# Traffic shaper sub-class # **** License **** # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License version 2 as # published by the Free Software Foundation. # # 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. # # This code was originally developed by Vyatta, Inc. # Portions created by Vyatta are Copyright (C) 2008 Vyatta, Inc. # All Rights Reserved. # **** End License **** package Vyatta::Qos::ShaperClass; use strict; use warnings; require Vyatta::Config; use Vyatta::Qos::Match; use Vyatta::Qos::Util qw/getDsfield getRate/; use constant { AVGPKT => 1024, # Average packet size for RED calculations LATENCY => 250, # Worstcase latency for RED (ms) MINQUANTUM => 1000, # Lowest allowable HTB quantum }; sub new { my ( $that, $config, $id ) = @_; my $class = ref($that) || $that; my $self = {}; $self->{id} = $id; bless $self, $class; if ($config) { my $level = $config->setLevel(); $self->{level} = $level; $self->{_rate} = $config->returnValue("bandwidth"); $self->{_priority} = $config->returnValue("priority"); $self->{_ceiling} = $config->returnValue("ceiling"); $self->{_burst} = $config->returnValue("burst"); $self->{_limit} = $config->returnValue("queue-limit"); $self->{_qdisc} = $config->returnValue("queue-type"); $self->{_avgpkt} = $config->returnValue("packet-length"); $self->{_latency} = $config->returnValue("latency"); $self->{_quantum} = $config->returnValue("quantum"); $self->{_flows} = $config->returnValue('flows'); $self->{_target} = $config->returnValue('target'); $self->{_interval} = $config->returnValue('interval'); $self->{_cquantum} = $config->returnValue('codel-quantum'); if ( $self->{_target} ) { $self->{_target} *= 1000; } if ( $self->{_interval} ) { $self->{_interval} *= 1000; } $self->{dsmark} = getDsfield( $config->returnValue("set-dscp") ); my @matches = _getMatch("$level match"); $self->{_match} = \@matches; } return $self; } sub _getMatch { my $level = shift; my @matches; my $config = new Vyatta::Config; foreach my $match ( $config->listNodes($level) ) { $config->setLevel("$level $match"); my $match = new Vyatta::Qos::Match($config); if (defined($match)) { push @matches, $match; } } return @matches; } sub matchRules { my ($self) = @_; my $matches = $self->{_match}; return @$matches; } sub _getPercentRate { my ( $rate, $speed ) = @_; return unless defined $rate; # Rate might be a percentage of speed if ( $rate =~ /%$/ ) { my $percent = substr( $rate, 0, length($rate) - 1 ); if ( $percent < 0 || $percent > 100 ) { die "Invalid percentage bandwidth: $percent\n"; } return ( $percent * $speed ) / 100.; } return getRate($rate); } sub prioQdisc { my ( $self, $dev, $rate ) = @_; my $prio_id = 0x4000 + $self->{id}; my $limit = $self->{_limit}; printf "handle %x: prio\n", $prio_id; if ($limit) { foreach my $i (qw/1 2 3/) { printf "qdisc add dev %s parent %x:%x pfifo limit %d\n", $dev, $prio_id, $i, $limit; } } } sub sfqQdisc { my ( $self, $dev, $rate ) = @_; print "sfq"; print " limit $self->{_limit}" if ( $self->{_limit} ); print "\n"; } sub codelQdisc { my ( $self, $dev, $rate ) = @_; print "fq_codel"; print " limit $self->{_limit}" if ( $self->{_limit} ); print " flows $self->{_flows}" if ( $self->{_flows} ); print " target $self->{_target}" if ( $self->{_target} ); print " interval $self->{_interval}" if ( $self->{_interval} ); print " quantum $self->{_cquantum}" if ( $self->{_cquantum} ); print " noecn\n"; } sub sfqValidate { my ( $self, $level ) = @_; my $limit = $self->{_limit}; if ( defined $limit && $limit > 127 ) { print STDERR "Configuration error in: $level\n"; die "queue limit must be between 1 and 127 for queue-type fair-queue\n"; } } sub fifoQdisc { my ( $self, $dev, $rate ) = @_; print "pfifo"; print " limit $self->{_limit}" if ( $self->{_limit} ); print "\n"; } # Red is has way to many configuration options # make some assumptions to make this sane (based on LARTC) # average size = 1000 bytes # latency = 100ms # # Bandwidth (bits/sec) * Latency (ms) # Maximum Threshold = -------------------------------------- # (bytes) 8 bits/byte * 1000 ms/sec # # Minimum Threshold = Maximum Threshold / 3 # Avpkt = Average Packet Length # Burst = ( 2 * MinThreshold + MaxThreshold) / ( 3 * Avpkt ) # Limit = 4 * MaxThreshold # # These are based on Sally Floyd's recommendations: # http://www.icir.org/floyd/REDparameters.txt sub redQsize { my $bw = shift; return ( $bw * LATENCY ) / ( 8 * 1000 ); } sub redQdisc { my ( $self, $dev, $rate ) = @_; my $qmax = ( defined $rate ) ? redQsize($rate) : ( 18 * AVGPKT ); my $qmin = $qmax / 3; $qmin = AVGPKT if $qmin < AVGPKT; my $burst = ( 2 * $qmin + $qmax ) / ( 3 * AVGPKT ); my $limit = $self->{_limit}; my $qlimit = ( defined $limit ) ? ( $limit * AVGPKT ) : ( 4 * $qmax ); printf "red limit %d min %d max %d avpkt %d", $qlimit, $qmin, $qmax, AVGPKT; printf " burst %d probability 0.1 bandwidth %s ecn\n", $burst, $rate; } sub redValidate { my ( $self, $level, $rate ) = @_; my $limit = $self->{_limit}; # packets my $thresh = redQsize($rate); # bytes my $qmax = POSIX::ceil($thresh / AVGPKT); # packets if ( defined($limit) && $limit < $qmax ) { print STDERR "Configuration error in: $level\n"; printf STDERR "The queue limit (%d) is too small, must be %d or more when using random-detect\n", $limit, $qmax; exit 1; } if ( $qmax < 3 ) { my $minbw = ( 3 * AVGPKT * 8 ) / LATENCY; print STDERR "Configuration error in: $level\n"; printf STDERR "Random-detect queue type requires effective bandwidth of %d Kbit/sec or greater\n", $minbw; exit 1; } } my %qdiscOptions = ( 'priority' => \&prioQdisc, 'fair-queue' => \&sfqQdisc, 'fq-codel' => \&codelQdisc, 'random-detect' => \&redQdisc, 'drop-tail' => \&fifoQdisc, ); my %qdiscValidate = ( 'fair-queue' => \&sfqValidate, 'random-detect' => \&redValidate, ); sub rateCheck { my ( $self, $ifspeed, $level ) = @_; my $rate = _getPercentRate( $self->{_rate}, $ifspeed ); if ( $rate > $ifspeed ) { print STDERR "Configuration error in: $level\n"; printf STDERR "The bandwidth reserved for this class (%dKbps) must be less than\n", $rate / 1000; printf STDERR "the bandwidth for the overall policy (%dKbps)\n", $ifspeed / 1000; exit 1; } my $ceil = _getPercentRate( $self->{_ceiling}, $ifspeed ); if ( defined($ceil) && $ceil < $rate ) { print STDERR "Configuration error in: $level\n"; printf STDERR "The bandwidth ceiling for this class (%dKbps) must be greater or equal to\n", $ceil / 1000; printf STDERR "the reserved bandwidth for the class (%dKbps)\n", $rate / 1000; exit 1; } } sub valid_leaf { my ($self, $level, $rate) = @_; my $qtype = $self->{_qdisc}; my $q = $qdiscValidate{$qtype}; return unless $q; $q->( $self, $level, $rate ); } sub get_rate { my ( $self, $speed ) = @_; return _getPercentRate( $self->{_rate}, $speed ); } sub gen_class { my ( $self, $dev, $qdisc, $parent, $speed, $r2q ) = @_; my $rate = _getPercentRate( $self->{_rate}, $speed ); my $ceil = _getPercentRate( $self->{_ceiling}, $speed ); my $quantum = $self->{_quantum}; # Hack to avoid kernel HTB message if quantum is small. # Only occurs if link speed is high and offered bandwidth is small. if ( defined($r2q) && !defined($quantum) && ($rate / 8) / $r2q < MINQUANTUM ) { $quantum = MINQUANTUM; } printf "class add dev %s parent %x:1 classid %x:%x %s", $dev, $parent, $parent, $self->{id}, $qdisc; print " rate $rate" if ($rate); print " ceil $ceil" if ($ceil); print " quantum $quantum" if ($quantum); print " burst $self->{_burst}" if ( $self->{_burst} ); print " prio $self->{_priority}" if ( $self->{_priority} ); print "\n"; } sub gen_leaf { my ( $self, $dev, $parent, $rate ) = @_; my $qtype = $self->{_qdisc}; return unless $qtype; # default is okay my $q = $qdiscOptions{$qtype}; die "Unknown queue-type $qtype\n" unless $q; printf "qdisc add dev %s parent %x:%x ", $dev, $parent, $self->{id}; $q->( $self, $dev, $rate ); } sub dsmarkClass { my ( $self, $parent, $dev ) = @_; printf "class change dev %s classid %x:%x dsmark", $dev, $parent, $self->{id}; if ( $self->{dsmark} ) { print " mask 0 value $self->{dsmark}\n"; } else { print " mask 0xff value 0\n"; } } 1;