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llvm-mirror/utils/TableGen/InstrDocsEmitter.cpp
Joel Galenson 9249622410 [cfi-verify] Support AArch64. 
This patch adds support for AArch64 to cfi-verify.

This required three changes to cfi-verify.  First, it generalizes checking if an instruction is a trap by adding a new isTrap flag to TableGen (and defining it for x86 and AArch64).  Second, the code that ensures that the operand register is not clobbered between the CFI check and the indirect call needs to allow a single dereference (in x86 this happens as part of the jump instruction).  Third, we needed to ensure that return instructions are not counted as indirect branches.  Technically, returns are indirect branches and can be covered by CFI, but LLVM's forward-edge CFI does not protect them, and x86 does not consider them, so we keep that behavior.

In addition, we had to improve AArch64's code to evaluate the branch target of a MCInst to handle calls where the destination is not the first operand (which it often is not).

Differential Revision: https://reviews.llvm.org/D48836

llvm-svn: 337007
2018-07-13 15:19:33 +00:00

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//===- InstrDocsEmitter.cpp - Opcode Documentation Generator --------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// InstrDocsEmitter generates restructured text documentation for the opcodes
// that can be used by MachineInstr. For each opcode, the documentation lists:
// * Opcode name
// * Assembly string
// * Flags (e.g. mayLoad, isBranch, ...)
// * Operands, including type and name
// * Operand constraints
// * Implicit register uses & defs
// * Predicates
//
//===----------------------------------------------------------------------===//
#include "CodeGenDAGPatterns.h"
#include "CodeGenInstruction.h"
#include "CodeGenTarget.h"
#include "TableGenBackends.h"
#include "llvm/TableGen/Record.h"
#include <string>
#include <vector>
using namespace llvm;
namespace llvm {
void writeTitle(StringRef Str, raw_ostream &OS, char Kind = '-') {
OS << std::string(Str.size(), Kind) << "\n" << Str << "\n"
<< std::string(Str.size(), Kind) << "\n";
}
void writeHeader(StringRef Str, raw_ostream &OS, char Kind = '-') {
OS << Str << "\n" << std::string(Str.size(), Kind) << "\n";
}
std::string escapeForRST(StringRef Str) {
std::string Result;
Result.reserve(Str.size() + 4);
for (char C : Str) {
switch (C) {
// We want special characters to be shown as their C escape codes.
case '\n': Result += "\\n"; break;
case '\t': Result += "\\t"; break;
// Underscore at the end of a line has a special meaning in rst.
case '_': Result += "\\_"; break;
default: Result += C;
}
}
return Result;
}
void EmitInstrDocs(RecordKeeper &RK, raw_ostream &OS) {
CodeGenDAGPatterns CDP(RK);
CodeGenTarget &Target = CDP.getTargetInfo();
unsigned VariantCount = Target.getAsmParserVariantCount();
// Page title.
std::string Title = Target.getName();
Title += " Instructions";
writeTitle(Title, OS);
OS << "\n";
for (const CodeGenInstruction *II : Target.getInstructionsByEnumValue()) {
Record *Inst = II->TheDef;
// Don't print the target-independent instructions.
if (II->Namespace == "TargetOpcode")
continue;
// Heading (instruction name).
writeHeader(escapeForRST(Inst->getName()), OS, '=');
OS << "\n";
// Assembly string(s).
if (!II->AsmString.empty()) {
for (unsigned VarNum = 0; VarNum < VariantCount; ++VarNum) {
Record *AsmVariant = Target.getAsmParserVariant(VarNum);
OS << "Assembly string";
if (VariantCount != 1)
OS << " (" << AsmVariant->getValueAsString("Name") << ")";
std::string AsmString =
CodeGenInstruction::FlattenAsmStringVariants(II->AsmString, VarNum);
// We trim spaces at each end of the asm string because rst needs the
// formatting backticks to be next to a non-whitespace character.
OS << ": ``" << escapeForRST(StringRef(AsmString).trim(" "))
<< "``\n\n";
}
}
// Boolean flags.
std::vector<const char *> FlagStrings;
#define xstr(s) str(s)
#define str(s) #s
#define FLAG(f) if (II->f) { FlagStrings.push_back(str(f)); }
FLAG(isReturn)
FLAG(isBranch)
FLAG(isIndirectBranch)
FLAG(isCompare)
FLAG(isMoveImm)
FLAG(isBitcast)
FLAG(isSelect)
FLAG(isBarrier)
FLAG(isCall)
FLAG(isAdd)
FLAG(isTrap)
FLAG(canFoldAsLoad)
FLAG(mayLoad)
//FLAG(mayLoad_Unset) // Deliberately omitted.
FLAG(mayStore)
//FLAG(mayStore_Unset) // Deliberately omitted.
FLAG(isPredicable)
FLAG(isConvertibleToThreeAddress)
FLAG(isCommutable)
FLAG(isTerminator)
FLAG(isReMaterializable)
FLAG(hasDelaySlot)
FLAG(usesCustomInserter)
FLAG(hasPostISelHook)
FLAG(hasCtrlDep)
FLAG(isNotDuplicable)
FLAG(hasSideEffects)
//FLAG(hasSideEffects_Unset) // Deliberately omitted.
FLAG(isAsCheapAsAMove)
FLAG(hasExtraSrcRegAllocReq)
FLAG(hasExtraDefRegAllocReq)
FLAG(isCodeGenOnly)
FLAG(isPseudo)
FLAG(isRegSequence)
FLAG(isExtractSubreg)
FLAG(isInsertSubreg)
FLAG(isConvergent)
FLAG(hasNoSchedulingInfo)
if (!FlagStrings.empty()) {
OS << "Flags: ";
bool IsFirst = true;
for (auto FlagString : FlagStrings) {
if (!IsFirst)
OS << ", ";
OS << "``" << FlagString << "``";
IsFirst = false;
}
OS << "\n\n";
}
// Operands.
for (unsigned i = 0; i < II->Operands.size(); ++i) {
bool IsDef = i < II->Operands.NumDefs;
auto Op = II->Operands[i];
if (Op.MINumOperands > 1) {
// This operand corresponds to multiple operands on the
// MachineInstruction, so print all of them, showing the types and
// names of both the compound operand and the basic operands it
// contains.
for (unsigned SubOpIdx = 0; SubOpIdx < Op.MINumOperands; ++SubOpIdx) {
Record *SubRec =
cast<DefInit>(Op.MIOperandInfo->getArg(SubOpIdx))->getDef();
StringRef SubOpName = Op.MIOperandInfo->getArgNameStr(SubOpIdx);
StringRef SubOpTypeName = SubRec->getName();
OS << "* " << (IsDef ? "DEF" : "USE") << " ``" << Op.Rec->getName()
<< "/" << SubOpTypeName << ":$" << Op.Name << ".";
// Not all sub-operands are named, make up a name for these.
if (SubOpName.empty())
OS << "anon" << SubOpIdx;
else
OS << SubOpName;
OS << "``\n\n";
}
} else {
// The operand corresponds to only one MachineInstruction operand.
OS << "* " << (IsDef ? "DEF" : "USE") << " ``" << Op.Rec->getName()
<< ":$" << Op.Name << "``\n\n";
}
}
// Constraints.
StringRef Constraints = Inst->getValueAsString("Constraints");
if (!Constraints.empty()) {
OS << "Constraints: ``" << Constraints << "``\n\n";
}
// Implicit definitions.
if (!II->ImplicitDefs.empty()) {
OS << "Implicit defs: ";
bool IsFirst = true;
for (Record *Def : II->ImplicitDefs) {
if (!IsFirst)
OS << ", ";
OS << "``" << Def->getName() << "``";
IsFirst = false;
}
OS << "\n\n";
}
// Implicit uses.
if (!II->ImplicitUses.empty()) {
OS << "Implicit uses: ";
bool IsFirst = true;
for (Record *Use : II->ImplicitUses) {
if (!IsFirst)
OS << ", ";
OS << "``" << Use->getName() << "``";
IsFirst = false;
}
OS << "\n\n";
}
// Predicates.
std::vector<Record *> Predicates =
II->TheDef->getValueAsListOfDefs("Predicates");
if (!Predicates.empty()) {
OS << "Predicates: ";
bool IsFirst = true;
for (Record *P : Predicates) {
if (!IsFirst)
OS << ", ";
OS << "``" << P->getName() << "``";
IsFirst = false;
}
OS << "\n\n";
}
}
}
} // end llvm namespace
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