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RDMA_CM(7) Librdmacm Programmer's Manual RDMA_CM(7)

NAME

rdma_cm - RDMA communication manager.

SYNOPSIS

#include <rdma/rdma_cma.h>

DESCRIPTION

Used to establish communication over RDMA transports.

NOTES

The RDMA CM is a communication manager used to setup reliable, connected and unreliable datagram data transfers. It provides an RDMA transport neutral interface for establishing connections. The API concepts are based on sockets, but adapted for queue pair (QP) based semantics: communication must be over a specific RDMA device, and data transfers are message based.

The RDMA CM can control both the QP and communication management (connection setup / teardown) portions of an RDMA API, or only the communication management piece. It works in conjunction with the verbs API defined by the libibverbs library. The libibverbs library provides the underlying interfaces needed to send and receive data.

The RDMA CM can operate asynchronously or synchronously. The mode of operation is controlled by the user through the use of the rdma_cm event channel parameter in specific calls. If an event channel is provided, an rdma_cm identifier will report its event data (results of connecting, for example), on that channel. If a channel is not provided, then all rdma_cm operations for the selected rdma_cm identifier will block until they complete.

The RDMA CM gives an option to different libibverbs providers to advertise and use various specific to that provider QP configuration options. This functionality is called ECE (enhanced connection establishment).

RDMA VERBS

The rdma_cm supports the full range of verbs available through the libibverbs library and interfaces. However, it also provides wrapper functions for some of the more commonly used verbs funcationality. The full set of abstracted verb calls are:

rdma_reg_msgs - register an array of buffers for sending and receiving

rdma_reg_read - registers a buffer for RDMA read operations

rdma_reg_write - registers a buffer for RDMA write operations

rdma_dereg_mr - deregisters a memory region

rdma_post_recv - post a buffer to receive a message

rdma_post_send - post a buffer to send a message

rdma_post_read - post an RDMA to read data into a buffer

rdma_post_write - post an RDMA to send data from a buffer

rdma_post_recvv - post a vector of buffers to receive a message

rdma_post_sendv - post a vector of buffers to send a message

rdma_post_readv - post a vector of buffers to receive an RDMA read

rdma_post_writev - post a vector of buffers to send an RDMA write

rdma_post_ud_send - post a buffer to send a message on a UD QP

rdma_get_send_comp - get completion status for a send or RDMA operation

rdma_get_recv_comp - get information about a completed receive

CLIENT OPERATION

This section provides a general overview of the basic operation for the active, or client, side of communication. This flow assume asynchronous operation with low level call details shown. For synchronous operation, calls to rdma_create_event_channel, rdma_get_cm_event, rdma_ack_cm_event, and rdma_destroy_event_channel would be eliminated. Abstracted calls, such as rdma_create_ep encapsulate several of these calls under a single API. Users may also refer to the example applications for code samples. A general connection flow would be:

retrieve address information of the destination
create channel to receive events
allocate an rdma_cm_id, this is conceptually similar to a socket
obtain a local RDMA device to reach the remote address
wait for RDMA_CM_EVENT_ADDR_RESOLVED event
ack event
allocate a QP for the communication
determine the route to the remote address
wait for RDMA_CM_EVENT_ROUTE_RESOLVED event
ack event
connect to the remote server
wait for RDMA_CM_EVENT_ESTABLISHED event
ack event

Perform data transfers over connection

tear-down connection
wait for RDMA_CM_EVENT_DISCONNECTED event
ack event
destroy the QP
release the rdma_cm_id
release the event channel
set desired ECE options

An almost identical process is used to setup unreliable datagram (UD) communication between nodes. No actual connection is formed between QPs however, so disconnection is not needed.

Although this example shows the client initiating the disconnect, either side of a connection may initiate the disconnect.

SERVER OPERATION

This section provides a general overview of the basic operation for the passive, or server, side of communication. A general connection flow would be:

create channel to receive events
allocate an rdma_cm_id, this is conceptually similar to a socket
set the local port number to listen on
begin listening for connection requests
wait for RDMA_CM_EVENT_CONNECT_REQUEST event with a new rdma_cm_id
allocate a QP for the communication on the new rdma_cm_id
accept the connection request
ack event
wait for RDMA_CM_EVENT_ESTABLISHED event
ack event

Perform data transfers over connection

wait for RDMA_CM_EVENT_DISCONNECTED event
ack event
tear-down connection
destroy the QP
release the connected rdma_cm_id
release the listening rdma_cm_id
release the event channel
get ECe options sent by the client
set desired ECE options

RETURN CODES

= 0
success
= -1
error - see errno for more details

Most librdmacm functions return 0 to indicate success, and a -1 return value to indicate failure. If a function operates asynchronously, a return value of 0 means that the operation was successfully started. The operation could still complete in error; users should check the status of the related event. If the return value is -1, then errno will contain additional information regarding the reason for the failure.

Prior versions of the library would return -errno and not set errno for some cases related to ENOMEM, ENODEV, ENODATA, EINVAL, and EADDRNOTAVAIL codes. Applications that want to check these codes and have compatibility with prior library versions must manually set errno to the negative of the return code if it is < -1.

SEE ALSO

rdma_accept(3), rdma_ack_cm_event(3), rdma_bind_addr(3), rdma_connect(3), rdma_create_ep(3), rdma_create_event_channel(3), rdma_create_id(3), rdma_create_qp(3), rdma_dereg_mr(3), rdma_destroy_ep(3), rdma_destroy_event_channel(3), rdma_destroy_id(3), rdma_destroy_qp(3), rdma_disconnect(3), rdma_event_str(3), rdma_free_devices(3), rdma_getaddrinfo(3), rdma_get_cm_event(3), rdma_get_devices(3), rdma_get_dst_port(3), rdma_get_local_addr(3), rdma_get_peer_addr(3), rdma_get_recv_comp(3), rdma_get_remote_ece(3), rdma_get_request(3), rdma_get_send_comp(3), rdma_get_src_port(3), rdma_join_multicast(3), rdma_leave_multicast(3), rdma_listen(3), rdma_migrate_id(3), rdma_notify(3), rdma_post_read(3) rdma_post_readv(3), rdma_post_recv(3), rdma_post_recvv(3), rdma_post_send(3), rdma_post_sendv(3), rdma_post_ud_send(3), rdma_post_write(3), rdma_post_writev(3), rdma_reg_msgs(3), rdma_reg_read(3), rdma_reg_write(3), rdma_reject(3), rdma_resolve_addr(3), rdma_resolve_route(3), rdma_get_remote_ece(3), rdma_set_option(3), mckey(1), rdma_client(1), rdma_server(1), rping(1), ucmatose(1), udaddy(1)

2010-07-19 librdmacm