/*** unasm.c - Unassemble AML file and convert to Intel .ASM file * * Copyright (c) 1996,1997 Microsoft Corporation * Author: Michael Tsang (MikeTs) * Created: 10/01/97 * * MODIFICATION HISTORY */ #include "aslp.h" /***LP UnAsmFile - Unassemble AML file * * ENTRY * pszAMLName -> AML file name * pfileOut -> ASM output file * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmFile(PSZ pszAMLName, FILE *pfileOut) { int rc = ASLERR_NONE; PBYTE pb = NULL; DWORD dwAddr = 0; int fhAML = 0; ULONG dwLen = 0; ENTER((1, "UnAsmFile(AMLName=%s,pfileOut=%p)\n", pszAMLName, pfileOut)); ASSERT(pfileOut != NULL); if (gpszAMLFile != NULL) { if ((fhAML = _open(gpszAMLFile, _O_BINARY | _O_RDONLY)) == -1) { ERROR(("UnAsmFile: failed to open AML file - %s", gpszAMLFile)); rc = ASLERR_OPEN_FILE; } else if ((pb = MEMALLOC(sizeof(DESCRIPTION_HEADER))) == NULL) { ERROR(("UnAsmFile: failed to allocate description header block")); rc = ASLERR_OUT_OF_MEM; } else if (_read(fhAML, pb, sizeof(DESCRIPTION_HEADER)) != sizeof(DESCRIPTION_HEADER)) { ERROR(("UnAsmFile: failed to read description header block")); rc = ASLERR_READ_FILE; } else if (_lseek(fhAML, 0, SEEK_SET) == -1) { ERROR(("UnAsmFile: failed seeking to beginning of AML file")); rc = ASLERR_SEEK_FILE; } else { dwLen = ((PDESCRIPTION_HEADER)pb)->Length; MEMFREE(pb); if ((pb = MEMALLOC(dwLen)) == NULL) { ERROR(("UnAsmFile: failed to allocate AML file buffer")); rc = ASLERR_OUT_OF_MEM; } else if (_read(fhAML, pb, dwLen) != (int)dwLen) { ERROR(("UnAsmFile: failed to read AML file")); rc = ASLERR_OUT_OF_MEM; } } } #ifdef __UNASM else { DWORD dwTableSig = (gdwfASL & ASLF_DUMP_NONASL)? *((PDWORD)pszAMLName): *((PDWORD)gpszTabSig); ASSERT(gpszTabSig != NULL); if ((pb = GetTableBySig(dwTableSig, &dwAddr)) != NULL) { dwLen = ((PDESCRIPTION_HEADER)pb)->Length; } else { rc = ASLERR_GET_TABLE; } } #endif if (rc == ASLERR_NONE) { rc = UnAsmAML(pszAMLName, dwAddr, pb, pfileOut); } if (pb != NULL) { MEMFREE(pb); } if (fhAML != 0) { _close(fhAML); } EXIT((1, "UnAsmFile=%d\n", rc)); return rc; } //UnAsmFile /***LP BuildNameSpace - Do a NameSpace building pass * * ENTRY * pszAMLName -> AML file name * dwAddr - physical address of table * pb -> AML buffer * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL BuildNameSpace(PSZ pszAMLName, DWORD dwAddr, PBYTE pb) { #define MAX_NUM_NAMES 4 int rc = ASLERR_NONE; static PSZ pszNames[MAX_NUM_NAMES] = {NULL}; static DWORD adwAddr[MAX_NUM_NAMES] = {0}; int i; ENTER((2, "BuildNameSpace(AMLName=%s,Addr=%x,pb=%p)\n", pszAMLName, dwAddr, pb)); for (i = 0; i < MAX_NUM_NAMES; ++i) { if (pszNames[i] == NULL) { DWORD dwLen = ((PDESCRIPTION_HEADER)pb)->Length; // // Do a pass to build NameSpace. // pszNames[i] = pszAMLName; adwAddr[i] = dwAddr; pb += sizeof(DESCRIPTION_HEADER); rc = UnAsmScope(&pb, pb + dwLen - sizeof(DESCRIPTION_HEADER), NULL); break; } else if ((strcmp(pszAMLName, pszNames[i]) == 0) && (dwAddr == adwAddr[i])) { break; } } if (i >= MAX_NUM_NAMES) { ERROR(("BuildNameSpace: Too many AML tables")); rc = ASLERR_INTERNAL_ERROR; } EXIT((2, "BuildNameSpace=%d\n", rc)); return rc; } //BuildNameSpace /***LP UnAsmAML - Unassemble AML buffer * * ENTRY * pszAMLName -> AML file name * dwAddr - physical address of table * pb -> AML buffer * pfileOut -> ASM output file * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmAML(PSZ pszAMLName, DWORD dwAddr, PBYTE pb, FILE *pfileOut) { int rc = ASLERR_NONE; PDESCRIPTION_HEADER pdh = (PDESCRIPTION_HEADER)pb; ENTER((2, "UnAsmAML(AMLName=%s,Addr=%x,pb=%p,pfileOut=%p)\n", pszAMLName, dwAddr, pb, pfileOut)); ASSERT(gpnsNameSpaceRoot != NULL); gpnsCurrentOwner = NULL; gpnsCurrentScope = gpnsNameSpaceRoot; if (ComputeDataChkSum(pb, pdh->Length) != 0) { ERROR(("UnAsmAML: failed to verify AML checksum")); rc = ASLERR_CHECKSUM; } else if ((rc = BuildNameSpace(pszAMLName, dwAddr, pb)) == ASLERR_NONE) { gpbOpTop = gpbOpBegin = pb; if ((rc = UnAsmHeader(pszAMLName, pdh, pfileOut)) == ASLERR_NONE) { pb += sizeof(DESCRIPTION_HEADER); rc = UnAsmScope(&pb, pb + pdh->Length - sizeof(DESCRIPTION_HEADER), pfileOut); if ((rc == ASLERR_NONE) && (pfileOut != NULL)) { fprintf(pfileOut, "\n"); } } } EXIT((2, "UnAsmAML=%d\n", rc)); return rc; } //UnAsmAML /***LP UnAsmHeader - Unassemble table header * * ENTRY * pszAMLName -> AML file name * pdh -> DESCRIPTION_HEADER * pfileOut -> ASM output file * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmHeader(PSZ pszAMLName, PDESCRIPTION_HEADER pdh, FILE *pfileOut) { int rc = ASLERR_NONE; char szSig[sizeof(pdh->Signature) + 1] = {0}; char szOEMID[sizeof(pdh->OEMID) + 1] = {0}; char szOEMTableID[sizeof(pdh->OEMTableID) + 1] = {0}; char szCreatorID[sizeof(pdh->CreatorID) + 1] = {0}; ENTER((2, "UnAsmHeader(AMLName=%s,pdh=%p,pfileOut=%p)\n", pszAMLName, pdh, pfileOut)); if (pfileOut != NULL) { strncpy(szSig, (PSZ)&pdh->Signature, sizeof(pdh->Signature)); strncpy(szOEMID, (PSZ)pdh->OEMID, sizeof(pdh->OEMID)); strncpy(szOEMTableID, (PSZ)pdh->OEMTableID, sizeof(pdh->OEMTableID)); strncpy(szCreatorID, (PSZ)pdh->CreatorID, sizeof(pdh->CreatorID)); if ((gdwfASL & ASLF_GENASM) || !(gdwfASL & ASLF_GENSRC)) { fprintf(pfileOut, "; "); } fprintf(pfileOut, "// CreatorID=%s\tCreatorRev=%x.%x.%d\n", szCreatorID, pdh->CreatorRev >> 24, (pdh->CreatorRev >> 16) & 0xff, pdh->CreatorRev & 0xffff); if ((gdwfASL & ASLF_GENASM) || !(gdwfASL & ASLF_GENSRC)) { fprintf(pfileOut, "; "); } fprintf(pfileOut, "// FileLength=%d\tFileChkSum=0x%x\n\n", pdh->Length, pdh->Checksum); if ((gdwfASL & ASLF_GENASM) || !(gdwfASL & ASLF_GENSRC)) { fprintf(pfileOut, "; "); } fprintf(pfileOut, "DefinitionBlock(\"%s\", \"%s\", 0x%02x, \"%s\", \"%s\", 0x%08x)", pszAMLName, szSig, pdh->Revision, szOEMID, szOEMTableID, pdh->OEMRevision); } EXIT((2, "UnAsmHeader=%d\n", rc)); return rc; } //UnAsmHeader /***LP DumpBytes - Dump byte stream in ASM file * * ENTRY * pb -> buffer * dwLen - length to dump * pfileOut -> ASM output file * * EXIT * None */ VOID LOCAL DumpBytes(PBYTE pb, DWORD dwLen, FILE *pfileOut) { int i; #define MAX_LINE_BYTES 8 ENTER((2, "DumpBytes(pb=%p,Len=%x,pfileOut=%p)\n", pb, dwLen, pfileOut)); while (dwLen > 0) { fprintf(pfileOut, "\tdb\t0%02xh", *pb); for (i = 1; i < MAX_LINE_BYTES; ++i) { if ((int)dwLen - i > 0) { fprintf(pfileOut, ", 0%02xh", pb[i]); } else { fprintf(pfileOut, " "); } } fprintf(pfileOut, "\t; "); for (i = 0; (dwLen > 0) && (i < MAX_LINE_BYTES); ++i) { fprintf(pfileOut, "%c", ((*pb >= ' ') && (*pb <= '~'))? *pb: '.'); dwLen--; pb++; } fprintf(pfileOut, "\n"); } fprintf(pfileOut, "\n"); EXIT((2, "DumpBytes!\n")); } //DumpBytes /***LP DumpCode - Dump code stream in ASM file * * ENTRY * pbOp -> Opcode pointer * pfileOut -> ASM output file * * EXIT * None */ VOID LOCAL DumpCode(PBYTE pbOp, FILE *pfileOut) { ENTER((2, "DumpCode(pbOp=%p,pfileOut=%p)\n", pbOp, pfileOut)); if (pfileOut != NULL) { if (gdwfASL & ASLF_GENASM) { if (gpbOpBegin != pbOp) { fprintf(pfileOut, "\n"); fprintf(pfileOut, "; %08x:\n", gpbOpBegin - gpbOpTop); DumpBytes(gpbOpBegin, (DWORD)(pbOp - gpbOpBegin), pfileOut); gpbOpBegin = pbOp; } } else { fprintf(pfileOut, "\n"); } } EXIT((2, "DumpCode!\n")); } //DumpCode /***LP PrintIndent - Print indent level * * ENTRY * iLevel - indent level * pfileOut -> ASM output file * * EXIT * None */ VOID LOCAL PrintIndent(int iLevel, FILE *pfileOut) { int i; ENTER((3, "PrintIndent(Level=%d,pfileOut=%p)\n", iLevel, pfileOut)); if (pfileOut != NULL) { if ((gdwfASL & ASLF_GENASM) || !(gdwfASL & ASLF_GENSRC)) { fprintf(pfileOut, "; "); } for (i = 0; i < iLevel; ++i) { fprintf(pfileOut, ((gdwfASL & ASLF_GENASM) || !(gdwfASL & ASLF_GENSRC))? "| ": " "); } } EXIT((3, "PrintIndent!\n")); } //PrintIndent /***LP FindOpClass - Find opcode class of extended opcode * * ENTRY * bOp - opcode * pOpTable -> opcode table * * EXIT-SUCCESS * returns opcode class * EXIT-FAILURE * returns OPCLASS_INVALID */ BYTE LOCAL FindOpClass(BYTE bOp, POPMAP pOpTable) { BYTE bOpClass = OPCLASS_INVALID; ENTER((2, "FindOpClass(Op=%x,pOpTable=%x)\n", bOp, pOpTable)); while (pOpTable->bOpClass != 0) { if (bOp == pOpTable->bExOp) { bOpClass = pOpTable->bOpClass; break; } else pOpTable++; } EXIT((2, "FindOpClass=%x\n", bOpClass)); return bOpClass; } //FindOpClass /***LP FindOpTerm - Find opcode in TermTable * * ENTRY * dwOpcode - opcode * * EXIT-SUCCESS * returns TermTable entry pointer * EXIT-FAILURE * returns NULL */ PASLTERM LOCAL FindOpTerm(DWORD dwOpcode) { PASLTERM pterm = NULL; int i; ENTER((2, "FindOpTerm(Opcode=%x)\n", dwOpcode)); for (i = 0; TermTable[i].pszID != NULL; ++i) { if ((TermTable[i].dwOpcode == dwOpcode) && (TermTable[i].dwfTermClass & (TC_CONST_NAME | TC_SHORT_NAME | TC_NAMESPACE_MODIFIER | TC_DATA_OBJECT | TC_NAMED_OBJECT | TC_OPCODE_TYPE1 | TC_OPCODE_TYPE2))) { break; } } if (TermTable[i].pszID != NULL) { pterm = &TermTable[i]; } EXIT((2, "FindOpTerm=%p (Term=%s)\n", pterm, pterm? pterm->pszID: "")); return pterm; } //FindOpTerm /***LP FindKeywordTerm - Find keyword in TermTable * * ENTRY * cKWGroup - keyword group * bData - data to match keyword * * EXIT-SUCCESS * returns TermTable entry pointer * EXIT-FAILURE * returns NULL */ PASLTERM LOCAL FindKeywordTerm(char cKWGroup, BYTE bData) { PASLTERM pterm = NULL; int i; ENTER((2, "FindKeywordTerm(cKWGroup=%c,Data=%x)\n", cKWGroup, bData)); for (i = 0; TermTable[i].pszID != NULL; ++i) { if ((TermTable[i].dwfTermClass == TC_KEYWORD) && (TermTable[i].pszArgActions[0] == cKWGroup) && ((bData & (BYTE)(TermTable[i].dwTermData >> 8)) == (BYTE)(TermTable[i].dwTermData & 0xff))) { break; } } if (TermTable[i].pszID != NULL) { pterm = &TermTable[i]; } EXIT((2, "FindKeywordTerm=%p (Term=%s)\n", pterm, pterm? pterm->pszID: "")); return pterm; } //FindKeywordTerm /***LP UnAsmScope - Unassemble a scope * * ENTRY * ppbOp -> Opcode pointer * pbEnd -> end of scope * pfileOut -> ASM output file * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmScope(PBYTE *ppbOp, PBYTE pbEnd, FILE *pfileOut) { int rc = ASLERR_NONE; ENTER((2, "UnAsmScope(pbOp=%p,pbEnd=%p,pfileOut=%p)\n", *ppbOp, pbEnd, pfileOut)); DumpCode(*ppbOp, pfileOut); PrintIndent(giLevel, pfileOut); if (pfileOut != NULL) { fprintf(pfileOut, "{\n"); } giLevel++; while ((rc == ASLERR_NONE) && (*ppbOp < pbEnd)) { PrintIndent(giLevel, pfileOut); rc = UnAsmOpcode(ppbOp, pfileOut); if (gpbOpBegin != *ppbOp) { DumpCode(*ppbOp, pfileOut); } else if (pfileOut != NULL) { fprintf(pfileOut, "\n"); } } giLevel--; PrintIndent(giLevel, pfileOut); if (pfileOut != NULL) { fprintf(pfileOut, "}"); } EXIT((2, "UnAsmScope=%d\n", rc)); return rc; } //UnAsmScope /***LP UnAsmOpcode - Unassemble an Opcode * * ENTRY * ppbOp -> Opcode pointer * pfileOut -> ASM output file * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmOpcode(PBYTE *ppbOp, FILE *pfileOut) { int rc = ASLERR_NONE; DWORD dwOpcode; BYTE bOp; PASLTERM pterm; char szUnAsmArgTypes[MAX_ARGS + 1]; PNSOBJ pns; int i; ENTER((2, "UnAsmOpcode(pbOp=%p,pfileOut=%p)\n", *ppbOp, pfileOut)); if (**ppbOp == OP_EXT_PREFIX) { (*ppbOp)++; dwOpcode = (((DWORD)**ppbOp) << 8) | OP_EXT_PREFIX; bOp = FindOpClass(**ppbOp, ExOpClassTable); } else { dwOpcode = (DWORD)(**ppbOp); bOp = OpClassTable[**ppbOp]; } switch (bOp) { case OPCLASS_DATA_OBJ: rc = UnAsmDataObj(ppbOp, pfileOut); break; case OPCLASS_NAME_OBJ: if (((rc = UnAsmNameObj(ppbOp, pfileOut, &pns, NSTYPE_UNKNOWN)) == ASLERR_NONE) && (pns != NULL) && (pns->ObjData.dwDataType == OBJTYPE_METHOD)) { for (i = 0; i < (int)pns->ObjData.uipDataValue; ++i) { szUnAsmArgTypes[i] = 'C'; } szUnAsmArgTypes[i] = '\0'; rc = UnAsmArgs(szUnAsmArgTypes, NULL, 0, ppbOp, NULL, pfileOut); } break; case OPCLASS_ARG_OBJ: case OPCLASS_LOCAL_OBJ: case OPCLASS_CODE_OBJ: case OPCLASS_CONST_OBJ: if ((pterm = FindOpTerm(dwOpcode)) == NULL) { ERROR(("UnAsmOpcode: invalid opcode 0x%x", dwOpcode)); rc = ASLERR_INVALID_OPCODE; } else { (*ppbOp)++; rc = UnAsmTermObj(pterm, ppbOp, pfileOut); } break; default: ERROR(("UnAsmOpcode: invalid opcode class %d", bOp)); rc = ASLERR_INTERNAL_ERROR; } EXIT((2, "UnAsmOpcode=%d\n", rc)); return rc; } //UnAsmOpcode /***LP UnAsmDataObj - Unassemble data object * * ENTRY * ppbOp -> opcode pointer * pfileOut -> ASM output file * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmDataObj(PBYTE *ppbOp, FILE *pfileOut) { int rc = ASLERR_NONE; BYTE bOp = **ppbOp; ENTER((2, "UnAsmDataObj(pbOp=%p,bOp=%x,pfileOut=%p)\n", *ppbOp, bOp, pfileOut)); (*ppbOp)++; switch (bOp) { case OP_BYTE: if (pfileOut != NULL) { fprintf(pfileOut, "0x%x", **ppbOp); } *ppbOp += sizeof(BYTE); break; case OP_WORD: if (pfileOut != NULL) { fprintf(pfileOut, "0x%x", *((PWORD)*ppbOp)); } *ppbOp += sizeof(WORD); break; case OP_DWORD: if (pfileOut != NULL) { fprintf(pfileOut, "0x%x", *((PDWORD)*ppbOp)); } *ppbOp += sizeof(DWORD); break; case OP_STRING: if (pfileOut != NULL) { PSZ psz; fprintf(pfileOut, "\""); for (psz = (PSZ)*ppbOp; *psz != '\0'; psz++) { if (*psz == '\\') { fprintf(pfileOut, "\\"); } fprintf(pfileOut, "%c", *psz); } fprintf(pfileOut, "\""); } *ppbOp += strlen((PSZ)*ppbOp) + 1; break; default: ERROR(("UnAsmDataObj: unexpected opcode 0x%x", bOp)); rc = ASLERR_INVALID_OPCODE; } EXIT((2, "UnAsmDataObj=%d\n", rc)); return rc; } //UnAsmDataObj /***LP UnAsmNameObj - Unassemble name object * * ENTRY * ppbOp -> opcode pointer * pfileOut -> ASM output file * ppns -> to hold object found or created * c - object type * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmNameObj(PBYTE *ppbOp, FILE *pfileOut, PNSOBJ *ppns, char c) { int rc = ASLERR_NONE; char szName[MAX_NAME_LEN + 1]; int iLen = 0; ENTER((2, "UnAsmNameObj(pbOp=%p,pfileOut=%p,ppns=%p,c=%c)\n", *ppbOp, pfileOut, ppns, c)); szName[0] = '\0'; if (**ppbOp == OP_ROOT_PREFIX) { szName[iLen] = '\\'; iLen++; (*ppbOp)++; rc = ParseNameTail(ppbOp, szName, iLen); } else if (**ppbOp == OP_PARENT_PREFIX) { szName[iLen] = '^'; iLen++; (*ppbOp)++; while ((**ppbOp == OP_PARENT_PREFIX) && (iLen < MAX_NAME_LEN)) { szName[iLen] = '^'; iLen++; (*ppbOp)++; } if (**ppbOp == OP_PARENT_PREFIX) { ERROR(("UnAsmNameObj: name too long - \"%s\"", szName)); rc = ASLERR_NAME_TOO_LONG; } else { rc = ParseNameTail(ppbOp, szName, iLen); } } else { rc = ParseNameTail(ppbOp, szName, iLen); } if (rc == ASLERR_NONE) { PNSOBJ pns = NULL; if (pfileOut != NULL) { fprintf(pfileOut, "%s", szName); } if (islower(c) && (gdwfASL & ASLF_UNASM) && ((pfileOut == NULL) || (gpnsCurrentScope->ObjData.dwDataType == OBJTYPE_METHOD))) { rc = CreateObject(NULL, szName, (char)_toupper(c), &pns); } else if ((rc = GetNameSpaceObj(szName, gpnsCurrentScope, &pns, 0)) == ASLERR_NSOBJ_NOT_FOUND) { if (c == NSTYPE_SCOPE) { rc = CreateScopeObj(szName, &pns); } else { rc = ASLERR_NONE; } } if (rc == ASLERR_NONE) { if ((c == NSTYPE_SCOPE) && (pns != NULL)) { gpnsCurrentScope = pns; } if (ppns != NULL) { *ppns = pns; } } } EXIT((2, "UnAsmNameObj=%d (pns=%p)\n", rc, ppns? *ppns: 0)); return rc; } //UnAsmNameObj /***LP ParseNameTail - Parse AML name tail * * ENTRY * ppbOp -> opcode pointer * pszBuff -> to hold parsed name * iLen - index to tail of pszBuff * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL ParseNameTail(PBYTE *ppbOp, PSZ pszBuff, int iLen) { int rc = ASLERR_NONE; int icNameSegs = 0; ENTER((2, "ParseNameTail(pbOp=%x,Name=%s,iLen=%d)\n", *ppbOp, pszBuff, iLen)); // // We do not check for invalid NameSeg characters here and assume that // the compiler does its job not generating it. // if (**ppbOp == '\0') { // // There is no NameTail (i.e. either NULL name or name with just // prefixes. // (*ppbOp)++; } else if (**ppbOp == OP_MULTI_NAME_PREFIX) { (*ppbOp)++; icNameSegs = (int)**ppbOp; (*ppbOp)++; } else if (**ppbOp == OP_DUAL_NAME_PREFIX) { (*ppbOp)++; icNameSegs = 2; } else icNameSegs = 1; while ((icNameSegs > 0) && (iLen + sizeof(NAMESEG) < MAX_NAME_LEN)) { strncpy(&pszBuff[iLen], (PSZ)(*ppbOp), sizeof(NAMESEG)); iLen += sizeof(NAMESEG); *ppbOp += sizeof(NAMESEG); icNameSegs--; if ((icNameSegs > 0) && (iLen + 1 < MAX_NAME_LEN)) { pszBuff[iLen] = '.'; iLen++; } } if (icNameSegs > 0) { ERROR(("ParseNameTail: name too long - %s", pszBuff)); rc = ASLERR_NAME_TOO_LONG; } else { pszBuff[iLen] = '\0'; } EXIT((2, "ParseNameTail=%x (Name=%s)\n", rc, pszBuff)); return rc; } //ParseNameTail /***LP UnAsmTermObj - Unassemble term object * * ENTRY * pterm -> term table entry * ppbOp -> opcode pointer * pfileOut -> ASM output file * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmTermObj(PASLTERM pterm, PBYTE *ppbOp, FILE *pfileOut) { int rc = ASLERR_NONE; PBYTE pbEnd = NULL; PNSOBJ pnsScopeSave = gpnsCurrentScope; PNSOBJ pns = NULL; ENTER((2, "UnAsmTermObj(pterm=%p,Term=%s,pbOp=%p,pfileOut=%p)\n", pterm, pterm->pszID, *ppbOp, pfileOut)); if (pfileOut != NULL) { fprintf(pfileOut, "%s", pterm->pszID); } if (pterm->dwfTerm & TF_PACKAGE_LEN) { ParsePackageLen(ppbOp, &pbEnd); } if (pterm->pszUnAsmArgTypes != NULL) { rc = UnAsmArgs(pterm->pszUnAsmArgTypes, pterm->pszArgActions, pterm->dwTermData, ppbOp, &pns, pfileOut); } if (rc == ASLERR_NONE) { if (pterm->dwfTerm & TF_DATA_LIST) { rc = UnAsmDataList(ppbOp, pbEnd, pfileOut); } else if (pterm->dwfTerm & TF_PACKAGE_LIST) { rc = UnAsmPkgList(ppbOp, pbEnd, pfileOut); } else if (pterm->dwfTerm & TF_FIELD_LIST) { rc = UnAsmFieldList(ppbOp, pbEnd, pfileOut); } else if (pterm->dwfTerm & TF_PACKAGE_LEN) { if ((pfileOut == NULL) && (pterm->lID == ID_METHOD)) { // // We are in NameSpace building pass, so don't need to // go into methods. // *ppbOp = pbEnd; } else { if (pterm->dwfTerm & TF_CHANGE_CHILDSCOPE) { ASSERT(pns != NULL); gpnsCurrentScope = pns; } rc = UnAsmScope(ppbOp, pbEnd, pfileOut); } } } gpnsCurrentScope = pnsScopeSave; EXIT((2, "UnAsmTermObj=%d\n", rc)); return rc; } //UnAsmTermObj /***LP UnAsmArgs - Unassemble arguments * * ENTRY * pszUnArgTypes -> UnAsm ArgTypes string * pszArgActions -> Arg Action types * dwTermData - Term data * ppbOp -> opcode pointer * ppns -> to hold created object * pfileOut -> ASM output file * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmArgs(PSZ pszUnAsmArgTypes, PSZ pszArgActions, DWORD dwTermData, PBYTE *ppbOp, PNSOBJ *ppns, FILE *pfileOut) { int rc = ASLERR_NONE; static BYTE bArgData = 0; int iNumArgs, i; PASLTERM pterm; ENTER((2, "UnAsmArgs(UnAsmArgTypes=%s,ArgActions=%s,TermData=%x,pbOp=%p,ppns=%p,pfileOut=%p)\n", pszUnAsmArgTypes, pszArgActions? pszArgActions: "", dwTermData, *ppbOp, ppns, pfileOut)); iNumArgs = strlen(pszUnAsmArgTypes); if (pfileOut != NULL) { fprintf(pfileOut, "("); } for (i = 0; i < iNumArgs; ++i) { if ((i != 0) && (pfileOut != NULL)) { fprintf(pfileOut, ", "); } switch (pszUnAsmArgTypes[i]) { case 'N': ASSERT(pszArgActions != NULL); rc = UnAsmNameObj(ppbOp, pfileOut, ppns, pszArgActions[i]); break; case 'O': if ((**ppbOp == OP_BUFFER) || (**ppbOp == OP_PACKAGE) || (OpClassTable[**ppbOp] == OPCLASS_CONST_OBJ)) { pterm = FindOpTerm((DWORD)(**ppbOp)); ASSERT(pterm != NULL); (*ppbOp)++; rc = UnAsmTermObj(pterm, ppbOp, pfileOut); } else { rc = UnAsmDataObj(ppbOp, pfileOut); } break; case 'C': rc = UnAsmOpcode(ppbOp, pfileOut); break; case 'B': if (pfileOut != NULL) { fprintf(pfileOut, "0x%x", **ppbOp); } *ppbOp += sizeof(BYTE); break; case 'E': case 'e': case 'K': case 'k': if ((pszUnAsmArgTypes[i] == 'K') || (pszUnAsmArgTypes[i] == 'E')) { bArgData = **ppbOp; } if ((pszArgActions != NULL) && (pszArgActions[i] == '!')) { if ((gdwfASL & ASLF_UNASM) && (*ppns != NULL)) { (*ppns)->ObjData.uipDataValue = (DWORD)(**ppbOp & 0x07); } if (pfileOut != NULL) { fprintf(pfileOut, "0x%x", **ppbOp & 0x07); } } else if (pfileOut != NULL) { pterm = FindKeywordTerm(pszArgActions[i], bArgData); if (pterm != NULL) { fprintf(pfileOut, "%s", pterm->pszID); } else { fprintf(pfileOut, "0x%x", bArgData & dwTermData & 0xff); } } if ((pszUnAsmArgTypes[i] == 'K') || (pszUnAsmArgTypes[i] == 'E')) { *ppbOp += sizeof(BYTE); } break; case 'W': if (pfileOut != NULL) { fprintf(pfileOut, "0x%x", *((PWORD)*ppbOp)); } *ppbOp += sizeof(WORD); break; case 'D': if (pfileOut != NULL) { fprintf(pfileOut, "0x%x", *((PDWORD)*ppbOp)); } *ppbOp += sizeof(DWORD); break; case 'S': ASSERT(pszArgActions != NULL); rc = UnAsmSuperName(ppbOp, pfileOut); break; default: ERROR(("UnAsmOpcode: invalid ArgType '%c'", pszUnAsmArgTypes[i])); rc = ASLERR_INVALID_ARGTYPE; } } if (pfileOut != NULL) { fprintf(pfileOut, ")"); } EXIT((2, "UnAsmArgs=%d\n", rc)); return rc; } //UnAsmArgs /***LP UnAsmSuperName - Unassemble supername * * ENTRY * ppbOp -> opcode pointer * pfileOut -> ASM output file * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmSuperName(PBYTE *ppbOp, FILE *pfileOut) { int rc = ASLERR_NONE; ENTER((2, "UnAsmSuperName(pbOp=%p,pfileOut=%p)\n", *ppbOp, pfileOut)); if (**ppbOp == 0) { (*ppbOp)++; } else if ((**ppbOp == OP_EXT_PREFIX) && (*(*ppbOp + 1) == EXOP_DEBUG)) { if (pfileOut != NULL) { fprintf(pfileOut, "Debug"); } *ppbOp += 2; } else if (OpClassTable[**ppbOp] == OPCLASS_NAME_OBJ) { rc = UnAsmNameObj(ppbOp, pfileOut, NULL, NSTYPE_UNKNOWN); } else if ((**ppbOp == OP_INDEX) || (OpClassTable[**ppbOp] == OPCLASS_ARG_OBJ) || (OpClassTable[**ppbOp] == OPCLASS_LOCAL_OBJ)) { rc = UnAsmOpcode(ppbOp, pfileOut); } else { ERROR(("UnAsmSuperName: invalid SuperName - 0x%02x", **ppbOp)); rc = ASLERR_INVALID_NAME; } EXIT((2, "UnAsmSuperName=%d\n", rc)); return rc; } //UnAsmSuperName /***LP ParsePackageLen - parse package length * * ENTRY * ppbOp -> instruction pointer * ppbOpNext -> to hold pointer to next instruction (can be NULL) * * EXIT * returns package length */ DWORD LOCAL ParsePackageLen(PBYTE *ppbOp, PBYTE *ppbOpNext) { DWORD dwLen; BYTE bFollowCnt, i; ENTER((2, "ParsePackageLen(pbOp=%x,ppbOpNext=%x)\n", *ppbOp, ppbOpNext)); if (ppbOpNext != NULL) *ppbOpNext = *ppbOp; dwLen = (DWORD)(**ppbOp); (*ppbOp)++; bFollowCnt = (BYTE)((dwLen & 0xc0) >> 6); if (bFollowCnt != 0) { dwLen &= 0x0000000f; for (i = 0; i < bFollowCnt; ++i) { dwLen |= (DWORD)(**ppbOp) << (i*8 + 4); (*ppbOp)++; } } if (ppbOpNext != NULL) *ppbOpNext += dwLen; EXIT((2, "ParsePackageLen=%x (pbOp=%x,pbOpNext=%x)\n", dwLen, *ppbOp, ppbOpNext? *ppbOpNext: 0)); return dwLen; } //ParsePackageLen /***LP UnAsmDataList - Unassemble data list * * ENTRY * ppbOp -> opcode pointer * pbEnd -> end of list * pfileOut -> ASM output file * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmDataList(PBYTE *ppbOp, PBYTE pbEnd, FILE *pfileOut) { int rc = ASLERR_NONE; int i; ENTER((2, "UnAsmDataList(pbOp=%p,pbEnd=%p,pfileOut=%p)\n", *ppbOp, pbEnd, pfileOut)); DumpCode(*ppbOp, pfileOut); PrintIndent(giLevel, pfileOut); if (pfileOut != NULL) { fprintf(pfileOut, "{\n"); } while (*ppbOp < pbEnd) { if (pfileOut != NULL) { if ((gdwfASL & ASLF_GENASM) || !(gdwfASL & ASLF_GENSRC)) { fprintf(pfileOut, ";"); } fprintf(pfileOut, "\t0x%02x", **ppbOp); } (*ppbOp)++; for (i = 1; (*ppbOp < pbEnd) && (i < 12); ++i) { if (pfileOut != NULL) { fprintf(pfileOut, ", 0x%02x", **ppbOp); } (*ppbOp)++; } if (pfileOut != NULL) { if (*ppbOp < pbEnd) { fprintf(pfileOut, ","); } fprintf(pfileOut, "\n"); } } PrintIndent(giLevel, pfileOut); if (pfileOut != NULL) { fprintf(pfileOut, "}"); } EXIT((2, "UnAsmDataList=%d\n", rc)); return rc; } //UnAsmDataList /***LP UnAsmPkgList - Unassemble package list * * ENTRY * ppbOp -> opcode pointer * pbEnd -> end of list * pfileOut -> ASM output file * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmPkgList(PBYTE *ppbOp, PBYTE pbEnd, FILE *pfileOut) { int rc = ASLERR_NONE; PASLTERM pterm; ENTER((2, "UnAsmPkgList(pbOp=%p,pbEnd=%p,pfileOut=%p)\n", *ppbOp, pbEnd, pfileOut)); DumpCode(*ppbOp, pfileOut); PrintIndent(giLevel, pfileOut); if (pfileOut != NULL) { fprintf(pfileOut, "{\n"); } giLevel++; while ((*ppbOp < pbEnd) && (rc == ASLERR_NONE)) { PrintIndent(giLevel, pfileOut); if ((**ppbOp == OP_BUFFER) || (**ppbOp == OP_PACKAGE) || (OpClassTable[**ppbOp] == OPCLASS_CONST_OBJ)) { pterm = FindOpTerm((DWORD)(**ppbOp)); ASSERT(pterm != NULL); (*ppbOp)++; rc = UnAsmTermObj(pterm, ppbOp, pfileOut); } else if (OpClassTable[**ppbOp] == OPCLASS_NAME_OBJ) { rc = UnAsmNameObj(ppbOp, pfileOut, NULL, NSTYPE_UNKNOWN); } else { rc = UnAsmDataObj(ppbOp, pfileOut); } if ((*ppbOp < pbEnd) && (rc == ASLERR_NONE) && (pfileOut != NULL)) { fprintf(pfileOut, ","); } DumpCode(*ppbOp, pfileOut); } giLevel--; PrintIndent(giLevel, pfileOut); if (pfileOut != NULL) { fprintf(pfileOut, "}"); } EXIT((2, "UnAsmPkgList=%d\n", rc)); return rc; } //UnAsmPkgList /***LP UnAsmFieldList - Unassemble field list * * ENTRY * ppbOp -> opcode pointer * pbEnd -> end of list * pfileOut -> ASM output file * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmFieldList(PBYTE *ppbOp, PBYTE pbEnd, FILE *pfileOut) { int rc = ASLERR_NONE; DWORD dwBitPos = 0; ENTER((2, "UnAsmFieldList(pbOp=%p,pbEnd=%p,pfileOut=%p)\n", *ppbOp, pbEnd, pfileOut)); DumpCode(*ppbOp, pfileOut); PrintIndent(giLevel, pfileOut); if (pfileOut != NULL) { fprintf(pfileOut, "{\n"); } giLevel++; while ((*ppbOp < pbEnd) && (rc == ASLERR_NONE)) { PrintIndent(giLevel, pfileOut); if (((rc = UnAsmField(ppbOp, pfileOut, &dwBitPos)) == ASLERR_NONE) && (*ppbOp < pbEnd) && (pfileOut != NULL)) { fprintf(pfileOut, ","); } DumpCode(*ppbOp, pfileOut); } giLevel--; PrintIndent(giLevel, pfileOut); if (pfileOut != NULL) { fprintf(pfileOut, "}"); } EXIT((2, "UnAsmFieldList=%d\n", rc)); return rc; } //UnAsmFieldList /***LP UnAsmField - Unassemble field * * ENTRY * ppbOp -> opcode pointer * pfileOut -> ASM output file * pdwBitPos -> to hold cumulative bit position * * EXIT-SUCCESS * returns ASLERR_NONE * EXIT-FAILURE * returns negative error code */ int LOCAL UnAsmField(PBYTE *ppbOp, FILE *pfileOut, PDWORD pdwBitPos) { int rc = ASLERR_NONE; ENTER((2, "UnAsmField(pbOp=%p,pfileOut=%p,BitPos=%x)\n", *ppbOp, pfileOut, *pdwBitPos)); if (**ppbOp == 0x01) { (*ppbOp)++; if (pfileOut != NULL) { PASLTERM pterm; pterm = FindKeywordTerm('A', **ppbOp); fprintf(pfileOut, "AccessAs(%s, 0x%x)", pterm->pszID, *(*ppbOp + 1)); } *ppbOp += 2; } else { char szNameSeg[sizeof(NAMESEG) + 1]; DWORD dwcbBits; if (**ppbOp == 0) { szNameSeg[0] = '\0'; (*ppbOp)++; } else { strncpy(szNameSeg, (PSZ)*ppbOp, sizeof(NAMESEG)); szNameSeg[4] = '\0'; *ppbOp += sizeof(NAMESEG); } dwcbBits = ParsePackageLen(ppbOp, NULL); if (szNameSeg[0] == '\0') { if (pfileOut != NULL) { if ((dwcbBits > 32) && (((*pdwBitPos + dwcbBits) % 8) == 0)) { fprintf(pfileOut, "Offset(0x%x)", (*pdwBitPos + dwcbBits)/8); } else { fprintf(pfileOut, ", %d", dwcbBits); } } } else { if (pfileOut != NULL) { fprintf(pfileOut, "%s, %d", szNameSeg, dwcbBits); } if ((gdwfASL & ASLF_UNASM) && (pfileOut == NULL)) { rc = CreateObject(NULL, szNameSeg, NSTYPE_FIELDUNIT, NULL); } } *pdwBitPos += dwcbBits; } EXIT((2, "UnAsmField=%d\n", rc)); return rc; } //UnAsmField