/* * Copyrightm (C) 2010 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include "AudioCodec.h" #include "gsmamr_dec.h" #include "gsmamr_enc.h" namespace { const int gFrameBits[8] = {95, 103, 118, 134, 148, 159, 204, 244}; //------------------------------------------------------------------------------ // See RFC 4867 for the encoding details. class AmrCodec : public AudioCodec { public: AmrCodec() { if (AMREncodeInit(&mEncoder, &mSidSync, false)) { mEncoder = NULL; } if (GSMInitDecode(&mDecoder, (Word8 *)"RTP")) { mDecoder = NULL; } } ~AmrCodec() { if (mEncoder) { AMREncodeExit(&mEncoder, &mSidSync); } if (mDecoder) { GSMDecodeFrameExit(&mDecoder); } } int set(int sampleRate, const char *fmtp); int encode(void *payload, int16_t *samples); int decode(int16_t *samples, int count, void *payload, int length); private: void *mEncoder; void *mSidSync; void *mDecoder; int mMode; int mModeSet; bool mOctetAligned; }; int AmrCodec::set(int sampleRate, const char *fmtp) { // These parameters are not supported. if (strcasestr(fmtp, "crc=1") || strcasestr(fmtp, "robust-sorting=1") || strcasestr(fmtp, "interleaving=")) { return -1; } // Handle mode-set and octet-align. const char *modes = strcasestr(fmtp, "mode-set="); if (modes) { mMode = 0; mModeSet = 0; for (char c = *modes; c && c != ' '; c = *++modes) { if (c >= '0' && c <= '7') { int mode = c - '0'; if (mode > mMode) { mMode = mode; } mModeSet |= 1 << mode; } } } else { mMode = 7; mModeSet = 0xFF; } mOctetAligned = (strcasestr(fmtp, "octet-align=1") != NULL); // TODO: handle mode-change-*. return (sampleRate == 8000 && mEncoder && mDecoder) ? 160 : -1; } int AmrCodec::encode(void *payload, int16_t *samples) { unsigned char *bytes = (unsigned char *)payload; Frame_Type_3GPP type; int length = AMREncode(mEncoder, mSidSync, (Mode)mMode, samples, bytes + 1, &type, AMR_TX_WMF); if (type != mMode || length != (8 + gFrameBits[mMode] + 7) >> 3) { return -1; } if (mOctetAligned) { bytes[0] = 0xF0; bytes[1] = (mMode << 3) | 0x04; ++length; } else { // CMR = 15 (4-bit), F = 0 (1-bit), FT = mMode (4-bit), Q = 1 (1-bit). bytes[0] = 0xFF; bytes[1] = 0xC0 | (mMode << 1) | 1; // Shift left 6 bits and update the length. bytes[length + 1] = 0; for (int i = 0; i <= length; ++i) { bytes[i] = (bytes[i] << 6) | (bytes[i + 1] >> 2); } length = (10 + gFrameBits[mMode] + 7) >> 3; } return length; } int AmrCodec::decode(int16_t *samples, int /* count */, void *payload, int length) { unsigned char *bytes = (unsigned char *)payload; Frame_Type_3GPP type; if (length < 2) { return -1; } int request = bytes[0] >> 4; if (mOctetAligned) { if ((bytes[1] & 0xC4) != 0x04) { return -1; } type = (Frame_Type_3GPP)(bytes[1] >> 3); if (length != (16 + gFrameBits[type] + 7) >> 3) { return -1; } length -= 2; bytes += 2; } else { if ((bytes[0] & 0x0C) || !(bytes[1] & 0x40)) { return -1; } type = (Frame_Type_3GPP)((bytes[0] << 1 | bytes[1] >> 7) & 0x07); if (length != (10 + gFrameBits[type] + 7) >> 3) { return -1; } // Shift left 2 bits and update the length. --length; for (int i = 1; i < length; ++i) { bytes[i] = (bytes[i] << 2) | (bytes[i + 1] >> 6); } bytes[length] <<= 2; length = (gFrameBits[type] + 7) >> 3; ++bytes; } if (AMRDecode(mDecoder, type, bytes, samples, MIME_IETF) != length) { return -1; } // Handle CMR if (request < 8 && request != mMode) { for (int i = request; i >= 0; --i) { if (mModeSet & (1 << i)) { mMode = request; break; } } } return 160; } //------------------------------------------------------------------------------ // See RFC 3551 for the encoding details. class GsmEfrCodec : public AudioCodec { public: GsmEfrCodec() { if (AMREncodeInit(&mEncoder, &mSidSync, false)) { mEncoder = NULL; } if (GSMInitDecode(&mDecoder, (Word8 *)"RTP")) { mDecoder = NULL; } } ~GsmEfrCodec() { if (mEncoder) { AMREncodeExit(&mEncoder, &mSidSync); } if (mDecoder) { GSMDecodeFrameExit(&mDecoder); } } int set(int sampleRate, const char */* fmtp */) { return (sampleRate == 8000 && mEncoder && mDecoder) ? 160 : -1; } int encode(void *payload, int16_t *samples); int decode(int16_t *samples, int count, void *payload, int length); private: void *mEncoder; void *mSidSync; void *mDecoder; }; int GsmEfrCodec::encode(void *payload, int16_t *samples) { unsigned char *bytes = (unsigned char *)payload; Frame_Type_3GPP type; int length = AMREncode(mEncoder, mSidSync, MR122, samples, bytes, &type, AMR_TX_WMF); if (type == AMR_122 && length == 32) { bytes[0] = 0xC0 | (bytes[1] >> 4); for (int i = 1; i < 31; ++i) { bytes[i] = (bytes[i] << 4) | (bytes[i + 1] >> 4); } return 31; } return -1; } int GsmEfrCodec::decode(int16_t *samples, int count, void *payload, int length) { unsigned char *bytes = (unsigned char *)payload; int n = 0; while (n + 160 <= count && length >= 31 && (bytes[0] >> 4) == 0x0C) { for (int i = 0; i < 30; ++i) { bytes[i] = (bytes[i] << 4) | (bytes[i + 1] >> 4); } bytes[30] <<= 4; if (AMRDecode(mDecoder, AMR_122, bytes, &samples[n], MIME_IETF) != 31) { break; } n += 160; length -= 31; bytes += 31; } return n; } } // namespace AudioCodec *newAmrCodec() { return new AmrCodec; } AudioCodec *newGsmEfrCodec() { return new GsmEfrCodec; }