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asterisk/channels/chan_dect.c

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/*
* Asterisk DECT Channel driver
*
* Copyright (c) 2009-2011 Patrick McHardy <kaber@trash.net>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*/
#include "asterisk.h"
ASTERISK_FILE_VERSION(__FILE__, "$Revision")
#include <signal.h>
#include <semaphore.h>
#include "asterisk/lock.h"
#include "asterisk/channel.h"
#include "asterisk/config.h"
#include "asterisk/module.h"
#include "asterisk/pbx.h"
#include "asterisk/sched.h"
#include "asterisk/io.h"
#include "asterisk/cli.h"
#include "asterisk/astdb.h"
#include "asterisk/causes.h"
#include "asterisk/callerid.h"
#include "asterisk/abstract_jb.h"
#include <linux/dect.h>
#include <linux/dect_netlink.h>
#include <dect/libdect.h>
#include <dect/terminal.h>
#include <dect/debug.h>
#define CONFIG_FILE "dect.conf"
#define DECT_LOCATE_TIMEOUT_SLACK 10 /* seconds */
static struct ast_channel_tech dect_tech;
static struct dect_handle *dh;
static struct ast_sched_context *sched;
static struct io_context *io;
static int access_rights_timer;
static const struct ast_jb_conf dect_default_jbconf = {
.max_size = -1,
.resync_threshold = -1,
.impl = "",
};
static struct dect_fp_capabilities dect_fpc = {
.hlc = DECT_HLC_ADPCM_G721_VOICE |
DECT_HLC_GAP_PAP_BASIC_SPEECH |
DECT_HLC_CISS_SERVICE |
DECT_HLC_CLMS_SERVICE |
DECT_HLC_LOCATION_REGISTRATION |
DECT_HLC_STANDARD_AUTHENTICATION |
DECT_HLC_STANDARD_CIPHERING,
.ehlc2 = DECT_EHLC2_LIST_ACCESS_FEATURES,
};
struct {
char cluster[DECTNAMSIZ];
struct ast_jb_conf jbconf;
char context[AST_MAX_CONTEXT];
char language[MAX_LANGUAGE];
char regcontext[AST_MAX_CONTEXT];
unsigned int regexten_base;
char pin[sizeof("00000000")];
unsigned int locate_duration;
} dect_cfg;
static AST_LIST_HEAD_STATIC(dect_pt_list, dect_pt);
struct dect_pt {
AST_LIST_ENTRY(dect_pt) list;
char name[64];
char fullname[64];
char ipei[DECT_IPEI_STRING_LEN + 1];
struct dect_ipui ipui;
struct dect_tpui tpui;
AST_DECLARE_STRING_FIELDS( AST_STRING_FIELD(regexten);
AST_STRING_FIELD(context);
AST_STRING_FIELD(language);
AST_STRING_FIELD(cid_num);
AST_STRING_FIELD(cid_name);
AST_STRING_FIELD(ring_pattern);
);
uint8_t uak[DECT_AUTH_KEY_LEN];
uint8_t dck[DECT_CIPHER_KEY_LEN];
struct dect_ie_terminal_capability *terminal_capability;
struct dect_ie_codec_list *codec_list;
int locate_timer;
};
#define dect_pt_log(pt, fmt, args...) \
ast_log(LOG_NOTICE, "PT '%s': " fmt, (pt)->name, ## args)
struct dect_pvt {
struct dect_pt *pt;
struct dect_mm_endpoint *mme;
struct dect_call *call;
struct ast_channel *chan;
int timer_id;
};
struct dect_mm_pvt {
struct dect_pt *pt;
struct dect_mm_endpoint *mme;
struct dect_call *call;
struct dect_ie_collection *iec;
/* authentication */
enum dect_auth_types {
DECT_AUTH_NONE,
DECT_AUTH_PT,
DECT_AUTH_USER,
DECT_AUTH_KEY_ALLOCATION,
} auth_type;
uint64_t rand;
uint64_t rs;
uint8_t uak[DECT_AUTH_KEY_LEN];
void (*auth_cfm)(struct dect_mm_pvt *, bool,
struct dect_ie_collection *);
/* ciphering */
bool ciphered;
void (*cipher_cfm)(struct dect_mm_pvt *, bool,
struct dect_ie_collection *);
/* user authentication */
uint8_t upi[DECT_UPI_LEN];
sem_t userauth_semaphore;
bool userauth_status;
};
#define div_round_up(x, y) (((x) + ((y) - 1)) / (y))
#define dect_ie_update(pos, ie) \
do { \
if (ie == NULL) \
break; \
dect_ie_put(dh, pos); \
pos = dect_ie_hold(ie); \
} while (0)
static void dect_authenticate(struct dect_mm_pvt *pvt, enum dect_auth_types type,
void (*auth_cfm)(struct dect_mm_pvt *, bool,
struct dect_ie_collection *),
struct dect_ie_collection *iec);
static void dect_cipher(struct dect_mm_pvt *pvt,
void (*auth_cfm)(struct dect_mm_pvt *, bool,
struct dect_ie_collection *),
struct dect_ie_collection *iec);
static uint64_t dect_random(void)
{
return (uint64_t)ast_random() << 32 | ast_random();
}
static int dect_release_reason_to_ast(enum dect_release_reasons reason)
{
switch (reason) {
case DECT_RELEASE_NORMAL:
return AST_CAUSE_NORMAL_CLEARING;
case DECT_RELEASE_UNEXPECTED_MESSAGE:
case DECT_RELEASE_UNKNOWN_TRANSACTION_IDENTIFIER:
return AST_CAUSE_INVALID_MSG_UNSPECIFIED;
case DECT_RELEASE_MANDATORY_IE_MISSING:
return AST_CAUSE_MANDATORY_IE_MISSING;
case DECT_RELEASE_INVALID_IE_CONTENTS:
return AST_CAUSE_INVALID_IE_CONTENTS;
case DECT_RELEASE_INCOMPATIBLE_SERVICE:
case DECT_RELEASE_SERVICE_NOT_IMPLEMENTED:
case DECT_RELEASE_NEGOTIATION_NOT_SUPPORTED:
case DECT_RELEASE_INVALID_IDENTITY:
case DECT_RELEASE_AUTHENTICATION_FAILED:
case DECT_RELEASE_UNKNOWN_IDENTITY:
case DECT_RELEASE_NEGOTIATION_FAILED:
case DECT_RELEASE_TIMER_EXPIRY:
case DECT_RELEASE_PARTIAL_RELEASE:
case DECT_RELEASE_UNKNOWN:
return AST_CAUSE_NORMAL;
/* user values */
case DECT_RELEASE_USER_DETACHED:
case DECT_RELEASE_USER_NOT_IN_RANGE:
return AST_CAUSE_SUBSCRIBER_ABSENT;
case DECT_RELEASE_USER_UNKNOWN:
return AST_CAUSE_NO_ROUTE_DESTINATION;
case DECT_RELEASE_USER_ALREADY_ACTIVE:
case DECT_RELEASE_USER_BUSY:
return AST_CAUSE_USER_BUSY;
case DECT_RELEASE_USER_REJECTION:
return AST_CAUSE_CALL_REJECTED;
case DECT_RELEASE_USER_CALL_MODIFY:
/* external handover values */
case DECT_RELEASE_EXTERNAL_HANDOVER_NOT_SUPPORTED:
case DECT_RELEASE_NETWORK_PARAMETERS_MISSING:
case DECT_RELEASE_EXTERNAL_HANDOVER_RELEASE:
return AST_CAUSE_NORMAL;
/* temporary overload values */
case DECT_RELEASE_OVERLOAD:
case DECT_RELEASE_INSUFFICIENT_RESOURCES:
case DECT_RELEASE_INSUFFICIENT_BEARERS_AVAILABLE:
return AST_CAUSE_NORMAL_CIRCUIT_CONGESTION;
case DECT_RELEASE_IWU_CONGESTION:
return AST_CAUSE_SWITCH_CONGESTION;
default:
return AST_CAUSE_NORMAL;
}
}
static enum dect_presentation_indicators dect_ast_presentation_to_dect(int presentation)
{
presentation &= AST_PRES_NUMBER_TYPE;
switch (presentation) {
default:
ast_log(LOG_WARNING, "Unknown presentation coding %x\n", presentation);
/* fall through */
case AST_PRES_ALLOWED:
return DECT_PRESENTATION_ALLOWED;
case AST_PRES_RESTRICTED:
return DECT_PRESENTATION_RESTRICTED;
case AST_PRES_UNAVAILABLE:
return DECT_PRESENTATION_NOT_AVAILABLE;
}
}
static enum dect_screening_indicators dect_ast_screening_to_dect(int screening)
{
screening &= AST_PRES_RESTRICTION;
switch (screening) {
default:
ast_log(LOG_WARNING, "Unknown screening coding %x\n", screening);
/* fall through */
case AST_PRES_USER_NUMBER_UNSCREENED:
return DECT_SCREENING_USER_PROVIDED_NOT_SCREENED;
case AST_PRES_USER_NUMBER_PASSED_SCREEN:
return DECT_SCREENING_USER_PROVIDED_VERIFIED_PASSED;
case AST_PRES_USER_NUMBER_FAILED_SCREEN:
return DECT_SCREENING_USER_PROVIDED_VERIFIED_FAILED;
case AST_PRES_NETWORK_NUMBER:
return DECT_SCREENING_NETWORK_PROVIDED;
}
}
static struct dect_pt *dect_pt_get_by_name(const char *name)
{
struct dect_pt *pt;
AST_LIST_TRAVERSE(&dect_pt_list, pt, list) {
if (!strcasecmp(pt->name, name))
return pt;
}
return NULL;
}
static struct dect_pt *dect_pt_get_by_ipui(const struct dect_ipui *ipui)
{
struct dect_pt *pt;
AST_LIST_TRAVERSE(&dect_pt_list, pt, list) {
if (!dect_ipui_cmp(&pt->ipui, ipui))
return pt;
}
return NULL;
}
static struct dect_pt *dect_init_portable(const char *name)
{
struct dect_pt *pt;
pt = ast_calloc(1, sizeof(*pt));
if (pt == NULL)
return NULL;
if (name != NULL) {
ast_copy_string(pt->name, name, sizeof(pt->name));
snprintf(pt->fullname, sizeof(pt->fullname), "DECT/%s", pt->name);
}
ast_string_field_init(pt, 512);
ast_string_field_set(pt, context, dect_cfg.context);
ast_string_field_set(pt, regexten, "");
ast_string_field_set(pt, language, dect_cfg.language);
ast_string_field_set(pt, cid_num, "");
ast_string_field_set(pt, cid_name, "");
ast_string_field_set(pt, ring_pattern, "0");
pt->locate_timer = -1;
AST_LIST_INSERT_TAIL(&dect_pt_list, pt, list);
return pt;
}
static int dect_alloc_extension(unsigned int *exten)
{
const struct dect_pt *pt;
uint32_t bitmap[1024];
unsigned int pext;
memset(bitmap, 0, sizeof(bitmap));
AST_LIST_TRAVERSE(&dect_pt_list, pt, list) {
pext = strtoul(pt->regexten, NULL, 0);
if (pext < dect_cfg.regexten_base ||
pext >= 8 * sizeof(bitmap))
continue;
pext -= dect_cfg.regexten_base;
bitmap[pext / 32] |= 1 << (pext % 32);
}
for (pext = 0; pext < 8 * sizeof(bitmap); pext++) {
if (!(bitmap[pext / 32] & (1 << (pext % 32)))) {
*exten = dect_cfg.regexten_base + pext;
return 1;
}
}
return 0;
}
static void dect_register_extension(const struct dect_pt *pt, bool onoff)
{
struct pbx_find_info q = { .stacklen = 0 };
char *ext, *extenp, *context;
char exten[256];
if (ast_strlen_zero(dect_cfg.regcontext))
return;
ast_copy_string(exten, S_OR(pt->regexten, pt->name), sizeof(exten));
extenp = exten;
while ((ext = strsep(&extenp, "&")) != NULL) {
context = strchr(ext, '@');
if (context != NULL) {
*context++ = '\0';
if (!ast_context_find(context)) {
ast_log(LOG_WARNING, "Context %s for PT %s does not exist",
context, pt->name);
continue;
}
} else
context = dect_cfg.regcontext;
if (onoff) {
if (!ast_exists_extension(NULL, context, ext, 1, NULL)) {
ast_add_extension(context, 1, ext, 1, NULL, NULL, "Dial",
(char *)pt->fullname, NULL, "DECT");
}
} else if (pbx_find_extension(NULL, NULL, &q, context, ext, 1,
NULL, "", E_MATCH)) {
ast_context_remove_extension(context, ext, 1, NULL);
}
}
}
static void dect_init_tpui(struct dect_tpui *tpui, unsigned int exten)
{
tpui->ia.digits[0] = exten >= 10000 ? exten / 10000 % 10 : 0xb;
tpui->ia.digits[1] = exten >= 1000 ? exten / 1000 % 10 : 0xb;
tpui->ia.digits[2] = exten >= 100 ? exten / 100 % 10 : 0xb;
tpui->ia.digits[3] = exten >= 10 ? exten / 10 % 10 : 0xb;
tpui->ia.digits[4] = exten >= 1 ? exten / 1 % 10 : 0xb;
}
static void dect_pt_set_extension(struct dect_pt *pt, unsigned int exten)
{
ast_string_field_build(pt, cid_num, "%u", exten);
ast_string_field_build(pt, regexten, "%u", exten);
dect_init_tpui(&pt->tpui, exten);
}
static void dect_pt_set_ipui(struct dect_pt *pt, const struct dect_ipui *ipui)
{
pt->ipui = *ipui;
dect_format_ipei_string(&ipui->pun.n.ipei, pt->ipei);
}
/*
* Database functions
*/
static uint64_t dect_parse_num(const char *str)
{
uint64_t num;
if (sscanf(str, "%" PRIx64, &num) != 1)
ast_log(LOG_WARNING, "Could not parse numeric value '%s'\n", str);
return num;
}
static void dect_parse_base64(const char *str, uint8_t *dst, unsigned int size)
{
ast_base64decode(dst, str, size);
}
static void dect_db_remove(const struct dect_pt *pt)
{
ast_db_deltree("dect", pt->ipei);
}
static int dect_db_put(const struct dect_pt *pt, const char *key, const char *value)
{
char ptkey[256];
snprintf(ptkey, sizeof(ptkey), "%s/%s", pt->ipei, key);
return ast_db_put("dect", ptkey, value);
}
static int dect_db_put_numbered(const struct dect_pt *pt, const char *key,
unsigned int index, const char *value)
{
char nkey[256];
snprintf(nkey, sizeof(nkey), key, index);
return dect_db_put(pt, nkey, value);
}
static int dect_db_put_base64(const struct dect_pt *pt, const char *key,
const void *data, unsigned int len)
{
char value[4 * len + 4];
ast_base64encode(value, data, len, sizeof(value));
return dect_db_put(pt, key, value);
}
static int dect_db_put_num(const struct dect_pt *pt, const char *key,
uint64_t num)
{
char value[sizeof("ffffffffffffffff")];
snprintf(value, sizeof(value), "%" PRIx64, num);
return dect_db_put(pt, key, value);
}
static int dect_db_put_numbered_num(const struct dect_pt *pt, const char *key,
unsigned int index, uint64_t num)
{
char value[sizeof("ffffffffffffffff")];
snprintf(value, sizeof(value), "%" PRIx64, num);
return dect_db_put_numbered(pt, key, index, value);
}
static int dect_db_parse_codec_list(struct dect_pt *pt, const char *key,
const char *val)
{
struct dect_ie_codec_list *cl;
unsigned int i;
if (strncmp(key, "codec_list/", strlen("codec_list/")))
return -1;
key += strlen("codec_list/");
cl = pt->codec_list;
if (cl == NULL) {
pt->codec_list = (void *)dect_ie_alloc(dh, sizeof(*cl));
cl = pt->codec_list;
}
if (sscanf(key, "%u/", &i) != 1)
return -1;
key = strchr(key, '/') + 1;
if (!strcmp(key, "codec"))
cl->entry[i].codec = dect_parse_num(val);
else if (!strcmp(key, "service"))
cl->entry[i].service = dect_parse_num(val);
else if (!strcmp(key, "slot"))
cl->entry[i].slot = dect_parse_num(val);
else if (!strcmp(key, "cplane"))
cl->entry[i].cplane = dect_parse_num(val);
else
return -1;
if (i + 1 > cl->num)
cl->num = i + 1;
return 0;
}
static void dect_db_store_codec_list(const struct dect_pt *pt)
{
const struct dect_ie_codec_list *cl = pt->codec_list;
unsigned int i;
for (i = 0; i < cl->num; i++) {
dect_db_put_numbered_num(pt, "codec_list/%u/codec", i, cl->entry[i].codec);
dect_db_put_numbered_num(pt, "codec_list/%u/service", i, cl->entry[i].service);
dect_db_put_numbered_num(pt, "codec_list/%u/slot", i, cl->entry[i].slot);
dect_db_put_numbered_num(pt, "codec_list/%u/cplane", i, cl->entry[i].cplane);
}
}
static int dect_db_parse_termcap(struct dect_pt *pt, const char *key,
const char *val)
{
struct dect_ie_terminal_capability *tc;
if (strncmp(key, "capabilities/", strlen("capabilities/")))
return -1;
key += strlen("capabilities/");
tc = pt->terminal_capability;
if (tc == NULL) {
pt->terminal_capability = (void *)dect_ie_alloc(dh, sizeof(*tc));
tc = pt->terminal_capability;
}
if (!strcmp(key, "tone_capabilities"))
tc->tone = dect_parse_num(val);
else if (!strcmp(key, "echo_parameters"))
tc->echo = dect_parse_num(val);
else if (!strcmp(key, "noise_rejection"))
tc->noise_rejection = dect_parse_num(val);
else if (!strcmp(key, "volume_ctrl"))
tc->volume_ctrl = dect_parse_num(val);
else if (!strcmp(key, "slot_capabilities"))
tc->slot = dect_parse_num(val);
else if (!strcmp(key, "display_capabilities"))
tc->display = dect_parse_num(val);
else if (!strcmp(key, "display_memory"))
tc->display_memory = dect_parse_num(val);
else if (!strcmp(key, "display_lines"))
tc->display_lines = dect_parse_num(val);
else if (!strcmp(key, "display_columns"))
tc->display_columns = dect_parse_num(val);
else if (!strcmp(key, "display_control"))
tc->display_control = dect_parse_num(val);
else if (!strcmp(key, "display_charsets"))
tc->display_charsets = dect_parse_num(val);
else if (!strcmp(key, "scrolling"))
tc->scrolling = dect_parse_num(val);
else if (!strcmp(key, "profile_indicator"))
tc->profile_indicator = dect_parse_num(val);
else
return -1;
return 0;
}
static void dect_db_store_termcap(const struct dect_pt *pt)
{
const struct dect_ie_terminal_capability *tc = pt->terminal_capability;
dect_db_put_num(pt, "capabilities/tone_capabilities", tc->tone);
dect_db_put_num(pt, "capabilities/echo_parameters", tc->echo);
dect_db_put_num(pt, "capabilities/noise_rejection", tc->noise_rejection);
dect_db_put_num(pt, "capabilities/volume_ctrl", tc->volume_ctrl);
dect_db_put_num(pt, "capabilities/slot_capabilities", tc->slot);
dect_db_put_num(pt, "capabilities/display_capabilities", tc->display);
dect_db_put_num(pt, "capabilities/display_memory", tc->display_memory);
dect_db_put_num(pt, "capabilities/display_lines", tc->display_lines);
dect_db_put_num(pt, "capabilities/display_columns", tc->display_columns);
dect_db_put_num(pt, "capabilities/display_control", tc->display_control);
dect_db_put_num(pt, "capabilities/display_charsets", tc->display_charsets);
dect_db_put_num(pt, "capabilities/scrolling", tc->scrolling);
dect_db_put_num(pt, "capabilities/profile_indicator", tc->profile_indicator);
}
static int dect_db_parse_global(struct dect_pt *pt, const char *key,
const char *val)
{
if (!strcmp(key, "name")) {
ast_copy_string(pt->name, val, sizeof(pt->name));
snprintf(pt->fullname, sizeof(pt->fullname), "DECT/%s", pt->name);
} else if (!strcmp(key, "regexten"))
dect_pt_set_extension(pt, strtoul(val, NULL, 0));
else if (!strcmp(key, "context"))
ast_string_field_set(pt, context, val);
else if (!strcmp(key, "language"))
ast_string_field_set(pt, language, val);
else if (!strcmp(key, "cid_num"))
ast_string_field_set(pt, cid_num, val);
else if (!strcmp(key, "cid_name"))
ast_string_field_set(pt, cid_name, val);
else if (!strcmp(key, "ring_pattern"))
ast_string_field_set(pt, ring_pattern, val);
else if (!strcmp(key, "uak"))
dect_parse_base64(val, pt->uak, sizeof(pt->uak));
else
return -1;
return 0;
}
static void dect_db_store_portable(const struct dect_pt *pt)
{
dect_db_put(pt, "name", pt->name);
dect_db_put(pt, "regexten", pt->regexten);
dect_db_put(pt, "context", pt->context);
dect_db_put(pt, "language", pt->language);
dect_db_put(pt, "cid_num", pt->cid_num);
dect_db_put(pt, "cid_name", pt->cid_name);
dect_db_put(pt, "ring_pattern", pt->ring_pattern);
dect_db_put_base64(pt, "uak", pt->uak, sizeof(pt->uak));
}
static int dect_init_call(struct dect_pvt *pvt, enum ast_channel_state state,
const char *exten)
{
struct dect_pt *pt = pvt->pt;
struct ast_channel *chan;
chan = ast_channel_alloc(1, state, pt->cid_num, pt->cid_name, "",
exten, pt->context, 0, 0,
"DECT/%s-%08lx", pt->name, (long)pvt);
if (chan == NULL)
return -1;
chan->tech = &dect_tech;
ast_format_set(&chan->readformat, AST_FORMAT_G726_AAL2, 0);
ast_format_set(&chan->writeformat, AST_FORMAT_G726_AAL2, 0);
ast_format_cap_add(chan->nativeformats, &chan->readformat);
chan->tech_pvt = pvt;
if (exten != NULL)
ast_copy_string(chan->exten, exten, sizeof(chan->exten));
if (!ast_strlen_zero(pt->language))
ast_string_field_set(chan, language, pt->language);
ast_jb_configure(chan, &dect_cfg.jbconf);
ast_module_ref(ast_module_info->self);
pvt->chan = chan;
if (state != AST_STATE_RESERVED && state != AST_STATE_DIALING) {
if (ast_pbx_start(chan)) {
ast_log(LOG_WARNING, "Unable to start PBX\n");
ast_hangup(chan);
}
}
return 0;
}
static int dect_try_to_connect_call(struct dect_pvt *pvt)
{
struct ast_channel *chan = pvt->chan;
struct dect_pt *pt = pvt->pt;
if (!ast_exists_extension(NULL, pt->context, chan->exten, 1, NULL))
return -1;
dect_pt_log(pt, "connecting call\n");
if (ast_pbx_start(chan)) {
ast_log(LOG_WARNING, "Unable to start PBX\n");
ast_hangup(chan);
} else
ast_setstate(chan, AST_STATE_RING);
return 0;
}
static int dect_answer(struct ast_channel *chan)
{
struct dect_pvt *pvt = chan->tech_pvt;
struct dect_pt *pt = pvt->pt;
struct dect_mncc_connect_param connect = {};
dect_pt_log(pt, "answer call state %u\n", chan->_state);
if (chan->_state == AST_STATE_UP || chan->_state == AST_STATE_RINGING)
return 0;
dect_mncc_connect_req(dh, pvt->call, &connect);
ast_setstate(chan, AST_STATE_UP);
return 0;
}
static void dect_call_auth_cfm(struct dect_mm_pvt *mmp, bool success,
struct dect_ie_collection *iec)
{
struct dect_call *call = mmp->call;
struct dect_pvt *pvt = dect_call_priv(call);
struct ast_channel *chan = pvt->chan;
struct dect_ie_basic_service basic_service;
struct dect_ie_calling_party_number calling_party_number;
struct dect_ie_calling_party_name calling_party_name;
struct dect_mncc_setup_param param;
int presentation;
if (!success)
return;
basic_service.class = DECT_CALL_CLASS_NORMAL;
basic_service.service = DECT_SERVICE_BASIC_SPEECH_DEFAULT;
presentation = ast_party_id_presentation(&chan->connected.id);
if (chan->connected.id.number.valid) {
calling_party_number.type = DECT_NUMBER_TYPE_UNKNOWN;
calling_party_number.npi = DECT_NPI_UNKNOWN;
calling_party_number.presentation = dect_ast_presentation_to_dect(presentation);
calling_party_number.screening = dect_ast_screening_to_dect(presentation);
calling_party_number.len = strlen(chan->connected.id.number.str);
memcpy(calling_party_number.address, chan->connected.id.number.str,
calling_party_number.len);
} else
calling_party_number.len = 0;
if (chan->connected.id.name.valid) {
calling_party_name.presentation = dect_ast_presentation_to_dect(presentation);
calling_party_name.screening = dect_ast_screening_to_dect(presentation);
calling_party_name.alphabet = DECT_ALPHABET_STANDARD;
calling_party_name.len = strlen(chan->connected.id.name.str);
memcpy(calling_party_name.name, chan->connected.id.name.str,
calling_party_name.len);
} else
calling_party_name.len = 0;
memset(&param, 0, sizeof(param));
param.basic_service = &basic_service;
if (calling_party_number.len)
param.calling_party_number = &calling_party_number;
if (calling_party_name.len)
param.calling_party_name = &calling_party_name;
dect_mncc_setup_req(dh, pvt->call, &pvt->pt->ipui, &param);
}
static int dect_call(struct ast_channel *chan, char *dest, int timeout)
{
struct dect_pvt *pvt = chan->tech_pvt;
struct dect_mm_pvt *mmp = dect_mm_priv(pvt->mme);
dect_cipher(mmp, dect_call_auth_cfm, NULL);
ast_setstate(chan, AST_STATE_DIALING);
chan->hangupcause = AST_CAUSE_NORMAL_CLEARING;
return 0;
}
static struct ast_channel *dect_request_call(const char *type, struct ast_format_cap *cap,
const struct ast_channel *requestor,
void *data, int *cause)
{
struct dect_call *call;
struct dect_pvt *pvt;
struct dect_mm_endpoint *mme;
struct dect_mm_pvt *mmp;
struct dect_pt *pt;
const char *name = data;
pt = dect_pt_get_by_name(name);
if (pt == NULL) {
ast_log(LOG_NOTICE, "Call to unknown PT '%s' requested\n", name);
*cause = AST_CAUSE_UNALLOCATED;
return NULL;
}
dect_pt_log(pt, "outgoing call\n");
call = dect_call_alloc(dh);
if (call == NULL) {
*cause = AST_CAUSE_SWITCH_CONGESTION;
return NULL;
}
mme = dect_mm_endpoint_get(dh, &pt->ipui);
if (mme == NULL) {
*cause = AST_CAUSE_SWITCH_CONGESTION;
return NULL;
}
mmp = dect_mm_priv(mme);
mmp->pt = pt;
mmp->mme = mme;
mmp->call = call;
pvt = dect_call_priv(call);
pvt->pt = pt;
pvt->mme = mme;
pvt->call = call;
if (dect_init_call(pvt, AST_STATE_RESERVED, NULL) < 0) {
*cause = AST_CAUSE_SWITCH_CONGESTION;
return NULL;
}
return pvt->chan;
}
static int dect_hangup(struct ast_channel *chan)
{
struct dect_pvt *pvt = chan->tech_pvt;
struct dect_ie_release_reason release_reason;
struct dect_mncc_release_param param;
if (chan->_state != AST_STATE_DOWN) {
dect_pt_log(pvt->pt, "hangup\n");
dect_ie_init(&release_reason);
release_reason.reason = DECT_RELEASE_NORMAL;
memset(&param, 0, sizeof(param));
param.release_reason = &release_reason;
dect_mncc_release_req(dh, pvt->call, &param);
}
chan->tech_pvt = NULL;
ast_setstate(chan, AST_STATE_DOWN);
ast_module_unref(ast_module_info->self);
return 0;
}
static int dect_indicate(struct ast_channel *chan, int condition,
const void *data, size_t datalen)
{
struct dect_pvt *pvt = chan->tech_pvt;
struct dect_pt *pt = pvt->pt;
struct dect_mncc_alert_param alert;
struct dect_ie_progress_indicator progress;
struct dect_ie_signal signal;
int res = 0;
switch (condition) {
case AST_CONTROL_RINGING:
dect_pt_log(pt, "call is ringing\n");
memset(&alert, 0, sizeof(alert));
if (0) {
alert.signal = dect_signal_init(&signal, DECT_SIGNAL_RING_BACK_TONE_ON);
} else {
dect_ie_init(&progress);
progress.location = DECT_LOCATION_PRIVATE_NETWORK_SERVING_LOCAL_USER;
progress.progress = DECT_PROGRESS_INBAND_INFORMATION_NOW_AVAILABLE;
dect_ie_list_add(&progress, &alert.progress_indicator);
}
dect_mncc_alert_req(dh, pvt->call, &alert);
ast_setstate(chan, AST_STATE_RINGING);
res = -1;
break;
case AST_CONTROL_BUSY:
case AST_CONTROL_CONGESTION:
case AST_CONTROL_PROCEEDING:
case AST_CONTROL_PROGRESS:
case AST_CONTROL_HOLD:
case AST_CONTROL_UNHOLD:
case AST_CONTROL_VIDUPDATE:
case AST_CONTROL_T38_PARAMETERS:
case AST_CONTROL_SRCUPDATE:
case -1:
res = -1;
dect_pt_log(pt, "indicate condition %d\n", condition);
break;
default:
dect_pt_log(pt, "indicate unknown condition %d\n", condition);
res = -1;
break;
}
return res;
}
static int dect_write(struct ast_channel *chan, struct ast_frame *f)
{
struct dect_pvt *pvt = chan->tech_pvt;
struct dect_msg_buf mb;
mb.data = f->data.ptr;
mb.len = f->datalen;
dect_dl_u_data_req(dh, pvt->call, &mb);
return 0;
}
static struct ast_frame *dect_read(struct ast_channel *chan)
{
ast_log(LOG_NOTICE, "audio underrun?\n");
return &ast_null_frame;
}
static int dect_fixup(struct ast_channel *old, struct ast_channel *new)
{
ast_log(LOG_NOTICE, "fixup\n");
return 0;
}
static int dect_send_text(struct ast_channel *chan, const char *text)
{
struct dect_pvt *pvt = chan->tech_pvt;
struct dect_ie_display display;
struct dect_mncc_info_param info = { .display = &display };
dect_display_init(&display);
dect_display_append_char(&display, DECT_C_CLEAR_DISPLAY);
dect_display_append(&display, text, strlen(text));
dect_mncc_info_req(dh, pvt->call, &info);
return 0;
}
static struct ast_channel_tech dect_tech = {
.type = "DECT",
.description = "Digital Enhanced Cordless Telecommunications (DECT)",
.answer = dect_answer,
.requester = dect_request_call,
.call = dect_call,
.hangup = dect_hangup,
.indicate = dect_indicate,
.write = dect_write,
.read = dect_read,
.fixup = dect_fixup,
.send_text = dect_send_text,
};
static void dect_mncc_reject(struct dect_call *call, enum dect_release_reasons reason)
{
struct dect_ie_release_reason release_reason = { .reason = reason };
struct dect_mncc_release_param release = { .release_reason = &release_reason };
dect_mncc_reject_req(dh, call, &release);
}
static const struct {
const char *name;
unsigned int priority;
} dect_codecs[] = {
[DECT_CODEC_USER_SPECIFIC_32KBIT] = { "user specific 32kbit", 0 },
[DECT_CODEC_G726_32KBIT] = { "G.726", 1 },
[DECT_CODEC_G722_64KBIT] = { "G.722", 2 },
[DECT_CODEC_G711_ALAW_64KBIT] = { "G.711 alaw", 0 },
[DECT_CODEC_G711_ULAW_64KBIT] = { "G.711 ulaw", 0 },
[DECT_CODEC_G729_1_32KBIT] = { "G.729.1", 0 },
[DECT_CODEC_MPEG4_ER_AAC_LD_32KBIT] = { "MPEG-4 ER AAC-LD 32kbit", 0 },
[DECT_CODEC_MPEG4_ER_AAC_LD_64KBIT] = { "MPEG-4 ER AAC-LD 64kbit", 0 },
[DECT_CODEC_USER_SPECIFIC_64KBIT] = { "user specific 64kbit", 0 },
};
static char *dect_codecs_merge(char *buf, size_t size, const struct dect_pt *pt)
{
struct dect_ie_codec_list *codec_list = pt->codec_list;
const char *sep = "";
unsigned int i;
buf[0] = '\0';
if (codec_list == NULL) {
strcat(buf, dect_codecs[DECT_CODEC_G726_32KBIT].name);
return buf;
}
for (i = 0; i < codec_list->num; i++) {
strcat(buf, sep);
strcat(buf, dect_codecs[codec_list->entry[i].codec].name);
sep = ", ";
}
return buf;
}
static struct dect_ie_codec_list *dect_select_codec(const struct dect_pt *pt,
struct dect_ie_codec_list *codec_list)
{
unsigned int i, prio, best = 0, n = 0;
if (pt->codec_list == NULL)
return NULL;
for (i = 0; i < pt->codec_list->num; i++) {
prio = dect_codecs[pt->codec_list->entry[i].codec].priority;
if (prio > best) {
best = prio;
n = i;
}
}
codec_list->negotiation = DECT_NEGOTIATION_CODEC;
codec_list->num = 1;
codec_list->entry[0] = pt->codec_list->entry[n];
return codec_list;
}
static void dect_mncc_setup_auth_cfm(struct dect_mm_pvt *mmp, bool success,
struct dect_ie_collection *iec)
{
struct dect_mncc_setup_param *param = (void *)iec;
struct dect_mncc_setup_ack_param setup_ack;
struct dect_mncc_call_proc_param call_proc;
struct dect_ie_delimiter_request delimiter_request;
struct dect_ie_codec_list codec_list;
struct dect_ie_signal signal;
struct dect_pt *pt = mmp->pt;
struct dect_call *call = mmp->call;
struct dect_pvt *pvt = dect_call_priv(call);
enum ast_channel_state state;
const char *exten;
if (!success)
return dect_mncc_reject(call, DECT_RELEASE_AUTHENTICATION_FAILED);
/* If the phone supplies the entire number en-bloc, enter call
* proceeding state. A number is considered complete when contained
* in a called party number IE, or a multi-keypad IE and the extension
* exists. When no number is supplied and an 's' extension exists in
* the context, the call is also moved to call proceeding state and
* further decisions are left to the PBX.
*
* Otherwise enter overlap sending and wait for further information.
*/
state = AST_STATE_RING;
exten = NULL;
if (param->called_party_number != NULL)
; //ast_copy_string(exten, param->called_party_number.info, sizeof(exten));
else if (param->keypad != NULL && param->keypad->info[0] < 0x80)
exten = (char *)param->keypad->info;
else {
exten = "s";
if (!ast_exists_extension(NULL, pt->context, exten, 1, NULL)) {
state = AST_STATE_DIALING;
exten = "";
}
}
if (state == AST_STATE_RING) {
memset(&call_proc, 0, sizeof(call_proc));
call_proc.codec_list = dect_select_codec(pt, &codec_list);
dect_mncc_call_proc_req(dh, call, &call_proc);
} else {
dect_ie_init(&delimiter_request);
dect_signal_init(&signal, DECT_SIGNAL_DIAL_TONE_ON);
memset(&setup_ack, 0, sizeof(setup_ack));
setup_ack.delimiter_request = &delimiter_request;
setup_ack.signal = &signal;
dect_mncc_setup_ack_req(dh, call, &setup_ack);
}
dect_init_call(pvt, state, exten);
/* WTF? Asterisk eats (actually leaks) the first queued frame when
* answering a channel. Give it something to eat :| */
if (state == AST_STATE_DIALING)
ast_queue_control(pvt->chan, -1);
}
static void dect_mncc_setup_ind(struct dect_handle *dh, struct dect_call *call,
struct dect_mncc_setup_param *param)
{
struct dect_pvt *pvt = dect_call_priv(call);
struct dect_mm_endpoint *mme;
struct dect_mm_pvt *mmp;
struct dect_pt *pt;
pt = dect_pt_get_by_ipui(dect_call_portable_identity(call));
if (pt == NULL) {
ast_log(LOG_NOTICE, "Incoming call from unknown PT\n");
return dect_mncc_reject(call, DECT_RELEASE_UNKNOWN_IDENTITY);
}
dect_pt_log(pt, "incoming call\n");
mme = dect_mm_endpoint_get(dh, &pt->ipui);
if (mme == NULL)
return dect_mncc_reject(call, DECT_RELEASE_INSUFFICIENT_RESOURCES);
mmp = dect_mm_priv(mme);
mmp->pt = pt;
mmp->mme = mme;
mmp->call = call;
pvt->pt = pt;
pvt->call = call;
dect_cipher(mmp, dect_mncc_setup_auth_cfm, &param->common);
}
static void dect_mncc_setup_ack_ind(struct dect_handle *dh, struct dect_call *call,
struct dect_mncc_setup_ack_param *param)
{
}
static void dect_mncc_reject_ind(struct dect_handle *dh, struct dect_call *call,
enum dect_causes cause,
struct dect_mncc_release_param *param)
{
struct dect_pvt *pvt = dect_call_priv(call);
int ast_cause;
ast_setstate(pvt->chan, AST_STATE_DOWN);
if (cause == DECT_CAUSE_PEER_MESSAGE &&
param->release_reason != NULL)
ast_cause = dect_release_reason_to_ast(param->release_reason->reason);
else
ast_cause = AST_CAUSE_FAILURE;
pvt->chan->hangupcause = ast_cause;
ast_queue_hangup(pvt->chan);
}
static void dect_mncc_alert_ind(struct dect_handle *dh, struct dect_call *call,
struct dect_mncc_alert_param *param)
{
struct dect_pvt *pvt = dect_call_priv(call);
struct dect_ie_signal signal;
struct dect_mncc_info_param info = { .signal = &signal, };
char pattern[16];
const char *c;
ast_copy_string(pattern, pvt->pt->ring_pattern, sizeof(pattern));
c = pbx_builtin_getvar_helper(pvt->chan, "RING_PATTERN");
if (c != NULL)
ast_copy_string(pattern, c, sizeof(pattern));
if (strcasecmp(pattern, "silent")) {
dect_ie_init(&signal);
signal.code = DECT_SIGNAL_ALERTING_BASE | (atoi(pattern) & 0xf);
dect_mncc_info_req(dh, call, &info);
}
ast_queue_control(pvt->chan, AST_CONTROL_RINGING);
ast_setstate(pvt->chan, AST_STATE_RINGING);
}
static void dect_mncc_connect_ind(struct dect_handle *dh, struct dect_call *call,
struct dect_mncc_connect_param *param)
{
struct dect_pvt *pvt = dect_call_priv(call);
ast_queue_control(pvt->chan, AST_CONTROL_ANSWER);
dect_mncc_connect_res(dh, call, param);
}
static void dect_mncc_release_ind(struct dect_handle *dh, struct dect_call *call,
struct dect_mncc_release_param *param)
{
struct dect_pvt *pvt = dect_call_priv(call);
ast_setstate(pvt->chan, AST_STATE_DOWN);
pvt->chan->hangupcause =
dect_release_reason_to_ast(param->release_reason->reason);
ast_queue_hangup(pvt->chan);
dect_mncc_release_res(dh, call, param);
}
static void dect_mncc_release_cfm(struct dect_handle *dh, struct dect_call *call,
enum dect_causes cause,
struct dect_mncc_release_param *param)
{
}
static void dect_dl_u_data_ind(struct dect_handle *dh, struct dect_call *call,
struct dect_msg_buf *mb)
{
struct dect_pvt *pvt = dect_call_priv(call);
struct ast_frame f;
if (pvt->chan->_state == AST_STATE_DOWN)
return;
memset(&f, 0, sizeof(f));
f.frametype = AST_FRAME_VOICE;
f.subclass.integer = AST_FORMAT_G726_AAL2;
f.samples = mb->len * 2;
f.datalen = mb->len;
f.data.ptr = mb->data;
f.offset = AST_FRIENDLY_OFFSET;
ast_queue_frame(pvt->chan, &f);
}
static void dect_keypad_info(struct dect_pvt *pvt,
const struct dect_ie_keypad *keypad)
{
struct ast_frame f = { .frametype = AST_FRAME_DTMF, };
struct ast_channel *chan = pvt->chan;
unsigned int i;
if (chan->_state == AST_STATE_DIALING) {
strncat(chan->exten, (char *)keypad->info, keypad->len);
dect_try_to_connect_call(pvt);
} else {
for (i = 0; i < keypad->len; i++) {
ast_verbose("keypad: '%c' (%x)\n", keypad->info[i], keypad->info[i]);
f.subclass.integer = keypad->info[i];
ast_queue_frame(chan, &f);
}
}
}
static void dect_mncc_info_ind(struct dect_handle *dh, struct dect_call *call,
struct dect_mncc_info_param *param)
{
struct dect_pvt *pvt = dect_call_priv(call);
if (param->keypad != NULL)
dect_keypad_info(pvt, param->keypad);
}
static const struct dect_cc_ops dect_cc_ops = {
.priv_size = sizeof(struct dect_pvt),
.mncc_setup_ind = dect_mncc_setup_ind,
.mncc_setup_ack_ind = dect_mncc_setup_ack_ind,
.mncc_reject_ind = dect_mncc_reject_ind,
.mncc_alert_ind = dect_mncc_alert_ind,
.mncc_connect_ind = dect_mncc_connect_ind,
.mncc_release_ind = dect_mncc_release_ind,
.mncc_release_cfm = dect_mncc_release_cfm,
.mncc_facility_ind = NULL,
.mncc_info_ind = dect_mncc_info_ind,
.mncc_modify_ind = NULL,
.mncc_modify_cfm = NULL,
.mncc_hold_ind = NULL,
.mncc_hold_cfm = NULL,
.mncc_retrieve_ind = NULL,
.mncc_retrieve_cfm = NULL,
.mncc_iwu_info_ind = NULL,
.dl_u_data_ind = dect_dl_u_data_ind,
};
/*
* Authentication / Key Allocation / Ciphering
*/
static void dect_mm_authenticate_reject(struct dect_mm_endpoint *mme,
enum dect_reject_reasons reason)
{
struct dect_ie_reject_reason reject_reason = { .reason = reason };
struct dect_mm_authenticate_param reply = { .reject_reason = &reject_reason };
dect_mm_authenticate_res(dh, mme, false, &reply);
}
static void dect_mm_authenticate_ind(struct dect_handle *dh,
struct dect_mm_endpoint *mme,
struct dect_mm_authenticate_param *param)
{
struct dect_mm_pvt *mmp = dect_mm_priv(mme);
typeof(mmp->auth_cfm) auth_cfm = mmp->auth_cfm;
struct dect_ie_collection *iec = mmp->iec;
struct dect_ie_auth_value rs;
struct dect_ie_auth_res res;
struct dect_mm_authenticate_param reply = {
.res = &res,
.rs = &rs,
};
uint8_t k[DECT_AUTH_KEY_LEN], ks[DECT_AUTH_KEY_LEN];
uint8_t dck[DECT_CIPHER_KEY_LEN];
uint8_t ac[DECT_AUTH_CODE_LEN];
uint32_t res1;
if (param->auth_type->auth_id != DECT_AUTH_DSAA) {
dect_mm_authenticate_reject(mme, DECT_REJECT_AUTHENTICATION_ALGORITHM_NOT_SUPPORTED);
return;
}
dect_pin_to_ac(dect_cfg.pin, ac, sizeof(ac));
dect_auth_b1(ac, sizeof(ac), k);
if (mmp->auth_type == DECT_AUTH_KEY_ALLOCATION) {
/* Reset state before invoking completion handler since it may invoke
* a new authentication procedure.
*/
mmp->auth_type = DECT_AUTH_NONE;
mmp->auth_cfm = NULL;
mmp->iec = NULL;
dect_auth_a11(k, mmp->rs, ks);
dect_auth_a12(ks, mmp->rand, dck, &res1);
if (res1 == param->res->value) {
ast_log(LOG_NOTICE, "PT authentication succeeded\n");
rs.value = mmp->rs;
dect_auth_a21(k, rs.value, ks);
dect_auth_a22(ks, param->rand->value, &res.value);
dect_mm_authenticate_res(dh, mme, true, &reply);
/* Store KS' as UAK */
memcpy(mmp->uak, ks, sizeof(mmp->uak));
auth_cfm(mmp, true, iec);
} else {
ast_log(LOG_NOTICE, "PT authentication failed\n");
dect_mm_authenticate_reject(mme, DECT_REJECT_AUTHENTICATION_FAILED);
auth_cfm(mmp, false, iec);
}
if (iec != NULL)
__dect_ie_collection_put(dh, iec);
} else {
ast_log(LOG_NOTICE, "FT authentication\n");
rs.value = dect_random();
dect_auth_a21(k, rs.value, ks);
dect_auth_a22(ks, param->rand->value, &res.value);
dect_mm_authenticate_res(dh, mme, true, &reply);
}
}
static void dect_mm_authenticate_cfm(struct dect_handle *dh,
struct dect_mm_endpoint *mme, bool accept,
struct dect_mm_authenticate_param *param)
{
struct dect_mm_pvt *mmp = dect_mm_priv(mme);
struct dect_pt *pt = mmp->pt;
enum dect_auth_types auth_type = mmp->auth_type;
typeof(mmp->auth_cfm) auth_cfm = mmp->auth_cfm;
struct dect_ie_collection *iec = mmp->iec;
uint8_t k[DECT_AUTH_KEY_LEN], ks[DECT_AUTH_KEY_LEN];
uint8_t dck[DECT_CIPHER_KEY_LEN];
uint32_t res1;
/* Reset state before invoking completion handler since it may invoke
* a new authentication procedure.
*/
mmp->auth_type = DECT_AUTH_NONE;
mmp->auth_cfm = NULL;
mmp->iec = NULL;
if (!accept)
goto reject;
if (auth_type == DECT_AUTH_PT)
dect_auth_b1(pt->uak, sizeof(pt->uak), k);
else
dect_auth_b2(pt->uak, sizeof(pt->uak),
mmp->upi, sizeof(mmp->upi), k);
dect_auth_a11(k, mmp->rs, ks);
dect_auth_a12(ks, mmp->rand, dck, &res1);
if (res1 == param->res->value) {
dect_pt_log(pt, "authentication succeeded\n");
/* Store DCK */
memcpy(pt->dck, dck, sizeof(pt->dck));
auth_cfm(mmp, true, iec);
} else {
reject:
dect_pt_log(pt, "authentication failed\n");
auth_cfm(mmp, false, iec);
}
if (iec != NULL)
__dect_ie_collection_put(dh, iec);
}
static void dect_authenticate(struct dect_mm_pvt *mmp, enum dect_auth_types type,
void (*auth_cfm)(struct dect_mm_pvt *, bool,
struct dect_ie_collection *),
struct dect_ie_collection *iec)
{
struct dect_ie_auth_type auth_type;
struct dect_ie_auth_value rand, rs;
struct dect_mm_authenticate_param req = {
.auth_type = &auth_type,
.rand = &rand,
.rs = &rs,
};
mmp->auth_type = type;
mmp->auth_cfm = auth_cfm;
if (iec != NULL)
mmp->iec = __dect_ie_collection_hold(iec);
mmp->rand = dect_random();
mmp->rs = dect_random();
auth_type.auth_id = DECT_AUTH_DSAA;
if (type == DECT_AUTH_PT)
auth_type.auth_key_type = DECT_KEY_USER_AUTHENTICATION_KEY;
else
auth_type.auth_key_type = DECT_KEY_USER_PERSONAL_IDENTITY;
auth_type.auth_key_num = 0 | DECT_AUTH_KEY_IPUI_PARK;
auth_type.cipher_key_num = 0;
auth_type.flags = DECT_AUTH_FLAG_UPC;
rand.value = mmp->rand;
rs.value = mmp->rs;
dect_mm_authenticate_req(dh, mmp->mme, &req);
}
static void dect_mm_key_allocate(struct dect_mm_pvt *mmp,
void (*auth_cfm)(struct dect_mm_pvt *, bool,
struct dect_ie_collection *iec),
struct dect_ie_collection *iec)
{
struct dect_ie_allocation_type allocation_type;
struct dect_ie_auth_value rand, rs;
struct dect_mm_key_allocate_param req = {
.allocation_type = &allocation_type,
.rand = &rand,
.rs = &rs,
};
mmp->auth_type = DECT_AUTH_KEY_ALLOCATION;
mmp->auth_cfm = auth_cfm;
mmp->iec = __dect_ie_collection_hold(iec);
mmp->rand = dect_random();
mmp->rs = dect_random();
allocation_type.auth_id = DECT_AUTH_DSAA;
allocation_type.auth_key_num = 0 | DECT_AUTH_KEY_IPUI_PARK;
allocation_type.auth_code_num = 0 | DECT_AUTH_KEY_IPUI_PARK;
rand.value = mmp->rand;
rs.value = mmp->rs;
dect_mm_key_allocate_req(dh, mmp->mme, &req);
}
static void dect_mm_cipher_ind(struct dect_handle *dh,
struct dect_mm_endpoint *mme,
struct dect_mm_cipher_param *param)
{
}
static void dect_mm_cipher_cfm(struct dect_handle *dh,
struct dect_mm_endpoint *mme, bool accept,
struct dect_mm_cipher_param *param)
{
struct dect_mm_pvt *mmp = dect_mm_priv(mme);
typeof(mmp->cipher_cfm) cipher_cfm = mmp->cipher_cfm;
struct dect_ie_collection *iec = mmp->iec;
mmp->ciphered = accept;
mmp->cipher_cfm = NULL;
mmp->iec = NULL;
cipher_cfm(mmp, accept, iec);
if (iec != NULL)
__dect_ie_collection_put(dh, iec);
}
static void dect_cipher_auth_cfm(struct dect_mm_pvt *mmp, bool success,
struct dect_ie_collection *iec)
{
struct dect_ie_cipher_info cipher_info;
struct dect_mm_cipher_param req = {
.cipher_info = &cipher_info,
};
if (iec != NULL)
mmp->iec = __dect_ie_collection_hold(iec);
if (!success)
return dect_mm_cipher_cfm(dh, mmp->mme, success, NULL);
cipher_info.enable = true;
cipher_info.cipher_alg_id = DECT_CIPHER_STANDARD_1;
cipher_info.cipher_key_type = DECT_CIPHER_DERIVED_KEY;
cipher_info.cipher_key_num = 0;
dect_mm_cipher_req(dh, mmp->mme, &req, mmp->pt->dck);
}
/* Authenticate the PT, thereby establishing a new DCK, then switch to ciphering. */
static void dect_cipher(struct dect_mm_pvt *mmp,
void (*cipher_cfm)(struct dect_mm_pvt *, bool,
struct dect_ie_collection *),
struct dect_ie_collection *iec)
{
if (mmp->ciphered)
return cipher_cfm(mmp, true, iec);
mmp->cipher_cfm = cipher_cfm;
if (iec != NULL)
mmp->iec = __dect_ie_collection_hold(iec);
dect_authenticate(mmp, DECT_AUTH_PT, dect_cipher_auth_cfm, mmp->iec);
}
/*
* Access rights procedures
*/
static int dect_access_rights_timer(const void *data)
{
ast_log(LOG_NOTICE, "disabling access rights requests\n");
dect_fpc.hlc &= ~DECT_HLC_ACCESS_RIGHTS_REQUESTS;
dect_fpc.ehlc2 &= ~DECT_EHLC2_EASY_PAIRING;
dect_llme_rfp_preload_req(dh, &dect_fpc);
return 0;
}
static int dect_access_rights_requests_enable(void)
{
int id;
if (dect_fpc.hlc & DECT_HLC_ACCESS_RIGHTS_REQUESTS)
return 0;
id = ast_sched_add(sched, 120 * 1000, dect_access_rights_timer, NULL);
dect_fpc.hlc |= DECT_HLC_ACCESS_RIGHTS_REQUESTS;
dect_fpc.ehlc2 |= DECT_EHLC2_EASY_PAIRING;
if (dect_llme_rfp_preload_req(dh, &dect_fpc) < 0)
goto err1;
access_rights_timer = id;
return 0;
err1:
AST_SCHED_DEL(sched, id);
return -1;
}
static int dect_access_rights_requests_disable(void)
{
if (!(dect_fpc.hlc & DECT_HLC_ACCESS_RIGHTS_REQUESTS))
return 0;
dect_fpc.hlc &= ~DECT_HLC_ACCESS_RIGHTS_REQUESTS;
dect_fpc.ehlc2 &= ~DECT_EHLC2_EASY_PAIRING;
if (dect_llme_rfp_preload_req(dh, &dect_fpc) < 0)
return -1;
AST_SCHED_DEL(sched, access_rights_timer);
return 0;
}
static void dect_mm_access_rights_reject(struct dect_mm_endpoint *mme,
enum dect_reject_reasons reason)
{
struct dect_ie_reject_reason reject_reason = { .reason = reason };
struct dect_mm_access_rights_param reply = { .reject_reason = &reject_reason };
dect_mm_access_rights_res(dh, mme, false, &reply);
}
static void dect_mm_access_rights_auth_cfm(struct dect_mm_pvt *mmp, bool success,
struct dect_ie_collection *iec)
{
struct dect_pt *pt;
struct dect_mm_endpoint *mme = mmp->mme;
struct dect_mm_access_rights_param *param = (void *)iec, reply = {
.portable_identity = param->portable_identity,
.auth_type = param->auth_type,
.cipher_info = param->cipher_info,
.codec_list = param->codec_list,
};
if (!success) {
dect_mm_access_rights_reject(mme, DECT_REJECT_AUTHENTICATION_FAILED);
return;
}
pt = dect_pt_get_by_ipui(&param->portable_identity->ipui);
if (pt == NULL) {
unsigned int exten;
char name[64];
if (!dect_alloc_extension(&exten)) {
dect_mm_access_rights_reject(mme, DECT_REJECT_INSUFFICIENT_MEMORY);
return;
}
snprintf(name, sizeof(name), "DECT-PT-%u", exten);
pt = dect_init_portable(name);
if (pt == NULL) {
dect_mm_access_rights_reject(mme, DECT_REJECT_INSUFFICIENT_MEMORY);
return;
}
dect_pt_set_ipui(pt, &param->portable_identity->ipui);
dect_pt_set_extension(pt, exten);
}
dect_mm_access_rights_res(dh, mme, true, &reply);
dect_access_rights_requests_disable();
memcpy(pt->uak, mmp->uak, sizeof(pt->uak));
dect_db_store_portable(pt);
if (param->terminal_capability) {
dect_ie_update(pt->terminal_capability, param->terminal_capability);
dect_db_store_termcap(pt);
}
if (param->codec_list) {
dect_ie_update(pt->codec_list, param->codec_list);
dect_db_store_codec_list(pt);
}
}
static void dect_mm_access_rights_ind(struct dect_handle *dh,
struct dect_mm_endpoint *mme,
struct dect_mm_access_rights_param *param)
{
struct dect_ie_auth_type *auth_type = param->auth_type;
struct dect_ie_cipher_info *cipher_info = param->cipher_info;
struct dect_mm_pvt *mmp = dect_mm_priv(mme);
if (!(dect_fpc.hlc & DECT_HLC_ACCESS_RIGHTS_REQUESTS))
return dect_mm_access_rights_reject(mme, DECT_REJECT_INCOMPATIBLE_SERVICE);
if (auth_type) {
if (auth_type->auth_id != DECT_AUTH_DSAA)
return dect_mm_access_rights_reject(mme, DECT_REJECT_AUTHENTICATION_ALGORITHM_NOT_SUPPORTED);
if (auth_type->auth_key_type != DECT_KEY_AUTHENTICATION_CODE)
return dect_mm_access_rights_reject(mme, DECT_REJECT_AUTHENTICATION_KEY_NOT_SUPPORTED);
}
if (cipher_info) {
if (cipher_info->cipher_alg_id != DECT_CIPHER_STANDARD_1)
return dect_mm_access_rights_reject(mme, DECT_REJECT_CIPHER_ALGORITHM_NOT_SUPPORTED);
}
mmp->mme = mme;
dect_mm_key_allocate(mmp, dect_mm_access_rights_auth_cfm, &param->common);
}
/*
* Access rights termination
*/
static void dect_destroy_portable(struct dect_pt *pt)
{
dect_register_extension(pt, false);
AST_LIST_REMOVE(&dect_pt_list, pt, list);
AST_SCHED_DEL(sched, pt->locate_timer);
ast_free(pt);
}
static void dect_mm_access_rights_terminate_reject(struct dect_mm_endpoint *mme,
enum dect_reject_reasons reason)
{
struct dect_ie_reject_reason reject_reason = { .reason = reason };
struct dect_mm_access_rights_terminate_param reply = { .reject_reason = &reject_reason };
dect_mm_access_rights_terminate_res(dh, mme, false, &reply);
}
static void dect_mm_access_rights_terminate_auth_cfm(struct dect_mm_pvt *mmp, bool success,
struct dect_ie_collection *iec)
{
struct dect_pt *pt = mmp->pt;
struct dect_mm_endpoint *mme = mmp->mme;
if (!success) {
dect_mm_access_rights_terminate_reject(mme, DECT_REJECT_AUTHENTICATION_FAILED);
return;
}
dect_db_remove(pt);
dect_destroy_portable(pt);
}
static void dect_mm_access_rights_terminate_ind(struct dect_handle *dh,
struct dect_mm_endpoint *mme,
struct dect_mm_access_rights_terminate_param *param)
{
struct dect_mm_pvt *mmp = dect_mm_priv(mme);
struct dect_pt *pt;
pt = dect_pt_get_by_ipui(&param->portable_identity->ipui);
if (pt == NULL)
return dect_mm_access_rights_terminate_reject(mme, DECT_REJECT_IPUI_UNKNOWN);
mmp->pt = pt;
mmp->mme = mme;
dect_cipher(mmp, dect_mm_access_rights_terminate_auth_cfm, &param->common);
}
static void dect_mm_access_rights_terminate_cfm(struct dect_handle *dh,
struct dect_mm_endpoint *mme, bool accept,
struct dect_mm_access_rights_terminate_param *param)
{
struct dect_mm_pvt *mmp = dect_mm_priv(mme);
struct dect_pt *pt = mmp->pt;
dect_db_remove(pt);
dect_destroy_portable(pt);
}
static void dect_access_rights_terminate(struct dect_pt *pt)
{
struct dect_ie_portable_identity portable_identity;
struct dect_mm_access_rights_terminate_param param = {
.portable_identity = &portable_identity,
};
struct dect_mm_endpoint *mme;
struct dect_mm_pvt *mmp;
mme = dect_mm_endpoint_alloc(dh, &pt->ipui);
if (mme == NULL)
return;
mmp = dect_mm_priv(mme);
mmp->mme = mme;
mmp->pt = pt;
portable_identity.type = DECT_PORTABLE_ID_TYPE_IPUI;
portable_identity.ipui = pt->ipui;
dect_mm_access_rights_terminate_req(dh, mme, &param);
}
/*
* Location procedures
*/
static int dect_locate_timer(const void *data)
{
struct dect_pt *pt = (struct dect_pt *)data;;
dect_pt_log(pt, "location registation timeout\n");
dect_register_extension(pt, false);
pt->locate_timer = -1;
return 0;
}
static void dect_mm_locate_reject(struct dect_mm_endpoint *mme,
enum dect_reject_reasons reason)
{
struct dect_ie_reject_reason reject_reason = { .reason = reason };
struct dect_mm_locate_param reply = { .reject_reason = &reject_reason };
dect_mm_locate_res(dh, mme, false, &reply);
}
static void dect_mm_locate_auth_cfm(struct dect_mm_pvt *mmp, bool success,
struct dect_ie_collection *iec)
{
struct dect_pt *pt = mmp->pt;
struct dect_mm_endpoint *mme = mmp->mme;
struct dect_ie_portable_identity portable_identity;
struct dect_ie_duration duration;
struct dect_mm_locate_param *param = (void *)iec, reply = {
.portable_identity = &portable_identity,
.location_area = param->location_area,
.codec_list = param->codec_list,
.duration = &duration,
};
unsigned int limit, timeout;
if (!success) {
dect_mm_locate_reject(mme, DECT_REJECT_AUTHENTICATION_FAILED);
return;
}
portable_identity.type = DECT_PORTABLE_ID_TYPE_TPUI;
portable_identity.tpui = pt->tpui;
duration.lock = DECT_LOCK_TEMPORARY_USER_LIMIT_1;
if (dect_cfg.locate_duration * DECT_FRAMES_PER_SECOND <=
255 * DECT_TIME_LIMIT_UNITS_1) {
limit = div_round_up(dect_cfg.locate_duration *
DECT_FRAMES_PER_SECOND,
DECT_TIME_LIMIT_UNITS_1);
timeout = div_round_up(limit * DECT_TIME_LIMIT_UNITS_1,
DECT_FRAMES_PER_SECOND);
duration.time = DECT_TIME_LIMIT_DEFINED_TIME_LIMIT_1;
} else {
limit = div_round_up(dect_cfg.locate_duration *
DECT_FRAMES_PER_SECOND,
DECT_TIME_LIMIT_UNITS_2);
timeout = div_round_up(limit * DECT_TIME_LIMIT_UNITS_2,
DECT_FRAMES_PER_SECOND);
duration.time = DECT_TIME_LIMIT_DEFINED_TIME_LIMIT_2;
}
duration.duration = limit;
dect_mm_locate_res(dh, mme, true, &reply);
if (param->terminal_capability) {
dect_ie_update(pt->terminal_capability, param->terminal_capability);
dect_db_store_termcap(pt);
}
if (param->codec_list) {
dect_ie_update(pt->codec_list, param->codec_list);
dect_db_store_codec_list(pt);
}
timeout += DECT_LOCATE_TIMEOUT_SLACK;
dect_pt_log(pt, "location registration: timeout: %us\n", timeout);
dect_register_extension(pt, true);
pt->locate_timer = ast_sched_replace(pt->locate_timer, sched,
timeout * 1000,
dect_locate_timer, pt);
}
static void dect_mm_locate_ind(struct dect_handle *dh,
struct dect_mm_endpoint *mme,
struct dect_mm_locate_param *param)
{
struct dect_mm_pvt *mmp = dect_mm_priv(mme);
struct dect_pt *pt;
pt = dect_pt_get_by_ipui(&param->portable_identity->ipui);
if (pt == NULL)
return dect_mm_locate_reject(mme, DECT_REJECT_IPUI_UNKNOWN);
mmp->pt = pt;
mmp->mme = mme;
dect_cipher(mmp, dect_mm_locate_auth_cfm, &param->common);
}
/*
* Identity assignment procedures
*/
static void dect_mm_identity_assign_cfm(struct dect_handle *dh,
struct dect_mm_endpoint *mme, bool accept,
struct dect_mm_identity_assign_param *param)
{
}
static const struct dect_mm_ops dect_mm_ops = {
.priv_size = sizeof(struct dect_mm_pvt),
.mm_authenticate_ind = dect_mm_authenticate_ind,
.mm_authenticate_cfm = dect_mm_authenticate_cfm,
.mm_cipher_ind = dect_mm_cipher_ind,
.mm_cipher_cfm = dect_mm_cipher_cfm,
.mm_access_rights_ind = dect_mm_access_rights_ind,
.mm_access_rights_terminate_ind = dect_mm_access_rights_terminate_ind,
.mm_access_rights_terminate_cfm = dect_mm_access_rights_terminate_cfm,
.mm_locate_ind = dect_mm_locate_ind,
.mm_identity_assign_cfm = dect_mm_identity_assign_cfm,
};
/*
* Supplementary Services
*/
static void dect_mnss_setup_ind(struct dect_handle *dh, struct dect_ss_endpoint *sse,
struct dect_mnss_param *param)
{
}
static void dect_mnss_release_ind(struct dect_handle *dh, struct dect_ss_endpoint *sse,
struct dect_mnss_param *param)
{
}
static const struct dect_ss_ops dect_ss_ops = {
.mnss_setup_ind = dect_mnss_setup_ind,
.mnss_release_ind = dect_mnss_release_ind,
};
/*
* User authentication App
*/
static void dect_userauth_auth_cfm(struct dect_mm_pvt *mmp, bool success,
struct dect_ie_collection *iec)
{
mmp->userauth_status = success;
sem_post(&mmp->userauth_semaphore);
}
static int dect_userauth_exec(struct ast_channel *chan, const char *data)
{
struct dect_pvt *pvt = chan->tech_pvt;
struct dect_pt *pt = pvt->pt;
struct dect_mm_endpoint *mme;
struct dect_mm_pvt *mmp;
if (data == NULL) {
ast_log(LOG_WARNING, "DectUserAuth requires an argument (PIN)");
return -1;
}
if (strlen(data) > 8) {
ast_log(LOG_WARNING, "User personal identity may not exceed 8 digits");
return -1;
}
mme = dect_mm_endpoint_get(dh, &pt->ipui);
if (mme == NULL)
return -1;
mmp = dect_mm_priv(mme);
mmp->pt = pt;
mmp->mme = mme;
mmp->call = pvt->call;
sem_init(&mmp->userauth_semaphore, 0, 0);
dect_pin_to_ac(data, mmp->upi, sizeof(mmp->upi));
dect_authenticate(mmp, DECT_AUTH_USER, dect_userauth_auth_cfm, NULL);
sem_wait(&mmp->userauth_semaphore);
dect_pt_log(pt, "DectUserAuth: status: %d\n", mmp->userauth_status);
pbx_builtin_setvar_helper(chan, "USERAUTHSTATUS",
mmp->userauth_status ? "SUCCESS" : "FAILURE");
return 0;
}
static void dect_show_debug(enum dect_debug_subsys subsys,
const char *fmt, va_list ap)
{
ast_verbose_ap(fmt, ap);
}
/*
* Asterisk CLI commands
*/
static char *dect_complete_pt(const char *word, int state)
{
size_t wordlen = strlen(word);
struct dect_pt *pt;
int which = 0;
char *res;
AST_LIST_TRAVERSE(&dect_pt_list, pt, list) {
if (!strncasecmp(word, pt->name, wordlen) && ++which > state) {
res = ast_strdup(pt->name);
if (res)
return res;
}
}
return NULL;
}
static char *dect_cli_debug(struct ast_cli_entry *e, int cmd,
struct ast_cli_args *a)
{
const char *arg;
switch (cmd) {
case CLI_INIT:
e->command = "dect set debug {on|off}";
e->usage = "Usage: dect set debug {on|off}\n";
return NULL;
case CLI_GENERATE:
return NULL;
}
arg = a->argv[e->args - 1];
if (!strcasecmp(arg, "on")) {
dect_set_debug_hook(dect_show_debug);
ast_cli(a->fd, "DECT debugging enabled\n");
} else if (!strcasecmp(arg, "off")) {
dect_set_debug_hook(NULL);
ast_cli(a->fd, "DECT debugging disabled\n");
} else
return CLI_SHOWUSAGE;
return CLI_SUCCESS;
}
static char *dect_cli_show_portables(struct ast_cli_entry *e, int cmd,
struct ast_cli_args *a)
{
struct dect_pt *pt;
switch (cmd) {
case CLI_INIT:
e->command = "dect show portables";
e->usage = "Usage: dect show portables\n";
return NULL;
case CLI_GENERATE:
return NULL;
}
ast_cli(a->fd, "Name Extension Registered\n");
AST_LIST_TRAVERSE(&dect_pt_list, pt, list)
ast_cli(a->fd, "%-16s%-16s%-16s\n",
pt->name, pt->regexten, pt->locate_timer == -1 ? "No" : "Yes");
return CLI_SUCCESS;
}
static char *dect_cli_show_portable(struct ast_cli_entry *e, int cmd,
struct ast_cli_args *a)
{
struct dect_pt *pt;
char cidbuf[256], codbuf[256];
switch (cmd) {
case CLI_INIT:
e->command = "dect show portable";
e->usage = "Usage: dect show portable <name>\n";
return NULL;
case CLI_GENERATE:
if (a->pos == 3)
return dect_complete_pt(a->word, a->n);
return NULL;
}
if (a->argc < 4)
return CLI_SHOWUSAGE;
pt = dect_pt_get_by_name(a->argv[3]);
if (pt == NULL) {
ast_cli(a->fd, "PT '%s' not found\n", a->argv[3]);
return CLI_FAILURE;
}
ast_callerid_merge(cidbuf, sizeof(cidbuf), pt->cid_name, pt->cid_num,
"<unspecified>");
dect_codecs_merge(codbuf, sizeof(codbuf), pt);
ast_cli(a->fd, "IPEI: %s\n", pt->ipei);
ast_cli(a->fd, "Extension: %s\n", pt->regexten);
ast_cli(a->fd, "Registered: %s\n", pt->locate_timer == -1 ? "No" : "Yes");
ast_cli(a->fd, "Context: %s\n", pt->context);
ast_cli(a->fd, "Language: %s\n", pt->language);
ast_cli(a->fd, "CallerId: %s\n", cidbuf);
ast_cli(a->fd, "Codecs: %s\n", codbuf);
return CLI_SUCCESS;
}
static char *dect_cli_ari(struct ast_cli_entry *e, int cmd,
struct ast_cli_args *a)
{
struct dect_pt *pt;
const char *arg;
switch (cmd) {
case CLI_INIT:
e->command = "dect access-rights {enable|disable|terminate}";
e->usage = "Usage: dect access-rights {enable|disable|terminate}\n";
return NULL;
case CLI_GENERATE:
if (a->pos == 3 && !strcasecmp(a->argv[2], "terminate"))
return dect_complete_pt(a->word, a->n);
return NULL;
}
if (a->argc < 3)
return CLI_SHOWUSAGE;
arg = a->argv[2];
if (!strcasecmp(arg, "enable")) {
if (dect_access_rights_requests_enable() == 0)
ast_cli(a->fd, "ARI enabled\n");
} else if (!strcasecmp(arg, "disable")) {
if (dect_access_rights_requests_disable() == 0)
ast_cli(a->fd, "ARI disabled\n");
} else if (!strcasecmp(arg, "terminate")) {
if (a->argc < 4)
return CLI_SHOWUSAGE;
ast_cli(a->fd, "ARI terminate\n");
pt = dect_pt_get_by_name(a->argv[3]);
if (pt == NULL) {
ast_cli(a->fd, "PT '%s' not found\n", a->argv[3]);
return CLI_FAILURE;
}
dect_access_rights_terminate(pt);
} else
return CLI_SHOWUSAGE;
return CLI_SUCCESS;
}
static int dect_db_read(void);
static char *dect_cli_db_reload(struct ast_cli_entry *e, int cmd,
struct ast_cli_args *a)
{
switch (cmd) {
case CLI_INIT:
e->command = "dect reload database";
e->usage = "Usage: dect reload database\n";
return NULL;
case CLI_GENERATE:
return NULL;
}
if (a->argc < 3)
return CLI_SHOWUSAGE;
dect_db_read();
return CLI_SUCCESS;
}
static struct ast_cli_entry dect_cli_cmds[] = {
AST_CLI_DEFINE(dect_cli_debug, "Enable/Disable DECT debugging"),
AST_CLI_DEFINE(dect_cli_ari, "Access rights modification"),
AST_CLI_DEFINE(dect_cli_show_portables, "Show list of portables"),
AST_CLI_DEFINE(dect_cli_show_portable, "Show portable information"),
AST_CLI_DEFINE(dect_cli_db_reload, "Reload database"),
};
/*
* libdect event ops
*/
struct dect_fd_priv {
int *id;
};
static int dect_io_callback(int *id, int fd, short io_events, void *data)
{
struct dect_fd *dfd = data;
uint32_t events = 0;
if (io_events & (AST_IO_IN | AST_IO_ERR | AST_IO_HUP))
events |= DECT_FD_READ;
if (io_events & AST_IO_OUT)
events |= DECT_FD_WRITE;
dect_fd_process(dh, dfd, events);
return 1;
}
static int dect_register_fd(const struct dect_handle *dh, struct dect_fd *dfd,
uint32_t events)
{
struct dect_fd_priv *priv = dect_fd_priv(dfd);
short io_events = 0;
if (events & DECT_FD_READ)
io_events |= AST_IO_IN;
if (events & DECT_FD_WRITE)
io_events |= AST_IO_OUT;
priv->id = ast_io_add(io, dect_fd_num(dfd), dect_io_callback,
io_events, dfd);;
return priv->id ? 0 : -1;
}
static void dect_unregister_fd(const struct dect_handle *dh, struct dect_fd *dfd)
{
struct dect_fd_priv *priv = dect_fd_priv(dfd);
ast_io_remove(io, priv->id);
}
struct dect_timer_priv {
int id;
};
static int dect_timer_callback(const void *data)
{
struct dect_timer *timer = (struct dect_timer *)data;;
dect_timer_run(dh, timer);
return 0;
}
static void dect_start_timer(const struct dect_handle *dh,
struct dect_timer *timer,
const struct timeval *tv)
{
struct dect_timer_priv *priv = dect_timer_priv(timer);
priv->id = ast_sched_add(sched, tv->tv_sec * 1000 + tv->tv_usec / 1000,
dect_timer_callback, timer);
}
static void dect_stop_timer(const struct dect_handle *dh,
struct dect_timer *timer)
{
struct dect_timer_priv *priv = dect_timer_priv(timer);
AST_SCHED_DEL(sched, priv->id);
}
static const struct dect_event_ops dect_event_ops = {
.fd_priv_size = sizeof(struct dect_fd_priv),
.register_fd = dect_register_fd,
.unregister_fd = dect_unregister_fd,
.timer_priv_size = sizeof(struct dect_timer_priv),
.start_timer = dect_start_timer,
.stop_timer = dect_stop_timer,
};
static struct dect_ops dect_ops = {
.event_ops = &dect_event_ops,
.cc_ops = &dect_cc_ops,
.mm_ops = &dect_mm_ops,
.ss_ops = &dect_ss_ops,
};
static pthread_t io_thread = AST_PTHREADT_NULL;
static void *dect_io_thread(void *ignore)
{
int timeout;
while (1) {
pthread_testcancel();
timeout = ast_sched_wait(sched);
if (timeout < 0 || timeout > 1000)
timeout = 1000;
ast_io_wait(io, timeout);
ast_sched_runq(sched);
}
return NULL;
}
static int dect_io_thread_start(void)
{
int err;
err = ast_pthread_create_background(&io_thread, NULL, dect_io_thread, NULL);
if (err < 0) {
ast_log(LOG_ERROR, "Unable to start IO thread\n");
return err;
}
return 0;
}
static void dect_io_thread_stop(void)
{
pthread_cancel(io_thread);
pthread_kill(io_thread, SIGURG);
pthread_join(io_thread, NULL);
}
static int dect_db_read(void)
{
struct ast_db_entry *dbt, *dbe;
struct dect_ipui ipui;
struct dect_pt *pt;
const char *key, *val;
char *tmp, ipei[64];
memset(&ipui, 0, sizeof(ipui));
ipui.put = DECT_IPUI_N;
dbt = ast_db_gettree("dect", NULL);
for (dbe = dbt; dbe != NULL; dbe = dbe->next) {
key = dbe->key + strlen("/dect/");
strncpy(ipei, key, sizeof(ipei));
tmp = strchr(ipei, '/');
if (tmp == NULL)
continue;
*tmp = '\0';
key = tmp + 1;
val = dbe->data;
if (!dect_parse_ipei_string(&ipui.pun.n.ipei, ipei))
continue;
pt = dect_pt_get_by_ipui(&ipui);
if (pt == NULL) {
pt = dect_init_portable(NULL);
if (pt == NULL)
return -1;
dect_pt_set_ipui(pt, &ipui);
}
if (dect_db_parse_global(pt, key, val) != 0 &&
dect_db_parse_termcap(pt, key, val) != 0 &&
dect_db_parse_codec_list(pt, key, val) != 0) {
ast_log(LOG_NOTICE, "Unknown database key '%s'\n", key);
return -1;
}
}
return 0;
}
static int dect_load_config(void)
{
struct ast_flags cfg_flags = {};
struct ast_config *cfg;
struct ast_variable *v;
memcpy(&dect_cfg.jbconf, &dect_default_jbconf, sizeof(struct ast_jb_conf));
cfg = ast_config_load(CONFIG_FILE, cfg_flags);
if (cfg == CONFIG_STATUS_FILEINVALID) {
ast_log(LOG_ERROR, "Config file %s is in an invalid format.\n",
CONFIG_FILE);
return AST_MODULE_LOAD_DECLINE;
}
if (cfg == NULL) {
ast_log(LOG_ERROR, "Unable to load config %s\n", CONFIG_FILE);
return AST_MODULE_LOAD_DECLINE;
}
for (v = ast_variable_browse(cfg, "general"); v != NULL; v = v->next) {
/* jitter buffer configuration */
if (!ast_jb_read_conf(&dect_cfg.jbconf, v->name, v->value))
continue;
if (!strcasecmp(v->name, "cluster")) {
ast_copy_string(dect_cfg.cluster, v->value,
sizeof(dect_cfg.cluster));
} else if (!strcasecmp(v->name, "context")) {
ast_copy_string(dect_cfg.context, v->value,
sizeof(dect_cfg.context));
} else if (!strcasecmp(v->name, "language")) {
ast_copy_string(dect_cfg.language, v->value,
sizeof(dect_cfg.language));
} else if (!strcasecmp(v->name, "regcontext")) {
ast_copy_string(dect_cfg.regcontext, v->value,
sizeof(dect_cfg.regcontext));
/* Create context if it doesn't exist already */
ast_context_find_or_create(NULL, NULL, dect_cfg.regcontext, "DECT");
} else if (!strcasecmp(v->name, "regexten_base")) {
dect_cfg.regexten_base = strtoul(v->value, NULL, 0);
} else if (!strcasecmp(v->name, "pin")) {
ast_copy_string(dect_cfg.pin, v->value,
sizeof(dect_cfg.pin));
} else if (!strcasecmp(v->name, "locate_duration")) {
dect_cfg.locate_duration = strtoul(v->value, NULL, 0);
}
}
return 0;
}
static int dect_load_module(void)
{
struct ast_format tmpfmt;
const char *cluster;
sched = ast_sched_context_create();
if (sched == NULL) {
ast_log(LOG_ERROR, "Unable to create scheduler context\n");
goto err1;
}
io = io_context_create();
if (io == NULL) {
ast_log(LOG_ERROR, "Unable to create IO context\n");
goto err2;
}
dect_tech.capabilities = ast_format_cap_alloc();
if (dect_tech.capabilities == NULL)
goto err3;
ast_format_cap_add(dect_tech.capabilities,
ast_format_set(&tmpfmt, AST_FORMAT_G726_AAL2, 0));
if (ast_channel_register(&dect_tech)) {
ast_log(LOG_ERROR, "Unable to register 'DECT' channel\n");
goto err4;
}
ast_cli_register_multiple(dect_cli_cmds, ARRAY_LEN(dect_cli_cmds));
ast_register_application_xml("DectUserAuth", dect_userauth_exec);
dect_load_config();
if (dect_io_thread_start() < 0)
goto err5;
cluster = strlen(dect_cfg.cluster) ? dect_cfg.cluster : NULL;
dh = dect_open_handle(&dect_ops, cluster);
if (dh == NULL) {
ast_log(LOG_ERROR, "Unable to initialize DECT handle\n");
goto err6;
}
if (dect_llme_rfp_preload_req(dh, &dect_fpc) < 0) {
ast_log(LOG_ERROR, "Unable to set FP capabilities\n");
goto err7;
}
if (dect_db_read() < 0) {
ast_log(LOG_ERROR, "Unable to read database\n");
goto err7;
}
return AST_MODULE_LOAD_SUCCESS;
err7:
dect_close_handle(dh);
err6:
dect_io_thread_stop();
err5:
ast_cli_unregister_multiple(dect_cli_cmds, ARRAY_LEN(dect_cli_cmds));
ast_channel_unregister(&dect_tech);
err4:
ast_format_cap_destroy(dect_tech.capabilities);
err3:
io_context_destroy(io);
err2:
ast_sched_context_destroy(sched);
err1:
return AST_MODULE_LOAD_FAILURE;
}
static int dect_unload_module(void)
{
dect_close_handle(dh);
dect_io_thread_stop();
ast_unregister_application("DectUserAuth");
ast_cli_unregister_multiple(dect_cli_cmds, ARRAY_LEN(dect_cli_cmds));
ast_channel_unregister(&dect_tech);
ast_format_cap_destroy(dect_tech.capabilities);
io_context_destroy(io);
ast_sched_context_destroy(sched);
return 0;
}
AST_MODULE_INFO(ASTERISK_GPL_KEY, AST_MODFLAG_DEFAULT, "DECT",
.load = dect_load_module,
.unload = dect_unload_module,
);
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