/** * FreeRDP: A Remote Desktop Protocol Implementation * MPPC Bulk Data Compression * * Copyright 2014 Marc-Andre Moreau * * 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 #define MPPC_MATCH_INDEX(_sym1, _sym2, _sym3) \ ((((MPPC_MATCH_TABLE[_sym3] << 16) + (MPPC_MATCH_TABLE[_sym2] << 8) + MPPC_MATCH_TABLE[_sym1]) & 0x07FFF000) >> 12) const UINT32 MPPC_MATCH_TABLE[256] = { 0x00000000, 0x009CCF93, 0x01399F26, 0x01D66EB9, 0x02733E4C, 0x03100DDF, 0x03ACDD72, 0x0449AD05, 0x04E67C98, 0x05834C2B, 0x06201BBE, 0x06BCEB51, 0x0759BAE4, 0x07F68A77, 0x08935A0A, 0x0930299D, 0x09CCF930, 0x0A69C8C3, 0x0B069856, 0x0BA367E9, 0x0C40377C, 0x0CDD070F, 0x0D79D6A2, 0x0E16A635, 0x0EB375C8, 0x0F50455B, 0x0FED14EE, 0x1089E481, 0x1126B414, 0x11C383A7, 0x1260533A, 0x12FD22CD, 0x1399F260, 0x1436C1F3, 0x14D39186, 0x15706119, 0x160D30AC, 0x16AA003F, 0x1746CFD2, 0x17E39F65, 0x18806EF8, 0x191D3E8B, 0x19BA0E1E, 0x1A56DDB1, 0x1AF3AD44, 0x1B907CD7, 0x1C2D4C6A, 0x1CCA1BFD, 0x1D66EB90, 0x1E03BB23, 0x1EA08AB6, 0x1F3D5A49, 0x1FDA29DC, 0x2076F96F, 0x2113C902, 0x21B09895, 0x224D6828, 0x22EA37BB, 0x2387074E, 0x2423D6E1, 0x24C0A674, 0x255D7607, 0x25FA459A, 0x2697152D, 0x2733E4C0, 0x27D0B453, 0x286D83E6, 0x290A5379, 0x29A7230C, 0x2A43F29F, 0x2AE0C232, 0x2B7D91C5, 0x2C1A6158, 0x2CB730EB, 0x2D54007E, 0x2DF0D011, 0x2E8D9FA4, 0x2F2A6F37, 0x2FC73ECA, 0x30640E5D, 0x3100DDF0, 0x319DAD83, 0x323A7D16, 0x32D74CA9, 0x33741C3C, 0x3410EBCF, 0x34ADBB62, 0x354A8AF5, 0x35E75A88, 0x36842A1B, 0x3720F9AE, 0x37BDC941, 0x385A98D4, 0x38F76867, 0x399437FA, 0x3A31078D, 0x3ACDD720, 0x3B6AA6B3, 0x3C077646, 0x3CA445D9, 0x3D41156C, 0x3DDDE4FF, 0x3E7AB492, 0x3F178425, 0x3FB453B8, 0x4051234B, 0x40EDF2DE, 0x418AC271, 0x42279204, 0x42C46197, 0x4361312A, 0x43FE00BD, 0x449AD050, 0x45379FE3, 0x45D46F76, 0x46713F09, 0x470E0E9C, 0x47AADE2F, 0x4847ADC2, 0x48E47D55, 0x49814CE8, 0x4A1E1C7B, 0x4ABAEC0E, 0x4B57BBA1, 0x4BF48B34, 0x4C915AC7, 0x4D2E2A5A, 0x4DCAF9ED, 0x4E67C980, 0x4F049913, 0x4FA168A6, 0x503E3839, 0x50DB07CC, 0x5177D75F, 0x5214A6F2, 0x52B17685, 0x534E4618, 0x53EB15AB, 0x5487E53E, 0x5524B4D1, 0x55C18464, 0x565E53F7, 0x56FB238A, 0x5797F31D, 0x5834C2B0, 0x58D19243, 0x596E61D6, 0x5A0B3169, 0x5AA800FC, 0x5B44D08F, 0x5BE1A022, 0x5C7E6FB5, 0x5D1B3F48, 0x5DB80EDB, 0x5E54DE6E, 0x5EF1AE01, 0x5F8E7D94, 0x602B4D27, 0x60C81CBA, 0x6164EC4D, 0x6201BBE0, 0x629E8B73, 0x633B5B06, 0x63D82A99, 0x6474FA2C, 0x6511C9BF, 0x65AE9952, 0x664B68E5, 0x66E83878, 0x6785080B, 0x6821D79E, 0x68BEA731, 0x695B76C4, 0x69F84657, 0x6A9515EA, 0x6B31E57D, 0x6BCEB510, 0x6C6B84A3, 0x6D085436, 0x6DA523C9, 0x6E41F35C, 0x6EDEC2EF, 0x6F7B9282, 0x70186215, 0x70B531A8, 0x7152013B, 0x71EED0CE, 0x728BA061, 0x73286FF4, 0x73C53F87, 0x74620F1A, 0x74FEDEAD, 0x759BAE40, 0x76387DD3, 0x76D54D66, 0x77721CF9, 0x780EEC8C, 0x78ABBC1F, 0x79488BB2, 0x79E55B45, 0x7A822AD8, 0x7B1EFA6B, 0x7BBBC9FE, 0x7C589991, 0x7CF56924, 0x7D9238B7, 0x7E2F084A, 0x7ECBD7DD, 0x7F68A770, 0x80057703, 0x80A24696, 0x813F1629, 0x81DBE5BC, 0x8278B54F, 0x831584E2, 0x83B25475, 0x844F2408, 0x84EBF39B, 0x8588C32E, 0x862592C1, 0x86C26254, 0x875F31E7, 0x87FC017A, 0x8898D10D, 0x8935A0A0, 0x89D27033, 0x8A6F3FC6, 0x8B0C0F59, 0x8BA8DEEC, 0x8C45AE7F, 0x8CE27E12, 0x8D7F4DA5, 0x8E1C1D38, 0x8EB8ECCB, 0x8F55BC5E, 0x8FF28BF1, 0x908F5B84, 0x912C2B17, 0x91C8FAAA, 0x9265CA3D, 0x930299D0, 0x939F6963, 0x943C38F6, 0x94D90889, 0x9575D81C, 0x9612A7AF, 0x96AF7742, 0x974C46D5, 0x97E91668, 0x9885E5FB, 0x9922B58E, 0x99BF8521, 0x9A5C54B4, 0x9AF92447, 0x9B95F3DA, 0x9C32C36D }; //#define DEBUG_MPPC 1 int mppc_decompress(MPPC_CONTEXT* mppc, BYTE* pSrcData, UINT32 SrcSize, BYTE** ppDstData, UINT32* pDstSize, UINT32 flags) { BYTE Literal; BYTE* SrcPtr; UINT32 CopyOffset; UINT32 LengthOfMatch; UINT32 accumulator; BYTE* HistoryPtr; UINT32 HistoryOffset; BYTE* HistoryBuffer; BYTE* HistoryBufferEnd; UINT32 HistoryBufferSize; UINT32 CompressionLevel; wBitStream* bs = mppc->bs; HistoryBuffer = mppc->HistoryBuffer; HistoryBufferSize = mppc->HistoryBufferSize; HistoryBufferEnd = &HistoryBuffer[HistoryBufferSize - 1]; CompressionLevel = mppc->CompressionLevel; BitStream_Attach(bs, pSrcData, SrcSize); BitStream_Fetch(bs); if (flags & PACKET_AT_FRONT) { mppc->HistoryOffset = 0; mppc->HistoryPtr = HistoryBuffer; } if (flags & PACKET_FLUSHED) { mppc->HistoryOffset = 0; mppc->HistoryPtr = HistoryBuffer; ZeroMemory(HistoryBuffer, mppc->HistoryBufferSize); } HistoryPtr = mppc->HistoryPtr; HistoryOffset = mppc->HistoryOffset; if (!(flags & PACKET_COMPRESSED)) { CopyMemory(HistoryPtr, pSrcData, SrcSize); HistoryPtr += SrcSize; HistoryOffset += SrcSize; mppc->HistoryPtr = HistoryPtr; mppc->HistoryOffset = HistoryOffset; *ppDstData = HistoryPtr; *pDstSize = SrcSize; return 1; } while ((bs->length - bs->position) >= 8) { accumulator = bs->accumulator; /** * Literal Encoding */ if ((accumulator & 0x80000000) == 0x00000000) { /** * Literal, less than 0x80 * bit 0 followed by the lower 7 bits of the literal */ Literal = ((accumulator & 0x7F000000) >> 24); *(HistoryPtr) = Literal; HistoryPtr++; BitStream_Shift(bs, 8); continue; } else if ((accumulator & 0xC0000000) == 0x80000000) { /** * Literal, greater than 0x7F * bits 10 followed by the lower 7 bits of the literal */ Literal = ((accumulator & 0x3F800000) >> 23) + 0x80; *(HistoryPtr) = Literal; HistoryPtr++; BitStream_Shift(bs, 9); continue; } /** * CopyOffset Encoding */ CopyOffset = 0; if (CompressionLevel) /* RDP5 */ { if ((accumulator & 0xF8000000) == 0xF8000000) { /** * CopyOffset, range [0, 63] * bits 11111 + lower 6 bits of CopyOffset */ CopyOffset = ((accumulator >> 21) & 0x3F); BitStream_Shift(bs, 11); } else if ((accumulator & 0xF8000000) == 0xF0000000) { /** * CopyOffset, range [64, 319] * bits 11110 + lower 8 bits of (CopyOffset - 64) */ CopyOffset = ((accumulator >> 19) & 0xFF) + 64; BitStream_Shift(bs, 13); } else if ((accumulator & 0xF0000000) == 0xE0000000) { /** * CopyOffset, range [320, 2367] * bits 1110 + lower 11 bits of (CopyOffset - 320) */ CopyOffset = ((accumulator >> 17) & 0x7FF) + 320; BitStream_Shift(bs, 15); } else if ((accumulator & 0xE0000000) == 0xC0000000) { /** * CopyOffset, range [2368, ] * bits 110 + lower 16 bits of (CopyOffset - 2368) */ CopyOffset = ((accumulator >> 13) & 0xFFFF) + 2368; BitStream_Shift(bs, 19); } else { /* Invalid CopyOffset Encoding */ return -1; } } else /* RDP4 */ { if ((accumulator & 0xF0000000) == 0xF0000000) { /** * CopyOffset, range [0, 63] * bits 1111 + lower 6 bits of CopyOffset */ CopyOffset = ((accumulator >> 22) & 0x3F); BitStream_Shift(bs, 10); } else if ((accumulator & 0xF0000000) == 0xE0000000) { /** * CopyOffset, range [64, 319] * bits 1110 + lower 8 bits of (CopyOffset - 64) */ CopyOffset = ((accumulator >> 20) & 0xFF) + 64; BitStream_Shift(bs, 12); } else if ((accumulator & 0xE0000000) == 0xC0000000) { /** * CopyOffset, range [320, 8191] * bits 110 + lower 13 bits of (CopyOffset - 320) */ CopyOffset = ((accumulator >> 16) & 0x1FFF) + 320; BitStream_Shift(bs, 16); } else { /* Invalid CopyOffset Encoding */ return -1; } } /** * LengthOfMatch Encoding */ LengthOfMatch = 0; accumulator = bs->accumulator; if ((accumulator & 0x80000000) == 0x00000000) { /** * LengthOfMatch [3] * bit 0 + 0 lower bits of LengthOfMatch */ LengthOfMatch = 3; BitStream_Shift(bs, 1); } else if ((accumulator & 0xC0000000) == 0x80000000) { /** * LengthOfMatch [4, 7] * bits 10 + 2 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 28) & 0x0003) + 0x0004; BitStream_Shift(bs, 4); } else if ((accumulator & 0xE0000000) == 0xC0000000) { /** * LengthOfMatch [8, 15] * bits 110 + 3 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 26) & 0x0007) + 0x0008; BitStream_Shift(bs, 6); } else if ((accumulator & 0xF0000000) == 0xE0000000) { /** * LengthOfMatch [16, 31] * bits 1110 + 4 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 24) & 0x000F) + 0x0010; BitStream_Shift(bs, 8); } else if ((accumulator & 0xF8000000) == 0xF0000000) { /** * LengthOfMatch [32, 63] * bits 11110 + 5 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 22) & 0x001F) + 0x0020; BitStream_Shift(bs, 10); } else if ((accumulator & 0xFC000000) == 0xF8000000) { /** * LengthOfMatch [64, 127] * bits 111110 + 6 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 20) & 0x003F) + 0x0040; BitStream_Shift(bs, 12); } else if ((accumulator & 0xFE000000) == 0xFC000000) { /** * LengthOfMatch [128, 255] * bits 1111110 + 7 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 18) & 0x007F) + 0x0080; BitStream_Shift(bs, 14); } else if ((accumulator & 0xFF000000) == 0xFE000000) { /** * LengthOfMatch [256, 511] * bits 11111110 + 8 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 16) & 0x00FF) + 0x0100; BitStream_Shift(bs, 16); } else if ((accumulator & 0xFF800000) == 0xFF000000) { /** * LengthOfMatch [512, 1023] * bits 111111110 + 9 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 14) & 0x01FF) + 0x0200; BitStream_Shift(bs, 18); } else if ((accumulator & 0xFFC00000) == 0xFF800000) { /** * LengthOfMatch [1024, 2047] * bits 1111111110 + 10 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 12) & 0x03FF) + 0x0400; BitStream_Shift(bs, 20); } else if ((accumulator & 0xFFE00000) == 0xFFC00000) { /** * LengthOfMatch [2048, 4095] * bits 11111111110 + 11 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 10) & 0x07FF) + 0x0800; BitStream_Shift(bs, 22); } else if ((accumulator & 0xFFF00000) == 0xFFE00000) { /** * LengthOfMatch [4096, 8191] * bits 111111111110 + 12 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 8) & 0x0FFF) + 0x1000; BitStream_Shift(bs, 24); } else if (((accumulator & 0xFFF80000) == 0xFFF00000) && CompressionLevel) /* RDP5 */ { /** * LengthOfMatch [8192, 16383] * bits 1111111111110 + 13 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 6) & 0x1FFF) + 0x2000; BitStream_Shift(bs, 26); } else if (((accumulator & 0xFFFC0000) == 0xFFF80000) && CompressionLevel) /* RDP5 */ { /** * LengthOfMatch [16384, 32767] * bits 11111111111110 + 14 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 4) & 0x3FFF) + 0x4000; BitStream_Shift(bs, 28); } else if (((accumulator & 0xFFFE0000) == 0xFFFC0000) && CompressionLevel) /* RDP5 */ { /** * LengthOfMatch [32768, 65535] * bits 111111111111110 + 15 lower bits of LengthOfMatch */ LengthOfMatch = ((accumulator >> 2) & 0x7FFF) + 0x8000; BitStream_Shift(bs, 30); } else { /* Invalid LengthOfMatch Encoding */ return -1; } #ifdef DEBUG_MPPC printf("<%d,%d>\n", (int) CopyOffset, (int) LengthOfMatch); #endif SrcPtr = HistoryPtr - CopyOffset; if (SrcPtr >= HistoryBuffer) { while (LengthOfMatch > 0) { *(HistoryPtr) = *SrcPtr; HistoryPtr++; SrcPtr++; LengthOfMatch--; } } else { SrcPtr = HistoryBufferEnd - (CopyOffset - (HistoryPtr - HistoryBuffer)); SrcPtr++; while (LengthOfMatch && (SrcPtr <= HistoryBufferEnd)) { *HistoryPtr++ = *SrcPtr++; LengthOfMatch--; } SrcPtr = HistoryBuffer; while (LengthOfMatch > 0) { *HistoryPtr++ = *SrcPtr++; LengthOfMatch--; } } } *pDstSize = (UINT32) (HistoryPtr - mppc->HistoryPtr); *ppDstData = mppc->HistoryPtr; mppc->HistoryPtr = HistoryPtr; return 1; } int mppc_compress(MPPC_CONTEXT* mppc, BYTE* pSrcData, UINT32 SrcSize, BYTE* pDstData, UINT32* pDstSize, UINT32* pFlags) { BYTE* pSrcPtr; BYTE* pSrcEnd; BYTE* pDstEnd; BYTE* MatchPtr; UINT32 MatchIndex; UINT32 accumulator; DWORD CopyOffset; DWORD LengthOfMatch; BYTE* HistoryBuffer; BYTE* HistoryPtr; UINT32 HistoryOffset; UINT32 HistoryBufferSize; BYTE Sym1, Sym2, Sym3; UINT32 CompressionLevel; wBitStream* bs = mppc->bs; HistoryBuffer = mppc->HistoryBuffer; HistoryBufferSize = mppc->HistoryBufferSize; CompressionLevel = mppc->CompressionLevel; HistoryPtr = mppc->HistoryPtr; HistoryOffset = mppc->HistoryOffset; BitStream_Attach(bs, pDstData, SrcSize); if (((HistoryOffset + SrcSize) < (HistoryBufferSize - 3)) && HistoryOffset) { *pFlags = 0; } else { HistoryOffset = 0; *pFlags = PACKET_AT_FRONT; } HistoryPtr = &(HistoryBuffer[HistoryOffset]); pSrcPtr = pSrcData; pSrcEnd = &(pSrcData[SrcSize - 1]); pDstEnd = &(pDstData[*pDstSize - 1]); while (pSrcPtr < (pSrcEnd - 2)) { Sym1 = pSrcPtr[0]; Sym2 = pSrcPtr[1]; Sym3 = pSrcPtr[2]; *HistoryPtr++ = *pSrcPtr++; MatchIndex = MPPC_MATCH_INDEX(Sym1, Sym2, Sym3); MatchPtr = &(HistoryBuffer[mppc->MatchBuffer[MatchIndex]]); if (MatchPtr != &HistoryPtr[-1]) mppc->MatchBuffer[MatchIndex] = (UINT16) (HistoryPtr - HistoryBuffer); if (mppc->HistoryPtr < HistoryPtr) mppc->HistoryPtr = HistoryPtr; if ((Sym1 != MatchPtr[-1]) || (Sym2 != MatchPtr[0]) || (Sym3 != MatchPtr[1]) || (&MatchPtr[1] > mppc->HistoryPtr) || (MatchPtr == HistoryBuffer) || (MatchPtr == &HistoryPtr[-1]) || (MatchPtr == HistoryPtr)) { if (((bs->position / 8) + 2) > (SrcSize - 1)) { *pFlags |= PACKET_FLUSHED; ZeroMemory(HistoryBuffer, HistoryBufferSize); ZeroMemory(mppc->MatchBuffer, sizeof(mppc->MatchBuffer)); return 1; } accumulator = Sym1; #ifdef DEBUG_MPPC printf("%c", accumulator); #endif if (accumulator < 0x80) { /* 8 bits of literal are encoded as-is */ BitStream_Write_Bits(bs, accumulator, 8); } else { /* bits 10 followed by lower 7 bits of literal */ accumulator = 0x100 | (accumulator & 0x7F); BitStream_Write_Bits(bs, accumulator, 9); } } else { CopyOffset = (HistoryBufferSize - 1) & (HistoryPtr - MatchPtr); *HistoryPtr++ = Sym2; *HistoryPtr++ = Sym3; pSrcPtr += 2; LengthOfMatch = 3; MatchPtr += 2; while ((*pSrcPtr == *MatchPtr) && (pSrcPtr < pSrcEnd) && (MatchPtr <= mppc->HistoryPtr)) { MatchPtr++; *HistoryPtr++ = *pSrcPtr++; LengthOfMatch++; } #ifdef DEBUG_MPPC printf("<%d,%d>", (int) CopyOffset, (int) LengthOfMatch); #endif /* Encode CopyOffset */ if (((bs->position / 8) + 7) > (SrcSize - 1)) { *pFlags = PACKET_FLUSHED; ZeroMemory(HistoryBuffer, HistoryBufferSize); ZeroMemory(mppc->MatchBuffer, sizeof(mppc->MatchBuffer)); return 1; } if (CompressionLevel) /* RDP5 */ { if (CopyOffset < 64) { /* bits 11111 + lower 6 bits of CopyOffset */ accumulator = 0x07C0 | (CopyOffset & 0x003F); BitStream_Write_Bits(bs, accumulator, 11); } else if ((CopyOffset >= 64) && (CopyOffset < 320)) { /* bits 11110 + lower 8 bits of (CopyOffset - 64) */ accumulator = 0x1E00 | ((CopyOffset - 64) & 0x00FF); BitStream_Write_Bits(bs, accumulator, 13); } else if ((CopyOffset >= 320) && (CopyOffset < 2368)) { /* bits 1110 + lower 11 bits of (CopyOffset - 320) */ accumulator = 0x7000 | ((CopyOffset - 320) & 0x07FF); BitStream_Write_Bits(bs, accumulator, 15); } else { /* bits 110 + lower 16 bits of (CopyOffset - 2368) */ accumulator = 0x060000 | ((CopyOffset - 2368) & 0xFFFF); BitStream_Write_Bits(bs, accumulator, 19); } } else /* RDP4 */ { if (CopyOffset < 64) { /* bits 1111 + lower 6 bits of CopyOffset */ accumulator = 0x03C0 | (CopyOffset & 0x003F); BitStream_Write_Bits(bs, accumulator, 10); } else if ((CopyOffset >= 64) && (CopyOffset < 320)) { /* bits 1110 + lower 8 bits of (CopyOffset - 64) */ accumulator = 0x0E00 | ((CopyOffset - 64) & 0x00FF); BitStream_Write_Bits(bs, accumulator, 12); } else if ((CopyOffset >= 320) && (CopyOffset < 8192)) { /* bits 110 + lower 13 bits of (CopyOffset - 320) */ accumulator = 0xC000 | ((CopyOffset - 320) & 0x1FFF); BitStream_Write_Bits(bs, accumulator, 16); } } /* Encode LengthOfMatch */ if (LengthOfMatch == 3) { /* 0 + 0 lower bits of LengthOfMatch */ BitStream_Write_Bits(bs, 0, 1); } else if ((LengthOfMatch >= 4) && (LengthOfMatch < 8)) { /* 10 + 2 lower bits of LengthOfMatch */ accumulator = 0x0008 | (LengthOfMatch & 0x0003); BitStream_Write_Bits(bs, accumulator, 4); } else if ((LengthOfMatch >= 8) && (LengthOfMatch < 16)) { /* 110 + 3 lower bits of LengthOfMatch */ accumulator = 0x0030 | (LengthOfMatch & 0x0007); BitStream_Write_Bits(bs, accumulator, 6); } else if ((LengthOfMatch >= 16) && (LengthOfMatch < 32)) { /* 1110 + 4 lower bits of LengthOfMatch */ accumulator = 0x00E0 | (LengthOfMatch & 0x000F); BitStream_Write_Bits(bs, accumulator, 8); } else if ((LengthOfMatch >= 32) && (LengthOfMatch < 64)) { /* 11110 + 5 lower bits of LengthOfMatch */ accumulator = 0x03C0 | (LengthOfMatch & 0x001F); BitStream_Write_Bits(bs, accumulator, 10); } else if ((LengthOfMatch >= 64) && (LengthOfMatch < 128)) { /* 111110 + 6 lower bits of LengthOfMatch */ accumulator = 0x0F80 | (LengthOfMatch & 0x003F); BitStream_Write_Bits(bs, accumulator, 12); } else if ((LengthOfMatch >= 128) && (LengthOfMatch < 256)) { /* 1111110 + 7 lower bits of LengthOfMatch */ accumulator = 0x3F00 | (LengthOfMatch & 0x007F); BitStream_Write_Bits(bs, accumulator, 14); } else if ((LengthOfMatch >= 256) && (LengthOfMatch < 512)) { /* 11111110 + 8 lower bits of LengthOfMatch */ accumulator = 0xFE00 | (LengthOfMatch & 0x00FF); BitStream_Write_Bits(bs, accumulator, 16); } else if ((LengthOfMatch >= 512) && (LengthOfMatch < 1024)) { /* 111111110 + 9 lower bits of LengthOfMatch */ accumulator = 0x3FC00 | (LengthOfMatch & 0x01FF); BitStream_Write_Bits(bs, accumulator, 18); } else if ((LengthOfMatch >= 1024) && (LengthOfMatch < 2048)) { /* 1111111110 + 10 lower bits of LengthOfMatch */ accumulator = 0xFF800 | (LengthOfMatch & 0x03FF); BitStream_Write_Bits(bs, accumulator, 20); } else if ((LengthOfMatch >= 2048) && (LengthOfMatch < 4096)) { /* 11111111110 + 11 lower bits of LengthOfMatch */ accumulator = 0x3FF000 | (LengthOfMatch & 0x07FF); BitStream_Write_Bits(bs, accumulator, 22); } else if ((LengthOfMatch >= 4096) && (LengthOfMatch < 8192)) { /* 111111111110 + 12 lower bits of LengthOfMatch */ accumulator = 0xFFE000 | (LengthOfMatch & 0x0FFF); BitStream_Write_Bits(bs, accumulator, 24); } else if (((LengthOfMatch >= 8192) && (LengthOfMatch < 16384)) && CompressionLevel) /* RDP5 */ { /* 1111111111110 + 13 lower bits of LengthOfMatch */ accumulator = 0x3FFC000 | (LengthOfMatch & 0x1FFF); BitStream_Write_Bits(bs, accumulator, 26); } else if (((LengthOfMatch >= 16384) && (LengthOfMatch < 32768)) && CompressionLevel) /* RDP5 */ { /* 11111111111110 + 14 lower bits of LengthOfMatch */ accumulator = 0xFFF8000 | (LengthOfMatch & 0x3FFF); BitStream_Write_Bits(bs, accumulator, 28); } else if (((LengthOfMatch >= 32768) && (LengthOfMatch < 65536)) && CompressionLevel) /* RDP5 */ { /* 111111111111110 + 15 lower bits of LengthOfMatch */ accumulator = 0x3FFF0000 | (LengthOfMatch & 0x7FFF); BitStream_Write_Bits(bs, accumulator, 30); } } } /* Encode trailing symbols as literals */ while (pSrcPtr <= pSrcEnd) { if (((bs->position / 8) + 2) > (SrcSize - 1)) { *pFlags |= PACKET_FLUSHED; ZeroMemory(HistoryBuffer, HistoryBufferSize); ZeroMemory(mppc->MatchBuffer, sizeof(mppc->MatchBuffer)); return 1; } accumulator = *pSrcPtr; #ifdef DEBUG_MPPC printf("%c", accumulator); #endif if (accumulator < 0x80) { /* 8 bits of literal are encoded as-is */ BitStream_Write_Bits(bs, accumulator, 8); } else { /* bits 10 followed by lower 7 bits of literal */ accumulator = 0x100 | (accumulator & 0x7F); BitStream_Write_Bits(bs, accumulator, 9); } *HistoryPtr++ = *pSrcPtr++; } BitStream_Flush(bs); *pFlags |= PACKET_COMPRESSED; *pFlags |= CompressionLevel; *pDstSize = ((bs->position + 7) / 8); mppc->HistoryPtr = HistoryPtr; mppc->HistoryOffset = HistoryPtr - HistoryBuffer; #ifdef DEBUG_MPPC printf("\n"); #endif return 1; } void mppc_set_compression_level(MPPC_CONTEXT* mppc, DWORD CompressionLevel) { if (CompressionLevel < 1) { mppc->CompressionLevel = 0; mppc->HistoryBufferSize = 8192; } else { mppc->CompressionLevel = 1; mppc->HistoryBufferSize = 65536; } } void mppc_context_reset(MPPC_CONTEXT* mppc) { ZeroMemory(&(mppc->HistoryBuffer), sizeof(mppc->HistoryBuffer)); ZeroMemory(&(mppc->MatchBuffer), sizeof(mppc->MatchBuffer)); mppc->HistoryOffset = 0; mppc->HistoryPtr = &(mppc->HistoryBuffer[mppc->HistoryOffset]); } MPPC_CONTEXT* mppc_context_new(DWORD CompressionLevel, BOOL Compressor) { MPPC_CONTEXT* mppc; mppc = calloc(1, sizeof(MPPC_CONTEXT)); if (mppc) { mppc->Compressor = Compressor; if (CompressionLevel < 1) { mppc->CompressionLevel = 0; mppc->HistoryBufferSize = 8192; } else { mppc->CompressionLevel = 1; mppc->HistoryBufferSize = 65536; } mppc->bs = BitStream_New(); ZeroMemory(&(mppc->HistoryBuffer), sizeof(mppc->HistoryBuffer)); ZeroMemory(&(mppc->MatchBuffer), sizeof(mppc->MatchBuffer)); mppc->HistoryOffset = 0; mppc->HistoryPtr = &(mppc->HistoryBuffer[mppc->HistoryOffset]); } return mppc; } void mppc_context_free(MPPC_CONTEXT* mppc) { if (mppc) { BitStream_Free(mppc->bs); free(mppc); } }