// Copyright 2010 the V8 project authors. All rights reserved. // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #include "v8.h" #include "runtime-profiler.h" #include "assembler.h" #include "code-stubs.h" #include "compilation-cache.h" #include "deoptimizer.h" #include "execution.h" #include "global-handles.h" #include "scopeinfo.h" #include "top.h" namespace v8 { namespace internal { class PendingListNode : public Malloced { public: explicit PendingListNode(JSFunction* function); ~PendingListNode() { Destroy(); } PendingListNode* next() const { return next_; } void set_next(PendingListNode* node) { next_ = node; } Handle function() { return Handle::cast(function_); } // If the function is garbage collected before we've had the chance // to optimize it the weak handle will be null. bool IsValid() { return !function_.is_null(); } // Returns the number of microseconds this node has been pending. int Delay() const { return static_cast(OS::Ticks() - start_); } private: void Destroy(); static void WeakCallback(v8::Persistent object, void* data); PendingListNode* next_; Handle function_; // Weak handle. int64_t start_; }; // Optimization sampler constants. static const int kSamplerFrameCount = 2; static const int kSamplerFrameWeight[kSamplerFrameCount] = { 2, 1 }; static const int kSamplerWindowSize = 16; static const int kSamplerTicksDelta = 32; static const int kSamplerThresholdInit = 3; static const int kSamplerThresholdMin = 1; static const int kSamplerThresholdDelta = 1; static const int kSamplerThresholdSizeFactorInit = 3; static const int kSamplerThresholdSizeFactorMin = 1; static const int kSamplerThresholdSizeFactorDelta = 1; static const int kSizeLimit = 1500; static int sampler_threshold = kSamplerThresholdInit; static int sampler_threshold_size_factor = kSamplerThresholdSizeFactorInit; // The JSFunctions in the sampler window are not GC safe. Old-space // pointers are not cleared during mark-sweep collection and therefore // the window might contain stale pointers. The window is updated on // scavenges and (parts of it) cleared on mark-sweep and // mark-sweep-compact. static Object* sampler_window[kSamplerWindowSize] = { NULL, }; static int sampler_window_position = 0; static int sampler_window_weight[kSamplerWindowSize] = { 0, }; // Support for pending 'optimize soon' requests. static PendingListNode* optimize_soon_list = NULL; PendingListNode::PendingListNode(JSFunction* function) : next_(NULL) { function_ = GlobalHandles::Create(function); start_ = OS::Ticks(); GlobalHandles::MakeWeak(function_.location(), this, &WeakCallback); } void PendingListNode::Destroy() { if (!IsValid()) return; GlobalHandles::Destroy(function_.location()); function_= Handle::null(); } void PendingListNode::WeakCallback(v8::Persistent, void* data) { reinterpret_cast(data)->Destroy(); } static bool IsOptimizable(JSFunction* function) { Code* code = function->code(); return code->kind() == Code::FUNCTION && code->optimizable(); } static void Optimize(JSFunction* function, bool eager, int delay) { ASSERT(IsOptimizable(function)); if (FLAG_trace_opt) { PrintF("[marking (%s) ", eager ? "eagerly" : "lazily"); function->PrintName(); PrintF(" for recompilation"); if (delay > 0) { PrintF(" (delayed %0.3f ms)", static_cast(delay) / 1000); } PrintF("]\n"); } // The next call to the function will trigger optimization. function->MarkForLazyRecompilation(); } static void AttemptOnStackReplacement(JSFunction* function) { // See AlwaysFullCompiler (in compiler.cc) comment on why we need // Debug::has_break_points(). ASSERT(function->IsMarkedForLazyRecompilation()); if (!FLAG_use_osr || Debug::has_break_points() || function->IsBuiltin()) { return; } SharedFunctionInfo* shared = function->shared(); // If the code is not optimizable, don't try OSR. if (!shared->code()->optimizable()) return; // We are not prepared to do OSR for a function that already has an // allocated arguments object. The optimized code would bypass it for // arguments accesses, which is unsound. Don't try OSR. if (shared->scope_info()->HasArgumentsShadow()) return; // We're using on-stack replacement: patch the unoptimized code so that // any back edge in any unoptimized frame will trigger on-stack // replacement for that frame. if (FLAG_trace_osr) { PrintF("[patching stack checks in "); function->PrintName(); PrintF(" for on-stack replacement]\n"); } // Get the stack check stub code object to match against. We aren't // prepared to generate it, but we don't expect to have to. StackCheckStub check_stub; Object* check_code; MaybeObject* maybe_check_code = check_stub.TryGetCode(); if (maybe_check_code->ToObject(&check_code)) { Code* replacement_code = Builtins::builtin(Builtins::OnStackReplacement); Code* unoptimized_code = shared->code(); // Iterate the unoptimized code and patch every stack check except at // the function entry. This code assumes the function entry stack // check appears first i.e., is not deferred or otherwise reordered. bool first = true; for (RelocIterator it(unoptimized_code, RelocInfo::kCodeTargetMask); !it.done(); it.next()) { RelocInfo* rinfo = it.rinfo(); if (rinfo->target_address() == Code::cast(check_code)->entry()) { if (first) { first = false; } else { Deoptimizer::PatchStackCheckCode(rinfo, replacement_code); } } } } } static void ClearSampleBuffer() { for (int i = 0; i < kSamplerWindowSize; i++) { sampler_window[i] = NULL; sampler_window_weight[i] = 0; } } static void ClearSampleBufferNewSpaceEntries() { for (int i = 0; i < kSamplerWindowSize; i++) { if (Heap::InNewSpace(sampler_window[i])) { sampler_window[i] = NULL; sampler_window_weight[i] = 0; } } } static int LookupSample(JSFunction* function) { int weight = 0; for (int i = 0; i < kSamplerWindowSize; i++) { Object* sample = sampler_window[i]; if (sample != NULL) { if (function == sample) { weight += sampler_window_weight[i]; } } } return weight; } static void AddSample(JSFunction* function, int weight) { ASSERT(IsPowerOf2(kSamplerWindowSize)); sampler_window[sampler_window_position] = function; sampler_window_weight[sampler_window_position] = weight; sampler_window_position = (sampler_window_position + 1) & (kSamplerWindowSize - 1); } void RuntimeProfiler::OptimizeNow() { HandleScope scope; PendingListNode* current = optimize_soon_list; while (current != NULL) { PendingListNode* next = current->next(); if (current->IsValid()) { Handle function = current->function(); int delay = current->Delay(); if (IsOptimizable(*function)) { Optimize(*function, true, delay); } } delete current; current = next; } optimize_soon_list = NULL; // Run through the JavaScript frames and collect them. If we already // have a sample of the function, we mark it for optimizations // (eagerly or lazily). JSFunction* samples[kSamplerFrameCount]; int count = 0; for (JavaScriptFrameIterator it; count < kSamplerFrameCount && !it.done(); it.Advance()) { JavaScriptFrame* frame = it.frame(); JSFunction* function = JSFunction::cast(frame->function()); int function_size = function->shared()->SourceSize(); int threshold_size_factor; if (function_size > kSizeLimit) { threshold_size_factor = sampler_threshold_size_factor; } else { threshold_size_factor = 1; } int threshold = sampler_threshold * threshold_size_factor; samples[count++] = function; if (function->IsMarkedForLazyRecompilation()) { Code* unoptimized = function->shared()->code(); int nesting = unoptimized->allow_osr_at_loop_nesting_level(); if (nesting == 0) AttemptOnStackReplacement(function); int new_nesting = Min(nesting + 1, Code::kMaxLoopNestingMarker); unoptimized->set_allow_osr_at_loop_nesting_level(new_nesting); } else if (LookupSample(function) >= threshold) { if (IsOptimizable(function)) { Optimize(function, false, 0); CompilationCache::MarkForEagerOptimizing(Handle(function)); } } } // Add the collected functions as samples. It's important not to do // this as part of collecting them because this will interfere with // the sample lookup in case of recursive functions. for (int i = 0; i < count; i++) { AddSample(samples[i], kSamplerFrameWeight[i]); } } void RuntimeProfiler::OptimizeSoon(JSFunction* function) { if (!IsOptimizable(function)) return; PendingListNode* node = new PendingListNode(function); node->set_next(optimize_soon_list); optimize_soon_list = node; } void RuntimeProfiler::NotifyTick() { StackGuard::RequestRuntimeProfilerTick(); } void RuntimeProfiler::MarkCompactPrologue(bool is_compacting) { if (is_compacting) { // Clear all samples before mark-sweep-compact because every // function might move. ClearSampleBuffer(); } else { // Clear only new space entries on mark-sweep since none of the // old-space functions will move. ClearSampleBufferNewSpaceEntries(); } } bool IsEqual(void* first, void* second) { return first == second; } void RuntimeProfiler::Setup() { ClearSampleBuffer(); // If the ticker hasn't already started, make sure to do so to get // the ticks for the runtime profiler. if (IsEnabled()) Logger::EnsureTickerStarted(); } void RuntimeProfiler::Reset() { sampler_threshold = kSamplerThresholdInit; sampler_threshold_size_factor = kSamplerThresholdSizeFactorInit; } void RuntimeProfiler::TearDown() { // Nothing to do. } Object** RuntimeProfiler::SamplerWindowAddress() { return sampler_window; } int RuntimeProfiler::SamplerWindowSize() { return kSamplerWindowSize; } bool RuntimeProfilerRateLimiter::SuspendIfNecessary() { static const int kNonJSTicksThreshold = 100; // We suspend the runtime profiler thread when not running // JavaScript. If the CPU profiler is active we must not do this // because it samples both JavaScript and C++ code. if (RuntimeProfiler::IsEnabled() && !CpuProfiler::is_profiling() && !(FLAG_prof && FLAG_prof_auto)) { if (Top::IsInJSState()) { non_js_ticks_ = 0; } else { if (non_js_ticks_ < kNonJSTicksThreshold) { ++non_js_ticks_; } else { if (Top::WaitForJSState()) return true; } } } return false; } } } // namespace v8::internal