/* * Copyright (C) 2006 Voop as * Thorsten Lockert * * This program is free software, distributed under the terms of * the GNU General Public License Version 2. See the LICENSE file * at the top of the source tree. */ /*! \file * * \brief SNMP Agent / SubAgent support for Asterisk * * \author Thorsten Lockert */ #include "asterisk.h" ASTERISK_FILE_VERSION(__FILE__, "$Revision$") /* * There is some collision collision between netsmp and asterisk names, * causing build under AST_DEVMODE to fail. * * The following PACKAGE_* macros are one place. * Also netsnmp has an improper check for HAVE_DMALLOC_H, using * #if HAVE_DMALLOC_H instead of #ifdef HAVE_DMALLOC_H * As a countermeasure we define it to 0, however this will fail * when the proper check is implemented. */ #ifdef PACKAGE_NAME #undef PACKAGE_NAME #endif #ifdef PACKAGE_BUGREPORT #undef PACKAGE_BUGREPORT #endif #ifdef PACKAGE_STRING #undef PACKAGE_STRING #endif #ifdef PACKAGE_TARNAME #undef PACKAGE_TARNAME #endif #ifdef PACKAGE_VERSION #undef PACKAGE_VERSION #endif #ifndef HAVE_DMALLOC_H #define HAVE_DMALLOC_H 0 /* XXX we shouldn't do this */ #endif #if defined(__OpenBSD__) /* * OpenBSD uses old "legacy" cc which has a rather pedantic builtin preprocessor. * Using a macro which is not #defined throws an error. */ #define __NetBSD_Version__ 0 #endif #include #include #include #include "asterisk/paths.h" /* need ast_config_AST_SOCKET */ #include "asterisk/channel.h" #include "asterisk/logger.h" #include "asterisk/options.h" #include "asterisk/indications.h" #include "asterisk/ast_version.h" #include "asterisk/pbx.h" /* Colission between Net-SNMP and Asterisk */ #define unload_module ast_unload_module #include "asterisk/module.h" #undef unload_module #include "agent.h" /* Helper functions in Net-SNMP, header file not installed by default */ int header_generic(struct variable *, oid *, size_t *, int, size_t *, WriteMethod **); int header_simple_table(struct variable *, oid *, size_t *, int, size_t *, WriteMethod **, int); int register_sysORTable(oid *, size_t, const char *); int unregister_sysORTable(oid *, size_t); /* Forward declaration */ static void init_asterisk_mib(void); /* * Anchor for all the Asterisk MIB values */ static oid asterisk_oid[] = { 1, 3, 6, 1, 4, 1, 22736, 1 }; /* * MIB values -- these correspond to values in the Asterisk MIB, * and MUST be kept in sync with the MIB for things to work as * expected. */ #define ASTVERSION 1 #define ASTVERSTRING 1 #define ASTVERTAG 2 #define ASTCONFIGURATION 2 #define ASTCONFUPTIME 1 #define ASTCONFRELOADTIME 2 #define ASTCONFPID 3 #define ASTCONFSOCKET 4 #define ASTCONFACTIVECALLS 5 #define ASTCONFPROCESSEDCALLS 6 #define ASTMODULES 3 #define ASTMODCOUNT 1 #define ASTINDICATIONS 4 #define ASTINDCOUNT 1 #define ASTINDCURRENT 2 #define ASTINDTABLE 3 #define ASTINDINDEX 1 #define ASTINDCOUNTRY 2 #define ASTINDALIAS 3 #define ASTINDDESCRIPTION 4 #define ASTCHANNELS 5 #define ASTCHANCOUNT 1 #define ASTCHANTABLE 2 #define ASTCHANINDEX 1 #define ASTCHANNAME 2 #define ASTCHANLANGUAGE 3 #define ASTCHANTYPE 4 #define ASTCHANMUSICCLASS 5 #define ASTCHANBRIDGE 6 #define ASTCHANMASQ 7 #define ASTCHANMASQR 8 #define ASTCHANWHENHANGUP 9 #define ASTCHANAPP 10 #define ASTCHANDATA 11 #define ASTCHANCONTEXT 12 #define ASTCHANMACROCONTEXT 13 #define ASTCHANMACROEXTEN 14 #define ASTCHANMACROPRI 15 #define ASTCHANEXTEN 16 #define ASTCHANPRI 17 #define ASTCHANACCOUNTCODE 18 #define ASTCHANFORWARDTO 19 #define ASTCHANUNIQUEID 20 #define ASTCHANCALLGROUP 21 #define ASTCHANPICKUPGROUP 22 #define ASTCHANSTATE 23 #define ASTCHANMUTED 24 #define ASTCHANRINGS 25 #define ASTCHANCIDDNID 26 #define ASTCHANCIDNUM 27 #define ASTCHANCIDNAME 28 #define ASTCHANCIDANI 29 #define ASTCHANCIDRDNIS 30 #define ASTCHANCIDPRES 31 #define ASTCHANCIDANI2 32 #define ASTCHANCIDTON 33 #define ASTCHANCIDTNS 34 #define ASTCHANAMAFLAGS 35 #define ASTCHANADSI 36 #define ASTCHANTONEZONE 37 #define ASTCHANHANGUPCAUSE 38 #define ASTCHANVARIABLES 39 #define ASTCHANFLAGS 40 #define ASTCHANTRANSFERCAP 41 #define ASTCHANTYPECOUNT 3 #define ASTCHANTYPETABLE 4 #define ASTCHANTYPEINDEX 1 #define ASTCHANTYPENAME 2 #define ASTCHANTYPEDESC 3 #define ASTCHANTYPEDEVSTATE 4 #define ASTCHANTYPEINDICATIONS 5 #define ASTCHANTYPETRANSFER 6 #define ASTCHANTYPECHANNELS 7 #define ASTCHANSCALARS 5 #define ASTCHANBRIDGECOUNT 1 void *agent_thread(void *arg) { ast_verb(2, "Starting %sAgent\n", res_snmp_agentx_subagent ? "Sub" : ""); snmp_enable_stderrlog(); if (res_snmp_agentx_subagent) netsnmp_ds_set_boolean(NETSNMP_DS_APPLICATION_ID, NETSNMP_DS_AGENT_ROLE, 1); init_agent("asterisk"); init_asterisk_mib(); init_snmp("asterisk"); if (!res_snmp_agentx_subagent) init_master_agent(); while (res_snmp_dont_stop) agent_check_and_process(1); snmp_shutdown("asterisk"); ast_verb(2, "Terminating %sAgent\n", res_snmp_agentx_subagent ? "Sub" : ""); return NULL; } static u_char * ast_var_channels(struct variable *vp, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { static unsigned long long_ret; if (header_generic(vp, name, length, exact, var_len, write_method)) return NULL; if (vp->magic != ASTCHANCOUNT) return NULL; long_ret = ast_active_channels(); return (u_char *)&long_ret; } static u_char *ast_var_channels_table(struct variable *vp, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { static unsigned long long_ret; static u_char bits_ret[2]; static char string_ret[256]; struct ast_channel *chan, *bridge; struct timeval tval; u_char *ret = NULL; int i, bit; struct ast_str *out = ast_str_alloca(2048); struct ast_channel_iterator *iter; if (header_simple_table(vp, name, length, exact, var_len, write_method, ast_active_channels())) return NULL; i = name[*length - 1] - 1; if (!(iter = ast_channel_iterator_all_new())) { return NULL; } while ((chan = ast_channel_iterator_next(iter)) && i) { ast_channel_unref(chan); i--; } iter = ast_channel_iterator_destroy(iter); if (chan == NULL) { return NULL; } *var_len = sizeof(long_ret); ast_channel_lock(chan); switch (vp->magic) { case ASTCHANINDEX: long_ret = name[*length - 1]; ret = (u_char *)&long_ret; break; case ASTCHANNAME: if (!ast_strlen_zero(chan->name)) { strncpy(string_ret, chan->name, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANLANGUAGE: if (!ast_strlen_zero(chan->language)) { strncpy(string_ret, chan->language, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANTYPE: strncpy(string_ret, chan->tech->type, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; break; case ASTCHANMUSICCLASS: if (!ast_strlen_zero(chan->musicclass)) { strncpy(string_ret, chan->musicclass, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANBRIDGE: if ((bridge = ast_bridged_channel(chan)) != NULL) { strncpy(string_ret, bridge->name, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANMASQ: if (chan->masq && !ast_strlen_zero(chan->masq->name)) { strncpy(string_ret, chan->masq->name, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANMASQR: if (chan->masqr && !ast_strlen_zero(chan->masqr->name)) { strncpy(string_ret, chan->masqr->name, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANWHENHANGUP: if (!ast_tvzero(chan->whentohangup)) { gettimeofday(&tval, NULL); long_ret = difftime(chan->whentohangup.tv_sec, tval.tv_sec) * 100 - tval.tv_usec / 10000; ret= (u_char *)&long_ret; } break; case ASTCHANAPP: if (chan->appl) { strncpy(string_ret, chan->appl, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANDATA: if (chan->data) { strncpy(string_ret, chan->data, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANCONTEXT: strncpy(string_ret, chan->context, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; break; case ASTCHANMACROCONTEXT: strncpy(string_ret, chan->macrocontext, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; break; case ASTCHANMACROEXTEN: strncpy(string_ret, chan->macroexten, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; break; case ASTCHANMACROPRI: long_ret = chan->macropriority; ret = (u_char *)&long_ret; break; case ASTCHANEXTEN: strncpy(string_ret, chan->exten, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; break; case ASTCHANPRI: long_ret = chan->priority; ret = (u_char *)&long_ret; break; case ASTCHANACCOUNTCODE: if (!ast_strlen_zero(chan->accountcode)) { strncpy(string_ret, chan->accountcode, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANFORWARDTO: if (!ast_strlen_zero(chan->call_forward)) { strncpy(string_ret, chan->call_forward, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANUNIQUEID: strncpy(string_ret, chan->uniqueid, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; break; case ASTCHANCALLGROUP: long_ret = chan->callgroup; ret = (u_char *)&long_ret; break; case ASTCHANPICKUPGROUP: long_ret = chan->pickupgroup; ret = (u_char *)&long_ret; break; case ASTCHANSTATE: long_ret = chan->_state & 0xffff; ret = (u_char *)&long_ret; break; case ASTCHANMUTED: long_ret = chan->_state & AST_STATE_MUTE ? 1 : 2; ret = (u_char *)&long_ret; break; case ASTCHANRINGS: long_ret = chan->rings; ret = (u_char *)&long_ret; break; case ASTCHANCIDDNID: if (chan->dialed.number.str) { strncpy(string_ret, chan->dialed.number.str, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANCIDNUM: if (chan->caller.id.number.valid && chan->caller.id.number.str) { strncpy(string_ret, chan->caller.id.number.str, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANCIDNAME: if (chan->caller.id.name.valid && chan->caller.id.name.str) { strncpy(string_ret, chan->caller.id.name.str, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANCIDANI: if (chan->caller.ani.number.valid && chan->caller.ani.number.str) { strncpy(string_ret, chan->caller.ani.number.str, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANCIDRDNIS: if (chan->redirecting.from.number.valid && chan->redirecting.from.number.str) { strncpy(string_ret, chan->redirecting.from.number.str, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANCIDPRES: long_ret = ast_party_id_presentation(&chan->caller.id); ret = (u_char *)&long_ret; break; case ASTCHANCIDANI2: long_ret = chan->caller.ani2; ret = (u_char *)&long_ret; break; case ASTCHANCIDTON: long_ret = chan->caller.id.number.plan; ret = (u_char *)&long_ret; break; case ASTCHANCIDTNS: long_ret = chan->dialed.transit_network_select; ret = (u_char *)&long_ret; break; case ASTCHANAMAFLAGS: long_ret = chan->amaflags; ret = (u_char *)&long_ret; break; case ASTCHANADSI: long_ret = chan->adsicpe; ret = (u_char *)&long_ret; break; case ASTCHANTONEZONE: if (chan->zone) { strncpy(string_ret, chan->zone->country, sizeof(string_ret)); string_ret[sizeof(string_ret) - 1] = '\0'; *var_len = strlen(string_ret); ret = (u_char *)string_ret; } break; case ASTCHANHANGUPCAUSE: long_ret = chan->hangupcause; ret = (u_char *)&long_ret; break; case ASTCHANVARIABLES: if (pbx_builtin_serialize_variables(chan, &out)) { *var_len = ast_str_strlen(out); ret = (u_char *)ast_str_buffer(out); } break; case ASTCHANFLAGS: bits_ret[0] = 0; for (bit = 0; bit < 8; bit++) bits_ret[0] |= ((chan->flags & (1 << bit)) >> bit) << (7 - bit); bits_ret[1] = 0; for (bit = 0; bit < 8; bit++) bits_ret[1] |= (((chan->flags >> 8) & (1 << bit)) >> bit) << (7 - bit); *var_len = 2; ret = bits_ret; break; case ASTCHANTRANSFERCAP: long_ret = chan->transfercapability; ret = (u_char *)&long_ret; default: break; } ast_channel_unlock(chan); chan = ast_channel_unref(chan); return ret; } static u_char *ast_var_channel_types(struct variable *vp, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { static unsigned long long_ret; struct ast_variable *channel_types, *next; if (header_generic(vp, name, length, exact, var_len, write_method)) return NULL; if (vp->magic != ASTCHANTYPECOUNT) return NULL; for (long_ret = 0, channel_types = next = ast_channeltype_list(); next; next = next->next) long_ret++; ast_variables_destroy(channel_types); return (u_char *)&long_ret; } static u_char *ast_var_channel_types_table(struct variable *vp, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { const struct ast_channel_tech *tech = NULL; struct ast_variable *channel_types, *next; static unsigned long long_ret; struct ast_channel *chan; u_long i; if (header_simple_table(vp, name, length, exact, var_len, write_method, -1)) return NULL; channel_types = ast_channeltype_list(); for (i = 1, next = channel_types; next && i != name[*length - 1]; next = next->next, i++) ; if (next != NULL) tech = ast_get_channel_tech(next->name); ast_variables_destroy(channel_types); if (next == NULL || tech == NULL) return NULL; switch (vp->magic) { case ASTCHANTYPEINDEX: long_ret = name[*length - 1]; return (u_char *)&long_ret; case ASTCHANTYPENAME: *var_len = strlen(tech->type); return (u_char *)tech->type; case ASTCHANTYPEDESC: *var_len = strlen(tech->description); return (u_char *)tech->description; case ASTCHANTYPEDEVSTATE: long_ret = tech->devicestate ? 1 : 2; return (u_char *)&long_ret; case ASTCHANTYPEINDICATIONS: long_ret = tech->indicate ? 1 : 2; return (u_char *)&long_ret; case ASTCHANTYPETRANSFER: long_ret = tech->transfer ? 1 : 2; return (u_char *)&long_ret; case ASTCHANTYPECHANNELS: { struct ast_channel_iterator *iter; long_ret = 0; if (!(iter = ast_channel_iterator_all_new())) { return NULL; } while ((chan = ast_channel_iterator_next(iter))) { if (chan->tech == tech) { long_ret++; } chan = ast_channel_unref(chan); } ast_channel_iterator_destroy(iter); return (u_char *)&long_ret; } default: break; } return NULL; } static u_char *ast_var_channel_bridge(struct variable *vp, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { static unsigned long long_ret; struct ast_channel *chan = NULL; struct ast_channel_iterator *iter; long_ret = 0; if (header_generic(vp, name, length, exact, var_len, write_method)) { return NULL; } if (!(iter = ast_channel_iterator_all_new())) { return NULL; } while ((chan = ast_channel_iterator_next(iter))) { ast_channel_lock(chan); if (ast_bridged_channel(chan)) { long_ret++; } ast_channel_unlock(chan); chan = ast_channel_unref(chan); } ast_channel_iterator_destroy(iter); *var_len = sizeof(long_ret); return (vp->magic == ASTCHANBRIDGECOUNT) ? (u_char *) &long_ret : NULL; } static u_char *ast_var_Config(struct variable *vp, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { static unsigned long long_ret; struct timeval tval; if (header_generic(vp, name, length, exact, var_len, write_method)) return NULL; switch (vp->magic) { case ASTCONFUPTIME: gettimeofday(&tval, NULL); long_ret = difftime(tval.tv_sec, ast_startuptime.tv_sec) * 100 + tval.tv_usec / 10000 - ast_startuptime.tv_usec / 10000; return (u_char *)&long_ret; case ASTCONFRELOADTIME: gettimeofday(&tval, NULL); if (ast_lastreloadtime.tv_sec) long_ret = difftime(tval.tv_sec, ast_lastreloadtime.tv_sec) * 100 + tval.tv_usec / 10000 - ast_lastreloadtime.tv_usec / 10000; else long_ret = difftime(tval.tv_sec, ast_startuptime.tv_sec) * 100 + tval.tv_usec / 10000 - ast_startuptime.tv_usec / 10000; return (u_char *)&long_ret; case ASTCONFPID: long_ret = getpid(); return (u_char *)&long_ret; case ASTCONFSOCKET: *var_len = strlen(ast_config_AST_SOCKET); return (u_char *)ast_config_AST_SOCKET; case ASTCONFACTIVECALLS: long_ret = ast_active_calls(); return (u_char *)&long_ret; case ASTCONFPROCESSEDCALLS: long_ret = ast_processed_calls(); return (u_char *)&long_ret; default: break; } return NULL; } static u_char *ast_var_indications(struct variable *vp, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { static unsigned long long_ret; static char ret_buf[128]; struct ast_tone_zone *tz = NULL; if (header_generic(vp, name, length, exact, var_len, write_method)) return NULL; switch (vp->magic) { case ASTINDCOUNT: { struct ao2_iterator i; long_ret = 0; i = ast_tone_zone_iterator_init(); while ((tz = ao2_iterator_next(&i))) { tz = ast_tone_zone_unref(tz); long_ret++; } return (u_char *) &long_ret; } case ASTINDCURRENT: tz = ast_get_indication_zone(NULL); if (tz) { ast_copy_string(ret_buf, tz->country, sizeof(ret_buf)); *var_len = strlen(ret_buf); tz = ast_tone_zone_unref(tz); return (u_char *) ret_buf; } *var_len = 0; return NULL; default: break; } return NULL; } static u_char *ast_var_indications_table(struct variable *vp, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { static unsigned long long_ret; static char ret_buf[256]; struct ast_tone_zone *tz = NULL; int i; struct ao2_iterator iter; if (header_simple_table(vp, name, length, exact, var_len, write_method, -1)) { return NULL; } i = name[*length - 1] - 1; iter = ast_tone_zone_iterator_init(); while ((tz = ao2_iterator_next(&iter)) && i) { tz = ast_tone_zone_unref(tz); i--; } if (tz == NULL) { return NULL; } switch (vp->magic) { case ASTINDINDEX: long_ret = name[*length - 1]; return (u_char *)&long_ret; case ASTINDCOUNTRY: ast_copy_string(ret_buf, tz->country, sizeof(ret_buf)); tz = ast_tone_zone_unref(tz); *var_len = strlen(ret_buf); return (u_char *) ret_buf; case ASTINDALIAS: /* No longer exists */ return NULL; case ASTINDDESCRIPTION: ast_tone_zone_lock(tz); ast_copy_string(ret_buf, tz->description, sizeof(ret_buf)); ast_tone_zone_unlock(tz); tz = ast_tone_zone_unref(tz); *var_len = strlen(ret_buf); return (u_char *) ret_buf; default: break; } return NULL; } static int countmodule(const char *mod, const char *desc, int use, const char *like) { return 1; } static u_char *ast_var_Modules(struct variable *vp, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { static unsigned long long_ret; if (header_generic(vp, name, length, exact, var_len, write_method)) return NULL; if (vp->magic != ASTMODCOUNT) return NULL; long_ret = ast_update_module_list(countmodule, NULL); return (u_char *)&long_ret; } static u_char *ast_var_Version(struct variable *vp, oid *name, size_t *length, int exact, size_t *var_len, WriteMethod **write_method) { static unsigned long long_ret; if (header_generic(vp, name, length, exact, var_len, write_method)) return NULL; switch (vp->magic) { case ASTVERSTRING: { const char *version = ast_get_version(); *var_len = strlen(version); return (u_char *)version; } case ASTVERTAG: sscanf(ast_get_version_num(), "%30lu", &long_ret); return (u_char *)&long_ret; default: break; } return NULL; } static int term_asterisk_mib(int majorID, int minorID, void *serverarg, void *clientarg) { unregister_sysORTable(asterisk_oid, OID_LENGTH(asterisk_oid)); return 0; } static void init_asterisk_mib(void) { static struct variable4 asterisk_vars[] = { {ASTVERSTRING, ASN_OCTET_STR, RONLY, ast_var_Version, 2, {ASTVERSION, ASTVERSTRING}}, {ASTVERTAG, ASN_UNSIGNED, RONLY, ast_var_Version, 2, {ASTVERSION, ASTVERTAG}}, {ASTCONFUPTIME, ASN_TIMETICKS, RONLY, ast_var_Config, 2, {ASTCONFIGURATION, ASTCONFUPTIME}}, {ASTCONFRELOADTIME, ASN_TIMETICKS, RONLY, ast_var_Config, 2, {ASTCONFIGURATION, ASTCONFRELOADTIME}}, {ASTCONFPID, ASN_INTEGER, RONLY, ast_var_Config, 2, {ASTCONFIGURATION, ASTCONFPID}}, {ASTCONFSOCKET, ASN_OCTET_STR, RONLY, ast_var_Config, 2, {ASTCONFIGURATION, ASTCONFSOCKET}}, {ASTCONFACTIVECALLS, ASN_GAUGE, RONLY, ast_var_Config, 2, {ASTCONFIGURATION, ASTCONFACTIVECALLS}}, {ASTCONFPROCESSEDCALLS, ASN_COUNTER, RONLY, ast_var_Config, 2, {ASTCONFIGURATION, ASTCONFPROCESSEDCALLS}}, {ASTMODCOUNT, ASN_INTEGER, RONLY, ast_var_Modules , 2, {ASTMODULES, ASTMODCOUNT}}, {ASTINDCOUNT, ASN_INTEGER, RONLY, ast_var_indications, 2, {ASTINDICATIONS, ASTINDCOUNT}}, {ASTINDCURRENT, ASN_OCTET_STR, RONLY, ast_var_indications, 2, {ASTINDICATIONS, ASTINDCURRENT}}, {ASTINDINDEX, ASN_INTEGER, RONLY, ast_var_indications_table, 4, {ASTINDICATIONS, ASTINDTABLE, 1, ASTINDINDEX}}, {ASTINDCOUNTRY, ASN_OCTET_STR, RONLY, ast_var_indications_table, 4, {ASTINDICATIONS, ASTINDTABLE, 1, ASTINDCOUNTRY}}, {ASTINDALIAS, ASN_OCTET_STR, RONLY, ast_var_indications_table, 4, {ASTINDICATIONS, ASTINDTABLE, 1, ASTINDALIAS}}, {ASTINDDESCRIPTION, ASN_OCTET_STR, RONLY, ast_var_indications_table, 4, {ASTINDICATIONS, ASTINDTABLE, 1, ASTINDDESCRIPTION}}, {ASTCHANCOUNT, ASN_GAUGE, RONLY, ast_var_channels, 2, {ASTCHANNELS, ASTCHANCOUNT}}, {ASTCHANINDEX, ASN_INTEGER, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANINDEX}}, {ASTCHANNAME, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANNAME}}, {ASTCHANLANGUAGE, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANLANGUAGE}}, {ASTCHANTYPE, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANTYPE}}, {ASTCHANMUSICCLASS, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANMUSICCLASS}}, {ASTCHANBRIDGE, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANBRIDGE}}, {ASTCHANMASQ, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANMASQ}}, {ASTCHANMASQR, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANMASQR}}, {ASTCHANWHENHANGUP, ASN_TIMETICKS, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANWHENHANGUP}}, {ASTCHANAPP, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANAPP}}, {ASTCHANDATA, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANDATA}}, {ASTCHANCONTEXT, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANCONTEXT}}, {ASTCHANMACROCONTEXT, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANMACROCONTEXT}}, {ASTCHANMACROEXTEN, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANMACROEXTEN}}, {ASTCHANMACROPRI, ASN_INTEGER, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANMACROPRI}}, {ASTCHANEXTEN, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANEXTEN}}, {ASTCHANPRI, ASN_INTEGER, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANPRI}}, {ASTCHANACCOUNTCODE, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANACCOUNTCODE}}, {ASTCHANFORWARDTO, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANFORWARDTO}}, {ASTCHANUNIQUEID, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANUNIQUEID}}, {ASTCHANCALLGROUP, ASN_UNSIGNED, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANCALLGROUP}}, {ASTCHANPICKUPGROUP, ASN_UNSIGNED, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANPICKUPGROUP}}, {ASTCHANSTATE, ASN_INTEGER, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANSTATE}}, {ASTCHANMUTED, ASN_INTEGER, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANMUTED}}, {ASTCHANRINGS, ASN_INTEGER, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANRINGS}}, {ASTCHANCIDDNID, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANCIDDNID}}, {ASTCHANCIDNUM, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANCIDNUM}}, {ASTCHANCIDNAME, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANCIDNAME}}, {ASTCHANCIDANI, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANCIDANI}}, {ASTCHANCIDRDNIS, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANCIDRDNIS}}, {ASTCHANCIDPRES, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANCIDPRES}}, {ASTCHANCIDANI2, ASN_INTEGER, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANCIDANI2}}, {ASTCHANCIDTON, ASN_INTEGER, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANCIDTON}}, {ASTCHANCIDTNS, ASN_INTEGER, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANCIDTNS}}, {ASTCHANAMAFLAGS, ASN_INTEGER, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANAMAFLAGS}}, {ASTCHANADSI, ASN_INTEGER, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANADSI}}, {ASTCHANTONEZONE, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANTONEZONE}}, {ASTCHANHANGUPCAUSE, ASN_INTEGER, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANHANGUPCAUSE}}, {ASTCHANVARIABLES, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANVARIABLES}}, {ASTCHANFLAGS, ASN_OCTET_STR, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANFLAGS}}, {ASTCHANTRANSFERCAP, ASN_INTEGER, RONLY, ast_var_channels_table, 4, {ASTCHANNELS, ASTCHANTABLE, 1, ASTCHANTRANSFERCAP}}, {ASTCHANTYPECOUNT, ASN_INTEGER, RONLY, ast_var_channel_types, 2, {ASTCHANNELS, ASTCHANTYPECOUNT}}, {ASTCHANTYPEINDEX, ASN_INTEGER, RONLY, ast_var_channel_types_table, 4, {ASTCHANNELS, ASTCHANTYPETABLE, 1, ASTCHANTYPEINDEX}}, {ASTCHANTYPENAME, ASN_OCTET_STR, RONLY, ast_var_channel_types_table, 4, {ASTCHANNELS, ASTCHANTYPETABLE, 1, ASTCHANTYPENAME}}, {ASTCHANTYPEDESC, ASN_OCTET_STR, RONLY, ast_var_channel_types_table, 4, {ASTCHANNELS, ASTCHANTYPETABLE, 1, ASTCHANTYPEDESC}}, {ASTCHANTYPEDEVSTATE, ASN_INTEGER, RONLY, ast_var_channel_types_table, 4, {ASTCHANNELS, ASTCHANTYPETABLE, 1, ASTCHANTYPEDEVSTATE}}, {ASTCHANTYPEINDICATIONS, ASN_INTEGER, RONLY, ast_var_channel_types_table, 4, {ASTCHANNELS, ASTCHANTYPETABLE, 1, ASTCHANTYPEINDICATIONS}}, {ASTCHANTYPETRANSFER, ASN_INTEGER, RONLY, ast_var_channel_types_table, 4, {ASTCHANNELS, ASTCHANTYPETABLE, 1, ASTCHANTYPETRANSFER}}, {ASTCHANTYPECHANNELS, ASN_GAUGE, RONLY, ast_var_channel_types_table, 4, {ASTCHANNELS, ASTCHANTYPETABLE, 1, ASTCHANTYPECHANNELS}}, {ASTCHANBRIDGECOUNT, ASN_GAUGE, RONLY, ast_var_channel_bridge, 3, {ASTCHANNELS, ASTCHANSCALARS, ASTCHANBRIDGECOUNT}}, }; register_sysORTable(asterisk_oid, OID_LENGTH(asterisk_oid), "ASTERISK-MIB implementation for Asterisk."); REGISTER_MIB("res_snmp", asterisk_vars, variable4, asterisk_oid); snmp_register_callback(SNMP_CALLBACK_LIBRARY, SNMP_CALLBACK_SHUTDOWN, term_asterisk_mib, NULL); } /* * Local Variables: * c-basic-offset: 4 * c-file-offsets: ((case-label . 0)) * tab-width: 4 * indent-tabs-mode: t * End: */