/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 2009, 2010, Oracle and/or its affiliates. All rights reserved. */ #include #include #include #include #include "fru_access_impl.h" #include "fruraw.h" #pragma init(initialize_raw_access) static hash_obj_t *hash_table[TABLE_SIZE]; extern raw_list_t *g_raw; static void initialize_raw_access(void) { int count; for (count = 0; count < TABLE_SIZE; count++) { hash_table[count] = NULL; } } static hash_obj_t * lookup_handle_object(handle_t handle, int object_type) { handle_t index_to_hash; hash_obj_t *first_hash_obj; hash_obj_t *next_hash_obj; index_to_hash = (handle % TABLE_SIZE); first_hash_obj = hash_table[index_to_hash]; for (next_hash_obj = first_hash_obj; next_hash_obj != NULL; next_hash_obj = next_hash_obj->next) { if ((handle == next_hash_obj->obj_hdl) && (object_type == next_hash_obj->object_type)) { return (next_hash_obj); } } return (NULL); } static void add_hashobject_to_hashtable(hash_obj_t *hash_obj) { handle_t index_to_hash; static uint64_t handle_count = 0; hash_obj->obj_hdl = ++handle_count; /* store the handle */ /* where to add ? */ index_to_hash = ((hash_obj->obj_hdl) % TABLE_SIZE); hash_obj->next = hash_table[index_to_hash]; hash_table[index_to_hash] = hash_obj; /* hash obj. added */ if (hash_obj->next != NULL) { hash_obj->next->prev = hash_obj; } } static hash_obj_t * create_container_hash_object(void) { hash_obj_t *hash_obj; container_obj_t *cont_obj; cont_obj = malloc(sizeof (container_obj_t)); if (cont_obj == NULL) { return (NULL); } hash_obj = malloc(sizeof (hash_obj_t)); if (hash_obj == NULL) { free(cont_obj); return (NULL); } cont_obj->sec_obj_list = NULL; hash_obj->object_type = CONTAINER_TYPE; hash_obj->u.cont_obj = cont_obj; hash_obj->next = NULL; hash_obj->prev = NULL; return (hash_obj); } static hash_obj_t * create_section_hash_object(void) { hash_obj_t *hash_obj; section_obj_t *sec_obj; sec_obj = malloc(sizeof (section_obj_t)); if (sec_obj == NULL) { return (NULL); } hash_obj = malloc(sizeof (hash_obj_t)); if (hash_obj == NULL) { free(sec_obj); return (NULL); } sec_obj->next = NULL; sec_obj->seg_obj_list = NULL; hash_obj->u.sec_obj = sec_obj; hash_obj->object_type = SECTION_TYPE; hash_obj->next = NULL; hash_obj->prev = NULL; return (hash_obj); } static hash_obj_t * create_segment_hash_object(void) { hash_obj_t *hash_obj; segment_obj_t *seg_obj; seg_obj = malloc(sizeof (segment_obj_t)); if (seg_obj == NULL) { return (NULL); } hash_obj = malloc(sizeof (hash_obj_t)); if (hash_obj == NULL) { free(seg_obj); return (NULL); } seg_obj->next = NULL; seg_obj->pkt_obj_list = NULL; hash_obj->object_type = SEGMENT_TYPE; hash_obj->u.seg_obj = seg_obj; hash_obj->next = NULL; hash_obj->prev = NULL; return (hash_obj); } static hash_obj_t * create_packet_hash_object(void) { hash_obj_t *hash_obj; packet_obj_t *pkt_obj; pkt_obj = malloc(sizeof (packet_obj_t)); if (pkt_obj == NULL) { return (NULL); } hash_obj = malloc(sizeof (hash_obj_t)); if (hash_obj == NULL) { free(pkt_obj); return (NULL); } pkt_obj->next = NULL; hash_obj->object_type = PACKET_TYPE; hash_obj->u.pkt_obj = pkt_obj; hash_obj->next = NULL; hash_obj->prev = NULL; return (hash_obj); } static hash_obj_t * get_container_hash_object(int object_type, handle_t handle) { hash_obj_t *hash_obj = NULL; switch (object_type) { case CONTAINER_TYPE: break; case SECTION_TYPE: hash_obj = lookup_handle_object(handle, CONTAINER_TYPE); if (hash_obj == NULL) { return (NULL); } break; case SEGMENT_TYPE: hash_obj = lookup_handle_object(handle, SECTION_TYPE); if (hash_obj == NULL) { return (NULL); } hash_obj = lookup_handle_object(hash_obj->u.sec_obj->cont_hdl, CONTAINER_TYPE); break; case PACKET_TYPE: break; default: return (NULL); } return (hash_obj); } static void add_to_pkt_object_list(hash_obj_t *parent_obj, hash_obj_t *child_obj) { hash_obj_t *next_hash; /* add the packet object in the end of list */ child_obj->u.pkt_obj->segment_hdl = parent_obj->obj_hdl; if (parent_obj->u.seg_obj->pkt_obj_list == NULL) { parent_obj->u.seg_obj->pkt_obj_list = child_obj; return; } for (next_hash = parent_obj->u.seg_obj->pkt_obj_list; next_hash->u.pkt_obj->next != NULL; next_hash = next_hash->u.pkt_obj->next) { ; } next_hash->u.pkt_obj->next = child_obj; } static void free_pkt_object_list(hash_obj_t *hash_obj) { hash_obj_t *next_obj; hash_obj_t *free_obj; next_obj = hash_obj->u.seg_obj->pkt_obj_list; while (next_obj != NULL) { free_obj = next_obj; next_obj = next_obj->u.pkt_obj->next; /* if prev is NULL it's the first object in the list */ if (free_obj->prev == NULL) { hash_table[(free_obj->obj_hdl % TABLE_SIZE)] = free_obj->next; if (free_obj->next != NULL) { free_obj->next->prev = free_obj->prev; } } else { free_obj->prev->next = free_obj->next; if (free_obj->next != NULL) { free_obj->next->prev = free_obj->prev; } } free(free_obj->u.pkt_obj->payload); free(free_obj->u.pkt_obj); free(free_obj); } hash_obj->u.seg_obj->pkt_obj_list = NULL; } static void free_segment_hash(handle_t handle, hash_obj_t *sec_hash) { hash_obj_t *seg_hash; hash_obj_t *next_hash; seg_hash = sec_hash->u.sec_obj->seg_obj_list; if (seg_hash == NULL) { return; } if (seg_hash->obj_hdl == handle) { sec_hash->u.sec_obj->seg_obj_list = seg_hash->u.seg_obj->next; } else { while (seg_hash->obj_hdl != handle) { next_hash = seg_hash; seg_hash = seg_hash->u.seg_obj->next; if (seg_hash == NULL) { return; } } next_hash->u.seg_obj->next = seg_hash->u.seg_obj->next; } if (seg_hash->prev == NULL) { hash_table[(seg_hash->obj_hdl % TABLE_SIZE)] = seg_hash->next; if (seg_hash->next != NULL) { seg_hash->next->prev = NULL; } } else { seg_hash->prev->next = seg_hash->next; if (seg_hash->next != NULL) { seg_hash->next->prev = seg_hash->prev; } } free_pkt_object_list(seg_hash); free(seg_hash->u.seg_obj); free(seg_hash); } static void add_to_sec_object_list(hash_obj_t *parent_obj, hash_obj_t *child_obj) { hash_obj_t *next_hash; child_obj->u.sec_obj->cont_hdl = parent_obj->obj_hdl; if (parent_obj->u.cont_obj->sec_obj_list == NULL) { parent_obj->u.cont_obj->sec_obj_list = child_obj; return; } for (next_hash = parent_obj->u.cont_obj->sec_obj_list; next_hash->u.sec_obj->next != NULL; next_hash = next_hash->u.sec_obj->next) { ; } next_hash->u.sec_obj->next = child_obj; } static void add_to_seg_object_list(hash_obj_t *parent_obj, hash_obj_t *child_obj) { hash_obj_t *next_hash; child_obj->u.seg_obj->section_hdl = parent_obj->obj_hdl; if (parent_obj->u.sec_obj->seg_obj_list == NULL) { parent_obj->u.sec_obj->seg_obj_list = child_obj; return; } for (next_hash = parent_obj->u.sec_obj->seg_obj_list; next_hash->u.seg_obj->next != NULL; next_hash = next_hash->u.seg_obj->next) { ; } next_hash->u.seg_obj->next = child_obj; } static char * tokenizer(char *buf, char *separator, char **nextBuf, char *matched) { int i = 0; int j = 0; for (i = 0; buf[i] != '\0'; i++) { for (j = 0; j < strlen(separator); j++) { if (buf[i] == separator[j]) { buf[i] = '\0'; *nextBuf = &(buf[i+1]); *matched = separator[j]; return (buf); } } } *nextBuf = buf; *matched = '\0'; return (NULL); } static void copy_segment_layout(segment_t *seghdr, void *layout) { segment_layout_t *seg_layout; seg_layout = (segment_layout_t *)layout; (void) memcpy(seghdr->name, &seg_layout->name, SEG_NAME_LEN); seghdr->descriptor = GET_SEGMENT_DESCRIPTOR; seghdr->offset = BE_16(seg_layout->offset); seghdr->length = BE_16(seg_layout->length); } static int get_container_info(const char *def_file, const char *cont_desc_str, container_info_t *cont_info) { char *item; char *token; char *field; char matched; char buf[1024]; int foundIt = 0; FILE *file = fopen(def_file, "r"); if (file == NULL) return (-1); cont_info->num_sections = 0; while (fgets(buf, sizeof (buf), file) != NULL) { /* ignore all comments */ token = tokenizer(buf, "#", &field, &matched); /* find the names */ token = tokenizer(buf, ":", &field, &matched); if (token != NULL) { token = tokenizer(token, "|", &item, &matched); while (token != NULL) { if (strcmp(token, cont_desc_str) == 0) { foundIt = 1; goto found; } token = tokenizer(item, "|", &item, &matched); } /* check the last remaining item */ if ((item != NULL) && (strcmp(item, cont_desc_str) == 0)) { foundIt = 1; goto found; } } } found : if (foundIt == 1) { token = tokenizer(field, ":", &field, &matched); if (token == NULL) { (void) fclose(file); return (-1); } cont_info->header_ver = (headerrev_t)atoi(token); token = tokenizer(field, ":\n", &field, &matched); while (token != NULL) { token = tokenizer(token, ",", &item, &matched); if (token == NULL) { (void) fclose(file); return (-1); } if (atoi(token) == 1) { cont_info->section_info[cont_info-> num_sections].description.field.read_only = 1; } else if (atoi(token) == 0) { cont_info->section_info[cont_info-> num_sections].description.field.read_only = 0; } else { (void) fclose(file); return (-1); } token = tokenizer(item, ",", &item, &matched); if (token == NULL) { (void) fclose(file); return (-1); } cont_info->section_info[cont_info-> num_sections].address = atoi(token); if (item == NULL) { (void) fclose(file); return (-1); } cont_info->section_info[cont_info->num_sections].size = atoi(item); (cont_info->num_sections)++; token = tokenizer(field, ":\n ", &field, &matched); } } (void) fclose(file); return (0); } /* ARGSUSED */ int fru_get_segments(section_hdl_t section, segment_t *segment, int maxseg, door_cred_t *cred) { int count; hash_obj_t *sec_object; hash_obj_t *seg_object; section_obj_t *sec_obj; sec_object = lookup_handle_object(section, SECTION_TYPE); if (sec_object == NULL) { return (-1); } sec_obj = sec_object->u.sec_obj; if (sec_obj == NULL) { return (-1); } if (sec_obj->num_of_segment > maxseg) { return (-1); } seg_object = sec_object->u.sec_obj->seg_obj_list; if (seg_object == NULL) { return (-1); } for (count = 0; count < sec_obj->num_of_segment; count++) { /* populate segment_t */ segment->handle = seg_object->obj_hdl; (void) memcpy(segment->name, seg_object->u.seg_obj->segment.name, SEG_NAME_LEN); segment->descriptor = seg_object->u.seg_obj->segment.descriptor; segment->offset = seg_object->u.seg_obj->segment.offset; segment->length = seg_object->u.seg_obj->segment.length; seg_object = seg_object->u.seg_obj->next; segment++; } return (0); } static int raw_memcpy(void *buffer, raw_list_t *rawlist, int offset, int size) { if (offset + size > rawlist->size) { size = rawlist->size - offset; } (void) memcpy(buffer, &rawlist->raw[offset], size); return (size); } static int verify_header_crc8(headerrev_t head_ver, unsigned char *bytes, int length) { int crc_offset = 0; unsigned char orig_crc8 = 0; unsigned char calc_crc8 = 0; switch (head_ver) { case SECTION_HDR_VER: crc_offset = 4; break; default: errno = EINVAL; return (0); } orig_crc8 = bytes[crc_offset]; bytes[crc_offset] = 0x00; /* clear for calc */ calc_crc8 = compute_crc8(bytes, length); bytes[crc_offset] = orig_crc8; /* restore */ return (orig_crc8 == calc_crc8); } static int get_section(raw_list_t *rawlist, hash_obj_t *sec_hash, section_t *section) { int retval; int size; int count; uint16_t hdrver; hash_obj_t *seg_hash; unsigned char *buffer; section_obj_t *sec_obj; section_layout_t sec_hdr; segment_layout_t *seg_hdr; segment_layout_t *seg_buf; sec_obj = sec_hash->u.sec_obj; if (sec_obj == NULL) { return (-1); } /* populate section_t */ section->handle = sec_hash->obj_hdl; section->offset = sec_obj->section.offset; section->length = sec_obj->section.length; section->protection = sec_obj->section.protection; section->version = sec_obj->section.version; /* read section header layout */ retval = raw_memcpy(&sec_hdr, rawlist, sec_obj->section.offset, sizeof (sec_hdr)); if (retval != sizeof (sec_hdr)) { return (-1); } hdrver = GET_SECTION_HDR_VERSION; if ((sec_hdr.headertag != SECTION_HDR_TAG) && (hdrver != section->version)) { return (-1); } /* size = section layout + total sizeof segment header */ size = sizeof (sec_hdr) + ((sec_hdr.segmentcount) * sizeof (segment_layout_t)); buffer = alloca(size); if (buffer == NULL) { return (-1); } /* segment header buffer */ seg_buf = alloca(size - sizeof (sec_hdr)); if (seg_buf == NULL) { return (-1); } /* read segment header */ retval = raw_memcpy(seg_buf, rawlist, sec_obj->section.offset + sizeof (sec_hdr), size - sizeof (sec_hdr)); if (retval != (size - sizeof (sec_hdr))) { return (-1); } /* copy section header layout */ (void) memcpy(buffer, &sec_hdr, sizeof (sec_hdr)); /* copy segment header layout */ (void) memcpy(buffer + sizeof (sec_hdr), seg_buf, size - sizeof (sec_hdr)); /* verify crc8 */ retval = verify_header_crc8(hdrver, buffer, size); if (retval != TRUE) { return (-1); } section->version = hdrver; sec_obj->section.version = hdrver; seg_hdr = (segment_layout_t *)seg_buf; /* bug fix for frutool */ if (sec_hash->u.sec_obj->seg_obj_list != NULL) { return (0); } else { sec_obj->num_of_segment = 0; } for (count = 0; count < sec_hdr.segmentcount; count++, seg_hdr++) { seg_hash = create_segment_hash_object(); if (seg_hash == NULL) { return (-1); } add_hashobject_to_hashtable(seg_hash); copy_segment_layout(&seg_hash->u.seg_obj->segment, seg_hdr); add_to_seg_object_list(sec_hash, seg_hash); sec_obj->num_of_segment++; } return (0); } /* ARGSUSED */ int fru_get_sections(container_hdl_t container, section_t *section, int maxsec, door_cred_t *cred) { int count; int num_sec = 0; hash_obj_t *cont_object; hash_obj_t *sec_hash; cont_object = lookup_handle_object(container, CONTAINER_TYPE); if (cont_object == NULL) { return (-1); } if (cont_object->u.cont_obj->num_of_section > maxsec) { return (-1); } sec_hash = cont_object->u.cont_obj->sec_obj_list; if (sec_hash == NULL) { return (-1); } for (count = 0; count < cont_object->u.cont_obj->num_of_section; count++) { section->version = -1; /* populate section_t */ if (get_section(g_raw, sec_hash, section) == 0) { section++; num_sec++; } sec_hash = sec_hash->u.sec_obj->next; } return (num_sec); } static uint32_t get_checksum_crc(hash_obj_t *seg_hash, int data_size) { int protection; int offset = 0; uint32_t crc; hash_obj_t *sec_hash; hash_obj_t *pkt_hash; unsigned char *buffer; sec_hash = lookup_handle_object(seg_hash->u.seg_obj->section_hdl, SECTION_TYPE); if (sec_hash == NULL) { return ((uint32_t)-1); } buffer = alloca(data_size); if (buffer == NULL) { return ((uint32_t)-1); } /* traverse the packet object list for all the tags and payload */ for (pkt_hash = seg_hash->u.seg_obj->pkt_obj_list; pkt_hash != NULL; pkt_hash = pkt_hash->u.pkt_obj->next) { (void) memcpy(buffer + offset, &pkt_hash->u.pkt_obj->tag, pkt_hash->u.pkt_obj->tag_size); offset += pkt_hash->u.pkt_obj->tag_size; (void) memcpy(buffer + offset, pkt_hash->u.pkt_obj->payload, pkt_hash->u.pkt_obj->paylen); offset += pkt_hash->u.pkt_obj->paylen; } protection = sec_hash->u.sec_obj->section.protection; if (protection == READ_ONLY_SECTION) { /* read-only section */ crc = compute_crc32(buffer, data_size); } else { /* read/write section */ crc = compute_checksum32(buffer, data_size); } return (crc); /* computed crc */ } static int get_packet(raw_list_t *rawlist, void *buffer, int size, int offset) { int retval; retval = raw_memcpy(buffer, rawlist, offset, size); if (retval != -1) { return (0); } return (-1); } static int get_packets(hash_obj_t *seg_hash, raw_list_t *rawlist, int offset, int length) { int tag_size; int paylen; int retval; int seg_limit = 0; int pktcnt = 0; char *data; uint32_t crc; uint32_t origcrc; fru_tag_t tag; hash_obj_t *pkt_hash_obj; hash_obj_t *sec_hash; fru_segdesc_t *segdesc; fru_tagtype_t tagtype; char *ignore_flag; retval = get_packet(rawlist, &tag, sizeof (fru_tag_t), offset); if (retval == -1) { return (-1); } /* section hash object */ sec_hash = lookup_handle_object(seg_hash->u.seg_obj->section_hdl, SECTION_TYPE); if (sec_hash == NULL) { return (-1); } seg_hash->u.seg_obj->trailer_offset = offset; data = (char *)&tag; while (data[0] != SEG_TRAILER_TAG) { tagtype = get_tag_type(&tag); /* verify tag type */ if (tagtype == -1) { return (-1); } tag_size = get_tag_size(tagtype); if (tag_size == -1) { return (-1); } seg_limit += tag_size; if (seg_limit > length) { return (-1); } paylen = get_payload_length((void *)&tag); if (paylen == -1) { return (-1); } seg_limit += paylen; if (seg_limit > length) { return (-1); } if ((offset + tag_size + paylen) > (sec_hash->u.sec_obj->section.offset + sec_hash->u.sec_obj->section.length)) { return (-1); } pkt_hash_obj = create_packet_hash_object(); if (pkt_hash_obj == NULL) { return (-1); } pkt_hash_obj->u.pkt_obj->payload = malloc(paylen); if (pkt_hash_obj->u.pkt_obj->payload == NULL) { free(pkt_hash_obj); return (-1); } offset += tag_size; retval = raw_memcpy(pkt_hash_obj->u.pkt_obj->payload, rawlist, offset, paylen); if (retval != paylen) { free(pkt_hash_obj->u.pkt_obj->payload); free(pkt_hash_obj); return (-1); } /* don't change this */ pkt_hash_obj->u.pkt_obj->tag.raw_data = 0; (void) memcpy(&pkt_hash_obj->u.pkt_obj->tag, &tag, tag_size); pkt_hash_obj->u.pkt_obj->paylen = paylen; pkt_hash_obj->u.pkt_obj->tag_size = tag_size; pkt_hash_obj->u.pkt_obj->payload_offset = offset; offset += paylen; add_hashobject_to_hashtable(pkt_hash_obj); add_to_pkt_object_list(seg_hash, pkt_hash_obj); pktcnt++; retval = get_packet(rawlist, &tag, sizeof (fru_tag_t), offset); if (retval == -1) { return (retval); } data = (char *)&tag; } segdesc = (fru_segdesc_t *)&seg_hash->u.seg_obj->segment.descriptor; seg_hash->u.seg_obj->trailer_offset = offset; if (!segdesc->field.ignore_checksum) { crc = get_checksum_crc(seg_hash, seg_limit); offset = seg_hash->u.seg_obj->segment.offset; retval = raw_memcpy(&origcrc, rawlist, offset + seg_limit + 1, sizeof (origcrc)); ignore_flag = getenv(IGNORE_CHECK); if (ignore_flag != NULL) { return (pktcnt); } if (retval != sizeof (origcrc)) { return (-1); } origcrc = BE_32(origcrc); if (origcrc != crc) { seg_hash->u.seg_obj->trailer_offset = offset; return (-1); } } return (pktcnt); } /* ARGSUSED */ int fru_get_num_sections(container_hdl_t container, door_cred_t *cred) { hash_obj_t *hash_object; hash_object = lookup_handle_object(container, CONTAINER_TYPE); if (hash_object == NULL) { return (-1); } return (hash_object->u.cont_obj->num_of_section); } /* ARGSUSED */ int fru_get_num_segments(section_hdl_t section, door_cred_t *cred) { hash_obj_t *sec_object; section_obj_t *sec_obj; sec_object = lookup_handle_object(section, SECTION_TYPE); if (sec_object == NULL) { return (-1); } sec_obj = sec_object->u.sec_obj; if (sec_obj == NULL) { return (-1); } return (sec_obj->num_of_segment); } /* ARGSUSED */ int fru_get_num_packets(segment_hdl_t segment, door_cred_t *cred) { int pktcnt; int length; uint16_t offset; hash_obj_t *cont_hash_obj; hash_obj_t *seg_hash; hash_obj_t *sec_hash; fru_segdesc_t *segdesc; segment_obj_t *segment_object; seg_hash = lookup_handle_object(segment, SEGMENT_TYPE); if (seg_hash == NULL) { return (-1); } segment_object = seg_hash->u.seg_obj; if (segment_object == NULL) { return (-1); } segdesc = (fru_segdesc_t *)&segment_object->segment.descriptor; if (segdesc->field.opaque) { return (0); } offset = segment_object->segment.offset; length = segment_object->segment.length; cont_hash_obj = get_container_hash_object(SEGMENT_TYPE, segment_object->section_hdl); if (cont_hash_obj == NULL) { return (-1); } if (seg_hash->u.seg_obj->pkt_obj_list != NULL) { return (segment_object->num_of_packets); } /* section hash object */ sec_hash = lookup_handle_object(seg_hash->u.seg_obj->section_hdl, SECTION_TYPE); if (sec_hash == NULL) { return (-1); } /* valid segment header b'cos crc8 already validated */ if (offset < sec_hash->u.sec_obj->section.offset) { return (-1); } segment_object->num_of_packets = 0; pktcnt = get_packets(seg_hash, g_raw, offset, length); if (pktcnt == -1) { free_pkt_object_list(seg_hash); seg_hash->u.seg_obj->pkt_obj_list = NULL; } segment_object->num_of_packets = pktcnt; return (segment_object->num_of_packets); } /* ARGSUSED */ int fru_get_packets(segment_hdl_t segment, packet_t *packet, int maxpackets, door_cred_t *cred) { int count; hash_obj_t *seg_hash_obj; hash_obj_t *pkt_hash_obj; /* segment hash object */ seg_hash_obj = lookup_handle_object(segment, SEGMENT_TYPE); if (seg_hash_obj == NULL) { return (-1); } if (seg_hash_obj->u.seg_obj->num_of_packets != maxpackets) { return (-1); } pkt_hash_obj = seg_hash_obj->u.seg_obj->pkt_obj_list; if (pkt_hash_obj == NULL) { return (-1); } for (count = 0; count < maxpackets; count++, packet++) { packet->handle = pkt_hash_obj->obj_hdl; packet->tag = 0; (void) memcpy(&packet->tag, &pkt_hash_obj->u.pkt_obj->tag, pkt_hash_obj->u.pkt_obj->tag_size); pkt_hash_obj = pkt_hash_obj->u.pkt_obj->next; } return (0); } /* ARGSUSED */ ssize_t fru_get_payload(packet_hdl_t packet, void *buffer, size_t nbytes, door_cred_t *cred) { hash_obj_t *packet_hash_obj; /* packet hash object */ packet_hash_obj = lookup_handle_object(packet, PACKET_TYPE); if (packet_hash_obj == NULL) { return (-1); } /* verify payload length */ if (nbytes != packet_hash_obj->u.pkt_obj->paylen) { return (-1); } (void) memcpy(buffer, packet_hash_obj->u.pkt_obj->payload, nbytes); return (nbytes); } container_hdl_t open_raw_data(raw_list_t *node) { char *cont_conf_file = NULL; hash_obj_t *cont_hash_obj; hash_obj_t *sec_hash_obj; container_info_t cont_info; int retval; int count; cont_hash_obj = create_container_hash_object(); if (cont_hash_obj == NULL) { return (0); } add_hashobject_to_hashtable(cont_hash_obj); (void) strncpy(cont_hash_obj->u.cont_obj->device_pathname, "unknown", sizeof (cont_hash_obj->u.cont_obj->device_pathname)); cont_conf_file = getenv(FRU_CONT_CONF_ENV_VAR); if (cont_conf_file == NULL) { cont_conf_file = FRU_CONT_CONF_SPARC; retval = get_container_info(cont_conf_file, node->cont_type, &cont_info); if (retval < 0) { cont_conf_file = FRU_CONT_CONF_X86; retval = get_container_info(cont_conf_file, node->cont_type, &cont_info); } } else { retval = get_container_info(cont_conf_file, node->cont_type, &cont_info); } if (retval < 0) { return (0); } cont_hash_obj->u.cont_obj->num_of_section = cont_info.num_sections; cont_hash_obj->u.cont_obj->sec_obj_list = NULL; for (count = 0; count < cont_info.num_sections; count++) { sec_hash_obj = create_section_hash_object(); if (sec_hash_obj == NULL) { return (0); } add_hashobject_to_hashtable(sec_hash_obj); sec_hash_obj->u.sec_obj->section.offset = cont_info.section_info[count].address; sec_hash_obj->u.sec_obj->section.protection = cont_info.section_info[count].description.field.read_only; sec_hash_obj->u.sec_obj->section.length = cont_info.section_info[count].size; sec_hash_obj->u.sec_obj->section.version = cont_info.header_ver; add_to_sec_object_list(cont_hash_obj, sec_hash_obj); } return (cont_hash_obj->obj_hdl); } int fru_close_container(container_hdl_t container) { hash_obj_t *hash_obj; hash_obj_t *prev_hash; hash_obj_t *sec_hash_obj; handle_t obj_hdl; /* lookup for container hash object */ hash_obj = lookup_handle_object(container, CONTAINER_TYPE); if (hash_obj == NULL) { return (0); } /* points to section object list */ sec_hash_obj = hash_obj->u.cont_obj->sec_obj_list; /* traverse section object list */ while (sec_hash_obj != NULL) { /* traverse segment hash object in the section */ while (sec_hash_obj->u.sec_obj->seg_obj_list != NULL) { /* object handle of the segment hash object */ obj_hdl = sec_hash_obj->u.sec_obj->seg_obj_list->obj_hdl; free_segment_hash(obj_hdl, sec_hash_obj); } /* going to free section hash object, relink the hash object */ if (sec_hash_obj->prev == NULL) { hash_table[(sec_hash_obj->obj_hdl % TABLE_SIZE)] = sec_hash_obj->next; if (sec_hash_obj->next != NULL) { sec_hash_obj->next->prev = NULL; } } else { sec_hash_obj->prev->next = sec_hash_obj->next; if (sec_hash_obj->next != NULL) { sec_hash_obj->next->prev = sec_hash_obj->prev; } } prev_hash = sec_hash_obj; sec_hash_obj = sec_hash_obj->u.sec_obj->next; free(prev_hash->u.sec_obj); /* free section hash object */ free(prev_hash); /* free section hash */ } /* free container hash object */ if (hash_obj->prev == NULL) { hash_table[(hash_obj->obj_hdl % TABLE_SIZE)] = hash_obj->next; if (hash_obj->next != NULL) { hash_obj->next->prev = NULL; } } else { hash_obj->prev->next = hash_obj->next; if (hash_obj->next != NULL) { hash_obj->next->prev = hash_obj->prev; } } free(hash_obj->u.cont_obj); free(hash_obj); return (0); }