/*
* Copyright (C) 2008 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 "Hprof.h"
#include "HprofStack.h"
#include "alloc/HeapInternal.h"
static HashTable *gStackTraceHashTable = NULL;
static int gSerialNumber = 0;
/* Number of stack frames to cache */
#define STACK_DEPTH 8
typedef struct {
int serialNumber;
int threadSerialNumber;
int frameIds[STACK_DEPTH];
} StackTrace;
typedef struct {
StackTrace trace;
u1 live;
} StackTraceEntry;
static u4 computeStackTraceHash(const StackTraceEntry *stackTraceEntry);
int
hprofStartup_Stack()
{
HashIter iter;
/* This will be called when a GC begins. */
for (dvmHashIterBegin(gStackTraceHashTable, &iter);
!dvmHashIterDone(&iter);
dvmHashIterNext(&iter)) {
StackTraceEntry *stackTraceEntry;
/* Clear the 'live' bit at the start of the GC pass. */
stackTraceEntry = (StackTraceEntry *) dvmHashIterData(&iter);
stackTraceEntry->live = 0;
}
return 0;
}
int
hprofShutdown_Stack()
{
HashIter iter;
/* This will be called when a GC has completed. */
for (dvmHashIterBegin(gStackTraceHashTable, &iter);
!dvmHashIterDone(&iter);
dvmHashIterNext(&iter)) {
StackTraceEntry *stackTraceEntry;
/*
* If the 'live' bit is 0, the trace is not in use by any current
* heap object and may be destroyed.
*/
stackTraceEntry = (StackTraceEntry *) dvmHashIterData(&iter);
if (!stackTraceEntry->live) {
dvmHashTableRemove(gStackTraceHashTable,
computeStackTraceHash(stackTraceEntry), stackTraceEntry);
free(stackTraceEntry);
}
}
return 0;
}
static u4
computeStackTraceHash(const StackTraceEntry *stackTraceEntry)
{
u4 hash = 0;
const char *cp = (const char *) &stackTraceEntry->trace;
int i;
for (i = 0; i < (int) sizeof(StackTrace); i++) {
hash = hash * 31 + cp[i];
}
return hash;
}
/* Only compare the 'trace' portion of the StackTraceEntry. */
static int
stackCmp(const void *tableItem, const void *looseItem)
{
return memcmp(&((StackTraceEntry *) tableItem)->trace,
&((StackTraceEntry *) looseItem)->trace, sizeof(StackTrace));
}
static StackTraceEntry *
stackDup(const StackTraceEntry *stackTrace)
{
StackTraceEntry *newStackTrace = malloc(sizeof(StackTraceEntry));
memcpy(newStackTrace, stackTrace, sizeof(StackTraceEntry));
return newStackTrace;
}
static u4
hprofLookupStackSerialNumber(const StackTraceEntry *stackTrace)
{
StackTraceEntry *val;
u4 hashValue;
int serial;
/*
* Create the hash table on first contact. We can't do this in
* hprofStartupStack, because we have to compute stack trace
* serial numbers and place them into object headers before the
* rest of hprof is triggered by a GC event.
*/
if (gStackTraceHashTable == NULL) {
gStackTraceHashTable = dvmHashTableCreate(512, free);
}
dvmHashTableLock(gStackTraceHashTable);
hashValue = computeStackTraceHash(stackTrace);
val = dvmHashTableLookup(gStackTraceHashTable, hashValue, (void *)stackTrace,
(HashCompareFunc)stackCmp, false);
if (val == NULL) {
StackTraceEntry *newStackTrace;
newStackTrace = stackDup(stackTrace);
newStackTrace->trace.serialNumber = ++gSerialNumber;
val = dvmHashTableLookup(gStackTraceHashTable, hashValue,
(void *)newStackTrace, (HashCompareFunc)stackCmp, true);
assert(val != NULL);
}
/* Mark the trace as live (in use by an object in the current heap). */
val->live = 1;
/* Grab the serial number before unlocking the table. */
serial = val->trace.serialNumber;
dvmHashTableUnlock(gStackTraceHashTable);
return serial;
}
int
hprofDumpStacks(hprof_context_t *ctx)
{
HashIter iter;
hprof_record_t *rec = &ctx->curRec;
dvmHashTableLock(gStackTraceHashTable);
for (dvmHashIterBegin(gStackTraceHashTable, &iter);
!dvmHashIterDone(&iter);
dvmHashIterNext(&iter))
{
const StackTraceEntry *stackTraceEntry;
int count;
int i;
hprofStartNewRecord(ctx, HPROF_TAG_STACK_TRACE, HPROF_TIME);
stackTraceEntry = (const StackTraceEntry *) dvmHashIterData(&iter);
assert(stackTraceEntry != NULL);
/* STACK TRACE format:
*
* u4: serial number for this stack
* u4: serial number for the running thread
* u4: number of frames
* [ID]*: ID for the stack frame
*/
hprofAddU4ToRecord(rec, stackTraceEntry->trace.serialNumber);
hprofAddU4ToRecord(rec, stackTraceEntry->trace.threadSerialNumber);
count = 0;
while ((count < STACK_DEPTH) &&
(stackTraceEntry->trace.frameIds[count] != 0)) {
count++;
}
hprofAddU4ToRecord(rec, count);
for (i = 0; i < count; i++) {
hprofAddU4ToRecord(rec, stackTraceEntry->trace.frameIds[i]);
}
}
dvmHashTableUnlock(gStackTraceHashTable);
return 0;
}
void
hprofFillInStackTrace(void *objectPtr)
{
DvmHeapChunk *chunk;
StackTraceEntry stackTraceEntry;
Thread* self;
void* fp;
int i;
if (objectPtr == NULL) {
return;
}
self = dvmThreadSelf();
if (self == NULL) {
return;
}
fp = self->curFrame;
/* Serial number to be filled in later. */
stackTraceEntry.trace.serialNumber = -1;
/*
* TODO - The HAT tool doesn't care about thread data, so we can defer
* actually emitting thread records and assigning thread serial numbers.
*/
stackTraceEntry.trace.threadSerialNumber = (int) self;
memset(&stackTraceEntry.trace.frameIds, 0,
sizeof(stackTraceEntry.trace.frameIds));
i = 0;
while ((fp != NULL) && (i < STACK_DEPTH)) {
const StackSaveArea* saveArea = SAVEAREA_FROM_FP(fp);
const Method* method = saveArea->method;
StackFrameEntry frame;
if (!dvmIsBreakFrame(fp)) {
frame.frame.method = method;
if (dvmIsNativeMethod(method)) {
frame.frame.pc = 0; /* no saved PC for native methods */
} else {
assert(saveArea->xtra.currentPc >= method->insns &&
saveArea->xtra.currentPc <
method->insns + dvmGetMethodInsnsSize(method));
frame.frame.pc = (int) (saveArea->xtra.currentPc -
method->insns);
}
// Canonicalize the frame and cache it in the hprof context
stackTraceEntry.trace.frameIds[i++] =
hprofLookupStackFrameId(&frame);
}
assert(fp != saveArea->prevFrame);
fp = saveArea->prevFrame;
}
/* Store the stack trace serial number in the object header */
chunk = ptr2chunk(objectPtr);
chunk->stackTraceSerialNumber =
hprofLookupStackSerialNumber(&stackTraceEntry);
}