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fb10587e50
Modules and ModuleProviders. Because the "ModuleProvider" simply materializes GlobalValues now, and doesn't provide modules, it's renamed to "GVMaterializer". Code that used to need a ModuleProvider to materialize Functions can now materialize the Functions directly. Functions no longer use a magic linkage to record that they're materializable; they simply ask the GVMaterializer. Because the C ABI must never change, we can't remove LLVMModuleProviderRef or the functions that refer to it. Instead, because Module now exposes the same functionality ModuleProvider used to, we store a Module* in any LLVMModuleProviderRef and translate in the wrapper methods. The bindings to other languages still use the ModuleProvider concept. It would probably be worth some time to update them to follow the C++ more closely, but I don't intend to do it. Fixes http://llvm.org/PR5737 and http://llvm.org/PR5735. llvm-svn: 94686
199 lines
7.2 KiB
C++
199 lines
7.2 KiB
C++
//===- lib/Linker/LinkArchives.cpp - Link LLVM objects and libraries ------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file contains routines to handle linking together LLVM bitcode files,
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// and to handle annoying things like static libraries.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Linker.h"
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#include "llvm/Module.h"
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#include "llvm/ADT/SetOperations.h"
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#include "llvm/Bitcode/Archive.h"
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#include "llvm/Config/config.h"
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#include <memory>
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#include <set>
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using namespace llvm;
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/// GetAllUndefinedSymbols - calculates the set of undefined symbols that still
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/// exist in an LLVM module. This is a bit tricky because there may be two
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/// symbols with the same name but different LLVM types that will be resolved to
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/// each other but aren't currently (thus we need to treat it as resolved).
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///
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/// Inputs:
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/// M - The module in which to find undefined symbols.
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///
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/// Outputs:
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/// UndefinedSymbols - A set of C++ strings containing the name of all
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/// undefined symbols.
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///
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static void
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GetAllUndefinedSymbols(Module *M, std::set<std::string> &UndefinedSymbols) {
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std::set<std::string> DefinedSymbols;
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UndefinedSymbols.clear();
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// If the program doesn't define a main, try pulling one in from a .a file.
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// This is needed for programs where the main function is defined in an
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// archive, such f2c'd programs.
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Function *Main = M->getFunction("main");
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if (Main == 0 || Main->isDeclaration())
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UndefinedSymbols.insert("main");
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for (Module::iterator I = M->begin(), E = M->end(); I != E; ++I)
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if (I->hasName()) {
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if (I->isDeclaration())
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UndefinedSymbols.insert(I->getName());
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else if (!I->hasLocalLinkage()) {
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assert(!I->hasDLLImportLinkage()
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&& "Found dllimported non-external symbol!");
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DefinedSymbols.insert(I->getName());
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}
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}
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for (Module::global_iterator I = M->global_begin(), E = M->global_end();
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I != E; ++I)
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if (I->hasName()) {
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if (I->isDeclaration())
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UndefinedSymbols.insert(I->getName());
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else if (!I->hasLocalLinkage()) {
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assert(!I->hasDLLImportLinkage()
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&& "Found dllimported non-external symbol!");
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DefinedSymbols.insert(I->getName());
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}
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}
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for (Module::alias_iterator I = M->alias_begin(), E = M->alias_end();
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I != E; ++I)
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if (I->hasName())
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DefinedSymbols.insert(I->getName());
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// Prune out any defined symbols from the undefined symbols set...
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for (std::set<std::string>::iterator I = UndefinedSymbols.begin();
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I != UndefinedSymbols.end(); )
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if (DefinedSymbols.count(*I))
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UndefinedSymbols.erase(I++); // This symbol really is defined!
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else
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++I; // Keep this symbol in the undefined symbols list
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}
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/// LinkInArchive - opens an archive library and link in all objects which
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/// provide symbols that are currently undefined.
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///
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/// Inputs:
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/// Filename - The pathname of the archive.
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///
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/// Return Value:
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/// TRUE - An error occurred.
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/// FALSE - No errors.
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bool
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Linker::LinkInArchive(const sys::Path &Filename, bool &is_native) {
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// Make sure this is an archive file we're dealing with
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if (!Filename.isArchive())
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return error("File '" + Filename.str() + "' is not an archive.");
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// Open the archive file
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verbose("Linking archive file '" + Filename.str() + "'");
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// Find all of the symbols currently undefined in the bitcode program.
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// If all the symbols are defined, the program is complete, and there is
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// no reason to link in any archive files.
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std::set<std::string> UndefinedSymbols;
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GetAllUndefinedSymbols(Composite, UndefinedSymbols);
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if (UndefinedSymbols.empty()) {
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verbose("No symbols undefined, skipping library '" + Filename.str() + "'");
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return false; // No need to link anything in!
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}
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std::string ErrMsg;
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std::auto_ptr<Archive> AutoArch (
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Archive::OpenAndLoadSymbols(Filename, Context, &ErrMsg));
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Archive* arch = AutoArch.get();
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if (!arch)
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return error("Cannot read archive '" + Filename.str() +
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"': " + ErrMsg);
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if (!arch->isBitcodeArchive()) {
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is_native = true;
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return false;
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}
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is_native = false;
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// Save a set of symbols that are not defined by the archive. Since we're
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// entering a loop, there's no point searching for these multiple times. This
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// variable is used to "set_subtract" from the set of undefined symbols.
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std::set<std::string> NotDefinedByArchive;
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// Save the current set of undefined symbols, because we may have to make
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// multiple passes over the archive:
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std::set<std::string> CurrentlyUndefinedSymbols;
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do {
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CurrentlyUndefinedSymbols = UndefinedSymbols;
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// Find the modules we need to link into the target module. Note that arch
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// keeps ownership of these modules and may return the same Module* from a
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// subsequent call.
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std::set<Module*> Modules;
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if (!arch->findModulesDefiningSymbols(UndefinedSymbols, Modules, &ErrMsg))
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return error("Cannot find symbols in '" + Filename.str() +
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"': " + ErrMsg);
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// If we didn't find any more modules to link this time, we are done
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// searching this archive.
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if (Modules.empty())
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break;
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// Any symbols remaining in UndefinedSymbols after
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// findModulesDefiningSymbols are ones that the archive does not define. So
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// we add them to the NotDefinedByArchive variable now.
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NotDefinedByArchive.insert(UndefinedSymbols.begin(),
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UndefinedSymbols.end());
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// Loop over all the Modules that we got back from the archive
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for (std::set<Module*>::iterator I=Modules.begin(), E=Modules.end();
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I != E; ++I) {
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// Get the module we must link in.
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std::string moduleErrorMsg;
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Module* aModule = *I;
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if (aModule != NULL) {
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if (aModule->MaterializeAll(&moduleErrorMsg))
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return error("Could not load a module: " + moduleErrorMsg);
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verbose(" Linking in module: " + aModule->getModuleIdentifier());
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// Link it in
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if (LinkInModule(aModule, &moduleErrorMsg))
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return error("Cannot link in module '" +
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aModule->getModuleIdentifier() + "': " + moduleErrorMsg);
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}
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}
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// Get the undefined symbols from the aggregate module. This recomputes the
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// symbols we still need after the new modules have been linked in.
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GetAllUndefinedSymbols(Composite, UndefinedSymbols);
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// At this point we have two sets of undefined symbols: UndefinedSymbols
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// which holds the undefined symbols from all the modules, and
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// NotDefinedByArchive which holds symbols we know the archive doesn't
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// define. There's no point searching for symbols that we won't find in the
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// archive so we subtract these sets.
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set_subtract(UndefinedSymbols, NotDefinedByArchive);
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// If there's no symbols left, no point in continuing to search the
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// archive.
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if (UndefinedSymbols.empty())
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break;
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} while (CurrentlyUndefinedSymbols != UndefinedSymbols);
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return false;
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}
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