/* * 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "JNIHelp.h" #include "ScopedUtfChars.h" #include "jni.h" #include #include #include "android_os_Debug.h" namespace android { static inline UniqueFile MakeUniqueFile(const char* path, const char* mode) { return UniqueFile(fopen(path, mode), safeFclose); } 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_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 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* 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", "otherPrivateDirty", "otherSharedDirty", "otherPrivateClean", "otherSharedClean", "otherSwappedOut", "otherSwappedOutPss" }, { "dalvikPss", "dalvikSwappablePss", "dalvikPrivateDirty", "dalvikSharedDirty", "dalvikPrivateClean", "dalvikSharedClean", "dalvikSwappedOut", "dalvikSwappedOutPss" }, { "nativePss", "nativeSwappablePss", "nativePrivateDirty", "nativeSharedDirty", "nativePrivateClean", "nativeSharedClean", "nativeSwappedOut", "nativeSwappedOutPss" } }; jfieldID otherStats_field; jfieldID hasSwappedOutPss_field; struct stats_t { int pss; int swappablePss; int privateDirty; int sharedDirty; int privateClean; int sharedClean; int swappedOut; int swappedOutPss; }; enum pss_rollup_support { PSS_ROLLUP_UNTRIED, PSS_ROLLUP_SUPPORTED, PSS_ROLLUP_UNSUPPORTED }; static std::atomic g_pss_rollup_support; #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) { ALOGW("failed to get memory consumption info: %d", err); 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 void read_mapinfo(FILE *fp, stats_t* stats, bool* foundSwapPss) { char line[1024]; int len, nameLen; bool skip, done = false; unsigned pss = 0, swappable_pss = 0; float sharing_proportion = 0.0; unsigned shared_clean = 0, shared_dirty = 0; unsigned private_clean = 0, private_dirty = 0; unsigned swapped_out = 0, swapped_out_pss = 0; bool is_swappable = false; unsigned temp; uint64_t start; uint64_t end = 0; uint64_t prevEnd = 0; char* name; int name_pos; int whichHeap = HEAP_UNKNOWN; int subHeap = HEAP_UNKNOWN; int prevHeap = HEAP_UNKNOWN; *foundSwapPss = false; if(fgets(line, sizeof(line), fp) == 0) return; while (!done) { prevHeap = whichHeap; prevEnd = end; whichHeap = HEAP_UNKNOWN; subHeap = HEAP_UNKNOWN; skip = false; is_swappable = false; len = strlen(line); if (len < 1) return; line[--len] = 0; if (sscanf(line, "%" SCNx64 "-%" SCNx64 " %*s %*x %*x:%*x %*d%n", &start, &end, &name_pos) != 2) { skip = true; } else { while (isspace(line[name_pos])) { name_pos += 1; } name = line + name_pos; nameLen = strlen(name); // Trim the end of the line if it is " (deleted)". const char* deleted_str = " (deleted)"; if (nameLen > (int)strlen(deleted_str) && strcmp(name+nameLen-strlen(deleted_str), deleted_str) == 0) { nameLen -= strlen(deleted_str); name[nameLen] = '\0'; } if ((strstr(name, "[heap]") == name)) { whichHeap = HEAP_NATIVE; } else if (strncmp(name, "[anon:libc_malloc]", 18) == 0) { whichHeap = HEAP_NATIVE; } else if (strncmp(name, "[stack", 6) == 0) { whichHeap = HEAP_STACK; } else if (nameLen > 3 && strcmp(name+nameLen-3, ".so") == 0) { whichHeap = HEAP_SO; is_swappable = true; } else if (nameLen > 4 && strcmp(name+nameLen-4, ".jar") == 0) { whichHeap = HEAP_JAR; is_swappable = true; } else if (nameLen > 4 && strcmp(name+nameLen-4, ".apk") == 0) { whichHeap = HEAP_APK; is_swappable = true; } else if (nameLen > 4 && strcmp(name+nameLen-4, ".ttf") == 0) { whichHeap = HEAP_TTF; is_swappable = true; } else if ((nameLen > 4 && strstr(name, ".dex") != NULL) || (nameLen > 5 && strcmp(name+nameLen-5, ".odex") == 0)) { whichHeap = HEAP_DEX; subHeap = HEAP_DEX_APP_DEX; is_swappable = true; } else if (nameLen > 5 && strcmp(name+nameLen-5, ".vdex") == 0) { whichHeap = HEAP_DEX; // Handle system@framework@boot* and system/framework/boot* if (strstr(name, "@boot") != NULL || strstr(name, "/boot") != NULL) { subHeap = HEAP_DEX_BOOT_VDEX; } else { subHeap = HEAP_DEX_APP_VDEX; } is_swappable = true; } else if (nameLen > 4 && strcmp(name+nameLen-4, ".oat") == 0) { whichHeap = HEAP_OAT; is_swappable = true; } else if (nameLen > 4 && strcmp(name+nameLen-4, ".art") == 0) { whichHeap = HEAP_ART; // Handle system@framework@boot* and system/framework/boot* if (strstr(name, "@boot") != NULL || strstr(name, "/boot") != NULL) { subHeap = HEAP_ART_BOOT; } else { subHeap = HEAP_ART_APP; } is_swappable = true; } else if (strncmp(name, "/dev/", 5) == 0) { if (strncmp(name, "/dev/kgsl-3d0", 13) == 0) { whichHeap = HEAP_GL_DEV; } else if (strncmp(name, "/dev/ashmem", 11) == 0) { if (strncmp(name, "/dev/ashmem/dalvik-", 19) == 0) { whichHeap = HEAP_DALVIK_OTHER; if (strstr(name, "/dev/ashmem/dalvik-LinearAlloc") == name) { subHeap = HEAP_DALVIK_OTHER_LINEARALLOC; } else if ((strstr(name, "/dev/ashmem/dalvik-alloc space") == name) || (strstr(name, "/dev/ashmem/dalvik-main space") == name)) { // This is the regular Dalvik heap. whichHeap = HEAP_DALVIK; subHeap = HEAP_DALVIK_NORMAL; } else if (strstr(name, "/dev/ashmem/dalvik-large object space") == name || strstr(name, "/dev/ashmem/dalvik-free list large object space") == name) { whichHeap = HEAP_DALVIK; subHeap = HEAP_DALVIK_LARGE; } else if (strstr(name, "/dev/ashmem/dalvik-non moving space") == name) { whichHeap = HEAP_DALVIK; subHeap = HEAP_DALVIK_NON_MOVING; } else if (strstr(name, "/dev/ashmem/dalvik-zygote space") == name) { whichHeap = HEAP_DALVIK; subHeap = HEAP_DALVIK_ZYGOTE; } else if (strstr(name, "/dev/ashmem/dalvik-indirect ref") == name) { subHeap = HEAP_DALVIK_OTHER_INDIRECT_REFERENCE_TABLE; } else if (strstr(name, "/dev/ashmem/dalvik-jit-code-cache") == name || strstr(name, "/dev/ashmem/dalvik-data-code-cache") == name) { subHeap = HEAP_DALVIK_OTHER_CODE_CACHE; } else if (strstr(name, "/dev/ashmem/dalvik-CompilerMetadata") == name) { subHeap = HEAP_DALVIK_OTHER_COMPILER_METADATA; } else { subHeap = HEAP_DALVIK_OTHER_ACCOUNTING; // Default to accounting. } } else if (strncmp(name, "/dev/ashmem/CursorWindow", 24) == 0) { whichHeap = HEAP_CURSOR; } else if (strncmp(name, "/dev/ashmem/libc malloc", 23) == 0) { whichHeap = HEAP_NATIVE; } else { whichHeap = HEAP_ASHMEM; } } else { whichHeap = HEAP_UNKNOWN_DEV; } } else if (strncmp(name, "[anon:", 6) == 0) { whichHeap = HEAP_UNKNOWN; } else if (nameLen > 0) { whichHeap = HEAP_UNKNOWN_MAP; } else if (start == prevEnd && prevHeap == HEAP_SO) { // bss section of a shared library. whichHeap = HEAP_SO; } } //ALOGI("native=%d dalvik=%d sqlite=%d: %s\n", isNativeHeap, isDalvikHeap, // isSqliteHeap, line); shared_clean = 0; shared_dirty = 0; private_clean = 0; private_dirty = 0; swapped_out = 0; swapped_out_pss = 0; while (true) { if (fgets(line, 1024, fp) == 0) { done = true; break; } if (line[0] == 'S' && sscanf(line, "Size: %d kB", &temp) == 1) { /* size = temp; */ } else if (line[0] == 'R' && sscanf(line, "Rss: %d kB", &temp) == 1) { /* resident = temp; */ } else if (line[0] == 'P' && sscanf(line, "Pss: %d kB", &temp) == 1) { pss = temp; } else if (line[0] == 'S' && sscanf(line, "Shared_Clean: %d kB", &temp) == 1) { shared_clean = temp; } else if (line[0] == 'S' && sscanf(line, "Shared_Dirty: %d kB", &temp) == 1) { shared_dirty = temp; } else if (line[0] == 'P' && sscanf(line, "Private_Clean: %d kB", &temp) == 1) { private_clean = temp; } else if (line[0] == 'P' && sscanf(line, "Private_Dirty: %d kB", &temp) == 1) { private_dirty = temp; } else if (line[0] == 'R' && sscanf(line, "Referenced: %d kB", &temp) == 1) { /* referenced = temp; */ } else if (line[0] == 'S' && sscanf(line, "Swap: %d kB", &temp) == 1) { swapped_out = temp; } else if (line[0] == 'S' && sscanf(line, "SwapPss: %d kB", &temp) == 1) { *foundSwapPss = true; swapped_out_pss = temp; } else if (sscanf(line, "%" SCNx64 "-%" SCNx64 " %*s %*x %*x:%*x %*d", &start, &end) == 2) { // looks like a new mapping // example: "10000000-10001000 ---p 10000000 00:00 0" break; } } if (!skip) { if (is_swappable && (pss > 0)) { sharing_proportion = 0.0; if ((shared_clean > 0) || (shared_dirty > 0)) { sharing_proportion = (pss - private_clean - private_dirty)/(shared_clean+shared_dirty); } swappable_pss = (sharing_proportion*shared_clean) + private_clean; } else swappable_pss = 0; stats[whichHeap].pss += pss; stats[whichHeap].swappablePss += swappable_pss; stats[whichHeap].privateDirty += private_dirty; stats[whichHeap].sharedDirty += shared_dirty; stats[whichHeap].privateClean += private_clean; stats[whichHeap].sharedClean += shared_clean; stats[whichHeap].swappedOut += swapped_out; stats[whichHeap].swappedOutPss += swapped_out_pss; if (whichHeap == HEAP_DALVIK || whichHeap == HEAP_DALVIK_OTHER || whichHeap == HEAP_DEX || whichHeap == HEAP_ART) { stats[subHeap].pss += pss; stats[subHeap].swappablePss += swappable_pss; stats[subHeap].privateDirty += private_dirty; stats[subHeap].sharedDirty += shared_dirty; stats[subHeap].privateClean += private_clean; stats[subHeap].sharedClean += shared_clean; stats[subHeap].swappedOut += swapped_out; stats[subHeap].swappedOutPss += swapped_out_pss; } } } } static void load_maps(int pid, stats_t* stats, bool* foundSwapPss) { *foundSwapPss = false; std::string smaps_path = base::StringPrintf("/proc/%d/smaps", pid); UniqueFile fp = MakeUniqueFile(smaps_path.c_str(), "re"); if (fp == nullptr) return; read_mapinfo(fp.get(), stats, foundSwapPss); } static void android_os_Debug_getDirtyPagesPid(JNIEnv *env, jobject clazz, jint pid, jobject object) { bool foundSwapPss; stats_t stats[_NUM_HEAP]; memset(&stats, 0, sizeof(stats)); load_maps(pid, stats, &foundSwapPss); 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_GL].pss = graphics_mem.gl; stats[HEAP_GL].privateDirty = graphics_mem.gl; stats[HEAP_OTHER_MEMTRACK].pss = graphics_mem.other; stats[HEAP_OTHER_MEMTRACK].privateDirty = 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].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].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; } 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].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); } static void android_os_Debug_getDirtyPages(JNIEnv *env, jobject clazz, jobject object) { android_os_Debug_getDirtyPagesPid(env, clazz, getpid(), object); } UniqueFile OpenSmapsOrRollup(int pid) { enum pss_rollup_support rollup_support = g_pss_rollup_support.load(std::memory_order_relaxed); if (rollup_support != PSS_ROLLUP_UNSUPPORTED) { std::string smaps_rollup_path = base::StringPrintf("/proc/%d/smaps_rollup", pid); UniqueFile fp_rollup = MakeUniqueFile(smaps_rollup_path.c_str(), "re"); if (fp_rollup == nullptr && errno != ENOENT) { return fp_rollup; // Actual error, not just old kernel. } if (fp_rollup != nullptr) { if (rollup_support == PSS_ROLLUP_UNTRIED) { ALOGI("using rollup pss collection"); g_pss_rollup_support.store(PSS_ROLLUP_SUPPORTED, std::memory_order_relaxed); } return fp_rollup; } g_pss_rollup_support.store(PSS_ROLLUP_UNSUPPORTED, std::memory_order_relaxed); } std::string smaps_path = base::StringPrintf("/proc/%d/smaps", pid); return MakeUniqueFile(smaps_path.c_str(), "re"); } static jlong android_os_Debug_getPssPid(JNIEnv *env, jobject clazz, jint pid, jlongArray outUssSwapPss, jlongArray outMemtrack) { char line[1024]; jlong pss = 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 = memtrack = graphics_mem.graphics + graphics_mem.gl + graphics_mem.other; } { UniqueFile fp = OpenSmapsOrRollup(pid); if (fp != nullptr) { while (true) { if (fgets(line, sizeof (line), fp.get()) == NULL) { break; } if (line[0] == 'P') { if (strncmp(line, "Pss:", 4) == 0) { char* c = line + 4; while (*c != 0 && (*c < '0' || *c > '9')) { c++; } pss += atoi(c); } else if (strncmp(line, "Private_Clean:", 14) == 0 || strncmp(line, "Private_Dirty:", 14) == 0) { char* c = line + 14; while (*c != 0 && (*c < '0' || *c > '9')) { c++; } uss += atoi(c); } } else if (line[0] == 'S' && strncmp(line, "SwapPss:", 8) == 0) { char* c = line + 8; jlong lSwapPss; while (*c != 0 && (*c < '0' || *c > '9')) { c++; } lSwapPss = atoi(c); swapPss += lSwapPss; pss += lSwapPss; // Also in swap, those pages would be accounted as Pss without SWAP } } } } if (outUssSwapPss != NULL) { if (env->GetArrayLength(outUssSwapPss) >= 1) { jlong* outUssSwapPssArray = env->GetLongArrayElements(outUssSwapPss, 0); if (outUssSwapPssArray != NULL) { outUssSwapPssArray[0] = uss; if (env->GetArrayLength(outUssSwapPss) >= 2) { outUssSwapPssArray[1] = swapPss; } } env->ReleaseLongArrayElements(outUssSwapPss, outUssSwapPssArray, 0); } } if (outMemtrack != NULL) { if (env->GetArrayLength(outMemtrack) >= 1) { jlong* outMemtrackArray = env->GetLongArrayElements(outMemtrack, 0); if (outMemtrackArray != NULL) { outMemtrackArray[0] = memtrack; } 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); } static long get_allocated_vmalloc_memory() { char line[1024]; // Ignored tags that don't actually consume memory (ie remappings) static const char* const ignored_tags[] = { "ioremap", "map_lowmem", "vm_map_ram", NULL }; long size, vmalloc_allocated_size = 0; UniqueFile fp = MakeUniqueFile("/proc/vmallocinfo", "re"); if (fp == nullptr) { return 0; } while (true) { if (fgets(line, 1024, fp.get()) == NULL) { break; } bool valid_line = true; int i = 0; while (ignored_tags[i]) { if (strstr(line, ignored_tags[i]) != NULL) { valid_line = false; break; } i++; } if (valid_line && (sscanf(line, "%*x-%*x %ld", &size) == 1)) { vmalloc_allocated_size += size; } } return vmalloc_allocated_size; } 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_COUNT }; static long long get_zram_mem_used() { #define ZRAM_SYSFS "/sys/block/zram0/" UniqueFile mm_stat_file = MakeUniqueFile(ZRAM_SYSFS "mm_stat", "re"); if (mm_stat_file) { long long mem_used_total = 0; int matched = fscanf(mm_stat_file.get(), "%*d %*d %lld %*d %*d %*d %*d", &mem_used_total); if (matched != 1) ALOGW("failed to parse " ZRAM_SYSFS "mm_stat"); return mem_used_total; } UniqueFile mem_used_total_file = MakeUniqueFile(ZRAM_SYSFS "mem_used_total", "re"); if (mem_used_total_file) { long long mem_used_total = 0; int matched = fscanf(mem_used_total_file.get(), "%lld", &mem_used_total); if (matched != 1) ALOGW("failed to parse " ZRAM_SYSFS "mem_used_total"); return mem_used_total; } return 0; } static void android_os_Debug_getMemInfo(JNIEnv *env, jobject clazz, jlongArray out) { char buffer[1024]; size_t numFound = 0; if (out == NULL) { jniThrowNullPointerException(env, "out == null"); return; } int fd = open("/proc/meminfo", O_RDONLY); if (fd < 0) { ALOGW("Unable to open /proc/meminfo: %s\n", strerror(errno)); return; } int len = read(fd, buffer, sizeof(buffer)-1); close(fd); if (len < 0) { ALOGW("Empty /proc/meminfo"); return; } buffer[len] = 0; static const char* const tags[] = { "MemTotal:", "MemFree:", "Buffers:", "Cached:", "Shmem:", "Slab:", "SReclaimable:", "SUnreclaim:", "SwapTotal:", "SwapFree:", "ZRam:", "Mapped:", "VmallocUsed:", "PageTables:", "KernelStack:", NULL }; static const int tagsLen[] = { 9, 8, 8, 7, 6, 5, 13, 11, 10, 9, 5, 7, 12, 11, 12, 0 }; long mem[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }; char* p = buffer; while (*p && numFound < (sizeof(tagsLen) / sizeof(tagsLen[0]))) { int i = 0; while (tags[i]) { if (strncmp(p, tags[i], tagsLen[i]) == 0) { p += tagsLen[i]; while (*p == ' ') p++; char* num = p; while (*p >= '0' && *p <= '9') p++; if (*p != 0) { *p = 0; p++; } mem[i] = atoll(num); numFound++; break; } i++; } while (*p && *p != '\n') { p++; } if (*p) p++; } mem[MEMINFO_ZRAM_TOTAL] = get_zram_mem_used() / 1024; // Recompute Vmalloc Used since the value in meminfo // doesn't account for I/O remapping which doesn't use RAM. mem[MEMINFO_VMALLOC_USED] = get_allocated_vmalloc_memory() / 1024; int maxNum = env->GetArrayLength(out); if (maxNum > MEMINFO_COUNT) { maxNum = MEMINFO_COUNT; } jlong* outArray = env->GetLongArrayElements(out, 0); if (outArray != NULL) { for (int i=0; iReleaseLongArrayElements(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); /* pulled out of bionic */ extern "C" void get_malloc_leak_info(uint8_t** info, size_t* overallSize, size_t* infoSize, size_t* totalMemory, size_t* backtraceSize); extern "C" void free_malloc_leak_info(uint8_t* info); #define SIZE_FLAG_ZYGOTE_CHILD (1<<31) static size_t gNumBacktraceElements; /* * This is a qsort() callback. * * See dumpNativeHeap() for comments about the data format and sort order. */ static int compareHeapRecords(const void* vrec1, const void* vrec2) { const size_t* rec1 = (const size_t*) vrec1; const size_t* rec2 = (const size_t*) vrec2; size_t size1 = *rec1; size_t size2 = *rec2; if (size1 < size2) { return 1; } else if (size1 > size2) { return -1; } uintptr_t* bt1 = (uintptr_t*)(rec1 + 2); uintptr_t* bt2 = (uintptr_t*)(rec2 + 2); for (size_t idx = 0; idx < gNumBacktraceElements; idx++) { uintptr_t addr1 = bt1[idx]; uintptr_t addr2 = bt2[idx]; if (addr1 == addr2) { if (addr1 == 0) break; continue; } if (addr1 < addr2) { return -1; } else if (addr1 > addr2) { return 1; } } return 0; } /* * The get_malloc_leak_info() call returns an array of structs that * look like this: * * size_t size * size_t allocations * intptr_t backtrace[32] * * "size" is the size of the allocation, "backtrace" is a fixed-size * array of function pointers, and "allocations" is the number of * allocations with the exact same size and backtrace. * * The entries are sorted by descending total size (i.e. size*allocations) * then allocation count. For best results with "diff" we'd like to sort * primarily by individual size then stack trace. Since the entries are * fixed-size, and we're allowed (by the current implementation) to mangle * them, we can do this in place. */ static void dumpNativeHeap(FILE* fp) { uint8_t* info = NULL; size_t overallSize, infoSize, totalMemory, backtraceSize; get_malloc_leak_info(&info, &overallSize, &infoSize, &totalMemory, &backtraceSize); if (info == NULL) { fprintf(fp, "Native heap dump not available. To enable, run these" " commands (requires root):\n"); fprintf(fp, "# adb shell stop\n"); fprintf(fp, "# adb shell setprop libc.debug.malloc.options " "backtrace\n"); fprintf(fp, "# adb shell start\n"); return; } assert(infoSize != 0); assert(overallSize % infoSize == 0); fprintf(fp, "Android Native Heap Dump v1.0\n\n"); size_t recordCount = overallSize / infoSize; fprintf(fp, "Total memory: %zu\n", totalMemory); fprintf(fp, "Allocation records: %zd\n", recordCount); fprintf(fp, "Backtrace size: %zd\n", backtraceSize); fprintf(fp, "\n"); /* re-sort the entries */ gNumBacktraceElements = backtraceSize; qsort(info, recordCount, infoSize, compareHeapRecords); /* dump the entries to the file */ const uint8_t* ptr = info; for (size_t idx = 0; idx < recordCount; idx++) { size_t size = *(size_t*) ptr; size_t allocations = *(size_t*) (ptr + sizeof(size_t)); uintptr_t* backtrace = (uintptr_t*) (ptr + sizeof(size_t) * 2); fprintf(fp, "z %d sz %8zu num %4zu bt", (size & SIZE_FLAG_ZYGOTE_CHILD) != 0, size & ~SIZE_FLAG_ZYGOTE_CHILD, allocations); for (size_t bt = 0; bt < backtraceSize; bt++) { if (backtrace[bt] == 0) { break; } else { #ifdef __LP64__ fprintf(fp, " %016" PRIxPTR, backtrace[bt]); #else fprintf(fp, " %08" PRIxPTR, backtrace[bt]); #endif } } fprintf(fp, "\n"); ptr += infoSize; } free_malloc_leak_info(info); fprintf(fp, "MAPS\n"); const char* maps = "/proc/self/maps"; UniqueFile in = MakeUniqueFile(maps, "re"); if (in == nullptr) { fprintf(fp, "Could not open %s\n", maps); return; } char buf[BUFSIZ]; while (size_t n = fread(buf, sizeof(char), BUFSIZ, in.get())) { fwrite(buf, sizeof(char), n, fp); } fprintf(fp, "END\n"); } 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 = dup(origFd); 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"); dumpNativeHeap(fp.get()); ALOGD("Native heap dump complete.\n"); } /* * 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) { fprintf(stderr, "Can't open %s: %s\n", fileNameChars.c_str(), strerror(errno)); return false; } return (dump_backtrace_to_file_timeout(pid, dumpType, timeoutSecs, fd) == 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()); } /* * 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;)V", (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 }, }; int register_android_os_Debug(JNIEnv *env) { jclass clazz = env->FindClass("android/os/Debug$MemoryInfo"); // Sanity 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].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