/* * Copyright (C) [2004, 2005, 2006], Hyperic, Inc. * This file is part of SIGAR. * * SIGAR is free software; you can redistribute it and/or modify * it under the terms version 2 of the GNU General Public License as * published by the Free Software Foundation. This program is distributed * in the hope that it will be useful, but WITHOUT ANY WARRANTY; without * even the implied warranty of MERCHANTABILITY or FITNESS FOR A * PARTICULAR PURPOSE. See the GNU General Public License for more * details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 * USA. */ #include "sigar.h" #include "sigar_private.h" #include "sigar_util.h" #include "sigar_ptql.h" #ifdef SIGAR_HAS_PCRE #include "pcre.h" #endif #ifdef WIN32 #define strtoull strtoul /*XXX*/ #endif /* XXX need more specific errors */ #define SIGAR_PTQL_MALFORMED_QUERY 1 typedef struct ptql_parse_branch_t ptql_parse_branch_t; typedef struct ptql_branch_t ptql_branch_t; typedef int (*ptql_get_t)(sigar_t *sigar, sigar_pid_t pid, void *data); typedef int (*ptql_branch_init_t)(ptql_parse_branch_t *parsed, ptql_branch_t *branch); typedef int (*ptql_op_ui64_t)(ptql_branch_t *branch, sigar_uint64_t haystack, sigar_uint64_t needle); typedef int (*ptql_op_ui32_t)(ptql_branch_t *branch, sigar_uint32_t haystack, sigar_uint32_t needle); typedef int (*ptql_op_str_t)(ptql_branch_t *branch, char *haystack, char *needle); typedef int (*ptql_op_chr_t)(ptql_branch_t *branch, char haystack, char needle); typedef enum { PTQL_VALUE_TYPE_UI64, PTQL_VALUE_TYPE_UI32, PTQL_VALUE_TYPE_CHR, PTQL_VALUE_TYPE_STR, PTQL_VALUE_TYPE_ANY } ptql_value_type_t; typedef enum { PTQL_OP_EQ, PTQL_OP_NE, PTQL_OP_GT, PTQL_OP_GE, PTQL_OP_LT, PTQL_OP_LE, #define PTQL_OP_MAX_NSTR PTQL_OP_LE PTQL_OP_EW, /* rest are string only */ PTQL_OP_SW, PTQL_OP_RE, PTQL_OP_CT, PTQL_OP_MAX } ptql_op_name_t; #define PTQL_OP_FLAG_PARENT 1 #define PTQL_OP_FLAG_REF 2 struct ptql_parse_branch_t { char *name; char *attr; char *op; char *value; unsigned int op_flags; }; typedef struct { char *name; ptql_get_t get; size_t offset; unsigned int data_size; ptql_value_type_t type; ptql_branch_init_t init; } ptql_lookup_t; #define DATA_PTR(branch) \ ((char *)branch->data + branch->lookup->offset) static void data_free(void *data) { free(data); } struct ptql_branch_t { ptql_lookup_t *lookup; void *data; unsigned int data_size; void (*data_free)(void *); unsigned int flags; unsigned int op_flags; ptql_op_name_t op_name; union { ptql_op_ui64_t ui64; ptql_op_ui32_t ui32; ptql_op_chr_t chr; ptql_op_str_t str; } match; union { sigar_uint64_t ui64; sigar_uint32_t ui32; char chr[4]; char *str; void *ptr; } value; void (*value_free)(void *); }; typedef struct { char *name; ptql_lookup_t *members; } ptql_entry_t; typedef struct { unsigned long number; unsigned long size; ptql_branch_t *data; } ptql_branch_list_t; struct sigar_ptql_query_t { ptql_branch_list_t branches; }; /* XXX optimize */ static ptql_op_name_t ptql_op_code_get(char *op) { if (strEQ(op, "eq")) { return PTQL_OP_EQ; } else if (strEQ(op, "ne")) { return PTQL_OP_NE; } else if (strEQ(op, "gt")) { return PTQL_OP_GT; } else if (strEQ(op, "ge")) { return PTQL_OP_GE; } else if (strEQ(op, "lt")) { return PTQL_OP_LT; } else if (strEQ(op, "le")) { return PTQL_OP_LE; } else if (strEQ(op, "ew")) { return PTQL_OP_EW; } else if (strEQ(op, "sw")) { return PTQL_OP_SW; } else if (strEQ(op, "re")) { return PTQL_OP_RE; } else if (strEQ(op, "ct")) { return PTQL_OP_CT; } else { return PTQL_OP_MAX; } } static int ptql_op_ui64_eq(ptql_branch_t *branch, sigar_uint64_t haystack, sigar_uint64_t needle) { return haystack == needle; } static int ptql_op_ui64_ne(ptql_branch_t *branch, sigar_uint64_t haystack, sigar_uint64_t needle) { return haystack != needle; } static int ptql_op_ui64_gt(ptql_branch_t *branch, sigar_uint64_t haystack, sigar_uint64_t needle) { return haystack > needle; } static int ptql_op_ui64_ge(ptql_branch_t *branch, sigar_uint64_t haystack, sigar_uint64_t needle) { return haystack >= needle; } static int ptql_op_ui64_lt(ptql_branch_t *branch, sigar_uint64_t haystack, sigar_uint64_t needle) { return haystack < needle; } static int ptql_op_ui64_le(ptql_branch_t *branch, sigar_uint64_t haystack, sigar_uint64_t needle) { return haystack <= needle; } static ptql_op_ui64_t ptql_op_ui64[] = { ptql_op_ui64_eq, ptql_op_ui64_ne, ptql_op_ui64_gt, ptql_op_ui64_ge, ptql_op_ui64_lt, ptql_op_ui64_le }; static int ptql_op_ui32_eq(ptql_branch_t *branch, sigar_uint32_t haystack, sigar_uint32_t needle) { return haystack == needle; } static int ptql_op_ui32_ne(ptql_branch_t *branch, sigar_uint32_t haystack, sigar_uint32_t needle) { return haystack != needle; } static int ptql_op_ui32_gt(ptql_branch_t *branch, sigar_uint32_t haystack, sigar_uint32_t needle) { return haystack > needle; } static int ptql_op_ui32_ge(ptql_branch_t *branch, sigar_uint32_t haystack, sigar_uint32_t needle) { return haystack >= needle; } static int ptql_op_ui32_lt(ptql_branch_t *branch, sigar_uint32_t haystack, sigar_uint32_t needle) { return haystack < needle; } static int ptql_op_ui32_le(ptql_branch_t *branch, sigar_uint32_t haystack, sigar_uint32_t needle) { return haystack <= needle; } static ptql_op_ui32_t ptql_op_ui32[] = { ptql_op_ui32_eq, ptql_op_ui32_ne, ptql_op_ui32_gt, ptql_op_ui32_ge, ptql_op_ui32_lt, ptql_op_ui32_le }; static int ptql_op_str_eq(ptql_branch_t *branch, char *haystack, char *needle) { return strEQ(haystack, needle); } static int ptql_op_str_ne(ptql_branch_t *branch, char *haystack, char *needle) { return !strEQ(haystack, needle); } static int ptql_op_str_gt(ptql_branch_t *branch, char *haystack, char *needle) { return strcmp(haystack, needle) > 0; } static int ptql_op_str_ge(ptql_branch_t *branch, char *haystack, char *needle) { return strcmp(haystack, needle) >= 0; } static int ptql_op_str_lt(ptql_branch_t *branch, char *haystack, char *needle) { return strcmp(haystack, needle) < 0; } static int ptql_op_str_le(ptql_branch_t *branch, char *haystack, char *needle) { return strcmp(haystack, needle) <= 0; } static int ptql_op_str_ew(ptql_branch_t *branch, char *haystack, char *needle) { int nlen = strlen(needle); int hlen = strlen(haystack); int diff = hlen - nlen; if (diff < 0) { return 0; } return strnEQ(haystack + diff, needle, nlen); } static int ptql_op_str_sw(ptql_branch_t *branch, char *haystack, char *needle) { return strnEQ(haystack, needle, strlen(needle)); } static int ptql_op_str_re(ptql_branch_t *branch, char *haystack, char *needle) { #ifdef SIGAR_HAS_PCRE pcre *re = (pcre *)branch->value.ptr; int len = strlen(haystack); int rc = pcre_exec(re, NULL, haystack, len, 0, 0, NULL, 0); return rc >= 0; #else return 0; #endif } static int ptql_op_str_ct(ptql_branch_t *branch, char *haystack, char *needle) { return strstr(haystack, needle) != NULL; } static ptql_op_str_t ptql_op_str[] = { ptql_op_str_eq, ptql_op_str_ne, ptql_op_str_gt, ptql_op_str_ge, ptql_op_str_lt, ptql_op_str_le, ptql_op_str_ew, ptql_op_str_sw, ptql_op_str_re, ptql_op_str_ct }; static int ptql_op_chr_eq(ptql_branch_t *branch, char haystack, char needle) { return haystack == needle; } static int ptql_op_chr_ne(ptql_branch_t *branch, char haystack, char needle) { return haystack != needle; } static int ptql_op_chr_gt(ptql_branch_t *branch, char haystack, char needle) { return haystack > needle; } static int ptql_op_chr_ge(ptql_branch_t *branch, char haystack, char needle) { return haystack >= needle; } static int ptql_op_chr_lt(ptql_branch_t *branch, char haystack, char needle) { return haystack < needle; } static int ptql_op_chr_le(ptql_branch_t *branch, char haystack, char needle) { return haystack <= needle; } static ptql_op_chr_t ptql_op_chr[] = { ptql_op_chr_eq, ptql_op_chr_ne, ptql_op_chr_gt, ptql_op_chr_ge, ptql_op_chr_lt, ptql_op_chr_le }; #define PTQL_BRANCH_LIST_MAX 3 #define PTQL_BRANCH_LIST_GROW(branches) \ if ((branches)->number >= (branches)->size) { \ ptql_branch_list_grow(branches); \ } static int ptql_branch_list_create(ptql_branch_list_t *branches) { branches->number = 0; branches->size = PTQL_BRANCH_LIST_MAX; branches->data = malloc(sizeof(*(branches->data)) * branches->size); return SIGAR_OK; } static int ptql_branch_list_grow(ptql_branch_list_t *branches) { branches->data = realloc(branches->data, sizeof(*(branches->data)) * (branches->size + PTQL_BRANCH_LIST_MAX)); branches->size += PTQL_BRANCH_LIST_MAX; return SIGAR_OK; } static int ptql_branch_list_destroy(sigar_t *sigar, ptql_branch_list_t *branches) { if (branches->size) { int i; for (i=0; inumber; i++) { ptql_branch_t *branch = &branches->data[i]; if (branch->data_size && branch->data) { branch->data_free(branch->data); } if (branch->lookup && (branch->lookup->type == PTQL_VALUE_TYPE_STR) && !(branch->op_flags & PTQL_OP_FLAG_REF)) { if (branch->value.str) { branch->value_free(branch->value.str); } } } free(branches->data); branches->number = branches->size = 0; } return SIGAR_OK; } static int ptql_branch_init_any(ptql_parse_branch_t *parsed, ptql_branch_t *branch) { branch->data = strdup(parsed->attr); branch->data_size = strlen(parsed->attr); return SIGAR_OK; } static int ptql_branch_match(ptql_branch_t *branch) { switch (branch->lookup->type) { case PTQL_VALUE_TYPE_UI64: return branch->match.ui64(branch, *(sigar_uint64_t *)DATA_PTR(branch), branch->value.ui64); case PTQL_VALUE_TYPE_UI32: return branch->match.ui32(branch, *(sigar_uint32_t *)DATA_PTR(branch), branch->value.ui32); case PTQL_VALUE_TYPE_CHR: return branch->match.chr(branch, *(char *)DATA_PTR(branch), branch->value.chr[0]); case PTQL_VALUE_TYPE_STR: case PTQL_VALUE_TYPE_ANY: return branch->match.str(branch, (char *)DATA_PTR(branch), branch->value.str); default: return 0; } } static int ptql_branch_match_ref(ptql_branch_t *branch, ptql_branch_t *ref) { switch (branch->lookup->type) { case PTQL_VALUE_TYPE_UI64: return branch->match.ui64(branch, *(sigar_uint64_t *)DATA_PTR(branch), *(sigar_uint64_t *)DATA_PTR(ref)); case PTQL_VALUE_TYPE_UI32: return branch->match.ui32(branch, *(sigar_uint32_t *)DATA_PTR(branch), *(sigar_uint32_t *)DATA_PTR(ref)); case PTQL_VALUE_TYPE_CHR: return branch->match.chr(branch, *(char *)DATA_PTR(branch), *(char *)DATA_PTR(ref)); case PTQL_VALUE_TYPE_STR: case PTQL_VALUE_TYPE_ANY: return branch->match.str(branch, (char *)DATA_PTR(branch), (char *)DATA_PTR(ref)); default: return 0; } } enum { PTQL_PID_PID, PTQL_PID_FILE, PTQL_PID_SERVICE }; static int ptql_branch_init_pid(ptql_parse_branch_t *parsed, ptql_branch_t *branch) { if (strEQ(parsed->attr, "Pid")) { branch->flags = PTQL_PID_PID; if (strEQ(parsed->value, "$$")) { branch->data = (void*)getpid(); } else { branch->data = (void*)atoi(parsed->value); /*XXX*/ } return SIGAR_OK; } else if (strEQ(parsed->attr, "PidFile")) { branch->flags = PTQL_PID_FILE; branch->data = strdup(parsed->value); branch->data_size = strlen(parsed->value); return SIGAR_OK; } else if (strEQ(parsed->attr, "Service")) { #ifdef WIN32 branch->flags = PTQL_PID_SERVICE; branch->data = strdup(parsed->value); branch->data_size = strlen(parsed->value); return SIGAR_OK; #else return SIGAR_PTQL_MALFORMED_QUERY; #endif } else { return SIGAR_PTQL_MALFORMED_QUERY; } } static int ptql_pid_match(sigar_t *sigar, sigar_pid_t pid, void *data) { ptql_branch_t *branch = (ptql_branch_t *)data; sigar_pid_t match_pid; if (branch->flags == PTQL_PID_FILE) { char buffer[SIGAR_PATH_MAX+1]; int status = sigar_file2str((const char *)branch->data, buffer, sizeof(buffer)-1); if (status != SIGAR_OK) { return status; } match_pid = strtoull(buffer, NULL, 10); /*XXX validate*/ } else if (branch->flags == PTQL_PID_SERVICE) { #ifdef WIN32 return !SIGAR_OK; /*XXX*/ #else return !SIGAR_OK; #endif } else { match_pid = (sigar_pid_t)branch->data; } return (pid == match_pid) ? SIGAR_OK : !SIGAR_OK; } static int ptql_args_branch_init(ptql_parse_branch_t *parsed, ptql_branch_t *branch) { if (strEQ(parsed->attr, "*")) { branch->data = NULL; } else { char *end; branch->data = (void*)strtol(parsed->attr, &end, 10); if (end && *end) { /* conversion failed */ return SIGAR_PTQL_MALFORMED_QUERY; } } return SIGAR_OK; } static int ptql_args_match(sigar_t *sigar, sigar_pid_t pid, void *data) { ptql_branch_t *branch = (ptql_branch_t *)data; int status, matched=0; sigar_proc_args_t args; status = sigar_proc_args_get(sigar, pid, &args); if (status != SIGAR_OK) { return status; } if (!branch->data) { int i; for (i=0; imatch.str(branch, args.data[i], branch->value.str); if (matched) { break; } } } else { int num = (int)branch->data; /* e.g. find last element of args: Args.-1.eq=weblogic.Server */ if (num < 0) { num += args.number; } if ((num >= 0) && (num < args.number)) { matched = branch->match.str(branch, args.data[num], branch->value.str); } } sigar_proc_args_destroy(sigar, &args); return matched ? SIGAR_OK : !SIGAR_OK; } typedef struct { const char *key; int klen; char *val; int vlen; } sigar_proc_env_entry_t; static int sigar_proc_env_get_key(void *data, const char *key, int klen, char *val, int vlen) { sigar_proc_env_entry_t *entry = (sigar_proc_env_entry_t *)data; if ((entry->klen == klen) && (strcmp(entry->key, key) == 0)) { entry->val = val; entry->vlen = vlen; return !SIGAR_OK; /* foundit; stop iterating */ } return SIGAR_OK; } static int ptql_env_match(sigar_t *sigar, sigar_pid_t pid, void *data) { ptql_branch_t *branch = (ptql_branch_t *)data; int status, matched=0; sigar_proc_env_t procenv; sigar_proc_env_entry_t entry; /* XXX ugh this is klunky */ entry.key = branch->data; entry.klen = branch->data_size; entry.val = NULL; procenv.type = SIGAR_PROC_ENV_KEY; procenv.key = branch->data; procenv.klen = branch->data_size; procenv.env_getter = sigar_proc_env_get_key; procenv.data = &entry; status = sigar_proc_env_get(sigar, pid, &procenv); if (status != SIGAR_OK) { return status; } else { if (entry.val) { matched = branch->match.str(branch, entry.val, branch->value.str); } } return matched ? SIGAR_OK : !SIGAR_OK; } static int ptql_branch_init_port(ptql_parse_branch_t *parsed, ptql_branch_t *branch) { if (strEQ(parsed->attr, "tcp")) { branch->flags = SIGAR_NETCONN_TCP; } else if (strEQ(parsed->attr, "udp")) { branch->flags = SIGAR_NETCONN_UDP; } else { return SIGAR_PTQL_MALFORMED_QUERY; } branch->data = (void*)atoi(parsed->value); /*XXX*/ return SIGAR_OK; } static int ptql_port_match(sigar_t *sigar, sigar_pid_t pid, void *data) { ptql_branch_t *branch = (ptql_branch_t *)data; unsigned long port = (unsigned long)branch->data; int status; sigar_pid_t match_pid=0; status = sigar_proc_port_get(sigar, branch->flags, port, &match_pid); if (status != SIGAR_OK) { return status; } return (pid == match_pid) ? SIGAR_OK : !SIGAR_OK; } #define PTQL_LOOKUP_ENTRY(cname, member, type) \ (ptql_get_t)sigar_##cname##_get, \ sigar_offsetof(sigar_##cname##_t, member), \ sizeof(sigar_##cname##_t), \ PTQL_VALUE_TYPE_##type, \ NULL /* XXX uid/pid can be larger w/ 64bit mode */ #define PTQL_VALUE_TYPE_PID PTQL_VALUE_TYPE_UI32 #define PTQL_VALUE_TYPE_UID PTQL_VALUE_TYPE_UI32 static ptql_lookup_t PTQL_Time[] = { { "StartTime", PTQL_LOOKUP_ENTRY(proc_time, start_time, UI64) }, { "User", PTQL_LOOKUP_ENTRY(proc_time, user, UI64) }, { "Sys", PTQL_LOOKUP_ENTRY(proc_time, sys, UI64) }, { "Total", PTQL_LOOKUP_ENTRY(proc_time, total, UI64) }, { NULL } }; static ptql_lookup_t PTQL_CredName[] = { { "User", PTQL_LOOKUP_ENTRY(proc_cred_name, user, STR) }, { "Group", PTQL_LOOKUP_ENTRY(proc_cred_name, group, STR) }, { NULL } }; static ptql_lookup_t PTQL_Mem[] = { { "Size", PTQL_LOOKUP_ENTRY(proc_mem, size, UI64) }, { "Resident", PTQL_LOOKUP_ENTRY(proc_mem, resident, UI64) }, { "Share", PTQL_LOOKUP_ENTRY(proc_mem, share, UI64) }, { "MinorFaults", PTQL_LOOKUP_ENTRY(proc_mem, minor_faults, UI64) }, { "MajorFaults", PTQL_LOOKUP_ENTRY(proc_mem, major_faults, UI64) }, { "PageFaults", PTQL_LOOKUP_ENTRY(proc_mem, page_faults, UI64) }, { NULL } }; static ptql_lookup_t PTQL_Exe[] = { { "Name", PTQL_LOOKUP_ENTRY(proc_exe, name, STR) }, { "Cwd", PTQL_LOOKUP_ENTRY(proc_exe, cwd, STR) }, { NULL } }; static ptql_lookup_t PTQL_Cred[] = { { "Uid", PTQL_LOOKUP_ENTRY(proc_cred, uid, UID) }, { "Gid", PTQL_LOOKUP_ENTRY(proc_cred, gid, UID) }, { "Euid", PTQL_LOOKUP_ENTRY(proc_cred, euid, UID) }, { "Egid", PTQL_LOOKUP_ENTRY(proc_cred, egid, UID) }, { NULL } }; static ptql_lookup_t PTQL_State[] = { { "State", PTQL_LOOKUP_ENTRY(proc_state, state, CHR) }, { "Name", PTQL_LOOKUP_ENTRY(proc_state, name, STR) }, { "Ppid", PTQL_LOOKUP_ENTRY(proc_state, ppid, PID) }, { "Tty", PTQL_LOOKUP_ENTRY(proc_state, tty, UI32) }, { "Nice", PTQL_LOOKUP_ENTRY(proc_state, nice, UI32) }, { "Priority", PTQL_LOOKUP_ENTRY(proc_state, priority, UI32) }, { "Threads", PTQL_LOOKUP_ENTRY(proc_state, threads, UI64) }, { "Processor", PTQL_LOOKUP_ENTRY(proc_state, processor, UI32) }, { NULL } }; static ptql_lookup_t PTQL_Fd[] = { { "Total", PTQL_LOOKUP_ENTRY(proc_fd, total, UI64) }, { NULL } }; static ptql_lookup_t PTQL_Args[] = { { NULL, ptql_args_match, 0, 0, PTQL_VALUE_TYPE_ANY, ptql_args_branch_init } }; static ptql_lookup_t PTQL_Env[] = { { NULL, ptql_env_match, 0, 0, PTQL_VALUE_TYPE_ANY, ptql_branch_init_any } }; static ptql_lookup_t PTQL_Port[] = { { NULL, ptql_port_match, 0, 0, PTQL_VALUE_TYPE_ANY, ptql_branch_init_port } }; static ptql_lookup_t PTQL_Pid[] = { { NULL, ptql_pid_match, 0, 0, PTQL_VALUE_TYPE_ANY, ptql_branch_init_pid } }; static ptql_entry_t ptql_map[] = { { "Time", PTQL_Time }, { "CredName", PTQL_CredName }, { "Mem", PTQL_Mem }, { "Exe", PTQL_Exe }, { "Cred", PTQL_Cred }, { "State", PTQL_State }, { "Fd", PTQL_Fd }, { "Args", PTQL_Args }, { "Env", PTQL_Env }, { "Port", PTQL_Port }, { "Pid", PTQL_Pid }, { NULL } }; static int ptql_branch_parse(char *query, ptql_parse_branch_t *branch) { char *ptr = strchr(query, '='); if (!ptr) { return SIGAR_PTQL_MALFORMED_QUERY; } branch->op_flags = 0; *ptr = '\0'; branch->value = ++ptr; if ((ptr = strchr(query, '.'))) { *ptr = '\0'; branch->name = query; query = ++ptr; } else { return SIGAR_PTQL_MALFORMED_QUERY; } if ((ptr = strchr(query, '.'))) { *ptr = '\0'; branch->attr = query; query = ++ptr; } else { return SIGAR_PTQL_MALFORMED_QUERY; } if (*query) { char flag; while (isupper((flag = *query))) { switch (flag) { case 'P': branch->op_flags |= PTQL_OP_FLAG_PARENT; break; default: return SIGAR_PTQL_MALFORMED_QUERY; } ++query; } branch->op = query; } else { return SIGAR_PTQL_MALFORMED_QUERY; } return SIGAR_OK; } static int ptql_branch_add(ptql_parse_branch_t *parsed, ptql_branch_list_t *branches) { ptql_branch_t *branch; ptql_entry_t *entry = NULL; ptql_lookup_t *lookup = NULL; int i, is_set=0; PTQL_BRANCH_LIST_GROW(branches); branch = &branches->data[branches->number++]; branch->data = NULL; branch->data_size = 0; branch->data_free = data_free; branch->value_free = data_free; branch->op_flags = parsed->op_flags; branch->op_name = ptql_op_code_get(parsed->op); if (branch->op_name == PTQL_OP_MAX) { return SIGAR_PTQL_MALFORMED_QUERY; } for (i=0; ptql_map[i].name; i++) { if (strEQ(ptql_map[i].name, parsed->name)) { entry = &ptql_map[i]; break; } } if (!entry) { return SIGAR_PTQL_MALFORMED_QUERY; } for (i=0; entry->members[i].name; i++) { if (strEQ(entry->members[i].name, parsed->attr)) { lookup = &entry->members[i]; break; } } if (!lookup) { if (entry->members[0].type == PTQL_VALUE_TYPE_ANY) { /* Args, Env, etc. */ lookup = &entry->members[0]; } else { return SIGAR_PTQL_MALFORMED_QUERY; } } if (lookup->init) { int status = lookup->init(parsed, branch); if (status != SIGAR_OK) { return status; } } branch->lookup = lookup; if ((lookup->type < PTQL_VALUE_TYPE_STR) && (branch->op_name > PTQL_OP_MAX_NSTR)) { return SIGAR_PTQL_MALFORMED_QUERY; } if ((*parsed->value == '$') && sigar_isdigit(*(parsed->value+1))) { is_set = 1; branch->op_flags |= PTQL_OP_FLAG_REF; branch->value.ui32 = atoi(parsed->value+1) - 1; if (branch->value.ui32 >= branches->number) { /* out-of-range */ return SIGAR_PTQL_MALFORMED_QUERY; } else if (branch->value.ui32 == branches->number-1) { /* self reference */ return SIGAR_PTQL_MALFORMED_QUERY; } else if (branch->op_name == PTQL_OP_RE) { /* not for use with .re */ return SIGAR_PTQL_MALFORMED_QUERY; } } else if (branch->op_name == PTQL_OP_RE) { #ifdef SIGAR_HAS_PCRE const char *error; int offset; pcre *re = pcre_compile(parsed->value, 0, &error, &offset, NULL); if (!re) { return SIGAR_PTQL_MALFORMED_QUERY; } is_set = 1; branch->value.ptr = re; branch->value_free = pcre_free; #else return SIGAR_PTQL_MALFORMED_QUERY; #endif } switch (lookup->type) { case PTQL_VALUE_TYPE_UI64: branch->match.ui64 = ptql_op_ui64[branch->op_name]; if (!is_set) { branch->value.ui64 = strtoull(parsed->value, NULL, 10); } break; case PTQL_VALUE_TYPE_UI32: branch->match.ui32 = ptql_op_ui32[branch->op_name]; if (!is_set) { branch->value.ui32 = strtoul(parsed->value, NULL, 10); } break; case PTQL_VALUE_TYPE_CHR: branch->match.chr = ptql_op_chr[branch->op_name]; if (!is_set) { branch->value.chr[0] = parsed->value[0]; } break; case PTQL_VALUE_TYPE_STR: case PTQL_VALUE_TYPE_ANY: branch->match.str = ptql_op_str[branch->op_name]; if (!is_set) { branch->value.str = strdup(parsed->value); } break; } return SIGAR_OK; } static int ptql_branch_compare(const void *b1, const void *b2) { /* XXX can do better */ ptql_branch_t *branch1 = (ptql_branch_t *)b1; ptql_branch_t *branch2 = (ptql_branch_t *)b2; return branch1->lookup->type - branch2->lookup->type; } SIGAR_DECLARE(int) sigar_ptql_query_create(sigar_t *sigar, sigar_ptql_query_t **queryp, char *ptql) { char *ptr, *ptql_copy = strdup(ptql); int status = SIGAR_OK; sigar_ptql_query_t *query = *queryp = malloc(sizeof(*query)); ptql = ptql_copy; ptql_branch_list_create(&query->branches); do { ptql_parse_branch_t parsed; if ((ptr = strchr(ptql, ','))) { *ptr = '\0'; } status = ptql_branch_parse(ptql, &parsed); if (status == SIGAR_OK) { status = ptql_branch_add(&parsed, &query->branches); if (status != SIGAR_OK) { break; } } else { break; } if (ptr) { ptql = ++ptr; } else { break; } } while (*ptql); free(ptql_copy); if (status != SIGAR_OK) { sigar_ptql_query_destroy(sigar, query); *queryp = NULL; } else if (query->branches.number > 1) { qsort(query->branches.data, query->branches.number, sizeof(query->branches.data[0]), ptql_branch_compare); } return status; } SIGAR_DECLARE(int) sigar_ptql_query_destroy(sigar_t *sigar, sigar_ptql_query_t *query) { ptql_branch_list_destroy(sigar, &query->branches); free(query); return SIGAR_OK; } SIGAR_DECLARE(int) sigar_ptql_query_match(sigar_t *sigar, sigar_ptql_query_t *query, sigar_pid_t query_pid) { int i; for (i=0; ibranches.number; i++) { sigar_pid_t pid = query_pid; int status, matched=0; ptql_branch_t *branch = &query->branches.data[i]; ptql_lookup_t *lookup = branch->lookup; if (branch->op_flags & PTQL_OP_FLAG_PARENT) { sigar_proc_state_t state; status = sigar_proc_state_get(sigar, pid, &state); if (status != SIGAR_OK) { return status; } pid = state.ppid; } if (lookup->type == PTQL_VALUE_TYPE_ANY) { /* Args, Env, etc. */ status = lookup->get(sigar, pid, branch); if (status == SIGAR_OK) { matched = 1; } } else { /* standard sigar_proc_*_get / structptr + offset */ if (!branch->data) { branch->data_size = lookup->data_size; branch->data = malloc(branch->data_size); } status = lookup->get(sigar, pid, branch->data); if (status != SIGAR_OK) { return status; } if (branch->op_flags & PTQL_OP_FLAG_REF) { ptql_branch_t *ref = &query->branches.data[branch->value.ui32]; matched = ptql_branch_match_ref(branch, ref); } else { matched = ptql_branch_match(branch); } } if (!matched) { return 1; } } return SIGAR_OK; }