From 597cc5edd624525563e6549dc0057eca2a51c81d Mon Sep 17 00:00:00 2001 From: Micah Anderson Date: Tue, 11 Nov 2014 13:30:46 -0500 Subject: upgrade to new version --- doc/zmq_epgm.txt | 163 +++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 163 insertions(+) create mode 100644 doc/zmq_epgm.txt (limited to 'doc/zmq_epgm.txt') diff --git a/doc/zmq_epgm.txt b/doc/zmq_epgm.txt new file mode 100644 index 0000000..f6aacda --- /dev/null +++ b/doc/zmq_epgm.txt @@ -0,0 +1,163 @@ +zmq_pgm(7) +========== + + +NAME +---- +zmq_pgm - 0MQ reliable multicast transport using PGM + + +SYNOPSIS +-------- +PGM (Pragmatic General Multicast) is a protocol for reliable multicast +transport of data over IP networks. + + +DESCRIPTION +----------- +0MQ implements two variants of PGM, the standard protocol where PGM datagrams +are layered directly on top of IP datagrams as defined by RFC 3208 (the 'pgm' +transport) and "Encapsulated PGM" or EPGM where PGM datagrams are encapsulated +inside UDP datagrams (the 'epgm' transport). + +The 'pgm' and 'epgm' transports can only be used with the 'ZMQ_PUB' and +'ZMQ_SUB' socket types. + +Further, PGM sockets are rate limited by default. For details, refer to the +'ZMQ_RATE', and 'ZMQ_RECOVERY_IVL' options documented in +linkzmq:zmq_setsockopt[3]. + +CAUTION: The 'pgm' transport implementation requires access to raw IP sockets. +Additional privileges may be required on some operating systems for this +operation. Applications not requiring direct interoperability with other PGM +implementations are encouraged to use the 'epgm' transport instead which does +not require any special privileges. + + +ADDRESSING +---------- +A 0MQ endpoint is a string consisting of a 'transport'`://` followed by an +'address'. The 'transport' specifies the underlying protocol to use. The +'address' specifies the transport-specific address to connect to. + +For the PGM transport, the transport is `pgm`, and for the EPGM protocol the +transport is `epgm`. The meaning of the 'address' part is defined below. + + +Connecting a socket +~~~~~~~~~~~~~~~~~~~ +When connecting a socket to a peer address using _zmq_connect()_ with the 'pgm' +or 'epgm' transport, the 'endpoint' shall be interpreted as an 'interface' +followed by a semicolon, followed by a 'multicast address', followed by a colon +and a port number. + +An 'interface' may be specified by either of the following: + +* The interface name as defined by the operating system. +* The primary IPv4 address assigned to the interface, in its numeric + representation. + +NOTE: Interface names are not standardised in any way and should be assumed to +be arbitrary and platform dependent. On Win32 platforms no short interface +names exist, thus only the primary IPv4 address may be used to specify an +'interface'. The 'interface' part can be omitted, in that case the default one +will be selected. + +A 'multicast address' is specified by an IPv4 multicast address in its numeric +representation. + + +WIRE FORMAT +----------- +Consecutive PGM datagrams are interpreted by 0MQ as a single continuous stream +of data where 0MQ messages are not necessarily aligned with PGM datagram +boundaries and a single 0MQ message may span several PGM datagrams. This stream +of data consists of 0MQ messages encapsulated in 'frames' as described in +linkzmq:zmq_tcp[7]. + + +PGM datagram payload +~~~~~~~~~~~~~~~~~~~~ +The following ABNF grammar represents the payload of a single PGM datagram as +used by 0MQ: + +.... +datagram = (offset data) +offset = 2OCTET +data = *OCTET +.... + +In order for late joining consumers to be able to identify message boundaries, +each PGM datagram payload starts with a 16-bit unsigned integer in network byte +order specifying either the offset of the first message 'frame' in the datagram +or containing the value `0xFFFF` if the datagram contains solely an +intermediate part of a larger message. + +Note that offset specifies where the first message begins rather than the first +message part. Thus, if there are trailing message parts at the beginning of +the packet the offset ignores them and points to first initial message part +in the packet. + +The following diagram illustrates the layout of a single PGM datagram payload: + +.... ++------------------+----------------------+ +| offset (16 bits) | data | ++------------------+----------------------+ +.... + +The following diagram further illustrates how three example 0MQ frames are laid +out in consecutive PGM datagram payloads: + +.... +First datagram payload ++--------------+-------------+---------------------+ +| Frame offset | Frame 1 | Frame 2, part 1 | +| 0x0000 | (Message 1) | (Message 2, part 1) | ++--------------+-------------+---------------------+ + +Second datagram payload ++--------------+---------------------+ +| Frame offset | Frame 2, part 2 | +| 0xFFFF | (Message 2, part 2) | ++--------------+---------------------+ + +Third datagram payload ++--------------+----------------------------+-------------+ +| Frame offset | Frame 2, final 8 bytes | Frame 3 | +| 0x0008 | (Message 2, final 8 bytes) | (Message 3) | ++--------------+----------------------------+-------------+ +.... + + +EXAMPLE +------- +.Connecting a socket +---- +// Connecting to the multicast address 239.192.1.1, port 5555, +// using the first Ethernet network interface on Linux +// and the Encapsulated PGM protocol +rc = zmq_connect(socket, "epgm://eth0;239.192.1.1:5555"); +assert (rc == 0); +// Connecting to the multicast address 239.192.1.1, port 5555, +// using the network interface with the address 192.168.1.1 +// and the standard PGM protocol +rc = zmq_connect(socket, "pgm://192.168.1.1;239.192.1.1:5555"); +assert (rc == 0); +---- + + +SEE ALSO +-------- +linkzmq:zmq_connect[3] +linkzmq:zmq_setsockopt[3] +linkzmq:zmq_tcp[7] +linkzmq:zmq_ipc[7] +linkzmq:zmq_inproc[7] +linkzmq:zmq[7] + + +AUTHORS +------- +This page was written by the 0MQ community. To make a change please +read the 0MQ Contribution Policy at . -- cgit v1.2.3