Package: bibtexconv Version: 2.2.3-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 759 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: s390x/bibtexconv_2.2.3-1_s390x.deb Size: 239876 MD5sum: 0aae52079dff07eb1096db1c5b67dd09 SHA1: dc7f3ce84a71def0853ecd62b8be384e6ad5aa1f SHA256: b3b4eb96faa20929fbb9d2759a06e536023f73788b3502783633f1c450ef1073 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: 242510 MD5sum: 6f48d29efce57fc9e5dd6eca6053c768 SHA1: dfc79fef83ecec39be3cd6c2935fedf45d1ca4eb SHA256: 767a362c85ae9e224ca982c2a4ab705b53d564975a481a64a46b104b5a3de4df 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: 236978 MD5sum: 7f0d62ad071d7f7cd3bc597d3187536a SHA1: 1ee6e9ea4a9d6f11c4f5cf07711d8f317c0beb94 SHA256: 403dab31af44f4dab7315277f28ad1d02223324c5ee186a409d3d7626a962b55 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: 771 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: 238924 MD5sum: 6fddcc4c7e4e978528605409230ee4e2 SHA1: 88c6263f253b98d649b14a14281248701a663b6b SHA256: 420a428b3be2381d305ff5162648648d054ca12a7c63ae7adc0a958e232d400c 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: dynmhs Version: 0.3.5-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 358 Depends: iproute2, libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libboost-thread1.83.0 (>= 1.83.0), 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: s390x/dynmhs_0.3.5-1_s390x.deb Size: 118718 MD5sum: 06088f3fc2cd13c39abbbe3a2994119f SHA1: 28a7f7bd1ef76eb37393a19acbb9938d098c7ba8 SHA256: cee0f6a008f63ce687c71db3111d56a42567197fabf67498f724bb7bc9cbef90 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: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 430 Depends: iproute2, libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libboost-thread1.83.0 (>= 1.83.0), 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: 125038 MD5sum: 44098a77b4b93c35196fe20eebbe1495 SHA1: 66a4ca8091f2d94bb14f7a39003d4987fe92c312 SHA256: 7d486c2898f6f24a40b25f12a19763900ca35ffd85b7a524fab6d5246aaa7870 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libboost-thread1.83.0 (>= 1.83.0), 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: 111996 MD5sum: 428f4a7d8da4cf73ea68a6484687a5fd SHA1: 36ad2fdceccdc57b3c73a52b193ca0f01d1a3ac2 SHA256: e53348b6ca1da4ad72e0f0a71a1b60580d2cb847b7f587cd4423af82f6174926 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: 342 Depends: iproute2, libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libboost-thread1.83.0 (>= 1.83.0), 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: 114980 MD5sum: 01754f60f82665ea26ee019e9ee90395 SHA1: 94bc5863ecba7946212d8d1d626fa82787568b71 SHA256: 06ce4fb6570b7ae34a1c30ebb1a5003ece0378e129ce9f9d6b17155723b9cbcf 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: hipercontracer Version: 2.2.6-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 504 Depends: hipercontracer-common, iproute2, libhipercontracer2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) 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: 240114 MD5sum: 395e64b9324e47f9895311236a517d98 SHA1: 6237d92d17c0ec5685a23febc944f3f60ab11f35 SHA256: 4b4fcdb22a32832aabc1b2c89728fe92f6325c447f6cc3a0454b2ac2427057dc 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) 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: 245784 MD5sum: ef529e304cb667f431ecc3f3c8c021d6 SHA1: ea3e9e0ef810606f0a27035e551c9ecb69a80477 SHA256: 46a6e11e2d15a4ae975a0af86f0a241832c30e94b4221d4368f806249a9ee53a 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) 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: 234374 MD5sum: 87d900b466d48315a472bb74e95c9e68 SHA1: bbe28d5fd678ae69607236f68c1ff232468a8ad3 SHA256: 3dd7db139c0bdb05a52cd67d646a4f7eceb273b74f40f6168f6909894ba7f3b1 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: 492 Depends: hipercontracer-common, iproute2, libhipercontracer2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) 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: 236800 MD5sum: 6e47a6a69381617909050702a12133fb SHA1: 2703a0c108beb32ba532f9b2be4d36c6235c415f SHA256: d2de7fe8c048b958c9d95c2ae5d6c9bd338f6384c5f92d2f8528fa81cbd0ddac 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: 134372 MD5sum: 40eec0f97b7b3cffe1f1fc35f325d829 SHA1: 643a8aabd321734b8f148a4706dc78e54b16f93f SHA256: a52e746de1c0887e4aaadb9c1cda6890abce22df9df76fce8cd7c05951b4c44a 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: 142494 MD5sum: d0ca11cc3569b14e4cc066980d03477a SHA1: 30d52fbec472cc2f74d9116d4931dd99443b678f SHA256: d7c41e7d65e1d2652d2f7edf8ae32c0ad9ea933c81dc3a635cae02eee576dd05 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: 955612 MD5sum: f3c3ceaba4786fe577187e6231496ec3 SHA1: 97b3ecbf2cfbbc90f832ba7bdec3685e9fb29b99 SHA256: bf79ad23f3d39a1d2decc69209ca1f3dee93414bca531ffa9d3f0b54eab9d5a8 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: 141010 MD5sum: eefdf19fceece3b0e17c92b0af16d3c9 SHA1: db68861d2abf3ab38ec456a55232e1b10eab5b9c SHA256: b74513dbd65d50416a1d3abcccf54315de5dfcc4d8ff761d802bfb3527a2a6e3 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: 140400 MD5sum: f72a4e86c6bbd1787c3baff0eb75ab46 SHA1: 25f3efc39e5682feb0d584a92d77ad57f124eb56 SHA256: 8f7861ab71405cc908f0e9831213912d9c9c5014a3fc3b2c7e16d38c050ade44 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: 2146638 MD5sum: f9d9de3d4b156525ec5f14815af20073 SHA1: ab0b6d1602a1f2f0044f135131117451b493a912 SHA256: df9431ba984d773f71c72cec6d853ab9ac1f51216544fbc804a9b8ce6dbbed92 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: 825 Depends: hipercontracer-common, libuniversalimporter2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctdb2 (>= 2.2.6), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Recommends: hipercontracer-dbshell, python3, python3-netifaces Suggests: hipercontracer Filename: s390x/hipercontracer-importer_2.2.6-1_s390x.deb Size: 315506 MD5sum: 16974a86f0cc5d73f137a5db54136a44 SHA1: 040ed022f313b156991ac93e70d06da2997d68e9 SHA256: 67f083fd72de61657ec9ccdd884ff2e3930c5a937b1e607628f1f8b251444de6 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctdb2 (>= 2.2.6), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Recommends: hipercontracer-dbshell, python3, python3-netifaces Suggests: hipercontracer Filename: ppc64el/hipercontracer-importer_2.2.6-1_ppc64el.deb Size: 321898 MD5sum: fac6c7e82bd6acddf2efa09bb4429250 SHA1: 207eda3acf64ec2ac23c3013e6e8802215e09345 SHA256: d0ff274ac04a9b0fad637114a2a6e2d98939098a8aa2c2ee8d45d1498f80b0d3 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: 789 Depends: hipercontracer-common, libuniversalimporter2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctdb2 (>= 2.2.6), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Recommends: hipercontracer-dbshell, python3, python3-netifaces Suggests: hipercontracer Filename: arm64/hipercontracer-importer_2.2.6-1_arm64.deb Size: 301598 MD5sum: 45328bd465c69c2e8289653d8381ed84 SHA1: 59628992632dc71747aa3ddc18d23370dfc3c549 SHA256: 41d4e6637251ee388b7ea0c370630879b606109ea02bd2b6a4d1bdb1e3ee4c37 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: 813 Depends: hipercontracer-common, libuniversalimporter2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctdb2 (>= 2.2.6), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Recommends: hipercontracer-dbshell, python3, python3-netifaces Suggests: hipercontracer Filename: amd64/hipercontracer-importer_2.2.6-1_amd64.deb Size: 309078 MD5sum: 5713efc640e4169d8e65714722b4071c SHA1: ff7a8d46166aeb42b16954e4d40d2b8ab70b85ae SHA256: 414276fd1b23a1e11322c4d4c5e9a93f1cf02a8e6df47627b5334d3cb84496aa 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: 139600 MD5sum: 82e9d5acc0781a84f23fc7bf85d056d2 SHA1: 810d871a4bbaf4f37c07d192f3a4e5d7b90e91e8 SHA256: 9fa62c2b3a9f664cc8789a8e0e7c6a90b60f614051db379ee14c1561b0fd6b88 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: 383 Depends: hipercontracer-common, libuniversalimporter2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), 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: 215210 MD5sum: 82ce51a7fdb9d3eead811b20fc2627a2 SHA1: f1cac4aeabbfc114e64943e867e1c9ed924e555e SHA256: 5df4981f29065d88149669a9b5ab1c1ea30dfc629d22ee69a4dfd8b4ed589604 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), 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: 217088 MD5sum: 5471c76bdbaf7223c0a47b217b07ef9a SHA1: 56354e55db8c72d87b42e682faee61cbc9964c2d SHA256: dd7292f04844632b9a56cf7bcaee251cf8a77644142ef8bf267e30480ba8a875 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), 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: 210726 MD5sum: b5fa3ca7eb386ba33f961362581d39c9 SHA1: 5b0852efccc4fbaacf323066f400a7a193d56927 SHA256: 29866e7860d1f1730e55f144a4d3202fdfc6165054b8c10da5e042bf47281ab5 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: 379 Depends: hipercontracer-common, libuniversalimporter2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), 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: 213504 MD5sum: dbb2d3494c8ddb73914f85a4a94d43f7 SHA1: 149005f26793d0451e93f8cea11eb42c45f682e8 SHA256: c8c481e5d1f8daf5efb39492bbf031d7c26a2dbec07bbdbb119d25c1875c0a59 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libssl3t64 (>= 3.0.0), libstdc++6 (>= 13.1) 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: 244896 MD5sum: 470a14fee8fc778797e759f22aee056a SHA1: 0324768de33b86f88ed748de99ae88e5cf9827e5 SHA256: 9d36efd122814c42558c7aa9f763ff2a2935e97e34fda9c10167ac18acdb035a 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libssl3t64 (>= 3.0.0), libstdc++6 (>= 13.1) 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: 250418 MD5sum: c5ef8d1911f12aee6c6608c70948d8b3 SHA1: 272d50269b5022626cb38f240a46b61c727286c1 SHA256: 910d8e4d80ea0dfaea25364de29479567a9c4fa8a01862add2fd3da75cac52f1 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libssl3t64 (>= 3.0.0), libstdc++6 (>= 13.1) 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: 238778 MD5sum: 20b0a02dfd6a0ad04cd574a43bdf7a8d SHA1: b520630cb3b354eccf4ff447ab0a77c59d8d9acc SHA256: 4dc75c52e9cb1db032c7828040a84adc603ce657f7358ce7833bfea42d4d4d8b 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: 469 Depends: hipercontracer-common, libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libssl3t64 (>= 3.0.0), libstdc++6 (>= 13.1) 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: 241818 MD5sum: e7da777986f18f8f26b7e354cd73412b SHA1: a53bf6f7e712f8bdf632824808f6cb34780d2578 SHA256: 3996ffe43940ac143bd2e84512cc29a5c8df52a8b66c0d985a3d2b25c139783e 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: 139720 MD5sum: 40a869e05c91bf0a59a06ca5b312321d SHA1: 81230c51f5c28bc990533a6e7ba3d1014a520599 SHA256: 8604db12ddd4fca44884d682ac6b6468a60bcceaaa2affa216d6be27bea0c852 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: 139972 MD5sum: 34a8d48aac9cb71dd5b77b52366783a1 SHA1: 8dfd4f4ffff4dd05824094d9dbf6daed07ac5a97 SHA256: be9e9a44c019f8fb3d25e5c5ec814232e12e40c5a2a137e396789463a2b13c32 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: 514 Depends: hipercontracer-common, libhipercontracer2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Recommends: hipercontracer Filename: s390x/hipercontracer-trigger_2.2.6-1_s390x.deb Size: 240158 MD5sum: 54f9683903264bd186c2b1cdb86b938f SHA1: cbd271b38299b30fc1cdc7ceac65976d7384c2c6 SHA256: dcba9b100ea87acc4212542cb4d7f77a1c88f8ee88ffee4d011040100d4b74c8 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Recommends: hipercontracer Filename: ppc64el/hipercontracer-trigger_2.2.6-1_ppc64el.deb Size: 246952 MD5sum: 1938e3cc264b7b337b9b7de3cf3df100 SHA1: da4194625ef1e4a81d7d9ae08875ba0ae38ea81b SHA256: 333f887fd2773fa235eb626b4aa12604469a1adad3f70daa99175443e01af139 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: 494 Depends: hipercontracer-common, libhipercontracer2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Recommends: hipercontracer Filename: arm64/hipercontracer-trigger_2.2.6-1_arm64.deb Size: 234520 MD5sum: 7998d795bb2fc29c8106169ce0a1607c SHA1: 3c1563fa53ff5a5766ba49fbd81db7ba4f24084d SHA256: 44914f1c10935ff3e5683d22f17efd5d4b6c707f3055a39228d0f142fac0daca 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: 494 Depends: hipercontracer-common, libhipercontracer2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Recommends: hipercontracer Filename: amd64/hipercontracer-trigger_2.2.6-1_amd64.deb Size: 237124 MD5sum: 43404cd40e4f057684e219e6930d71ec SHA1: a57f6083965c5ced726f5bc2ffdb7b65875450a3 SHA256: 53253b07c1fbf64a639c2ac04761ca87230a2076c9503cc00dbab99b342510e6 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: 512 Depends: libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libboost-thread1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Suggests: hipercontracer Filename: s390x/hipercontracer-udp-echo-server_2.2.6-1_s390x.deb Size: 245392 MD5sum: 19e65e57f674294aa97b2de94e19c785 SHA1: 73f01382d0f5ea06850b877fbd67bc212c69442b SHA256: a0b87c1c966102b7805e6fb6dcdef6d859375337a94399ef8f2dafe6cb5ca672 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libboost-thread1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Suggests: hipercontracer Filename: ppc64el/hipercontracer-udp-echo-server_2.2.6-1_ppc64el.deb Size: 251296 MD5sum: 62799dfe83ee41491dd7c1a47667aa9a SHA1: df68a87129b88ae15dce703d74bd0f0c265513c0 SHA256: a73a2f9e475cfc8469138e75da2e32f8b402cb19e71d9e9213eef574bca77eb7 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libboost-thread1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Suggests: hipercontracer Filename: arm64/hipercontracer-udp-echo-server_2.2.6-1_arm64.deb Size: 240978 MD5sum: 7307825b04478e0f0e9f55a7e422b062 SHA1: d30e0bbd9ffdc4b31ee955388b3827d0467ef49b SHA256: 2769a79ce8f0400ec1a56f186c83a2e0b31c6e8ebaa8a39e5bb7ee6e30a6ac8b 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: 492 Depends: libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libboost-thread1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Suggests: hipercontracer Filename: amd64/hipercontracer-udp-echo-server_2.2.6-1_amd64.deb Size: 241956 MD5sum: c42fc8517f978e6e4e6bb08633a2df43 SHA1: 121e174c131c75c539de5a580c3ce3fcc7174d01 SHA256: a4980a1beb97fb0f4f97a4c7cda3b42532aae2a3a038a09f5eea42f4dbe63ee4 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: 139616 MD5sum: b87bee120271a00ded5ea57f55f3462b SHA1: 2f15ed3ebdaf97cb6f95dfa67eff238c9cf94a94 SHA256: 97d45198b71b4af22ece4c38ad7152a941c966f2cb4e21d39bf4eac6538f3815 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: 70390 MD5sum: 8faf155447615a78db887044398caee9 SHA1: 8ca58d3ab66c10299e17025f6dacbdec955fda1e SHA256: 4b81a2e0e9c3f1dff867e5ec7f0d4124637c1b11dda558af4f4e118e457a6388 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: libcpprspserver-dev Source: rsplib Version: 3.5.10-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 212 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: 141736 MD5sum: 85432cc50777fe049f09d86075210164 SHA1: bfc64051b185dcdde82142d8202d8b2f7f1311e1 SHA256: 5b15d8c67f5ee5fa851a46811354e51cd1221dd382250389b68df57c4ef35b66 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: 227 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: 143800 MD5sum: 55d53fb2021d9f3fb5b21b60e3c834d0 SHA1: 1bcb1bb64b130a0e9167adc4683216da9dfa808d SHA256: 420919d289f513af8573c1a6f712a7e4119153efe326e0d7fa9d2dcc2cc039bd 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: 215 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: 141202 MD5sum: 32fa06dd9e7fea36920f979068931fc1 SHA1: d09cd8bf7b5f861fe1afabc2215dca0a1ab82479 SHA256: 51054ab6df805c225633d33469ebef322e04f7dfbcd0bc657a60fe5b644500ec 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: 141456 MD5sum: c6345f6967a010de780ee4921c471c8d SHA1: b1db42cb70f7c6ccfcf725a37234f546a608d588 SHA256: 4752d27a48776d3ebc2e3ca2d60d6ca53b5981a24710a5f1c743826421a228e4 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: 190 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: s390x/libcpprspserver3t64_3.5.10-1_s390x.deb Size: 141132 MD5sum: 208731249217789a6ec6ee96afd60dbb SHA1: d1e4c7563561afd01fc399f6a0b967d45d7db635 SHA256: 3e7463becb1af4d897c10d89d3d50fd3cb966ff8e78d4c1136100f37d4a76b11 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: 278 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: 141702 MD5sum: f4b41a3bb24da2a886965f585d6fbb89 SHA1: f45aae8038bd519ce8fd4fc93df9088e0272cb72 SHA256: 4ac0713dbc3f913476664a6586fe0d339a261a764c3d0e124c5c1e58940c9415 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: 278 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: 139974 MD5sum: 287331bd9cd124a032cc744c31c2212c SHA1: f3631652802890056fd1000d27787fb60f2dd073 SHA256: e714ba68b99ddccf6a0ce5eac495ca799b66aa1c546a09e19db2831c1442ff44 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: 198 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: 140588 MD5sum: f1f4767d738a4228c229bd54aa35165c SHA1: b568913da6afeb1d47351968177c0d7fe28cdcb7 SHA256: 868397d8e1a3b2a3aab93464caabfe30dc9f01b318f0e1b6bc8cd963ccdc826d 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: 8928 MD5sum: 45f38d956ede89fce6d60fe91a45c3b4 SHA1: 6d80843732d08c70acbc6564ff4cd2b3c2c68e45 SHA256: e6357d60407ddcecfe48c092aa416866ed33945c34f001b043bf3db03516f4ee 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: 9072 MD5sum: 4164b021d22fa4e6f72f74ce7379491d SHA1: 9b57c0855fd02e396f4979b439bb2ecad61500e3 SHA256: fd633459822c96a12bc7255c5f3b8d55b1e596625a24cfbd36903a36b2562cd8 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: 25 Depends: libexamplelibrary0 (= 0.1.3-1) Filename: arm64/libexamplelibrary-dev_0.1.3-1_arm64.deb Size: 9008 MD5sum: 85e26d712493429593335f6c6cc089f1 SHA1: d7e15b163c968004c7561aa1bdf56f992eb00492 SHA256: 694afab74e9169739b4d05597c2b9fed9c9212d362b4d281247520a2ed870bf1 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: 8930 MD5sum: f7a636ac03c9494562716233c68c124f SHA1: 414923c263f57f7100be3a6edee6172fcf5ccc38 SHA256: f1ea96a59108f941e6ae007a5475a58228a5400851a1de1e700f2a278d4d89b0 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: 9776 MD5sum: 048f38d3ea127fa4932a4826c4c39ac8 SHA1: 81c97501faa716165e2e2174ece51328c17c1f59 SHA256: 806636414a378e137f38d20c22d4df6961a52f6e112344d49bf189a8fd134de7 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: 9958 MD5sum: bf178bfc975aed733194f7acc44c35bc SHA1: 15e7e7605190a03ae43fee2b3eb48ea4ebd3155c SHA256: 0e31f160efa7a9d91fec178e61bd41a843a0d525e423ee634b4f017901f6c5d8 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: 88 Depends: libc6 (>= 2.17), libstdc++6 (>= 13.1) Filename: arm64/libexamplelibrary0_0.1.3-1_arm64.deb Size: 9850 MD5sum: a084aa141c2ef8ac091fd38f8e45d8fc SHA1: f92a349034a4af2d47d2cd88719a0b0fc1294370 SHA256: 57bdd8d28ed33056b6850eeaa278bf9c08c74ed2e199d59ebe68ed07c2bbf9ac 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: 36 Depends: libc6 (>= 2.2.5), libstdc++6 (>= 13.1) Filename: amd64/libexamplelibrary0_0.1.3-1_amd64.deb Size: 9848 MD5sum: f13b701740b929d2f3f83b8e046d91ac SHA1: b172fc5e862f193ac15d621f56fdf85efe575fb2 SHA256: 826269dd110719251385c365ebb41535412c4c1999a89c4a8a67539e37777143 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: 3582 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: 489876 MD5sum: c917b7adcae9841ab774ca83058bd901 SHA1: 65d902928ac26de5eebcb378f74ad978dcc2fbb7 SHA256: bf1269f79d8a98d16e7a5f9a1d18e39768aa669a8f442bbe083a389267599778 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: 3849 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: 502756 MD5sum: b18923e9a72f9a669a37cc3834d1572a SHA1: 47ec55d62582ad2950df594c3fc1dfaa8681365b SHA256: a22080d969424a7270f463e0d7e694156b6162f714fd3af818efa08f6cab88c4 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: 3782 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: 490246 MD5sum: 46eeda3cd5abde7716241977294a4977 SHA1: 2a6c5189d264979b9a67ec8183fb6c60879e34a4 SHA256: 072e080c8d4fe8cb9251fc8ada48b80c94fe216400b598dc40f79b0c2dc483a3 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: 3483 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: 469788 MD5sum: 365a821524c0844794c906d2b16d73fe SHA1: 23572ca6fc51bf68215ee12cec8427756db5c6b2 SHA256: 34170e25905bb6367676e9ae3e4a353dceec7114ba89ef63547f3b85e4912c6d 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: 582 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Filename: s390x/libhipercontracer2_2.2.6-1_s390x.deb Size: 282052 MD5sum: 86f4ad31c6056373bb44ea8734a3ea82 SHA1: 8c78ed0f856354137816ce053ef10ed51aa0ae6b SHA256: 526300de41bd6e838bcc3999635e8aa7484cea9090e84db5aeb9bee9635bccf4 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: 662 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Filename: ppc64el/libhipercontracer2_2.2.6-1_ppc64el.deb Size: 292400 MD5sum: 4d80d11320f66a149c6f48c6515858eb SHA1: 18fb7d6200d3d57176bed71699a466d665378433 SHA256: 2c646f919033c015b07df11c7106afa3fd0192ef0b3ca4209162ee6c8308bbb1 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: 598 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Filename: arm64/libhipercontracer2_2.2.6-1_arm64.deb Size: 273922 MD5sum: f2beda7d1f8bcd7d6a23bc97909971bb SHA1: 521fda7eb71d68a00f05410c03c50d942becbd6c SHA256: 65e44ce27ceeadcbf9d0941e5f96b2b7d405da4d712f4030bd38b00f15fe0d52 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: 574 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Filename: amd64/libhipercontracer2_2.2.6-1_amd64.deb Size: 278170 MD5sum: faa3976f9479908ebb9523a3dadd3e45 SHA1: 665f4582f5f58489bd95a6d8a13d34000421d7e0 SHA256: 90aa8f3fff8a3ab96090a4c0b2e962d6e5d36e6cb025a1348cae737a6820a344 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: 1019 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: 258974 MD5sum: 3431bcf870b8b5a11a5a6be7f678e21e SHA1: b80331e8b6173ce0169d8049dbe973e98e0e4aef SHA256: 20bada10e9d0b89e96b913af0a00a1dbcf97fae51c0758150caa569c71e9982d 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: 1175 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: 272276 MD5sum: ba249a8c2f3d8a6c6b5c8a9dd6fb5aa5 SHA1: 5013e63f45817ab3baf6e406a12ba42e4db23f98 SHA256: 52481e5d9f5253f54a2591a10cfdc3313a10bbd91f2620ddd6c1462d456ff023 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: 1092 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: 260870 MD5sum: c29601ac34965de25ab1dc12cef9bdfb SHA1: 6093347ca6fbbe4c5c4deef048fba47d7c9e9259 SHA256: 788ebf48b7d9123a38a24419c8a3e070ef3f12357da6d6088a5d6eb1c0a92a71 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: 1024 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: 256634 MD5sum: ced1278aee1143044c1ae79e16604968 SHA1: a8324ea1d6caaef43a8fb21a06bbf062862ce99d SHA256: 345f45431d32ca3acd73943bb7371b640e88f3a001db6c335633b08368f5984f 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: 363 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libbson-1.0-0t64 (>= 1.26.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libmariadb3 (>= 3.0.0), libmongoc-1.0-0t64 (>= 1.26.0), libpqxx-7.8t64 (>= 7.2), libstdc++6 (>= 13.1) Filename: s390x/libhpctdb2_2.2.6-1_s390x.deb Size: 203172 MD5sum: 9430d15c941e270c0ab4ae19b96d3fd7 SHA1: f6ec1c25db3bc0a0332bafb7925750df80b8d74f SHA256: 112296c04ea3ca64a812d6719f83912cc48be4e68ef25830c0db2fc2e34018dc 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libbson-1.0-0t64 (>= 1.26.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libmariadb3 (>= 3.0.0), libmongoc-1.0-0t64 (>= 1.26.0), libpqxx-7.8t64 (>= 7.2), libstdc++6 (>= 13.1) Filename: ppc64el/libhpctdb2_2.2.6-1_ppc64el.deb Size: 207176 MD5sum: f00f4c509741c6c208c46719f11ce0c3 SHA1: 43730656b15e3c13241ad2a117d4f423277f4e4b SHA256: e2aa8a78a8a5de756aa66581d8cc323181135a74ec74811b02140165d55e0d10 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-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libbson-1.0-0t64 (>= 1.26.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libmariadb3 (>= 3.0.0), libmongoc-1.0-0t64 (>= 1.26.0), libpqxx-7.8t64 (>= 7.2), libstdc++6 (>= 13.1) Filename: arm64/libhpctdb2_2.2.6-1_arm64.deb Size: 199828 MD5sum: 4465b6420fd1e95c1999c575b8687aad SHA1: 58a08cf3d9c700cd78cc737c6828aac83bfd9063 SHA256: e9b51a46275a55815edf16cded835ff814ee6d578d6406a02af26974ef892c67 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: 363 Depends: libhpctio2 (= 2.2.6-1), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libbson-1.0-0t64 (>= 1.26.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libmariadb3 (>= 3.0.0), libmongoc-1.0-0t64 (>= 1.26.0), libpqxx-7.8t64 (>= 7.2), libstdc++6 (>= 13.1) Filename: amd64/libhpctdb2_2.2.6-1_amd64.deb Size: 202186 MD5sum: 6e0fb72dc826ba1455bd7ff78016f159 SHA1: a64190c6ae347c97cad7bb3317053996f31682a7 SHA256: f21769863e6d3c40682f00fd4f6e498108b64973b406f43e7d0b116249b0e0d0 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: 2067 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: 340562 MD5sum: 201a0caec52abdd6848601334d59c29a SHA1: e006d87fbd8a9a5b1d77a87f8df7f2cab8587e79 SHA256: 6f3b1f4d516c6a74d3a896884b6d400cf06613ac53a0e7b9f29e5f74c67a2f51 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: 2209 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: 355600 MD5sum: b2c230b48aa121b1b5e152d72ea023ca SHA1: afa84231dd0666afce932cac2f2e56814a67ffe2 SHA256: 783888ced8ed1fd31353f408d37793db9ad2f87c41881bb90c3cd01d550824e1 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: 2174 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: 342378 MD5sum: 3f3d69f989291c42677271006ff8cba2 SHA1: 563c6c8979051edf10340f91add0bd08b8b0cff8 SHA256: 7734d651ab378afe242c61ae5b2150c0888e3aa569143634c15cb8cb87b7c567 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: 2011 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: 333922 MD5sum: 3b7ed3e9d4ebd0ec1e307dbcf91d88e6 SHA1: 5265fac56d059bae0359aeb8abea8721427032e7 SHA256: 3fe37c2c1795309fe35a9ed89ed4874cec9671f6a16b0a1273ffd931ef9ddc48 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: 730 Depends: libboost-iostreams1.83.0 (>= 1.83.0), libboost-log1.83.0 (>= 1.83.0), libboost-thread1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Filename: s390x/libhpctio2_2.2.6-1_s390x.deb Size: 286240 MD5sum: 9f072fb4443d65aa34aa5d707a39b591 SHA1: 75ce79adef720c4d1e22b15fc57a729405ab5f29 SHA256: b6ca4bff988295e9c46185f1a9625146847cc594089db7527676ff76b2831a40 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-iostreams1.83.0 (>= 1.83.0), libboost-log1.83.0 (>= 1.83.0), libboost-thread1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Filename: ppc64el/libhpctio2_2.2.6-1_ppc64el.deb Size: 296084 MD5sum: bf61165fee09cae8c6d8b81352113f9d SHA1: 91a54d7d2039ad2bc643a40a73429a4e4b0883c2 SHA256: c0aa0cb1cab71e2fac2f491503bf048e5274147f0f131fcb40d983e67ea7a07f 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: 726 Depends: libboost-iostreams1.83.0 (>= 1.83.0), libboost-log1.83.0 (>= 1.83.0), libboost-thread1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Filename: arm64/libhpctio2_2.2.6-1_arm64.deb Size: 282004 MD5sum: d03fbadcac2af2c1c909f8c226d579ae SHA1: 2b4df5bc80dae6df5033cf04a0f0970022491bb7 SHA256: 2657477758c04725a6e01f89283f9680be556c70907f4f104f4b472e11e72988 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: 706 Depends: libboost-iostreams1.83.0 (>= 1.83.0), libboost-log1.83.0 (>= 1.83.0), libboost-thread1.83.0 (>= 1.83.0), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libstdc++6 (>= 13.1) Filename: amd64/libhpctio2_2.2.6-1_amd64.deb Size: 286278 MD5sum: 9bf1863936f29c37ef22a454ea465d7a SHA1: 1a358b0180c003c75f8d6f5d8e024519cc700e3d SHA256: 78a5fff32ebdd9c501f5f6d8f324a7e8ed709246017441631e1fb2fe0212d362 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: 870 Depends: libneat1 (= 1.0.9-1), libuv1-dev (>= 1.0.2) Filename: s390x/libneat-dev_1.0.9-1_s390x.deb Size: 248582 MD5sum: 8d2b84186513e71506399c825b0a2534 SHA1: 2fa5a8df9693007a3da7dd9e8ef539634ee0409f SHA256: df33072fe9103d085ad488f760b45d052f1aafec7674e067fc1e24c97cbb63aa 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: 935 Depends: libneat1 (= 1.0.9-1), libuv1-dev (>= 1.0.2) Filename: ppc64el/libneat-dev_1.0.9-1_ppc64el.deb Size: 264540 MD5sum: eccffaf719094760d830f19fdcb9fbf2 SHA1: f2910b1d3d24539f2833b08bb29642385f184546 SHA256: 9ee71fe00fd4cc80dfb9329e4091b3a4b0055b632781b7a4fda155fb0231413f 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: 883 Depends: libneat1 (= 1.0.9-1), libuv1-dev (>= 1.0.2) Filename: arm64/libneat-dev_1.0.9-1_arm64.deb Size: 252458 MD5sum: d28aa8597dcf58b70fc4b300be09c793 SHA1: 6ab93d14be2aa45c5be573691f9bb4eb07ee00aa SHA256: 63ee26a2b8edd31f0971a3f5c3e96a035cf2caf628acc3271ee10855a4b2af58 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: 861 Depends: libneat1 (= 1.0.9-1), libuv1-dev (>= 1.0.2) Filename: amd64/libneat-dev_1.0.9-1_amd64.deb Size: 247636 MD5sum: 15fbc3c3e933a30afcf22da8a3a44f43 SHA1: 2316af5b83837b8727f1c29459261685abb9d171 SHA256: d9313371d35de5228360c0d9200b4558a3e597fccff9539587bef40cd1c7f67f 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: 56130 MD5sum: b5cb97715c40d0d9e4ca718a87dfdfb1 SHA1: 25b222f909efdaf9333d721912e81c38b0c97e77 SHA256: abfbdead62210e4ef8c3d4add9cde821bfb4e5b6e31f02ed71d0803dd72a3bae 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: 55142 MD5sum: c2dc94a0d29fa889a6e56a14a9adeb80 SHA1: 7dfb15015233514701657e74d601897804f03557 SHA256: 6c47fdce0519c7c96cd009ea514c9f80c9cfd085140241d38fbc1079172c2446 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: 53408 MD5sum: a30d36cf958d7d5f7331529be8b0eef6 SHA1: bcd6b37a517d302b3d84d6e52b032172e9bacc8c SHA256: d97efb1fe7d27a43bd4cf03e18f28b6172e316ca8c95dac31f4769c5396a3f84 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: 366 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: 53134 MD5sum: f93f0d60e089ac9cf93a574b918ada09 SHA1: 08dcbfdfbc7f35b7779d5ce5bb4e595c14477e58 SHA256: 56fd0eb94f0ac4210582e6375cb8c8cd1fde1f692b8d4c101b73cd473db92e64 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: 140 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: 30946 MD5sum: fedd6a7bf81d72a93e445da73ec62bb7 SHA1: b90a0877d15ee2fb942bb51b5dad3a3f9931ee42 SHA256: 17a440293baef80aaffb1f476be5bc68022360da34efef8f808217aa50d123c8 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: 168 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: 36428 MD5sum: f0dd7f2bec3a6ea505312a2639926b3e SHA1: 002bb42ee23d0f43398d93443bcfa304c0c457c6 SHA256: 5adffc538ef53f6dbb510d28748f4a55e9c1d1d4dd7f70bee2c8370c8e4386b4 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: 147 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: 32204 MD5sum: 950fa0c76cc1e20a34a9be0f43ddf79a SHA1: 879764ee2e0108d184d097b81bd818ae722375b2 SHA256: 45bbd1e4a05a2b27cadab01803fe45f87f5bd4af64a76859e928f012384ea88a 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: 134 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: 30968 MD5sum: 463f13b82961f5277ea30b2b8317fbc0 SHA1: 00f127dd09077ba411e39f8d6e33f251ec1647d1 SHA256: 731d6448191e5bf9495b1d5380dc77d816d3b306a845ef0b942f5ef8d7d1c41d 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: 208 Depends: libneat1 (= 1.0.9-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libneat-socketapi1 (>= 1.0.9), libstdc++6 (>= 13.1) Filename: s390x/libneat-socketapi-examples_1.0.9-1_s390x.deb Size: 67896 MD5sum: 2f167c8485504b2957fe7fb228b41362 SHA1: bf492839e460ff22ba97ca02d87a78d67878b2f3 SHA256: 32ddf61bfcecc235c974525db98e007b766780c568232ed876dddbe74c03028f 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. 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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: 59882 MD5sum: faab7c17ba16d8985f60736d231fa71f SHA1: 96cc8bde6a05e32d27a6f8d8a38ed2abf02646c0 SHA256: 93a97d2df482d616cd77f668786716519f8510379c65adb97437e4211082ad0d 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: 224 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: 64982 MD5sum: ac5fb5c9ecd028dae7901547fde83275 SHA1: 51803ecd69429f0b6a6a99cac7d70b18727d928a SHA256: c3912b301960ae93f071a19f0ae2c755ce2fc555143c1767a35dc47fd2671263 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: 92 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: 28060 MD5sum: bfaca7342e7ba3561eb236276ed10a3a SHA1: be3865ab3716a13e8826f2b514ee06d6298ebebf SHA256: 6de46db050d0dd77da39e42f4dfbbf309ad5d078b03fc6255237ae163003055d 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: 31720 MD5sum: 9a26840c8a21e7ba94b17f70399eea4e SHA1: a495a43ce52d13a79e7f7d4be9aac48fbf8ef877 SHA256: 9fb82402980cb13a5c72ac7963aa8ded8bd0aec1b55d81cfdb0b58b29525c21b 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: 88 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: 27574 MD5sum: a923587c849157743aa7c4e42a7a369e SHA1: df13d66a3d02ec8b036a3c3e1c6e9d444096a8a0 SHA256: af664ac4c04b2dee058d78551d7fd6f6e323666f9bf548952fad4a2885d632cc 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: 88 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: 27908 MD5sum: 5fedea2937949d4d8dca6f093ac16531 SHA1: bb9d04eb522670cffcb6b12b35be99005a193956 SHA256: 473ab20e227cb3ab4d1a459579968e789821eb873b176a3853d647afe29b3885 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. 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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 (>= 2.34), 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: 217218 MD5sum: 26860b74a342e6739013189a6bb7a48f SHA1: d2b6d14a597b6147206d1ef24880b88881629d5f SHA256: 2f0610386e18946cdb95fe15dae2cd7209f491d721f7f6df9420b4be25ff8c24 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: 472 Depends: libc6 (>= 2.34), 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: 207838 MD5sum: a8566f18b22b4859e1a3ffcc33c2a53f SHA1: a920baedd12f773eafea74366249a4f7152367ae SHA256: 0b816af3b2a9ef41a6db44fedb3814f902bc3b5b06d3521211df5f6619775481 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: 429 Depends: libc6 (>= 2.34), 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: 207384 MD5sum: 062e81477d8063fb3c12e29c14600706 SHA1: 23832e38688fda44affc9e26d93c7b6726231f38 SHA256: 1f7b0c559997bac50d54407b02df93faca24a14e09d1a05db6c09113f5f444d0 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: 1043 Depends: librsplib3t64 (= 3.5.10-1) Recommends: rsplib-doc (>= 3.5.10-1) Filename: s390x/librsplib-dev_3.5.10-1_s390x.deb Size: 291090 MD5sum: b58699d5c86e775913348d78ab1a4a98 SHA1: 7856184152e25313d00e9cd6e439ce6121ef9361 SHA256: 5b03a5c9b4917996b1048cf59dd2e98cd15a38b7aeb2e92ba91a129ba743a27b 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: 1261 Depends: librsplib3t64 (= 3.5.10-1) Recommends: rsplib-doc (>= 3.5.10-1) Filename: ppc64el/librsplib-dev_3.5.10-1_ppc64el.deb Size: 320896 MD5sum: e1b482ecd7a2da5c799de98f13b5429a SHA1: 629a956ed629cabe748dc7e09b4f11e482f98567 SHA256: 3221b1411a0523903521001fff9218507dddafe7c160518a3d3d686a53a51ab6 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: 1116 Depends: librsplib3t64 (= 3.5.10-1) Recommends: rsplib-doc (>= 3.5.10-1) Filename: arm64/librsplib-dev_3.5.10-1_arm64.deb Size: 294632 MD5sum: 97a1c73ea05616864158958b434a1e00 SHA1: bd20a2faa9e59aab3d0405e504aa741d4c6a2d38 SHA256: 0f72f97b519b34b4a6767c844732372e476755f6351017211463e15b3c95263c 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: 1064 Depends: librsplib3t64 (= 3.5.10-1) Recommends: rsplib-doc (>= 3.5.10-1) Filename: amd64/librsplib-dev_3.5.10-1_amd64.deb Size: 289000 MD5sum: 0ead3da12b79ab11c9918ece1bd451e0 SHA1: dba4f92a85f389d0408994010e026f3df08a269c SHA256: 0aa49bebff755270049d67efe1725d005dec903d86c8a01e3fccd0c470e4234b 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: 689 Depends: libc6 (>= 2.34), 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: 282044 MD5sum: cbd667cf6985f1158d15089294af7d34 SHA1: 8fe90d284d9d25832fa8dc93ca096369a743ac68 SHA256: 9d53336b7f6f2247266fbbd8d5c77fcd1683e64f68967195c2b1c25e0d2e706d 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: 1366 Depends: libc6 (>= 2.34), 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: 293958 MD5sum: ff4fba455c784d6eec73b72e328ae0c9 SHA1: 8b8d36f5c07ffeade18d11ab3015388f7c55c4c2 SHA256: e780cfc75047ef25f60f0086e38a2b302701311824361b3376e6aeccda0716fa 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: 1361 Depends: libc6 (>= 2.34), 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: 272862 MD5sum: 97c68cbf308e624a3031a06e33a351c9 SHA1: 61d987a09a4f009b9776be3dbf2f39ef5f9ffcee SHA256: 86b2ea422051a3fdbf063ab61b68cbbb0e2ebec8284596eee6b6f4a06ec88da1 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: 738 Depends: libc6 (>= 2.34), 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: 275198 MD5sum: 9649baf6a96990f041bb6c058e59e62d SHA1: bfe76c7d7558d9ef8c078c1e9b23c660f03251fa SHA256: 39d6109210a743234875c30d22984d2ea6293235e1bb851787932444e87fa0a6 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: 415 Depends: libsctplib1 (= 1:1.0.35-1) Recommends: sctplib-doc Filename: s390x/libsctplib-dev_1.0.35-1_s390x.deb Size: 137020 MD5sum: 6498f1bcd645cbf7c459585f156949af SHA1: b2bb683b728c8f722f7ebdfde27ecca29b8b2d23 SHA256: 901664b061c8947096e9c3d9fe2ce08f89e460d9025830530a916f6ce3e85f3d 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: 491 Depends: libsctplib1 (= 1:1.0.35-1) Recommends: sctplib-doc Filename: ppc64el/libsctplib-dev_1.0.35-1_ppc64el.deb Size: 152534 MD5sum: c355b64284ac4b335d61a8b824648d4f SHA1: 3d9d229499e616fa9f62a410834004073a5826a5 SHA256: 0f6b2c24babf8316069d228df9395ec13fd9c8b2baad97ee00b22d1948324b36 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: 403 Depends: libsctplib1 (= 1:1.0.35-1) Recommends: sctplib-doc Filename: arm64/libsctplib-dev_1.0.35-1_arm64.deb Size: 135382 MD5sum: 9dbf7686fa0314f8ced017a7401ace41 SHA1: 296200cba4e9d44cfe0216a54b82189a300ba89b SHA256: 0a666e88ff6df82bb94c14a00229148d1124e3700b038976f99260adb5f7fa73 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: 387 Depends: libsctplib1 (= 1:1.0.35-1) Recommends: sctplib-doc Filename: amd64/libsctplib-dev_1.0.35-1_amd64.deb Size: 130698 MD5sum: fc6aec5bf25bf3c27f05e582cc4e8110 SHA1: 9c53fae299fc3563e1ad329d38b6b3e11221c98f SHA256: e4aa106ac5728daf103d5cb93e7a7f0a99a7a14af9cd120716433d0b54636593 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: 253 Depends: libc6 (>= 2.38), libglib2.0-0t64 (>= 2.12.0) Filename: s390x/libsctplib1_1.0.35-1_s390x.deb Size: 123204 MD5sum: 53ac20fd0c1ef7ba64a556f1c44e1f51 SHA1: 26886c753a386a96a29131b222c619a1af3cae8e SHA256: 3f6de03f6f2214196f819b26138c152856cab87d4be83fa6ee148bd2e01e6329 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: 130504 MD5sum: d3888c20f13ebf9a4aa9c405404428f5 SHA1: abb19c814a736016785e9cc0314a26fccc96bc00 SHA256: 6244318afffef904201bdccb153f954aec0e8299d8d4bb55299a08be7b3dad65 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: 261 Depends: libc6 (>= 2.38), libglib2.0-0t64 (>= 2.12.0) Filename: arm64/libsctplib1_1.0.35-1_arm64.deb Size: 117044 MD5sum: fd911401c691cbb9ae69ef02831245f0 SHA1: 74b3c3d012aab7b5f4afb00a521b45db2922d7a5 SHA256: 9844981a12576fbd107d6ff2f129cf8615a6c14c23e1e5eaa4c4c99f504229b1 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: 230 Depends: libc6 (>= 2.38), libglib2.0-0t64 (>= 2.12.0) Filename: amd64/libsctplib1_1.0.35-1_amd64.deb Size: 116446 MD5sum: 06d39d0617f0305b98f5b61b02e7745d SHA1: 4ba9c2836bd49fd1b4cca6e7340502a089fc8d78 SHA256: 5ff0ae4c4d45d0d96ef8e572a4ec92b5369a2b90952e68773e0dda90eca0dfe4 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: 444 Depends: libsctpsocket2 (= 2:2.2.28-1) Conflicts: libsocketapi-dev Replaces: libsocketapi-dev Filename: s390x/libsctpsocket-dev_2.2.28-1_s390x.deb Size: 127204 MD5sum: fbd30fd438ea096134a9ad744aa28426 SHA1: 84d1d372f495a0aa1dadbeae45a14d0c57c38942 SHA256: a5ed8231ce0f76906674cacb97537b6b588394e7aac44796a02e6c402c036e2c 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: 516 Depends: libsctpsocket2 (= 2:2.2.28-1) Conflicts: libsocketapi-dev Replaces: libsocketapi-dev Filename: ppc64el/libsctpsocket-dev_2.2.28-1_ppc64el.deb Size: 137346 MD5sum: 87251c87712e2c99edcc54106a431278 SHA1: bb398d8eb1f031b135aa8035c8b17b8521cabe99 SHA256: ab52e2eceb0782934a166574b0e12218ea83668b41bd349a9668181dce2b7c55 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: 473 Depends: libsctpsocket2 (= 2:2.2.28-1) Conflicts: libsocketapi-dev Replaces: libsocketapi-dev Filename: arm64/libsctpsocket-dev_2.2.28-1_arm64.deb Size: 128342 MD5sum: 181e0c6678c605a9bd5d4cddca808710 SHA1: e361934de841548ad901e6d8e12dc26ae142bf79 SHA256: e7e3c18a77d6a1f7aea1bc59fbeb388641b497a8147b8bbad3c148fd84a28ff1 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: 443 Depends: libsctpsocket2 (= 2:2.2.28-1) Conflicts: libsocketapi-dev Replaces: libsocketapi-dev Filename: amd64/libsctpsocket-dev_2.2.28-1_amd64.deb Size: 122168 MD5sum: 800b6f06081961476c32087785ba0af3 SHA1: 6b51393a5cbe32eed6b2012a4cac8aa437d13509 SHA256: 3000012211eff905f8c4fc4d3c044d80cfab4f4138811193e7940a0b0b90d806 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: 266 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: 112262 MD5sum: 056fcae2258f86c0c49e89574379f911 SHA1: 6a09d3c9a249510baf6fdec1ee6d7d7ed093d51b SHA256: 7f4358a86de6af3c3b897a2e0ef0cf39c46b6f6a271d055ec8dc74555ed98225 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: 116828 MD5sum: fff4cc26525af6696621f9cb6a5c3b0a SHA1: fe280ba67127cef76d690f4710a6fc7603e897d0 SHA256: 9316bb530ba7a4b63b57139e76957abffbbe02f6c2798384714cfc820f428c03 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: 258 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: 107094 MD5sum: 9f07502dbdb19bf2f4522218140717c9 SHA1: 3fcef5a4bb7b14bba16d4b5f0e80f90d3515eea4 SHA256: 9ff4fa6fd0de3066815264a590c553cf4c751c2fef3371d8380e69d5fcf8a86f 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: 255 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: 108434 MD5sum: 826d57a5d486b14194a4a3f8e0d9e770 SHA1: 10d7e751f2f3273a17ccb4b35e88690ea1ca8b03 SHA256: 390113ec5e4c957966f52c7abda41a1a9ea8718d239aedc2d605c16dee172b0b 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: 1913 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: 367664 MD5sum: 09b2ebccf0cd0106f738694671da5875 SHA1: 7fc9fafd6a8a2063b7b7bd4ada9ac6e0188d7048 SHA256: 9a68d258fac92e9f3164795cef1ab8819b72735a91eda0916aba21037e555e8c 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: 2056 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: 384872 MD5sum: 10ca98f669198237a987c78ae5fe58a5 SHA1: 5318307efe41d6d57dcc8be5c0c0b44c87cf82bc SHA256: 23d164f79f3d1f58349c6e4e651e0d01f54cc60c9d0931bd98152cca9d6cc5a3 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: 1963 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: 362358 MD5sum: 8949c6c64e6d09be886ad75c15f105c1 SHA1: 354efc91e178bfc14fa74033863aea57741fdd68 SHA256: d74e333986ef061ace53c279951f10e535710860e47f37db5abe8df4d2d183e4 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: 1839 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: 353336 MD5sum: a4f3a24b650209588b034c61aa7ca806 SHA1: 7755c8b3ee243c961887095ca9b7d98b4598da8d SHA256: 3e43cc2fe43e724a13dec452ae045a9f774d99f9026e0fcb786ae6d48724aa38 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-filesystem1.83.0 (>= 1.83.0), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Filename: s390x/libuniversalimporter2_2.2.6-1_s390x.deb Size: 283690 MD5sum: 4fed1a8b702f34a1ded50f6a553ed27b SHA1: 2690df963fbb388489b9b3aeee3981c74068062b SHA256: 90b38826d4728eeb6ca1701a1b3c21199341f5bb9168a7ee0a90344c74e863fd 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-filesystem1.83.0 (>= 1.83.0), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Filename: ppc64el/libuniversalimporter2_2.2.6-1_ppc64el.deb Size: 293566 MD5sum: 7095351080ac0b629bb34a6d41939ae7 SHA1: 6d77fae5d452a11e0dd94e3c99e36ed31c005e4d SHA256: 47ac03ecbbe9ff1b62b3950000efba06959d74fa261a3c8c623aea4883b71c71 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-filesystem1.83.0 (>= 1.83.0), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Filename: arm64/libuniversalimporter2_2.2.6-1_arm64.deb Size: 273878 MD5sum: c17c7526fb26d4f34c447760749ba0ba SHA1: 10508807a7ee81765f07748456d79754d4cab3b4 SHA256: 425d19881950708fa5588a41523db3fa5f228c99156a55dc46934be71823cede 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: 588 Depends: libhpctdb2 (= 2.2.6-1), libboost-filesystem1.83.0 (>= 1.83.0), libboost-log1.83.0 (>= 1.83.0), libboost-program-options1.83.0 (>= 1.83.0), libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libhpctio2 (>= 2.2.6), libstdc++6 (>= 13.1) Filename: amd64/libuniversalimporter2_2.2.6-1_amd64.deb Size: 279102 MD5sum: 9b4aab354f1251ea995aa06102d9d158 SHA1: ae844316bdef74a612cd85c3683f98798c896830 SHA256: fc706edd93ca40a95524c7cc4587efa6ece1d864565ddc1a7e8367d49863a13f 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: 485 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: s390x/netperfmeter_2.0.8-1_s390x.deb Size: 225986 MD5sum: 79b001264807a3d8ea2096be0b3b36a1 SHA1: 7369d995f6c05b96d07da70c1acd598fe97cf024 SHA256: fb840769954f8b213f4f89d79a6e004b5c61fd28917929b17d10d3139dd1a47e 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: 234884 MD5sum: a67ad750284393d644b4ec6872f6b9bb SHA1: 7cac7f6ba443b2a869ecdca2fdfa9cd9ea6184c9 SHA256: e6bdd6d2ca7e42304c5bd7e4365d92c42e23f619edce931d8067789a64b6ef60 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: 215200 MD5sum: cd599c40b5c56ea6007614840f9c52ce SHA1: d233c710e5cc43646ef8c014ed7778cfe1281701 SHA256: 9fd78e24d5c550b5cfedc5a28f5abb50e94ab2e83b161768525ef09a9d83f656 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: 222264 MD5sum: a6ed14b565c2b12bf0d2fb7485c66b40 SHA1: a5656eb78e06bc3879da00cc935c037087b8a3e9 SHA256: 5a164732460669a938fb7b06c1ed3b0517091d467e231cc47e0d7b8d129ea651 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: 93360 MD5sum: 2f6207393e0f396d6415661dc9e314cd SHA1: 2322bc84644b9343bc7b0623ddab293783341013 SHA256: f4448ea1a1641168a817595e5e19d8811a8a9932b48e66978ca3388b7ab0ce4b 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: 995162 MD5sum: 8368b100e0e76aff4cf9d1a215fb209b SHA1: 8239b3e4b599d06c0a8adf01e4bf4d8fe45ff4a2 SHA256: 7087355a6669bd406774a9d91e5188d3e96adf61b6678f0997f648bab057bdb1 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: 1077402 MD5sum: cc79722d7132739d4986f3fbca31a133 SHA1: ad4924e3016a5f5ffd8947d595fa02f7d29ec084 SHA256: 12ff8690709034c179d7dba8ab1201d270595cf35247bf158dc0ea2c1fbd95b2 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: 113252 MD5sum: 000116b171d616099802d1a6b15edfc2 SHA1: cc4acaaabb7948317590823e8046a99dffeae7a2 SHA256: 4bcc5e8e6d3062d14aaaf68667503a07bde5a6df1b0328d8440c64f880490353 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: 94842 MD5sum: d871bd322b6f0c6985a3c9733cbc44ad SHA1: fab234e8219be7f3cbc32ff52c793a67a474e4c1 SHA256: 01b7b7685e3d5dedff4621417a080d062bfe020fef204aef00160dab370e0aae 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: 99054 MD5sum: cbe02988bd20dbe78f01908e001ad10c SHA1: 65ba7bdde8885973c559d587cdb3cd52bab527fd SHA256: 8c0cf12c31e5c3987c2ec51960d6434e98558d6ff32cbfc25a30cc36d3e8c2b3 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: rserpooldemo-desktop Source: rserpooldemo Version: 3.2.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 118279 Depends: firefox | firefox-esr, kubuntu-desktop | neon-desktop | kde-standard | deepin-desktop-environment | lubuntu-desktop | ubuntu-desktop, rserpooldemo-management (= 3.2.7-1), sddm | kdm | lightdm | gdm3 Filename: all/rserpooldemo-desktop_3.2.7-1_all.deb Size: 120620528 MD5sum: ff012b9f299c8b838f684a5ed8310d2a SHA1: 60a9ff38e48d09561fe1cc248e18e6449631bc8b SHA256: d9a3deebbe280b12b2bc6926eb9143fb4134eb50a054d24d36595457f41248f4 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/rserpool/ Description: Desktop setup for the RSerPool Demo system This package contains the scripts to configure a RSerPoolDemo desktop. . See https://www.nntb.no/~dreibh/rserpool/ for details on RSerPool and the RSerPoolDemo tool! Package: rserpooldemo-development Source: rserpooldemo Version: 3.2.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 48 Depends: autoconf, automake, bc, bison, build-essential, clang, cmake, debhelper, devscripts, distro-info, dpkg-dev, extra-cmake-modules, flex, fonts-dejavu, fonts-noto, fonts-open-sans, g++, gcc, gdb, ghostscript, git-lfs, graphicsmagick, gsfonts, libboost-all-dev, libbz2-dev, libc-ares-dev, libcurl4-openssl-dev, libgeoip-dev, libimage-exiftool-perl, liblzma-dev, libsctp-dev, libssl-dev, manpages-dev, pbuilder, pdf2svg, python3-distro, python3-netifaces, python3-pip, r-base, reprepro, shellcheck, rserpooldemo-management (= 3.2.7-1), zlib1g-dev Recommends: qt6-base-dev, qt6-l10n-tools, ubuntu-dev-tools, valgrind, yamllint Filename: all/rserpooldemo-development_3.2.7-1_all.deb Size: 40840 MD5sum: f6d938274e362b25b8341cc140315aa4 SHA1: a78a0adc4fa39be8f1bb639f0ee2ab4445ce652e SHA256: 68e30e514e66469b1b2a1f710434adf5126c7af92f6f283ec78db4f0f2df7772 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/rserpool/ Description: Development tools for the RSerPool Demo system This metapackage contains basic software for RSerPoolDemo development. The software installed provides a common working environment. . See https://www.nntb.no/~dreibh/rserpool/ for details on RSerPool and the RSerPoolDemo tool! Package: rserpooldemo-management Source: rserpooldemo Version: 3.2.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 60 Depends: acl, apt-file, bash-completion, bridge-utils, bwm-ng, bzip2, chrpath, cloud-guest-utils, curl, dnsutils, ethtool, fail2ban, gdisk, git, gnupg, gpm, htop, idn, iproute2, iptables, iputils-ping, joe, jq, less, make, man, net-tools, netperfmeter, nmap, openssh-server, openssl, parallel, pwgen, python3, qt6-linguist | qtbase5-dev, qt6-qtbase-devel | qtbase5-dev, rsplib-tools, rsync, subnetcalc, sudo, tcpdump, traceroute, tree, tsctp, tshark, unzip, uuid, virt-what, wget, zip Recommends: grub2-common, language-pack-de-base, language-pack-en-base, language-pack-nb-base, td-system-configure-grub, td-system-tools Filename: all/rserpooldemo-management_3.2.7-1_all.deb Size: 42322 MD5sum: 3b513c437f973b45c8f5aa5a8ff8aef0 SHA1: 976843418aa4b4f9341a4593b7e139d46025c9c4 SHA256: 949168b62146698b48eff10ae9374ab5aa9cbf50cb4e321fc390b1c4179df44e Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/rserpool/ Description: Management tools for the RSerPool Demo system This metapackage contains basic software for RSerPoolDemo system management. The software installed provides a common working environment. . See https://www.nntb.no/~dreibh/rserpool/ for details on RSerPool and the RSerPoolDemo tool! Package: rserpooldemo-scenario-cfgfiles Source: rserpooldemo Version: 3.2.7-1 Architecture: all Maintainer: Thomas Dreibholz Installed-Size: 6489 Depends: rsplib-fgp-cfgfiles Recommends: rsplib-registrar Filename: all/rserpooldemo-scenario-cfgfiles_3.2.7-1_all.deb Size: 6373590 MD5sum: 8beabdddaf49a7fbc4912408cb29c1f2 SHA1: 33670928d7fdb58871995f9b85ad78d2ff8433b2 SHA256: 5311cd7fea349c71ae83f57768d71df4755493cc40efa953ea56ff8c94f1b009 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/rserpool/ Description: Scenario configuration files for the RSerPool Demo system This package contains the scenario files for the RSerPoolDemo tool. . See https://www.nntb.no/~dreibh/rserpool/ for details on RSerPool and the RSerPoolDemo tool! Package: rserpooldemo-tool Source: rserpooldemo Version: 3.2.7-1 Architecture: ppc64el Maintainer: Thomas Dreibholz Installed-Size: 598 Depends: rserpooldemo-management (>= 3.2.7-1), rserpooldemo-scenario-cfgfiles (>= 3.2.7-1), rsplib-fractalpooluser, rsplib-registrar, rsplib-services, rsplib-tools, libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libqt6core6t64 (>= 6.4.0), libqt6gui6t64 (>= 6.4.0), libqt6network6t64 (>= 6.1.2), libqt6widgets6t64 (>= 6.3.0), libqt6xml6t64 (>= 6.1.2), libstdc++6 (>= 13.1) Recommends: fractgen Filename: ppc64el/rserpooldemo-tool_3.2.7-1_ppc64el.deb Size: 434252 MD5sum: 562a3297f93af58d080820f5b48d3bec SHA1: 67d1380fc0ec2febf1dcba773b9e1aac3d29dd99 SHA256: 0d9bb5fc172cde9d684c552d88469e6196bb7ff3507ff1317262d15eeaaa3058 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/rserpool/ Description: GUI tool for the RSerPool Demo system This package contains the RSerPoolDemo tool. . See https://www.nntb.no/~dreibh/rserpool/ for details on RSerPool and the RSerPoolDemo tool! Package: rserpooldemo-tool Source: rserpooldemo Version: 3.2.7-1 Architecture: arm64 Maintainer: Thomas Dreibholz Installed-Size: 534 Depends: rserpooldemo-management (>= 3.2.7-1), rserpooldemo-scenario-cfgfiles (>= 3.2.7-1), rsplib-fractalpooluser, rsplib-registrar, rsplib-services, rsplib-tools, libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libqt6core6t64 (>= 6.4.0), libqt6gui6t64 (>= 6.4.0), libqt6network6t64 (>= 6.1.2), libqt6widgets6t64 (>= 6.3.0), libqt6xml6t64 (>= 6.1.2), libstdc++6 (>= 13.1) Recommends: fractgen Filename: arm64/rserpooldemo-tool_3.2.7-1_arm64.deb Size: 429700 MD5sum: 5d3677f1a90e59bd01a6bbdbbb43d1c4 SHA1: 8966ad7a0a76a7610372fb603990b3de867edc4e SHA256: f979d4cc97db906817d9cdeb1af7799592d30c36e708acc7f9c390d0c0ae7a21 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/rserpool/ Description: GUI tool for the RSerPool Demo system This package contains the RSerPoolDemo tool. . See https://www.nntb.no/~dreibh/rserpool/ for details on RSerPool and the RSerPoolDemo tool! Package: rserpooldemo-tool Source: rserpooldemo Version: 3.2.7-1 Architecture: amd64 Maintainer: Thomas Dreibholz Installed-Size: 531 Depends: rserpooldemo-management (>= 3.2.7-1), rserpooldemo-scenario-cfgfiles (>= 3.2.7-1), rsplib-fractalpooluser, rsplib-registrar, rsplib-services, rsplib-tools, libc6 (>= 2.34), libgcc-s1 (>= 3.3.1), libqt6core6t64 (>= 6.4.0), libqt6gui6t64 (>= 6.4.0), libqt6network6t64 (>= 6.1.2), libqt6widgets6t64 (>= 6.3.0), libqt6xml6t64 (>= 6.1.2), libstdc++6 (>= 13.1) Recommends: fractgen Filename: amd64/rserpooldemo-tool_3.2.7-1_amd64.deb Size: 430874 MD5sum: 291a5cb974557d08ddc438b11d831bb0 SHA1: 74748c54665739a6ccededbeb5c39c541944bf4a SHA256: 6c20d4c3011bd3f0f6ba1428b788db4b0022bd385c03b5981fda17a1327c6991 Section: net Priority: optional Homepage: https://www.nntb.no/~dreibh/rserpool/rserpool/ Description: GUI tool for the RSerPool Demo system This package contains the RSerPoolDemo tool. . See https://www.nntb.no/~dreibh/rserpool/ for details on RSerPool and the RSerPoolDemo tool! Package: rsplib-all Source: rsplib Version: 3.5.10-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 131 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: 125822 MD5sum: b77fa5dc3867dcd52a95c77739b1b9be SHA1: f3f64bc0aa1b6aa5ba0b82fe1e46e21de50193b4 SHA256: 1f9b9ffbd7662782aecbe8e70ee6ece752583069a0c43ebd7a040cd5973f73fe 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: 131 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: 125822 MD5sum: 188d55ac9acc44af4f042528c50d8245 SHA1: e47b4fc2d6736e0fa26ee2db51791424c2c4dae8 SHA256: 594e8288ad7c642c5202ec28e03e77e17be3bc10f61aa26163fec5737a09c8c0 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: 131 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: 125820 MD5sum: 16929be3b73de96793929b386c60f3d2 SHA1: 678e4a376403dbb9a9208d6ae8bd26d601143c6b SHA256: 97e7a9bfb00493040609f2d549302b5de772ec54a0941df860ecfcd755dfcd52 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: 131 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: 125820 MD5sum: 6f47955ca7d81c9e1ec59588566c1bfa SHA1: ac0139b7057dfaf14301afe8c2c79fb7e5890809 SHA256: 5b27e327c3d8eacbd671841ddd2fd83a1cc45eced177652ec7eea3f9b8e82eef 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: 1094 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: 620676 MD5sum: 98e524fc0f24b0e28284282cedb077bd SHA1: 514a1a01bb164b0aad3c1930a5f3d6c0d738e06f SHA256: b7edd74662f7eed90bd1e9180bfca420da887fe0abe0d2bb80c75d3f199f4b80 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: 335 Recommends: rsplib-tools Replaces: rsplib-docs Provides: rsplib-docs Filename: all/rsplib-doc_3.5.10-1_all.deb Size: 331994 MD5sum: 31115e0999fd6542534110648b61991e SHA1: bd8cbb0dcd96788bdb468951fa51264850a3edd5 SHA256: 8552857877d989a0a0ea821767b47c3be47e4f53c3d0ed01bbe91304153638dc 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: 229 Depends: rsplib-common (>= 3.5.10-1), rsplib-tools (= 3.5.10-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libqt6core6t64 (>= 6.4.0), libqt6gui6t64 (>= 6.1.2), libqt6widgets6t64 (>= 6.3.0), libqt6xml6t64 (>= 6.1.2), 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: 156478 MD5sum: 09eb80f40d15ea9a2233e35ba779bc47 SHA1: 2222fb6b7fd83d825e468605897aaa163c0a7a59 SHA256: 7d17845bc499bdb240ef8879015b4e26de37d5f84c74c0eec3f3956a1a4a9e5e 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: 285 Depends: rsplib-common (>= 3.5.10-1), rsplib-tools (= 3.5.10-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libqt6core6t64 (>= 6.4.0), libqt6gui6t64 (>= 6.1.2), libqt6widgets6t64 (>= 6.3.0), libqt6xml6t64 (>= 6.1.2), 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: 157834 MD5sum: b74738c81a76687adc92fe0f59133055 SHA1: 5ed66c04ce1242768c0d78c862d6847d28c0a3c3 SHA256: b9fc34f797fd0f0f0614b3082004ef2a57d29d06df60605aa42acfa6a88122bc 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: 285 Depends: rsplib-common (>= 3.5.10-1), rsplib-tools (= 3.5.10-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libqt6core6t64 (>= 6.4.0), libqt6gui6t64 (>= 6.1.2), libqt6widgets6t64 (>= 6.3.0), libqt6xml6t64 (>= 6.1.2), 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: 155090 MD5sum: 06de80e881568377680c8101e73e1812 SHA1: a4fdb98a9f555b5d86c936177b5382a6d405a5ac SHA256: 6f2b2c4b0e95cbd2c0419628fe9f7cf3c96e4ab517722e8e820152759b4d9391 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: 233 Depends: rsplib-common (>= 3.5.10-1), rsplib-tools (= 3.5.10-1), libc6 (>= 2.38), libgcc-s1 (>= 3.3.1), libqt6core6t64 (>= 6.4.0), libqt6gui6t64 (>= 6.1.2), libqt6widgets6t64 (>= 6.3.0), libqt6xml6t64 (>= 6.1.2), 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: 155824 MD5sum: 5d13e481d51e0ce7c0462034cfac2bbc SHA1: 7ba8e6ff7374e90508ed938157c8c5a772365638 SHA256: cd14de07e6a7088c2371ece090bd9ea33748e6e81ca081b282310fd739193a75 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: 284 Depends: libbz2-1.0, libc6 (>= 2.34), librsplib3t64 (>= 3.4.9) Recommends: rsplib-doc (>= 3.5.10-1) Filename: s390x/rsplib-registrar_3.5.10-1_s390x.deb Size: 177584 MD5sum: 00001f9085b017359f6f07b12cce3774 SHA1: 7cee861ff54bcce0a05009a0395ae68493723c7e SHA256: 4818f6569fdbfc40a70d00aec9fb590e0c4bd3c908dd81369a01ab9c0806a666 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: 349 Depends: libbz2-1.0, libc6 (>= 2.34), librsplib3t64 (>= 3.4.9) Recommends: rsplib-doc (>= 3.5.10-1) Filename: ppc64el/rsplib-registrar_3.5.10-1_ppc64el.deb Size: 179578 MD5sum: f4624188fedd8ffb6326a64949e806d7 SHA1: cd6aae543b9b21af46a26b21573dea958f3cb092 SHA256: 65345e38cc314800e8bdd3113c90a79b1e3a4a3a19a84b9aa9d3f3df000c679a 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 (>= 2.34), librsplib3t64 (>= 3.4.9) Recommends: rsplib-doc (>= 3.5.10-1) Filename: arm64/rsplib-registrar_3.5.10-1_arm64.deb Size: 173074 MD5sum: 2645205aab1bc1960ba2d0fed84f08b7 SHA1: 33ce3850eb7cd633f417dadddaf7c9bfcd2c959e SHA256: 254e99ba1338fba40b0c97a3f67a7f93f81b260d0985cf4c8f3d69fddcf07e1d 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: 281 Depends: libbz2-1.0, libc6 (>= 2.34), librsplib3t64 (>= 3.4.9) Recommends: rsplib-doc (>= 3.5.10-1) Filename: amd64/rsplib-registrar_3.5.10-1_amd64.deb Size: 176090 MD5sum: b2b9a0b67f4bfd9921327109a2b6cfd2 SHA1: a5ae779db14bbf25e632e576933b96a4fea03d11 SHA256: 598641ab4e7d4ca4596f439071b1786da5b8ed2d02fa9e4c0a48f1ba17b2d8f6 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: 240 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: s390x/rsplib-services_3.5.10-1_s390x.deb Size: 159874 MD5sum: 424eeb321c2d897c33a25d2f9d43d7e5 SHA1: 864ff66bc24140a0cbc6f397f584a02103160b20 SHA256: 6f969410aa481cdda4ab42db10987c3613ae6a4e75ae009b86e6bc642941bee7 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: 372 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: 162600 MD5sum: 8782416d904d4d5c171cdb3474bbdcf8 SHA1: 4f091f51e1f765fd86a81388717d0da7cea0c406 SHA256: f9d2cdf5116e4f577eb47473457b54b4875484384657f949470719cd9bccc323 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: 372 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: 159222 MD5sum: be30c917c5bf16e5826a89a1218dc8ed SHA1: 9f90f831767fd193b57a0208ba09ac069960c961 SHA256: 0b4a6d57f4a72e5b63ad1bd6660ef4a9bfa58a369c10d17d8bdef1e0d7140130 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: 256 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: 159914 MD5sum: f6e9f5e3d13037d239b282d5f503ad6a SHA1: d05cc65aea1892a6be98547d71247445dbe102d1 SHA256: d37d6a346e79bc9fcc526e0bc09283d6422d1f8694332ffb2ffcdf3380ab2645 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: 297 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: 182210 MD5sum: 9a86d5f1ee5e769e33f114c6a42c6e68 SHA1: e2f379b8efc11ab59b9abcad8eaa39fb935a8aa4 SHA256: 53c9fcbf5809645a96e78a408fbeaf5db9f24ce273d6276d6903cf842b32f7e3 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: 497 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: 189114 MD5sum: ec677f35aac799d35a9435715d49c991 SHA1: a6f1d5084e38862ebf96fbc49ec6ec3e73b2c446 SHA256: 423a972eba228a9136ee61133baa3e1cec1fe6aead809352b1add1b585b4ff76 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: 497 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: 180586 MD5sum: 30045c4b3127b16f9ca4cbce54aed5da SHA1: 15db71e9671750cd024cd54ec9276013ffa59ae7 SHA256: 10160c55cf9b42a510fd45ba5a8894745d1e82a2514de8436d8bdcec85e3f9e2 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: 317 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: 181966 MD5sum: 0acb54d976bca223648643701eba8967 SHA1: afa3d0799deacb25833ab8dd329e43e31411f359 SHA256: 1157e2582739c1db0f4ba62992a838fdc987fca2e01a90c4811dd26eb8c947ca 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 (>= 2.38), 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: 56830 MD5sum: f3fc2f1de0060c1fcd069970fe9a1e40 SHA1: deca5ec71446f16fb2132ca3d42dd246f7e38fc1 SHA256: 2e8703461fb7ed9f93af03dc3da61d72104e37ff7f187a29c3a3afd4b11a254e 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 (>= 2.38), 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: 58374 MD5sum: 35b1bc41b8c550cc3e7d42a03c63d442 SHA1: 9e52f710eadf9c8fb21b264163c8005f39682860 SHA256: 5bda411132c0cbb6f799ac7d51c10a9521a551296ade40b1e2cb4df87b086a16 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 (>= 2.38), 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: 55860 MD5sum: ca5b975654b0c820600a68c0971cc7c7 SHA1: e5fa6c687351519b2255e07b939a9f7a11c8682b SHA256: 386892416a36c55e866b0aa872055e975fdb5785b0a357ab378032d900aac305 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: 119 Depends: libc6 (>= 2.38), 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: 56356 MD5sum: 16e8c44befeca8033a39bc6340fb651e SHA1: 6261e632d689b5c4ec352588fb3d2c46b9a7133b SHA256: 6549f2bc5b2e5023422bd9ab1fe5b4e451452391995c90f4bdfe3fbe47c5d1af 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: 14770 MD5sum: 0d5714f68695476ef43f80143f3f8351 SHA1: 64f5ae72e0fe9b552127310336510b3184799392 SHA256: 2f71d1d880940420b092101aa88d11c844dbe207f11ca4f685315e3faebd45ef 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: 14908 MD5sum: 820beb3e351a289057b9895ce4513b13 SHA1: b8e997e06da9caa898f248e9fa8ae3744f5b7757 SHA256: b6e17242daec6fd097c1f50b8bf183a0f903f2a2a1683b439cf1d0b1cd7e7bcb 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: 14606 MD5sum: b2cfe492ecdf5905480a5dd00f1db853 SHA1: dc43ab0e3d3a6ae3650884d97648d2d5357fb471 SHA256: 639d84ece28b04c4c5f6604ef8112b43795806c63dfd640addde8218d530e744 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: 14532 MD5sum: 34d26043e8804ab090b11b2b8a802477 SHA1: 32f06aa1cb9912220e8ea075e05c91f9617f3796 SHA256: 89df3e7d24a6b0a92b7275371f35b4e7934cc4694350688c82c074600ace554a 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: 721110 MD5sum: 3e0fe2b78060659a7fbe5fa733ef7ce7 SHA1: e75e38d8623fef7496602cbef35fbed760c9c948 SHA256: 13994aca0ebfa366346b8e74e9079329dbc3ee9e9c5474394c0b0f2c8cbb4a71 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: 6371ce56be2963b04f71da626a7bb50e SHA1: d504c62ee4783aa18f5fc65def33b7536af98e2d SHA256: 4ba641273be588ba658c412af715fa8c643ef60f5944ed2c556702c83a0fdb27 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: 2.7.7-1 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: 2.7.7-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 121 Depends: libc6 (>= 2.38) Filename: s390x/td-get-system-info_2.7.7-1_s390x.deb Size: 94670 MD5sum: 96095c71f0d6e1befb5c3547847270c8 SHA1: 8906f0ac15c0677b7f22154b96df9c5497d697bb SHA256: 0ee7470911fe0f08728de1515e5f5238f81d73ce5cd16aa8c6af00909c015661 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: 95858 MD5sum: 1cc2c958aa85dbed2e28166be5c66027 SHA1: 94082e126fd6fe8e14c0fe260ea99a67295646c5 SHA256: 5beddf471836385e6dd80a948d1973054f9867bf27272691e6970de7f7556249 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: 94962 MD5sum: c6a0ce68afaf0a367d1231aff6f082b2 SHA1: d173aef27f8322aa34bb4f4a52708b9c79fcfd68 SHA256: e4d4b7d63ede215dd6a71f79ea6d620b5c95b1a67fa8f51f4dadc9edbbe5847b 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: 94718 MD5sum: 70669a06675dd61a02e86825459b7924 SHA1: fa7cd862e79b5ad764abd267299311f91259cce4 SHA256: 436659e25ebf77d9c7c0326fbb398f6b7ca45b1cb415365a54fd31fa446db08e 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: 2.7.7-1 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: 123550 MD5sum: 90bcccf2434f2b7b3e148440a273f59f SHA1: 68ffb182f8b153a9c859be7a456d113ac6767234 SHA256: 69e0cc5e770ead246f41304c660d28d2e4fb1abb1fb5535b84171ba2333450cf 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: 2.7.7-1 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: 2.7.7-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 138 Depends: libc6 (>= 2.34) Filename: s390x/td-print-utf8_2.7.7-1_s390x.deb Size: 97680 MD5sum: ad15888cc8b828ee70720d9ea66988cb SHA1: 27fa8f56cf83ccb824c887b7f08f2d544c5c378a SHA256: 8be386853112a146205e43ffa7c9202601f6647b04f5031a25b3abf2a839e5d9 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 (>= 2.34) Filename: ppc64el/td-print-utf8_2.7.7-1_ppc64el.deb Size: 97764 MD5sum: 380b248384db9992609fade06eda7291 SHA1: 9e4b515730be721420efaa840c6fbb3b3e31428d SHA256: 6e40d36fb9600e275fc8cfc1551066203bd8b1781cde7723f53d1417ce1b3876 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 (>= 2.34) Filename: arm64/td-print-utf8_2.7.7-1_arm64.deb Size: 97262 MD5sum: 6a16dd256392073b090d06740ac6e413 SHA1: ca6e02bc2c3a813102661e9b405560dc74240bce SHA256: ec6b1615fb747e679798b0b15160cdca066c4699bb77da1bbd983262fcabfaf1 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 (>= 2.34) Filename: amd64/td-print-utf8_2.7.7-1_amd64.deb Size: 97442 MD5sum: 324f750699da228227e6ccd637dd90b6 SHA1: f9de0178ff26f3afdee8c82c7ebc073c5606f3dd SHA256: f49f6cbc445ea6a08fbba25bbc645dfc43ca729f7725ecbda0a91473c484f7d7 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: 2.7.7-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 120 Depends: gettext-base, libc6 (>= 2.34) Breaks: td-misc (<< 2.4.1) Replaces: td-misc (<< 2.4.1) Filename: s390x/td-random-sleep_2.7.7-1_s390x.deb Size: 91192 MD5sum: 634907d0bed4333777f69eb2faa3e976 SHA1: b326050dace33c4bf0b7fcdf18c8c24efa5e725c SHA256: c9cc7df79ba4a88582f7cac1456b869892366c8564584df56a633f70433810fb 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: 91520 MD5sum: fa85a26a5b46183a41c45196eef33b49 SHA1: 11c5c0b8f5975bbdda68acb131b08fbc911eafe7 SHA256: 71f7760e7da01783b1ed71ec8e070c4d3c9c70cd70e5128f12523f55c97be16f 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: 91318 MD5sum: d69e174b73f2079309ff8ccf7425b96c SHA1: 53ca0500e274362cf6a9776badd0b0f567147943 SHA256: 00ee1eaf773cce6c2212c75a7dce5bc1200b3c6777fb32e10394c96b7092b34c 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: 91310 MD5sum: 3fcb46ff8b68a2a27b61c038c05cd1c5 SHA1: cdba4c570da9e46ce980693053676e40edd6e64b SHA256: a037d975394b308141f93b52b96327c2d7beb4e90c00b8731a92c56e0588d0c3 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: 2.7.7-1 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: 2.7.7-1 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: 91454 MD5sum: 9f39b12279144fcf3847d82430cc113e SHA1: 5cec5121f1c71d65840a62ff032b6567771ed7b7 SHA256: 75c06349d15a270de52eccf83411c28024cd3b0cf44f68be7c730d18d9d8fa70 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: 2.7.7-1 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: 2.7.7-1 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: 2.7.7-1 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: 2.7.7-1 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: 2.7.7-1 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: 2.7.7-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 153 Depends: libc6 (>= 2.38) Filename: s390x/td-text-block_2.7.7-1_s390x.deb Size: 102202 MD5sum: 1f656cbca0b3e1811f29587802c3530e SHA1: ee44aa915cd849a638783ebf33d2c11c2a2b8b0f SHA256: c6837f1c7e5c4de8ad2834f55abb0d4bd6a145903af6e20a8b8873fe700e09aa 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: 102398 MD5sum: c769e36a4e7da96ff88543588179983b SHA1: f14297cc896aaa379bac797c54e033eff9e25a1c SHA256: 63d434f8b2c0c6a63e2d9d2f076763e25be04a6fcc07a3c24421b4dbcf1d2bfd 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: 101926 MD5sum: 9604eac3b87c6b48a4d8536f970a8b53 SHA1: c8ec9d748145e78823073560c89cfe18e535cb13 SHA256: e0761a8d7ec11181b70f6503f47aaaccb04c069b7a2a6372166498184db8cbb0 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: 102070 MD5sum: 4719e3316ce52a5ff3cc6d7f244e7396 SHA1: 5faf49ad95e895c26815169f935d20ee98028820 SHA256: dd50e5efede1f9ee14ff3069e79dd3215a8ace1538831e8fa6138a49ccf329d6 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: 2.7.7-1 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: 2.7.7-1 Architecture: s390x Maintainer: Thomas Dreibholz Installed-Size: 145 Depends: libc6 (>= 2.38) Filename: s390x/td-unixtimestamp-tools_2.7.7-1_s390x.deb Size: 97324 MD5sum: 4a2c496c4d1e2b17e3f24fc047db4e94 SHA1: b035c26f3af706a73a59e1f0ddf7bbf31834dea0 SHA256: 4c16aa17bf9b20dd7e1b762754bdd32cc4fa4ce23b49a61168e53e0627dd4f3f 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: 99868 MD5sum: 63c64b3894e5f6e9358dff991e1e7e82 SHA1: d25c6bb6df2c7253cd9841dd55bf294563b7d9a4 SHA256: 3d7e47e3021b60e8c25604fa34bb299d2fccbdd978ca47a1182b22f2df098352 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: 101214 MD5sum: 755ea60bed05a4e84e7120fa1c3c7635 SHA1: d7f965d0d9fc41c00622575cb78e843603d159aa SHA256: bef9e7eb6988ba22d507a5406a8746cbf4658e3ef94afe1d430f0f418d32d874 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: 97232 MD5sum: 9a3b722566fafabf46d978c96655bb54 SHA1: a3b02a666238071d68b8c0fdcdd50507b0eb6a71 SHA256: 601cc61f7a97749d3718f968d073dfcab56159dec9bb56d1c2af8347e87b66b9 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: 2.7.7-1 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: 116954 MD5sum: 88ca703d51ef625d6c6efb58efb142ae SHA1: b0684c36faa492986418c44e06455d28677bbb9f SHA256: a6e9dbd63ab799663a17d34833eb1305c800c8fa1209639258e6b2d677ae5e49 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: 64 Depends: libc6 (>= 2.34), 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: 39312 MD5sum: c51787553603193bfebeb38964cf4cd3 SHA1: 53ea2ad3cfbdfef32953c8ff95e01eb231fad136 SHA256: 7153f6030e501fc6ca5fddc6b4e953a858b4467d92004d6385021c46a2bf22e9 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 (>= 2.34), 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: 39714 MD5sum: dfe04273528888d1187feb08bd75b1f0 SHA1: 0435bb34204f291a674d5b99028034ee72d790c0 SHA256: e6f7eda374d7db0010aa9af0eb7649091f9a80603de9dce8174886eae03e0581 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: 116 Depends: libc6 (>= 2.34), 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: 39144 MD5sum: 3fad41234598e08177916290420b146e SHA1: 53d8f5ade83c86e23558c2ac3b6ea5c2f479632e SHA256: 71ac326c74d85047cefe65cac5f0184eae4a75f928726b85a4c20e068dba53b7 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 (>= 2.34), 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: 39520 MD5sum: d95920c5aeaf77393144eef9a78d41d2 SHA1: 6cd9ee7a03162d58b6e7932cb9a7b84624548df6 SHA256: 50e8ce30175040de3f6c24358e4eeb1d0f5cb4f67367ebab5cee8f6a7c40e96e 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.