/* * Copyright (c) 1998, 2016, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. * */ #include "precompiled.hpp" #include "compiler/compileTask.hpp" #include "compiler/compileLog.hpp" #include "compiler/compileBroker.hpp" #include "compiler/compilerDirectives.hpp" #include "memory/resourceArea.hpp" CompileTask* CompileTask::_task_free_list = NULL; #ifdef ASSERT int CompileTask::_num_allocated_tasks = 0; #endif /** * Allocate a CompileTask, from the free list if possible. */ CompileTask* CompileTask::allocate() { MutexLocker locker(CompileTaskAlloc_lock); CompileTask* task = NULL; if (_task_free_list != NULL) { task = _task_free_list; _task_free_list = task->next(); task->set_next(NULL); } else { task = new CompileTask(); DEBUG_ONLY(_num_allocated_tasks++;) assert (WhiteBoxAPI || JVMCI_ONLY(UseJVMCICompiler ||) _num_allocated_tasks < 10000, "Leaking compilation tasks?"); task->set_next(NULL); task->set_is_free(true); } assert(task->is_free(), "Task must be free."); task->set_is_free(false); return task; } /** * Add a task to the free list. */ void CompileTask::free(CompileTask* task) { MutexLocker locker(CompileTaskAlloc_lock); if (!task->is_free()) { task->set_code(NULL); assert(!task->lock()->is_locked(), "Should not be locked when freed"); JNIHandles::destroy_global(task->_method_holder); JNIHandles::destroy_global(task->_hot_method_holder); task->set_is_free(true); task->set_next(_task_free_list); _task_free_list = task; } } void CompileTask::initialize(int compile_id, const methodHandle& method, int osr_bci, int comp_level, const methodHandle& hot_method, int hot_count, CompileTask::CompileReason compile_reason, bool is_blocking) { assert(!_lock->is_locked(), "bad locking"); _compile_id = compile_id; _method = method(); _method_holder = JNIHandles::make_global(method->method_holder()->klass_holder()); _osr_bci = osr_bci; _is_blocking = is_blocking; JVMCI_ONLY(_has_waiter = CompileBroker::compiler(comp_level)->is_jvmci();) JVMCI_ONLY(_jvmci_compiler_thread = NULL;) _comp_level = comp_level; _num_inlined_bytecodes = 0; _is_complete = false; _is_success = false; _code_handle = NULL; _hot_method = NULL; _hot_method_holder = NULL; _hot_count = hot_count; _time_queued = 0; // tidy _compile_reason = compile_reason; _failure_reason = NULL; if (LogCompilation) { _time_queued = os::elapsed_counter(); if (hot_method.not_null()) { if (hot_method == method) { _hot_method = _method; } else { _hot_method = hot_method(); // only add loader or mirror if different from _method_holder _hot_method_holder = JNIHandles::make_global(hot_method->method_holder()->klass_holder()); } } } _next = NULL; } /** * Returns the compiler for this task. */ AbstractCompiler* CompileTask::compiler() { return CompileBroker::compiler(_comp_level); } // ------------------------------------------------------------------ // CompileTask::code/set_code // nmethod* CompileTask::code() const { if (_code_handle == NULL) return NULL; CodeBlob *blob = _code_handle->code(); if (blob != NULL) { return blob->as_nmethod(); } return NULL; } void CompileTask::set_code(nmethod* nm) { if (_code_handle == NULL && nm == NULL) return; guarantee(_code_handle != NULL, ""); _code_handle->set_code(nm); if (nm == NULL) _code_handle = NULL; // drop the handle also } void CompileTask::mark_on_stack() { // Mark these methods as something redefine classes cannot remove. _method->set_on_stack(true); if (_hot_method != NULL) { _hot_method->set_on_stack(true); } } // RedefineClasses support void CompileTask::metadata_do(void f(Metadata*)) { f(method()); if (hot_method() != NULL && hot_method() != method()) { f(hot_method()); } } // ------------------------------------------------------------------ // CompileTask::print_line_on_error // // This function is called by fatal error handler when the thread // causing troubles is a compiler thread. // // Do not grab any lock, do not allocate memory. // // Otherwise it's the same as CompileTask::print_line() // void CompileTask::print_line_on_error(outputStream* st, char* buf, int buflen) { // print compiler name st->print("%s:", CompileBroker::compiler_name(comp_level())); print(st); } // ------------------------------------------------------------------ // CompileTask::print_tty void CompileTask::print_tty() { ttyLocker ttyl; // keep the following output all in one block // print compiler name if requested if (CIPrintCompilerName) { tty->print("%s:", CompileBroker::compiler_name(comp_level())); } print(tty); } // ------------------------------------------------------------------ // CompileTask::print_impl void CompileTask::print_impl(outputStream* st, Method* method, int compile_id, int comp_level, bool is_osr_method, int osr_bci, bool is_blocking, const char* msg, bool short_form, bool cr) { if (!short_form) { st->print("%7d ", (int) st->time_stamp().milliseconds()); // print timestamp } // print compiler name if requested if (CIPrintCompilerName) { st->print("%s:", CompileBroker::compiler_name(comp_level)); } st->print("%4d ", compile_id); // print compilation number // For unloaded methods the transition to zombie occurs after the // method is cleared so it's impossible to report accurate // information for that case. bool is_synchronized = false; bool has_exception_handler = false; bool is_native = false; if (method != NULL) { is_synchronized = method->is_synchronized(); has_exception_handler = method->has_exception_handler(); is_native = method->is_native(); } // method attributes const char compile_type = is_osr_method ? '%' : ' '; const char sync_char = is_synchronized ? 's' : ' '; const char exception_char = has_exception_handler ? '!' : ' '; const char blocking_char = is_blocking ? 'b' : ' '; const char native_char = is_native ? 'n' : ' '; // print method attributes st->print("%c%c%c%c%c ", compile_type, sync_char, exception_char, blocking_char, native_char); if (TieredCompilation) { if (comp_level != -1) st->print("%d ", comp_level); else st->print("- "); } st->print(" "); // more indent if (method == NULL) { st->print("(method)"); } else { method->print_short_name(st); if (is_osr_method) { st->print(" @ %d", osr_bci); } if (method->is_native()) st->print(" (native)"); else st->print(" (%d bytes)", method->code_size()); } if (msg != NULL) { st->print(" %s", msg); } if (cr) { st->cr(); } } void CompileTask::print_inline_indent(int inline_level, outputStream* st) { // 1234567 st->print(" "); // print timestamp // 1234 st->print(" "); // print compilation number // %s!bn st->print(" "); // print method attributes if (TieredCompilation) { st->print(" "); } st->print(" "); // more indent st->print(" "); // initial inlining indent for (int i = 0; i < inline_level; i++) st->print(" "); } // ------------------------------------------------------------------ // CompileTask::print_compilation void CompileTask::print(outputStream* st, const char* msg, bool short_form, bool cr) { bool is_osr_method = osr_bci() != InvocationEntryBci; print_impl(st, method(), compile_id(), comp_level(), is_osr_method, osr_bci(), is_blocking(), msg, short_form, cr); } // ------------------------------------------------------------------ // CompileTask::log_task void CompileTask::log_task(xmlStream* log) { Thread* thread = Thread::current(); methodHandle method(thread, this->method()); ResourceMark rm(thread); // log->print(" compile_id='%d'", _compile_id); if (_osr_bci != CompileBroker::standard_entry_bci) { log->print(" compile_kind='osr'"); // same as nmethod::compile_kind } // else compile_kind='c2c' if (!method.is_null()) log->method(method); if (_osr_bci != CompileBroker::standard_entry_bci) { log->print(" osr_bci='%d'", _osr_bci); } if (_comp_level != CompLevel_highest_tier) { log->print(" level='%d'", _comp_level); } if (_is_blocking) { log->print(" blocking='1'"); } log->stamp(); } // ------------------------------------------------------------------ // CompileTask::log_task_queued void CompileTask::log_task_queued() { Thread* thread = Thread::current(); ttyLocker ttyl; ResourceMark rm(thread); xtty->begin_elem("task_queued"); log_task(xtty); assert(_compile_reason > CompileTask::Reason_None && _compile_reason < CompileTask::Reason_Count, "Valid values"); xtty->print(" comment='%s'", reason_name(_compile_reason)); if (_hot_method != NULL) { methodHandle hot(thread, _hot_method); methodHandle method(thread, _method); if (hot() != method()) { xtty->method(hot); } } if (_hot_count != 0) { xtty->print(" hot_count='%d'", _hot_count); } xtty->end_elem(); } // ------------------------------------------------------------------ // CompileTask::log_task_start void CompileTask::log_task_start(CompileLog* log) { log->begin_head("task"); log_task(log); log->end_head(); } // ------------------------------------------------------------------ // CompileTask::log_task_done void CompileTask::log_task_done(CompileLog* log) { Thread* thread = Thread::current(); methodHandle method(thread, this->method()); ResourceMark rm(thread); if (!_is_success) { const char* reason = _failure_reason != NULL ? _failure_reason : "unknown"; log->elem("failure reason='%s'", reason); } // nmethod* nm = code(); log->begin_elem("task_done success='%d' nmsize='%d' count='%d'", _is_success, nm == NULL ? 0 : nm->content_size(), method->invocation_count()); int bec = method->backedge_count(); if (bec != 0) log->print(" backedge_count='%d'", bec); // Note: "_is_complete" is about to be set, but is not. if (_num_inlined_bytecodes != 0) { log->print(" inlined_bytes='%d'", _num_inlined_bytecodes); } log->stamp(); log->end_elem(); log->clear_identities(); // next task will have different CI log->tail("task"); if (log->unflushed_count() > 2000) { log->flush(); } log->mark_file_end(); } // ------------------------------------------------------------------ // CompileTask::check_break_at_flags bool CompileTask::check_break_at_flags() { int compile_id = this->_compile_id; bool is_osr = (_osr_bci != CompileBroker::standard_entry_bci); if (CICountOSR && is_osr && (compile_id == CIBreakAtOSR)) { return true; } else { return (compile_id == CIBreakAt); } } // ------------------------------------------------------------------ // CompileTask::print_inlining void CompileTask::print_inlining_inner(outputStream* st, ciMethod* method, int inline_level, int bci, const char* msg) { // 1234567 st->print(" "); // print timestamp // 1234 st->print(" "); // print compilation number // method attributes if (method->is_loaded()) { const char sync_char = method->is_synchronized() ? 's' : ' '; const char exception_char = method->has_exception_handlers() ? '!' : ' '; const char monitors_char = method->has_monitor_bytecodes() ? 'm' : ' '; // print method attributes st->print(" %c%c%c ", sync_char, exception_char, monitors_char); } else { // %s!bn st->print(" "); // print method attributes } if (TieredCompilation) { st->print(" "); } st->print(" "); // more indent st->print(" "); // initial inlining indent for (int i = 0; i < inline_level; i++) st->print(" "); st->print("@ %d ", bci); // print bci method->print_short_name(st); if (method->is_loaded()) st->print(" (%d bytes)", method->code_size()); else st->print(" (not loaded)"); if (msg != NULL) { st->print(" %s", msg); } st->cr(); }