/** * FreeRDP: A Remote Desktop Protocol Implementation * Digital Sound Processing * * Copyright 2010-2011 Vic Lee * * 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. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include /** * Microsoft Multimedia Standards Update * http://download.microsoft.com/download/9/8/6/9863C72A-A3AA-4DDB-B1BA-CA8D17EFD2D4/RIFFNEW.pdf */ static BOOL freerdp_dsp_resample(FREERDP_DSP_CONTEXT* context, const BYTE* src, int bytes_per_sample, UINT32 schan, UINT32 srate, int sframes, UINT32 rchan, UINT32 rrate) { BYTE* dst; BYTE* p; int rframes; int rsize; int i, j; int n1, n2; int sbytes, rbytes; sbytes = bytes_per_sample * schan; rbytes = bytes_per_sample * rchan; rframes = sframes * rrate / srate; rsize = rbytes * rframes; if (rsize > (int) context->resampled_maxlength) { BYTE *newBuffer = (BYTE*) realloc(context->resampled_buffer, rsize + 1024); if (!newBuffer) return FALSE; context->resampled_maxlength = rsize + 1024; context->resampled_buffer = newBuffer; } dst = context->resampled_buffer; p = dst; for (i = 0; i < rframes; i++) { n1 = i * srate / rrate; if (n1 >= sframes) n1 = sframes - 1; n2 = (n1 * rrate == i * srate || n1 == sframes - 1 ? n1 : n1 + 1); for (j = 0; j < rbytes; j++) { /* Nearest Interpolation, probably the easiest, but works */ *p++ = (i * srate - n1 * rrate > n2 * rrate - i * srate ? src[n2 * sbytes + (j % sbytes)] : src[n1 * sbytes + (j % sbytes)]); } } context->resampled_frames = rframes; context->resampled_size = rsize; return TRUE; } /** * Microsoft IMA ADPCM specification: * * http://wiki.multimedia.cx/index.php?title=Microsoft_IMA_ADPCM * http://wiki.multimedia.cx/index.php?title=IMA_ADPCM */ static const INT16 ima_step_index_table[] = { -1, -1, -1, -1, 2, 4, 6, 8, -1, -1, -1, -1, 2, 4, 6, 8 }; static const INT16 ima_step_size_table[] = { 7, 8, 9, 10, 11, 12, 13, 14, 16, 17, 19, 21, 23, 25, 28, 31, 34, 37, 41, 45, 50, 55, 60, 66, 73, 80, 88, 97, 107, 118, 130, 143, 157, 173, 190, 209, 230, 253, 279, 307, 337, 371, 408, 449, 494, 544, 598, 658, 724, 796, 876, 963, 1060, 1166, 1282, 1411, 1552, 1707, 1878, 2066, 2272, 2499, 2749, 3024, 3327, 3660, 4026, 4428, 4871, 5358, 5894, 6484, 7132, 7845, 8630, 9493, 10442, 11487, 12635, 13899, 15289, 16818, 18500, 20350, 22385, 24623, 27086, 29794, 32767 }; static UINT16 dsp_decode_ima_adpcm_sample(ADPCM* adpcm, unsigned int channel, BYTE sample) { INT32 ss; INT32 d; ss = ima_step_size_table[adpcm->ima.last_step[channel]]; d = (ss >> 3); if (sample & 1) d += (ss >> 2); if (sample & 2) d += (ss >> 1); if (sample & 4) d += ss; if (sample & 8) d = -d; d += adpcm->ima.last_sample[channel]; if (d < -32768) d = -32768; else if (d > 32767) d = 32767; adpcm->ima.last_sample[channel] = (INT16) d; adpcm->ima.last_step[channel] += ima_step_index_table[sample]; if (adpcm->ima.last_step[channel] < 0) adpcm->ima.last_step[channel] = 0; else if (adpcm->ima.last_step[channel] > 88) adpcm->ima.last_step[channel] = 88; return (UINT16) d; } static BOOL freerdp_dsp_decode_ima_adpcm(FREERDP_DSP_CONTEXT* context, const BYTE* src, int size, int channels, int block_size) { BYTE* dst; BYTE sample; UINT16 decoded; UINT32 out_size; int channel; int i; out_size = size * 4; if (out_size > context->adpcm_maxlength) { BYTE *newBuffer = realloc(context->adpcm_buffer, out_size + 1024); if (!newBuffer) return FALSE; context->adpcm_maxlength = out_size + 1024; context->adpcm_buffer = newBuffer; } dst = context->adpcm_buffer; while (size > 0) { if (size % block_size == 0) { context->adpcm.ima.last_sample[0] = (INT16) (((UINT16)(*src)) | (((UINT16)(*(src + 1))) << 8)); context->adpcm.ima.last_step[0] = (INT16) (*(src + 2)); src += 4; size -= 4; out_size -= 16; if (channels > 1) { context->adpcm.ima.last_sample[1] = (INT16) (((UINT16)(*src)) | (((UINT16)(*(src + 1))) << 8)); context->adpcm.ima.last_step[1] = (INT16) (*(src + 2)); src += 4; size -= 4; out_size -= 16; } } if (channels > 1) { for (i = 0; i < 8; i++) { channel = (i < 4 ? 0 : 1); sample = ((*src) & 0x0f); decoded = dsp_decode_ima_adpcm_sample(&context->adpcm, channel, sample); dst[((i & 3) << 3) + (channel << 1)] = (decoded & 0xFF); dst[((i & 3) << 3) + (channel << 1) + 1] = (decoded >> 8); sample = ((*src) >> 4); decoded = dsp_decode_ima_adpcm_sample(&context->adpcm, channel, sample); dst[((i & 3) << 3) + (channel << 1) + 4] = (decoded & 0xFF); dst[((i & 3) << 3) + (channel << 1) + 5] = (decoded >> 8); src++; } dst += 32; size -= 8; } else { sample = ((*src) & 0x0f); decoded = dsp_decode_ima_adpcm_sample(&context->adpcm, 0, sample); *dst++ = (decoded & 0xFF); *dst++ = (decoded >> 8); sample = ((*src) >> 4); decoded = dsp_decode_ima_adpcm_sample(&context->adpcm, 0, sample); *dst++ = (decoded & 0xFF); *dst++ = (decoded >> 8); src++; size--; } } context->adpcm_size = dst - context->adpcm_buffer; return TRUE; } /** * 0 1 2 3 * 2 0 6 4 10 8 14 12 * * 4 5 6 7 * 3 1 7 5 11 9 15 13 */ static const struct { BYTE byte_num; BYTE byte_shift; } ima_stereo_encode_map[] = { { 0, 0 }, { 4, 0 }, { 0, 4 }, { 4, 4 }, { 1, 0 }, { 5, 0 }, { 1, 4 }, { 5, 4 }, { 2, 0 }, { 6, 0 }, { 2, 4 }, { 6, 4 }, { 3, 0 }, { 7, 0 }, { 3, 4 }, { 7, 4 } }; static BYTE dsp_encode_ima_adpcm_sample(ADPCM* adpcm, int channel, INT16 sample) { INT32 e; INT32 d; INT32 ss; BYTE enc; INT32 diff; ss = ima_step_size_table[adpcm->ima.last_step[channel]]; d = e = sample - adpcm->ima.last_sample[channel]; diff = ss >> 3; enc = 0; if (e < 0) { enc = 8; e = -e; } if (e >= ss) { enc |= 4; e -= ss; } ss >>= 1; if (e >= ss) { enc |= 2; e -= ss; } ss >>= 1; if (e >= ss) { enc |= 1; e -= ss; } if (d < 0) diff = d + e - diff; else diff = d - e + diff; diff += adpcm->ima.last_sample[channel]; if (diff < -32768) diff = -32768; else if (diff > 32767) diff = 32767; adpcm->ima.last_sample[channel] = (INT16) diff; adpcm->ima.last_step[channel] += ima_step_index_table[enc]; if (adpcm->ima.last_step[channel] < 0) adpcm->ima.last_step[channel] = 0; else if (adpcm->ima.last_step[channel] > 88) adpcm->ima.last_step[channel] = 88; return enc; } static BOOL freerdp_dsp_encode_ima_adpcm(FREERDP_DSP_CONTEXT* context, const BYTE* src, int size, int channels, int block_size) { int i; BYTE* dst; INT16 sample; BYTE encoded; UINT32 out_size; out_size = size / 2; if (out_size > context->adpcm_maxlength) { BYTE *newBuffer = realloc(context->adpcm_buffer, out_size + 1024); if (!newBuffer) return FALSE; context->adpcm_maxlength = out_size + 1024; context->adpcm_buffer = newBuffer; } dst = context->adpcm_buffer; while (size > 0) { if ((dst - context->adpcm_buffer) % block_size == 0) { *dst++ = context->adpcm.ima.last_sample[0] & 0xFF; *dst++ = (context->adpcm.ima.last_sample[0] >> 8) & 0xFF; *dst++ = (BYTE) context->adpcm.ima.last_step[0]; *dst++ = 0; if (channels > 1) { *dst++ = context->adpcm.ima.last_sample[1] & 0xFF; *dst++ = (context->adpcm.ima.last_sample[1] >> 8) & 0xFF; *dst++ = (BYTE) context->adpcm.ima.last_step[1]; *dst++ = 0; } } if (channels > 1) { ZeroMemory(dst, 8); for (i = 0; i < 16; i++) { sample = (INT16) (((UINT16)(*src)) | (((UINT16)(*(src + 1))) << 8)); src += 2; encoded = dsp_encode_ima_adpcm_sample(&context->adpcm, i % 2, sample); dst[ima_stereo_encode_map[i].byte_num] |= encoded << ima_stereo_encode_map[i].byte_shift; } dst += 8; size -= 32; } else { sample = (INT16) (((UINT16)(*src)) | (((UINT16)(*(src + 1))) << 8)); src += 2; encoded = dsp_encode_ima_adpcm_sample(&context->adpcm, 0, sample); sample = (INT16) (((UINT16)(*src)) | (((UINT16)(*(src + 1))) << 8)); src += 2; encoded |= dsp_encode_ima_adpcm_sample(&context->adpcm, 0, sample) << 4; *dst++ = encoded; size -= 4; } } context->adpcm_size = dst - context->adpcm_buffer; return TRUE; } /** * Microsoft ADPCM Specification: * * http://wiki.multimedia.cx/index.php?title=Microsoft_ADPCM */ static const INT32 ms_adpcm_adaptation_table[] = { 230, 230, 230, 230, 307, 409, 512, 614, 768, 614, 512, 409, 307, 230, 230, 230 }; static const INT32 ms_adpcm_coeffs1[7] = { 256, 512, 0, 192, 240, 460, 392 }; static const INT32 ms_adpcm_coeffs2[7] = { 0, -256, 0, 64, 0, -208, -232 }; static INLINE INT16 freerdp_dsp_decode_ms_adpcm_sample(ADPCM* adpcm, BYTE sample, int channel) { INT8 nibble; INT32 presample; nibble = (sample & 0x08 ? (INT8) sample - 16 : sample); presample = ((adpcm->ms.sample1[channel] * ms_adpcm_coeffs1[adpcm->ms.predictor[channel]]) + (adpcm->ms.sample2[channel] * ms_adpcm_coeffs2[adpcm->ms.predictor[channel]])) / 256; presample += nibble * adpcm->ms.delta[channel]; if (presample > 32767) presample = 32767; else if (presample < -32768) presample = -32768; adpcm->ms.sample2[channel] = adpcm->ms.sample1[channel]; adpcm->ms.sample1[channel] = presample; adpcm->ms.delta[channel] = adpcm->ms.delta[channel] * ms_adpcm_adaptation_table[sample] / 256; if (adpcm->ms.delta[channel] < 16) adpcm->ms.delta[channel] = 16; return (INT16) presample; } static BOOL freerdp_dsp_decode_ms_adpcm(FREERDP_DSP_CONTEXT* context, const BYTE* src, int size, int channels, int block_size) { BYTE* dst; BYTE sample; UINT32 out_size; out_size = size * 4; if (out_size > context->adpcm_maxlength) { BYTE *newBuffer = realloc(context->adpcm_buffer, out_size + 1024); if (!newBuffer) return FALSE; context->adpcm_maxlength = out_size + 1024; context->adpcm_buffer = newBuffer; } dst = context->adpcm_buffer; while (size > 0) { if (size % block_size == 0) { if (channels > 1) { context->adpcm.ms.predictor[0] = *src++; context->adpcm.ms.predictor[1] = *src++; context->adpcm.ms.delta[0] = *((INT16*) src); src += 2; context->adpcm.ms.delta[1] = *((INT16*) src); src += 2; context->adpcm.ms.sample1[0] = *((INT16*) src); src += 2; context->adpcm.ms.sample1[1] = *((INT16*) src); src += 2; context->adpcm.ms.sample2[0] = *((INT16*) src); src += 2; context->adpcm.ms.sample2[1] = *((INT16*) src); src += 2; size -= 14; *((INT16*) dst) = context->adpcm.ms.sample2[0]; dst += 2; *((INT16*) dst) = context->adpcm.ms.sample2[1]; dst += 2; *((INT16*) dst) = context->adpcm.ms.sample1[0]; dst += 2; *((INT16*) dst) = context->adpcm.ms.sample1[1]; dst += 2; } else { context->adpcm.ms.predictor[0] = *src++; context->adpcm.ms.delta[0] = *((INT16*) src); src += 2; context->adpcm.ms.sample1[0] = *((INT16*) src); src += 2; context->adpcm.ms.sample2[0] = *((INT16*) src); src += 2; size -= 7; *((INT16*) dst) = context->adpcm.ms.sample2[0]; dst += 2; *((INT16*) dst) = context->adpcm.ms.sample1[0]; dst += 2; } } if (channels > 1) { sample = *src++; size--; *((INT16*) dst) = freerdp_dsp_decode_ms_adpcm_sample(&context->adpcm, sample >> 4, 0); dst += 2; *((INT16*) dst) = freerdp_dsp_decode_ms_adpcm_sample(&context->adpcm, sample & 0x0F, 1); dst += 2; sample = *src++; size--; *((INT16*) dst) = freerdp_dsp_decode_ms_adpcm_sample(&context->adpcm, sample >> 4, 0); dst += 2; *((INT16*) dst) = freerdp_dsp_decode_ms_adpcm_sample(&context->adpcm, sample & 0x0F, 1); dst += 2; } else { sample = *src++; size--; *((INT16*) dst) = freerdp_dsp_decode_ms_adpcm_sample(&context->adpcm, sample >> 4, 0); dst += 2; *((INT16*) dst) = freerdp_dsp_decode_ms_adpcm_sample(&context->adpcm, sample & 0x0F, 0); dst += 2; } } context->adpcm_size = dst - context->adpcm_buffer; return TRUE; } static BYTE freerdp_dsp_encode_ms_adpcm_sample(ADPCM* adpcm, INT32 sample, int channel) { INT32 presample; INT32 errordelta; presample = ((adpcm->ms.sample1[channel] * ms_adpcm_coeffs1[adpcm->ms.predictor[channel]]) + (adpcm->ms.sample2[channel] * ms_adpcm_coeffs2[adpcm->ms.predictor[channel]])) / 256; errordelta = (sample - presample) / adpcm->ms.delta[channel]; if ((sample - presample) % adpcm->ms.delta[channel] > adpcm->ms.delta[channel] / 2) errordelta++; if (errordelta > 7) errordelta = 7; else if (errordelta < -8) errordelta = -8; presample += adpcm->ms.delta[channel] * errordelta; if (presample > 32767) presample = 32767; else if (presample < -32768) presample = -32768; adpcm->ms.sample2[channel] = adpcm->ms.sample1[channel]; adpcm->ms.sample1[channel] = presample; adpcm->ms.delta[channel] = adpcm->ms.delta[channel] * ms_adpcm_adaptation_table[(((BYTE) errordelta) & 0x0F)] / 256; if (adpcm->ms.delta[channel] < 16) adpcm->ms.delta[channel] = 16; return ((BYTE) errordelta) & 0x0F; } static BOOL freerdp_dsp_encode_ms_adpcm(FREERDP_DSP_CONTEXT* context, const BYTE* src, int size, int channels, int block_size) { BYTE* dst; INT32 sample; UINT32 out_size; out_size = size / 2; if (out_size > context->adpcm_maxlength) { BYTE *newBuffer = realloc(context->adpcm_buffer, out_size + 1024); if (!newBuffer) return FALSE; context->adpcm_maxlength = out_size + 1024; context->adpcm_buffer = newBuffer; } dst = context->adpcm_buffer; if (context->adpcm.ms.delta[0] < 16) context->adpcm.ms.delta[0] = 16; if (context->adpcm.ms.delta[1] < 16) context->adpcm.ms.delta[1] = 16; while (size > 0) { if ((dst - context->adpcm_buffer) % block_size == 0) { if (channels > 1) { *dst++ = context->adpcm.ms.predictor[0]; *dst++ = context->adpcm.ms.predictor[1]; *dst++ = (BYTE) (context->adpcm.ms.delta[0] & 0xFF); *dst++ = (BYTE) ((context->adpcm.ms.delta[0] >> 8) & 0xFF); *dst++ = (BYTE) (context->adpcm.ms.delta[1] & 0xFF); *dst++ = (BYTE) ((context->adpcm.ms.delta[1] >> 8) & 0xFF); context->adpcm.ms.sample1[0] = *((INT16*) (src + 4)); context->adpcm.ms.sample1[1] = *((INT16*) (src + 6)); context->adpcm.ms.sample2[0] = *((INT16*) (src + 0)); context->adpcm.ms.sample2[1] = *((INT16*) (src + 2)); *((INT16*) (dst + 0)) = (INT16) context->adpcm.ms.sample1[0]; *((INT16*) (dst + 2)) = (INT16) context->adpcm.ms.sample1[1]; *((INT16*) (dst + 4)) = (INT16) context->adpcm.ms.sample2[0]; *((INT16*) (dst + 6)) = (INT16) context->adpcm.ms.sample2[1]; dst += 8; src += 8; size -= 8; } else { *dst++ = context->adpcm.ms.predictor[0]; *dst++ = (BYTE) (context->adpcm.ms.delta[0] & 0xFF); *dst++ = (BYTE) ((context->adpcm.ms.delta[0] >> 8) & 0xFF); context->adpcm.ms.sample1[0] = *((INT16*) (src + 2)); context->adpcm.ms.sample2[0] = *((INT16*) (src + 0)); *((INT16*) (dst + 0)) = (INT16) context->adpcm.ms.sample1[0]; *((INT16*) (dst + 2)) = (INT16) context->adpcm.ms.sample2[0]; dst += 4; src += 4; size -= 4; } } sample = *((INT16*) src); src += 2; *dst = freerdp_dsp_encode_ms_adpcm_sample(&context->adpcm, sample, 0) << 4; sample = *((INT16*) src); src += 2; *dst += freerdp_dsp_encode_ms_adpcm_sample(&context->adpcm, sample, channels > 1 ? 1 : 0); dst++; size -= 4; } context->adpcm_size = dst - context->adpcm_buffer; return TRUE; } FREERDP_DSP_CONTEXT* freerdp_dsp_context_new(void) { FREERDP_DSP_CONTEXT* context; context = (FREERDP_DSP_CONTEXT*) calloc(1, sizeof(FREERDP_DSP_CONTEXT)); if (!context) return NULL; context->resample = freerdp_dsp_resample; context->decode_ima_adpcm = freerdp_dsp_decode_ima_adpcm; context->encode_ima_adpcm = freerdp_dsp_encode_ima_adpcm; context->decode_ms_adpcm = freerdp_dsp_decode_ms_adpcm; context->encode_ms_adpcm = freerdp_dsp_encode_ms_adpcm; return context; } void freerdp_dsp_context_free(FREERDP_DSP_CONTEXT* context) { if (context) { free(context->resampled_buffer); free(context->adpcm_buffer); free(context); } }