diff options
Diffstat (limited to 'core/fxcodec/codec/fx_codec_flate.cpp')
-rw-r--r-- | core/fxcodec/codec/fx_codec_flate.cpp | 1007 |
1 files changed, 1007 insertions, 0 deletions
diff --git a/core/fxcodec/codec/fx_codec_flate.cpp b/core/fxcodec/codec/fx_codec_flate.cpp new file mode 100644 index 0000000000..49a4f34166 --- /dev/null +++ b/core/fxcodec/codec/fx_codec_flate.cpp @@ -0,0 +1,1007 @@ +// Copyright 2014 PDFium Authors. All rights reserved. +// Use of this source code is governed by a BSD-style license that can be +// found in the LICENSE file. + +// Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com + +#include "core/fxcodec/codec/codec_int.h" + +#include <algorithm> +#include <memory> + +#include "core/include/fxcodec/fx_codec.h" +#include "core/include/fxcodec/fx_codec_flate.h" +#include "third_party/zlib_v128/zlib.h" + +extern "C" { +static void* my_alloc_func(void* opaque, + unsigned int items, + unsigned int size) { + return FX_Alloc2D(uint8_t, items, size); +} +static void my_free_func(void* opaque, void* address) { + FX_Free(address); +} +static int FPDFAPI_FlateGetTotalOut(void* context) { + return ((z_stream*)context)->total_out; +} +static int FPDFAPI_FlateGetTotalIn(void* context) { + return ((z_stream*)context)->total_in; +} +static void FPDFAPI_FlateCompress(unsigned char* dest_buf, + unsigned long* dest_size, + const unsigned char* src_buf, + unsigned long src_size) { + compress(dest_buf, dest_size, src_buf, src_size); +} +void* FPDFAPI_FlateInit(void* (*alloc_func)(void*, unsigned int, unsigned int), + void (*free_func)(void*, void*)) { + z_stream* p = (z_stream*)alloc_func(0, 1, sizeof(z_stream)); + if (!p) { + return NULL; + } + FXSYS_memset(p, 0, sizeof(z_stream)); + p->zalloc = alloc_func; + p->zfree = free_func; + inflateInit(p); + return p; +} +void FPDFAPI_FlateInput(void* context, + const unsigned char* src_buf, + unsigned int src_size) { + ((z_stream*)context)->next_in = (unsigned char*)src_buf; + ((z_stream*)context)->avail_in = src_size; +} +int FPDFAPI_FlateOutput(void* context, + unsigned char* dest_buf, + unsigned int dest_size) { + ((z_stream*)context)->next_out = dest_buf; + ((z_stream*)context)->avail_out = dest_size; + unsigned int pre_pos = (unsigned int)FPDFAPI_FlateGetTotalOut(context); + int ret = inflate((z_stream*)context, Z_SYNC_FLUSH); + unsigned int post_pos = (unsigned int)FPDFAPI_FlateGetTotalOut(context); + unsigned int written = post_pos - pre_pos; + if (written < dest_size) { + FXSYS_memset(dest_buf + written, '\0', dest_size - written); + } + return ret; +} +int FPDFAPI_FlateGetAvailIn(void* context) { + return ((z_stream*)context)->avail_in; +} +int FPDFAPI_FlateGetAvailOut(void* context) { + return ((z_stream*)context)->avail_out; +} +void FPDFAPI_FlateEnd(void* context) { + inflateEnd((z_stream*)context); + ((z_stream*)context)->zfree(0, context); +} +} // extern "C" + +namespace { + +class CLZWDecoder { + public: + int Decode(uint8_t* output, + FX_DWORD& outlen, + const uint8_t* input, + FX_DWORD& size, + FX_BOOL bEarlyChange); + + private: + void AddCode(FX_DWORD prefix_code, uint8_t append_char); + void DecodeString(FX_DWORD code); + + FX_DWORD m_InPos; + FX_DWORD m_OutPos; + uint8_t* m_pOutput; + const uint8_t* m_pInput; + FX_BOOL m_Early; + FX_DWORD m_CodeArray[5021]; + FX_DWORD m_nCodes; + uint8_t m_DecodeStack[4000]; + FX_DWORD m_StackLen; + int m_CodeLen; +}; +void CLZWDecoder::AddCode(FX_DWORD prefix_code, uint8_t append_char) { + if (m_nCodes + m_Early == 4094) { + return; + } + m_CodeArray[m_nCodes++] = (prefix_code << 16) | append_char; + if (m_nCodes + m_Early == 512 - 258) { + m_CodeLen = 10; + } else if (m_nCodes + m_Early == 1024 - 258) { + m_CodeLen = 11; + } else if (m_nCodes + m_Early == 2048 - 258) { + m_CodeLen = 12; + } +} +void CLZWDecoder::DecodeString(FX_DWORD code) { + while (1) { + int index = code - 258; + if (index < 0 || index >= (int)m_nCodes) { + break; + } + FX_DWORD data = m_CodeArray[index]; + if (m_StackLen >= sizeof(m_DecodeStack)) { + return; + } + m_DecodeStack[m_StackLen++] = (uint8_t)data; + code = data >> 16; + } + if (m_StackLen >= sizeof(m_DecodeStack)) { + return; + } + m_DecodeStack[m_StackLen++] = (uint8_t)code; +} +int CLZWDecoder::Decode(uint8_t* dest_buf, + FX_DWORD& dest_size, + const uint8_t* src_buf, + FX_DWORD& src_size, + FX_BOOL bEarlyChange) { + m_CodeLen = 9; + m_InPos = 0; + m_OutPos = 0; + m_pInput = src_buf; + m_pOutput = dest_buf; + m_Early = bEarlyChange ? 1 : 0; + m_nCodes = 0; + FX_DWORD old_code = (FX_DWORD)-1; + uint8_t last_char; + while (1) { + if (m_InPos + m_CodeLen > src_size * 8) { + break; + } + int byte_pos = m_InPos / 8; + int bit_pos = m_InPos % 8, bit_left = m_CodeLen; + FX_DWORD code = 0; + if (bit_pos) { + bit_left -= 8 - bit_pos; + code = (m_pInput[byte_pos++] & ((1 << (8 - bit_pos)) - 1)) << bit_left; + } + if (bit_left < 8) { + code |= m_pInput[byte_pos] >> (8 - bit_left); + } else { + bit_left -= 8; + code |= m_pInput[byte_pos++] << bit_left; + if (bit_left) { + code |= m_pInput[byte_pos] >> (8 - bit_left); + } + } + m_InPos += m_CodeLen; + if (code < 256) { + if (m_OutPos == dest_size) { + return -5; + } + if (m_pOutput) { + m_pOutput[m_OutPos] = (uint8_t)code; + } + m_OutPos++; + last_char = (uint8_t)code; + if (old_code != (FX_DWORD)-1) { + AddCode(old_code, last_char); + } + old_code = code; + } else if (code == 256) { + m_CodeLen = 9; + m_nCodes = 0; + old_code = (FX_DWORD)-1; + } else if (code == 257) { + break; + } else { + if (old_code == (FX_DWORD)-1) { + return 2; + } + m_StackLen = 0; + if (code >= m_nCodes + 258) { + if (m_StackLen < sizeof(m_DecodeStack)) { + m_DecodeStack[m_StackLen++] = last_char; + } + DecodeString(old_code); + } else { + DecodeString(code); + } + if (m_OutPos + m_StackLen > dest_size) { + return -5; + } + if (m_pOutput) { + for (FX_DWORD i = 0; i < m_StackLen; i++) { + m_pOutput[m_OutPos + i] = m_DecodeStack[m_StackLen - i - 1]; + } + } + m_OutPos += m_StackLen; + last_char = m_DecodeStack[m_StackLen - 1]; + if (old_code < 256) { + AddCode(old_code, last_char); + } else if (old_code - 258 >= m_nCodes) { + dest_size = m_OutPos; + src_size = (m_InPos + 7) / 8; + return 0; + } else { + AddCode(old_code, last_char); + } + old_code = code; + } + } + dest_size = m_OutPos; + src_size = (m_InPos + 7) / 8; + return 0; +} + +uint8_t PaethPredictor(int a, int b, int c) { + int p = a + b - c; + int pa = FXSYS_abs(p - a); + int pb = FXSYS_abs(p - b); + int pc = FXSYS_abs(p - c); + if (pa <= pb && pa <= pc) { + return (uint8_t)a; + } + if (pb <= pc) { + return (uint8_t)b; + } + return (uint8_t)c; +} + +FX_BOOL PNG_PredictorEncode(uint8_t*& data_buf, + FX_DWORD& data_size, + int predictor, + int Colors, + int BitsPerComponent, + int Columns) { + const int BytesPerPixel = (Colors * BitsPerComponent + 7) / 8; + const int row_size = (Colors * BitsPerComponent * Columns + 7) / 8; + if (row_size <= 0) + return FALSE; + const int row_count = (data_size + row_size - 1) / row_size; + const int last_row_size = data_size % row_size; + uint8_t* dest_buf = FX_Alloc2D(uint8_t, row_size + 1, row_count); + int byte_cnt = 0; + uint8_t* pSrcData = data_buf; + uint8_t* pDestData = dest_buf; + for (int row = 0; row < row_count; row++) { + if (predictor == 10) { + pDestData[0] = 0; + int move_size = row_size; + if (move_size * (row + 1) > (int)data_size) { + move_size = data_size - (move_size * row); + } + FXSYS_memmove(pDestData + 1, pSrcData, move_size); + pDestData += (move_size + 1); + pSrcData += move_size; + byte_cnt += move_size; + continue; + } + for (int byte = 0; byte < row_size && byte_cnt < (int)data_size; byte++) { + switch (predictor) { + case 11: { + pDestData[0] = 1; + uint8_t left = 0; + if (byte >= BytesPerPixel) { + left = pSrcData[byte - BytesPerPixel]; + } + pDestData[byte + 1] = pSrcData[byte] - left; + } break; + case 12: { + pDestData[0] = 2; + uint8_t up = 0; + if (row) { + up = pSrcData[byte - row_size]; + } + pDestData[byte + 1] = pSrcData[byte] - up; + } break; + case 13: { + pDestData[0] = 3; + uint8_t left = 0; + if (byte >= BytesPerPixel) { + left = pSrcData[byte - BytesPerPixel]; + } + uint8_t up = 0; + if (row) { + up = pSrcData[byte - row_size]; + } + pDestData[byte + 1] = pSrcData[byte] - (left + up) / 2; + } break; + case 14: { + pDestData[0] = 4; + uint8_t left = 0; + if (byte >= BytesPerPixel) { + left = pSrcData[byte - BytesPerPixel]; + } + uint8_t up = 0; + if (row) { + up = pSrcData[byte - row_size]; + } + uint8_t upper_left = 0; + if (byte >= BytesPerPixel && row) { + upper_left = pSrcData[byte - row_size - BytesPerPixel]; + } + pDestData[byte + 1] = + pSrcData[byte] - PaethPredictor(left, up, upper_left); + } break; + default: { pDestData[byte + 1] = pSrcData[byte]; } break; + } + byte_cnt++; + } + pDestData += (row_size + 1); + pSrcData += row_size; + } + FX_Free(data_buf); + data_buf = dest_buf; + data_size = (row_size + 1) * row_count - + (last_row_size > 0 ? (row_size - last_row_size) : 0); + return TRUE; +} + +void PNG_PredictLine(uint8_t* pDestData, + const uint8_t* pSrcData, + const uint8_t* pLastLine, + int bpc, + int nColors, + int nPixels) { + int row_size = (nPixels * bpc * nColors + 7) / 8; + int BytesPerPixel = (bpc * nColors + 7) / 8; + uint8_t tag = pSrcData[0]; + if (tag == 0) { + FXSYS_memmove(pDestData, pSrcData + 1, row_size); + return; + } + for (int byte = 0; byte < row_size; byte++) { + uint8_t raw_byte = pSrcData[byte + 1]; + switch (tag) { + case 1: { + uint8_t left = 0; + if (byte >= BytesPerPixel) { + left = pDestData[byte - BytesPerPixel]; + } + pDestData[byte] = raw_byte + left; + break; + } + case 2: { + uint8_t up = 0; + if (pLastLine) { + up = pLastLine[byte]; + } + pDestData[byte] = raw_byte + up; + break; + } + case 3: { + uint8_t left = 0; + if (byte >= BytesPerPixel) { + left = pDestData[byte - BytesPerPixel]; + } + uint8_t up = 0; + if (pLastLine) { + up = pLastLine[byte]; + } + pDestData[byte] = raw_byte + (up + left) / 2; + break; + } + case 4: { + uint8_t left = 0; + if (byte >= BytesPerPixel) { + left = pDestData[byte - BytesPerPixel]; + } + uint8_t up = 0; + if (pLastLine) { + up = pLastLine[byte]; + } + uint8_t upper_left = 0; + if (byte >= BytesPerPixel && pLastLine) { + upper_left = pLastLine[byte - BytesPerPixel]; + } + pDestData[byte] = raw_byte + PaethPredictor(left, up, upper_left); + break; + } + default: + pDestData[byte] = raw_byte; + break; + } + } +} + +FX_BOOL PNG_Predictor(uint8_t*& data_buf, + FX_DWORD& data_size, + int Colors, + int BitsPerComponent, + int Columns) { + const int BytesPerPixel = (Colors * BitsPerComponent + 7) / 8; + const int row_size = (Colors * BitsPerComponent * Columns + 7) / 8; + if (row_size <= 0) + return FALSE; + const int row_count = (data_size + row_size) / (row_size + 1); + if (row_count <= 0) + return FALSE; + const int last_row_size = data_size % (row_size + 1); + uint8_t* dest_buf = FX_Alloc2D(uint8_t, row_size, row_count); + int byte_cnt = 0; + uint8_t* pSrcData = data_buf; + uint8_t* pDestData = dest_buf; + for (int row = 0; row < row_count; row++) { + uint8_t tag = pSrcData[0]; + byte_cnt++; + if (tag == 0) { + int move_size = row_size; + if ((row + 1) * (move_size + 1) > (int)data_size) { + move_size = last_row_size - 1; + } + FXSYS_memmove(pDestData, pSrcData + 1, move_size); + pSrcData += move_size + 1; + pDestData += move_size; + byte_cnt += move_size; + continue; + } + for (int byte = 0; byte < row_size && byte_cnt < (int)data_size; byte++) { + uint8_t raw_byte = pSrcData[byte + 1]; + switch (tag) { + case 1: { + uint8_t left = 0; + if (byte >= BytesPerPixel) { + left = pDestData[byte - BytesPerPixel]; + } + pDestData[byte] = raw_byte + left; + break; + } + case 2: { + uint8_t up = 0; + if (row) { + up = pDestData[byte - row_size]; + } + pDestData[byte] = raw_byte + up; + break; + } + case 3: { + uint8_t left = 0; + if (byte >= BytesPerPixel) { + left = pDestData[byte - BytesPerPixel]; + } + uint8_t up = 0; + if (row) { + up = pDestData[byte - row_size]; + } + pDestData[byte] = raw_byte + (up + left) / 2; + break; + } + case 4: { + uint8_t left = 0; + if (byte >= BytesPerPixel) { + left = pDestData[byte - BytesPerPixel]; + } + uint8_t up = 0; + if (row) { + up = pDestData[byte - row_size]; + } + uint8_t upper_left = 0; + if (byte >= BytesPerPixel && row) { + upper_left = pDestData[byte - row_size - BytesPerPixel]; + } + pDestData[byte] = raw_byte + PaethPredictor(left, up, upper_left); + break; + } + default: + pDestData[byte] = raw_byte; + break; + } + byte_cnt++; + } + pSrcData += row_size + 1; + pDestData += row_size; + } + FX_Free(data_buf); + data_buf = dest_buf; + data_size = row_size * row_count - + (last_row_size > 0 ? (row_size + 1 - last_row_size) : 0); + return TRUE; +} + +void TIFF_PredictorEncodeLine(uint8_t* dest_buf, + int row_size, + int BitsPerComponent, + int Colors, + int Columns) { + int BytesPerPixel = BitsPerComponent * Colors / 8; + if (BitsPerComponent < 8) { + uint8_t mask = 0x01; + if (BitsPerComponent == 2) { + mask = 0x03; + } else if (BitsPerComponent == 4) { + mask = 0x0F; + } + int row_bits = Colors * BitsPerComponent * Columns; + for (int i = row_bits - BitsPerComponent; i >= BitsPerComponent; + i -= BitsPerComponent) { + int col = i % 8; + int index = i / 8; + int col_pre = + (col == 0) ? (8 - BitsPerComponent) : (col - BitsPerComponent); + int index_pre = (col == 0) ? (index - 1) : index; + uint8_t cur = (dest_buf[index] >> (8 - col - BitsPerComponent)) & mask; + uint8_t left = + (dest_buf[index_pre] >> (8 - col_pre - BitsPerComponent)) & mask; + cur -= left; + cur &= mask; + cur <<= (8 - col - BitsPerComponent); + dest_buf[index] &= ~(mask << ((8 - col - BitsPerComponent))); + dest_buf[index] |= cur; + } + } else if (BitsPerComponent == 8) { + for (int i = row_size - 1; i >= BytesPerPixel; i--) { + dest_buf[i] -= dest_buf[i - BytesPerPixel]; + } + } else { + for (int i = row_size - BytesPerPixel; i >= BytesPerPixel; + i -= BytesPerPixel) { + FX_WORD pixel = (dest_buf[i] << 8) | dest_buf[i + 1]; + pixel -= + (dest_buf[i - BytesPerPixel] << 8) | dest_buf[i - BytesPerPixel + 1]; + dest_buf[i] = pixel >> 8; + dest_buf[i + 1] = (uint8_t)pixel; + } + } +} + +FX_BOOL TIFF_PredictorEncode(uint8_t*& data_buf, + FX_DWORD& data_size, + int Colors, + int BitsPerComponent, + int Columns) { + int row_size = (Colors * BitsPerComponent * Columns + 7) / 8; + if (row_size == 0) + return FALSE; + const int row_count = (data_size + row_size - 1) / row_size; + const int last_row_size = data_size % row_size; + for (int row = 0; row < row_count; row++) { + uint8_t* scan_line = data_buf + row * row_size; + if ((row + 1) * row_size > (int)data_size) { + row_size = last_row_size; + } + TIFF_PredictorEncodeLine(scan_line, row_size, BitsPerComponent, Colors, + Columns); + } + return TRUE; +} + +void TIFF_PredictLine(uint8_t* dest_buf, + FX_DWORD row_size, + int BitsPerComponent, + int Colors, + int Columns) { + if (BitsPerComponent == 1) { + int row_bits = std::min(BitsPerComponent * Colors * Columns, + pdfium::base::checked_cast<int>(row_size * 8)); + int index_pre = 0; + int col_pre = 0; + for (int i = 1; i < row_bits; i++) { + int col = i % 8; + int index = i / 8; + if (((dest_buf[index] >> (7 - col)) & 1) ^ + ((dest_buf[index_pre] >> (7 - col_pre)) & 1)) { + dest_buf[index] |= 1 << (7 - col); + } else { + dest_buf[index] &= ~(1 << (7 - col)); + } + index_pre = index; + col_pre = col; + } + return; + } + int BytesPerPixel = BitsPerComponent * Colors / 8; + if (BitsPerComponent == 16) { + for (FX_DWORD i = BytesPerPixel; i < row_size; i += 2) { + FX_WORD pixel = + (dest_buf[i - BytesPerPixel] << 8) | dest_buf[i - BytesPerPixel + 1]; + pixel += (dest_buf[i] << 8) | dest_buf[i + 1]; + dest_buf[i] = pixel >> 8; + dest_buf[i + 1] = (uint8_t)pixel; + } + } else { + for (FX_DWORD i = BytesPerPixel; i < row_size; i++) { + dest_buf[i] += dest_buf[i - BytesPerPixel]; + } + } +} + +FX_BOOL TIFF_Predictor(uint8_t*& data_buf, + FX_DWORD& data_size, + int Colors, + int BitsPerComponent, + int Columns) { + int row_size = (Colors * BitsPerComponent * Columns + 7) / 8; + if (row_size == 0) + return FALSE; + const int row_count = (data_size + row_size - 1) / row_size; + const int last_row_size = data_size % row_size; + for (int row = 0; row < row_count; row++) { + uint8_t* scan_line = data_buf + row * row_size; + if ((row + 1) * row_size > (int)data_size) { + row_size = last_row_size; + } + TIFF_PredictLine(scan_line, row_size, BitsPerComponent, Colors, Columns); + } + return TRUE; +} + +void FlateUncompress(const uint8_t* src_buf, + FX_DWORD src_size, + FX_DWORD orig_size, + uint8_t*& dest_buf, + FX_DWORD& dest_size, + FX_DWORD& offset) { + FX_DWORD guess_size = orig_size ? orig_size : src_size * 2; + const FX_DWORD kStepSize = 10240; + FX_DWORD alloc_step = orig_size ? kStepSize : std::min(src_size, kStepSize); + static const FX_DWORD kMaxInitialAllocSize = 10000000; + if (guess_size > kMaxInitialAllocSize) { + guess_size = kMaxInitialAllocSize; + alloc_step = kMaxInitialAllocSize; + } + FX_DWORD buf_size = guess_size; + FX_DWORD last_buf_size = buf_size; + + dest_buf = nullptr; + dest_size = 0; + void* context = FPDFAPI_FlateInit(my_alloc_func, my_free_func); + if (!context) + return; + + std::unique_ptr<uint8_t, FxFreeDeleter> guess_buf( + FX_Alloc(uint8_t, guess_size + 1)); + guess_buf.get()[guess_size] = '\0'; + + FPDFAPI_FlateInput(context, src_buf, src_size); + + if (src_size < kStepSize) { + // This is the old implementation. + uint8_t* cur_buf = guess_buf.get(); + while (1) { + int32_t ret = FPDFAPI_FlateOutput(context, cur_buf, buf_size); + if (ret != Z_OK) + break; + int32_t avail_buf_size = FPDFAPI_FlateGetAvailOut(context); + if (avail_buf_size != 0) + break; + + FX_DWORD old_size = guess_size; + guess_size += alloc_step; + if (guess_size < old_size || guess_size + 1 < guess_size) { + FPDFAPI_FlateEnd(context); + return; + } + + { + uint8_t* new_buf = + FX_Realloc(uint8_t, guess_buf.release(), guess_size + 1); + guess_buf.reset(new_buf); + } + guess_buf.get()[guess_size] = '\0'; + cur_buf = guess_buf.get() + old_size; + buf_size = guess_size - old_size; + } + dest_size = FPDFAPI_FlateGetTotalOut(context); + offset = FPDFAPI_FlateGetTotalIn(context); + if (guess_size / 2 > dest_size) { + { + uint8_t* new_buf = + FX_Realloc(uint8_t, guess_buf.release(), dest_size + 1); + guess_buf.reset(new_buf); + } + guess_size = dest_size; + guess_buf.get()[guess_size] = '\0'; + } + dest_buf = guess_buf.release(); + } else { + CFX_ArrayTemplate<uint8_t*> result_tmp_bufs; + uint8_t* cur_buf = guess_buf.release(); + while (1) { + int32_t ret = FPDFAPI_FlateOutput(context, cur_buf, buf_size); + int32_t avail_buf_size = FPDFAPI_FlateGetAvailOut(context); + if (ret != Z_OK) { + last_buf_size = buf_size - avail_buf_size; + result_tmp_bufs.Add(cur_buf); + break; + } + if (avail_buf_size != 0) { + last_buf_size = buf_size - avail_buf_size; + result_tmp_bufs.Add(cur_buf); + break; + } + + result_tmp_bufs.Add(cur_buf); + cur_buf = FX_Alloc(uint8_t, buf_size + 1); + cur_buf[buf_size] = '\0'; + } + dest_size = FPDFAPI_FlateGetTotalOut(context); + offset = FPDFAPI_FlateGetTotalIn(context); + if (result_tmp_bufs.GetSize() == 1) { + dest_buf = result_tmp_bufs[0]; + } else { + uint8_t* result_buf = FX_Alloc(uint8_t, dest_size); + FX_DWORD result_pos = 0; + for (int32_t i = 0; i < result_tmp_bufs.GetSize(); i++) { + uint8_t* tmp_buf = result_tmp_bufs[i]; + FX_DWORD tmp_buf_size = buf_size; + if (i == result_tmp_bufs.GetSize() - 1) { + tmp_buf_size = last_buf_size; + } + FXSYS_memcpy(result_buf + result_pos, tmp_buf, tmp_buf_size); + result_pos += tmp_buf_size; + FX_Free(result_tmp_bufs[i]); + } + dest_buf = result_buf; + } + } + FPDFAPI_FlateEnd(context); +} + +} // namespace + +class CCodec_FlateScanlineDecoder : public CCodec_ScanlineDecoder { + public: + CCodec_FlateScanlineDecoder(); + ~CCodec_FlateScanlineDecoder() override; + + void Create(const uint8_t* src_buf, + FX_DWORD src_size, + int width, + int height, + int nComps, + int bpc, + int predictor, + int Colors, + int BitsPerComponent, + int Columns); + void Destroy() { delete this; } + + // CCodec_ScanlineDecoder + void v_DownScale(int dest_width, int dest_height) override {} + FX_BOOL v_Rewind() override; + uint8_t* v_GetNextLine() override; + FX_DWORD GetSrcOffset() override; + + void* m_pFlate; + const uint8_t* m_SrcBuf; + FX_DWORD m_SrcSize; + uint8_t* m_pScanline; + uint8_t* m_pLastLine; + uint8_t* m_pPredictBuffer; + uint8_t* m_pPredictRaw; + int m_Predictor; + int m_Colors; + int m_BitsPerComponent; + int m_Columns; + FX_DWORD m_PredictPitch; + size_t m_LeftOver; +}; + +CCodec_FlateScanlineDecoder::CCodec_FlateScanlineDecoder() { + m_pFlate = NULL; + m_pScanline = NULL; + m_pLastLine = NULL; + m_pPredictBuffer = NULL; + m_pPredictRaw = NULL; + m_LeftOver = 0; +} +CCodec_FlateScanlineDecoder::~CCodec_FlateScanlineDecoder() { + FX_Free(m_pScanline); + FX_Free(m_pLastLine); + FX_Free(m_pPredictBuffer); + FX_Free(m_pPredictRaw); + if (m_pFlate) { + FPDFAPI_FlateEnd(m_pFlate); + } +} +void CCodec_FlateScanlineDecoder::Create(const uint8_t* src_buf, + FX_DWORD src_size, + int width, + int height, + int nComps, + int bpc, + int predictor, + int Colors, + int BitsPerComponent, + int Columns) { + m_SrcBuf = src_buf; + m_SrcSize = src_size; + m_OutputWidth = m_OrigWidth = width; + m_OutputHeight = m_OrigHeight = height; + m_nComps = nComps; + m_bpc = bpc; + m_bColorTransformed = FALSE; + m_Pitch = (static_cast<FX_DWORD>(width) * nComps * bpc + 7) / 8; + m_pScanline = FX_Alloc(uint8_t, m_Pitch); + m_Predictor = 0; + if (predictor) { + if (predictor >= 10) { + m_Predictor = 2; + } else if (predictor == 2) { + m_Predictor = 1; + } + if (m_Predictor) { + if (BitsPerComponent * Colors * Columns == 0) { + BitsPerComponent = m_bpc; + Colors = m_nComps; + Columns = m_OrigWidth; + } + m_Colors = Colors; + m_BitsPerComponent = BitsPerComponent; + m_Columns = Columns; + m_PredictPitch = + (static_cast<FX_DWORD>(m_BitsPerComponent) * m_Colors * m_Columns + + 7) / + 8; + m_pLastLine = FX_Alloc(uint8_t, m_PredictPitch); + m_pPredictRaw = FX_Alloc(uint8_t, m_PredictPitch + 1); + m_pPredictBuffer = FX_Alloc(uint8_t, m_PredictPitch); + } + } +} +FX_BOOL CCodec_FlateScanlineDecoder::v_Rewind() { + if (m_pFlate) { + FPDFAPI_FlateEnd(m_pFlate); + } + m_pFlate = FPDFAPI_FlateInit(my_alloc_func, my_free_func); + if (!m_pFlate) { + return FALSE; + } + FPDFAPI_FlateInput(m_pFlate, m_SrcBuf, m_SrcSize); + m_LeftOver = 0; + return TRUE; +} +uint8_t* CCodec_FlateScanlineDecoder::v_GetNextLine() { + if (m_Predictor) { + if (m_Pitch == m_PredictPitch) { + if (m_Predictor == 2) { + FPDFAPI_FlateOutput(m_pFlate, m_pPredictRaw, m_PredictPitch + 1); + PNG_PredictLine(m_pScanline, m_pPredictRaw, m_pLastLine, + m_BitsPerComponent, m_Colors, m_Columns); + FXSYS_memcpy(m_pLastLine, m_pScanline, m_PredictPitch); + } else { + FPDFAPI_FlateOutput(m_pFlate, m_pScanline, m_Pitch); + TIFF_PredictLine(m_pScanline, m_PredictPitch, m_bpc, m_nComps, + m_OutputWidth); + } + } else { + size_t bytes_to_go = m_Pitch; + size_t read_leftover = + m_LeftOver > bytes_to_go ? bytes_to_go : m_LeftOver; + if (read_leftover) { + FXSYS_memcpy(m_pScanline, + m_pPredictBuffer + m_PredictPitch - m_LeftOver, + read_leftover); + m_LeftOver -= read_leftover; + bytes_to_go -= read_leftover; + } + while (bytes_to_go) { + if (m_Predictor == 2) { + FPDFAPI_FlateOutput(m_pFlate, m_pPredictRaw, m_PredictPitch + 1); + PNG_PredictLine(m_pPredictBuffer, m_pPredictRaw, m_pLastLine, + m_BitsPerComponent, m_Colors, m_Columns); + FXSYS_memcpy(m_pLastLine, m_pPredictBuffer, m_PredictPitch); + } else { + FPDFAPI_FlateOutput(m_pFlate, m_pPredictBuffer, m_PredictPitch); + TIFF_PredictLine(m_pPredictBuffer, m_PredictPitch, m_BitsPerComponent, + m_Colors, m_Columns); + } + size_t read_bytes = + m_PredictPitch > bytes_to_go ? bytes_to_go : m_PredictPitch; + FXSYS_memcpy(m_pScanline + m_Pitch - bytes_to_go, m_pPredictBuffer, + read_bytes); + m_LeftOver += m_PredictPitch - read_bytes; + bytes_to_go -= read_bytes; + } + } + } else { + FPDFAPI_FlateOutput(m_pFlate, m_pScanline, m_Pitch); + } + return m_pScanline; +} +FX_DWORD CCodec_FlateScanlineDecoder::GetSrcOffset() { + return FPDFAPI_FlateGetTotalIn(m_pFlate); +} + +ICodec_ScanlineDecoder* CCodec_FlateModule::CreateDecoder( + const uint8_t* src_buf, + FX_DWORD src_size, + int width, + int height, + int nComps, + int bpc, + int predictor, + int Colors, + int BitsPerComponent, + int Columns) { + CCodec_FlateScanlineDecoder* pDecoder = new CCodec_FlateScanlineDecoder; + pDecoder->Create(src_buf, src_size, width, height, nComps, bpc, predictor, + Colors, BitsPerComponent, Columns); + return pDecoder; +} +FX_DWORD CCodec_FlateModule::FlateOrLZWDecode(FX_BOOL bLZW, + const uint8_t* src_buf, + FX_DWORD src_size, + FX_BOOL bEarlyChange, + int predictor, + int Colors, + int BitsPerComponent, + int Columns, + FX_DWORD estimated_size, + uint8_t*& dest_buf, + FX_DWORD& dest_size) { + dest_buf = NULL; + FX_DWORD offset = 0; + int predictor_type = 0; + if (predictor) { + if (predictor >= 10) { + predictor_type = 2; + } else if (predictor == 2) { + predictor_type = 1; + } + } + if (bLZW) { + { + std::unique_ptr<CLZWDecoder> decoder(new CLZWDecoder); + dest_size = (FX_DWORD)-1; + offset = src_size; + int err = decoder->Decode(NULL, dest_size, src_buf, offset, bEarlyChange); + if (err || dest_size == 0 || dest_size + 1 < dest_size) { + return -1; + } + } + { + std::unique_ptr<CLZWDecoder> decoder(new CLZWDecoder); + dest_buf = FX_Alloc(uint8_t, dest_size + 1); + dest_buf[dest_size] = '\0'; + decoder->Decode(dest_buf, dest_size, src_buf, offset, bEarlyChange); + } + } else { + FlateUncompress(src_buf, src_size, estimated_size, dest_buf, dest_size, + offset); + } + if (predictor_type == 0) { + return offset; + } + FX_BOOL ret = TRUE; + if (predictor_type == 2) { + ret = PNG_Predictor(dest_buf, dest_size, Colors, BitsPerComponent, Columns); + } else if (predictor_type == 1) { + ret = + TIFF_Predictor(dest_buf, dest_size, Colors, BitsPerComponent, Columns); + } + return ret ? offset : -1; +} +FX_BOOL CCodec_FlateModule::Encode(const uint8_t* src_buf, + FX_DWORD src_size, + int predictor, + int Colors, + int BitsPerComponent, + int Columns, + uint8_t*& dest_buf, + FX_DWORD& dest_size) { + if (predictor != 2 && predictor < 10) { + return Encode(src_buf, src_size, dest_buf, dest_size); + } + uint8_t* pSrcBuf = NULL; + pSrcBuf = FX_Alloc(uint8_t, src_size); + FXSYS_memcpy(pSrcBuf, src_buf, src_size); + FX_BOOL ret = TRUE; + if (predictor == 2) { + ret = TIFF_PredictorEncode(pSrcBuf, src_size, Colors, BitsPerComponent, + Columns); + } else if (predictor >= 10) { + ret = PNG_PredictorEncode(pSrcBuf, src_size, predictor, Colors, + BitsPerComponent, Columns); + } + if (ret) + ret = Encode(pSrcBuf, src_size, dest_buf, dest_size); + FX_Free(pSrcBuf); + return ret; +} +FX_BOOL CCodec_FlateModule::Encode(const uint8_t* src_buf, + FX_DWORD src_size, + uint8_t*& dest_buf, + FX_DWORD& dest_size) { + dest_size = src_size + src_size / 1000 + 12; + dest_buf = FX_Alloc(uint8_t, dest_size); + unsigned long temp_size = dest_size; + FPDFAPI_FlateCompress(dest_buf, &temp_size, src_buf, src_size); + dest_size = (FX_DWORD)temp_size; + return TRUE; +} |