/* * FreeSWITCH Modular Media Switching Software Library / Soft-Switch Application * Copyright (C) 2005-2010, Anthony Minessale II * * Version: MPL 1.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is FreeSWITCH Modular Media Switching Software Library / G722 codec module * * The Initial Developer of the Original Code is * Brian K. West * Portions created by the Initial Developer are Copyright (C) * the Initial Developer. All Rights Reserved. * * Contributor(s): * Brian K. West * Anthony Minessale II * Michael Jerris * * mod_spandsp_codecs.c -- VoIP Codecs (G.711, G.722, G.726, GSM-FR, IMA_ADPCM, LPC10) * * This module wouldn't be possible without generous contributions from Steve Underwood. Thanks! * */ #include "mod_spandsp.h" /* LPC10 - START */ struct lpc10_context { lpc10_encode_state_t *encoder_object; lpc10_decode_state_t *decoder_object; }; static switch_status_t switch_lpc10_init(switch_codec_t *codec, switch_codec_flag_t flags, const switch_codec_settings_t *codec_settings) { uint32_t encoding, decoding; struct lpc10_context *context = NULL; encoding = (flags & SWITCH_CODEC_FLAG_ENCODE); decoding = (flags & SWITCH_CODEC_FLAG_DECODE); if (!(encoding || decoding) || (!(context = switch_core_alloc(codec->memory_pool, sizeof(struct lpc10_context))))) { return SWITCH_STATUS_FALSE; } else { if (encoding) { context->encoder_object = lpc10_encode_init(context->encoder_object, TRUE); } if (decoding) { context->decoder_object = lpc10_decode_init(context->decoder_object, TRUE); } codec->private_info = context; return SWITCH_STATUS_SUCCESS; } } static switch_status_t switch_lpc10_destroy(switch_codec_t *codec) { struct lpc10_context *context = codec->private_info; codec->private_info = NULL; if (!context) { return SWITCH_STATUS_FALSE; } if (context->encoder_object) lpc10_encode_free(context->encoder_object); context->encoder_object = NULL; if (context->decoder_object) lpc10_decode_free(context->decoder_object); context->decoder_object = NULL; return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_lpc10_encode(switch_codec_t *codec, switch_codec_t *other_codec, void *decoded_data, uint32_t decoded_data_len, uint32_t decoded_rate, void *encoded_data, uint32_t *encoded_data_len, uint32_t *encoded_rate, unsigned int *flag) { struct lpc10_context *context = codec->private_info; if (!context) { return SWITCH_STATUS_FALSE; } *encoded_data_len = lpc10_encode(context->encoder_object, (uint8_t *) encoded_data, (int16_t *) decoded_data, decoded_data_len / 2); return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_lpc10_decode(switch_codec_t *codec, switch_codec_t *other_codec, void *encoded_data, uint32_t encoded_data_len, uint32_t encoded_rate, void *decoded_data, uint32_t *decoded_data_len, uint32_t *decoded_rate, unsigned int *flag) { struct lpc10_context *context = codec->private_info; if (!context) { return SWITCH_STATUS_FALSE; } *decoded_data_len = (2 * lpc10_decode(context->decoder_object, (int16_t *) decoded_data, (uint8_t *) encoded_data, encoded_data_len)); return SWITCH_STATUS_SUCCESS; } /* LPC10 - END */ /* GSM - START */ struct gsm_context { gsm0610_state_t *decoder_object; gsm0610_state_t *encoder_object; }; static switch_status_t switch_gsm_init(switch_codec_t *codec, switch_codec_flag_t flags, const switch_codec_settings_t *codec_settings) { uint32_t encoding, decoding; struct gsm_context *context = NULL; encoding = (flags & SWITCH_CODEC_FLAG_ENCODE); decoding = (flags & SWITCH_CODEC_FLAG_DECODE); if (!(encoding || decoding) || (!(context = switch_core_alloc(codec->memory_pool, sizeof(*context))))) { return SWITCH_STATUS_FALSE; } else { if (encoding) { context->encoder_object = gsm0610_init(context->encoder_object, GSM0610_PACKING_VOIP); } if (decoding) { context->decoder_object = gsm0610_init(context->decoder_object, GSM0610_PACKING_VOIP); } codec->private_info = context; return SWITCH_STATUS_SUCCESS; } } static switch_status_t switch_gsm_encode(switch_codec_t *codec, switch_codec_t *other_codec, void *decoded_data, uint32_t decoded_data_len, uint32_t decoded_rate, void *encoded_data, uint32_t *encoded_data_len, uint32_t *encoded_rate, unsigned int *flag) { struct gsm_context *context = codec->private_info; if (!context) { return SWITCH_STATUS_FALSE; } *encoded_data_len = gsm0610_encode(context->encoder_object, (uint8_t *) encoded_data, (int16_t *) decoded_data, decoded_data_len / 2); return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_gsm_decode(switch_codec_t *codec, switch_codec_t *other_codec, void *encoded_data, uint32_t encoded_data_len, uint32_t encoded_rate, void *decoded_data, uint32_t *decoded_data_len, uint32_t *decoded_rate, unsigned int *flag) { struct gsm_context *context = codec->private_info; if (!context) { return SWITCH_STATUS_FALSE; } *decoded_data_len = (2 * gsm0610_decode(context->decoder_object, (int16_t *) decoded_data, (uint8_t *) encoded_data, encoded_data_len)); return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_gsm_destroy(switch_codec_t *codec) { struct gsm_context *context = codec->private_info; codec->private_info = NULL; if (!context) { return SWITCH_STATUS_FALSE; } if (context->decoder_object) gsm0610_free(context->decoder_object); context->decoder_object = NULL; if (context->encoder_object) gsm0610_free(context->encoder_object); context->encoder_object = NULL; return SWITCH_STATUS_SUCCESS; } /* GSM - END */ #ifdef ENABLE_G711 /* G711 - START */ static switch_status_t switch_g711u_init(switch_codec_t *codec, switch_codec_flag_t flags, const switch_codec_settings_t *codec_settings) { uint32_t encoding, decoding; encoding = (flags & SWITCH_CODEC_FLAG_ENCODE); decoding = (flags & SWITCH_CODEC_FLAG_DECODE); if (!(encoding || decoding)) { return SWITCH_STATUS_FALSE; } else { return SWITCH_STATUS_SUCCESS; } } static switch_status_t switch_g711u_encode(switch_codec_t *codec, switch_codec_t *other_codec, void *decoded_data, uint32_t decoded_data_len, uint32_t decoded_rate, void *encoded_data, uint32_t *encoded_data_len, uint32_t *encoded_rate, unsigned int *flag) { short *dbuf; unsigned char *ebuf; uint32_t i; dbuf = decoded_data; ebuf = encoded_data; for (i = 0; i < decoded_data_len / sizeof(short); i++) { ebuf[i] = linear_to_ulaw(dbuf[i]); } *encoded_data_len = i; return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_g711u_decode(switch_codec_t *codec, switch_codec_t *other_codec, void *encoded_data, uint32_t encoded_data_len, uint32_t encoded_rate, void *decoded_data, uint32_t *decoded_data_len, uint32_t *decoded_rate, unsigned int *flag) { short *dbuf; unsigned char *ebuf; uint32_t i; dbuf = decoded_data; ebuf = encoded_data; if (*flag & SWITCH_CODEC_FLAG_SILENCE) { memset(dbuf, 0, codec->implementation->decoded_bytes_per_packet); *decoded_data_len = codec->implementation->decoded_bytes_per_packet; } else { for (i = 0; i < encoded_data_len; i++) { dbuf[i] = ulaw_to_linear(ebuf[i]); } *decoded_data_len = i * 2; } return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_g711u_destroy(switch_codec_t *codec) { return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_g711a_init(switch_codec_t *codec, switch_codec_flag_t flags, const switch_codec_settings_t *codec_settings) { uint32_t encoding, decoding; encoding = (flags & SWITCH_CODEC_FLAG_ENCODE); decoding = (flags & SWITCH_CODEC_FLAG_DECODE); if (!(encoding || decoding)) { return SWITCH_STATUS_FALSE; } else { return SWITCH_STATUS_SUCCESS; } } static switch_status_t switch_g711a_encode(switch_codec_t *codec, switch_codec_t *other_codec, void *decoded_data, uint32_t decoded_data_len, uint32_t decoded_rate, void *encoded_data, uint32_t *encoded_data_len, uint32_t *encoded_rate, unsigned int *flag) { short *dbuf; unsigned char *ebuf; uint32_t i; dbuf = decoded_data; ebuf = encoded_data; for (i = 0; i < decoded_data_len / sizeof(short); i++) { ebuf[i] = linear_to_alaw(dbuf[i]); } *encoded_data_len = i; return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_g711a_decode(switch_codec_t *codec, switch_codec_t *other_codec, void *encoded_data, uint32_t encoded_data_len, uint32_t encoded_rate, void *decoded_data, uint32_t *decoded_data_len, uint32_t *decoded_rate, unsigned int *flag) { short *dbuf; unsigned char *ebuf; uint32_t i; dbuf = decoded_data; ebuf = encoded_data; if (*flag & SWITCH_CODEC_FLAG_SILENCE) { memset(dbuf, 0, codec->implementation->decoded_bytes_per_packet); *decoded_data_len = codec->implementation->decoded_bytes_per_packet; } else { for (i = 0; i < encoded_data_len; i++) { dbuf[i] = alaw_to_linear(ebuf[i]); } *decoded_data_len = i * 2; } return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_g711a_destroy(switch_codec_t *codec) { return SWITCH_STATUS_SUCCESS; } /* G711 - END */ #endif /* G722 - START */ struct g722_context { g722_decode_state_t *decoder_object; g722_encode_state_t *encoder_object; }; static switch_status_t switch_g722_init(switch_codec_t *codec, switch_codec_flag_t flags, const switch_codec_settings_t *codec_settings) { uint32_t encoding, decoding; struct g722_context *context = NULL; encoding = (flags & SWITCH_CODEC_FLAG_ENCODE); decoding = (flags & SWITCH_CODEC_FLAG_DECODE); if (!(encoding || decoding) || (!(context = switch_core_alloc(codec->memory_pool, sizeof(struct g722_context))))) { return SWITCH_STATUS_FALSE; } else { if (encoding) { context->encoder_object = g722_encode_init(context->encoder_object, 64000, G722_PACKED); } if (decoding) { context->decoder_object = g722_decode_init(context->decoder_object, 64000, G722_PACKED); } } codec->private_info = context; return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_g722_encode(switch_codec_t *codec, switch_codec_t *other_codec, void *decoded_data, uint32_t decoded_data_len, uint32_t decoded_rate, void *encoded_data, uint32_t *encoded_data_len, uint32_t *encoded_rate, unsigned int *flag) { struct g722_context *context = codec->private_info; if (!context) { return SWITCH_STATUS_FALSE; } *encoded_data_len = g722_encode(context->encoder_object, (uint8_t *) encoded_data, (int16_t *) decoded_data, decoded_data_len / 2); return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_g722_decode(switch_codec_t *codec, switch_codec_t *other_codec, void *encoded_data, uint32_t encoded_data_len, uint32_t encoded_rate, void *decoded_data, uint32_t *decoded_data_len, uint32_t *decoded_rate, unsigned int *flag) { struct g722_context *context = codec->private_info; if (!context) { return SWITCH_STATUS_FALSE; } *decoded_data_len = (2 * g722_decode(context->decoder_object, (int16_t *) decoded_data, (uint8_t *) encoded_data, encoded_data_len)); return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_g722_destroy(switch_codec_t *codec) { struct g722_context *context = codec->private_info; codec->private_info = NULL; if (!context) { return SWITCH_STATUS_FALSE; } if (context->decoder_object) g722_decode_free(context->decoder_object); context->decoder_object = NULL; if (context->encoder_object) g722_encode_free(context->encoder_object); context->encoder_object = NULL; return SWITCH_STATUS_SUCCESS; } /* G722 - END */ /* G726 - START */ static switch_status_t switch_g726_init(switch_codec_t *codec, switch_codec_flag_t flags, const switch_codec_settings_t *codec_settings) { uint32_t encoding, decoding; int packing = G726_PACKING_RIGHT; g726_state_t *context = NULL; encoding = (flags & SWITCH_CODEC_FLAG_ENCODE); decoding = (flags & SWITCH_CODEC_FLAG_DECODE); if (!(encoding || decoding)) { return SWITCH_STATUS_FALSE; } if ((flags & SWITCH_CODEC_FLAG_AAL2 || strstr(codec->implementation->iananame, "AAL2"))) { packing = G726_PACKING_LEFT; } context = g726_init(context, codec->implementation->bits_per_second, G726_ENCODING_LINEAR, packing); codec->private_info = context; return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_g726_destroy(switch_codec_t *codec) { g726_state_t *context = codec->private_info; if (!context) { return SWITCH_STATUS_FALSE; } g726_free(context); codec->private_info = NULL; return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_g726_encode(switch_codec_t *codec, switch_codec_t *other_codec, void *decoded_data, uint32_t decoded_data_len, uint32_t decoded_rate, void *encoded_data, uint32_t *encoded_data_len, uint32_t *encoded_rate, unsigned int *flag) { g726_state_t *context = codec->private_info; if (!context) { return SWITCH_STATUS_FALSE; } *encoded_data_len = g726_encode(context, (uint8_t *) encoded_data, (int16_t *) decoded_data, decoded_data_len / 2); return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_g726_decode(switch_codec_t *codec, switch_codec_t *other_codec, void *encoded_data, uint32_t encoded_data_len, uint32_t encoded_rate, void *decoded_data, uint32_t *decoded_data_len, uint32_t *decoded_rate, unsigned int *flag) { g726_state_t *context = codec->private_info; if (!context) { return SWITCH_STATUS_FALSE; } *decoded_data_len = (2 * g726_decode(context, (int16_t *) decoded_data, (uint8_t *) encoded_data, encoded_data_len)); return SWITCH_STATUS_SUCCESS; } /* G726 - START */ /* IMA_ADPCM - START */ struct ima_adpcm_context { ima_adpcm_state_t *decoder_object; ima_adpcm_state_t *encoder_object; }; static switch_status_t switch_adpcm_init(switch_codec_t *codec, switch_codec_flag_t flags, const switch_codec_settings_t *codec_settings) { uint32_t encoding, decoding; struct ima_adpcm_context *context = NULL; encoding = (flags & SWITCH_CODEC_FLAG_ENCODE); decoding = (flags & SWITCH_CODEC_FLAG_DECODE); if (!(encoding || decoding) || (!(context = switch_core_alloc(codec->memory_pool, sizeof(*context))))) { return SWITCH_STATUS_FALSE; } else { if (encoding) { context->encoder_object = ima_adpcm_init(context->encoder_object, IMA_ADPCM_DVI4, 0); } if (decoding) { context->decoder_object = ima_adpcm_init(context->decoder_object, IMA_ADPCM_DVI4, 0); } codec->private_info = context; return SWITCH_STATUS_SUCCESS; } } static switch_status_t switch_adpcm_encode(switch_codec_t *codec, switch_codec_t *other_codec, void *decoded_data, uint32_t decoded_data_len, uint32_t decoded_rate, void *encoded_data, uint32_t *encoded_data_len, uint32_t *encoded_rate, unsigned int *flag) { struct ima_adpcm_context *context = codec->private_info; if (!context) { return SWITCH_STATUS_FALSE; } *encoded_data_len = ima_adpcm_encode(context->encoder_object, (uint8_t *) encoded_data, (int16_t *) decoded_data, decoded_data_len / 2); return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_adpcm_decode(switch_codec_t *codec, switch_codec_t *other_codec, void *encoded_data, uint32_t encoded_data_len, uint32_t encoded_rate, void *decoded_data, uint32_t *decoded_data_len, uint32_t *decoded_rate, unsigned int *flag) { struct ima_adpcm_context *context = codec->private_info; if (!context) { return SWITCH_STATUS_FALSE; } *decoded_data_len = (2 * ima_adpcm_decode(context->decoder_object, (int16_t *) decoded_data, (uint8_t *) encoded_data, encoded_data_len)); return SWITCH_STATUS_SUCCESS; } static switch_status_t switch_adpcm_destroy(switch_codec_t *codec) { struct ima_adpcm_context *context = codec->private_info; codec->private_info = NULL; if (!context) { return SWITCH_STATUS_FALSE; } if (context->decoder_object) ima_adpcm_free(context->decoder_object); context->decoder_object = NULL; if (context->encoder_object) ima_adpcm_free(context->encoder_object); context->encoder_object = NULL; return SWITCH_STATUS_SUCCESS; } /* IMA_ADPCM - END */ switch_status_t mod_spandsp_codecs_load(switch_loadable_module_interface_t **module_interface, switch_memory_pool_t *pool) { switch_codec_interface_t *codec_interface; int mpf, spf, bpf, ebpf, count; /* IMA_ADPCM */ mpf = 10000, spf = 80, bpf = 160, ebpf = 80; SWITCH_ADD_CODEC(codec_interface, "ADPCM (IMA)"); for (count = 12; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 5, /* the IANA code number */ "DVI4", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 8000, /* actual samples transferred per second */ 32000, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ (ebpf * count) + 4, /* number of bytes per frame compressed */ 1, /* number of channels represented */ spf * count, /* number of frames per network packet */ switch_adpcm_init, /* function to initialize a codec handle using this implementation */ switch_adpcm_encode, /* function to encode raw data into encoded data */ switch_adpcm_decode, /* function to decode encoded data into raw data */ switch_adpcm_destroy); /* deinitalize a codec handle using this implementation */ } mpf = 10000, spf = 160, bpf = 320, ebpf = 160; for (count = 6; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 6, /* the IANA code number */ "DVI4", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 16000, /* samples transferred per second */ 16000, /* actual samples transferred per second */ 64000, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ (ebpf * count) + 4, /* number of bytes per frame compressed */ 1, /* number of channels represented */ spf * count, /* number of frames per network packet */ switch_adpcm_init, /* function to initialize a codec handle using this implementation */ switch_adpcm_encode, /* function to encode raw data into encoded data */ switch_adpcm_decode, /* function to decode encoded data into raw data */ switch_adpcm_destroy); /* deinitalize a codec handle using this implementation */ } /* G726 */ mpf = 10000, spf = 80, bpf = 160, ebpf = 20; SWITCH_ADD_CODEC(codec_interface, "G.726 16k (AAL2)"); for (count = 12; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 124, /* the IANA code number */ "AAL2-G726-16", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 8000, /* actual samples transferred per second */ 16000, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ ebpf * count, /* number of bytes per frame compressed */ 1, /* number of channels represented */ count * 10, /* number of frames per network packet */ switch_g726_init, /* function to initialize a codec handle using this implementation */ switch_g726_encode, /* function to encode raw data into encoded data */ switch_g726_decode, /* function to decode encoded data into raw data */ switch_g726_destroy); /* deinitalize a codec handle using this implementation */ } SWITCH_ADD_CODEC(codec_interface, "G.726 16k"); for (count = 12; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 124, /* the IANA code number */ "G726-16", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 8000, /* actual samples transferred per second */ 16000, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ ebpf * count, /* number of bytes per frame compressed */ 1, /* number of channels represented */ count * 10, /* number of frames per network packet */ switch_g726_init, /* function to initialize a codec handle using this implementation */ switch_g726_encode, /* function to encode raw data into encoded data */ switch_g726_decode, /* function to decode encoded data into raw data */ switch_g726_destroy); /* deinitalize a codec handle using this implementation */ } /* Increase encoded bytes per frame by 10 */ ebpf = ebpf + 10; SWITCH_ADD_CODEC(codec_interface, "G.726 24k (AAL2)"); for (count = 12; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 123, /* the IANA code number */ "AAL2-G726-24", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 8000, /* actual samples transferred per second */ 24000, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ ebpf * count, /* number of bytes per frame compressed */ 1, /* number of channels represented */ count * 10, /* number of frames per network packet */ switch_g726_init, /* function to initialize a codec handle using this implementation */ switch_g726_encode, /* function to encode raw data into encoded data */ switch_g726_decode, /* function to decode encoded data into raw data */ switch_g726_destroy); /* deinitalize a codec handle using this implementation */ } SWITCH_ADD_CODEC(codec_interface, "G.726 24k"); for (count = 12; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 123, /* the IANA code number */ "G726-24", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 8000, /* actual samples transferred per second */ 24000, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ ebpf * count, /* number of bytes per frame compressed */ 1, /* number of channels represented */ count * 10, /* number of frames per network packet */ switch_g726_init, /* function to initialize a codec handle using this implementation */ switch_g726_encode, /* function to encode raw data into encoded data */ switch_g726_decode, /* function to decode encoded data into raw data */ switch_g726_destroy); /* deinitalize a codec handle using this implementation */ } /* Increase encoded bytes per frame by 10 */ ebpf = ebpf + 10; SWITCH_ADD_CODEC(codec_interface, "G.726 32k (AAL2)"); for (count = 12; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 122, /* the IANA code number */ "AAL2-G726-32", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 8000, /* actual samples transferred per second */ 32000, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ ebpf * count, /* number of bytes per frame compressed */ 1, /* number of channels represented */ count * 10, /* number of frames per network packet */ switch_g726_init, /* function to initialize a codec handle using this implementation */ switch_g726_encode, /* function to encode raw data into encoded data */ switch_g726_decode, /* function to decode encoded data into raw data */ switch_g726_destroy); /* deinitalize a codec handle using this implementation */ } SWITCH_ADD_CODEC(codec_interface, "G.726 32k"); for (count = 12; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 122, /* the IANA code number */ "G726-32", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 8000, /* actual samples transferred per second */ 32000, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ ebpf * count, /* number of bytes per frame compressed */ 1, /* number of channels represented */ count * 10, /* number of frames per network packet */ switch_g726_init, /* function to initialize a codec handle using this implementation */ switch_g726_encode, /* function to encode raw data into encoded data */ switch_g726_decode, /* function to decode encoded data into raw data */ switch_g726_destroy); /* deinitalize a codec handle using this implementation */ } /* Increase encoded bytes per frame by 10 */ ebpf = ebpf + 10; SWITCH_ADD_CODEC(codec_interface, "G.726 40k (AAL2)"); for (count = 12; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 121, /* the IANA code number */ "AAL2-G726-40", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 8000, /* actual samples transferred per second */ 40000, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ ebpf * count, /* number of bytes per frame compressed */ 1, /* number of channels represented */ count * 10, /* number of frames per network packet */ switch_g726_init, /* function to initialize a codec handle using this implementation */ switch_g726_encode, /* function to encode raw data into encoded data */ switch_g726_decode, /* function to decode encoded data into raw data */ switch_g726_destroy); /* deinitalize a codec handle using this implementation */ } SWITCH_ADD_CODEC(codec_interface, "G.726 40k"); for (count = 12; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 121, /* the IANA code number */ "G726-40", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 8000, /* actual samples transferred per second */ 40000, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ ebpf * count, /* number of bytes per frame compressed */ 1, /* number of channels represented */ count * 10, /* number of frames per network packet */ switch_g726_init, /* function to initialize a codec handle using this implementation */ switch_g726_encode, /* function to encode raw data into encoded data */ switch_g726_decode, /* function to decode encoded data into raw data */ switch_g726_destroy); /* deinitalize a codec handle using this implementation */ } /* G722 */ mpf = 10000, spf = 80, bpf = 320, ebpf = 80; SWITCH_ADD_CODEC(codec_interface, "G.722"); for (count = 6; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 9, /* the IANA code number */ "G722", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 16000, /* actual samples transferred per second */ 64000, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ ebpf * count, /* number of bytes per frame compressed */ 1, /* number of channels represented */ spf * count, /* number of frames per network packet */ switch_g722_init, /* function to initialize a codec handle using this implementation */ switch_g722_encode, /* function to encode raw data into encoded data */ switch_g722_decode, /* function to decode encoded data into raw data */ switch_g722_destroy); /* deinitalize a codec handle using this implementation */ } #ifdef ENABLE_G711 /* G711 */ mpf = 10000, spf = 80, bpf = 160, ebpf = 80; SWITCH_ADD_CODEC(codec_interface, "G.711 ulaw"); for (count = 12; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 0, /* the IANA code number */ "PCMU", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 8000, /* actual samples transferred per second */ 64000, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ ebpf * count, /* number of bytes per frame compressed */ 1, /* number of channels represented */ spf * count, /* number of frames per network packet */ switch_g711u_init, /* function to initialize a codec handle using this implementation */ switch_g711u_encode, /* function to encode raw data into encoded data */ switch_g711u_decode, /* function to decode encoded data into raw data */ switch_g711u_destroy); /* deinitalize a codec handle using this implementation */ } SWITCH_ADD_CODEC(codec_interface, "G.711 alaw"); for (count = 12; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 8, /* the IANA code number */ "PCMA", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 8000, /* actual samples transferred per second */ 64000, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ ebpf * count, /* number of bytes per frame compressed */ 1, /* number of channels represented */ spf * count, /* number of frames per network packet */ switch_g711a_init, /* function to initialize a codec handle using this implementation */ switch_g711a_encode, /* function to encode raw data into encoded data */ switch_g711a_decode, /* function to decode encoded data into raw data */ switch_g711a_destroy); /* deinitalize a codec handle using this implementation */ } #endif /* GSM */ mpf = 20000, spf = 160, bpf = 320, ebpf = 33; SWITCH_ADD_CODEC(codec_interface, "GSM"); for (count = 6; count > 0; count--) { switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 3, /* the IANA code number */ "GSM", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 8000, /* actual samples transferred per second */ 13200, /* bits transferred per second */ mpf * count, /* number of microseconds per frame */ spf * count, /* number of samples per frame */ bpf * count, /* number of bytes per frame decompressed */ ebpf * count, /* number of bytes per frame compressed */ 1, /* number of channels represented */ count, /* number of frames per network packet */ switch_gsm_init, /* function to initialize a codec handle using this implementation */ switch_gsm_encode, /* function to encode raw data into encoded data */ switch_gsm_decode, /* function to decode encoded data into raw data */ switch_gsm_destroy); /* deinitalize a codec handle using this implementation */ } /* LPC10 */ #if SWITCH_MAX_INTERVAL >= 90 SWITCH_ADD_CODEC(codec_interface, "LPC-10"); switch_core_codec_add_implementation(pool, codec_interface, SWITCH_CODEC_TYPE_AUDIO, /* enumeration defining the type of the codec */ 7, /* the IANA code number */ "LPC", /* the IANA code name */ NULL, /* default fmtp to send (can be overridden by the init function) */ 8000, /* samples transferred per second */ 8000, /* actual samples transferred per second */ 2400, /* bits transferred per second */ 90000, /* number of microseconds per frame */ 720, /* number of samples per frame */ 1440, /* number of bytes per frame decompressed */ 28, /* number of bytes per frame compressed */ 1, /* number of channels represented */ 4, /* number of frames per network packet */ switch_lpc10_init, /* function to initialize a codec handle using this implementation */ switch_lpc10_encode, /* function to encode raw data into encoded data */ switch_lpc10_decode, /* function to decode encoded data into raw data */ switch_lpc10_destroy); /* deinitalize a codec handle using this implementation */ #endif /* indicate that the module should continue to be loaded */ return SWITCH_STATUS_SUCCESS; } /* For Emacs: * Local Variables: * mode:c * indent-tabs-mode:t * tab-width:4 * c-basic-offset:4 * End: * For VIM: * vim:set softtabstop=4 shiftwidth=4 tabstop=4: */