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download PDF document: ng_pipe.4.pdf

NG_PIPE(4) FreeBSD Kernel Interfaces Manual NG_PIPE(4)
NAME ng_pipe - Traffic manipulating netgraph node type
SYNOPSIS #include <netgraph/ng_pipe.h>
DESCRIPTION The pipe node type manipulates traffic by emulating bandwidth and delay, as well as random packet losses.
HOOKS This node type supports the following hooks:
upper Hook leading to upper layer protocols.
lower Hook leading to lower layer protocols.
Traffic flowing from upper to lower is considered downstream traffic. Traffic flowing from lower to upper is considered upstream traffic.
MODE OF OPERATION Data received on a hook - both in upstream and downstream direction - is put into an inbound queue. If inbound queue is full, discard one frame depending on dropping policy (from the head or from the tail of the queue).
There are three mutually exclusive modes for the input queue:
First In First Out (FIFO) A single queue holds packets in chronological order.
Weighted fair queuing (WFQ) There are multiple queues for different traffic flows (based on IPv4 IPs). The longest queue is truncated if necessary. This approach assumes that the stalling flow is the flow with the most packets currently on hold.
Deficit Round Robin (DRR) This mode is similar to WFQ, but packets are not taken out in strict chronological order. In principle oldest packets come first, but not too many packets from the same flow.
It is possible to configure a duplication probability. As the dice decides, the currently active packet stays in the queue while a copy of the packet is sent out. Nothing prevents a packet from being duplicated multiple times.
Packets are dropped with an increasing probability depending on the size of the packet, if a ber (bit error rate) is configured.
Surviving packets are delayed by the time the packet would need to travel through a link of the configured bandwidth. If this outbound queue is full, the packet is dropped.
CONTROL MESSAGES This node type supports the generic control messages and the following specific messages. NGM_PIPE_GET_CFG (getcfg) Return current node configuration as struct ng_pipe_cfg
struct ng_pipe_cfg { u_int64_t bandwidth; /* bits per second */ u_int64_t delay; /* additional delay, usec */ u_int32_t header_offset; /* offset of IP header in bytes */ u_int32_t overhead; /* assumed L2 overhead in bytes */ struct ng_pipe_hookcfg downstream; struct ng_pipe_hookcfg upstream; };
/* Config structure for one hook */ struct ng_pipe_hookcfg { u_int64_t bandwidth; /* bits per second */ u_int64_t ber; /* avg. interval between bit errors (1 / BER) */ u_int32_t qin_size_limit; /* number of queue items */ u_int32_t qout_size_limit; /* number of queue items */ u_int32_t duplicate; /* probability in % */ u_int32_t fifo; /* 0 = off, 1 = on */ u_int32_t drr; /* 0 = off, 1 = 2048 bytes, or x bytes */ u_int32_t wfq; /* 0 = off, 1 = on */ u_int32_t droptail; /* 0 = off, 1 = on */ u_int32_t drophead; /* 0 = off, 1 = on */ };
NGM_PIPE_GET_STATS (getstats) Return node statistics as struct ng_pipe_stats
/* Statistics structure for one hook */ struct ng_pipe_hookstat { u_int64_t fwd_octets; u_int64_t fwd_frames; u_int64_t in_disc_octets; u_int64_t in_disc_frames; u_int64_t out_disc_octets; u_int64_t out_disc_frames; };
/* Statistics structure returned by NGM_PIPE_GET_STATS */ struct ng_pipe_stats { struct ng_pipe_hookstat downstream; struct ng_pipe_hookstat upstream; };
NGM_PIPE_CLR_STATS (clrstats) Clear node statistics.
NGM_PIPE_GETCLR_STATS (getclrstats) Atomically return and clear node statistics.
NGM_PIPE_GET_RUN (getrun) Return node statistics as struct ng_pipe_run
/* Runtime structure for one hook */ struct ng_pipe_hookrun { u_int32_t fifo_queues; u_int32_t qin_octets; u_int32_t qin_frames; struct ng_pipe_hookrun upstream; };
SHUTDOWN This node shuts down upon receipt of a NGM_SHUTDOWN control message, or when all hooks have been disconnected.
EXAMPLES Limit outgoing data rate over fxp0 Ethernet interface to 20Mbps in fifo mode and incoming to 50kbps in drr mode and 2% duplicate probability.
/usr/sbin/ngctl -f- <<-SEQ mkpeer fxp0: pipe lower lower name fxp0:lower fxp0_pipe connect fxp0: fxp0_pipe: upper upper msg fxp0_pipe: setcfg { downstream={ bandwidth=20000000 fifo=1 } } msg fxp0_pipe: setcfg { upstream={ bandwidth=500000 drr=1 duplicate=2 } } SEQ
SEE ALSO netgraph(4), ngctl(8)
AUTHORS Lutz Donnerhacke <lutz@donnerhacke.de> (man page)
BUGS Error handling for memory issues is missing. If kernel memory cannot be allocated immediately, a kernel panic will be triggered. Same happens if an mbuf is fragmented within the transport headers.
FreeBSD 14.2-RELEASE October 17, 2019 FreeBSD 14.2-RELEASE