/* * Asterisk -- An open source telephony toolkit. * * Copyright (C) 1999 - 2006, Digium, Inc. * * Mark Spencer * * See http://www.asterisk.org for more information about * the Asterisk project. Please do not directly contact * any of the maintainers of this project for assistance; * the project provides a web site, mailing lists and IRC * channels for your use. * * 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 Open Settlement Protocol (OSP) Applications * * \author Mark Spencer * * \extref The OSP Toolkit: http://www.transnexus.com * \extref OpenSSL http://www.openssl.org * * \ingroup applications */ /*** MODULEINFO osptk openssl extended ***/ #include "asterisk.h" ASTERISK_FILE_VERSION(__FILE__, "$Revision$") #include #include #include #include "asterisk/paths.h" #include "asterisk/lock.h" #include "asterisk/config.h" #include "asterisk/utils.h" #include "asterisk/causes.h" #include "asterisk/channel.h" #include "asterisk/app.h" #include "asterisk/module.h" #include "asterisk/pbx.h" #include "asterisk/cli.h" #include "asterisk/astosp.h" /*** DOCUMENTATION OSP Authentication. The name of the provider that authenticates the call. Reserverd. Authenticate a call by OSP. Input variables: The last hop IP address. The inbound OSP token. Output variables: The inbound call OSP transaction handle. The inbound call duration limit in seconds. This application sets the following channel variable upon completion: The status of OSPAuth attempt as a text string, one of

OSPLookup OSPNext OSPFinish

Lookup destination by OSP. The exten of the call. The name of the provider that is used to route the call. generate H323 call id for the outbound call generate SIP call id for the outbound call. Have not been implemented generate IAX call id for the outbound call. Have not been implemented Looks up destination via OSP. Input variables: The actual source device IP address in indirect mode. The last hop IP address. The inbound call OSP transaction handle. The inbound call duration limit in seconds. The inbound source network ID. The inbound routing number. The inbound carrier identification code. The inbound number portability database dip indicator. The inbound service provider identity. The inbound operator company number. The inbound service provider name. The inbound alternate service provider name. The inbound mobile country code. The inbound mobile network code. The inbound To header host part. The inbound Diversion header user part. The inbound Diversion header host part. The inbound custom information, where n is the index beginning with 1 upto 8. Output variables: The outbound call OSP transaction handle. The outbound channel technology for the call. The outbound destination IP address. The outbound calling number. The outbound called number. The outbound destination network ID. The outbound routing number. The outbound carrier identification code. The outbound number portability database dip indicator. The outbound service provider identity. The outbound operator company number. The outbound service provider name. The outbound alternate service provider name. The outbound mobile country code. The outbound mobile network code. The outbound OSP token. The number of remained destinations. The outbound call duration limit in seconds. The outbound Call-ID types. The outbound Call-ID. Only for H.323. The outbound Dial command string. This application sets the following channel variable upon completion: The status of OSPLookup attempt as a text string, one of

OSPAuth OSPNext OSPFinish

Lookup next destination by OSP. Looks up the next destination via OSP. Input variables: The inbound call OSP transaction handle. The outbound call OSP transaction handle. The inbound call duration limit in seconds. The outbound Call-ID types. The number of remained destinations. Output variables: The outbound channel technology. The destination IP address. The outbound calling number. The outbound called number. The outbound destination network ID. The outbound routing number. The outbound carrier identification code. The outbound number portability database dip indicator. The outbound service provider identity. The outbound operator company number. The outbound service provider name. The outbound alternate service provider name. The outbound mobile country code. The outbound mobile network code. The outbound OSP token. The number of remained destinations. The outbound call duration limit in seconds. The outbound Call-ID. Only for H.323. The outbound Dial command string. This application sets the following channel variable upon completion: The status of the OSPNext attempt as a text string, one of

OSPAuth OSPLookup OSPFinish

Report OSP entry. Hangup cause. Reserved. Report call state. Input variables: The inbound call OSP transaction handle. The outbound call OSP transaction handle. The OSPAuth status. The OSPLookup status. The OSPNext status. The inbound call leg audio QoS string. The outbound call leg audio QoS string. This application sets the following channel variable upon completion: The status of the OSPFinish attempt as a text string, one of

OSPAuth OSPLookup OSPNext

***/ /* OSP Buffer Sizes */ #define OSP_SIZE_INTSTR ((unsigned int)16) /* OSP signed/unsigned int string buffer size */ #define OSP_SIZE_NORSTR ((unsigned int)256) /* OSP normal string buffer size */ #define OSP_SIZE_KEYSTR ((unsigned int)1024) /* OSP certificate string buffer size */ #define OSP_SIZE_TOKSTR ((unsigned int)4096) /* OSP token string buffer size */ #define OSP_SIZE_TECHSTR ((unsigned int)32) /* OSP signed/unsigned int string buffer size */ #define OSP_SIZE_UUID ((unsigned int)16) /* UUID size */ #define OSP_SIZE_UUIDSTR ((unsigned int)36) /* UUID string size */ #define OSP_SIZE_QOSSTR ((unsigned int)1024) /* QoS string buffer size */ /* Call ID Type*/ #define OSP_CALLID_UNDEF ((unsigned int)0) /* Undefined */ #define OSP_CALLID_SIP ((unsigned int)(1 << 0)) /* SIP */ #define OSP_CALLID_H323 ((unsigned int)(1 << 1)) /* H.323 */ #define OSP_CALLID_IAX ((unsigned int)(1 << 2)) /* IAX2 */ #define OSP_CALLID_MAXNUM ((unsigned int)3) /* Max number of call ID types */ /* OSP Supported Destination Protocols */ #define OSP_PROT_SIP ((const char*)"SIP") /* SIP protocol name */ #define OSP_PROT_H323 ((const char*)"H323") /* H.323 Q.931 protocol name*/ #define OSP_PROT_IAX ((const char*)"IAX") /* IAX2 protocol name */ #define OSP_PROT_SKYPE ((const char*)"SKYPE") /* Skype protocol name */ /* OSP supported Destination Tech */ #define OSP_TECH_SIP ((const char*)"SIP") /* SIP tech name */ #define OSP_TECH_H323 ((const char*)"H323") /* OH323 tech name */ #define OSP_TECH_IAX ((const char*)"IAX2") /* IAX2 tech name */ #define OSP_TECH_SKYPE ((const char*)"SKYPE") /* Skype tech name */ /* SIP OSP header field name */ #define OSP_SIP_HEADER ((const char*)"P-OSP-Auth-Token") /* OSP Authentication Policy */ enum osp_authpolicy { OSP_AUTH_NO = 0, /* Accept any call */ OSP_AUTH_YES, /* Accept call with valid OSP token or without OSP token */ OSP_AUTH_EXC /* Only accept call with valid OSP token */ }; /* OSP Work Mode */ enum osp_workmode { OSP_MODE_DIRECT= 0, /* Direct */ OSP_MODE_INDIRECT /* Indirect */ }; /* OSP Service Type */ enum osp_srvtype { OSP_SRV_VOICE = 0, /* Normal voice service */ OSP_SRV_NPQUERY /* Ported number query service */ }; /* OSP Constants */ #define OSP_OK ((int)1) /* OSP function call successful */ #define OSP_FAILED ((int)0) /* OSP function call failed */ #define OSP_ERROR ((int)-1) /* OSP function call error */ #define OSP_AST_OK ((int)0) /* Asterisk function call successful */ #define OSP_AST_ERROR ((int)-1) /* Asterisk function call error */ #define OSP_INVALID_HANDLE ((int)-1) /* Invalid OSP handle, provider, transaction etc. */ #define OSP_CONFIG_FILE ((const char*)"osp.conf") /* OSP configuration file name */ #define OSP_GENERAL_CAT ((const char*)"general") /* OSP global configuration context name */ #define OSP_DEF_PROVIDER ((const char*)"default") /* OSP default provider context name */ #define OSP_MAX_CERTS ((unsigned int)10) /* OSP max number of cacerts */ #define OSP_MAX_SPOINTS ((unsigned int)10) /* OSP max number of service points */ #define OSP_DEF_MAXCONNECT ((unsigned int)20) /* OSP default max_connections */ #define OSP_MIN_MAXCONNECT ((unsigned int)1) /* OSP min max_connections */ #define OSP_MAX_MAXCONNECT ((unsigned int)1000) /* OSP max max_connections */ #define OSP_DEF_RETRYDELAY ((unsigned int)0) /* OSP default retry delay */ #define OSP_MIN_RETRYDELAY ((unsigned int)0) /* OSP min retry delay */ #define OSP_MAX_RETRYDELAY ((unsigned int)10) /* OSP max retry delay */ #define OSP_DEF_RETRYLIMIT ((unsigned int)2) /* OSP default retry times */ #define OSP_MIN_RETRYLIMIT ((unsigned int)0) /* OSP min retry times */ #define OSP_MAX_RETRYLIMIT ((unsigned int)100) /* OSP max retry times */ #define OSP_DEF_TIMEOUT ((unsigned int)500) /* OSP default timeout in ms */ #define OSP_MIN_TIMEOUT ((unsigned int)200) /* OSP min timeout in ms */ #define OSP_MAX_TIMEOUT ((unsigned int)10000) /* OSP max timeout in ms */ #define OSP_DEF_AUTHPOLICY OSP_AUTH_YES /* OSP default auth policy, yes */ #define OSP_AUDIT_URL ((const char*)"localhost") /* OSP default Audit URL */ #define OSP_LOCAL_VALIDATION ((int)1) /* Validate OSP token locally */ #define OSP_SSL_LIFETIME ((unsigned int)300) /* SSL life time, in seconds */ #define OSP_HTTP_PERSISTENCE ((int)1) /* In seconds */ #define OSP_CUSTOMER_ID ((const char*)"") /* OSP customer ID */ #define OSP_DEVICE_ID ((const char*)"") /* OSP device ID */ #define OSP_DEF_MAXDESTS ((unsigned int)5) /* OSP default max number of destinations */ #define OSP_DEF_TIMELIMIT ((unsigned int)0) /* OSP default duration limit, no limit */ #define OSP_DEF_PROTOCOL OSP_PROT_SIP /* OSP default destination protocol, SIP */ #define OSP_DEF_WORKMODE OSP_MODE_DIRECT /* OSP default work mode, direct */ #define OSP_DEF_SRVTYPE OSP_SRV_VOICE /* OSP default service type, voice */ #define OSP_MAX_CUSTOMINFO ((unsigned int)8) /* OSP max number of custom info */ #define OSP_DEF_INTSTATS ((int)-1) /* OSP default int statistic */ #define OSP_DEF_FLOATSTATS ((float)-1) /* OSP default float statistic */ /* OSP Provider */ struct osp_provider { OSPTPROVHANDLE handle; /* OSP provider handle */ char name[OSP_SIZE_NORSTR]; /* OSP provider context name */ char privatekey[OSP_SIZE_NORSTR]; /* OSP private key file name */ char localcert[OSP_SIZE_NORSTR]; /* OSP local cert file name */ unsigned int canum; /* Number of cacerts */ char cacerts[OSP_MAX_CERTS][OSP_SIZE_NORSTR]; /* Cacert file names */ unsigned int spnum; /* Number of service points */ char spoints[OSP_MAX_SPOINTS][OSP_SIZE_NORSTR]; /* Service point URLs */ unsigned int maxconnect; /* Max number of connections */ unsigned int retrydelay; /* Retry delay */ unsigned int retrylimit; /* Retry limit */ unsigned int timeout; /* Timeout in ms */ char source[OSP_SIZE_NORSTR]; /* IP of self */ enum osp_authpolicy authpolicy; /* OSP authentication policy */ const char* defprotocol; /* OSP default destination protocol */ enum osp_workmode workmode; /* OSP work mode */ enum osp_srvtype srvtype; /* OSP service type */ struct osp_provider* next; /* Pointer to next OSP provider */ }; /* Call ID */ struct osp_callid { unsigned char buf[OSP_SIZE_NORSTR]; /* Call ID string */ unsigned int len; /* Call ID length */ }; /* Number Portability Data */ struct osp_npdata { const char* rn; /* Rounding Number */ const char* cic; /* Carrier Identification Code */ int npdi; /* NP Database Dip Indicator */ const char* opname[OSPC_OPNAME_NUMBER]; /* Operator Names */ }; /* SIP Diversion Header Parameters */ struct osp_diversion { const char* user; /* Diversion header user info */ const char* host; /* Diversion header host info */ }; /* OSP Application In/Output Results */ struct osp_results { int inhandle; /* Inbound transaction handle */ int outhandle; /* Outbound transaction handle */ unsigned int intimelimit; /* Inbound duration limit */ unsigned int outtimelimit; /* Outbound duration limit */ char tech[OSP_SIZE_TECHSTR]; /* Outbound Asterisk TECH string */ char dest[OSP_SIZE_NORSTR]; /* Outbound destination IP address */ char calling[OSP_SIZE_NORSTR]; /* Outbound calling number, may be translated */ char called[OSP_SIZE_NORSTR]; /* Outbound called number, may be translated */ char token[OSP_SIZE_TOKSTR]; /* Outbound OSP token */ char networkid[OSP_SIZE_NORSTR]; /* Outbound network ID */ char nprn[OSP_SIZE_NORSTR]; /* Outbound NP routing number */ char npcic[OSP_SIZE_NORSTR]; /* Outbound NP carrier identification code */ int npdi; /* Outbound NP database dip indicator */ char opname[OSPC_OPNAME_NUMBER][OSP_SIZE_NORSTR]; /* Outbound Operator names */ unsigned int numdests; /* Number of remain outbound destinations */ struct osp_callid outcallid; /* Outbound call ID */ }; /* OSP Call Leg */ enum osp_callleg { OSP_CALL_INBOUND, /* Inbound call leg */ OSP_CALL_OUTBOUND /* Outbound call leg */ }; /* OSP Media Stream Direction */ enum osp_direction { OSP_DIR_RX = 0, /* Receive */ OSP_DIR_TX, /* Send */ OSP_DIR_NUMBER /* Number of directions */ }; /* OSP Metrics */ struct osp_metrics { int value; /* Value */ float min; /* Minimum */ float max; /* Maximum */ float avg; /* Average */ float ndev; /* Normal deviation */ float sdev; /* Standard deviation */ }; /* OSP Module Global Variables */ AST_MUTEX_DEFINE_STATIC(osp_lock); /* Lock of OSP provider list */ static int osp_initialized = 0; /* Init flag */ static int osp_hardware = 0; /* Hardware accelleration flag */ static int osp_security = 0; /* Using security features flag */ static struct osp_provider* osp_providers = NULL; /* OSP provider list */ static unsigned int osp_tokenformat = TOKEN_ALGO_SIGNED; /* Token format supported */ /* OSP default certificates */ const char* B64PKey = "MIIBOgIBAAJBAK8t5l+PUbTC4lvwlNxV5lpl+2dwSZGW46dowTe6y133XyVEwNiiRma2YNk3xKs/TJ3Wl9Wpns2SYEAJsFfSTukCAwEAAQJAPz13vCm2GmZ8Zyp74usTxLCqSJZNyMRLHQWBM0g44Iuy4wE3vpi7Wq+xYuSOH2mu4OddnxswCP4QhaXVQavTAQIhAOBVCKXtppEw9UaOBL4vW0Ed/6EA/1D8hDW6St0h7EXJAiEAx+iRmZKhJD6VT84dtX5ZYNVk3j3dAcIOovpzUj9a0CECIEduTCapmZQ5xqAEsLXuVlxRtQgLTUD4ZxDElPn8x0MhAiBE2HlcND0+qDbvtwJQQOUzDgqg5xk3w8capboVdzAlQQIhAMC+lDL7+gDYkNAft5Mu+NObJmQs4Cr+DkDFsKqoxqrm"; const char* B64LCert = "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"; const char* B64CACert = "MIIBYDCCAQoCAQEwDQYJKoZIhvcNAQEEBQAwOzElMCMGA1UEAxMcb3NwdGVzdHNlcnZlci50cmFuc25leHVzLmNvbTESMBAGA1UEChMJT1NQU2VydmVyMB4XDTAyMDIwNDE4MjU1MloXDTEyMDIwMzE4MjU1MlowOzElMCMGA1UEAxMcb3NwdGVzdHNlcnZlci50cmFuc25leHVzLmNvbTESMBAGA1UEChMJT1NQU2VydmVyMFwwDQYJKoZIhvcNAQEBBQADSwAwSAJBAPGeGwV41EIhX0jEDFLRXQhDEr50OUQPq+f55VwQd0TQNts06BP29+UiNdRW3c3IRHdZcJdC1Cg68ME9cgeq0h8CAwEAATANBgkqhkiG9w0BAQQFAANBAGkzBSj1EnnmUxbaiG1N4xjIuLAWydun7o3bFk2tV8dBIhnuh445obYyk1EnQ27kI7eACCILBZqi2MHDOIMnoN0="; /* OSP Client Wrapper APIs */ /*! * \brief Create OSP provider handle according to configuration * \param cfg OSP configuration * \param name OSP provider context name * \return OSP_OK Success, OSP_FAILED Failed, OSP_ERROR Error */ static int osp_create_provider( struct ast_config* cfg, const char* name) { int res = OSP_FAILED; struct ast_variable* var; struct osp_provider* provider; OSPTPRIVATEKEY privatekey; OSPT_CERT localcert; OSPT_CERT cacerts[OSP_MAX_CERTS]; const OSPT_CERT* pcacerts[OSP_MAX_CERTS]; const char* pspoints[OSP_MAX_SPOINTS]; unsigned char privatekeydata[OSP_SIZE_KEYSTR]; unsigned char localcertdata[OSP_SIZE_KEYSTR]; unsigned char cacertdata[OSP_SIZE_KEYSTR]; int i, num, error = OSPC_ERR_NO_ERROR; if (!(provider = ast_calloc(1, sizeof(*provider)))) { ast_log(LOG_ERROR, "Out of memory\n"); return OSP_ERROR; } /* ast_calloc has set 0 in provider */ provider->handle = OSP_INVALID_HANDLE; ast_copy_string(provider->name, name, sizeof(provider->name)); snprintf(provider->privatekey, sizeof(provider->privatekey), "%s/%s-privatekey.pem", ast_config_AST_KEY_DIR, name); snprintf(provider->localcert, sizeof(provider->localcert), "%s/%s-localcert.pem", ast_config_AST_KEY_DIR, name); snprintf(provider->cacerts[0], sizeof(provider->cacerts[0]), "%s/%s-cacert_0.pem", ast_config_AST_KEY_DIR, name); provider->maxconnect = OSP_DEF_MAXCONNECT; provider->retrydelay = OSP_DEF_RETRYDELAY; provider->retrylimit = OSP_DEF_RETRYLIMIT; provider->timeout = OSP_DEF_TIMEOUT; provider->authpolicy = OSP_DEF_AUTHPOLICY; provider->defprotocol = OSP_DEF_PROTOCOL; provider->workmode = OSP_DEF_WORKMODE; provider->srvtype = OSP_DEF_SRVTYPE; for (var = ast_variable_browse(cfg, name); var != NULL; var = var->next) { if (!strcasecmp(var->name, "privatekey")) { if (osp_security) { if (var->value[0] == '/') { ast_copy_string(provider->privatekey, var->value, sizeof(provider->privatekey)); } else { snprintf(provider->privatekey, sizeof(provider->privatekey), "%s/%s", ast_config_AST_KEY_DIR, var->value); } ast_debug(1, "OSP: privatekey '%s'\n", provider->privatekey); } } else if (!strcasecmp(var->name, "localcert")) { if (osp_security) { if (var->value[0] == '/') { ast_copy_string(provider->localcert, var->value, sizeof(provider->localcert)); } else { snprintf(provider->localcert, sizeof(provider->localcert), "%s/%s", ast_config_AST_KEY_DIR, var->value); } ast_debug(1, "OSP: localcert '%s'\n", provider->localcert); } } else if (!strcasecmp(var->name, "cacert")) { if (osp_security) { if (provider->canum < OSP_MAX_CERTS) { if (var->value[0] == '/') { ast_copy_string(provider->cacerts[provider->canum], var->value, sizeof(provider->cacerts[provider->canum])); } else { snprintf(provider->cacerts[provider->canum], sizeof(provider->cacerts[provider->canum]), "%s/%s", ast_config_AST_KEY_DIR, var->value); } ast_debug(1, "OSP: cacerts[%d]: '%s'\n", provider->canum, provider->cacerts[provider->canum]); provider->canum++; } else { ast_log(LOG_WARNING, "OSP: Too many CA Certificates at line %d\n", var->lineno); } } } else if (!strcasecmp(var->name, "servicepoint")) { if (provider->spnum < OSP_MAX_SPOINTS) { ast_copy_string(provider->spoints[provider->spnum], var->value, sizeof(provider->spoints[provider->spnum])); ast_debug(1, "OSP: servicepoint[%d]: '%s'\n", provider->spnum, provider->spoints[provider->spnum]); provider->spnum++; } else { ast_log(LOG_WARNING, "OSP: Too many Service Points at line %d\n", var->lineno); } } else if (!strcasecmp(var->name, "maxconnect")) { if ((sscanf(var->value, "%30d", &num) == 1) && (num >= OSP_MIN_MAXCONNECT) && (num <= OSP_MAX_MAXCONNECT)) { provider->maxconnect = num; ast_debug(1, "OSP: maxconnect '%d'\n", num); } else { ast_log(LOG_WARNING, "OSP: maxconnect should be an integer from %d to %d, not '%s' at line %d\n", OSP_MIN_MAXCONNECT, OSP_MAX_MAXCONNECT, var->value, var->lineno); } } else if (!strcasecmp(var->name, "retrydelay")) { if ((sscanf(var->value, "%30d", &num) == 1) && (num >= OSP_MIN_RETRYDELAY) && (num <= OSP_MAX_RETRYDELAY)) { provider->retrydelay = num; ast_debug(1, "OSP: retrydelay '%d'\n", num); } else { ast_log(LOG_WARNING, "OSP: retrydelay should be an integer from %d to %d, not '%s' at line %d\n", OSP_MIN_RETRYDELAY, OSP_MAX_RETRYDELAY, var->value, var->lineno); } } else if (!strcasecmp(var->name, "retrylimit")) { if ((sscanf(var->value, "%30d", &num) == 1) && (num >= OSP_MIN_RETRYLIMIT) && (num <= OSP_MAX_RETRYLIMIT)) { provider->retrylimit = num; ast_debug(1, "OSP: retrylimit '%d'\n", num); } else { ast_log(LOG_WARNING, "OSP: retrylimit should be an integer from %d to %d, not '%s' at line %d\n", OSP_MIN_RETRYLIMIT, OSP_MAX_RETRYLIMIT, var->value, var->lineno); } } else if (!strcasecmp(var->name, "timeout")) { if ((sscanf(var->value, "%30d", &num) == 1) && (num >= OSP_MIN_TIMEOUT) && (num <= OSP_MAX_TIMEOUT)) { provider->timeout = num; ast_debug(1, "OSP: timeout '%d'\n", num); } else { ast_log(LOG_WARNING, "OSP: timeout should be an integer from %d to %d, not '%s' at line %d\n", OSP_MIN_TIMEOUT, OSP_MAX_TIMEOUT, var->value, var->lineno); } } else if (!strcasecmp(var->name, "source")) { ast_copy_string(provider->source, var->value, sizeof(provider->source)); ast_debug(1, "OSP: source '%s'\n", provider->source); } else if (!strcasecmp(var->name, "authpolicy")) { if ((sscanf(var->value, "%30d", &num) == 1) && ((num == OSP_AUTH_NO) || (num == OSP_AUTH_YES) || (num == OSP_AUTH_EXC))) { provider->authpolicy = num; ast_debug(1, "OSP: authpolicy '%d'\n", num); } else { ast_log(LOG_WARNING, "OSP: authpolicy should be %d, %d or %d, not '%s' at line %d\n", OSP_AUTH_NO, OSP_AUTH_YES, OSP_AUTH_EXC, var->value, var->lineno); } } else if (!strcasecmp(var->name, "defprotocol")) { if (!strcasecmp(var->value, OSP_PROT_SIP)) { provider->defprotocol = OSP_PROT_SIP; ast_debug(1, "OSP: default protocol SIP\n"); } else if (!strcasecmp(var->value, OSP_PROT_H323)) { provider->defprotocol = OSP_PROT_H323; ast_debug(1, "OSP: default protocol H.323\n"); } else if (!strcasecmp(var->value, OSP_PROT_IAX)) { provider->defprotocol = OSP_PROT_IAX; ast_debug(1, "OSP: default protocol IAX\n"); } else if (!strcasecmp(var->value, OSP_PROT_SKYPE)) { provider->defprotocol = OSP_PROT_SKYPE; ast_debug(1, "OSP: default protocol Skype\n"); } else { ast_log(LOG_WARNING, "OSP: default protocol should be %s, %s, %s or %s not '%s' at line %d\n", OSP_PROT_SIP, OSP_PROT_H323, OSP_PROT_IAX, OSP_PROT_SKYPE, var->value, var->lineno); } } else if (!strcasecmp(var->name, "workmode")) { if ((sscanf(var->value, "%30d", &num) == 1) && ((num == OSP_MODE_DIRECT) || (num == OSP_MODE_INDIRECT))) { provider->workmode = num; ast_debug(1, "OSP: workmode '%d'\n", num); } else { ast_log(LOG_WARNING, "OSP: workmode should be %d or %d, not '%s' at line %d\n", OSP_MODE_DIRECT, OSP_MODE_INDIRECT, var->value, var->lineno); } } else if (!strcasecmp(var->name, "servicetype")) { if ((sscanf(var->value, "%30d", &num) == 1) && ((num == OSP_SRV_VOICE) || (num == OSP_SRV_NPQUERY))) { provider->srvtype = num; ast_debug(1, "OSP: servicetype '%d'\n", num); } else { ast_log(LOG_WARNING, "OSP: servicetype should be %d or %d, not '%s' at line %d\n", OSP_SRV_VOICE, OSP_SRV_NPQUERY, var->value, var->lineno); } } } if (provider->canum == 0) { provider->canum = 1; } for (i = 0; i < provider->spnum; i++) { pspoints[i] = provider->spoints[i]; } if (osp_security) { privatekey.PrivateKeyData = NULL; privatekey.PrivateKeyLength = 0; localcert.CertData = NULL; localcert.CertDataLength = 0; for (i = 0; i < provider->canum; i++) { cacerts[i].CertData = NULL; cacerts[i].CertDataLength = 0; } if ((error = OSPPUtilLoadPEMPrivateKey((unsigned char*)provider->privatekey, &privatekey)) != OSPC_ERR_NO_ERROR) { ast_log(LOG_WARNING, "OSP: Unable to load privatekey '%s', error '%d'\n", provider->privatekey, error); } else if ((error = OSPPUtilLoadPEMCert((unsigned char*)provider->localcert, &localcert)) != OSPC_ERR_NO_ERROR) { ast_log(LOG_WARNING, "OSP: Unable to load localcert '%s', error '%d'\n", provider->localcert, error); } else { for (i = 0; i < provider->canum; i++) { if ((error = OSPPUtilLoadPEMCert((unsigned char*)provider->cacerts[i], &cacerts[i])) != OSPC_ERR_NO_ERROR) { ast_log(LOG_WARNING, "OSP: Unable to load cacert '%s', error '%d'\n", provider->cacerts[i], error); break; } else { pcacerts[i] = &cacerts[i]; } } } } else { privatekey.PrivateKeyData = privatekeydata; privatekey.PrivateKeyLength = sizeof(privatekeydata); localcert.CertData = localcertdata; localcert.CertDataLength = sizeof(localcertdata); cacerts[0].CertData = cacertdata; cacerts[0].CertDataLength = sizeof(cacertdata); pcacerts[0] = &cacerts[0]; if ((error = OSPPBase64Decode(B64PKey, strlen(B64PKey), privatekey.PrivateKeyData, &privatekey.PrivateKeyLength)) != OSPC_ERR_NO_ERROR) { ast_log(LOG_WARNING, "OSP: Unable to decode private key, error '%d'\n", error); } else if ((error = OSPPBase64Decode(B64LCert, strlen(B64LCert), localcert.CertData, &localcert.CertDataLength)) != OSPC_ERR_NO_ERROR) { ast_log(LOG_WARNING, "OSP: Unable to decode local cert, error '%d'\n", error); } else if ((error = OSPPBase64Decode(B64CACert, strlen(B64CACert), cacerts[0].CertData, &cacerts[0].CertDataLength)) != OSPC_ERR_NO_ERROR) { ast_log(LOG_WARNING, "OSP: Unable to decode cacert, error '%d'\n", error); } } if (error == OSPC_ERR_NO_ERROR) { error = OSPPProviderNew(provider->spnum, pspoints, NULL, OSP_AUDIT_URL, &privatekey, &localcert, provider->canum, pcacerts, OSP_LOCAL_VALIDATION, OSP_SSL_LIFETIME, provider->maxconnect, OSP_HTTP_PERSISTENCE, provider->retrydelay, provider->retrylimit, provider->timeout, OSP_CUSTOMER_ID, OSP_DEVICE_ID, &provider->handle); if (error != OSPC_ERR_NO_ERROR) { ast_log(LOG_WARNING, "OSP: Unable to create provider '%s', error '%d'\n", name, error); res = OSP_ERROR; } else { ast_debug(1, "OSP: provider '%s'\n", name); ast_mutex_lock(&osp_lock); provider->next = osp_providers; osp_providers = provider; ast_mutex_unlock(&osp_lock); res = OSP_OK; } } if (osp_security) { for (i = 0; i < provider->canum; i++) { if (cacerts[i].CertData) { ast_free(cacerts[i].CertData); } } if (localcert.CertData) { ast_free(localcert.CertData); } if (privatekey.PrivateKeyData) { ast_free(privatekey.PrivateKeyData); } } if (res != OSP_OK) { ast_free(provider); } return res; } /*! * \brief Get OSP provider by name * \param name OSP provider context name * \param provider OSP provider structure * \return OSP_OK Success, OSP_FAILED Failed, OSP_ERROR Error */ static int osp_get_provider( const char* name, struct osp_provider** provider) { int res = OSP_FAILED; struct osp_provider* p; *provider = NULL; ast_mutex_lock(&osp_lock); for (p = osp_providers; p != NULL; p = p->next) { if (!strcasecmp(p->name, name)) { *provider = p; ast_debug(1, "OSP: find provider '%s'\n", name); res = OSP_OK; break; } } ast_mutex_unlock(&osp_lock); return res; } /*! * \brief Create OSP transaction handle * \param name OSP provider context name * \param trans OSP transaction handle, output * \param source Source of provider, output * \param srcsize Size of source buffer, in * \return OSK_OK Success, OSK_FAILED Failed, OSP_ERROR Error */ static int osp_create_transaction( const char* name, int* trans, char* source, unsigned int srcsize) { int res = OSP_FAILED; struct osp_provider* provider; int error; if ((trans == NULL) || (source == NULL) || (srcsize <= 0)) { ast_log(LOG_ERROR, "Invalid parameters\n"); return OSP_ERROR; } *trans = OSP_INVALID_HANDLE; *source = '\0'; ast_mutex_lock(&osp_lock); for (provider = osp_providers; provider; provider = provider->next) { if (!strcasecmp(provider->name, name)) { error = OSPPTransactionNew(provider->handle, trans); if (error == OSPC_ERR_NO_ERROR) { ast_debug(1, "OSP: transaction '%d'\n", *trans); ast_copy_string(source, provider->source, srcsize); ast_debug(1, "OSP: source '%s'\n", source); res = OSP_OK; } else { *trans = OSP_INVALID_HANDLE; ast_debug(1, "OSP: Unable to create transaction handle, error '%d'\n", error); *source = '\0'; res = OSP_ERROR; } break; } } ast_mutex_unlock(&osp_lock); return res; } /*! * \brief Convert "address:port" to "[x.x.x.x]:port" or "hostname:port" format * \param src Source address string * \param dest Destination address string * \param destsize Size of dest buffer */ static void osp_convert_inout( const char* src, char* dest, unsigned int destsize) { struct in_addr inp; char buffer[OSP_SIZE_NORSTR]; char* port; if ((dest != NULL) && (destsize > 0)) { if (!ast_strlen_zero(src)) { ast_copy_string(buffer, src, sizeof(buffer)); if((port = strchr(buffer, ':')) != NULL) { *port = '\0'; port++; } if (inet_pton(AF_INET, buffer, &inp) == 1) { if (port != NULL) { snprintf(dest, destsize, "[%s]:%s", buffer, port); } else { snprintf(dest, destsize, "[%s]", buffer); } dest[destsize - 1] = '\0'; } else { ast_copy_string(dest, src, destsize); } } else { *dest = '\0'; } } } /*! * \brief Convert "[x.x.x.x]:port" or "hostname:prot" to "address:port" format * \param src Source address string * \param dest Destination address string * \param destsize Size of dest buffer */ static void osp_convert_outin( const char* src, char* dest, unsigned int destsize) { char buffer[OSP_SIZE_NORSTR]; char* end; char* port; if ((dest != NULL) && (destsize > 0)) { if (!ast_strlen_zero(src)) { ast_copy_string(buffer, src, sizeof(buffer)); if (buffer[0] == '[') { if((port = strchr(buffer + 1, ':')) != NULL) { *port = '\0'; port++; } if ((end = strchr(buffer + 1, ']')) != NULL) { *end = '\0'; } if (port != NULL) { snprintf(dest, destsize, "%s:%s", buffer + 1, port); dest[destsize - 1] = '\0'; } else { ast_copy_string(dest, buffer + 1, destsize); } } else { ast_copy_string(dest, src, destsize); } } else { *dest = '\0'; } } } /*! * \brief Validate OSP token of inbound call * \param trans OSP transaction handle * \param source Source of inbound call * \param destination Destination of inbound call * \param calling Calling number * \param called Called number * \param token OSP token, may be empty * \param timelimit Call duration limit, output * \return OSP_OK Success, OSP_FAILED Failed, OSP_ERROR Error */ static int osp_validate_token( int trans, const char* source, const char* destination, const char* calling, const char* called, const char* token, unsigned int* timelimit) { int res; int tokenlen; unsigned char tokenstr[OSP_SIZE_TOKSTR]; char src[OSP_SIZE_NORSTR]; char dest[OSP_SIZE_NORSTR]; unsigned int authorised; unsigned int dummy = 0; int error; if (timelimit == NULL) { ast_log(LOG_ERROR, "Invalid parameters\n"); return OSP_ERROR; } tokenlen = ast_base64decode(tokenstr, token, strlen(token)); osp_convert_inout(source, src, sizeof(src)); osp_convert_inout(destination, dest, sizeof(dest)); error = OSPPTransactionValidateAuthorisation(trans, src, dest, NULL, NULL, calling ? calling : "", OSPC_NFORMAT_E164, called, OSPC_NFORMAT_E164, 0, NULL, tokenlen, (char*)tokenstr, &authorised, timelimit, &dummy, NULL, osp_tokenformat); if (error != OSPC_ERR_NO_ERROR) { ast_log(LOG_WARNING, "OSP: Unable to validate inbound token, error '%d'\n", error); *timelimit = 0; res = OSP_ERROR; } else if (authorised) { ast_debug(1, "OSP: Authorised\n"); res = OSP_OK; } else { ast_debug(1, "OSP: Unauthorised\n"); res = OSP_FAILED; } return res; } /*! * \brief Choose min duration limit * \param in Inbound duration limit * \param out Outbound duration limit * \return min duration limit */ static unsigned int osp_choose_timelimit( unsigned int in, unsigned int out) { if (in == OSP_DEF_TIMELIMIT) { return out; } else if (out == OSP_DEF_TIMELIMIT) { return in; } else { return in < out ? in : out; } } /*! * \brief Choose min duration limit * \param provider OSP provider * \param calling Calling number * \param called Called number * \param destination Destination IP in '[x.x.x.x]' format * \param tokenlen OSP token length * \param token OSP token * \param reason Failure reason, output * \param results OSP lookup results, in/output * \return OSP_OK Success, OSP_FAILED Failed, OSP_ERROR Error */ static int osp_check_destination( struct osp_provider* provider, const char* calling, const char* called, const char* destination, unsigned int tokenlen, const char* token, OSPEFAILREASON* reason, struct osp_results* results) { int res; OSPE_DEST_OSPENABLED enabled; OSPE_DEST_PROTOCOL protocol; char dest[OSP_SIZE_NORSTR]; OSPE_OPERATOR_NAME type; int error; if ((provider == NULL) || (reason == NULL) || (results == NULL)) { ast_log(LOG_ERROR, "Invalid parameters\n"); return OSP_ERROR; } if ((error = OSPPTransactionIsDestOSPEnabled(results->outhandle, &enabled)) != OSPC_ERR_NO_ERROR) { ast_debug(1, "OSP: Unable to get destination OSP version, error '%d'\n", error); *reason = OSPC_FAIL_NORMAL_UNSPECIFIED; return OSP_ERROR; } if (enabled == OSPC_DOSP_FALSE) { results->token[0] = '\0'; } else { ast_base64encode(results->token, (const unsigned char*)token, tokenlen, sizeof(results->token) - 1); } if ((error = OSPPTransactionGetDestinationNetworkId(results->outhandle, sizeof(results->networkid), results->networkid)) != OSPC_ERR_NO_ERROR) { ast_debug(1, "OSP: Unable to get destination network ID, error '%d'\n", error); results->networkid[0] = '\0'; } error = OSPPTransactionGetNumberPortabilityParameters(results->outhandle, sizeof(results->nprn), results->nprn, sizeof(results->npcic), results->npcic, &results->npdi); if (error != OSPC_ERR_NO_ERROR) { ast_debug(1, "OSP: Unable to get number portability parameters, error '%d'\n", error); results->nprn[0] = '\0'; results->npcic[0] = '\0'; results->npdi = 0; } for (type = OSPC_OPNAME_START; type < OSPC_OPNAME_NUMBER; type++) { error = OSPPTransactionGetOperatorName(results->outhandle, type, sizeof(results->opname[type]), results->opname[type]); if (error != OSPC_ERR_NO_ERROR) { ast_debug(1, "OSP: Unable to get operator name of type '%d', error '%d'\n", type, error); results->opname[type][0] = '\0'; } } if ((error = OSPPTransactionGetDestProtocol(results->outhandle, &protocol)) != OSPC_ERR_NO_ERROR) { ast_debug(1, "OSP: Unable to get destination protocol, error '%d'\n", error); *reason = OSPC_FAIL_NORMAL_UNSPECIFIED; results->token[0] = '\0'; results->networkid[0] = '\0'; results->nprn[0] = '\0'; results->npcic[0] = '\0'; results->npdi = 0; for (type = OSPC_OPNAME_START; type < OSPC_OPNAME_NUMBER; type++) { results->opname[type][0] = '\0'; } return OSP_ERROR; } res = OSP_OK; osp_convert_outin(destination, dest, sizeof(dest)); switch(protocol) { case OSPC_DPROT_SIP: ast_debug(1, "OSP: protocol SIP\n"); ast_copy_string(results->tech, OSP_TECH_SIP, sizeof(results->tech)); ast_copy_string(results->dest, dest, sizeof(results->dest)); ast_copy_string(results->calling, calling, sizeof(results->calling)); ast_copy_string(results->called, called, sizeof(results->called)); break; case OSPC_DPROT_Q931: ast_debug(1, "OSP: protocol Q.931\n"); ast_copy_string(results->tech, OSP_TECH_H323, sizeof(results->tech)); ast_copy_string(results->dest, dest, sizeof(results->dest)); ast_copy_string(results->calling, calling, sizeof(results->calling)); ast_copy_string(results->called, called, sizeof(results->called)); break; case OSPC_DPROT_IAX: ast_debug(1, "OSP: protocol IAX\n"); ast_copy_string(results->tech, OSP_TECH_IAX, sizeof(results->tech)); ast_copy_string(results->dest, dest, sizeof(results->dest)); ast_copy_string(results->calling, calling, sizeof(results->calling)); ast_copy_string(results->called, called, sizeof(results->called)); break; case OSPC_DPROT_SKYPE: ast_debug(1, "OSP: protocol Skype\n"); ast_copy_string(results->tech, OSP_TECH_SKYPE, sizeof(results->tech)); ast_copy_string(results->dest, dest, sizeof(results->dest)); ast_copy_string(results->calling, calling, sizeof(results->calling)); ast_copy_string(results->called, called, sizeof(results->called)); break; case OSPC_DPROT_UNDEFINED: case OSPC_DPROT_UNKNOWN: ast_debug(1, "OSP: unknown/undefined protocol '%d'\n", protocol); ast_debug(1, "OSP: use default protocol '%s'\n", provider->defprotocol); ast_copy_string(results->tech, provider->defprotocol, sizeof(results->tech)); ast_copy_string(results->dest, dest, sizeof(results->dest)); ast_copy_string(results->calling, calling, sizeof(results->calling)); ast_copy_string(results->called, called, sizeof(results->called)); break; case OSPC_DPROT_LRQ: case OSPC_DPROT_T37: case OSPC_DPROT_T38: case OSPC_DPROT_SMPP: case OSPC_DPROT_XMPP: default: ast_log(LOG_WARNING, "OSP: unsupported protocol '%d'\n", protocol); *reason = OSPC_FAIL_PROTOCOL_ERROR; results->token[0] = '\0'; results->networkid[0] = '\0'; results->nprn[0] = '\0'; results->npcic[0] = '\0'; results->npdi = 0; for (type = OSPC_OPNAME_START; type < OSPC_OPNAME_NUMBER; type++) { results->opname[type][0] = '\0'; } res = OSP_FAILED; break; } return res; } /*! * \brief Convert Asterisk status to TC code * \param cause Asterisk hangup cause * \return OSP TC code */ static OSPEFAILREASON asterisk2osp( int cause) { return (OSPEFAILREASON)cause; } /*! * \brief OSP Authentication function * \param name OSP provider context name * \param trans OSP transaction handle, output * \param source Source of inbound call * \param calling Calling number * \param called Called number * \param token OSP token, may be empty * \param timelimit Call duration limit, output * \return OSP_OK Authenricated, OSP_FAILED Unauthenticated, OSP_ERROR Error */ static int osp_auth( const char* name, int* trans, const char* source, const char* calling, const char* called, const char* token, unsigned int* timelimit) { int res; struct osp_provider* provider = NULL; char dest[OSP_SIZE_NORSTR]; if ((trans == NULL) || (timelimit == NULL)) { ast_log(LOG_ERROR, "Invalid parameters\n"); return OSP_ERROR; } *trans = OSP_INVALID_HANDLE; *timelimit = OSP_DEF_TIMELIMIT; if ((res = osp_get_provider(name, &provider)) <= 0) { ast_debug(1, "OSP: Unabe to find OSP provider '%s'\n", name); return res; } switch (provider->authpolicy) { case OSP_AUTH_NO: res = OSP_OK; break; case OSP_AUTH_EXC: if (ast_strlen_zero(token)) { res = OSP_FAILED; } else if ((res = osp_create_transaction(name, trans, dest, sizeof(dest))) <= 0) { ast_debug(1, "OSP: Unable to generate transaction handle\n"); *trans = OSP_INVALID_HANDLE; res = OSP_FAILED; } else if((res = osp_validate_token(*trans, source, dest, calling, called, token, timelimit)) <= 0) { OSPPTransactionRecordFailure(*trans, OSPC_FAIL_CALL_REJECTED); } break; case OSP_AUTH_YES: default: if (ast_strlen_zero(token)) { res = OSP_OK; } else if ((res = osp_create_transaction(name, trans, dest, sizeof(dest))) <= 0) { ast_debug(1, "OSP: Unable to generate transaction handle\n"); *trans = OSP_INVALID_HANDLE; res = OSP_FAILED; } else if((res = osp_validate_token(*trans, source, dest, calling, called, token, timelimit)) <= 0) { OSPPTransactionRecordFailure(*trans, OSPC_FAIL_CALL_REJECTED); } break; } return res; } /*! * \brief Create a UUID * \param uuid UUID buffer * \param bufsize UUID buffer size * \return OSK_OK Created, OSP_ERROR Error */ static int osp_create_uuid( unsigned char* uuid, unsigned int* bufsize) { int i, res; long int tmp[OSP_SIZE_UUID / sizeof(long int)]; if ((uuid != NULL) && (*bufsize >= OSP_SIZE_UUID)) { for (i = 0; i < OSP_SIZE_UUID / sizeof(long int); i++) { tmp[i] = ast_random(); } memcpy(uuid, tmp, OSP_SIZE_UUID); *bufsize = OSP_SIZE_UUID; res = OSP_OK; } else { ast_log(LOG_ERROR, "Invalid parameters\n"); res = OSP_ERROR; } return res; } /*! * \brief UUID to string * \param uuid UUID * \param buffer String buffer * \param bufsize String buffer size * \return OSP_OK Successed, OSP_ERROR Error */ static int osp_uuid2str( unsigned char* uuid, char* buffer, unsigned int bufsize) { int res; if ((uuid != NULL) && (bufsize > OSP_SIZE_UUIDSTR)) { snprintf(buffer, bufsize, "%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x", uuid[0], uuid[1], uuid[2], uuid[3], uuid[4], uuid[5], uuid[6], uuid[7], uuid[8], uuid[9], uuid[10], uuid[11], uuid[12], uuid[13], uuid[14], uuid[15]); res = OSP_OK; } else { ast_log(LOG_ERROR, "Invalid parameters\n"); res = OSP_ERROR; } return res; } /*! * \brief Create a call ID according to the type * \param type Call ID type * \param callid Call ID buffer * \return OSK_OK Created, OSP_FAILED Not create, OSP_ERROR Error */ static int osp_create_callid( unsigned int type, struct osp_callid* callid) { int res; if (callid == NULL) { ast_log(LOG_ERROR, "Invalid parameters\n"); res = OSP_ERROR; } callid->len = sizeof(callid->buf); switch (type) { case OSP_CALLID_H323: res = osp_create_uuid(callid->buf, &callid->len); break; case OSP_CALLID_SIP: case OSP_CALLID_IAX: res = OSP_FAILED; default: res = OSP_ERROR; break; } if ((res != OSP_OK) && (callid->len != 0)) { callid->buf[0] = '\0'; callid->len = 0; } return res; } /*! * \brief OSP Lookup function * \param name OSP provider context name * \param callidtypes Call ID types * \param actualsrc Actual source device in indirect mode * \param srcdev Source device of outbound call * \param calling Calling number * \param called Called number * \param snetid Source network ID * \param np NP parameters * \param div SIP Diversion header parameters * \param cinfo Custom info * \param results Lookup results * \return OSP_OK Found , OSP_FAILED No route, OSP_ERROR Error */ static int osp_lookup( const char* name, unsigned int callidtypes, const char* actualsrc, const char* srcdev, const char* calling, const char* called, const char* snetid, struct osp_npdata* np, struct osp_diversion* div, const char* cinfo[], struct osp_results* results) { int res; struct osp_provider* provider = NULL; char source[OSP_SIZE_NORSTR]; char callingnum[OSP_SIZE_NORSTR]; char callednum[OSP_SIZE_NORSTR]; char destination[OSP_SIZE_NORSTR]; char* tmp; unsigned int tokenlen; char token[OSP_SIZE_TOKSTR]; char src[OSP_SIZE_NORSTR]; char dev[OSP_SIZE_NORSTR]; char host[OSP_SIZE_NORSTR]; unsigned int i, type; struct osp_callid callid; unsigned int callidnum; OSPT_CALL_ID* callids[OSP_CALLID_MAXNUM]; char dest[OSP_SIZE_NORSTR]; const char* preferred[2] = { NULL }; unsigned int dummy = 0; OSPEFAILREASON reason; int error; if (results == NULL) { ast_log(LOG_ERROR, "Invalid parameters\n"); res = OSP_ERROR; } osp_convert_inout(results->dest, dest, sizeof(dest)); results->outhandle = OSP_INVALID_HANDLE; results->tech[0] = '\0'; results->calling[0] = '\0'; results->called[0] = '\0'; results->token[0] = '\0'; results->networkid[0] = '\0'; results->nprn[0] = '\0'; results->npcic[0] = '\0'; results->npdi = 0; for (type = OSPC_OPNAME_START; type < OSPC_OPNAME_NUMBER; type++) { results->opname[type][0] = '\0'; } results->numdests = 0; results->outtimelimit = OSP_DEF_TIMELIMIT; if ((res = osp_get_provider(name, &provider)) <= 0) { ast_debug(1, "OSP: Unabe to find OSP provider '%s'\n", name); return res; } if ((res = osp_create_transaction(name, &results->outhandle, source, sizeof(source))) <= 0) { ast_debug(1, "OSP: Unable to generate transaction handle\n"); results->outhandle = OSP_INVALID_HANDLE; if (results->inhandle != OSP_INVALID_HANDLE) { OSPPTransactionRecordFailure(results->inhandle, OSPC_FAIL_NORMAL_UNSPECIFIED); } return OSP_ERROR; } if (!ast_strlen_zero(snetid)) { OSPPTransactionSetNetworkIds(results->outhandle, snetid, ""); } OSPPTransactionSetNumberPortability(results->outhandle, np->rn, np->cic, np->npdi); for (type = OSPC_OPNAME_START; type < OSPC_OPNAME_NUMBER; type++) { OSPPTransactionSetOperatorName(results->outhandle, type, np->opname[type]); } osp_convert_inout(div->host, host, sizeof(host)); OSPPTransactionSetDiversion(results->outhandle, div->user, host); if (cinfo != NULL) { for (i = 0; i < OSP_MAX_CUSTOMINFO; i++) { if (!ast_strlen_zero(cinfo[i])) { OSPPTransactionSetCustomInfo(results->outhandle, i, cinfo[i]); } } } ast_copy_string(callednum, called, sizeof(callednum)); if((tmp = strchr(callednum, ';')) != NULL) { *tmp = '\0'; } callidnum = 0; callids[0] = NULL; for (i = 0; i < OSP_CALLID_MAXNUM; i++) { type = 1 << i; if (callidtypes & type) { error = osp_create_callid(type, &callid); if (error == 1) { callids[callidnum] = OSPPCallIdNew(callid.len, callid.buf); callidnum++; } } } if (provider->workmode == OSP_MODE_INDIRECT) { osp_convert_inout(srcdev, src, sizeof(src)); if (ast_strlen_zero(actualsrc)) { osp_convert_inout(srcdev, dev, sizeof(dev)); } else { osp_convert_inout(actualsrc, dev, sizeof(dev)); } } else { osp_convert_inout(source, src, sizeof(src)); osp_convert_inout(srcdev, dev, sizeof(dev)); } if (provider->srvtype == OSP_SRV_NPQUERY) { OSPPTransactionSetServiceType(results->outhandle, OSPC_SERVICE_NPQUERY); if (!ast_strlen_zero(dest)) { preferred[0] = dest; } results->numdests = 1; } else { OSPPTransactionSetServiceType(results->outhandle, OSPC_SERVICE_VOICE); results->numdests = OSP_DEF_MAXDESTS; } error = OSPPTransactionRequestAuthorisation(results->outhandle, src, dev, calling ? calling : "", OSPC_NFORMAT_E164, callednum, OSPC_NFORMAT_E164, NULL, callidnum, callids, preferred, &results->numdests, &dummy, NULL); for (i = 0; i < callidnum; i++) { OSPPCallIdDelete(&callids[i]); } if (error != OSPC_ERR_NO_ERROR) { ast_log(LOG_WARNING, "OSP: Unable to request authorization, error '%d'\n", error); results->numdests = 0; if (results->inhandle != OSP_INVALID_HANDLE) { OSPPTransactionRecordFailure(results->inhandle, OSPC_FAIL_NORMAL_UNSPECIFIED); } return OSP_ERROR; } if (!results->numdests) { ast_debug(1, "OSP: No more destination\n"); if (results->inhandle != OSP_INVALID_HANDLE) { OSPPTransactionRecordFailure(results->inhandle, OSPC_FAIL_NO_ROUTE_TO_DEST); } return OSP_FAILED; } results->outcallid.len = sizeof(results->outcallid.buf); tokenlen = sizeof(token); error = OSPPTransactionGetFirstDestination(results->outhandle, 0, NULL, NULL, &results->outtimelimit, &results->outcallid.len, results->outcallid.buf, sizeof(callednum), callednum, sizeof(callingnum), callingnum, sizeof(destination), destination, 0, NULL, &tokenlen, token); if (error != OSPC_ERR_NO_ERROR) { ast_debug(1, "OSP: Unable to get first route, error '%d'\n", error); results->numdests = 0; results->outtimelimit = OSP_DEF_TIMELIMIT; if (results->inhandle != OSP_INVALID_HANDLE) { OSPPTransactionRecordFailure(results->inhandle, OSPC_FAIL_NO_ROUTE_TO_DEST); } return OSP_ERROR; } results->numdests--; results->outtimelimit = osp_choose_timelimit(results->intimelimit, results->outtimelimit); ast_debug(1, "OSP: outtimelimit '%d'\n", results->outtimelimit); ast_debug(1, "OSP: calling '%s'\n", callingnum); ast_debug(1, "OSP: called '%s'\n", callednum); ast_debug(1, "OSP: destination '%s'\n", destination); ast_debug(1, "OSP: token size '%d'\n", tokenlen); if ((res = osp_check_destination(provider, callingnum, callednum, destination, tokenlen, token, &reason, results)) > 0) { return OSP_OK; } if (!results->numdests) { ast_debug(1, "OSP: No more destination\n"); results->outtimelimit = OSP_DEF_TIMELIMIT; OSPPTransactionRecordFailure(results->outhandle, reason); if (results->inhandle != OSP_INVALID_HANDLE) { OSPPTransactionRecordFailure(results->inhandle, OSPC_FAIL_NO_ROUTE_TO_DEST); } return OSP_FAILED; } while(results->numdests) { results->outcallid.len = sizeof(results->outcallid.buf); tokenlen = sizeof(token); error = OSPPTransactionGetNextDestination(results->outhandle, reason, 0, NULL, NULL, &results->outtimelimit, &results->outcallid.len, results->outcallid.buf, sizeof(callednum), callednum, sizeof(callingnum), callingnum, sizeof(destination), destination, 0, NULL, &tokenlen, token); if (error == OSPC_ERR_NO_ERROR) { results->numdests--; results->outtimelimit = osp_choose_timelimit(results->intimelimit, results->outtimelimit); ast_debug(1, "OSP: outtimelimit '%d'\n", results->outtimelimit); ast_debug(1, "OSP: calling '%s'\n", callingnum); ast_debug(1, "OSP: called '%s'\n", callednum); ast_debug(1, "OSP: destination '%s'\n", destination); ast_debug(1, "OSP: token size '%d'\n", tokenlen); if ((res = osp_check_destination(provider, callingnum, callednum, destination, tokenlen, token, &reason, results)) > 0) { break; } else if (!results->numdests) { ast_debug(1, "OSP: No more destination\n"); OSPPTransactionRecordFailure(results->outhandle, reason); if (results->inhandle != OSP_INVALID_HANDLE) { OSPPTransactionRecordFailure(results->inhandle, OSPC_FAIL_NO_ROUTE_TO_DEST); } res = OSP_FAILED; break; } } else { ast_debug(1, "OSP: Unable to get route, error '%d'\n", error); results->numdests = 0; results->outtimelimit = OSP_DEF_TIMELIMIT; if (results->inhandle != OSP_INVALID_HANDLE) { OSPPTransactionRecordFailure(results->inhandle, OSPC_FAIL_NORMAL_UNSPECIFIED); } res = OSP_ERROR; break; } } return res; } /*! * \brief OSP Lookup Next function * \param name OSP provider name * \param cause Asterisk hangup cuase * \param results Lookup results, in/output * \return OSP_OK Found , OSP_FAILED No route, OSP_ERROR Error */ static int osp_next( const char* name, int cause, struct osp_results* results) { int res; struct osp_provider* provider = NULL; char calling[OSP_SIZE_NORSTR]; char called[OSP_SIZE_NORSTR]; char dest[OSP_SIZE_NORSTR]; unsigned int tokenlen; char token[OSP_SIZE_TOKSTR]; OSPEFAILREASON reason; OSPE_OPERATOR_NAME type; int error; if (results == NULL) { ast_log(LOG_ERROR, "Invalid parameters\n"); res = OSP_ERROR; } results->tech[0] = '\0'; results->dest[0] = '\0'; results->calling[0] = '\0'; results->called[0] = '\0'; results->token[0] = '\0'; results->networkid[0] = '\0'; results->nprn[0] = '\0'; results->npcic[0] = '\0'; results->npdi = 0; for (type = OSPC_OPNAME_START; type < OSPC_OPNAME_NUMBER; type++) { results->opname[type][0] = '\0'; } results->outtimelimit = OSP_DEF_TIMELIMIT; if ((res = osp_get_provider(name, &provider)) <= 0) { ast_debug(1, "OSP: Unabe to find OSP provider '%s'\n", name); return res; } if (results->outhandle == OSP_INVALID_HANDLE) { ast_debug(1, "OSP: Transaction handle undefined\n"); results->numdests = 0; if (results->inhandle != OSP_INVALID_HANDLE) { OSPPTransactionRecordFailure(results->inhandle, OSPC_FAIL_NORMAL_UNSPECIFIED); } return OSP_ERROR; } reason = asterisk2osp(cause); if (!results->numdests) { ast_debug(1, "OSP: No more destination\n"); OSPPTransactionRecordFailure(results->outhandle, reason); if (results->inhandle != OSP_INVALID_HANDLE) { OSPPTransactionRecordFailure(results->inhandle, OSPC_FAIL_NO_ROUTE_TO_DEST); } return OSP_FAILED; } while(results->numdests) { results->outcallid.len = sizeof(results->outcallid.buf); tokenlen = sizeof(token); error = OSPPTransactionGetNextDestination( results->outhandle, reason, 0, NULL, NULL, &results->outtimelimit, &results->outcallid.len, results->outcallid.buf, sizeof(called), called, sizeof(calling), calling, sizeof(dest), dest, 0, NULL, &tokenlen, token); if (error == OSPC_ERR_NO_ERROR) { results->numdests--; results->outtimelimit = osp_choose_timelimit(results->intimelimit, results->outtimelimit); ast_debug(1, "OSP: outtimelimit '%d'\n", results->outtimelimit); ast_debug(1, "OSP: calling '%s'\n", calling); ast_debug(1, "OSP: called '%s'\n", called); ast_debug(1, "OSP: destination '%s'\n", dest); ast_debug(1, "OSP: token size '%d'\n", tokenlen); if ((res = osp_check_destination(provider, calling, called, dest, tokenlen, token, &reason, results)) > 0) { res = OSP_OK; break; } else if (!results->numdests) { ast_debug(1, "OSP: No more destination\n"); OSPPTransactionRecordFailure(results->outhandle, reason); if (results->inhandle != OSP_INVALID_HANDLE) { OSPPTransactionRecordFailure(results->inhandle, OSPC_FAIL_NO_ROUTE_TO_DEST); } res = OSP_FAILED; break; } } else { ast_debug(1, "OSP: Unable to get route, error '%d'\n", error); results->token[0] = '\0'; results->numdests = 0; results->outtimelimit = OSP_DEF_TIMELIMIT; if (results->inhandle != OSP_INVALID_HANDLE) { OSPPTransactionRecordFailure(results->inhandle, OSPC_FAIL_NORMAL_UNSPECIFIED); } res = OSP_ERROR; break; } } return res; } /*! * \brief Get integer from variable string * \param vstr Variable string * \return OSP_DEF_INTSTATS Error */ static int osp_get_varint( const char* vstr) { char* tmp; int value = OSP_DEF_INTSTATS; if (!ast_strlen_zero(vstr)) { if ((tmp = strchr(vstr, '=')) != NULL) { tmp++; if (sscanf(tmp, "%30d", &value) != 1) { value = OSP_DEF_INTSTATS; } } } return value; } /*! * \brief Get float from variable string * \param vstr Variable string * \return OSP_DEF_FLOATSTATS Error */ static float osp_get_varfloat( const char* vstr) { char* tmp; float value = OSP_DEF_FLOATSTATS; if (!ast_strlen_zero(vstr)) { if ((tmp = strchr(vstr, '=')) != NULL) { tmp++; if (sscanf(tmp, "%30f", &value) != 1) { value = OSP_DEF_FLOATSTATS; } } } return value; } /*! * \brief Report QoS * \param trans OSP in/outbound transaction handle * \param leg Inbound/outbound * \param qos QoS string * \return OSP_OK Success, OSP_FAILED Failed, OSP_ERROR Error */ static int osp_report_qos( int trans, enum osp_callleg leg, const char* qos) { int res = OSP_FAILED; enum osp_direction dir; char buffer[OSP_SIZE_NORSTR]; char* tmp; char* item; int totalpackets[OSP_DIR_NUMBER]; struct osp_metrics lost[OSP_DIR_NUMBER]; struct osp_metrics jitter[OSP_DIR_NUMBER]; struct osp_metrics rtt; int value; if (!ast_strlen_zero(qos)) { for (dir = OSP_DIR_RX; dir < OSP_DIR_NUMBER; dir++) { totalpackets[dir] = OSP_DEF_INTSTATS; } for (dir = OSP_DIR_RX; dir < OSP_DIR_NUMBER; dir++) { lost[dir].value = OSP_DEF_INTSTATS; lost[dir].min = OSP_DEF_FLOATSTATS; lost[dir].max = OSP_DEF_FLOATSTATS; lost[dir].avg = OSP_DEF_FLOATSTATS; lost[dir].sdev = OSP_DEF_FLOATSTATS; } for (dir = OSP_DIR_RX; dir < OSP_DIR_NUMBER; dir++) { jitter[dir].value = OSP_DEF_INTSTATS; jitter[dir].min = OSP_DEF_FLOATSTATS; jitter[dir].max = OSP_DEF_FLOATSTATS; jitter[dir].avg = OSP_DEF_FLOATSTATS; jitter[dir].sdev = OSP_DEF_FLOATSTATS; } rtt.value = OSP_DEF_INTSTATS; rtt.min = OSP_DEF_FLOATSTATS; rtt.max = OSP_DEF_FLOATSTATS; rtt.avg = OSP_DEF_FLOATSTATS; rtt.sdev = OSP_DEF_FLOATSTATS; ast_copy_string(buffer, qos, sizeof(buffer)); for (item = strtok_r(buffer, ";", &tmp); item; item = strtok_r(NULL, ";", &tmp)) { if (!strncasecmp(item, "rxcount", strlen("rxcount"))) { totalpackets[OSP_DIR_RX] = osp_get_varint(item); } else if (!strncasecmp(item, "txcount", strlen("txcount"))) { totalpackets[OSP_DIR_TX] = osp_get_varint(item); } else if (!strncasecmp(item, "lp", strlen("lp"))) { lost[OSP_DIR_RX].value = osp_get_varint(item); } else if (!strncasecmp(item, "minrxlost", strlen("minrxlost"))) { lost[OSP_DIR_RX].min = osp_get_varfloat(item); } else if (!strncasecmp(item, "maxrxlost", strlen("maxrxlost"))) { lost[OSP_DIR_RX].max = osp_get_varfloat(item); } else if (!strncasecmp(item, "avgrxlost", strlen("avgrxlost"))) { lost[OSP_DIR_RX].avg = osp_get_varfloat(item); } else if (!strncasecmp(item, "stdevrxlost", strlen("stdevrxlost"))) { lost[OSP_DIR_RX].sdev = osp_get_varfloat(item); } else if (!strncasecmp(item, "rlp", strlen("rlp"))) { lost[OSP_DIR_TX].value = osp_get_varint(item); } else if (!strncasecmp(item, "reported_minlost", strlen("reported_minlost"))) { lost[OSP_DIR_TX].min = osp_get_varfloat(item); } else if (!strncasecmp(item, "reported_maxlost", strlen("reported_maxlost"))) { lost[OSP_DIR_TX].max = osp_get_varfloat(item); } else if (!strncasecmp(item, "reported_avglost", strlen("reported_avglost"))) { lost[OSP_DIR_TX].avg = osp_get_varfloat(item); } else if (!strncasecmp(item, "reported_stdevlost", strlen("reported_stdevlost"))) { lost[OSP_DIR_TX].sdev = osp_get_varfloat(item); } else if (!strncasecmp(item, "rxjitter", strlen("rxjitter"))) { jitter[OSP_DIR_RX].value = osp_get_varint(item); } else if (!strncasecmp(item, "minrxjitter", strlen("minrxjitter"))) { jitter[OSP_DIR_RX].min = osp_get_varfloat(item); } else if (!strncasecmp(item, "maxrxjitter", strlen("maxrxjitter"))) { jitter[OSP_DIR_RX].max = osp_get_varfloat(item); } else if (!strncasecmp(item, "avgrxjitter", strlen("avgjitter"))) { jitter[OSP_DIR_RX].avg = osp_get_varfloat(item); } else if (!strncasecmp(item, "stdevrxjitter", strlen("stdevjitter"))) { jitter[OSP_DIR_RX].sdev = osp_get_varfloat(item); } else if (!strncasecmp(item, "txjitter", strlen("txjitter"))) { jitter[OSP_DIR_TX].value = osp_get_varint(item); } else if (!strncasecmp(item, "reported_minjitter", strlen("reported_minjitter"))) { jitter[OSP_DIR_TX].min = osp_get_varfloat(item); } else if (!strncasecmp(item, "reported_maxjitter", strlen("reported_maxjitter"))) { jitter[OSP_DIR_TX].max = osp_get_varfloat(item); } else if (!strncasecmp(item, "reported_avgjitter", strlen("reported_avgjitter"))) { jitter[OSP_DIR_TX].avg = osp_get_varfloat(item); } else if (!strncasecmp(item, "reported_stdevjitter", strlen("reported_stdevjitter"))) { jitter[OSP_DIR_TX].sdev = osp_get_varfloat(item); } else if (!strncasecmp(item, "rtt", strlen("rtt"))) { rtt.value = osp_get_varint(item); } else if (!strncasecmp(item, "minrtt", strlen("minrtt"))) { rtt.min = osp_get_varfloat(item); } else if (!strncasecmp(item, "maxrtt", strlen("maxrtt"))) { rtt.max = osp_get_varfloat(item); } else if (!strncasecmp(item, "avgrtt", strlen("avgrtt"))) { rtt.avg = osp_get_varfloat(item); } else if (!strncasecmp(item, "stdevrtt", strlen("stdevrtt"))) { rtt.sdev = osp_get_varfloat(item); } } ast_debug(1, "OSP: call leg '%d'\n", leg); ast_debug(1, "OSP: rxcount '%d'\n", totalpackets[OSP_DIR_RX]); ast_debug(1, "OSP: txcount '%d'\n", totalpackets[OSP_DIR_TX]); ast_debug(1, "OSP: lp '%d'\n",lost[OSP_DIR_RX].value); ast_debug(1, "OSP: minrxlost '%f'\n", lost[OSP_DIR_RX].min); ast_debug(1, "OSP: maxrxlost '%f'\n", lost[OSP_DIR_RX].max); ast_debug(1, "OSP: avgrxlost '%f'\n", lost[OSP_DIR_RX].avg); ast_debug(1, "OSP: stdevrxlost '%f'\n", lost[OSP_DIR_RX].sdev); ast_debug(1, "OSP: rlp '%d'\n", lost[OSP_DIR_TX].value); ast_debug(1, "OSP: reported_minlost '%f'\n", lost[OSP_DIR_TX].min); ast_debug(1, "OSP: reported_maxlost '%f'\n", lost[OSP_DIR_TX].max); ast_debug(1, "OSP: reported_avglost '%f'\n", lost[OSP_DIR_TX].avg); ast_debug(1, "OSP: reported_stdevlost '%f'\n", lost[OSP_DIR_TX].sdev); ast_debug(1, "OSP: rxjitter '%d'\n", jitter[OSP_DIR_RX].value); ast_debug(1, "OSP: minrxjitter '%f'\n", jitter[OSP_DIR_RX].min); ast_debug(1, "OSP: maxrxjitter '%f'\n", jitter[OSP_DIR_RX].max); ast_debug(1, "OSP: avgrxjitter '%f'\n", jitter[OSP_DIR_RX].avg); ast_debug(1, "OSP: stdevrxjitter '%f'\n", jitter[OSP_DIR_RX].sdev); ast_debug(1, "OSP: txjitter '%d'\n", jitter[OSP_DIR_TX].value); ast_debug(1, "OSP: reported_minjitter '%f'\n", jitter[OSP_DIR_TX].min); ast_debug(1, "OSP: reported_maxjitter '%f'\n", jitter[OSP_DIR_TX].max); ast_debug(1, "OSP: reported_avgjitter '%f'\n", jitter[OSP_DIR_TX].avg); ast_debug(1, "OSP: reported_stdevjitter '%f'\n", jitter[OSP_DIR_TX].sdev); ast_debug(1, "OSP: rtt '%d'\n", rtt.value); ast_debug(1, "OSP: minrtt '%f'\n", rtt.min); ast_debug(1, "OSP: maxrtt '%f'\n", rtt.max); ast_debug(1, "OSP: avgrtt '%f'\n", rtt.avg); ast_debug(1, "OSP: stdevrtt '%f'\n", rtt.sdev); if (leg == OSP_CALL_INBOUND) { OSPPTransactionSetPackets(trans, OSPC_SMETRIC_RTP, OSPC_SFLOW_DOWNSTREAM, totalpackets[OSP_DIR_RX]); OSPPTransactionSetPackets(trans, OSPC_SMETRIC_RTCP, OSPC_SFLOW_UPSTREAM, totalpackets[OSP_DIR_TX]); if (lost[OSP_DIR_RX].value >= 0) { value = lost[OSP_DIR_RX].value; } else { value = (int)lost[OSP_DIR_RX].avg; } OSPPTransactionSetLost(trans, OSPC_SMETRIC_RTP, OSPC_SFLOW_DOWNSTREAM, value, OSP_DEF_INTSTATS); if (lost[OSP_DIR_TX].value >= 0) { value = lost[OSP_DIR_TX].value; } else { value = (int)lost[OSP_DIR_TX].avg; } OSPPTransactionSetLost(trans, OSPC_SMETRIC_RTCP, OSPC_SFLOW_UPSTREAM, value, OSP_DEF_INTSTATS); if (jitter[OSP_DIR_RX].value >= 0) { value = jitter[OSP_DIR_RX].value; } else { value = (int)jitter[OSP_DIR_RX].avg; } OSPPTransactionSetJitter(trans, OSPC_SMETRIC_RTP, OSPC_SFLOW_DOWNSTREAM, OSP_DEF_INTSTATS, (int)jitter[OSP_DIR_RX].min, (int)jitter[OSP_DIR_RX].max, value, jitter[OSP_DIR_RX].sdev); if (jitter[OSP_DIR_TX].value >= 0) { value = jitter[OSP_DIR_TX].value; } else { value = (int)jitter[OSP_DIR_TX].avg; } OSPPTransactionSetJitter(trans, OSPC_SMETRIC_RTCP, OSPC_SFLOW_UPSTREAM, OSP_DEF_INTSTATS, (int)jitter[OSP_DIR_TX].min, (int)jitter[OSP_DIR_TX].max, value, jitter[OSP_DIR_TX].sdev); } else { OSPPTransactionSetPackets(trans, OSPC_SMETRIC_RTP, OSPC_SFLOW_UPSTREAM, totalpackets[OSP_DIR_RX]); OSPPTransactionSetPackets(trans, OSPC_SMETRIC_RTCP, OSPC_SFLOW_DOWNSTREAM, totalpackets[OSP_DIR_TX]); OSPPTransactionSetLost(trans, OSPC_SMETRIC_RTP, OSPC_SFLOW_UPSTREAM, lost[OSP_DIR_RX].value, OSP_DEF_INTSTATS); OSPPTransactionSetLost(trans, OSPC_SMETRIC_RTCP, OSPC_SFLOW_DOWNSTREAM, lost[OSP_DIR_TX].value, OSP_DEF_INTSTATS); if (jitter[OSP_DIR_RX].value >= 0) { value = jitter[OSP_DIR_RX].value; } else { value = (int)jitter[OSP_DIR_RX].avg; } OSPPTransactionSetJitter(trans, OSPC_SMETRIC_RTP, OSPC_SFLOW_UPSTREAM, OSP_DEF_INTSTATS, (int)jitter[OSP_DIR_RX].min, (int)jitter[OSP_DIR_RX].max, value, jitter[OSP_DIR_RX].sdev); if (jitter[OSP_DIR_TX].value >= 0) { value = jitter[OSP_DIR_TX].value; } else { value = (int)jitter[OSP_DIR_TX].avg; } OSPPTransactionSetJitter(trans, OSPC_SMETRIC_RTCP, OSPC_SFLOW_DOWNSTREAM, OSP_DEF_INTSTATS, (int)jitter[OSP_DIR_TX].min, (int)jitter[OSP_DIR_TX].max, value, jitter[OSP_DIR_TX].sdev); } if (rtt.value >= 0) { value = rtt.value; } else { value = (int)rtt.avg; } OSPPTransactionSetRoundTripDelay(trans, OSP_DEF_INTSTATS, (int)rtt.min, (int)rtt.max, value, rtt.sdev); res = OSP_OK; } return res; } /*! * \brief OSP Finish function * \param trans OSP in/outbound transaction handle * \param recorded If failure reason has been recorded * \param cause Asterisk hangup cause * \param start Call start time * \param connect Call connect time * \param end Call end time * \param release Who release first, 0 source, 1 destination * \param inqos Inbound QoS string * \param outqos Outbound QoS string * \return OSP_OK Success, OSP_FAILED Failed, OSP_ERROR Error */ static int osp_finish( int trans, int recorded, int cause, time_t start, time_t connect, time_t end, unsigned int release, const char* inqos, const char* outqos) { int res; OSPEFAILREASON reason; time_t alert = 0; unsigned isPddInfoPresent = 0; unsigned pdd = 0; unsigned int dummy = 0; int error; if (trans == OSP_INVALID_HANDLE) { return OSP_FAILED; } if (!recorded) { reason = asterisk2osp(cause); OSPPTransactionRecordFailure(trans, reason); } osp_report_qos(trans, OSP_CALL_INBOUND, inqos); osp_report_qos(trans, OSP_CALL_OUTBOUND, outqos); error = OSPPTransactionReportUsage(trans, difftime(end, connect), start, end, alert, connect, isPddInfoPresent, pdd, release, NULL, OSP_DEF_INTSTATS, OSP_DEF_INTSTATS, OSP_DEF_INTSTATS, OSP_DEF_INTSTATS, &dummy, NULL); if (error == OSPC_ERR_NO_ERROR) { ast_debug(1, "OSP: Usage reported\n"); res = OSP_OK; } else { ast_debug(1, "OSP: Unable to report usage, error '%d'\n", error); res = OSP_ERROR; } OSPPTransactionDelete(trans); return res; } /* OSP Application APIs */ /*! * \brief OSP Application OSPAuth * \param chan Channel * \param data Parameter * \return OSP_AST_OK Success, OSP_AST_ERROR Error */ static int ospauth_exec( struct ast_channel *chan, const char *data) { int res; const char* provider = OSP_DEF_PROVIDER; struct varshead* headp; struct ast_var_t* current; const char* source = ""; const char* token = ""; int handle; unsigned int timelimit; char buffer[OSP_SIZE_INTSTR]; const char* status; char* tmp; AST_DECLARE_APP_ARGS(args, AST_APP_ARG(provider); AST_APP_ARG(options); ); if (!(tmp = ast_strdupa(data))) { ast_log(LOG_ERROR, "Out of memory\n"); return OSP_AST_ERROR; } AST_STANDARD_APP_ARGS(args, tmp); if (!ast_strlen_zero(args.provider)) { provider = args.provider; } ast_debug(1, "OSPAuth: provider '%s'\n", provider); headp = &chan->varshead; AST_LIST_TRAVERSE(headp, current, entries) { if (!strcasecmp(ast_var_name(current), "OSPINPEERIP")) { source = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINTOKEN")) { token = ast_var_value(current); } } ast_debug(1, "OSPAuth: source '%s'\n", source); ast_debug(1, "OSPAuth: token size '%zd'\n", strlen(token)); res = osp_auth(provider, &handle, source, S_COR(chan->caller.id.number.valid, chan->caller.id.number.str, NULL), chan->exten, token, &timelimit); if (res > 0) { status = AST_OSP_SUCCESS; } else { timelimit = OSP_DEF_TIMELIMIT; if (!res) { status = AST_OSP_FAILED; } else { status = AST_OSP_ERROR; } } snprintf(buffer, sizeof(buffer), "%d", handle); pbx_builtin_setvar_helper(chan, "OSPINHANDLE", buffer); ast_debug(1, "OSPAuth: OSPINHANDLE '%s'\n", buffer); snprintf(buffer, sizeof(buffer), "%d", timelimit); pbx_builtin_setvar_helper(chan, "OSPINTIMELIMIT", buffer); ast_debug(1, "OSPAuth: OSPINTIMELIMIT '%s'\n", buffer); pbx_builtin_setvar_helper(chan, "OSPAUTHSTATUS", status); ast_debug(1, "OSPAuth: %s\n", status); if(res != OSP_OK) { res = OSP_AST_ERROR; } else { res = OSP_AST_OK; } return res; } /*! * \brief OSP Application OSPLookup * \param chan Channel * \param data Parameter * \return OSP_AST_OK Success, OSP_AST_ERROR Error */ static int osplookup_exec( struct ast_channel* chan, const char * data) { int res, cres; const char* provider = OSP_DEF_PROVIDER; unsigned int callidtypes = OSP_CALLID_UNDEF; struct varshead* headp; struct ast_var_t* current; const char* actualsrc = ""; const char* srcdev = ""; const char* snetid = ""; struct osp_npdata np; OSPE_OPERATOR_NAME type; struct osp_diversion div; unsigned int i; const char* cinfo[OSP_MAX_CUSTOMINFO] = { NULL }; char buffer[OSP_SIZE_TOKSTR]; struct osp_results results; const char* status; char* tmp; AST_DECLARE_APP_ARGS(args, AST_APP_ARG(exten); AST_APP_ARG(provider); AST_APP_ARG(options); ); if (ast_strlen_zero(data)) { ast_log(LOG_WARNING, "OSPLookup: Arg required, OSPLookup(exten[,provider[,options]])\n"); return OSP_AST_ERROR; } if (!(tmp = ast_strdupa(data))) { ast_log(LOG_ERROR, "Out of memory\n"); return OSP_AST_ERROR; } AST_STANDARD_APP_ARGS(args, tmp); ast_debug(1, "OSPLookup: exten '%s'\n", args.exten); if (!ast_strlen_zero(args.provider)) { provider = args.provider; } ast_debug(1, "OSPlookup: provider '%s'\n", provider); if (args.options) { if (strchr(args.options, 'h')) { callidtypes |= OSP_CALLID_H323; } if (strchr(args.options, 's')) { callidtypes |= OSP_CALLID_SIP; } if (strchr(args.options, 'i')) { callidtypes |= OSP_CALLID_IAX; } } ast_debug(1, "OSPLookup: call id types '%d'\n", callidtypes); results.inhandle = OSP_INVALID_HANDLE; results.intimelimit = OSP_DEF_TIMELIMIT; results.dest[0] = '\0'; np.rn = ""; np.cic = ""; np.npdi = 0; for (type = OSPC_OPNAME_START; type < OSPC_OPNAME_NUMBER; type++) { np.opname[type] = ""; } div.user = ""; div.host = ""; headp = &chan->varshead; AST_LIST_TRAVERSE(headp, current, entries) { if (!strcasecmp(ast_var_name(current), "OSPINACTUALSRC")) { actualsrc = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINPEERIP")) { srcdev = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINHANDLE")) { if (sscanf(ast_var_value(current), "%30d", &results.inhandle) != 1) { results.inhandle = OSP_INVALID_HANDLE; } } else if (!strcasecmp(ast_var_name(current), "OSPINTIMELIMIT")) { if (sscanf(ast_var_value(current), "%30d", &results.intimelimit) != 1) { results.intimelimit = OSP_DEF_TIMELIMIT; } } else if (!strcasecmp(ast_var_name(current), "OSPINNETWORKID")) { snetid = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINNPRN")) { np.rn = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINNPCIC")) { np.cic = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINNPDI")) { if (ast_true(ast_var_value(current))) { np.npdi = 1; } } else if (!strcasecmp(ast_var_name(current), "OSPINSPID")) { np.opname[OSPC_OPNAME_SPID] = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINOCN")) { np.opname[OSPC_OPNAME_OCN] = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINSPN")) { np.opname[OSPC_OPNAME_SPN] = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINALTSPN")) { np.opname[OSPC_OPNAME_ALTSPN] = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINMCC")) { np.opname[OSPC_OPNAME_MCC] = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINMNC")) { np.opname[OSPC_OPNAME_MNC] = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINTOHOST")) { ast_copy_string(results.dest, ast_var_value(current), sizeof(results.dest)); } else if (!strcasecmp(ast_var_name(current), "OSPINDIVUSER")) { div.user = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINDIVHOST")) { div.host = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINCUSTOMINFO1")) { cinfo[0] = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINCUSTOMINFO2")) { cinfo[1] = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINCUSTOMINFO3")) { cinfo[2] = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINCUSTOMINFO4")) { cinfo[3] = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINCUSTOMINFO5")) { cinfo[4] = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINCUSTOMINFO6")) { cinfo[5] = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINCUSTOMINFO7")) { cinfo[6] = ast_var_value(current); } else if (!strcasecmp(ast_var_name(current), "OSPINCUSTOMINFO8")) { cinfo[7] = ast_var_value(current); } } ast_debug(1, "OSPLookup: actual source device '%s'\n", actualsrc); ast_debug(1, "OSPLookup: source device '%s'\n", srcdev); ast_debug(1, "OSPLookup: OSPINHANDLE '%d'\n", results.inhandle); ast_debug(1, "OSPLookup: OSPINTIMELIMIT '%d'\n", results.intimelimit); ast_debug(1, "OSPLookup: OSPINNETWORKID '%s'\n", snetid); ast_debug(1, "OSPLookup: OSPINNPRN '%s'\n", np.rn); ast_debug(1, "OSPLookup: OSPINNPCIC '%s'\n", np.cic); ast_debug(1, "OSPLookup: OSPINNPDI '%d'\n", np.npdi); ast_debug(1, "OSPLookup: OSPINSPID '%s'\n", np.opname[OSPC_OPNAME_SPID]); ast_debug(1, "OSPLookup: OSPINOCN '%s'\n", np.opname[OSPC_OPNAME_OCN]); ast_debug(1, "OSPLookup: OSPINSPN '%s'\n", np.opname[OSPC_OPNAME_SPN]); ast_debug(1, "OSPLookup: OSPINALTSPN '%s'\n", np.opname[OSPC_OPNAME_ALTSPN]); ast_debug(1, "OSPLookup: OSPINMCC '%s'\n", np.opname[OSPC_OPNAME_MCC]); ast_debug(1, "OSPLookup: OSPINMNC '%s'\n", np.opname[OSPC_OPNAME_MNC]); ast_debug(1, "OSPLookup: OSPINTOHOST '%s'\n", results.dest); ast_debug(1, "OSPLookup: OSPINDIVUSER '%s'\n", div.user); ast_debug(1, "OSPLookup: OSPINDIVHOST'%s'\n", div.host); for (i = 0; i < OSP_MAX_CUSTOMINFO; i++) { if (!ast_strlen_zero(cinfo[i])) { ast_debug(1, "OSPLookup: OSPINCUSTOMINFO%d '%s'\n", i, cinfo[i]); } } if ((cres = ast_autoservice_start(chan)) < 0) { return OSP_AST_ERROR; } res = osp_lookup(provider, callidtypes, actualsrc, srcdev, S_COR(chan->caller.id.number.valid, chan->caller.id.number.str, NULL), args.exten, snetid, &np, &div, cinfo, &results); if (res > 0) { status = AST_OSP_SUCCESS; } else { results.tech[0] = '\0'; results.dest[0] = '\0'; results.calling[0] = '\0'; results.called[0] = '\0'; results.token[0] = '\0'; results.networkid[0] = '\0'; results.nprn[0] = '\0'; results.npcic[0] = '\0'; results.npdi = 0; for (type = OSPC_OPNAME_START; type < OSPC_OPNAME_NUMBER; type++) { results.opname[type][0] = '\0'; } results.numdests = 0; results.outtimelimit = OSP_DEF_TIMELIMIT; results.outcallid.buf[0] = '\0'; results.outcallid.len = 0; if (!res) { status = AST_OSP_FAILED; } else { status = AST_OSP_ERROR; } } snprintf(buffer, sizeof(buffer), "%d", results.outhandle); pbx_builtin_setvar_helper(chan, "OSPOUTHANDLE", buffer); ast_debug(1, "OSPLookup: OSPOUTHANDLE '%s'\n", buffer); pbx_builtin_setvar_helper(chan, "OSPOUTTECH", results.tech); ast_debug(1, "OSPLookup: OSPOUTTECH '%s'\n", results.tech); pbx_builtin_setvar_helper(chan, "OSPDESTINATION", results.dest); ast_debug(1, "OSPLookup: OSPDESTINATION '%s'\n", results.dest); pbx_builtin_setvar_helper(chan, "OSPOUTCALLING", results.calling); ast_debug(1, "OSPLookup: OSPOUTCALLING '%s'\n", results.calling); pbx_builtin_setvar_helper(chan, "OSPOUTCALLED", results.called); ast_debug(1, "OSPLookup: OSPOUTCALLED '%s'\n", results.called); pbx_builtin_setvar_helper(chan, "OSPOUTNETWORKID", results.networkid); ast_debug(1, "OSPLookup: OSPOUTNETWORKID '%s'\n", results.networkid); pbx_builtin_setvar_helper(chan, "OSPOUTNPRN", results.nprn); ast_debug(1, "OSPLookup: OSPOUTNPRN '%s'\n", results.nprn); pbx_builtin_setvar_helper(chan, "OSPOUTNPCIC", results.npcic); ast_debug(1, "OSPLookup: OSPOUTNPCIC '%s'\n", results.npcic); snprintf(buffer, sizeof(buffer), "%d", results.npdi); pbx_builtin_setvar_helper(chan, "OSPOUTNPDI", buffer); ast_debug(1, "OSPLookup: OSPOUTNPDI'%s'\n", buffer); pbx_builtin_setvar_helper(chan, "OSPOUTSPID", results.opname[OSPC_OPNAME_SPID]); ast_debug(1, "OSPLookup: OSPOUTSPID '%s'\n", results.opname[OSPC_OPNAME_SPID]); pbx_builtin_setvar_helper(chan, "OSPOUTOCN", results.opname[OSPC_OPNAME_OCN]); ast_debug(1, "OSPLookup: OSPOUTOCN '%s'\n", results.opname[OSPC_OPNAME_OCN]); pbx_builtin_setvar_helper(chan, "OSPOUTSPN", results.opname[OSPC_OPNAME_SPN]); ast_debug(1, "OSPLookup: OSPOUTSPN '%s'\n", results.opname[OSPC_OPNAME_SPN]); pbx_builtin_setvar_helper(chan, "OSPOUTALTSPN", results.opname[OSPC_OPNAME_ALTSPN]); ast_debug(1, "OSPLookup: OSPOUTALTSPN '%s'\n", results.opname[OSPC_OPNAME_ALTSPN]); pbx_builtin_setvar_helper(chan, "OSPOUTMCC", results.opname[OSPC_OPNAME_MCC]); ast_debug(1, "OSPLookup: OSPOUTMCC '%s'\n", results.opname[OSPC_OPNAME_MCC]); pbx_builtin_setvar_helper(chan, "OSPOUTMNC", results.opname[OSPC_OPNAME_MNC]); ast_debug(1, "OSPLookup: OSPOUTMNC '%s'\n", results.opname[OSPC_OPNAME_MNC]); pbx_builtin_setvar_helper(chan, "OSPOUTTOKEN", results.token); ast_debug(1, "OSPLookup: OSPOUTTOKEN size '%zd'\n", strlen(results.token)); snprintf(buffer, sizeof(buffer), "%d", results.numdests); pbx_builtin_setvar_helper(chan, "OSPDESTREMAILS", buffer); ast_debug(1, "OSPLookup: OSPDESTREMAILS '%s'\n", buffer); snprintf(buffer, sizeof(buffer), "%d", results.outtimelimit); pbx_builtin_setvar_helper(chan, "OSPOUTTIMELIMIT", buffer); ast_debug(1, "OSPLookup: OSPOUTTIMELIMIT '%s'\n", buffer); snprintf(buffer, sizeof(buffer), "%d", callidtypes); pbx_builtin_setvar_helper(chan, "OSPOUTCALLIDTYPES", buffer); ast_debug(1, "OSPLookup: OSPOUTCALLIDTYPES '%s'\n", buffer); pbx_builtin_setvar_helper(chan, "OSPLOOKUPSTATUS", status); ast_debug(1, "OSPLookup: %s\n", status); if (!strcasecmp(results.tech, OSP_TECH_SIP)) { snprintf(buffer, sizeof(buffer), "%s/%s@%s", results.tech, results.called, results.dest); pbx_builtin_setvar_helper(chan, "OSPDIALSTR", buffer); if (!ast_strlen_zero(results.token)) { snprintf(buffer, sizeof(buffer), "%s: %s", OSP_SIP_HEADER, results.token); pbx_builtin_setvar_helper(chan, "_SIPADDHEADER", buffer); ast_debug(1, "OSPLookup: SIPADDHEADER size '%zd'\n", strlen(buffer)); } } else if (!strcasecmp(results.tech, OSP_TECH_H323)) { if ((callidtypes & OSP_CALLID_H323) && (results.outcallid.len != 0)) { osp_uuid2str(results.outcallid.buf, buffer, sizeof(buffer)); } else { buffer[0] = '\0'; } pbx_builtin_setvar_helper(chan, "OSPOUTCALLID", buffer); snprintf(buffer, sizeof(buffer), "%s/%s@%s", results.tech, results.called, results.dest); pbx_builtin_setvar_helper(chan, "OSPDIALSTR", buffer); } else if (!strcasecmp(results.tech, OSP_TECH_IAX)) { snprintf(buffer, sizeof(buffer), "%s/%s/%s", results.tech, results.dest, results.called); pbx_builtin_setvar_helper(chan, "OSPDIALSTR", buffer); } else if (!strcasecmp(results.tech, OSP_TECH_SKYPE)) { snprintf(buffer, sizeof(buffer), "%s/%s", results.tech, results.called); pbx_builtin_setvar_helper(chan, "OSPDIALSTR", buffer); } if ((cres = ast_autoservice_stop(chan)) < 0) { return OSP_AST_ERROR; } if(res != OSP_OK) { res = OSP_AST_ERROR; } else { res = OSP_AST_OK; } return res; } /*! * \brief OSP Application OSPNext * \param chan Channel * \param data Parameter * \return OSP_AST_OK Success, OSP_AST_ERROR Error */ static int ospnext_exec( struct ast_channel* chan, const char * data) { int res; const char* provider = OSP_DEF_PROVIDER; int cause = 0; struct varshead* headp; struct ast_var_t* current; struct osp_results results; OSPE_OPERATOR_NAME type; char buffer[OSP_SIZE_TOKSTR]; unsigned int callidtypes = OSP_CALLID_UNDEF; const char* status; char* tmp; AST_DECLARE_APP_ARGS(args, AST_APP_ARG(cause); AST_APP_ARG(provider); AST_APP_ARG(options); ); if (ast_strlen_zero(data)) { ast_log(LOG_WARNING, "OSPNext: Arg required, OSPNext(cause[,provider[,options]])\n"); return OSP_AST_ERROR; } if (!(tmp = ast_strdupa(data))) { ast_log(LOG_ERROR, "Out of memory\n"); return OSP_AST_ERROR; } AST_STANDARD_APP_ARGS(args, tmp); if (!ast_strlen_zero(args.cause) && sscanf(args.cause, "%30d", &cause) != 1) { cause = 0; } ast_debug(1, "OSPNext: cause '%d'\n", cause); if (!ast_strlen_zero(args.provider)) { provider = args.provider; } ast_debug(1, "OSPlookup: provider '%s'\n", provider); results.inhandle = OSP_INVALID_HANDLE; results.outhandle = OSP_INVALID_HANDLE; results.intimelimit = OSP_DEF_TIMELIMIT; results.numdests = 0; headp = &chan->varshead; AST_LIST_TRAVERSE(headp, current, entries) { if (!strcasecmp(ast_var_name(current), "OSPINHANDLE")) { if (sscanf(ast_var_value(current), "%30d", &results.inhandle) != 1) { results.inhandle = OSP_INVALID_HANDLE; } } else if (!strcasecmp(ast_var_name(current), "OSPOUTHANDLE")) { if (sscanf(ast_var_value(current), "%30d", &results.outhandle) != 1) { results.outhandle = OSP_INVALID_HANDLE; } } else if (!strcasecmp(ast_var_name(current), "OSPINTIMELIMIT")) { if (sscanf(ast_var_value(current), "%30d", &results.intimelimit) != 1) { results.intimelimit = OSP_DEF_TIMELIMIT; } } else if (!strcasecmp(ast_var_name(current), "OSPOUTCALLIDTYPES")) { if (sscanf(ast_var_value(current), "%30d", &callidtypes) != 1) { callidtypes = OSP_CALLID_UNDEF; } } else if (!strcasecmp(ast_var_name(current), "OSPDESTREMAILS")) { if (sscanf(ast_var_value(current), "%30d", &results.numdests) != 1) { results.numdests = 0; } } } ast_debug(1, "OSPNext: OSPINHANDLE '%d'\n", results.inhandle); ast_debug(1, "OSPNext: OSPOUTHANDLE '%d'\n", results.outhandle); ast_debug(1, "OSPNext: OSPINTIMELIMIT '%d'\n", results.intimelimit); ast_debug(1, "OSPNext: OSPOUTCALLIDTYPES '%d'\n", callidtypes); ast_debug(1, "OSPNext: OSPDESTREMAILS '%d'\n", results.numdests); if ((res = osp_next(provider, cause, &results)) > 0) { status = AST_OSP_SUCCESS; } else { results.tech[0] = '\0'; results.dest[0] = '\0'; results.calling[0] = '\0'; results.called[0] = '\0'; results.token[0] = '\0'; results.networkid[0] = '\0'; results.nprn[0] = '\0'; results.npcic[0] = '\0'; results.npdi = 0; for (type = OSPC_OPNAME_START; type < OSPC_OPNAME_NUMBER; type++) { results.opname[type][0] = '\0'; } results.numdests = 0; results.outtimelimit = OSP_DEF_TIMELIMIT; results.outcallid.buf[0] = '\0'; results.outcallid.len = 0; if (!res) { status = AST_OSP_FAILED; } else { status = AST_OSP_ERROR; } } pbx_builtin_setvar_helper(chan, "OSPOUTTECH", results.tech); ast_debug(1, "OSPNext: OSPOUTTECH '%s'\n", results.tech); pbx_builtin_setvar_helper(chan, "OSPDESTINATION", results.dest); ast_debug(1, "OSPNext: OSPDESTINATION '%s'\n", results.dest); pbx_builtin_setvar_helper(chan, "OSPOUTCALLING", results.calling); ast_debug(1, "OSPNext: OSPOUTCALLING '%s'\n", results.calling); pbx_builtin_setvar_helper(chan, "OSPOUTCALLED", results.called); ast_debug(1, "OSPNext: OSPOUTCALLED'%s'\n", results.called); pbx_builtin_setvar_helper(chan, "OSPOUTNETWORKID", results.networkid); ast_debug(1, "OSPLookup: OSPOUTNETWORKID '%s'\n", results.networkid); pbx_builtin_setvar_helper(chan, "OSPOUTNPRN", results.nprn); ast_debug(1, "OSPLookup: OSPOUTNPRN '%s'\n", results.nprn); pbx_builtin_setvar_helper(chan, "OSPOUTNPCIC", results.npcic); ast_debug(1, "OSPLookup: OSPOUTNPCIC '%s'\n", results.npcic); snprintf(buffer, sizeof(buffer), "%d", results.npdi); pbx_builtin_setvar_helper(chan, "OSPOUTNPDI", buffer); ast_debug(1, "OSPLookup: OSPOUTNPDI'%s'\n", buffer); pbx_builtin_setvar_helper(chan, "OSPOUTSPID", results.opname[OSPC_OPNAME_SPID]); ast_debug(1, "OSPLookup: OSPOUTSPID '%s'\n", results.opname[OSPC_OPNAME_SPID]); pbx_builtin_setvar_helper(chan, "OSPOUTOCN", results.opname[OSPC_OPNAME_OCN]); ast_debug(1, "OSPLookup: OSPOUTOCN '%s'\n", results.opname[OSPC_OPNAME_OCN]); pbx_builtin_setvar_helper(chan, "OSPOUTSPN", results.opname[OSPC_OPNAME_SPN]); ast_debug(1, "OSPLookup: OSPOUTSPN '%s'\n", results.opname[OSPC_OPNAME_SPN]); pbx_builtin_setvar_helper(chan, "OSPOUTALTSPN", results.opname[OSPC_OPNAME_ALTSPN]); ast_debug(1, "OSPLookup: OSPOUTALTSPN '%s'\n", results.opname[OSPC_OPNAME_ALTSPN]); pbx_builtin_setvar_helper(chan, "OSPOUTMCC", results.opname[OSPC_OPNAME_MCC]); ast_debug(1, "OSPLookup: OSPOUTMCC '%s'\n", results.opname[OSPC_OPNAME_MCC]); pbx_builtin_setvar_helper(chan, "OSPOUTMNC", results.opname[OSPC_OPNAME_MNC]); ast_debug(1, "OSPLookup: OSPOUTMNC '%s'\n", results.opname[OSPC_OPNAME_MNC]); pbx_builtin_setvar_helper(chan, "OSPOUTTOKEN", results.token); ast_debug(1, "OSPNext: OSPOUTTOKEN size '%zd'\n", strlen(results.token)); snprintf(buffer, sizeof(buffer), "%d", results.numdests); pbx_builtin_setvar_helper(chan, "OSPDESTREMAILS", buffer); ast_debug(1, "OSPNext: OSPDESTREMAILS '%s'\n", buffer); snprintf(buffer, sizeof(buffer), "%d", results.outtimelimit); pbx_builtin_setvar_helper(chan, "OSPOUTTIMELIMIT", buffer); ast_debug(1, "OSPNext: OSPOUTTIMELIMIT '%s'\n", buffer); pbx_builtin_setvar_helper(chan, "OSPNEXTSTATUS", status); ast_debug(1, "OSPNext: %s\n", status); if (!strcasecmp(results.tech, OSP_TECH_SIP)) { snprintf(buffer, sizeof(buffer), "%s/%s@%s", results.tech, results.called, results.dest); pbx_builtin_setvar_helper(chan, "OSPDIALSTR", buffer); if (!ast_strlen_zero(results.token)) { snprintf(buffer, sizeof(buffer), "%s: %s", OSP_SIP_HEADER, results.token); pbx_builtin_setvar_helper(chan, "_SIPADDHEADER", buffer); ast_debug(1, "OSPLookup: SIPADDHEADER size '%zd'\n", strlen(buffer)); } } else if (!strcasecmp(results.tech, OSP_TECH_H323)) { if ((callidtypes & OSP_CALLID_H323) && (results.outcallid.len != 0)) { osp_uuid2str(results.outcallid.buf, buffer, sizeof(buffer)); } else { buffer[0] = '\0'; } pbx_builtin_setvar_helper(chan, "OSPOUTCALLID", buffer); snprintf(buffer, sizeof(buffer), "%s/%s@%s", results.tech, results.called, results.dest); pbx_builtin_setvar_helper(chan, "OSPDIALSTR", buffer); } else if (!strcasecmp(results.tech, OSP_TECH_IAX)) { snprintf(buffer, sizeof(buffer), "%s/%s/%s", results.tech, results.dest, results.called); pbx_builtin_setvar_helper(chan, "OSPDIALSTR", buffer); } else if (!strcasecmp(results.tech, OSP_TECH_SKYPE)) { snprintf(buffer, sizeof(buffer), "%s/%s", results.tech, results.called); pbx_builtin_setvar_helper(chan, "OSPDIALSTR", buffer); } if(res != OSP_OK) { res = OSP_AST_ERROR; } else { res = OSP_AST_OK; } return res; } /*! * \brief OSP Application OSPFinish * \param chan Channel * \param data Parameter * \return OSP_AST_OK Success, OSP_AST_ERROR Error */ static int ospfinished_exec( struct ast_channel* chan, const char * data) { int res = OSP_OK; int cause = 0; struct varshead* headp; struct ast_var_t* current; int inhandle = OSP_INVALID_HANDLE; int outhandle = OSP_INVALID_HANDLE; int recorded = 0; time_t start, connect, end; unsigned int release; char buffer[OSP_SIZE_INTSTR]; char inqos[OSP_SIZE_QOSSTR] = { 0 }; char outqos[OSP_SIZE_QOSSTR] = { 0 }; const char* status; char* tmp; AST_DECLARE_APP_ARGS(args, AST_APP_ARG(cause); AST_APP_ARG(options); ); if (!(tmp = ast_strdupa(data))) { ast_log(LOG_ERROR, "Out of memory\n"); return OSP_AST_ERROR; } AST_STANDARD_APP_ARGS(args, tmp); headp = &chan->varshead; AST_LIST_TRAVERSE(headp, current, entries) { if (!strcasecmp(ast_var_name(current), "OSPINHANDLE")) { if (sscanf(ast_var_value(current), "%30d", &inhandle) != 1) { inhandle = OSP_INVALID_HANDLE; } } else if (!strcasecmp(ast_var_name(current), "OSPOUTHANDLE")) { if (sscanf(ast_var_value(current), "%30d", &outhandle) != 1) { outhandle = OSP_INVALID_HANDLE; } } else if (!recorded && (!strcasecmp(ast_var_name(current), "OSPAUTHSTATUS") || !strcasecmp(ast_var_name(current), "OSPLOOKUPSTATUS") || !strcasecmp(ast_var_name(current), "OSPNEXTSTATUS"))) { if (strcasecmp(ast_var_value(current), AST_OSP_SUCCESS)) { recorded = 1; } } else if (!strcasecmp(ast_var_name(current), "OSPINAUDIOQOS")) { ast_copy_string(inqos, ast_var_value(current), sizeof(inqos)); } else if (!strcasecmp(ast_var_name(current), "OSPOUTAUDIOQOS")) { ast_copy_string(outqos, ast_var_value(current), sizeof(outqos)); } } ast_debug(1, "OSPFinish: OSPINHANDLE '%d'\n", inhandle); ast_debug(1, "OSPFinish: OSPOUTHANDLE '%d'\n", outhandle); ast_debug(1, "OSPFinish: recorded '%d'\n", recorded); ast_debug(1, "OSPFinish: OSPINAUDIOQOS '%s'\n", inqos); ast_debug(1, "OSPFinish: OSPOUTAUDIOQOS '%s'\n", outqos); if (!ast_strlen_zero(args.cause) && sscanf(args.cause, "%30d", &cause) != 1) { cause = 0; } ast_debug(1, "OSPFinish: cause '%d'\n", cause); if (chan->cdr) { start = chan->cdr->start.tv_sec; connect = chan->cdr->answer.tv_sec; if (connect) { end = time(NULL); } else { end = connect; } } else { start = 0; connect = 0; end = 0; } ast_debug(1, "OSPFinish: start '%ld'\n", start); ast_debug(1, "OSPFinish: connect '%ld'\n", connect); ast_debug(1, "OSPFinish: end '%ld'\n", end); release = ast_check_hangup(chan) ? 0 : 1; if (osp_finish(outhandle, recorded, cause, start, connect, end, release, inqos, outqos) <= 0) { ast_debug(1, "OSPFinish: Unable to report usage for outbound call\n"); } switch (cause) { case AST_CAUSE_NORMAL_CLEARING: break; default: cause = AST_CAUSE_NO_ROUTE_DESTINATION; break; } if (osp_finish(inhandle, recorded, cause, start, connect, end, release, inqos, outqos) <= 0) { ast_debug(1, "OSPFinish: Unable to report usage for inbound call\n"); } snprintf(buffer, sizeof(buffer), "%d", OSP_INVALID_HANDLE); pbx_builtin_setvar_helper(chan, "OSPOUTHANDLE", buffer); pbx_builtin_setvar_helper(chan, "OSPINHANDLE", buffer); if (res > 0) { status = AST_OSP_SUCCESS; } else if (!res) { status = AST_OSP_FAILED; } else { status = AST_OSP_ERROR; } pbx_builtin_setvar_helper(chan, "OSPFINISHSTATUS", status); if(res != OSP_OK) { res = OSP_AST_ERROR; } else { res = OSP_AST_OK; } return res; } /* OSP Module APIs */ static int osp_unload(void) { struct osp_provider* provider; struct osp_provider* next; if (osp_initialized) { ast_mutex_lock(&osp_lock); for (provider = osp_providers; provider; provider = next) { next = provider->next; OSPPProviderDelete(provider->handle, 0); ast_free(provider); } osp_providers = NULL; ast_mutex_unlock(&osp_lock); OSPPCleanup(); osp_tokenformat = TOKEN_ALGO_SIGNED; osp_security = 0; osp_hardware = 0; osp_initialized = 0; } return 0; } static int osp_load(int reload) { const char* cvar; unsigned int ivar; struct ast_config* cfg; struct ast_flags config_flags = { reload ? CONFIG_FLAG_FILEUNCHANGED : 0 }; int error = OSPC_ERR_NO_ERROR; if ((cfg = ast_config_load(OSP_CONFIG_FILE, config_flags)) == CONFIG_STATUS_FILEUNCHANGED) { return 0; } else if (cfg == CONFIG_STATUS_FILEINVALID) { ast_log(LOG_ERROR, "Config file %s is in an invalid format. Aborting.\n", OSP_CONFIG_FILE); return 0; } if (cfg) { if (reload) { osp_unload(); } if ((cvar = ast_variable_retrieve(cfg, OSP_GENERAL_CAT, "accelerate")) && ast_true(cvar)) { if ((error = OSPPInit(1)) != OSPC_ERR_NO_ERROR) { ast_log(LOG_WARNING, "OSP: Unable to enable hardware accelleration\n"); OSPPInit(0); } else { osp_hardware = 1; } } else { OSPPInit(0); } ast_debug(1, "OSP: osp_hardware '%d'\n", osp_hardware); if ((cvar = ast_variable_retrieve(cfg, OSP_GENERAL_CAT, "securityfeatures")) && ast_true(cvar)) { osp_security = 1; } ast_debug(1, "OSP: osp_security '%d'\n", osp_security); if ((cvar = ast_variable_retrieve(cfg, OSP_GENERAL_CAT, "tokenformat"))) { if ((sscanf(cvar, "%30d", &ivar) == 1) && ((ivar == TOKEN_ALGO_SIGNED) || (ivar == TOKEN_ALGO_UNSIGNED) || (ivar == TOKEN_ALGO_BOTH))) { osp_tokenformat = ivar; } else { ast_log(LOG_WARNING, "tokenformat should be an integer from %d, %d or %d, not '%s'\n", TOKEN_ALGO_SIGNED, TOKEN_ALGO_UNSIGNED, TOKEN_ALGO_BOTH, cvar); } } ast_debug(1, "OSP: osp_tokenformat '%d'\n", osp_tokenformat); for (cvar = ast_category_browse(cfg, NULL); cvar != NULL; cvar = ast_category_browse(cfg, cvar)) { if (strcasecmp(cvar, OSP_GENERAL_CAT)) { osp_create_provider(cfg, cvar); } } osp_initialized = 1; ast_config_destroy(cfg); } else { ast_log(LOG_WARNING, "OSP: Unable to find configuration. OSP support disabled\n"); return 0; } ast_debug(1, "OSP: osp_initialized '%d'\n", osp_initialized); return 1; } static char *handle_cli_osp_show(struct ast_cli_entry *e, int cmd, struct ast_cli_args *a) { int i; int found = 0; struct osp_provider* provider; const char* name = NULL; const char* tokenalgo; switch (cmd) { case CLI_INIT: e->command = "osp show"; e->usage = "Usage: osp show\n" " Displays information on Open Settlement Protocol support\n"; return NULL; case CLI_GENERATE: return NULL; } if ((a->argc < 2) || (a->argc > 3)) { return CLI_SHOWUSAGE; } if (a->argc > 2) { name = a->argv[2]; } if (!name) { switch (osp_tokenformat) { case TOKEN_ALGO_BOTH: tokenalgo = "Both"; break; case TOKEN_ALGO_UNSIGNED: tokenalgo = "Unsigned"; break; case TOKEN_ALGO_SIGNED: default: tokenalgo = "Signed"; break; } ast_cli(a->fd, "OSP: %s/%s/%s/%s\n", osp_initialized ? "Initialized" : "Uninitialized", osp_hardware ? "Accelerated" : "Normal", osp_security ? "Enabled" : "Disabled", tokenalgo); } ast_mutex_lock(&osp_lock); for (provider = osp_providers; provider; provider = provider->next) { if (!name || !strcasecmp(provider->name, name)) { if (found) { ast_cli(a->fd, "\n"); } ast_cli(a->fd, " == OSP Provider '%s' == \n", provider->name); if (osp_security) { ast_cli(a->fd, "Local Private Key: %s\n", provider->privatekey); ast_cli(a->fd, "Local Certificate: %s\n", provider->localcert); for (i = 0; i < provider->canum; i++) { ast_cli(a->fd, "CA Certificate %d: %s\n", i + 1, provider->cacerts[i]); } } for (i = 0; i < provider->spnum; i++) { ast_cli(a->fd, "Service Point %d: %s\n", i + 1, provider->spoints[i]); } ast_cli(a->fd, "Max Connections: %d\n", provider->maxconnect); ast_cli(a->fd, "Retry Delay: %d seconds\n", provider->retrydelay); ast_cli(a->fd, "Retry Limit: %d\n", provider->retrylimit); ast_cli(a->fd, "Timeout: %d milliseconds\n", provider->timeout); ast_cli(a->fd, "Source: %s\n", strlen(provider->source) ? provider->source : ""); ast_cli(a->fd, "Auth Policy %d\n", provider->authpolicy); ast_cli(a->fd, "Default protocol %s\n", provider->defprotocol); ast_cli(a->fd, "Work mode %d\n", provider->workmode); ast_cli(a->fd, "Service type %d\n", provider->srvtype); ast_cli(a->fd, "OSP Handle: %d\n", provider->handle); found++; } } ast_mutex_unlock(&osp_lock); if (!found) { if (name) { ast_cli(a->fd, "Unable to find OSP provider '%s'\n", name); } else { ast_cli(a->fd, "No OSP providers configured\n"); } } return CLI_SUCCESS; } /* OSPAuth() dialplan application */ static const char app1[] = "OSPAuth"; /* OSPLookup() dialplan application */ static const char app2[] = "OSPLookup"; /* OSPNext() dialplan application */ static const char app3[] = "OSPNext"; /* OSPFinish() dialplan application */ static const char app4[] = "OSPFinish"; static struct ast_cli_entry cli_osp[] = { AST_CLI_DEFINE(handle_cli_osp_show, "Displays OSF information") }; static int load_module(void) { int res; if (!osp_load(0)) return AST_MODULE_LOAD_DECLINE; ast_cli_register_multiple(cli_osp, sizeof(cli_osp) / sizeof(struct ast_cli_entry)); res = ast_register_application_xml(app1, ospauth_exec); res |= ast_register_application_xml(app2, osplookup_exec); res |= ast_register_application_xml(app3, ospnext_exec); res |= ast_register_application_xml(app4, ospfinished_exec); return res; } static int unload_module(void) { int res; res = ast_unregister_application(app4); res |= ast_unregister_application(app3); res |= ast_unregister_application(app2); res |= ast_unregister_application(app1); ast_cli_unregister_multiple(cli_osp, sizeof(cli_osp) / sizeof(struct ast_cli_entry)); osp_unload(); return res; } static int reload(void) { osp_load(1); return 0; } AST_MODULE_INFO(ASTERISK_GPL_KEY, AST_MODFLAG_DEFAULT, "Open Settlement Protocol Applications", .load = load_module, .unload = unload_module, .reload = reload, );