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/*
* 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.
*/
#ifndef ART_RUNTIME_RUNTIME_H_
#define ART_RUNTIME_RUNTIME_H_
#include <jni.h>
#include <stdio.h>
#include <iosfwd>
#include <set>
#include <string>
#include <utility>
#include <vector>
#include "arch/instruction_set.h"
#include "base/macros.h"
#include "experimental_flags.h"
#include "gc_root.h"
#include "instrumentation.h"
#include "jobject_comparator.h"
#include "method_reference.h"
#include "object_callbacks.h"
#include "offsets.h"
#include "profiler_options.h"
#include "quick/quick_method_frame_info.h"
#include "runtime_stats.h"
#include "safe_map.h"
namespace art {
namespace gc {
class Heap;
namespace collector {
class GarbageCollector;
} // namespace collector
} // namespace gc
namespace jit {
class Jit;
class JitOptions;
} // namespace jit
namespace lambda {
class BoxTable;
} // namespace lambda
namespace mirror {
class ClassLoader;
class Array;
template<class T> class ObjectArray;
template<class T> class PrimitiveArray;
typedef PrimitiveArray<int8_t> ByteArray;
class String;
class Throwable;
} // namespace mirror
namespace verifier {
class MethodVerifier;
enum class VerifyMode : int8_t;
} // namespace verifier
class ArenaPool;
class ArtMethod;
class ClassLinker;
class Closure;
class CompilerCallbacks;
class DexFile;
class InternTable;
class JavaVMExt;
class LinearAlloc;
class MonitorList;
class MonitorPool;
class NullPointerHandler;
class OatFileManager;
class SignalCatcher;
class StackOverflowHandler;
class SuspensionHandler;
class ThreadList;
class Trace;
struct TraceConfig;
class Transaction;
typedef std::vector<std::pair<std::string, const void*>> RuntimeOptions;
typedef SafeMap<MethodReference, SafeMap<uint32_t, std::set<uint32_t>>,
MethodReferenceComparator> MethodRefToStringInitRegMap;
// Not all combinations of flags are valid. You may not visit all roots as well as the new roots
// (no logical reason to do this). You also may not start logging new roots and stop logging new
// roots (also no logical reason to do this).
enum VisitRootFlags : uint8_t {
kVisitRootFlagAllRoots = 0x1,
kVisitRootFlagNewRoots = 0x2,
kVisitRootFlagStartLoggingNewRoots = 0x4,
kVisitRootFlagStopLoggingNewRoots = 0x8,
kVisitRootFlagClearRootLog = 0x10,
// Non moving means we can have optimizations where we don't visit some roots if they are
// definitely reachable from another location. E.g. ArtMethod and ArtField roots.
kVisitRootFlagNonMoving = 0x20,
};
class Runtime {
public:
// Creates and initializes a new runtime.
static bool Create(const RuntimeOptions& options, bool ignore_unrecognized)
SHARED_TRYLOCK_FUNCTION(true, Locks::mutator_lock_);
// IsAotCompiler for compilers that don't have a running runtime. Only dex2oat currently.
bool IsAotCompiler() const {
return !UseJit() && IsCompiler();
}
// IsCompiler is any runtime which has a running compiler, either dex2oat or JIT.
bool IsCompiler() const {
return compiler_callbacks_ != nullptr;
}
// If a compiler, are we compiling a boot image?
bool IsCompilingBootImage() const;
bool CanRelocate() const;
bool ShouldRelocate() const {
return must_relocate_ && CanRelocate();
}
bool MustRelocateIfPossible() const {
return must_relocate_;
}
bool IsDex2OatEnabled() const {
return dex2oat_enabled_ && IsImageDex2OatEnabled();
}
bool IsImageDex2OatEnabled() const {
return image_dex2oat_enabled_;
}
CompilerCallbacks* GetCompilerCallbacks() {
return compiler_callbacks_;
}
bool IsZygote() const {
return is_zygote_;
}
bool IsExplicitGcDisabled() const {
return is_explicit_gc_disabled_;
}
std::string GetCompilerExecutable() const;
std::string GetPatchoatExecutable() const;
const std::vector<std::string>& GetCompilerOptions() const {
return compiler_options_;
}
void AddCompilerOption(std::string option) {
compiler_options_.push_back(option);
}
const std::vector<std::string>& GetImageCompilerOptions() const {
return image_compiler_options_;
}
const std::string& GetImageLocation() const {
return image_location_;
}
const ProfilerOptions& GetProfilerOptions() const {
return profiler_options_;
}
// Starts a runtime, which may cause threads to be started and code to run.
bool Start() UNLOCK_FUNCTION(Locks::mutator_lock_);
bool IsShuttingDown(Thread* self);
bool IsShuttingDownLocked() const REQUIRES(Locks::runtime_shutdown_lock_) {
return shutting_down_;
}
size_t NumberOfThreadsBeingBorn() const REQUIRES(Locks::runtime_shutdown_lock_) {
return threads_being_born_;
}
void StartThreadBirth() REQUIRES(Locks::runtime_shutdown_lock_) {
threads_being_born_++;
}
void EndThreadBirth() REQUIRES(Locks::runtime_shutdown_lock_);
bool IsStarted() const {
return started_;
}
bool IsFinishedStarting() const {
return finished_starting_;
}
static Runtime* Current() {
return instance_;
}
// Aborts semi-cleanly. Used in the implementation of LOG(FATAL), which most
// callers should prefer.
NO_RETURN static void Abort() REQUIRES(!Locks::abort_lock_);
// Returns the "main" ThreadGroup, used when attaching user threads.
jobject GetMainThreadGroup() const;
// Returns the "system" ThreadGroup, used when attaching our internal threads.
jobject GetSystemThreadGroup() const;
// Returns the system ClassLoader which represents the CLASSPATH.
jobject GetSystemClassLoader() const;
// Attaches the calling native thread to the runtime.
bool AttachCurrentThread(const char* thread_name, bool as_daemon, jobject thread_group,
bool create_peer);
void CallExitHook(jint status);
// Detaches the current native thread from the runtime.
void DetachCurrentThread() REQUIRES(!Locks::mutator_lock_);
void DumpForSigQuit(std::ostream& os);
void DumpLockHolders(std::ostream& os);
~Runtime();
const std::string& GetBootClassPathString() const {
return boot_class_path_string_;
}
const std::string& GetClassPathString() const {
return class_path_string_;
}
ClassLinker* GetClassLinker() const {
return class_linker_;
}
size_t GetDefaultStackSize() const {
return default_stack_size_;
}
gc::Heap* GetHeap() const {
return heap_;
}
InternTable* GetInternTable() const {
DCHECK(intern_table_ != nullptr);
return intern_table_;
}
JavaVMExt* GetJavaVM() const {
return java_vm_;
}
size_t GetMaxSpinsBeforeThinkLockInflation() const {
return max_spins_before_thin_lock_inflation_;
}
MonitorList* GetMonitorList() const {
return monitor_list_;
}
MonitorPool* GetMonitorPool() const {
return monitor_pool_;
}
// Is the given object the special object used to mark a cleared JNI weak global?
bool IsClearedJniWeakGlobal(mirror::Object* obj) SHARED_REQUIRES(Locks::mutator_lock_);
// Get the special object used to mark a cleared JNI weak global.
mirror::Object* GetClearedJniWeakGlobal() SHARED_REQUIRES(Locks::mutator_lock_);
mirror::Throwable* GetPreAllocatedOutOfMemoryError() SHARED_REQUIRES(Locks::mutator_lock_);
mirror::Throwable* GetPreAllocatedNoClassDefFoundError()
SHARED_REQUIRES(Locks::mutator_lock_);
const std::vector<std::string>& GetProperties() const {
return properties_;
}
ThreadList* GetThreadList() const {
return thread_list_;
}
static const char* GetVersion() {
return "2.1.0";
}
void DisallowNewSystemWeaks() SHARED_REQUIRES(Locks::mutator_lock_);
void AllowNewSystemWeaks() SHARED_REQUIRES(Locks::mutator_lock_);
void BroadcastForNewSystemWeaks() SHARED_REQUIRES(Locks::mutator_lock_);
// Visit all the roots. If only_dirty is true then non-dirty roots won't be visited. If
// clean_dirty is true then dirty roots will be marked as non-dirty after visiting.
void VisitRoots(RootVisitor* visitor, VisitRootFlags flags = kVisitRootFlagAllRoots)
SHARED_REQUIRES(Locks::mutator_lock_);
// Visit image roots, only used for hprof since the GC uses the image space mod union table
// instead.
void VisitImageRoots(RootVisitor* visitor) SHARED_REQUIRES(Locks::mutator_lock_);
// Visit all of the roots we can do safely do concurrently.
void VisitConcurrentRoots(RootVisitor* visitor,
VisitRootFlags flags = kVisitRootFlagAllRoots)
SHARED_REQUIRES(Locks::mutator_lock_);
// Visit all of the non thread roots, we can do this with mutators unpaused.
void VisitNonThreadRoots(RootVisitor* visitor)
SHARED_REQUIRES(Locks::mutator_lock_);
void VisitTransactionRoots(RootVisitor* visitor)
SHARED_REQUIRES(Locks::mutator_lock_);
// Visit all of the thread roots.
void VisitThreadRoots(RootVisitor* visitor) SHARED_REQUIRES(Locks::mutator_lock_);
// Flip thread roots from from-space refs to to-space refs.
size_t FlipThreadRoots(Closure* thread_flip_visitor, Closure* flip_callback,
gc::collector::GarbageCollector* collector)
REQUIRES(!Locks::mutator_lock_);
// Visit all other roots which must be done with mutators suspended.
void VisitNonConcurrentRoots(RootVisitor* visitor)
SHARED_REQUIRES(Locks::mutator_lock_);
// Sweep system weaks, the system weak is deleted if the visitor return null. Otherwise, the
// system weak is updated to be the visitor's returned value.
void SweepSystemWeaks(IsMarkedVisitor* visitor)
SHARED_REQUIRES(Locks::mutator_lock_);
// Constant roots are the roots which never change after the runtime is initialized, they only
// need to be visited once per GC cycle.
void VisitConstantRoots(RootVisitor* visitor)
SHARED_REQUIRES(Locks::mutator_lock_);
// Returns a special method that calls into a trampoline for runtime method resolution
ArtMethod* GetResolutionMethod() SHARED_REQUIRES(Locks::mutator_lock_);
bool HasResolutionMethod() const {
return resolution_method_ != nullptr;
}
void SetResolutionMethod(ArtMethod* method) SHARED_REQUIRES(Locks::mutator_lock_);
ArtMethod* CreateResolutionMethod() SHARED_REQUIRES(Locks::mutator_lock_);
// Returns a special method that calls into a trampoline for runtime imt conflicts.
ArtMethod* GetImtConflictMethod() SHARED_REQUIRES(Locks::mutator_lock_);
ArtMethod* GetImtUnimplementedMethod() SHARED_REQUIRES(Locks::mutator_lock_);
bool HasImtConflictMethod() const {
return imt_conflict_method_ != nullptr;
}
void SetImtConflictMethod(ArtMethod* method) SHARED_REQUIRES(Locks::mutator_lock_);
void SetImtUnimplementedMethod(ArtMethod* method) SHARED_REQUIRES(Locks::mutator_lock_);
ArtMethod* CreateImtConflictMethod() SHARED_REQUIRES(Locks::mutator_lock_);
// Returns a special method that describes all callee saves being spilled to the stack.
enum CalleeSaveType {
kSaveAll,
kRefsOnly,
kRefsAndArgs,
kLastCalleeSaveType // Value used for iteration
};
bool HasCalleeSaveMethod(CalleeSaveType type) const {
return callee_save_methods_[type] != 0u;
}
ArtMethod* GetCalleeSaveMethod(CalleeSaveType type)
SHARED_REQUIRES(Locks::mutator_lock_);
ArtMethod* GetCalleeSaveMethodUnchecked(CalleeSaveType type)
SHARED_REQUIRES(Locks::mutator_lock_);
QuickMethodFrameInfo GetCalleeSaveMethodFrameInfo(CalleeSaveType type) const {
return callee_save_method_frame_infos_[type];
}
QuickMethodFrameInfo GetRuntimeMethodFrameInfo(ArtMethod* method)
SHARED_REQUIRES(Locks::mutator_lock_);
static size_t GetCalleeSaveMethodOffset(CalleeSaveType type) {
return OFFSETOF_MEMBER(Runtime, callee_save_methods_[type]);
}
InstructionSet GetInstructionSet() const {
return instruction_set_;
}
void SetInstructionSet(InstructionSet instruction_set);
void SetCalleeSaveMethod(ArtMethod* method, CalleeSaveType type);
ArtMethod* CreateCalleeSaveMethod() SHARED_REQUIRES(Locks::mutator_lock_);
int32_t GetStat(int kind);
RuntimeStats* GetStats() {
return &stats_;
}
bool HasStatsEnabled() const {
return stats_enabled_;
}
void ResetStats(int kinds);
void SetStatsEnabled(bool new_state)
REQUIRES(!Locks::instrument_entrypoints_lock_, !Locks::mutator_lock_);
enum class NativeBridgeAction { // private
kUnload,
kInitialize
};
jit::Jit* GetJit() {
return jit_.get();
}
bool UseJit() const {
return jit_.get() != nullptr;
}
void PreZygoteFork();
bool InitZygote();
void DidForkFromZygote(JNIEnv* env, NativeBridgeAction action, const char* isa);
const instrumentation::Instrumentation* GetInstrumentation() const {
return &instrumentation_;
}
instrumentation::Instrumentation* GetInstrumentation() {
return &instrumentation_;
}
void StartProfiler(const char* profile_output_filename);
void UpdateProfilerState(int state);
// Transaction support.
bool IsActiveTransaction() const {
return preinitialization_transaction_ != nullptr;
}
void EnterTransactionMode(Transaction* transaction);
void ExitTransactionMode();
bool IsTransactionAborted() const;
void AbortTransactionAndThrowAbortError(Thread* self, const std::string& abort_message)
SHARED_REQUIRES(Locks::mutator_lock_);
void ThrowTransactionAbortError(Thread* self)
SHARED_REQUIRES(Locks::mutator_lock_);
void RecordWriteFieldBoolean(mirror::Object* obj, MemberOffset field_offset, uint8_t value,
bool is_volatile) const;
void RecordWriteFieldByte(mirror::Object* obj, MemberOffset field_offset, int8_t value,
bool is_volatile) const;
void RecordWriteFieldChar(mirror::Object* obj, MemberOffset field_offset, uint16_t value,
bool is_volatile) const;
void RecordWriteFieldShort(mirror::Object* obj, MemberOffset field_offset, int16_t value,
bool is_volatile) const;
void RecordWriteField32(mirror::Object* obj, MemberOffset field_offset, uint32_t value,
bool is_volatile) const;
void RecordWriteField64(mirror::Object* obj, MemberOffset field_offset, uint64_t value,
bool is_volatile) const;
void RecordWriteFieldReference(mirror::Object* obj, MemberOffset field_offset,
mirror::Object* value, bool is_volatile) const;
void RecordWriteArray(mirror::Array* array, size_t index, uint64_t value) const
SHARED_REQUIRES(Locks::mutator_lock_);
void RecordStrongStringInsertion(mirror::String* s) const
REQUIRES(Locks::intern_table_lock_);
void RecordWeakStringInsertion(mirror::String* s) const
REQUIRES(Locks::intern_table_lock_);
void RecordStrongStringRemoval(mirror::String* s) const
REQUIRES(Locks::intern_table_lock_);
void RecordWeakStringRemoval(mirror::String* s) const
REQUIRES(Locks::intern_table_lock_);
void SetFaultMessage(const std::string& message) REQUIRES(!fault_message_lock_);
// Only read by the signal handler, NO_THREAD_SAFETY_ANALYSIS to prevent lock order violations
// with the unexpected_signal_lock_.
const std::string& GetFaultMessage() NO_THREAD_SAFETY_ANALYSIS {
return fault_message_;
}
void AddCurrentRuntimeFeaturesAsDex2OatArguments(std::vector<std::string>* arg_vector) const;
bool ExplicitStackOverflowChecks() const {
return !implicit_so_checks_;
}
bool IsVerificationEnabled() const;
bool IsVerificationSoftFail() const;
bool IsDexFileFallbackEnabled() const {
return allow_dex_file_fallback_;
}
const std::vector<std::string>& GetCpuAbilist() const {
return cpu_abilist_;
}
bool IsRunningOnMemoryTool() const {
return is_running_on_memory_tool_;
}
void SetTargetSdkVersion(int32_t version) {
target_sdk_version_ = version;
}
int32_t GetTargetSdkVersion() const {
return target_sdk_version_;
}
uint32_t GetZygoteMaxFailedBoots() const {
return zygote_max_failed_boots_;
}
bool AreExperimentalFlagsEnabled(ExperimentalFlags flags) {
return (experimental_flags_ & flags) != ExperimentalFlags::kNone;
}
lambda::BoxTable* GetLambdaBoxTable() const {
return lambda_box_table_.get();
}
// Create the JIT and instrumentation and code cache.
void CreateJit();
ArenaPool* GetArenaPool() {
return arena_pool_.get();
}
const ArenaPool* GetArenaPool() const {
return arena_pool_.get();
}
LinearAlloc* GetLinearAlloc() {
return linear_alloc_.get();
}
jit::JitOptions* GetJITOptions() {
return jit_options_.get();
}
MethodRefToStringInitRegMap& GetStringInitMap() {
return method_ref_string_init_reg_map_;
}
bool IsDebuggable() const;
// Returns the build fingerprint, if set. Otherwise an empty string is returned.
std::string GetFingerprint() {
return fingerprint_;
}
// Called from class linker.
void SetSentinel(mirror::Object* sentinel) SHARED_REQUIRES(Locks::mutator_lock_);
// Create a normal LinearAlloc or low 4gb version if we are 64 bit AOT compiler.
LinearAlloc* CreateLinearAlloc();
OatFileManager& GetOatFileManager() const {
DCHECK(oat_file_manager_ != nullptr);
return *oat_file_manager_;
}
double GetHashTableMinLoadFactor() const;
double GetHashTableMaxLoadFactor() const;
private:
static void InitPlatformSignalHandlers();
Runtime();
void BlockSignals();
bool Init(const RuntimeOptions& options, bool ignore_unrecognized)
SHARED_TRYLOCK_FUNCTION(true, Locks::mutator_lock_);
void InitNativeMethods() REQUIRES(!Locks::mutator_lock_);
void InitThreadGroups(Thread* self);
void RegisterRuntimeNativeMethods(JNIEnv* env);
void StartDaemonThreads();
void StartSignalCatcher();
// A pointer to the active runtime or null.
static Runtime* instance_;
// NOTE: these must match the gc::ProcessState values as they come directly from the framework.
static constexpr int kProfileForground = 0;
static constexpr int kProfileBackgrouud = 1;
// 64 bit so that we can share the same asm offsets for both 32 and 64 bits.
uint64_t callee_save_methods_[kLastCalleeSaveType];
GcRoot<mirror::Throwable> pre_allocated_OutOfMemoryError_;
GcRoot<mirror::Throwable> pre_allocated_NoClassDefFoundError_;
ArtMethod* resolution_method_;
ArtMethod* imt_conflict_method_;
// Unresolved method has the same behavior as the conflict method, it is used by the class linker
// for differentiating between unfilled imt slots vs conflict slots in superclasses.
ArtMethod* imt_unimplemented_method_;
// Special sentinel object used to invalid conditions in JNI (cleared weak references) and
// JDWP (invalid references).
GcRoot<mirror::Object> sentinel_;
InstructionSet instruction_set_;
QuickMethodFrameInfo callee_save_method_frame_infos_[kLastCalleeSaveType];
CompilerCallbacks* compiler_callbacks_;
bool is_zygote_;
bool must_relocate_;
bool is_concurrent_gc_enabled_;
bool is_explicit_gc_disabled_;
bool dex2oat_enabled_;
bool image_dex2oat_enabled_;
std::string compiler_executable_;
std::string patchoat_executable_;
std::vector<std::string> compiler_options_;
std::vector<std::string> image_compiler_options_;
std::string image_location_;
std::string boot_class_path_string_;
std::string class_path_string_;
std::vector<std::string> properties_;
// The default stack size for managed threads created by the runtime.
size_t default_stack_size_;
gc::Heap* heap_;
std::unique_ptr<ArenaPool> arena_pool_;
// Special low 4gb pool for compiler linear alloc. We need ArtFields to be in low 4gb if we are
// compiling using a 32 bit image on a 64 bit compiler in case we resolve things in the image
// since the field arrays are int arrays in this case.
std::unique_ptr<ArenaPool> low_4gb_arena_pool_;
// Shared linear alloc for now.
std::unique_ptr<LinearAlloc> linear_alloc_;
// The number of spins that are done before thread suspension is used to forcibly inflate.
size_t max_spins_before_thin_lock_inflation_;
MonitorList* monitor_list_;
MonitorPool* monitor_pool_;
ThreadList* thread_list_;
InternTable* intern_table_;
ClassLinker* class_linker_;
SignalCatcher* signal_catcher_;
std::string stack_trace_file_;
JavaVMExt* java_vm_;
std::unique_ptr<jit::Jit> jit_;
std::unique_ptr<jit::JitOptions> jit_options_;
std::unique_ptr<lambda::BoxTable> lambda_box_table_;
// Fault message, printed when we get a SIGSEGV.
Mutex fault_message_lock_ DEFAULT_MUTEX_ACQUIRED_AFTER;
std::string fault_message_ GUARDED_BY(fault_message_lock_);
// A non-zero value indicates that a thread has been created but not yet initialized. Guarded by
// the shutdown lock so that threads aren't born while we're shutting down.
size_t threads_being_born_ GUARDED_BY(Locks::runtime_shutdown_lock_);
// Waited upon until no threads are being born.
std::unique_ptr<ConditionVariable> shutdown_cond_ GUARDED_BY(Locks::runtime_shutdown_lock_);
// Set when runtime shutdown is past the point that new threads may attach.
bool shutting_down_ GUARDED_BY(Locks::runtime_shutdown_lock_);
// The runtime is starting to shutdown but is blocked waiting on shutdown_cond_.
bool shutting_down_started_ GUARDED_BY(Locks::runtime_shutdown_lock_);
bool started_;
// New flag added which tells us if the runtime has finished starting. If
// this flag is set then the Daemon threads are created and the class loader
// is created. This flag is needed for knowing if its safe to request CMS.
bool finished_starting_;
// Hooks supported by JNI_CreateJavaVM
jint (*vfprintf_)(FILE* stream, const char* format, va_list ap);
void (*exit_)(jint status);
void (*abort_)();
bool stats_enabled_;
RuntimeStats stats_;
const bool is_running_on_memory_tool_;
std::string profile_output_filename_;
ProfilerOptions profiler_options_;
bool profiler_started_;
std::unique_ptr<TraceConfig> trace_config_;
instrumentation::Instrumentation instrumentation_;
jobject main_thread_group_;
jobject system_thread_group_;
// As returned by ClassLoader.getSystemClassLoader().
jobject system_class_loader_;
// If true, then we dump the GC cumulative timings on shutdown.
bool dump_gc_performance_on_shutdown_;
// Transaction used for pre-initializing classes at compilation time.
Transaction* preinitialization_transaction_;
// If kNone, verification is disabled. kEnable by default.
verifier::VerifyMode verify_;
// If true, the runtime may use dex files directly with the interpreter if an oat file is not
// available/usable.
bool allow_dex_file_fallback_;
// List of supported cpu abis.
std::vector<std::string> cpu_abilist_;
// Specifies target SDK version to allow workarounds for certain API levels.
int32_t target_sdk_version_;
// Implicit checks flags.
bool implicit_null_checks_; // NullPointer checks are implicit.
bool implicit_so_checks_; // StackOverflow checks are implicit.
bool implicit_suspend_checks_; // Thread suspension checks are implicit.
// Whether or not the sig chain (and implicitly the fault handler) should be
// disabled. Tools like dex2oat or patchoat don't need them. This enables
// building a statically link version of dex2oat.
bool no_sig_chain_;
// Whether or not a native bridge has been loaded.
//
// The native bridge allows running native code compiled for a foreign ISA. The way it works is,
// if standard dlopen fails to load native library associated with native activity, it calls to
// the native bridge to load it and then gets the trampoline for the entry to native activity.
//
// The option 'native_bridge_library_filename' specifies the name of the native bridge.
// When non-empty the native bridge will be loaded from the given file. An empty value means
// that there's no native bridge.
bool is_native_bridge_loaded_;
// The maximum number of failed boots we allow before pruning the dalvik cache
// and trying again. This option is only inspected when we're running as a
// zygote.
uint32_t zygote_max_failed_boots_;
// Enable experimental opcodes that aren't fully specified yet. The intent is to
// eventually publish them as public-usable opcodes, but they aren't ready yet.
//
// Experimental opcodes should not be used by other production code.
ExperimentalFlags experimental_flags_;
MethodRefToStringInitRegMap method_ref_string_init_reg_map_;
// Contains the build fingerprint, if given as a parameter.
std::string fingerprint_;
// Oat file manager, keeps track of what oat files are open.
OatFileManager* oat_file_manager_;
// Whether or not we are on a low RAM device.
bool is_low_memory_mode_;
DISALLOW_COPY_AND_ASSIGN(Runtime);
};
std::ostream& operator<<(std::ostream& os, const Runtime::CalleeSaveType& rhs);
} // namespace art
#endif // ART_RUNTIME_RUNTIME_H_