vm/compiler/Compiler.c - platform/dalvik - Git at Google

 /*
  * Copyright (C) 2009 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.
  */

 #include <sys/mman.h>
 #include <errno.h>

 #include "Dalvik.h"
 #include "interp/Jit.h"
 #include "CompilerInternals.h"

 static inline bool workQueueLength(void)
 {
     return gDvmJit.compilerQueueLength;
 }

 static CompilerWorkOrder workDequeue(void)
 {
     assert(gDvmJit.compilerWorkQueue[gDvmJit.compilerWorkDequeueIndex].kind
            != kWorkOrderInvalid);
     CompilerWorkOrder work =
         gDvmJit.compilerWorkQueue[gDvmJit.compilerWorkDequeueIndex];
     gDvmJit.compilerWorkQueue[gDvmJit.compilerWorkDequeueIndex++].kind =
         kWorkOrderInvalid;
     if (gDvmJit.compilerWorkDequeueIndex == COMPILER_WORK_QUEUE_SIZE) {
         gDvmJit.compilerWorkDequeueIndex = 0;
     }
     gDvmJit.compilerQueueLength--;

     /* Remember the high water mark of the queue length */
     if (gDvmJit.compilerQueueLength > gDvmJit.compilerMaxQueued)
         gDvmJit.compilerMaxQueued = gDvmJit.compilerQueueLength;

     return work;
 }

 bool dvmCompilerWorkEnqueue(const u2 *pc, WorkOrderKind kind, void* info)
 {
     int cc;
     int i;
     int numWork;

     dvmLockMutex(&gDvmJit.compilerLock);

     /* Queue full */
     if (gDvmJit.compilerQueueLength == COMPILER_WORK_QUEUE_SIZE ||
         gDvmJit.codeCacheFull == true) {
         dvmUnlockMutex(&gDvmJit.compilerLock);
         return false;
     }

     for (numWork = gDvmJit.compilerQueueLength,
            i = gDvmJit.compilerWorkDequeueIndex;
          numWork > 0;
          numWork--) {
         /* Already enqueued */
         if (gDvmJit.compilerWorkQueue[i++].pc == pc)
             goto done;
         /* Wrap around */
         if (i == COMPILER_WORK_QUEUE_SIZE)
             i = 0;
     }

     gDvmJit.compilerWorkQueue[gDvmJit.compilerWorkEnqueueIndex].pc = pc;
     gDvmJit.compilerWorkQueue[gDvmJit.compilerWorkEnqueueIndex].kind = kind;
     gDvmJit.compilerWorkQueue[gDvmJit.compilerWorkEnqueueIndex].info = info;
     gDvmJit.compilerWorkEnqueueIndex++;
     if (gDvmJit.compilerWorkEnqueueIndex == COMPILER_WORK_QUEUE_SIZE)
         gDvmJit.compilerWorkEnqueueIndex = 0;
     gDvmJit.compilerQueueLength++;
     cc = pthread_cond_signal(&gDvmJit.compilerQueueActivity);
     assert(cc == 0);

 done:
     dvmUnlockMutex(&gDvmJit.compilerLock);
     return true;
 }

 /* Block until queue length is 0 */
 void dvmCompilerDrainQueue(void)
 {
     dvmLockMutex(&gDvmJit.compilerLock);
     while (workQueueLength() != 0 && !gDvmJit.haltCompilerThread) {
         pthread_cond_wait(&gDvmJit.compilerQueueEmpty, &gDvmJit.compilerLock);
     }
     dvmUnlockMutex(&gDvmJit.compilerLock);
 }

 static void *compilerThreadStart(void *arg)
 {
     dvmChangeStatus(NULL, THREAD_VMWAIT);

     dvmLockMutex(&gDvmJit.compilerLock);
     /*
      * Since the compiler thread will not touch any objects on the heap once
      * being created, we just fake its state as VMWAIT so that it can be a
      * bit late when there is suspend request pending.
      */
     while (!gDvmJit.haltCompilerThread) {
         if (workQueueLength() == 0) {
             int cc;
             cc = pthread_cond_signal(&gDvmJit.compilerQueueEmpty);
             assert(cc == 0);
             pthread_cond_wait(&gDvmJit.compilerQueueActivity,
                               &gDvmJit.compilerLock);
             continue;
         } else {
             do {
                 CompilerWorkOrder work = workDequeue();
                 dvmUnlockMutex(&gDvmJit.compilerLock);
                 /* Check whether there is a suspend request on me */
                 dvmCheckSuspendPending(NULL);
                 /* Is JitTable filling up? */
                 if (gDvmJit.jitTableEntriesUsed >
                     (gDvmJit.jitTableSize - gDvmJit.jitTableSize/4)) {
                     dvmJitResizeJitTable(gDvmJit.jitTableSize * 2);
                 }
                 if (gDvmJit.haltCompilerThread) {
                     LOGD("Compiler shutdown in progress - discarding request");
                 } else {
                     /* Compilation is successful */
                     if (dvmCompilerDoWork(&work)) {
                         dvmJitSetCodeAddr(work.pc, work.result.codeAddress,
                                           work.result.instructionSet);
                     }
                 }
                 free(work.info);
                 dvmLockMutex(&gDvmJit.compilerLock);
             } while (workQueueLength() != 0);
         }
     }
     pthread_cond_signal(&gDvmJit.compilerQueueEmpty);
     dvmUnlockMutex(&gDvmJit.compilerLock);

     /*
      * As part of detaching the thread we need to call into Java code to update
      * the ThreadGroup, and we should not be in VMWAIT state while executing
      * interpreted code.
      */
     dvmChangeStatus(NULL, THREAD_RUNNING);

     LOGD("Compiler thread shutting down\n");
     return NULL;
 }

 bool dvmCompilerSetupCodeCache(void)
 {
     extern void dvmCompilerTemplateStart(void);
     extern void dmvCompilerTemplateEnd(void);

     /* Allocate the code cache */
     gDvmJit.codeCache = mmap(0, CODE_CACHE_SIZE,
                           PROT_READ | PROT_WRITE | PROT_EXEC,
                           MAP_PRIVATE | MAP_ANON, -1, 0);
     if (gDvmJit.codeCache == MAP_FAILED) {
         LOGE("Failed to create the code cache: %s\n", strerror(errno));
         return false;
     }

     /* Copy the template code into the beginning of the code cache */
     int templateSize = (intptr_t) dmvCompilerTemplateEnd -
                        (intptr_t) dvmCompilerTemplateStart;
     memcpy((void *) gDvmJit.codeCache,
            (void *) dvmCompilerTemplateStart,
            templateSize);

     gDvmJit.templateSize = templateSize;
     gDvmJit.codeCacheByteUsed = templateSize;

     /* Flush dcache and invalidate the icache to maintain coherence */
     cacheflush((intptr_t) gDvmJit.codeCache,
                (intptr_t) gDvmJit.codeCache + CODE_CACHE_SIZE, 0);
     return true;
 }

 bool dvmCompilerStartup(void)
 {
     /* Make sure the BBType enum is in sane state */
     assert(CHAINING_CELL_NORMAL == 0);

     /* Architecture-specific chores to initialize */
     if (!dvmCompilerArchInit())
         goto fail;

     /*
      * Setup the code cache if it is not done so already. For apps it should be
      * done by the Zygote already, but for command-line dalvikvm invocation we
      * need to do it here.
      */
     if (gDvmJit.codeCache == NULL) {
         if (!dvmCompilerSetupCodeCache())
             goto fail;
     }

     /* Allocate the initial arena block */
     if (dvmCompilerHeapInit() == false) {
         goto fail;
     }

     dvmInitMutex(&gDvmJit.compilerLock);
     pthread_cond_init(&gDvmJit.compilerQueueActivity, NULL);
     pthread_cond_init(&gDvmJit.compilerQueueEmpty, NULL);

     dvmLockMutex(&gDvmJit.compilerLock);

     gDvmJit.haltCompilerThread = false;

     /* Reset the work queue */
     memset(gDvmJit.compilerWorkQueue, 0,
            sizeof(CompilerWorkOrder) * COMPILER_WORK_QUEUE_SIZE);
     gDvmJit.compilerWorkEnqueueIndex = gDvmJit.compilerWorkDequeueIndex = 0;
     gDvmJit.compilerQueueLength = 0;
     gDvmJit.compilerHighWater =
         COMPILER_WORK_QUEUE_SIZE - (COMPILER_WORK_QUEUE_SIZE/4);

     assert(gDvmJit.compilerHighWater < COMPILER_WORK_QUEUE_SIZE);
     if (!dvmCreateInternalThread(&gDvmJit.compilerHandle, "Compiler",
                                  compilerThreadStart, NULL)) {
         dvmUnlockMutex(&gDvmJit.compilerLock);
         goto fail;
     }

     /* Track method-level compilation statistics */
     gDvmJit.methodStatsTable =  dvmHashTableCreate(32, NULL);

     dvmUnlockMutex(&gDvmJit.compilerLock);

     return true;

 fail:
     return false;
 }

 void dvmCompilerShutdown(void)
 {
     void *threadReturn;

     if (gDvmJit.compilerHandle) {

         gDvmJit.haltCompilerThread = true;

         dvmLockMutex(&gDvmJit.compilerLock);
         pthread_cond_signal(&gDvmJit.compilerQueueActivity);
         dvmUnlockMutex(&gDvmJit.compilerLock);

         if (pthread_join(gDvmJit.compilerHandle, &threadReturn) != 0)
             LOGW("Compiler thread join failed\n");
         else
             LOGD("Compiler thread has shut down\n");
     }
 }
	/*
	* Copyright (C) 2009 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.
	*/

	#include <sys/mman.h>
	#include <errno.h>

	#include "Dalvik.h"
	#include "interp/Jit.h"
	#include "CompilerInternals.h"

	static inline bool workQueueLength(void)
	{
	return gDvmJit.compilerQueueLength;
	}

	static CompilerWorkOrder workDequeue(void)
	{
	assert(gDvmJit.compilerWorkQueue[gDvmJit.compilerWorkDequeueIndex].kind
	!= kWorkOrderInvalid);
	CompilerWorkOrder work =
	gDvmJit.compilerWorkQueue[gDvmJit.compilerWorkDequeueIndex];
	gDvmJit.compilerWorkQueue[gDvmJit.compilerWorkDequeueIndex++].kind =
	kWorkOrderInvalid;
	if (gDvmJit.compilerWorkDequeueIndex == COMPILER_WORK_QUEUE_SIZE) {
	gDvmJit.compilerWorkDequeueIndex = 0;
	}
	gDvmJit.compilerQueueLength--;

	/* Remember the high water mark of the queue length */
	if (gDvmJit.compilerQueueLength > gDvmJit.compilerMaxQueued)
	gDvmJit.compilerMaxQueued = gDvmJit.compilerQueueLength;

	return work;
	}

	bool dvmCompilerWorkEnqueue(const u2 pc, WorkOrderKind kind, void info)
	{
	int cc;
	int i;
	int numWork;

	dvmLockMutex(&gDvmJit.compilerLock);

	/* Queue full */
	if (gDvmJit.compilerQueueLength == COMPILER_WORK_QUEUE_SIZE \|\|
	gDvmJit.codeCacheFull == true) {
	dvmUnlockMutex(&gDvmJit.compilerLock);
	return false;
	}

	for (numWork = gDvmJit.compilerQueueLength,
	i = gDvmJit.compilerWorkDequeueIndex;
	numWork > 0;
	numWork--) {
	/* Already enqueued */
	if (gDvmJit.compilerWorkQueue[i++].pc == pc)
	goto done;
	/* Wrap around */
	if (i == COMPILER_WORK_QUEUE_SIZE)
	i = 0;
	}

	gDvmJit.compilerWorkQueue[gDvmJit.compilerWorkEnqueueIndex].pc = pc;
	gDvmJit.compilerWorkQueue[gDvmJit.compilerWorkEnqueueIndex].kind = kind;
	gDvmJit.compilerWorkQueue[gDvmJit.compilerWorkEnqueueIndex].info = info;
	gDvmJit.compilerWorkEnqueueIndex++;
	if (gDvmJit.compilerWorkEnqueueIndex == COMPILER_WORK_QUEUE_SIZE)
	gDvmJit.compilerWorkEnqueueIndex = 0;
	gDvmJit.compilerQueueLength++;
	cc = pthread_cond_signal(&gDvmJit.compilerQueueActivity);
	assert(cc == 0);

	done:
	dvmUnlockMutex(&gDvmJit.compilerLock);
	return true;
	}

	/* Block until queue length is 0 */
	void dvmCompilerDrainQueue(void)
	{
	dvmLockMutex(&gDvmJit.compilerLock);
	while (workQueueLength() != 0 && !gDvmJit.haltCompilerThread) {
	pthread_cond_wait(&gDvmJit.compilerQueueEmpty, &gDvmJit.compilerLock);
	}
	dvmUnlockMutex(&gDvmJit.compilerLock);
	}

	static void compilerThreadStart(void arg)
	{
	dvmChangeStatus(NULL, THREAD_VMWAIT);

	dvmLockMutex(&gDvmJit.compilerLock);
	/*
	* Since the compiler thread will not touch any objects on the heap once
	* being created, we just fake its state as VMWAIT so that it can be a
	* bit late when there is suspend request pending.
	*/
	while (!gDvmJit.haltCompilerThread) {
	if (workQueueLength() == 0) {
	int cc;
	cc = pthread_cond_signal(&gDvmJit.compilerQueueEmpty);
	assert(cc == 0);
	pthread_cond_wait(&gDvmJit.compilerQueueActivity,
	&gDvmJit.compilerLock);
	continue;
	} else {
	do {
	CompilerWorkOrder work = workDequeue();
	dvmUnlockMutex(&gDvmJit.compilerLock);
	/* Check whether there is a suspend request on me */
	dvmCheckSuspendPending(NULL);
	/* Is JitTable filling up? */
	if (gDvmJit.jitTableEntriesUsed >
	(gDvmJit.jitTableSize - gDvmJit.jitTableSize/4)) {
	dvmJitResizeJitTable(gDvmJit.jitTableSize * 2);
	}
	if (gDvmJit.haltCompilerThread) {
	LOGD("Compiler shutdown in progress - discarding request");
	} else {
	/* Compilation is successful */
	if (dvmCompilerDoWork(&work)) {
	dvmJitSetCodeAddr(work.pc, work.result.codeAddress,
	work.result.instructionSet);
	}
	}
	free(work.info);
	dvmLockMutex(&gDvmJit.compilerLock);
	} while (workQueueLength() != 0);
	}
	}
	pthread_cond_signal(&gDvmJit.compilerQueueEmpty);
	dvmUnlockMutex(&gDvmJit.compilerLock);

	/*
	* As part of detaching the thread we need to call into Java code to update
	* the ThreadGroup, and we should not be in VMWAIT state while executing
	* interpreted code.
	*/
	dvmChangeStatus(NULL, THREAD_RUNNING);

	LOGD("Compiler thread shutting down\n");
	return NULL;
	}

	bool dvmCompilerSetupCodeCache(void)
	{
	extern void dvmCompilerTemplateStart(void);
	extern void dmvCompilerTemplateEnd(void);

	/* Allocate the code cache */
	gDvmJit.codeCache = mmap(0, CODE_CACHE_SIZE,
	PROT_READ \| PROT_WRITE \| PROT_EXEC,
	MAP_PRIVATE \| MAP_ANON, -1, 0);
	if (gDvmJit.codeCache == MAP_FAILED) {
	LOGE("Failed to create the code cache: %s\n", strerror(errno));
	return false;
	}

	/* Copy the template code into the beginning of the code cache */
	int templateSize = (intptr_t) dmvCompilerTemplateEnd -
	(intptr_t) dvmCompilerTemplateStart;
	memcpy((void *) gDvmJit.codeCache,
	(void *) dvmCompilerTemplateStart,
	templateSize);

	gDvmJit.templateSize = templateSize;
	gDvmJit.codeCacheByteUsed = templateSize;

	/* Flush dcache and invalidate the icache to maintain coherence */
	cacheflush((intptr_t) gDvmJit.codeCache,
	(intptr_t) gDvmJit.codeCache + CODE_CACHE_SIZE, 0);
	return true;
	}

	bool dvmCompilerStartup(void)
	{
	/* Make sure the BBType enum is in sane state */
	assert(CHAINING_CELL_NORMAL == 0);

	/* Architecture-specific chores to initialize */
	if (!dvmCompilerArchInit())
	goto fail;

	/*
	* Setup the code cache if it is not done so already. For apps it should be
	* done by the Zygote already, but for command-line dalvikvm invocation we
	* need to do it here.
	*/
	if (gDvmJit.codeCache == NULL) {
	if (!dvmCompilerSetupCodeCache())
	goto fail;
	}

	/* Allocate the initial arena block */
	if (dvmCompilerHeapInit() == false) {
	goto fail;
	}

	dvmInitMutex(&gDvmJit.compilerLock);
	pthread_cond_init(&gDvmJit.compilerQueueActivity, NULL);
	pthread_cond_init(&gDvmJit.compilerQueueEmpty, NULL);

	dvmLockMutex(&gDvmJit.compilerLock);

	gDvmJit.haltCompilerThread = false;

	/* Reset the work queue */
	memset(gDvmJit.compilerWorkQueue, 0,
	sizeof(CompilerWorkOrder) * COMPILER_WORK_QUEUE_SIZE);
	gDvmJit.compilerWorkEnqueueIndex = gDvmJit.compilerWorkDequeueIndex = 0;
	gDvmJit.compilerQueueLength = 0;
	gDvmJit.compilerHighWater =
	COMPILER_WORK_QUEUE_SIZE - (COMPILER_WORK_QUEUE_SIZE/4);

	assert(gDvmJit.compilerHighWater < COMPILER_WORK_QUEUE_SIZE);
	if (!dvmCreateInternalThread(&gDvmJit.compilerHandle, "Compiler",
	compilerThreadStart, NULL)) {
	dvmUnlockMutex(&gDvmJit.compilerLock);
	goto fail;
	}

	/* Track method-level compilation statistics */
	gDvmJit.methodStatsTable = dvmHashTableCreate(32, NULL);

	dvmUnlockMutex(&gDvmJit.compilerLock);

	return true;

	fail:
	return false;
	}

	void dvmCompilerShutdown(void)
	{
	void *threadReturn;

	if (gDvmJit.compilerHandle) {

	gDvmJit.haltCompilerThread = true;

	dvmLockMutex(&gDvmJit.compilerLock);
	pthread_cond_signal(&gDvmJit.compilerQueueActivity);
	dvmUnlockMutex(&gDvmJit.compilerLock);

	if (pthread_join(gDvmJit.compilerHandle, &threadReturn) != 0)
	LOGW("Compiler thread join failed\n");
	else
	LOGD("Compiler thread has shut down\n");
	}
	}