/* * Asterisk -- An open source telephony toolkit. * * Zaptel native transcoding support * * Copyright (C) 1999 - 2006, Digium, Inc. * * Mark Spencer * Kevin P. Fleming * * 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 Translate between various formats natively through Zaptel transcoding * * \ingroup codecs */ #include "asterisk.h" ASTERISK_FILE_VERSION(__FILE__, "$Revision$") #include #include #include #include #include #include #include #include #include #include #include "asterisk/lock.h" #include "asterisk/translate.h" #include "asterisk/config.h" #include "asterisk/options.h" #include "asterisk/module.h" #include "asterisk/cli.h" #include "asterisk/logger.h" #include "asterisk/channel.h" #include "asterisk/utils.h" #include "asterisk/linkedlists.h" #define BUFFER_SAMPLES 8000 static unsigned int global_useplc = 0; static int totalchannels = 0; static int complexinuse = 0; static int simpleinuse = 0; static int localusecnt = 0; AST_MUTEX_DEFINE_STATIC(channelcount); static char *tdesc = "Generic Zaptel Transcoder Codec Translator"; static char show_transcoder_usage[] = "Usage: show transcoder\n" " Displays transcoder utilization.\n"; static int show_transcoder(int fd, int argc, char **argv); static struct ast_cli_entry transcoder_cli[] = { { { "show", "transcoder", NULL}, show_transcoder, "Displays transcoder utilization.", show_transcoder_usage} }; struct format_map { unsigned int map[32][32]; }; static struct format_map global_format_map = { { { 0 } } }; struct translator { struct ast_translator t; AST_LIST_ENTRY(translator) entry; }; static AST_LIST_HEAD_STATIC(zap_translators, translator); struct ast_translator_pvt { int fd; int fake; int inuse; int samples; int dstfmt; int srcfmt; #ifdef DEBUG_TRANSCODE int totalms; int lasttotalms; #endif struct zt_transcode_header *hdr; struct ast_frame f; }; static int show_transcoder(int fd, int argc, char **argv) { ast_mutex_lock(&channelcount); if (!totalchannels) { ast_cli(fd, "No transcoder card registered\n"); ast_mutex_unlock(&channelcount); return RESULT_SUCCESS; } ast_cli(fd, "%d/%d encoders/decoders of %d channels are in use.\n", complexinuse, simpleinuse, totalchannels); ast_mutex_unlock(&channelcount); return RESULT_SUCCESS; } static int zap_framein(struct ast_translator_pvt *ztp, struct ast_frame *f) { struct zt_transcode_header *hdr = ztp->hdr; if (!f->subclass) { /* Fake a return frame for calculation purposes */ ztp->fake = 2; ztp->samples = f->samples; return 0; } if(!ztp->inuse) { ast_mutex_lock(&channelcount); localusecnt++; if(ztp->dstfmt == 8 || ztp->dstfmt == 0 ) complexinuse++; else simpleinuse++; ast_mutex_unlock(&channelcount); ztp->inuse = 1; } if (!hdr->srclen) /* Copy at front of buffer */ hdr->srcoffset = 0; if (hdr->srclen + f->datalen > sizeof(hdr->srcdata)) { ast_log(LOG_WARNING, "Out of space for codec translation!\n"); return -1; } if (hdr->srclen + f->datalen + hdr->srcoffset > sizeof(hdr->srcdata)) { /* Very unlikely */ memmove(hdr->srcdata, hdr->srcdata + hdr->srcoffset, hdr->srclen); hdr->srcoffset = 0; } memcpy(hdr->srcdata + hdr->srcoffset + hdr->srclen, f->data, f->datalen); hdr->srclen += f->datalen; ztp->samples += f->samples; return -1; } static struct ast_frame *zap_frameout(struct ast_translator_pvt *ztp) { struct zt_transcode_header *hdr = ztp->hdr; unsigned int x; if (ztp->fake == 2) { ztp->fake = 1; ztp->f.frametype = AST_FRAME_VOICE; ztp->f.subclass = 0; ztp->f.samples = 240; ztp->f.data = NULL; ztp->f.offset = 0; ztp->f.datalen = 0; ztp->f.mallocd = 0; ztp->samples = 0; } else if (ztp->fake == 1) { return NULL; } else { if (hdr->dstlen) { #ifdef DEBUG_TRANSCODE ztp->totalms += hdr->dstsamples; if ((ztp->totalms - ztp->lasttotalms) > 8000) { ast_verbose("Whee %p, %d (%d to %d)\n", ztp, hdr->dstlen, ztp->lasttotalms, ztp->totalms); ztp->lasttotalms = ztp->totalms; } #endif ztp->f.frametype = AST_FRAME_VOICE; ztp->f.subclass = hdr->dstfmt; ztp->f.samples = hdr->dstsamples; ztp->f.data = hdr->dstdata + hdr->dstoffset; ztp->f.offset = hdr->dstoffset; ztp->f.datalen = hdr->dstlen; ztp->f.mallocd = 0; ztp->samples -= ztp->f.samples; hdr->dstlen = 0; } else { if (hdr->srclen) { hdr->dstoffset = AST_FRIENDLY_OFFSET; x = ZT_TCOP_TRANSCODE; if (ioctl(ztp->fd, ZT_TRANSCODE_OP, &x)) ast_log(LOG_WARNING, "Failed to transcode: %s\n", strerror(errno)); } return NULL; } } return &ztp->f; } static void zap_destroy(struct ast_translator_pvt *ztp) { unsigned int x; x = ZT_TCOP_RELEASE; if (ioctl(ztp->fd, ZT_TRANSCODE_OP, &x)) ast_log(LOG_WARNING, "Failed to release transcoder channel: %s\n", strerror(errno)); munmap(ztp->hdr, sizeof(*ztp->hdr)); if(ztp->inuse) { ast_mutex_lock(&channelcount); localusecnt--; if(ztp->dstfmt == 8 || ztp->dstfmt == 0) complexinuse--; else simpleinuse--; ast_mutex_unlock(&channelcount); } close(ztp->fd); } static struct ast_translator_pvt *zap_new_alawtog723(void) { /* Request translation through zap if possible */ int fd; unsigned int x = ZT_TCOP_ALLOCATE; struct ast_translator_pvt *ztp; struct zt_transcode_header *hdr; int flags; ztp = calloc(1,sizeof(struct ast_translator_pvt)); if(!ztp) { ast_log(LOG_ERROR, "Could not allocate ztp structure.\n"); return NULL; } ztp->dstfmt = 0; ztp->srcfmt = 3; if ((fd = open("/dev/zap/transcode", O_RDWR)) < 0) return NULL; flags = fcntl(fd, F_GETFL); if (flags > - 1) { if (fcntl(fd, F_SETFL, flags | O_NONBLOCK)) ast_log(LOG_WARNING, "Could not set non-block mode!\n"); } if ((hdr = mmap(NULL, sizeof(*hdr), PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0)) == MAP_FAILED) { ast_log(LOG_ERROR, "Memory Map failed for transcoding (%s)\n", strerror(errno)); close(fd); return NULL; } if (hdr->magic != ZT_TRANSCODE_MAGIC) { ast_log(LOG_ERROR, "Transcoder header (%08x) wasn't magic. Abandoning\n", hdr->magic); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } hdr->srcfmt = (1 << ztp->srcfmt); hdr->dstfmt = (1 << ztp->dstfmt); if (ioctl(fd, ZT_TRANSCODE_OP, &x)) { ast_log(LOG_ERROR, "Unable to attach transcoder: %s\n", strerror(errno)); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } ztp->fd = fd; ztp->hdr = hdr; return (struct ast_translator_pvt *) ztp; } static struct ast_translator_pvt *zap_new_ulawtog723(void) { /* Request translation through zap if possible */ int fd; unsigned int x = ZT_TCOP_ALLOCATE; struct ast_translator_pvt *ztp; struct zt_transcode_header *hdr; int flags; ztp = calloc(1,sizeof(struct ast_translator_pvt)); if(!ztp) { ast_log(LOG_ERROR, "Could not allocate ztp structure.\n"); return NULL; } ztp->dstfmt = 0; ztp->srcfmt = 2; if ((fd = open("/dev/zap/transcode", O_RDWR)) < 0) return NULL; flags = fcntl(fd, F_GETFL); if (flags > - 1) { if (fcntl(fd, F_SETFL, flags | O_NONBLOCK)) ast_log(LOG_WARNING, "Could not set non-block mode!\n"); } if ((hdr = mmap(NULL, sizeof(*hdr), PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0)) == MAP_FAILED) { ast_log(LOG_ERROR, "Memory Map failed for transcoding (%s)\n", strerror(errno)); close(fd); return NULL; } if (hdr->magic != ZT_TRANSCODE_MAGIC) { ast_log(LOG_ERROR, "Transcoder header (%08x) wasn't magic. Abandoning\n", hdr->magic); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } hdr->srcfmt = (1 << ztp->srcfmt); hdr->dstfmt = (1 << ztp->dstfmt); if (ioctl(fd, ZT_TRANSCODE_OP, &x)) { ast_log(LOG_ERROR, "Unable to attach transcoder: %s\n", strerror(errno)); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } ztp->fd = fd; ztp->hdr = hdr; return (struct ast_translator_pvt *) ztp; } static struct ast_translator_pvt *zap_new_g723toalaw(void) { /* Request translation through zap if possible */ int fd; unsigned int x = ZT_TCOP_ALLOCATE; struct ast_translator_pvt *ztp; struct zt_transcode_header *hdr; int flags; ztp = calloc(1,sizeof(struct ast_translator_pvt)); if(!ztp) { ast_log(LOG_ERROR, "Could not allocate ztp structure.\n"); return NULL; } ztp->dstfmt = 3; ztp->srcfmt = 0; if ((fd = open("/dev/zap/transcode", O_RDWR)) < 0) return NULL; flags = fcntl(fd, F_GETFL); if (flags > - 1) { if (fcntl(fd, F_SETFL, flags | O_NONBLOCK)) ast_log(LOG_WARNING, "Could not set non-block mode!\n"); } if ((hdr = mmap(NULL, sizeof(*hdr), PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0)) == MAP_FAILED) { ast_log(LOG_ERROR, "Memory Map failed for transcoding (%s)\n", strerror(errno)); close(fd); return NULL; } if (hdr->magic != ZT_TRANSCODE_MAGIC) { ast_log(LOG_ERROR, "Transcoder header (%08x) wasn't magic. Abandoning\n", hdr->magic); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } hdr->srcfmt = (1 << ztp->srcfmt); hdr->dstfmt = (1 << ztp->dstfmt); if (ioctl(fd, ZT_TRANSCODE_OP, &x)) { ast_log(LOG_ERROR, "Unable to attach transcoder: %s\n", strerror(errno)); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } ztp->fd = fd; ztp->hdr = hdr; return (struct ast_translator_pvt *) ztp; } static struct ast_translator_pvt *zap_new_g723toulaw(void) { /* Request translation through zap if possible */ int fd; unsigned int x = ZT_TCOP_ALLOCATE; struct ast_translator_pvt *ztp; struct zt_transcode_header *hdr; int flags; ztp = calloc(1,sizeof(struct ast_translator_pvt)); if(!ztp) { ast_log(LOG_ERROR, "Could not allocate ztp structure.\n"); return NULL; } ztp->dstfmt = 2; ztp->srcfmt = 0; if ((fd = open("/dev/zap/transcode", O_RDWR)) < 0) return NULL; flags = fcntl(fd, F_GETFL); if (flags > - 1) { if (fcntl(fd, F_SETFL, flags | O_NONBLOCK)) ast_log(LOG_WARNING, "Could not set non-block mode!\n"); } if ((hdr = mmap(NULL, sizeof(*hdr), PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0)) == MAP_FAILED) { ast_log(LOG_ERROR, "Memory Map failed for transcoding (%s)\n", strerror(errno)); close(fd); return NULL; } if (hdr->magic != ZT_TRANSCODE_MAGIC) { ast_log(LOG_ERROR, "Transcoder header (%08x) wasn't magic. Abandoning\n", hdr->magic); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } hdr->srcfmt = (1 << ztp->srcfmt); hdr->dstfmt = (1 << ztp->dstfmt); if (ioctl(fd, ZT_TRANSCODE_OP, &x)) { ast_log(LOG_ERROR, "Unable to attach transcoder: %s\n", strerror(errno)); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } ztp->fd = fd; ztp->hdr = hdr; return (struct ast_translator_pvt *) ztp; } static struct ast_translator_pvt *zap_new_alawtog729(void) { /* Request translation through zap if possible */ int fd; unsigned int x = ZT_TCOP_ALLOCATE; struct ast_translator_pvt *ztp; struct zt_transcode_header *hdr; int flags; ztp = calloc(1,sizeof(struct ast_translator_pvt)); if(!ztp) { ast_log(LOG_ERROR, "Could not allocate ztp structure.\n"); return NULL; } ztp->dstfmt = 8; ztp->srcfmt = 3; if ((fd = open("/dev/zap/transcode", O_RDWR)) < 0) return NULL; flags = fcntl(fd, F_GETFL); if (flags > - 1) { if (fcntl(fd, F_SETFL, flags | O_NONBLOCK)) ast_log(LOG_WARNING, "Could not set non-block mode!\n"); } if ((hdr = mmap(NULL, sizeof(*hdr), PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0)) == MAP_FAILED) { ast_log(LOG_ERROR, "Memory Map failed for transcoding (%s)\n", strerror(errno)); close(fd); return NULL; } if (hdr->magic != ZT_TRANSCODE_MAGIC) { ast_log(LOG_ERROR, "Transcoder header (%08x) wasn't magic. Abandoning\n", hdr->magic); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } hdr->srcfmt = (1 << ztp->srcfmt); hdr->dstfmt = (1 << ztp->dstfmt); if (ioctl(fd, ZT_TRANSCODE_OP, &x)) { ast_log(LOG_ERROR, "Unable to attach transcoder: %s\n", strerror(errno)); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } ztp->fd = fd; ztp->hdr = hdr; return (struct ast_translator_pvt *) ztp; } static struct ast_translator_pvt *zap_new_ulawtog729(void) { /* Request translation through zap if possible */ int fd; unsigned int x = ZT_TCOP_ALLOCATE; struct ast_translator_pvt *ztp; struct zt_transcode_header *hdr; int flags; ztp = calloc(1,sizeof(struct ast_translator_pvt)); if(!ztp) { ast_log(LOG_ERROR, "Could not allocate ztp structure.\n"); return NULL; } ztp->dstfmt = 8; ztp->srcfmt = 2; if ((fd = open("/dev/zap/transcode", O_RDWR)) < 0) return NULL; flags = fcntl(fd, F_GETFL); if (flags > - 1) { if (fcntl(fd, F_SETFL, flags | O_NONBLOCK)) ast_log(LOG_WARNING, "Could not set non-block mode!\n"); } if ((hdr = mmap(NULL, sizeof(*hdr), PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0)) == MAP_FAILED) { ast_log(LOG_ERROR, "Memory Map failed for transcoding (%s)\n", strerror(errno)); close(fd); return NULL; } if (hdr->magic != ZT_TRANSCODE_MAGIC) { ast_log(LOG_ERROR, "Transcoder header (%08x) wasn't magic. Abandoning\n", hdr->magic); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } hdr->srcfmt = (1 << ztp->srcfmt); hdr->dstfmt = (1 << ztp->dstfmt); if (ioctl(fd, ZT_TRANSCODE_OP, &x)) { ast_log(LOG_ERROR, "Unable to attach transcoder: %s\n", strerror(errno)); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } ztp->fd = fd; ztp->hdr = hdr; return (struct ast_translator_pvt *) ztp; } static struct ast_translator_pvt *zap_new_g729toalaw(void) { /* Request translation through zap if possible */ int fd; unsigned int x = ZT_TCOP_ALLOCATE; struct ast_translator_pvt *ztp; struct zt_transcode_header *hdr; int flags; ztp = calloc(1,sizeof(struct ast_translator_pvt)); if(!ztp) { ast_log(LOG_ERROR, "Could not allocate ztp structure.\n"); return NULL; } ztp->dstfmt = 3; ztp->srcfmt = 8; if ((fd = open("/dev/zap/transcode", O_RDWR)) < 0) return NULL; flags = fcntl(fd, F_GETFL); if (flags > - 1) { if (fcntl(fd, F_SETFL, flags | O_NONBLOCK)) ast_log(LOG_WARNING, "Could not set non-block mode!\n"); } if ((hdr = mmap(NULL, sizeof(*hdr), PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0)) == MAP_FAILED) { ast_log(LOG_ERROR, "Memory Map failed for transcoding (%s)\n", strerror(errno)); close(fd); return NULL; } if (hdr->magic != ZT_TRANSCODE_MAGIC) { ast_log(LOG_ERROR, "Transcoder header (%08x) wasn't magic. Abandoning\n", hdr->magic); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } hdr->srcfmt = (1 << ztp->srcfmt); hdr->dstfmt = (1 << ztp->dstfmt); if (ioctl(fd, ZT_TRANSCODE_OP, &x)) { ast_log(LOG_ERROR, "Unable to attach transcoder: %s\n", strerror(errno)); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } ztp->fd = fd; ztp->hdr = hdr; return (struct ast_translator_pvt *) ztp; } static struct ast_translator_pvt *zap_new_g729toulaw(void) { /* Request translation through zap if possible */ int fd; unsigned int x = ZT_TCOP_ALLOCATE; struct ast_translator_pvt *ztp; struct zt_transcode_header *hdr; int flags; ztp = calloc(1,sizeof(struct ast_translator_pvt)); if(!ztp) { ast_log(LOG_ERROR, "Could not allocate ztp structure.\n"); return NULL; } ztp->dstfmt = 2; ztp->srcfmt = 8; if ((fd = open("/dev/zap/transcode", O_RDWR)) < 0) return NULL; flags = fcntl(fd, F_GETFL); if (flags > - 1) { if (fcntl(fd, F_SETFL, flags | O_NONBLOCK)) ast_log(LOG_WARNING, "Could not set non-block mode!\n"); } if ((hdr = mmap(NULL, sizeof(*hdr), PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0)) == MAP_FAILED) { ast_log(LOG_ERROR, "Memory Map failed for transcoding (%s)\n", strerror(errno)); close(fd); return NULL; } if (hdr->magic != ZT_TRANSCODE_MAGIC) { ast_log(LOG_ERROR, "Transcoder header (%08x) wasn't magic. Abandoning\n", hdr->magic); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } hdr->srcfmt = (1 << ztp->srcfmt); hdr->dstfmt = (1 << ztp->dstfmt); if (ioctl(fd, ZT_TRANSCODE_OP, &x)) { ast_log(LOG_ERROR, "Unable to attach transcoder: %s\n", strerror(errno)); munmap(hdr, sizeof(*hdr)); close(fd); return NULL; } ztp->fd = fd; ztp->hdr = hdr; return (struct ast_translator_pvt *) ztp; } static struct ast_frame *fakesrc_sample(void) { /* Don't bother really trying to test hardware ones. */ static struct ast_frame f = { .frametype = AST_FRAME_VOICE, .samples = 240, .src = __PRETTY_FUNCTION__ }; return &f; } static int register_translator(int dst, int src) { struct translator *zt; int res; if (!(zt = calloc(1, sizeof(*zt)))) { ast_log(LOG_ERROR, "Could not allocate translator\n"); return -1; } snprintf((char *) (zt->t.name), sizeof(zt->t.name), "zap%sto%s", ast_getformatname((1 << src)), ast_getformatname((1 << dst))); if(src == 8 && dst == 2) /* G.729 to Ulaw */ zt->t.newpvt = zap_new_g729toulaw; else if(src == 8 && dst == 3) /* G.729 to Alaw */ zt->t.newpvt = zap_new_g729toalaw; else if(src == 2 && dst == 8) /* Ulaw to G.729 */ zt->t.newpvt = zap_new_ulawtog729; else if(src == 3 && dst == 8) /* Alaw to G.729 */ zt->t.newpvt = zap_new_alawtog729; else if(src == 0 && dst == 2) /* G.723 to Ulaw */ zt->t.newpvt = zap_new_g723toulaw; else if(src == 0 && dst == 3) /* G.723 to Alaw */ zt->t.newpvt = zap_new_g723toalaw; else if(src == 2 && dst == 0) /* Ulaw to G.723 */ zt->t.newpvt = zap_new_ulawtog723; else if(src == 3 && dst == 0) /* Alaw to G.723 */ zt->t.newpvt = zap_new_alawtog723; zt->t.frameout = zap_frameout; zt->t.destroy = zap_destroy; zt->t.sample = fakesrc_sample; zt->t.framein = zap_framein; zt->t.srcfmt = (1 << src); zt->t.dstfmt = (1 << dst); if ((res = ast_register_translator(&zt->t))) { free(zt); return -1; } AST_LIST_LOCK(&zap_translators); AST_LIST_INSERT_HEAD(&zap_translators, zt, entry); AST_LIST_UNLOCK(&zap_translators); global_format_map.map[dst][src] = 1; return res; } static void drop_translator(int dst, int src) { struct translator *cur; AST_LIST_LOCK(&zap_translators); AST_LIST_TRAVERSE_SAFE_BEGIN(&zap_translators, cur, entry) { if (cur->t.srcfmt != src) continue; if (cur->t.dstfmt != dst) continue; AST_LIST_REMOVE_CURRENT(&zap_translators, entry); ast_unregister_translator(&cur->t); free(cur); global_format_map.map[dst][src] = 0; break; } AST_LIST_TRAVERSE_SAFE_END; AST_LIST_UNLOCK(&zap_translators); } static void unregister_translators(void) { struct translator *cur; AST_LIST_LOCK(&zap_translators); while ((cur = AST_LIST_REMOVE_HEAD(&zap_translators, entry))) { ast_unregister_translator(&cur->t); free(cur); } AST_LIST_UNLOCK(&zap_translators); } static void parse_config(void) { struct ast_variable *var; struct ast_config *cfg = ast_config_load("codecs.conf"); if (!cfg) return; for (var = ast_variable_browse(cfg, "plc"); var; var = var->next) { if (!strcasecmp(var->name, "genericplc")) { global_useplc = ast_true(var->value); if (option_verbose > 2) ast_verbose(VERBOSE_PREFIX_3 "codec_zap: %susing generic PLC\n", global_useplc ? "" : "not "); } } ast_config_destroy(cfg); } static int build_translators(struct format_map *map, unsigned int dstfmts, unsigned int srcfmts) { unsigned int src, dst; for (src = 0; src < 32; src++) { for (dst = 0; dst < 32; dst++) { if (!(srcfmts & (1<< src))) continue; if (!(dstfmts & (1 << dst))) continue; if (global_format_map.map[dst][src]) continue; if (!register_translator(dst, src)) map->map[dst][src] = 1; else return 0; } } return 1; } static int find_transcoders(void) { struct zt_transcode_info info = { 0, }; struct format_map map = { { { 0 } } }; int fd, res; unsigned int x, y; info.op = ZT_TCOP_GETINFO; if ((fd = open("/dev/zap/transcode", O_RDWR)) < 0) { ast_log(LOG_DEBUG, "No Zaptel transcoder support!\n"); return 0; } ast_mutex_lock(&channelcount); totalchannels = 0; ast_mutex_unlock(&channelcount); for (info.tcnum = 0; !(res = ioctl(fd, ZT_TRANSCODE_OP, &info)); info.tcnum++) { if (option_verbose > 1) ast_verbose(VERBOSE_PREFIX_2 "Found transcoder '%s'.\n", info.name); if(build_translators(&map, info.dstfmts, info.srcfmts)) { ast_mutex_lock(&channelcount); totalchannels += info.numchannels; ast_mutex_unlock(&channelcount); } } close(fd); if (!info.tcnum && (option_verbose > 1)) ast_verbose(VERBOSE_PREFIX_2 "No hardware transcoders found.\n"); for (x = 0; x < 32; x++) { for (y = 0; y < 32; y++) { if (!map.map[x][y] && global_format_map.map[x][y]) drop_translator(x, y); } } ast_mutex_lock(&channelcount); totalchannels = totalchannels/2; ast_mutex_unlock(&channelcount); return 0; } int reload(void) { parse_config(); return 0; } int unload_module(void) { if(!localusecnt) return -1; unregister_translators(); ast_cli_unregister_multiple(transcoder_cli, sizeof(transcoder_cli) / sizeof(struct ast_cli_entry)); return 0; } int load_module(void) { ast_mutex_init(&channelcount); parse_config(); find_transcoders(); ast_cli_register_multiple(transcoder_cli, sizeof(transcoder_cli) / sizeof(struct ast_cli_entry)); return 0; } char *description(void) { return tdesc; } int usecount(void) { int res; STANDARD_USECOUNT(res); return res; } char *key() { return ASTERISK_GPL_KEY; }