/* * Copyright (c) 2004-2007 Voltaire Inc. All rights reserved. * Copyright (c) 2007 Xsigo Systems Inc. All rights reserved. * Copyright (c) 2008 Lawrence Livermore National Laboratory * * This software is available to you under a choice of one of two * licenses. You may choose to be licensed under the terms of the GNU * General Public License (GPL) Version 2, available from the file * COPYING in the main directory of this source tree, or the * OpenIB.org BSD license below: * * Redistribution and use in source and binary forms, with or * without modification, are permitted provided that the following * conditions are met: * * - Redistributions of source code must retain the above * copyright notice, this list of conditions and the following * disclaimer. * * - Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials * provided with the distribution. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. * */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include "internal.h" #include "chassis.h" /* For this caching lib, we always cache little endian */ /* Cache format * * Bytes 1-4 - magic number * Bytes 5-8 - version number * Bytes 9-12 - node count * Bytes 13-16 - port count * Bytes 17-24 - "from node" guid * Bytes 25-28 - maxhops discovered * Bytes X-Y - nodes (variable length) * Bytes X-Y - ports (variable length) * * Nodes are cached as * * 2 bytes - smalid * 1 byte - smalmc * 1 byte - smaenhsp0 flag * IB_SMP_DATA_SIZE bytes - switchinfo * 8 bytes - guid * 1 byte - type * 1 byte - numports * IB_SMP_DATA_SIZE bytes - info * IB_SMP_DATA_SIZE bytes - nodedesc * 1 byte - number of ports stored * 8 bytes - portguid A * 1 byte - port num A * 8 bytes - portguid B * 1 byte - port num B * ... etc., depending on number of ports stored * * Ports are cached as * * 8 bytes - guid * 1 byte - portnum * 1 byte - external portnum * 2 bytes - base lid * 1 byte - lmc * IB_SMP_DATA_SIZE bytes - info * 8 bytes - node guid port "owned" by * 1 byte - flag indicating if remote port exists * 8 bytes - port guid remotely connected to * 1 byte - port num remotely connected to */ /* Structs that hold cache info temporarily before * the real structs can be reconstructed. */ typedef struct ibnd_port_cache_key { uint64_t guid; uint8_t portnum; } ibnd_port_cache_key_t; typedef struct ibnd_node_cache { ibnd_node_t *node; uint8_t ports_stored_count; ibnd_port_cache_key_t *port_cache_keys; struct ibnd_node_cache *next; struct ibnd_node_cache *htnext; int node_stored_to_fabric; } ibnd_node_cache_t; typedef struct ibnd_port_cache { ibnd_port_t *port; uint64_t node_guid; uint8_t remoteport_flag; ibnd_port_cache_key_t remoteport_cache_key; struct ibnd_port_cache *next; struct ibnd_port_cache *htnext; int port_stored_to_fabric; } ibnd_port_cache_t; typedef struct ibnd_fabric_cache { f_internal_t *f_int; uint64_t from_node_guid; ibnd_node_cache_t *nodes_cache; ibnd_port_cache_t *ports_cache; ibnd_node_cache_t *nodescachetbl[HTSZ]; ibnd_port_cache_t *portscachetbl[HTSZ]; } ibnd_fabric_cache_t; #define IBND_FABRIC_CACHE_BUFLEN 4096 #define IBND_FABRIC_CACHE_MAGIC 0x8FE7832B #define IBND_FABRIC_CACHE_VERSION 0x00000001 #define IBND_FABRIC_CACHE_COUNT_OFFSET 8 #define IBND_FABRIC_CACHE_HEADER_LEN (28) #define IBND_NODE_CACHE_HEADER_LEN (15 + IB_SMP_DATA_SIZE*3) #define IBND_PORT_CACHE_KEY_LEN (8 + 1) #define IBND_PORT_CACHE_LEN (31 + IB_SMP_DATA_SIZE) static ssize_t ibnd_read(int fd, void *buf, size_t count) { size_t count_done = 0; ssize_t ret; while ((count - count_done) > 0) { ret = read(fd, ((char *) buf) + count_done, count - count_done); if (ret < 0) { if (errno == EINTR) continue; else { IBND_DEBUG("read: %s\n", strerror(errno)); return -1; } } if (!ret) break; count_done += ret; } if (count_done != count) { IBND_DEBUG("read: read short\n"); return -1; } return count_done; } static size_t _unmarshall8(uint8_t * inbuf, uint8_t * num) { (*num) = inbuf[0]; return (sizeof(*num)); } static size_t _unmarshall16(uint8_t * inbuf, uint16_t * num) { (*num) = ((uint16_t) inbuf[1] << 8) | inbuf[0]; return (sizeof(*num)); } static size_t _unmarshall32(uint8_t * inbuf, uint32_t * num) { (*num) = (uint32_t) inbuf[0]; (*num) |= ((uint32_t) inbuf[1] << 8); (*num) |= ((uint32_t) inbuf[2] << 16); (*num) |= ((uint32_t) inbuf[3] << 24); return (sizeof(*num)); } static size_t _unmarshall64(uint8_t * inbuf, uint64_t * num) { (*num) = (uint64_t) inbuf[0]; (*num) |= ((uint64_t) inbuf[1] << 8); (*num) |= ((uint64_t) inbuf[2] << 16); (*num) |= ((uint64_t) inbuf[3] << 24); (*num) |= ((uint64_t) inbuf[4] << 32); (*num) |= ((uint64_t) inbuf[5] << 40); (*num) |= ((uint64_t) inbuf[6] << 48); (*num) |= ((uint64_t) inbuf[7] << 56); return (sizeof(*num)); } static size_t _unmarshall_buf(const void *inbuf, void *outbuf, unsigned int len) { memcpy(outbuf, inbuf, len); return len; } static int _load_header_info(int fd, ibnd_fabric_cache_t * fabric_cache, unsigned int *node_count, unsigned int *port_count) { uint8_t buf[IBND_FABRIC_CACHE_BUFLEN]; uint32_t magic = 0; uint32_t version = 0; size_t offset = 0; uint32_t tmp32; if (ibnd_read(fd, buf, IBND_FABRIC_CACHE_HEADER_LEN) < 0) return -1; offset += _unmarshall32(buf + offset, &magic); if (magic != IBND_FABRIC_CACHE_MAGIC) { IBND_DEBUG("invalid fabric cache file\n"); return -1; } offset += _unmarshall32(buf + offset, &version); if (version != IBND_FABRIC_CACHE_VERSION) { IBND_DEBUG("invalid fabric cache version\n"); return -1; } offset += _unmarshall32(buf + offset, node_count); offset += _unmarshall32(buf + offset, port_count); offset += _unmarshall64(buf + offset, &fabric_cache->from_node_guid); offset += _unmarshall32(buf + offset, &tmp32); fabric_cache->f_int->fabric.maxhops_discovered = tmp32; return 0; } static void _destroy_ibnd_node_cache(ibnd_node_cache_t * node_cache) { free(node_cache->port_cache_keys); if (!node_cache->node_stored_to_fabric && node_cache->node) destroy_node(node_cache->node); free(node_cache); } static void _destroy_ibnd_fabric_cache(ibnd_fabric_cache_t * fabric_cache) { ibnd_node_cache_t *node_cache; ibnd_node_cache_t *node_cache_next; ibnd_port_cache_t *port_cache; ibnd_port_cache_t *port_cache_next; if (!fabric_cache) return; node_cache = fabric_cache->nodes_cache; while (node_cache) { node_cache_next = node_cache->next; _destroy_ibnd_node_cache(node_cache); node_cache = node_cache_next; } port_cache = fabric_cache->ports_cache; while (port_cache) { port_cache_next = port_cache->next; if (!port_cache->port_stored_to_fabric && port_cache->port) free(port_cache->port); free(port_cache); port_cache = port_cache_next; } free(fabric_cache); } static void store_node_cache(ibnd_node_cache_t * node_cache, ibnd_fabric_cache_t * fabric_cache) { int hash_indx = HASHGUID(node_cache->node->guid) % HTSZ; node_cache->next = fabric_cache->nodes_cache; fabric_cache->nodes_cache = node_cache; node_cache->htnext = fabric_cache->nodescachetbl[hash_indx]; fabric_cache->nodescachetbl[hash_indx] = node_cache; } static int _load_node(int fd, ibnd_fabric_cache_t * fabric_cache) { uint8_t buf[IBND_FABRIC_CACHE_BUFLEN]; ibnd_node_cache_t *node_cache = NULL; ibnd_node_t *node = NULL; size_t offset = 0; uint8_t tmp8; node_cache = (ibnd_node_cache_t *) malloc(sizeof(ibnd_node_cache_t)); if (!node_cache) { IBND_DEBUG("OOM: node_cache\n"); return -1; } memset(node_cache, '\0', sizeof(ibnd_node_cache_t)); node = (ibnd_node_t *) malloc(sizeof(ibnd_node_t)); if (!node) { IBND_DEBUG("OOM: node\n"); free(node_cache); return -1; } memset(node, '\0', sizeof(ibnd_node_t)); node_cache->node = node; if (ibnd_read(fd, buf, IBND_NODE_CACHE_HEADER_LEN) < 0) goto cleanup; offset += _unmarshall16(buf + offset, &node->smalid); offset += _unmarshall8(buf + offset, &node->smalmc); offset += _unmarshall8(buf + offset, &tmp8); node->smaenhsp0 = tmp8; offset += _unmarshall_buf(buf + offset, node->switchinfo, IB_SMP_DATA_SIZE); offset += _unmarshall64(buf + offset, &node->guid); offset += _unmarshall8(buf + offset, &tmp8); node->type = tmp8; offset += _unmarshall8(buf + offset, &tmp8); node->numports = tmp8; offset += _unmarshall_buf(buf + offset, node->info, IB_SMP_DATA_SIZE); offset += _unmarshall_buf(buf + offset, node->nodedesc, IB_SMP_DATA_SIZE); offset += _unmarshall8(buf + offset, &node_cache->ports_stored_count); if (node_cache->ports_stored_count) { unsigned int tomalloc = 0; unsigned int toread = 0; unsigned int i; tomalloc = sizeof(ibnd_port_cache_key_t) * node_cache->ports_stored_count; toread = IBND_PORT_CACHE_KEY_LEN * node_cache->ports_stored_count; node_cache->port_cache_keys = (ibnd_port_cache_key_t *) malloc(tomalloc); if (!node_cache->port_cache_keys) { IBND_DEBUG("OOM: node_cache port_cache_keys\n"); goto cleanup; } if (ibnd_read(fd, buf, toread) < 0) goto cleanup; offset = 0; for (i = 0; i < node_cache->ports_stored_count; i++) { offset += _unmarshall64(buf + offset, &node_cache->port_cache_keys[i].guid); offset += _unmarshall8(buf + offset, &node_cache-> port_cache_keys[i].portnum); } } store_node_cache(node_cache, fabric_cache); return 0; cleanup: _destroy_ibnd_node_cache(node_cache); return -1; } static void store_port_cache(ibnd_port_cache_t * port_cache, ibnd_fabric_cache_t * fabric_cache) { int hash_indx = HASHGUID(port_cache->port->guid) % HTSZ; port_cache->next = fabric_cache->ports_cache; fabric_cache->ports_cache = port_cache; port_cache->htnext = fabric_cache->portscachetbl[hash_indx]; fabric_cache->portscachetbl[hash_indx] = port_cache; } static int _load_port(int fd, ibnd_fabric_cache_t * fabric_cache) { uint8_t buf[IBND_FABRIC_CACHE_BUFLEN]; ibnd_port_cache_t *port_cache = NULL; ibnd_port_t *port = NULL; size_t offset = 0; uint8_t tmp8; port_cache = (ibnd_port_cache_t *) malloc(sizeof(ibnd_port_cache_t)); if (!port_cache) { IBND_DEBUG("OOM: port_cache\n"); return -1; } memset(port_cache, '\0', sizeof(ibnd_port_cache_t)); port = (ibnd_port_t *) malloc(sizeof(ibnd_port_t)); if (!port) { IBND_DEBUG("OOM: port\n"); free(port_cache); return -1; } memset(port, '\0', sizeof(ibnd_port_t)); port_cache->port = port; if (ibnd_read(fd, buf, IBND_PORT_CACHE_LEN) < 0) goto cleanup; offset += _unmarshall64(buf + offset, &port->guid); offset += _unmarshall8(buf + offset, &tmp8); port->portnum = tmp8; offset += _unmarshall8(buf + offset, &tmp8); port->ext_portnum = tmp8; offset += _unmarshall16(buf + offset, &port->base_lid); offset += _unmarshall8(buf + offset, &port->lmc); offset += _unmarshall_buf(buf + offset, port->info, IB_SMP_DATA_SIZE); offset += _unmarshall64(buf + offset, &port_cache->node_guid); offset += _unmarshall8(buf + offset, &port_cache->remoteport_flag); offset += _unmarshall64(buf + offset, &port_cache->remoteport_cache_key.guid); offset += _unmarshall8(buf + offset, &port_cache->remoteport_cache_key.portnum); store_port_cache(port_cache, fabric_cache); return 0; cleanup: free(port); free(port_cache); return -1; } static ibnd_port_cache_t *_find_port(ibnd_fabric_cache_t * fabric_cache, ibnd_port_cache_key_t * port_cache_key) { int hash_indx = HASHGUID(port_cache_key->guid) % HTSZ; ibnd_port_cache_t *port_cache; for (port_cache = fabric_cache->portscachetbl[hash_indx]; port_cache; port_cache = port_cache->htnext) { if (port_cache->port->guid == port_cache_key->guid && port_cache->port->portnum == port_cache_key->portnum) return port_cache; } return NULL; } static ibnd_node_cache_t *_find_node(ibnd_fabric_cache_t * fabric_cache, uint64_t guid) { int hash_indx = HASHGUID(guid) % HTSZ; ibnd_node_cache_t *node_cache; for (node_cache = fabric_cache->nodescachetbl[hash_indx]; node_cache; node_cache = node_cache->htnext) { if (node_cache->node->guid == guid) return node_cache; } return NULL; } static int _fill_port(ibnd_fabric_cache_t * fabric_cache, ibnd_node_t * node, ibnd_port_cache_key_t * port_cache_key) { ibnd_port_cache_t *port_cache; if (!(port_cache = _find_port(fabric_cache, port_cache_key))) { IBND_DEBUG("Cache invalid: cannot find port\n"); return -1; } if (port_cache->port_stored_to_fabric) { IBND_DEBUG("Cache invalid: duplicate port discovered\n"); return -1; } node->ports[port_cache->port->portnum] = port_cache->port; port_cache->port_stored_to_fabric++; /* achu: needed if user wishes to re-cache a loaded fabric. * Otherwise, mostly unnecessary to do this. */ int rc = add_to_portguid_hash(port_cache->port, fabric_cache->f_int->fabric.portstbl); if (rc) { IBND_DEBUG("Error Occurred when trying" " to insert new port guid 0x%016" PRIx64 " to DB\n", port_cache->port->guid); } return 0; } static int _rebuild_nodes(ibnd_fabric_cache_t * fabric_cache) { ibnd_node_cache_t *node_cache; ibnd_node_cache_t *node_cache_next; node_cache = fabric_cache->nodes_cache; while (node_cache) { ibnd_node_t *node; int i; node_cache_next = node_cache->next; node = node_cache->node; /* Insert node into appropriate data structures */ node->next = fabric_cache->f_int->fabric.nodes; fabric_cache->f_int->fabric.nodes = node; int rc = add_to_nodeguid_hash(node_cache->node, fabric_cache-> f_int-> fabric.nodestbl); if (rc) { IBND_DEBUG("Error Occurred when trying" " to insert new node guid 0x%016" PRIx64 " to DB\n", node_cache->node->guid); } add_to_type_list(node_cache->node, fabric_cache->f_int); node_cache->node_stored_to_fabric++; /* Rebuild node ports array */ if (!(node->ports = calloc(sizeof(*node->ports), node->numports + 1))) { IBND_DEBUG("OOM: node->ports\n"); return -1; } for (i = 0; i < node_cache->ports_stored_count; i++) { if (_fill_port(fabric_cache, node, &node_cache->port_cache_keys[i]) < 0) return -1; } node_cache = node_cache_next; } return 0; } static int _rebuild_ports(ibnd_fabric_cache_t * fabric_cache) { ibnd_port_cache_t *port_cache; ibnd_port_cache_t *port_cache_next; port_cache = fabric_cache->ports_cache; while (port_cache) { ibnd_node_cache_t *node_cache; ibnd_port_cache_t *remoteport_cache; ibnd_port_t *port; port_cache_next = port_cache->next; port = port_cache->port; if (!(node_cache = _find_node(fabric_cache, port_cache->node_guid))) { IBND_DEBUG("Cache invalid: cannot find node\n"); return -1; } port->node = node_cache->node; if (port_cache->remoteport_flag) { if (!(remoteport_cache = _find_port(fabric_cache, &port_cache->remoteport_cache_key))) { IBND_DEBUG ("Cache invalid: cannot find remote port\n"); return -1; } port->remoteport = remoteport_cache->port; } else port->remoteport = NULL; add_to_portlid_hash(port, fabric_cache->f_int); port_cache = port_cache_next; } return 0; } ibnd_fabric_t *ibnd_load_fabric(const char *file, unsigned int flags) { unsigned int node_count = 0; unsigned int port_count = 0; ibnd_fabric_cache_t *fabric_cache = NULL; f_internal_t *f_int = NULL; ibnd_node_cache_t *node_cache = NULL; int fd = -1; unsigned int i; if (!file) { IBND_DEBUG("file parameter NULL\n"); return NULL; } if ((fd = open(file, O_RDONLY)) < 0) { IBND_DEBUG("open: %s\n", strerror(errno)); return NULL; } fabric_cache = (ibnd_fabric_cache_t *) malloc(sizeof(ibnd_fabric_cache_t)); if (!fabric_cache) { IBND_DEBUG("OOM: fabric_cache\n"); goto cleanup; } memset(fabric_cache, '\0', sizeof(ibnd_fabric_cache_t)); f_int = allocate_fabric_internal(); if (!f_int) { IBND_DEBUG("OOM: fabric\n"); goto cleanup; } fabric_cache->f_int = f_int; if (_load_header_info(fd, fabric_cache, &node_count, &port_count) < 0) goto cleanup; for (i = 0; i < node_count; i++) { if (_load_node(fd, fabric_cache) < 0) goto cleanup; } for (i = 0; i < port_count; i++) { if (_load_port(fd, fabric_cache) < 0) goto cleanup; } /* Special case - find from node */ if (!(node_cache = _find_node(fabric_cache, fabric_cache->from_node_guid))) { IBND_DEBUG("Cache invalid: cannot find from node\n"); goto cleanup; } f_int->fabric.from_node = node_cache->node; if (_rebuild_nodes(fabric_cache) < 0) goto cleanup; if (_rebuild_ports(fabric_cache) < 0) goto cleanup; if (group_nodes(&f_int->fabric)) goto cleanup; _destroy_ibnd_fabric_cache(fabric_cache); close(fd); return (ibnd_fabric_t *)&f_int->fabric; cleanup: ibnd_destroy_fabric((ibnd_fabric_t *)f_int); _destroy_ibnd_fabric_cache(fabric_cache); close(fd); return NULL; } static ssize_t ibnd_write(int fd, const void *buf, size_t count) { size_t count_done = 0; ssize_t ret; while ((count - count_done) > 0) { ret = write(fd, ((char *) buf) + count_done, count - count_done); if (ret < 0) { if (errno == EINTR) continue; else { IBND_DEBUG("write: %s\n", strerror(errno)); return -1; } } count_done += ret; } return count_done; } static size_t _marshall8(uint8_t * outbuf, uint8_t num) { outbuf[0] = num; return (sizeof(num)); } static size_t _marshall16(uint8_t * outbuf, uint16_t num) { outbuf[0] = num & 0x00FF; outbuf[1] = (num & 0xFF00) >> 8; return (sizeof(num)); } static size_t _marshall32(uint8_t * outbuf, uint32_t num) { outbuf[0] = num & 0x000000FF; outbuf[1] = (num & 0x0000FF00) >> 8; outbuf[2] = (num & 0x00FF0000) >> 16; outbuf[3] = (num & 0xFF000000) >> 24; return (sizeof(num)); } static size_t _marshall64(uint8_t * outbuf, uint64_t num) { outbuf[0] = (uint8_t) num; outbuf[1] = (uint8_t) (num >> 8); outbuf[2] = (uint8_t) (num >> 16); outbuf[3] = (uint8_t) (num >> 24); outbuf[4] = (uint8_t) (num >> 32); outbuf[5] = (uint8_t) (num >> 40); outbuf[6] = (uint8_t) (num >> 48); outbuf[7] = (uint8_t) (num >> 56); return (sizeof(num)); } static size_t _marshall_buf(void *outbuf, const void *inbuf, unsigned int len) { memcpy(outbuf, inbuf, len); return len; } static int _cache_header_info(int fd, ibnd_fabric_t * fabric) { uint8_t buf[IBND_FABRIC_CACHE_BUFLEN]; size_t offset = 0; /* Store magic number, version, and other important info */ /* For this caching lib, we always assume cached as little endian */ offset += _marshall32(buf + offset, IBND_FABRIC_CACHE_MAGIC); offset += _marshall32(buf + offset, IBND_FABRIC_CACHE_VERSION); /* save space for node count */ offset += _marshall32(buf + offset, 0); /* save space for port count */ offset += _marshall32(buf + offset, 0); offset += _marshall64(buf + offset, fabric->from_node->guid); offset += _marshall32(buf + offset, fabric->maxhops_discovered); if (ibnd_write(fd, buf, offset) < 0) return -1; return 0; } static int _cache_header_counts(int fd, unsigned int node_count, unsigned int port_count) { uint8_t buf[IBND_FABRIC_CACHE_BUFLEN]; size_t offset = 0; offset += _marshall32(buf + offset, node_count); offset += _marshall32(buf + offset, port_count); if (lseek(fd, IBND_FABRIC_CACHE_COUNT_OFFSET, SEEK_SET) < 0) { IBND_DEBUG("lseek: %s\n", strerror(errno)); return -1; } if (ibnd_write(fd, buf, offset) < 0) return -1; return 0; } static int _cache_node(int fd, ibnd_node_t * node) { uint8_t buf[IBND_FABRIC_CACHE_BUFLEN]; size_t offset = 0; size_t ports_stored_offset = 0; uint8_t ports_stored_count = 0; int i; offset += _marshall16(buf + offset, node->smalid); offset += _marshall8(buf + offset, node->smalmc); offset += _marshall8(buf + offset, (uint8_t) node->smaenhsp0); offset += _marshall_buf(buf + offset, node->switchinfo, IB_SMP_DATA_SIZE); offset += _marshall64(buf + offset, node->guid); offset += _marshall8(buf + offset, (uint8_t) node->type); offset += _marshall8(buf + offset, (uint8_t) node->numports); offset += _marshall_buf(buf + offset, node->info, IB_SMP_DATA_SIZE); offset += _marshall_buf(buf + offset, node->nodedesc, IB_SMP_DATA_SIZE); /* need to come back later and store number of stored ports * because port entries can be NULL or (in the case of switches) * there is an additional port 0 not accounted for in numports. */ ports_stored_offset = offset; offset += sizeof(uint8_t); for (i = 0; i <= node->numports; i++) { if (node->ports[i]) { offset += _marshall64(buf + offset, node->ports[i]->guid); offset += _marshall8(buf + offset, (uint8_t) node->ports[i]->portnum); ports_stored_count++; } } /* go back and store number of port keys stored */ _marshall8(buf + ports_stored_offset, ports_stored_count); if (ibnd_write(fd, buf, offset) < 0) return -1; return 0; } static int _cache_port(int fd, ibnd_port_t * port) { uint8_t buf[IBND_FABRIC_CACHE_BUFLEN]; size_t offset = 0; offset += _marshall64(buf + offset, port->guid); offset += _marshall8(buf + offset, (uint8_t) port->portnum); offset += _marshall8(buf + offset, (uint8_t) port->ext_portnum); offset += _marshall16(buf + offset, port->base_lid); offset += _marshall8(buf + offset, port->lmc); offset += _marshall_buf(buf + offset, port->info, IB_SMP_DATA_SIZE); offset += _marshall64(buf + offset, port->node->guid); if (port->remoteport) { offset += _marshall8(buf + offset, 1); offset += _marshall64(buf + offset, port->remoteport->guid); offset += _marshall8(buf + offset, (uint8_t) port->remoteport->portnum); } else { offset += _marshall8(buf + offset, 0); offset += _marshall64(buf + offset, 0); offset += _marshall8(buf + offset, 0); } if (ibnd_write(fd, buf, offset) < 0) return -1; return 0; } int ibnd_cache_fabric(ibnd_fabric_t * fabric, const char *file, unsigned int flags) { struct stat statbuf; ibnd_node_t *node = NULL; ibnd_node_t *node_next = NULL; unsigned int node_count = 0; ibnd_port_t *port = NULL; ibnd_port_t *port_next = NULL; unsigned int port_count = 0; int fd; int i; if (!fabric) { IBND_DEBUG("fabric parameter NULL\n"); return -1; } if (!file) { IBND_DEBUG("file parameter NULL\n"); return -1; } if (!(flags & IBND_CACHE_FABRIC_FLAG_NO_OVERWRITE)) { if (!stat(file, &statbuf)) { if (unlink(file) < 0) { IBND_DEBUG("error removing '%s': %s\n", file, strerror(errno)); return -1; } } } else { if (!stat(file, &statbuf)) { IBND_DEBUG("file '%s' already exists\n", file); return -1; } } if ((fd = open(file, O_CREAT | O_EXCL | O_WRONLY, 0644)) < 0) { IBND_DEBUG("open: %s\n", strerror(errno)); return -1; } if (_cache_header_info(fd, fabric) < 0) goto cleanup; node = fabric->nodes; while (node) { node_next = node->next; if (_cache_node(fd, node) < 0) goto cleanup; node_count++; node = node_next; } for (i = 0; i < HTSZ; i++) { port = fabric->portstbl[i]; while (port) { port_next = port->htnext; if (_cache_port(fd, port) < 0) goto cleanup; port_count++; port = port_next; } } if (_cache_header_counts(fd, node_count, port_count) < 0) goto cleanup; if (close(fd) < 0) { IBND_DEBUG("close: %s\n", strerror(errno)); goto cleanup; } return 0; cleanup: unlink(file); close(fd); return -1; }