/* //device/libs/android_runtime/android_util_Process.cpp ** ** Copyright 2006, 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 "Process" // To make sure cpu_set_t is included from sched.h #define _GNU_SOURCE 1 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "core_jni_helpers.h" #include "android_util_Binder.h" #include #include "android_os_Debug.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define GUARD_THREAD_PRIORITY 0 using namespace android; static constexpr bool kDebugPolicy = false; static constexpr bool kDebugProc = false; // Stack reservation for reading small proc files. Most callers of // readProcFile() are reading files under this threshold, e.g., // /proc/pid/stat. /proc/pid/time_in_state ends up being about 520 // bytes, so use 1024 for the stack to provide a bit of slack. static constexpr ssize_t kProcReadStackBufferSize = 1024; // The other files we read from proc tend to be a bit larger (e.g., // /proc/stat is about 3kB), so once we exhaust the stack buffer, // retry with a relatively large heap-allocated buffer. We double // this size and retry until the whole file fits. static constexpr ssize_t kProcReadMinHeapBufferSize = 4096; #if GUARD_THREAD_PRIORITY Mutex gKeyCreateMutex; static pthread_key_t gBgKey = -1; #endif // For both of these, err should be in the errno range (positive), not a status_t (negative) static void signalExceptionForError(JNIEnv* env, int err, int tid) { switch (err) { case EINVAL: jniThrowExceptionFmt(env, "java/lang/IllegalArgumentException", "Invalid argument: %d", tid); break; case ESRCH: jniThrowExceptionFmt(env, "java/lang/IllegalArgumentException", "Given thread %d does not exist", tid); break; case EPERM: jniThrowExceptionFmt(env, "java/lang/SecurityException", "No permission to modify given thread %d", tid); break; default: jniThrowException(env, "java/lang/RuntimeException", "Unknown error"); break; } } static void signalExceptionForPriorityError(JNIEnv* env, int err, int tid) { switch (err) { case EACCES: jniThrowExceptionFmt(env, "java/lang/SecurityException", "No permission to set the priority of %d", tid); break; default: signalExceptionForError(env, err, tid); break; } } static void signalExceptionForGroupError(JNIEnv* env, int err, int tid) { switch (err) { case EACCES: jniThrowExceptionFmt(env, "java/lang/SecurityException", "No permission to set the group of %d", tid); break; default: signalExceptionForError(env, err, tid); break; } } jint android_os_Process_getUidForName(JNIEnv* env, jobject clazz, jstring name) { if (name == NULL) { jniThrowNullPointerException(env, NULL); return -1; } const jchar* str16 = env->GetStringCritical(name, 0); String8 name8; if (str16) { name8 = String8(reinterpret_cast(str16), env->GetStringLength(name)); env->ReleaseStringCritical(name, str16); } const size_t N = name8.size(); if (N > 0) { const char* str = name8.string(); for (size_t i=0; i '9') { struct passwd* pwd = getpwnam(str); if (pwd == NULL) { return -1; } return pwd->pw_uid; } } return atoi(str); } return -1; } jint android_os_Process_getGidForName(JNIEnv* env, jobject clazz, jstring name) { if (name == NULL) { jniThrowNullPointerException(env, NULL); return -1; } const jchar* str16 = env->GetStringCritical(name, 0); String8 name8; if (str16) { name8 = String8(reinterpret_cast(str16), env->GetStringLength(name)); env->ReleaseStringCritical(name, str16); } const size_t N = name8.size(); if (N > 0) { const char* str = name8.string(); for (size_t i=0; i '9') { struct group* grp = getgrnam(str); if (grp == NULL) { return -1; } return grp->gr_gid; } } return atoi(str); } return -1; } static bool verifyGroup(JNIEnv* env, int grp) { if (grp < SP_DEFAULT || grp >= SP_CNT) { signalExceptionForError(env, EINVAL, grp); return false; } return true; } void android_os_Process_setThreadGroup(JNIEnv* env, jobject clazz, int tid, jint grp) { ALOGV("%s tid=%d grp=%" PRId32, __func__, tid, grp); if (!verifyGroup(env, grp)) { return; } int res = SetTaskProfiles(tid, {get_sched_policy_profile_name((SchedPolicy)grp)}, true) ? 0 : -1; if (res != NO_ERROR) { signalExceptionForGroupError(env, -res, tid); } } void android_os_Process_setThreadGroupAndCpuset(JNIEnv* env, jobject clazz, int tid, jint grp) { ALOGV("%s tid=%d grp=%" PRId32, __func__, tid, grp); if (!verifyGroup(env, grp)) { return; } int res = SetTaskProfiles(tid, {get_cpuset_policy_profile_name((SchedPolicy)grp)}, true) ? 0 : -1; if (res != NO_ERROR) { signalExceptionForGroupError(env, -res, tid); } } void android_os_Process_setProcessGroup(JNIEnv* env, jobject clazz, int pid, jint grp) { ALOGV("%s pid=%d grp=%" PRId32, __func__, pid, grp); DIR *d; char proc_path[255]; struct dirent *de; if (!verifyGroup(env, grp)) { return; } if (grp == SP_FOREGROUND) { signalExceptionForGroupError(env, EINVAL, pid); return; } bool isDefault = false; if (grp < 0) { grp = SP_FOREGROUND; isDefault = true; } if (kDebugPolicy) { char cmdline[32]; int fd; strcpy(cmdline, "unknown"); sprintf(proc_path, "/proc/%d/cmdline", pid); fd = open(proc_path, O_RDONLY | O_CLOEXEC); if (fd >= 0) { int rc = read(fd, cmdline, sizeof(cmdline)-1); cmdline[rc] = 0; close(fd); } if (grp == SP_BACKGROUND) { ALOGD("setProcessGroup: vvv pid %d (%s)", pid, cmdline); } else { ALOGD("setProcessGroup: ^^^ pid %d (%s)", pid, cmdline); } } sprintf(proc_path, "/proc/%d/task", pid); if (!(d = opendir(proc_path))) { // If the process exited on us, don't generate an exception if (errno != ENOENT) signalExceptionForGroupError(env, errno, pid); return; } while ((de = readdir(d))) { int t_pid; int t_pri; int err; if (de->d_name[0] == '.') continue; t_pid = atoi(de->d_name); if (!t_pid) { ALOGE("Error getting pid for '%s'\n", de->d_name); continue; } t_pri = getpriority(PRIO_PROCESS, t_pid); if (t_pri <= ANDROID_PRIORITY_AUDIO) { int scheduler = sched_getscheduler(t_pid) & ~SCHED_RESET_ON_FORK; if ((scheduler == SCHED_FIFO) || (scheduler == SCHED_RR)) { // This task wants to stay in its current audio group so it can keep its budget // don't update its cpuset or cgroup continue; } } if (isDefault) { if (t_pri >= ANDROID_PRIORITY_BACKGROUND) { // This task wants to stay at background // update its cpuset so it doesn't only run on bg core(s) err = SetTaskProfiles(t_pid, {get_cpuset_policy_profile_name((SchedPolicy)grp)}, true) ? 0 : -1; if (err != NO_ERROR) { signalExceptionForGroupError(env, -err, t_pid); break; } continue; } } err = SetTaskProfiles(t_pid, {get_cpuset_policy_profile_name((SchedPolicy)grp)}, true) ? 0 : -1; if (err != NO_ERROR) { signalExceptionForGroupError(env, -err, t_pid); break; } } closedir(d); } void android_os_Process_setProcessFrozen( JNIEnv *env, jobject clazz, jint pid, jint uid, jboolean freeze) { bool success = true; if (freeze) { success = SetProcessProfiles(uid, pid, {"Frozen"}); } else { success = SetProcessProfiles(uid, pid, {"Unfrozen"}); } if (!success) { signalExceptionForGroupError(env, EINVAL, pid); } } void android_os_Process_enableFreezer( JNIEnv *env, jobject clazz, jboolean enable) { bool success = true; if (enable) { success = SetTaskProfiles(0, {"FreezerFrozen"}, true); } else { success = SetTaskProfiles(0, {"FreezerThawed"}, true); } if (!success) { jniThrowException(env, "java/lang/RuntimeException", "Unknown error"); } } jint android_os_Process_getProcessGroup(JNIEnv* env, jobject clazz, jint pid) { SchedPolicy sp; if (get_sched_policy(pid, &sp) != 0) { signalExceptionForGroupError(env, errno, pid); } return (int) sp; } /** Sample CPUset list format: * 0-3,4,6-8 */ static void parse_cpuset_cpus(char *cpus, cpu_set_t *cpu_set) { unsigned int start, end, matched, i; char *cpu_range = strtok(cpus, ","); while (cpu_range != NULL) { start = end = 0; matched = sscanf(cpu_range, "%u-%u", &start, &end); cpu_range = strtok(NULL, ","); if (start >= CPU_SETSIZE) { ALOGE("parse_cpuset_cpus: ignoring CPU number larger than %d.", CPU_SETSIZE); continue; } else if (end >= CPU_SETSIZE) { ALOGE("parse_cpuset_cpus: ignoring CPU numbers larger than %d.", CPU_SETSIZE); end = CPU_SETSIZE - 1; } if (matched == 1) { CPU_SET(start, cpu_set); } else if (matched == 2) { for (i = start; i <= end; i++) { CPU_SET(i, cpu_set); } } else { ALOGE("Failed to match cpus"); } } return; } /** * Stores the CPUs assigned to the cpuset corresponding to the * SchedPolicy in the passed in cpu_set. */ static void get_cpuset_cores_for_policy(SchedPolicy policy, cpu_set_t *cpu_set) { FILE *file; std::string filename; CPU_ZERO(cpu_set); switch (policy) { case SP_BACKGROUND: if (!CgroupGetAttributePath("LowCapacityCPUs", &filename)) { return; } break; case SP_FOREGROUND: case SP_AUDIO_APP: case SP_AUDIO_SYS: case SP_RT_APP: if (!CgroupGetAttributePath("HighCapacityCPUs", &filename)) { return; } break; case SP_TOP_APP: if (!CgroupGetAttributePath("MaxCapacityCPUs", &filename)) { return; } break; default: return; } file = fopen(filename.c_str(), "re"); if (file != NULL) { // Parse cpus string char *line = NULL; size_t len = 0; ssize_t num_read = getline(&line, &len, file); fclose (file); if (num_read > 0) { parse_cpuset_cpus(line, cpu_set); } else { ALOGE("Failed to read %s", filename.c_str()); } free(line); } return; } /** * Determine CPU cores exclusively assigned to the * cpuset corresponding to the SchedPolicy and store * them in the passed in cpu_set_t */ void get_exclusive_cpuset_cores(SchedPolicy policy, cpu_set_t *cpu_set) { if (cpusets_enabled()) { int i; cpu_set_t tmp_set; get_cpuset_cores_for_policy(policy, cpu_set); for (i = 0; i < SP_CNT; i++) { if ((SchedPolicy) i == policy) continue; get_cpuset_cores_for_policy((SchedPolicy)i, &tmp_set); // First get cores exclusive to one set or the other CPU_XOR(&tmp_set, cpu_set, &tmp_set); // Then get the ones only in cpu_set CPU_AND(cpu_set, cpu_set, &tmp_set); } } else { CPU_ZERO(cpu_set); } return; } jintArray android_os_Process_getExclusiveCores(JNIEnv* env, jobject clazz) { SchedPolicy sp; cpu_set_t cpu_set; jintArray cpus; int pid = getpid(); if (get_sched_policy(pid, &sp) != 0) { signalExceptionForGroupError(env, errno, pid); return NULL; } get_exclusive_cpuset_cores(sp, &cpu_set); int num_cpus = CPU_COUNT(&cpu_set); cpus = env->NewIntArray(num_cpus); if (cpus == NULL) { jniThrowException(env, "java/lang/OutOfMemoryError", NULL); return NULL; } jint* cpu_elements = env->GetIntArrayElements(cpus, 0); int count = 0; for (int i = 0; i < CPU_SETSIZE && count < num_cpus; i++) { if (CPU_ISSET(i, &cpu_set)) { cpu_elements[count++] = i; } } env->ReleaseIntArrayElements(cpus, cpu_elements, 0); return cpus; } static void android_os_Process_setCanSelfBackground(JNIEnv* env, jobject clazz, jboolean bgOk) { // Establishes the calling thread as illegal to put into the background. // Typically used only for the system process's main looper. #if GUARD_THREAD_PRIORITY ALOGV("Process.setCanSelfBackground(%d) : tid=%d", bgOk, gettid()); { Mutex::Autolock _l(gKeyCreateMutex); if (gBgKey == -1) { pthread_key_create(&gBgKey, NULL); } } // inverted: not-okay, we set a sentinel value pthread_setspecific(gBgKey, (void*)(bgOk ? 0 : 0xbaad)); #endif } jint android_os_Process_getThreadScheduler(JNIEnv* env, jclass clazz, jint tid) { int policy = 0; // linux has sched_getscheduler(), others don't. #if defined(__linux__) errno = 0; policy = sched_getscheduler(tid); if (errno != 0) { signalExceptionForPriorityError(env, errno, tid); } #else signalExceptionForPriorityError(env, ENOSYS, tid); #endif return policy; } void android_os_Process_setThreadScheduler(JNIEnv* env, jclass clazz, jint tid, jint policy, jint pri) { // linux has sched_setscheduler(), others don't. #if defined(__linux__) struct sched_param param; param.sched_priority = pri; int rc = sched_setscheduler(tid, policy, ¶m); if (rc) { signalExceptionForPriorityError(env, errno, tid); } #else signalExceptionForPriorityError(env, ENOSYS, tid); #endif } void android_os_Process_setThreadPriority(JNIEnv* env, jobject clazz, jint pid, jint pri) { #if GUARD_THREAD_PRIORITY // if we're putting the current thread into the background, check the TLS // to make sure this thread isn't guarded. If it is, raise an exception. if (pri >= ANDROID_PRIORITY_BACKGROUND) { if (pid == gettid()) { void* bgOk = pthread_getspecific(gBgKey); if (bgOk == ((void*)0xbaad)) { ALOGE("Thread marked fg-only put self in background!"); jniThrowException(env, "java/lang/SecurityException", "May not put this thread into background"); return; } } } #endif int rc = androidSetThreadPriority(pid, pri); if (rc != 0) { if (rc == INVALID_OPERATION) { signalExceptionForPriorityError(env, errno, pid); } else { signalExceptionForGroupError(env, errno, pid); } } //ALOGI("Setting priority of %" PRId32 ": %" PRId32 ", getpriority returns %d\n", // pid, pri, getpriority(PRIO_PROCESS, pid)); } void android_os_Process_setCallingThreadPriority(JNIEnv* env, jobject clazz, jint pri) { android_os_Process_setThreadPriority(env, clazz, gettid(), pri); } jint android_os_Process_getThreadPriority(JNIEnv* env, jobject clazz, jint pid) { errno = 0; jint pri = getpriority(PRIO_PROCESS, pid); if (errno != 0) { signalExceptionForPriorityError(env, errno, pid); } //ALOGI("Returning priority of %" PRId32 ": %" PRId32 "\n", pid, pri); return pri; } jboolean android_os_Process_setSwappiness(JNIEnv *env, jobject clazz, jint pid, jboolean is_increased) { char text[64]; if (is_increased) { strcpy(text, "/sys/fs/cgroup/memory/sw/tasks"); } else { strcpy(text, "/sys/fs/cgroup/memory/tasks"); } struct stat st; if (stat(text, &st) || !S_ISREG(st.st_mode)) { return false; } int fd = open(text, O_WRONLY | O_CLOEXEC); if (fd >= 0) { sprintf(text, "%" PRId32, pid); write(fd, text, strlen(text)); close(fd); } return true; } void android_os_Process_setArgV0(JNIEnv* env, jobject clazz, jstring name) { if (name == NULL) { jniThrowNullPointerException(env, NULL); return; } const jchar* str = env->GetStringCritical(name, 0); String8 name8; if (str) { name8 = String8(reinterpret_cast(str), env->GetStringLength(name)); env->ReleaseStringCritical(name, str); } if (!name8.isEmpty()) { AndroidRuntime::getRuntime()->setArgv0(name8.string(), true /* setProcName */); } } jint android_os_Process_setUid(JNIEnv* env, jobject clazz, jint uid) { return setuid(uid) == 0 ? 0 : errno; } jint android_os_Process_setGid(JNIEnv* env, jobject clazz, jint uid) { return setgid(uid) == 0 ? 0 : errno; } static int pid_compare(const void* v1, const void* v2) { //ALOGI("Compare %" PRId32 " vs %" PRId32 "\n", *((const jint*)v1), *((const jint*)v2)); return *((const jint*)v1) - *((const jint*)v2); } static jlong android_os_Process_getFreeMemory(JNIEnv* env, jobject clazz) { std::array memFreeTags = { ::android::meminfo::SysMemInfo::kMemFree, ::android::meminfo::SysMemInfo::kMemCached, }; std::vector mem(memFreeTags.size()); ::android::meminfo::SysMemInfo smi; if (!smi.ReadMemInfo(memFreeTags.size(), memFreeTags.data(), mem.data())) { jniThrowRuntimeException(env, "SysMemInfo read failed to get Free Memory"); return -1L; } jlong sum = 0; std::for_each(mem.begin(), mem.end(), [&](uint64_t val) { sum += val; }); return sum * 1024; } static jlong android_os_Process_getTotalMemory(JNIEnv* env, jobject clazz) { struct sysinfo si; if (sysinfo(&si) == -1) { ALOGE("sysinfo failed: %s", strerror(errno)); return -1; } return static_cast(si.totalram) * si.mem_unit; } /* * The outFields array is initialized to -1 to allow the caller to identify * when the status file (and therefore the process) they specified is invalid. * This array should not be overwritten or cleared before we know that the * status file can be read. */ void android_os_Process_readProcLines(JNIEnv* env, jobject clazz, jstring fileStr, jobjectArray reqFields, jlongArray outFields) { //ALOGI("getMemInfo: %p %p", reqFields, outFields); if (fileStr == NULL || reqFields == NULL || outFields == NULL) { jniThrowNullPointerException(env, NULL); return; } const char* file8 = env->GetStringUTFChars(fileStr, NULL); if (file8 == NULL) { return; } String8 file(file8); env->ReleaseStringUTFChars(fileStr, file8); jsize count = env->GetArrayLength(reqFields); if (count > env->GetArrayLength(outFields)) { jniThrowException(env, "java/lang/IllegalArgumentException", "Array lengths differ"); return; } Vector fields; int i; for (i=0; iGetObjectArrayElement(reqFields, i); if (obj != NULL) { const char* str8 = env->GetStringUTFChars((jstring)obj, NULL); //ALOGI("String at %d: %p = %s", i, obj, str8); if (str8 == NULL) { jniThrowNullPointerException(env, "Element in reqFields"); return; } fields.add(String8(str8)); env->ReleaseStringUTFChars((jstring)obj, str8); } else { jniThrowNullPointerException(env, "Element in reqFields"); return; } } jlong* sizesArray = env->GetLongArrayElements(outFields, 0); if (sizesArray == NULL) { return; } int fd = open(file.string(), O_RDONLY | O_CLOEXEC); if (fd >= 0) { //ALOGI("Clearing %" PRId32 " sizes", count); for (i=0; i= '0' && *p <= '9') p++; skipToEol = *p != '\n'; if (*p != 0) { *p = 0; p++; } char* end; sizesArray[i] = strtoll(num, &end, 10); //ALOGI("Field %s = %" PRId64, field.string(), sizesArray[i]); foundCount++; break; } } if (skipToEol) { while (*p && *p != '\n') { p++; } if (*p == '\n') { p++; } } } free(buffer); } else { ALOGW("Unable to open %s", file.string()); } //ALOGI("Done!"); env->ReleaseLongArrayElements(outFields, sizesArray, 0); } jintArray android_os_Process_getPids(JNIEnv* env, jobject clazz, jstring file, jintArray lastArray) { if (file == NULL) { jniThrowNullPointerException(env, NULL); return NULL; } const char* file8 = env->GetStringUTFChars(file, NULL); if (file8 == NULL) { jniThrowException(env, "java/lang/OutOfMemoryError", NULL); return NULL; } DIR* dirp = opendir(file8); env->ReleaseStringUTFChars(file, file8); if(dirp == NULL) { return NULL; } jsize curCount = 0; jint* curData = NULL; if (lastArray != NULL) { curCount = env->GetArrayLength(lastArray); curData = env->GetIntArrayElements(lastArray, 0); } jint curPos = 0; struct dirent* entry; while ((entry=readdir(dirp)) != NULL) { const char* p = entry->d_name; while (*p) { if (*p < '0' || *p > '9') break; p++; } if (*p != 0) continue; char* end; int pid = strtol(entry->d_name, &end, 10); //ALOGI("File %s pid=%d\n", entry->d_name, pid); if (curPos >= curCount) { jsize newCount = (curCount == 0) ? 10 : (curCount*2); jintArray newArray = env->NewIntArray(newCount); if (newArray == NULL) { closedir(dirp); jniThrowException(env, "java/lang/OutOfMemoryError", NULL); return NULL; } jint* newData = env->GetIntArrayElements(newArray, 0); if (curData != NULL) { memcpy(newData, curData, sizeof(jint)*curCount); env->ReleaseIntArrayElements(lastArray, curData, 0); } lastArray = newArray; curCount = newCount; curData = newData; } curData[curPos] = pid; curPos++; } closedir(dirp); if (curData != NULL && curPos > 0) { qsort(curData, curPos, sizeof(jint), pid_compare); } while (curPos < curCount) { curData[curPos] = -1; curPos++; } if (curData != NULL) { env->ReleaseIntArrayElements(lastArray, curData, 0); } return lastArray; } enum { PROC_TERM_MASK = 0xff, PROC_ZERO_TERM = 0, PROC_SPACE_TERM = ' ', PROC_COMBINE = 0x100, PROC_PARENS = 0x200, PROC_QUOTES = 0x400, PROC_CHAR = 0x800, PROC_OUT_STRING = 0x1000, PROC_OUT_LONG = 0x2000, PROC_OUT_FLOAT = 0x4000, }; jboolean android_os_Process_parseProcLineArray(JNIEnv* env, jobject clazz, char* buffer, jint startIndex, jint endIndex, jintArray format, jobjectArray outStrings, jlongArray outLongs, jfloatArray outFloats) { const jsize NF = env->GetArrayLength(format); const jsize NS = outStrings ? env->GetArrayLength(outStrings) : 0; const jsize NL = outLongs ? env->GetArrayLength(outLongs) : 0; const jsize NR = outFloats ? env->GetArrayLength(outFloats) : 0; jint* formatData = env->GetIntArrayElements(format, 0); jlong* longsData = outLongs ? env->GetLongArrayElements(outLongs, 0) : NULL; jfloat* floatsData = outFloats ? env->GetFloatArrayElements(outFloats, 0) : NULL; if (formatData == NULL || (NL > 0 && longsData == NULL) || (NR > 0 && floatsData == NULL)) { if (formatData != NULL) { env->ReleaseIntArrayElements(format, formatData, 0); } if (longsData != NULL) { env->ReleaseLongArrayElements(outLongs, longsData, 0); } if (floatsData != NULL) { env->ReleaseFloatArrayElements(outFloats, floatsData, 0); } jniThrowException(env, "java/lang/OutOfMemoryError", NULL); return JNI_FALSE; } jsize i = startIndex; jsize di = 0; jboolean res = JNI_TRUE; for (jsize fi=0; fi= endIndex) { if (kDebugProc) { ALOGW("Ran off end of data @%d", i); } res = JNI_FALSE; break; } jsize end = -1; if ((mode&PROC_PARENS) != 0) { while (i < endIndex && buffer[i] != ')') { i++; } end = i; i++; } else if ((mode&PROC_QUOTES) != 0) { while (buffer[i] != '"' && i < endIndex) { i++; } end = i; i++; } while (i < endIndex && buffer[i] != term) { i++; } if (end < 0) { end = i; } if (i < endIndex) { i++; if ((mode&PROC_COMBINE) != 0) { while (i < endIndex && buffer[i] == term) { i++; } } } //ALOGI("Field %" PRId32 ": %" PRId32 "-%" PRId32 " dest=%" PRId32 " mode=0x%" PRIx32 "\n", i, start, end, di, mode); if ((mode&(PROC_OUT_FLOAT|PROC_OUT_LONG|PROC_OUT_STRING)) != 0) { char c = buffer[end]; buffer[end] = 0; if ((mode&PROC_OUT_FLOAT) != 0 && di < NR) { char* end; floatsData[di] = strtof(buffer+start, &end); } if ((mode&PROC_OUT_LONG) != 0 && di < NL) { if ((mode&PROC_CHAR) != 0) { // Caller wants single first character returned as one long. longsData[di] = buffer[start]; } else { char* end; longsData[di] = strtoll(buffer+start, &end, 10); } } if ((mode&PROC_OUT_STRING) != 0 && di < NS) { jstring str = env->NewStringUTF(buffer+start); env->SetObjectArrayElement(outStrings, di, str); } buffer[end] = c; di++; } } env->ReleaseIntArrayElements(format, formatData, 0); if (longsData != NULL) { env->ReleaseLongArrayElements(outLongs, longsData, 0); } if (floatsData != NULL) { env->ReleaseFloatArrayElements(outFloats, floatsData, 0); } return res; } jboolean android_os_Process_parseProcLine(JNIEnv* env, jobject clazz, jbyteArray buffer, jint startIndex, jint endIndex, jintArray format, jobjectArray outStrings, jlongArray outLongs, jfloatArray outFloats) { jbyte* bufferArray = env->GetByteArrayElements(buffer, NULL); jboolean result = android_os_Process_parseProcLineArray(env, clazz, (char*) bufferArray, startIndex, endIndex, format, outStrings, outLongs, outFloats); env->ReleaseByteArrayElements(buffer, bufferArray, 0); return result; } jboolean android_os_Process_readProcFile(JNIEnv* env, jobject clazz, jstring file, jintArray format, jobjectArray outStrings, jlongArray outLongs, jfloatArray outFloats) { if (file == NULL || format == NULL) { jniThrowNullPointerException(env, NULL); return JNI_FALSE; } const char* file8 = env->GetStringUTFChars(file, NULL); if (file8 == NULL) { jniThrowException(env, "java/lang/OutOfMemoryError", NULL); return JNI_FALSE; } ::android::base::unique_fd fd(open(file8, O_RDONLY | O_CLOEXEC)); if (!fd.ok()) { if (kDebugProc) { ALOGW("Unable to open process file: %s\n", file8); } env->ReleaseStringUTFChars(file, file8); return JNI_FALSE; } env->ReleaseStringUTFChars(file, file8); // Most proc files we read are small, so we only go through the // loop once and use the stack buffer. We allocate a buffer big // enough for the whole file. char readBufferStack[kProcReadStackBufferSize]; std::unique_ptr readBufferHeap; char* readBuffer = &readBufferStack[0]; ssize_t readBufferSize = kProcReadStackBufferSize; ssize_t numberBytesRead; for (;;) { // By using pread, we can avoid an lseek to rewind the FD // before retry, saving a system call. numberBytesRead = pread(fd, readBuffer, readBufferSize, 0); if (numberBytesRead < 0 && errno == EINTR) { continue; } if (numberBytesRead < 0) { if (kDebugProc) { ALOGW("Unable to open process file: %s fd=%d\n", file8, fd.get()); } return JNI_FALSE; } if (numberBytesRead < readBufferSize) { break; } if (readBufferSize > std::numeric_limits::max() / 2) { if (kDebugProc) { ALOGW("Proc file too big: %s fd=%d\n", file8, fd.get()); } return JNI_FALSE; } readBufferSize = std::max(readBufferSize * 2, kProcReadMinHeapBufferSize); readBufferHeap.reset(); // Free address space before getting more. readBufferHeap = std::make_unique(readBufferSize); if (!readBufferHeap) { jniThrowException(env, "java/lang/OutOfMemoryError", NULL); return JNI_FALSE; } readBuffer = readBufferHeap.get(); } // parseProcLineArray below modifies the buffer while parsing! return android_os_Process_parseProcLineArray( env, clazz, readBuffer, 0, numberBytesRead, format, outStrings, outLongs, outFloats); } void android_os_Process_setApplicationObject(JNIEnv* env, jobject clazz, jobject binderObject) { if (binderObject == NULL) { jniThrowNullPointerException(env, NULL); return; } sp binder = ibinderForJavaObject(env, binderObject); } void android_os_Process_sendSignal(JNIEnv* env, jobject clazz, jint pid, jint sig) { if (pid > 0) { ALOGI("Sending signal. PID: %" PRId32 " SIG: %" PRId32, pid, sig); kill(pid, sig); } } void android_os_Process_sendSignalQuiet(JNIEnv* env, jobject clazz, jint pid, jint sig) { if (pid > 0) { kill(pid, sig); } } static jlong android_os_Process_getElapsedCpuTime(JNIEnv* env, jobject clazz) { struct timespec ts; int res = clock_gettime(CLOCK_PROCESS_CPUTIME_ID, &ts); if (res != 0) { return (jlong) 0; } nsecs_t when = seconds_to_nanoseconds(ts.tv_sec) + ts.tv_nsec; return (jlong) nanoseconds_to_milliseconds(when); } static jlong android_os_Process_getPss(JNIEnv* env, jobject clazz, jint pid) { ::android::meminfo::ProcMemInfo proc_mem(pid); uint64_t pss; if (!proc_mem.SmapsOrRollupPss(&pss)) { return (jlong) -1; } // Return the Pss value in bytes, not kilobytes return pss * 1024; } static jlongArray android_os_Process_getRss(JNIEnv* env, jobject clazz, jint pid) { // total, file, anon, swap jlong rss[4] = {0, 0, 0, 0}; std::string status_path = android::base::StringPrintf("/proc/%d/status", pid); 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, "VmRSS: %" SCNd64 " kB", &v) == 1) { rss[0] = v; } else if ( sscanf(line, "RssFile: %" SCNd64 " kB", &v) == 1) { rss[1] = v; } else if ( sscanf(line, "RssAnon: %" SCNd64 " kB", &v) == 1) { rss[2] = v; } else if ( sscanf(line, "VmSwap: %" SCNd64 " kB", &v) == 1) { rss[3] = v; } } jlongArray rssArray = env->NewLongArray(4); if (rssArray == NULL) { jniThrowException(env, "java/lang/OutOfMemoryError", NULL); return NULL; } env->SetLongArrayRegion(rssArray, 0, 4, rss); return rssArray; } jintArray android_os_Process_getPidsForCommands(JNIEnv* env, jobject clazz, jobjectArray commandNames) { if (commandNames == NULL) { jniThrowNullPointerException(env, NULL); return NULL; } Vector commands; jsize count = env->GetArrayLength(commandNames); for (int i=0; iGetObjectArrayElement(commandNames, i); if (obj != NULL) { const char* str8 = env->GetStringUTFChars((jstring)obj, NULL); if (str8 == NULL) { jniThrowNullPointerException(env, "Element in commandNames"); return NULL; } commands.add(String8(str8)); env->ReleaseStringUTFChars((jstring)obj, str8); } else { jniThrowNullPointerException(env, "Element in commandNames"); return NULL; } } Vector pids; DIR *proc = opendir("/proc"); if (proc == NULL) { fprintf(stderr, "/proc: %s\n", strerror(errno)); return NULL; } struct dirent *d; while ((d = readdir(proc))) { int pid = atoi(d->d_name); if (pid <= 0) continue; char path[PATH_MAX]; char data[PATH_MAX]; snprintf(path, sizeof(path), "/proc/%d/cmdline", pid); int fd = open(path, O_RDONLY | O_CLOEXEC); if (fd < 0) { continue; } const int len = read(fd, data, sizeof(data)-1); close(fd); if (len < 0) { continue; } data[len] = 0; for (int i=0; iNewIntArray(pids.size()); if (pidArray == NULL) { jniThrowException(env, "java/lang/OutOfMemoryError", NULL); return NULL; } if (pids.size() > 0) { env->SetIntArrayRegion(pidArray, 0, pids.size(), pids.array()); } return pidArray; } jint android_os_Process_killProcessGroup(JNIEnv* env, jobject clazz, jint uid, jint pid) { return killProcessGroup(uid, pid, SIGKILL); } void android_os_Process_removeAllProcessGroups(JNIEnv* env, jobject clazz) { return removeAllProcessGroups(); } static void throwErrnoException(JNIEnv* env, const char* functionName, int error) { ScopedLocalRef detailMessage(env, env->NewStringUTF(functionName)); if (detailMessage.get() == NULL) { // Not really much we can do here. We're probably dead in the water, // but let's try to stumble on... env->ExceptionClear(); } static jclass errnoExceptionClass = MakeGlobalRefOrDie(env, FindClassOrDie(env, "android/system/ErrnoException")); static jmethodID errnoExceptionCtor = GetMethodIDOrDie(env, errnoExceptionClass, "", "(Ljava/lang/String;I)V"); jobject exception = env->NewObject(errnoExceptionClass, errnoExceptionCtor, detailMessage.get(), error); env->Throw(reinterpret_cast(exception)); } // Wrapper function to the syscall pidfd_open, which creates a file // descriptor that refers to the process whose PID is specified in pid. static inline int sys_pidfd_open(pid_t pid, unsigned int flags) { return syscall(__NR_pidfd_open, pid, flags); } static jint android_os_Process_nativePidFdOpen(JNIEnv* env, jobject, jint pid, jint flags) { int fd = sys_pidfd_open(pid, flags); if (fd < 0) { throwErrnoException(env, "nativePidFdOpen", errno); return -1; } return fd; } static const JNINativeMethod methods[] = { {"getUidForName", "(Ljava/lang/String;)I", (void*)android_os_Process_getUidForName}, {"getGidForName", "(Ljava/lang/String;)I", (void*)android_os_Process_getGidForName}, {"setThreadPriority", "(II)V", (void*)android_os_Process_setThreadPriority}, {"setThreadScheduler", "(III)V", (void*)android_os_Process_setThreadScheduler}, {"setCanSelfBackground", "(Z)V", (void*)android_os_Process_setCanSelfBackground}, {"setThreadPriority", "(I)V", (void*)android_os_Process_setCallingThreadPriority}, {"getThreadPriority", "(I)I", (void*)android_os_Process_getThreadPriority}, {"getThreadScheduler", "(I)I", (void*)android_os_Process_getThreadScheduler}, {"setThreadGroup", "(II)V", (void*)android_os_Process_setThreadGroup}, {"setThreadGroupAndCpuset", "(II)V", (void*)android_os_Process_setThreadGroupAndCpuset}, {"setProcessGroup", "(II)V", (void*)android_os_Process_setProcessGroup}, {"getProcessGroup", "(I)I", (void*)android_os_Process_getProcessGroup}, {"getExclusiveCores", "()[I", (void*)android_os_Process_getExclusiveCores}, {"setSwappiness", "(IZ)Z", (void*)android_os_Process_setSwappiness}, {"setArgV0", "(Ljava/lang/String;)V", (void*)android_os_Process_setArgV0}, {"setUid", "(I)I", (void*)android_os_Process_setUid}, {"setGid", "(I)I", (void*)android_os_Process_setGid}, {"sendSignal", "(II)V", (void*)android_os_Process_sendSignal}, {"sendSignalQuiet", "(II)V", (void*)android_os_Process_sendSignalQuiet}, {"setProcessFrozen", "(IIZ)V", (void*)android_os_Process_setProcessFrozen}, {"enableFreezer", "(Z)V", (void*)android_os_Process_enableFreezer}, {"getFreeMemory", "()J", (void*)android_os_Process_getFreeMemory}, {"getTotalMemory", "()J", (void*)android_os_Process_getTotalMemory}, {"readProcLines", "(Ljava/lang/String;[Ljava/lang/String;[J)V", (void*)android_os_Process_readProcLines}, {"getPids", "(Ljava/lang/String;[I)[I", (void*)android_os_Process_getPids}, {"readProcFile", "(Ljava/lang/String;[I[Ljava/lang/String;[J[F)Z", (void*)android_os_Process_readProcFile}, {"parseProcLine", "([BII[I[Ljava/lang/String;[J[F)Z", (void*)android_os_Process_parseProcLine}, {"getElapsedCpuTime", "()J", (void*)android_os_Process_getElapsedCpuTime}, {"getPss", "(I)J", (void*)android_os_Process_getPss}, {"getRss", "(I)[J", (void*)android_os_Process_getRss}, {"getPidsForCommands", "([Ljava/lang/String;)[I", (void*)android_os_Process_getPidsForCommands}, //{"setApplicationObject", "(Landroid/os/IBinder;)V", //(void*)android_os_Process_setApplicationObject}, {"killProcessGroup", "(II)I", (void*)android_os_Process_killProcessGroup}, {"removeAllProcessGroups", "()V", (void*)android_os_Process_removeAllProcessGroups}, {"nativePidFdOpen", "(II)I", (void*)android_os_Process_nativePidFdOpen}, }; int register_android_os_Process(JNIEnv* env) { return RegisterMethodsOrDie(env, "android/os/Process", methods, NELEM(methods)); }