unittests/Linker/TestLinker.cpp - platform/frameworks/compile/mclinker - Git at Google

 //===- TestLinker.cpp -----------------------------------------------------===//
 //
 //                     The MCLinker Project
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 #include "TestLinker.h"

 #include <iostream>

 #include <llvm/Support/TargetSelect.h>

 #include <mcld/LD/TextDiagnosticPrinter.h>
 #include <mcld/MC/InputTree.h>
 #include <mcld/MC/MCLDDirectory.h>
 #include <mcld/Target/TargetLDBackend.h>
 #include <mcld/Support/RegionFactory.h>
 #include <mcld/Support/TargetSelect.h>
 #include <mcld/Support/MsgHandling.h>
 #include <mcld/Support/raw_ostream.h>
 #include <mcld/Support/SystemUtils.h>
 #include <mcld/Support/MemoryAreaFactory.h>

 using namespace std;
 using namespace mcld;
 using namespace mcld::sys::fs;
 using namespace mcld::test;

 //===----------------------------------------------------------------------===//
 // TestLinker
 //===----------------------------------------------------------------------===//
 TestLinker::TestLinker()
   : m_pTarget(NULL), m_pDriver(NULL), m_pInfo(NULL), m_pDiagLineInfo(NULL),
     m_pDiagPrinter(NULL), m_pBackend(NULL), m_pRegionFactory(NULL),
     m_pMemAreaFactory(NULL) {
 }

 TestLinker::~TestLinker()
 {
   std::list<mcld::FileHandle*>::iterator file, fEnd = m_FileHandleList.end();
   for (file = m_FileHandleList.begin(); file != fEnd; ++file)
     delete (*file);

   std::list<mcld::MemoryArea*>::iterator mem, mEnd = m_MemAreaList.end() ;
   for (mem = m_MemAreaList.begin(); mem != mEnd; ++mem)
     delete (*mem);

   delete m_pDriver;
   delete m_pInfo;
   delete m_pDiagLineInfo;
   delete m_pDiagPrinter;
   delete m_pBackend;
   delete m_pRegionFactory;
   delete m_pMemAreaFactory;
 }

 bool TestLinker::initialize(const std::string &pTriple)
 {
   bool is_initialized = false;

   if (is_initialized)
     return false;

   // initilaize all llvm::Target and mcld::Target
   llvm::InitializeAllTargets();
   llvm::InitializeAllAsmPrinters();
   llvm::InitializeAllAsmParsers();
   llvm::InitializeAllTargetMCs();
   mcld::InitializeAllTargets();
   mcld::InitializeAllDiagnostics();

   // create mcld::MCLDInfo
   m_pInfo = new MCLDInfo(pTriple, 1, 32);
   m_Root = m_pInfo->inputs().root();

   // create mcld::RegionFactory
   m_pRegionFactory = new mcld::RegionFactory(32);

   // specify mcld::Target
   std::string error;
   m_pTarget = mcld::TargetRegistry::lookupTarget(pTriple, error);
   if (NULL == m_pTarget) {
     fatal(diag::fatal_cannot_init_target) << pTriple << error;
     return false;
   }

   // create mcld::DiagnosticEngine
   m_pDiagLineInfo = m_pTarget->createDiagnosticLineInfo(*m_pTarget, pTriple);
   if (NULL == m_pDiagLineInfo) {
     fatal(diag::fatal_cannot_init_lineinfo) << pTriple;
     return false;
   }

   m_pDiagPrinter = new mcld::TextDiagnosticPrinter(mcld::errs(), *m_pInfo);

   mcld::InitializeDiagnosticEngine(*m_pInfo, m_pDiagLineInfo, m_pDiagPrinter);

   // create mcld::TargetLDBackend
   m_pBackend = m_pTarget->createLDBackend(pTriple);
   if (NULL == m_pBackend) {
     fatal(diag::fatal_cannot_init_backend) << pTriple;
     return false;
   }

   m_pMemAreaFactory = new MemoryAreaFactory(32);

   m_pDriver = new mcld::MCLDDriver(*m_pInfo, *m_pBackend, *m_pMemAreaFactory);
   m_pDriver->initMCLinker();

   is_initialized = true;
   return true;
 }

 void TestLinker::addSearchDir(const std::string &pDirPath)
 {
   assert(NULL != m_pInfo && "initialize() must be called before addSearchDir");
   assert(!m_pInfo->options().sysroot().empty() &&
          "must setSysRoot before addSearchDir");

   mcld::MCLDDirectory* sd = new mcld::MCLDDirectory(pDirPath);

   if (sd->isInSysroot()) {
     sd->setSysroot(m_pInfo->options().sysroot());
   }

   if (exists(sd->path()) && is_directory(sd->path())) {
     m_pInfo->options().directories().add(*sd);
   } else {
     mcld::warning(mcld::diag::warn_cannot_open_search_dir) << sd->name();
   }
 }

 void TestLinker::setSysRoot(const mcld::sys::fs::Path &pPath)
 {
   assert(NULL != m_pInfo && "initialize() must be called before setSysRoot");
   m_pInfo->options().setSysroot(pPath);
 }

 void TestLinker::addObject(const std::string &pPath)
 {
   mcld::Input* input = m_pInfo->inputFactory().produce(pPath, pPath,
                                                        mcld::Input::Unknown);

   m_pInfo->inputs().insert<mcld::InputTree::Positional>(m_Root, *input);

   advanceRoot();

   mcld::FileHandle* handler = new mcld::FileHandle();
   m_FileHandleList.push_back(handler);
   if (!handler->open(pPath, mcld::FileHandle::ReadOnly)) {
     mcld::error(mcld::diag::err_cannot_open_file)
                                       << pPath
                                       << mcld::sys::strerror(handler->error());
   }

   mcld::MemoryArea* input_memory = new MemoryArea(*m_pRegionFactory, *handler);
   input->setMemArea(input_memory);
   m_MemAreaList.push_back(input_memory);

   mcld::LDContext* context = m_pInfo->contextFactory().produce(pPath);
   input->setContext(context);
 }

 void TestLinker::addObject(void* pMemBuffer, size_t pSize)
 {
   mcld::Input* input = m_pInfo->inputFactory().produce("memory object", "NAN",
                                                        mcld::Input::Unknown);

   m_pInfo->inputs().insert<mcld::InputTree::Positional>(m_Root, *input);

   advanceRoot();

   mcld::Space* space = new mcld::Space(mcld::Space::EXTERNAL, pMemBuffer, pSize);
   mcld::MemoryArea* input_memory = new MemoryArea(*m_pRegionFactory, *space);
   input->setMemArea(input_memory);
   m_MemAreaList.push_back(input_memory);

   mcld::LDContext* context = m_pInfo->contextFactory().produce();
   input->setContext(context);
 }

 void TestLinker::addObject(int pFileHandler)
 {
   mcld::Input* input = m_pInfo->inputFactory().produce("handler object", "NAN",
                                                        mcld::Input::Unknown);

   m_pInfo->inputs().insert<mcld::InputTree::Positional>(m_Root, *input);

   advanceRoot();

   mcld::FileHandle* handler = new mcld::FileHandle();
   m_FileHandleList.push_back(handler);
   handler->delegate(pFileHandler);

   mcld::MemoryArea* input_memory = new MemoryArea(*m_pRegionFactory, *handler);
   input->setMemArea(input_memory);
   m_MemAreaList.push_back(input_memory);

   mcld::LDContext* context = m_pInfo->contextFactory().produce();
   input->setContext(context);
 }

 void TestLinker::addNameSpec(const std::string &pNameSpec)
 {
   mcld::sys::fs::Path* path = NULL;
   // find out the real path of the namespec.
   if (m_pInfo->attrFactory().constraint().isSharedSystem()) {
     // In the system with shared object support, we can find both archive
     // and shared object.

     if (m_pInfo->attrFactory().last().isStatic()) {
       // with --static, we must search an archive.
       path = m_pInfo->options().directories().find(pNameSpec,
                                                    mcld::Input::Archive);
     }
     else {
       // otherwise, with --Bdynamic, we can find either an archive or a
       // shared object.
       path = m_pInfo->options().directories().find(pNameSpec,
                                                    mcld::Input::DynObj);
     }
   }
   else {
     // In the system without shared object support, we only look for an
     // archive.
     path = m_pInfo->options().directories().find(pNameSpec,
                                                  mcld::Input::Archive);
   }

   if (NULL == path) {
     mcld::fatal(diag::err_cannot_find_namespec) << pNameSpec;
     return;
   }

   mcld::Input* input = m_pInfo->inputFactory().produce(pNameSpec, *path,
                                                        mcld::Input::Unknown);

   m_pInfo->inputs().insert<mcld::InputTree::Positional>(m_Root, *input);

   advanceRoot();

   mcld::FileHandle* handler = new mcld::FileHandle();
   m_FileHandleList.push_back(handler);
   if (!handler->open(*path, mcld::FileHandle::ReadOnly)) {
     mcld::error(mcld::diag::err_cannot_open_file)
                                       << *path
                                       << mcld::sys::strerror(handler->error());
   }

   mcld::MemoryArea* input_memory = new MemoryArea(*m_pRegionFactory, *handler);
   input->setMemArea(input_memory);
   m_MemAreaList.push_back(input_memory);

   mcld::LDContext* context = m_pInfo->contextFactory().produce(*path);
   input->setContext(context);
 }

 bool TestLinker::setOutput(const std::string &pPath)
 {
   if (m_pInfo->output().hasContext())
     return false;

   mcld::FileHandle* handler = new mcld::FileHandle();
   m_FileHandleList.push_back(handler);
   bool open_res = handler->open(pPath, mcld::FileHandle::ReadWrite |
                                        mcld::FileHandle::Truncate |
                                        mcld::FileHandle::Create,
                                 mcld::FileHandle::Permission(0755));
   if (!open_res) {
     mcld::error(mcld::diag::err_cannot_open_file)
                                       << pPath
                                       << mcld::sys::strerror(handler->error());
   }

   mcld::MemoryArea* output_memory = new MemoryArea(*m_pRegionFactory, *handler);
   m_pInfo->output().setMemArea(output_memory);
   m_MemAreaList.push_back(output_memory);

   mcld::LDContext* context = m_pInfo->contextFactory().produce(pPath);
   m_pInfo->output().setContext(context);

   // FIXME: remove the initStdSections().
   m_pDriver->initStdSections();
   return true;
 }

 bool TestLinker::setOutput(const sys::fs::Path &pPath)
 {
   return setOutput(pPath.native());
 }

 bool TestLinker::setOutput(int pFileHandler)
 {
   if (m_pInfo->output().hasContext())
     return false;

   mcld::FileHandle* handler = new mcld::FileHandle();
   handler->delegate(pFileHandler);
   m_FileHandleList.push_back(handler);

   mcld::MemoryArea* output_memory = new MemoryArea(*m_pRegionFactory, *handler);
   m_pInfo->output().setMemArea(output_memory);
   m_MemAreaList.push_back(output_memory);

   mcld::LDContext* context = m_pInfo->contextFactory().produce();
   m_pInfo->output().setContext(context);

   // FIXME: remove the initStdSections().
   m_pDriver->initStdSections();
   return true;
 }

 void TestLinker::advanceRoot()
 {
     if (m_Root.isRoot())
       --m_Root;
     else
       ++m_Root;
 }
	//===- TestLinker.cpp -----------------------------------------------------===//
	//
	// The MCLinker Project
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	#include "TestLinker.h"

	#include <iostream>

	#include <llvm/Support/TargetSelect.h>

	#include <mcld/LD/TextDiagnosticPrinter.h>
	#include <mcld/MC/InputTree.h>
	#include <mcld/MC/MCLDDirectory.h>
	#include <mcld/Target/TargetLDBackend.h>
	#include <mcld/Support/RegionFactory.h>
	#include <mcld/Support/TargetSelect.h>
	#include <mcld/Support/MsgHandling.h>
	#include <mcld/Support/raw_ostream.h>
	#include <mcld/Support/SystemUtils.h>
	#include <mcld/Support/MemoryAreaFactory.h>

	using namespace std;
	using namespace mcld;
	using namespace mcld::sys::fs;
	using namespace mcld::test;

	//===----------------------------------------------------------------------===//
	// TestLinker
	//===----------------------------------------------------------------------===//
	TestLinker::TestLinker()
	: m_pTarget(NULL), m_pDriver(NULL), m_pInfo(NULL), m_pDiagLineInfo(NULL),
	m_pDiagPrinter(NULL), m_pBackend(NULL), m_pRegionFactory(NULL),
	m_pMemAreaFactory(NULL) {
	}

	TestLinker::~TestLinker()
	{
	std::list<mcld::FileHandle*>::iterator file, fEnd = m_FileHandleList.end();
	for (file = m_FileHandleList.begin(); file != fEnd; ++file)
	delete (*file);

	std::list<mcld::MemoryArea*>::iterator mem, mEnd = m_MemAreaList.end() ;
	for (mem = m_MemAreaList.begin(); mem != mEnd; ++mem)
	delete (*mem);

	delete m_pDriver;
	delete m_pInfo;
	delete m_pDiagLineInfo;
	delete m_pDiagPrinter;
	delete m_pBackend;
	delete m_pRegionFactory;
	delete m_pMemAreaFactory;
	}

	bool TestLinker::initialize(const std::string &pTriple)
	{
	bool is_initialized = false;

	if (is_initialized)
	return false;

	// initilaize all llvm::Target and mcld::Target
	llvm::InitializeAllTargets();
	llvm::InitializeAllAsmPrinters();
	llvm::InitializeAllAsmParsers();
	llvm::InitializeAllTargetMCs();
	mcld::InitializeAllTargets();
	mcld::InitializeAllDiagnostics();

	// create mcld::MCLDInfo
	m_pInfo = new MCLDInfo(pTriple, 1, 32);
	m_Root = m_pInfo->inputs().root();

	// create mcld::RegionFactory
	m_pRegionFactory = new mcld::RegionFactory(32);

	// specify mcld::Target
	std::string error;
	m_pTarget = mcld::TargetRegistry::lookupTarget(pTriple, error);
	if (NULL == m_pTarget) {
	fatal(diag::fatal_cannot_init_target) << pTriple << error;
	return false;
	}

	// create mcld::DiagnosticEngine
	m_pDiagLineInfo = m_pTarget->createDiagnosticLineInfo(*m_pTarget, pTriple);
	if (NULL == m_pDiagLineInfo) {
	fatal(diag::fatal_cannot_init_lineinfo) << pTriple;
	return false;
	}

	m_pDiagPrinter = new mcld::TextDiagnosticPrinter(mcld::errs(), *m_pInfo);

	mcld::InitializeDiagnosticEngine(*m_pInfo, m_pDiagLineInfo, m_pDiagPrinter);

	// create mcld::TargetLDBackend
	m_pBackend = m_pTarget->createLDBackend(pTriple);
	if (NULL == m_pBackend) {
	fatal(diag::fatal_cannot_init_backend) << pTriple;
	return false;
	}

	m_pMemAreaFactory = new MemoryAreaFactory(32);

	m_pDriver = new mcld::MCLDDriver(m_pInfo, m_pBackend, *m_pMemAreaFactory);
	m_pDriver->initMCLinker();

	is_initialized = true;
	return true;
	}

	void TestLinker::addSearchDir(const std::string &pDirPath)
	{
	assert(NULL != m_pInfo && "initialize() must be called before addSearchDir");
	assert(!m_pInfo->options().sysroot().empty() &&
	"must setSysRoot before addSearchDir");

	mcld::MCLDDirectory* sd = new mcld::MCLDDirectory(pDirPath);

	if (sd->isInSysroot()) {
	sd->setSysroot(m_pInfo->options().sysroot());
	}

	if (exists(sd->path()) && is_directory(sd->path())) {
	m_pInfo->options().directories().add(*sd);
	} else {
	mcld::warning(mcld::diag::warn_cannot_open_search_dir) << sd->name();
	}
	}

	void TestLinker::setSysRoot(const mcld::sys::fs::Path &pPath)
	{
	assert(NULL != m_pInfo && "initialize() must be called before setSysRoot");
	m_pInfo->options().setSysroot(pPath);
	}

	void TestLinker::addObject(const std::string &pPath)
	{
	mcld::Input* input = m_pInfo->inputFactory().produce(pPath, pPath,
	mcld::Input::Unknown);

	m_pInfo->inputs().insert<mcld::InputTree::Positional>(m_Root, *input);

	advanceRoot();

	mcld::FileHandle* handler = new mcld::FileHandle();
	m_FileHandleList.push_back(handler);
	if (!handler->open(pPath, mcld::FileHandle::ReadOnly)) {
	mcld::error(mcld::diag::err_cannot_open_file)
	<< pPath
	<< mcld::sys::strerror(handler->error());
	}

	mcld::MemoryArea* input_memory = new MemoryArea(m_pRegionFactory, handler);
	input->setMemArea(input_memory);
	m_MemAreaList.push_back(input_memory);

	mcld::LDContext* context = m_pInfo->contextFactory().produce(pPath);
	input->setContext(context);
	}

	void TestLinker::addObject(void* pMemBuffer, size_t pSize)
	{
	mcld::Input* input = m_pInfo->inputFactory().produce("memory object", "NAN",
	mcld::Input::Unknown);

	m_pInfo->inputs().insert<mcld::InputTree::Positional>(m_Root, *input);

	advanceRoot();

	mcld::Space* space = new mcld::Space(mcld::Space::EXTERNAL, pMemBuffer, pSize);
	mcld::MemoryArea* input_memory = new MemoryArea(m_pRegionFactory, space);
	input->setMemArea(input_memory);
	m_MemAreaList.push_back(input_memory);

	mcld::LDContext* context = m_pInfo->contextFactory().produce();
	input->setContext(context);
	}

	void TestLinker::addObject(int pFileHandler)
	{
	mcld::Input* input = m_pInfo->inputFactory().produce("handler object", "NAN",
	mcld::Input::Unknown);

	m_pInfo->inputs().insert<mcld::InputTree::Positional>(m_Root, *input);

	advanceRoot();

	mcld::FileHandle* handler = new mcld::FileHandle();
	m_FileHandleList.push_back(handler);
	handler->delegate(pFileHandler);

	mcld::MemoryArea* input_memory = new MemoryArea(m_pRegionFactory, handler);
	input->setMemArea(input_memory);
	m_MemAreaList.push_back(input_memory);

	mcld::LDContext* context = m_pInfo->contextFactory().produce();
	input->setContext(context);
	}

	void TestLinker::addNameSpec(const std::string &pNameSpec)
	{
	mcld::sys::fs::Path* path = NULL;
	// find out the real path of the namespec.
	if (m_pInfo->attrFactory().constraint().isSharedSystem()) {
	// In the system with shared object support, we can find both archive
	// and shared object.

	if (m_pInfo->attrFactory().last().isStatic()) {
	// with --static, we must search an archive.
	path = m_pInfo->options().directories().find(pNameSpec,
	mcld::Input::Archive);
	}
	else {
	// otherwise, with --Bdynamic, we can find either an archive or a
	// shared object.
	path = m_pInfo->options().directories().find(pNameSpec,
	mcld::Input::DynObj);
	}
	}
	else {
	// In the system without shared object support, we only look for an
	// archive.
	path = m_pInfo->options().directories().find(pNameSpec,
	mcld::Input::Archive);
	}

	if (NULL == path) {
	mcld::fatal(diag::err_cannot_find_namespec) << pNameSpec;
	return;
	}

	mcld::Input* input = m_pInfo->inputFactory().produce(pNameSpec, *path,
	mcld::Input::Unknown);

	m_pInfo->inputs().insert<mcld::InputTree::Positional>(m_Root, *input);

	advanceRoot();

	mcld::FileHandle* handler = new mcld::FileHandle();
	m_FileHandleList.push_back(handler);
	if (!handler->open(*path, mcld::FileHandle::ReadOnly)) {
	mcld::error(mcld::diag::err_cannot_open_file)
	<< *path
	<< mcld::sys::strerror(handler->error());
	}

	mcld::MemoryArea* input_memory = new MemoryArea(m_pRegionFactory, handler);
	input->setMemArea(input_memory);
	m_MemAreaList.push_back(input_memory);

	mcld::LDContext* context = m_pInfo->contextFactory().produce(*path);
	input->setContext(context);
	}

	bool TestLinker::setOutput(const std::string &pPath)
	{
	if (m_pInfo->output().hasContext())
	return false;

	mcld::FileHandle* handler = new mcld::FileHandle();
	m_FileHandleList.push_back(handler);
	bool open_res = handler->open(pPath, mcld::FileHandle::ReadWrite \|
	mcld::FileHandle::Truncate \|
	mcld::FileHandle::Create,
	mcld::FileHandle::Permission(0755));
	if (!open_res) {
	mcld::error(mcld::diag::err_cannot_open_file)
	<< pPath
	<< mcld::sys::strerror(handler->error());
	}

	mcld::MemoryArea* output_memory = new MemoryArea(m_pRegionFactory, handler);
	m_pInfo->output().setMemArea(output_memory);
	m_MemAreaList.push_back(output_memory);

	mcld::LDContext* context = m_pInfo->contextFactory().produce(pPath);
	m_pInfo->output().setContext(context);

	// FIXME: remove the initStdSections().
	m_pDriver->initStdSections();
	return true;
	}

	bool TestLinker::setOutput(const sys::fs::Path &pPath)
	{
	return setOutput(pPath.native());
	}

	bool TestLinker::setOutput(int pFileHandler)
	{
	if (m_pInfo->output().hasContext())
	return false;

	mcld::FileHandle* handler = new mcld::FileHandle();
	handler->delegate(pFileHandler);
	m_FileHandleList.push_back(handler);

	mcld::MemoryArea* output_memory = new MemoryArea(m_pRegionFactory, handler);
	m_pInfo->output().setMemArea(output_memory);
	m_MemAreaList.push_back(output_memory);

	mcld::LDContext* context = m_pInfo->contextFactory().produce();
	m_pInfo->output().setContext(context);

	// FIXME: remove the initStdSections().
	m_pDriver->initStdSections();
	return true;
	}

	void TestLinker::advanceRoot()
	{
	if (m_Root.isRoot())
	--m_Root;
	else
	++m_Root;
	}