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llvm / llvm-project / 520f641877cd58d9cc911de36284b458a7be13fb / . / lld / ELF / SymbolTable.cpp
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//===- SymbolTable.cpp ----------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// Symbol table is a bag of all known symbols. We put all symbols of
// all input files to the symbol table. The symbol table is basically
// a hash table with the logic to resolve symbol name conflicts using
// the symbol types.
//
//===----------------------------------------------------------------------===//
#include "SymbolTable.h"
#include "Config.h"
#include "LinkerScript.h"
#include "Symbols.h"
#include "SyntheticSections.h"
#include "lld/Common/ErrorHandler.h"
#include "lld/Common/Memory.h"
#include "lld/Common/Strings.h"
#include "llvm/ADT/STLExtras.h"
using namespace llvm;
using namespace llvm::object;
using namespace llvm::ELF;
using namespace lld;
using namespace lld::elf;
SymbolTable *elf::symtab;
void SymbolTable::wrap(Symbol *sym, Symbol *real, Symbol *wrap) {
// Redirect __real_foo to the original foo and foo to the original __wrap_foo.
int &idx1 = symMap[CachedHashStringRef(sym->getName())];
int &idx2 = symMap[CachedHashStringRef(real->getName())];
int &idx3 = symMap[CachedHashStringRef(wrap->getName())];
idx2 = idx1;
idx1 = idx3;
if (real->exportDynamic)
sym->exportDynamic = true;
if (!real->isUsedInRegularObj && sym->isUndefined())
sym->isUsedInRegularObj = false;
// Now renaming is complete, and no one refers to real. We drop real from
// .symtab and .dynsym. If real is undefined, it is important that we don't
// leave it in .dynsym, because otherwise it might lead to an undefined symbol
// error in a subsequent link. If real is defined, we could emit real as an
// alias for sym, but that could degrade the user experience of some tools
// that can print out only one symbol for each location: sym is a preferred
// name than real, but they might print out real instead.
memcpy(real, sym, sizeof(SymbolUnion));
real->isUsedInRegularObj = false;
}
// Find an existing symbol or create a new one.
Symbol *SymbolTable::insert(StringRef name) {
// <name>@@<version> means the symbol is the default version. In that
// case <name>@@<version> will be used to resolve references to <name>.
//
// Since this is a hot path, the following string search code is
// optimized for speed. StringRef::find(char) is much faster than
// StringRef::find(StringRef).
size_t pos = name.find('@');
if (pos != StringRef::npos && pos + 1 < name.size() && name[pos + 1] == '@')
name = name.take_front(pos);
auto p = symMap.insert({CachedHashStringRef(name), (int)symVector.size()});
int &symIndex = p.first->second;
bool isNew = p.second;
if (!isNew)
return symVector[symIndex];
Symbol *sym = reinterpret_cast<Symbol *>(make<SymbolUnion>());
symVector.push_back(sym);
// *sym was not initialized by a constructor. Fields that may get referenced
// when it is a placeholder must be initialized here.
sym->setName(name);
sym->symbolKind = Symbol::PlaceholderKind;
sym->versionId = VER_NDX_GLOBAL;
sym->visibility = STV_DEFAULT;
sym->isUsedInRegularObj = false;
sym->exportDynamic = false;
sym->inDynamicList = false;
sym->canInline = true;
sym->referenced = false;
sym->traced = false;
sym->scriptDefined = false;
sym->partition = 1;
return sym;
}
Symbol *SymbolTable::addSymbol(const Symbol &newSym) {
Symbol *sym = insert(newSym.getName());
sym->resolve(newSym);
return sym;
}
Symbol *SymbolTable::find(StringRef name) {
auto it = symMap.find(CachedHashStringRef(name));
if (it == symMap.end())
return nullptr;
Symbol *sym = symVector[it->second];
if (sym->isPlaceholder())
return nullptr;
return sym;
}
// A version script/dynamic list is only meaningful for a Defined symbol.
// A CommonSymbol will be converted to a Defined in replaceCommonSymbols().
// A lazy symbol may be made Defined if an LTO libcall extracts it.
static bool canBeVersioned(const Symbol &sym) {
return sym.isDefined() || sym.isCommon() || sym.isLazy();
}
// Initialize demangledSyms with a map from demangled symbols to symbol
// objects. Used to handle "extern C++" directive in version scripts.
//
// The map will contain all demangled symbols. That can be very large,
// and in LLD we generally want to avoid do anything for each symbol.
// Then, why are we doing this? Here's why.
//
// Users can use "extern C++ {}" directive to match against demangled
// C++ symbols. For example, you can write a pattern such as
// "llvm::*::foo(int, ?)". Obviously, there's no way to handle this
// other than trying to match a pattern against all demangled symbols.
// So, if "extern C++" feature is used, we need to demangle all known
// symbols.
StringMap<std::vector<Symbol *>> &SymbolTable::getDemangledSyms() {
if (!demangledSyms) {
demangledSyms.emplace();
std::string demangled;
for (Symbol *sym : symVector)
if (canBeVersioned(*sym)) {
StringRef name = sym->getName();
size_t pos = name.find('@');
if (pos == std::string::npos)
demangled = demangleItanium(name);
else if (pos + 1 == name.size() || name[pos + 1] == '@')
demangled = demangleItanium(name.substr(0, pos));
else
demangled =
(demangleItanium(name.substr(0, pos)) + name.substr(pos)).str();
(*demangledSyms)[demangled].push_back(sym);
}
}
return *demangledSyms;
}
std::vector<Symbol *> SymbolTable::findByVersion(SymbolVersion ver) {
if (ver.isExternCpp)
return getDemangledSyms().lookup(ver.name);
if (Symbol *sym = find(ver.name))
if (canBeVersioned(*sym))
return {sym};
return {};
}
std::vector<Symbol *> SymbolTable::findAllByVersion(SymbolVersion ver,
bool includeNonDefault) {
std::vector<Symbol *> res;
SingleStringMatcher m(ver.name);
auto check = [&](StringRef name) {
size_t pos = name.find('@');
if (!includeNonDefault)
return pos == StringRef::npos;
return !(pos + 1 < name.size() && name[pos + 1] == '@');
};
if (ver.isExternCpp) {
for (auto &p : getDemangledSyms())
if (m.match(p.first()))
for (Symbol *sym : p.second)
if (check(sym->getName()))
res.push_back(sym);
return res;
}
for (Symbol *sym : symVector)
if (canBeVersioned(*sym) && check(sym->getName()) &&
m.match(sym->getName()))
res.push_back(sym);
return res;
}
void SymbolTable::handleDynamicList() {
for (SymbolVersion &ver : config->dynamicList) {
std::vector<Symbol *> syms;
if (ver.hasWildcard)
syms = findAllByVersion(ver, /*includeNonDefault=*/true);
else
syms = findByVersion(ver);
for (Symbol *sym : syms)
sym->inDynamicList = true;
}
}
// Set symbol versions to symbols. This function handles patterns containing no
// wildcard characters. Return false if no symbol definition matches ver.
bool SymbolTable::assignExactVersion(SymbolVersion ver, uint16_t versionId,
StringRef versionName,
bool includeNonDefault) {
// Get a list of symbols which we need to assign the version to.
std::vector<Symbol *> syms = findByVersion(ver);
auto getName = [](uint16_t ver) -> std::string {
if (ver == VER_NDX_LOCAL)
return "VER_NDX_LOCAL";
if (ver == VER_NDX_GLOBAL)
return "VER_NDX_GLOBAL";
return ("version '" + config->versionDefinitions[ver].name + "'").str();
};
// Assign the version.
for (Symbol *sym : syms) {
// For a non-local versionId, skip symbols containing version info because
// symbol versions specified by symbol names take precedence over version
// scripts. See parseSymbolVersion().
if (!includeNonDefault && versionId != VER_NDX_LOCAL &&
sym->getName().contains('@'))
continue;
// If the version has not been assigned, verdefIndex is -1. Use an arbitrary
// number (0) to indicate the version has been assigned.
if (sym->verdefIndex == UINT32_C(-1)) {
sym->verdefIndex = 0;
sym->versionId = versionId;
}
if (sym->versionId == versionId)
continue;
warn("attempt to reassign symbol '" + ver.name + "' of " +
getName(sym->versionId) + " to " + getName(versionId));
}
return !syms.empty();
}
void SymbolTable::assignWildcardVersion(SymbolVersion ver, uint16_t versionId,
bool includeNonDefault) {
// Exact matching takes precedence over fuzzy matching,
// so we set a version to a symbol only if no version has been assigned
// to the symbol. This behavior is compatible with GNU.
for (Symbol *sym : findAllByVersion(ver, includeNonDefault))
if (sym->verdefIndex == UINT32_C(-1)) {
sym->verdefIndex = 0;
sym->versionId = versionId;
}
}
// This function processes version scripts by updating the versionId
// member of symbols.
// If there's only one anonymous version definition in a version
// script file, the script does not actually define any symbol version,
// but just specifies symbols visibilities.
void SymbolTable::scanVersionScript() {
SmallString<128> buf;
// First, we assign versions to exact matching symbols,
// i.e. version definitions not containing any glob meta-characters.
std::vector<Symbol *> syms;
for (VersionDefinition &v : config->versionDefinitions) {
auto assignExact = [&](SymbolVersion pat, uint16_t id, StringRef ver) {
bool found =
assignExactVersion(pat, id, ver, /*includeNonDefault=*/false);
buf.clear();
found |= assignExactVersion({(pat.name + "@" + v.name).toStringRef(buf),
pat.isExternCpp, /*hasWildCard=*/false},
id, ver, /*includeNonDefault=*/true);
if (!found && !config->undefinedVersion)
errorOrWarn("version script assignment of '" + ver + "' to symbol '" +
pat.name + "' failed: symbol not defined");
};
for (SymbolVersion &pat : v.nonLocalPatterns)
if (!pat.hasWildcard)
assignExact(pat, v.id, v.name);
for (SymbolVersion pat : v.localPatterns)
if (!pat.hasWildcard)
assignExact(pat, VER_NDX_LOCAL, "local");
}
// Next, assign versions to wildcards that are not "*". Note that because the
// last match takes precedence over previous matches, we iterate over the
// definitions in the reverse order.
auto assignWildcard = [&](SymbolVersion pat, uint16_t id, StringRef ver) {
assignWildcardVersion(pat, id, /*includeNonDefault=*/false);
buf.clear();
assignWildcardVersion({(pat.name + "@" + ver).toStringRef(buf),
pat.isExternCpp, /*hasWildCard=*/true},
id,
/*includeNonDefault=*/true);
};
for (VersionDefinition &v : llvm::reverse(config->versionDefinitions)) {
for (SymbolVersion &pat : v.nonLocalPatterns)
if (pat.hasWildcard && pat.name != "*")
assignWildcard(pat, v.id, v.name);
for (SymbolVersion &pat : v.localPatterns)
if (pat.hasWildcard && pat.name != "*")
assignWildcard(pat, VER_NDX_LOCAL, v.name);
}
// Then, assign versions to "*". In GNU linkers they have lower priority than
// other wildcards.
for (VersionDefinition &v : config->versionDefinitions) {
for (SymbolVersion &pat : v.nonLocalPatterns)
if (pat.hasWildcard && pat.name == "*")
assignWildcard(pat, v.id, v.name);
for (SymbolVersion &pat : v.localPatterns)
if (pat.hasWildcard && pat.name == "*")
assignWildcard(pat, VER_NDX_LOCAL, v.name);
}
// Symbol themselves might know their versions because symbols
// can contain versions in the form of <name>@<version>.
// Let them parse and update their names to exclude version suffix.
for (Symbol *sym : symVector)
sym->parseSymbolVersion();
// isPreemptible is false at this point. To correctly compute the binding of a
// Defined (which is used by includeInDynsym()), we need to know if it is
// VER_NDX_LOCAL or not. Compute symbol versions before handling
// --dynamic-list.
handleDynamicList();
}