/*
* 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 <fcntl.h>
#include <stdlib.h>
#include "Dalvik.h"
#include "HeapInternal.h"
#include "HeapSource.h"
#include "Float12.h"
int dvmGetHeapDebugInfo(HeapDebugInfoType info)
{
switch (info) {
case kVirtualHeapSize:
return (int)dvmHeapSourceGetValue(HS_FOOTPRINT, NULL, 0);
case kVirtualHeapAllocated:
return (int)dvmHeapSourceGetValue(HS_BYTES_ALLOCATED, NULL, 0);
default:
return -1;
}
}
/* Looks up the cmdline for the process and tries to find
* the most descriptive five characters, then inserts the
* short name into the provided event value.
*/
#define PROC_NAME_LEN 5
static void insertProcessName(long long *ep)
{
static bool foundRealName = false;
static char name[PROC_NAME_LEN] = { 'X', 'X', 'X', 'X', 'X' };
long long event = *ep;
if (!foundRealName) {
int fd = open("/proc/self/cmdline", O_RDONLY);
if (fd > 0) {
char buf[128];
ssize_t n = read(fd, buf, sizeof(buf) - 1);
close(fd);
if (n > 0) {
memset(name, 0, sizeof(name));
if (n <= PROC_NAME_LEN) {
// The whole name fits.
memcpy(name, buf, n);
} else {
/* We need to truncate. The name will look something
* like "com.android.home". Favor the characters
* immediately following the last dot.
*/
buf[n] = '\0';
char *dot = strrchr(buf, '.');
if (dot == NULL) {
/* Or, look for a slash, in case it's something like
* "/system/bin/runtime".
*/
dot = strrchr(buf, '/');
}
if (dot != NULL) {
dot++; // Skip the dot
size_t dotlen = strlen(dot);
if (dotlen < PROC_NAME_LEN) {
/* Use all available characters. We know that
* n > PROC_NAME_LEN from the check above.
*/
dot -= PROC_NAME_LEN - dotlen;
}
strncpy(name, dot, PROC_NAME_LEN);
} else {
// No dot; just use the leading characters.
memcpy(name, buf, PROC_NAME_LEN);
}
}
if (strcmp(buf, "zygote") != 0) {
/* If the process is no longer called "zygote",
* cache this name.
*/
foundRealName = true;
}
}
}
}
event &= ~(0xffffffffffLL << 24);
event |= (long long)name[0] << 56;
event |= (long long)name[1] << 48;
event |= (long long)name[2] << 40;
event |= (long long)name[3] << 32;
event |= (long long)name[4] << 24;
*ep = event;
}
// See device/data/etc/event-log-tags
#define EVENT_LOG_TAG_dvm_gc_info 20001
#define EVENT_LOG_TAG_dvm_gc_madvise_info 20002
void dvmLogGcStats(size_t numFreed, size_t sizeFreed, size_t gcTimeMs)
{
const GcHeap *gcHeap = gDvm.gcHeap;
size_t perHeapActualSize[HEAP_SOURCE_MAX_HEAP_COUNT],
perHeapAllowedSize[HEAP_SOURCE_MAX_HEAP_COUNT],
perHeapNumAllocated[HEAP_SOURCE_MAX_HEAP_COUNT],
perHeapSizeAllocated[HEAP_SOURCE_MAX_HEAP_COUNT];
unsigned char eventBuf[1 + (1 + sizeof(long long)) * 4];
size_t actualSize, allowedSize, numAllocated, sizeAllocated;
size_t i;
size_t softLimit = dvmHeapSourceGetIdealFootprint();
size_t nHeaps = dvmHeapSourceGetNumHeaps();
/* Enough to quiet down gcc for unitialized variable check */
perHeapActualSize[0] = perHeapAllowedSize[0] = perHeapNumAllocated[0] =
perHeapSizeAllocated[0] = 0;
actualSize = dvmHeapSourceGetValue(HS_FOOTPRINT, perHeapActualSize,
HEAP_SOURCE_MAX_HEAP_COUNT);
allowedSize = dvmHeapSourceGetValue(HS_ALLOWED_FOOTPRINT,
perHeapAllowedSize, HEAP_SOURCE_MAX_HEAP_COUNT);
numAllocated = dvmHeapSourceGetValue(HS_OBJECTS_ALLOCATED,
perHeapNumAllocated, HEAP_SOURCE_MAX_HEAP_COUNT);
sizeAllocated = dvmHeapSourceGetValue(HS_BYTES_ALLOCATED,
perHeapSizeAllocated, HEAP_SOURCE_MAX_HEAP_COUNT);
/*
* Construct the the first 64-bit value to write to the log.
* Global information:
*
* [63 ] Must be zero
* [62-24] ASCII process identifier
* [23-12] GC time in ms
* [11- 0] Bytes freed
*
*/
long long event0;
event0 = 0LL << 63 |
(long long)intToFloat12(gcTimeMs) << 12 |
(long long)intToFloat12(sizeFreed);
insertProcessName(&event0);
/*
* Aggregated heap stats:
*
* [63-62] 10
* [61-60] Reserved; must be zero
* [59-48] Objects freed
* [47-36] Actual size (current footprint)
* [35-24] Allowed size (current hard max)
* [23-12] Objects allocated
* [11- 0] Bytes allocated
*/
long long event1;
event1 = 2LL << 62 |
(long long)intToFloat12(numFreed) << 48 |
(long long)intToFloat12(actualSize) << 36 |
(long long)intToFloat12(allowedSize) << 24 |
(long long)intToFloat12(numAllocated) << 12 |
(long long)intToFloat12(sizeAllocated);
/*
* Report the current state of the zygote heap(s).
*
* The active heap is always heap[0]. We can be in one of three states
* at present:
*
* (1) Still in the zygote. Zygote using heap[0].
* (2) In the zygote, when the first child is started. We created a
* new heap just before the first fork() call, so the original
* "zygote heap" is now heap[1], and we have a small heap[0] for
* anything we do from here on.
* (3) In an app process. The app gets a new heap[0], and can also
* see the two zygote heaps [1] and [2] (probably unwise to
* assume any specific ordering).
*
* So if nHeaps == 1, we want the stats from heap[0]; else we want
* the sum of the values from heap[1] to heap[nHeaps-1].
*
*
* Zygote heap stats (except for the soft limit, which belongs to the
* active heap):
*
* [63-62] 11
* [61-60] Reserved; must be zero
* [59-48] Soft Limit (for the active heap)
* [47-36] Actual size (current footprint)
* [35-24] Allowed size (current hard max)
* [23-12] Objects allocated
* [11- 0] Bytes allocated
*/
long long event2;
size_t zActualSize, zAllowedSize, zNumAllocated, zSizeAllocated;
int firstHeap = (nHeaps == 1) ? 0 : 1;
size_t hh;
zActualSize = zAllowedSize = zNumAllocated = zSizeAllocated = 0;
for (hh = firstHeap; hh < nHeaps; hh++) {
zActualSize += perHeapActualSize[hh];
zAllowedSize += perHeapAllowedSize[hh];
zNumAllocated += perHeapNumAllocated[hh];
zSizeAllocated += perHeapSizeAllocated[hh];
}
event2 = 3LL << 62 |
(long long)intToFloat12(softLimit) << 48 |
(long long)intToFloat12(zActualSize) << 36 |
(long long)intToFloat12(zAllowedSize) << 24 |
(long long)intToFloat12(zNumAllocated) << 12 |
(long long)intToFloat12(zSizeAllocated);
/*
* Report the current external allocation stats and the native heap
* summary.
*
* [63-48] Reserved; must be zero (TODO: put new data in these slots)
* [47-36] dlmalloc_footprint
* [35-24] mallinfo: total allocated space
* [23-12] External byte limit
* [11- 0] External bytes allocated
*/
long long event3;
size_t externalLimit, externalBytesAllocated;
size_t uordblks, footprint;
#if 0
/*
* This adds 2-5msec to the GC cost on a DVT, or about 2-3% of the cost
* of a GC, so it's not horribly expensive but it's not free either.
*/
extern size_t dlmalloc_footprint(void);
struct mallinfo mi;
//u8 start, end;
//start = dvmGetRelativeTimeNsec();
mi = mallinfo();
uordblks = mi.uordblks;
footprint = dlmalloc_footprint();
//end = dvmGetRelativeTimeNsec();
//LOGD("mallinfo+footprint took %dusec; used=%zd footprint=%zd\n",
// (int)((end - start) / 1000), mi.uordblks, footprint);
#else
uordblks = footprint = 0;
#endif
externalLimit =
dvmHeapSourceGetValue(HS_EXTERNAL_LIMIT, NULL, 0);
externalBytesAllocated =
dvmHeapSourceGetValue(HS_EXTERNAL_BYTES_ALLOCATED, NULL, 0);
event3 =
(long long)intToFloat12(footprint) << 36 |
(long long)intToFloat12(uordblks) << 24 |
(long long)intToFloat12(externalLimit) << 12 |
(long long)intToFloat12(externalBytesAllocated);
/* Build the event data.
* [ 0: 0] item count (4)
* [ 1: 1] EVENT_TYPE_LONG
* [ 2: 9] event0
* [10:10] EVENT_TYPE_LONG
* [11:18] event1
* [19:19] EVENT_TYPE_LONG
* [20:27] event2
* [28:28] EVENT_TYPE_LONG
* [29:36] event2
*/
unsigned char *c = eventBuf;
*c++ = 4;
*c++ = EVENT_TYPE_LONG;
memcpy(c, &event0, sizeof(event0));
c += sizeof(event0);
*c++ = EVENT_TYPE_LONG;
memcpy(c, &event1, sizeof(event1));
c += sizeof(event1);
*c++ = EVENT_TYPE_LONG;
memcpy(c, &event2, sizeof(event2));
c += sizeof(event2);
*c++ = EVENT_TYPE_LONG;
memcpy(c, &event3, sizeof(event3));
(void) android_btWriteLog(EVENT_LOG_TAG_dvm_gc_info, EVENT_TYPE_LIST,
eventBuf, sizeof(eventBuf));
}
void dvmLogMadviseStats(size_t madvisedSizes[], size_t arrayLen)
{
unsigned char eventBuf[1 + (1 + sizeof(int)) * 2];
size_t total, zyg;
size_t firstHeap, i;
size_t nHeaps = dvmHeapSourceGetNumHeaps();
assert(arrayLen >= nHeaps);
firstHeap = nHeaps > 1 ? 1 : 0;
total = 0;
zyg = 0;
for (i = 0; i < nHeaps; i++) {
total += madvisedSizes[i];
if (i >= firstHeap) {
zyg += madvisedSizes[i];
}
}
/* Build the event data.
* [ 0: 0] item count (2)
* [ 1: 1] EVENT_TYPE_INT
* [ 2: 5] total madvise byte count
* [ 6: 6] EVENT_TYPE_INT
* [ 7:10] zygote heap madvise byte count
*/
unsigned char *c = eventBuf;
*c++ = 2;
*c++ = EVENT_TYPE_INT;
memcpy(c, &total, sizeof(total));
c += sizeof(total);
*c++ = EVENT_TYPE_INT;
memcpy(c, &zyg, sizeof(zyg));
c += sizeof(zyg);
(void) android_btWriteLog(EVENT_LOG_TAG_dvm_gc_madvise_info,
EVENT_TYPE_LIST, eventBuf, sizeof(eventBuf));
}
#if 0
#include <errno.h>
#include <stdio.h>
typedef struct HeapDumpContext {
FILE *fp;
void *chunkStart;
size_t chunkLen;
bool chunkFree;
} HeapDumpContext;
static void
dump_context(const HeapDumpContext *ctx)
{
fprintf(ctx->fp, "0x%08x %12.12zd %s\n", (uintptr_t)ctx->chunkStart,
ctx->chunkLen, ctx->chunkFree ? "FREE" : "USED");
}
static void
heap_chunk_callback(const void *chunkptr, size_t chunklen,
const void *userptr, size_t userlen, void *arg)
{
HeapDumpContext *ctx = (HeapDumpContext *)arg;
bool chunkFree = (userptr == NULL);
if (chunkFree != ctx->chunkFree ||
((char *)ctx->chunkStart + ctx->chunkLen) != chunkptr)
{
/* The new chunk is of a different type or isn't
* contiguous with the current chunk. Dump the
* old one and start a new one.
*/
if (ctx->chunkStart != NULL) {
/* It's not the first chunk. */
dump_context(ctx);
}
ctx->chunkStart = (void *)chunkptr;
ctx->chunkLen = chunklen;
ctx->chunkFree = chunkFree;
} else {
/* Extend the current chunk.
*/
ctx->chunkLen += chunklen;
}
}
/* Dumps free and used ranges, as text, to the named file.
*/
void dvmDumpHeapToFile(const char *fileName)
{
HeapDumpContext ctx;
FILE *fp;
fp = fopen(fileName, "w+");
if (fp == NULL) {
LOGE("Can't open %s for writing: %s\n", fileName, strerror(errno));
return;
}
LOGW("Dumping heap to %s...\n", fileName);
fprintf(fp, "==== Dalvik heap dump ====\n");
memset(&ctx, 0, sizeof(ctx));
ctx.fp = fp;
dvmHeapSourceWalk(heap_chunk_callback, (void *)&ctx);
dump_context(&ctx);
fprintf(fp, "==== end heap dump ====\n");
LOGW("Dumped heap to %s.\n", fileName);
fclose(fp);
}
#endif