llvm-6502/lib/Transforms/Utils/SymbolRewriter.cpp
Chandler Carruth 417c5c172c [PM] Remove the old 'PassManager.h' header file at the top level of
LLVM's include tree and the use of using declarations to hide the
'legacy' namespace for the old pass manager.

This undoes the primary modules-hostile change I made to keep
out-of-tree targets building. I sent an email inquiring about whether
this would be reasonable to do at this phase and people seemed fine with
it, so making it a reality. This should allow us to start bootstrapping
with modules to a certain extent along with making it easier to mix and
match headers in general.

The updates to any code for users of LLVM are very mechanical. Switch
from including "llvm/PassManager.h" to "llvm/IR/LegacyPassManager.h".
Qualify the types which now produce compile errors with "legacy::". The
most common ones are "PassManager", "PassManagerBase", and
"FunctionPassManager".

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@229094 91177308-0d34-0410-b5e6-96231b3b80d8
2015-02-13 10:01:29 +00:00

551 lines
18 KiB
C++

//===- SymbolRewriter.cpp - Symbol Rewriter ---------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// SymbolRewriter is a LLVM pass which can rewrite symbols transparently within
// existing code. It is implemented as a compiler pass and is configured via a
// YAML configuration file.
//
// The YAML configuration file format is as follows:
//
// RewriteMapFile := RewriteDescriptors
// RewriteDescriptors := RewriteDescriptor | RewriteDescriptors
// RewriteDescriptor := RewriteDescriptorType ':' '{' RewriteDescriptorFields '}'
// RewriteDescriptorFields := RewriteDescriptorField | RewriteDescriptorFields
// RewriteDescriptorField := FieldIdentifier ':' FieldValue ','
// RewriteDescriptorType := Identifier
// FieldIdentifier := Identifier
// FieldValue := Identifier
// Identifier := [0-9a-zA-Z]+
//
// Currently, the following descriptor types are supported:
//
// - function: (function rewriting)
// + Source (original name of the function)
// + Target (explicit transformation)
// + Transform (pattern transformation)
// + Naked (boolean, whether the function is undecorated)
// - global variable: (external linkage global variable rewriting)
// + Source (original name of externally visible variable)
// + Target (explicit transformation)
// + Transform (pattern transformation)
// - global alias: (global alias rewriting)
// + Source (original name of the aliased name)
// + Target (explicit transformation)
// + Transform (pattern transformation)
//
// Note that source and exactly one of [Target, Transform] must be provided
//
// New rewrite descriptors can be created. Addding a new rewrite descriptor
// involves:
//
// a) extended the rewrite descriptor kind enumeration
// (<anonymous>::RewriteDescriptor::RewriteDescriptorType)
// b) implementing the new descriptor
// (c.f. <anonymous>::ExplicitRewriteFunctionDescriptor)
// c) extending the rewrite map parser
// (<anonymous>::RewriteMapParser::parseEntry)
//
// Specify to rewrite the symbols using the `-rewrite-symbols` option, and
// specify the map file to use for the rewriting via the `-rewrite-map-file`
// option.
//
//===----------------------------------------------------------------------===//
#define DEBUG_TYPE "symbol-rewriter"
#include "llvm/CodeGen/Passes.h"
#include "llvm/Pass.h"
#include "llvm/IR/LegacyPassManager.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/Regex.h"
#include "llvm/Support/SourceMgr.h"
#include "llvm/Support/YAMLParser.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/Transforms/IPO/PassManagerBuilder.h"
#include "llvm/Transforms/Utils/SymbolRewriter.h"
using namespace llvm;
static cl::list<std::string> RewriteMapFiles("rewrite-map-file",
cl::desc("Symbol Rewrite Map"),
cl::value_desc("filename"));
namespace llvm {
namespace SymbolRewriter {
void rewriteComdat(Module &M, GlobalObject *GO, const std::string &Source,
const std::string &Target) {
if (Comdat *CD = GO->getComdat()) {
auto &Comdats = M.getComdatSymbolTable();
Comdat *C = M.getOrInsertComdat(Target);
C->setSelectionKind(CD->getSelectionKind());
GO->setComdat(C);
Comdats.erase(Comdats.find(Source));
}
}
template <RewriteDescriptor::Type DT, typename ValueType,
ValueType *(llvm::Module::*Get)(StringRef) const>
class ExplicitRewriteDescriptor : public RewriteDescriptor {
public:
const std::string Source;
const std::string Target;
ExplicitRewriteDescriptor(StringRef S, StringRef T, const bool Naked)
: RewriteDescriptor(DT), Source(Naked ? StringRef("\01" + S.str()) : S),
Target(T) {}
bool performOnModule(Module &M) override;
static bool classof(const RewriteDescriptor *RD) {
return RD->getType() == DT;
}
};
template <RewriteDescriptor::Type DT, typename ValueType,
ValueType *(llvm::Module::*Get)(StringRef) const>
bool ExplicitRewriteDescriptor<DT, ValueType, Get>::performOnModule(Module &M) {
bool Changed = false;
if (ValueType *S = (M.*Get)(Source)) {
if (GlobalObject *GO = dyn_cast<GlobalObject>(S))
rewriteComdat(M, GO, Source, Target);
if (Value *T = (M.*Get)(Target))
S->setValueName(T->getValueName());
else
S->setName(Target);
Changed = true;
}
return Changed;
}
template <RewriteDescriptor::Type DT, typename ValueType,
ValueType *(llvm::Module::*Get)(StringRef) const,
iterator_range<typename iplist<ValueType>::iterator>
(llvm::Module::*Iterator)()>
class PatternRewriteDescriptor : public RewriteDescriptor {
public:
const std::string Pattern;
const std::string Transform;
PatternRewriteDescriptor(StringRef P, StringRef T)
: RewriteDescriptor(DT), Pattern(P), Transform(T) { }
bool performOnModule(Module &M) override;
static bool classof(const RewriteDescriptor *RD) {
return RD->getType() == DT;
}
};
template <RewriteDescriptor::Type DT, typename ValueType,
ValueType *(llvm::Module::*Get)(StringRef) const,
iterator_range<typename iplist<ValueType>::iterator>
(llvm::Module::*Iterator)()>
bool PatternRewriteDescriptor<DT, ValueType, Get, Iterator>::
performOnModule(Module &M) {
bool Changed = false;
for (auto &C : (M.*Iterator)()) {
std::string Error;
std::string Name = Regex(Pattern).sub(Transform, C.getName(), &Error);
if (!Error.empty())
report_fatal_error("unable to transforn " + C.getName() + " in " +
M.getModuleIdentifier() + ": " + Error);
if (C.getName() == Name)
continue;
if (GlobalObject *GO = dyn_cast<GlobalObject>(&C))
rewriteComdat(M, GO, C.getName(), Name);
if (Value *V = (M.*Get)(Name))
C.setValueName(V->getValueName());
else
C.setName(Name);
Changed = true;
}
return Changed;
}
/// Represents a rewrite for an explicitly named (function) symbol. Both the
/// source function name and target function name of the transformation are
/// explicitly spelt out.
typedef ExplicitRewriteDescriptor<RewriteDescriptor::Type::Function,
llvm::Function, &llvm::Module::getFunction>
ExplicitRewriteFunctionDescriptor;
/// Represents a rewrite for an explicitly named (global variable) symbol. Both
/// the source variable name and target variable name are spelt out. This
/// applies only to module level variables.
typedef ExplicitRewriteDescriptor<RewriteDescriptor::Type::GlobalVariable,
llvm::GlobalVariable,
&llvm::Module::getGlobalVariable>
ExplicitRewriteGlobalVariableDescriptor;
/// Represents a rewrite for an explicitly named global alias. Both the source
/// and target name are explicitly spelt out.
typedef ExplicitRewriteDescriptor<RewriteDescriptor::Type::NamedAlias,
llvm::GlobalAlias,
&llvm::Module::getNamedAlias>
ExplicitRewriteNamedAliasDescriptor;
/// Represents a rewrite for a regular expression based pattern for functions.
/// A pattern for the function name is provided and a transformation for that
/// pattern to determine the target function name create the rewrite rule.
typedef PatternRewriteDescriptor<RewriteDescriptor::Type::Function,
llvm::Function, &llvm::Module::getFunction,
&llvm::Module::functions>
PatternRewriteFunctionDescriptor;
/// Represents a rewrite for a global variable based upon a matching pattern.
/// Each global variable matching the provided pattern will be transformed as
/// described in the transformation pattern for the target. Applies only to
/// module level variables.
typedef PatternRewriteDescriptor<RewriteDescriptor::Type::GlobalVariable,
llvm::GlobalVariable,
&llvm::Module::getGlobalVariable,
&llvm::Module::globals>
PatternRewriteGlobalVariableDescriptor;
/// PatternRewriteNamedAliasDescriptor - represents a rewrite for global
/// aliases which match a given pattern. The provided transformation will be
/// applied to each of the matching names.
typedef PatternRewriteDescriptor<RewriteDescriptor::Type::NamedAlias,
llvm::GlobalAlias,
&llvm::Module::getNamedAlias,
&llvm::Module::aliases>
PatternRewriteNamedAliasDescriptor;
bool RewriteMapParser::parse(const std::string &MapFile,
RewriteDescriptorList *DL) {
ErrorOr<std::unique_ptr<MemoryBuffer>> Mapping =
MemoryBuffer::getFile(MapFile);
if (!Mapping)
report_fatal_error("unable to read rewrite map '" + MapFile + "': " +
Mapping.getError().message());
if (!parse(*Mapping, DL))
report_fatal_error("unable to parse rewrite map '" + MapFile + "'");
return true;
}
bool RewriteMapParser::parse(std::unique_ptr<MemoryBuffer> &MapFile,
RewriteDescriptorList *DL) {
SourceMgr SM;
yaml::Stream YS(MapFile->getBuffer(), SM);
for (auto &Document : YS) {
yaml::MappingNode *DescriptorList;
// ignore empty documents
if (isa<yaml::NullNode>(Document.getRoot()))
continue;
DescriptorList = dyn_cast<yaml::MappingNode>(Document.getRoot());
if (!DescriptorList) {
YS.printError(Document.getRoot(), "DescriptorList node must be a map");
return false;
}
for (auto &Descriptor : *DescriptorList)
if (!parseEntry(YS, Descriptor, DL))
return false;
}
return true;
}
bool RewriteMapParser::parseEntry(yaml::Stream &YS, yaml::KeyValueNode &Entry,
RewriteDescriptorList *DL) {
yaml::ScalarNode *Key;
yaml::MappingNode *Value;
SmallString<32> KeyStorage;
StringRef RewriteType;
Key = dyn_cast<yaml::ScalarNode>(Entry.getKey());
if (!Key) {
YS.printError(Entry.getKey(), "rewrite type must be a scalar");
return false;
}
Value = dyn_cast<yaml::MappingNode>(Entry.getValue());
if (!Value) {
YS.printError(Entry.getValue(), "rewrite descriptor must be a map");
return false;
}
RewriteType = Key->getValue(KeyStorage);
if (RewriteType.equals("function"))
return parseRewriteFunctionDescriptor(YS, Key, Value, DL);
else if (RewriteType.equals("global variable"))
return parseRewriteGlobalVariableDescriptor(YS, Key, Value, DL);
else if (RewriteType.equals("global alias"))
return parseRewriteGlobalAliasDescriptor(YS, Key, Value, DL);
YS.printError(Entry.getKey(), "unknown rewrite type");
return false;
}
bool RewriteMapParser::
parseRewriteFunctionDescriptor(yaml::Stream &YS, yaml::ScalarNode *K,
yaml::MappingNode *Descriptor,
RewriteDescriptorList *DL) {
bool Naked = false;
std::string Source;
std::string Target;
std::string Transform;
for (auto &Field : *Descriptor) {
yaml::ScalarNode *Key;
yaml::ScalarNode *Value;
SmallString<32> KeyStorage;
SmallString<32> ValueStorage;
StringRef KeyValue;
Key = dyn_cast<yaml::ScalarNode>(Field.getKey());
if (!Key) {
YS.printError(Field.getKey(), "descriptor key must be a scalar");
return false;
}
Value = dyn_cast<yaml::ScalarNode>(Field.getValue());
if (!Value) {
YS.printError(Field.getValue(), "descriptor value must be a scalar");
return false;
}
KeyValue = Key->getValue(KeyStorage);
if (KeyValue.equals("source")) {
std::string Error;
Source = Value->getValue(ValueStorage);
if (!Regex(Source).isValid(Error)) {
YS.printError(Field.getKey(), "invalid regex: " + Error);
return false;
}
} else if (KeyValue.equals("target")) {
Target = Value->getValue(ValueStorage);
} else if (KeyValue.equals("transform")) {
Transform = Value->getValue(ValueStorage);
} else if (KeyValue.equals("naked")) {
std::string Undecorated;
Undecorated = Value->getValue(ValueStorage);
Naked = StringRef(Undecorated).lower() == "true" || Undecorated == "1";
} else {
YS.printError(Field.getKey(), "unknown key for function");
return false;
}
}
if (Transform.empty() == Target.empty()) {
YS.printError(Descriptor,
"exactly one of transform or target must be specified");
return false;
}
// TODO see if there is a more elegant solution to selecting the rewrite
// descriptor type
if (!Target.empty())
DL->push_back(new ExplicitRewriteFunctionDescriptor(Source, Target, Naked));
else
DL->push_back(new PatternRewriteFunctionDescriptor(Source, Transform));
return true;
}
bool RewriteMapParser::
parseRewriteGlobalVariableDescriptor(yaml::Stream &YS, yaml::ScalarNode *K,
yaml::MappingNode *Descriptor,
RewriteDescriptorList *DL) {
std::string Source;
std::string Target;
std::string Transform;
for (auto &Field : *Descriptor) {
yaml::ScalarNode *Key;
yaml::ScalarNode *Value;
SmallString<32> KeyStorage;
SmallString<32> ValueStorage;
StringRef KeyValue;
Key = dyn_cast<yaml::ScalarNode>(Field.getKey());
if (!Key) {
YS.printError(Field.getKey(), "descriptor Key must be a scalar");
return false;
}
Value = dyn_cast<yaml::ScalarNode>(Field.getValue());
if (!Value) {
YS.printError(Field.getValue(), "descriptor value must be a scalar");
return false;
}
KeyValue = Key->getValue(KeyStorage);
if (KeyValue.equals("source")) {
std::string Error;
Source = Value->getValue(ValueStorage);
if (!Regex(Source).isValid(Error)) {
YS.printError(Field.getKey(), "invalid regex: " + Error);
return false;
}
} else if (KeyValue.equals("target")) {
Target = Value->getValue(ValueStorage);
} else if (KeyValue.equals("transform")) {
Transform = Value->getValue(ValueStorage);
} else {
YS.printError(Field.getKey(), "unknown Key for Global Variable");
return false;
}
}
if (Transform.empty() == Target.empty()) {
YS.printError(Descriptor,
"exactly one of transform or target must be specified");
return false;
}
if (!Target.empty())
DL->push_back(new ExplicitRewriteGlobalVariableDescriptor(Source, Target,
/*Naked*/false));
else
DL->push_back(new PatternRewriteGlobalVariableDescriptor(Source,
Transform));
return true;
}
bool RewriteMapParser::
parseRewriteGlobalAliasDescriptor(yaml::Stream &YS, yaml::ScalarNode *K,
yaml::MappingNode *Descriptor,
RewriteDescriptorList *DL) {
std::string Source;
std::string Target;
std::string Transform;
for (auto &Field : *Descriptor) {
yaml::ScalarNode *Key;
yaml::ScalarNode *Value;
SmallString<32> KeyStorage;
SmallString<32> ValueStorage;
StringRef KeyValue;
Key = dyn_cast<yaml::ScalarNode>(Field.getKey());
if (!Key) {
YS.printError(Field.getKey(), "descriptor key must be a scalar");
return false;
}
Value = dyn_cast<yaml::ScalarNode>(Field.getValue());
if (!Value) {
YS.printError(Field.getValue(), "descriptor value must be a scalar");
return false;
}
KeyValue = Key->getValue(KeyStorage);
if (KeyValue.equals("source")) {
std::string Error;
Source = Value->getValue(ValueStorage);
if (!Regex(Source).isValid(Error)) {
YS.printError(Field.getKey(), "invalid regex: " + Error);
return false;
}
} else if (KeyValue.equals("target")) {
Target = Value->getValue(ValueStorage);
} else if (KeyValue.equals("transform")) {
Transform = Value->getValue(ValueStorage);
} else {
YS.printError(Field.getKey(), "unknown key for Global Alias");
return false;
}
}
if (Transform.empty() == Target.empty()) {
YS.printError(Descriptor,
"exactly one of transform or target must be specified");
return false;
}
if (!Target.empty())
DL->push_back(new ExplicitRewriteNamedAliasDescriptor(Source, Target,
/*Naked*/false));
else
DL->push_back(new PatternRewriteNamedAliasDescriptor(Source, Transform));
return true;
}
}
}
namespace {
class RewriteSymbols : public ModulePass {
public:
static char ID; // Pass identification, replacement for typeid
RewriteSymbols();
RewriteSymbols(SymbolRewriter::RewriteDescriptorList &DL);
bool runOnModule(Module &M) override;
private:
void loadAndParseMapFiles();
SymbolRewriter::RewriteDescriptorList Descriptors;
};
char RewriteSymbols::ID = 0;
RewriteSymbols::RewriteSymbols() : ModulePass(ID) {
initializeRewriteSymbolsPass(*PassRegistry::getPassRegistry());
loadAndParseMapFiles();
}
RewriteSymbols::RewriteSymbols(SymbolRewriter::RewriteDescriptorList &DL)
: ModulePass(ID) {
Descriptors.splice(Descriptors.begin(), DL);
}
bool RewriteSymbols::runOnModule(Module &M) {
bool Changed;
Changed = false;
for (auto &Descriptor : Descriptors)
Changed |= Descriptor.performOnModule(M);
return Changed;
}
void RewriteSymbols::loadAndParseMapFiles() {
const std::vector<std::string> MapFiles(RewriteMapFiles);
SymbolRewriter::RewriteMapParser parser;
for (const auto &MapFile : MapFiles)
parser.parse(MapFile, &Descriptors);
}
}
INITIALIZE_PASS(RewriteSymbols, "rewrite-symbols", "Rewrite Symbols", false,
false)
ModulePass *llvm::createRewriteSymbolsPass() { return new RewriteSymbols(); }
ModulePass *
llvm::createRewriteSymbolsPass(SymbolRewriter::RewriteDescriptorList &DL) {
return new RewriteSymbols(DL);
}