head 1.2; access; symbols pkgsrc-2023Q4:1.2.0.24 pkgsrc-2023Q4-base:1.2 pkgsrc-2023Q3:1.2.0.22 pkgsrc-2023Q3-base:1.2 pkgsrc-2023Q2:1.2.0.20 pkgsrc-2023Q2-base:1.2 pkgsrc-2023Q1:1.2.0.18 pkgsrc-2023Q1-base:1.2 pkgsrc-2022Q4:1.2.0.16 pkgsrc-2022Q4-base:1.2 pkgsrc-2022Q3:1.2.0.14 pkgsrc-2022Q3-base:1.2 pkgsrc-2022Q2:1.2.0.12 pkgsrc-2022Q2-base:1.2 pkgsrc-2022Q1:1.2.0.10 pkgsrc-2022Q1-base:1.2 pkgsrc-2021Q4:1.2.0.8 pkgsrc-2021Q4-base:1.2 pkgsrc-2021Q3:1.2.0.6 pkgsrc-2021Q3-base:1.2 pkgsrc-2021Q2:1.2.0.4 pkgsrc-2021Q2-base:1.2 pkgsrc-2021Q1:1.2.0.2 pkgsrc-2021Q1-base:1.2 pkgsrc-2020Q4:1.1.0.48 pkgsrc-2020Q4-base:1.1 pkgsrc-2020Q3:1.1.0.46 pkgsrc-2020Q3-base:1.1 pkgsrc-2020Q2:1.1.0.42 pkgsrc-2020Q2-base:1.1 pkgsrc-2020Q1:1.1.0.22 pkgsrc-2020Q1-base:1.1 pkgsrc-2019Q4:1.1.0.44 pkgsrc-2019Q4-base:1.1 pkgsrc-2019Q3:1.1.0.40 pkgsrc-2019Q3-base:1.1 pkgsrc-2019Q2:1.1.0.38 pkgsrc-2019Q2-base:1.1 pkgsrc-2019Q1:1.1.0.36 pkgsrc-2019Q1-base:1.1 pkgsrc-2018Q4:1.1.0.34 pkgsrc-2018Q4-base:1.1 pkgsrc-2018Q3:1.1.0.32 pkgsrc-2018Q3-base:1.1 pkgsrc-2018Q2:1.1.0.30 pkgsrc-2018Q2-base:1.1 pkgsrc-2018Q1:1.1.0.28 pkgsrc-2018Q1-base:1.1 pkgsrc-2017Q4:1.1.0.26 pkgsrc-2017Q4-base:1.1 pkgsrc-2017Q3:1.1.0.24 pkgsrc-2017Q3-base:1.1 pkgsrc-2017Q2:1.1.0.20 pkgsrc-2017Q2-base:1.1 pkgsrc-2017Q1:1.1.0.18 pkgsrc-2017Q1-base:1.1 pkgsrc-2016Q4:1.1.0.16 pkgsrc-2016Q4-base:1.1 pkgsrc-2016Q3:1.1.0.14 pkgsrc-2016Q3-base:1.1 pkgsrc-2016Q2:1.1.0.12 pkgsrc-2016Q2-base:1.1 pkgsrc-2016Q1:1.1.0.10 pkgsrc-2016Q1-base:1.1 pkgsrc-2015Q4:1.1.0.8 pkgsrc-2015Q4-base:1.1 pkgsrc-2015Q3:1.1.0.6 pkgsrc-2015Q3-base:1.1 pkgsrc-2015Q2:1.1.0.4 pkgsrc-2015Q2-base:1.1 pkgsrc-2015Q1:1.1.0.2 pkgsrc-2015Q1-base:1.1; locks; strict; comment @# @; 1.2 date 2021.03.15.16.05.49; author gdt; state Exp; branches; next 1.1; commitid G1oryYT16M5YdqLC; 1.1 date 2015.02.02.12.25.20; author he; state Exp; branches; next ; commitid NoAkNcWyHdqvMq8y; desc @@ 1.2 log @net/iperf*: Add status to DESCR (as discussed on pkgsrc-users) @ text @Iperf3 is a tool for active measurements of the maximum achievable bandwidth on IP networks. It supports tuning of various parameters related to timing, protocols, and buffers. For each test it reports the bandwidth, loss, and other parameters. This version, sometimes referred to as iperf3, is a redesign of an original version developed at NLANR/DAST. iperf3 is a new implementation from scratch, with the goal of a smaller, simpler code base, and a library version of the functionality that can be used in other programs. Iperf3 also has a number of features found in other tools such as nuttcp and netperf, but were missing from the original iperf. These include, for example, a zero-copy mode and optional JSON output. Note that iperf3 is NOT backwards compatible with the original iperf. iperf3 is the standard approach for "iperf". @ 1.1 log @Add iperf3 as version 3.0.11. Iperf3 is a tool for active measurements of the maximum achievable bandwidth on IP networks. It supports tuning of various parameters related to timing, protocols, and buffers. For each test it reports the bandwidth, loss, and other parameters. This version, sometimes referred to as iperf3, is a redesign of an original version developed at NLANR/DAST. iperf3 is a new implementation from scratch, with the goal of a smaller, simpler code base, and a library version of the functionality that can be used in other programs. Iperf3 also has a number of features found in other tools such as nuttcp and netperf, but were missing from the original iperf. These include, for example, a zero-copy mode and optional JSON output. Note that iperf3 is NOT backwards compatible with the original iperf. @ text @d14 2 @