runtime.cc revision b6404fe0bb782cbbccda88903901fe0096a741d5
1/* 2 * Copyright (C) 2011 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17#include "runtime.h" 18 19// sys/mount.h has to come before linux/fs.h due to redefinition of MS_RDONLY, MS_BIND, etc 20#include <sys/mount.h> 21#ifdef __linux__ 22#include <linux/fs.h> 23#endif 24 25#include <signal.h> 26#include <sys/syscall.h> 27#include <valgrind.h> 28 29#include <cstdio> 30#include <cstdlib> 31#include <limits> 32#include <memory> 33#include <vector> 34#include <fcntl.h> 35 36#include "arch/arm/quick_method_frame_info_arm.h" 37#include "arch/arm/registers_arm.h" 38#include "arch/arm64/quick_method_frame_info_arm64.h" 39#include "arch/arm64/registers_arm64.h" 40#include "arch/mips/quick_method_frame_info_mips.h" 41#include "arch/mips/registers_mips.h" 42#include "arch/x86/quick_method_frame_info_x86.h" 43#include "arch/x86/registers_x86.h" 44#include "arch/x86_64/quick_method_frame_info_x86_64.h" 45#include "arch/x86_64/registers_x86_64.h" 46#include "atomic.h" 47#include "class_linker.h" 48#include "debugger.h" 49#include "elf_file.h" 50#include "fault_handler.h" 51#include "gc/accounting/card_table-inl.h" 52#include "gc/heap.h" 53#include "gc/space/image_space.h" 54#include "gc/space/space.h" 55#include "image.h" 56#include "instrumentation.h" 57#include "intern_table.h" 58#include "jni_internal.h" 59#include "mirror/art_field-inl.h" 60#include "mirror/art_method-inl.h" 61#include "mirror/array.h" 62#include "mirror/class-inl.h" 63#include "mirror/class_loader.h" 64#include "mirror/stack_trace_element.h" 65#include "mirror/throwable.h" 66#include "monitor.h" 67#include "native_bridge_art_interface.h" 68#include "parsed_options.h" 69#include "oat_file.h" 70#include "os.h" 71#include "quick/quick_method_frame_info.h" 72#include "reflection.h" 73#include "ScopedLocalRef.h" 74#include "scoped_thread_state_change.h" 75#include "signal_catcher.h" 76#include "signal_set.h" 77#include "handle_scope-inl.h" 78#include "thread.h" 79#include "thread_list.h" 80#include "trace.h" 81#include "transaction.h" 82#include "profiler.h" 83#include "verifier/method_verifier.h" 84#include "well_known_classes.h" 85 86#include "JniConstants.h" // Last to avoid LOG redefinition in ics-mr1-plus-art. 87 88#ifdef HAVE_ANDROID_OS 89#include "cutils/properties.h" 90#endif 91 92namespace art { 93 94static constexpr bool kEnableJavaStackTraceHandler = false; 95const char* Runtime::kDefaultInstructionSetFeatures = 96 STRINGIFY(ART_DEFAULT_INSTRUCTION_SET_FEATURES); 97Runtime* Runtime::instance_ = NULL; 98 99Runtime::Runtime() 100 : instruction_set_(kNone), 101 compiler_callbacks_(nullptr), 102 is_zygote_(false), 103 must_relocate_(false), 104 is_concurrent_gc_enabled_(true), 105 is_explicit_gc_disabled_(false), 106 dex2oat_enabled_(true), 107 image_dex2oat_enabled_(true), 108 default_stack_size_(0), 109 heap_(nullptr), 110 max_spins_before_thin_lock_inflation_(Monitor::kDefaultMaxSpinsBeforeThinLockInflation), 111 monitor_list_(nullptr), 112 monitor_pool_(nullptr), 113 thread_list_(nullptr), 114 intern_table_(nullptr), 115 class_linker_(nullptr), 116 signal_catcher_(nullptr), 117 java_vm_(nullptr), 118 fault_message_lock_("Fault message lock"), 119 fault_message_(""), 120 method_verifier_lock_("Method verifiers lock"), 121 threads_being_born_(0), 122 shutdown_cond_(new ConditionVariable("Runtime shutdown", *Locks::runtime_shutdown_lock_)), 123 shutting_down_(false), 124 shutting_down_started_(false), 125 started_(false), 126 finished_starting_(false), 127 vfprintf_(nullptr), 128 exit_(nullptr), 129 abort_(nullptr), 130 stats_enabled_(false), 131 running_on_valgrind_(RUNNING_ON_VALGRIND > 0), 132 profiler_started_(false), 133 method_trace_(false), 134 method_trace_file_size_(0), 135 instrumentation_(), 136 use_compile_time_class_path_(false), 137 main_thread_group_(nullptr), 138 system_thread_group_(nullptr), 139 system_class_loader_(nullptr), 140 dump_gc_performance_on_shutdown_(false), 141 preinitialization_transaction_(nullptr), 142 null_pointer_handler_(nullptr), 143 suspend_handler_(nullptr), 144 stack_overflow_handler_(nullptr), 145 verify_(false), 146 target_sdk_version_(0), 147 implicit_null_checks_(false), 148 implicit_so_checks_(false), 149 implicit_suspend_checks_(false) { 150} 151 152Runtime::~Runtime() { 153 if (dump_gc_performance_on_shutdown_) { 154 // This can't be called from the Heap destructor below because it 155 // could call RosAlloc::InspectAll() which needs the thread_list 156 // to be still alive. 157 heap_->DumpGcPerformanceInfo(LOG(INFO)); 158 } 159 160 Thread* self = Thread::Current(); 161 { 162 MutexLock mu(self, *Locks::runtime_shutdown_lock_); 163 shutting_down_started_ = true; 164 while (threads_being_born_ > 0) { 165 shutdown_cond_->Wait(self); 166 } 167 shutting_down_ = true; 168 } 169 // Shut down background profiler before the runtime exits. 170 if (profiler_started_) { 171 BackgroundMethodSamplingProfiler::Shutdown(); 172 } 173 174 // Shutdown the fault manager if it was initialized. 175 fault_manager.Shutdown(); 176 177 Trace::Shutdown(); 178 179 // Make sure to let the GC complete if it is running. 180 heap_->WaitForGcToComplete(gc::kGcCauseBackground, self); 181 heap_->DeleteThreadPool(); 182 183 // Make sure our internal threads are dead before we start tearing down things they're using. 184 Dbg::StopJdwp(); 185 delete signal_catcher_; 186 187 // Make sure all other non-daemon threads have terminated, and all daemon threads are suspended. 188 delete thread_list_; 189 delete monitor_list_; 190 delete monitor_pool_; 191 delete class_linker_; 192 delete heap_; 193 delete intern_table_; 194 delete java_vm_; 195 Thread::Shutdown(); 196 QuasiAtomic::Shutdown(); 197 verifier::MethodVerifier::Shutdown(); 198 // TODO: acquire a static mutex on Runtime to avoid racing. 199 CHECK(instance_ == nullptr || instance_ == this); 200 instance_ = nullptr; 201 202 delete null_pointer_handler_; 203 delete suspend_handler_; 204 delete stack_overflow_handler_; 205} 206 207struct AbortState { 208 void Dump(std::ostream& os) NO_THREAD_SAFETY_ANALYSIS { 209 if (gAborting > 1) { 210 os << "Runtime aborting --- recursively, so no thread-specific detail!\n"; 211 return; 212 } 213 gAborting++; 214 os << "Runtime aborting...\n"; 215 if (Runtime::Current() == NULL) { 216 os << "(Runtime does not yet exist!)\n"; 217 return; 218 } 219 Thread* self = Thread::Current(); 220 if (self == nullptr) { 221 os << "(Aborting thread was not attached to runtime!)\n"; 222 DumpKernelStack(os, GetTid(), " kernel: ", false); 223 DumpNativeStack(os, GetTid(), " native: ", nullptr); 224 } else { 225 os << "Aborting thread:\n"; 226 if (Locks::mutator_lock_->IsExclusiveHeld(self) || Locks::mutator_lock_->IsSharedHeld(self)) { 227 DumpThread(os, self); 228 } else { 229 if (Locks::mutator_lock_->SharedTryLock(self)) { 230 DumpThread(os, self); 231 Locks::mutator_lock_->SharedUnlock(self); 232 } 233 } 234 } 235 DumpAllThreads(os, self); 236 } 237 238 void DumpThread(std::ostream& os, Thread* self) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) { 239 self->Dump(os); 240 if (self->IsExceptionPending()) { 241 ThrowLocation throw_location; 242 mirror::Throwable* exception = self->GetException(&throw_location); 243 os << "Pending exception " << PrettyTypeOf(exception) 244 << " thrown by '" << throw_location.Dump() << "'\n" 245 << exception->Dump(); 246 } 247 } 248 249 void DumpAllThreads(std::ostream& os, Thread* self) NO_THREAD_SAFETY_ANALYSIS { 250 Runtime* runtime = Runtime::Current(); 251 if (runtime != nullptr) { 252 ThreadList* thread_list = runtime->GetThreadList(); 253 if (thread_list != nullptr) { 254 bool tll_already_held = Locks::thread_list_lock_->IsExclusiveHeld(self); 255 bool ml_already_held = Locks::mutator_lock_->IsSharedHeld(self); 256 if (!tll_already_held || !ml_already_held) { 257 os << "Dumping all threads without appropriate locks held:" 258 << (!tll_already_held ? " thread list lock" : "") 259 << (!ml_already_held ? " mutator lock" : "") 260 << "\n"; 261 } 262 os << "All threads:\n"; 263 thread_list->DumpLocked(os); 264 } 265 } 266 } 267}; 268 269void Runtime::Abort() { 270 gAborting++; // set before taking any locks 271 272 // Ensure that we don't have multiple threads trying to abort at once, 273 // which would result in significantly worse diagnostics. 274 MutexLock mu(Thread::Current(), *Locks::abort_lock_); 275 276 // Get any pending output out of the way. 277 fflush(NULL); 278 279 // Many people have difficulty distinguish aborts from crashes, 280 // so be explicit. 281 AbortState state; 282 LOG(INTERNAL_FATAL) << Dumpable<AbortState>(state); 283 284 // Call the abort hook if we have one. 285 if (Runtime::Current() != NULL && Runtime::Current()->abort_ != NULL) { 286 LOG(INTERNAL_FATAL) << "Calling abort hook..."; 287 Runtime::Current()->abort_(); 288 // notreached 289 LOG(INTERNAL_FATAL) << "Unexpectedly returned from abort hook!"; 290 } 291 292#if defined(__GLIBC__) 293 // TODO: we ought to be able to use pthread_kill(3) here (or abort(3), 294 // which POSIX defines in terms of raise(3), which POSIX defines in terms 295 // of pthread_kill(3)). On Linux, though, libcorkscrew can't unwind through 296 // libpthread, which means the stacks we dump would be useless. Calling 297 // tgkill(2) directly avoids that. 298 syscall(__NR_tgkill, getpid(), GetTid(), SIGABRT); 299 // TODO: LLVM installs it's own SIGABRT handler so exit to be safe... Can we disable that in LLVM? 300 // If not, we could use sigaction(3) before calling tgkill(2) and lose this call to exit(3). 301 exit(1); 302#else 303 abort(); 304#endif 305 // notreached 306} 307 308void Runtime::PreZygoteFork() { 309 heap_->PreZygoteFork(); 310} 311 312void Runtime::CallExitHook(jint status) { 313 if (exit_ != NULL) { 314 ScopedThreadStateChange tsc(Thread::Current(), kNative); 315 exit_(status); 316 LOG(WARNING) << "Exit hook returned instead of exiting!"; 317 } 318} 319 320void Runtime::SweepSystemWeaks(IsMarkedCallback* visitor, void* arg) { 321 GetInternTable()->SweepInternTableWeaks(visitor, arg); 322 GetMonitorList()->SweepMonitorList(visitor, arg); 323 GetJavaVM()->SweepJniWeakGlobals(visitor, arg); 324} 325 326bool Runtime::Create(const RuntimeOptions& options, bool ignore_unrecognized) { 327 // TODO: acquire a static mutex on Runtime to avoid racing. 328 if (Runtime::instance_ != NULL) { 329 return false; 330 } 331 InitLogging(NULL); // Calls Locks::Init() as a side effect. 332 instance_ = new Runtime; 333 if (!instance_->Init(options, ignore_unrecognized)) { 334 delete instance_; 335 instance_ = NULL; 336 return false; 337 } 338 return true; 339} 340 341jobject CreateSystemClassLoader() { 342 if (Runtime::Current()->UseCompileTimeClassPath()) { 343 return NULL; 344 } 345 346 ScopedObjectAccess soa(Thread::Current()); 347 ClassLinker* cl = Runtime::Current()->GetClassLinker(); 348 349 StackHandleScope<3> hs(soa.Self()); 350 Handle<mirror::Class> class_loader_class( 351 hs.NewHandle(soa.Decode<mirror::Class*>(WellKnownClasses::java_lang_ClassLoader))); 352 CHECK(cl->EnsureInitialized(class_loader_class, true, true)); 353 354 mirror::ArtMethod* getSystemClassLoader = 355 class_loader_class->FindDirectMethod("getSystemClassLoader", "()Ljava/lang/ClassLoader;"); 356 CHECK(getSystemClassLoader != NULL); 357 358 JValue result = InvokeWithJValues(soa, nullptr, soa.EncodeMethod(getSystemClassLoader), nullptr); 359 Handle<mirror::ClassLoader> class_loader( 360 hs.NewHandle(down_cast<mirror::ClassLoader*>(result.GetL()))); 361 CHECK(class_loader.Get() != nullptr); 362 JNIEnv* env = soa.Self()->GetJniEnv(); 363 ScopedLocalRef<jobject> system_class_loader(env, 364 soa.AddLocalReference<jobject>(class_loader.Get())); 365 CHECK(system_class_loader.get() != nullptr); 366 367 soa.Self()->SetClassLoaderOverride(class_loader.Get()); 368 369 Handle<mirror::Class> thread_class( 370 hs.NewHandle(soa.Decode<mirror::Class*>(WellKnownClasses::java_lang_Thread))); 371 CHECK(cl->EnsureInitialized(thread_class, true, true)); 372 373 mirror::ArtField* contextClassLoader = 374 thread_class->FindDeclaredInstanceField("contextClassLoader", "Ljava/lang/ClassLoader;"); 375 CHECK(contextClassLoader != NULL); 376 377 // We can't run in a transaction yet. 378 contextClassLoader->SetObject<false>(soa.Self()->GetPeer(), class_loader.Get()); 379 380 return env->NewGlobalRef(system_class_loader.get()); 381} 382 383std::string Runtime::GetPatchoatExecutable() const { 384 if (!patchoat_executable_.empty()) { 385 return patchoat_executable_; 386 } 387 std::string patchoat_executable_(GetAndroidRoot()); 388 patchoat_executable_ += (kIsDebugBuild ? "/bin/patchoatd" : "/bin/patchoat"); 389 return patchoat_executable_; 390} 391 392std::string Runtime::GetCompilerExecutable() const { 393 if (!compiler_executable_.empty()) { 394 return compiler_executable_; 395 } 396 std::string compiler_executable(GetAndroidRoot()); 397 compiler_executable += (kIsDebugBuild ? "/bin/dex2oatd" : "/bin/dex2oat"); 398 return compiler_executable; 399} 400 401bool Runtime::Start() { 402 VLOG(startup) << "Runtime::Start entering"; 403 404 // Restore main thread state to kNative as expected by native code. 405 Thread* self = Thread::Current(); 406 407 self->TransitionFromRunnableToSuspended(kNative); 408 409 started_ = true; 410 411 if (!IsImageDex2OatEnabled() || !Runtime::Current()->GetHeap()->HasImageSpace()) { 412 ScopedObjectAccess soa(Thread::Current()); 413 StackHandleScope<1> hs(soa.Self()); 414 auto klass(hs.NewHandle<mirror::Class>(mirror::Class::GetJavaLangClass())); 415 class_linker_->EnsureInitialized(klass, true, true); 416 } 417 418 // InitNativeMethods needs to be after started_ so that the classes 419 // it touches will have methods linked to the oat file if necessary. 420 InitNativeMethods(); 421 422 // Initialize well known thread group values that may be accessed threads while attaching. 423 InitThreadGroups(self); 424 425 Thread::FinishStartup(); 426 427 system_class_loader_ = CreateSystemClassLoader(); 428 429 if (is_zygote_) { 430 if (!InitZygote()) { 431 return false; 432 } 433 } else { 434 bool have_native_bridge = !native_bridge_library_filename_.empty(); 435 if (have_native_bridge) { 436 PreInitializeNativeBridge("."); 437 } 438 DidForkFromZygote(self->GetJniEnv(), have_native_bridge ? NativeBridgeAction::kInitialize : 439 NativeBridgeAction::kUnload, GetInstructionSetString(kRuntimeISA)); 440 } 441 442 StartDaemonThreads(); 443 444 { 445 ScopedObjectAccess soa(self); 446 self->GetJniEnv()->locals.AssertEmpty(); 447 } 448 449 VLOG(startup) << "Runtime::Start exiting"; 450 finished_starting_ = true; 451 452 if (profiler_options_.IsEnabled() && !profile_output_filename_.empty()) { 453 // User has asked for a profile using -Xenable-profiler. 454 // Create the profile file if it doesn't exist. 455 int fd = open(profile_output_filename_.c_str(), O_RDWR|O_CREAT|O_EXCL, 0660); 456 if (fd >= 0) { 457 close(fd); 458 } else if (errno != EEXIST) { 459 LOG(INFO) << "Failed to access the profile file. Profiler disabled."; 460 return true; 461 } 462 StartProfiler(profile_output_filename_.c_str()); 463 } 464 465 return true; 466} 467 468void Runtime::EndThreadBirth() EXCLUSIVE_LOCKS_REQUIRED(Locks::runtime_shutdown_lock_) { 469 DCHECK_GT(threads_being_born_, 0U); 470 threads_being_born_--; 471 if (shutting_down_started_ && threads_being_born_ == 0) { 472 shutdown_cond_->Broadcast(Thread::Current()); 473 } 474} 475 476// Do zygote-mode-only initialization. 477bool Runtime::InitZygote() { 478#ifdef __linux__ 479 // zygote goes into its own process group 480 setpgid(0, 0); 481 482 // See storage config details at http://source.android.com/tech/storage/ 483 // Create private mount namespace shared by all children 484 if (unshare(CLONE_NEWNS) == -1) { 485 PLOG(WARNING) << "Failed to unshare()"; 486 return false; 487 } 488 489 // Mark rootfs as being a slave so that changes from default 490 // namespace only flow into our children. 491 if (mount("rootfs", "/", NULL, (MS_SLAVE | MS_REC), NULL) == -1) { 492 PLOG(WARNING) << "Failed to mount() rootfs as MS_SLAVE"; 493 return false; 494 } 495 496 // Create a staging tmpfs that is shared by our children; they will 497 // bind mount storage into their respective private namespaces, which 498 // are isolated from each other. 499 const char* target_base = getenv("EMULATED_STORAGE_TARGET"); 500 if (target_base != NULL) { 501 if (mount("tmpfs", target_base, "tmpfs", MS_NOSUID | MS_NODEV, 502 "uid=0,gid=1028,mode=0751") == -1) { 503 LOG(WARNING) << "Failed to mount tmpfs to " << target_base; 504 return false; 505 } 506 } 507 508 return true; 509#else 510 UNIMPLEMENTED(FATAL); 511 return false; 512#endif 513} 514 515void Runtime::DidForkFromZygote(JNIEnv* env, NativeBridgeAction action, const char* isa) { 516 is_zygote_ = false; 517 518 switch (action) { 519 case NativeBridgeAction::kUnload: 520 UnloadNativeBridge(); 521 break; 522 523 case NativeBridgeAction::kInitialize: 524 InitializeNativeBridge(env, isa); 525 break; 526 } 527 528 // Create the thread pool. 529 heap_->CreateThreadPool(); 530 531 StartSignalCatcher(); 532 533 // Start the JDWP thread. If the command-line debugger flags specified "suspend=y", 534 // this will pause the runtime, so we probably want this to come last. 535 Dbg::StartJdwp(); 536} 537 538void Runtime::StartSignalCatcher() { 539 if (!is_zygote_) { 540 signal_catcher_ = new SignalCatcher(stack_trace_file_); 541 } 542} 543 544bool Runtime::IsShuttingDown(Thread* self) { 545 MutexLock mu(self, *Locks::runtime_shutdown_lock_); 546 return IsShuttingDownLocked(); 547} 548 549void Runtime::StartDaemonThreads() { 550 VLOG(startup) << "Runtime::StartDaemonThreads entering"; 551 552 Thread* self = Thread::Current(); 553 554 // Must be in the kNative state for calling native methods. 555 CHECK_EQ(self->GetState(), kNative); 556 557 JNIEnv* env = self->GetJniEnv(); 558 env->CallStaticVoidMethod(WellKnownClasses::java_lang_Daemons, 559 WellKnownClasses::java_lang_Daemons_start); 560 if (env->ExceptionCheck()) { 561 env->ExceptionDescribe(); 562 LOG(FATAL) << "Error starting java.lang.Daemons"; 563 } 564 565 VLOG(startup) << "Runtime::StartDaemonThreads exiting"; 566} 567 568static bool OpenDexFilesFromImage(const std::vector<std::string>& dex_filenames, 569 const std::string& image_location, 570 std::vector<const DexFile*>& dex_files, 571 size_t* failures) { 572 std::string system_filename; 573 bool has_system = false; 574 std::string cache_filename_unused; 575 bool dalvik_cache_exists_unused; 576 bool has_cache_unused; 577 bool is_global_cache_unused; 578 bool found_image = gc::space::ImageSpace::FindImageFilename(image_location.c_str(), 579 kRuntimeISA, 580 &system_filename, 581 &has_system, 582 &cache_filename_unused, 583 &dalvik_cache_exists_unused, 584 &has_cache_unused, 585 &is_global_cache_unused); 586 *failures = 0; 587 if (!found_image || !has_system) { 588 return false; 589 } 590 std::string error_msg; 591 // We are falling back to non-executable use of the oat file because patching failed, presumably 592 // due to lack of space. 593 std::string oat_filename = ImageHeader::GetOatLocationFromImageLocation(system_filename.c_str()); 594 std::string oat_location = ImageHeader::GetOatLocationFromImageLocation(image_location.c_str()); 595 std::unique_ptr<File> file(OS::OpenFileForReading(oat_filename.c_str())); 596 if (file.get() == nullptr) { 597 return false; 598 } 599 std::unique_ptr<ElfFile> elf_file(ElfFile::Open(file.release(), false, false, &error_msg)); 600 if (elf_file.get() == nullptr) { 601 return false; 602 } 603 std::unique_ptr<OatFile> oat_file(OatFile::OpenWithElfFile(elf_file.release(), oat_location, 604 &error_msg)); 605 if (oat_file.get() == nullptr) { 606 LOG(INFO) << "Unable to use '" << oat_filename << "' because " << error_msg; 607 return false; 608 } 609 610 for (const OatFile::OatDexFile* oat_dex_file : oat_file->GetOatDexFiles()) { 611 if (oat_dex_file == nullptr) { 612 *failures += 1; 613 continue; 614 } 615 const DexFile* dex_file = oat_dex_file->OpenDexFile(&error_msg); 616 if (dex_file == nullptr) { 617 *failures += 1; 618 } else { 619 dex_files.push_back(dex_file); 620 } 621 } 622 Runtime::Current()->GetClassLinker()->RegisterOatFile(oat_file.release()); 623 return true; 624} 625 626 627static size_t OpenDexFiles(const std::vector<std::string>& dex_filenames, 628 const std::string& image_location, 629 std::vector<const DexFile*>& dex_files) { 630 size_t failure_count = 0; 631 if (!image_location.empty() && OpenDexFilesFromImage(dex_filenames, image_location, dex_files, 632 &failure_count)) { 633 return failure_count; 634 } 635 failure_count = 0; 636 for (size_t i = 0; i < dex_filenames.size(); i++) { 637 const char* dex_filename = dex_filenames[i].c_str(); 638 std::string error_msg; 639 if (!OS::FileExists(dex_filename)) { 640 LOG(WARNING) << "Skipping non-existent dex file '" << dex_filename << "'"; 641 continue; 642 } 643 if (!DexFile::Open(dex_filename, dex_filename, &error_msg, &dex_files)) { 644 LOG(WARNING) << "Failed to open .dex from file '" << dex_filename << "': " << error_msg; 645 ++failure_count; 646 } 647 } 648 return failure_count; 649} 650 651bool Runtime::Init(const RuntimeOptions& raw_options, bool ignore_unrecognized) { 652 CHECK_EQ(sysconf(_SC_PAGE_SIZE), kPageSize); 653 654 std::unique_ptr<ParsedOptions> options(ParsedOptions::Create(raw_options, ignore_unrecognized)); 655 if (options.get() == nullptr) { 656 LOG(ERROR) << "Failed to parse options"; 657 return false; 658 } 659 VLOG(startup) << "Runtime::Init -verbose:startup enabled"; 660 661 QuasiAtomic::Startup(); 662 663 Monitor::Init(options->lock_profiling_threshold_, options->hook_is_sensitive_thread_); 664 665 boot_class_path_string_ = options->boot_class_path_string_; 666 class_path_string_ = options->class_path_string_; 667 properties_ = options->properties_; 668 669 compiler_callbacks_ = options->compiler_callbacks_; 670 patchoat_executable_ = options->patchoat_executable_; 671 must_relocate_ = options->must_relocate_; 672 is_zygote_ = options->is_zygote_; 673 is_explicit_gc_disabled_ = options->is_explicit_gc_disabled_; 674 dex2oat_enabled_ = options->dex2oat_enabled_; 675 image_dex2oat_enabled_ = options->image_dex2oat_enabled_; 676 677 vfprintf_ = options->hook_vfprintf_; 678 exit_ = options->hook_exit_; 679 abort_ = options->hook_abort_; 680 681 default_stack_size_ = options->stack_size_; 682 stack_trace_file_ = options->stack_trace_file_; 683 684 compiler_executable_ = options->compiler_executable_; 685 compiler_options_ = options->compiler_options_; 686 image_compiler_options_ = options->image_compiler_options_; 687 image_location_ = options->image_; 688 689 max_spins_before_thin_lock_inflation_ = options->max_spins_before_thin_lock_inflation_; 690 691 monitor_list_ = new MonitorList; 692 monitor_pool_ = MonitorPool::Create(); 693 thread_list_ = new ThreadList; 694 intern_table_ = new InternTable; 695 696 verify_ = options->verify_; 697 698 if (options->interpreter_only_) { 699 GetInstrumentation()->ForceInterpretOnly(); 700 } 701 702 heap_ = new gc::Heap(options->heap_initial_size_, 703 options->heap_growth_limit_, 704 options->heap_min_free_, 705 options->heap_max_free_, 706 options->heap_target_utilization_, 707 options->foreground_heap_growth_multiplier_, 708 options->heap_maximum_size_, 709 options->heap_non_moving_space_capacity_, 710 options->image_, 711 options->image_isa_, 712 options->collector_type_, 713 options->background_collector_type_, 714 options->parallel_gc_threads_, 715 options->conc_gc_threads_, 716 options->low_memory_mode_, 717 options->long_pause_log_threshold_, 718 options->long_gc_log_threshold_, 719 options->ignore_max_footprint_, 720 options->use_tlab_, 721 options->verify_pre_gc_heap_, 722 options->verify_pre_sweeping_heap_, 723 options->verify_post_gc_heap_, 724 options->verify_pre_gc_rosalloc_, 725 options->verify_pre_sweeping_rosalloc_, 726 options->verify_post_gc_rosalloc_, 727 options->use_homogeneous_space_compaction_for_oom_, 728 options->min_interval_homogeneous_space_compaction_by_oom_); 729 730 dump_gc_performance_on_shutdown_ = options->dump_gc_performance_on_shutdown_; 731 732 BlockSignals(); 733 InitPlatformSignalHandlers(); 734 735 // Change the implicit checks flags based on runtime architecture. 736 switch (kRuntimeISA) { 737 case kArm: 738 case kThumb2: 739 case kX86: 740 case kArm64: 741 case kX86_64: 742 implicit_null_checks_ = true; 743 implicit_so_checks_ = true; 744 break; 745 default: 746 // Keep the defaults. 747 break; 748 } 749 750 if (implicit_null_checks_ || implicit_so_checks_ || implicit_suspend_checks_) { 751 fault_manager.Init(); 752 753 // These need to be in a specific order. The null point check handler must be 754 // after the suspend check and stack overflow check handlers. 755 if (implicit_suspend_checks_) { 756 suspend_handler_ = new SuspensionHandler(&fault_manager); 757 } 758 759 if (implicit_so_checks_) { 760 stack_overflow_handler_ = new StackOverflowHandler(&fault_manager); 761 } 762 763 if (implicit_null_checks_) { 764 null_pointer_handler_ = new NullPointerHandler(&fault_manager); 765 } 766 767 if (kEnableJavaStackTraceHandler) { 768 new JavaStackTraceHandler(&fault_manager); 769 } 770 } 771 772 java_vm_ = new JavaVMExt(this, options.get()); 773 774 Thread::Startup(); 775 776 // ClassLinker needs an attached thread, but we can't fully attach a thread without creating 777 // objects. We can't supply a thread group yet; it will be fixed later. Since we are the main 778 // thread, we do not get a java peer. 779 Thread* self = Thread::Attach("main", false, nullptr, false); 780 CHECK_EQ(self->GetThreadId(), ThreadList::kMainThreadId); 781 CHECK(self != nullptr); 782 783 // Set us to runnable so tools using a runtime can allocate and GC by default 784 self->TransitionFromSuspendedToRunnable(); 785 786 // Now we're attached, we can take the heap locks and validate the heap. 787 GetHeap()->EnableObjectValidation(); 788 789 CHECK_GE(GetHeap()->GetContinuousSpaces().size(), 1U); 790 class_linker_ = new ClassLinker(intern_table_); 791 if (GetHeap()->HasImageSpace()) { 792 class_linker_->InitFromImage(); 793 if (kIsDebugBuild) { 794 GetHeap()->GetImageSpace()->VerifyImageAllocations(); 795 } 796 } else if (!IsCompiler() || !image_dex2oat_enabled_) { 797 std::vector<std::string> dex_filenames; 798 Split(boot_class_path_string_, ':', dex_filenames); 799 std::vector<const DexFile*> boot_class_path; 800 OpenDexFiles(dex_filenames, options->image_, boot_class_path); 801 class_linker_->InitWithoutImage(boot_class_path); 802 // TODO: Should we move the following to InitWithoutImage? 803 SetInstructionSet(kRuntimeISA); 804 for (int i = 0; i < Runtime::kLastCalleeSaveType; i++) { 805 Runtime::CalleeSaveType type = Runtime::CalleeSaveType(i); 806 if (!HasCalleeSaveMethod(type)) { 807 SetCalleeSaveMethod(CreateCalleeSaveMethod(type), type); 808 } 809 } 810 } else { 811 CHECK(options->boot_class_path_ != nullptr); 812 CHECK_NE(options->boot_class_path_->size(), 0U); 813 class_linker_->InitWithoutImage(*options->boot_class_path_); 814 } 815 CHECK(class_linker_ != nullptr); 816 verifier::MethodVerifier::Init(); 817 818 method_trace_ = options->method_trace_; 819 method_trace_file_ = options->method_trace_file_; 820 method_trace_file_size_ = options->method_trace_file_size_; 821 822 profile_output_filename_ = options->profile_output_filename_; 823 profiler_options_ = options->profiler_options_; 824 825 // TODO: move this to just be an Trace::Start argument 826 Trace::SetDefaultClockSource(options->profile_clock_source_); 827 828 if (options->method_trace_) { 829 ScopedThreadStateChange tsc(self, kWaitingForMethodTracingStart); 830 Trace::Start(options->method_trace_file_.c_str(), -1, options->method_trace_file_size_, 0, 831 false, false, 0); 832 } 833 834 // Pre-allocate an OutOfMemoryError for the double-OOME case. 835 self->ThrowNewException(ThrowLocation(), "Ljava/lang/OutOfMemoryError;", 836 "OutOfMemoryError thrown while trying to throw OutOfMemoryError; " 837 "no stack available"); 838 pre_allocated_OutOfMemoryError_ = GcRoot<mirror::Throwable>(self->GetException(NULL)); 839 self->ClearException(); 840 841 // Pre-allocate a NoClassDefFoundError for the common case of failing to find a system class 842 // ahead of checking the application's class loader. 843 self->ThrowNewException(ThrowLocation(), "Ljava/lang/NoClassDefFoundError;", 844 "Class not found using the boot class loader; no stack available"); 845 pre_allocated_NoClassDefFoundError_ = GcRoot<mirror::Throwable>(self->GetException(NULL)); 846 self->ClearException(); 847 848 // Look for a native bridge. 849 // 850 // The intended flow here is, in the case of a running system: 851 // 852 // Runtime::Init() (zygote): 853 // LoadNativeBridge -> dlopen from cmd line parameter. 854 // | 855 // V 856 // Runtime::Start() (zygote): 857 // No-op wrt native bridge. 858 // | 859 // | start app 860 // V 861 // DidForkFromZygote(action) 862 // action = kUnload -> dlclose native bridge. 863 // action = kInitialize -> initialize library 864 // 865 // 866 // The intended flow here is, in the case of a simple dalvikvm call: 867 // 868 // Runtime::Init(): 869 // LoadNativeBridge -> dlopen from cmd line parameter. 870 // | 871 // V 872 // Runtime::Start(): 873 // DidForkFromZygote(kInitialize) -> try to initialize any native bridge given. 874 // No-op wrt native bridge. 875 native_bridge_library_filename_ = options->native_bridge_library_filename_; 876 LoadNativeBridge(native_bridge_library_filename_); 877 878 VLOG(startup) << "Runtime::Init exiting"; 879 return true; 880} 881 882void Runtime::InitNativeMethods() { 883 VLOG(startup) << "Runtime::InitNativeMethods entering"; 884 Thread* self = Thread::Current(); 885 JNIEnv* env = self->GetJniEnv(); 886 887 // Must be in the kNative state for calling native methods (JNI_OnLoad code). 888 CHECK_EQ(self->GetState(), kNative); 889 890 // First set up JniConstants, which is used by both the runtime's built-in native 891 // methods and libcore. 892 JniConstants::init(env); 893 WellKnownClasses::Init(env); 894 895 // Then set up the native methods provided by the runtime itself. 896 RegisterRuntimeNativeMethods(env); 897 898 // Then set up libcore, which is just a regular JNI library with a regular JNI_OnLoad. 899 // Most JNI libraries can just use System.loadLibrary, but libcore can't because it's 900 // the library that implements System.loadLibrary! 901 { 902 std::string mapped_name(StringPrintf(OS_SHARED_LIB_FORMAT_STR, "javacore")); 903 std::string reason; 904 self->TransitionFromSuspendedToRunnable(); 905 StackHandleScope<1> hs(self); 906 auto class_loader(hs.NewHandle<mirror::ClassLoader>(nullptr)); 907 if (!instance_->java_vm_->LoadNativeLibrary(mapped_name, class_loader, &reason)) { 908 LOG(FATAL) << "LoadNativeLibrary failed for \"" << mapped_name << "\": " << reason; 909 } 910 self->TransitionFromRunnableToSuspended(kNative); 911 } 912 913 // Initialize well known classes that may invoke runtime native methods. 914 WellKnownClasses::LateInit(env); 915 916 VLOG(startup) << "Runtime::InitNativeMethods exiting"; 917} 918 919void Runtime::InitThreadGroups(Thread* self) { 920 JNIEnvExt* env = self->GetJniEnv(); 921 ScopedJniEnvLocalRefState env_state(env); 922 main_thread_group_ = 923 env->NewGlobalRef(env->GetStaticObjectField( 924 WellKnownClasses::java_lang_ThreadGroup, 925 WellKnownClasses::java_lang_ThreadGroup_mainThreadGroup)); 926 CHECK(main_thread_group_ != NULL || IsCompiler()); 927 system_thread_group_ = 928 env->NewGlobalRef(env->GetStaticObjectField( 929 WellKnownClasses::java_lang_ThreadGroup, 930 WellKnownClasses::java_lang_ThreadGroup_systemThreadGroup)); 931 CHECK(system_thread_group_ != NULL || IsCompiler()); 932} 933 934jobject Runtime::GetMainThreadGroup() const { 935 CHECK(main_thread_group_ != NULL || IsCompiler()); 936 return main_thread_group_; 937} 938 939jobject Runtime::GetSystemThreadGroup() const { 940 CHECK(system_thread_group_ != NULL || IsCompiler()); 941 return system_thread_group_; 942} 943 944jobject Runtime::GetSystemClassLoader() const { 945 CHECK(system_class_loader_ != NULL || IsCompiler()); 946 return system_class_loader_; 947} 948 949void Runtime::RegisterRuntimeNativeMethods(JNIEnv* env) { 950#define REGISTER(FN) extern void FN(JNIEnv*); FN(env) 951 // Register Throwable first so that registration of other native methods can throw exceptions 952 REGISTER(register_java_lang_Throwable); 953 REGISTER(register_dalvik_system_DexFile); 954 REGISTER(register_dalvik_system_VMDebug); 955 REGISTER(register_dalvik_system_VMRuntime); 956 REGISTER(register_dalvik_system_VMStack); 957 REGISTER(register_dalvik_system_ZygoteHooks); 958 REGISTER(register_java_lang_Class); 959 REGISTER(register_java_lang_DexCache); 960 REGISTER(register_java_lang_Object); 961 REGISTER(register_java_lang_Runtime); 962 REGISTER(register_java_lang_String); 963 REGISTER(register_java_lang_System); 964 REGISTER(register_java_lang_Thread); 965 REGISTER(register_java_lang_VMClassLoader); 966 REGISTER(register_java_lang_ref_FinalizerReference); 967 REGISTER(register_java_lang_ref_Reference); 968 REGISTER(register_java_lang_reflect_Array); 969 REGISTER(register_java_lang_reflect_Constructor); 970 REGISTER(register_java_lang_reflect_Field); 971 REGISTER(register_java_lang_reflect_Method); 972 REGISTER(register_java_lang_reflect_Proxy); 973 REGISTER(register_java_util_concurrent_atomic_AtomicLong); 974 REGISTER(register_org_apache_harmony_dalvik_ddmc_DdmServer); 975 REGISTER(register_org_apache_harmony_dalvik_ddmc_DdmVmInternal); 976 REGISTER(register_sun_misc_Unsafe); 977#undef REGISTER 978} 979 980void Runtime::DumpForSigQuit(std::ostream& os) { 981 GetClassLinker()->DumpForSigQuit(os); 982 GetInternTable()->DumpForSigQuit(os); 983 GetJavaVM()->DumpForSigQuit(os); 984 GetHeap()->DumpForSigQuit(os); 985 TrackedAllocators::Dump(os); 986 os << "\n"; 987 988 thread_list_->DumpForSigQuit(os); 989 BaseMutex::DumpAll(os); 990} 991 992void Runtime::DumpLockHolders(std::ostream& os) { 993 uint64_t mutator_lock_owner = Locks::mutator_lock_->GetExclusiveOwnerTid(); 994 pid_t thread_list_lock_owner = GetThreadList()->GetLockOwner(); 995 pid_t classes_lock_owner = GetClassLinker()->GetClassesLockOwner(); 996 pid_t dex_lock_owner = GetClassLinker()->GetDexLockOwner(); 997 if ((thread_list_lock_owner | classes_lock_owner | dex_lock_owner) != 0) { 998 os << "Mutator lock exclusive owner tid: " << mutator_lock_owner << "\n" 999 << "ThreadList lock owner tid: " << thread_list_lock_owner << "\n" 1000 << "ClassLinker classes lock owner tid: " << classes_lock_owner << "\n" 1001 << "ClassLinker dex lock owner tid: " << dex_lock_owner << "\n"; 1002 } 1003} 1004 1005void Runtime::SetStatsEnabled(bool new_state) { 1006 Thread* self = Thread::Current(); 1007 MutexLock mu(self, *Locks::instrument_entrypoints_lock_); 1008 if (new_state == true) { 1009 GetStats()->Clear(~0); 1010 // TODO: wouldn't it make more sense to clear _all_ threads' stats? 1011 self->GetStats()->Clear(~0); 1012 if (stats_enabled_ != new_state) { 1013 GetInstrumentation()->InstrumentQuickAllocEntryPointsLocked(); 1014 } 1015 } else if (stats_enabled_ != new_state) { 1016 GetInstrumentation()->UninstrumentQuickAllocEntryPointsLocked(); 1017 } 1018 stats_enabled_ = new_state; 1019} 1020 1021void Runtime::ResetStats(int kinds) { 1022 GetStats()->Clear(kinds & 0xffff); 1023 // TODO: wouldn't it make more sense to clear _all_ threads' stats? 1024 Thread::Current()->GetStats()->Clear(kinds >> 16); 1025} 1026 1027int32_t Runtime::GetStat(int kind) { 1028 RuntimeStats* stats; 1029 if (kind < (1<<16)) { 1030 stats = GetStats(); 1031 } else { 1032 stats = Thread::Current()->GetStats(); 1033 kind >>= 16; 1034 } 1035 switch (kind) { 1036 case KIND_ALLOCATED_OBJECTS: 1037 return stats->allocated_objects; 1038 case KIND_ALLOCATED_BYTES: 1039 return stats->allocated_bytes; 1040 case KIND_FREED_OBJECTS: 1041 return stats->freed_objects; 1042 case KIND_FREED_BYTES: 1043 return stats->freed_bytes; 1044 case KIND_GC_INVOCATIONS: 1045 return stats->gc_for_alloc_count; 1046 case KIND_CLASS_INIT_COUNT: 1047 return stats->class_init_count; 1048 case KIND_CLASS_INIT_TIME: 1049 // Convert ns to us, reduce to 32 bits. 1050 return static_cast<int>(stats->class_init_time_ns / 1000); 1051 case KIND_EXT_ALLOCATED_OBJECTS: 1052 case KIND_EXT_ALLOCATED_BYTES: 1053 case KIND_EXT_FREED_OBJECTS: 1054 case KIND_EXT_FREED_BYTES: 1055 return 0; // backward compatibility 1056 default: 1057 LOG(FATAL) << "Unknown statistic " << kind; 1058 return -1; // unreachable 1059 } 1060} 1061 1062void Runtime::BlockSignals() { 1063 SignalSet signals; 1064 signals.Add(SIGPIPE); 1065 // SIGQUIT is used to dump the runtime's state (including stack traces). 1066 signals.Add(SIGQUIT); 1067 // SIGUSR1 is used to initiate a GC. 1068 signals.Add(SIGUSR1); 1069 signals.Block(); 1070} 1071 1072bool Runtime::AttachCurrentThread(const char* thread_name, bool as_daemon, jobject thread_group, 1073 bool create_peer) { 1074 return Thread::Attach(thread_name, as_daemon, thread_group, create_peer) != NULL; 1075} 1076 1077void Runtime::DetachCurrentThread() { 1078 Thread* self = Thread::Current(); 1079 if (self == NULL) { 1080 LOG(FATAL) << "attempting to detach thread that is not attached"; 1081 } 1082 if (self->HasManagedStack()) { 1083 LOG(FATAL) << *Thread::Current() << " attempting to detach while still running code"; 1084 } 1085 thread_list_->Unregister(self); 1086} 1087 1088mirror::Throwable* Runtime::GetPreAllocatedOutOfMemoryError() { 1089 mirror::Throwable* oome = pre_allocated_OutOfMemoryError_.Read(); 1090 if (oome == nullptr) { 1091 LOG(ERROR) << "Failed to return pre-allocated OOME"; 1092 } 1093 return oome; 1094} 1095 1096mirror::Throwable* Runtime::GetPreAllocatedNoClassDefFoundError() { 1097 mirror::Throwable* ncdfe = pre_allocated_NoClassDefFoundError_.Read(); 1098 if (ncdfe == nullptr) { 1099 LOG(ERROR) << "Failed to return pre-allocated NoClassDefFoundError"; 1100 } 1101 return ncdfe; 1102} 1103 1104void Runtime::VisitConstantRoots(RootCallback* callback, void* arg) { 1105 // Visit the classes held as static in mirror classes, these can be visited concurrently and only 1106 // need to be visited once per GC since they never change. 1107 mirror::ArtField::VisitRoots(callback, arg); 1108 mirror::ArtMethod::VisitRoots(callback, arg); 1109 mirror::Class::VisitRoots(callback, arg); 1110 mirror::Reference::VisitRoots(callback, arg); 1111 mirror::StackTraceElement::VisitRoots(callback, arg); 1112 mirror::String::VisitRoots(callback, arg); 1113 mirror::Throwable::VisitRoots(callback, arg); 1114 // Visit all the primitive array types classes. 1115 mirror::PrimitiveArray<uint8_t>::VisitRoots(callback, arg); // BooleanArray 1116 mirror::PrimitiveArray<int8_t>::VisitRoots(callback, arg); // ByteArray 1117 mirror::PrimitiveArray<uint16_t>::VisitRoots(callback, arg); // CharArray 1118 mirror::PrimitiveArray<double>::VisitRoots(callback, arg); // DoubleArray 1119 mirror::PrimitiveArray<float>::VisitRoots(callback, arg); // FloatArray 1120 mirror::PrimitiveArray<int32_t>::VisitRoots(callback, arg); // IntArray 1121 mirror::PrimitiveArray<int64_t>::VisitRoots(callback, arg); // LongArray 1122 mirror::PrimitiveArray<int16_t>::VisitRoots(callback, arg); // ShortArray 1123} 1124 1125void Runtime::VisitConcurrentRoots(RootCallback* callback, void* arg, VisitRootFlags flags) { 1126 intern_table_->VisitRoots(callback, arg, flags); 1127 class_linker_->VisitRoots(callback, arg, flags); 1128 if ((flags & kVisitRootFlagNewRoots) == 0) { 1129 // Guaranteed to have no new roots in the constant roots. 1130 VisitConstantRoots(callback, arg); 1131 } 1132} 1133 1134void Runtime::VisitNonThreadRoots(RootCallback* callback, void* arg) { 1135 java_vm_->VisitRoots(callback, arg); 1136 if (!pre_allocated_OutOfMemoryError_.IsNull()) { 1137 pre_allocated_OutOfMemoryError_.VisitRoot(callback, arg, 0, kRootVMInternal); 1138 DCHECK(!pre_allocated_OutOfMemoryError_.IsNull()); 1139 } 1140 resolution_method_.VisitRoot(callback, arg, 0, kRootVMInternal); 1141 DCHECK(!resolution_method_.IsNull()); 1142 if (!pre_allocated_NoClassDefFoundError_.IsNull()) { 1143 pre_allocated_NoClassDefFoundError_.VisitRoot(callback, arg, 0, kRootVMInternal); 1144 DCHECK(!pre_allocated_NoClassDefFoundError_.IsNull()); 1145 } 1146 if (HasImtConflictMethod()) { 1147 imt_conflict_method_.VisitRoot(callback, arg, 0, kRootVMInternal); 1148 } 1149 if (HasDefaultImt()) { 1150 default_imt_.VisitRoot(callback, arg, 0, kRootVMInternal); 1151 } 1152 for (int i = 0; i < Runtime::kLastCalleeSaveType; i++) { 1153 if (!callee_save_methods_[i].IsNull()) { 1154 callee_save_methods_[i].VisitRoot(callback, arg, 0, kRootVMInternal); 1155 } 1156 } 1157 verifier::MethodVerifier::VisitStaticRoots(callback, arg); 1158 { 1159 MutexLock mu(Thread::Current(), method_verifier_lock_); 1160 for (verifier::MethodVerifier* verifier : method_verifiers_) { 1161 verifier->VisitRoots(callback, arg); 1162 } 1163 } 1164 if (preinitialization_transaction_ != nullptr) { 1165 preinitialization_transaction_->VisitRoots(callback, arg); 1166 } 1167 instrumentation_.VisitRoots(callback, arg); 1168} 1169 1170void Runtime::VisitNonConcurrentRoots(RootCallback* callback, void* arg) { 1171 thread_list_->VisitRoots(callback, arg); 1172 VisitNonThreadRoots(callback, arg); 1173} 1174 1175void Runtime::VisitRoots(RootCallback* callback, void* arg, VisitRootFlags flags) { 1176 VisitNonConcurrentRoots(callback, arg); 1177 VisitConcurrentRoots(callback, arg, flags); 1178} 1179 1180mirror::ObjectArray<mirror::ArtMethod>* Runtime::CreateDefaultImt(ClassLinker* cl) { 1181 Thread* self = Thread::Current(); 1182 StackHandleScope<1> hs(self); 1183 Handle<mirror::ObjectArray<mirror::ArtMethod>> imtable( 1184 hs.NewHandle(cl->AllocArtMethodArray(self, 64))); 1185 mirror::ArtMethod* imt_conflict_method = Runtime::Current()->GetImtConflictMethod(); 1186 for (size_t i = 0; i < static_cast<size_t>(imtable->GetLength()); i++) { 1187 imtable->Set<false>(i, imt_conflict_method); 1188 } 1189 return imtable.Get(); 1190} 1191 1192mirror::ArtMethod* Runtime::CreateImtConflictMethod() { 1193 Thread* self = Thread::Current(); 1194 Runtime* runtime = Runtime::Current(); 1195 ClassLinker* class_linker = runtime->GetClassLinker(); 1196 StackHandleScope<1> hs(self); 1197 Handle<mirror::ArtMethod> method(hs.NewHandle(class_linker->AllocArtMethod(self))); 1198 method->SetDeclaringClass(mirror::ArtMethod::GetJavaLangReflectArtMethod()); 1199 // TODO: use a special method for imt conflict method saves. 1200 method->SetDexMethodIndex(DexFile::kDexNoIndex); 1201 // When compiling, the code pointer will get set later when the image is loaded. 1202 if (runtime->IsCompiler()) { 1203#if defined(ART_USE_PORTABLE_COMPILER) 1204 method->SetEntryPointFromPortableCompiledCode(nullptr); 1205#endif 1206 method->SetEntryPointFromQuickCompiledCode(nullptr); 1207 } else { 1208#if defined(ART_USE_PORTABLE_COMPILER) 1209 method->SetEntryPointFromPortableCompiledCode(class_linker->GetPortableImtConflictTrampoline()); 1210#endif 1211 method->SetEntryPointFromQuickCompiledCode(class_linker->GetQuickImtConflictTrampoline()); 1212 } 1213 return method.Get(); 1214} 1215 1216mirror::ArtMethod* Runtime::CreateResolutionMethod() { 1217 Thread* self = Thread::Current(); 1218 Runtime* runtime = Runtime::Current(); 1219 ClassLinker* class_linker = runtime->GetClassLinker(); 1220 StackHandleScope<1> hs(self); 1221 Handle<mirror::ArtMethod> method(hs.NewHandle(class_linker->AllocArtMethod(self))); 1222 method->SetDeclaringClass(mirror::ArtMethod::GetJavaLangReflectArtMethod()); 1223 // TODO: use a special method for resolution method saves 1224 method->SetDexMethodIndex(DexFile::kDexNoIndex); 1225 // When compiling, the code pointer will get set later when the image is loaded. 1226 if (runtime->IsCompiler()) { 1227#if defined(ART_USE_PORTABLE_COMPILER) 1228 method->SetEntryPointFromPortableCompiledCode(nullptr); 1229#endif 1230 method->SetEntryPointFromQuickCompiledCode(nullptr); 1231 } else { 1232#if defined(ART_USE_PORTABLE_COMPILER) 1233 method->SetEntryPointFromPortableCompiledCode(class_linker->GetPortableResolutionTrampoline()); 1234#endif 1235 method->SetEntryPointFromQuickCompiledCode(class_linker->GetQuickResolutionTrampoline()); 1236 } 1237 return method.Get(); 1238} 1239 1240mirror::ArtMethod* Runtime::CreateCalleeSaveMethod(CalleeSaveType type) { 1241 Thread* self = Thread::Current(); 1242 Runtime* runtime = Runtime::Current(); 1243 ClassLinker* class_linker = runtime->GetClassLinker(); 1244 StackHandleScope<1> hs(self); 1245 Handle<mirror::ArtMethod> method(hs.NewHandle(class_linker->AllocArtMethod(self))); 1246 method->SetDeclaringClass(mirror::ArtMethod::GetJavaLangReflectArtMethod()); 1247 // TODO: use a special method for callee saves 1248 method->SetDexMethodIndex(DexFile::kDexNoIndex); 1249#if defined(ART_USE_PORTABLE_COMPILER) 1250 method->SetEntryPointFromPortableCompiledCode(nullptr); 1251#endif 1252 method->SetEntryPointFromQuickCompiledCode(nullptr); 1253 DCHECK_NE(instruction_set_, kNone); 1254 return method.Get(); 1255} 1256 1257void Runtime::DisallowNewSystemWeaks() { 1258 monitor_list_->DisallowNewMonitors(); 1259 intern_table_->DisallowNewInterns(); 1260 java_vm_->DisallowNewWeakGlobals(); 1261} 1262 1263void Runtime::AllowNewSystemWeaks() { 1264 monitor_list_->AllowNewMonitors(); 1265 intern_table_->AllowNewInterns(); 1266 java_vm_->AllowNewWeakGlobals(); 1267} 1268 1269void Runtime::SetInstructionSet(InstructionSet instruction_set) { 1270 instruction_set_ = instruction_set; 1271 if ((instruction_set_ == kThumb2) || (instruction_set_ == kArm)) { 1272 for (int i = 0; i != kLastCalleeSaveType; ++i) { 1273 CalleeSaveType type = static_cast<CalleeSaveType>(i); 1274 callee_save_method_frame_infos_[i] = arm::ArmCalleeSaveMethodFrameInfo(type); 1275 } 1276 } else if (instruction_set_ == kMips) { 1277 for (int i = 0; i != kLastCalleeSaveType; ++i) { 1278 CalleeSaveType type = static_cast<CalleeSaveType>(i); 1279 callee_save_method_frame_infos_[i] = mips::MipsCalleeSaveMethodFrameInfo(type); 1280 } 1281 } else if (instruction_set_ == kX86) { 1282 for (int i = 0; i != kLastCalleeSaveType; ++i) { 1283 CalleeSaveType type = static_cast<CalleeSaveType>(i); 1284 callee_save_method_frame_infos_[i] = x86::X86CalleeSaveMethodFrameInfo(type); 1285 } 1286 } else if (instruction_set_ == kX86_64) { 1287 for (int i = 0; i != kLastCalleeSaveType; ++i) { 1288 CalleeSaveType type = static_cast<CalleeSaveType>(i); 1289 callee_save_method_frame_infos_[i] = x86_64::X86_64CalleeSaveMethodFrameInfo(type); 1290 } 1291 } else if (instruction_set_ == kArm64) { 1292 for (int i = 0; i != kLastCalleeSaveType; ++i) { 1293 CalleeSaveType type = static_cast<CalleeSaveType>(i); 1294 callee_save_method_frame_infos_[i] = arm64::Arm64CalleeSaveMethodFrameInfo(type); 1295 } 1296 } else { 1297 UNIMPLEMENTED(FATAL) << instruction_set_; 1298 } 1299} 1300 1301void Runtime::SetCalleeSaveMethod(mirror::ArtMethod* method, CalleeSaveType type) { 1302 DCHECK_LT(static_cast<int>(type), static_cast<int>(kLastCalleeSaveType)); 1303 callee_save_methods_[type] = GcRoot<mirror::ArtMethod>(method); 1304} 1305 1306const std::vector<const DexFile*>& Runtime::GetCompileTimeClassPath(jobject class_loader) { 1307 if (class_loader == NULL) { 1308 return GetClassLinker()->GetBootClassPath(); 1309 } 1310 CHECK(UseCompileTimeClassPath()); 1311 CompileTimeClassPaths::const_iterator it = compile_time_class_paths_.find(class_loader); 1312 CHECK(it != compile_time_class_paths_.end()); 1313 return it->second; 1314} 1315 1316void Runtime::SetCompileTimeClassPath(jobject class_loader, 1317 std::vector<const DexFile*>& class_path) { 1318 CHECK(!IsStarted()); 1319 use_compile_time_class_path_ = true; 1320 compile_time_class_paths_.Put(class_loader, class_path); 1321} 1322 1323void Runtime::AddMethodVerifier(verifier::MethodVerifier* verifier) { 1324 DCHECK(verifier != nullptr); 1325 MutexLock mu(Thread::Current(), method_verifier_lock_); 1326 method_verifiers_.insert(verifier); 1327} 1328 1329void Runtime::RemoveMethodVerifier(verifier::MethodVerifier* verifier) { 1330 DCHECK(verifier != nullptr); 1331 MutexLock mu(Thread::Current(), method_verifier_lock_); 1332 auto it = method_verifiers_.find(verifier); 1333 CHECK(it != method_verifiers_.end()); 1334 method_verifiers_.erase(it); 1335} 1336 1337void Runtime::StartProfiler(const char* profile_output_filename) { 1338 profile_output_filename_ = profile_output_filename; 1339 profiler_started_ = 1340 BackgroundMethodSamplingProfiler::Start(profile_output_filename_, profiler_options_); 1341} 1342 1343// Transaction support. 1344void Runtime::EnterTransactionMode(Transaction* transaction) { 1345 DCHECK(IsCompiler()); 1346 DCHECK(transaction != nullptr); 1347 DCHECK(!IsActiveTransaction()); 1348 preinitialization_transaction_ = transaction; 1349} 1350 1351void Runtime::ExitTransactionMode() { 1352 DCHECK(IsCompiler()); 1353 DCHECK(IsActiveTransaction()); 1354 preinitialization_transaction_ = nullptr; 1355} 1356 1357void Runtime::RecordWriteField32(mirror::Object* obj, MemberOffset field_offset, 1358 uint32_t value, bool is_volatile) const { 1359 DCHECK(IsCompiler()); 1360 DCHECK(IsActiveTransaction()); 1361 preinitialization_transaction_->RecordWriteField32(obj, field_offset, value, is_volatile); 1362} 1363 1364void Runtime::RecordWriteField64(mirror::Object* obj, MemberOffset field_offset, 1365 uint64_t value, bool is_volatile) const { 1366 DCHECK(IsCompiler()); 1367 DCHECK(IsActiveTransaction()); 1368 preinitialization_transaction_->RecordWriteField64(obj, field_offset, value, is_volatile); 1369} 1370 1371void Runtime::RecordWriteFieldReference(mirror::Object* obj, MemberOffset field_offset, 1372 mirror::Object* value, bool is_volatile) const { 1373 DCHECK(IsCompiler()); 1374 DCHECK(IsActiveTransaction()); 1375 preinitialization_transaction_->RecordWriteFieldReference(obj, field_offset, value, is_volatile); 1376} 1377 1378void Runtime::RecordWriteArray(mirror::Array* array, size_t index, uint64_t value) const { 1379 DCHECK(IsCompiler()); 1380 DCHECK(IsActiveTransaction()); 1381 preinitialization_transaction_->RecordWriteArray(array, index, value); 1382} 1383 1384void Runtime::RecordStrongStringInsertion(mirror::String* s) const { 1385 DCHECK(IsCompiler()); 1386 DCHECK(IsActiveTransaction()); 1387 preinitialization_transaction_->RecordStrongStringInsertion(s); 1388} 1389 1390void Runtime::RecordWeakStringInsertion(mirror::String* s) const { 1391 DCHECK(IsCompiler()); 1392 DCHECK(IsActiveTransaction()); 1393 preinitialization_transaction_->RecordWeakStringInsertion(s); 1394} 1395 1396void Runtime::RecordStrongStringRemoval(mirror::String* s) const { 1397 DCHECK(IsCompiler()); 1398 DCHECK(IsActiveTransaction()); 1399 preinitialization_transaction_->RecordStrongStringRemoval(s); 1400} 1401 1402void Runtime::RecordWeakStringRemoval(mirror::String* s) const { 1403 DCHECK(IsCompiler()); 1404 DCHECK(IsActiveTransaction()); 1405 preinitialization_transaction_->RecordWeakStringRemoval(s); 1406} 1407 1408void Runtime::SetFaultMessage(const std::string& message) { 1409 MutexLock mu(Thread::Current(), fault_message_lock_); 1410 fault_message_ = message; 1411} 1412 1413void Runtime::AddCurrentRuntimeFeaturesAsDex2OatArguments(std::vector<std::string>* argv) 1414 const { 1415 if (GetInstrumentation()->InterpretOnly()) { 1416 argv->push_back("--compiler-filter=interpret-only"); 1417 } 1418 1419 // Make the dex2oat instruction set match that of the launching runtime. If we have multiple 1420 // architecture support, dex2oat may be compiled as a different instruction-set than that 1421 // currently being executed. 1422 std::string instruction_set("--instruction-set="); 1423 instruction_set += GetInstructionSetString(kRuntimeISA); 1424 argv->push_back(instruction_set); 1425 1426 std::string features("--instruction-set-features="); 1427 features += GetDefaultInstructionSetFeatures(); 1428 argv->push_back(features); 1429} 1430 1431void Runtime::UpdateProfilerState(int state) { 1432 VLOG(profiler) << "Profiler state updated to " << state; 1433} 1434} // namespace art 1435