From 8173c5e7c87cf42bbe760ac8ec9c068c6cb145cf Mon Sep 17 00:00:00 2001 From: NAKAMURA Takumi Date: Mon, 25 Mar 2013 20:55:43 +0000 Subject: [PATCH] Whitespace. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@177909 91177308-0d34-0410-b5e6-96231b3b80d8 --- .../X86/Disassembler/X86DisassemblerDecoder.c | 320 +++++++++--------- 1 file changed, 160 insertions(+), 160 deletions(-) diff --git a/lib/Target/X86/Disassembler/X86DisassemblerDecoder.c b/lib/Target/X86/Disassembler/X86DisassemblerDecoder.c index 7324c413d11..3f4f18f0f72 100644 --- a/lib/Target/X86/Disassembler/X86DisassemblerDecoder.c +++ b/lib/Target/X86/Disassembler/X86DisassemblerDecoder.c @@ -61,7 +61,7 @@ static int modRMRequired(OpcodeType type, InstructionContext insnContext, uint8_t opcode) { const struct ContextDecision* decision = 0; - + switch (type) { case ONEBYTE: decision = &ONEBYTE_SYM; @@ -102,7 +102,7 @@ static InstrUID decode(OpcodeType type, uint8_t opcode, uint8_t modRM) { const struct ModRMDecision* dec = 0; - + switch (type) { case ONEBYTE: dec = &ONEBYTE_SYM.opcodeDecisions[insnContext].modRMDecisions[opcode]; @@ -123,7 +123,7 @@ static InstrUID decode(OpcodeType type, dec = &THREEBYTEA7_SYM.opcodeDecisions[insnContext].modRMDecisions[opcode]; break; } - + switch (dec->modrm_type) { default: debug("Corrupt table! Unknown modrm_type"); @@ -171,10 +171,10 @@ static const struct InstructionSpecifier *specifierForUID(InstrUID uid) { */ static int consumeByte(struct InternalInstruction* insn, uint8_t* byte) { int ret = insn->reader(insn->readerArg, byte, insn->readerCursor); - + if (!ret) ++(insn->readerCursor); - + return ret; } @@ -238,19 +238,19 @@ CONSUME_FUNC(consumeUInt64, uint64_t) */ static void dbgprintf(struct InternalInstruction* insn, const char* format, - ...) { + ...) { char buffer[256]; va_list ap; - + if (!insn->dlog) return; - + va_start(ap, format); (void)vsnprintf(buffer, sizeof(buffer), format, ap); va_end(ap); - + insn->dlog(insn->dlogArg, buffer); - + return; } @@ -305,15 +305,15 @@ static int readPrefixes(struct InternalInstruction* insn) { BOOL prefixGroups[4] = { FALSE }; uint64_t prefixLocation; uint8_t byte = 0; - + BOOL hasAdSize = FALSE; BOOL hasOpSize = FALSE; - + dbgprintf(insn, "readPrefixes()"); - + while (isPrefix) { prefixLocation = insn->readerCursor; - + if (consumeByte(insn, &byte)) return -1; @@ -400,21 +400,21 @@ static int readPrefixes(struct InternalInstruction* insn) { isPrefix = FALSE; break; } - + if (isPrefix) dbgprintf(insn, "Found prefix 0x%hhx", byte); } - + insn->vexSize = 0; - + if (byte == 0xc4) { uint8_t byte1; - + if (lookAtByte(insn, &byte1)) { dbgprintf(insn, "Couldn't read second byte of VEX"); return -1; } - + if (insn->mode == MODE_64BIT || (byte1 & 0xc0) == 0xc0) { insn->vexSize = 3; insn->necessaryPrefixLocation = insn->readerCursor - 1; @@ -423,67 +423,67 @@ static int readPrefixes(struct InternalInstruction* insn) { unconsumeByte(insn); insn->necessaryPrefixLocation = insn->readerCursor - 1; } - + if (insn->vexSize == 3) { insn->vexPrefix[0] = byte; consumeByte(insn, &insn->vexPrefix[1]); consumeByte(insn, &insn->vexPrefix[2]); /* We simulate the REX prefix for simplicity's sake */ - + if (insn->mode == MODE_64BIT) { - insn->rexPrefix = 0x40 + insn->rexPrefix = 0x40 | (wFromVEX3of3(insn->vexPrefix[2]) << 3) | (rFromVEX2of3(insn->vexPrefix[1]) << 2) | (xFromVEX2of3(insn->vexPrefix[1]) << 1) | (bFromVEX2of3(insn->vexPrefix[1]) << 0); } - + switch (ppFromVEX3of3(insn->vexPrefix[2])) { default: break; case VEX_PREFIX_66: - hasOpSize = TRUE; + hasOpSize = TRUE; break; } - + dbgprintf(insn, "Found VEX prefix 0x%hhx 0x%hhx 0x%hhx", insn->vexPrefix[0], insn->vexPrefix[1], insn->vexPrefix[2]); } } else if (byte == 0xc5) { uint8_t byte1; - + if (lookAtByte(insn, &byte1)) { dbgprintf(insn, "Couldn't read second byte of VEX"); return -1; } - + if (insn->mode == MODE_64BIT || (byte1 & 0xc0) == 0xc0) { insn->vexSize = 2; } else { unconsumeByte(insn); } - + if (insn->vexSize == 2) { insn->vexPrefix[0] = byte; consumeByte(insn, &insn->vexPrefix[1]); - + if (insn->mode == MODE_64BIT) { - insn->rexPrefix = 0x40 + insn->rexPrefix = 0x40 | (rFromVEX2of2(insn->vexPrefix[1]) << 2); } - + switch (ppFromVEX2of2(insn->vexPrefix[1])) { default: break; case VEX_PREFIX_66: - hasOpSize = TRUE; + hasOpSize = TRUE; break; } - + dbgprintf(insn, "Found VEX prefix 0x%hhx 0x%hhx", insn->vexPrefix[0], insn->vexPrefix[1]); } } @@ -491,17 +491,17 @@ static int readPrefixes(struct InternalInstruction* insn) { if (insn->mode == MODE_64BIT) { if ((byte & 0xf0) == 0x40) { uint8_t opcodeByte; - + if (lookAtByte(insn, &opcodeByte) || ((opcodeByte & 0xf0) == 0x40)) { dbgprintf(insn, "Redundant REX prefix"); return -1; } - + insn->rexPrefix = byte; insn->necessaryPrefixLocation = insn->readerCursor - 2; - + dbgprintf(insn, "Found REX prefix 0x%hhx", byte); - } else { + } else { unconsumeByte(insn); insn->necessaryPrefixLocation = insn->readerCursor - 1; } @@ -539,7 +539,7 @@ static int readPrefixes(struct InternalInstruction* insn) { insn->immediateSize = (hasOpSize ? 2 : 4); } } - + return 0; } @@ -550,22 +550,22 @@ static int readPrefixes(struct InternalInstruction* insn) { * @param insn - The instruction whose opcode is to be read. * @return - 0 if the opcode could be read successfully; nonzero otherwise. */ -static int readOpcode(struct InternalInstruction* insn) { +static int readOpcode(struct InternalInstruction* insn) { /* Determine the length of the primary opcode */ - + uint8_t current; - + dbgprintf(insn, "readOpcode()"); - + insn->opcodeType = ONEBYTE; - + if (insn->vexSize == 3) { switch (mmmmmFromVEX2of3(insn->vexPrefix[1])) { default: dbgprintf(insn, "Unhandled m-mmmm field for instruction (0x%hhx)", mmmmmFromVEX2of3(insn->vexPrefix[1])); - return -1; + return -1; case 0: break; case VEX_LOB_0F: @@ -577,7 +577,7 @@ static int readOpcode(struct InternalInstruction* insn) { insn->threeByteEscape = 0x38; insn->opcodeType = THREEBYTE_38; return consumeByte(insn, &insn->opcode); - case VEX_LOB_0F3A: + case VEX_LOB_0F3A: insn->twoByteEscape = 0x0f; insn->threeByteEscape = 0x3a; insn->opcodeType = THREEBYTE_3A; @@ -590,68 +590,68 @@ static int readOpcode(struct InternalInstruction* insn) { insn->opcodeType = TWOBYTE; return consumeByte(insn, &insn->opcode); } - + if (consumeByte(insn, ¤t)) return -1; - + if (current == 0x0f) { dbgprintf(insn, "Found a two-byte escape prefix (0x%hhx)", current); - + insn->twoByteEscape = current; - + if (consumeByte(insn, ¤t)) return -1; - + if (current == 0x38) { dbgprintf(insn, "Found a three-byte escape prefix (0x%hhx)", current); - + insn->threeByteEscape = current; - + if (consumeByte(insn, ¤t)) return -1; - + insn->opcodeType = THREEBYTE_38; } else if (current == 0x3a) { dbgprintf(insn, "Found a three-byte escape prefix (0x%hhx)", current); - + insn->threeByteEscape = current; - + if (consumeByte(insn, ¤t)) return -1; - + insn->opcodeType = THREEBYTE_3A; } else if (current == 0xa6) { dbgprintf(insn, "Found a three-byte escape prefix (0x%hhx)", current); - + insn->threeByteEscape = current; - + if (consumeByte(insn, ¤t)) return -1; - + insn->opcodeType = THREEBYTE_A6; } else if (current == 0xa7) { dbgprintf(insn, "Found a three-byte escape prefix (0x%hhx)", current); - + insn->threeByteEscape = current; - + if (consumeByte(insn, ¤t)) return -1; - + insn->opcodeType = THREEBYTE_A7; } else { dbgprintf(insn, "Didn't find a three-byte escape prefix"); - + insn->opcodeType = TWOBYTE; } } - + /* * At this point we have consumed the full opcode. * Anything we consume from here on must be unconsumed. */ - + insn->opcode = current; - + return 0; } @@ -673,19 +673,19 @@ static int getIDWithAttrMask(uint16_t* instructionID, struct InternalInstruction* insn, uint8_t attrMask) { BOOL hasModRMExtension; - + uint8_t instructionClass; instructionClass = contextForAttrs(attrMask); - + hasModRMExtension = modRMRequired(insn->opcodeType, instructionClass, insn->opcode); - + if (hasModRMExtension) { if (readModRM(insn)) return -1; - + *instructionID = decode(insn->opcodeType, instructionClass, insn->opcode, @@ -696,7 +696,7 @@ static int getIDWithAttrMask(uint16_t* instructionID, insn->opcode, 0); } - + return 0; } @@ -709,7 +709,7 @@ static int getIDWithAttrMask(uint16_t* instructionID, */ static BOOL is16BitEquivalent(const char* orig, const char* equiv) { off_t i; - + for (i = 0;; i++) { if (orig[i] == '\0' && equiv[i] == '\0') return TRUE; @@ -728,8 +728,8 @@ static BOOL is16BitEquivalent(const char* orig, const char* equiv) { } /* - * getID - Determines the ID of an instruction, consuming the ModR/M byte as - * appropriate for extended and escape opcodes. Determines the attributes and + * getID - Determines the ID of an instruction, consuming the ModR/M byte as + * appropriate for extended and escape opcodes. Determines the attributes and * context for the instruction before doing so. * * @param insn - The instruction whose ID is to be determined. @@ -739,21 +739,21 @@ static BOOL is16BitEquivalent(const char* orig, const char* equiv) { static int getID(struct InternalInstruction* insn, const void *miiArg) { uint8_t attrMask; uint16_t instructionID; - + dbgprintf(insn, "getID()"); - + attrMask = ATTR_NONE; if (insn->mode == MODE_64BIT) attrMask |= ATTR_64BIT; - + if (insn->vexSize) { attrMask |= ATTR_VEX; if (insn->vexSize == 3) { switch (ppFromVEX3of3(insn->vexPrefix[2])) { case VEX_PREFIX_66: - attrMask |= ATTR_OPSIZE; + attrMask |= ATTR_OPSIZE; break; case VEX_PREFIX_F3: attrMask |= ATTR_XS; @@ -762,14 +762,14 @@ static int getID(struct InternalInstruction* insn, const void *miiArg) { attrMask |= ATTR_XD; break; } - + if (lFromVEX3of3(insn->vexPrefix[2])) attrMask |= ATTR_VEXL; } else if (insn->vexSize == 2) { switch (ppFromVEX2of2(insn->vexPrefix[1])) { case VEX_PREFIX_66: - attrMask |= ATTR_OPSIZE; + attrMask |= ATTR_OPSIZE; break; case VEX_PREFIX_F3: attrMask |= ATTR_XS; @@ -778,7 +778,7 @@ static int getID(struct InternalInstruction* insn, const void *miiArg) { attrMask |= ATTR_XD; break; } - + if (lFromVEX2of2(insn->vexPrefix[1])) attrMask |= ATTR_VEXL; } @@ -849,26 +849,26 @@ static int getID(struct InternalInstruction* insn, const void *miiArg) { * conservative, but in the specific case where OpSize is present but not * in the right place we check if there's a 16-bit operation. */ - + const struct InstructionSpecifier *spec; uint16_t instructionIDWithOpsize; const char *specName, *specWithOpSizeName; - + spec = specifierForUID(instructionID); - + if (getIDWithAttrMask(&instructionIDWithOpsize, insn, attrMask | ATTR_OPSIZE)) { - /* + /* * ModRM required with OpSize but not present; give up and return version * without OpSize set */ - + insn->instructionID = instructionID; insn->spec = spec; return 0; } - + specName = x86DisassemblerGetInstrName(instructionID, miiArg); specWithOpSizeName = x86DisassemblerGetInstrName(instructionIDWithOpsize, miiArg); @@ -895,10 +895,10 @@ static int getID(struct InternalInstruction* insn, const void *miiArg) { const struct InstructionSpecifier *specWithNewOpcode; spec = specifierForUID(instructionID); - + /* Borrow opcode from one of the other XCHGar opcodes */ insn->opcode = 0x91; - + if (getIDWithAttrMask(&instructionIDWithNewOpcode, insn, attrMask)) { @@ -919,10 +919,10 @@ static int getID(struct InternalInstruction* insn, const void *miiArg) { return 0; } - + insn->instructionID = instructionID; insn->spec = specifierForUID(insn->instructionID); - + return 0; } @@ -937,14 +937,14 @@ static int readSIB(struct InternalInstruction* insn) { SIBIndex sibIndexBase = 0; SIBBase sibBaseBase = 0; uint8_t index, base; - + dbgprintf(insn, "readSIB()"); - + if (insn->consumedSIB) return 0; - + insn->consumedSIB = TRUE; - + switch (insn->addressSize) { case 2: dbgprintf(insn, "SIB-based addressing doesn't work in 16-bit mode"); @@ -962,9 +962,9 @@ static int readSIB(struct InternalInstruction* insn) { if (consumeByte(insn, &insn->sib)) return -1; - + index = indexFromSIB(insn->sib) | (xFromREX(insn->rexPrefix) << 3); - + switch (index) { case 0x4: insn->sibIndex = SIB_INDEX_NONE; @@ -976,7 +976,7 @@ static int readSIB(struct InternalInstruction* insn) { insn->sibIndex = SIB_INDEX_NONE; break; } - + switch (scaleFromSIB(insn->sib)) { case 0: insn->sibScale = 1; @@ -991,9 +991,9 @@ static int readSIB(struct InternalInstruction* insn) { insn->sibScale = 8; break; } - + base = baseFromSIB(insn->sib) | (bFromREX(insn->rexPrefix) << 3); - + switch (base) { case 0x5: switch (modFromModRM(insn->modRM)) { @@ -1003,12 +1003,12 @@ static int readSIB(struct InternalInstruction* insn) { break; case 0x1: insn->eaDisplacement = EA_DISP_8; - insn->sibBase = (insn->addressSize == 4 ? + insn->sibBase = (insn->addressSize == 4 ? SIB_BASE_EBP : SIB_BASE_RBP); break; case 0x2: insn->eaDisplacement = EA_DISP_32; - insn->sibBase = (insn->addressSize == 4 ? + insn->sibBase = (insn->addressSize == 4 ? SIB_BASE_EBP : SIB_BASE_RBP); break; case 0x3: @@ -1020,7 +1020,7 @@ static int readSIB(struct InternalInstruction* insn) { insn->sibBase = (SIBBase)(sibBaseBase + base); break; } - + return 0; } @@ -1028,22 +1028,22 @@ static int readSIB(struct InternalInstruction* insn) { * readDisplacement - Consumes the displacement of an instruction. * * @param insn - The instruction whose displacement is to be read. - * @return - 0 if the displacement byte was successfully read; nonzero + * @return - 0 if the displacement byte was successfully read; nonzero * otherwise. */ -static int readDisplacement(struct InternalInstruction* insn) { +static int readDisplacement(struct InternalInstruction* insn) { int8_t d8; int16_t d16; int32_t d32; - + dbgprintf(insn, "readDisplacement()"); - + if (insn->consumedDisplacement) return 0; - + insn->consumedDisplacement = TRUE; insn->displacementOffset = insn->readerCursor - insn->startLocation; - + switch (insn->eaDisplacement) { case EA_DISP_NONE: insn->consumedDisplacement = FALSE; @@ -1064,7 +1064,7 @@ static int readDisplacement(struct InternalInstruction* insn) { insn->displacement = d32; break; } - + insn->consumedDisplacement = TRUE; return 0; } @@ -1076,22 +1076,22 @@ static int readDisplacement(struct InternalInstruction* insn) { * @param insn - The instruction whose addressing information is to be read. * @return - 0 if the information was successfully read; nonzero otherwise. */ -static int readModRM(struct InternalInstruction* insn) { +static int readModRM(struct InternalInstruction* insn) { uint8_t mod, rm, reg; - + dbgprintf(insn, "readModRM()"); - + if (insn->consumedModRM) return 0; - + if (consumeByte(insn, &insn->modRM)) return -1; insn->consumedModRM = TRUE; - + mod = modFromModRM(insn->modRM); rm = rmFromModRM(insn->modRM); reg = regFromModRM(insn->modRM); - + /* * This goes by insn->registerSize to pick the correct register, which messes * up if we're using (say) XMM or 8-bit register operands. That gets fixed in @@ -1111,16 +1111,16 @@ static int readModRM(struct InternalInstruction* insn) { insn->eaRegBase = EA_REG_RAX; break; } - + reg |= rFromREX(insn->rexPrefix) << 3; rm |= bFromREX(insn->rexPrefix) << 3; - + insn->reg = (Reg)(insn->regBase + reg); - + switch (insn->addressSize) { case 2: insn->eaBaseBase = EA_BASE_BX_SI; - + switch (mod) { case 0x0: if (rm == 0x6) { @@ -1155,14 +1155,14 @@ static int readModRM(struct InternalInstruction* insn) { case 4: case 8: insn->eaBaseBase = (insn->addressSize == 4 ? EA_BASE_EAX : EA_BASE_RAX); - + switch (mod) { case 0x0: insn->eaDisplacement = EA_DISP_NONE; /* readSIB may override this */ switch (rm) { case 0x4: case 0xc: /* in case REXW.b is set */ - insn->eaBase = (insn->addressSize == 4 ? + insn->eaBase = (insn->addressSize == 4 ? EA_BASE_sib : EA_BASE_sib64); readSIB(insn); if (readDisplacement(insn)) @@ -1204,7 +1204,7 @@ static int readModRM(struct InternalInstruction* insn) { } break; } /* switch (insn->addressSize) */ - + return 0; } @@ -1287,12 +1287,12 @@ GENERIC_FIXUP_FUNC(fixupRMValue, insn->eaRegBase, EA_REG) * @return - 0 if fixup was successful; -1 if the register returned was * invalid for its class. */ -static int fixupReg(struct InternalInstruction *insn, +static int fixupReg(struct InternalInstruction *insn, const struct OperandSpecifier *op) { uint8_t valid; - + dbgprintf(insn, "fixupReg()"); - + switch ((OperandEncoding)op->encoding) { default: debug("Expected a REG or R/M encoding in fixupReg"); @@ -1324,12 +1324,12 @@ static int fixupReg(struct InternalInstruction *insn, } break; } - + return 0; } /* - * readOpcodeModifier - Reads an operand from the opcode field of an + * readOpcodeModifier - Reads an operand from the opcode field of an * instruction. Handles AddRegFrm instructions. * * @param insn - The instruction whose opcode field is to be read. @@ -1339,12 +1339,12 @@ static int fixupReg(struct InternalInstruction *insn, */ static int readOpcodeModifier(struct InternalInstruction* insn) { dbgprintf(insn, "readOpcodeModifier()"); - + if (insn->consumedOpcodeModifier) return 0; - + insn->consumedOpcodeModifier = TRUE; - + switch (insn->spec->modifierType) { default: debug("Unknown modifier type."); @@ -1358,11 +1358,11 @@ static int readOpcodeModifier(struct InternalInstruction* insn) { case MODIFIER_MODRM: insn->opcodeModifier = insn->modRM - insn->spec->modifierBase; return 0; - } + } } /* - * readOpcodeRegister - Reads an operand from the opcode field of an + * readOpcodeRegister - Reads an operand from the opcode field of an * instruction and interprets it appropriately given the operand width. * Handles AddRegFrm instructions. * @@ -1377,39 +1377,39 @@ static int readOpcodeRegister(struct InternalInstruction* insn, uint8_t size) { if (readOpcodeModifier(insn)) return -1; - + if (size == 0) size = insn->registerSize; - + switch (size) { case 1: - insn->opcodeRegister = (Reg)(MODRM_REG_AL + ((bFromREX(insn->rexPrefix) << 3) + insn->opcodeRegister = (Reg)(MODRM_REG_AL + ((bFromREX(insn->rexPrefix) << 3) | insn->opcodeModifier)); - if (insn->rexPrefix && + if (insn->rexPrefix && insn->opcodeRegister >= MODRM_REG_AL + 0x4 && insn->opcodeRegister < MODRM_REG_AL + 0x8) { insn->opcodeRegister = (Reg)(MODRM_REG_SPL + (insn->opcodeRegister - MODRM_REG_AL - 4)); } - + break; case 2: insn->opcodeRegister = (Reg)(MODRM_REG_AX - + ((bFromREX(insn->rexPrefix) << 3) + + ((bFromREX(insn->rexPrefix) << 3) | insn->opcodeModifier)); break; case 4: insn->opcodeRegister = (Reg)(MODRM_REG_EAX - + ((bFromREX(insn->rexPrefix) << 3) + + ((bFromREX(insn->rexPrefix) << 3) | insn->opcodeModifier)); break; case 8: - insn->opcodeRegister = (Reg)(MODRM_REG_RAX - + ((bFromREX(insn->rexPrefix) << 3) + insn->opcodeRegister = (Reg)(MODRM_REG_RAX + + ((bFromREX(insn->rexPrefix) << 3) | insn->opcodeModifier)); break; } - + return 0; } @@ -1427,20 +1427,20 @@ static int readImmediate(struct InternalInstruction* insn, uint8_t size) { uint16_t imm16; uint32_t imm32; uint64_t imm64; - + dbgprintf(insn, "readImmediate()"); - + if (insn->numImmediatesConsumed == 2) { debug("Already consumed two immediates"); return -1; } - + if (size == 0) size = insn->immediateSize; else insn->immediateSize = size; insn->immediateOffset = insn->readerCursor - insn->startLocation; - + switch (size) { case 1: if (consumeByte(insn, &imm8)) @@ -1463,9 +1463,9 @@ static int readImmediate(struct InternalInstruction* insn, uint8_t size) { insn->immediates[insn->numImmediatesConsumed] = imm64; break; } - + insn->numImmediatesConsumed++; - + return 0; } @@ -1478,7 +1478,7 @@ static int readImmediate(struct InternalInstruction* insn, uint8_t size) { */ static int readVVVV(struct InternalInstruction* insn) { dbgprintf(insn, "readVVVV()"); - + if (insn->vexSize == 3) insn->vvvv = vvvvFromVEX3of3(insn->vexPrefix[2]); else if (insn->vexSize == 2) @@ -1503,14 +1503,14 @@ static int readOperands(struct InternalInstruction* insn) { int index; int hasVVVV, needVVVV; int sawRegImm = 0; - + dbgprintf(insn, "readOperands()"); /* If non-zero vvvv specified, need to make sure one of the operands uses it. */ hasVVVV = !readVVVV(insn); needVVVV = hasVVVV && (insn->vvvv != 0); - + for (index = 0; index < X86_MAX_OPERANDS; ++index) { switch (x86OperandSets[insn->spec->operands][index].encoding) { case ENCODING_NONE: @@ -1612,7 +1612,7 @@ static int readOperands(struct InternalInstruction* insn) { /* If we didn't find ENCODING_VVVV operand, but non-zero vvvv present, fail */ if (needVVVV) return -1; - + return 0; } @@ -1620,7 +1620,7 @@ static int readOperands(struct InternalInstruction* insn) { * decodeInstruction - Reads and interprets a full instruction provided by the * user. * - * @param insn - A pointer to the instruction to be populated. Must be + * @param insn - A pointer to the instruction to be populated. Must be * pre-allocated. * @param reader - The function to be used to read the instruction's bytes. * @param readerArg - A generic argument to be passed to the reader to store @@ -1645,7 +1645,7 @@ int decodeInstruction(struct InternalInstruction* insn, uint64_t startLoc, DisassemblerMode mode) { memset(insn, 0, sizeof(struct InternalInstruction)); - + insn->reader = reader; insn->readerArg = readerArg; insn->dlog = logger; @@ -1654,7 +1654,7 @@ int decodeInstruction(struct InternalInstruction* insn, insn->readerCursor = startLoc; insn->mode = mode; insn->numImmediatesConsumed = 0; - + if (readPrefixes(insn) || readOpcode(insn) || getID(insn, miiArg) || @@ -1663,14 +1663,14 @@ int decodeInstruction(struct InternalInstruction* insn, return -1; insn->operands = &x86OperandSets[insn->spec->operands][0]; - + insn->length = insn->readerCursor - insn->startLocation; - + dbgprintf(insn, "Read from 0x%llx to 0x%llx: length %zu", startLoc, insn->readerCursor, insn->length); - + if (insn->length > 15) dbgprintf(insn, "Instruction exceeds 15-byte limit"); - + return 0; } -- 2.34.1