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openmpi/ompi/mca/btl/openib/btl_openib_iwarp.c
Jeff Squyres b95a3d0eb9 * Remove an extraneous OBJ_CONSTRUCT 
* Ensure we don't try to do opal_list_get_next() on an item we just
   deleted
 * set myaddrs = NULL when we're done with it, just for good measure

Once this is ported to OMPI v1.3 branch, it fixes
https://bugs.openfabrics.org/show_bug.cgi?id=1579.

This commit was SVN r20896.
2009-03-30 20:24:31 +00:00

364 строки
10 KiB
C
Исходник Ответственный История

/*
* Copyright (c) 2008 Chelsio, Inc. All rights reserved.
* Copyright (c) 2008 Cisco Systems, Inc. All rights reserved.
*
* Additional copyrights may follow
*
* $HEADER$
*
* @file
*/
#include "ompi_config.h"
#include <infiniband/verbs.h>
#if OMPI_HAVE_RDMACM
#include <rdma/rdma_cma.h>
#include <malloc.h>
#include <stdio.h>
#include "opal/util/argv.h"
#include "opal/util/if.h"
#include "connect/connect.h"
#endif
/* Always want to include this file */
#include "btl_openib_endpoint.h"
#include "btl_openib_iwarp.h"
#if OMPI_HAVE_RDMACM
/*
* The cruft below maintains the linked list of rdma ipv4 addresses and their
* associated rdma device names and device port numbers.
*/
struct rdma_addr_list {
opal_list_item_t super;
uint32_t addr;
uint32_t subnet;
char addr_str[16];
char dev_name[IBV_SYSFS_NAME_MAX];
uint8_t dev_port;
};
typedef struct rdma_addr_list rdma_addr_list_t;
static OBJ_CLASS_INSTANCE(rdma_addr_list_t, opal_list_item_t,
NULL, NULL);
static opal_list_t *myaddrs = NULL;
#if OMPI_ENABLE_DEBUG
static char *stringify(uint32_t addr)
{
static char line[64];
memset(line, 0, sizeof(line));
snprintf(line, sizeof(line) - 1, "%d.%d.%d.%d (0x%x)",
#if defined(WORDS_BIGENDIAN)
(addr >> 24),
(addr >> 16) & 0xff,
(addr >> 8) & 0xff,
addr & 0xff,
#else
addr & 0xff,
(addr >> 8) & 0xff,
(addr >> 16) & 0xff,
(addr >> 24),
#endif
addr);
return line;
}
#endif
/* Note that each device port can have multiple IP addresses associated with it
* (aka IP aliasing). However, the openib module only knows about (device,port)
* tuples -- not IP addresses (only the RDMA CM CPC knows which IP addresses are
* associated with each (device,port) tuple). Thus, any searching of device
* list for the IP Address or subnets may not work as one might expect. The
* current behavior is to return the IP address (or subnet) of the *first*
* instance of the device on the list. This behavior is uniform for subnet and
* IP addresses and thus should not cause any mismatches. If this behavior is
* not preferred by the user, the MCA parameters to include/exclude specific IP
* addresses can be used to precisely specify which addresses are used (e.g., to
* effect specific subnet routing).
*/
uint64_t mca_btl_openib_get_iwarp_subnet_id(struct ibv_device *ib_dev)
{
opal_list_item_t *item;
/* In the off chance that the user forces non-rdmacm cpc and
* iwarp, the list will be uninitialized. Return 0 to prevent
* crashes, and the lack of it actually working will be caught at
* a later stage.
*/
if (NULL == myaddrs) {
return 0;
}
for (item = opal_list_get_first(myaddrs);
item != opal_list_get_end(myaddrs);
item = opal_list_get_next(item)) {
struct rdma_addr_list *addr = (struct rdma_addr_list *)item;
if (!strcmp(addr->dev_name, ib_dev->name)) {
return addr->subnet;
}
}
return 0;
}
/* This function should not be necessary, as rdma_get_local_addr would be more
* correct in returning the IP address given the cm_id (and not necessitate
* having to do a list look up). Unfortunately, the subnet and IP address look
* up needs to match or there could be a mismatch if IP Aliases are being used.
* For more information on this, please read comment above
* mca_btl_openib_get_iwarp_subnet_id.
*/
uint32_t mca_btl_openib_rdma_get_ipv4addr(struct ibv_context *verbs,
uint8_t port)
{
opal_list_item_t *item;
/* Sanity check */
if (NULL == myaddrs) {
return 0;
}
BTL_VERBOSE(("Looking for %s:%d in IP address list",
ibv_get_device_name(verbs->device), port));
for (item = opal_list_get_first(myaddrs);
item != opal_list_get_end(myaddrs);
item = opal_list_get_next(item)) {
struct rdma_addr_list *addr = (struct rdma_addr_list *)item;
if (!strcmp(addr->dev_name, verbs->device->name) &&
port == addr->dev_port) {
BTL_VERBOSE(("FOUND: %s:%d is %s",
ibv_get_device_name(verbs->device), port,
stringify(addr->addr)));
return addr->addr;
}
}
return 0;
}
static int dev_specified(char *name, int port)
{
char **list;
if (NULL != mca_btl_openib_component.if_include) {
int i;
list = opal_argv_split(mca_btl_openib_component.if_include, ',');
for (i = 0; NULL != list[i]; i++) {
char **temp = opal_argv_split(list[i], ':');
if (0 == strcmp(name, temp[0]) &&
(NULL == temp[1] || port == atoi(temp[1]))) {
return 0;
}
}
return 1;
}
if (NULL != mca_btl_openib_component.if_exclude) {
int i;
list = opal_argv_split(mca_btl_openib_component.if_exclude, ',');
for (i = 0; NULL != list[i]; i++) {
char **temp = opal_argv_split(list[i], ':');
if (0 == strcmp(name, temp[0]) &&
(NULL == temp[1] || port == atoi(temp[1]))) {
return 1;
}
}
}
return 0;
}
static int ipaddr_specified(struct sockaddr_in *ipaddr, uint32_t netmask)
{
if (NULL != mca_btl_openib_component.ipaddr_include) {
char **list;
int i;
list = opal_argv_split(mca_btl_openib_component.ipaddr_include, ',');
for (i = 0; NULL != list[i]; i++) {
uint32_t subnet, list_subnet;
struct in_addr ipae;
char **temp = opal_argv_split(list[i], '/');
inet_pton(ipaddr->sin_family, temp[0], &ipae);
list_subnet = ipae.s_addr & ~(~0 << atoi(temp[1]));
subnet = ipaddr->sin_addr.s_addr & ~(~0 << netmask);
if (subnet == list_subnet) {
return 0;
}
}
return 1;
}
if (NULL != mca_btl_openib_component.ipaddr_exclude) {
char **list;
int i;
list = opal_argv_split(mca_btl_openib_component.ipaddr_exclude, ',');
for (i = 0; NULL != list[i]; i++) {
uint32_t subnet, list_subnet;
struct in_addr ipae;
char **temp = opal_argv_split(list[i], '/');
inet_pton(ipaddr->sin_family, temp[0], &ipae);
list_subnet = ipae.s_addr & ~(~0 << atoi(temp[1]));
subnet = ipaddr->sin_addr.s_addr & ~(~0 << netmask);
if (subnet == list_subnet) {
return 1;
}
}
}
return 0;
}
static int add_rdma_addr(struct sockaddr *ipaddr, uint32_t netmask)
{
struct sockaddr_in *sinp;
struct rdma_cm_id *cm_id;
struct rdma_event_channel *ch;
int rc = OMPI_SUCCESS;
struct rdma_addr_list *myaddr;
ch = rdma_create_event_channel();
if (NULL == ch) {
BTL_VERBOSE(("failed creating RDMA CM event channel"));
rc = OMPI_ERROR;
goto out1;
}
rc = rdma_create_id(ch, &cm_id, NULL, RDMA_PS_TCP);
if (rc) {
BTL_VERBOSE(("rdma_create_id returned %d", rc));
rc = OMPI_ERROR;
goto out2;
}
/* Bind the newly created cm_id to the IP address. This will, amongst other
things, verify that the device is iWARP capable */
rc = rdma_bind_addr(cm_id, ipaddr);
if (rc || !cm_id->verbs) {
rc = OMPI_SUCCESS;
goto out3;
}
/* Verify that the device has not been excluded */
rc = dev_specified(cm_id->verbs->device->name, cm_id->port_num);
if (rc) {
rc = OMPI_SUCCESS;
goto out3;
}
/* Verify that the device has a valid IP address */
if (0 == ((struct sockaddr_in *)ipaddr)->sin_addr.s_addr ||
ipaddr_specified((struct sockaddr_in *)ipaddr, netmask)) {
rc = OMPI_SUCCESS;
goto out3;
}
myaddr = OBJ_NEW(rdma_addr_list_t);
if (NULL == myaddr) {
BTL_ERROR(("malloc failed!"));
rc = OMPI_ERROR;
goto out3;
}
sinp = (struct sockaddr_in *)ipaddr;
myaddr->addr = sinp->sin_addr.s_addr;
myaddr->subnet = myaddr->addr & ~(~0 << netmask);
inet_ntop(sinp->sin_family, &sinp->sin_addr,
myaddr->addr_str, sizeof(myaddr->addr_str));
memcpy(myaddr->dev_name, cm_id->verbs->device->name, IBV_SYSFS_NAME_MAX);
myaddr->dev_port = cm_id->port_num;
BTL_VERBOSE(("Adding addr %s (0x%x) subnet 0x%x as %s:%d",
myaddr->addr_str, myaddr->addr, myaddr->subnet,
myaddr->dev_name, myaddr->dev_port));
opal_list_append(myaddrs, &(myaddr->super));
out3:
rdma_destroy_id(cm_id);
out2:
rdma_destroy_event_channel(ch);
out1:
return rc;
}
int mca_btl_openib_build_rdma_addr_list(void)
{
int rc = OMPI_SUCCESS, i;
myaddrs = OBJ_NEW(opal_list_t);
if (NULL == myaddrs) {
BTL_ERROR(("malloc failed!"));
return OMPI_ERROR;
}
for (i = opal_ifbegin(); i >= 0; i = opal_ifnext(i)) {
struct sockaddr ipaddr;
uint32_t netmask;
opal_ifindextoaddr(i, &ipaddr, sizeof(struct sockaddr));
opal_ifindextomask(i, &netmask, sizeof(uint32_t));
if (ipaddr.sa_family == AF_INET) {
rc = add_rdma_addr(&ipaddr, netmask);
if (OMPI_SUCCESS != rc) {
break;
}
}
}
return rc;
}
void mca_btl_openib_free_rdma_addr_list(void)
{
opal_list_item_t *item, *next;
if (NULL != myaddrs && 0 != opal_list_get_size(myaddrs)) {
for (item = opal_list_get_first(myaddrs);
item != opal_list_get_end(myaddrs);
item = next) {
struct rdma_addr_list *addr = (struct rdma_addr_list *)item;
next = opal_list_get_next(item);
opal_list_remove_item(myaddrs, item);
OBJ_RELEASE(addr);
}
OBJ_RELEASE(myaddrs);
myaddrs = NULL;
}
}
#else
/* !OMPI_HAVE_RDMACM case */
uint64_t mca_btl_openib_get_iwarp_subnet_id(struct ibv_device *ib_dev)
{
return 0;
}
uint32_t mca_btl_openib_rdma_get_ipv4addr(struct ibv_context *verbs,
uint8_t port)
{
return 0;
}
int mca_btl_openib_build_rdma_addr_list(void)
{
return OMPI_SUCCESS;
}
void mca_btl_openib_free_rdma_addr_list(void)
{
}
#endif
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