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gerrit-public.fairphone.software / platform / art / 180b315f435517604530beaa52eddbd270199050 / . / runtime / oat_file.cc
blob: 81703b1b2ac36ead321a6c1aa67576e36f050568 [file] [log] [blame]
/*
* Copyright (C) 2011 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "oat_file.h"
#include <dlfcn.h>
#include <string.h>
#include <unistd.h>
#include <sstream>
#include "base/bit_vector.h"
#include "base/stl_util.h"
#include "base/unix_file/fd_file.h"
#include "elf_file.h"
#include "elf_utils.h"
#include "oat.h"
#include "mirror/art_method.h"
#include "mirror/art_method-inl.h"
#include "mirror/class.h"
#include "mirror/object-inl.h"
#include "os.h"
#include "runtime.h"
#include "utils.h"
#include "vmap_table.h"
namespace art {
std::string OatFile::ResolveRelativeEncodedDexLocation(
const char* abs_dex_location, const std::string& rel_dex_location) {
if (abs_dex_location != nullptr && rel_dex_location[0] != '/') {
// Strip :classes<N>.dex used for secondary multidex files.
std::string base = DexFile::GetBaseLocation(rel_dex_location);
std::string multidex_suffix = DexFile::GetMultiDexSuffix(rel_dex_location);
// Check if the base is a suffix of the provided abs_dex_location.
std::string target_suffix = "/" + base;
std::string abs_location(abs_dex_location);
if (abs_location.size() > target_suffix.size()) {
size_t pos = abs_location.size() - target_suffix.size();
if (abs_location.compare(pos, std::string::npos, target_suffix) == 0) {
return abs_location + multidex_suffix;
}
}
}
return rel_dex_location;
}
void OatFile::CheckLocation(const std::string& location) {
CHECK(!location.empty());
}
OatFile* OatFile::OpenWithElfFile(ElfFile* elf_file,
const std::string& location,
const char* abs_dex_location,
std::string* error_msg) {
std::unique_ptr<OatFile> oat_file(new OatFile(location, false));
oat_file->elf_file_.reset(elf_file);
uint64_t offset, size;
bool has_section = elf_file->GetSectionOffsetAndSize(".rodata", &offset, &size);
CHECK(has_section);
oat_file->begin_ = elf_file->Begin() + offset;
oat_file->end_ = elf_file->Begin() + size + offset;
// Ignore the optional .bss section when opening non-executable.
return oat_file->Setup(abs_dex_location, error_msg) ? oat_file.release() : nullptr;
}
OatFile* OatFile::Open(const std::string& filename,
const std::string& location,
uint8_t* requested_base,
uint8_t* oat_file_begin,
bool executable,
const char* abs_dex_location,
std::string* error_msg) {
CHECK(!filename.empty()) << location;
CheckLocation(location);
std::unique_ptr<OatFile> ret;
// If we aren't trying to execute, we just use our own ElfFile loader for a couple reasons:
//
// On target, dlopen may fail when compiling due to selinux restrictions on installd.
//
// We use our own ELF loader for Quick to deal with legacy apps that
// open a generated dex file by name, remove the file, then open
// another generated dex file with the same name. http://b/10614658
//
// On host, dlopen is expected to fail when cross compiling, so fall back to OpenElfFile.
std::unique_ptr<File> file(OS::OpenFileForReading(filename.c_str()));
if (file.get() == NULL) {
*error_msg = StringPrintf("Failed to open oat filename for reading: %s", strerror(errno));
return nullptr;
}
ret.reset(OpenElfFile(file.get(), location, requested_base, oat_file_begin, false, executable,
abs_dex_location, error_msg));
// It would be nice to unlink here. But we might have opened the file created by the
// ScopedLock, which we better not delete to avoid races. TODO: Investigate how to fix the API
// to allow removal when we know the ELF must be borked.
return ret.release();
}
OatFile* OatFile::OpenWritable(File* file, const std::string& location,
const char* abs_dex_location,
std::string* error_msg) {
CheckLocation(location);
return OpenElfFile(file, location, nullptr, nullptr, true, false, abs_dex_location, error_msg);
}
OatFile* OatFile::OpenReadable(File* file, const std::string& location,
const char* abs_dex_location,
std::string* error_msg) {
CheckLocation(location);
return OpenElfFile(file, location, nullptr, nullptr, false, false, abs_dex_location, error_msg);
}
OatFile* OatFile::OpenElfFile(File* file,
const std::string& location,
uint8_t* requested_base,
uint8_t* oat_file_begin,
bool writable,
bool executable,
const char* abs_dex_location,
std::string* error_msg) {
std::unique_ptr<OatFile> oat_file(new OatFile(location, executable));
bool success = oat_file->ElfFileOpen(file, requested_base, oat_file_begin, writable, executable,
abs_dex_location, error_msg);
if (!success) {
CHECK(!error_msg->empty());
return nullptr;
}
return oat_file.release();
}
OatFile::OatFile(const std::string& location, bool is_executable)
: location_(location), begin_(NULL), end_(NULL), bss_begin_(nullptr), bss_end_(nullptr),
is_executable_(is_executable), dlopen_handle_(NULL),
secondary_lookup_lock_("OatFile secondary lookup lock", kOatFileSecondaryLookupLock) {
CHECK(!location_.empty());
}
OatFile::~OatFile() {
STLDeleteElements(&oat_dex_files_storage_);
if (dlopen_handle_ != NULL) {
dlclose(dlopen_handle_);
}
}
bool OatFile::ElfFileOpen(File* file, uint8_t* requested_base, uint8_t* oat_file_begin,
bool writable, bool executable,
const char* abs_dex_location,
std::string* error_msg) {
// TODO: rename requested_base to oat_data_begin
elf_file_.reset(ElfFile::Open(file, writable, /*program_header_only*/true, error_msg,
oat_file_begin));
if (elf_file_.get() == nullptr) {
DCHECK(!error_msg->empty());
return false;
}
bool loaded = elf_file_->Load(executable, error_msg);
if (!loaded) {
DCHECK(!error_msg->empty());
return false;
}
begin_ = elf_file_->FindDynamicSymbolAddress("oatdata");
if (begin_ == NULL) {
*error_msg = StringPrintf("Failed to find oatdata symbol in '%s'", file->GetPath().c_str());
return false;
}
if (requested_base != NULL && begin_ != requested_base) {
PrintFileToLog("/proc/self/maps", LogSeverity::WARNING);
*error_msg = StringPrintf("Failed to find oatdata symbol at expected address: "
"oatdata=%p != expected=%p. See process maps in the log.",
begin_, requested_base);
return false;
}
end_ = elf_file_->FindDynamicSymbolAddress("oatlastword");
if (end_ == NULL) {
*error_msg = StringPrintf("Failed to find oatlastword symbol in '%s'", file->GetPath().c_str());
return false;
}
// Readjust to be non-inclusive upper bound.
end_ += sizeof(uint32_t);
bss_begin_ = elf_file_->FindDynamicSymbolAddress("oatbss");
if (bss_begin_ == nullptr) {
// No .bss section. Clear dlerror().
bss_end_ = nullptr;
dlerror();
} else {
bss_end_ = elf_file_->FindDynamicSymbolAddress("oatbsslastword");
if (bss_end_ == nullptr) {
*error_msg = StringPrintf("Failed to find oatbasslastword symbol in '%s'",
file->GetPath().c_str());
return false;
}
// Readjust to be non-inclusive upper bound.
bss_end_ += sizeof(uint32_t);
}
return Setup(abs_dex_location, error_msg);
}
bool OatFile::Setup(const char* abs_dex_location, std::string* error_msg) {
if (!GetOatHeader().IsValid()) {
std::string cause = GetOatHeader().GetValidationErrorMessage();
*error_msg = StringPrintf("Invalid oat header for '%s': %s", GetLocation().c_str(),
cause.c_str());
return false;
}
const uint8_t* oat = Begin();
oat += sizeof(OatHeader);
if (oat > End()) {
*error_msg = StringPrintf("In oat file '%s' found truncated OatHeader", GetLocation().c_str());
return false;
}
oat += GetOatHeader().GetKeyValueStoreSize();
if (oat > End()) {
*error_msg = StringPrintf("In oat file '%s' found truncated variable-size data: "
"%p + %zd + %ud <= %p", GetLocation().c_str(),
Begin(), sizeof(OatHeader), GetOatHeader().GetKeyValueStoreSize(),
End());
return false;
}
uint32_t dex_file_count = GetOatHeader().GetDexFileCount();
oat_dex_files_storage_.reserve(dex_file_count);
for (size_t i = 0; i < dex_file_count; i++) {
uint32_t dex_file_location_size = *reinterpret_cast<const uint32_t*>(oat);
if (UNLIKELY(dex_file_location_size == 0U)) {
*error_msg = StringPrintf("In oat file '%s' found OatDexFile #%zd with empty location name",
GetLocation().c_str(), i);
return false;
}
oat += sizeof(dex_file_location_size);
if (UNLIKELY(oat > End())) {
*error_msg = StringPrintf("In oat file '%s' found OatDexFile #%zd truncated after dex file "
"location size", GetLocation().c_str(), i);
return false;
}
const char* dex_file_location_data = reinterpret_cast<const char*>(oat);
oat += dex_file_location_size;
if (UNLIKELY(oat > End())) {
*error_msg = StringPrintf("In oat file '%s' found OatDexFile #%zd with truncated dex file "
"location", GetLocation().c_str(), i);
return false;
}
std::string dex_file_location = ResolveRelativeEncodedDexLocation(
abs_dex_location,
std::string(dex_file_location_data, dex_file_location_size));
uint32_t dex_file_checksum = *reinterpret_cast<const uint32_t*>(oat);
oat += sizeof(dex_file_checksum);
if (UNLIKELY(oat > End())) {
*error_msg = StringPrintf("In oat file '%s' found OatDexFile #%zd for '%s' truncated after "
"dex file checksum", GetLocation().c_str(), i,
dex_file_location.c_str());
return false;
}
uint32_t dex_file_offset = *reinterpret_cast<const uint32_t*>(oat);
if (UNLIKELY(dex_file_offset == 0U)) {
*error_msg = StringPrintf("In oat file '%s' found OatDexFile #%zd for '%s' with zero dex "
"file offset", GetLocation().c_str(), i, dex_file_location.c_str());
return false;
}
if (UNLIKELY(dex_file_offset > Size())) {
*error_msg = StringPrintf("In oat file '%s' found OatDexFile #%zd for '%s' with dex file "
"offset %ud > %zd", GetLocation().c_str(), i,
dex_file_location.c_str(), dex_file_offset, Size());
return false;
}
oat += sizeof(dex_file_offset);
if (UNLIKELY(oat > End())) {
*error_msg = StringPrintf("In oat file '%s' found OatDexFile #%zd for '%s' truncated "
"after dex file offsets", GetLocation().c_str(), i,
dex_file_location.c_str());
return false;
}
const uint8_t* dex_file_pointer = Begin() + dex_file_offset;
if (UNLIKELY(!DexFile::IsMagicValid(dex_file_pointer))) {
*error_msg = StringPrintf("In oat file '%s' found OatDexFile #%zd for '%s' with invalid "
"dex file magic '%s'", GetLocation().c_str(), i,
dex_file_location.c_str(), dex_file_pointer);
return false;
}
if (UNLIKELY(!DexFile::IsVersionValid(dex_file_pointer))) {
*error_msg = StringPrintf("In oat file '%s' found OatDexFile #%zd for '%s' with invalid "
"dex file version '%s'", GetLocation().c_str(), i,
dex_file_location.c_str(), dex_file_pointer);
return false;
}
const DexFile::Header* header = reinterpret_cast<const DexFile::Header*>(dex_file_pointer);
const uint32_t* methods_offsets_pointer = reinterpret_cast<const uint32_t*>(oat);
oat += (sizeof(*methods_offsets_pointer) * header->class_defs_size_);
if (UNLIKELY(oat > End())) {
*error_msg = StringPrintf("In oat file '%s' found OatDexFile #%zd for '%s' with truncated "
"method offsets", GetLocation().c_str(), i,
dex_file_location.c_str());
return false;
}
std::string canonical_location = DexFile::GetDexCanonicalLocation(dex_file_location.c_str());
// Create the OatDexFile and add it to the owning container.
OatDexFile* oat_dex_file = new OatDexFile(this,
dex_file_location,
canonical_location,
dex_file_checksum,
dex_file_pointer,
methods_offsets_pointer);
oat_dex_files_storage_.push_back(oat_dex_file);
// Add the location and canonical location (if different) to the oat_dex_files_ table.
StringPiece key(oat_dex_file->GetDexFileLocation());
oat_dex_files_.Put(key, oat_dex_file);
if (canonical_location != dex_file_location) {
StringPiece canonical_key(oat_dex_file->GetCanonicalDexFileLocation());
oat_dex_files_.Put(canonical_key, oat_dex_file);
}
}
return true;
}
const OatHeader& OatFile::GetOatHeader() const {
return *reinterpret_cast<const OatHeader*>(Begin());
}
const uint8_t* OatFile::Begin() const {
CHECK(begin_ != NULL);
return begin_;
}
const uint8_t* OatFile::End() const {
CHECK(end_ != NULL);
return end_;
}
const uint8_t* OatFile::BssBegin() const {
return bss_begin_;
}
const uint8_t* OatFile::BssEnd() const {
return bss_end_;
}
const OatFile::OatDexFile* OatFile::GetOatDexFile(const char* dex_location,
const uint32_t* dex_location_checksum,
bool warn_if_not_found) const {
// NOTE: We assume here that the canonical location for a given dex_location never
// changes. If it does (i.e. some symlink used by the filename changes) we may return
// an incorrect OatDexFile. As long as we have a checksum to check, we shall return
// an identical file or fail; otherwise we may see some unpredictable failures.
// TODO: Additional analysis of usage patterns to see if this can be simplified
// without any performance loss, for example by not doing the first lock-free lookup.
const OatFile::OatDexFile* oat_dex_file = nullptr;
StringPiece key(dex_location);
// Try to find the key cheaply in the oat_dex_files_ map which holds dex locations
// directly mentioned in the oat file and doesn't require locking.
auto primary_it = oat_dex_files_.find(key);
if (primary_it != oat_dex_files_.end()) {
oat_dex_file = primary_it->second;
DCHECK(oat_dex_file != nullptr);
} else {
// This dex_location is not one of the dex locations directly mentioned in the
// oat file. The correct lookup is via the canonical location but first see in
// the secondary_oat_dex_files_ whether we've looked up this location before.
MutexLock mu(Thread::Current(), secondary_lookup_lock_);
auto secondary_lb = secondary_oat_dex_files_.lower_bound(key);
if (secondary_lb != secondary_oat_dex_files_.end() && key == secondary_lb->first) {
oat_dex_file = secondary_lb->second; // May be nullptr.
} else {
// We haven't seen this dex_location before, we must check the canonical location.
std::string dex_canonical_location = DexFile::GetDexCanonicalLocation(dex_location);
if (dex_canonical_location != dex_location) {
StringPiece canonical_key(dex_canonical_location);
auto canonical_it = oat_dex_files_.find(canonical_key);
if (canonical_it != oat_dex_files_.end()) {
oat_dex_file = canonical_it->second;
} // else keep nullptr.
} // else keep nullptr.
// Copy the key to the string_cache_ and store the result in secondary map.
string_cache_.emplace_back(key.data(), key.length());
StringPiece key_copy(string_cache_.back());
secondary_oat_dex_files_.PutBefore(secondary_lb, key_copy, oat_dex_file);
}
}
if (oat_dex_file != nullptr &&
(dex_location_checksum == nullptr ||
oat_dex_file->GetDexFileLocationChecksum() == *dex_location_checksum)) {
return oat_dex_file;
}
if (warn_if_not_found) {
std::string dex_canonical_location = DexFile::GetDexCanonicalLocation(dex_location);
std::string checksum("<unspecified>");
if (dex_location_checksum != NULL) {
checksum = StringPrintf("0x%08x", *dex_location_checksum);
}
LOG(WARNING) << "Failed to find OatDexFile for DexFile " << dex_location
<< " ( canonical path " << dex_canonical_location << ")"
<< " with checksum " << checksum << " in OatFile " << GetLocation();
if (kIsDebugBuild) {
for (const OatDexFile* odf : oat_dex_files_storage_) {
LOG(WARNING) << "OatFile " << GetLocation()
<< " contains OatDexFile " << odf->GetDexFileLocation()
<< " (canonical path " << odf->GetCanonicalDexFileLocation() << ")"
<< " with checksum 0x" << std::hex << odf->GetDexFileLocationChecksum();
}
}
}
return NULL;
}
OatFile::OatDexFile::OatDexFile(const OatFile* oat_file,
const std::string& dex_file_location,
const std::string& canonical_dex_file_location,
uint32_t dex_file_location_checksum,
const uint8_t* dex_file_pointer,
const uint32_t* oat_class_offsets_pointer)
: oat_file_(oat_file),
dex_file_location_(dex_file_location),
canonical_dex_file_location_(canonical_dex_file_location),
dex_file_location_checksum_(dex_file_location_checksum),
dex_file_pointer_(dex_file_pointer),
oat_class_offsets_pointer_(oat_class_offsets_pointer) {}
OatFile::OatDexFile::~OatDexFile() {}
size_t OatFile::OatDexFile::FileSize() const {
return reinterpret_cast<const DexFile::Header*>(dex_file_pointer_)->file_size_;
}
std::unique_ptr<const DexFile> OatFile::OatDexFile::OpenDexFile(std::string* error_msg) const {
return DexFile::Open(dex_file_pointer_, FileSize(), dex_file_location_,
dex_file_location_checksum_, this, error_msg);
}
uint32_t OatFile::OatDexFile::GetOatClassOffset(uint16_t class_def_index) const {
return oat_class_offsets_pointer_[class_def_index];
}
OatFile::OatClass OatFile::OatDexFile::GetOatClass(uint16_t class_def_index) const {
uint32_t oat_class_offset = GetOatClassOffset(class_def_index);
const uint8_t* oat_class_pointer = oat_file_->Begin() + oat_class_offset;
CHECK_LT(oat_class_pointer, oat_file_->End()) << oat_file_->GetLocation();
const uint8_t* status_pointer = oat_class_pointer;
CHECK_LT(status_pointer, oat_file_->End()) << oat_file_->GetLocation();
mirror::Class::Status status =
static_cast<mirror::Class::Status>(*reinterpret_cast<const int16_t*>(status_pointer));
CHECK_LT(status, mirror::Class::kStatusMax);
const uint8_t* type_pointer = status_pointer + sizeof(uint16_t);
CHECK_LT(type_pointer, oat_file_->End()) << oat_file_->GetLocation();
OatClassType type = static_cast<OatClassType>(*reinterpret_cast<const uint16_t*>(type_pointer));
CHECK_LT(type, kOatClassMax);
const uint8_t* after_type_pointer = type_pointer + sizeof(int16_t);
CHECK_LE(after_type_pointer, oat_file_->End()) << oat_file_->GetLocation();
uint32_t bitmap_size = 0;
const uint8_t* bitmap_pointer = nullptr;
const uint8_t* methods_pointer = nullptr;
if (type != kOatClassNoneCompiled) {
if (type == kOatClassSomeCompiled) {
bitmap_size = static_cast<uint32_t>(*reinterpret_cast<const uint32_t*>(after_type_pointer));
bitmap_pointer = after_type_pointer + sizeof(bitmap_size);
CHECK_LE(bitmap_pointer, oat_file_->End()) << oat_file_->GetLocation();
methods_pointer = bitmap_pointer + bitmap_size;
} else {
methods_pointer = after_type_pointer;
}
CHECK_LE(methods_pointer, oat_file_->End()) << oat_file_->GetLocation();
}
return OatFile::OatClass(oat_file_,
status,
type,
bitmap_size,
reinterpret_cast<const uint32_t*>(bitmap_pointer),
reinterpret_cast<const OatMethodOffsets*>(methods_pointer));
}
OatFile::OatClass::OatClass(const OatFile* oat_file,
mirror::Class::Status status,
OatClassType type,
uint32_t bitmap_size,
const uint32_t* bitmap_pointer,
const OatMethodOffsets* methods_pointer)
: oat_file_(oat_file), status_(status), type_(type),
bitmap_(bitmap_pointer), methods_pointer_(methods_pointer) {
switch (type_) {
case kOatClassAllCompiled: {
CHECK_EQ(0U, bitmap_size);
CHECK(bitmap_pointer == nullptr);
CHECK(methods_pointer != nullptr);
break;
}
case kOatClassSomeCompiled: {
CHECK_NE(0U, bitmap_size);
CHECK(bitmap_pointer != nullptr);
CHECK(methods_pointer != nullptr);
break;
}
case kOatClassNoneCompiled: {
CHECK_EQ(0U, bitmap_size);
CHECK(bitmap_pointer == nullptr);
CHECK(methods_pointer_ == nullptr);
break;
}
case kOatClassMax: {
LOG(FATAL) << "Invalid OatClassType " << type_;
break;
}
}
}
uint32_t OatFile::OatClass::GetOatMethodOffsetsOffset(uint32_t method_index) const {
const OatMethodOffsets* oat_method_offsets = GetOatMethodOffsets(method_index);
if (oat_method_offsets == nullptr) {
return 0u;
}
return reinterpret_cast<const uint8_t*>(oat_method_offsets) - oat_file_->Begin();
}
const OatMethodOffsets* OatFile::OatClass::GetOatMethodOffsets(uint32_t method_index) const {
// NOTE: We don't keep the number of methods and cannot do a bounds check for method_index.
if (methods_pointer_ == nullptr) {
CHECK_EQ(kOatClassNoneCompiled, type_);
return nullptr;
}
size_t methods_pointer_index;
if (bitmap_ == nullptr) {
CHECK_EQ(kOatClassAllCompiled, type_);
methods_pointer_index = method_index;
} else {
CHECK_EQ(kOatClassSomeCompiled, type_);
if (!BitVector::IsBitSet(bitmap_, method_index)) {
return nullptr;
}
size_t num_set_bits = BitVector::NumSetBits(bitmap_, method_index);
methods_pointer_index = num_set_bits;
}
const OatMethodOffsets& oat_method_offsets = methods_pointer_[methods_pointer_index];
return &oat_method_offsets;
}
const OatFile::OatMethod OatFile::OatClass::GetOatMethod(uint32_t method_index) const {
const OatMethodOffsets* oat_method_offsets = GetOatMethodOffsets(method_index);
if (oat_method_offsets == nullptr) {
return OatMethod(nullptr, 0);
}
if (oat_file_->IsExecutable() ||
Runtime::Current() == nullptr || // This case applies for oatdump.
Runtime::Current()->IsAotCompiler()) {
return OatMethod(oat_file_->Begin(), oat_method_offsets->code_offset_);
}
// We aren't allowed to use the compiled code. We just force it down the interpreted / jit
// version.
return OatMethod(oat_file_->Begin(), 0);
}
void OatFile::OatMethod::LinkMethod(mirror::ArtMethod* method) const {
CHECK(method != NULL);
method->SetEntryPointFromQuickCompiledCode(GetQuickCode());
}
bool OatFile::IsPic() const {
return GetOatHeader().IsPic();
// TODO: Check against oat_patches. b/18144996
}
} // namespace art