From 6ffb99f0f222b64b022dcc14a61764e011d3e286 Mon Sep 17 00:00:00 2001 From: Cecil Hugh Watson Date: Thu, 29 Jan 2009 00:12:54 -0800 Subject: Removed to sync with upstream which is now using iproute2. --- abs/core-testing/iproute/PKGBUILD | 26 - .../iproute/iproute2-2.4.7-now-ss020116.patch | 9823 -------------------- 2 files changed, 9849 deletions(-) delete mode 100644 abs/core-testing/iproute/PKGBUILD delete mode 100644 abs/core-testing/iproute/iproute2-2.4.7-now-ss020116.patch diff --git a/abs/core-testing/iproute/PKGBUILD b/abs/core-testing/iproute/PKGBUILD deleted file mode 100644 index ae0f9f0..0000000 --- a/abs/core-testing/iproute/PKGBUILD +++ /dev/null @@ -1,26 +0,0 @@ -# $Id: PKGBUILD 3746 2008-06-30 20:09:01Z andyrtr $ -# Maintainer: Judd Vinet -pkgname=iproute -#_dlver=2.6.24-rc7 -#pkgver=$(echo ${_dlver} | sed 's|-|_|g') -pkgver=2.6.25 -pkgrel=1 -pkgdesc="IP Routing Utilities" -arch=(i686 x86_64) -license=('GPL') -url="http://www.linux-foundation.org/en/Net:Iproute2" -depends=('db>=4.7') -source=(#http://devresources.linux-foundation.org/dev/iproute2/download/iproute2-${_dlver}.tar.bz2 - http://devresources.linux-foundation.org/dev/iproute2/download/iproute2-${pkgver}.tar.bz2) -options=('force') -md5sums=('5737bade2f5e03fad0e2c81da91e551e') - -build() { - #cd $srcdir/iproute2-${_dlver} - cd $srcdir/iproute2-${pkgver} - sed -i 's|/usr/local/lib/iptables|/usr/lib/iptables|' include/iptables.h || return 1 - ./configure - make || return 1 - make DESTDIR=$pkgdir install || return 1 - chmod 755 $pkgdir/usr/sbin/ifcfg -} diff --git a/abs/core-testing/iproute/iproute2-2.4.7-now-ss020116.patch b/abs/core-testing/iproute/iproute2-2.4.7-now-ss020116.patch deleted file mode 100644 index 0e37865..0000000 --- a/abs/core-testing/iproute/iproute2-2.4.7-now-ss020116.patch +++ /dev/null @@ -1,9823 +0,0 @@ -diff -Naur iproute2-orig/Makefile iproute2/Makefile ---- iproute2-orig/Makefile 2002-01-15 15:30:32.000000000 -0800 -+++ iproute2/Makefile 2004-05-21 00:16:36.000000000 -0700 -@@ -4,8 +4,6 @@ - CONFDIR=/etc/iproute2 - DOCDIR=/usr/doc/iproute2 - --KERNEL_INCLUDE=/usr/src/linux/include --LIBC_INCLUDE=/usr/include - - DEFINES= -DRESOLVE_HOSTNAMES - -@@ -23,19 +21,11 @@ - #options for ipx - ADDLIB+=ipx_ntop.o ipx_pton.o - --ifeq ($(LIBC_INCLUDE)/socketbits.h,$(wildcard $(LIBC_INCLUDE)/socketbits.h)) -- ifeq ($(LIBC_INCLUDE)/net/if_packet.h,$(wildcard $(LIBC_INCLUDE)/net/if_packet.h)) -- GLIBCFIX=-I../include-glibc -include ../include-glibc/glibc-bugs.h -- endif --endif --ifeq ($(LIBC_INCLUDE)/bits/socket.h,$(wildcard $(LIBC_INCLUDE)/bits/socket.h)) -- GLIBCFIX=-I../include-glibc -I/usr/include/db3 -include ../include-glibc/glibc-bugs.h --endif - - - CC = gcc - CCOPTS = -D_GNU_SOURCE -O2 -Wstrict-prototypes -Wall -g --CFLAGS = $(CCOPTS) $(GLIBCFIX) -I$(KERNEL_INCLUDE) -I../include $(DEFINES) -+CFLAGS = $(CCOPTS) -I../include $(DEFINES) - - LDLIBS += -L../lib -lnetlink -lutil - -@@ -43,19 +33,11 @@ - - LIBNETLINK=../lib/libnetlink.a ../lib/libutil.a - --all: check-kernel -+all: - @set -e; \ - for i in $(SUBDIRS); \ - do $(MAKE) -C $$i; done - --check-kernel: --ifeq ($(KERNEL_INCLUDE),) -- @echo "Please, set correct KERNEL_INCLUDE"; false --else -- @set -e; \ -- if [ ! -r $(KERNEL_INCLUDE)/linux/autoconf.h ]; then \ -- echo "Please, compile the kernel first"; false; fi --endif - - install: all - install -m 0755 -d $(DESTDIR)$(SBINDIR) -diff -Naur iproute2-orig/Makefile~ iproute2/Makefile~ ---- iproute2-orig/Makefile~ 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/Makefile~ 2002-01-15 15:30:32.000000000 -0800 -@@ -0,0 +1,77 @@ -+# Path to parent kernel include files directory -+DESTDIR= -+SBINDIR=/sbin -+CONFDIR=/etc/iproute2 -+DOCDIR=/usr/doc/iproute2 -+ -+KERNEL_INCLUDE=/usr/src/linux/include -+LIBC_INCLUDE=/usr/include -+ -+DEFINES= -DRESOLVE_HOSTNAMES -+ -+#options if you have a bind>=4.9.4 libresolv (or, maybe, glibc) -+LDLIBS=-lresolv -+ADDLIB= -+ -+#options if you compile with libc5, and without a bind>=4.9.4 libresolv -+#LDLIBS= -+#ADDLIB=inet_ntop.o inet_pton.o -+ -+#options for decnet -+ADDLIB+=dnet_ntop.o dnet_pton.o -+ -+#options for ipx -+ADDLIB+=ipx_ntop.o ipx_pton.o -+ -+ifeq ($(LIBC_INCLUDE)/socketbits.h,$(wildcard $(LIBC_INCLUDE)/socketbits.h)) -+ ifeq ($(LIBC_INCLUDE)/net/if_packet.h,$(wildcard $(LIBC_INCLUDE)/net/if_packet.h)) -+ GLIBCFIX=-I../include-glibc -include ../include-glibc/glibc-bugs.h -+ endif -+endif -+ifeq ($(LIBC_INCLUDE)/bits/socket.h,$(wildcard $(LIBC_INCLUDE)/bits/socket.h)) -+ GLIBCFIX=-I../include-glibc -I/usr/include/db3 -include ../include-glibc/glibc-bugs.h -+endif -+ -+ -+CC = gcc -+CCOPTS = -D_GNU_SOURCE -O2 -Wstrict-prototypes -Wall -g -+CFLAGS = $(CCOPTS) $(GLIBCFIX) -I$(KERNEL_INCLUDE) -I../include $(DEFINES) -+ -+LDLIBS += -L../lib -lnetlink -lutil -+ -+SUBDIRS=lib ip tc misc -+ -+LIBNETLINK=../lib/libnetlink.a ../lib/libutil.a -+ -+all: check-kernel -+ @set -e; \ -+ for i in $(SUBDIRS); \ -+ do $(MAKE) -C $$i; done -+ -+check-kernel: -+ifeq ($(KERNEL_INCLUDE),) -+ @echo "Please, set correct KERNEL_INCLUDE"; false -+else -+ @set -e; \ -+ if [ ! -r $(KERNEL_INCLUDE)/linux/autoconf.h ]; then \ -+ echo "Please, compile the kernel first"; false; fi -+endif -+ -+install: all -+ install -m 0755 -d $(DESTDIR)$(SBINDIR) -+ install -m 0755 -d $(DESTDIR)$(CONFDIR) -+ install -m 0755 -d $(DESTDIR)$(DOCDIR)/examples -+ install -m 0755 -d $(DESTDIR)$(DOCDIR)/examples/diffserv -+ install -m 0644 README.iproute2+tc $(shell find examples -type f -maxdepth 1) $(DESTDIR)$(DOCDIR)/examples -+ install -m 0644 $(shell echo examples/diffserv/*) $(DESTDIR)$(DOCDIR)/examples/diffserv -+ @for i in $(SUBDIRS) doc; do $(MAKE) -C $$i install; done -+ @cd etc/iproute2; for i in *; do \ -+ if [ ! -e $(DESTDIR)$(CONFDIR)/$$i ]; then \ -+ echo install -m 0644 $$i $(DESTDIR)$(CONFDIR); \ -+ install -m 0644 $$i $(DESTDIR)$(CONFDIR); fi; done -+ -+clean: -+ for i in $(SUBDIRS) doc; \ -+ do $(MAKE) -C $$i clean; done -+ -+.EXPORT_ALL_VARIABLES: -diff -Naur iproute2-orig/debian/README.Debian iproute2/debian/README.Debian ---- iproute2-orig/debian/README.Debian 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/README.Debian 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,4 @@ -+This version of "iproute" includes the HTB Linux queuing discipline -+explained in http://luxik.cdi.cz/~devik/qos/htb/ -+ -+You need kernel version 2.4.21 or newer in order to use it. -diff -Naur iproute2-orig/debian/changelog iproute2/debian/changelog ---- iproute2-orig/debian/changelog 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/changelog 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,207 @@ -+iproute (20010824-13) unstable; urgency=low -+ -+ * debian/rules: Run dpkg-shlibdeps with all the executables, -+ to fix dependency problem (closes: Bug#224063) -+ * Really removed references to obsolete include files -+ (Bug#223165 was not fixed properly) -+ -+ -- Juan Cespedes Sun, 25 Jan 2004 23:04:20 +0100 -+ -+iproute (20010824-12) unstable; urgency=low -+ -+ * Updated README.Debian and copyright file -+ * Added two new manpages from http://lartc.org/manpages/: -+ ip(8) and tc-cbq-details(8). -+ * Removed references to obsolete include files which made -+ compilation fail (closes: Bug#223165) -+ -+ -- Juan Cespedes Sun, 14 Dec 2003 00:40:10 +0100 -+ -+iproute (20010824-11) unstable; urgency=low -+ -+ * Changed priority to "optional" -+ * Fixed "tc -s qdisc" on sparc (patch by "Nicolas S. Dade" -+ ) (closes: Bug#194128) -+ -+ -- Juan Cespedes Sun, 17 Aug 2003 00:22:47 +0200 -+ -+iproute (20010824-10) unstable; urgency=low -+ -+ * Updated manual pages from http://www.lartc.org/manpages/ -+ (closes: Bug#156353, Bug#175313, Bug#176989, Bug#189095) -+ * New Standards-Version -+ * Don't "rm -rf /etc/iproute2" on purge (closes: Bug#202862) -+ * Include "iproute2" in the description (closes: Bug#182999) -+ -+ -- Juan Cespedes Sat, 16 Aug 2003 18:29:27 +0200 -+ -+iproute (20010824-9) unstable; urgency=medium -+ -+ * Added patch for HTB v3.6 to be able to work with kernel 2.4.20 -+ (from http://luxik.cdi.cz/~devik/qos/htb/v3/htb3.6-020525.tgz) -+ (closes: Bug#147550, Bug#167149, Bug#167597, Bug#171277) -+ -+ -- Juan Cespedes Thu, 05 Dec 2002 13:44:10 +0100 -+ -+iproute (20010824-8) unstable; urgency=medium -+ -+ * Added support for HTB queuing discipline (closes: Bug#133381) -+ NOTE: you need a patched kernel in order to use it -+ -+ -- Juan Cespedes Tue, 2 Apr 2002 20:29:40 +0200 -+ -+iproute (20010824-7) unstable; urgency=medium -+ -+ * Move `ip' binary to /bin to fix FHS violation (closes: Bug#134812) -+ -+ -- Juan Cespedes Mon, 4 Mar 2002 00:20:30 +0100 -+ -+iproute (20010824-6) unstable; urgency=low -+ -+ * Added a couple of #ifdef's to be able to compile with older -+ kernel headers (needed for arm) (closes: Bug#131695) -+ -+ -- Juan Cespedes Sat, 16 Feb 2002 19:27:15 +0100 -+ -+iproute (20010824-5) unstable; urgency=low -+ -+ * Really fix Bug#121589 (dead gateway bug); apparently I -+ forgot to include the patch in 20010824-2 -+ -+ -- Juan Cespedes Tue, 29 Jan 2002 23:22:24 +0100 -+ -+iproute (20010824-4) unstable; urgency=low -+ -+ * Added support for DIFFSERV and ATM in tc -+ -+ -- Juan Cespedes Sun, 13 Jan 2002 03:01:47 +0100 -+ -+iproute (20010824-3) unstable; urgency=low -+ -+ * Updated tc* man pages (thanks to bert hubert ) -+ * Fixed spurious space in `tc -s qdisc' output (closes: Bug#128501) -+ -+ -- Juan Cespedes Thu, 10 Jan 2002 22:18:25 +0100 -+ -+iproute (20010824-2) unstable; urgency=low -+ -+ * Fixed the following important and serious bugs: -+ + iproute doesn't compile on Alpha (closes: Bug#118113, Bug#123224) -+ + iproute doesn't compile on MIPS (closes: Bug#118424) -+ + iproute doesn't compile on powerpc (closes: Bug#119601) -+ * Added man pages for tc (closes: Bug#124230), tc-cbq, tc-red, tc-tbf, -+ tc-prio and tc-sfq -+ * Removed references to old programs from iproute(7) (closes: Bug#99536) -+ * Fixed bug which presented first hop as dead in equal cost multipath -+ (closes: Bug#121589) -+ * Do not process .ps with through `psnup' (closes: Bug#119820) -+ -+ -- Juan Cespedes Tue, 8 Jan 2002 16:07:27 +0100 -+ -+iproute (20010824-1) unstable; urgency=low -+ -+ * New upstream version -+ * Make ingress qdisc work again with tc (closes: Bug#84444) -+ * Make it compile properly with new include files (closes: Bug#113112) -+ -+ -- Juan Cespedes Sun, 28 Oct 2001 16:38:00 +0100 -+ -+iproute (20001007-1) unstable; urgency=low -+ -+ * New upstream version (closes: Bug#63701) -+ * Remove /etc/iproute2 on purge (closes: Bug#72743) -+ * Fixed Lintian warnings (no-priority-field and no-section-field) -+ -+ -- Juan Cespedes Sat, 14 Oct 2000 19:27:12 +0200 -+ -+iproute (991023-2) unstable; urgency=low -+ -+ * New Standards-Version (3.1.1) (closes: Bug#47923) -+ * Modified description of package to show which kernel options are -+ necessary to use the package (closes: Bug#47922) -+ * Updated manual page to point at /usr/share/doc/iproute (closes: Bug#47924) -+ -+ -- Juan Cespedes Sun, 19 Dec 1999 04:00:21 +0100 -+ -+iproute (991023-1) unstable; urgency=low -+ -+ * New upstream version (closes: Bug#48733) -+ -+ -- Juan Cespedes Tue, 2 Nov 1999 16:29:37 +0100 -+ -+iproute (990824-1) unstable; urgency=low -+ -+ * New maintainer -+ * New upstream version -+ * New Standards-Version: 3.1.0 -+ * Minor fix in "ip rule list": mask in "from" address was not shown -+ correctly -+ * Removed obsoleted documentation from "debian/" directory -+ -+ -- Juan Cespedes Sun, 24 Oct 1999 19:02:56 +0200 -+ -+iproute (990630-1) unstable; urgency=low -+ -+ * New upstream version. -+ * FHS and standards 3.0.1.0. -+ -+ -- Roberto Lumbreras Tue, 3 Aug 1999 02:49:28 +0200 -+ -+iproute (990530-1) unstable; urgency=low -+ -+ * New upstream version. -+ * Build with 2.2.10 kernel headers. -+ * Install new scripts ip/routef ip/routel, but not ip/ifcfg ip/rtpr by -+ now, I don't know who/what needs rtpr; ifcfg uses arping, and it isn't -+ available in debian for now. -+ -+ -- Roberto Lumbreras Tue, 22 Jun 1999 02:28:53 +0200 -+ -+iproute (990329-1) unstable; urgency=low -+ -+ * New upstream version. -+ * Build with 2.2.5 kernel headers. -+ -+ -- Roberto Lumbreras Sun, 4 Apr 1999 18:50:39 +0200 -+ -+iproute (980630-1) unstable; urgency=low -+ -+ * New upstream version. -+ * Build with 2.1.112 kernel headers. -+ * Rewrote the rules file. -+ -+ -- Roberto Lumbreras Wed, 29 Jul 1998 23:37:52 +0200 -+ -+iproute (980119-1) unstable; urgency=low -+ -+ * Outdated documentation. Upstream docs are scarce. -+ * Non-Maintainer release -+ * This package has no correct copyright file! -+ * Include all the README.* docs from the upstream site. -+ * Modified to build under glibc -+ * Build with 2.1.85 kernel headers. -+ * produce a correct diff. -+ * Reworked the rules file to utilize debmake fully -+ * Newest upstream release -+ * glibc compilation -+ -+ -- Christoph Lameter Wed, 4 Feb 1998 13:37:28 -0800 -+ -+iproute (961225-2) unstable frozen; urgency=low -+ -+ * Added a man page for iproute. (Fixes #8080). -+ * Removed out-of-date patches. -+ * Added routing.txt from /usr/src/linux/Documentation/networking/routing.txt -+ * Newer version of debmake. -+ -+ -- Tom Lees Mon, 17 Apr 1997 17:00:36 +0100 -+ -+iproute (961225-1) unstable; urgency=low -+ -+ * Initial Release. -+ -+ -- Tom Lees Mon, 30 Dec 1996 11:12:23 +0000 -+ -+Local variables: -+mode: debian-changelog -+End: -diff -Naur iproute2-orig/debian/conffiles iproute2/debian/conffiles ---- iproute2-orig/debian/conffiles 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/conffiles 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,5 @@ -+/etc/iproute2/rt_dsfield -+/etc/iproute2/rt_protos -+/etc/iproute2/rt_realms -+/etc/iproute2/rt_scopes -+/etc/iproute2/rt_tables -diff -Naur iproute2-orig/debian/control iproute2/debian/control ---- iproute2-orig/debian/control 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/control 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,19 @@ -+Source: iproute -+Section: net -+Priority: optional -+Maintainer: Juan Cespedes -+Standards-Version: 3.6.0 -+Build-Depends: tetex-bin, atm-dev -+ -+Package: iproute -+Architecture: any -+Depends: ${shlibs:Depends} -+Description: Professional tools to control the networking in Linux kernels -+ This is `iproute', the professional set of tools to control the -+ networking behavior in kernels 2.2.x and later. -+ . -+ At least, the options CONFIG_NETLINK and CONFIG_RTNETLINK must -+ be compiled in the running kernel -+ . -+ This package is also known as iproute2 upstream and in some -+ documentation. -diff -Naur iproute2-orig/debian/copyright iproute2/debian/copyright ---- iproute2-orig/debian/copyright 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/copyright 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,42 @@ -+This is the Debian GNU/Linux's prepackaged version of the -+Linux Traffic Control engine and related utils, "iproute" -+ -+This package was put together from sources obtained from: -+ ftp://ftp.inr.ac.ru/ip-routing/iproute2-2.4.7-now-ss010824.tar.gz -+ -+Changes for Debian: -+ * added Debian GNU/Linux package maintenance system files -+ * Added HTB v3.6 from -+ -+ -+ -+Copyrights -+---------- -+Copyright (C) 1996-2001 Alexey Kuznetsov -+ -+Modifications for Debian: -+ Copyright (C) 1996 Tom Lees -+ Copyright (C) 1998 Christoph Lameter -+ Copyright (C) 1998-1999 Roberto Lumbreras -+ Copyright (C) 1999-2003 Juan Cespedes -+ -+ -+License -+------- -+ -+This program is free software; you can redistribute it and/or modify -+it under the terms of the GNU General Public License as published by -+the Free Software Foundation; either version 2, or (at your option) -+any later version. -+ -+This program is distributed in the hope that it will be useful, but -+WITHOUT ANY WARRANTY; without even the implied warranty of -+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU -+General Public License for more details. -+ -+A copy of the GNU General Public License is available as -+`/usr/share/common-licenses/GPL' in the Debian GNU/Linux distribution -+or on the World Wide Web at `http://www.gnu.org/copyleft/gpl.html'. -+You can also obtain it by writing to the Free Software Foundation, -+Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA -+ -diff -Naur iproute2-orig/debian/manpages/ip.8 iproute2/debian/manpages/ip.8 ---- iproute2-orig/debian/manpages/ip.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/ip.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,1809 @@ -+.TH IP 8 "17 January 2002" "iproute2" "Linux" -+.SH NAME -+ip \- show / manipulate routing, devices, policy routing and tunnels -+.SH SYNOPSIS -+ -+.ad l -+.in +8 -+.ti -8 -+.B ip -+.RI "[ " OPTIONS " ] " OBJECT " { " COMMAND " | " -+.BR help " }" -+.sp -+ -+.ti -8 -+.IR OBJECT " := { " -+.BR link " | " addr " | " route " | " rule " | " neigh " | " tunnel " | "\ -+maddr " | " mroute " | " monitor " }" -+.sp -+ -+.ti -8 -+.IR OPTIONS " := { " -+\fB\-V\fR[\fIersion\fR] | -+\fB\-s\fR[\fItatistics\fR] | -+\fB\-r\fR[\fIesolve\fR] | -+\fB\-f\fR[\fIamily\fR] { -+.BR inet " | " inet6 " | " ipx " | " dnet " | " link " } | " -+\fB\-o\fR[\fIneline\fR] } -+ -+.ti -8 -+.BI "ip link set " DEVICE -+.RB "{ " up " | " down " | " arp " { " on " | " off " } |" -+.br -+.BR promisc " { " on " | " off " } |" -+.br -+.BR allmulti " { " on " | " off " } |" -+.br -+.BR dynamic " { " on " | " off " } |" -+.br -+.BR multicast " { " on " | " off " } |" -+.br -+.B txqueuelen -+.IR PACKETS " |" -+.br -+.B name -+.IR NEWNAME " |" -+.br -+.B address -+.IR LLADDR " |" -+.B broadcast -+.IR LLADDR " |" -+.br -+.B mtu -+.IR MTU " }" -+ -+.ti -8 -+.B ip link show -+.RI "[ " DEVICE " ]" -+ -+.ti -8 -+.BR "ip addr" " { " add " | " del " } " -+.IB IFADDR " dev " STRING -+ -+.ti -8 -+.BR "ip addr" " { " show " | " flush " } [ " dev -+.IR STRING " ] [ " -+.B scope -+.IR SCOPE-ID " ] [ " -+.B to -+.IR PREFIX " ] [ " FLAG-LIST " ] [ " -+.B label -+.IR PATTERN " ]" -+ -+.ti -8 -+.IR IFADDR " := " PREFIX " | " ADDR -+.B peer -+.IR PREFIX " [ " -+.B broadcast -+.IR ADDR " ] [ " -+.B anycast -+.IR ADDR " ] [ " -+.B label -+.IR STRING " ] [ " -+.B scope -+.IR SCOPE-ID " ]" -+ -+.ti -8 -+.IR SCOPE-ID " := " -+.RB "[ " host " | " link " | " global " | " -+.IR NUMBER " ]" -+ -+.ti -8 -+.IR FLAG-LIST " := [ " FLAG-LIST " ] " FLAG -+ -+.ti -8 -+.IR FLAG " := " -+.RB "[ " permanent " | " dynamic " | " secondary " | " primary " | "\ -+tentative " | " deprecated " ]" -+ -+.ti -8 -+.BR "ip route" " { " -+.BR list " | " flush " } " -+.I SELECTOR -+ -+.ti -8 -+.B ip route get -+.IR ADDRESS " [ " -+.BI from " ADDRESS " iif " STRING" -+.RB " ] [ " oif -+.IR STRING " ] [ " -+.B tos -+.IR TOS " ]" -+ -+.ti -8 -+.BR "ip route" " { " add " | " del " | " change " | " append " | "\ -+replace " | " monitor " } " -+.I ROUTE -+ -+.ti -8 -+.IR SELECTOR " := " -+.RB "[ " root -+.IR PREFIX " ] [ " -+.B match -+.IR PREFIX " ] [ " -+.B exact -+.IR PREFIX " ] [ " -+.B table -+.IR TABLE_ID " ] [ " -+.B proto -+.IR RTPROTO " ] [ " -+.B type -+.IR TYPE " ] [ " -+.B scope -+.IR SCOPE " ]" -+ -+.ti -8 -+.IR ROUTE " := " NODE_SPEC " [ " INFO_SPEC " ]" -+ -+.ti -8 -+.IR NODE_SPEC " := [ " TYPE " ] " PREFIX " [" -+.B tos -+.IR TOS " ] [ " -+.B table -+.IR TABLE_ID " ] [ " -+.B proto -+.IR RTPROTO " ] [ " -+.B scope -+.IR SCOPE " ] [ " -+.B metric -+.IR METRIC " ]" -+ -+.ti -8 -+.IR INFO_SPEC " := " "NH OPTIONS FLAGS" " [" -+.B nexthop -+.IR NH " ] ..." -+ -+.ti -8 -+.IR NH " := [ " -+.B via -+.IR ADDRESS " ] [ " -+.B dev -+.IR STRING " ] [ " -+.B weight -+.IR NUMBER " ] " NHFLAGS -+ -+.ti -8 -+.IR OPTIONS " := " FLAGS " [ " -+.B mtu -+.IR NUMBER " ] [ " -+.B advmss -+.IR NUMBER " ] [ " -+.B rtt -+.IR NUMBER " ] [ " -+.B rttvar -+.IR NUMBER " ] [ " -+.B window -+.IR NUMBER " ] [ " -+.B cwnd -+.IR NUMBER " ] [ " -+.B ssthresh -+.IR REALM " ] [ " -+.B realms -+.IR REALM " ]" -+ -+.ti -8 -+.IR TYPE " := [ " -+.BR unicast " | " local " | " broadcast " | " multicast " | "\ -+throw " | " unreachable " | " prohibit " | " blackhole " | " nat " ]" -+ -+.ti -8 -+.IR TABLE_ID " := [ " -+.BR local "| " main " | " default " | " all " |" -+.IR NUMBER " ]" -+ -+.ti -8 -+.IR SCOPE " := [ " -+.BR host " | " link " | " global " |" -+.IR NUMBER " ]" -+ -+.ti -8 -+.IR FLAGS " := [ " -+.BR equalize " ]" -+ -+.ti -8 -+.IR NHFLAGS " := [ " -+.BR onlink " | " pervasive " ]" -+ -+.ti -8 -+.IR RTPROTO " := [ " -+.BR kernel " | " boot " | " static " |" -+.IR NUMBER " ]" -+ -+.ti -8 -+.B ip rule -+.RB " [ " list " | " add " | " del " ]" -+.I SELECTOR ACTION -+ -+.ti -8 -+.IR SELECTOR " := [ " -+.B from -+.IR PREFIX " ] [ " -+.B to -+.IR PREFIX " ] [ " -+.B tos -+.IR TOS " ] [ " -+.B fwmark -+.IR FWMARK " ] [ " -+.B dev -+.IR STRING " ] [ " -+.B pref -+.IR NUMBER " ]" -+ -+.ti -8 -+.IR ACTION " := [ " -+.B table -+.IR TABLE_ID " ] [ " -+.B nat -+.IR ADDRESS " ] [ " -+.BR prohibit " | " reject " | " unreachable " ] [ " realms -+.RI "[" SRCREALM "/]" DSTREALM " ]" -+ -+.ti -8 -+.IR TABLE_ID " := [ " -+.BR local " | " main " | " default " |" -+.IR NUMBER " ]" -+ -+.ti -8 -+.BR "ip neigh" " { " add " | " del " | " change " | " replace " } { " -+.IR ADDR " [ " -+.B lladdr -+.IR LLADDR " ] [ " -+.BR nud " { " permanent " | " noarp " | " stale " | " reachable " } ] | " proxy -+.IR ADDR " } [ " -+.B dev -+.IR DEV " ]" -+ -+.ti -8 -+.BR "ip neigh" " { " show " | " flush " } [ " to -+.IR PREFIX " ] [ " -+.B dev -+.IR DEV " ] [ " -+.B nud -+.IR STATE " ]" -+ -+.ti -8 -+.BR "ip tunnel" " { " add " | " change " | " del " | " show " }" -+.RI "[ " NAME " ]" -+.br -+.RB "[ " mode " { " ipip " | " gre " | " sit " } ]" -+.br -+.RB "[ " remote -+.IR ADDR " ] [ " -+.B local -+.IR ADDR " ]" -+.br -+.RB "[ [" i "|" o "]" seq " ] [ [" i "|" o "]" key -+.IR KEY " ] [ " -+.RB "[" i "|" o "]" csum " ] ]" -+.br -+.RB "[ " ttl -+.IR TTL " ] [ " -+.B tos -+.IR TOS " ] [ " -+.RB "[" no "]" pmtudisc " ]" -+.br -+.RB "[ " dev -+.IR PHYS_DEV " ]" -+ -+.ti -8 -+.IR ADDR " := { " IP_ADDRESS " |" -+.BR any " }" -+ -+.ti -8 -+.IR TOS " := { " NUMBER " |" -+.BR inherit " }" -+ -+.ti -8 -+.IR TTL " := { " 1 ".." 255 " | " -+.BR inherit " }" -+ -+.ti -8 -+.IR KEY " := { " DOTTED_QUAD " | " NUMBER " }" -+ -+.ti -8 -+.BR "ip maddr" " [ " add " | " del " ]" -+.IB MULTIADDR " dev " STRING -+ -+.ti -8 -+.BR "ip maddr show" " [ " dev -+.IR STRING " ]" -+ -+.ti -8 -+.BR "ip mroute show" " [" -+.IR PREFIX " ] [ " -+.B from -+.IR PREFIX " ] [ " -+.B iif -+.IR DEVICE " ]" -+ -+.ti -8 -+.BR "ip monitor" " [ " all " |" -+.IR LISTofOBJECTS " ]" -+.in -8 -+.ad b -+ -+.SH OPTIONS -+ -+.TP -+.BR "\-V" , " -Version" -+print the version of the -+.B ip -+utility and exit. -+ -+.TP -+.BR "\-s" , " \-stats", " \-statistics" -+output more information. If the option -+appears twice or more, the amount of information increases. -+As a rule, the information is statistics or some time values. -+ -+.TP -+.BR "\-f" , " \-family" -+followed by protocol family identifier: -+.BR "inet" , " inet6" -+or -+.B link -+,enforce the protocol family to use. If the option is not present, -+the protocol family is guessed from other arguments. If the rest -+of the command line does not give enough information to guess the -+family, -+.B ip -+falls back to the default one, usually -+.B inet -+or -+.BR "any" . -+.B link -+is a special family identifier meaning that no networking protocol -+is involved. -+ -+.TP -+.B \-4 -+shortcut for -+.BR "-family inet" . -+ -+.TP -+.B \-6 -+shortcut for -+.BR "\-family inet6" . -+ -+.TP -+.B \-0 -+shortcut for -+.BR "\-family link" . -+ -+.TP -+.BR "\-o" , " \-oneline" -+output each record on a single line, replacing line feeds -+with the -+.B '\' -+character. This is convenient when you want to count records -+with -+.BR wc (1) -+ or to -+.BR grep (1) -+the output. -+ -+.TP -+.BR "\-r" , " \-resolve" -+use the system's name resolver to print DNS names instead of -+host addresses. -+ -+.SH IP - COMMAND SYNTAX -+ -+.SS -+.I OBJECT -+ -+.TP -+.B link -+- network device. -+ -+.TP -+.B address -+- protocol (IP or IPv6) address on a device. -+.TP -+.B neighbour -+- ARP or NDISC cache entry. -+ -+.TP -+.B route -+- routing table entry. -+ -+.TP -+.B rule -+- rule in routing policy database. -+ -+.TP -+.B maddress -+- multicast address. -+ -+.TP -+.B mroute -+- multicast routing cache entry. -+ -+.TP -+.B tunnel -+- tunnel over IP. -+ -+.PP -+The names of all objects may be written in full or -+abbreviated form, f.e. -+.B address -+is abbreviated as -+.B addr -+or just -+.B a. -+ -+.SS -+.I COMMAND -+ -+Specifies the action to perform on the object. -+The set of possible actions depends on the object type. -+As a rule, it is possible to -+.BR "add" , " delete" -+and -+.B show -+(or -+.B list -+) objects, but some objects do not allow all of these operations -+or have some additional commands. The -+.B help -+command is available for all objects. It prints -+out a list of available commands and argument syntax conventions. -+.sp -+If no command is given, some default command is assumed. -+Usually it is -+.B list -+or, if the objects of this class cannot be listed, -+.BR "help" . -+ -+.SH ip link - network device configuration -+ -+.B link -+is a network device and the corresponding commands -+display and change the state of devices. -+ -+.SS ip link set - change device attributes -+ -+.TP -+.BI dev " NAME " (default) -+.I NAME -+specifies network device to operate on. -+ -+.TP -+.BR up " and " down -+change the state of the device to -+.B UP -+or -+.BR "DOWN" . -+ -+.TP -+.BR "arp on " or " arp off" -+change the -+.B NOARP -+flag on the device. -+ -+.TP -+.BR "multicast on " or " multicast off" -+change the -+.B MULTICAST -+flag on the device. -+ -+.TP -+.BR "dynamic on " or " dynamic off" -+change the -+.B DYNAMIC -+flag on the device. -+ -+.TP -+.BI name " NAME" -+change the name of the device. This operation is not -+recommended if the device is running or has some addresses -+already configured. -+ -+.TP -+.BI txqueuelen " NUMBER" -+.TP -+.BI txqlen " NUMBER" -+change the transmit queue length of the device. -+ -+.TP -+.BI mtu " NUMBER" -+change the -+.I MTU -+of the device. -+ -+.TP -+.BI address " LLADDRESS" -+change the station address of the interface. -+ -+.TP -+.BI broadcast " LLADDRESS" -+.TP -+.BI brd " LLADDRESS" -+.TP -+.BI peer " LLADDRESS" -+change the link layer broadcast address or the peer address when -+the interface is -+.IR "POINTOPOINT" . -+ -+.PP -+.B Warning: -+If multiple parameter changes are requested, -+.B ip -+aborts immediately after any of the changes have failed. -+This is the only case when -+.B ip -+can move the system to an unpredictable state. The solution -+is to avoid changing several parameters with one -+.B ip link set -+call. -+ -+.SS ip link show - display device attributes -+ -+.TP -+.BI dev " NAME " (default) -+.I NAME -+specifies the network device to show. -+If this argument is omitted all devices are listed. -+ -+.TP -+.B up -+only display running interfaces. -+ -+.SH ip address - protocol address management. -+ -+The -+.B address -+is a protocol (IP or IPv6) address attached -+to a network device. Each device must have at least one address -+to use the corresponding protocol. It is possible to have several -+different addresses attached to one device. These addresses are not -+discriminated, so that the term -+.B alias -+is not quite appropriate for them and we do not use it in this document. -+.sp -+The -+.B ip addr -+command displays addresses and their properties, adds new addresses -+and deletes old ones. -+ -+.SS ip address add - add new protocol address. -+ -+.TP -+.BI dev " NAME" -+the name of the device to add the address to. -+ -+.TP -+.BI local " ADDRESS " (default) -+the address of the interface. The format of the address depends -+on the protocol. It is a dotted quad for IP and a sequence of -+hexadecimal halfwords separated by colons for IPv6. The -+.I ADDRESS -+may be followed by a slash and a decimal number which encodes -+the network prefix length. -+ -+.TP -+.BI peer " ADDRESS" -+the address of the remote endpoint for pointopoint interfaces. -+Again, the -+.I ADDRESS -+may be followed by a slash and a decimal number, encoding the network -+prefix length. If a peer address is specified, the local address -+cannot have a prefix length. The network prefix is associated -+with the peer rather than with the local address. -+ -+.TP -+.BI broadcast " ADDRESS" -+the broadcast address on the interface. -+.sp -+It is possible to use the special symbols -+.B '+' -+and -+.B '-' -+instead of the broadcast address. In this case, the broadcast address -+is derived by setting/resetting the host bits of the interface prefix. -+ -+.TP -+.BI label " NAME" -+Each address may be tagged with a label string. -+In order to preserve compatibility with Linux-2.0 net aliases, -+this string must coincide with the name of the device or must be prefixed -+with the device name followed by colon. -+ -+.TP -+.BI scope " SCOPE_VALUE" -+the scope of the area where this address is valid. -+The available scopes are listed in file -+.BR "/etc/iproute2/rt_scopes" . -+Predefined scope values are: -+ -+.in +8 -+.B global -+- the address is globally valid. -+.sp -+.B site -+- (IPv6 only) the address is site local, i.e. it is -+valid inside this site. -+.sp -+.B link -+- the address is link local, i.e. it is valid only on this device. -+.sp -+.B host -+- the address is valid only inside this host. -+.in -8 -+ -+.SS ip address delete - delete protocol address -+.B Arguments: -+coincide with the arguments of -+.B ip addr add. -+The device name is a required argument. The rest are optional. -+If no arguments are given, the first address is deleted. -+ -+.SS ip address show - look at protocol addresses -+ -+.TP -+.BI dev " NAME " (default) -+name of device. -+ -+.TP -+.BI scope " SCOPE_VAL" -+only list addresses with this scope. -+ -+.TP -+.BI to " PREFIX" -+only list addresses matching this prefix. -+ -+.TP -+.BI label " PATTERN" -+only list addresses with labels matching the -+.IR "PATTERN" . -+.I PATTERN -+is a usual shell style pattern. -+ -+.TP -+.BR dynamic " and " permanent -+(IPv6 only) only list addresses installed due to stateless -+address configuration or only list permanent (not dynamic) -+addresses. -+ -+.TP -+.B tentative -+(IPv6 only) only list addresses which did not pass duplicate -+address detection. -+ -+.TP -+.B deprecated -+(IPv6 only) only list deprecated addresses. -+ -+.TP -+.BR primary " and " secondary -+only list primary (or secondary) addresses. -+ -+.SS ip address flush - flush protocol addresses -+This command flushes the protocol addresses selected by some criteria. -+ -+.PP -+This command has the same arguments as -+.B show. -+The difference is that it does not run when no arguments are given. -+ -+.PP -+.B Warning: -+This command (and other -+.B flush -+commands described below) is pretty dangerous. If you make a mistake, -+it will not forgive it, but will cruelly purge all the addresses. -+ -+.PP -+With the -+.B -statistics -+option, the command becomes verbose. It prints out the number of deleted -+addresses and the number of rounds made to flush the address list. If -+this option is given twice, -+.B ip addr flush -+also dumps all the deleted addresses in the format described in the -+previous subsection. -+ -+.SH ip neighbour - neighbour/arp tables management. -+ -+.B neighbour -+objects establish bindings between protocol addresses and -+link layer addresses for hosts sharing the same link. -+Neighbour entries are organized into tables. The IPv4 neighbour table -+is known by another name - the ARP table. -+ -+.P -+The corresponding commands display neighbour bindings -+and their properties, add new neighbour entries and delete old ones. -+ -+.SS ip neighbour add - add a new neighbour entry -+.SS ip neighbour change - change an existing entry -+.SS ip neighbour replace - add a new entry or change an existing one -+ -+These commands create new neighbour records or update existing ones. -+ -+.TP -+.BI to " ADDRESS " (default) -+the protocol address of the neighbour. It is either an IPv4 or IPv6 address. -+ -+.TP -+.BI dev " NAME" -+the interface to which this neighbour is attached. -+ -+.TP -+.BI lladdr " LLADDRESS" -+the link layer address of the neighbour. -+.I LLADDRESS -+can also be -+.BR "null" . -+ -+.TP -+.BI nud " NUD_STATE" -+the state of the neighbour entry. -+.B nud -+is an abbreviation for 'Neigh bour Unreachability Detection'. -+The state can take one of the following values: -+ -+.in +8 -+.B permanent -+- the neighbour entry is valid forever and can be only -+be removed administratively. -+.sp -+ -+.B noarp -+- the neighbour entry is valid. No attempts to validate -+this entry will be made but it can be removed when its lifetime expires. -+.sp -+ -+.B reachable -+- the neighbour entry is valid until the reachability -+timeout expires. -+.sp -+ -+.B stale -+- the neighbour entry is valid but suspicious. -+This option to -+.B ip neigh -+does not change the neighbour state if it was valid and the address -+is not changed by this command. -+.in -8 -+ -+.SS ip neighbour delete - delete a neighbour entry -+This command invalidates a neighbour entry. -+ -+.PP -+The arguments are the same as with -+.BR "ip neigh add" , -+except that -+.B lladdr -+and -+.B nud -+are ignored. -+ -+.PP -+.B Warning: -+Attempts to delete or manually change a -+.B noarp -+entry created by the kernel may result in unpredictable behaviour. -+Particularly, the kernel may try to resolve this address even -+on a -+.B NOARP -+interface or if the address is multicast or broadcast. -+ -+.SS ip neighbour show - list neighbour entries -+ -+This commands displays neighbour tables. -+ -+.TP -+.BI to " ADDRESS " (default) -+the prefix selecting the neighbours to list. -+ -+.TP -+.BI dev " NAME" -+only list the neighbours attached to this device. -+ -+.TP -+.B unused -+only list neighbours which are not currently in use. -+ -+.TP -+.BI nud " NUD_STATE" -+only list neighbour entries in this state. -+.I NUD_STATE -+takes values listed below or the special value -+.B all -+which means all states. This option may occur more than once. -+If this option is absent, -+.B ip -+lists all entries except for -+.B none -+and -+.BR "noarp" . -+ -+.SS ip neighbour flush - flush neighbour entries -+This command flushes neighbour tables, selecting -+entries to flush by some criteria. -+ -+.PP -+This command has the same arguments as -+.B show. -+The differences are that it does not run when no arguments are given, -+and that the default neighbour states to be flushed do not include -+.B permanent -+and -+.BR "noarp" . -+ -+.PP -+With the -+.B -statistics -+option, the command becomes verbose. It prints out the number of -+deleted neighbours and the number of rounds made to flush the -+neighbour table. If the option is given -+twice, -+.B ip neigh flush -+also dumps all the deleted neighbours. -+ -+.SH ip route - routing table management -+Manipulate route entries in the kernel routing tables keep -+information about paths to other networked nodes. -+.sp -+.B Route types: -+ -+.in +8 -+.B unicast -+- the route entry describes real paths to the destinations covered -+by the route prefix. -+ -+.sp -+.B unreachable -+- these destinations are unreachable. Packets are discarded and the -+ICMP message -+.I host unreachable -+is generated. -+The local senders get an -+.I EHOSTUNREACH -+error. -+ -+.sp -+.B blackhole -+- these destinations are unreachable. Packets are discarded silently. -+The local senders get an -+.I EINVAL -+error. -+ -+.sp -+.B prohibit -+- these destinations are unreachable. Packets are discarded and the -+ICMP message -+.I communication administratively prohibited -+is generated. The local senders get an -+.I EACCES -+error. -+ -+.sp -+.B local -+- the destinations are assigned to this host. The packets are looped -+back and delivered locally. -+ -+.sp -+.B broadcast -+- the destinations are broadcast addresses. The packets are sent as -+link broadcasts. -+ -+.sp -+.B throw -+- a special control route used together with policy rules. If such a -+route is selected, lookup in this table is terminated pretending that -+no route was found. Without policy routing it is equivalent to the -+absence of the route in the routing table. The packets are dropped -+and the ICMP message -+.I net unreachable -+is generated. The local senders get an -+.I ENETUNREACH -+error. -+ -+.sp -+.B nat -+- a special NAT route. Destinations covered by the prefix -+are considered to be dummy (or external) addresses which require translation -+to real (or internal) ones before forwarding. The addresses to translate to -+are selected with the attribute -+.BR "via" . -+ -+.sp -+.B anycast -+.RI "- " "not implemented" -+the destinations are -+.I anycast -+addresses assigned to this host. They are mainly equivalent -+to -+.B local -+with one difference: such addresses are invalid when used -+as the source address of any packet. -+ -+.sp -+.B multicast -+- a special type used for multicast routing. It is not present in -+normal routing tables. -+.in -8 -+ -+.P -+.B Route tables: -+Linux-2.x can pack routes into several routing -+tables identified by a number in the range from 1 to 255 or by -+name from the file -+.B /etc/iproute2/rt_tables -+. By default all normal routes are inserted into the -+.B main -+table (ID 254) and the kernel only uses this table when calculating routes. -+ -+.sp -+Actually, one other table always exists, which is invisible but -+even more important. It is the -+.B local -+table (ID 255). This table -+consists of routes for local and broadcast addresses. The kernel maintains -+this table automatically and the administrator usually need not modify it -+or even look at it. -+ -+The multiple routing tables enter the game when -+.I policy routing -+is used. -+ -+.SS ip route add - add new route -+.SS ip route change - change route -+.SS ip route replace - change or add new one -+ -+.TP -+.BI to " TYPE PREFIX " (default) -+the destination prefix of the route. If -+.I TYPE -+is omitted, -+.B ip -+assumes type -+.BR "unicast" . -+Other values of -+.I TYPE -+are listed above. -+.I PREFIX -+is an IP or IPv6 address optionally followed by a slash and the -+prefix length. If the length of the prefix is missing, -+.B ip -+assumes a full-length host route. There is also a special -+.I PREFIX -+.B default -+- which is equivalent to IP -+.B 0/0 -+or to IPv6 -+.BR "::/0" . -+ -+.TP -+.BI tos " TOS" -+.TP -+.BI dsfield " TOS" -+the Type Of Service (TOS) key. This key has no associated mask and -+the longest match is understood as: First, compare the TOS -+of the route and of the packet. If they are not equal, then the packet -+may still match a route with a zero TOS. -+.I TOS -+is either an 8 bit hexadecimal number or an identifier -+from -+.BR "/etc/iproute2/rt_dsfield" . -+ -+.TP -+.BI metric " NUMBER" -+.TP -+.BI preference " NUMBER" -+the preference value of the route. -+.I NUMBER -+is an arbitrary 32bit number. -+ -+.TP -+.BI table " TABLEID" -+the table to add this route to. -+.I TABLEID -+may be a number or a string from the file -+.BR "/etc/iproute2/rt_tables" . -+If this parameter is omitted, -+.B ip -+assumes the -+.B main -+table, with the exception of -+.BR local " , " broadcast " and " nat -+routes, which are put into the -+.B local -+table by default. -+ -+.TP -+.BI dev " NAME" -+the output device name. -+ -+.TP -+.BI via " ADDRESS" -+the address of the nexthop router. Actually, the sense of this field -+depends on the route type. For normal -+.B unicast -+routes it is either the true next hop router or, if it is a direct -+route installed in BSD compatibility mode, it can be a local address -+of the interface. For NAT routes it is the first address of the block -+of translated IP destinations. -+ -+.TP -+.BI src " ADDRESS" -+the source address to prefer when sending to the destinations -+covered by the route prefix. -+ -+.TP -+.BI realm " REALMID" -+the realm to which this route is assigned. -+.I REALMID -+may be a number or a string from the file -+.BR "/etc/iproute2/rt_realms" . -+ -+.TP -+.BI mtu " MTU" -+.TP -+.BI "mtu lock" " MTU" -+the MTU along the path to the destination. If the modifier -+.B lock -+is not used, the MTU may be updated by the kernel due to -+Path MTU Discovery. If the modifier -+.B lock -+is used, no path MTU discovery will be tried, all packets -+will be sent without the DF bit in IPv4 case or fragmented -+to MTU for IPv6. -+ -+.TP -+.BI window " NUMBER" -+the maximal window for TCP to advertise to these destinations, -+measured in bytes. It limits maximal data bursts that our TCP -+peers are allowed to send to us. -+ -+.TP -+.BI rtt " NUMBER" -+the initial RTT ('Round Trip Time') estimate. -+ -+.TP -+.BI rttvar " NUMBER " "(2.3.15+ only)" -+the initial RTT variance estimate. -+ -+.TP -+.BI ssthresh " NUMBER " "(2.3.15+ only)" -+an estimate for the initial slow start threshold. -+ -+.TP -+.BI cwnd " NUMBER " "(2.3.15+ only)" -+the clamp for congestion window. It is ignored if the -+.B lock -+flag is not used. -+ -+.TP -+.BI advmss " NUMBER " "(2.3.15+ only)" -+the MSS ('Maximal Segment Size') to advertise to these -+destinations when establishing TCP connections. If it is not given, -+Linux uses a default value calculated from the first hop device MTU. -+(If the path to these destination is asymmetric, this guess may be wrong.) -+ -+.TP -+.BI reordering " NUMBER " "(2.3.15+ only)" -+Maximal reordering on the path to this destination. -+If it is not given, Linux uses the value selected with -+.B sysctl -+variable -+.BR "net/ipv4/tcp_reordering" . -+ -+.TP -+.BI nexthop " NEXTHOP" -+the nexthop of a multipath route. -+.I NEXTHOP -+is a complex value with its own syntax similar to the top level -+argument lists: -+ -+.in +8 -+.BI via " ADDRESS" -+- is the nexthop router. -+.sp -+ -+.BI dev " NAME" -+- is the output device. -+.sp -+ -+.BI weight " NUMBER" -+- is a weight for this element of a multipath -+route reflecting its relative bandwidth or quality. -+.in -8 -+ -+.TP -+.BI scope " SCOPE_VAL" -+the scope of the destinations covered by the route prefix. -+.I SCOPE_VAL -+may be a number or a string from the file -+.BR "/etc/iproute2/rt_scopes" . -+If this parameter is omitted, -+.B ip -+assumes scope -+.B global -+for all gatewayed -+.B unicast -+routes, scope -+.B link -+for direct -+.BR unicast " and " broadcast -+routes and scope -+.BR host " for " local -+routes. -+ -+.TP -+.BI protocol " RTPROTO" -+the routing protocol identifier of this route. -+.I RTPROTO -+may be a number or a string from the file -+.BR "/etc/iproute2/rt_protos" . -+If the routing protocol ID is not given, -+.B ip assumes protocol -+.B boot -+(i.e. it assumes the route was added by someone who doesn't -+understand what they are doing). Several protocol values have -+a fixed interpretation. -+Namely: -+ -+.in +8 -+.B redirect -+- the route was installed due to an ICMP redirect. -+.sp -+ -+.B kernel -+- the route was installed by the kernel during autoconfiguration. -+.sp -+ -+.B boot -+- the route was installed during the bootup sequence. -+If a routing daemon starts, it will purge all of them. -+.sp -+ -+.B static -+- the route was installed by the administrator -+to override dynamic routing. Routing daemon will respect them -+and, probably, even advertise them to its peers. -+.sp -+ -+.B ra -+- the route was installed by Router Discovery protocol. -+.in -8 -+ -+.sp -+The rest of the values are not reserved and the administrator is free -+to assign (or not to assign) protocol tags. -+ -+.TP -+.B onlink -+pretend that the nexthop is directly attached to this link, -+even if it does not match any interface prefix. -+ -+.TP -+.B equalize -+allow packet by packet randomization on multipath routes. -+Without this modifier, the route will be frozen to one selected -+nexthop, so that load splitting will only occur on per-flow base. -+.B equalize -+only works if the kernel is patched. -+ -+.SS ip route delete - delete route -+ -+.B ip route del -+has the same arguments as -+.BR "ip route add" , -+but their semantics are a bit different. -+ -+Key values -+.RB "(" to ", " tos ", " preference " and " table ")" -+select the route to delete. If optional attributes are present, -+.B ip -+verifies that they coincide with the attributes of the route to delete. -+If no route with the given key and attributes was found, -+.B ip route del -+fails. -+ -+.SS ip route show - list routes -+the command displays the contents of the routing tables or the route(s) -+selected by some criteria. -+ -+.TP -+.BI to " SELECTOR " (default) -+only select routes from the given range of destinations. -+.I SELECTOR -+consists of an optional modifier -+.RB "(" root ", " match " or " exact ")" -+and a prefix. -+.BI root " PREFIX" -+selects routes with prefixes not shorter than -+.IR PREFIX "." -+F.e. -+.BI root " 0/0" -+selects the entire routing table. -+.BI match " PREFIX" -+selects routes with prefixes not longer than -+.IR PREFIX "." -+F.e. -+.BI match " 10.0/16" -+selects -+.IR 10.0/16 "," -+.IR 10/8 " and " 0/0 , -+but it does not select -+.IR 10.1/16 " and " 10.0.0/24 . -+And -+.BI exact " PREFIX" -+(or just -+.IR PREFIX ")" -+selects routes with this exact prefix. If neither of these options -+are present, -+.B ip -+assumes -+.BI root " 0/0" -+i.e. it lists the entire table. -+ -+.TP -+.BI tos " TOS" -+.BI dsfield " TOS" -+only select routes with the given TOS. -+ -+.TP -+.BI table " TABLEID" -+show the routes from this table(s). The default setting is to show -+.BR table main "." -+.I TABLEID -+may either be the ID of a real table or one of the special values: -+.sp -+.in +8 -+.B all -+- list all of the tables. -+.sp -+.B cache -+- dump the routing cache. -+.in -8 -+ -+.TP -+.B cloned -+.TP -+.B cached -+list cloned routes i.e. routes which were dynamically forked from -+other routes because some route attribute (f.e. MTU) was updated. -+Actually, it is equivalent to -+.BR "table cache" "." -+ -+.TP -+.BI from " SELECTOR" -+the same syntax as for -+.BR to "," -+but it binds the source address range rather than destinations. -+Note that the -+.B from -+option only works with cloned routes. -+ -+.TP -+.BI protocol " RTPROTO" -+only list routes of this protocol. -+ -+.TP -+.BI scope " SCOPE_VAL" -+only list routes with this scope. -+ -+.TP -+.BI type " TYPE" -+only list routes of this type. -+ -+.TP -+.BI dev " NAME" -+only list routes going via this device. -+ -+.TP -+.BI via " PREFIX" -+only list routes going via the nexthop routers selected by -+.IR PREFIX "." -+ -+.TP -+.BI src " PREFIX" -+only list routes with preferred source addresses selected -+by -+.IR PREFIX "." -+ -+.TP -+.BI realm " REALMID" -+.TP -+.BI realms " FROMREALM/TOREALM" -+only list routes with these realms. -+ -+.SS ip route flush - flush routing tables -+this command flushes routes selected by some criteria. -+ -+.sp -+The arguments have the same syntax and semantics as the arguments of -+.BR "ip route show" , -+but routing tables are not listed but purged. The only difference is -+the default action: -+.B show -+dumps all the IP main routing table but -+.B flush -+prints the helper page. -+ -+.sp -+With the -+.B -statistics -+option, the command becomes verbose. It prints out the number of -+deleted routes and the number of rounds made to flush the routing -+table. If the option is given -+twice, -+.B ip route flush -+also dumps all the deleted routes in the format described in the -+previous subsection. -+ -+.SS ip route get - get a single route -+this command gets a single route to a destination and prints its -+contents exactly as the kernel sees it. -+ -+.TP -+.BI to " ADDRESS " (default) -+the destination address. -+ -+.TP -+.BI from " ADDRESS" -+the source address. -+ -+.TP -+.BI tos " TOS" -+.TP -+.BI dsfield " TOS" -+the Type Of Service. -+ -+.TP -+.BI iif " NAME" -+the device from which this packet is expected to arrive. -+ -+.TP -+.BI oif " NAME" -+force the output device on which this packet will be routed. -+ -+.TP -+.B connected -+if no source address -+.RB "(option " from ")" -+was given, relookup the route with the source set to the preferred -+address received from the first lookup. -+If policy routing is used, it may be a different route. -+ -+.P -+Note that this operation is not equivalent to -+.BR "ip route show" . -+.B show -+shows existing routes. -+.B get -+resolves them and creates new clones if necessary. Essentially, -+.B get -+is equivalent to sending a packet along this path. -+If the -+.B iif -+argument is not given, the kernel creates a route -+to output packets towards the requested destination. -+This is equivalent to pinging the destination -+with a subsequent -+.BR "ip route ls cache" , -+however, no packets are actually sent. With the -+.B iif -+argument, the kernel pretends that a packet arrived from this interface -+and searches for a path to forward the packet. -+ -+.SH ip rule - routing policy database management -+ -+.BR "Rule" s -+in the routing policy database control the route selection algorithm. -+ -+.P -+Classic routing algorithms used in the Internet make routing decisions -+based only on the destination address of packets (and in theory, -+but not in practice, on the TOS field). -+ -+.P -+In some circumstances we want to route packets differently depending not only -+on destination addresses, but also on other packet fields: source address, -+IP protocol, transport protocol ports or even packet payload. -+This task is called 'policy routing'. -+ -+.P -+To solve this task, the conventional destination based routing table, ordered -+according to the longest match rule, is replaced with a 'routing policy -+database' (or RPDB), which selects routes by executing some set of rules. -+ -+.P -+Each policy routing rule consists of a -+.B selector -+and an -+.B action predicate. -+The RPDB is scanned in the order of increasing priority. The selector -+of each rule is applied to {source address, destination address, incoming -+interface, tos, fwmark} and, if the selector matches the packet, -+the action is performed. The action predicate may return with success. -+In this case, it will either give a route or failure indication -+and the RPDB lookup is terminated. Otherwise, the RPDB program -+continues on the next rule. -+ -+.P -+Semantically, natural action is to select the nexthop and the output device. -+ -+.P -+At startup time the kernel configures the default RPDB consisting of three -+rules: -+ -+.TP -+1. -+Priority: 0, Selector: match anything, Action: lookup routing -+table -+.B local -+(ID 255). -+The -+.B local -+table is a special routing table containing -+high priority control routes for local and broadcast addresses. -+.sp -+Rule 0 is special. It cannot be deleted or overridden. -+ -+.TP -+2. -+Priority: 32766, Selector: match anything, Action: lookup routing -+table -+.B main -+(ID 254). -+The -+.B main -+table is the normal routing table containing all non-policy -+routes. This rule may be deleted and/or overridden with other -+ones by the administrator. -+ -+.TP -+3. -+Priority: 32767, Selector: match anything, Action: lookup routing -+table -+.B default -+(ID 253). -+The -+.B default -+table is empty. It is reserved for some post-processing if no previous -+default rules selected the packet. -+This rule may also be deleted. -+ -+.P -+Each RPDB entry has additional -+attributes. F.e. each rule has a pointer to some routing -+table. NAT and masquerading rules have an attribute to select new IP -+address to translate/masquerade. Besides that, rules have some -+optional attributes, which routes have, namely -+.BR "realms" . -+These values do not override those contained in the routing tables. They -+are only used if the route did not select any attributes. -+ -+.sp -+The RPDB may contain rules of the following types: -+ -+.in +8 -+.B unicast -+- the rule prescribes to return the route found -+in the routing table referenced by the rule. -+ -+.B blackhole -+- the rule prescribes to silently drop the packet. -+ -+.B unreachable -+- the rule prescribes to generate a 'Network is unreachable' error. -+ -+.B prohibit -+- the rule prescribes to generate 'Communication is administratively -+prohibited' error. -+ -+.B nat -+- the rule prescribes to translate the source address -+of the IP packet into some other value. -+.in -8 -+ -+.SS ip rule add - insert a new rule -+.SS ip rule delete - delete a rule -+ -+.TP -+.BI type " TYPE " (default) -+the type of this rule. The list of valid types was given in the previous -+subsection. -+ -+.TP -+.BI from " PREFIX" -+select the source prefix to match. -+ -+.TP -+.BI to " PREFIX" -+select the destination prefix to match. -+ -+.TP -+.BI iif " NAME" -+select the incoming device to match. If the interface is loopback, -+the rule only matches packets originating from this host. This means -+that you may create separate routing tables for forwarded and local -+packets and, hence, completely segregate them. -+ -+.TP -+.BI tos " TOS" -+.TP -+.BI dsfield " TOS" -+select the TOS value to match. -+ -+.TP -+.BI fwmark " MARK" -+select the -+.B fwmark -+value to match. -+ -+.TP -+.BI priority " PREFERENCE" -+the priority of this rule. Each rule should have an explicitly -+set -+.I unique -+priority value. -+ -+.TP -+.BI table " TABLEID" -+the routing table identifier to lookup if the rule selector matches. -+ -+.TP -+.BI realms " FROM/TO" -+Realms to select if the rule matched and the routing table lookup -+succeeded. Realm -+.I TO -+is only used if the route did not select any realm. -+ -+.TP -+.BI nat " ADDRESS" -+The base of the IP address block to translate (for source addresses). -+The -+.I ADDRESS -+may be either the start of the block of NAT addresses (selected by NAT -+routes) or a local host address (or even zero). -+In the last case the router does not translate the packets, but -+masquerades them to this address. -+ -+.B Warning: -+Changes to the RPDB made with these commands do not become active -+immediately. It is assumed that after a script finishes a batch of -+updates, it flushes the routing cache with -+.BR "ip route flush cache" . -+ -+.SS ip rule show - list rules -+This command has no arguments. -+ -+.SH ip maddress - multicast addresses management -+ -+.B maddress -+objects are multicast addresses. -+ -+.SS ip maddress show - list multicast addresses -+ -+.TP -+.BI dev " NAME " (default) -+the device name. -+ -+.SS ip maddress add - add a multicast address -+.SS ip maddress delete - delete a multicast address -+these commands attach/detach a static link layer multicast address -+to listen on the interface. -+Note that it is impossible to join protocol multicast groups -+statically. This command only manages link layer addresses. -+ -+.TP -+.BI address " LLADDRESS " (default) -+the link layer multicast address. -+ -+.TP -+.BI dev " NAME" -+the device to join/leave this multicast address. -+ -+.SH ip mroute - multicast routing cache management -+.B mroute -+objects are multicast routing cache entries created by a user level -+mrouting daemon (f.e. -+.B pimd -+or -+.B mrouted -+). -+ -+Due to the limitations of the current interface to the multicast routing -+engine, it is impossible to change -+.B mroute -+objects administratively, so we may only display them. This limitation -+will be removed in the future. -+ -+.SS ip mroute show - list mroute cache entries -+ -+.TP -+.BI to " PREFIX " (default) -+the prefix selecting the destination multicast addresses to list. -+ -+.TP -+.BI iif " NAME" -+the interface on which multicast packets are received. -+ -+.TP -+.BI from " PREFIX" -+the prefix selecting the IP source addresses of the multicast route. -+ -+.SH ip tunnel - tunnel configuration -+.B tunnel -+objects are tunnels, encapsulating packets in IPv4 packets and then -+sending them over the IP infrastructure. -+ -+.SS ip tunnel add - add a new tunnel -+.SS ip tunnel change - change an existing tunnel -+.SS ip tunnel delete - destroy a tunnel -+ -+.TP -+.BI name " NAME " (default) -+select the tunnel device name. -+ -+.TP -+.BI mode " MODE" -+set the tunnel mode. Three modes are currently available: -+.BR ipip ", " sit " and " gre "." -+ -+.TP -+.BI remote " ADDRESS" -+set the remote endpoint of the tunnel. -+ -+.TP -+.BI local " ADDRESS" -+set the fixed local address for tunneled packets. -+It must be an address on another interface of this host. -+ -+.TP -+.BI ttl " N" -+set a fixed TTL -+.I N -+on tunneled packets. -+.I N -+is a number in the range 1--255. 0 is a special value -+meaning that packets inherit the TTL value. -+The default value is: -+.BR "inherit" . -+ -+.TP -+.BI tos " T" -+.TP -+.BI dsfield " T" -+set a fixed TOS -+.I T -+on tunneled packets. -+The default value is: -+.BR "inherit" . -+ -+.TP -+.BI dev " NAME" -+bind the tunnel to the device -+.I NAME -+so that tunneled packets will only be routed via this device and will -+not be able to escape to another device when the route to endpoint -+changes. -+ -+.TP -+.B nopmtudisc -+disable Path MTU Discovery on this tunnel. -+It is enabled by default. Note that a fixed ttl is incompatible -+with this option: tunnelling with a fixed ttl always makes pmtu -+discovery. -+ -+.TP -+.BI key " K" -+.TP -+.BI ikey " K" -+.TP -+.BI okey " K" -+.RB ( " only GRE tunnels " ) -+use keyed GRE with key -+.IR K ". " K -+is either a number or an IP address-like dotted quad. -+The -+.B key -+parameter sets the key to use in both directions. -+The -+.BR ikey " and " okey -+parameters set different keys for input and output. -+ -+.TP -+.BR csum ", " icsum ", " ocsum -+.RB ( " only GRE tunnels " ) -+generate/require checksums for tunneled packets. -+The -+.B ocsum -+flag calculates checksums for outgoing packets. -+The -+.B icsum -+flag requires that all input packets have the correct -+checksum. The -+.B csum -+flag is equivalent to the combination -+.BR "icsum ocsum" . -+ -+.TP -+.BR seq ", " iseq ", " oseq -+.RB ( " only GRE tunnels " ) -+serialize packets. -+The -+.B oseq -+flag enables sequencing of outgoing packets. -+The -+.B iseq -+flag requires that all input packets are serialized. -+The -+.B seq -+flag is equivalent to the combination -+.BR "iseq oseq" . -+.B It isn't work. Don't use it. -+ -+.SS ip tunnel show - list tunnels -+This command has no arguments. -+ -+.SH ip monitor and rtmon - state monitoring -+ -+The -+.B ip -+utility can monitor the state of devices, addresses -+and routes continuously. This option has a slightly different format. -+Namely, the -+.B monitor -+command is the first in the command line and then the object list follows: -+ -+.BR "ip monitor" " [ " all " |" -+.IR LISTofOBJECTS " ]" -+ -+.I OBJECT-LIST -+is the list of object types that we want to monitor. -+It may contain -+.BR link ", " address " and " route "." -+If no -+.B file -+argument is given, -+.B ip -+opens RTNETLINK, listens on it and dumps state changes in the format -+described in previous sections. -+ -+.P -+If a file name is given, it does not listen on RTNETLINK, -+but opens the file containing RTNETLINK messages saved in binary format -+and dumps them. Such a history file can be generated with the -+.B rtmon -+utility. This utility has a command line syntax similar to -+.BR "ip monitor" . -+Ideally, -+.B rtmon -+should be started before the first network configuration command -+is issued. F.e. if you insert: -+.sp -+.in +8 -+rtmon file /var/log/rtmon.log -+.in -8 -+.sp -+in a startup script, you will be able to view the full history -+later. -+ -+.P -+Certainly, it is possible to start -+.B rtmon -+at any time. -+It prepends the history with the state snapshot dumped at the moment -+of starting. -+ -+.SH HISTORY -+ -+.B ip -+was written by Alexey N. Kuznetsov and added in Linux 2.2. -+.SH SEE ALSO -+.BR tc (8) -+.br -+.RB "IP Command reference " ip-cref.ps -+.br -+.RB "IP tunnels " ip-cref.ps -+ -+.SH AUTHOR -+ -+Manpage maintained by Michail Litvak -diff -Naur iproute2-orig/debian/manpages/old/ip.8 iproute2/debian/manpages/old/ip.8 ---- iproute2-orig/debian/manpages/old/ip.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/old/ip.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,1809 @@ -+.TH IP 8 "17 January 2002" "iproute2" "Linux" -+.SH NAME -+ip \- show / manipulate routing, devices, policy routing and tunnels -+.SH SYNOPSIS -+ -+.ad l -+.in +8 -+.ti -8 -+.B ip -+.RI "[ " OPTIONS " ] " OBJECT " { " COMMAND " | " -+.BR help " }" -+.sp -+ -+.ti -8 -+.IR OBJECT " := { " -+.BR link " | " addr " | " route " | " rule " | " neigh " | " tunnel " | "\ -+maddr " | " mroute " | " monitor " }" -+.sp -+ -+.ti -8 -+.IR OPTIONS " := { " -+\fB\-V\fR[\fIersion\fR] | -+\fB\-s\fR[\fItatistics\fR] | -+\fB\-r\fR[\fIesolve\fR] | -+\fB\-f\fR[\fIamily\fR] { -+.BR inet " | " inet6 " | " ipx " | " dnet " | " link " } | " -+\fB\-o\fR[\fIneline\fR] } -+ -+.ti -8 -+.BI "ip link set " DEVICE -+.RB "{ " up " | " down " | " arp " { " on " | " off " } |" -+.br -+.BR promisc " { " on " | " off " } |" -+.br -+.BR allmulti " { " on " | " off " } |" -+.br -+.BR dynamic " { " on " | " off " } |" -+.br -+.BR multicast " { " on " | " off " } |" -+.br -+.B txqueuelen -+.IR PACKETS " |" -+.br -+.B name -+.IR NEWNAME " |" -+.br -+.B address -+.IR LLADDR " |" -+.B broadcast -+.IR LLADDR " |" -+.br -+.B mtu -+.IR MTU " }" -+ -+.ti -8 -+.B ip link show -+.RI "[ " DEVICE " ]" -+ -+.ti -8 -+.BR "ip addr" " { " add " | " del " } " -+.IB IFADDR " dev " STRING -+ -+.ti -8 -+.BR "ip addr" " { " show " | " flush " } [ " dev -+.IR STRING " ] [ " -+.B scope -+.IR SCOPE-ID " ] [ " -+.B to -+.IR PREFIX " ] [ " FLAG-LIST " ] [ " -+.B label -+.IR PATTERN " ]" -+ -+.ti -8 -+.IR IFADDR " := " PREFIX " | " ADDR -+.B peer -+.IR PREFIX " [ " -+.B broadcast -+.IR ADDR " ] [ " -+.B anycast -+.IR ADDR " ] [ " -+.B label -+.IR STRING " ] [ " -+.B scope -+.IR SCOPE-ID " ]" -+ -+.ti -8 -+.IR SCOPE-ID " := " -+.RB "[ " host " | " link " | " global " | " -+.IR NUMBER " ]" -+ -+.ti -8 -+.IR FLAG-LIST " := [ " FLAG-LIST " ] " FLAG -+ -+.ti -8 -+.IR FLAG " := " -+.RB "[ " permanent " | " dynamic " | " secondary " | " primary " | "\ -+tentative " | " deprecated " ]" -+ -+.ti -8 -+.BR "ip route" " { " -+.BR list " | " flush " } " -+.I SELECTOR -+ -+.ti -8 -+.B ip route get -+.IR ADDRESS " [ " -+.BI from " ADDRESS " iif " STRING" -+.RB " ] [ " oif -+.IR STRING " ] [ " -+.B tos -+.IR TOS " ]" -+ -+.ti -8 -+.BR "ip route" " { " add " | " del " | " change " | " append " | "\ -+replace " | " monitor " } " -+.I ROUTE -+ -+.ti -8 -+.IR SELECTOR " := " -+.RB "[ " root -+.IR PREFIX " ] [ " -+.B match -+.IR PREFIX " ] [ " -+.B exact -+.IR PREFIX " ] [ " -+.B table -+.IR TABLE_ID " ] [ " -+.B proto -+.IR RTPROTO " ] [ " -+.B type -+.IR TYPE " ] [ " -+.B scope -+.IR SCOPE " ]" -+ -+.ti -8 -+.IR ROUTE " := " NODE_SPEC " [ " INFO_SPEC " ]" -+ -+.ti -8 -+.IR NODE_SPEC " := [ " TYPE " ] " PREFIX " [" -+.B tos -+.IR TOS " ] [ " -+.B table -+.IR TABLE_ID " ] [ " -+.B proto -+.IR RTPROTO " ] [ " -+.B scope -+.IR SCOPE " ] [ " -+.B metric -+.IR METRIC " ]" -+ -+.ti -8 -+.IR INFO_SPEC " := " "NH OPTIONS FLAGS" " [" -+.B nexthop -+.IR NH " ] ..." -+ -+.ti -8 -+.IR NH " := [ " -+.B via -+.IR ADDRESS " ] [ " -+.B dev -+.IR STRING " ] [ " -+.B weight -+.IR NUMBER " ] " NHFLAGS -+ -+.ti -8 -+.IR OPTIONS " := " FLAGS " [ " -+.B mtu -+.IR NUMBER " ] [ " -+.B advmss -+.IR NUMBER " ] [ " -+.B rtt -+.IR NUMBER " ] [ " -+.B rttvar -+.IR NUMBER " ] [ " -+.B window -+.IR NUMBER " ] [ " -+.B cwnd -+.IR NUMBER " ] [ " -+.B ssthresh -+.IR REALM " ] [ " -+.B realms -+.IR REALM " ]" -+ -+.ti -8 -+.IR TYPE " := [ " -+.BR unicast " | " local " | " broadcast " | " multicast " | "\ -+throw " | " unreachable " | " prohibit " | " blackhole " | " nat " ]" -+ -+.ti -8 -+.IR TABLE_ID " := [ " -+.BR local "| " main " | " default " | " all " |" -+.IR NUMBER " ]" -+ -+.ti -8 -+.IR SCOPE " := [ " -+.BR host " | " link " | " global " |" -+.IR NUMBER " ]" -+ -+.ti -8 -+.IR FLAGS " := [ " -+.BR equalize " ]" -+ -+.ti -8 -+.IR NHFLAGS " := [ " -+.BR onlink " | " pervasive " ]" -+ -+.ti -8 -+.IR RTPROTO " := [ " -+.BR kernel " | " boot " | " static " |" -+.IR NUMBER " ]" -+ -+.ti -8 -+.B ip rule -+.RB " [ " list " | " add " | " del " ]" -+.I SELECTOR ACTION -+ -+.ti -8 -+.IR SELECTOR " := [ " -+.B from -+.IR PREFIX " ] [ " -+.B to -+.IR PREFIX " ] [ " -+.B tos -+.IR TOS " ] [ " -+.B fwmark -+.IR FWMARK " ] [ " -+.B dev -+.IR STRING " ] [ " -+.B pref -+.IR NUMBER " ]" -+ -+.ti -8 -+.IR ACTION " := [ " -+.B table -+.IR TABLE_ID " ] [ " -+.B nat -+.IR ADDRESS " ] [ " -+.BR prohibit " | " reject " | " unreachable " ] [ " realms -+.RI "[" SRCREALM "/]" DSTREALM " ]" -+ -+.ti -8 -+.IR TABLE_ID " := [ " -+.BR local " | " main " | " default " |" -+.IR NUMBER " ]" -+ -+.ti -8 -+.BR "ip neigh" " { " add " | " del " | " change " | " replace " } { " -+.IR ADDR " [ " -+.B lladdr -+.IR LLADDR " ] [ " -+.BR nud " { " permanent " | " noarp " | " stale " | " reachable " } ] | " proxy -+.IR ADDR " } [ " -+.B dev -+.IR DEV " ]" -+ -+.ti -8 -+.BR "ip neigh" " { " show " | " flush " } [ " to -+.IR PREFIX " ] [ " -+.B dev -+.IR DEV " ] [ " -+.B nud -+.IR STATE " ]" -+ -+.ti -8 -+.BR "ip tunnel" " { " add " | " change " | " del " | " show " }" -+.RI "[ " NAME " ]" -+.br -+.RB "[ " mode " { " ipip " | " gre " | " sit " } ]" -+.br -+.RB "[ " remote -+.IR ADDR " ] [ " -+.B local -+.IR ADDR " ]" -+.br -+.RB "[ [" i "|" o "]" seq " ] [ [" i "|" o "]" key -+.IR KEY " ] [ " -+.RB "[" i "|" o "]" csum " ] ]" -+.br -+.RB "[ " ttl -+.IR TTL " ] [ " -+.B tos -+.IR TOS " ] [ " -+.RB "[" no "]" pmtudisc " ]" -+.br -+.RB "[ " dev -+.IR PHYS_DEV " ]" -+ -+.ti -8 -+.IR ADDR " := { " IP_ADDRESS " |" -+.BR any " }" -+ -+.ti -8 -+.IR TOS " := { " NUMBER " |" -+.BR inherit " }" -+ -+.ti -8 -+.IR TTL " := { " 1 ".." 255 " | " -+.BR inherit " }" -+ -+.ti -8 -+.IR KEY " := { " DOTTED_QUAD " | " NUMBER " }" -+ -+.ti -8 -+.BR "ip maddr" " [ " add " | " del " ]" -+.IB MULTIADDR " dev " STRING -+ -+.ti -8 -+.BR "ip maddr show" " [ " dev -+.IR STRING " ]" -+ -+.ti -8 -+.BR "ip mroute show" " [" -+.IR PREFIX " ] [ " -+.B from -+.IR PREFIX " ] [ " -+.B iif -+.IR DEVICE " ]" -+ -+.ti -8 -+.BR "ip monitor" " [ " all " |" -+.IR LISTofOBJECTS " ]" -+.in -8 -+.ad b -+ -+.SH OPTIONS -+ -+.TP -+.BR "\-V" , " -Version" -+print the version of the -+.B ip -+utility and exit. -+ -+.TP -+.BR "\-s" , " \-stats", " \-statistics" -+output more information. If the option -+appears twice or more, the amount of information increases. -+As a rule, the information is statistics or some time values. -+ -+.TP -+.BR "\-f" , " \-family" -+followed by protocol family identifier: -+.BR "inet" , " inet6" -+or -+.B link -+,enforce the protocol family to use. If the option is not present, -+the protocol family is guessed from other arguments. If the rest -+of the command line does not give enough information to guess the -+family, -+.B ip -+falls back to the default one, usually -+.B inet -+or -+.BR "any" . -+.B link -+is a special family identifier meaning that no networking protocol -+is involved. -+ -+.TP -+.B \-4 -+shortcut for -+.BR "-family inet" . -+ -+.TP -+.B \-6 -+shortcut for -+.BR "\-family inet6" . -+ -+.TP -+.B \-0 -+shortcut for -+.BR "\-family link" . -+ -+.TP -+.BR "\-o" , " \-oneline" -+output each record on a single line, replacing line feeds -+with the -+.B '\' -+character. This is convenient when you want to count records -+with -+.BR wc (1) -+ or to -+.BR grep (1) -+the output. -+ -+.TP -+.BR "\-r" , " \-resolve" -+use the system's name resolver to print DNS names instead of -+host addresses. -+ -+.SH IP - COMMAND SYNTAX -+ -+.SS -+.I OBJECT -+ -+.TP -+.B link -+- network device. -+ -+.TP -+.B address -+- protocol (IP or IPv6) address on a device. -+.TP -+.B neighbour -+- ARP or NDISC cache entry. -+ -+.TP -+.B route -+- routing table entry. -+ -+.TP -+.B rule -+- rule in routing policy database. -+ -+.TP -+.B maddress -+- multicast address. -+ -+.TP -+.B mroute -+- multicast routing cache entry. -+ -+.TP -+.B tunnel -+- tunnel over IP. -+ -+.PP -+The names of all objects may be written in full or -+abbreviated form, f.e. -+.B address -+is abbreviated as -+.B addr -+or just -+.B a. -+ -+.SS -+.I COMMAND -+ -+Specifies the action to perform on the object. -+The set of possible actions depends on the object type. -+As a rule, it is possible to -+.BR "add" , " delete" -+and -+.B show -+(or -+.B list -+) objects, but some objects do not allow all of these operations -+or have some additional commands. The -+.B help -+command is available for all objects. It prints -+out a list of available commands and argument syntax conventions. -+.sp -+If no command is given, some default command is assumed. -+Usually it is -+.B list -+or, if the objects of this class cannot be listed, -+.BR "help" . -+ -+.SH ip link - network device configuration -+ -+.B link -+is a network device and the corresponding commands -+display and change the state of devices. -+ -+.SS ip link set - change device attributes -+ -+.TP -+.BI dev " NAME " (default) -+.I NAME -+specifies network device to operate on. -+ -+.TP -+.BR up " and " down -+change the state of the device to -+.B UP -+or -+.BR "DOWN" . -+ -+.TP -+.BR "arp on " or " arp off" -+change the -+.B NOARP -+flag on the device. -+ -+.TP -+.BR "multicast on " or " multicast off" -+change the -+.B MULTICAST -+flag on the device. -+ -+.TP -+.BR "dynamic on " or " dynamic off" -+change the -+.B DYNAMIC -+flag on the device. -+ -+.TP -+.BI name " NAME" -+change the name of the device. This operation is not -+recommended if the device is running or has some addresses -+already configured. -+ -+.TP -+.BI txqueuelen " NUMBER" -+.TP -+.BI txqlen " NUMBER" -+change the transmit queue length of the device. -+ -+.TP -+.BI mtu " NUMBER" -+change the -+.I MTU -+of the device. -+ -+.TP -+.BI address " LLADDRESS" -+change the station address of the interface. -+ -+.TP -+.BI broadcast " LLADDRESS" -+.TP -+.BI brd " LLADDRESS" -+.TP -+.BI peer " LLADDRESS" -+change the link layer broadcast address or the peer address when -+the interface is -+.IR "POINTOPOINT" . -+ -+.PP -+.B Warning: -+If multiple parameter changes are requested, -+.B ip -+aborts immediately after any of the changes have failed. -+This is the only case when -+.B ip -+can move the system to an unpredictable state. The solution -+is to avoid changing several parameters with one -+.B ip link set -+call. -+ -+.SS ip link show - display device attributes -+ -+.TP -+.BI dev " NAME " (default) -+.I NAME -+specifies the network device to show. -+If this argument is omitted all devices are listed. -+ -+.TP -+.B up -+only display running interfaces. -+ -+.SH ip address - protocol address management. -+ -+The -+.B address -+is a protocol (IP or IPv6) address attached -+to a network device. Each device must have at least one address -+to use the corresponding protocol. It is possible to have several -+different addresses attached to one device. These addresses are not -+discriminated, so that the term -+.B alias -+is not quite appropriate for them and we do not use it in this document. -+.sp -+The -+.B ip addr -+command displays addresses and their properties, adds new addresses -+and deletes old ones. -+ -+.SS ip address add - add new protocol address. -+ -+.TP -+.BI dev " NAME" -+the name of the device to add the address to. -+ -+.TP -+.BI local " ADDRESS " (default) -+the address of the interface. The format of the address depends -+on the protocol. It is a dotted quad for IP and a sequence of -+hexadecimal halfwords separated by colons for IPv6. The -+.I ADDRESS -+may be followed by a slash and a decimal number which encodes -+the network prefix length. -+ -+.TP -+.BI peer " ADDRESS" -+the address of the remote endpoint for pointopoint interfaces. -+Again, the -+.I ADDRESS -+may be followed by a slash and a decimal number, encoding the network -+prefix length. If a peer address is specified, the local address -+cannot have a prefix length. The network prefix is associated -+with the peer rather than with the local address. -+ -+.TP -+.BI broadcast " ADDRESS" -+the broadcast address on the interface. -+.sp -+It is possible to use the special symbols -+.B '+' -+and -+.B '-' -+instead of the broadcast address. In this case, the broadcast address -+is derived by setting/resetting the host bits of the interface prefix. -+ -+.TP -+.BI label " NAME" -+Each address may be tagged with a label string. -+In order to preserve compatibility with Linux-2.0 net aliases, -+this string must coincide with the name of the device or must be prefixed -+with the device name followed by colon. -+ -+.TP -+.BI scope " SCOPE_VALUE" -+the scope of the area where this address is valid. -+The available scopes are listed in file -+.BR "/etc/iproute2/rt_scopes" . -+Predefined scope values are: -+ -+.in +8 -+.B global -+- the address is globally valid. -+.sp -+.B site -+- (IPv6 only) the address is site local, i.e. it is -+valid inside this site. -+.sp -+.B link -+- the address is link local, i.e. it is valid only on this device. -+.sp -+.B host -+- the address is valid only inside this host. -+.in -8 -+ -+.SS ip address delete - delete protocol address -+.B Arguments: -+coincide with the arguments of -+.B ip addr add. -+The device name is a required argument. The rest are optional. -+If no arguments are given, the first address is deleted. -+ -+.SS ip address show - look at protocol addresses -+ -+.TP -+.BI dev " NAME " (default) -+name of device. -+ -+.TP -+.BI scope " SCOPE_VAL" -+only list addresses with this scope. -+ -+.TP -+.BI to " PREFIX" -+only list addresses matching this prefix. -+ -+.TP -+.BI label " PATTERN" -+only list addresses with labels matching the -+.IR "PATTERN" . -+.I PATTERN -+is a usual shell style pattern. -+ -+.TP -+.BR dynamic " and " permanent -+(IPv6 only) only list addresses installed due to stateless -+address configuration or only list permanent (not dynamic) -+addresses. -+ -+.TP -+.B tentative -+(IPv6 only) only list addresses which did not pass duplicate -+address detection. -+ -+.TP -+.B deprecated -+(IPv6 only) only list deprecated addresses. -+ -+.TP -+.BR primary " and " secondary -+only list primary (or secondary) addresses. -+ -+.SS ip address flush - flush protocol addresses -+This command flushes the protocol addresses selected by some criteria. -+ -+.PP -+This command has the same arguments as -+.B show. -+The difference is that it does not run when no arguments are given. -+ -+.PP -+.B Warning: -+This command (and other -+.B flush -+commands described below) is pretty dangerous. If you make a mistake, -+it will not forgive it, but will cruelly purge all the addresses. -+ -+.PP -+With the -+.B -statistics -+option, the command becomes verbose. It prints out the number of deleted -+addresses and the number of rounds made to flush the address list. If -+this option is given twice, -+.B ip addr flush -+also dumps all the deleted addresses in the format described in the -+previous subsection. -+ -+.SH ip neighbour - neighbour/arp tables management. -+ -+.B neighbour -+objects establish bindings between protocol addresses and -+link layer addresses for hosts sharing the same link. -+Neighbour entries are organized into tables. The IPv4 neighbour table -+is known by another name - the ARP table. -+ -+.P -+The corresponding commands display neighbour bindings -+and their properties, add new neighbour entries and delete old ones. -+ -+.SS ip neighbour add - add a new neighbour entry -+.SS ip neighbour change - change an existing entry -+.SS ip neighbour replace - add a new entry or change an existing one -+ -+These commands create new neighbour records or update existing ones. -+ -+.TP -+.BI to " ADDRESS " (default) -+the protocol address of the neighbour. It is either an IPv4 or IPv6 address. -+ -+.TP -+.BI dev " NAME" -+the interface to which this neighbour is attached. -+ -+.TP -+.BI lladdr " LLADDRESS" -+the link layer address of the neighbour. -+.I LLADDRESS -+can also be -+.BR "null" . -+ -+.TP -+.BI nud " NUD_STATE" -+the state of the neighbour entry. -+.B nud -+is an abbreviation for 'Neigh bour Unreachability Detection'. -+The state can take one of the following values: -+ -+.in +8 -+.B permanent -+- the neighbour entry is valid forever and can be only -+be removed administratively. -+.sp -+ -+.B noarp -+- the neighbour entry is valid. No attempts to validate -+this entry will be made but it can be removed when its lifetime expires. -+.sp -+ -+.B reachable -+- the neighbour entry is valid until the reachability -+timeout expires. -+.sp -+ -+.B stale -+- the neighbour entry is valid but suspicious. -+This option to -+.B ip neigh -+does not change the neighbour state if it was valid and the address -+is not changed by this command. -+.in -8 -+ -+.SS ip neighbour delete - delete a neighbour entry -+This command invalidates a neighbour entry. -+ -+.PP -+The arguments are the same as with -+.BR "ip neigh add" , -+except that -+.B lladdr -+and -+.B nud -+are ignored. -+ -+.PP -+.B Warning: -+Attempts to delete or manually change a -+.B noarp -+entry created by the kernel may result in unpredictable behaviour. -+Particularly, the kernel may try to resolve this address even -+on a -+.B NOARP -+interface or if the address is multicast or broadcast. -+ -+.SS ip neighbour show - list neighbour entries -+ -+This commands displays neighbour tables. -+ -+.TP -+.BI to " ADDRESS " (default) -+the prefix selecting the neighbours to list. -+ -+.TP -+.BI dev " NAME" -+only list the neighbours attached to this device. -+ -+.TP -+.B unused -+only list neighbours which are not currently in use. -+ -+.TP -+.BI nud " NUD_STATE" -+only list neighbour entries in this state. -+.I NUD_STATE -+takes values listed below or the special value -+.B all -+which means all states. This option may occur more than once. -+If this option is absent, -+.B ip -+lists all entries except for -+.B none -+and -+.BR "noarp" . -+ -+.SS ip neighbour flush - flush neighbour entries -+This command flushes neighbour tables, selecting -+entries to flush by some criteria. -+ -+.PP -+This command has the same arguments as -+.B show. -+The differences are that it does not run when no arguments are given, -+and that the default neighbour states to be flushed do not include -+.B permanent -+and -+.BR "noarp" . -+ -+.PP -+With the -+.B -statistics -+option, the command becomes verbose. It prints out the number of -+deleted neighbours and the number of rounds made to flush the -+neighbour table. If the option is given -+twice, -+.B ip neigh flush -+also dumps all the deleted neighbours. -+ -+.SH ip route - routing table management -+Manipulate route entries in the kernel routing tables keep -+information about paths to other networked nodes. -+.sp -+.B Route types: -+ -+.in +8 -+.B unicast -+- the route entry describes real paths to the destinations covered -+by the route prefix. -+ -+.sp -+.B unreachable -+- these destinations are unreachable. Packets are discarded and the -+ICMP message -+.I host unreachable -+is generated. -+The local senders get an -+.I EHOSTUNREACH -+error. -+ -+.sp -+.B blackhole -+- these destinations are unreachable. Packets are discarded silently. -+The local senders get an -+.I EINVAL -+error. -+ -+.sp -+.B prohibit -+- these destinations are unreachable. Packets are discarded and the -+ICMP message -+.I communication administratively prohibited -+is generated. The local senders get an -+.I EACCES -+error. -+ -+.sp -+.B local -+- the destinations are assigned to this host. The packets are looped -+back and delivered locally. -+ -+.sp -+.B broadcast -+- the destinations are broadcast addresses. The packets are sent as -+link broadcasts. -+ -+.sp -+.B throw -+- a special control route used together with policy rules. If such a -+route is selected, lookup in this table is terminated pretending that -+no route was found. Without policy routing it is equivalent to the -+absence of the route in the routing table. The packets are dropped -+and the ICMP message -+.I net unreachable -+is generated. The local senders get an -+.I ENETUNREACH -+error. -+ -+.sp -+.B nat -+- a special NAT route. Destinations covered by the prefix -+are considered to be dummy (or external) addresses which require translation -+to real (or internal) ones before forwarding. The addresses to translate to -+are selected with the attribute -+.BR "via" . -+ -+.sp -+.B anycast -+.RI "- " "not implemented" -+the destinations are -+.I anycast -+addresses assigned to this host. They are mainly equivalent -+to -+.B local -+with one difference: such addresses are invalid when used -+as the source address of any packet. -+ -+.sp -+.B multicast -+- a special type used for multicast routing. It is not present in -+normal routing tables. -+.in -8 -+ -+.P -+.B Route tables: -+Linux-2.x can pack routes into several routing -+tables identified by a number in the range from 1 to 255 or by -+name from the file -+.B /etc/iproute2/rt_tables -+. By default all normal routes are inserted into the -+.B main -+table (ID 254) and the kernel only uses this table when calculating routes. -+ -+.sp -+Actually, one other table always exists, which is invisible but -+even more important. It is the -+.B local -+table (ID 255). This table -+consists of routes for local and broadcast addresses. The kernel maintains -+this table automatically and the administrator usually need not modify it -+or even look at it. -+ -+The multiple routing tables enter the game when -+.I policy routing -+is used. -+ -+.SS ip route add - add new route -+.SS ip route change - change route -+.SS ip route replace - change or add new one -+ -+.TP -+.BI to " TYPE PREFIX " (default) -+the destination prefix of the route. If -+.I TYPE -+is omitted, -+.B ip -+assumes type -+.BR "unicast" . -+Other values of -+.I TYPE -+are listed above. -+.I PREFIX -+is an IP or IPv6 address optionally followed by a slash and the -+prefix length. If the length of the prefix is missing, -+.B ip -+assumes a full-length host route. There is also a special -+.I PREFIX -+.B default -+- which is equivalent to IP -+.B 0/0 -+or to IPv6 -+.BR "::/0" . -+ -+.TP -+.BI tos " TOS" -+.TP -+.BI dsfield " TOS" -+the Type Of Service (TOS) key. This key has no associated mask and -+the longest match is understood as: First, compare the TOS -+of the route and of the packet. If they are not equal, then the packet -+may still match a route with a zero TOS. -+.I TOS -+is either an 8 bit hexadecimal number or an identifier -+from -+.BR "/etc/iproute2/rt_dsfield" . -+ -+.TP -+.BI metric " NUMBER" -+.TP -+.BI preference " NUMBER" -+the preference value of the route. -+.I NUMBER -+is an arbitrary 32bit number. -+ -+.TP -+.BI table " TABLEID" -+the table to add this route to. -+.I TABLEID -+may be a number or a string from the file -+.BR "/etc/iproute2/rt_tables" . -+If this parameter is omitted, -+.B ip -+assumes the -+.B main -+table, with the exception of -+.BR local " , " broadcast " and " nat -+routes, which are put into the -+.B local -+table by default. -+ -+.TP -+.BI dev " NAME" -+the output device name. -+ -+.TP -+.BI via " ADDRESS" -+the address of the nexthop router. Actually, the sense of this field -+depends on the route type. For normal -+.B unicast -+routes it is either the true next hop router or, if it is a direct -+route installed in BSD compatibility mode, it can be a local address -+of the interface. For NAT routes it is the first address of the block -+of translated IP destinations. -+ -+.TP -+.BI src " ADDRESS" -+the source address to prefer when sending to the destinations -+covered by the route prefix. -+ -+.TP -+.BI realm " REALMID" -+the realm to which this route is assigned. -+.I REALMID -+may be a number or a string from the file -+.BR "/etc/iproute2/rt_realms" . -+ -+.TP -+.BI mtu " MTU" -+.TP -+.BI "mtu lock" " MTU" -+the MTU along the path to the destination. If the modifier -+.B lock -+is not used, the MTU may be updated by the kernel due to -+Path MTU Discovery. If the modifier -+.B lock -+is used, no path MTU discovery will be tried, all packets -+will be sent without the DF bit in IPv4 case or fragmented -+to MTU for IPv6. -+ -+.TP -+.BI window " NUMBER" -+the maximal window for TCP to advertise to these destinations, -+measured in bytes. It limits maximal data bursts that our TCP -+peers are allowed to send to us. -+ -+.TP -+.BI rtt " NUMBER" -+the initial RTT ('Round Trip Time') estimate. -+ -+.TP -+.BI rttvar " NUMBER " "(2.3.15+ only)" -+the initial RTT variance estimate. -+ -+.TP -+.BI ssthresh " NUMBER " "(2.3.15+ only)" -+an estimate for the initial slow start threshold. -+ -+.TP -+.BI cwnd " NUMBER " "(2.3.15+ only)" -+the clamp for congestion window. It is ignored if the -+.B lock -+flag is not used. -+ -+.TP -+.BI advmss " NUMBER " "(2.3.15+ only)" -+the MSS ('Maximal Segment Size') to advertise to these -+destinations when establishing TCP connections. If it is not given, -+Linux uses a default value calculated from the first hop device MTU. -+(If the path to these destination is asymmetric, this guess may be wrong.) -+ -+.TP -+.BI reordering " NUMBER " "(2.3.15+ only)" -+Maximal reordering on the path to this destination. -+If it is not given, Linux uses the value selected with -+.B sysctl -+variable -+.BR "net/ipv4/tcp_reordering" . -+ -+.TP -+.BI nexthop " NEXTHOP" -+the nexthop of a multipath route. -+.I NEXTHOP -+is a complex value with its own syntax similar to the top level -+argument lists: -+ -+.in +8 -+.BI via " ADDRESS" -+- is the nexthop router. -+.sp -+ -+.BI dev " NAME" -+- is the output device. -+.sp -+ -+.BI weight " NUMBER" -+- is a weight for this element of a multipath -+route reflecting its relative bandwidth or quality. -+.in -8 -+ -+.TP -+.BI scope " SCOPE_VAL" -+the scope of the destinations covered by the route prefix. -+.I SCOPE_VAL -+may be a number or a string from the file -+.BR "/etc/iproute2/rt_scopes" . -+If this parameter is omitted, -+.B ip -+assumes scope -+.B global -+for all gatewayed -+.B unicast -+routes, scope -+.B link -+for direct -+.BR unicast " and " broadcast -+routes and scope -+.BR host " for " local -+routes. -+ -+.TP -+.BI protocol " RTPROTO" -+the routing protocol identifier of this route. -+.I RTPROTO -+may be a number or a string from the file -+.BR "/etc/iproute2/rt_protos" . -+If the routing protocol ID is not given, -+.B ip assumes protocol -+.B boot -+(i.e. it assumes the route was added by someone who doesn't -+understand what they are doing). Several protocol values have -+a fixed interpretation. -+Namely: -+ -+.in +8 -+.B redirect -+- the route was installed due to an ICMP redirect. -+.sp -+ -+.B kernel -+- the route was installed by the kernel during autoconfiguration. -+.sp -+ -+.B boot -+- the route was installed during the bootup sequence. -+If a routing daemon starts, it will purge all of them. -+.sp -+ -+.B static -+- the route was installed by the administrator -+to override dynamic routing. Routing daemon will respect them -+and, probably, even advertise them to its peers. -+.sp -+ -+.B ra -+- the route was installed by Router Discovery protocol. -+.in -8 -+ -+.sp -+The rest of the values are not reserved and the administrator is free -+to assign (or not to assign) protocol tags. -+ -+.TP -+.B onlink -+pretend that the nexthop is directly attached to this link, -+even if it does not match any interface prefix. -+ -+.TP -+.B equalize -+allow packet by packet randomization on multipath routes. -+Without this modifier, the route will be frozen to one selected -+nexthop, so that load splitting will only occur on per-flow base. -+.B equalize -+only works if the kernel is patched. -+ -+.SS ip route delete - delete route -+ -+.B ip route del -+has the same arguments as -+.BR "ip route add" , -+but their semantics are a bit different. -+ -+Key values -+.RB "(" to ", " tos ", " preference " and " table ")" -+select the route to delete. If optional attributes are present, -+.B ip -+verifies that they coincide with the attributes of the route to delete. -+If no route with the given key and attributes was found, -+.B ip route del -+fails. -+ -+.SS ip route show - list routes -+the command displays the contents of the routing tables or the route(s) -+selected by some criteria. -+ -+.TP -+.BI to " SELECTOR " (default) -+only select routes from the given range of destinations. -+.I SELECTOR -+consists of an optional modifier -+.RB "(" root ", " match " or " exact ")" -+and a prefix. -+.BI root " PREFIX" -+selects routes with prefixes not shorter than -+.IR PREFIX "." -+F.e. -+.BI root " 0/0" -+selects the entire routing table. -+.BI match " PREFIX" -+selects routes with prefixes not longer than -+.IR PREFIX "." -+F.e. -+.BI match " 10.0/16" -+selects -+.IR 10.0/16 "," -+.IR 10/8 " and " 0/0 , -+but it does not select -+.IR 10.1/16 " and " 10.0.0/24 . -+And -+.BI exact " PREFIX" -+(or just -+.IR PREFIX ")" -+selects routes with this exact prefix. If neither of these options -+are present, -+.B ip -+assumes -+.BI root " 0/0" -+i.e. it lists the entire table. -+ -+.TP -+.BI tos " TOS" -+.BI dsfield " TOS" -+only select routes with the given TOS. -+ -+.TP -+.BI table " TABLEID" -+show the routes from this table(s). The default setting is to show -+.BR table main "." -+.I TABLEID -+may either be the ID of a real table or one of the special values: -+.sp -+.in +8 -+.B all -+- list all of the tables. -+.sp -+.B cache -+- dump the routing cache. -+.in -8 -+ -+.TP -+.B cloned -+.TP -+.B cached -+list cloned routes i.e. routes which were dynamically forked from -+other routes because some route attribute (f.e. MTU) was updated. -+Actually, it is equivalent to -+.BR "table cache" "." -+ -+.TP -+.BI from " SELECTOR" -+the same syntax as for -+.BR to "," -+but it binds the source address range rather than destinations. -+Note that the -+.B from -+option only works with cloned routes. -+ -+.TP -+.BI protocol " RTPROTO" -+only list routes of this protocol. -+ -+.TP -+.BI scope " SCOPE_VAL" -+only list routes with this scope. -+ -+.TP -+.BI type " TYPE" -+only list routes of this type. -+ -+.TP -+.BI dev " NAME" -+only list routes going via this device. -+ -+.TP -+.BI via " PREFIX" -+only list routes going via the nexthop routers selected by -+.IR PREFIX "." -+ -+.TP -+.BI src " PREFIX" -+only list routes with preferred source addresses selected -+by -+.IR PREFIX "." -+ -+.TP -+.BI realm " REALMID" -+.TP -+.BI realms " FROMREALM/TOREALM" -+only list routes with these realms. -+ -+.SS ip route flush - flush routing tables -+this command flushes routes selected by some criteria. -+ -+.sp -+The arguments have the same syntax and semantics as the arguments of -+.BR "ip route show" , -+but routing tables are not listed but purged. The only difference is -+the default action: -+.B show -+dumps all the IP main routing table but -+.B flush -+prints the helper page. -+ -+.sp -+With the -+.B -statistics -+option, the command becomes verbose. It prints out the number of -+deleted routes and the number of rounds made to flush the routing -+table. If the option is given -+twice, -+.B ip route flush -+also dumps all the deleted routes in the format described in the -+previous subsection. -+ -+.SS ip route get - get a single route -+this command gets a single route to a destination and prints its -+contents exactly as the kernel sees it. -+ -+.TP -+.BI to " ADDRESS " (default) -+the destination address. -+ -+.TP -+.BI from " ADDRESS" -+the source address. -+ -+.TP -+.BI tos " TOS" -+.TP -+.BI dsfield " TOS" -+the Type Of Service. -+ -+.TP -+.BI iif " NAME" -+the device from which this packet is expected to arrive. -+ -+.TP -+.BI oif " NAME" -+force the output device on which this packet will be routed. -+ -+.TP -+.B connected -+if no source address -+.RB "(option " from ")" -+was given, relookup the route with the source set to the preferred -+address received from the first lookup. -+If policy routing is used, it may be a different route. -+ -+.P -+Note that this operation is not equivalent to -+.BR "ip route show" . -+.B show -+shows existing routes. -+.B get -+resolves them and creates new clones if necessary. Essentially, -+.B get -+is equivalent to sending a packet along this path. -+If the -+.B iif -+argument is not given, the kernel creates a route -+to output packets towards the requested destination. -+This is equivalent to pinging the destination -+with a subsequent -+.BR "ip route ls cache" , -+however, no packets are actually sent. With the -+.B iif -+argument, the kernel pretends that a packet arrived from this interface -+and searches for a path to forward the packet. -+ -+.SH ip rule - routing policy database management -+ -+.BR "Rule" s -+in the routing policy database control the route selection algorithm. -+ -+.P -+Classic routing algorithms used in the Internet make routing decisions -+based only on the destination address of packets (and in theory, -+but not in practice, on the TOS field). -+ -+.P -+In some circumstances we want to route packets differently depending not only -+on destination addresses, but also on other packet fields: source address, -+IP protocol, transport protocol ports or even packet payload. -+This task is called 'policy routing'. -+ -+.P -+To solve this task, the conventional destination based routing table, ordered -+according to the longest match rule, is replaced with a 'routing policy -+database' (or RPDB), which selects routes by executing some set of rules. -+ -+.P -+Each policy routing rule consists of a -+.B selector -+and an -+.B action predicate. -+The RPDB is scanned in the order of increasing priority. The selector -+of each rule is applied to {source address, destination address, incoming -+interface, tos, fwmark} and, if the selector matches the packet, -+the action is performed. The action predicate may return with success. -+In this case, it will either give a route or failure indication -+and the RPDB lookup is terminated. Otherwise, the RPDB program -+continues on the next rule. -+ -+.P -+Semantically, natural action is to select the nexthop and the output device. -+ -+.P -+At startup time the kernel configures the default RPDB consisting of three -+rules: -+ -+.TP -+1. -+Priority: 0, Selector: match anything, Action: lookup routing -+table -+.B local -+(ID 255). -+The -+.B local -+table is a special routing table containing -+high priority control routes for local and broadcast addresses. -+.sp -+Rule 0 is special. It cannot be deleted or overridden. -+ -+.TP -+2. -+Priority: 32766, Selector: match anything, Action: lookup routing -+table -+.B main -+(ID 254). -+The -+.B main -+table is the normal routing table containing all non-policy -+routes. This rule may be deleted and/or overridden with other -+ones by the administrator. -+ -+.TP -+3. -+Priority: 32767, Selector: match anything, Action: lookup routing -+table -+.B default -+(ID 253). -+The -+.B default -+table is empty. It is reserved for some post-processing if no previous -+default rules selected the packet. -+This rule may also be deleted. -+ -+.P -+Each RPDB entry has additional -+attributes. F.e. each rule has a pointer to some routing -+table. NAT and masquerading rules have an attribute to select new IP -+address to translate/masquerade. Besides that, rules have some -+optional attributes, which routes have, namely -+.BR "realms" . -+These values do not override those contained in the routing tables. They -+are only used if the route did not select any attributes. -+ -+.sp -+The RPDB may contain rules of the following types: -+ -+.in +8 -+.B unicast -+- the rule prescribes to return the route found -+in the routing table referenced by the rule. -+ -+.B blackhole -+- the rule prescribes to silently drop the packet. -+ -+.B unreachable -+- the rule prescribes to generate a 'Network is unreachable' error. -+ -+.B prohibit -+- the rule prescribes to generate 'Communication is administratively -+prohibited' error. -+ -+.B nat -+- the rule prescribes to translate the source address -+of the IP packet into some other value. -+.in -8 -+ -+.SS ip rule add - insert a new rule -+.SS ip rule delete - delete a rule -+ -+.TP -+.BI type " TYPE " (default) -+the type of this rule. The list of valid types was given in the previous -+subsection. -+ -+.TP -+.BI from " PREFIX" -+select the source prefix to match. -+ -+.TP -+.BI to " PREFIX" -+select the destination prefix to match. -+ -+.TP -+.BI iif " NAME" -+select the incoming device to match. If the interface is loopback, -+the rule only matches packets originating from this host. This means -+that you may create separate routing tables for forwarded and local -+packets and, hence, completely segregate them. -+ -+.TP -+.BI tos " TOS" -+.TP -+.BI dsfield " TOS" -+select the TOS value to match. -+ -+.TP -+.BI fwmark " MARK" -+select the -+.B fwmark -+value to match. -+ -+.TP -+.BI priority " PREFERENCE" -+the priority of this rule. Each rule should have an explicitly -+set -+.I unique -+priority value. -+ -+.TP -+.BI table " TABLEID" -+the routing table identifier to lookup if the rule selector matches. -+ -+.TP -+.BI realms " FROM/TO" -+Realms to select if the rule matched and the routing table lookup -+succeeded. Realm -+.I TO -+is only used if the route did not select any realm. -+ -+.TP -+.BI nat " ADDRESS" -+The base of the IP address block to translate (for source addresses). -+The -+.I ADDRESS -+may be either the start of the block of NAT addresses (selected by NAT -+routes) or a local host address (or even zero). -+In the last case the router does not translate the packets, but -+masquerades them to this address. -+ -+.B Warning: -+Changes to the RPDB made with these commands do not become active -+immediately. It is assumed that after a script finishes a batch of -+updates, it flushes the routing cache with -+.BR "ip route flush cache" . -+ -+.SS ip rule show - list rules -+This command has no arguments. -+ -+.SH ip maddress - multicast addresses management -+ -+.B maddress -+objects are multicast addresses. -+ -+.SS ip maddress show - list multicast addresses -+ -+.TP -+.BI dev " NAME " (default) -+the device name. -+ -+.SS ip maddress add - add a multicast address -+.SS ip maddress delete - delete a multicast address -+these commands attach/detach a static link layer multicast address -+to listen on the interface. -+Note that it is impossible to join protocol multicast groups -+statically. This command only manages link layer addresses. -+ -+.TP -+.BI address " LLADDRESS " (default) -+the link layer multicast address. -+ -+.TP -+.BI dev " NAME" -+the device to join/leave this multicast address. -+ -+.SH ip mroute - multicast routing cache management -+.B mroute -+objects are multicast routing cache entries created by a user level -+mrouting daemon (f.e. -+.B pimd -+or -+.B mrouted -+). -+ -+Due to the limitations of the current interface to the multicast routing -+engine, it is impossible to change -+.B mroute -+objects administratively, so we may only display them. This limitation -+will be removed in the future. -+ -+.SS ip mroute show - list mroute cache entries -+ -+.TP -+.BI to " PREFIX " (default) -+the prefix selecting the destination multicast addresses to list. -+ -+.TP -+.BI iif " NAME" -+the interface on which multicast packets are received. -+ -+.TP -+.BI from " PREFIX" -+the prefix selecting the IP source addresses of the multicast route. -+ -+.SH ip tunnel - tunnel configuration -+.B tunnel -+objects are tunnels, encapsulating packets in IPv4 packets and then -+sending them over the IP infrastructure. -+ -+.SS ip tunnel add - add a new tunnel -+.SS ip tunnel change - change an existing tunnel -+.SS ip tunnel delete - destroy a tunnel -+ -+.TP -+.BI name " NAME " (default) -+select the tunnel device name. -+ -+.TP -+.BI mode " MODE" -+set the tunnel mode. Three modes are currently available: -+.BR ipip ", " sit " and " gre "." -+ -+.TP -+.BI remote " ADDRESS" -+set the remote endpoint of the tunnel. -+ -+.TP -+.BI local " ADDRESS" -+set the fixed local address for tunneled packets. -+It must be an address on another interface of this host. -+ -+.TP -+.BI ttl " N" -+set a fixed TTL -+.I N -+on tunneled packets. -+.I N -+is a number in the range 1--255. 0 is a special value -+meaning that packets inherit the TTL value. -+The default value is: -+.BR "inherit" . -+ -+.TP -+.BI tos " T" -+.TP -+.BI dsfield " T" -+set a fixed TOS -+.I T -+on tunneled packets. -+The default value is: -+.BR "inherit" . -+ -+.TP -+.BI dev " NAME" -+bind the tunnel to the device -+.I NAME -+so that tunneled packets will only be routed via this device and will -+not be able to escape to another device when the route to endpoint -+changes. -+ -+.TP -+.B nopmtudisc -+disable Path MTU Discovery on this tunnel. -+It is enabled by default. Note that a fixed ttl is incompatible -+with this option: tunnelling with a fixed ttl always makes pmtu -+discovery. -+ -+.TP -+.BI key " K" -+.TP -+.BI ikey " K" -+.TP -+.BI okey " K" -+.RB ( " only GRE tunnels " ) -+use keyed GRE with key -+.IR K ". " K -+is either a number or an IP address-like dotted quad. -+The -+.B key -+parameter sets the key to use in both directions. -+The -+.BR ikey " and " okey -+parameters set different keys for input and output. -+ -+.TP -+.BR csum ", " icsum ", " ocsum -+.RB ( " only GRE tunnels " ) -+generate/require checksums for tunneled packets. -+The -+.B ocsum -+flag calculates checksums for outgoing packets. -+The -+.B icsum -+flag requires that all input packets have the correct -+checksum. The -+.B csum -+flag is equivalent to the combination -+.BR "icsum ocsum" . -+ -+.TP -+.BR seq ", " iseq ", " oseq -+.RB ( " only GRE tunnels " ) -+serialize packets. -+The -+.B oseq -+flag enables sequencing of outgoing packets. -+The -+.B iseq -+flag requires that all input packets are serialized. -+The -+.B seq -+flag is equivalent to the combination -+.BR "iseq oseq" . -+.B It isn't work. Don't use it. -+ -+.SS ip tunnel show - list tunnels -+This command has no arguments. -+ -+.SH ip monitor and rtmon - state monitoring -+ -+The -+.B ip -+utility can monitor the state of devices, addresses -+and routes continuously. This option has a slightly different format. -+Namely, the -+.B monitor -+command is the first in the command line and then the object list follows: -+ -+.BR "ip monitor" " [ " all " |" -+.IR LISTofOBJECTS " ]" -+ -+.I OBJECT-LIST -+is the list of object types that we want to monitor. -+It may contain -+.BR link ", " address " and " route "." -+If no -+.B file -+argument is given, -+.B ip -+opens RTNETLINK, listens on it and dumps state changes in the format -+described in previous sections. -+ -+.P -+If a file name is given, it does not listen on RTNETLINK, -+but opens the file containing RTNETLINK messages saved in binary format -+and dumps them. Such a history file can be generated with the -+.B rtmon -+utility. This utility has a command line syntax similar to -+.BR "ip monitor" . -+Ideally, -+.B rtmon -+should be started before the first network configuration command -+is issued. F.e. if you insert: -+.sp -+.in +8 -+rtmon file /var/log/rtmon.log -+.in -8 -+.sp -+in a startup script, you will be able to view the full history -+later. -+ -+.P -+Certainly, it is possible to start -+.B rtmon -+at any time. -+It prepends the history with the state snapshot dumped at the moment -+of starting. -+ -+.SH HISTORY -+ -+.B ip -+was written by Alexey N. Kuznetsov and added in Linux 2.2. -+.SH SEE ALSO -+.BR tc (8) -+.br -+.RB "IP Command reference " ip-cref.ps -+.br -+.RB "IP tunnels " ip-cref.ps -+ -+.SH AUTHOR -+ -+Manpage maintained by Michail Litvak -diff -Naur iproute2-orig/debian/manpages/old/tc-cbq-details.8 iproute2/debian/manpages/old/tc-cbq-details.8 ---- iproute2-orig/debian/manpages/old/tc-cbq-details.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/old/tc-cbq-details.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,425 @@ -+.TH CBQ 8 "8 December 2001" "iproute2" "Linux" -+.SH NAME -+CBQ \- Class Based Queueing -+.SH SYNOPSIS -+.B tc qdisc ... dev -+dev -+.B ( parent -+classid -+.B | root) [ handle -+major: -+.B ] cbq avpkt -+bytes -+.B bandwidth -+rate -+.B [ cell -+bytes -+.B ] [ ewma -+log -+.B ] [ mpu -+bytes -+.B ] -+ -+.B tc class ... dev -+dev -+.B parent -+major:[minor] -+.B [ classid -+major:minor -+.B ] cbq allot -+bytes -+.B [ bandwidth -+rate -+.B ] [ rate -+rate -+.B ] prio -+priority -+.B [ weight -+weight -+.B ] [ minburst -+packets -+.B ] [ maxburst -+packets -+.B ] [ ewma -+log -+.B ] [ cell -+bytes -+.B ] avpkt -+bytes -+.B [ mpu -+bytes -+.B ] [ bounded isolated ] [ split -+handle -+.B & defmap -+defmap -+.B ] [ estimator -+interval timeconstant -+.B ] -+ -+.SH DESCRIPTION -+Class Based Queueing is a classful qdisc that implements a rich -+linksharing hierarchy of classes. It contains shaping elements as -+well as prioritizing capabilities. Shaping is performed using link -+idle time calculations based on the timing of dequeue events and -+underlying link bandwidth. -+ -+.SH SHAPING ALGORITHM -+Shaping is done using link idle time calculations, and actions taken if -+these calculations deviate from set limits. -+ -+When shaping a 10mbit/s connection to 1mbit/s, the link will -+be idle 90% of the time. If it isn't, it needs to be throttled so that it -+IS idle 90% of the time. -+ -+From the kernel's perspective, this is hard to measure, so CBQ instead -+derives the idle time from the number of microseconds (in fact, jiffies) -+that elapse between requests from the device driver for more data. Combined -+with the knowledge of packet sizes, this is used to approximate how full or -+empty the link is. -+ -+This is rather circumspect and doesn't always arrive at proper -+results. For example, what is the actual link speed of an interface -+that is not really able to transmit the full 100mbit/s of data, -+perhaps because of a badly implemented driver? A PCMCIA network card -+will also never achieve 100mbit/s because of the way the bus is -+designed - again, how do we calculate the idle time? -+ -+The physical link bandwidth may be ill defined in case of not-quite-real -+network devices like PPP over Ethernet or PPTP over TCP/IP. The effective -+bandwidth in that case is probably determined by the efficiency of pipes -+to userspace - which not defined. -+ -+During operations, the effective idletime is measured using an -+exponential weighted moving average (EWMA), which considers recent -+packets to be exponentially more important than past ones. The Unix -+loadaverage is calculated in the same way. -+ -+The calculated idle time is subtracted from the EWMA measured one, -+the resulting number is called 'avgidle'. A perfectly loaded link has -+an avgidle of zero: packets arrive exactly at the calculated -+interval. -+ -+An overloaded link has a negative avgidle and if it gets too negative, -+CBQ throttles and is then 'overlimit'. -+ -+Conversely, an idle link might amass a huge avgidle, which would then -+allow infinite bandwidths after a few hours of silence. To prevent -+this, avgidle is capped at -+.B maxidle. -+ -+If overlimit, in theory, the CBQ could throttle itself for exactly the -+amount of time that was calculated to pass between packets, and then -+pass one packet, and throttle again. Due to timer resolution constraints, -+this may not be feasible, see the -+.B minburst -+parameter below. -+ -+.SH CLASSIFICATION -+Within the one CBQ instance many classes may exist. Each of these classes -+contains another qdisc, by default -+.BR tc-pfifo (8). -+ -+When enqueueing a packet, CBQ starts at the root and uses various methods to -+determine which class should receive the data. If a verdict is reached, this -+process is repeated for the recipient class which might have further -+means of classifying traffic to its children, if any. -+ -+CBQ has the following methods available to classify a packet to any child -+classes. -+.TP -+(i) -+.B skb->priority class encoding. -+Can be set from userspace by an application with the -+.B SO_PRIORITY -+setsockopt. -+The -+.B skb->priority class encoding -+only applies if the skb->priority holds a major:minor handle of an existing -+class within this qdisc. -+.TP -+(ii) -+tc filters attached to the class. -+.TP -+(iii) -+The defmap of a class, as set with the -+.B split & defmap -+parameters. The defmap may contain instructions for each possible Linux packet -+priority. -+ -+.P -+Each class also has a -+.B level. -+Leaf nodes, attached to the bottom of the class hierarchy, have a level of 0. -+.SH CLASSIFICATION ALGORITHM -+ -+Classification is a loop, which terminates when a leaf class is found. At any -+point the loop may jump to the fallback algorithm. -+ -+The loop consists of the following steps: -+.TP -+(i) -+If the packet is generated locally and has a valid classid encoded within its -+.B skb->priority, -+choose it and terminate. -+ -+.TP -+(ii) -+Consult the tc filters, if any, attached to this child. If these return -+a class which is not a leaf class, restart loop from the class returned. -+If it is a leaf, choose it and terminate. -+.TP -+(iii) -+If the tc filters did not return a class, but did return a classid, -+try to find a class with that id within this qdisc. -+Check if the found class is of a lower -+.B level -+than the current class. If so, and the returned class is not a leaf node, -+restart the loop at the found class. If it is a leaf node, terminate. -+If we found an upward reference to a higher level, enter the fallback -+algorithm. -+.TP -+(iv) -+If the tc filters did not return a class, nor a valid reference to one, -+consider the minor number of the reference to be the priority. Retrieve -+a class from the defmap of this class for the priority. If this did not -+contain a class, consult the defmap of this class for the -+.B BEST_EFFORT -+class. If this is an upward reference, or no -+.B BEST_EFFORT -+class was defined, -+enter the fallback algorithm. If a valid class was found, and it is not a -+leaf node, restart the loop at this class. If it is a leaf, choose it and -+terminate. If -+neither the priority distilled from the classid, nor the -+.B BEST_EFFORT -+priority yielded a class, enter the fallback algorithm. -+.P -+The fallback algorithm resides outside of the loop and is as follows. -+.TP -+(i) -+Consult the defmap of the class at which the jump to fallback occured. If -+the defmap contains a class for the -+.B -+priority -+of the class (which is related to the TOS field), choose this class and -+terminate. -+.TP -+(ii) -+Consult the map for a class for the -+.B BEST_EFFORT -+priority. If found, choose it, and terminate. -+.TP -+(iii) -+Choose the class at which break out to the fallback algorithm occured. Terminate. -+.P -+The packet is enqueued to the class which was chosen when either algorithm -+terminated. It is therefore possible for a packet to be enqueued *not* at a -+leaf node, but in the middle of the hierarchy. -+ -+.SH LINK SHARING ALGORITHM -+When dequeuing for sending to the network device, CBQ decides which of its -+classes will be allowed to send. It does so with a Weighted Round Robin process -+in which each class with packets gets a chance to send in turn. The WRR process -+starts by asking the highest priority classes (lowest numerically - -+highest semantically) for packets, and will continue to do so until they -+have no more data to offer, in which case the process repeats for lower -+priorities. -+ -+.B CERTAINTY ENDS HERE, ANK PLEASE HELP -+ -+Each class is not allowed to send at length though - they can only dequeue a -+configurable amount of data during each round. -+ -+If a class is about to go overlimit, and it is not -+.B bounded -+it will try to borrow avgidle from siblings that are not -+.B isolated. -+This process is repeated from the bottom upwards. If a class is unable -+to borrow enough avgidle to send a packet, it is throttled and not asked -+for a packet for enough time for the avgidle to increase above zero. -+ -+.B I REALLY NEED HELP FIGURING THIS OUT. REST OF DOCUMENT IS PRETTY CERTAIN -+.B AGAIN. -+ -+.SH QDISC -+The root qdisc of a CBQ class tree has the following parameters: -+ -+.TP -+parent major:minor | root -+This mandatory parameter determines the place of the CBQ instance, either at the -+.B root -+of an interface or within an existing class. -+.TP -+handle major: -+Like all other qdiscs, the CBQ can be assigned a handle. Should consist only -+of a major number, followed by a colon. Optional. -+.TP -+avpkt bytes -+For calculations, the average packet size must be known. It is silently capped -+at a minimum of 2/3 of the interface MTU. Mandatory. -+.TP -+bandwidth rate -+To determine the idle time, CBQ must know the bandwidth of your underlying -+physical interface, or parent qdisc. This is a vital parameter, more about it -+later. Mandatory. -+.TP -+cell -+The cell size determines he granularity of packet transmission time calculations. Has a sensible default. -+.TP -+mpu -+A zero sized packet may still take time to transmit. This value is the lower -+cap for packet transmission time calculations - packets smaller than this value -+are still deemed to have this size. Defaults to zero. -+.TP -+ewma log -+When CBQ needs to measure the average idle time, it does so using an -+Exponentially Weighted Moving Average which smoothes out measurements into -+a moving average. The EWMA LOG determines how much smoothing occurs. Defaults -+to 5. Lower values imply greater sensitivity. Must be between 0 and 31. -+.P -+A CBQ qdisc does not shape out of its own accord. It only needs to know certain -+parameters about the underlying link. Actual shaping is done in classes. -+ -+.SH CLASSES -+Classes have a host of parameters to configure their operation. -+ -+.TP -+parent major:minor -+Place of this class within the hierarchy. If attached directly to a qdisc -+and not to another class, minor can be omitted. Mandatory. -+.TP -+classid major:minor -+Like qdiscs, classes can be named. The major number must be equal to the -+major number of the qdisc to which it belongs. Optional, but needed if this -+class is going to have children. -+.TP -+weight weight -+When dequeuing to the interface, classes are tried for traffic in a -+round-robin fashion. Classes with a higher configured qdisc will generally -+have more traffic to offer during each round, so it makes sense to allow -+it to dequeue more traffic. All weights under a class are normalized, so -+only the ratios matter. Defaults to the configured rate, unless the priority -+of this class is maximal, in which case it is set to 1. -+.TP -+allot bytes -+Allot specifies how many bytes a qdisc can dequeue -+during each round of the process. This parameter is weighted using the -+renormalized class weight described above. -+ -+.TP -+priority priority -+In the round-robin process, classes with the lowest priority field are tried -+for packets first. Mandatory. -+ -+.TP -+rate rate -+Maximum rate this class and all its children combined can send at. Mandatory. -+ -+.TP -+bandwidth rate -+This is different from the bandwidth specified when creating a CBQ disc. Only -+used to determine maxidle and offtime, which are only calculated when -+specifying maxburst or minburst. Mandatory if specifying maxburst or minburst. -+ -+.TP -+maxburst -+This number of packets is used to calculate maxidle so that when -+avgidle is at maxidle, this number of average packets can be burst -+before avgidle drops to 0. Set it higher to be more tolerant of -+bursts. You can't set maxidle directly, only via this parameter. -+ -+.TP -+minburst -+As mentioned before, CBQ needs to throttle in case of -+overlimit. The ideal solution is to do so for exactly the calculated -+idle time, and pass 1 packet. However, Unix kernels generally have a -+hard time scheduling events shorter than 10ms, so it is better to -+throttle for a longer period, and then pass minburst packets in one -+go, and then sleep minburst times longer. -+ -+The time to wait is called the offtime. Higher values of minburst lead -+to more accurate shaping in the long term, but to bigger bursts at -+millisecond timescales. -+ -+.TP -+minidle -+If avgidle is below 0, we are overlimits and need to wait until -+avgidle will be big enough to send one packet. To prevent a sudden -+burst from shutting down the link for a prolonged period of time, -+avgidle is reset to minidle if it gets too low. -+ -+Minidle is specified in negative microseconds, so 10 means that -+avgidle is capped at -10us. -+ -+.TP -+bounded -+Signifies that this class will not borrow bandwidth from its siblings. -+.TP -+isolated -+Means that this class will not borrow bandwidth to its siblings -+ -+.TP -+split major:minor & defmap bitmap[/bitmap] -+If consulting filters attached to a class did not give a verdict, -+CBQ can also classify based on the packet's priority. There are 16 -+priorities available, numbered from 0 to 15. -+ -+The defmap specifies which priorities this class wants to receive, -+specified as a bitmap. The Least Significant Bit corresponds to priority -+zero. The -+.B split -+parameter tells CBQ at which class the decision must be made, which should -+be a (grand)parent of the class you are adding. -+ -+As an example, 'tc class add ... classid 10:1 cbq .. split 10:0 defmap c0' -+configures class 10:0 to send packets with priorities 6 and 7 to 10:1. -+ -+The complimentary configuration would then -+be: 'tc class add ... classid 10:2 cbq ... split 10:0 defmap 3f' -+Which would send all packets 0, 1, 2, 3, 4 and 5 to 10:1. -+.TP -+estimator interval timeconstant -+CBQ can measure how much bandwidth each class is using, which tc filters -+can use to classify packets with. In order to determine the bandwidth -+it uses a very simple estimator that measures once every -+.B interval -+microseconds how much traffic has passed. This again is a EWMA, for which -+the time constant can be specified, also in microseconds. The -+.B time constant -+corresponds to the sluggishness of the measurement or, conversely, to the -+sensitivity of the average to short bursts. Higher values mean less -+sensitivity. -+ -+ -+ -+.SH SOURCES -+.TP -+o -+Sally Floyd and Van Jacobson, "Link-sharing and Resource -+Management Models for Packet Networks", -+IEEE/ACM Transactions on Networking, Vol.3, No.4, 1995 -+ -+.TP -+o -+Sally Floyd, "Notes on CBQ and Guarantee Service", 1995 -+ -+.TP -+o -+Sally Floyd, "Notes on Class-Based Queueing: Setting -+Parameters", 1996 -+ -+.TP -+o -+Sally Floyd and Michael Speer, "Experimental Results -+for Class-Based Queueing", 1998, not published. -+ -+ -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHOR -+Alexey N. Kuznetsov, . This manpage maintained by -+bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/old/tc-cbq.8 iproute2/debian/manpages/old/tc-cbq.8 ---- iproute2-orig/debian/manpages/old/tc-cbq.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/old/tc-cbq.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,353 @@ -+.TH CBQ 8 "16 December 2001" "iproute2" "Linux" -+.SH NAME -+CBQ \- Class Based Queueing -+.SH SYNOPSIS -+.B tc qdisc ... dev -+dev -+.B ( parent -+classid -+.B | root) [ handle -+major: -+.B ] cbq [ allot -+bytes -+.B ] avpkt -+bytes -+.B bandwidth -+rate -+.B [ cell -+bytes -+.B ] [ ewma -+log -+.B ] [ mpu -+bytes -+.B ] -+ -+.B tc class ... dev -+dev -+.B parent -+major:[minor] -+.B [ classid -+major:minor -+.B ] cbq allot -+bytes -+.B [ bandwidth -+rate -+.B ] [ rate -+rate -+.B ] prio -+priority -+.B [ weight -+weight -+.B ] [ minburst -+packets -+.B ] [ maxburst -+packets -+.B ] [ ewma -+log -+.B ] [ cell -+bytes -+.B ] avpkt -+bytes -+.B [ mpu -+bytes -+.B ] [ bounded isolated ] [ split -+handle -+.B & defmap -+defmap -+.B ] [ estimator -+interval timeconstant -+.B ] -+ -+.SH DESCRIPTION -+Class Based Queueing is a classful qdisc that implements a rich -+linksharing hierarchy of classes. It contains shaping elements as -+well as prioritizing capabilities. Shaping is performed using link -+idle time calculations based on the timing of dequeue events and -+underlying link bandwidth. -+ -+.SH SHAPING ALGORITHM -+When shaping a 10mbit/s connection to 1mbit/s, the link will -+be idle 90% of the time. If it isn't, it needs to be throttled so that it -+IS idle 90% of the time. -+ -+During operations, the effective idletime is measured using an -+exponential weighted moving average (EWMA), which considers recent -+packets to be exponentially more important than past ones. The Unix -+loadaverage is calculated in the same way. -+ -+The calculated idle time is subtracted from the EWMA measured one, -+the resulting number is called 'avgidle'. A perfectly loaded link has -+an avgidle of zero: packets arrive exactly at the calculated -+interval. -+ -+An overloaded link has a negative avgidle and if it gets too negative, -+CBQ throttles and is then 'overlimit'. -+ -+Conversely, an idle link might amass a huge avgidle, which would then -+allow infinite bandwidths after a few hours of silence. To prevent -+this, avgidle is capped at -+.B maxidle. -+ -+If overlimit, in theory, the CBQ could throttle itself for exactly the -+amount of time that was calculated to pass between packets, and then -+pass one packet, and throttle again. Due to timer resolution constraints, -+this may not be feasible, see the -+.B minburst -+parameter below. -+ -+.SH CLASSIFICATION -+Within the one CBQ instance many classes may exist. Each of these classes -+contains another qdisc, by default -+.BR tc-pfifo (8). -+ -+When enqueueing a packet, CBQ starts at the root and uses various methods to -+determine which class should receive the data. -+ -+In the absence of uncommon configuration options, the process is rather easy. -+At each node we look for an instruction, and then go to the class the -+instruction refers us to. If the class found is a barren leaf-node (without -+children), we enqueue the packet there. If it is not yet a leaf node, we do -+the whole thing over again starting from that node. -+ -+The following actions are performed, in order at each node we visit, until one -+sends us to another node, or terminates the process. -+.TP -+(i) -+Consult filters attached to the class. If sent to a leafnode, we are done. -+Otherwise, restart. -+.TP -+(ii) -+Consult the defmap for the priority assigned to this packet, which depends -+on the TOS bits. Check if the referral is leafless, otherwise restart. -+.TP -+(iii) -+Ask the defmap for instructions for the 'best effort' priority. Check the -+answer for leafness, otherwise restart. -+.TP -+(iv) -+If none of the above returned with an instruction, enqueue at this node. -+.P -+This algorithm makes sure that a packet always ends up somewhere, even while -+you are busy building your configuration. -+ -+For more details, see -+.BR tc-cbq-details(8). -+ -+.SH LINK SHARING ALGORITHM -+When dequeuing for sending to the network device, CBQ decides which of its -+classes will be allowed to send. It does so with a Weighted Round Robin process -+in which each class with packets gets a chance to send in turn. The WRR process -+starts by asking the highest priority classes (lowest numerically - -+highest semantically) for packets, and will continue to do so until they -+have no more data to offer, in which case the process repeats for lower -+priorities. -+ -+Classes by default borrow bandwidth from their siblings. A class can be -+prevented from doing so by declaring it 'bounded'. A class can also indicate -+its unwillingness to lend out bandwidth by being 'isolated'. -+ -+.SH QDISC -+The root of a CBQ qdisc class tree has the following parameters: -+ -+.TP -+parent major:minor | root -+This mandatory parameter determines the place of the CBQ instance, either at the -+.B root -+of an interface or within an existing class. -+.TP -+handle major: -+Like all other qdiscs, the CBQ can be assigned a handle. Should consist only -+of a major number, followed by a colon. Optional, but very useful if classes -+will be generated within this qdisc. -+.TP -+allot bytes -+This allotment is the 'chunkiness' of link sharing and is used for determining packet -+transmission time tables. The qdisc allot differs slightly from the class allot discussed -+below. Optional. Defaults to a reasonable value, related to avpkt. -+.TP -+avpkt bytes -+The average size of a packet is needed for calculating maxidle, and is also used -+for making sure 'allot' has a safe value. Mandatory. -+.TP -+bandwidth rate -+To determine the idle time, CBQ must know the bandwidth of your underlying -+physical interface, or parent qdisc. This is a vital parameter, more about it -+later. Mandatory. -+.TP -+cell -+The cell size determines he granularity of packet transmission time calculations. Has a sensible default. -+.TP -+mpu -+A zero sized packet may still take time to transmit. This value is the lower -+cap for packet transmission time calculations - packets smaller than this value -+are still deemed to have this size. Defaults to zero. -+.TP -+ewma log -+When CBQ needs to measure the average idle time, it does so using an -+Exponentially Weighted Moving Average which smoothes out measurements into -+a moving average. The EWMA LOG determines how much smoothing occurs. Lower -+values imply greater sensitivity. Must be between 0 and 31. Defaults -+to 5. -+.P -+A CBQ qdisc does not shape out of its own accord. It only needs to know certain -+parameters about the underlying link. Actual shaping is done in classes. -+ -+.SH CLASSES -+Classes have a host of parameters to configure their operation. -+ -+.TP -+parent major:minor -+Place of this class within the hierarchy. If attached directly to a qdisc -+and not to another class, minor can be omitted. Mandatory. -+.TP -+classid major:minor -+Like qdiscs, classes can be named. The major number must be equal to the -+major number of the qdisc to which it belongs. Optional, but needed if this -+class is going to have children. -+.TP -+weight weight -+When dequeuing to the interface, classes are tried for traffic in a -+round-robin fashion. Classes with a higher configured qdisc will generally -+have more traffic to offer during each round, so it makes sense to allow -+it to dequeue more traffic. All weights under a class are normalized, so -+only the ratios matter. Defaults to the configured rate, unless the priority -+of this class is maximal, in which case it is set to 1. -+.TP -+allot bytes -+Allot specifies how many bytes a qdisc can dequeue -+during each round of the process. This parameter is weighted using the -+renormalized class weight described above. Silently capped at a minimum of -+3/2 avpkt. Mandatory. -+ -+.TP -+prio priority -+In the round-robin process, classes with the lowest priority field are tried -+for packets first. Mandatory. -+ -+.TP -+avpkt -+See the QDISC section. -+ -+.TP -+rate rate -+Maximum rate this class and all its children combined can send at. Mandatory. -+ -+.TP -+bandwidth rate -+This is different from the bandwidth specified when creating a CBQ disc! Only -+used to determine maxidle and offtime, which are only calculated when -+specifying maxburst or minburst. Mandatory if specifying maxburst or minburst. -+ -+.TP -+maxburst -+This number of packets is used to calculate maxidle so that when -+avgidle is at maxidle, this number of average packets can be burst -+before avgidle drops to 0. Set it higher to be more tolerant of -+bursts. You can't set maxidle directly, only via this parameter. -+ -+.TP -+minburst -+As mentioned before, CBQ needs to throttle in case of -+overlimit. The ideal solution is to do so for exactly the calculated -+idle time, and pass 1 packet. However, Unix kernels generally have a -+hard time scheduling events shorter than 10ms, so it is better to -+throttle for a longer period, and then pass minburst packets in one -+go, and then sleep minburst times longer. -+ -+The time to wait is called the offtime. Higher values of minburst lead -+to more accurate shaping in the long term, but to bigger bursts at -+millisecond timescales. Optional. -+ -+.TP -+minidle -+If avgidle is below 0, we are overlimits and need to wait until -+avgidle will be big enough to send one packet. To prevent a sudden -+burst from shutting down the link for a prolonged period of time, -+avgidle is reset to minidle if it gets too low. -+ -+Minidle is specified in negative microseconds, so 10 means that -+avgidle is capped at -10us. Optional. -+ -+.TP -+bounded -+Signifies that this class will not borrow bandwidth from its siblings. -+.TP -+isolated -+Means that this class will not borrow bandwidth to its siblings -+ -+.TP -+split major:minor & defmap bitmap[/bitmap] -+If consulting filters attached to a class did not give a verdict, -+CBQ can also classify based on the packet's priority. There are 16 -+priorities available, numbered from 0 to 15. -+ -+The defmap specifies which priorities this class wants to receive, -+specified as a bitmap. The Least Significant Bit corresponds to priority -+zero. The -+.B split -+parameter tells CBQ at which class the decision must be made, which should -+be a (grand)parent of the class you are adding. -+ -+As an example, 'tc class add ... classid 10:1 cbq .. split 10:0 defmap c0' -+configures class 10:0 to send packets with priorities 6 and 7 to 10:1. -+ -+The complimentary configuration would then -+be: 'tc class add ... classid 10:2 cbq ... split 10:0 defmap 3f' -+Which would send all packets 0, 1, 2, 3, 4 and 5 to 10:1. -+.TP -+estimator interval timeconstant -+CBQ can measure how much bandwidth each class is using, which tc filters -+can use to classify packets with. In order to determine the bandwidth -+it uses a very simple estimator that measures once every -+.B interval -+microseconds how much traffic has passed. This again is a EWMA, for which -+the time constant can be specified, also in microseconds. The -+.B time constant -+corresponds to the sluggishness of the measurement or, conversely, to the -+sensitivity of the average to short bursts. Higher values mean less -+sensitivity. -+ -+.SH BUGS -+The actual bandwidth of the underlying link may not be known, for example -+in the case of PPoE or PPTP connections which in fact may send over a -+pipe, instead of over a physical device. CBQ is quite resilient to major -+errors in the configured bandwidth, probably a the cost of coarser shaping. -+ -+Default kernels rely on coarse timing information for making decisions. These -+may make shaping precise in the long term, but inaccurate on second long scales. -+ -+See -+.BR tc-cbq-details(8) -+for hints on how to improve this. -+ -+.SH SOURCES -+.TP -+o -+Sally Floyd and Van Jacobson, "Link-sharing and Resource -+Management Models for Packet Networks", -+IEEE/ACM Transactions on Networking, Vol.3, No.4, 1995 -+ -+.TP -+o -+Sally Floyd, "Notes on CBQ and Guaranteed Service", 1995 -+ -+.TP -+o -+Sally Floyd, "Notes on Class-Based Queueing: Setting -+Parameters", 1996 -+ -+.TP -+o -+Sally Floyd and Michael Speer, "Experimental Results -+for Class-Based Queueing", 1998, not published. -+ -+ -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHOR -+Alexey N. Kuznetsov, . This manpage maintained by -+bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/old/tc-htb.8 iproute2/debian/manpages/old/tc-htb.8 ---- iproute2-orig/debian/manpages/old/tc-htb.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/old/tc-htb.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,150 @@ -+.TH HTB 8 "10 January 2002" "iproute2" "Linux" -+.SH NAME -+HTB \- Hierarchy Token Bucket -+.SH SYNOPSIS -+.B tc qdisc ... dev -+dev -+.B ( parent -+classid -+.B | root) [ handle -+major: -+.B ] htb [ default -+minor-id -+.B ] -+ -+.B tc class ... dev -+dev -+.B parent -+major:[minor] -+.B [ classid -+major:minor -+.B ] htb rate -+rate -+.B [ ceil -+rate -+.B ] burst -+bytes -+.B [ cburst -+bytes -+.B ] [ prio -+priority -+.B ] -+ -+.SH DESCRIPTION -+HTB is meant as a more understandable and intuitive replacement for -+the CBQ qdisc in Linux. Both CBQ and HTB help you to control the use -+of the outbound bandwidth on a given link. Both allow you to use one -+physical link to simulate several slower links and to send different -+kinds of traffic on different simulated links. In both cases, you have -+to specify how to divide the physical link into simulated links and -+how to decide which simulated link to use for a given packet to be sent. -+ -+Unlike CBQ, HTB shapes traffic based on the Token Bucket Filter algorithm -+which does not depend on interface characteristics and so does not need to -+know the underlying bandwidth of the outgoing interface. -+ -+.SH SHAPING ALGORITHM -+Shaping works as documented in -+.B tc-tbf (8). -+ -+.SH CLASSIFICATION -+Within the one HRB instance many classes may exist. Each of these classes -+contains another qdisc, by default -+.BR tc-pfifo (8). -+ -+When enqueueing a packet, HTB starts at the root and uses various methods to -+determine which class should receive the data. -+ -+In the absence of uncommon configuration options, the process is rather easy. -+At each node we look for an instruction, and then go to the class the -+instruction refers us to. If the class found is a barren leaf-node (without -+children), we enqueue the packet there. If it is not yet a leaf node, we do -+the whole thing over again starting from that node. -+ -+The following actions are performed, in order at each node we visit, until one -+sends us to another node, or terminates the process. -+.TP -+(i) -+Consult filters attached to the class. If sent to a leafnode, we are done. -+Otherwise, restart. -+.TP -+(ii) -+If none of the above returned with an instruction, enqueue at this node. -+.P -+This algorithm makes sure that a packet always ends up somewhere, even while -+you are busy building your configuration. -+ -+.SH LINK SHARING ALGORITHM -+FIXME -+ -+.SH QDISC -+The root of a HTB qdisc class tree has the following parameters: -+ -+.TP -+parent major:minor | root -+This mandatory parameter determines the place of the HTB instance, either at the -+.B root -+of an interface or within an existing class. -+.TP -+handle major: -+Like all other qdiscs, the HTB can be assigned a handle. Should consist only -+of a major number, followed by a colon. Optional, but very useful if classes -+will be generated within this qdisc. -+.TP -+default minor-id -+Unclassified traffic gets sent to the class with this minor-id. -+ -+.SH CLASSES -+Classes have a host of parameters to configure their operation. -+ -+.TP -+parent major:minor -+Place of this class within the hierarchy. If attached directly to a qdisc -+and not to another class, minor can be omitted. Mandatory. -+.TP -+classid major:minor -+Like qdiscs, classes can be named. The major number must be equal to the -+major number of the qdisc to which it belongs. Optional, but needed if this -+class is going to have children. -+.TP -+prio priority -+In the round-robin process, classes with the lowest priority field are tried -+for packets first. Mandatory. -+ -+.TP -+rate rate -+Maximum rate this class and all its children are guaranteed. Mandatory. -+ -+.TP -+ceil rate -+Maximum rate at which a class can send, if its parent has bandwidth to spare. -+Defaults to the configured rate, which implies no borrowing -+ -+.TP -+burst bytes -+Amount of bytes that can be burst at -+.B ceil -+speed, in excess of the configured -+.B rate. -+Should be at least as high as the highest burst of all children. -+ -+.TP -+cburst bytes -+Amount of bytes that can be burst at 'infinite' speed, in other words, as fast -+as the interface can transmit them. For perfect evening out, should be equal to at most one average -+packet. Should be at least as high as the highest cburst of all children. -+ -+.SH NOTES -+Due to Unix timing constraints, the maximum ceil rate is not infinite and may in fact be quite low. On Intel, -+there are 100 timer events per second, the maximum rate is that rate at which 'burst' bytes are sent each timer tick. -+From this, the mininum burst size for a specified rate can be calculated. For i386, a 10mbit rate requires a 12 kilobyte -+burst as 100*12kb*8 equals 10mbit. -+ -+.SH SEE ALSO -+.BR tc (8) -+.P -+HTB website: http://luxik.cdi.cz/~devik/qos/htb/ -+.SH AUTHOR -+Martin Devera . This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/old/tc-pbfifo.8 iproute2/debian/manpages/old/tc-pbfifo.8 ---- iproute2-orig/debian/manpages/old/tc-pbfifo.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/old/tc-pbfifo.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,72 @@ -+.TH PBFIFO 8 "10 January 2002" "iproute2" "Linux" -+.SH NAME -+pfifo \- Packet limited First In, First Out queue -+.P -+bfifo \- Byte limited First In, First Out queue -+ -+.SH SYNOPSIS -+.B tc qdisc ... add pfifo -+.B [ limit -+packets -+.B ] -+.P -+.B tc qdisc ... add bfifo -+.B [ limit -+bytes -+.B ] -+ -+.SH DESCRIPTION -+The pfifo and bfifo qdiscs are unadorned First In, First Out queues. They are the -+simplest queues possible and therefore have no overhead. -+.B pfifo -+constrains the queue size as measured in packets. -+.B bfifo -+does so as measured in bytes. -+ -+Like all non-default qdiscs, they maintain statistics. This might be a reason to prefer -+pfifo or bfifo over the default. -+ -+.SH ALGORITHM -+A list of packets is maintained, when a packet is enqueued it gets inserted at the tail of -+a list. When a packet needs to be sent out to the network, it is taken from the head of the list. -+ -+If the list is too long, no further packets are allowed on. This is called 'tail drop'. -+ -+.SH PARAMETERS -+.TP -+limit -+Maximum queue size. Specified in bytes for bfifo, in packets for pfifo. For pfifo, defaults -+to the interface txqueuelen, as specified with -+.BR ifconfig (8) -+or -+.BR ip (8). -+ -+For bfifo, it defaults to the txqueuelen multiplied by the interface MTU. -+ -+.SH OUTPUT -+The output of -+.B tc -s qdisc ls -+contains the limit, either in packets or in bytes, and the number of bytes -+and packets actually sent. An unsent and dropped packet only appears between braces -+and is not counted as 'Sent'. -+ -+In this example, the queue length is 100 packets, 45894 bytes were sent over 681 packets. -+No packets were dropped, and as the pfifo queue does not slow down packets, there were also no -+overlimits: -+.P -+.nf -+# tc -s qdisc ls dev eth0 -+qdisc pfifo 8001: dev eth0 limit 100p -+ Sent 45894 bytes 681 pkts (dropped 0, overlimits 0) -+.fi -+ -+If a backlog occurs, this is displayed as well. -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHORS -+Alexey N. Kuznetsov, -+ -+This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/old/tc-pfifo_fast.8 iproute2/debian/manpages/old/tc-pfifo_fast.8 ---- iproute2-orig/debian/manpages/old/tc-pfifo_fast.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/old/tc-pfifo_fast.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,59 @@ -+.TH PFIFO_FAST 8 "10 January 2002" "iproute2" "Linux" -+.SH NAME -+pfifo_fast \- three-band first in, first out queue -+ -+.SH DESCRIPTION -+pfifo_fast is the default qdisc of each interface. -+ -+Whenever an interface is created, the pfifo_fast qdisc is automatically used -+as a queue. If another qdisc is attached, it preempts the default -+pfifo_fast, which automatically returns to function when an existing qdisc -+is detached. -+ -+In this sense this qdisc is magic, and unlike other qdiscs. -+ -+.SH ALGORITHM -+The algorithm is very similar to that of the classful -+.BR tc-prio (8) -+qdisc. -+.B pfifo_fast -+is like three -+.BR tc-pfifo (8) -+queues side by side, where packets can be enqueued in any of the three bands -+based on their Type of Service bits or assigned priority. -+ -+Not all three bands are dequeued simultaneously - as long as lower bands -+have traffic, higher bands are never dequeued. This can be used to -+prioritize interactive traffic or penalize 'lowest cost' traffic. -+ -+Each band can be txqueuelen packets long, as configured with -+.BR ifconfig (8) -+or -+.BR ip (8). -+Additional packets coming in are not enqueued but are instead dropped. -+ -+See -+.BR tc-prio (8) -+for complete details on how TOS bits are translated into bands. -+.SH PARAMETERS -+.TP -+txqueuelen -+The length of the three bands depends on the interface txqueuelen, as -+specified with -+.BR ifconfig (8) -+or -+.BR ip (8). -+ -+.SH BUGS -+Does not maintain statistics and does not show up in tc qdisc ls. This is because -+it is the automatic default in the absence of a configured qdisc. -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHORS -+Alexey N. Kuznetsov, -+ -+This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/old/tc-prio.8 iproute2/debian/manpages/old/tc-prio.8 ---- iproute2-orig/debian/manpages/old/tc-prio.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/old/tc-prio.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,187 @@ -+.TH PRIO 8 "16 December 2001" "iproute2" "Linux" -+.SH NAME -+PRIO \- Priority qdisc -+.SH SYNOPSIS -+.B tc qdisc ... dev -+dev -+.B ( parent -+classid -+.B | root) [ handle -+major: -+.B ] prio [ bands -+bands -+.B ] [ priomap -+band,band,band... -+.B ] [ estimator -+interval timeconstant -+.B ] -+ -+.SH DESCRIPTION -+The PRIO qdisc is a simple classful queueing discipline that contains -+an arbitrary number of classes of differing priority. The classes are -+dequeued in numerical descending order of priority. PRIO is a scheduler -+and never delays packets - it is a work-conserving qdisc, though the qdiscs -+contained in the classes may not be. -+ -+Very useful for lowering latency when there is no need for slowing down -+traffic. -+ -+.SH ALGORITHM -+On creation with 'tc qdisc add', a fixed number of bands is created. Each -+band is a class, although is not possible to add classes with 'tc qdisc -+add', the number of bands to be created must instead be specified on the -+commandline attaching PRIO to its root. -+ -+When dequeueing, band 0 is tried first and only if it did not deliver a -+packet does PRIO try band 1, and so onwards. Maximum reliability packets -+should therefore go to band 0, minimum delay to band 1 and the rest to band -+2. -+ -+As the PRIO qdisc itself will have minor number 0, band 0 is actually -+major:1, band 1 is major:2, etc. For major, substitute the major number -+assigned to the qdisc on 'tc qdisc add' with the -+.B handle -+parameter. -+ -+.SH CLASSIFICATION -+Three methods are available to PRIO to determine in which band a packet will -+be enqueued. -+.TP -+From userspace -+A process with sufficient privileges can encode the destination class -+directly with SO_PRIORITY, see -+.BR tc(7). -+.TP -+with a tc filter -+A tc filter attached to the root qdisc can point traffic directly to a class -+.TP -+with the priomap -+Based on the packet priority, which in turn is derived from the Type of -+Service assigned to the packet. -+.P -+Only the priomap is specific to this qdisc. -+.SH QDISC PARAMETERS -+.TP -+bands -+Number of bands. If changed from the default of 3, -+.B priomap -+must be updated as well. -+.TP -+priomap -+The priomap maps the priority of -+a packet to a class. The priority can either be set directly from userspace, -+or be derived from the Type of Service of the packet. -+ -+Determines how packet priorities, as assigned by the kernel, map to -+bands. Mapping occurs based on the TOS octet of the packet, which looks like -+this: -+ -+.nf -+0 1 2 3 4 5 6 7 -++---+---+---+---+---+---+---+---+ -+| | | | -+|PRECEDENCE | TOS |MBZ| -+| | | | -++---+---+---+---+---+---+---+---+ -+.fi -+ -+The four TOS bits (the 'TOS field') are defined as: -+ -+.nf -+Binary Decimcal Meaning -+----------------------------------------- -+1000 8 Minimize delay (md) -+0100 4 Maximize throughput (mt) -+0010 2 Maximize reliability (mr) -+0001 1 Minimize monetary cost (mmc) -+0000 0 Normal Service -+.fi -+ -+As there is 1 bit to the right of these four bits, the actual value of the -+TOS field is double the value of the TOS bits. Tcpdump -v -v shows you the -+value of the entire TOS field, not just the four bits. It is the value you -+see in the first column of this table: -+ -+.nf -+TOS Bits Means Linux Priority Band -+------------------------------------------------------------ -+0x0 0 Normal Service 0 Best Effort 1 -+0x2 1 Minimize Monetary Cost 1 Filler 2 -+0x4 2 Maximize Reliability 0 Best Effort 1 -+0x6 3 mmc+mr 0 Best Effort 1 -+0x8 4 Maximize Throughput 2 Bulk 2 -+0xa 5 mmc+mt 2 Bulk 2 -+0xc 6 mr+mt 2 Bulk 2 -+0xe 7 mmc+mr+mt 2 Bulk 2 -+0x10 8 Minimize Delay 6 Interactive 0 -+0x12 9 mmc+md 6 Interactive 0 -+0x14 10 mr+md 6 Interactive 0 -+0x16 11 mmc+mr+md 6 Interactive 0 -+0x18 12 mt+md 4 Int. Bulk 1 -+0x1a 13 mmc+mt+md 4 Int. Bulk 1 -+0x1c 14 mr+mt+md 4 Int. Bulk 1 -+0x1e 15 mmc+mr+mt+md 4 Int. Bulk 1 -+.fi -+ -+The second column contains the value of the relevant -+four TOS bits, followed by their translated meaning. For example, 15 stands -+for a packet wanting Minimal Montetary Cost, Maximum Reliability, Maximum -+Throughput AND Minimum Delay. -+ -+The fourth column lists the way the Linux kernel interprets the TOS bits, by -+showing to which Priority they are mapped. -+ -+The last column shows the result of the default priomap. On the commandline, -+the default priomap looks like this: -+ -+ 1, 2, 2, 2, 1, 2, 0, 0 , 1, 1, 1, 1, 1, 1, 1, 1 -+ -+This means that priority 4, for example, gets mapped to band number 1. -+The priomap also allows you to list higher priorities (> 7) which do not -+correspond to TOS mappings, but which are set by other means. -+ -+This table from RFC 1349 (read it for more details) explains how -+applications might very well set their TOS bits: -+ -+.nf -+TELNET 1000 (minimize delay) -+FTP -+ Control 1000 (minimize delay) -+ Data 0100 (maximize throughput) -+ -+TFTP 1000 (minimize delay) -+ -+SMTP -+ Command phase 1000 (minimize delay) -+ DATA phase 0100 (maximize throughput) -+ -+Domain Name Service -+ UDP Query 1000 (minimize delay) -+ TCP Query 0000 -+ Zone Transfer 0100 (maximize throughput) -+ -+NNTP 0001 (minimize monetary cost) -+ -+ICMP -+ Errors 0000 -+ Requests 0000 (mostly) -+ Responses (mostly) -+.fi -+ -+ -+.SH CLASSES -+PRIO classes cannot be configured further - they are automatically created -+when the PRIO qdisc is attached. Each class however can contain yet a -+further qdisc. -+ -+.SH BUGS -+Large amounts of traffic in the lower bands can cause starvation of higher -+bands. Can be prevented by attaching a shaper (for example, -+.BR tc-tbf(8) -+to these bands to make sure they cannot dominate the link. -+ -+.SH AUTHORS -+Alexey N. Kuznetsov, , J Hadi Salim -+. This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/old/tc-red.8 iproute2/debian/manpages/old/tc-red.8 ---- iproute2-orig/debian/manpages/old/tc-red.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/old/tc-red.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,131 @@ -+.TH RED 8 "13 December 2001" "iproute2" "Linux" -+.SH NAME -+red \- Random Early Detection -+.SH SYNOPSIS -+.B tc qdisc ... red -+.B limit -+bytes -+.B min -+bytes -+.B max -+bytes -+.B avpkt -+bytes -+.B burst -+packets -+.B [ ecn ] [ bandwidth -+rate -+.B ] probability -+chance -+ -+.SH DESCRIPTION -+Random Early Detection is a classless qdisc which manages its queue size -+smartly. Regular queues simply drop packets from the tail when they are -+full, which may not be the optimal behaviour. RED also performs tail drop, -+but does so in a more gradual way. -+ -+Once the queue hits a certain average length, packets enqueued have a -+configurable chance of being marked (which may mean dropped). This chance -+increases linearly up to a point called the -+.B max -+average queue length, although the queue might get bigger. -+ -+This has a host of benefits over simple taildrop, while not being processor -+intensive. It prevents synchronous retransmits after a burst in traffic, -+which cause further retransmits, etc. -+ -+The goal is the have a small queue size, which is good for interactivity -+while not disturbing TCP/IP traffic with too many sudden drops after a burst -+of traffic. -+ -+Depending on if ECN is configured, marking either means dropping or -+purely marking a packet as overlimit. -+.SH ALGORITHM -+The average queue size is used for determining the marking -+probability. This is calculated using an Exponential Weighted Moving -+Average, which can be more or less sensitive to bursts. -+ -+When the average queue size is below -+.B min -+bytes, no packet will ever be marked. When it exceeds -+.B min, -+the probability of doing so climbs linearly up -+to -+.B probability, -+until the average queue size hits -+.B max -+bytes. Because -+.B probability -+is normally not set to 100%, the queue size might -+conceivably rise above -+.B max -+bytes, so the -+.B limit -+parameter is provided to set a hard maximum for the size of the queue. -+ -+.SH PARAMETERS -+.TP -+min -+Average queue size at which marking becomes a possibility. -+.TP -+max -+At this average queue size, the marking probability is maximal. Should be at -+least twice -+.B min -+to prevent synchronous retransmits, higher for low -+.B min. -+.TP -+probability -+Maximum probability for marking, specified as a floating point -+number from 0.0 to 1.0. Suggested values are 0.01 or 0.02 (1 or 2%, -+respectively). -+.TP -+limit -+Hard limit on the real (not average) queue size in bytes. Further packets -+are dropped. Should be set higher than max+burst. It is advised to set this -+a few times higher than -+.B max. -+.TP -+burst -+Used for determining how fast the average queue size is influenced by the -+real queue size. Larger values make the calculation more sluggish, allowing -+longer bursts of traffic before marking starts. Real life experiments -+support the following guideline: (min+min+max)/(3*avpkt). -+.TP -+avpkt -+Specified in bytes. Used with burst to determine the time constant for -+average queue size calculations. 1000 is a good value. -+.TP -+bandwidth -+This rate is used for calculating the average queue size after some -+idle time. Should be set to the bandwidth of your interface. Does not mean -+that RED will shape for you! Optional. -+.TP -+ecn -+As mentioned before, RED can either 'mark' or 'drop'. Explicit Congestion -+Notification allows RED to notify remote hosts that their rate exceeds the -+amount of bandwidth available. Non-ECN capable hosts can only be notified by -+dropping a packet. If this parameter is specified, packets which indicate -+that their hosts honor ECN will only be marked and not dropped, unless the -+queue size hits -+.B limit -+bytes. Needs a tc binary with RED support compiled in. Recommended. -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH SOURCES -+.TP -+o -+Floyd, S., and Jacobson, V., Random Early Detection gateways for -+Congestion Avoidance. http://www.aciri.org/floyd/papers/red/red.html -+.TP -+o -+Some changes to the algorithm by Alexey N. Kuznetsov. -+ -+.SH AUTHORS -+Alexey N. Kuznetsov, , Alexey Makarenko -+, J Hadi Salim . -+This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/old/tc-sfq.8 iproute2/debian/manpages/old/tc-sfq.8 ---- iproute2-orig/debian/manpages/old/tc-sfq.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/old/tc-sfq.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,107 @@ -+.TH TC 8 "8 December 2001" "iproute2" "Linux" -+.SH NAME -+sfq \- Stochastic Fairness Queueing -+.SH SYNOPSIS -+.B tc qdisc ... perturb -+seconds -+.B quantum -+bytes -+ -+.SH DESCRIPTION -+ -+Stochastic Fairness Queueing is a classless queueing discipline available for -+traffic control with the -+.BR tc (8) -+command. -+ -+SFQ does not shape traffic but only schedules the transmission of packets, based on 'flows'. -+The goal is to ensure fairness so that each flow is able to send data in turn, thus preventing -+any single flow from drowning out the rest. -+ -+This may in fact have some effect in mitigating a Denial of Service attempt. -+ -+SFQ is work-conserving and therefore always delivers a packet if it has one available. -+.SH ALGORITHM -+On enqueueing, each packet is assigned to a hash bucket, based on -+.TP -+(i) -+Source address -+.TP -+(ii) -+Destination address -+.TP -+(iii) -+Source port -+.P -+If these are available. SFQ knows about ipv4 and ipv6 and also UDP, TCP and ESP. -+Packets with other protocols are hashed based on the 32bits representation of their -+destination and the socket they belong to. A flow corresponds mostly to a TCP/IP -+connection. -+ -+Each of these buckets should represent a unique flow. Because multiple flows may -+get hashed to the same bucket, the hashing algorithm is perturbed at configurable -+intervals so that the unfairness lasts only for a short while. Perturbation may -+however cause some inadvertent packet reordering to occur. -+ -+When dequeuing, each hashbucket with data is queried in a round robin fashion. -+ -+The compile time maximum length of the SFQ is 128 packets, which can be spread over -+at most 128 buckets of 1024 available. In case of overflow, tail-drop is performed -+on the fullest bucket, thus maintaining fairness. -+ -+.SH PARAMETERS -+.TP -+perturb -+Interval in seconds for queue algorithm perturbation. Defaults to 0, which means that -+no perturbation occurs. Do not set too low for each perturbation may cause some packet -+reordering. Advised value: 10 -+.TP -+quantum -+Amount of bytes a flow is allowed to dequeue during a round of the round robin process. -+Defaults to the MTU of the interface which is also the advised value and the minimum value. -+ -+.SH EXAMPLE & USAGE -+ -+To attach to device ppp0: -+.P -+# tc qdisc add dev ppp0 root sfq perturb 10 -+.P -+Please note that SFQ, like all non-shaping (work-conserving) qdiscs, is only useful -+if it owns the queue. -+This is the case when the link speed equals the actually available bandwidth. This holds -+for regular phone modems, ISDN connections and direct non-switched ethernet links. -+.P -+Most often, cable modems and DSL devices do not fall into this category. The same holds -+for when connected to a switch and trying to send data to a congested segment also -+connected to the switch. -+.P -+In this case, the effective queue does not reside within Linux and is therefore not -+available for scheduling. -+.P -+Embed SFQ in a classful qdisc to make sure it owns the queue. -+ -+.SH SOURCE -+.TP -+o -+Paul E. McKenney "Stochastic Fairness Queuing", -+IEEE INFOCOMM'90 Proceedings, San Francisco, 1990. -+ -+.TP -+o -+Paul E. McKenney "Stochastic Fairness Queuing", -+"Interworking: Research and Experience", v.2, 1991, p.113-131. -+ -+.TP -+o -+See also: -+M. Shreedhar and George Varghese "Efficient Fair -+Queuing using Deficit Round Robin", Proc. SIGCOMM 95. -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHOR -+Alexey N. Kuznetsov, . This manpage maintained by -+bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/old/tc-tbf.8 iproute2/debian/manpages/old/tc-tbf.8 ---- iproute2-orig/debian/manpages/old/tc-tbf.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/old/tc-tbf.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,138 @@ -+.TH TC 8 "13 December 2001" "iproute2" "Linux" -+.SH NAME -+tbf \- Token Bucket Filter -+.SH SYNOPSIS -+.B tc qdisc ... tbf rate -+rate -+.B burst -+bytes/cell -+.B ( latency -+ms -+.B | limit -+bytes -+.B ) [ mpu -+bytes -+.B [ peakrate -+rate -+.B mtu -+bytes/cell -+.B ] ] -+.P -+burst is also known as buffer and maxburst. mtu is also known as minburst. -+.SH DESCRIPTION -+ -+The Token Bucket Filter is a classless queueing discipline available for -+traffic control with the -+.BR tc (8) -+command. -+ -+TBF is a pure shaper and never schedules traffic. It is non-work-conserving and may throttle -+itself, although packets are available, to ensure that the configured rate is not exceeded. -+On all platforms except for Alpha, -+it is able to shape up to 1mbit/s of normal traffic with ideal minimal burstiness, -+sending out data exactly at the configured rates. -+ -+Much higher rates are possible but at the cost of losing the minimal burstiness. In that -+case, data is on average dequeued at the configured rate but may be sent much faster at millisecond -+timescales. Because of further queues living in network adaptors, this is often not a problem. -+ -+Kernels with a higher 'HZ' can achieve higher rates with perfect burstiness. On Alpha, HZ is ten -+times higher, leading to a 10mbit/s limit to perfection. These calculations hold for packets of on -+average 1000 bytes. -+ -+.SH ALGORITHM -+As the name implies, traffic is filtered based on the expenditure of -+.B tokens. -+Tokens roughly correspond to bytes, with the additional constraint that each packet consumes -+some tokens, no matter how small it is. This reflects the fact that even a zero-sized packet occupies -+the link for some time. -+ -+On creation, the TBF is stocked with tokens which correspond to the amount of traffic that can be burst -+in one go. Tokens arrive at a steady rate, until the bucket is full. -+ -+If no tokens are available, packets are queued, up to a configured limit. The TBF now -+calculates the token deficit, and throttles until the first packet in the queue can be sent. -+ -+If it is not acceptable to burst out packets at maximum speed, a peakrate can be configured -+to limit the speed at which the bucket empties. This peakrate is implemented as a second TBF -+with a very small bucket, so that it doesn't burst. -+ -+To achieve perfection, the second bucket may contain only a single packet, which leads to -+the earlier mentioned 1mbit/s limit. -+ -+This limit is caused by the fact that the kernel can only throttle for at minimum 1 'jiffy', which depends -+on HZ as 1/HZ. For perfect shaping, only a single packet can get sent per jiffy - for HZ=100, this means 100 -+packets of on average 1000 bytes each, which roughly corresponds to 1mbit/s. -+ -+.SH PARAMETERS -+See -+.BR tc (8) -+for how to specify the units of these values. -+.TP -+limit or latency -+Limit is the number of bytes that can be queued waiting for tokens to become -+available. You can also specify this the other way around by setting the -+latency parameter, which specifies the maximum amount of time a packet can -+sit in the TBF. The latter calculation takes into account the size of the -+bucket, the rate and possibly the peakrate (if set). These two parameters -+are mutually exclusive. -+.TP -+burst -+Also known as buffer or maxburst. -+Size of the bucket, in bytes. This is the maximum amount of bytes that tokens can be available for instantaneously. -+In general, larger shaping rates require a larger buffer. For 10mbit/s on Intel, you need at least 10kbyte buffer -+if you want to reach your configured rate! -+ -+If your buffer is too small, packets may be dropped because more tokens arrive per timer tick than fit in your bucket. -+The minimum buffer size can be calculated by dividing the rate by HZ. -+ -+Token usage calculations are performed using a table which by default has a resolution of 8 packets. -+This resolution can be changed by specifying the -+.B cell -+size with the burst. For example, to specify a 6000 byte buffer with a 16 -+byte cell size, set a burst of 6000/16. You will probably never have to set -+this. Must be an integral power of 2. -+.TP -+mpu -+A zero-sized packet does not use zero bandwidth. For ethernet, no packet uses less than 64 bytes. The Minimum Packet Unit -+determines the minimal token usage (specified in bytes) for a packet. Defaults to zero. -+.TP -+rate -+The speed knob. See remarks above about limits! See -+.BR tc (8) -+for units. -+.PP -+Furthermore, if a peakrate is desired, the following parameters are available: -+ -+.TP -+peakrate -+Maximum depletion rate of the bucket. Limited to 1mbit/s on Intel, 10mbit/s on Alpha. The peakrate does -+not need to be set, it is only necessary if perfect millisecond timescale shaping is required. -+ -+.TP -+mtu/minburst -+Specifies the size of the peakrate bucket. For perfect accuracy, should be set to the MTU of the interface. -+If a peakrate is needed, but some burstiness is acceptable, this size can be raised. A 3000 byte minburst -+allows around 3mbit/s of peakrate, given 1000 byte packets. -+ -+Like the regular burstsize you can also specify a -+.B cell -+size. -+.SH EXAMPLE & USAGE -+ -+To attach a TBF with a sustained maximum rate of 0.5mbit/s, a peakrate of 1.0mbit/s, -+a 5kilobyte buffer, with a pre-bucket queue size limit calculated so the TBF causes -+at most 70ms of latency, with perfect peakrate behaviour, issue: -+.P -+# tc qdisc add dev eth0 root tbf rate 0.5mbit \\ -+ burst 5kb latency 70ms peakrate 1mbit \\ -+ minburst 1540 -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHOR -+Alexey N. Kuznetsov, . This manpage maintained by -+bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/old/tc.8 iproute2/debian/manpages/old/tc.8 ---- iproute2-orig/debian/manpages/old/tc.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/old/tc.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,348 @@ -+.TH TC 8 "16 December 2001" "iproute2" "Linux" -+.SH NAME -+tc \- show / manipulate traffic control settings -+.SH SYNOPSIS -+.B tc qdisc [ add | change | replace | link ] dev -+DEV -+.B -+[ parent -+qdisc-id -+.B | root ] -+.B [ handle -+qdisc-id ] qdisc -+[ qdisc specific parameters ] -+.P -+ -+.B tc class [ add | change | replace ] dev -+DEV -+.B parent -+qdisc-id -+.B [ classid -+class-id ] qdisc -+[ qdisc specific parameters ] -+.P -+ -+.B tc filter [ add | change | replace ] dev -+DEV -+.B [ parent -+qdisc-id -+.B | root ] protocol -+protocol -+.B prio -+priority filtertype -+[ filtertype specific parameters ] -+.B flowid -+flow-id -+ -+.B tc [-s | -d ] qdisc show [ dev -+DEV -+.B ] -+.P -+.B tc [-s | -d ] class show dev -+DEV -+.P -+.B tc filter show dev -+DEV -+ -+.SH DESCRIPTION -+.B Tc -+is used to configure Traffic Control in the Linux kernel. Traffic Control consists -+of the following: -+ -+.TP -+SHAPING -+When traffic is shaped, its rate of transmission is under control. Shaping may -+be more than lowering the available bandwidth - it is also used to smooth out -+bursts in traffic for better network behaviour. Shaping occurs on egress. -+ -+.TP -+SCHEDULING -+By scheduling the transmission of packets it is possible to improve interactivity -+for traffic that needs it while still guaranteeing bandwidth to bulk transfers. Reordering -+is also called prioritizing, and happens only on egress. -+ -+.TP -+POLICING -+Where shaping deals with transmission of traffic, policing pertains to traffic -+arriving. Policing thus occurs on ingress. -+ -+.TP -+DROPPING -+Traffic exceeding a set bandwidth may also be dropped forthwith, both on -+ingress and on egress. -+ -+.P -+Processing of traffic is controlled by three kinds of objects: qdiscs, -+classes and filters. -+ -+.SH QDISCS -+.B qdisc -+is short for 'queueing discipline' and it is elementary to -+understanding traffic control. Whenever the kernel needs to send a -+packet to an interface, it is -+.B enqueued -+to the qdisc configured for that interface. Immediately afterwards, the kernel -+tries to get as many packets as possible from the qdisc, for giving them -+to the network adaptor driver. -+ -+A simple QDISC is the 'pfifo' one, which does no processing at all and is a pure -+First In, First Out queue. It does however store traffic when the network interface -+can't handle it momentarily. -+ -+.SH CLASSES -+Some qdiscs can contain classes, which contain further qdiscs - traffic may -+then be enqueued in any of the inner qdiscs, which are within the -+.B classes. -+When the kernel tries to dequeue a packet from such a -+.B classful qdisc -+it can come from any of the classes. A qdisc may for example prioritize -+certain kinds of traffic by trying to dequeue from certain classes -+before others. -+ -+.SH FILTERS -+A -+.B filter -+is used by a classful qdisc to determine in which class a packet will -+be enqueued. Whenever traffic arrives at a class with subclasses, it needs -+to be classified. Various methods may be employed to do so, one of these -+are the filters. All filters attached to the class are called, until one of -+them returns with a verdict. If no verdict was made, other criteria may be -+available. This differs per qdisc. -+ -+It is important to notice that filters reside -+.B within -+qdiscs - they are not masters of what happens. -+ -+.SH CLASSLESS QDISCS -+The classless qdiscs are: -+.TP -+[p|b]fifo -+Simplest usable qdisc, pure First In, First Out behaviour. Limited in -+packets or in bytes. -+.TP -+pfifo_fast -+Standard qdisc for 'Advanced Router' enabled kernels. Consists of a three-band -+queue which honors Type of Service flags, as well as the priority that may be -+assigned to a packet. -+.TP -+red -+Random Early Detection simulates physical congestion by randomly dropping -+packets when nearing configured bandwidth allocation. Well suited to very -+large bandwidth applications. -+.TP -+sfq -+Stochastic Fairness Queueing reorders queued traffic so each 'session' -+gets to send a packet in turn. -+.TP -+tbf -+The Token Bucket Filter is suited for slowing traffic down to a precisely -+configured rate. Scales well to large bandwidths. -+.SH CONFIGURING CLASSLESS QDISCS -+In the absence of classful qdiscs, classless qdiscs can only be attached at -+the root of a device. Full syntax: -+.P -+.B tc qdisc add dev -+DEV -+.B root -+QDISC QDISC-PARAMETERS -+ -+To remove, issue -+.P -+.B tc qdisc del dev -+DEV -+.B root -+ -+The -+.B pfifo_fast -+qdisc is the automatic default in the absence of a configured qdisc. -+ -+.SH CLASSFUL QDISCS -+The classful qdiscs are: -+.TP -+CBQ -+Class Based Queueing implements a rich linksharing hierarchy of classes. -+It contains shaping elements as well as prioritizing capabilities. Shaping is -+performed using link idle time calculations based on average packet size and -+underlying link bandwidth. The latter may be ill-defined for some interfaces. -+.TP -+HTB -+The Hierarchy Token Bucket implements a rich linksharing hierarchy of -+classes with an emphasis on conforming to existing practices. HTB facilitates -+guaranteeing bandwidth to classes, while also allowing specification of upper -+limits to inter-class sharing. It contains shaping elements, based on TBF and -+can prioritize classes. -+.TP -+PRIO -+The PRIO qdisc is a non-shaping container for a configurable number of -+classes which are dequeued in order. This allows for easy prioritization -+of traffic, where lower classes are only able to send if higher ones have -+no packets available. To facilitate configuration, Type Of Service bits are -+honored by default. -+.SH THEORY OF OPERATION -+Classes form a tree, where each class has a single parent. -+A class may have multiple children. Some qdiscs allow for runtime addition -+of classes (CBQ, HTB) while others (PRIO) are created with a static number of -+children. -+ -+Qdiscs which allow dynamic addition of classes can have zero or more -+subclasses to which traffic may be enqueued. -+ -+Furthermore, each class contains a -+.B leaf qdisc -+which by default has -+.B pfifo -+behaviour though another qdisc can be attached in place. This qdisc may again -+contain classes, but each class can have only one leaf qdisc. -+ -+When a packet enters a classful qdisc it can be -+.B classified -+to one of the classes within. Three criteria are available, although not all -+qdiscs will use all three: -+.TP -+tc filters -+If tc filters are attached to a class, they are consulted first -+for relevant instructions. Filters can match on all fields of a packet header, -+as well as on the firewall mark applied by ipchains or iptables. See -+.BR tc-filters (8). -+.TP -+Type of Service -+Some qdiscs have built in rules for classifying packets based on the TOS field. -+.TP -+skb->priority -+Userspace programs can encode a class-id in the 'skb->priority' field using -+the SO_PRIORITY option. -+.P -+Each node within the tree can have its own filters but higher level filters -+may also point directly to lower classes. -+ -+If classification did not succeed, packets are enqueued to the leaf qdisc -+attached to that class. Check qdisc specific manpages for details, however. -+ -+.SH NAMING -+All qdiscs, classes and filters have IDs, which can either be specified -+or be automatically assigned. -+ -+IDs consist of a major number and a minor number, separated by a colon. -+ -+.TP -+QDISCS -+A qdisc, which potentially can have children, -+gets assigned a major number, called a 'handle', leaving the minor -+number namespace available for classes. The handle is expressed as '10:'. -+It is customary to explicitly assign a handle to qdiscs expected to have -+children. -+ -+.TP -+CLASSES -+Classes residing under a qdisc share their qdisc major number, but each have -+a separate minor number called a 'classid' that has no relation to their -+parent classes, only to their parent qdisc. The same naming custom as for -+qdiscs applies. -+ -+.TP -+FILTERS -+Filters have a three part ID, which is only needed when using a hashed -+filter hierarchy, for which see -+.BR tc-filters (8). -+.SH UNITS -+All parameters accept a floating point number, possibly followed by a unit. -+.P -+Bandwidths or rates can be specified in: -+.TP -+kbps -+Kilobytes per second -+.TP -+mbps -+Megabytes per second -+.TP -+kbit -+Kilobits per second -+.TP -+mbit -+Megabits per second -+.TP -+bps or a bare number -+Bytes per second -+.P -+Amounts of data can be specified in: -+.TP -+kb or k -+Kilobytes -+.TP -+mb or m -+Megabytes -+.TP -+mbit -+Megabits -+.TP -+kbit -+Kilobits -+.TP -+b or a bare number -+Bytes. -+.P -+Lengths of time can be specified in: -+.TP -+s, sec or secs -+Whole seconds -+.TP -+ms, msec or msecs -+Milliseconds -+.TP -+us, usec, usecs or a bare number -+Microseconds. -+ -+.SH TC COMMANDS -+The following commands are available for qdiscs, classes and filter: -+.TP -+add -+Add a qdisc, class or filter to a node. For all entities, a -+.B parent -+must be passed, either by passing its ID or by attaching directly to the root of a device. -+When creating a qdisc or a filter, it can be named with the -+.B handle -+parameter. A class is named with the -+.B classid -+parameter. -+ -+.TP -+remove -+A qdisc can be removed by specifying its handle, which may also be 'root'. All subclasses and their leaf qdiscs -+are automatically deleted, as well as any filters attached to them. -+ -+.TP -+change -+Some entities can be modified 'in place'. Shares the syntax of 'add', with the exception -+that the handle cannot be changed and neither can the parent. In other words, -+.B -+change -+cannot move a node. -+ -+.TP -+replace -+Performs a nearly atomic remove/add on an existing node id. If the node does not exist yet -+it is created. -+ -+.TP -+link -+Only available for qdiscs and performs a replace where the node -+must exist already. -+ -+ -+.SH HISTORY -+.B tc -+was written by Alexey N. Kuznetsov and added in Linux 2.2. -+.SH SEE ALSO -+.BR tc-cbq (8), -+.BR tc-htb (8), -+.BR tc-sfq (8), -+.BR tc-red (8), -+.BR tc-tbf (8), -+.BR tc-pfifo (8), -+.BR tc-bfifo (8), -+.BR tc-pfifo_fast (8), -+.BR tc-filters (8) -+ -+.SH AUTHOR -+Manpage maintained by bert hubert (ahu@ds9a.nl) -+ -diff -Naur iproute2-orig/debian/manpages/tc-cbq-details.8 iproute2/debian/manpages/tc-cbq-details.8 ---- iproute2-orig/debian/manpages/tc-cbq-details.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/tc-cbq-details.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,425 @@ -+.TH CBQ 8 "8 December 2001" "iproute2" "Linux" -+.SH NAME -+CBQ \- Class Based Queueing -+.SH SYNOPSIS -+.B tc qdisc ... dev -+dev -+.B ( parent -+classid -+.B | root) [ handle -+major: -+.B ] cbq avpkt -+bytes -+.B bandwidth -+rate -+.B [ cell -+bytes -+.B ] [ ewma -+log -+.B ] [ mpu -+bytes -+.B ] -+ -+.B tc class ... dev -+dev -+.B parent -+major:[minor] -+.B [ classid -+major:minor -+.B ] cbq allot -+bytes -+.B [ bandwidth -+rate -+.B ] [ rate -+rate -+.B ] prio -+priority -+.B [ weight -+weight -+.B ] [ minburst -+packets -+.B ] [ maxburst -+packets -+.B ] [ ewma -+log -+.B ] [ cell -+bytes -+.B ] avpkt -+bytes -+.B [ mpu -+bytes -+.B ] [ bounded isolated ] [ split -+handle -+.B & defmap -+defmap -+.B ] [ estimator -+interval timeconstant -+.B ] -+ -+.SH DESCRIPTION -+Class Based Queueing is a classful qdisc that implements a rich -+linksharing hierarchy of classes. It contains shaping elements as -+well as prioritizing capabilities. Shaping is performed using link -+idle time calculations based on the timing of dequeue events and -+underlying link bandwidth. -+ -+.SH SHAPING ALGORITHM -+Shaping is done using link idle time calculations, and actions taken if -+these calculations deviate from set limits. -+ -+When shaping a 10mbit/s connection to 1mbit/s, the link will -+be idle 90% of the time. If it isn't, it needs to be throttled so that it -+IS idle 90% of the time. -+ -+From the kernel's perspective, this is hard to measure, so CBQ instead -+derives the idle time from the number of microseconds (in fact, jiffies) -+that elapse between requests from the device driver for more data. Combined -+with the knowledge of packet sizes, this is used to approximate how full or -+empty the link is. -+ -+This is rather circumspect and doesn't always arrive at proper -+results. For example, what is the actual link speed of an interface -+that is not really able to transmit the full 100mbit/s of data, -+perhaps because of a badly implemented driver? A PCMCIA network card -+will also never achieve 100mbit/s because of the way the bus is -+designed - again, how do we calculate the idle time? -+ -+The physical link bandwidth may be ill defined in case of not-quite-real -+network devices like PPP over Ethernet or PPTP over TCP/IP. The effective -+bandwidth in that case is probably determined by the efficiency of pipes -+to userspace - which not defined. -+ -+During operations, the effective idletime is measured using an -+exponential weighted moving average (EWMA), which considers recent -+packets to be exponentially more important than past ones. The Unix -+loadaverage is calculated in the same way. -+ -+The calculated idle time is subtracted from the EWMA measured one, -+the resulting number is called 'avgidle'. A perfectly loaded link has -+an avgidle of zero: packets arrive exactly at the calculated -+interval. -+ -+An overloaded link has a negative avgidle and if it gets too negative, -+CBQ throttles and is then 'overlimit'. -+ -+Conversely, an idle link might amass a huge avgidle, which would then -+allow infinite bandwidths after a few hours of silence. To prevent -+this, avgidle is capped at -+.B maxidle. -+ -+If overlimit, in theory, the CBQ could throttle itself for exactly the -+amount of time that was calculated to pass between packets, and then -+pass one packet, and throttle again. Due to timer resolution constraints, -+this may not be feasible, see the -+.B minburst -+parameter below. -+ -+.SH CLASSIFICATION -+Within the one CBQ instance many classes may exist. Each of these classes -+contains another qdisc, by default -+.BR tc-pfifo (8). -+ -+When enqueueing a packet, CBQ starts at the root and uses various methods to -+determine which class should receive the data. If a verdict is reached, this -+process is repeated for the recipient class which might have further -+means of classifying traffic to its children, if any. -+ -+CBQ has the following methods available to classify a packet to any child -+classes. -+.TP -+(i) -+.B skb->priority class encoding. -+Can be set from userspace by an application with the -+.B SO_PRIORITY -+setsockopt. -+The -+.B skb->priority class encoding -+only applies if the skb->priority holds a major:minor handle of an existing -+class within this qdisc. -+.TP -+(ii) -+tc filters attached to the class. -+.TP -+(iii) -+The defmap of a class, as set with the -+.B split & defmap -+parameters. The defmap may contain instructions for each possible Linux packet -+priority. -+ -+.P -+Each class also has a -+.B level. -+Leaf nodes, attached to the bottom of the class hierarchy, have a level of 0. -+.SH CLASSIFICATION ALGORITHM -+ -+Classification is a loop, which terminates when a leaf class is found. At any -+point the loop may jump to the fallback algorithm. -+ -+The loop consists of the following steps: -+.TP -+(i) -+If the packet is generated locally and has a valid classid encoded within its -+.B skb->priority, -+choose it and terminate. -+ -+.TP -+(ii) -+Consult the tc filters, if any, attached to this child. If these return -+a class which is not a leaf class, restart loop from the class returned. -+If it is a leaf, choose it and terminate. -+.TP -+(iii) -+If the tc filters did not return a class, but did return a classid, -+try to find a class with that id within this qdisc. -+Check if the found class is of a lower -+.B level -+than the current class. If so, and the returned class is not a leaf node, -+restart the loop at the found class. If it is a leaf node, terminate. -+If we found an upward reference to a higher level, enter the fallback -+algorithm. -+.TP -+(iv) -+If the tc filters did not return a class, nor a valid reference to one, -+consider the minor number of the reference to be the priority. Retrieve -+a class from the defmap of this class for the priority. If this did not -+contain a class, consult the defmap of this class for the -+.B BEST_EFFORT -+class. If this is an upward reference, or no -+.B BEST_EFFORT -+class was defined, -+enter the fallback algorithm. If a valid class was found, and it is not a -+leaf node, restart the loop at this class. If it is a leaf, choose it and -+terminate. If -+neither the priority distilled from the classid, nor the -+.B BEST_EFFORT -+priority yielded a class, enter the fallback algorithm. -+.P -+The fallback algorithm resides outside of the loop and is as follows. -+.TP -+(i) -+Consult the defmap of the class at which the jump to fallback occured. If -+the defmap contains a class for the -+.B -+priority -+of the class (which is related to the TOS field), choose this class and -+terminate. -+.TP -+(ii) -+Consult the map for a class for the -+.B BEST_EFFORT -+priority. If found, choose it, and terminate. -+.TP -+(iii) -+Choose the class at which break out to the fallback algorithm occured. Terminate. -+.P -+The packet is enqueued to the class which was chosen when either algorithm -+terminated. It is therefore possible for a packet to be enqueued *not* at a -+leaf node, but in the middle of the hierarchy. -+ -+.SH LINK SHARING ALGORITHM -+When dequeuing for sending to the network device, CBQ decides which of its -+classes will be allowed to send. It does so with a Weighted Round Robin process -+in which each class with packets gets a chance to send in turn. The WRR process -+starts by asking the highest priority classes (lowest numerically - -+highest semantically) for packets, and will continue to do so until they -+have no more data to offer, in which case the process repeats for lower -+priorities. -+ -+.B CERTAINTY ENDS HERE, ANK PLEASE HELP -+ -+Each class is not allowed to send at length though - they can only dequeue a -+configurable amount of data during each round. -+ -+If a class is about to go overlimit, and it is not -+.B bounded -+it will try to borrow avgidle from siblings that are not -+.B isolated. -+This process is repeated from the bottom upwards. If a class is unable -+to borrow enough avgidle to send a packet, it is throttled and not asked -+for a packet for enough time for the avgidle to increase above zero. -+ -+.B I REALLY NEED HELP FIGURING THIS OUT. REST OF DOCUMENT IS PRETTY CERTAIN -+.B AGAIN. -+ -+.SH QDISC -+The root qdisc of a CBQ class tree has the following parameters: -+ -+.TP -+parent major:minor | root -+This mandatory parameter determines the place of the CBQ instance, either at the -+.B root -+of an interface or within an existing class. -+.TP -+handle major: -+Like all other qdiscs, the CBQ can be assigned a handle. Should consist only -+of a major number, followed by a colon. Optional. -+.TP -+avpkt bytes -+For calculations, the average packet size must be known. It is silently capped -+at a minimum of 2/3 of the interface MTU. Mandatory. -+.TP -+bandwidth rate -+To determine the idle time, CBQ must know the bandwidth of your underlying -+physical interface, or parent qdisc. This is a vital parameter, more about it -+later. Mandatory. -+.TP -+cell -+The cell size determines he granularity of packet transmission time calculations. Has a sensible default. -+.TP -+mpu -+A zero sized packet may still take time to transmit. This value is the lower -+cap for packet transmission time calculations - packets smaller than this value -+are still deemed to have this size. Defaults to zero. -+.TP -+ewma log -+When CBQ needs to measure the average idle time, it does so using an -+Exponentially Weighted Moving Average which smoothes out measurements into -+a moving average. The EWMA LOG determines how much smoothing occurs. Defaults -+to 5. Lower values imply greater sensitivity. Must be between 0 and 31. -+.P -+A CBQ qdisc does not shape out of its own accord. It only needs to know certain -+parameters about the underlying link. Actual shaping is done in classes. -+ -+.SH CLASSES -+Classes have a host of parameters to configure their operation. -+ -+.TP -+parent major:minor -+Place of this class within the hierarchy. If attached directly to a qdisc -+and not to another class, minor can be omitted. Mandatory. -+.TP -+classid major:minor -+Like qdiscs, classes can be named. The major number must be equal to the -+major number of the qdisc to which it belongs. Optional, but needed if this -+class is going to have children. -+.TP -+weight weight -+When dequeuing to the interface, classes are tried for traffic in a -+round-robin fashion. Classes with a higher configured qdisc will generally -+have more traffic to offer during each round, so it makes sense to allow -+it to dequeue more traffic. All weights under a class are normalized, so -+only the ratios matter. Defaults to the configured rate, unless the priority -+of this class is maximal, in which case it is set to 1. -+.TP -+allot bytes -+Allot specifies how many bytes a qdisc can dequeue -+during each round of the process. This parameter is weighted using the -+renormalized class weight described above. -+ -+.TP -+priority priority -+In the round-robin process, classes with the lowest priority field are tried -+for packets first. Mandatory. -+ -+.TP -+rate rate -+Maximum rate this class and all its children combined can send at. Mandatory. -+ -+.TP -+bandwidth rate -+This is different from the bandwidth specified when creating a CBQ disc. Only -+used to determine maxidle and offtime, which are only calculated when -+specifying maxburst or minburst. Mandatory if specifying maxburst or minburst. -+ -+.TP -+maxburst -+This number of packets is used to calculate maxidle so that when -+avgidle is at maxidle, this number of average packets can be burst -+before avgidle drops to 0. Set it higher to be more tolerant of -+bursts. You can't set maxidle directly, only via this parameter. -+ -+.TP -+minburst -+As mentioned before, CBQ needs to throttle in case of -+overlimit. The ideal solution is to do so for exactly the calculated -+idle time, and pass 1 packet. However, Unix kernels generally have a -+hard time scheduling events shorter than 10ms, so it is better to -+throttle for a longer period, and then pass minburst packets in one -+go, and then sleep minburst times longer. -+ -+The time to wait is called the offtime. Higher values of minburst lead -+to more accurate shaping in the long term, but to bigger bursts at -+millisecond timescales. -+ -+.TP -+minidle -+If avgidle is below 0, we are overlimits and need to wait until -+avgidle will be big enough to send one packet. To prevent a sudden -+burst from shutting down the link for a prolonged period of time, -+avgidle is reset to minidle if it gets too low. -+ -+Minidle is specified in negative microseconds, so 10 means that -+avgidle is capped at -10us. -+ -+.TP -+bounded -+Signifies that this class will not borrow bandwidth from its siblings. -+.TP -+isolated -+Means that this class will not borrow bandwidth to its siblings -+ -+.TP -+split major:minor & defmap bitmap[/bitmap] -+If consulting filters attached to a class did not give a verdict, -+CBQ can also classify based on the packet's priority. There are 16 -+priorities available, numbered from 0 to 15. -+ -+The defmap specifies which priorities this class wants to receive, -+specified as a bitmap. The Least Significant Bit corresponds to priority -+zero. The -+.B split -+parameter tells CBQ at which class the decision must be made, which should -+be a (grand)parent of the class you are adding. -+ -+As an example, 'tc class add ... classid 10:1 cbq .. split 10:0 defmap c0' -+configures class 10:0 to send packets with priorities 6 and 7 to 10:1. -+ -+The complimentary configuration would then -+be: 'tc class add ... classid 10:2 cbq ... split 10:0 defmap 3f' -+Which would send all packets 0, 1, 2, 3, 4 and 5 to 10:1. -+.TP -+estimator interval timeconstant -+CBQ can measure how much bandwidth each class is using, which tc filters -+can use to classify packets with. In order to determine the bandwidth -+it uses a very simple estimator that measures once every -+.B interval -+microseconds how much traffic has passed. This again is a EWMA, for which -+the time constant can be specified, also in microseconds. The -+.B time constant -+corresponds to the sluggishness of the measurement or, conversely, to the -+sensitivity of the average to short bursts. Higher values mean less -+sensitivity. -+ -+ -+ -+.SH SOURCES -+.TP -+o -+Sally Floyd and Van Jacobson, "Link-sharing and Resource -+Management Models for Packet Networks", -+IEEE/ACM Transactions on Networking, Vol.3, No.4, 1995 -+ -+.TP -+o -+Sally Floyd, "Notes on CBQ and Guarantee Service", 1995 -+ -+.TP -+o -+Sally Floyd, "Notes on Class-Based Queueing: Setting -+Parameters", 1996 -+ -+.TP -+o -+Sally Floyd and Michael Speer, "Experimental Results -+for Class-Based Queueing", 1998, not published. -+ -+ -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHOR -+Alexey N. Kuznetsov, . This manpage maintained by -+bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/tc-cbq.8 iproute2/debian/manpages/tc-cbq.8 ---- iproute2-orig/debian/manpages/tc-cbq.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/tc-cbq.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,353 @@ -+.TH CBQ 8 "16 December 2001" "iproute2" "Linux" -+.SH NAME -+CBQ \- Class Based Queueing -+.SH SYNOPSIS -+.B tc qdisc ... dev -+dev -+.B ( parent -+classid -+.B | root) [ handle -+major: -+.B ] cbq [ allot -+bytes -+.B ] avpkt -+bytes -+.B bandwidth -+rate -+.B [ cell -+bytes -+.B ] [ ewma -+log -+.B ] [ mpu -+bytes -+.B ] -+ -+.B tc class ... dev -+dev -+.B parent -+major:[minor] -+.B [ classid -+major:minor -+.B ] cbq allot -+bytes -+.B [ bandwidth -+rate -+.B ] [ rate -+rate -+.B ] prio -+priority -+.B [ weight -+weight -+.B ] [ minburst -+packets -+.B ] [ maxburst -+packets -+.B ] [ ewma -+log -+.B ] [ cell -+bytes -+.B ] avpkt -+bytes -+.B [ mpu -+bytes -+.B ] [ bounded isolated ] [ split -+handle -+.B & defmap -+defmap -+.B ] [ estimator -+interval timeconstant -+.B ] -+ -+.SH DESCRIPTION -+Class Based Queueing is a classful qdisc that implements a rich -+linksharing hierarchy of classes. It contains shaping elements as -+well as prioritizing capabilities. Shaping is performed using link -+idle time calculations based on the timing of dequeue events and -+underlying link bandwidth. -+ -+.SH SHAPING ALGORITHM -+When shaping a 10mbit/s connection to 1mbit/s, the link will -+be idle 90% of the time. If it isn't, it needs to be throttled so that it -+IS idle 90% of the time. -+ -+During operations, the effective idletime is measured using an -+exponential weighted moving average (EWMA), which considers recent -+packets to be exponentially more important than past ones. The Unix -+loadaverage is calculated in the same way. -+ -+The calculated idle time is subtracted from the EWMA measured one, -+the resulting number is called 'avgidle'. A perfectly loaded link has -+an avgidle of zero: packets arrive exactly at the calculated -+interval. -+ -+An overloaded link has a negative avgidle and if it gets too negative, -+CBQ throttles and is then 'overlimit'. -+ -+Conversely, an idle link might amass a huge avgidle, which would then -+allow infinite bandwidths after a few hours of silence. To prevent -+this, avgidle is capped at -+.B maxidle. -+ -+If overlimit, in theory, the CBQ could throttle itself for exactly the -+amount of time that was calculated to pass between packets, and then -+pass one packet, and throttle again. Due to timer resolution constraints, -+this may not be feasible, see the -+.B minburst -+parameter below. -+ -+.SH CLASSIFICATION -+Within the one CBQ instance many classes may exist. Each of these classes -+contains another qdisc, by default -+.BR tc-pfifo (8). -+ -+When enqueueing a packet, CBQ starts at the root and uses various methods to -+determine which class should receive the data. -+ -+In the absence of uncommon configuration options, the process is rather easy. -+At each node we look for an instruction, and then go to the class the -+instruction refers us to. If the class found is a barren leaf-node (without -+children), we enqueue the packet there. If it is not yet a leaf node, we do -+the whole thing over again starting from that node. -+ -+The following actions are performed, in order at each node we visit, until one -+sends us to another node, or terminates the process. -+.TP -+(i) -+Consult filters attached to the class. If sent to a leafnode, we are done. -+Otherwise, restart. -+.TP -+(ii) -+Consult the defmap for the priority assigned to this packet, which depends -+on the TOS bits. Check if the referral is leafless, otherwise restart. -+.TP -+(iii) -+Ask the defmap for instructions for the 'best effort' priority. Check the -+answer for leafness, otherwise restart. -+.TP -+(iv) -+If none of the above returned with an instruction, enqueue at this node. -+.P -+This algorithm makes sure that a packet always ends up somewhere, even while -+you are busy building your configuration. -+ -+For more details, see -+.BR tc-cbq-details(8). -+ -+.SH LINK SHARING ALGORITHM -+When dequeuing for sending to the network device, CBQ decides which of its -+classes will be allowed to send. It does so with a Weighted Round Robin process -+in which each class with packets gets a chance to send in turn. The WRR process -+starts by asking the highest priority classes (lowest numerically - -+highest semantically) for packets, and will continue to do so until they -+have no more data to offer, in which case the process repeats for lower -+priorities. -+ -+Classes by default borrow bandwidth from their siblings. A class can be -+prevented from doing so by declaring it 'bounded'. A class can also indicate -+its unwillingness to lend out bandwidth by being 'isolated'. -+ -+.SH QDISC -+The root of a CBQ qdisc class tree has the following parameters: -+ -+.TP -+parent major:minor | root -+This mandatory parameter determines the place of the CBQ instance, either at the -+.B root -+of an interface or within an existing class. -+.TP -+handle major: -+Like all other qdiscs, the CBQ can be assigned a handle. Should consist only -+of a major number, followed by a colon. Optional, but very useful if classes -+will be generated within this qdisc. -+.TP -+allot bytes -+This allotment is the 'chunkiness' of link sharing and is used for determining packet -+transmission time tables. The qdisc allot differs slightly from the class allot discussed -+below. Optional. Defaults to a reasonable value, related to avpkt. -+.TP -+avpkt bytes -+The average size of a packet is needed for calculating maxidle, and is also used -+for making sure 'allot' has a safe value. Mandatory. -+.TP -+bandwidth rate -+To determine the idle time, CBQ must know the bandwidth of your underlying -+physical interface, or parent qdisc. This is a vital parameter, more about it -+later. Mandatory. -+.TP -+cell -+The cell size determines he granularity of packet transmission time calculations. Has a sensible default. -+.TP -+mpu -+A zero sized packet may still take time to transmit. This value is the lower -+cap for packet transmission time calculations - packets smaller than this value -+are still deemed to have this size. Defaults to zero. -+.TP -+ewma log -+When CBQ needs to measure the average idle time, it does so using an -+Exponentially Weighted Moving Average which smoothes out measurements into -+a moving average. The EWMA LOG determines how much smoothing occurs. Lower -+values imply greater sensitivity. Must be between 0 and 31. Defaults -+to 5. -+.P -+A CBQ qdisc does not shape out of its own accord. It only needs to know certain -+parameters about the underlying link. Actual shaping is done in classes. -+ -+.SH CLASSES -+Classes have a host of parameters to configure their operation. -+ -+.TP -+parent major:minor -+Place of this class within the hierarchy. If attached directly to a qdisc -+and not to another class, minor can be omitted. Mandatory. -+.TP -+classid major:minor -+Like qdiscs, classes can be named. The major number must be equal to the -+major number of the qdisc to which it belongs. Optional, but needed if this -+class is going to have children. -+.TP -+weight weight -+When dequeuing to the interface, classes are tried for traffic in a -+round-robin fashion. Classes with a higher configured qdisc will generally -+have more traffic to offer during each round, so it makes sense to allow -+it to dequeue more traffic. All weights under a class are normalized, so -+only the ratios matter. Defaults to the configured rate, unless the priority -+of this class is maximal, in which case it is set to 1. -+.TP -+allot bytes -+Allot specifies how many bytes a qdisc can dequeue -+during each round of the process. This parameter is weighted using the -+renormalized class weight described above. Silently capped at a minimum of -+3/2 avpkt. Mandatory. -+ -+.TP -+prio priority -+In the round-robin process, classes with the lowest priority field are tried -+for packets first. Mandatory. -+ -+.TP -+avpkt -+See the QDISC section. -+ -+.TP -+rate rate -+Maximum rate this class and all its children combined can send at. Mandatory. -+ -+.TP -+bandwidth rate -+This is different from the bandwidth specified when creating a CBQ disc! Only -+used to determine maxidle and offtime, which are only calculated when -+specifying maxburst or minburst. Mandatory if specifying maxburst or minburst. -+ -+.TP -+maxburst -+This number of packets is used to calculate maxidle so that when -+avgidle is at maxidle, this number of average packets can be burst -+before avgidle drops to 0. Set it higher to be more tolerant of -+bursts. You can't set maxidle directly, only via this parameter. -+ -+.TP -+minburst -+As mentioned before, CBQ needs to throttle in case of -+overlimit. The ideal solution is to do so for exactly the calculated -+idle time, and pass 1 packet. However, Unix kernels generally have a -+hard time scheduling events shorter than 10ms, so it is better to -+throttle for a longer period, and then pass minburst packets in one -+go, and then sleep minburst times longer. -+ -+The time to wait is called the offtime. Higher values of minburst lead -+to more accurate shaping in the long term, but to bigger bursts at -+millisecond timescales. Optional. -+ -+.TP -+minidle -+If avgidle is below 0, we are overlimits and need to wait until -+avgidle will be big enough to send one packet. To prevent a sudden -+burst from shutting down the link for a prolonged period of time, -+avgidle is reset to minidle if it gets too low. -+ -+Minidle is specified in negative microseconds, so 10 means that -+avgidle is capped at -10us. Optional. -+ -+.TP -+bounded -+Signifies that this class will not borrow bandwidth from its siblings. -+.TP -+isolated -+Means that this class will not borrow bandwidth to its siblings -+ -+.TP -+split major:minor & defmap bitmap[/bitmap] -+If consulting filters attached to a class did not give a verdict, -+CBQ can also classify based on the packet's priority. There are 16 -+priorities available, numbered from 0 to 15. -+ -+The defmap specifies which priorities this class wants to receive, -+specified as a bitmap. The Least Significant Bit corresponds to priority -+zero. The -+.B split -+parameter tells CBQ at which class the decision must be made, which should -+be a (grand)parent of the class you are adding. -+ -+As an example, 'tc class add ... classid 10:1 cbq .. split 10:0 defmap c0' -+configures class 10:0 to send packets with priorities 6 and 7 to 10:1. -+ -+The complimentary configuration would then -+be: 'tc class add ... classid 10:2 cbq ... split 10:0 defmap 3f' -+Which would send all packets 0, 1, 2, 3, 4 and 5 to 10:1. -+.TP -+estimator interval timeconstant -+CBQ can measure how much bandwidth each class is using, which tc filters -+can use to classify packets with. In order to determine the bandwidth -+it uses a very simple estimator that measures once every -+.B interval -+microseconds how much traffic has passed. This again is a EWMA, for which -+the time constant can be specified, also in microseconds. The -+.B time constant -+corresponds to the sluggishness of the measurement or, conversely, to the -+sensitivity of the average to short bursts. Higher values mean less -+sensitivity. -+ -+.SH BUGS -+The actual bandwidth of the underlying link may not be known, for example -+in the case of PPoE or PPTP connections which in fact may send over a -+pipe, instead of over a physical device. CBQ is quite resilient to major -+errors in the configured bandwidth, probably a the cost of coarser shaping. -+ -+Default kernels rely on coarse timing information for making decisions. These -+may make shaping precise in the long term, but inaccurate on second long scales. -+ -+See -+.BR tc-cbq-details(8) -+for hints on how to improve this. -+ -+.SH SOURCES -+.TP -+o -+Sally Floyd and Van Jacobson, "Link-sharing and Resource -+Management Models for Packet Networks", -+IEEE/ACM Transactions on Networking, Vol.3, No.4, 1995 -+ -+.TP -+o -+Sally Floyd, "Notes on CBQ and Guaranteed Service", 1995 -+ -+.TP -+o -+Sally Floyd, "Notes on Class-Based Queueing: Setting -+Parameters", 1996 -+ -+.TP -+o -+Sally Floyd and Michael Speer, "Experimental Results -+for Class-Based Queueing", 1998, not published. -+ -+ -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHOR -+Alexey N. Kuznetsov, . This manpage maintained by -+bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/tc-htb.8 iproute2/debian/manpages/tc-htb.8 ---- iproute2-orig/debian/manpages/tc-htb.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/tc-htb.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,150 @@ -+.TH HTB 8 "10 January 2002" "iproute2" "Linux" -+.SH NAME -+HTB \- Hierarchy Token Bucket -+.SH SYNOPSIS -+.B tc qdisc ... dev -+dev -+.B ( parent -+classid -+.B | root) [ handle -+major: -+.B ] htb [ default -+minor-id -+.B ] -+ -+.B tc class ... dev -+dev -+.B parent -+major:[minor] -+.B [ classid -+major:minor -+.B ] htb rate -+rate -+.B [ ceil -+rate -+.B ] burst -+bytes -+.B [ cburst -+bytes -+.B ] [ prio -+priority -+.B ] -+ -+.SH DESCRIPTION -+HTB is meant as a more understandable and intuitive replacement for -+the CBQ qdisc in Linux. Both CBQ and HTB help you to control the use -+of the outbound bandwidth on a given link. Both allow you to use one -+physical link to simulate several slower links and to send different -+kinds of traffic on different simulated links. In both cases, you have -+to specify how to divide the physical link into simulated links and -+how to decide which simulated link to use for a given packet to be sent. -+ -+Unlike CBQ, HTB shapes traffic based on the Token Bucket Filter algorithm -+which does not depend on interface characteristics and so does not need to -+know the underlying bandwidth of the outgoing interface. -+ -+.SH SHAPING ALGORITHM -+Shaping works as documented in -+.B tc-tbf (8). -+ -+.SH CLASSIFICATION -+Within the one HRB instance many classes may exist. Each of these classes -+contains another qdisc, by default -+.BR tc-pfifo (8). -+ -+When enqueueing a packet, HTB starts at the root and uses various methods to -+determine which class should receive the data. -+ -+In the absence of uncommon configuration options, the process is rather easy. -+At each node we look for an instruction, and then go to the class the -+instruction refers us to. If the class found is a barren leaf-node (without -+children), we enqueue the packet there. If it is not yet a leaf node, we do -+the whole thing over again starting from that node. -+ -+The following actions are performed, in order at each node we visit, until one -+sends us to another node, or terminates the process. -+.TP -+(i) -+Consult filters attached to the class. If sent to a leafnode, we are done. -+Otherwise, restart. -+.TP -+(ii) -+If none of the above returned with an instruction, enqueue at this node. -+.P -+This algorithm makes sure that a packet always ends up somewhere, even while -+you are busy building your configuration. -+ -+.SH LINK SHARING ALGORITHM -+FIXME -+ -+.SH QDISC -+The root of a HTB qdisc class tree has the following parameters: -+ -+.TP -+parent major:minor | root -+This mandatory parameter determines the place of the HTB instance, either at the -+.B root -+of an interface or within an existing class. -+.TP -+handle major: -+Like all other qdiscs, the HTB can be assigned a handle. Should consist only -+of a major number, followed by a colon. Optional, but very useful if classes -+will be generated within this qdisc. -+.TP -+default minor-id -+Unclassified traffic gets sent to the class with this minor-id. -+ -+.SH CLASSES -+Classes have a host of parameters to configure their operation. -+ -+.TP -+parent major:minor -+Place of this class within the hierarchy. If attached directly to a qdisc -+and not to another class, minor can be omitted. Mandatory. -+.TP -+classid major:minor -+Like qdiscs, classes can be named. The major number must be equal to the -+major number of the qdisc to which it belongs. Optional, but needed if this -+class is going to have children. -+.TP -+prio priority -+In the round-robin process, classes with the lowest priority field are tried -+for packets first. Mandatory. -+ -+.TP -+rate rate -+Maximum rate this class and all its children are guaranteed. Mandatory. -+ -+.TP -+ceil rate -+Maximum rate at which a class can send, if its parent has bandwidth to spare. -+Defaults to the configured rate, which implies no borrowing -+ -+.TP -+burst bytes -+Amount of bytes that can be burst at -+.B ceil -+speed, in excess of the configured -+.B rate. -+Should be at least as high as the highest burst of all children. -+ -+.TP -+cburst bytes -+Amount of bytes that can be burst at 'infinite' speed, in other words, as fast -+as the interface can transmit them. For perfect evening out, should be equal to at most one average -+packet. Should be at least as high as the highest cburst of all children. -+ -+.SH NOTES -+Due to Unix timing constraints, the maximum ceil rate is not infinite and may in fact be quite low. On Intel, -+there are 100 timer events per second, the maximum rate is that rate at which 'burst' bytes are sent each timer tick. -+From this, the mininum burst size for a specified rate can be calculated. For i386, a 10mbit rate requires a 12 kilobyte -+burst as 100*12kb*8 equals 10mbit. -+ -+.SH SEE ALSO -+.BR tc (8) -+.P -+HTB website: http://luxik.cdi.cz/~devik/qos/htb/ -+.SH AUTHOR -+Martin Devera . This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/tc-pbfifo.8 iproute2/debian/manpages/tc-pbfifo.8 ---- iproute2-orig/debian/manpages/tc-pbfifo.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/tc-pbfifo.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,72 @@ -+.TH PBFIFO 8 "10 January 2002" "iproute2" "Linux" -+.SH NAME -+pfifo \- Packet limited First In, First Out queue -+.P -+bfifo \- Byte limited First In, First Out queue -+ -+.SH SYNOPSIS -+.B tc qdisc ... add pfifo -+.B [ limit -+packets -+.B ] -+.P -+.B tc qdisc ... add bfifo -+.B [ limit -+bytes -+.B ] -+ -+.SH DESCRIPTION -+The pfifo and bfifo qdiscs are unadorned First In, First Out queues. They are the -+simplest queues possible and therefore have no overhead. -+.B pfifo -+constrains the queue size as measured in packets. -+.B bfifo -+does so as measured in bytes. -+ -+Like all non-default qdiscs, they maintain statistics. This might be a reason to prefer -+pfifo or bfifo over the default. -+ -+.SH ALGORITHM -+A list of packets is maintained, when a packet is enqueued it gets inserted at the tail of -+a list. When a packet needs to be sent out to the network, it is taken from the head of the list. -+ -+If the list is too long, no further packets are allowed on. This is called 'tail drop'. -+ -+.SH PARAMETERS -+.TP -+limit -+Maximum queue size. Specified in bytes for bfifo, in packets for pfifo. For pfifo, defaults -+to the interface txqueuelen, as specified with -+.BR ifconfig (8) -+or -+.BR ip (8). -+ -+For bfifo, it defaults to the txqueuelen multiplied by the interface MTU. -+ -+.SH OUTPUT -+The output of -+.B tc -s qdisc ls -+contains the limit, either in packets or in bytes, and the number of bytes -+and packets actually sent. An unsent and dropped packet only appears between braces -+and is not counted as 'Sent'. -+ -+In this example, the queue length is 100 packets, 45894 bytes were sent over 681 packets. -+No packets were dropped, and as the pfifo queue does not slow down packets, there were also no -+overlimits: -+.P -+.nf -+# tc -s qdisc ls dev eth0 -+qdisc pfifo 8001: dev eth0 limit 100p -+ Sent 45894 bytes 681 pkts (dropped 0, overlimits 0) -+.fi -+ -+If a backlog occurs, this is displayed as well. -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHORS -+Alexey N. Kuznetsov, -+ -+This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/tc-pfifo_fast.8 iproute2/debian/manpages/tc-pfifo_fast.8 ---- iproute2-orig/debian/manpages/tc-pfifo_fast.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/tc-pfifo_fast.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,59 @@ -+.TH PFIFO_FAST 8 "10 January 2002" "iproute2" "Linux" -+.SH NAME -+pfifo_fast \- three-band first in, first out queue -+ -+.SH DESCRIPTION -+pfifo_fast is the default qdisc of each interface. -+ -+Whenever an interface is created, the pfifo_fast qdisc is automatically used -+as a queue. If another qdisc is attached, it preempts the default -+pfifo_fast, which automatically returns to function when an existing qdisc -+is detached. -+ -+In this sense this qdisc is magic, and unlike other qdiscs. -+ -+.SH ALGORITHM -+The algorithm is very similar to that of the classful -+.BR tc-prio (8) -+qdisc. -+.B pfifo_fast -+is like three -+.BR tc-pfifo (8) -+queues side by side, where packets can be enqueued in any of the three bands -+based on their Type of Service bits or assigned priority. -+ -+Not all three bands are dequeued simultaneously - as long as lower bands -+have traffic, higher bands are never dequeued. This can be used to -+prioritize interactive traffic or penalize 'lowest cost' traffic. -+ -+Each band can be txqueuelen packets long, as configured with -+.BR ifconfig (8) -+or -+.BR ip (8). -+Additional packets coming in are not enqueued but are instead dropped. -+ -+See -+.BR tc-prio (8) -+for complete details on how TOS bits are translated into bands. -+.SH PARAMETERS -+.TP -+txqueuelen -+The length of the three bands depends on the interface txqueuelen, as -+specified with -+.BR ifconfig (8) -+or -+.BR ip (8). -+ -+.SH BUGS -+Does not maintain statistics and does not show up in tc qdisc ls. This is because -+it is the automatic default in the absence of a configured qdisc. -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHORS -+Alexey N. Kuznetsov, -+ -+This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/tc-prio.8 iproute2/debian/manpages/tc-prio.8 ---- iproute2-orig/debian/manpages/tc-prio.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/tc-prio.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,187 @@ -+.TH PRIO 8 "16 December 2001" "iproute2" "Linux" -+.SH NAME -+PRIO \- Priority qdisc -+.SH SYNOPSIS -+.B tc qdisc ... dev -+dev -+.B ( parent -+classid -+.B | root) [ handle -+major: -+.B ] prio [ bands -+bands -+.B ] [ priomap -+band,band,band... -+.B ] [ estimator -+interval timeconstant -+.B ] -+ -+.SH DESCRIPTION -+The PRIO qdisc is a simple classful queueing discipline that contains -+an arbitrary number of classes of differing priority. The classes are -+dequeued in numerical descending order of priority. PRIO is a scheduler -+and never delays packets - it is a work-conserving qdisc, though the qdiscs -+contained in the classes may not be. -+ -+Very useful for lowering latency when there is no need for slowing down -+traffic. -+ -+.SH ALGORITHM -+On creation with 'tc qdisc add', a fixed number of bands is created. Each -+band is a class, although is not possible to add classes with 'tc qdisc -+add', the number of bands to be created must instead be specified on the -+commandline attaching PRIO to its root. -+ -+When dequeueing, band 0 is tried first and only if it did not deliver a -+packet does PRIO try band 1, and so onwards. Maximum reliability packets -+should therefore go to band 0, minimum delay to band 1 and the rest to band -+2. -+ -+As the PRIO qdisc itself will have minor number 0, band 0 is actually -+major:1, band 1 is major:2, etc. For major, substitute the major number -+assigned to the qdisc on 'tc qdisc add' with the -+.B handle -+parameter. -+ -+.SH CLASSIFICATION -+Three methods are available to PRIO to determine in which band a packet will -+be enqueued. -+.TP -+From userspace -+A process with sufficient privileges can encode the destination class -+directly with SO_PRIORITY, see -+.BR tc(7). -+.TP -+with a tc filter -+A tc filter attached to the root qdisc can point traffic directly to a class -+.TP -+with the priomap -+Based on the packet priority, which in turn is derived from the Type of -+Service assigned to the packet. -+.P -+Only the priomap is specific to this qdisc. -+.SH QDISC PARAMETERS -+.TP -+bands -+Number of bands. If changed from the default of 3, -+.B priomap -+must be updated as well. -+.TP -+priomap -+The priomap maps the priority of -+a packet to a class. The priority can either be set directly from userspace, -+or be derived from the Type of Service of the packet. -+ -+Determines how packet priorities, as assigned by the kernel, map to -+bands. Mapping occurs based on the TOS octet of the packet, which looks like -+this: -+ -+.nf -+0 1 2 3 4 5 6 7 -++---+---+---+---+---+---+---+---+ -+| | | | -+|PRECEDENCE | TOS |MBZ| -+| | | | -++---+---+---+---+---+---+---+---+ -+.fi -+ -+The four TOS bits (the 'TOS field') are defined as: -+ -+.nf -+Binary Decimcal Meaning -+----------------------------------------- -+1000 8 Minimize delay (md) -+0100 4 Maximize throughput (mt) -+0010 2 Maximize reliability (mr) -+0001 1 Minimize monetary cost (mmc) -+0000 0 Normal Service -+.fi -+ -+As there is 1 bit to the right of these four bits, the actual value of the -+TOS field is double the value of the TOS bits. Tcpdump -v -v shows you the -+value of the entire TOS field, not just the four bits. It is the value you -+see in the first column of this table: -+ -+.nf -+TOS Bits Means Linux Priority Band -+------------------------------------------------------------ -+0x0 0 Normal Service 0 Best Effort 1 -+0x2 1 Minimize Monetary Cost 1 Filler 2 -+0x4 2 Maximize Reliability 0 Best Effort 1 -+0x6 3 mmc+mr 0 Best Effort 1 -+0x8 4 Maximize Throughput 2 Bulk 2 -+0xa 5 mmc+mt 2 Bulk 2 -+0xc 6 mr+mt 2 Bulk 2 -+0xe 7 mmc+mr+mt 2 Bulk 2 -+0x10 8 Minimize Delay 6 Interactive 0 -+0x12 9 mmc+md 6 Interactive 0 -+0x14 10 mr+md 6 Interactive 0 -+0x16 11 mmc+mr+md 6 Interactive 0 -+0x18 12 mt+md 4 Int. Bulk 1 -+0x1a 13 mmc+mt+md 4 Int. Bulk 1 -+0x1c 14 mr+mt+md 4 Int. Bulk 1 -+0x1e 15 mmc+mr+mt+md 4 Int. Bulk 1 -+.fi -+ -+The second column contains the value of the relevant -+four TOS bits, followed by their translated meaning. For example, 15 stands -+for a packet wanting Minimal Montetary Cost, Maximum Reliability, Maximum -+Throughput AND Minimum Delay. -+ -+The fourth column lists the way the Linux kernel interprets the TOS bits, by -+showing to which Priority they are mapped. -+ -+The last column shows the result of the default priomap. On the commandline, -+the default priomap looks like this: -+ -+ 1, 2, 2, 2, 1, 2, 0, 0 , 1, 1, 1, 1, 1, 1, 1, 1 -+ -+This means that priority 4, for example, gets mapped to band number 1. -+The priomap also allows you to list higher priorities (> 7) which do not -+correspond to TOS mappings, but which are set by other means. -+ -+This table from RFC 1349 (read it for more details) explains how -+applications might very well set their TOS bits: -+ -+.nf -+TELNET 1000 (minimize delay) -+FTP -+ Control 1000 (minimize delay) -+ Data 0100 (maximize throughput) -+ -+TFTP 1000 (minimize delay) -+ -+SMTP -+ Command phase 1000 (minimize delay) -+ DATA phase 0100 (maximize throughput) -+ -+Domain Name Service -+ UDP Query 1000 (minimize delay) -+ TCP Query 0000 -+ Zone Transfer 0100 (maximize throughput) -+ -+NNTP 0001 (minimize monetary cost) -+ -+ICMP -+ Errors 0000 -+ Requests 0000 (mostly) -+ Responses (mostly) -+.fi -+ -+ -+.SH CLASSES -+PRIO classes cannot be configured further - they are automatically created -+when the PRIO qdisc is attached. Each class however can contain yet a -+further qdisc. -+ -+.SH BUGS -+Large amounts of traffic in the lower bands can cause starvation of higher -+bands. Can be prevented by attaching a shaper (for example, -+.BR tc-tbf(8) -+to these bands to make sure they cannot dominate the link. -+ -+.SH AUTHORS -+Alexey N. Kuznetsov, , J Hadi Salim -+. This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/tc-red.8 iproute2/debian/manpages/tc-red.8 ---- iproute2-orig/debian/manpages/tc-red.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/tc-red.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,131 @@ -+.TH RED 8 "13 December 2001" "iproute2" "Linux" -+.SH NAME -+red \- Random Early Detection -+.SH SYNOPSIS -+.B tc qdisc ... red -+.B limit -+bytes -+.B min -+bytes -+.B max -+bytes -+.B avpkt -+bytes -+.B burst -+packets -+.B [ ecn ] [ bandwidth -+rate -+.B ] probability -+chance -+ -+.SH DESCRIPTION -+Random Early Detection is a classless qdisc which manages its queue size -+smartly. Regular queues simply drop packets from the tail when they are -+full, which may not be the optimal behaviour. RED also performs tail drop, -+but does so in a more gradual way. -+ -+Once the queue hits a certain average length, packets enqueued have a -+configurable chance of being marked (which may mean dropped). This chance -+increases linearly up to a point called the -+.B max -+average queue length, although the queue might get bigger. -+ -+This has a host of benefits over simple taildrop, while not being processor -+intensive. It prevents synchronous retransmits after a burst in traffic, -+which cause further retransmits, etc. -+ -+The goal is the have a small queue size, which is good for interactivity -+while not disturbing TCP/IP traffic with too many sudden drops after a burst -+of traffic. -+ -+Depending on if ECN is configured, marking either means dropping or -+purely marking a packet as overlimit. -+.SH ALGORITHM -+The average queue size is used for determining the marking -+probability. This is calculated using an Exponential Weighted Moving -+Average, which can be more or less sensitive to bursts. -+ -+When the average queue size is below -+.B min -+bytes, no packet will ever be marked. When it exceeds -+.B min, -+the probability of doing so climbs linearly up -+to -+.B probability, -+until the average queue size hits -+.B max -+bytes. Because -+.B probability -+is normally not set to 100%, the queue size might -+conceivably rise above -+.B max -+bytes, so the -+.B limit -+parameter is provided to set a hard maximum for the size of the queue. -+ -+.SH PARAMETERS -+.TP -+min -+Average queue size at which marking becomes a possibility. -+.TP -+max -+At this average queue size, the marking probability is maximal. Should be at -+least twice -+.B min -+to prevent synchronous retransmits, higher for low -+.B min. -+.TP -+probability -+Maximum probability for marking, specified as a floating point -+number from 0.0 to 1.0. Suggested values are 0.01 or 0.02 (1 or 2%, -+respectively). -+.TP -+limit -+Hard limit on the real (not average) queue size in bytes. Further packets -+are dropped. Should be set higher than max+burst. It is advised to set this -+a few times higher than -+.B max. -+.TP -+burst -+Used for determining how fast the average queue size is influenced by the -+real queue size. Larger values make the calculation more sluggish, allowing -+longer bursts of traffic before marking starts. Real life experiments -+support the following guideline: (min+min+max)/(3*avpkt). -+.TP -+avpkt -+Specified in bytes. Used with burst to determine the time constant for -+average queue size calculations. 1000 is a good value. -+.TP -+bandwidth -+This rate is used for calculating the average queue size after some -+idle time. Should be set to the bandwidth of your interface. Does not mean -+that RED will shape for you! Optional. -+.TP -+ecn -+As mentioned before, RED can either 'mark' or 'drop'. Explicit Congestion -+Notification allows RED to notify remote hosts that their rate exceeds the -+amount of bandwidth available. Non-ECN capable hosts can only be notified by -+dropping a packet. If this parameter is specified, packets which indicate -+that their hosts honor ECN will only be marked and not dropped, unless the -+queue size hits -+.B limit -+bytes. Needs a tc binary with RED support compiled in. Recommended. -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH SOURCES -+.TP -+o -+Floyd, S., and Jacobson, V., Random Early Detection gateways for -+Congestion Avoidance. http://www.aciri.org/floyd/papers/red/red.html -+.TP -+o -+Some changes to the algorithm by Alexey N. Kuznetsov. -+ -+.SH AUTHORS -+Alexey N. Kuznetsov, , Alexey Makarenko -+, J Hadi Salim . -+This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/tc-sfq.8 iproute2/debian/manpages/tc-sfq.8 ---- iproute2-orig/debian/manpages/tc-sfq.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/tc-sfq.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,107 @@ -+.TH TC 8 "8 December 2001" "iproute2" "Linux" -+.SH NAME -+sfq \- Stochastic Fairness Queueing -+.SH SYNOPSIS -+.B tc qdisc ... perturb -+seconds -+.B quantum -+bytes -+ -+.SH DESCRIPTION -+ -+Stochastic Fairness Queueing is a classless queueing discipline available for -+traffic control with the -+.BR tc (8) -+command. -+ -+SFQ does not shape traffic but only schedules the transmission of packets, based on 'flows'. -+The goal is to ensure fairness so that each flow is able to send data in turn, thus preventing -+any single flow from drowning out the rest. -+ -+This may in fact have some effect in mitigating a Denial of Service attempt. -+ -+SFQ is work-conserving and therefore always delivers a packet if it has one available. -+.SH ALGORITHM -+On enqueueing, each packet is assigned to a hash bucket, based on -+.TP -+(i) -+Source address -+.TP -+(ii) -+Destination address -+.TP -+(iii) -+Source port -+.P -+If these are available. SFQ knows about ipv4 and ipv6 and also UDP, TCP and ESP. -+Packets with other protocols are hashed based on the 32bits representation of their -+destination and the socket they belong to. A flow corresponds mostly to a TCP/IP -+connection. -+ -+Each of these buckets should represent a unique flow. Because multiple flows may -+get hashed to the same bucket, the hashing algorithm is perturbed at configurable -+intervals so that the unfairness lasts only for a short while. Perturbation may -+however cause some inadvertent packet reordering to occur. -+ -+When dequeuing, each hashbucket with data is queried in a round robin fashion. -+ -+The compile time maximum length of the SFQ is 128 packets, which can be spread over -+at most 128 buckets of 1024 available. In case of overflow, tail-drop is performed -+on the fullest bucket, thus maintaining fairness. -+ -+.SH PARAMETERS -+.TP -+perturb -+Interval in seconds for queue algorithm perturbation. Defaults to 0, which means that -+no perturbation occurs. Do not set too low for each perturbation may cause some packet -+reordering. Advised value: 10 -+.TP -+quantum -+Amount of bytes a flow is allowed to dequeue during a round of the round robin process. -+Defaults to the MTU of the interface which is also the advised value and the minimum value. -+ -+.SH EXAMPLE & USAGE -+ -+To attach to device ppp0: -+.P -+# tc qdisc add dev ppp0 root sfq perturb 10 -+.P -+Please note that SFQ, like all non-shaping (work-conserving) qdiscs, is only useful -+if it owns the queue. -+This is the case when the link speed equals the actually available bandwidth. This holds -+for regular phone modems, ISDN connections and direct non-switched ethernet links. -+.P -+Most often, cable modems and DSL devices do not fall into this category. The same holds -+for when connected to a switch and trying to send data to a congested segment also -+connected to the switch. -+.P -+In this case, the effective queue does not reside within Linux and is therefore not -+available for scheduling. -+.P -+Embed SFQ in a classful qdisc to make sure it owns the queue. -+ -+.SH SOURCE -+.TP -+o -+Paul E. McKenney "Stochastic Fairness Queuing", -+IEEE INFOCOMM'90 Proceedings, San Francisco, 1990. -+ -+.TP -+o -+Paul E. McKenney "Stochastic Fairness Queuing", -+"Interworking: Research and Experience", v.2, 1991, p.113-131. -+ -+.TP -+o -+See also: -+M. Shreedhar and George Varghese "Efficient Fair -+Queuing using Deficit Round Robin", Proc. SIGCOMM 95. -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHOR -+Alexey N. Kuznetsov, . This manpage maintained by -+bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/tc-tbf.8 iproute2/debian/manpages/tc-tbf.8 ---- iproute2-orig/debian/manpages/tc-tbf.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/tc-tbf.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,138 @@ -+.TH TC 8 "13 December 2001" "iproute2" "Linux" -+.SH NAME -+tbf \- Token Bucket Filter -+.SH SYNOPSIS -+.B tc qdisc ... tbf rate -+rate -+.B burst -+bytes/cell -+.B ( latency -+ms -+.B | limit -+bytes -+.B ) [ mpu -+bytes -+.B [ peakrate -+rate -+.B mtu -+bytes/cell -+.B ] ] -+.P -+burst is also known as buffer and maxburst. mtu is also known as minburst. -+.SH DESCRIPTION -+ -+The Token Bucket Filter is a classless queueing discipline available for -+traffic control with the -+.BR tc (8) -+command. -+ -+TBF is a pure shaper and never schedules traffic. It is non-work-conserving and may throttle -+itself, although packets are available, to ensure that the configured rate is not exceeded. -+On all platforms except for Alpha, -+it is able to shape up to 1mbit/s of normal traffic with ideal minimal burstiness, -+sending out data exactly at the configured rates. -+ -+Much higher rates are possible but at the cost of losing the minimal burstiness. In that -+case, data is on average dequeued at the configured rate but may be sent much faster at millisecond -+timescales. Because of further queues living in network adaptors, this is often not a problem. -+ -+Kernels with a higher 'HZ' can achieve higher rates with perfect burstiness. On Alpha, HZ is ten -+times higher, leading to a 10mbit/s limit to perfection. These calculations hold for packets of on -+average 1000 bytes. -+ -+.SH ALGORITHM -+As the name implies, traffic is filtered based on the expenditure of -+.B tokens. -+Tokens roughly correspond to bytes, with the additional constraint that each packet consumes -+some tokens, no matter how small it is. This reflects the fact that even a zero-sized packet occupies -+the link for some time. -+ -+On creation, the TBF is stocked with tokens which correspond to the amount of traffic that can be burst -+in one go. Tokens arrive at a steady rate, until the bucket is full. -+ -+If no tokens are available, packets are queued, up to a configured limit. The TBF now -+calculates the token deficit, and throttles until the first packet in the queue can be sent. -+ -+If it is not acceptable to burst out packets at maximum speed, a peakrate can be configured -+to limit the speed at which the bucket empties. This peakrate is implemented as a second TBF -+with a very small bucket, so that it doesn't burst. -+ -+To achieve perfection, the second bucket may contain only a single packet, which leads to -+the earlier mentioned 1mbit/s limit. -+ -+This limit is caused by the fact that the kernel can only throttle for at minimum 1 'jiffy', which depends -+on HZ as 1/HZ. For perfect shaping, only a single packet can get sent per jiffy - for HZ=100, this means 100 -+packets of on average 1000 bytes each, which roughly corresponds to 1mbit/s. -+ -+.SH PARAMETERS -+See -+.BR tc (8) -+for how to specify the units of these values. -+.TP -+limit or latency -+Limit is the number of bytes that can be queued waiting for tokens to become -+available. You can also specify this the other way around by setting the -+latency parameter, which specifies the maximum amount of time a packet can -+sit in the TBF. The latter calculation takes into account the size of the -+bucket, the rate and possibly the peakrate (if set). These two parameters -+are mutually exclusive. -+.TP -+burst -+Also known as buffer or maxburst. -+Size of the bucket, in bytes. This is the maximum amount of bytes that tokens can be available for instantaneously. -+In general, larger shaping rates require a larger buffer. For 10mbit/s on Intel, you need at least 10kbyte buffer -+if you want to reach your configured rate! -+ -+If your buffer is too small, packets may be dropped because more tokens arrive per timer tick than fit in your bucket. -+The minimum buffer size can be calculated by dividing the rate by HZ. -+ -+Token usage calculations are performed using a table which by default has a resolution of 8 packets. -+This resolution can be changed by specifying the -+.B cell -+size with the burst. For example, to specify a 6000 byte buffer with a 16 -+byte cell size, set a burst of 6000/16. You will probably never have to set -+this. Must be an integral power of 2. -+.TP -+mpu -+A zero-sized packet does not use zero bandwidth. For ethernet, no packet uses less than 64 bytes. The Minimum Packet Unit -+determines the minimal token usage (specified in bytes) for a packet. Defaults to zero. -+.TP -+rate -+The speed knob. See remarks above about limits! See -+.BR tc (8) -+for units. -+.PP -+Furthermore, if a peakrate is desired, the following parameters are available: -+ -+.TP -+peakrate -+Maximum depletion rate of the bucket. Limited to 1mbit/s on Intel, 10mbit/s on Alpha. The peakrate does -+not need to be set, it is only necessary if perfect millisecond timescale shaping is required. -+ -+.TP -+mtu/minburst -+Specifies the size of the peakrate bucket. For perfect accuracy, should be set to the MTU of the interface. -+If a peakrate is needed, but some burstiness is acceptable, this size can be raised. A 3000 byte minburst -+allows around 3mbit/s of peakrate, given 1000 byte packets. -+ -+Like the regular burstsize you can also specify a -+.B cell -+size. -+.SH EXAMPLE & USAGE -+ -+To attach a TBF with a sustained maximum rate of 0.5mbit/s, a peakrate of 1.0mbit/s, -+a 5kilobyte buffer, with a pre-bucket queue size limit calculated so the TBF causes -+at most 70ms of latency, with perfect peakrate behaviour, issue: -+.P -+# tc qdisc add dev eth0 root tbf rate 0.5mbit \\ -+ burst 5kb latency 70ms peakrate 1mbit \\ -+ minburst 1540 -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHOR -+Alexey N. Kuznetsov, . This manpage maintained by -+bert hubert -+ -+ -diff -Naur iproute2-orig/debian/manpages/tc.8 iproute2/debian/manpages/tc.8 ---- iproute2-orig/debian/manpages/tc.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/manpages/tc.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,348 @@ -+.TH TC 8 "16 December 2001" "iproute2" "Linux" -+.SH NAME -+tc \- show / manipulate traffic control settings -+.SH SYNOPSIS -+.B tc qdisc [ add | change | replace | link ] dev -+DEV -+.B -+[ parent -+qdisc-id -+.B | root ] -+.B [ handle -+qdisc-id ] qdisc -+[ qdisc specific parameters ] -+.P -+ -+.B tc class [ add | change | replace ] dev -+DEV -+.B parent -+qdisc-id -+.B [ classid -+class-id ] qdisc -+[ qdisc specific parameters ] -+.P -+ -+.B tc filter [ add | change | replace ] dev -+DEV -+.B [ parent -+qdisc-id -+.B | root ] protocol -+protocol -+.B prio -+priority filtertype -+[ filtertype specific parameters ] -+.B flowid -+flow-id -+ -+.B tc [-s | -d ] qdisc show [ dev -+DEV -+.B ] -+.P -+.B tc [-s | -d ] class show dev -+DEV -+.P -+.B tc filter show dev -+DEV -+ -+.SH DESCRIPTION -+.B Tc -+is used to configure Traffic Control in the Linux kernel. Traffic Control consists -+of the following: -+ -+.TP -+SHAPING -+When traffic is shaped, its rate of transmission is under control. Shaping may -+be more than lowering the available bandwidth - it is also used to smooth out -+bursts in traffic for better network behaviour. Shaping occurs on egress. -+ -+.TP -+SCHEDULING -+By scheduling the transmission of packets it is possible to improve interactivity -+for traffic that needs it while still guaranteeing bandwidth to bulk transfers. Reordering -+is also called prioritizing, and happens only on egress. -+ -+.TP -+POLICING -+Where shaping deals with transmission of traffic, policing pertains to traffic -+arriving. Policing thus occurs on ingress. -+ -+.TP -+DROPPING -+Traffic exceeding a set bandwidth may also be dropped forthwith, both on -+ingress and on egress. -+ -+.P -+Processing of traffic is controlled by three kinds of objects: qdiscs, -+classes and filters. -+ -+.SH QDISCS -+.B qdisc -+is short for 'queueing discipline' and it is elementary to -+understanding traffic control. Whenever the kernel needs to send a -+packet to an interface, it is -+.B enqueued -+to the qdisc configured for that interface. Immediately afterwards, the kernel -+tries to get as many packets as possible from the qdisc, for giving them -+to the network adaptor driver. -+ -+A simple QDISC is the 'pfifo' one, which does no processing at all and is a pure -+First In, First Out queue. It does however store traffic when the network interface -+can't handle it momentarily. -+ -+.SH CLASSES -+Some qdiscs can contain classes, which contain further qdiscs - traffic may -+then be enqueued in any of the inner qdiscs, which are within the -+.B classes. -+When the kernel tries to dequeue a packet from such a -+.B classful qdisc -+it can come from any of the classes. A qdisc may for example prioritize -+certain kinds of traffic by trying to dequeue from certain classes -+before others. -+ -+.SH FILTERS -+A -+.B filter -+is used by a classful qdisc to determine in which class a packet will -+be enqueued. Whenever traffic arrives at a class with subclasses, it needs -+to be classified. Various methods may be employed to do so, one of these -+are the filters. All filters attached to the class are called, until one of -+them returns with a verdict. If no verdict was made, other criteria may be -+available. This differs per qdisc. -+ -+It is important to notice that filters reside -+.B within -+qdiscs - they are not masters of what happens. -+ -+.SH CLASSLESS QDISCS -+The classless qdiscs are: -+.TP -+[p|b]fifo -+Simplest usable qdisc, pure First In, First Out behaviour. Limited in -+packets or in bytes. -+.TP -+pfifo_fast -+Standard qdisc for 'Advanced Router' enabled kernels. Consists of a three-band -+queue which honors Type of Service flags, as well as the priority that may be -+assigned to a packet. -+.TP -+red -+Random Early Detection simulates physical congestion by randomly dropping -+packets when nearing configured bandwidth allocation. Well suited to very -+large bandwidth applications. -+.TP -+sfq -+Stochastic Fairness Queueing reorders queued traffic so each 'session' -+gets to send a packet in turn. -+.TP -+tbf -+The Token Bucket Filter is suited for slowing traffic down to a precisely -+configured rate. Scales well to large bandwidths. -+.SH CONFIGURING CLASSLESS QDISCS -+In the absence of classful qdiscs, classless qdiscs can only be attached at -+the root of a device. Full syntax: -+.P -+.B tc qdisc add dev -+DEV -+.B root -+QDISC QDISC-PARAMETERS -+ -+To remove, issue -+.P -+.B tc qdisc del dev -+DEV -+.B root -+ -+The -+.B pfifo_fast -+qdisc is the automatic default in the absence of a configured qdisc. -+ -+.SH CLASSFUL QDISCS -+The classful qdiscs are: -+.TP -+CBQ -+Class Based Queueing implements a rich linksharing hierarchy of classes. -+It contains shaping elements as well as prioritizing capabilities. Shaping is -+performed using link idle time calculations based on average packet size and -+underlying link bandwidth. The latter may be ill-defined for some interfaces. -+.TP -+HTB -+The Hierarchy Token Bucket implements a rich linksharing hierarchy of -+classes with an emphasis on conforming to existing practices. HTB facilitates -+guaranteeing bandwidth to classes, while also allowing specification of upper -+limits to inter-class sharing. It contains shaping elements, based on TBF and -+can prioritize classes. -+.TP -+PRIO -+The PRIO qdisc is a non-shaping container for a configurable number of -+classes which are dequeued in order. This allows for easy prioritization -+of traffic, where lower classes are only able to send if higher ones have -+no packets available. To facilitate configuration, Type Of Service bits are -+honored by default. -+.SH THEORY OF OPERATION -+Classes form a tree, where each class has a single parent. -+A class may have multiple children. Some qdiscs allow for runtime addition -+of classes (CBQ, HTB) while others (PRIO) are created with a static number of -+children. -+ -+Qdiscs which allow dynamic addition of classes can have zero or more -+subclasses to which traffic may be enqueued. -+ -+Furthermore, each class contains a -+.B leaf qdisc -+which by default has -+.B pfifo -+behaviour though another qdisc can be attached in place. This qdisc may again -+contain classes, but each class can have only one leaf qdisc. -+ -+When a packet enters a classful qdisc it can be -+.B classified -+to one of the classes within. Three criteria are available, although not all -+qdiscs will use all three: -+.TP -+tc filters -+If tc filters are attached to a class, they are consulted first -+for relevant instructions. Filters can match on all fields of a packet header, -+as well as on the firewall mark applied by ipchains or iptables. See -+.BR tc-filters (8). -+.TP -+Type of Service -+Some qdiscs have built in rules for classifying packets based on the TOS field. -+.TP -+skb->priority -+Userspace programs can encode a class-id in the 'skb->priority' field using -+the SO_PRIORITY option. -+.P -+Each node within the tree can have its own filters but higher level filters -+may also point directly to lower classes. -+ -+If classification did not succeed, packets are enqueued to the leaf qdisc -+attached to that class. Check qdisc specific manpages for details, however. -+ -+.SH NAMING -+All qdiscs, classes and filters have IDs, which can either be specified -+or be automatically assigned. -+ -+IDs consist of a major number and a minor number, separated by a colon. -+ -+.TP -+QDISCS -+A qdisc, which potentially can have children, -+gets assigned a major number, called a 'handle', leaving the minor -+number namespace available for classes. The handle is expressed as '10:'. -+It is customary to explicitly assign a handle to qdiscs expected to have -+children. -+ -+.TP -+CLASSES -+Classes residing under a qdisc share their qdisc major number, but each have -+a separate minor number called a 'classid' that has no relation to their -+parent classes, only to their parent qdisc. The same naming custom as for -+qdiscs applies. -+ -+.TP -+FILTERS -+Filters have a three part ID, which is only needed when using a hashed -+filter hierarchy, for which see -+.BR tc-filters (8). -+.SH UNITS -+All parameters accept a floating point number, possibly followed by a unit. -+.P -+Bandwidths or rates can be specified in: -+.TP -+kbps -+Kilobytes per second -+.TP -+mbps -+Megabytes per second -+.TP -+kbit -+Kilobits per second -+.TP -+mbit -+Megabits per second -+.TP -+bps or a bare number -+Bytes per second -+.P -+Amounts of data can be specified in: -+.TP -+kb or k -+Kilobytes -+.TP -+mb or m -+Megabytes -+.TP -+mbit -+Megabits -+.TP -+kbit -+Kilobits -+.TP -+b or a bare number -+Bytes. -+.P -+Lengths of time can be specified in: -+.TP -+s, sec or secs -+Whole seconds -+.TP -+ms, msec or msecs -+Milliseconds -+.TP -+us, usec, usecs or a bare number -+Microseconds. -+ -+.SH TC COMMANDS -+The following commands are available for qdiscs, classes and filter: -+.TP -+add -+Add a qdisc, class or filter to a node. For all entities, a -+.B parent -+must be passed, either by passing its ID or by attaching directly to the root of a device. -+When creating a qdisc or a filter, it can be named with the -+.B handle -+parameter. A class is named with the -+.B classid -+parameter. -+ -+.TP -+remove -+A qdisc can be removed by specifying its handle, which may also be 'root'. All subclasses and their leaf qdiscs -+are automatically deleted, as well as any filters attached to them. -+ -+.TP -+change -+Some entities can be modified 'in place'. Shares the syntax of 'add', with the exception -+that the handle cannot be changed and neither can the parent. In other words, -+.B -+change -+cannot move a node. -+ -+.TP -+replace -+Performs a nearly atomic remove/add on an existing node id. If the node does not exist yet -+it is created. -+ -+.TP -+link -+Only available for qdiscs and performs a replace where the node -+must exist already. -+ -+ -+.SH HISTORY -+.B tc -+was written by Alexey N. Kuznetsov and added in Linux 2.2. -+.SH SEE ALSO -+.BR tc-cbq (8), -+.BR tc-htb (8), -+.BR tc-sfq (8), -+.BR tc-red (8), -+.BR tc-tbf (8), -+.BR tc-pfifo (8), -+.BR tc-bfifo (8), -+.BR tc-pfifo_fast (8), -+.BR tc-filters (8) -+ -+.SH AUTHOR -+Manpage maintained by bert hubert (ahu@ds9a.nl) -+ -diff -Naur iproute2-orig/debian/postinst iproute2/debian/postinst ---- iproute2-orig/debian/postinst 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/postinst 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,6 @@ -+#!/bin/sh -e -+ -+# FHS: -+if [ "$1" = "configure" -a -d /usr/doc -a ! -e /usr/doc/iproute ]; then -+ ln -sf ../share/doc/iproute /usr/doc/iproute -+fi -diff -Naur iproute2-orig/debian/postrm iproute2/debian/postrm ---- iproute2-orig/debian/postrm 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/postrm 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,6 @@ -+#!/bin/sh -+ -+if [ "$1" = "purge" ] -+then -+ rm -rf /etc/iproute2 -+fi -diff -Naur iproute2-orig/debian/prerm iproute2/debian/prerm ---- iproute2-orig/debian/prerm 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/prerm 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,5 @@ -+#!/bin/sh -e -+ -+if [ \( "$1" = "upgrade" -o "$1" = "remove" \) -a -L /usr/doc/iproute ]; then -+ rm -f /usr/doc/iproute -+fi -diff -Naur iproute2-orig/debian/rules iproute2/debian/rules ---- iproute2-orig/debian/rules 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/rules 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,85 @@ -+#!/usr/bin/make -f -+# -+# Copyright (C) 1999 Roberto Lumbreras -+# Copyright (C) 1999-2002 Juan Cespedes -+# Copying: GPL -+ -+SHELL = bash -+ -+PACKAGE = $(shell perl -e 'print <> =~ /^(.*) \(.*\)/' debian/changelog) -+PKG_VER = $(shell perl -e 'print <> =~ /\((.*)\)/' debian/changelog) -+PKG_UPVER= $(shell perl -e 'print <> =~ /\((.*)-[^-]*\)/' debian/changelog) -+ -+BINS = ip/ip -+SBINS = ip/rtmon ip/rtacct tc/tc -+SHBINS = ip/routef ip/routel # ip/ifcfg ip/rtpr -+DOCS = README* doc/Plan debian/README.Debian -+MAN8 = debian/manpages/*.8 -+MANLINKS= rtmon rtacct routef routel -+TEXDOCS = ip-cref ip-tunnels api-ip6-flowlabels -+ -+build: stamp-build -+ -+stamp-build: -+ test -f include-glibc/netinet/in.h.orig || \ -+ mv include-glibc/netinet/in.h \ -+ include-glibc/netinet/in.h.orig -+ $(MAKE) KERNEL_INCLUDE=/usr/include -+ $(MAKE) -C doc -+ touch stamp-build -+ -+binary: binary-indep binary-arch -+ -+binary-indep: -+ -+binary-arch: checkroot stamp-build -+ $(RM) -r debian/tmp -+ install -d -m0755 debian/tmp/{DEBIAN,bin,sbin,usr/{bin,share/doc/$(PACKAGE),share/man/man{7,8}}} -+ install -s -m0755 $(BINS) debian/tmp/bin/ -+ install -s -m0755 $(SBINS) debian/tmp/sbin/ -+ ln -s /bin/ip debian/tmp/sbin/ip -+ install -m0755 $(SHBINS) debian/tmp/usr/bin/ -+ cp -p $(DOCS) debian/tmp/usr/share/doc/$(PACKAGE)/ -+ cp -rp examples debian/tmp/usr/share/doc/$(PACKAGE)/ -+ find debian/tmp/usr/share/doc/$(PACKAGE)/examples -type f -exec chmod -x {} \; -+ install -m0644 debian/changelog debian/tmp/usr/share/doc/$(PACKAGE)/changelog.Debian -+ cp -p RELNOTES debian/tmp/usr/share/doc/$(PACKAGE)/changelog -+ for i in $(TEXDOCS); do \ -+ install -m0644 doc/$$i.tex debian/tmp/usr/share/doc/$(PACKAGE)/; \ -+ install -m0644 doc/$$i.dvi debian/tmp/usr/share/doc/$(PACKAGE)/; \ -+ install -m0644 doc/$$i.ps debian/tmp/usr/share/doc/$(PACKAGE)/; \ -+ done -+ install -m0644 $(MAN8) debian/tmp/usr/share/man/man8/ -+ gzip -9fr debian/tmp/usr/share || true -+ ln -s tc-pbfifo.8.gz debian/tmp/usr/share/man/man8/tc-pfifo.8.gz -+ ln -s tc-pbfifo.8.gz debian/tmp/usr/share/man/man8/tc-bfifo.8.gz -+ for i in $(MANLINKS); do \ -+ ln -s ../man7/undocumented.7.gz debian/tmp/usr/share/man/man8/$$i.8.gz; \ -+ done -+ cp -p debian/copyright debian/tmp/usr/share/doc/$(PACKAGE)/ -+ cp -rp etc debian/tmp/ -+ install -m0644 debian/conffiles debian/tmp/DEBIAN/ -+ -+ dpkg-shlibdeps $(BINS) $(SBINS) -+ dpkg-gencontrol -isp -+ chown -R root.root debian/tmp -+ chmod -R u=rwX,go=rX debian/tmp -+ dpkg --build debian/tmp .. -+ -+checkdir: -+ @test -f debian/rules -+ -+checkroot: checkdir -+ @test 0 = `id -u` || { echo "Error: not super-user"; exit 1; } -+ -+clean: checkdir debian/control -+ $(RM) stamp-build debian/files debian/substvars -+ $(MAKE) clean -+ $(MAKE) -C doc clean -+ $(RM) `find . -name "*~" -o -name core` -+ $(RM) -r debian/tmp -+ test -f include-glibc/netinet/in.h.orig && \ -+ mv include-glibc/netinet/in.h.orig \ -+ include-glibc/netinet/in.h || true -+ -+.PHONY: build binary binary-arch binary-indep checkdir checkroot clean -diff -Naur iproute2-orig/debian/tc-cbq.8 iproute2/debian/tc-cbq.8 ---- iproute2-orig/debian/tc-cbq.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/tc-cbq.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,353 @@ -+.TH CBQ 8 "16 December 2001" "iproute2" "Linux" -+.SH NAME -+CBQ \- Class Based Queueing -+.SH SYNOPSIS -+.B tc qdisc ... dev -+dev -+.B ( parent -+classid -+.B | root) [ handle -+major: -+.B ] cbq [ allot -+bytes -+.B ] avpkt -+bytes -+.B bandwidth -+rate -+.B [ cell -+bytes -+.B ] [ ewma -+log -+.B ] [ mpu -+bytes -+.B ] -+ -+.B tc class ... dev -+dev -+.B parent -+major:[minor] -+.B [ classid -+major:minor -+.B ] cbq allot -+bytes -+.B [ bandwidth -+rate -+.B ] [ rate -+rate -+.B ] prio -+priority -+.B [ weight -+weight -+.B ] [ minburst -+packets -+.B ] [ maxburst -+packets -+.B ] [ ewma -+log -+.B ] [ cell -+bytes -+.B ] avpkt -+bytes -+.B [ mpu -+bytes -+.B ] [ bounded isolated ] [ split -+handle -+.B & defmap -+defmap -+.B ] [ estimator -+interval timeconstant -+.B ] -+ -+.SH DESCRIPTION -+Class Based Queueing is a classful qdisc that implements a rich -+linksharing hierarchy of classes. It contains shaping elements as -+well as prioritizing capabilities. Shaping is performed using link -+idle time calculations based on the timing of dequeue events and -+underlying link bandwidth. -+ -+.SH SHAPING ALGORITHM -+When shaping a 10mbit/s connection to 1mbit/s, the link will -+be idle 90% of the time. If it isn't, it needs to be throttled so that it -+IS idle 90% of the time. -+ -+During operations, the effective idletime is measured using an -+exponential weighted moving average (EWMA), which considers recent -+packets to be exponentially more important than past ones. The Unix -+loadaverage is calculated in the same way. -+ -+The calculated idle time is subtracted from the EWMA measured one, -+the resulting number is called 'avgidle'. A perfectly loaded link has -+an avgidle of zero: packets arrive exactly at the calculated -+interval. -+ -+An overloaded link has a negative avgidle and if it gets too negative, -+CBQ throttles and is then 'overlimit'. -+ -+Conversely, an idle link might amass a huge avgidle, which would then -+allow infinite bandwidths after a few hours of silence. To prevent -+this, avgidle is capped at -+.B maxidle. -+ -+If overlimit, in theory, the CBQ could throttle itself for exactly the -+amount of time that was calculated to pass between packets, and then -+pass one packet, and throttle again. Due to timer resolution constraints, -+this may not be feasible, see the -+.B minburst -+parameter below. -+ -+.SH CLASSIFICATION -+Within the one CBQ instance many classes may exist. Each of these classes -+contains another qdisc, by default -+.BR tc-pfifo (8). -+ -+When enqueueing a packet, CBQ starts at the root and uses various methods to -+determine which class should receive the data. -+ -+In the absence of uncommon configuration options, the process is rather easy. -+At each node we look for an instruction, and then go to the class the -+instruction refers us to. If the class found is a barren leaf-node (without -+children), we enqueue the packet there. If it is not yet a leaf node, we do -+the whole thing over again starting from that node. -+ -+The following actions are performed, in order at each node we visit, until one -+sends us to another node, or terminates the process. -+.TP -+(i) -+Consult filters attached to the class. If sent to a leafnode, we are done. -+Otherwise, restart. -+.TP -+(ii) -+Consult the defmap for the priority assigned to this packet, which depends -+on the TOS bits. Check if the referral is leafless, otherwise restart. -+.TP -+(iii) -+Ask the defmap for instructions for the 'best effort' priority. Check the -+answer for leafness, otherwise restart. -+.TP -+(iv) -+If none of the above returned with an instruction, enqueue at this node. -+.P -+This algorithm makes sure that a packet always ends up somewhere, even while -+you are busy building your configuration. -+ -+For more details, see -+.BR tc-cbq-details(8). -+ -+.SH LINK SHARING ALGORITHM -+When dequeuing for sending to the network device, CBQ decides which of its -+classes will be allowed to send. It does so with a Weighted Round Robin process -+in which each class with packets gets a chance to send in turn. The WRR process -+starts by asking the highest priority classes (lowest numerically - -+highest semantically) for packets, and will continue to do so until they -+have no more data to offer, in which case the process repeats for lower -+priorities. -+ -+Classes by default borrow bandwidth from their siblings. A class can be -+prevented from doing so by declaring it 'bounded'. A class can also indicate -+its unwillingness to lend out bandwidth by being 'isolated'. -+ -+.SH QDISC -+The root of a CBQ qdisc class tree has the following parameters: -+ -+.TP -+parent major:minor | root -+This mandatory parameter determines the place of the CBQ instance, either at the -+.B root -+of an interface or within an existing class. -+.TP -+handle major: -+Like all other qdiscs, the CBQ can be assigned a handle. Should consist only -+of a major number, followed by a colon. Optional, but very useful if classes -+will be generated within this qdisc. -+.TP -+allot bytes -+This allotment is the 'chunkiness' of link sharing and is used for determining packet -+transmission time tables. The qdisc allot differs slightly from the class allot discussed -+below. Optional. Defaults to a reasonable value, related to avpkt. -+.TP -+avpkt bytes -+The average size of a packet is needed for calculating maxidle, and is also used -+for making sure 'allot' has a safe value. Mandatory. -+.TP -+bandwidth rate -+To determine the idle time, CBQ must know the bandwidth of your underlying -+physical interface, or parent qdisc. This is a vital parameter, more about it -+later. Mandatory. -+.TP -+cell -+The cell size determines he granularity of packet transmission time calculations. Has a sensible default. -+.TP -+mpu -+A zero sized packet may still take time to transmit. This value is the lower -+cap for packet transmission time calculations - packets smaller than this value -+are still deemed to have this size. Defaults to zero. -+.TP -+ewma log -+When CBQ needs to measure the average idle time, it does so using an -+Exponentially Weighted Moving Average which smoothes out measurements into -+a moving average. The EWMA LOG determines how much smoothing occurs. Lower -+values imply greater sensitivity. Must be between 0 and 31. Defaults -+to 5. -+.P -+A CBQ qdisc does not shape out of its own accord. It only needs to know certain -+parameters about the underlying link. Actual shaping is done in classes. -+ -+.SH CLASSES -+Classes have a host of parameters to configure their operation. -+ -+.TP -+parent major:minor -+Place of this class within the hierarchy. If attached directly to a qdisc -+and not to another class, minor can be omitted. Mandatory. -+.TP -+classid major:minor -+Like qdiscs, classes can be named. The major number must be equal to the -+major number of the qdisc to which it belongs. Optional, but needed if this -+class is going to have children. -+.TP -+weight weight -+When dequeuing to the interface, classes are tried for traffic in a -+round-robin fashion. Classes with a higher configured qdisc will generally -+have more traffic to offer during each round, so it makes sense to allow -+it to dequeue more traffic. All weights under a class are normalized, so -+only the ratios matter. Defaults to the configured rate, unless the priority -+of this class is maximal, in which case it is set to 1. -+.TP -+allot bytes -+Allot specifies how many bytes a qdisc can dequeue -+during each round of the process. This parameter is weighted using the -+renormalized class weight described above. Silently capped at a minimum of -+3/2 avpkt. Mandatory. -+ -+.TP -+prio priority -+In the round-robin process, classes with the lowest priority field are tried -+for packets first. Mandatory. -+ -+.TP -+avpkt -+See the QDISC section. -+ -+.TP -+rate rate -+Maximum rate this class and all its children combined can send at. Mandatory. -+ -+.TP -+bandwidth rate -+This is different from the bandwidth specified when creating a CBQ disc! Only -+used to determine maxidle and offtime, which are only calculated when -+specifying maxburst or minburst. Mandatory if specifying maxburst or minburst. -+ -+.TP -+maxburst -+This number of packets is used to calculate maxidle so that when -+avgidle is at maxidle, this number of average packets can be burst -+before avgidle drops to 0. Set it higher to be more tolerant of -+bursts. You can't set maxidle directly, only via this parameter. -+ -+.TP -+minburst -+As mentioned before, CBQ needs to throttle in case of -+overlimit. The ideal solution is to do so for exactly the calculated -+idle time, and pass 1 packet. However, Unix kernels generally have a -+hard time scheduling events shorter than 10ms, so it is better to -+throttle for a longer period, and then pass minburst packets in one -+go, and then sleep minburst times longer. -+ -+The time to wait is called the offtime. Higher values of minburst lead -+to more accurate shaping in the long term, but to bigger bursts at -+millisecond timescales. Optional. -+ -+.TP -+minidle -+If avgidle is below 0, we are overlimits and need to wait until -+avgidle will be big enough to send one packet. To prevent a sudden -+burst from shutting down the link for a prolonged period of time, -+avgidle is reset to minidle if it gets too low. -+ -+Minidle is specified in negative microseconds, so 10 means that -+avgidle is capped at -10us. Optional. -+ -+.TP -+bounded -+Signifies that this class will not borrow bandwidth from its siblings. -+.TP -+isolated -+Means that this class will not borrow bandwidth to its siblings -+ -+.TP -+split major:minor & defmap bitmap[/bitmap] -+If consulting filters attached to a class did not give a verdict, -+CBQ can also classify based on the packet's priority. There are 16 -+priorities available, numbered from 0 to 15. -+ -+The defmap specifies which priorities this class wants to receive, -+specified as a bitmap. The Least Significant Bit corresponds to priority -+zero. The -+.B split -+parameter tells CBQ at which class the decision must be made, which should -+be a (grand)parent of the class you are adding. -+ -+As an example, 'tc class add ... classid 10:1 cbq .. split 10:0 defmap c0' -+configures class 10:0 to send packets with priorities 6 and 7 to 10:1. -+ -+The complimentary configuration would then -+be: 'tc class add ... classid 10:2 cbq ... split 10:0 defmap 3f' -+Which would send all packets 0, 1, 2, 3, 4 and 5 to 10:1. -+.TP -+estimator interval timeconstant -+CBQ can measure how much bandwidth each class is using, which tc filters -+can use to classify packets with. In order to determine the bandwidth -+it uses a very simple estimator that measures once every -+.B interval -+microseconds how much traffic has passed. This again is a EWMA, for which -+the time constant can be specified, also in microseconds. The -+.B time constant -+corresponds to the sluggishness of the measurement or, conversely, to the -+sensitivity of the average to short bursts. Higher values mean less -+sensitivity. -+ -+.SH BUGS -+The actual bandwidth of the underlying link may not be known, for example -+in the case of PPoE or PPTP connections which in fact may send over a -+pipe, instead of over a physical device. CBQ is quite resilient to major -+errors in the configured bandwidth, probably a the cost of coarser shaping. -+ -+Default kernels rely on coarse timing information for making decisions. These -+may make shaping precise in the long term, but inaccurate on second long scales. -+ -+See -+.BR tc-cbq-details(8) -+for hints on how to improve this. -+ -+.SH SOURCES -+.TP -+o -+Sally Floyd and Van Jacobson, "Link-sharing and Resource -+Management Models for Packet Networks", -+IEEE/ACM Transactions on Networking, Vol.3, No.4, 1995 -+ -+.TP -+o -+Sally Floyd, "Notes on CBQ and Guaranteed Service", 1995 -+ -+.TP -+o -+Sally Floyd, "Notes on Class-Based Queueing: Setting -+Parameters", 1996 -+ -+.TP -+o -+Sally Floyd and Michael Speer, "Experimental Results -+for Class-Based Queueing", 1998, not published. -+ -+ -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHOR -+Alexey N. Kuznetsov, . This manpage maintained by -+bert hubert -+ -+ -diff -Naur iproute2-orig/debian/tc-htb.8 iproute2/debian/tc-htb.8 ---- iproute2-orig/debian/tc-htb.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/tc-htb.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,153 @@ -+.TH HTB 8 "10 January 2002" "iproute2" "Linux" -+.SH NAME -+HTB \- Hierarchy Token Bucket -+.SH SYNOPSIS -+.B tc qdisc ... dev -+dev -+.B ( parent -+classid -+.B | root) [ handle -+major: -+.B ] htb [ default -+minor-id -+.B ] -+ -+.B tc class ... dev -+dev -+.B parent -+major:[minor] -+.B [ classid -+major:minor -+.B ] htb rate -+rate -+.B [ ceil -+rate -+.B ] burst -+bytes -+.B [ cburst -+bytes -+.B ] [ prio -+priority -+.B ] -+ -+.SH DESCRIPTION -+HTB is meant as a more understandable and intuitive replacement for -+the CBQ qdisc in Linux. Both CBQ and HTB help you to control the use -+of the outbound bandwidth on a given link. Both allow you to use one -+physical link to simulate several slower links and to send different -+kinds of traffic on different simulated links. In both cases, you have -+to specify how to divide the physical link into simulated links and -+how to decide which simulated link to use for a given packet to be sent. -+ -+Unlike CBQ, HTB shapes traffic based on the Token Bucket Filter algorithm -+which does not depend on interface characteristics and so does not need to -+know the underlying bandwidth of the outgoing interface. -+ -+.SH SHAPING ALGORITHM -+Shaping works as documented in -+.B tc-tbf (8). -+ -+.SH CLASSIFICATION -+Within the one HRB instance many classes may exist. Each of these classes -+contains another qdisc, by default -+.BR tc-pfifo (8). -+ -+When enqueueing a packet, HTB starts at the root and uses various methods to -+determine which class should receive the data. -+ -+In the absence of uncommon configuration options, the process is rather easy. -+At each node we look for an instruction, and then go to the class the -+instruction refers us to. If the class found is a barren leaf-node (without -+children), we enqueue the packet there. If it is not yet a leaf node, we do -+the whole thing over again starting from that node. -+ -+The following actions are performed, in order at each node we visit, until one -+sends us to another node, or terminates the process. -+.TP -+(i) -+Consult filters attached to the class. If sent to a leafnode, we are done. -+Otherwise, restart. -+.TP -+(ii) -+If none of the above returned with an instruction, enqueue at this node. -+.P -+This algorithm makes sure that a packet always ends up somewhere, even while -+you are busy building your configuration. -+ -+.SH LINK SHARING ALGORITHM -+FIXME -+ -+.SH QDISC -+The root of a CBQ qdisc class tree has the following parameters: -+ -+.TP -+parent major:minor | root -+This mandatory parameter determines the place of the CBQ instance, either at the -+.B root -+of an interface or within an existing class. -+.TP -+handle major: -+Like all other qdiscs, the CBQ can be assigned a handle. Should consist only -+of a major number, followed by a colon. Optional, but very useful if classes -+will be generated within this qdisc. -+.TP -+default minor-id -+Unclassified traffic gets sent to the class with this minor-id. -+ -+.SH CLASSES -+Classes have a host of parameters to configure their operation. -+ -+.TP -+parent major:minor -+Place of this class within the hierarchy. If attached directly to a qdisc -+and not to another class, minor can be omitted. Mandatory. -+.TP -+classid major:minor -+Like qdiscs, classes can be named. The major number must be equal to the -+major number of the qdisc to which it belongs. Optional, but needed if this -+class is going to have children. -+.TP -+prio priority -+In the round-robin process, classes with the lowest priority field are tried -+for packets first. Mandatory. -+ -+.TP -+rate rate -+Maximum rate this class and all its children are guaranteed. Mandatory. -+ -+.TP -+ceil rate -+Maximum rate at which a class can send, if its parent has bandwidth to spare. -+Defaults to the configured rate, which implies no borrowing -+ -+.TP -+burst bytes -+Amount of bytes that can be burst at -+.B ceil -+speed, in excess of the configured -+.B rate. -+Should be at least as high as the highest burst of all children. -+ -+.TP -+cburst bytes -+Amount of bytes that can be burst at 'infinite' speed, in other words, as fast -+as the interface can transmit them. For perfect evening out, should be equal to at most one average -+packet. Should be at least as high as the highest cburst of all children. -+ -+.SH NOTES -+Due to Unix timing constraints, the maximum ceil rate is not infinite and may in fact be quite low. On Intel, -+there are 100 timer events per second, the maximum rate is that rate at which 'burst' bytes are sent each timer tick. -+From this, the mininum burst size for a specified rate can be calculated. For i386, a 10mbit rate requires a 12 kilobyte -+burst as 100*12kb*8 equals 10mbit. -+ -+.SH BUGS -+Not in the stock kernel yet. -+ -+.SH SEE ALSO -+.BR tc (8) -+.P -+HTB website: http://luxik.cdi.cz/~devik/qos/htb/ -+.SH AUTHOR -+Martin Devera . This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/tc-pbfifo.8 iproute2/debian/tc-pbfifo.8 ---- iproute2-orig/debian/tc-pbfifo.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/tc-pbfifo.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,72 @@ -+.TH PBFIFO 8 "10 January 2002" "iproute2" "Linux" -+.SH NAME -+pfifo \- Packet limited First In, First Out queue -+.P -+bfifo \- Byte limited First In, First Out queue -+ -+.SH SYNOPSIS -+.B tc qdisc ... add pfifo -+.B [ limit -+packets -+.B ] -+.P -+.B tc qdisc ... add bfifo -+.B [ limit -+bytes -+.B ] -+ -+.SH DESCRIPTION -+The pfifo and bfifo qdiscs are unadorned First In, First Out queues. They are the -+simplest queues possible and therefore have no overhead. -+.B pfifo -+constrains the queue size as measured in packets. -+.B bfifo -+does so as measured in bytes. -+ -+Like all non-default qdiscs, they maintain statistics. This might be a reason to prefer -+pfifo or bfifo over the default. -+ -+.SH ALGORITHM -+A list of packets is maintained, when a packet is enqueued it gets inserted at the tail of -+a list. When a packet needs to be sent out to the network, it is taken from the head of the list. -+ -+If the list is too long, no further packets are allowed on. This is called 'tail drop'. -+ -+.SH PARAMETERS -+.TP -+limit -+Maximum queue size. Specified in bytes for bfifo, in packets for pfifo. For pfifo, defaults -+to the interface txqueuelen, as specified with -+.BR ifconfig (8) -+or -+.BR ip (8). -+ -+For bfifo, it defaults to the txqueuelen multiplied by the interface MTU. -+ -+.SH OUTPUT -+The output of -+.B tc -s qdisc ls -+contains the limit, either in packets or in bytes, and the number of bytes -+and packets actually sent. An unsent and dropped packet only appears between braces -+and is not counted as 'Sent'. -+ -+In this example, the queue length is 100 packets, 45894 bytes were sent over 681 packets. -+No packets were dropped, and as the pfifo queue does not slow down packets, there were also no -+overlimits: -+.P -+.nf -+# tc -s qdisc ls dev eth0 -+qdisc pfifo 8001: dev eth0 limit 100p -+ Sent 45894 bytes 681 pkts (dropped 0, overlimits 0) -+.fi -+ -+If a backlog occurs, this is displayed as well. -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHORS -+Alexey N. Kuznetsov, -+ -+This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/tc-pfifo_fast.8 iproute2/debian/tc-pfifo_fast.8 ---- iproute2-orig/debian/tc-pfifo_fast.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/tc-pfifo_fast.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,59 @@ -+.TH PFIFO_FAST 8 "10 January 2002" "iproute2" "Linux" -+.SH NAME -+pfifo_fast \- three-band first in, first out queue -+ -+.SH DESCRIPTION -+pfifo_fast is the default qdisc of each interface. -+ -+Whenever an interface is created, the pfifo_fast qdisc is automatically used -+as a queue. If another qdisc is attached, it preempts the default -+pfifo_fast, which automatically returns to function when an existing qdisc -+is detached. -+ -+In this sense this qdisc is magic, and unlike other qdiscs. -+ -+.SH ALGORITHM -+The algorithm is very similar to that of the classful -+.BR tc-prio (8) -+qdisc. -+.B pfifo_fast -+is like three -+.BR tc-pfifo (8) -+queues side by side, where packets can be enqueued in any of the three bands -+based on their Type of Service bits or assigned priority. -+ -+Not all three bands are dequeued simultaneously - as long as lower bands -+have traffic, higher bands are never dequeued. This can be used to -+prioritize interactive traffic or penalize 'lowest cost' traffic. -+ -+Each band can be txqueuelen packets long, as configured with -+.BR ifconfig (8) -+or -+.BR ip (8). -+Additional packets coming in are not enqueued but are instead dropped. -+ -+See -+.BR tc-prio (8) -+for complete details on how TOS bits are translated into bands. -+.SH PARAMETERS -+.TP -+txqueuelen -+The length of the three bands depends on the interface txqueuelen, as -+specified with -+.BR ifconfig (8) -+or -+.BR ip (8). -+ -+.SH BUGS -+Does not maintain statistics and does not show up in tc qdisc ls. This is because -+it is the automatic default in the absence of a configured qdisc. -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHORS -+Alexey N. Kuznetsov, -+ -+This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/tc-prio.8 iproute2/debian/tc-prio.8 ---- iproute2-orig/debian/tc-prio.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/tc-prio.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,187 @@ -+.TH PRIO 8 "16 December 2001" "iproute2" "Linux" -+.SH NAME -+PRIO \- Priority qdisc -+.SH SYNOPSIS -+.B tc qdisc ... dev -+dev -+.B ( parent -+classid -+.B | root) [ handle -+major: -+.B ] prio [ bands -+bands -+.B ] [ priomap -+band,band,band... -+.B ] [ estimator -+interval timeconstant -+.B ] -+ -+.SH DESCRIPTION -+The PRIO qdisc is a simple classful queueing discipline that contains -+an arbitrary number of classes of differing priority. The classes are -+dequeued in numerical descending order of priority. PRIO is a scheduler -+and never delays packets - it is a work-conserving qdisc, though the qdiscs -+contained in the classes may not be. -+ -+Very useful for lowering latency when there is no need for slowing down -+traffic. -+ -+.SH ALGORITHM -+On creation with 'tc qdisc add', a fixed number of bands is created. Each -+band is a class, although is not possible to add classes with 'tc qdisc -+add', the number of bands to be created must instead be specified on the -+commandline attaching PRIO to its root. -+ -+When dequeueing, band 0 is tried first and only if it did not deliver a -+packet does PRIO try band 1, and so onwards. Maximum reliability packets -+should therefore go to band 0, minimum delay to band 1 and the rest to band -+2. -+ -+As the PRIO qdisc itself will have minor number 0, band 0 is actually -+major:1, band 1 is major:2, etc. For major, substitute the major number -+assigned to the qdisc on 'tc qdisc add' with the -+.B handle -+parameter. -+ -+.SH CLASSIFICATION -+Three methods are available to PRIO to determine in which band a packet will -+be enqueued. -+.TP -+From userspace -+A process with sufficient privileges can encode the destination class -+directly with SO_PRIORITY, see -+.BR tc(7). -+.TP -+with a tc filter -+A tc filter attached to the root qdisc can point traffic directly to a class -+.TP -+with the priomap -+Based on the packet priority, which in turn is derived from the Type of -+Service assigned to the packet. -+.P -+Only the priomap is specific to this qdisc. -+.SH QDISC PARAMETERS -+.TP -+bands -+Number of bands. If changed from the default of 3, -+.B priomap -+must be updated as well. -+.TP -+priomap -+The priomap maps the priority of -+a packet to a class. The priority can either be set directly from userspace, -+or be derived from the Type of Service of the packet. -+ -+Determines how packet priorities, as assigned by the kernel, map to -+bands. Mapping occurs based on the TOS octet of the packet, which looks like -+this: -+ -+.nf -+0 1 2 3 4 5 6 7 -++---+---+---+---+---+---+---+---+ -+| | | | -+|PRECEDENCE | TOS |MBZ| -+| | | | -++---+---+---+---+---+---+---+---+ -+.fi -+ -+The four TOS bits (the 'TOS field') are defined as: -+ -+.nf -+Binary Decimcal Meaning -+----------------------------------------- -+1000 8 Minimize delay (md) -+0100 4 Maximize throughput (mt) -+0010 2 Maximize reliability (mr) -+0001 1 Minimize monetary cost (mmc) -+0000 0 Normal Service -+.fi -+ -+As there is 1 bit to the right of these four bits, the actual value of the -+TOS field is double the value of the TOS bits. Tcpdump -v -v shows you the -+value of the entire TOS field, not just the four bits. It is the value you -+see in the first column of this table: -+ -+.nf -+TOS Bits Means Linux Priority Band -+------------------------------------------------------------ -+0x0 0 Normal Service 0 Best Effort 1 -+0x2 1 Minimize Monetary Cost 1 Filler 2 -+0x4 2 Maximize Reliability 0 Best Effort 1 -+0x6 3 mmc+mr 0 Best Effort 1 -+0x8 4 Maximize Throughput 2 Bulk 2 -+0xa 5 mmc+mt 2 Bulk 2 -+0xc 6 mr+mt 2 Bulk 2 -+0xe 7 mmc+mr+mt 2 Bulk 2 -+0x10 8 Minimize Delay 6 Interactive 0 -+0x12 9 mmc+md 6 Interactive 0 -+0x14 10 mr+md 6 Interactive 0 -+0x16 11 mmc+mr+md 6 Interactive 0 -+0x18 12 mt+md 4 Int. Bulk 1 -+0x1a 13 mmc+mt+md 4 Int. Bulk 1 -+0x1c 14 mr+mt+md 4 Int. Bulk 1 -+0x1e 15 mmc+mr+mt+md 4 Int. Bulk 1 -+.fi -+ -+The second column contains the value of the relevant -+four TOS bits, followed by their translated meaning. For example, 15 stands -+for a packet wanting Minimal Montetary Cost, Maximum Reliability, Maximum -+Throughput AND Minimum Delay. -+ -+The fourth column lists the way the Linux kernel interprets the TOS bits, by -+showing to which Priority they are mapped. -+ -+The last column shows the result of the default priomap. On the commandline, -+the default priomap looks like this: -+ -+ 1, 2, 2, 2, 1, 2, 0, 0 , 1, 1, 1, 1, 1, 1, 1, 1 -+ -+This means that priority 4, for example, gets mapped to band number 1. -+The priomap also allows you to list higher priorities (> 7) which do not -+correspond to TOS mappings, but which are set by other means. -+ -+This table from RFC 1349 (read it for more details) explains how -+applications might very well set their TOS bits: -+ -+.nf -+TELNET 1000 (minimize delay) -+FTP -+ Control 1000 (minimize delay) -+ Data 0100 (maximize throughput) -+ -+TFTP 1000 (minimize delay) -+ -+SMTP -+ Command phase 1000 (minimize delay) -+ DATA phase 0100 (maximize throughput) -+ -+Domain Name Service -+ UDP Query 1000 (minimize delay) -+ TCP Query 0000 -+ Zone Transfer 0100 (maximize throughput) -+ -+NNTP 0001 (minimize monetary cost) -+ -+ICMP -+ Errors 0000 -+ Requests 0000 (mostly) -+ Responses (mostly) -+.fi -+ -+ -+.SH CLASSES -+PRIO classes cannot be configured further - they are automatically created -+when the PRIO qdisc is attached. Each class however can contain yet a -+further qdisc. -+ -+.SH BUGS -+Large amounts of traffic in the lower bands can cause starvation of higher -+bands. Can be prevented by attaching a shaper (for example, -+.BR tc-tbf(8) -+to these bands to make sure they cannot dominate the link. -+ -+.SH AUTHORS -+Alexey N. Kuznetsov, , J Hadi Salim -+. This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/tc-red.8 iproute2/debian/tc-red.8 ---- iproute2-orig/debian/tc-red.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/tc-red.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,131 @@ -+.TH RED 8 "13 December 2001" "iproute2" "Linux" -+.SH NAME -+red \- Random Early Detection -+.SH SYNOPSIS -+.B tc qdisc ... red -+.B limit -+bytes -+.B min -+bytes -+.B max -+bytes -+.B avpkt -+bytes -+.B burst -+packets -+.B [ ecn ] [ bandwidth -+rate -+.B ] probability -+chance -+ -+.SH DESCRIPTION -+Random Early Detection is a classless qdisc which manages its queue size -+smartly. Regular queues simply drop packets from the tail when they are -+full, which may not be the optimal behaviour. RED also performs tail drop, -+but does so in a more gradual way. -+ -+Once the queue hits a certain average length, packets enqueued have a -+configurable chance of being marked (which may mean dropped). This chance -+increases linearly up to a point called the -+.B max -+average queue length, although the queue might get bigger. -+ -+This has a host of benefits over simple taildrop, while not being processor -+intensive. It prevents synchronous retransmits after a burst in traffic, -+which cause further retransmits, etc. -+ -+The goal is the have a small queue size, which is good for interactivity -+while not disturbing TCP/IP traffic with too many sudden drops after a burst -+of traffic. -+ -+Depending on 08 ECN is configured, marking either means dropping or -+purely marking a packet as overlimit. -+.SH ALGORITHM -+The average queue size is used for determining the marking -+probability. This is calculated using an Exponential Weighted Moving -+Average, which can be more or less sensitive to bursts. -+ -+When the average queue size is below -+.B min -+bytes, no packet will ever be marked. When it exceeds -+.B min, -+the probability of doing so climbs linearly up -+to -+.B probability, -+until the average queue size hits -+.B max -+bytes. Because -+.B probability -+is normally not set to 100%, the queue size might -+conceivably rise above -+.B max -+bytes, so the -+.B limit -+parameter is provided to set a hard maximum for the size of the queue. -+ -+.SH PARAMETERS -+.TP -+min -+Average queue size at which marking becomes a possibility. -+.TP -+max -+At this average queue size, the marking probability is maximal. Should be at -+least twice -+.B min -+to prevent synchronous retransmits, higher for low -+.B min. -+.TP -+probability -+Maximum probability for marking, specified as a floating point -+number from 0.0 to 1.0. Suggested values are 0.01 or 0.02 (1 or 2%, -+respectively). -+.TP -+limit -+Hard limit on the real (not average) queue size in bytes. Further packets -+are dropped. Should be set higher than max+burst. It is advised to set this -+a few times higher than -+.B max. -+.TP -+burst -+Used for determining how fast the average queue size is influenced by the -+real queue size. Larger values make the calculation more sluggish, allowing -+longer bursts of traffic before marking starts. Real life experiments -+support the following guideline: (min+min+max)/(3*avpkt). -+.TP -+avpkt -+Specified in bytes. Used with burst to determine the time constant for -+average queue size calculations. 1000 is a good value. -+.TP -+bandwidth -+This rate is used for calculating the average queue size after some -+idle time. Should be set to the bandwidth of your interface. Does not mean -+that RED will shape for you! Optional. -+.TP -+ecn -+As mentioned before, RED can either 'mark' or 'drop'. Explicit Congestion -+Notification allows RED to notify remote hosts that their rate exceeds the -+amount of bandwidth available. Non-ECN capable hosts can only be notified by -+dropping a packet. If this parameter is specified, packets which indicate -+that their hosts honor ECN will only be marked and not dropped, unless the -+queue size hits -+.B limit -+bytes. Needs a tc binary with RED support compiled in. Recommended. -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH SOURCES -+.TP -+o -+Floyd, S., and Jacobson, V., Random Early Detection gateways for -+Congestion Avoidance. http://www.aciri.org/floyd/papers/red/red.html -+.TP -+o -+Some changes to the algorithm by Alexey N. Kuznetsov. -+ -+.SH AUTHORS -+Alexey N. Kuznetsov, , Alexey Makarenko -+, J Hadi Salim . -+This manpage maintained by bert hubert -+ -+ -diff -Naur iproute2-orig/debian/tc-sfq.8 iproute2/debian/tc-sfq.8 ---- iproute2-orig/debian/tc-sfq.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/tc-sfq.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,107 @@ -+.TH TC 8 "8 December 2001" "iproute2" "Linux" -+.SH NAME -+sfq \- Stochastic Fairness Queueing -+.SH SYNOPSIS -+.B tc qdisc ... perturb -+seconds -+.B quantum -+bytes -+ -+.SH DESCRIPTION -+ -+Stochastic Fairness Queueing is a classless queueing discipline available for -+traffic control with the -+.BR tc (8) -+command. -+ -+SFQ does not shape traffic but only schedules the transmission of packets, based on 'flows'. -+The goal is to ensure fairness so that each flow is able to send data in turn, thus preventing -+any single flow from drowning out the rest. -+ -+This may in fact have some effect in mitigating a Denial of Service attempt. -+ -+SFQ is work-conserving and therefore always delivers a packet if it has one available. -+.SH ALGORITHM -+On enqueueing, each packet is assigned to a hash bucket, based on -+.TP -+(i) -+Source address -+.TP -+(ii) -+Destination address -+.TP -+(iii) -+Source port -+.P -+If these are available. SFQ knows about ipv4 and ipv6 and also UDP, TCP and ESP. -+Packets with other protocols are hashed based on the 32bits representation of their -+destination and the socket they belong to. A flow corresponds mostly to a TCP/IP -+connection. -+ -+Each of these buckets should represent a unique flow. Because multiple flows may -+get hashed to the same bucket, the hashing algorithm is perturbed at configurable -+intervals so that the unfairness lasts only for a short while. Perturbation may -+however cause some inadvertent packet reordering to occur. -+ -+When dequeuing, each hashbucket with data is queried in a round robin fashion. -+ -+The compile time maximum length of the SFQ is 128 packets, which can be spread over -+at most 128 buckets of 1024 available. In case of overflow, tail-drop is performed -+on the fullest bucket, thus maintaining fairness. -+ -+.SH PARAMETERS -+.TP -+perturb -+Interval in seconds for queue algorithm perturbation. Defaults to 0, which means that -+no perturbation occurs. Do not set too low for each perturbation may cause some packet -+reordering. Advised value: 10 -+.TP -+quantum -+Amount of bytes a flow is allowed to dequeue during a round of the round robin process. -+Defaults to the MTU of the interface which is also the advised value and the minimum value. -+ -+.SH EXAMPLE & USAGE -+ -+To attach to device ppp0: -+.P -+# tc qdisc add dev ppp0 root sfq perturb 10 -+.P -+Please note that SFQ, like all non-shaping (work-conserving) qdiscs, is only useful -+if it owns the queue. -+This is the case when the link speed equals the actually available bandwidth. This holds -+for regular phone modems, ISDN connections and direct non-switched ethernet links. -+.P -+Most often, cable modems and DSL devices do not fall into this category. The same holds -+for when connected to a switch and trying to send data to a congested segment also -+connected to the switch. -+.P -+In this case, the effective queue does not reside within Linux and is therefore not -+available for scheduling. -+.P -+Embed SFQ in a classful qdisc to make sure it owns the queue. -+ -+.SH SOURCE -+.TP -+o -+Paul E. McKenney "Stochastic Fairness Queuing", -+IEEE INFOCOMM'90 Proceedings, San Francisco, 1990. -+ -+.TP -+o -+Paul E. McKenney "Stochastic Fairness Queuing", -+"Interworking: Research and Experience", v.2, 1991, p.113-131. -+ -+.TP -+o -+See also: -+M. Shreedhar and George Varghese "Efficient Fair -+Queuing using Deficit Round Robin", Proc. SIGCOMM 95. -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHOR -+Alexey N. Kuznetsov, . This manpage maintained by -+bert hubert -+ -+ -diff -Naur iproute2-orig/debian/tc-tbf.8 iproute2/debian/tc-tbf.8 ---- iproute2-orig/debian/tc-tbf.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/tc-tbf.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,138 @@ -+.TH TC 8 "13 December 2001" "iproute2" "Linux" -+.SH NAME -+tbf \- Token Bucket Filter -+.SH SYNOPSIS -+.B tc qdisc ... tbf rate -+rate -+.B burst -+bytes/cell -+.B ( latency -+ms -+.B | limit -+bytes -+.B ) [ mpu -+bytes -+.B [ peakrate -+rate -+.B mtu -+bytes/cell -+.B ] ] -+.P -+burst is also known as buffer and maxburst. mtu is also known as minburst. -+.SH DESCRIPTION -+ -+The Token Bucket Filter is a classless queueing discipline available for -+traffic control with the -+.BR tc (8) -+command. -+ -+TBF is a pure shaper and never schedules traffic. It is non-work-conserving and may throttle -+itself, although packets are available, to ensure that the configured rate is not exceeded. -+On all platforms except for Alpha, -+it is able to shape up to 1mbit/s of normal traffic with ideal minimal burstiness, -+sending out data exactly at the configured rates. -+ -+Much higher rates are possible but at the cost of losing the minimal burstiness. In that -+case, data is on average dequeued at the configured rate but may be sent much faster at millisecond -+timescales. Because of further queues living in network adaptors, this is often not a problem. -+ -+Kernels with a higher 'HZ' can achieve higher rates with perfect burstiness. On Alpha, HZ is ten -+times higher, leading to a 10mbit/s limit to perfection. These calculations hold for packets of on -+average 1000 bytes. -+ -+.SH ALGORITHM -+As the name implies, traffic is filtered based on the expenditure of -+.B tokens. -+Tokens roughly correspond to bytes, with the additional constraint that each packet consumes -+some tokens, no matter how small it is. This reflects the fact that even a zero-sized packet occupies -+the link for some time. -+ -+On creation, the TBF is stocked with tokens which correspond to the amount of traffic that can be burst -+in one go. Tokens arrive at a steady rate, until the bucket is full. -+ -+If no tokens are available, packets are queued, up to a configured limit. The TBF now -+calculates the token deficit, and throttles until the first packet in the queue can be sent. -+ -+If it is not acceptable to burst out packets at maximum speed, a peakrate can be configured -+to limit the speed at which the bucket empties. This peakrate is implemented as a second TBF -+with a very small bucket, so that it doesn't burst. -+ -+To achieve perfection, the second bucket may contain only a single packet, which leads to -+the earlier mentioned 1mbit/s limit. -+ -+This limit is caused by the fact that the kernel can only throttle for at minimum 1 'jiffy', which depends -+on HZ as 1/HZ. For perfect shaping, only a single packet can get sent per jiffy - for HZ=100, this means 100 -+packets of on average 1000 bytes each, which roughly corresponds to 1mbit/s. -+ -+.SH PARAMETERS -+See -+.BR tc (8) -+for how to specify the units of these values. -+.TP -+limit or latency -+Limit is the number of bytes that can be queued waiting for tokens to become -+available. You can also specify this the other way around by setting the -+latency parameter, which specifies the maximum amount of time a packet can -+sit in the TBF. The latter calculation takes into account the size of the -+bucket, the rate and possibly the peakrate (if set). These two parameters -+are mutually exclusive. -+.TP -+burst -+Also known as buffer or maxburst. -+Size of the bucket, in bytes. This is the maximum amount of bytes that tokens can be available for instantaneously. -+In general, larger shaping rates require a larger buffer. For 10mbit/s on Intel, you need at least 10kbyte buffer -+if you want to reach your configured rate! -+ -+If your buffer is too small, packets may be dropped because more tokens arrive per timer tick than fit in your bucket. -+The minimum buffer size can be calculated by dividing the rate by HZ. -+ -+Token usage calculations are performed using a table which by default has a resolution of 8 packets. -+This resolution can be changed by specifying the -+.B cell -+size with the burst. For example, to specify a 6000 byte buffer with a 16 -+byte cell size, set a burst of 6000/16. You will probably never have to set -+this. Must be an integral power of 2. -+.TP -+mpu -+A zero-sized packet does not use zero bandwidth. For ethernet, no packet uses less than 64 bytes. The Minimum Packet Unit -+determines the minimal token usage (specified in bytes) for a packet. Defaults to zero. -+.TP -+rate -+The speed knob. See remarks above about limits! See -+.BR tc (8) -+for units. -+.PP -+Furthermore, if a peakrate is desired, the following parameters are available: -+ -+.TP -+peakrate -+Maximum depletion rate of the bucket. Limited to 1mbit/s on Intel, 10mbit/s on Alpha. The peakrate does -+not need to be set, it is only necessary if perfect millisecond timescale shaping is required. -+ -+.TP -+mtu/minburst -+Specifies the size of the peakrate bucket. For perfect accuracy, should be set to the MTU of the interface. -+If a peakrate is needed, but some burstiness is acceptable, this size can be raised. A 3000 byte minburst -+allows around 3mbit/s of peakrate, given 1000 byte packets. -+ -+Like the regular burstsize you can also specify a -+.B cell -+size. -+.SH EXAMPLE & USAGE -+ -+To attach a TBF with a sustained maximum rate of 0.5mbit/s, a peakrate of 1.0mbit/s, -+a 5kilobyte buffer, with a pre-bucket queue size limit calculated so the TBF causes -+at most 70ms of latency, with perfect peakrate behaviour, issue: -+.P -+# tc qdisc add dev eth0 root tbf rate 0.5mbit \\ -+ burst 5kb latency 70ms peakrate 1mbit \\ -+ minburst 1540 -+ -+.SH SEE ALSO -+.BR tc (8) -+ -+.SH AUTHOR -+Alexey N. Kuznetsov, . This manpage maintained by -+bert hubert -+ -+ -diff -Naur iproute2-orig/debian/tc.8 iproute2/debian/tc.8 ---- iproute2-orig/debian/tc.8 1969-12-31 16:00:00.000000000 -0800 -+++ iproute2/debian/tc.8 2004-05-21 00:09:38.000000000 -0700 -@@ -0,0 +1,348 @@ -+.TH TC 8 "16 December 2001" "iproute2" "Linux" -+.SH NAME -+tc \- show / manipulate traffic control settings -+.SH SYNOPSIS -+.B tc qdisc [ add | change | replace | link ] dev -+DEV -+.B -+[ parent -+qdisc-id -+.B | root ] -+.B [ handle -+qdisc-id ] qdisc -+[ qdisc specific parameters ] -+.P -+ -+.B tc class [ add | change | replace ] dev -+DEV -+.B parent -+qdisc-id -+.B [ classid -+class-id ] qdisc -+[ qdisc specific parameters ] -+.P -+ -+.B tc filter [ add | change | replace ] dev -+DEV -+.B [ parent -+qdisc-id -+.B | root ] protocol -+protocol -+.B prio -+priority filtertype -+[ filtertype specific parameters ] -+.B flowid -+flow-id -+ -+.B tc [-s | -d ] qdisc show [ dev -+DEV -+.B ] -+.P -+.B tc [-s | -d ] class show dev -+DEV -+.P -+.B tc filter show dev -+DEV -+ -+.SH DESCRIPTION -+.B Tc -+is used to configure Traffic Control in the Linux kernel. Traffic Control consists -+of the following: -+ -+.TP -+SHAPING -+When traffic is shaped, its rate of transmission is under control. Shaping may -+be more than lowering the available bandwidth - it is also used to smooth out -+bursts in traffic for better network behaviour. Shaping occurs on egress. -+ -+.TP -+SCHEDULING -+By scheduling the transmission of packets it is possible to improve interactivity -+for traffic that needs it while still guaranteeing bandwidth to bulk transfers. Reordering -+is also called prioritizing, and happens only on egress. -+ -+.TP -+POLICING -+Where shaping deals with transmission of traffic, policing pertains to traffic -+arriving. Policing thus occurs on ingress. -+ -+.TP -+DROPPING -+Traffic exceeding a set bandwidth may also be dropped forthwith, both on -+ingress and on egress. -+ -+.P -+Processing of traffic is controlled by three kinds of objects: qdiscs, -+classes and filters. -+ -+.SH QDISCS -+.B qdisc -+is short for 'queueing discipline' and it is elementary to -+understanding traffic control. Whenever the kernel needs to send a -+packet to an interface, it is -+.B enqueued -+to the qdisc configured for that interface. Immediately afterwards, the kernel -+tries to get as many packets as possible from the qdisc, for giving them -+to the network adaptor driver. -+ -+A simple QDISC is the 'pfifo' one, which does no processing at all and is a pure -+First In, First Out queue. It does however store traffic when the network interface -+can't handle it momentarily. -+ -+.SH CLASSES -+Some qdiscs can contain classes, which contain further qdiscs - traffic may -+then be enqueued in any of the inner qdiscs, which are within the -+.B classes. -+When the kernel tries to dequeue a packet from such a -+.B classful qdisc -+it can come from any of the classes. A qdisc may for example prioritize -+certain kinds of traffic by trying to dequeue from certain classes -+before others. -+ -+.SH FILTERS -+A -+.B filter -+is used by a classful qdisc to determine in which class a packet will -+be enqueued. Whenever traffic arrives at a class with subclasses, it needs -+to be classified. Various methods may be employed to do so, one of these -+are the filters. All filters attached to the class are called, until one of -+them returns with a verdict. If no verdict was made, other criteria may be -+available. This differs per qdisc. -+ -+It is important to notice that filters reside -+.B within -+qdiscs - they are not masters of what happens. -+ -+.SH CLASSLESS QDISCS -+The classless qdiscs are: -+.TP -+[p|b]fifo -+Simplest usable qdisc, pure First In, First Out behaviour. Limited in -+packets or in bytes. -+.TP -+pfifo_fast -+Standard qdisc for 'Advanced Router' enabled kernels. Consists of a three-band -+queue which honors Type of Service flags, as well as the priority that may be -+assigned to a packet. -+.TP -+red -+Random Early Detection simulates physical congestion by randomly dropping -+packets when nearing configured bandwidth allocation. Well suited to very -+large bandwidth applications. -+.TP -+sfq -+Stochastic Fairness Queueing reorders queued traffic so each 'session' -+gets to send a packet in turn. -+.TP -+tbf -+The Token Bucket Filter is suited for slowing traffic down to a precisely -+configured rate. Scales well to large bandwidths. -+.SH CONFIGURING CLASSLESS QDISCS -+In the absence of classful qdiscs, classless qdiscs can only be attached at -+the root of a device. Full syntax: -+.P -+.B tc qdisc add dev -+DEV -+.B root -+QDISC QDISC-PARAMETERS -+ -+To remove, issue -+.P -+.B tc qdisc del dev -+DEV -+.B root -+ -+The -+.B pfifo_fast -+qdisc is the automatic default in the absence of a configured qdisc. -+ -+.SH CLASSFUL QDISCS -+The classful qdiscs are: -+.TP -+CBQ -+Class Based Queueing implements a rich linksharing hierarchy of classes. -+It contains shaping elements as well as prioritizing capabilities. Shaping is -+performed using link idle time calculations based on average packet size and -+underlying link bandwidth. The latter may be ill-defined for some interfaces. -+.TP -+HTB -+The Hierarchy Token Bucket implements a rich linksharing hierarchy of -+classes with an emphasis on conforming to existing practices. HTB facilitates -+guaranteeing bandwidth to classes, while also allowing specification of upper -+limits to inter-class sharing. It contains shaping elements, based on TBF and -+can prioritize classes. -+.TP -+PRIO -+The PRIO qdisc is a non-shaping container for a configurable number of -+classes which are dequeued in order. This allows for easy prioritization -+of traffic, where lower classes are only able to send if higher ones have -+no packets available. To facilitate configuration, Type Of Service bits are -+honored by default. -+.SH THEORY OF OPERATION -+Classes form a tree, where each class has a single parent. -+A class may have multiple children. Some qdiscs allow for runtime addition -+of classes (CBQ, HTB) while others (PRIO) are created with a static number of -+children. -+ -+Qdiscs which allow dynamic addition of classes can have zero or more -+subclasses to which traffic may be enqueued. -+ -+Furthermore, each class contains a -+.B leaf qdisc -+which by default has -+.B pfifo -+behaviour though another qdisc can be attached in place. This qdisc may again -+contain classes, but each class can have only one leaf qdisc. -+ -+When a packet enters a classful qdisc it can be -+.B classified -+to one of the classes within. Three criteria are available, although not all -+qdiscs will use all three: -+.TP -+tc filters -+If tc filters are attached to a class, they are consulted first -+for relevant instructions. Filters can match on all fields of a packet header, -+as well as on the firewall mark applied by ipchains or iptables. See -+.BR tc-filters (8). -+.TP -+Type of Service -+Some qdiscs have built in rules for classifying packets based on the TOS field. -+.TP -+skb->priority -+Userspace programs can encode a class-id in the 'skb->priority' field using -+the SO_PRIORITY option. -+.P -+Each node within the tree can have its own filters but higher level filters -+may also point directly to lower classes. -+ -+If classification did not succeed, packets are enqueued to the leaf qdisc -+attached to that class. Check qdisc specific manpages for details, however. -+ -+.SH NAMING -+All qdiscs, classes and filters have IDs, which can either be specified -+or be automatically assigned. -+ -+IDs consist of a major number and a minor number, separated by a colon. -+ -+.TP -+QDISCS -+A qdisc, which potentially can have children, -+gets assigned a major number, called a 'handle', leaving the minor -+number namespace available for classes. The handle is expressed as '10:'. -+It is customary to explicitly assign a handle to qdiscs expected to have -+children. -+ -+.TP -+CLASSES -+Classes residing under a qdisc share their qdisc major number, but each have -+a separate minor number called a 'classid' that has no relation to their -+parent classes, only to their parent qdisc. The same naming custom as for -+qdiscs applies. -+ -+.TP -+FILTERS -+Filters have a three part ID, which is only needed when using a hashed -+filter hierarchy, for which see -+.BR tc-filters (8). -+.SH UNITS -+All parameters accept a floating point number, possibly followed by a unit. -+.P -+Bandwidths or rates can be specified in: -+.TP -+kbps -+Kilobytes per second -+.TP -+mbps -+Megabytes per second -+.TP -+kbit -+Kilobits per second -+.TP -+mbit -+Megabits per second -+.TP -+bps or a bare number -+Bits per second -+.P -+Amounts of data can be specified in: -+.TP -+kb or k -+Kilobytes -+.TP -+mb or m -+Megabytes -+.TP -+mbit -+Megabits -+.TP -+kbit -+Kilobits -+.TP -+b or a bare number -+Bytes. -+.P -+Lengths of time can be specified in: -+.TP -+s, sec or secs -+Whole seconds -+.TP -+ms, msec or msecs -+Milliseconds -+.TP -+us, usec, usecs or a bare number -+Microseconds. -+ -+.SH TC COMMANDS -+The following commands are available for qdiscs, classes and filter: -+.TP -+add -+Add a qdisc, class or filter to a node. For all entities, a -+.B parent -+must be passed, either by passing its ID or by attaching directly to the root of a device. -+When creating a qdisc or a filter, it can be named with the -+.B handle -+parameter. A class is named with the -+.B classid -+parameter. -+ -+.TP -+remove -+A qdisc can be removed by specifying its handle, which may also be 'root'. All subclasses and their leaf qdiscs -+are automatically deleted, as well as any filters attached to them. -+ -+.TP -+change -+Some entities can be modified 'in place'. Shares the syntax of 'add', with the exception -+that the handle cannot be changed and neither can the parent. In other words, -+.B -+change -+cannot move a node. -+ -+.TP -+replace -+Performs a nearly atomic remove/add on an existing node id. If the node does not exist yet -+it is created. -+ -+.TP -+link -+Only available for qdiscs and performs a replace where the node -+must exist already. -+ -+ -+.SH HISTORY -+.B tc -+was written by Alexey N. Kuznetsov and added in Linux 2.2. -+.SH SEE ALSO -+.BR tc-cbq (8), -+.BR tc-htb (8), -+.BR tc-sfq (8), -+.BR tc-red (8), -+.BR tc-tbf (8), -+.BR tc-pfifo (8), -+.BR tc-bfifo (8), -+.BR tc-pfifo_fast (8), -+.BR tc-filters (8) -+ -+.SH AUTHOR -+Manpage maintained by bert hubert (ahu@ds9a.nl) -+ -diff -Naur iproute2-orig/include/rt_names.h iproute2/include/rt_names.h ---- iproute2-orig/include/rt_names.h 2000-04-16 10:42:50.000000000 -0700 -+++ iproute2/include/rt_names.h 2004-05-21 00:16:36.000000000 -0700 -@@ -1,6 +1,8 @@ - #ifndef RT_NAMES_H_ - #define RT_NAMES_H_ 1 - -+#include -+ - const char* rtnl_rtprot_n2a(int id, char *buf, int len); - const char* rtnl_rtscope_n2a(int id, char *buf, int len); - const char* rtnl_rttable_n2a(int id, char *buf, int len); -diff -Naur iproute2-orig/lib/rt_names.c iproute2/lib/rt_names.c ---- iproute2-orig/lib/rt_names.c 2000-04-16 10:42:52.000000000 -0700 -+++ iproute2/lib/rt_names.c 2004-05-21 00:16:36.000000000 -0700 -@@ -16,6 +16,7 @@ - #include - #include - #include -+#include - - static void rtnl_tab_initialize(char *file, char **tab, int size) - { -diff -Naur iproute2-orig/misc/arpd.c iproute2/misc/arpd.c ---- iproute2-orig/misc/arpd.c 2002-01-09 20:02:26.000000000 -0800 -+++ iproute2/misc/arpd.c 2004-05-21 00:16:36.000000000 -0700 -@@ -16,7 +16,7 @@ - #include - #include - #include --#include -+#include - #include - #include - #include -@@ -28,6 +28,7 @@ - #include - #include - #include -+#include - #include - #include - #include -- cgit v0.12