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/*
* Copyright (C) 2014 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.
*/
#ifndef ART_RUNTIME_OAT_FILE_ASSISTANT_H_
#define ART_RUNTIME_OAT_FILE_ASSISTANT_H_
#include <cstdint>
#include <memory>
#include <optional>
#include <sstream>
#include <string>
#include <string_view>
#include <variant>
#include "arch/instruction_set.h"
#include "base/compiler_filter.h"
#include "base/os.h"
#include "base/scoped_flock.h"
#include "base/unix_file/fd_file.h"
#include "class_loader_context.h"
#include "oat_file.h"
#include "oat_file_assistant_context.h"
namespace art {
namespace gc {
namespace space {
class ImageSpace;
} // namespace space
} // namespace gc
// Class for assisting with oat file management.
//
// This class collects common utilities for determining the status of an oat
// file on the device, updating the oat file, and loading the oat file.
//
// The oat file assistant is intended to be used with dex locations not on the
// boot class path. See the IsInBootClassPath method for a way to check if the
// dex location is in the boot class path.
class OatFileAssistant {
public:
enum DexOptNeeded {
// No dexopt should (or can) be done to update the apk/jar.
// Matches Java: dalvik.system.DexFile.NO_DEXOPT_NEEDED = 0
kNoDexOptNeeded = 0,
// dex2oat should be run to update the apk/jar from scratch.
// Matches Java: dalvik.system.DexFile.DEX2OAT_FROM_SCRATCH = 1
kDex2OatFromScratch = 1,
// dex2oat should be run to update the apk/jar because the existing code
// is out of date with respect to the boot image.
// Matches Java: dalvik.system.DexFile.DEX2OAT_FOR_BOOT_IMAGE
kDex2OatForBootImage = 2,
// dex2oat should be run to update the apk/jar because the existing code
// is out of date with respect to the target compiler filter.
// Matches Java: dalvik.system.DexFile.DEX2OAT_FOR_FILTER
kDex2OatForFilter = 3,
};
enum OatStatus {
// kOatCannotOpen - The oat file cannot be opened, because it does not
// exist, is unreadable, or otherwise corrupted.
kOatCannotOpen,
// kOatDexOutOfDate - The oat file is out of date with respect to the dex file.
kOatDexOutOfDate,
// kOatBootImageOutOfDate - The oat file is up to date with respect to the
// dex file, but is out of date with respect to the boot image.
kOatBootImageOutOfDate,
// kOatContextOutOfDate - The context in the oat file is out of date with
// respect to the class loader context.
kOatContextOutOfDate,
// kOatUpToDate - The oat file is completely up to date with respect to
// the dex file and boot image.
kOatUpToDate,
};
// A bit field to represent the conditions where dexopt should be performed.
struct DexOptTrigger {
// Dexopt should be performed if the target compiler filter is better than the current compiler
// filter. See `CompilerFilter::IsBetter`.
bool targetFilterIsBetter : 1;
// Dexopt should be performed if the target compiler filter is the same as the current compiler
// filter.
bool targetFilterIsSame : 1;
// Dexopt should be performed if the target compiler filter is worse than the current compiler
// filter. See `CompilerFilter::IsBetter`.
bool targetFilterIsWorse : 1;
// Dexopt should be performed if the current oat file was compiled without a primary image,
// and the runtime is now running with a primary image loaded from disk.
bool primaryBootImageBecomesUsable : 1;
// Dexopt should be performed if the APK is compressed and the current oat/vdex file doesn't
// contain dex code.
bool needExtraction : 1;
};
// Represents the location of the current oat file and/or vdex file.
enum Location {
// Does not exist, or an error occurs.
kLocationNoneOrError = 0,
// In the global "dalvik-cache" folder.
kLocationOat = 1,
// In the "oat" folder next to the dex file.
kLocationOdex = 2,
// In the DM file. This means the only usable file is the vdex file.
kLocationDm = 3,
};
// Represents the status of the current oat file and/or vdex file.
class DexOptStatus {
public:
Location GetLocation() { return location_; }
bool IsVdexUsable() { return location_ != kLocationNoneOrError; }
private:
Location location_ = kLocationNoneOrError;
friend class OatFileAssistant;
};
// Constructs an OatFileAssistant object to assist the oat file
// corresponding to the given dex location with the target instruction set.
//
// The dex_location must not be null and should remain available and
// unchanged for the duration of the lifetime of the OatFileAssistant object.
// Typically the dex_location is the absolute path to the original,
// un-optimized dex file.
//
// Note: Currently the dex_location must have an extension.
// TODO: Relax this restriction?
//
// The isa should be either the 32 bit or 64 bit variant for the current
// device. For example, on an arm device, use arm or arm64. An oat file can
// be loaded executable only if the ISA matches the current runtime.
//
// context should be the class loader context to check against, or null to skip the check.
//
// load_executable should be true if the caller intends to try and load
// executable code for this dex location.
//
// only_load_trusted_executable should be true if the caller intends to have
// only oat files from trusted locations loaded executable. See IsTrustedLocation() for
// details on trusted locations.
//
// runtime_options should be provided with all the required fields filled if the caller intends to
// use OatFileAssistant without a runtime.
OatFileAssistant(const char* dex_location,
const InstructionSet isa,
ClassLoaderContext* context,
bool load_executable,
bool only_load_trusted_executable = false,
OatFileAssistantContext* ofa_context = nullptr);
// Similar to this(const char*, const InstructionSet, bool), however, if a valid zip_fd is
// provided, vdex, oat, and zip files will be read from vdex_fd, oat_fd and zip_fd respectively.
// Otherwise, dex_location will be used to construct necessary filenames.
OatFileAssistant(const char* dex_location,
const InstructionSet isa,
ClassLoaderContext* context,
bool load_executable,
bool only_load_trusted_executable,
OatFileAssistantContext* ofa_context,
int vdex_fd,
int oat_fd,
int zip_fd);
// A convenient factory function that accepts ISA, class loader context, and compiler filter in
// strings. Returns the created instance and ClassLoaderContext on success, or returns nullptr and
// outputs an error message if it fails to parse the input strings.
// The returned ClassLoaderContext must live at least as long as the OatFileAssistant.
static std::unique_ptr<OatFileAssistant> Create(
const std::string& filename,
const std::string& isa_str,
const std::optional<std::string>& context_str,
bool load_executable,
bool only_load_trusted_executable,
OatFileAssistantContext* ofa_context,
/*out*/ std::unique_ptr<ClassLoaderContext>* context,
/*out*/ std::string* error_msg);
// Returns true if the dex location refers to an element of the boot class
// path.
bool IsInBootClassPath();
// Return what action needs to be taken to produce up-to-date code for this
// dex location. If "downgrade" is set to false, it verifies if the current
// compiler filter is at least as good as an oat file generated with the
// given compiler filter otherwise, if its set to true, it checks whether
// the oat file generated with the target filter will be downgraded as
// compared to the current state. For example, if the current compiler filter is
// quicken, and target filter is verify, it will recommend to dexopt, while
// if the target filter is speed profile, it will recommend to keep it in its
// current state.
// profile_changed should be true to indicate the profile has recently changed
// for this dex location.
// If the purpose of the dexopt is to downgrade the compiler filter,
// set downgrade to true.
// Returns a positive status code if the status refers to the oat file in
// the oat location. Returns a negative status code if the status refers to
// the oat file in the odex location.
//
// Deprecated. Use the other overload.
int GetDexOptNeeded(CompilerFilter::Filter target_compiler_filter,
bool profile_changed = false,
bool downgrade = false);
// Returns true if dexopt needs to be performed with respect to the given target compilation
// filter and dexopt trigger. Also returns the status of the current oat file and/or vdex file.
bool GetDexOptNeeded(CompilerFilter::Filter target_compiler_filter,
const DexOptTrigger dexopt_trigger,
/*out*/ DexOptStatus* dexopt_status);
// Returns true if there is up-to-date code for this dex location,
// irrespective of the compiler filter of the up-to-date code.
bool IsUpToDate();
// Returns an oat file that can be used for loading dex files.
// Returns null if no suitable oat file was found.
//
// After this call, no other methods of the OatFileAssistant should be
// called, because access to the loaded oat file has been taken away from
// the OatFileAssistant object.
std::unique_ptr<OatFile> GetBestOatFile();
// Returns a human readable description of the status of the code for the
// dex file. The returned description is for debugging purposes only.
std::string GetStatusDump();
// Computes the optimization status of the given dex file. The result is
// returned via the two output parameters.
// - out_odex_location: the location of the (best) odex that will be used
// for loading. See GetBestInfo().
// - out_compilation_filter: the level of optimizations (compiler filter)
// - out_compilation_reason: the optimization reason. The reason might
// be "unknown" if the compiler artifacts were not annotated during optimizations.
// - out_odex_status: a human readable refined status of the validity of the odex file.
// Possible values are: "up-to-date", "apk-more-recent", and "io-error-no-oat".
//
// This method will try to mimic the runtime effect of loading the dex file.
// For example, if there is no usable oat file, the compiler filter will be set
// to "run-from-apk".
void GetOptimizationStatus(std::string* out_odex_location,
std::string* out_compilation_filter,
std::string* out_compilation_reason,
std::string* out_odex_status);
static void GetOptimizationStatus(const std::string& filename,
InstructionSet isa,
std::string* out_compilation_filter,
std::string* out_compilation_reason,
OatFileAssistantContext* ofa_context = nullptr);
// Open and returns an image space associated with the oat file.
static std::unique_ptr<gc::space::ImageSpace> OpenImageSpace(const OatFile* oat_file);
// Loads the dex files in the given oat file for the given dex location.
// The oat file should be up to date for the given dex location.
// This loads multiple dex files in the case of multidex.
// Returns an empty vector if no dex files for that location could be loaded
// from the oat file.
//
// The caller is responsible for freeing the dex_files returned, if any. The
// dex_files will only remain valid as long as the oat_file is valid.
static std::vector<std::unique_ptr<const DexFile>> LoadDexFiles(
const OatFile& oat_file, const char* dex_location);
// Same as `std::vector<std::unique_ptr<const DexFile>> LoadDexFiles(...)` with the difference:
// - puts the dex files in the given vector
// - returns whether or not all dex files were successfully opened
static bool LoadDexFiles(const OatFile& oat_file,
const std::string& dex_location,
std::vector<std::unique_ptr<const DexFile>>* out_dex_files);
// Returns whether this is an apk/zip wit a classes.dex entry, or nullopt if an error occurred.
std::optional<bool> HasDexFiles(std::string* error_msg);
// If the dex file has been installed with a compiled oat file alongside
// it, the compiled oat file will have the extension .odex, and is referred
// to as the odex file. It is called odex for legacy reasons; the file is
// really an oat file. The odex file will often, but not always, have a
// patch delta of 0 and need to be relocated before use for the purposes of
// ASLR. The odex file is treated as if it were read-only.
//
// Returns the status of the odex file for the dex location.
OatStatus OdexFileStatus();
// When the dex files is compiled on the target device, the oat file is the
// result. The oat file will have been relocated to some
// (possibly-out-of-date) offset for ASLR.
//
// Returns the status of the oat file for the dex location.
OatStatus OatFileStatus();
OatStatus GetBestStatus() {
return GetBestInfo().Status();
}
// Constructs the odex file name for the given dex location.
// Returns true on success, in which case odex_filename is set to the odex
// file name.
// Returns false on error, in which case error_msg describes the error and
// odex_filename is not changed.
// Neither odex_filename nor error_msg may be null.
static bool DexLocationToOdexFilename(const std::string& location,
InstructionSet isa,
std::string* odex_filename,
std::string* error_msg);
// Constructs the oat file name for the given dex location.
// Returns true on success, in which case oat_filename is set to the oat
// file name.
// Returns false on error, in which case error_msg describes the error and
// oat_filename is not changed.
// Neither oat_filename nor error_msg may be null.
//
// Calling this function requires an active runtime.
static bool DexLocationToOatFilename(const std::string& location,
InstructionSet isa,
std::string* oat_filename,
std::string* error_msg);
// Same as above, but also takes `deny_art_apex_data_files` from input.
//
// Calling this function does not require an active runtime.
static bool DexLocationToOatFilename(const std::string& location,
InstructionSet isa,
bool deny_art_apex_data_files,
std::string* oat_filename,
std::string* error_msg);
// Computes the dex location and vdex filename. If the data directory of the process
// is known, creates an absolute path in that directory and tries to infer path
// of a corresponding vdex file. Otherwise only creates a basename dex_location
// from the combined checksums. Returns true if all out-arguments have been set.
//
// Calling this function requires an active runtime.
static bool AnonymousDexVdexLocation(const std::vector<const DexFile::Header*>& dex_headers,
InstructionSet isa,
/* out */ std::string* dex_location,
/* out */ std::string* vdex_filename);
// Returns true if a filename (given as basename) is a name of a vdex for
// anonymous dex file(s) created by AnonymousDexVdexLocation.
static bool IsAnonymousVdexBasename(const std::string& basename);
bool ClassLoaderContextIsOkay(const OatFile& oat_file) const;
// Validates the boot class path checksum of an OatFile.
bool ValidateBootClassPathChecksums(const OatFile& oat_file);
// Validates the given bootclasspath and bootclasspath checksums found in an oat header.
static bool ValidateBootClassPathChecksums(OatFileAssistantContext* ofa_context,
InstructionSet isa,
std::string_view oat_checksums,
std::string_view oat_boot_class_path,
/*out*/ std::string* error_msg);
private:
class OatFileInfo {
public:
// Initially the info is for no file in particular. It will treat the
// file as out of date until Reset is called with a real filename to use
// the cache for.
// Pass true for is_oat_location if the information associated with this
// OatFileInfo is for the oat location, as opposed to the odex location.
OatFileInfo(OatFileAssistant* oat_file_assistant, bool is_oat_location);
bool IsOatLocation();
const std::string* Filename();
const char* DisplayFilename();
// Returns true if this oat file can be used for running code. The oat
// file can be used for running code as long as it is not out of date with
// respect to the dex code or boot image. An oat file that is out of date
// with respect to relocation is considered useable, because it's possible
// to interpret the dex code rather than run the unrelocated compiled
// code.
bool IsUseable();
// Returns the status of this oat file.
OatStatus Status();
// Return the DexOptNeeded value for this oat file with respect to the given target compilation
// filter and dexopt trigger.
DexOptNeeded GetDexOptNeeded(CompilerFilter::Filter target_compiler_filter,
const DexOptTrigger dexopt_trigger);
// Returns the loaded file.
// Loads the file if needed. Returns null if the file failed to load.
// The caller shouldn't clean up or free the returned pointer.
const OatFile* GetFile();
// Returns true if the file is opened executable.
bool IsExecutable();
// Clear any cached information about the file that depends on the
// contents of the file. This does not reset the provided filename.
void Reset();
// Clear any cached information and switch to getting info about the oat
// file with the given filename.
void Reset(const std::string& filename,
bool use_fd,
int zip_fd = -1,
int vdex_fd = -1,
int oat_fd = -1);
// Release the loaded oat file for runtime use.
// Returns null if the oat file hasn't been loaded or is out of date.
// Ensures the returned file is not loaded executable if it has unuseable
// compiled code.
//
// After this call, no other methods of the OatFileInfo should be
// called, because access to the loaded oat file has been taken away from
// the OatFileInfo object.
std::unique_ptr<OatFile> ReleaseFileForUse();
// Check if we should reject vdex containing cdex code as part of the cdex
// deprecation.
// TODO(b/256664509): Clean this up.
bool CheckDisableCompactDex();
private:
// Returns true if the oat file is usable but at least one dexopt trigger is matched. This
// function should only be called if the oat file is usable.
bool ShouldRecompileForFilter(CompilerFilter::Filter target,
const DexOptTrigger dexopt_trigger);
// Release the loaded oat file.
// Returns null if the oat file hasn't been loaded.
//
// After this call, no other methods of the OatFileInfo should be
// called, because access to the loaded oat file has been taken away from
// the OatFileInfo object.
std::unique_ptr<OatFile> ReleaseFile();
OatFileAssistant* oat_file_assistant_;
const bool is_oat_location_;
bool filename_provided_ = false;
std::string filename_;
int zip_fd_ = -1;
int oat_fd_ = -1;
int vdex_fd_ = -1;
bool use_fd_ = false;
bool load_attempted_ = false;
std::unique_ptr<OatFile> file_;
bool status_attempted_ = false;
OatStatus status_ = OatStatus::kOatCannotOpen;
// For debugging only.
// If this flag is set, the file has been released to the user and the
// OatFileInfo object is in a bad state and should no longer be used.
bool file_released_ = false;
};
// Return info for the best oat file.
OatFileInfo& GetBestInfo();
// Returns true when vdex/oat/odex files should be read from file descriptors.
// The method checks the value of zip_fd_, and if the value is valid, returns
// true. This is required to have a deterministic behavior around how different
// files are being read.
bool UseFdToReadFiles();
// Returns true if the dex checksums in the given oat file are up to date
// with respect to the dex location. If the dex checksums are not up to
// date, error_msg is updated with a message describing the problem.
bool DexChecksumUpToDate(const OatFile& file, std::string* error_msg);
// Return the status for a given opened oat file with respect to the dex
// location.
OatStatus GivenOatFileStatus(const OatFile& file);
// Gets the dex checksums required for an up-to-date oat file.
// Returns cached_required_dex_checksums if the required checksums were located. Returns an empty
// list if `dex_location_` refers to a zip and there is no dex file in it. Returns nullptr if an
// error occurred. The caller shouldn't clean up or free the returned pointer.
const std::vector<uint32_t>* GetRequiredDexChecksums(std::string* error_msg);
// Returns whether there is at least one boot image usable.
bool IsPrimaryBootImageUsable();
// Returns the trigger for the deprecated overload of `GetDexOptNeeded`.
//
// Deprecated. Do not use in new code.
DexOptTrigger GetDexOptTrigger(CompilerFilter::Filter target_compiler_filter,
bool profile_changed,
bool downgrade);
// Returns the pointer to the owned or unowned instance of OatFileAssistantContext.
OatFileAssistantContext* GetOatFileAssistantContext() {
if (std::holds_alternative<OatFileAssistantContext*>(ofa_context_)) {
return std::get<OatFileAssistantContext*>(ofa_context_);
} else {
return std::get<std::unique_ptr<OatFileAssistantContext>>(ofa_context_).get();
}
}
// The runtime options taken from the active runtime or the input.
//
// All member functions should get runtime options from this variable rather than referencing the
// active runtime. This is to allow OatFileAssistant to function without an active runtime.
const OatFileAssistantContext::RuntimeOptions& GetRuntimeOptions() {
return GetOatFileAssistantContext()->GetRuntimeOptions();
}
// Returns whether the zip file only contains uncompressed dex.
bool ZipFileOnlyContainsUncompressedDex();
std::string dex_location_;
// The class loader context to check against, or null representing that the check should be
// skipped.
ClassLoaderContext* context_;
// Whether or not the parent directory of the dex file is writable.
bool dex_parent_writable_ = false;
// In a properly constructed OatFileAssistant object, isa_ should be either
// the 32 or 64 bit variant for the current device.
const InstructionSet isa_ = InstructionSet::kNone;
// Whether we will attempt to load oat files executable.
bool load_executable_ = false;
// Whether only oat files from trusted locations are loaded executable.
const bool only_load_trusted_executable_ = false;
// Cached value of whether the potential zip file only contains uncompressed dex.
// This should be accessed only by the ZipFileOnlyContainsUncompressedDex() method.
bool zip_file_only_contains_uncompressed_dex_ = true;
// Cached value of the required dex checksums.
// This should be accessed only by the GetRequiredDexChecksums() method.
std::optional<std::vector<uint32_t>> cached_required_dex_checksums_;
std::string cached_required_dex_checksums_error_;
bool required_dex_checksums_attempted_ = false;
// The AOT-compiled file of an app when the APK of the app is in /data.
OatFileInfo odex_;
// The AOT-compiled file of an app when the APK of the app is on a read-only partition
// (for example /system).
OatFileInfo oat_;
// The vdex-only file next to `odex_` when `odex_' cannot be used (for example
// it is out of date).
OatFileInfo vdex_for_odex_;
// The vdex-only file next to 'oat_` when `oat_' cannot be used (for example
// it is out of date).
OatFileInfo vdex_for_oat_;
// The vdex-only file next to the apk.
OatFileInfo dm_for_odex_;
OatFileInfo dm_for_oat_;
// File descriptor corresponding to apk, dex file, or zip.
int zip_fd_;
// Owned or unowned instance of OatFileAssistantContext.
std::variant<std::unique_ptr<OatFileAssistantContext>, OatFileAssistantContext*> ofa_context_;
friend class OatFileAssistantTest;
DISALLOW_COPY_AND_ASSIGN(OatFileAssistant);
};
std::ostream& operator << (std::ostream& stream, const OatFileAssistant::OatStatus status);
} // namespace art
#endif // ART_RUNTIME_OAT_FILE_ASSISTANT_H_