NG_PPP(4) | Device Drivers Manual | NG_PPP(4) |
ng_ppp
— PPP
protocol netgraph node type
#include
<sys/types.h>
#include
<netgraph/ng_ppp.h>
The ppp
node type performs multiplexing
for the PPP protocol. It handles only packets that contain data, and
forwards protocol negotiation and control packets to a separate controlling
entity (e.g., a user-land daemon). This approach combines the fast dispatch
of kernel implementations with the configuration flexibility of a user-land
implementations. The PPP node type directly supports multi-link PPP, Van
Jacobson compression, PPP compression, PPP encryption, and the IP, IPX, and
AppleTalk protocols. A single PPP node corresponds to one PPP multi-link
bundle.
There is a separate hook for each PPP link in the bundle, plus
several hooks corresponding to the directly supported protocols. For
compression and encryption, separate attached nodes are required to do the
actual work. The node type used will of course depend on the algorithm
negotiated. There is also a bypass
hook which is
used to handle any protocol not directly supported by the node. This
includes all of the control protocols: LCP, IPCP, CCP, etc. Typically this
node is connected to a user-land daemon via a ng_socket(4)
type node.
In general, the PPP node enables a specific link or functionality
when (a) a NGM_PPP_SET_CONFIG
message has been
received which enables it, and (b) the corresponding hook(s) are connected.
This allows the controlling entity to use either method (a) or (b) (or both)
to control the node's behavior. When a link is connected but disabled,
traffic can still flow on the link via the bypass
hook (see below).
During normal operation, the individual PPP links are connected to
hooks link0
, link1
, etc. Up
to NG_PPP_MAX_LINKS
links are supported. These
device-independent hooks transmit and receive full PPP frames, which include
the PPP protocol, address, control, and information fields, but no checksum
or other link-specific fields.
On outgoing frames, when protocol compression has been enabled and the protocol number is suitable for compression, the protocol field will be compressed (i.e., sent as one byte instead of two). Either compressed or uncompressed protocol fields are accepted on incoming frames. Similarly, if address and control field compression has been enabled for the link, the address and control fields will be omitted (except for LCP frames as required by the standards). Incoming frames have the address and control fields stripped automatically if present.
Since all negotiation is handled outside the PPP node, the links
should not be connected and enabled until the corresponding link has reached
the network phase (i.e., LCP negotiation and authentication have completed
successfully) and the PPP node has been informed of the link parameters via
the NGM_PPP_LINK_CONFIG
message.
When a link is connected but disabled, all received frames are
forwarded directly out the bypass
hook, and
conversely, frames may be transmitted via the bypass
hook as well. This mode is appropriate for the link authentication phase. As
soon as the link is enabled, the PPP node will begin processing frames
received on the link.
Compression is supported via two hooks,
compress
and decompress
.
Compression and decompression can be enabled by toggling the
enableCompression and
enableDecompression fields of the node configuration
structure. (See below.) If enableCompression is set to
NG_PPP_COMPRESS_SIMPLE
, then all outgoing frames are
sent to the compress
hook and all packets received
on this hook are expected to be compressed, so the COMPD tag is put on them
unconditionally. If enableCompression is set to
NG_PPP_COMPRESS_FULL
, then packets received on the
compress
hook are resent as is. The compressor node
should put the tag, if the packet was compressed. If
enableDecompression is set to
NG_PPP_DECOMPRESS_SIMPLE
, then the node will sent to
the decompress
hook only those frames, that are
marked with the COMPD tag. If enableDecompression is
set to NG_PPP_DECOMPRESS_FULL
, then the node will
sent all incoming packets to the decompress
hook.
Compression and decompression can be completely disabled by setting the
enableCompression and
enableDecompression fields to the
NG_PPP_COMPRESS_NONE
and
NG_PPP_DECOMPRESS_NONE
, respectively.
Encryption works exactly analogously via the
encrypt
and decrypt
nodes.
Data is always compressed before being encrypted, and decrypted before being
decompressed.
Only bundle-level compression and encryption is directly supported; link-level compression and encryption can be handled transparently by downstream nodes.
When all of the vjc_ip
,
vjc_vjcomp
, vjc_vjuncomp
,
and vjc_vjip
hooks are connected, and the
corresponding configuration flag is enabled, Van Jacobson compression and/or
decompression will become active. Normally these hooks connect to the
corresponding hooks of a single ng_vjc(4) node. The PPP
node is compatible with the “pass through” modes of the
ng_vjc(4) node type.
When a frame is received on a link with an unsupported protocol,
or a protocol which is disabled or for which the corresponding hook is
unconnected, the PPP node forwards the frame out the
bypass
hook, prepended with a four byte prefix. This
first two bytes of the prefix indicate the link number on which the frame
was received (in network order). For such frames received over the bundle
(i.e., encapsulated in the multi-link protocol), the special link number
NG_PPP_BUNDLE_LINKNUM
is used. After the two byte
link number is the two byte PPP protocol number (also in network order). The
PPP protocol number is two bytes long even if the original frame was
protocol compressed.
Conversely, any data written to the bypass
hook is assumed to be in this same format. The four byte header is stripped
off, the PPP protocol number is prepended (possibly compressed), and the
frame is delivered over the desired link. If the link number is
NG_PPP_BUNDLE_LINKNUM
the frame will be delivered
over the multi-link bundle; or, if multi-link is disabled, over the (single)
PPP link.
Typically when the controlling entity receives an unexpected
packet on the bypass
hook it responds either by
dropping the frame (if it is not ready for the protocol) or with an LCP
protocol reject (if it does not recognize or expect the protocol).
To enable multi-link PPP, the corresponding configuration flag must be set and at least one link connected. The PPP node will not allow more than one link to be connected if multi-link is not enabled, nor will it allow certain multi-link settings to be changed while multi-link operation is active (e.g., short sequence number header format).
Since packets are sent as fragments across multiple individual
links, it is important that when a link goes down the PPP node is notified
immediately, either by disconnecting the corresponding hook or disabling the
link via the NGM_PPP_SET_CONFIG
control message.
Each link has configuration parameters for latency (specified in milliseconds) and bandwidth (specified in tens of bytes per second). The PPP node can be configured for round-robin or optimized packet delivery.
When configured for round-robin delivery, the latency and bandwidth values are ignored and the PPP node simply sends each frame as a single fragment, alternating frames across all the links in the bundle. This scheme has the advantage that even if one link fails silently, some packets will still get through. It has the disadvantage of sub-optimal overall bundle latency, which is important for interactive response time, and sub-optimal overall bundle bandwidth when links with different bandwidths exist in the same bundle.
When configured for optimal delivery, the PPP node distributes the packet across the links in a way that minimizes the time it takes for the completed packet to be received by the far end. This involves taking into account each link's latency, bandwidth, and current queue length. Therefore these numbers should be configured as accurately as possible. The algorithm does require some computation, so may not be appropriate for very slow machines and/or very fast links.
As a special case, if all links have identical latency and bandwidth, then the above algorithm is disabled (because it is unnecessary) and the PPP node simply fragments frames into equal sized portions across all of the links.
This node type supports the following hooks:
<N>
ip
hookvjcomp
hookvjuncomp
hookvjip
hookThis node type supports the generic control messages, plus the following:
NGM_PPP_SET_CONFIG
(setconfig
)struct ng_ppp_node_conf
as an
argument:
/* Per-link config structure */ struct ng_ppp_link_conf { u_char enableLink; /* enable this link */ u_char enableProtoComp;/* enable protocol field compression */ u_char enableACFComp; /* enable addr/ctrl field compression */ uint16_t mru; /* peer MRU */ uint32_t latency; /* link latency (in milliseconds) */ uint32_t bandwidth; /* link bandwidth (in bytes/sec/10) */ }; /* Bundle config structure */ struct ng_ppp_bund_conf { uint16_t mrru; /* multilink peer MRRU */ u_char enableMultilink; /* enable multilink */ u_char recvShortSeq; /* recv multilink short seq # */ u_char xmitShortSeq; /* xmit multilink short seq # */ u_char enableRoundRobin; /* xmit whole packets */ u_char enableIP; /* enable IP data flow */ u_char enableIPv6; /* enable IPv6 data flow */ u_char enableAtalk; /* enable AppleTalk data flow */ u_char enableIPX; /* enable IPX data flow */ u_char enableCompression; /* enable PPP compression */ u_char enableDecompression; /* enable PPP decompression */ u_char enableEncryption; /* enable PPP encryption */ u_char enableDecryption; /* enable PPP decryption */ u_char enableVJCompression; /* enable VJ compression */ u_char enableVJDecompression; /* enable VJ decompression */ }; struct ng_ppp_node_conf { struct ng_ppp_bund_conf bund; struct ng_ppp_link_conf links[NG_PPP_MAX_LINKS]; };
NGM_PPP_GET_CONFIG
(getconfig
)struct
ng_ppp_node_conf
.NGM_PPP_GET_LINK_STATS
(getstats
)struct ng_ppp_link_stat
containing statistics for
the corresponding link. Here NG_PPP_BUNDLE_LINKNUM
is a valid link number corresponding to the multi-link bundle.NGM_PPP_GET_LINK_STATS64
(getstats64
)struct
ng_ppp_link_stat64
containing 64bit counters.NGM_PPP_CLR_LINK_STATS
(clrstats
)NGM_PPP_GETCLR_LINK_STATS
(getclrstats
)NGM_PPP_GET_LINK_STATS
, but also
atomically clears the statistics as well.NGM_PPP_GETCLR_LINK_STATS64
(getclrstats64
)struct
ng_ppp_link_stat64
containing 64bit counters.This node type also accepts the control messages accepted by the
ng_vjc(4) node type. When received, these messages are
simply forwarded to the adjacent ng_vjc(4) node, if any.
This is particularly useful when the individual PPP links are able to
generate NGM_VJC_RECV_ERROR
messages (see
ng_vjc(4) for a description).
This node shuts down upon receipt of a
NGM_SHUTDOWN
control message, or when all hooks have
been disconnected.
netgraph(4), ng_async(4), ng_iface(4), ng_mppc(4), ng_pppoe(4), ng_vjc(4), ngctl(8)
W. Simpson, The Point-to-Point Protocol (PPP), RFC 1661.
K. Sklower, B. Lloyd, G. McGregor, D. Carr, and T. Coradetti, The PPP Multilink Protocol (MP), RFC 1990.
The ng_ppp
node type was implemented in
FreeBSD 4.0.
Archie Cobbs <archie@FreeBSD.org>
November 13, 2012 | Debian |