asterisk-chan-dongle/manager.c

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C
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2023-05-25 08:30:27 +00:00
/* Required outside the BUILD_MANAGER #ifdef! */
#include "ast_config.h"
#ifdef BUILD_MANAGER /* no manager, no copyright */
/*
Copyright (C) 2009 - 2010
Artem Makhutov <artem@makhutov.org>
http://www.makhutov.org
Dmitry Vagin <dmitry2004@yandex.ru>
bg <bg_one@mail.ru>
*/
#include <asterisk/stringfields.h> /* AST_DECLARE_STRING_FIELDS for asterisk/manager.h */
#include <asterisk/manager.h> /* struct mansession, struct message ... */
#include <asterisk/strings.h> /* ast_strlen_zero() */
#include <asterisk/callerid.h> /* ast_describe_caller_presentation */
#include "ast_compat.h" /* asterisk compatibility fixes */
#include "manager.h"
#include "chan_dongle.h" /* devices */
#include "helpers.h" /* ITEMS_OF() send_ccwa_set() send_reset() send_sms() send_ussd() */
#include "error.h"
static char * espace_newlines(const char * text);
static int manager_show_devices (struct mansession* s, const struct message* m)
{
const char * id = astman_get_header (m, "ActionID");
const char * device = astman_get_header (m, "Device");
struct pvt * pvt;
size_t count = 0;
char buf[40];
astman_send_listack (s, m, "Device status list will follow", "start");
AST_RWLIST_RDLOCK (&gpublic->devices);
AST_RWLIST_TRAVERSE (&gpublic->devices, pvt, entry)
{
ast_mutex_lock (&pvt->lock);
if(ast_strlen_zero(device) || strcmp(device, PVT_ID(pvt)) == 0)
{
astman_append (s, "Event: DongleDeviceEntry\r\n");
if(!ast_strlen_zero (id))
astman_append (s, "ActionID: %s\r\n", id);
astman_append (s, "Device: %s\r\n", PVT_ID(pvt));
/* settings */
astman_append (s, "AudioSetting: %s\r\n", CONF_UNIQ(pvt, audio_tty));
astman_append (s, "DataSetting: %s\r\n", CONF_UNIQ(pvt, data_tty));
astman_append (s, "IMEISetting: %s\r\n", CONF_UNIQ(pvt, imei));
astman_append (s, "IMSISetting: %s\r\n", CONF_UNIQ(pvt, imsi));
astman_append (s, "ChannelLanguage: %s\r\n", CONF_SHARED(pvt, language));
astman_append (s, "Context: %s\r\n", CONF_SHARED(pvt, context));
astman_append (s, "Exten: %s\r\n", CONF_SHARED(pvt, exten));
astman_append (s, "Group: %d\r\n", CONF_SHARED(pvt, group));
astman_append (s, "RXGain: %d\r\n", CONF_SHARED(pvt, rxgain));
astman_append (s, "TXGain: %d\r\n", CONF_SHARED(pvt, txgain));
astman_append (s, "U2DIAG: %d\r\n", CONF_SHARED(pvt, u2diag));
astman_append (s, "UseCallingPres: %s\r\n", CONF_SHARED(pvt, usecallingpres) ? "Yes" : "No");
astman_append (s, "DefaultCallingPres: %s\r\n", CONF_SHARED(pvt, callingpres) < 0 ? "<Not set>" : ast_describe_caller_presentation (CONF_SHARED(pvt, callingpres)));
astman_append (s, "AutoDeleteSMS: %s\r\n", CONF_SHARED(pvt, autodeletesms) ? "Yes" : "No");
astman_append (s, "DisableSMS: %s\r\n", CONF_SHARED(pvt, disablesms) ? "Yes" : "No");
astman_append (s, "ResetDongle: %s\r\n", CONF_SHARED(pvt, resetdongle) ? "Yes" : "No");
astman_append (s, "CallWaitingSetting: %s\r\n", dc_cw_setting2str(CONF_SHARED(pvt, callwaiting)));
astman_append (s, "DTMF: %s\r\n", dc_dtmf_setting2str(CONF_SHARED(pvt, dtmf)));
astman_append (s, "MinimalDTMFGap: %d\r\n", CONF_SHARED(pvt, mindtmfgap));
astman_append (s, "MinimalDTMFDuration: %d\r\n", CONF_SHARED(pvt, mindtmfduration));
astman_append (s, "MinimalDTMFInterval: %d\r\n", CONF_SHARED(pvt, mindtmfinterval));
/* state */
astman_append (s, "State: %s\r\n", pvt_str_state(pvt));
astman_append (s, "AudioState: %s\r\n", PVT_STATE(pvt, audio_tty));
astman_append (s, "DataState: %s\r\n", PVT_STATE(pvt, data_tty));
astman_append (s, "Voice: %s\r\n", (pvt->has_voice) ? "Yes" : "No");
astman_append (s, "SMS: %s\r\n", (pvt->has_sms) ? "Yes" : "No");
astman_append (s, "Manufacturer: %s\r\n", pvt->manufacturer);
astman_append (s, "Model: %s\r\n", pvt->model);
astman_append (s, "Firmware: %s\r\n", pvt->firmware);
astman_append (s, "IMEIState: %s\r\n", pvt->imei);
astman_append (s, "IMSIState: %s\r\n", pvt->imsi);
astman_append (s, "GSMRegistrationStatus: %s\r\n", GSM_regstate2str(pvt->gsm_reg_status));
astman_append (s, "RSSI: %d, %s\r\n", pvt->rssi, rssi2dBm(pvt->rssi, buf, sizeof(buf)));
astman_append (s, "Mode: %s\r\n", sys_mode2str(pvt->linkmode));
astman_append (s, "Submode: %s\r\n", sys_submode2str(pvt->linksubmode));
astman_append (s, "ProviderName: %s\r\n", pvt->provider_name);
astman_append (s, "LocationAreaCode: %s\r\n", pvt->location_area_code);
astman_append (s, "CellID: %s\r\n", pvt->cell_id);
astman_append (s, "SubscriberNumber: %s\r\n", pvt->subscriber_number);
astman_append (s, "SMSServiceCenter: %s\r\n", pvt->sms_scenter);
astman_append (s, "TasksInQueue: %u\r\n", PVT_STATE(pvt, at_tasks));
astman_append (s, "CommandsInQueue: %u\r\n", PVT_STATE(pvt, at_cmds));
astman_append (s, "CallWaitingState: %s\r\n", pvt->has_call_waiting ? "Enabled" : "Disabled");
astman_append (s, "CurrentDeviceState: %s\r\n", dev_state2str(pvt->current_state));
astman_append (s, "DesiredDeviceState: %s\r\n", dev_state2str(pvt->desired_state));
astman_append (s, "CallsChannels: %u\r\n", PVT_STATE(pvt, chansno));
astman_append (s, "Active: %u\r\n", PVT_STATE(pvt, chan_count[CALL_STATE_ACTIVE]));
astman_append (s, "Held: %u\r\n", PVT_STATE(pvt, chan_count[CALL_STATE_ONHOLD]));
astman_append (s, "Dialing: %u\r\n", PVT_STATE(pvt, chan_count[CALL_STATE_DIALING]));
astman_append (s, "Alerting: %u\r\n", PVT_STATE(pvt, chan_count[CALL_STATE_ALERTING]));
astman_append (s, "Incoming: %u\r\n", PVT_STATE(pvt, chan_count[CALL_STATE_INCOMING]));
astman_append (s, "Waiting: %u\r\n", PVT_STATE(pvt, chan_count[CALL_STATE_WAITING]));
astman_append (s, "Releasing: %u\r\n", PVT_STATE(pvt, chan_count[CALL_STATE_RELEASED]));
astman_append (s, "Initializing: %u\r\n", PVT_STATE(pvt, chan_count[CALL_STATE_INIT]));
/* TODO: stats */
astman_append (s, "\r\n");
count++;
}
ast_mutex_unlock (&pvt->lock);
}
AST_RWLIST_UNLOCK (&gpublic->devices);
astman_append (s, "Event: DongleShowDevicesComplete\r\n");
if(!ast_strlen_zero (id))
astman_append (s, "ActionID: %s\r\n", id);
astman_append (s,
"EventList: Complete\r\n"
"ListItems: %zu\r\n"
"\r\n",
count
);
return 0;
}
static int manager_send_ussd (struct mansession* s, const struct message* m)
{
const char* device = astman_get_header (m, "Device");
const char* ussd = astman_get_header (m, "USSD");
char buf[256];
if (ast_strlen_zero (device))
{
astman_send_error (s, m, "Device not specified");
return 0;
}
if (ast_strlen_zero (ussd))
{
astman_send_error (s, m, "USSD not specified");
return 0;
}
int res = send_ussd(device, ussd);
snprintf(buf, sizeof (buf), "[%s] %s", device, res < 0 ? error2str(chan_dongle_err) : "USSD queued for send");
(res == 0 ? astman_send_ack : astman_send_error)(s, m, buf);
return 0;
}
static int manager_send_sms (struct mansession* s, const struct message* m)
{
const char* device = astman_get_header (m, "Device");
const char* number = astman_get_header (m, "Number");
const char* message = astman_get_header (m, "Message"); /* may contain C-escapes */
const char* validity= astman_get_header (m, "Validity");
const char* report = astman_get_header (m, "Report");
const char* payload = astman_get_header (m, "Payload");
char buf[256];
if (ast_strlen_zero (device))
{
astman_send_error (s, m, "Device not specified");
return 0;
}
if (ast_strlen_zero (number))
{
astman_send_error (s, m, "Number not specified");
return 0;
}
if (ast_strlen_zero (message))
{
astman_send_error (s, m, "Message not specified");
return 0;
}
char* unescaped_msg = ast_strdup(message);
if (unescaped_msg == NULL)
{
astman_send_error (s, m, "Internal memory error");
return 0;
}
ast_unescape_c(unescaped_msg);
int res = send_sms(device, number, unescaped_msg, validity, report, payload, strlen(payload) + 1);
ast_free(unescaped_msg);
snprintf(buf, sizeof (buf), "[%s] %s", device, res < 0 ? error2str(chan_dongle_err) : "SMS queued for send");
(res == 0 ? astman_send_ack : astman_send_error)(s, m, buf);
return 0;
}
#/* */
EXPORT_DEF void manager_event_report(const char * devname, const char *payload, size_t payload_len, const char *scts, const char *dt, int success, int type, const char *report_str)
{
manager_event (EVENT_FLAG_CALL, "DongleReport",
"Device: %s\r\n"
"Payload: %.*s\r\n"
"SCTS: %s\r\n"
"DT: %s\r\n"
"Success: %d\r\n"
"Type: %d\r\n"
"Report: %s\r\n",
devname,
(int) payload_len, payload,
scts, dt,
success,
type,
report_str
);
}
/*!
* \brief Send a DongleNewUSSD event to the manager
* This function splits the message in multiple lines, so multi-line
* USSD messages can be send over the manager API.
* \param pvt a pvt structure
* \param message a null terminated buffer containing the message
*/
EXPORT_DEF void manager_event_new_ussd (const char * devname, char* message)
{
struct ast_str* buf;
char* s = message;
char* sl;
size_t linecount = 0;
buf = ast_str_create (256);
while ((sl = strsep (&s, "\r\n")))
{
if (*sl != '\0')
{
ast_str_append (&buf, 0, "MessageLine%zu: %s\r\n", linecount, sl);
linecount++;
}
}
manager_event (EVENT_FLAG_CALL, "DongleNewUSSD",
"Device: %s\r\n"
"LineCount: %zu\r\n"
/* FIXME: empty lines inserted */
// "%s\r\n",
"%s",
devname, linecount, ast_str_buffer (buf)
);
ast_free (buf);
}
#/* */
EXPORT_DEF void manager_event_message(const char * event, const char * devname, const char * message)
{
char * escaped = espace_newlines(message);
if(escaped) {
manager_event_message_raw(event, devname, escaped);
ast_free(escaped);
}
}
#/* */
EXPORT_DEF void manager_event_message_raw(const char * event, const char * devname, const char * message)
{
manager_event (EVENT_FLAG_CALL, event,
"Device: %s\r\n"
"Message: %s\r\n",
devname,
message
);
}
#/* */
static char * espace_newlines(const char * text)
{
char * escaped;
int i, j;
for(j = i = 0; text[i]; ++i, ++j) {
if(text[i] == '\r' || text[i] == '\n')
j++;
}
escaped = ast_malloc(j + 1);
if(escaped) {
for(j = i = 0; text[i]; ++i) {
if(text[i] == '\r') {
escaped[j++] = '\\';
escaped[j++] = 'r';
}
else if(text[i] == '\n') {
escaped[j++] = '\\';
escaped[j++] = 'n';
} else {
escaped[j++] = text[i];
}
}
escaped[j] = 0;
}
return escaped;
}
#/* */
EXPORT_DEF void manager_event_cend(const char * devname, int call_index, int duration, int end_status, int cc_cause)
{
manager_event( EVENT_FLAG_CALL, "DongleCEND",
"Device: %s\r\n"
"CallIdx: %d\r\n"
"Duration: %d\r\n"
"EndStatus: %d\r\n"
"CCCause: %d\r\n",
devname,
call_index,
duration,
end_status,
cc_cause
);
}
#/* */
EXPORT_DEF void manager_event_call_state_change(const char * devname, int call_index, const char * newstate)
{
manager_event(EVENT_FLAG_CALL, "DongleCallStateChange",
"Device: %s\r\n"
"CallIdx: %d\r\n"
"NewState: %s\r\n",
devname,
call_index,
newstate
);
}
#/* */
EXPORT_DEF void manager_event_device_status(const char * devname, const char * newstate)
{
manager_event(EVENT_FLAG_CALL, "DongleStatus",
"Device: %s\r\n"
"Status: %s\r\n",
devname,
newstate
);
}
/*!
* \brief Send a DongleNewSMS event to the manager
* This function splits the message in multiple lines, so multi-line
* SMS messages can be send over the manager API.
* \param pvt a pvt structure
* \param number a null terminated buffer containing the from number
* \param message a null terminated buffer containing the message
*/
// TODO: use espace_newlines() and join with manager_event_new_sms_base64()
EXPORT_DEF void manager_event_new_sms (const char * devname, char* number, char* message)
{
struct ast_str* buf;
size_t linecount = 0;
char* s = message;
char* sl;
buf = ast_str_create (256);
while ((sl = strsep (&s, "\r\n")))
{
if (*sl != '\0')
{
ast_str_append (&buf, 0, "MessageLine%zu: %s\r\n", linecount, sl);
linecount++;
}
}
manager_event (EVENT_FLAG_CALL, "DongleNewSMS",
"Device: %s\r\n"
"From: %s\r\n"
"LineCount: %zu\r\n"
"%s\r\n",
devname, number, linecount, ast_str_buffer (buf)
);
ast_free (buf);
}
/*!
* \brief Send a DongleNewSMSBase64 event to the manager
* \param pvt a pvt structure
* \param number a null terminated buffer containing the from number
* \param message_base64 a null terminated buffer containing the base64 encoded message
*/
EXPORT_DEF void manager_event_new_sms_base64 (const char * devname, char * number, char * message_base64)
{
manager_event (EVENT_FLAG_CALL, "DongleNewSMSBase64",
"Device: %s\r\n"
"From: %s\r\n"
"Message: %s\r\n",
devname, number, message_base64
);
}
static int manager_ccwa_set (struct mansession* s, const struct message* m)
{
const char* device = astman_get_header (m, "Device");
const char* value = astman_get_header (m, "Value");
// const char* id = astman_get_header (m, "ActionID");
char buf[256];
call_waiting_t enable;
if (ast_strlen_zero (device))
{
astman_send_error (s, m, "Device not specified");
return 0;
}
if (strcmp("enable", value) == 0)
enable = CALL_WAITING_ALLOWED;
else if (strcmp("disable", value) == 0)
enable = CALL_WAITING_DISALLOWED;
else
{
astman_send_error (s, m, "Invalid Value");
return 0;
}
int res = send_ccwa_set(device, enable);
snprintf (buf, sizeof (buf), "[%s] %s", device, res < 0 ? error2str(chan_dongle_err) : "Call-Waiting commands queued for execute");
(res == 0 ? astman_send_ack : astman_send_error)(s, m, buf);
// if(!ast_strlen_zero(id))
// astman_append (s, "ActionID: %s\r\n", id);
return 0;
}
static int manager_reset (struct mansession* s, const struct message* m)
{
const char* device = astman_get_header (m, "Device");
// const char* id = astman_get_header (m, "ActionID");
char buf[256];
if (ast_strlen_zero (device))
{
astman_send_error (s, m, "Device not specified");
return 0;
}
int res = send_reset(device);
snprintf (buf, sizeof (buf), "[%s] %s", device, res < 0 ? error2str(chan_dongle_err) : "Reset command queued for execute");
(res == 0 ? astman_send_ack : astman_send_error)(s, m, buf);
// if(!ast_strlen_zero(id))
// astman_append (s, "ActionID: %s\r\n", id);
return 0;
}
static const char * const b_choices[] = { "now", "gracefully", "when convenient" };
#/* */
static int manager_restart_action(struct mansession * s, const struct message * m, dev_state_t event)
{
const char * device = astman_get_header (m, "Device");
const char * when = astman_get_header (m, "When");
// const char * id = astman_get_header (m, "ActionID");
char buf[256];
int res;
unsigned i;
if (ast_strlen_zero (device))
{
astman_send_error (s, m, "Device not specified");
return 0;
}
for(i = 0; i < ITEMS_OF(b_choices); i++)
{
if(event == DEV_STATE_STARTED || strcasecmp(when, b_choices[i]) == 0)
{
res = schedule_restart_event(event, i, device);
snprintf(buf, sizeof (buf), "[%s] %s", device, res < 0 ? error2str(chan_dongle_err) : dev_state2str_msg(event));
(res == 0 ? astman_send_ack : astman_send_error)(s, m, buf);
// if(!ast_strlen_zero(id))
// astman_append (s, "ActionID: %s\r\n", id);
return 0;
}
}
astman_send_error (s, m, "Invalid value of When");
// if(!ast_strlen_zero(id))
// astman_append (s, "ActionID: %s\r\n", id);
return 0;
}
#/* */
static int manager_restart(struct mansession * s, const struct message * m)
{
return manager_restart_action(s, m, DEV_STATE_RESTARTED);
}
#/* */
static int manager_stop(struct mansession * s, const struct message * m)
{
return manager_restart_action(s, m, DEV_STATE_STOPPED);
}
#/* */
static int manager_start(struct mansession * s, const struct message * m)
{
return manager_restart_action(s, m, DEV_STATE_STARTED);
}
#/* */
static int manager_remove(struct mansession * s, const struct message * m)
{
return manager_restart_action(s, m, DEV_STATE_REMOVED);
}
#/* */
static int manager_reload(struct mansession * s, const struct message * m)
{
const char * when = astman_get_header (m, "When");
// const char * id = astman_get_header (m, "ActionID");
unsigned i;
for(i = 0; i < ITEMS_OF(b_choices); i++)
{
if(strcasecmp(when, b_choices[i]) == 0)
{
pvt_reload(i);
astman_send_ack(s, m, "reload scheduled");
// if(!ast_strlen_zero(id))
// astman_append (s, "ActionID: %s\r\n", id);
return 0;
}
}
astman_send_error (s, m, "Invalid value of When");
// if(!ast_strlen_zero(id))
// astman_append (s, "ActionID: %s\r\n", id);
return 0;
}
static const struct dongle_manager
{
int (*func)(struct mansession* s, const struct message* m);
int authority;
const char* name;
const char* brief;
const char* desc;
} dcm[] =
{
{
manager_show_devices,
EVENT_FLAG_SYSTEM | EVENT_FLAG_REPORTING,
"DongleShowDevices",
"List Dongle devices",
"Description: Lists Dongle devices in text format with details on current status.\n\n"
"DongleShowDevicesComplete.\n"
"Variables:\n"
" ActionID: <id> Action ID for this transaction. Will be returned.\n"
" Device: <name> Optional name of device.\n"
},
{
manager_send_ussd,
EVENT_FLAG_CALL,
"DongleSendUSSD",
"Send a ussd command to the dongle.",
"Description: Send a ussd message to a dongle.\n\n"
"Variables: (Names marked with * are required)\n"
" ActionID: <id> Action ID for this transaction. Will be returned.\n"
" *Device: <device> The dongle to which the ussd code will be sent.\n"
" *USSD: <code> The ussd code that will be sent to the device.\n"
},
{
manager_send_sms,
EVENT_FLAG_CALL,
"DongleSendSMS",
"Send a SMS message.",
"Description: Send a SMS message from a dongle.\n\n"
"Variables: (Names marked with * are required)\n"
" ActionID: <id> Action ID for this transaction. Will be returned.\n"
" *Device: <device> The dongle to which the SMS be send.\n"
" *Number: <number> The phone number to which the SMS will be sent.\n"
" *Message: <message> The SMS message that will be sent (standard backslash escape sequences are used, e.g. '\\n' for newline).\n"
" *Validity: <message> Validity period in minutes.\n"
" *Report: <message> Boolean flag for report request.\n"
" *Payload: <message> Unstructured data that will be included in delivery report.\n"
},
{
manager_ccwa_set,
EVENT_FLAG_CONFIG,
"DongleSetCCWA",
"Enable/Disabled Call-Waiting on a dongle.",
"Description: Enable/Disabled Call-Waiting on a dongle.\n\n"
"Variables: (Names marked with * are required)\n"
" ActionID: <id> Action ID for this transaction. Will be returned.\n"
" *Device: <device> The dongle to which the command be send.\n"
" *Value: <enable|disable> Value of Call Waiting\n"
},
{
manager_reset,
EVENT_FLAG_SYSTEM | EVENT_FLAG_CONFIG,
"DongleReset",
"Reset a dongle.",
"Description: Reset a dongle.\n\n"
"Variables: (Names marked with * are required)\n"
" ActionID: <id> Action ID for this transaction. Will be returned.\n"
" *Device: <device> The dongle which should be reset.\n"
},
{
manager_restart,
EVENT_FLAG_SYSTEM | EVENT_FLAG_CONFIG,
"DongleRestart",
"Restart a dongle.",
"Description: Restart a dongle.\n\n"
"Variables: (Names marked with * are required)\n"
" ActionID: <id> Action ID for this transaction. Will be returned.\n"
" *Device: <device> The dongle which should be restart.\n"
" *When: < now | gracefully | when convenient > Time when device restarted.\n"
},
{
manager_stop,
EVENT_FLAG_SYSTEM | EVENT_FLAG_CONFIG,
"DongleStop",
"Stop a dongle.",
"Description: Stop a dongle.\n\n"
"Variables: (Names marked with * are required)\n"
" ActionID: <id> Action ID for this transaction. Will be returned.\n"
" *Device: <device> The dongle which should be stopped.\n"
" *When: < now | gracefully | when convenient > Time when device stopped.\n"
},
{
manager_start,
EVENT_FLAG_SYSTEM | EVENT_FLAG_CONFIG,
"DongleStart",
"Start a dongle.",
"Description: Start a dongle.\n\n"
"Variables: (Names marked with * are required)\n"
" ActionID: <id> Action ID for this transaction. Will be returned.\n"
" *Device: <device> The dongle which should be started.\n"
},
{
manager_remove,
EVENT_FLAG_SYSTEM | EVENT_FLAG_CONFIG,
"DongleRemove",
"Remove a dongle.",
"Description: Remove a dongle.\n\n"
"Variables: (Names marked with * are required)\n"
" ActionID: <id> Action ID for this transaction. Will be returned.\n"
" *Device: <device> The dongle which should be removed.\n"
" *When: < now | gracefully | when convenient > Time when device removed.\n"
},
{
manager_reload,
EVENT_FLAG_SYSTEM | EVENT_FLAG_CONFIG,
"DongleReload",
"Reload a module configuration.",
"Description: Reload the module configuration.\n\n"
"Variables: (Names marked with * are required)\n"
" ActionID: <id> Action ID for this transaction. Will be returned.\n"
" *When: < now | gracefully | when convenient > Time when devices reconfigured.\n"
},
};
EXPORT_DEF void manager_register()
{
unsigned i;
#if ASTERISK_VERSION_NUM >= 130000 /* 13+ */
struct ast_module* module = self_module();
#endif /* ^13+ */
for(i = 0; i < ITEMS_OF(dcm); i++)
{
#if ASTERISK_VERSION_NUM >= 130000 /* 13+ */
ast_manager_register2 (dcm[i].name, dcm[i].authority, dcm[i].func,
module, dcm[i].brief, dcm[i].desc);
#elif ASTERISK_VERSION_NUM >= 110000 /* 11+ */
ast_manager_register2 (dcm[i].name, dcm[i].authority, dcm[i].func, NULL, dcm[i].brief, dcm[i].desc);
#else /* 11- */
ast_manager_register2 (dcm[i].name, dcm[i].authority, dcm[i].func, dcm[i].brief, dcm[i].desc);
#endif /* ^11- */
}
}
EXPORT_DEF void manager_unregister()
{
int i;
for(i = ITEMS_OF(dcm)-1; i >= 0; i--)
{
ast_manager_unregister((char*)dcm[i].name);
}
}
#endif /* BUILD_MANAGER */