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android / platform / frameworks / base / 2f0fb97c9519cf82377059cd0c03da126fb89b31 / . / core / jni / android_os_Debug.cpp
blob: 4c2b114c724ae7eef5239a5a08d0f6825868219b [file] [log] [blame]
/*
* Copyright (C) 2007 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.
*/
#define LOG_TAG "android.os.Debug"
#include <assert.h>
#include <ctype.h>
#include <errno.h>
#include <fcntl.h>
#include <inttypes.h>
#include <malloc.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/time.h>
#include <time.h>
#include <unistd.h>
#include <iomanip>
#include <string>
#include <vector>
#include <android-base/logging.h>
#include <bionic/malloc.h>
#include <debuggerd/client.h>
#include <log/log.h>
#include <utils/misc.h>
#include <utils/String8.h>
#include <nativehelper/JNIPlatformHelp.h>
#include <nativehelper/ScopedUtfChars.h>
#include "jni.h"
#include <dmabufinfo/dmabuf_sysfs_stats.h>
#include <dmabufinfo/dmabufinfo.h>
#include <meminfo/procmeminfo.h>
#include <meminfo/sysmeminfo.h>
#include <memtrack/memtrack.h>
#include <memunreachable/memunreachable.h>
#include <android-base/strings.h>
#include "android_os_Debug.h"
#include <vintf/VintfObject.h>
namespace android
{
enum {
HEAP_UNKNOWN,
HEAP_DALVIK,
HEAP_NATIVE,
HEAP_DALVIK_OTHER,
HEAP_STACK,
HEAP_CURSOR,
HEAP_ASHMEM,
HEAP_GL_DEV,
HEAP_UNKNOWN_DEV,
HEAP_SO,
HEAP_JAR,
HEAP_APK,
HEAP_TTF,
HEAP_DEX,
HEAP_OAT,
HEAP_ART,
HEAP_UNKNOWN_MAP,
HEAP_GRAPHICS,
HEAP_GL,
HEAP_OTHER_MEMTRACK,
// Dalvik extra sections (heap).
HEAP_DALVIK_NORMAL,
HEAP_DALVIK_LARGE,
HEAP_DALVIK_ZYGOTE,
HEAP_DALVIK_NON_MOVING,
// Dalvik other extra sections.
HEAP_DALVIK_OTHER_LINEARALLOC,
HEAP_DALVIK_OTHER_ACCOUNTING,
HEAP_DALVIK_OTHER_ZYGOTE_CODE_CACHE,
HEAP_DALVIK_OTHER_APP_CODE_CACHE,
HEAP_DALVIK_OTHER_COMPILER_METADATA,
HEAP_DALVIK_OTHER_INDIRECT_REFERENCE_TABLE,
// Boot vdex / app dex / app vdex
HEAP_DEX_BOOT_VDEX,
HEAP_DEX_APP_DEX,
HEAP_DEX_APP_VDEX,
// App art, boot art.
HEAP_ART_APP,
HEAP_ART_BOOT,
_NUM_HEAP,
_NUM_EXCLUSIVE_HEAP = HEAP_OTHER_MEMTRACK+1,
_NUM_CORE_HEAP = HEAP_NATIVE+1
};
struct stat_fields {
jfieldID pss_field;
jfieldID pssSwappable_field;
jfieldID rss_field;
jfieldID privateDirty_field;
jfieldID sharedDirty_field;
jfieldID privateClean_field;
jfieldID sharedClean_field;
jfieldID swappedOut_field;
jfieldID swappedOutPss_field;
};
struct stat_field_names {
const char* pss_name;
const char* pssSwappable_name;
const char* rss_name;
const char* privateDirty_name;
const char* sharedDirty_name;
const char* privateClean_name;
const char* sharedClean_name;
const char* swappedOut_name;
const char* swappedOutPss_name;
};
static stat_fields stat_fields[_NUM_CORE_HEAP];
static stat_field_names stat_field_names[_NUM_CORE_HEAP] = {
{ "otherPss", "otherSwappablePss", "otherRss", "otherPrivateDirty", "otherSharedDirty",
"otherPrivateClean", "otherSharedClean", "otherSwappedOut", "otherSwappedOutPss" },
{ "dalvikPss", "dalvikSwappablePss", "dalvikRss", "dalvikPrivateDirty", "dalvikSharedDirty",
"dalvikPrivateClean", "dalvikSharedClean", "dalvikSwappedOut", "dalvikSwappedOutPss" },
{ "nativePss", "nativeSwappablePss", "nativeRss", "nativePrivateDirty", "nativeSharedDirty",
"nativePrivateClean", "nativeSharedClean", "nativeSwappedOut", "nativeSwappedOutPss" }
};
static jfieldID otherStats_field;
static jfieldID hasSwappedOutPss_field;
struct stats_t {
int pss;
int swappablePss;
int rss;
int privateDirty;
int sharedDirty;
int privateClean;
int sharedClean;
int swappedOut;
int swappedOutPss;
};
#define BINDER_STATS "/proc/binder/stats"
static jlong android_os_Debug_getNativeHeapSize(JNIEnv *env, jobject clazz)
{
struct mallinfo info = mallinfo();
return (jlong) info.usmblks;
}
static jlong android_os_Debug_getNativeHeapAllocatedSize(JNIEnv *env, jobject clazz)
{
struct mallinfo info = mallinfo();
return (jlong) info.uordblks;
}
static jlong android_os_Debug_getNativeHeapFreeSize(JNIEnv *env, jobject clazz)
{
struct mallinfo info = mallinfo();
return (jlong) info.fordblks;
}
// Container used to retrieve graphics memory pss
struct graphics_memory_pss
{
int graphics;
int gl;
int other;
};
/*
* Uses libmemtrack to retrieve graphics memory that the process is using.
* Any graphics memory reported in /proc/pid/smaps is not included here.
*/
static int read_memtrack_memory(struct memtrack_proc* p, int pid,
struct graphics_memory_pss* graphics_mem)
{
int err = memtrack_proc_get(p, pid);
if (err != 0) {
// The memtrack HAL may not be available, do not log to avoid flooding
// logcat.
return err;
}
ssize_t pss = memtrack_proc_graphics_pss(p);
if (pss < 0) {
ALOGW("failed to get graphics pss: %zd", pss);
return pss;
}
graphics_mem->graphics = pss / 1024;
pss = memtrack_proc_gl_pss(p);
if (pss < 0) {
ALOGW("failed to get gl pss: %zd", pss);
return pss;
}
graphics_mem->gl = pss / 1024;
pss = memtrack_proc_other_pss(p);
if (pss < 0) {
ALOGW("failed to get other pss: %zd", pss);
return pss;
}
graphics_mem->other = pss / 1024;
return 0;
}
/*
* Retrieves the graphics memory that is unaccounted for in /proc/pid/smaps.
*/
static int read_memtrack_memory(int pid, struct graphics_memory_pss* graphics_mem)
{
struct memtrack_proc* p = memtrack_proc_new();
if (p == NULL) {
ALOGW("failed to create memtrack_proc");
return -1;
}
int err = read_memtrack_memory(p, pid, graphics_mem);
memtrack_proc_destroy(p);
return err;
}
static bool load_maps(int pid, stats_t* stats, bool* foundSwapPss)
{
*foundSwapPss = false;
uint64_t prev_end = 0;
int prev_heap = HEAP_UNKNOWN;
std::string smaps_path = base::StringPrintf("/proc/%d/smaps", pid);
auto vma_scan = [&](const meminfo::Vma& vma) {
int which_heap = HEAP_UNKNOWN;
int sub_heap = HEAP_UNKNOWN;
bool is_swappable = false;
std::string name;
if (base::EndsWith(vma.name, " (deleted)")) {
name = vma.name.substr(0, vma.name.size() - strlen(" (deleted)"));
} else {
name = vma.name;
}
uint32_t namesz = name.size();
if (base::StartsWith(name, "[heap]")) {
which_heap = HEAP_NATIVE;
} else if (base::StartsWith(name, "[anon:libc_malloc]")) {
which_heap = HEAP_NATIVE;
} else if (base::StartsWith(name, "[anon:scudo:")) {
which_heap = HEAP_NATIVE;
} else if (base::StartsWith(name, "[anon:GWP-ASan")) {
which_heap = HEAP_NATIVE;
} else if (base::StartsWith(name, "[stack")) {
which_heap = HEAP_STACK;
} else if (base::StartsWith(name, "[anon:stack_and_tls:")) {
which_heap = HEAP_STACK;
} else if (base::EndsWith(name, ".so")) {
which_heap = HEAP_SO;
is_swappable = true;
} else if (base::EndsWith(name, ".jar")) {
which_heap = HEAP_JAR;
is_swappable = true;
} else if (base::EndsWith(name, ".apk")) {
which_heap = HEAP_APK;
is_swappable = true;
} else if (base::EndsWith(name, ".ttf")) {
which_heap = HEAP_TTF;
is_swappable = true;
} else if ((base::EndsWith(name, ".odex")) ||
(namesz > 4 && strstr(name.c_str(), ".dex") != nullptr)) {
which_heap = HEAP_DEX;
sub_heap = HEAP_DEX_APP_DEX;
is_swappable = true;
} else if (base::EndsWith(name, ".vdex")) {
which_heap = HEAP_DEX;
// Handle system@framework@boot and system/framework/boot|apex
if ((strstr(name.c_str(), "@boot") != nullptr) ||
(strstr(name.c_str(), "/boot") != nullptr) ||
(strstr(name.c_str(), "/apex") != nullptr)) {
sub_heap = HEAP_DEX_BOOT_VDEX;
} else {
sub_heap = HEAP_DEX_APP_VDEX;
}
is_swappable = true;
} else if (base::EndsWith(name, ".oat")) {
which_heap = HEAP_OAT;
is_swappable = true;
} else if (base::EndsWith(name, ".art") || base::EndsWith(name, ".art]")) {
which_heap = HEAP_ART;
// Handle system@framework@boot* and system/framework/boot|apex*
if ((strstr(name.c_str(), "@boot") != nullptr) ||
(strstr(name.c_str(), "/boot") != nullptr) ||
(strstr(name.c_str(), "/apex") != nullptr)) {
sub_heap = HEAP_ART_BOOT;
} else {
sub_heap = HEAP_ART_APP;
}
is_swappable = true;
} else if (base::StartsWith(name, "/dev/")) {
which_heap = HEAP_UNKNOWN_DEV;
if (base::StartsWith(name, "/dev/kgsl-3d0")) {
which_heap = HEAP_GL_DEV;
} else if (base::StartsWith(name, "/dev/ashmem/CursorWindow")) {
which_heap = HEAP_CURSOR;
} else if (base::StartsWith(name, "/dev/ashmem/jit-zygote-cache")) {
which_heap = HEAP_DALVIK_OTHER;
sub_heap = HEAP_DALVIK_OTHER_ZYGOTE_CODE_CACHE;
} else if (base::StartsWith(name, "/dev/ashmem")) {
which_heap = HEAP_ASHMEM;
}
} else if (base::StartsWith(name, "/memfd:jit-cache")) {
which_heap = HEAP_DALVIK_OTHER;
sub_heap = HEAP_DALVIK_OTHER_APP_CODE_CACHE;
} else if (base::StartsWith(name, "/memfd:jit-zygote-cache")) {
which_heap = HEAP_DALVIK_OTHER;
sub_heap = HEAP_DALVIK_OTHER_ZYGOTE_CODE_CACHE;
} else if (base::StartsWith(name, "[anon:")) {
which_heap = HEAP_UNKNOWN;
if (base::StartsWith(name, "[anon:dalvik-")) {
which_heap = HEAP_DALVIK_OTHER;
if (base::StartsWith(name, "[anon:dalvik-LinearAlloc")) {
sub_heap = HEAP_DALVIK_OTHER_LINEARALLOC;
} else if (base::StartsWith(name, "[anon:dalvik-alloc space") ||
base::StartsWith(name, "[anon:dalvik-main space")) {
// This is the regular Dalvik heap.
which_heap = HEAP_DALVIK;
sub_heap = HEAP_DALVIK_NORMAL;
} else if (base::StartsWith(name,
"[anon:dalvik-large object space") ||
base::StartsWith(
name, "[anon:dalvik-free list large object space")) {
which_heap = HEAP_DALVIK;
sub_heap = HEAP_DALVIK_LARGE;
} else if (base::StartsWith(name, "[anon:dalvik-non moving space")) {
which_heap = HEAP_DALVIK;
sub_heap = HEAP_DALVIK_NON_MOVING;
} else if (base::StartsWith(name, "[anon:dalvik-zygote space")) {
which_heap = HEAP_DALVIK;
sub_heap = HEAP_DALVIK_ZYGOTE;
} else if (base::StartsWith(name, "[anon:dalvik-indirect ref")) {
sub_heap = HEAP_DALVIK_OTHER_INDIRECT_REFERENCE_TABLE;
} else if (base::StartsWith(name, "[anon:dalvik-jit-code-cache") ||
base::StartsWith(name, "[anon:dalvik-data-code-cache")) {
sub_heap = HEAP_DALVIK_OTHER_APP_CODE_CACHE;
} else if (base::StartsWith(name, "[anon:dalvik-CompilerMetadata")) {
sub_heap = HEAP_DALVIK_OTHER_COMPILER_METADATA;
} else {
sub_heap = HEAP_DALVIK_OTHER_ACCOUNTING; // Default to accounting.
}
}
} else if (namesz > 0) {
which_heap = HEAP_UNKNOWN_MAP;
} else if (vma.start == prev_end && prev_heap == HEAP_SO) {
// bss section of a shared library
which_heap = HEAP_SO;
}
prev_end = vma.end;
prev_heap = which_heap;
const meminfo::MemUsage& usage = vma.usage;
if (usage.swap_pss > 0 && *foundSwapPss != true) {
*foundSwapPss = true;
}
uint64_t swapable_pss = 0;
if (is_swappable && (usage.pss > 0)) {
float sharing_proportion = 0.0;
if ((usage.shared_clean > 0) || (usage.shared_dirty > 0)) {
sharing_proportion = (usage.pss - usage.uss) / (usage.shared_clean + usage.shared_dirty);
}
swapable_pss = (sharing_proportion * usage.shared_clean) + usage.private_clean;
}
stats[which_heap].pss += usage.pss;
stats[which_heap].swappablePss += swapable_pss;
stats[which_heap].rss += usage.rss;
stats[which_heap].privateDirty += usage.private_dirty;
stats[which_heap].sharedDirty += usage.shared_dirty;
stats[which_heap].privateClean += usage.private_clean;
stats[which_heap].sharedClean += usage.shared_clean;
stats[which_heap].swappedOut += usage.swap;
stats[which_heap].swappedOutPss += usage.swap_pss;
if (which_heap == HEAP_DALVIK || which_heap == HEAP_DALVIK_OTHER ||
which_heap == HEAP_DEX || which_heap == HEAP_ART) {
stats[sub_heap].pss += usage.pss;
stats[sub_heap].swappablePss += swapable_pss;
stats[sub_heap].rss += usage.rss;
stats[sub_heap].privateDirty += usage.private_dirty;
stats[sub_heap].sharedDirty += usage.shared_dirty;
stats[sub_heap].privateClean += usage.private_clean;
stats[sub_heap].sharedClean += usage.shared_clean;
stats[sub_heap].swappedOut += usage.swap;
stats[sub_heap].swappedOutPss += usage.swap_pss;
}
};
return meminfo::ForEachVmaFromFile(smaps_path, vma_scan);
}
static jboolean android_os_Debug_getDirtyPagesPid(JNIEnv *env, jobject clazz,
jint pid, jobject object)
{
bool foundSwapPss;
stats_t stats[_NUM_HEAP];
memset(&stats, 0, sizeof(stats));
if (!load_maps(pid, stats, &foundSwapPss)) {
return JNI_FALSE;
}
struct graphics_memory_pss graphics_mem;
if (read_memtrack_memory(pid, &graphics_mem) == 0) {
stats[HEAP_GRAPHICS].pss = graphics_mem.graphics;
stats[HEAP_GRAPHICS].privateDirty = graphics_mem.graphics;
stats[HEAP_GRAPHICS].rss = graphics_mem.graphics;
stats[HEAP_GL].pss = graphics_mem.gl;
stats[HEAP_GL].privateDirty = graphics_mem.gl;
stats[HEAP_GL].rss = graphics_mem.gl;
stats[HEAP_OTHER_MEMTRACK].pss = graphics_mem.other;
stats[HEAP_OTHER_MEMTRACK].privateDirty = graphics_mem.other;
stats[HEAP_OTHER_MEMTRACK].rss = graphics_mem.other;
}
for (int i=_NUM_CORE_HEAP; i<_NUM_EXCLUSIVE_HEAP; i++) {
stats[HEAP_UNKNOWN].pss += stats[i].pss;
stats[HEAP_UNKNOWN].swappablePss += stats[i].swappablePss;
stats[HEAP_UNKNOWN].rss += stats[i].rss;
stats[HEAP_UNKNOWN].privateDirty += stats[i].privateDirty;
stats[HEAP_UNKNOWN].sharedDirty += stats[i].sharedDirty;
stats[HEAP_UNKNOWN].privateClean += stats[i].privateClean;
stats[HEAP_UNKNOWN].sharedClean += stats[i].sharedClean;
stats[HEAP_UNKNOWN].swappedOut += stats[i].swappedOut;
stats[HEAP_UNKNOWN].swappedOutPss += stats[i].swappedOutPss;
}
for (int i=0; i<_NUM_CORE_HEAP; i++) {
env->SetIntField(object, stat_fields[i].pss_field, stats[i].pss);
env->SetIntField(object, stat_fields[i].pssSwappable_field, stats[i].swappablePss);
env->SetIntField(object, stat_fields[i].rss_field, stats[i].rss);
env->SetIntField(object, stat_fields[i].privateDirty_field, stats[i].privateDirty);
env->SetIntField(object, stat_fields[i].sharedDirty_field, stats[i].sharedDirty);
env->SetIntField(object, stat_fields[i].privateClean_field, stats[i].privateClean);
env->SetIntField(object, stat_fields[i].sharedClean_field, stats[i].sharedClean);
env->SetIntField(object, stat_fields[i].swappedOut_field, stats[i].swappedOut);
env->SetIntField(object, stat_fields[i].swappedOutPss_field, stats[i].swappedOutPss);
}
env->SetBooleanField(object, hasSwappedOutPss_field, foundSwapPss);
jintArray otherIntArray = (jintArray)env->GetObjectField(object, otherStats_field);
jint* otherArray = (jint*)env->GetPrimitiveArrayCritical(otherIntArray, 0);
if (otherArray == NULL) {
return JNI_FALSE;
}
int j=0;
for (int i=_NUM_CORE_HEAP; i<_NUM_HEAP; i++) {
otherArray[j++] = stats[i].pss;
otherArray[j++] = stats[i].swappablePss;
otherArray[j++] = stats[i].rss;
otherArray[j++] = stats[i].privateDirty;
otherArray[j++] = stats[i].sharedDirty;
otherArray[j++] = stats[i].privateClean;
otherArray[j++] = stats[i].sharedClean;
otherArray[j++] = stats[i].swappedOut;
otherArray[j++] = stats[i].swappedOutPss;
}
env->ReleasePrimitiveArrayCritical(otherIntArray, otherArray, 0);
return JNI_TRUE;
}
static void android_os_Debug_getDirtyPages(JNIEnv *env, jobject clazz, jobject object)
{
android_os_Debug_getDirtyPagesPid(env, clazz, getpid(), object);
}
static jlong android_os_Debug_getPssPid(JNIEnv *env, jobject clazz, jint pid,
jlongArray outUssSwapPssRss, jlongArray outMemtrack)
{
jlong pss = 0;
jlong rss = 0;
jlong swapPss = 0;
jlong uss = 0;
jlong memtrack = 0;
struct graphics_memory_pss graphics_mem;
if (read_memtrack_memory(pid, &graphics_mem) == 0) {
pss = uss = rss = memtrack = graphics_mem.graphics + graphics_mem.gl + graphics_mem.other;
}
::android::meminfo::ProcMemInfo proc_mem(pid);
::android::meminfo::MemUsage stats;
if (proc_mem.SmapsOrRollup(&stats)) {
pss += stats.pss;
uss += stats.uss;
rss += stats.rss;
swapPss = stats.swap_pss;
pss += swapPss; // Also in swap, those pages would be accounted as Pss without SWAP
} else {
return 0;
}
if (outUssSwapPssRss != NULL) {
int outLen = env->GetArrayLength(outUssSwapPssRss);
if (outLen >= 1) {
jlong* outUssSwapPssRssArray = env->GetLongArrayElements(outUssSwapPssRss, 0);
if (outUssSwapPssRssArray != NULL) {
outUssSwapPssRssArray[0] = uss;
if (outLen >= 2) {
outUssSwapPssRssArray[1] = swapPss;
}
if (outLen >= 3) {
outUssSwapPssRssArray[2] = rss;
}
}
env->ReleaseLongArrayElements(outUssSwapPssRss, outUssSwapPssRssArray, 0);
}
}
if (outMemtrack != NULL) {
int outLen = env->GetArrayLength(outMemtrack);
if (outLen >= 1) {
jlong* outMemtrackArray = env->GetLongArrayElements(outMemtrack, 0);
if (outMemtrackArray != NULL) {
outMemtrackArray[0] = memtrack;
if (outLen >= 2) {
outMemtrackArray[1] = graphics_mem.graphics;
}
if (outLen >= 3) {
outMemtrackArray[2] = graphics_mem.gl;
}
if (outLen >= 4) {
outMemtrackArray[3] = graphics_mem.other;
}
}
env->ReleaseLongArrayElements(outMemtrack, outMemtrackArray, 0);
}
}
return pss;
}
static jlong android_os_Debug_getPss(JNIEnv *env, jobject clazz)
{
return android_os_Debug_getPssPid(env, clazz, getpid(), NULL, NULL);
}
// The 1:1 mapping of MEMINFO_* enums here must match with the constants from
// Debug.java.
enum {
MEMINFO_TOTAL,
MEMINFO_FREE,
MEMINFO_BUFFERS,
MEMINFO_CACHED,
MEMINFO_SHMEM,
MEMINFO_SLAB,
MEMINFO_SLAB_RECLAIMABLE,
MEMINFO_SLAB_UNRECLAIMABLE,
MEMINFO_SWAP_TOTAL,
MEMINFO_SWAP_FREE,
MEMINFO_ZRAM_TOTAL,
MEMINFO_MAPPED,
MEMINFO_VMALLOC_USED,
MEMINFO_PAGE_TABLES,
MEMINFO_KERNEL_STACK,
MEMINFO_KERNEL_RECLAIMABLE,
MEMINFO_ACTIVE,
MEMINFO_INACTIVE,
MEMINFO_UNEVICTABLE,
MEMINFO_COUNT
};
static void android_os_Debug_getMemInfo(JNIEnv *env, jobject clazz, jlongArray out)
{
if (out == NULL) {
jniThrowNullPointerException(env, "out == null");
return;
}
int outLen = env->GetArrayLength(out);
if (outLen < MEMINFO_COUNT) {
jniThrowRuntimeException(env, "outLen < MEMINFO_COUNT");
return;
}
// Read system memory info including ZRAM. The values are stored in the vector
// in the same order as MEMINFO_* enum
std::vector<std::string_view> tags(
::android::meminfo::SysMemInfo::kDefaultSysMemInfoTags.begin(),
::android::meminfo::SysMemInfo::kDefaultSysMemInfoTags.end());
tags.insert(tags.begin() + MEMINFO_ZRAM_TOTAL, "Zram:");
std::vector<uint64_t> mem(tags.size());
::android::meminfo::SysMemInfo smi;
if (!smi.ReadMemInfo(tags.size(), tags.data(), mem.data())) {
jniThrowRuntimeException(env, "SysMemInfo read failed");
return;
}
jlong* outArray = env->GetLongArrayElements(out, 0);
if (outArray != NULL) {
outLen = MEMINFO_COUNT;
for (int i = 0; i < outLen; i++) {
if (i == MEMINFO_VMALLOC_USED && mem[i] == 0) {
outArray[i] = smi.ReadVmallocInfo() / 1024;
continue;
}
outArray[i] = mem[i];
}
}
env->ReleaseLongArrayElements(out, outArray, 0);
}
static jint read_binder_stat(const char* stat)
{
UniqueFile fp = MakeUniqueFile(BINDER_STATS, "re");
if (fp == nullptr) {
return -1;
}
char line[1024];
char compare[128];
int len = snprintf(compare, 128, "proc %d", getpid());
// loop until we have the block that represents this process
do {
if (fgets(line, 1024, fp.get()) == 0) {
return -1;
}
} while (strncmp(compare, line, len));
// now that we have this process, read until we find the stat that we are looking for
len = snprintf(compare, 128, " %s: ", stat);
do {
if (fgets(line, 1024, fp.get()) == 0) {
return -1;
}
} while (strncmp(compare, line, len));
// we have the line, now increment the line ptr to the value
char* ptr = line + len;
jint result = atoi(ptr);
return result;
}
static jint android_os_Debug_getBinderSentTransactions(JNIEnv *env, jobject clazz)
{
return read_binder_stat("bcTRANSACTION");
}
static jint android_os_getBinderReceivedTransactions(JNIEnv *env, jobject clazz)
{
return read_binder_stat("brTRANSACTION");
}
// these are implemented in android_util_Binder.cpp
jint android_os_Debug_getLocalObjectCount(JNIEnv* env, jobject clazz);
jint android_os_Debug_getProxyObjectCount(JNIEnv* env, jobject clazz);
jint android_os_Debug_getDeathObjectCount(JNIEnv* env, jobject clazz);
static bool openFile(JNIEnv* env, jobject fileDescriptor, UniqueFile& fp)
{
if (fileDescriptor == NULL) {
jniThrowNullPointerException(env, "fd == null");
return false;
}
int origFd = jniGetFDFromFileDescriptor(env, fileDescriptor);
if (origFd < 0) {
jniThrowRuntimeException(env, "Invalid file descriptor");
return false;
}
/* dup() the descriptor so we don't close the original with fclose() */
int fd = fcntl(origFd, F_DUPFD_CLOEXEC, 0);
if (fd < 0) {
ALOGW("dup(%d) failed: %s\n", origFd, strerror(errno));
jniThrowRuntimeException(env, "dup() failed");
return false;
}
fp.reset(fdopen(fd, "w"));
if (fp == nullptr) {
ALOGW("fdopen(%d) failed: %s\n", fd, strerror(errno));
close(fd);
jniThrowRuntimeException(env, "fdopen() failed");
return false;
}
return true;
}
/*
* Dump the native heap, writing human-readable output to the specified
* file descriptor.
*/
static void android_os_Debug_dumpNativeHeap(JNIEnv* env, jobject,
jobject fileDescriptor)
{
UniqueFile fp(nullptr, safeFclose);
if (!openFile(env, fileDescriptor, fp)) {
return;
}
ALOGD("Native heap dump starting...\n");
// Formatting of the native heap dump is handled by malloc debug itself.
// See https://android.googlesource.com/platform/bionic/+/master/libc/malloc_debug/README.md#backtrace-heap-dump-format
if (android_mallopt(M_WRITE_MALLOC_LEAK_INFO_TO_FILE, fp.get(), sizeof(FILE*))) {
ALOGD("Native heap dump complete.\n");
} else {
PLOG(ERROR) << "Failed to write native heap dump to file";
}
}
/*
* Dump the native malloc info, writing xml output to the specified
* file descriptor.
*/
static void android_os_Debug_dumpNativeMallocInfo(JNIEnv* env, jobject,
jobject fileDescriptor)
{
UniqueFile fp(nullptr, safeFclose);
if (!openFile(env, fileDescriptor, fp)) {
return;
}
malloc_info(0, fp.get());
}
static bool dumpTraces(JNIEnv* env, jint pid, jstring fileName, jint timeoutSecs,
DebuggerdDumpType dumpType) {
const ScopedUtfChars fileNameChars(env, fileName);
if (fileNameChars.c_str() == nullptr) {
return false;
}
android::base::unique_fd fd(open(fileNameChars.c_str(),
O_CREAT | O_WRONLY | O_NOFOLLOW | O_CLOEXEC | O_APPEND,
0666));
if (fd < 0) {
PLOG(ERROR) << "Can't open " << fileNameChars.c_str();
return false;
}
int res = dump_backtrace_to_file_timeout(pid, dumpType, timeoutSecs, fd);
if (fdatasync(fd.get()) != 0) {
PLOG(ERROR) << "Failed flushing trace.";
}
return res == 0;
}
static jboolean android_os_Debug_dumpJavaBacktraceToFileTimeout(JNIEnv* env, jobject clazz,
jint pid, jstring fileName, jint timeoutSecs) {
const bool ret = dumpTraces(env, pid, fileName, timeoutSecs, kDebuggerdJavaBacktrace);
return ret ? JNI_TRUE : JNI_FALSE;
}
static jboolean android_os_Debug_dumpNativeBacktraceToFileTimeout(JNIEnv* env, jobject clazz,
jint pid, jstring fileName, jint timeoutSecs) {
const bool ret = dumpTraces(env, pid, fileName, timeoutSecs, kDebuggerdNativeBacktrace);
return ret ? JNI_TRUE : JNI_FALSE;
}
static jstring android_os_Debug_getUnreachableMemory(JNIEnv* env, jobject clazz,
jint limit, jboolean contents)
{
std::string s = GetUnreachableMemoryString(contents, limit);
return env->NewStringUTF(s.c_str());
}
static jlong android_os_Debug_getFreeZramKb(JNIEnv* env, jobject clazz) {
jlong zramFreeKb = 0;
std::string status_path = android::base::StringPrintf("/proc/meminfo");
UniqueFile file = MakeUniqueFile(status_path.c_str(), "re");
char line[256];
while (file != nullptr && fgets(line, sizeof(line), file.get())) {
jlong v;
if (sscanf(line, "SwapFree: %" SCNd64 " kB", &v) == 1) {
zramFreeKb = v;
break;
}
}
return zramFreeKb;
}
static jlong android_os_Debug_getIonHeapsSizeKb(JNIEnv* env, jobject clazz) {
jlong heapsSizeKb = -1;
uint64_t size;
if (meminfo::ReadIonHeapsSizeKb(&size)) {
heapsSizeKb = size;
}
return heapsSizeKb;
}
static jlong android_os_Debug_getDmabufTotalExportedKb(JNIEnv* env, jobject clazz) {
jlong dmabufTotalSizeKb = -1;
uint64_t size;
if (dmabufinfo::GetDmabufTotalExportedKb(&size)) {
dmabufTotalSizeKb = size;
}
return dmabufTotalSizeKb;
}
static jlong android_os_Debug_getDmabufHeapTotalExportedKb(JNIEnv* env, jobject clazz) {
jlong dmabufHeapTotalSizeKb = -1;
uint64_t size;
if (meminfo::ReadDmabufHeapTotalExportedKb(&size)) {
dmabufHeapTotalSizeKb = size;
}
return dmabufHeapTotalSizeKb;
}
static jlong android_os_Debug_getIonPoolsSizeKb(JNIEnv* env, jobject clazz) {
jlong poolsSizeKb = -1;
uint64_t size;
if (meminfo::ReadIonPoolsSizeKb(&size)) {
poolsSizeKb = size;
}
return poolsSizeKb;
}
static jlong android_os_Debug_getDmabufHeapPoolsSizeKb(JNIEnv* env, jobject clazz) {
jlong poolsSizeKb = -1;
uint64_t size;
if (meminfo::ReadDmabufHeapPoolsSizeKb(&size)) {
poolsSizeKb = size;
}
return poolsSizeKb;
}
static jlong android_os_Debug_getGpuPrivateMemoryKb(JNIEnv* env, jobject clazz) {
struct memtrack_proc* p = memtrack_proc_new();
if (p == nullptr) {
LOG(ERROR) << "getGpuPrivateMemoryKb: Failed to create memtrack_proc";
return -1;
}
// Memtrack hal defines PID 0 as global total for GPU-private (GL) memory.
if (memtrack_proc_get(p, 0) != 0) {
// The memtrack HAL may not be available, avoid flooding the log.
memtrack_proc_destroy(p);
return -1;
}
ssize_t gpuPrivateMem = memtrack_proc_gl_pss(p);
memtrack_proc_destroy(p);
return gpuPrivateMem / 1024;
}
static jlong android_os_Debug_getDmabufMappedSizeKb(JNIEnv* env, jobject clazz) {
jlong dmabufPss = 0;
std::vector<dmabufinfo::DmaBuffer> dmabufs;
std::unique_ptr<DIR, int (*)(DIR*)> dir(opendir("/proc"), closedir);
if (!dir) {
LOG(ERROR) << "Failed to open /proc directory";
return false;
}
struct dirent* dent;
while ((dent = readdir(dir.get()))) {
if (dent->d_type != DT_DIR) continue;
int pid = atoi(dent->d_name);
if (pid == 0) {
continue;
}
if (!ReadDmaBufMapRefs(pid, &dmabufs)) {
LOG(ERROR) << "Failed to read maps for pid " << pid;
}
}
for (const dmabufinfo::DmaBuffer& buf : dmabufs) {
dmabufPss += buf.size() / 1024;
}
return dmabufPss;
}
static jlong android_os_Debug_getGpuTotalUsageKb(JNIEnv* env, jobject clazz) {
jlong sizeKb = -1;
uint64_t size;
if (meminfo::ReadGpuTotalUsageKb(&size)) {
sizeKb = size;
}
return sizeKb;
}
static jboolean android_os_Debug_isVmapStack(JNIEnv *env, jobject clazz)
{
static enum {
CONFIG_UNKNOWN,
CONFIG_SET,
CONFIG_UNSET,
} cfg_state = CONFIG_UNKNOWN;
if (cfg_state == CONFIG_UNKNOWN) {
auto runtime_info = vintf::VintfObject::GetInstance()->getRuntimeInfo(
vintf::RuntimeInfo::FetchFlag::CONFIG_GZ);
CHECK(runtime_info != nullptr) << "Kernel configs cannot be fetched. b/151092221";
const std::map<std::string, std::string>& configs = runtime_info->kernelConfigs();
std::map<std::string, std::string>::const_iterator it = configs.find("CONFIG_VMAP_STACK");
cfg_state = (it != configs.end() && it->second == "y") ? CONFIG_SET : CONFIG_UNSET;
}
return cfg_state == CONFIG_SET;
}
/*
* JNI registration.
*/
static const JNINativeMethod gMethods[] = {
{ "getNativeHeapSize", "()J",
(void*) android_os_Debug_getNativeHeapSize },
{ "getNativeHeapAllocatedSize", "()J",
(void*) android_os_Debug_getNativeHeapAllocatedSize },
{ "getNativeHeapFreeSize", "()J",
(void*) android_os_Debug_getNativeHeapFreeSize },
{ "getMemoryInfo", "(Landroid/os/Debug$MemoryInfo;)V",
(void*) android_os_Debug_getDirtyPages },
{ "getMemoryInfo", "(ILandroid/os/Debug$MemoryInfo;)Z",
(void*) android_os_Debug_getDirtyPagesPid },
{ "getPss", "()J",
(void*) android_os_Debug_getPss },
{ "getPss", "(I[J[J)J",
(void*) android_os_Debug_getPssPid },
{ "getMemInfo", "([J)V",
(void*) android_os_Debug_getMemInfo },
{ "dumpNativeHeap", "(Ljava/io/FileDescriptor;)V",
(void*) android_os_Debug_dumpNativeHeap },
{ "dumpNativeMallocInfo", "(Ljava/io/FileDescriptor;)V",
(void*) android_os_Debug_dumpNativeMallocInfo },
{ "getBinderSentTransactions", "()I",
(void*) android_os_Debug_getBinderSentTransactions },
{ "getBinderReceivedTransactions", "()I",
(void*) android_os_getBinderReceivedTransactions },
{ "getBinderLocalObjectCount", "()I",
(void*)android_os_Debug_getLocalObjectCount },
{ "getBinderProxyObjectCount", "()I",
(void*)android_os_Debug_getProxyObjectCount },
{ "getBinderDeathObjectCount", "()I",
(void*)android_os_Debug_getDeathObjectCount },
{ "dumpJavaBacktraceToFileTimeout", "(ILjava/lang/String;I)Z",
(void*)android_os_Debug_dumpJavaBacktraceToFileTimeout },
{ "dumpNativeBacktraceToFileTimeout", "(ILjava/lang/String;I)Z",
(void*)android_os_Debug_dumpNativeBacktraceToFileTimeout },
{ "getUnreachableMemory", "(IZ)Ljava/lang/String;",
(void*)android_os_Debug_getUnreachableMemory },
{ "getZramFreeKb", "()J",
(void*)android_os_Debug_getFreeZramKb },
{ "getIonHeapsSizeKb", "()J",
(void*)android_os_Debug_getIonHeapsSizeKb },
{ "getDmabufTotalExportedKb", "()J",
(void*)android_os_Debug_getDmabufTotalExportedKb },
{ "getGpuPrivateMemoryKb", "()J",
(void*)android_os_Debug_getGpuPrivateMemoryKb },
{ "getDmabufHeapTotalExportedKb", "()J",
(void*)android_os_Debug_getDmabufHeapTotalExportedKb },
{ "getIonPoolsSizeKb", "()J",
(void*)android_os_Debug_getIonPoolsSizeKb },
{ "getDmabufMappedSizeKb", "()J",
(void*)android_os_Debug_getDmabufMappedSizeKb },
{ "getDmabufHeapPoolsSizeKb", "()J",
(void*)android_os_Debug_getDmabufHeapPoolsSizeKb },
{ "getGpuTotalUsageKb", "()J",
(void*)android_os_Debug_getGpuTotalUsageKb },
{ "isVmapStack", "()Z",
(void*)android_os_Debug_isVmapStack },
};
int register_android_os_Debug(JNIEnv *env)
{
jclass clazz = env->FindClass("android/os/Debug$MemoryInfo");
// Check the number of other statistics expected in Java matches here.
jfieldID numOtherStats_field = env->GetStaticFieldID(clazz, "NUM_OTHER_STATS", "I");
jint numOtherStats = env->GetStaticIntField(clazz, numOtherStats_field);
jfieldID numDvkStats_field = env->GetStaticFieldID(clazz, "NUM_DVK_STATS", "I");
jint numDvkStats = env->GetStaticIntField(clazz, numDvkStats_field);
int expectedNumOtherStats = _NUM_HEAP - _NUM_CORE_HEAP;
if ((numOtherStats + numDvkStats) != expectedNumOtherStats) {
jniThrowExceptionFmt(env, "java/lang/RuntimeException",
"android.os.Debug.Meminfo.NUM_OTHER_STATS+android.os.Debug.Meminfo.NUM_DVK_STATS=%d expected %d",
numOtherStats+numDvkStats, expectedNumOtherStats);
return JNI_ERR;
}
otherStats_field = env->GetFieldID(clazz, "otherStats", "[I");
hasSwappedOutPss_field = env->GetFieldID(clazz, "hasSwappedOutPss", "Z");
for (int i=0; i<_NUM_CORE_HEAP; i++) {
stat_fields[i].pss_field =
env->GetFieldID(clazz, stat_field_names[i].pss_name, "I");
stat_fields[i].pssSwappable_field =
env->GetFieldID(clazz, stat_field_names[i].pssSwappable_name, "I");
stat_fields[i].rss_field =
env->GetFieldID(clazz, stat_field_names[i].rss_name, "I");
stat_fields[i].privateDirty_field =
env->GetFieldID(clazz, stat_field_names[i].privateDirty_name, "I");
stat_fields[i].sharedDirty_field =
env->GetFieldID(clazz, stat_field_names[i].sharedDirty_name, "I");
stat_fields[i].privateClean_field =
env->GetFieldID(clazz, stat_field_names[i].privateClean_name, "I");
stat_fields[i].sharedClean_field =
env->GetFieldID(clazz, stat_field_names[i].sharedClean_name, "I");
stat_fields[i].swappedOut_field =
env->GetFieldID(clazz, stat_field_names[i].swappedOut_name, "I");
stat_fields[i].swappedOutPss_field =
env->GetFieldID(clazz, stat_field_names[i].swappedOutPss_name, "I");
}
return jniRegisterNativeMethods(env, "android/os/Debug", gMethods, NELEM(gMethods));
}
}; // namespace android