The output is colourized for better readability (e.g. network part, host part). Also, it prints the addresses in binary format for better understandability. Furthermore, it can identify the address type (e.g. multicast, unique local, site local, etc.) and extract additional information from the address (e.g. type, scope, interface ID, etc.). Finally, it can generate IPv6 unique local prefixes. Package: subnetcalc Version: 2.7.4-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 143 Depends: libc6 (>= 2.42), libgcc-s1 (>= 3.3.1), libmaxminddb0 (>= 1.0.2), libstdc++6 (>= 13.1) Recommends: iproute2, iputils-tracepath, ping | iputils-ping, rsplib-tools, traceroute | inetutils-traceroute, whois Filename: ppc64el/subnetcalc_2.7.4-1_ppc64el.deb Size: 58574 MD5sum: 8c42924f32321d564c87225e5e6794d1 SHA1: ac8766f325676753bffe3436f9276ec38d36d4a8 SHA256: 736e6e6e7f32bdd9387207014161ddcc886211e5fde416225e30228f815caa79 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/subnetcalc/ Description: IPv4/IPv6 Subnet Calculator SubNetCalc is an IPv4/IPv6 subnet address calculator. For given IPv4 or IPv6 address and netmask or prefix length, it calculates network address, broadcast address, maximum number of hosts and host address range. The output is colourized for better readability (e.g. network part, host part). Also, it prints the addresses in binary format for better understandability. Furthermore, it can identify the address type (e.g. multicast, unique local, site local, etc.) and extract additional information from the address (e.g. type, scope, interface ID, etc.). Finally, it can generate IPv6 unique local prefixes. Package: subnetcalc Version: 2.7.4-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 143 Depends: libc6 (>= 2.42), libgcc-s1 (>= 3.3.1), libmaxminddb0 (>= 1.0.2), libstdc++6 (>= 13.1) Recommends: iproute2, iputils-tracepath, ping | iputils-ping, rsplib-tools, traceroute | inetutils-traceroute, whois Filename: arm64/subnetcalc_2.7.4-1_arm64.deb Size: 56262 MD5sum: 1d7f1b189d46761c8b4e538fc12bfd14 SHA1: 9c531644e63e959e0e32f372bce46b488cb1090f SHA256: bfc2057cb62a1a0c66d9691caa0aa5b31cff0ebf6b910dd996fc1f3465389a45 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/subnetcalc/ Description: IPv4/IPv6 Subnet Calculator SubNetCalc is an IPv4/IPv6 subnet address calculator. For given IPv4 or IPv6 address and netmask or prefix length, it calculates network address, broadcast address, maximum number of hosts and host address range. The output is colourized for better readability (e.g. network part, host part). Also, it prints the addresses in binary format for better understandability. Furthermore, it can identify the address type (e.g. multicast, unique local, site local, etc.) and extract additional information from the address (e.g. type, scope, interface ID, etc.). Finally, it can generate IPv6 unique local prefixes. Package: subnetcalc Version: 2.7.4-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 123 Depends: libc6 (>= 2.42), libgcc-s1 (>= 3.3.1), libmaxminddb0 (>= 1.0.2), libstdc++6 (>= 13.1) Recommends: iproute2, iputils-tracepath, ping | iputils-ping, rsplib-tools, traceroute | inetutils-traceroute, whois Filename: amd64/subnetcalc_2.7.4-1_amd64.deb Size: 57132 MD5sum: 9088d3a8f9fe11cc4996ab42e411e08e SHA1: b1c74b86f9ce7112ebd6c26e7139d64d65c5ae26 SHA256: c9e389fc965f964a5e127cef0a02e8163e720c89c672f50fec9404be6c0e6c93 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/subnetcalc/ Description: IPv4/IPv6 Subnet Calculator SubNetCalc is an IPv4/IPv6 subnet address calculator. For given IPv4 or IPv6 address and netmask or prefix length, it calculates network address, broadcast address, maximum number of hosts and host address range. The output is colourized for better readability (e.g. network part, host part). Also, it prints the addresses in binary format for better understandability. Furthermore, it can identify the address type (e.g. multicast, unique local, site local, etc.) and extract additional information from the address (e.g. type, scope, interface ID, etc.). Finally, it can generate IPv6 unique local prefixes. Package: td-build-tool Source: td-build-tools Version: 0.4.3-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 142 Depends: blhc, build-essential, debhelper, debian-archive-keyring, debian-ports-archive-keyring, distro-info, gnupg2, pbuilder, pigz, python3 (>= 3.9), python3-distro, python3-urllib3, reprepro Recommends: licenserecon, rpm, rpmlint, td-system-info, td-system-maintenance Filename: all/td-build-tool_0.4.3-1_all.deb Size: 41114 MD5sum: 394f163b365e2bc695f057b4448ae946 SHA1: 7331968247f32ccbbdda7c7355e627b6f1da1ace SHA256: c8b4c81ce62c765553c72f4131519a08c4c472b52ec5a4dd1d470c56c94eef61 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/build-tools/ Description: Build Tool Build Tool is a tool to help creating and maintaining package builds for Debian/Ubuntu, Fedora, FreeBSD and other systems. It performs the following tasks: creating a source tarball, creating a source package (Debian/Ubuntu, Fedora, etc.), building binary packages from the source package (including cross-architecture builds). Package: td-build-tools Version: 0.4.3-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 31 Depends: td-build-tool, td-version-bump Recommends: td-system-tools Filename: all/td-build-tools_0.4.3-1_all.deb Size: 23150 MD5sum: 3f2c02898b4422ee288da5738fb0ea99 SHA1: bce086f79b9c20663503ffd2493f24b349227245 SHA256: 2d925912055e0a216a051053149c77634cd183d60f3d571b3ade4000aa75ebf2 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/build-tools/ Description: Metapackage for build tools This package is a metapackage for the build tools. Package: td-build-tools-example-programs Source: td-build-tools-template Version: 0.1.3-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 56 Depends: libexamplelibrary0 (= 0.1.3-1), libc6 (>= 2.34), libstdc++6 (>= 13.1) Filename: s390x/td-build-tools-example-programs_0.1.3-1_s390x.deb Size: 14708 MD5sum: ebe3db075705487852eca637cfa2d68b SHA1: d4d22f3174f8502e68e7ef22e3c88aef4ef944bc SHA256: c8233a288723314f8c5460424757171ae52adfc42d90234bfeb9900f98e0b1ed Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Build tools example programs These are simple example programs and files to be build and packaged by Build Tool. Package: td-build-tools-example-programs Source: td-build-tools-template Version: 0.1.3-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 172 Depends: libexamplelibrary0 (= 0.1.3-1), libc6 (>= 2.34), libstdc++6 (>= 13.1) Filename: ppc64el/td-build-tools-example-programs_0.1.3-1_ppc64el.deb Size: 14784 MD5sum: ea95000c5254b7591e9f31a9c18d0e31 SHA1: 1f226755a220a40b5e71b72c1b28653f89c5a45a SHA256: 496a6bb3d70d1a0cad7a6767c202846bb5c1d879bf408a6c1de3e67bac463e1f Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Build tools example programs These are simple example programs and files to be build and packaged by Build Tool. Package: td-build-tools-example-programs Source: td-build-tools-template Version: 0.1.3-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 172 Depends: libexamplelibrary0 (= 0.1.3-1), libc6 (>= 2.34), libstdc++6 (>= 13.1) Filename: arm64/td-build-tools-example-programs_0.1.3-1_arm64.deb Size: 14612 MD5sum: f02576a73ebfb2a85997fde32a2c7b02 SHA1: fc67934b689fc4ed42084d642313c24c8e95f317 SHA256: 3c62ded6e8f8df199124f3c2b5f5fbb0e0037222638536355546a33524cbc9db Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Build tools example programs These are simple example programs and files to be build and packaged by Build Tool. Package: td-build-tools-example-programs Source: td-build-tools-template Version: 0.1.3-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 68 Depends: libexamplelibrary0 (= 0.1.3-1), libc6 (>= 2.34), libstdc++6 (>= 13.1) Filename: amd64/td-build-tools-example-programs_0.1.3-1_amd64.deb Size: 14500 MD5sum: 548a455bbbd1e7c7afa42d6212f15fc3 SHA1: ea1b5ffbfb18b276e74da41343be4718d2f07950 SHA256: 038b21f02d55fcd171a2ec62ba030b61c72261359561a0c1b37fc3ea2e2d603c Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Build tools example programs These are simple example programs and files to be build and packaged by Build Tool. Package: td-build-tools-example-scripts Source: td-build-tools-template Version: 0.1.3-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 800 Depends: gettext-base, python3 Filename: all/td-build-tools-example-scripts_0.1.3-1_all.deb Size: 721116 MD5sum: a4667aefa166da81f40265b9120aae3d SHA1: b37ff754d9a21b84f6368a09afbc42b635f357f8 SHA256: c2c3ff2afb3c9b275028e1e25a8fb2cd93f9de13770467c638b292efeb5a89e6 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Build tools example scripts These are simple example scripts and files to be build and packaged by Build Tool. Package: td-build-tools-template Version: 0.1.3-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 16 Filename: all/td-build-tools-template_0.1.3-1_all.deb Size: 7478 MD5sum: d7a953a2772e3530eaeda25307a2dfb9 SHA1: b823ea3d2031ac66193c9d94b8a569b9746a725b SHA256: bb2dbb9d9d7b90e1fe80441f59d463da070b5b970daf8cbfe0d5cfc5bb085c01 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/build-tools-template/ Description: Build tools template metapackage This is a metapackage to install the simple example programs, scripts, and files packaged by Build Tool. Package: td-fingerprint-ssh-keys Source: td-system-tools Version: 2.7.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 115 Depends: gettext-base Recommends: td-system-info Filename: all/td-fingerprint-ssh-keys_2.7.6-1_all.deb Size: 88646 MD5sum: 757f9ac84f12594f012c4775b502d99d SHA1: ac90143152f12457bcc346f7f6788a680180006c SHA256: 52aad20014bc987c0ee42b85d3addfa56032ae1dad89b58a1462e162d57e5cd1 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Print SSH key fingerprints This program prints the SSH key fingerprints of the local machine in different formats: SSH hash, DNS SSHFP RR. Package: td-fingerprint-ssh-keys Source: td-system-tools Version: 2.7.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 116 Depends: gettext-base Recommends: td-system-info Filename: all/td-fingerprint-ssh-keys_2.7.7-1_all.deb Size: 89662 MD5sum: 0f2209f38930505b2a4026d9449c9d50 SHA1: b86dd75e45d8d286a58993c555d4316773ffef95 SHA256: bc300480228e8d28d82288f9e925c104f66300fd01c9c3dd8cc3ff1ba4cf5d43 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Print SSH key fingerprints This program prints the SSH key fingerprints of the local machine in different formats: SSH hash, DNS SSHFP RR. Package: td-get-system-info Source: td-system-tools Version: 2.7.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 120 Depends: libc6 (>= 2.38) Filename: s390x/td-get-system-info_2.7.6-1_s390x.deb Size: 93594 MD5sum: 44ebf8b99eedac4420f0de211663a3db SHA1: c42609f648f4a5d28824fa43b49eded8b0435fa0 SHA256: 5682480c8027b5d31a3e822d1838ecc22326327addbf3a696720c3589bb2736a Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Obtain basic system information This small program obtains basic status information about the system: hostname, uptime, CPU, memory statistics, and networking information. The output is printed in machine-readable form, which can be evaluated in shell scripts for further processing. Package: td-get-system-info Source: td-system-tools Version: 2.7.7-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 169 Depends: libc6 (>= 2.38) Filename: ppc64el/td-get-system-info_2.7.7-1_ppc64el.deb Size: 95882 MD5sum: 4d69b27a7ea6ba01caef44b373638490 SHA1: 9ca9b9324cceac8c2c4d02b5c293a79208c7ff71 SHA256: a5da0d18b52ca8c523c2f57558daffa29c4f39f940ce793f6134dca1c42ee3ea Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Obtain basic system information This small program obtains basic status information about the system: hostname, uptime, CPU, memory statistics, and networking information. The output is printed in machine-readable form, which can be evaluated in shell scripts for further processing. Package: td-get-system-info Source: td-system-tools Version: 2.7.7-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 169 Depends: libc6 (>= 2.38) Filename: arm64/td-get-system-info_2.7.7-1_arm64.deb Size: 94972 MD5sum: 01f3a0cd88589a19bb779393d8db88f7 SHA1: 3b3a44ec962fd63a6c9b7ac9c8be06e0989b9a27 SHA256: 09e8d91c8f293a4f9cb95a593487efc176a12ee24a5592f79ab12d34c41d11c1 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Obtain basic system information This small program obtains basic status information about the system: hostname, uptime, CPU, memory statistics, and networking information. The output is printed in machine-readable form, which can be evaluated in shell scripts for further processing. Package: td-get-system-info Source: td-system-tools Version: 2.7.7-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 129 Depends: libc6 (>= 2.38) Filename: amd64/td-get-system-info_2.7.7-1_amd64.deb Size: 94844 MD5sum: 06881d44840bc8df6d2ba987ad711aa2 SHA1: d30a8f5ed83284e8e97267a9c0ef5d93daa1db62 SHA256: 781515c02cf9457a25c21f22cb742bc39892af1d0caef1fc1de7b2620f7f7826 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Obtain basic system information This small program obtains basic status information about the system: hostname, uptime, CPU, memory statistics, and networking information. The output is printed in machine-readable form, which can be evaluated in shell scripts for further processing. Package: td-gimp-scripts Source: td-system-tools Version: 2.7.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 289 Depends: fontconfig, gimp, graphicsmagick Recommends: clifractgen, fonts-lobstertwo, fonts-open-sans, fonts-urw-base35 Suggests: td-gimp-scripts-examples Filename: all/td-gimp-scripts_2.7.6-1_all.deb Size: 122426 MD5sum: e21c556efdf236af00c810012c620591 SHA1: c153a9e7b1836370ff2283d81ba7acb0aa0be9cf SHA256: 6b67bcafff0c60e246dbb95b8c6459ba0ce713672dc231feadae3c69dc05ba0a Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: GIMP image processing scripts This package contains some GIMP scripts for automated image processing. The main purpose of this script is to generate background images for desktops, boot splashes, etc. with some branding. Package: td-gimp-scripts Source: td-system-tools Version: 2.7.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 290 Depends: fontconfig, gimp, graphicsmagick Recommends: clifractgen, fonts-lobstertwo, fonts-open-sans, fonts-urw-base35 Suggests: td-gimp-scripts-examples Filename: all/td-gimp-scripts_2.7.7-1_all.deb Size: 123536 MD5sum: 711e4e3a60928c84853c8be6b514b74d SHA1: e39771dbe9ad1b8079424ef486757cc97b766cbe SHA256: 58d52af3cbb5c835949ba1858ec2dadc93ae9b86ee65933d9aafe93c555ecf38 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: GIMP image processing scripts This package contains some GIMP scripts for automated image processing. The main purpose of this script is to generate background images for desktops, boot splashes, etc. with some branding. Package: td-gimp-scripts-examples Source: td-system-tools Version: 2.7.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 1829 Filename: all/td-gimp-scripts-examples_2.7.6-1_all.deb Size: 1860634 MD5sum: 360f03c012a8f87a9d51a915b8455257 SHA1: 50d7e5eaba2bfd35545ac3ec996232041f7c5cf6 SHA256: d3312693989abb24cd2fadbf7bebb0f442859af31a754ed828adac79d8b26664 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Example files for the GIMP image processing scripts The GIMP scripts are scripts for automated image processing. The main purpose of this script is to generate background images for desktops, boot splashes, etc. with some branding. . This package contains some example input files for the testing the GIMP scripts. Package: td-gimp-scripts-examples Source: td-system-tools Version: 2.7.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 1830 Filename: all/td-gimp-scripts-examples_2.7.7-1_all.deb Size: 1861586 MD5sum: d8e9b839067f90bcc0437f953c89df29 SHA1: 5ce564ca9b80dbb4e47d48a3abd96ef9726669d9 SHA256: fa60acc0feff5e67ff51bc8881d1bdb4f96679ffb679d1ee92e84a4ce3aaa79d Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Example files for the GIMP image processing scripts The GIMP scripts are scripts for automated image processing. The main purpose of this script is to generate background images for desktops, boot splashes, etc. with some branding. . This package contains some example input files for the testing the GIMP scripts. Package: td-print-utf8 Source: td-system-tools Version: 2.7.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 137 Depends: libc6 (>= 2.38) Filename: s390x/td-print-utf8_2.7.6-1_s390x.deb Size: 96798 MD5sum: d95ce7de834329a914ce99c5500fff3f SHA1: e36d326926e619539141807a5f141ce4c3661f84 SHA256: 33f1f2cb205b7df86d0f25d8b2c2d998901ba639c9a8b0fc90c0653d6ce8d6cb Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Print UTF-8 strings and obtain size/length/width information The print-utf8 tool is a simple program to print UTF-8 strings in the console with options for indentation, centering, and separators, as well as size/length/width information. Package: td-print-utf8 Source: td-system-tools Version: 2.7.7-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 182 Depends: libc6 (>= 2.38) Filename: ppc64el/td-print-utf8_2.7.7-1_ppc64el.deb Size: 98088 MD5sum: c512cbf5efeb61927ee4cee404344766 SHA1: fc0cf0abb3f2f8f537dd35726cb3888d7588d3f6 SHA256: 797c38a09d9bc50b4884cd9eec45f28aaf3a2d812712ea0bbb1bdb71e23d2b4d Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Print UTF-8 strings and obtain size/length/width information The print-utf8 tool is a simple program to print UTF-8 strings in the console with options for indentation, centering, and separators, as well as size/length/width information. Package: td-print-utf8 Source: td-system-tools Version: 2.7.7-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 182 Depends: libc6 (>= 2.38) Filename: arm64/td-print-utf8_2.7.7-1_arm64.deb Size: 97582 MD5sum: 407fcd9935259616bd9ce9dad07bce06 SHA1: db43d81a74337f23545323bb8ced3c22176929f0 SHA256: 6169fc4bbb1fcef85b163398e265efc02a5dc0108da20780bd18d4c7c80fda77 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Print UTF-8 strings and obtain size/length/width information The print-utf8 tool is a simple program to print UTF-8 strings in the console with options for indentation, centering, and separators, as well as size/length/width information. Package: td-print-utf8 Source: td-system-tools Version: 2.7.7-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 138 Depends: libc6 (>= 2.38) Filename: amd64/td-print-utf8_2.7.7-1_amd64.deb Size: 97528 MD5sum: fa5b9881e80bd6f91f7fa18b1be32884 SHA1: f609c309f6388503eec7bcf2bddba8edaa9ce021 SHA256: a91a32465b657a4ba2c694a9535d84e531a121f1cf6ae9ef71105a261d3eeff6 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Print UTF-8 strings and obtain size/length/width information The print-utf8 tool is a simple program to print UTF-8 strings in the console with options for indentation, centering, and separators, as well as size/length/width information. Package: td-random-sleep Source: td-system-tools Version: 2.7.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 119 Depends: gettext-base, libc6 (>= 2.34) Breaks: td-misc (<< 2.4.1) Replaces: td-misc (<< 2.4.1) Filename: s390x/td-random-sleep_2.7.6-1_s390x.deb Size: 90320 MD5sum: ac8a232085a4d27f59a3fc6b6c371b1d SHA1: a3de49109b418bb36ab94dd2a404223ac4aa115d SHA256: fc640b261c558b34c314bedb72151d919bc566d4b5fc955a7fc78fb7e8e0caf7 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Wait for a random time span Random-sleep waits for a random time span, selected from a given interval, with support for fractional seconds. Package: td-random-sleep Source: td-system-tools Version: 2.7.7-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 176 Depends: gettext-base, libc6 (>= 2.34) Breaks: td-misc (<< 2.4.1) Replaces: td-misc (<< 2.4.1) Filename: ppc64el/td-random-sleep_2.7.7-1_ppc64el.deb Size: 91548 MD5sum: 9d8de124bca1a31db2c5205022cab60e SHA1: d2be8aa36858708d3900a4a46a31e832ddac7507 SHA256: 0289af50785c6027dd0bb436cbe17e6782faf0775f1c81f803a596e1222e85b5 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Wait for a random time span Random-sleep waits for a random time span, selected from a given interval, with support for fractional seconds. Package: td-random-sleep Source: td-system-tools Version: 2.7.7-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 176 Depends: gettext-base, libc6 (>= 2.34) Breaks: td-misc (<< 2.4.1) Replaces: td-misc (<< 2.4.1) Filename: arm64/td-random-sleep_2.7.7-1_arm64.deb Size: 91444 MD5sum: f9ab9369fb63b6ebbd7a2ddc42301573 SHA1: f457fecfa0ed0f9acbc0ad7de50835f96c4fcccc SHA256: 3af2cc1526b1f4fa7e04afa6cba8d5ca56f4de0e8701b217f414bc25c4261497 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Wait for a random time span Random-sleep waits for a random time span, selected from a given interval, with support for fractional seconds. Package: td-random-sleep Source: td-system-tools Version: 2.7.7-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 124 Depends: gettext-base, libc6 (>= 2.34) Breaks: td-misc (<< 2.4.1) Replaces: td-misc (<< 2.4.1) Filename: amd64/td-random-sleep_2.7.7-1_amd64.deb Size: 91402 MD5sum: 38e93e2c738369361af6de4546d925b1 SHA1: 361bccc49854d75c8036aa5a29cf4987e8b415f1 SHA256: 85f448a9a772ec1cd59f4ff3940d84eba3f025da8889709205c8369f548c89c3 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Wait for a random time span Random-sleep waits for a random time span, selected from a given interval, with support for fractional seconds. Package: td-reset-machine-id Source: td-system-tools Version: 2.7.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 139 Depends: gettext-base, sudo, uuid Recommends: td-system-info, td-system-maintenance Filename: all/td-reset-machine-id_2.7.6-1_all.deb Size: 94490 MD5sum: 304d48033f80ae3b1425f8867f3cb209 SHA1: ebbc08fe775729f6044056edb4cdbab7accd7713 SHA256: 95b66a729e8ed820f01bbceba8799bab4c3c5b2844c16d471ee97560e1a17da9 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Reset machine identity state This program helps to reset the machine identity state: resetting the machine ID, changing the hostname, replacing SSH keys, and suggesting hardened SSH client and server settings. Package: td-reset-machine-id Source: td-system-tools Version: 2.7.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 140 Depends: gettext-base, sudo, uuid Recommends: td-system-info, td-system-maintenance Filename: all/td-reset-machine-id_2.7.7-1_all.deb Size: 95752 MD5sum: 3bd261a7cc950ba56fcc933ee449d308 SHA1: b7301315d57b7d74ec0aecf64717f8831a2d30b9 SHA256: c6f64bcfadbd5aefcbb54debfee750fe9f3f578bcdb982363b04f918fbdb42c7 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Reset machine identity state This program helps to reset the machine identity state: resetting the machine ID, changing the hostname, replacing SSH keys, and suggesting hardened SSH client and server settings. Package: td-system-configure-grub Source: td-system-tools Version: 2.7.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 116 Depends: gettext-base Recommends: grub2-common, td-system-maintenance Filename: all/td-system-configure-grub_2.7.6-1_all.deb Size: 90436 MD5sum: 7d901b3681c5b5a30269c198588f1abe SHA1: 62a36d27377d7c9197e29876bcbc1bc67432dba4 SHA256: e6fb180146d92436e7e2fea0c5a6d8022c8f2d64b1036d18c1c56b32cb4d6011 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Helper tool to adjust GRUB configuration This program adjusts a GRUB configuration file by applying a configuration from a template, and merging the existing configuration settings with additional customisations. It can for example be used to set a custom screen resolution (GRUB_GFXMODE option) or startup tune (GRUB_INIT_TUNE option). Warning: This program is meant to be used by expert users! Do not modify a working GRUB configuration without knowing how to boot the system from a rescue medium to fix a broken configuration! Package: td-system-configure-grub Source: td-system-tools Version: 2.7.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 117 Depends: gettext-base Recommends: grub2-common, td-system-maintenance Filename: all/td-system-configure-grub_2.7.7-1_all.deb Size: 91456 MD5sum: efd25aa664acec5138a58d12ef710e79 SHA1: 753b5e055accb5330011f2f31566aa90cdf034c0 SHA256: 0e75e15f3e9eff8b738c13fdf20037a8bdf5d0dc4551c8d92a4b7b28d9588646 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Helper tool to adjust GRUB configuration This program adjusts a GRUB configuration file by applying a configuration from a template, and merging the existing configuration settings with additional customisations. It can for example be used to set a custom screen resolution (GRUB_GFXMODE option) or startup tune (GRUB_INIT_TUNE option). Warning: This program is meant to be used by expert users! Do not modify a working GRUB configuration without knowing how to boot the system from a rescue medium to fix a broken configuration! Package: td-system-info Source: td-system-tools Version: 2.7.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 174 Depends: figlet | toilet, gettext-base, mbuffer | buffer, td-get-system-info (>= 2.7.6-1), td-print-utf8 (>= 2.7.6-1) Recommends: subnetcalc Filename: all/td-system-info_2.7.6-1_all.deb Size: 97714 MD5sum: 1ed74d0a53434500abf735c48a732fcd SHA1: 16570b9cfc0483cd0403db2c7f34ba297e939df1 SHA256: 95ea909f474c148c6e523fae7fb5d7afdd64b8e18fe4733f1921a82619e5848c Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Print basic system information and banners This program displays basic status information about the system: hostname, uptime, CPU, memory statistics, disk space statistics, SSH public key hashes, and networking information. Furthermore, it can be configured to show one or more banners (for example, a project name). System-Info can be configured to be automatically run when logging in, providing the user an up-to-date overview of the system. Package: td-system-info Source: td-system-tools Version: 2.7.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 175 Depends: figlet | toilet, gettext-base, mbuffer | buffer, td-get-system-info (>= 2.7.7-1), td-print-utf8 (>= 2.7.7-1) Recommends: subnetcalc Filename: all/td-system-info_2.7.7-1_all.deb Size: 98740 MD5sum: a937c0c8be54a1f52b54da6d474ccd89 SHA1: a5f2941f88efcdc29f859e6a010e589da60ec33e SHA256: 64791bf4b7cd4bde641417254d22c3470d5c2fffab7df8cf36f2cfa0534ecd87 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Print basic system information and banners This program displays basic status information about the system: hostname, uptime, CPU, memory statistics, disk space statistics, SSH public key hashes, and networking information. Furthermore, it can be configured to show one or more banners (for example, a project name). System-Info can be configured to be automatically run when logging in, providing the user an up-to-date overview of the system. Package: td-system-maintenance Source: td-system-tools Version: 2.7.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 137 Depends: apt-show-versions, gettext-base, sudo Recommends: td-system-info Filename: all/td-system-maintenance_2.7.6-1_all.deb Size: 92794 MD5sum: bb4ec65058ba1d5ba87a790b37f6fa02 SHA1: b1ce43cd86e2aa711e192553a2e171548a43b8f7 SHA256: 40be4cb75de220a69bda0c4b8dae3b87c9500640f9068ed1a117ba4fe943b64e Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Perform basic system maintenance This program runs basic system maintenance tasks: trying to repair broken package management, updating the package management databases, installing all available updates, checking for old kernels and removing them, trimming SSDs, or unmapping unused storage. Package: td-system-maintenance Source: td-system-tools Version: 2.7.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 141 Depends: apt-show-versions, gettext-base, sudo Recommends: td-system-info Filename: all/td-system-maintenance_2.7.7-1_all.deb Size: 94316 MD5sum: e49bf7ef2d3e12a6c96df2a61f6766e4 SHA1: a6cd34bf45138318ec056cf17d7469558c310bfe SHA256: d183263a87dd9b44c8c6975d4882be3098d16d5018c363a094fa2d361162c5a8 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Perform basic system maintenance This program runs basic system maintenance tasks: trying to repair broken package management, updating the package management databases, installing all available updates, checking for old kernels and removing them, trimming SSDs, or unmapping unused storage. Package: td-system-tools Version: 2.7.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 91 Depends: td-system-tools-basic (>= 2.7.6-1) Filename: all/td-system-tools_2.7.6-1_all.deb Size: 84136 MD5sum: a4f612c9099d956bd3c1335d08a881fb SHA1: f6fe75c4bdf221143ff1b96f2d67bd6aec45783d SHA256: 0d00e63a0fa99bf259cbf8d9d6e16b844c9e8d824fcb3cf4e094dfde89f67c4c Section: oldlibs Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Transitional package td-system-tools -> td-system-tools-basic This is a transitional dummy package. It can safely be removed. Package: td-system-tools Version: 2.7.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 92 Depends: td-system-tools-basic (>= 2.7.7-1) Filename: all/td-system-tools_2.7.7-1_all.deb Size: 85162 MD5sum: d93808132f0f756c6f27bdff9cedcdad SHA1: 12ec13c21f8c7db8c7ae6a92d315d132eccdf42b SHA256: 15242cbe51560bc5fa440c253bd9d32d36c53aba1500588e51f6b933e77018e5 Section: oldlibs Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Transitional package td-system-tools -> td-system-tools-basic This is a transitional dummy package. It can safely be removed. Package: td-system-tools-basic Source: td-system-tools Version: 2.7.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 91 Depends: td-fingerprint-ssh-keys (>= 2.7.6-1), td-random-sleep (>= 2.7.6-1), td-reset-machine-id (>= 2.7.6-1), td-system-info (>= 2.7.6-1), td-system-maintenance (>= 2.7.6-1), td-text-block (>= 2.7.6-1), td-try-hard (>= 2.7.6-1), td-unixtimestamp-tools (>= 2.7.6-1), td-x509-tools (>= 2.7.6-1) Recommends: td-system-configure-grub Breaks: td-system-tools (<< 2.4.0) Replaces: td-system-tools (<< 2.4.0) Filename: all/td-system-tools-basic_2.7.6-1_all.deb Size: 84982 MD5sum: 2ac1a9995b2f4981a28ca721c05e3b1c SHA1: f925ee3a2db2c0fd58ac603ca5a88ccb9122cd08 SHA256: 4d9c79ed2f18da8fa16ac30f1614035c859d5048a2d57635e57fee5e625f7344 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Metapackage for basic system tools sub-packages System-Tools is a collection of utilities for system management and maintenance. . The package includes: - System-Info: Displays system status (CPU, memory, storage, network) and configurable login banners. - System-Maintenance: Automates package updates, old kernel removal, and storage cleanup (e.g., SSD trimming). - Reset-Machine-ID: Resets machine IDs, hostnames, and SSH keys for cloned machines. - Fingerprint-SSH-Keys: Shows the machine's SSH public key fingerprints in different formats. - Configure-GRUB: Configures options for the GRUB boot loader. - Print-UTF8: Prints UTF-8 text with options for centering, adjusting, etc. - Text-Block: Edits files or streams by inserting, replacing, or removing text blocks. - Unix-Timestamp-Tools: Convert Unix timestamps (s, ms, us, ns) to and from date/time strings. - Try-Hard: Retries commands with a configurable backoff. - Random-Sleep: Waits for a random time span, with support for fractional seconds. - X.509-Tools: Provide utilities for viewing, verifying, and converting X.509 certificates, and testing TLS connections. . The utilities are suitable for non-interactive use in shell scripts and feature native internationalization support via GNU gettext. . This package is a metapackage for the basic sub-packages of System-Tools. Note that td-system-configure-grub is only added as weak dependency ("recommends"), since it is only available on selected architectures. Package: td-system-tools-basic Source: td-system-tools Version: 2.7.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 92 Depends: td-fingerprint-ssh-keys (>= 2.7.7-1), td-random-sleep (>= 2.7.7-1), td-reset-machine-id (>= 2.7.7-1), td-system-info (>= 2.7.7-1), td-system-maintenance (>= 2.7.7-1), td-text-block (>= 2.7.7-1), td-try-hard (>= 2.7.7-1), td-unixtimestamp-tools (>= 2.7.7-1), td-x509-tools (>= 2.7.7-1) Recommends: td-system-configure-grub Breaks: td-system-tools (<< 2.4.0) Replaces: td-system-tools (<< 2.4.0) Filename: all/td-system-tools-basic_2.7.7-1_all.deb Size: 86016 MD5sum: c9a342a790e2b52547f21b5d46e8b439 SHA1: 47b01f9450c6f9d3063290b49e7b497d0659cc6d SHA256: 4d31dfd09ca49ace5e3748a4bb0659cd3da113d8e4941887199124fb0ba49a2c Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Metapackage for basic system tools sub-packages System-Tools is a collection of utilities for system management and maintenance. . The package includes: - System-Info: Displays system status (CPU, memory, storage, network) and configurable login banners. - System-Maintenance: Automates package updates, old kernel removal, and storage cleanup (e.g., SSD trimming). - Reset-Machine-ID: Resets machine IDs, hostnames, and SSH keys for cloned machines. - Fingerprint-SSH-Keys: Shows the machine's SSH public key fingerprints in different formats. - Configure-GRUB: Configures options for the GRUB boot loader. - Print-UTF8: Prints UTF-8 text with options for centering, adjusting, etc. - Text-Block: Edits files or streams by inserting, replacing, or removing text blocks. - Unix-Timestamp-Tools: Convert Unix timestamps (s, ms, us, ns) to and from date/time strings. - Try-Hard: Retries commands with a configurable backoff. - Random-Sleep: Waits for a random time span, with support for fractional seconds. - X.509-Tools: Provide utilities for viewing, verifying, and converting X.509 certificates, and testing TLS connections. . The utilities are suitable for non-interactive use in shell scripts and feature native internationalization support via GNU gettext. . This package is a metapackage for the basic sub-packages of System-Tools. Note that td-system-configure-grub is only added as weak dependency ("recommends"), since it is only available on selected architectures. Package: td-system-tools-complete Source: td-system-tools Version: 2.7.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 91 Depends: td-gimp-scripts (>= 2.7.6-1), td-gimp-scripts-examples (>= 2.7.6-1), td-system-tools-basic (>= 2.7.6-1) Filename: all/td-system-tools-complete_2.7.6-1_all.deb Size: 84838 MD5sum: 333ec0c2c25fb422319cd880d4115faa SHA1: 610984c2b376917490b81b231d128fa87725aea9 SHA256: 7dd45b54623af37354ad56cc01759ecd250992ecc2908010f25b4d4d7fd78863 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Metapackage for complete system tools sub-packages System-Tools is a collection of utilities for system management and maintenance. . The package includes: - System-Info: Displays system status (CPU, memory, storage, network) and configurable login banners. - System-Maintenance: Automates package updates, old kernel removal, and storage cleanup (e.g., SSD trimming). - Reset-Machine-ID: Resets machine IDs, hostnames, and SSH keys for cloned machines. - Fingerprint-SSH-Keys: Shows the machine's SSH public key fingerprints in different formats. - Configure-GRUB: Configures options for the GRUB boot loader. - Print-UTF8: Prints UTF-8 text with options for centering, adjusting, etc. - Text-Block: Edits files or streams by inserting, replacing, or removing text blocks. - Unix-Timestamp-Tools: Convert Unix timestamps (s, ms, us, ns) to and from date/time strings. - Try-Hard: Retries commands with a configurable backoff. - Random-Sleep: Waits for a random time span, with support for fractional seconds. - X.509-Tools: Provide utilities for viewing, verifying, and converting X.509 certificates, and testing TLS connections. . The utilities are suitable for non-interactive use in shell scripts and feature native internationalization support via GNU gettext. . This package is a metapackage for all sub-packages of System-Tools. Package: td-system-tools-complete Source: td-system-tools Version: 2.7.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 92 Depends: td-gimp-scripts (>= 2.7.7-1), td-gimp-scripts-examples (>= 2.7.7-1), td-system-tools-basic (>= 2.7.7-1) Filename: all/td-system-tools-complete_2.7.7-1_all.deb Size: 85866 MD5sum: 027bf7837e17e420a9a852fd8f8ea42e SHA1: 1eb09c9eec88d77a5f0bd1c777b562f5b9b6acf6 SHA256: cd9e68139f7a0c63af0b7d90d965682fc631b09311bc7b958be9511162e80350 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Metapackage for complete system tools sub-packages System-Tools is a collection of utilities for system management and maintenance. . The package includes: - System-Info: Displays system status (CPU, memory, storage, network) and configurable login banners. - System-Maintenance: Automates package updates, old kernel removal, and storage cleanup (e.g., SSD trimming). - Reset-Machine-ID: Resets machine IDs, hostnames, and SSH keys for cloned machines. - Fingerprint-SSH-Keys: Shows the machine's SSH public key fingerprints in different formats. - Configure-GRUB: Configures options for the GRUB boot loader. - Print-UTF8: Prints UTF-8 text with options for centering, adjusting, etc. - Text-Block: Edits files or streams by inserting, replacing, or removing text blocks. - Unix-Timestamp-Tools: Convert Unix timestamps (s, ms, us, ns) to and from date/time strings. - Try-Hard: Retries commands with a configurable backoff. - Random-Sleep: Waits for a random time span, with support for fractional seconds. - X.509-Tools: Provide utilities for viewing, verifying, and converting X.509 certificates, and testing TLS connections. . The utilities are suitable for non-interactive use in shell scripts and feature native internationalization support via GNU gettext. . This package is a metapackage for all sub-packages of System-Tools. Package: td-text-block Source: td-system-tools Version: 2.7.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 152 Depends: libc6 (>= 2.38) Filename: s390x/td-text-block_2.7.6-1_s390x.deb Size: 101452 MD5sum: f5cab19092c7617a951e5e86ed6218e3 SHA1: 7c312dcb544c3345fde18152b775599809b5d35d SHA256: 18998232cd4a5c101670ccd3b5fcf9f103fdc9dad76f4fc289f09abb79f31b37 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Apply modifications to text The text-block tool reads text from standard input or given file, and writes it to standard output or a given file. Various modifications can be applied to the text depending on the operation mode. Package: td-text-block Source: td-system-tools Version: 2.7.7-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 193 Depends: libc6 (>= 2.38) Filename: ppc64el/td-text-block_2.7.7-1_ppc64el.deb Size: 102504 MD5sum: a98911948538aa1b8fbef22ad37247d0 SHA1: c26b9c03244e5e3de4adaf0592d7979802d93823 SHA256: 8851fac864efe09c20e8103fad64168bc6e07b027425f4e115260fd58d539fec Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Apply modifications to text The text-block tool reads text from standard input or given file, and writes it to standard output or a given file. Various modifications can be applied to the text depending on the operation mode. Package: td-text-block Source: td-system-tools Version: 2.7.7-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 193 Depends: libc6 (>= 2.38) Filename: arm64/td-text-block_2.7.7-1_arm64.deb Size: 102238 MD5sum: 48689f1f625d35fc4e38ae65b11df0ee SHA1: bf429a72763aaca406763aea402154efb2e8b850 SHA256: 4384e25819be9180c756e98a128843a8bf52546a4f9f4e7a8421f084ef197842 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Apply modifications to text The text-block tool reads text from standard input or given file, and writes it to standard output or a given file. Various modifications can be applied to the text depending on the operation mode. Package: td-text-block Source: td-system-tools Version: 2.7.7-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 157 Depends: libc6 (>= 2.38) Filename: amd64/td-text-block_2.7.7-1_amd64.deb Size: 102276 MD5sum: e16f1fb07468306d39962dce12afcf25 SHA1: 7263246f8b6a72fbfb77d329ebafc66c253b451e SHA256: 63a821688c51ded8fb4a7b6679812dedb32a216bf4c159a0d6db87effb9eb794 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Apply modifications to text The text-block tool reads text from standard input or given file, and writes it to standard output or a given file. Various modifications can be applied to the text depending on the operation mode. Package: td-try-hard Source: td-system-tools Version: 2.7.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 120 Depends: gettext-base, td-random-sleep (>= 2.7.6-1) Breaks: td-misc (<< 2.4.1) Replaces: td-misc (<< 2.4.1) Provides: td-misc Filename: all/td-try-hard_2.7.6-1_all.deb Size: 90412 MD5sum: 7b5c472b4f7901c3f032405b38e6bdb2 SHA1: d445c01fd80fb5a722d5c0ad73a64e84cc2a8d72 SHA256: 297ca02ac4fe07e68c271429b53ff234076ba22c01ce01088666c6f9573de75f Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Make multiple trials to successfully run a command Try-hard runs a command and retries for a given number of times in case of error, with a delay between the trials. Package: td-try-hard Source: td-system-tools Version: 2.7.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 121 Depends: gettext-base, td-random-sleep (>= 2.7.7-1) Breaks: td-misc (<< 2.4.1) Replaces: td-misc (<< 2.4.1) Provides: td-misc Filename: all/td-try-hard_2.7.7-1_all.deb Size: 91426 MD5sum: 317f955bd1a153355c0ec8dd1867907d SHA1: fb05e0bfc6c61f7ec317271a117b5e73f3f556f5 SHA256: ccc8042407a5da171bcd55ca71f93675e029f8c99483dc2a56acd5ef3c59faf7 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Make multiple trials to successfully run a command Try-hard runs a command and retries for a given number of times in case of error, with a delay between the trials. Package: td-unixtimestamp-tools Source: td-system-tools Version: 2.7.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 144 Depends: libc6 (>= 2.38) Filename: s390x/td-unixtimestamp-tools_2.7.6-1_s390x.deb Size: 96440 MD5sum: 1dc202f3fad606f772e22ec32ee468be SHA1: aaaa122ea9cdada8488fa1ea46207165b9dd8654 SHA256: 81031b7dab1c637dce01291544457ab9fbf98d3572d7598b5bcf04dcac72a2ff Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Unix timestamp conversion tools This package contains two simple tools: time2unixts converts a time string to a Unix timestamp. unixts2time converts a Unix timestamp to a time string. These tools support Unix timestamps (i.e. the time since January 1, 1970, 00:00:00.000000000 UTC) in seconds, milliseconds, microseconds, and nanoseconds. Package: td-unixtimestamp-tools Source: td-system-tools Version: 2.7.7-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 253 Depends: libc6 (>= 2.38) Filename: ppc64el/td-unixtimestamp-tools_2.7.7-1_ppc64el.deb Size: 98584 MD5sum: 20565e38c33fcacb18e478b0a8d755e0 SHA1: 3c2f77add36da32e8c05bdaf536b3a1bdbe0b216 SHA256: 49eef8288a76a7af2941578723a974c5369877f37b4d0295492ceb3b1cc569b7 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Unix timestamp conversion tools This package contains two simple tools: time2unixts converts a time string to a Unix timestamp. unixts2time converts a Unix timestamp to a time string. These tools support Unix timestamps (i.e. the time since January 1, 1970, 00:00:00.000000000 UTC) in seconds, milliseconds, microseconds, and nanoseconds. Package: td-unixtimestamp-tools Source: td-system-tools Version: 2.7.7-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 253 Depends: libc6 (>= 2.38) Filename: arm64/td-unixtimestamp-tools_2.7.7-1_arm64.deb Size: 101700 MD5sum: 78ea96b67725802e94e413a41588ab0b SHA1: 590bedfb99cc8726c5a3f98083f66933d8dd77b1 SHA256: 8cb2ef3cda2ab692eb99302ae9c569c9b20180fe36e5bcb84aa607fd30023f88 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Unix timestamp conversion tools This package contains two simple tools: time2unixts converts a time string to a Unix timestamp. unixts2time converts a Unix timestamp to a time string. These tools support Unix timestamps (i.e. the time since January 1, 1970, 00:00:00.000000000 UTC) in seconds, milliseconds, microseconds, and nanoseconds. Package: td-unixtimestamp-tools Source: td-system-tools Version: 2.7.7-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 149 Depends: libc6 (>= 2.38) Filename: amd64/td-unixtimestamp-tools_2.7.7-1_amd64.deb Size: 97400 MD5sum: 7f0b24c6b38dd9ac4d8975b3ca0f96e5 SHA1: 5113c3c5a669bdf68189d59f9199ea744ddc1efa SHA256: f0226a817737a50c9ffbf603a491228aa00fda3064fbd31082aeaafb446ffebf Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: Unix timestamp conversion tools This package contains two simple tools: time2unixts converts a time string to a Unix timestamp. unixts2time converts a Unix timestamp to a time string. These tools support Unix timestamps (i.e. the time since January 1, 1970, 00:00:00.000000000 UTC) in seconds, milliseconds, microseconds, and nanoseconds. Package: td-version-bump Source: td-build-tools Version: 0.4.3-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 74 Depends: python3 (>= 3.9), python3-distro, python3-packaging, python3-urllib3 Recommends: td-build-tool Filename: all/td-version-bump_0.4.3-1_all.deb Size: 30776 MD5sum: cd82a24b4f13cdf306b922a3f5a20c3c SHA1: 777991a669fd8d7a23cea72749cbd202f2c234d0 SHA256: a5373938fa7308b6619ca2e44d5ae3b846263dde28ea6e4bed3cd6ffc0a2873b Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/build-tools/ Description: Version Bump Version Bump is a tool to help creating versioned packages with Git and Build Tool. Package: td-x509-tools Source: td-system-tools Version: 2.7.6-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 256 Depends: gettext-base, mbuffer | buffer, openssl, td-print-utf8, td-text-block Recommends: gnutls-bin, libnss3-tools Suggests: pwgen, python3, python3-netifaces Breaks: td-x509 (<< 2.2.0) Replaces: td-x509 (<< 2.2.0) Provides: td-x509 Filename: all/td-x509-tools_2.7.6-1_all.deb Size: 115866 MD5sum: 302245a7013250da2038ee120538dced SHA1: ca2c29c5073e04dad80bc515f219cab976c0fe00 SHA256: 2a2cee32bd55fed64a5c601a7165f6a7a43f59e51e276faae798574f813472ac Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: X.509 certificate handling tools This package contains X.509 certificate handling tools: * The view-certificate tool displays an X.509 certificate and its hierarchy. * The view-crl tool shows an X.509 certificate revocation list (CRL). * The check-certificate tool verifies an X.509 certificate using a CA certificate and optionally a revocation list. * The extract-pem tool extracts a PEM file. * The der2pem tool converts a certificate or CRL in DER format to PEM format. * The pem2der tool converts a certificate or CRL in PEM format to DER format. * The test-tls-connection tool tests a TCP TLS connection to a remote endpoint. Package: td-x509-tools Source: td-system-tools Version: 2.7.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 258 Depends: gettext-base, mbuffer | buffer, openssl, td-print-utf8, td-text-block Recommends: gnutls-bin, libnss3-tools Suggests: pwgen, python3, python3-netifaces Breaks: td-x509 (<< 2.2.0) Replaces: td-x509 (<< 2.2.0) Provides: td-x509 Filename: all/td-x509-tools_2.7.7-1_all.deb Size: 116802 MD5sum: 86c6310a4d0b9b808afbb9a620b153fe SHA1: 2c3bd24df42c7b5ac36a0077ac0052cf3a99ce05 SHA256: c03f6744702f56b17bbde7a8ef7a75a72972166670d34a9b1d797c598caaf671 Section: utils Priority: optional Homepage: https://www.nntb.no/~dreibh/system-tools/ Description: X.509 certificate handling tools This package contains X.509 certificate handling tools: * The view-certificate tool displays an X.509 certificate and its hierarchy. * The view-crl tool shows an X.509 certificate revocation list (CRL). * The check-certificate tool verifies an X.509 certificate using a CA certificate and optionally a revocation list. * The extract-pem tool extracts a PEM file. * The der2pem tool converts a certificate or CRL in DER format to PEM format. * The pem2der tool converts a certificate or CRL in PEM format to DER format. * The test-tls-connection tool tests a TCP TLS connection to a remote endpoint. Package: tsctp Version: 0.8.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 68 Depends: libc6 (>= 2.42), libsctp1 (>= 1.0.10+dfsg) Recommends: hipercontracer, iproute2, netperfmeter, rsplib-tools, subnetcalc, tshark Suggests: dynmhs, iputils-tracepath, ping | iputils-ping, td-system-tools, traceroute | inetutils-traceroute Filename: s390x/tsctp_0.8.6-1_s390x.deb Size: 39608 MD5sum: e790dcf69a3b9b4b71c3a19ee44c2669 SHA1: 85912ed9431ba1cc00b5af9accdb4814fbd2d377 SHA256: 940486253849ce491d4252e55b193037779d7deb1665e1b8025cffa57f6104cf Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/tsctp/ Description: SCTP Test Tool TSCTP is an SCTP test tool. Its purpose is to perform basic SCTP functionality tests to check implementations interoperability and to verify that the SCTP stack is working. Package: tsctp Version: 0.8.6-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 117 Depends: libc6 (>= 2.42), libsctp1 (>= 1.0.10+dfsg) Recommends: hipercontracer, iproute2, netperfmeter, rsplib-tools, subnetcalc, tshark Suggests: dynmhs, iputils-tracepath, ping | iputils-ping, td-system-tools, traceroute | inetutils-traceroute Filename: ppc64el/tsctp_0.8.6-1_ppc64el.deb Size: 39908 MD5sum: 043e078a1b3cc375cc5ef632df971e76 SHA1: d43a4217bb5f7a28f32db395b96f3eef3d1ab06c SHA256: a48f836c62583fba1e18ae2088e168d2e682e7be9c78b2b03ed7049d7d622e90 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/tsctp/ Description: SCTP Test Tool TSCTP is an SCTP test tool. Its purpose is to perform basic SCTP functionality tests to check implementations interoperability and to verify that the SCTP stack is working. Package: tsctp Version: 0.8.6-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 117 Depends: libc6 (>= 2.42), libsctp1 (>= 1.0.10+dfsg) Recommends: hipercontracer, iproute2, netperfmeter, rsplib-tools, subnetcalc, tshark Suggests: dynmhs, iputils-tracepath, ping | iputils-ping, td-system-tools, traceroute | inetutils-traceroute Filename: arm64/tsctp_0.8.6-1_arm64.deb Size: 39408 MD5sum: a4ed7a040e32a61c68e8852235541175 SHA1: bcd9d723a415530a4a89a09bd269598ef89cdd8e SHA256: cc4b7c7c2e7c11dd731cffdda82411d10bc56daef19a6d877aa58b4ea67f12d2 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/tsctp/ Description: SCTP Test Tool TSCTP is an SCTP test tool. Its purpose is to perform basic SCTP functionality tests to check implementations interoperability and to verify that the SCTP stack is working. Package: tsctp Version: 0.8.6-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 69 Depends: libc6 (>= 2.42), libsctp1 (>= 1.0.10+dfsg) Recommends: hipercontracer, iproute2, netperfmeter, rsplib-tools, subnetcalc, tshark Suggests: dynmhs, iputils-tracepath, ping | iputils-ping, td-system-tools, traceroute | inetutils-traceroute Filename: amd64/tsctp_0.8.6-1_amd64.deb Size: 39764 MD5sum: 75a393da7c18b71c5d3bd4b9be86faab SHA1: bb97400e97052c5977750ca99384e33b0a4cb9f1 SHA256: 9cf2a5d3ad2b5f2cb872cb9115286f236ada8373f034c64534d009948d7981ba Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/tsctp/ Description: SCTP Test Tool TSCTP is an SCTP test tool. Its purpose is to perform basic SCTP functionality tests to check implementations interoperability and to verify that the SCTP stack is working.