/* * Copyright (c) 2007-2010 Apple Inc. All rights reserved. * * @APPLE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this * file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_LICENSE_HEADER_END@ */ #include #include #include #include #include #include #include #include #include #include #include #include "asl_memory.h" #define DEFAULT_MAX_RECORDS 2000 #define DEFAULT_MAX_STRING_MEMORY 4096000 #define MEM_STRING_HEADER_SIZE 8 #define forever for(;;) uint32_t asl_memory_statistics(asl_memory_t *s, asl_msg_t **msg) { asl_msg_t * out; uint32_t i, n; uint64_t size; char str[256]; if (s == NULL) return ASL_STATUS_INVALID_STORE; if (msg == NULL) return ASL_STATUS_INVALID_ARG; out = asl_msg_new(ASL_TYPE_MSG); if (out == NULL) return ASL_STATUS_NO_MEMORY; size = sizeof(asl_memory_t); size += ((s->record_count + 1) * sizeof(mem_record_t)); for (i = 0; i < s->string_count; i++) { size += MEM_STRING_HEADER_SIZE; if (((mem_string_t *)s->string_cache[i])->str != NULL) size += (strlen(((mem_string_t *)s->string_cache[i])->str) + 1); } snprintf(str, sizeof(str), "%llu", size); asl_msg_set_key_val(out, "Size", str); n = 0; for (i = 0; i < s->record_count; i++) if (s->record[i]->mid != 0) n++; snprintf(str, sizeof(str), "%u", s->record_count); asl_msg_set_key_val(out, "MaxRecords", str); snprintf(str, sizeof(str), "%u", n); asl_msg_set_key_val(out, "RecordCount", str); snprintf(str, sizeof(str), "%u", s->string_count); asl_msg_set_key_val(out, "StringCount", str); snprintf(str, sizeof(str), "%u", s->curr_string_mem); asl_msg_set_key_val(out, "StringMemory", str); snprintf(str, sizeof(str), "%u", s->max_string_mem); asl_msg_set_key_val(out, "MaxStringMemory", str); *msg = out; return ASL_STATUS_OK; } uint32_t asl_memory_close(asl_memory_t *s) { uint32_t i; if (s == NULL) return ASL_STATUS_OK; if (s->record != NULL) { for (i = 0; i < s->record_count; i++) { if (s->record[i] != NULL) free(s->record[i]); s->record[i] = NULL; } free(s->record); s->record = NULL; } if (s->buffer_record != NULL) free(s->buffer_record); if (s->string_cache != NULL) { for (i = 0; i < s->string_count; i++) { if (s->string_cache[i] != NULL) free(s->string_cache[i]); s->string_cache[i] = NULL; } free(s->string_cache); s->string_cache = NULL; } free(s); return ASL_STATUS_OK; } uint32_t asl_memory_open(uint32_t max_records, size_t max_str_mem, asl_memory_t **s) { asl_memory_t *out; uint32_t i; if (s == NULL) return ASL_STATUS_INVALID_ARG; if (max_records == 0) max_records = DEFAULT_MAX_RECORDS; if (max_str_mem == 0) max_str_mem = DEFAULT_MAX_STRING_MEMORY; out = calloc(1, sizeof(asl_memory_t)); if (out == NULL) return ASL_STATUS_NO_MEMORY; out->max_string_mem = max_str_mem; out->record_count = max_records; out->record = (mem_record_t **)calloc(max_records, sizeof(mem_record_t *)); if (out->record == NULL) { free(out); return ASL_STATUS_NO_MEMORY; } for (i = 0; i < max_records; i++) { out->record[i] = (mem_record_t *)calloc(1, sizeof(mem_record_t)); if (out->record[i] == NULL) { asl_memory_close(out); return ASL_STATUS_NO_MEMORY; } } out->buffer_record = (mem_record_t *)calloc(1, sizeof(mem_record_t)); if (out->buffer_record == NULL) { asl_memory_close(out); return ASL_STATUS_NO_MEMORY; } *s = out; return ASL_STATUS_OK; } static mem_string_t * mem_string_new(const char *str, uint32_t len, uint32_t hash) { mem_string_t *out; size_t ss; if (str == NULL) return NULL; ss = MEM_STRING_HEADER_SIZE + len + 1; out = (mem_string_t *)calloc(1, ss); if (out == NULL) return NULL; out->hash = hash; out->refcount = 1; memcpy(out->str, str, len); return out; } /* * Find the first hash greater than or equal to a given hash in the string cache. * Return s->string_count if hash is greater that or equal to last hash in the string cache. * Caller must check if the hashes match or not. * * This routine is used both to find strings in the cache and to determine where to insert * new strings. Note that the caller needs to do extra work after calling this routine. */ static uint32_t asl_memory_string_cache_search_hash(asl_memory_t *s, uint32_t hash) { uint32_t top, bot, mid, range; mem_string_t *ms; if (s->string_count == 0) return 0; if (s->string_count == 1) { ms = (mem_string_t *)s->string_cache[0]; if (hash < ms->hash) return 0; return 1; } range = top = s->string_count - 1; bot = 0; mid = top / 2; while (range > 1) { ms = (mem_string_t *)s->string_cache[mid]; if (hash == ms->hash) { while (mid > 0) { ms = (mem_string_t *)s->string_cache[mid - 1]; if (hash != ms->hash) break; mid--; } return mid; } else { ms = (mem_string_t *)s->string_cache[mid]; if (hash < ms->hash) top = mid; else bot = mid; } range = top - bot; mid = bot + (range / 2); } ms = (mem_string_t *)s->string_cache[bot]; if (hash <= ms->hash) return bot; ms = (mem_string_t *)s->string_cache[top]; if (hash <= ms->hash) return top; return s->string_count; } /* * Search the string cache. * If the string is in the cache, increment refcount and return it. * If the string is not in cache and create flag is on, create a new string. * Otherwise, return NULL. */ static mem_string_t * asl_memory_string_retain(asl_memory_t *s, const char *str, int create) { uint32_t i, where, hash, len; mem_string_t *new; if (s == NULL) return NULL; if (str == NULL) return NULL; len = strlen(str); /* check the cache */ hash = asl_core_string_hash(str, len); where = asl_memory_string_cache_search_hash(s, hash); /* asl_memory_string_cache_search_hash just tells us where to look */ if (where < s->string_count) { while (((mem_string_t *)(s->string_cache[where]))->hash == hash) { if (!strcmp(str, ((mem_string_t *)(s->string_cache[where]))->str)) { ((mem_string_t *)(s->string_cache[where]))->refcount++; return s->string_cache[where]; } where++; } } /* not found */ if (create == 0) return NULL; /* create a new mem_string_t and insert into the cache at index 'where' */ if (s->string_count == 0) { s->string_cache = (void **)calloc(1, sizeof(void *)); } else { s->string_cache = (void **)reallocf(s->string_cache, (s->string_count + 1) * sizeof(void *)); for (i = s->string_count; i > where; i--) s->string_cache[i] = s->string_cache[i - 1]; } if (s->string_cache == NULL) { s->string_count = 0; return NULL; } new = mem_string_new(str, len, hash); if (new == NULL) return NULL; s->curr_string_mem += (MEM_STRING_HEADER_SIZE + len + 1); s->string_cache[where] = new; s->string_count++; return s->string_cache[where]; } static uint32_t asl_memory_string_release(asl_memory_t *s, mem_string_t *m) { uint32_t i, where; if (s == NULL) return ASL_STATUS_INVALID_STORE; if (m == NULL) return ASL_STATUS_OK; if (m->refcount > 0) m->refcount--; if (m->refcount > 0) return ASL_STATUS_OK; where = asl_memory_string_cache_search_hash(s, m->hash); if (((mem_string_t *)(s->string_cache[where]))->hash != m->hash) return ASL_STATUS_OK; while (s->string_cache[where] != m) { if (((mem_string_t *)(s->string_cache[where]))->hash != m->hash) return ASL_STATUS_OK; where++; if (where >= s->string_count) return ASL_STATUS_OK; } for (i = where + 1; i < s->string_count; i++) s->string_cache[i - 1] = s->string_cache[i]; s->curr_string_mem -= (MEM_STRING_HEADER_SIZE + strlen(m->str) + 1); free(m); s->string_count--; if (s->string_count == 0) { free(s->string_cache); s->string_cache = NULL; return ASL_STATUS_OK; } s->string_cache = (void **)reallocf(s->string_cache, s->string_count * sizeof(void *)); if (s->string_cache == NULL) { s->string_count = 0; return ASL_STATUS_NO_MEMORY; } return ASL_STATUS_OK; } /* * Release all a record's strings and reset it's values */ static void asl_memory_record_clear(asl_memory_t *s, mem_record_t *r) { uint32_t i; if (s == NULL) return; if (r == NULL) return; asl_memory_string_release(s, r->host); asl_memory_string_release(s, r->sender); asl_memory_string_release(s, r->sender_mach_uuid); asl_memory_string_release(s, r->facility); asl_memory_string_release(s, r->message); asl_memory_string_release(s, r->refproc); asl_memory_string_release(s, r->session); for (i = 0; i < r->kvcount; i++) asl_memory_string_release(s, r->kvlist[i]); if (r->kvlist != NULL) free(r->kvlist); memset(r, 0, sizeof(mem_record_t)); } static void asl_memory_record_free(asl_memory_t *s, mem_record_t *r) { asl_memory_record_clear(s, r); free(r); } /* * Encode an asl_msg_t as a record structure. * Creates and caches strings. */ static uint32_t asl_memory_message_encode(asl_memory_t *s, asl_msg_t *msg) { uint32_t x; mem_string_t *k, *v; mem_record_t *r; const char *key, *val; if (s == NULL) return ASL_STATUS_INVALID_STORE; if (s->buffer_record == NULL) return ASL_STATUS_INVALID_STORE; if (msg == NULL) return ASL_STATUS_INVALID_MESSAGE; r = s->buffer_record; memset(r, 0, sizeof(mem_record_t)); r->flags = 0; r->level = ASL_LEVEL_DEBUG; r->pid = -1; r->uid = -2; r->gid = -2; r->ruid = -1; r->rgid = -1; r->time = (uint64_t)-1; r->nano = (uint32_t)-1; key = NULL; val = NULL; for (x = asl_msg_fetch((asl_msg_t *)msg, 0, &key, &val, NULL); x != IndexNull; x = asl_msg_fetch((asl_msg_t *)msg, x, &key, &val, NULL)) { if (key == NULL) continue; else if (!strcmp(key, ASL_KEY_TIME)) { if (val != NULL) r->time = asl_core_parse_time(val, NULL); } else if (!strcmp(key, ASL_KEY_TIME_NSEC)) { if (val != NULL) r->nano = atoi(val); } else if (!strcmp(key, ASL_KEY_HOST)) { if (val != NULL) r->host = asl_memory_string_retain(s, val, 1); } else if (!strcmp(key, ASL_KEY_SENDER)) { if (val != NULL) r->sender = asl_memory_string_retain(s, val, 1); } else if (!strcmp(key, ASL_KEY_PID)) { if (val != NULL) r->pid = atoi(val); } else if (!strcmp(key, ASL_KEY_REF_PID)) { if (val != NULL) r->refpid = atoi(val); } else if (!strcmp(key, ASL_KEY_UID)) { if (val != NULL) r->uid = atoi(val); } else if (!strcmp(key, ASL_KEY_GID)) { if (val != NULL) r->gid = atoi(val); } else if (!strcmp(key, ASL_KEY_LEVEL)) { if (val != NULL) r->level = atoi(val); } else if (!strcmp(key, ASL_KEY_MSG)) { if (val != NULL) r->message = asl_memory_string_retain(s, val, 1); } else if (!strcmp(key, ASL_KEY_SENDER_MACH_UUID)) { if (val != NULL) r->sender_mach_uuid = asl_memory_string_retain(s, val, 1); } else if (!strcmp(key, ASL_KEY_FACILITY)) { if (val != NULL) r->facility = asl_memory_string_retain(s, val, 1); } else if (!strcmp(key, ASL_KEY_REF_PROC)) { if (val != NULL) r->refproc = asl_memory_string_retain(s, val, 1); } else if (!strcmp(key, ASL_KEY_SESSION)) { if (val != NULL) r->session = asl_memory_string_retain(s, val, 1); } else if (!strcmp(key, ASL_KEY_READ_UID)) { if (((r->flags & ASL_MSG_FLAG_READ_UID_SET) == 0) && (val != NULL)) { r->ruid = atoi(val); r->flags |= ASL_MSG_FLAG_READ_UID_SET; } } else if (!strcmp(key, ASL_KEY_READ_GID)) { if (((r->flags & ASL_MSG_FLAG_READ_GID_SET) == 0) && (val != NULL)) { r->rgid = atoi(val); r->flags |= ASL_MSG_FLAG_READ_GID_SET; } } else if (!strcmp(key, ASL_KEY_OS_ACTIVITY_ID)) { if (val != NULL) r->os_activity_id = atoll(val); } else if (!strcmp(key, ASL_KEY_MSG_ID)) { /* Ignore */ continue; } else { k = asl_memory_string_retain(s, key, 1); if (k == NULL) continue; v = NULL; if (val != NULL) v = asl_memory_string_retain(s, val, 1); if (r->kvcount == 0) { r->kvlist = (mem_string_t **)calloc(2, sizeof(mem_string_t *)); } else { r->kvlist = (mem_string_t **)reallocf(r->kvlist, (r->kvcount + 2) * sizeof(mem_string_t *)); } if (r->kvlist == NULL) { asl_memory_record_clear(s, r); return ASL_STATUS_NO_MEMORY; } r->kvlist[r->kvcount++] = k; r->kvlist[r->kvcount++] = v; } } return ASL_STATUS_OK; } uint32_t asl_memory_save(asl_memory_t *s, asl_msg_t *msg, uint64_t *mid) { uint32_t status; mem_record_t *t; if (s == NULL) return ASL_STATUS_INVALID_STORE; if (s->buffer_record == NULL) return ASL_STATUS_INVALID_STORE; /* asl_memory_message_encode creates and caches strings */ status = asl_memory_message_encode(s, msg); if (status != ASL_STATUS_OK) return status; if (*mid != 0) { s->buffer_record->mid = *mid; } else { s->buffer_record->mid = asl_core_new_msg_id(0); *mid = s->buffer_record->mid; } /* clear the first record */ t = s->record[s->record_first]; asl_memory_record_clear(s, t); /* add the new record to the record list (swap in the buffer record) */ s->record[s->record_first] = s->buffer_record; s->buffer_record = t; /* record list is a circular queue */ s->record_first++; if (s->record_first >= s->record_count) s->record_first = 0; /* delete records if too much memory is in use */ while (s->curr_string_mem > s->max_string_mem) { asl_memory_record_clear(s, s->record[s->record_first]); s->record_first++; if (s->record_first >= s->record_count) s->record_first = 0; } return status; } /* * Decodes a record structure. */ static uint32_t asl_memory_message_decode(asl_memory_t *s, mem_record_t *r, asl_msg_t **out) { uint32_t i; asl_msg_t *msg; char tmp[64]; const char *key, *val; if (s == NULL) return ASL_STATUS_INVALID_STORE; if (r == NULL) return ASL_STATUS_INVALID_ARG; if (out == NULL) return ASL_STATUS_INVALID_ARG; *out = NULL; msg = asl_msg_new(ASL_TYPE_MSG); if (msg == NULL) return ASL_STATUS_NO_MEMORY; /* Message ID */ snprintf(tmp, sizeof(tmp), "%llu", r->mid); asl_msg_set_key_val(msg, ASL_KEY_MSG_ID, tmp); /* Level */ snprintf(tmp, sizeof(tmp), "%u", r->level); asl_msg_set_key_val(msg, ASL_KEY_LEVEL, tmp); /* Time */ if (r->time != (uint64_t)-1) { snprintf(tmp, sizeof(tmp), "%llu", r->time); asl_msg_set_key_val(msg, ASL_KEY_TIME, tmp); } /* Nanoseconds */ if (r->nano != (uint32_t)-1) { snprintf(tmp, sizeof(tmp), "%u", r->nano); asl_msg_set_key_val(msg, ASL_KEY_TIME_NSEC, tmp); } /* Host */ if (r->host != NULL) { asl_msg_set_key_val(msg, ASL_KEY_HOST, r->host->str); } /* Sender */ if (r->sender != NULL) { asl_msg_set_key_val(msg, ASL_KEY_SENDER, r->sender->str); } /* Sender mach UUID */ if (r->sender_mach_uuid != NULL) { asl_msg_set_key_val(msg, ASL_KEY_SENDER_MACH_UUID, r->sender_mach_uuid->str); } /* Facility */ if (r->facility != NULL) { asl_msg_set_key_val(msg, ASL_KEY_FACILITY, r->facility->str); } /* Ref Proc */ if (r->refproc != NULL) { asl_msg_set_key_val(msg, ASL_KEY_REF_PROC, r->refproc->str); } /* Session */ if (r->session != NULL) { asl_msg_set_key_val(msg, ASL_KEY_SESSION, r->session->str); } /* PID */ if (r->pid != -1) { snprintf(tmp, sizeof(tmp), "%d", r->pid); asl_msg_set_key_val(msg, ASL_KEY_PID, tmp); } /* REF PID */ if (r->refpid != 0) { snprintf(tmp, sizeof(tmp), "%d", r->refpid); asl_msg_set_key_val(msg, ASL_KEY_REF_PID, tmp); } /* UID */ if (r->uid != -2) { snprintf(tmp, sizeof(tmp), "%d", r->uid); asl_msg_set_key_val(msg, ASL_KEY_UID, tmp); } /* GID */ if (r->gid != -2) { snprintf(tmp, sizeof(tmp), "%d", r->gid); asl_msg_set_key_val(msg, ASL_KEY_GID, tmp); } /* Message */ if (r->message != NULL) { asl_msg_set_key_val(msg, ASL_KEY_MSG, r->message->str); } /* ReadUID */ if (r->flags & ASL_MSG_FLAG_READ_UID_SET) { snprintf(tmp, sizeof(tmp), "%d", r->ruid); asl_msg_set_key_val(msg, ASL_KEY_READ_UID, tmp); } /* ReadGID */ if (r->flags & ASL_MSG_FLAG_READ_GID_SET) { snprintf(tmp, sizeof(tmp), "%d", r->rgid); asl_msg_set_key_val(msg, ASL_KEY_READ_GID, tmp); } /* OSActivityID */ if (r->os_activity_id != 0) { snprintf(tmp, sizeof(tmp), "%llu", r->os_activity_id); asl_msg_set_key_val(msg, ASL_KEY_OS_ACTIVITY_ID, tmp); } /* Key - Value List */ for (i = 0; i < r->kvcount; i++) { key = NULL; val = NULL; if ((r->kvlist[i] != NULL) && (r->kvlist[i]->str != NULL)) key = r->kvlist[i]->str; i++; if ((r->kvlist[i] != NULL) && (r->kvlist[i]->str != NULL)) val = r->kvlist[i]->str; if (key != NULL) asl_msg_set_key_val(msg, key, val); } *out = msg; return ASL_STATUS_OK; } uint32_t asl_memory_fetch(asl_memory_t *s, uint64_t mid, asl_msg_t **msg, int32_t ruid, int32_t rgid) { uint32_t i, status; if (s == NULL) return ASL_STATUS_INVALID_STORE; if (msg == NULL) return ASL_STATUS_INVALID_ARG; for (i = 0; i < s->record_count; i++) { if (s->record[i]->mid == 0) break; if (s->record[i]->mid == mid) { status = asl_core_check_access(s->record[i]->ruid, s->record[i]->rgid, ruid, rgid, s->record[i]->flags); if (status != ASL_STATUS_OK) return status; return asl_memory_message_decode(s, s->record[i], msg); } } return ASL_STATUS_INVALID_ID; } static mem_record_t * asl_memory_query_to_record(asl_memory_t *s, asl_msg_t *q, uint32_t *type) { mem_record_t *out; uint32_t i, x; uint16_t op; mem_string_t *mkey, *mval; const char *key, *val; if (type == NULL) return NULL; if (s == NULL) { *type = ASL_QUERY_MATCH_ERROR; return NULL; } /* NULL query matches anything */ *type = ASL_QUERY_MATCH_TRUE; if (q == NULL) return NULL; if (asl_msg_count((asl_msg_t *)q) == 0) return NULL; /* we can only do fast match on equality tests */ *type = ASL_QUERY_MATCH_SLOW; for (x = asl_msg_fetch((asl_msg_t *)q, 0, NULL, NULL, &op); x != IndexNull; x = asl_msg_fetch((asl_msg_t *)q, x, NULL, NULL, &op)) { if (op != ASL_QUERY_OP_EQUAL) return NULL; } out = (mem_record_t *)calloc(1, sizeof(mem_record_t)); if (out == NULL) { *type = ASL_QUERY_MATCH_ERROR; return NULL; } for (x = asl_msg_fetch((asl_msg_t *)q, 0, &key, &val, &op); x != IndexNull; x = asl_msg_fetch((asl_msg_t *)q, x, &key, &val, &op)) { if (key == NULL) continue; else if (!strcmp(key, ASL_KEY_MSG_ID)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_MSG_ID) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_MSG_ID; out->mid = atoll(val); } else if (!strcmp(key, ASL_KEY_TIME)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_TIME) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_TIME; out->time = asl_core_parse_time(val, NULL); } else if (!strcmp(key, ASL_KEY_TIME_NSEC)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_NANO) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_NANO; out->nano = atoll(val); } else if (!strcmp(key, ASL_KEY_LEVEL)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_LEVEL) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_LEVEL; out->level = atoi(val); } else if (!strcmp(key, ASL_KEY_PID)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_PID) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_PID; out->pid = atoi(val); } else if (!strcmp(key, ASL_KEY_UID)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_UID) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_UID; out->uid = atoi(val); } else if (!strcmp(key, ASL_KEY_GID)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_GID) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_GID; out->gid = atoi(val); } else if (!strcmp(key, ASL_KEY_READ_UID)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_RUID) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_RUID; out->ruid = atoi(val); } else if (!strcmp(key, ASL_KEY_READ_GID)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_RGID) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_RGID; out->rgid = atoi(val); } else if (!strcmp(key, ASL_KEY_REF_PID)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_REF_PID) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_REF_PID; out->refpid = atoi(val); } else if (!strcmp(key, ASL_KEY_HOST)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_HOST) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_HOST; out->host = asl_memory_string_retain(s, val, 0); if (out->host == NULL) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_FALSE; return NULL; } } else if (!strcmp(key, ASL_KEY_SENDER)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_SENDER) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_SENDER; out->sender = asl_memory_string_retain(s, val, 0); if (out->sender == NULL) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_FALSE; return NULL; } } else if (!strcmp(key, ASL_KEY_SENDER_MACH_UUID)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_SMUUID) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_SMUUID; out->sender = asl_memory_string_retain(s, val, 0); if (out->sender_mach_uuid == NULL) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_FALSE; return NULL; } } else if (!strcmp(key, ASL_KEY_FACILITY)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_FACILITY) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_FACILITY; out->facility = asl_memory_string_retain(s, val, 0); if (out->facility == NULL) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_FALSE; return NULL; } } else if (!strcmp(key, ASL_KEY_MSG)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_MESSAGE) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_MESSAGE; out->message = asl_memory_string_retain(s, val, 0); if (out->message == NULL) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_FALSE; return NULL; } } else if (!strcmp(key, ASL_KEY_REF_PROC)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_REF_PROC) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_REF_PROC; out->refproc = asl_memory_string_retain(s, val, 0); if (out->refproc == NULL) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_FALSE; return NULL; } } else if (!strcmp(key, ASL_KEY_SESSION)) { if (val == NULL) continue; if (*type & ASL_QUERY_MATCH_SESSION) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } *type |= ASL_QUERY_MATCH_SESSION; out->session = asl_memory_string_retain(s, val, 0); if (out->session == NULL) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_FALSE; return NULL; } } else { mkey = asl_memory_string_retain(s, key, 0); if (mkey == NULL) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_FALSE; return NULL; } for (i = 0; i < out->kvcount; i += 2) { if (out->kvlist[i] == mkey) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_SLOW; return NULL; } } mval = asl_memory_string_retain(s, val, 0); if (out->kvcount == 0) { out->kvlist = (mem_string_t **)calloc(2, sizeof(mem_string_t *)); } else { out->kvlist = (mem_string_t **)reallocf(out->kvlist, (out->kvcount + 2) * sizeof(mem_string_t *)); } if (out->kvlist == NULL) { asl_memory_record_free(s, out); *type = ASL_QUERY_MATCH_ERROR; return NULL; } out->kvlist[out->kvcount++] = mkey; out->kvlist[out->kvcount++] = mval; } } return out; } static uint32_t asl_memory_fast_match(asl_memory_t *s, mem_record_t *r, uint32_t qtype, mem_record_t *q) { uint32_t i, j; if (s == NULL) return 0; if (r == NULL) return 0; if (q == NULL) return 1; if ((qtype & ASL_QUERY_MATCH_MSG_ID) && (q->mid != r->mid)) return 0; if ((qtype & ASL_QUERY_MATCH_TIME) && (q->time != r->time)) return 0; if ((qtype & ASL_QUERY_MATCH_NANO) && (q->nano != r->nano)) return 0; if ((qtype & ASL_QUERY_MATCH_LEVEL) && (q->level != r->level)) return 0; if ((qtype & ASL_QUERY_MATCH_PID) && (q->pid != r->pid)) return 0; if ((qtype & ASL_QUERY_MATCH_UID) && (q->uid != r->uid)) return 0; if ((qtype & ASL_QUERY_MATCH_GID) && (q->gid != r->gid)) return 0; if ((qtype & ASL_QUERY_MATCH_RUID) && (q->ruid != r->ruid)) return 0; if ((qtype & ASL_QUERY_MATCH_RGID) && (q->rgid != r->rgid)) return 0; if ((qtype & ASL_QUERY_MATCH_REF_PID) && (q->refpid != r->refpid)) return 0; if ((qtype & ASL_QUERY_MATCH_HOST) && (q->host != r->host)) return 0; if ((qtype & ASL_QUERY_MATCH_SENDER) && (q->sender != r->sender)) return 0; if ((qtype & ASL_QUERY_MATCH_SMUUID) && (q->sender_mach_uuid != r->sender_mach_uuid)) return 0; if ((qtype & ASL_QUERY_MATCH_FACILITY) && (q->facility != r->facility)) return 0; if ((qtype & ASL_QUERY_MATCH_MESSAGE) && (q->message != r->message)) return 0; if ((qtype & ASL_QUERY_MATCH_REF_PROC) && (q->refproc != r->refproc)) return 0; if ((qtype & ASL_QUERY_MATCH_SESSION) && (q->session != r->session)) return 0; for (i = 0; i < q->kvcount; i += 2) { for (j = 0; j < r->kvcount; j += 2) { if (q->kvlist[i] == r->kvlist[j]) { if (q->kvlist[i + 1] == r->kvlist[j + 1]) break; return 0; } } if (j >= r->kvcount) return 0; } return 1; } static uint32_t asl_memory_slow_match(asl_memory_t *s, mem_record_t *r, asl_msg_t *rawq) { asl_msg_t *rawm; uint32_t status; rawm = NULL; status = asl_memory_message_decode(s, r, &rawm); if (status != ASL_STATUS_OK) return 0; status = 0; if (asl_msg_cmp((asl_msg_t *)rawq, (asl_msg_t *)rawm) != 0) status = 1; asl_msg_release(rawm); return status; } uint32_t asl_memory_match_restricted_uuid(asl_memory_t *s, asl_msg_list_t *query, asl_msg_list_t **res, uint64_t *last_id, uint64_t start_id, uint32_t count, uint32_t duration, int32_t direction, int32_t ruid, int32_t rgid, const char *uuid_str) { uint32_t status, i, where, start, j, do_match, did_match, rescount, *qtype; mem_record_t **qp; asl_msg_t *m; size_t qcount; struct timeval now, finish; if (s == NULL) return ASL_STATUS_INVALID_STORE; if (res == NULL) return ASL_STATUS_INVALID_ARG; qp = NULL; qtype = NULL; rescount = 0; qcount = asl_msg_list_count(query); if (qcount == 0) { do_match = 0; } else { qp = (mem_record_t **)calloc(qcount, sizeof(mem_record_t *)); if (qp == NULL) return ASL_STATUS_NO_MEMORY; qtype = (uint32_t *)calloc(qcount, sizeof(uint32_t)); if (qtype == NULL) { free(qp); return ASL_STATUS_NO_MEMORY; } do_match = 0; for (i = 0; i < qcount; i++) { qp[i] = asl_memory_query_to_record(s, asl_msg_list_get_index(query, i), &(qtype[i])); if (qtype[i] == ASL_QUERY_MATCH_ERROR) { for (j = 0; j < i; j++) asl_memory_record_free(s, qp[j]); free(qp); free(qtype); return ASL_STATUS_FAILED; } if (qtype[i] != ASL_QUERY_MATCH_TRUE) do_match = 1; } } for (i = 0; i < s->record_count; i++) { if (direction >= 0) { where = (s->record_first + i) % s->record_count; if (s->record[where]->mid == 0) continue; if (s->record[where]->mid >= start_id) break; } else { where = ((s->record_count - (i + 1)) + s->record_first) % s->record_count; if (s->record[where]->mid == 0) continue; if (s->record[where]->mid <= start_id) break; } } if (i >= s->record_count) { if (qp != NULL) { for (i = 0; i < qcount; i++) asl_memory_record_free(s, qp[i]); free(qp); free(qtype); } return ASL_STATUS_OK; } /* start the timer if a duration was specified */ memset(&finish, 0, sizeof(struct timeval)); if (duration != 0) { if (gettimeofday(&finish, NULL) == 0) { finish.tv_sec += (duration / USEC_PER_SEC); finish.tv_usec += (duration % USEC_PER_SEC); if (finish.tv_usec > USEC_PER_SEC) { finish.tv_usec -= USEC_PER_SEC; finish.tv_sec += 1; } } else { /* shouldn't happen, but if gettimeofday failed we just run without a timeout */ memset(&finish, 0, sizeof(struct timeval)); } } start = where; /* * loop through records */ for (i = 0; i < s->record_count; i++) { status = ASL_STATUS_INVALID_ID; if (s->record[where]->mid != 0) status = asl_core_check_access(s->record[where]->ruid, s->record[where]->rgid, ruid, rgid, s->record[where]->flags); if ((status == ASL_STATUS_OK) && (uuid_str != NULL)) { if (s->record[where]->sender_mach_uuid == NULL) status = ASL_STATUS_INVALID_ID; else if (strcmp(s->record[where]->sender_mach_uuid->str, uuid_str) != 0) status = ASL_STATUS_INVALID_ID; } if (status != ASL_STATUS_OK) { if (direction >= 0) { where++; if (where >= s->record_count) where = 0; } else { if (where == 0) where = s->record_count - 1; else where--; } if (where == s->record_first) break; continue; } s->record[where]->flags &= ASL_MSG_FLAG_SEARCH_CLEAR; *last_id = s->record[where]->mid; did_match = 1; if (do_match != 0) { did_match = 0; for (j = 0; (j < qcount) && (did_match == 0); j++) { if (qtype[j] == ASL_QUERY_MATCH_TRUE) { did_match = 1; } else if (qtype[j] == ASL_QUERY_MATCH_FALSE) { did_match = 0; } else if (qtype[j] == ASL_QUERY_MATCH_SLOW) { did_match = asl_memory_slow_match(s, s->record[where], asl_msg_list_get_index(query, j)); } else { did_match = asl_memory_fast_match(s, s->record[where], qtype[j], qp[j]); } } } if (did_match == 1) { s->record[where]->flags |= ASL_MSG_FLAG_SEARCH_MATCH; rescount++; if ((count != 0) && (rescount >= count)) break; } /* check the timer */ if ((finish.tv_sec != 0) && (gettimeofday(&now, NULL) == 0)) { if ((now.tv_sec > finish.tv_sec) || ((now.tv_sec == finish.tv_sec) && (now.tv_usec > finish.tv_usec))) break; } if (direction >= 0) { where++; if (where >= s->record_count) where = 0; } else { if (where == 0) where = s->record_count - 1; else where--; } if (where == s->record_first) break; } if (qp != NULL) { for (i = 0; i < qcount; i++) asl_memory_record_free(s, qp[i]); free(qp); free(qtype); } *res = NULL; if (rescount == 0) return ASL_STATUS_OK; *res = asl_msg_list_new(); if (*res == NULL) return ASL_STATUS_NO_MEMORY; where = start; forever { int n = 0; if (s->record[where]->flags & ASL_MSG_FLAG_SEARCH_MATCH) { s->record[where]->flags &= ASL_MSG_FLAG_SEARCH_CLEAR; status = asl_memory_message_decode(s, s->record[where], &m); if (status != ASL_STATUS_OK) { asl_msg_list_release(*res); *res = NULL; return status; } asl_msg_list_append(*res, m); asl_msg_release(m); n++; if (n == rescount) break; } if (direction >= 0) { where++; if (where >= s->record_count) where = 0; } else { if (where == 0) where = s->record_count - 1; else where--; } if (where == s->record_first) break; } return ASL_STATUS_OK; } uint32_t asl_memory_match(asl_memory_t *s, asl_msg_list_t *query, asl_msg_list_t **res, uint64_t *last_id, uint64_t start_id, uint32_t count, int32_t direction, int32_t ruid, int32_t rgid) { return asl_memory_match_restricted_uuid(s, query, res, last_id, start_id, count, 0, direction, ruid, rgid, NULL); }