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author | Paul B Mahol <onemda@gmail.com> | 2020-10-05 22:24:13 +0200 |
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committer | Paul B Mahol <onemda@gmail.com> | 2020-10-12 12:20:26 +0200 |
commit | ed0001482a74b60f3d5bc5cd7e304c9d65b2fcd5 (patch) | |
tree | a5054c6b1491a61ac627261e621c4e217ceec92e /libavcodec/apedec.c | |
parent | af5ad79fe1d5efbc24ba6456fe7a1b7bc63574d9 (diff) | |
download | ffmpeg-ed0001482a74b60f3d5bc5cd7e304c9d65b2fcd5.tar.gz |
avcodec/apedec: fix decoding 24bit insane files with recent versions
Diffstat (limited to 'libavcodec/apedec.c')
-rw-r--r-- | libavcodec/apedec.c | 59 |
1 files changed, 46 insertions, 13 deletions
diff --git a/libavcodec/apedec.c b/libavcodec/apedec.c index c76c0509df..273abe2490 100644 --- a/libavcodec/apedec.c +++ b/libavcodec/apedec.c @@ -133,6 +133,21 @@ typedef struct APEPredictor { unsigned int sample_pos; } APEPredictor; +typedef struct APEPredictor64 { + int64_t *buf; + + int64_t lastA[2]; + + int64_t filterA[2]; + int64_t filterB[2]; + + uint64_t coeffsA[2][4]; ///< adaption coefficients + uint64_t coeffsB[2][5]; ///< adaption coefficients + int64_t historybuffer[HISTORY_SIZE + PREDICTOR_SIZE]; + + unsigned int sample_pos; +} APEPredictor64; + /** Decoder context */ typedef struct APEContext { AVClass *class; ///< class for AVOptions @@ -152,6 +167,7 @@ typedef struct APEContext { uint32_t CRC_state; ///< accumulated CRC int frameflags; ///< frame flags APEPredictor predictor; ///< predictor used for final reconstruction + APEPredictor64 predictor64; ///< 64bit predictor used for final reconstruction int32_t *decoded_buffer; int decoded_size; @@ -789,13 +805,20 @@ static const int32_t initial_coeffs_3930[4] = { 360, 317, -109, 98 }; +static const int64_t initial_coeffs_3930_64bit[4] = { + 360, 317, -109, 98 +}; + static void init_predictor_decoder(APEContext *ctx) { APEPredictor *p = &ctx->predictor; + APEPredictor64 *p64 = &ctx->predictor64; /* Zero the history buffers */ memset(p->historybuffer, 0, PREDICTOR_SIZE * sizeof(*p->historybuffer)); + memset(p64->historybuffer, 0, PREDICTOR_SIZE * sizeof(*p64->historybuffer)); p->buf = p->historybuffer; + p64->buf = p64->historybuffer; /* Initialize and zero the coefficients */ if (ctx->fileversion < 3930) { @@ -813,8 +836,11 @@ static void init_predictor_decoder(APEContext *ctx) } else { memcpy(p->coeffsA[0], initial_coeffs_3930, sizeof(initial_coeffs_3930)); memcpy(p->coeffsA[1], initial_coeffs_3930, sizeof(initial_coeffs_3930)); + memcpy(p64->coeffsA[0], initial_coeffs_3930_64bit, sizeof(initial_coeffs_3930_64bit)); + memcpy(p64->coeffsA[1], initial_coeffs_3930_64bit, sizeof(initial_coeffs_3930_64bit)); } memset(p->coeffsB, 0, sizeof(p->coeffsB)); + memset(p64->coeffsB, 0, sizeof(p64->coeffsB)); if (ctx->fileversion < 3930) { memcpy(p->coeffsB[0], initial_coeffs_b_3800, sizeof(initial_coeffs_b_3800)); @@ -826,7 +852,13 @@ static void init_predictor_decoder(APEContext *ctx) p->filterB[0] = p->filterB[1] = 0; p->lastA[0] = p->lastA[1] = 0; + p64->filterA[0] = p64->filterA[1] = 0; + p64->filterB[0] = p64->filterB[1] = 0; + p64->lastA[0] = p64->lastA[1] = 0; + p->sample_pos = 0; + + p64->sample_pos = 0; } /** Get inverse sign of integer (-1 for positive, 1 for negative and 0 for zero) */ @@ -1132,16 +1164,17 @@ static void predictor_decode_mono_3930(APEContext *ctx, int count) } } -static av_always_inline int predictor_update_filter(APEPredictor *p, +static av_always_inline int predictor_update_filter(APEPredictor64 *p, const int decoded, const int filter, const int delayA, const int delayB, const int adaptA, const int adaptB) { - int32_t predictionA, predictionB, sign; + int64_t predictionA, predictionB; + int32_t sign; p->buf[delayA] = p->lastA[filter]; p->buf[adaptA] = APESIGN(p->buf[delayA]); - p->buf[delayA - 1] = p->buf[delayA] - (unsigned)p->buf[delayA - 1]; + p->buf[delayA - 1] = p->buf[delayA] - (uint64_t)p->buf[delayA - 1]; p->buf[adaptA - 1] = APESIGN(p->buf[delayA - 1]); predictionA = p->buf[delayA ] * p->coeffsA[filter][0] + @@ -1150,9 +1183,9 @@ static av_always_inline int predictor_update_filter(APEPredictor *p, p->buf[delayA - 3] * p->coeffsA[filter][3]; /* Apply a scaled first-order filter compression */ - p->buf[delayB] = p->filterA[filter ^ 1] - ((int)(p->filterB[filter] * 31U) >> 5); + p->buf[delayB] = p->filterA[filter ^ 1] - ((int64_t)(p->filterB[filter] * 31ULL) >> 5); p->buf[adaptB] = APESIGN(p->buf[delayB]); - p->buf[delayB - 1] = p->buf[delayB] - (unsigned)p->buf[delayB - 1]; + p->buf[delayB - 1] = p->buf[delayB] - (uint64_t)p->buf[delayB - 1]; p->buf[adaptB - 1] = APESIGN(p->buf[delayB - 1]); p->filterB[filter] = p->filterA[filter ^ 1]; @@ -1162,8 +1195,8 @@ static av_always_inline int predictor_update_filter(APEPredictor *p, p->buf[delayB - 3] * p->coeffsB[filter][3] + p->buf[delayB - 4] * p->coeffsB[filter][4]; - p->lastA[filter] = decoded + ((int)((unsigned)predictionA + (predictionB >> 1)) >> 10); - p->filterA[filter] = p->lastA[filter] + ((int)(p->filterA[filter] * 31U) >> 5); + p->lastA[filter] = decoded + ((int64_t)((uint64_t)predictionA + (predictionB >> 1)) >> 10); + p->filterA[filter] = p->lastA[filter] + ((int64_t)(p->filterA[filter] * 31ULL) >> 5); sign = APESIGN(decoded); p->coeffsA[filter][0] += p->buf[adaptA ] * sign; @@ -1181,7 +1214,7 @@ static av_always_inline int predictor_update_filter(APEPredictor *p, static void predictor_decode_stereo_3950(APEContext *ctx, int count) { - APEPredictor *p = &ctx->predictor; + APEPredictor64 *p = &ctx->predictor64; int32_t *decoded0 = ctx->decoded[0]; int32_t *decoded1 = ctx->decoded[1]; @@ -1210,7 +1243,7 @@ static void predictor_decode_stereo_3950(APEContext *ctx, int count) static void predictor_decode_mono_3950(APEContext *ctx, int count) { - APEPredictor *p = &ctx->predictor; + APEPredictor64 *p = &ctx->predictor64; int32_t *decoded0 = ctx->decoded[0]; int32_t predictionA, currentA, A, sign; @@ -1222,14 +1255,14 @@ static void predictor_decode_mono_3950(APEContext *ctx, int count) A = *decoded0; p->buf[YDELAYA] = currentA; - p->buf[YDELAYA - 1] = p->buf[YDELAYA] - (unsigned)p->buf[YDELAYA - 1]; + p->buf[YDELAYA - 1] = p->buf[YDELAYA] - (uint64_t)p->buf[YDELAYA - 1]; predictionA = p->buf[YDELAYA ] * p->coeffsA[0][0] + p->buf[YDELAYA - 1] * p->coeffsA[0][1] + p->buf[YDELAYA - 2] * p->coeffsA[0][2] + p->buf[YDELAYA - 3] * p->coeffsA[0][3]; - currentA = A + (unsigned)(predictionA >> 10); + currentA = A + (uint64_t)(predictionA >> 10); p->buf[YADAPTCOEFFSA] = APESIGN(p->buf[YDELAYA ]); p->buf[YADAPTCOEFFSA - 1] = APESIGN(p->buf[YDELAYA - 1]); @@ -1249,7 +1282,7 @@ static void predictor_decode_mono_3950(APEContext *ctx, int count) p->buf = p->historybuffer; } - p->filterA[0] = currentA + (unsigned)((int)(p->filterA[0] * 31U) >> 5); + p->filterA[0] = currentA + (uint64_t)((int64_t)(p->filterA[0] * 31U) >> 5); *(decoded0++) = p->filterA[0]; } @@ -1286,7 +1319,7 @@ static void do_apply_filter(APEContext *ctx, int version, APEFilter *f, f->delay - order, f->adaptcoeffs - order, order, APESIGN(*data)); - res = (int)(res + (1U << (fracbits - 1))) >> fracbits; + res = (int64_t)(res + (1LL << (fracbits - 1))) >> fracbits; res += (unsigned)*data; *data++ = res; |