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370 lines
9.4 KiB
370 lines
9.4 KiB
/*
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* Copyright 2013 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#define LOG_TAG "MemTracker"
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#include "memtrack.h"
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#include <ctype.h>
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#include <dirent.h>
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#include <fcntl.h>
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#include <limits.h>
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#include <signal.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <sys/stat.h>
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#include <sys/types.h>
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#include <unistd.h>
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#include <algorithm>
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#include <vector>
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#include <log/log.h>
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FileData::FileData(char *filename, char *buffer, size_t buffer_len)
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: data_(buffer), max_(buffer_len), cur_idx_(0), len_(0),
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read_complete_(false) {
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fd_ = open(filename, O_RDONLY);
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if (fd_ < 0) {
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read_complete_ = true;
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}
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}
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FileData::~FileData() {
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if (fd_ >= 0) {
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close(fd_);
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}
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}
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bool FileData::isAvail(size_t bytes_needed) {
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if (cur_idx_ + bytes_needed < len_) {
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return true;
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}
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if (read_complete_) {
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return false;
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}
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if (cur_idx_ != len_) {
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// Copy the leftover to the front of the buffer.
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len_ = len_ - cur_idx_;
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memcpy(data_, data_ + cur_idx_, len_);
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}
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ssize_t bytes;
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cur_idx_ = 0;
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while (cur_idx_ + bytes_needed >= len_) {
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bytes = read(fd_, data_ + len_, max_ - len_);
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if (bytes == 0 || bytes == -1) {
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read_complete_ = true;
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break;
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}
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len_ += bytes;
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}
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return cur_idx_ + bytes_needed < len_;
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}
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bool FileData::getPss(size_t *pss) {
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size_t value;
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while (true) {
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if (!isAvail(4)) {
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return false;
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}
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if (data_[cur_idx_] != 'P' || data_[cur_idx_+1] != 's' ||
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data_[cur_idx_+2] != 's' || data_[cur_idx_+3] != ':') {
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// Consume the rest of the line.
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while (isAvail(1) && data_[cur_idx_++] != '\n');
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} else {
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cur_idx_ += 4;
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while (isAvail(1) && isspace(data_[cur_idx_])) {
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cur_idx_++;
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}
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value = 0;
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while (isAvail(1) && isdigit(data_[cur_idx_])) {
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value = value * 10 + data_[cur_idx_] - '0';
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cur_idx_++;
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}
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*pss = value;
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// Consume the rest of the line.
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while (isAvail(1) && data_[cur_idx_++] != '\n');
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return true;
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}
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}
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}
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const char *ProcessInfo::kProc = "/proc/";
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const char *ProcessInfo::kCmdline = "/cmdline";
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const char *ProcessInfo::kSmaps = "/smaps";
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ProcessInfo::ProcessInfo() {
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memcpy(proc_file_, kProc, kProcLen);
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}
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ProcessInfo::~ProcessInfo() {
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}
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bool ProcessInfo::getInformation(int pid, char *pid_str, size_t pid_str_len) {
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memcpy(proc_file_ + kProcLen, pid_str, pid_str_len);
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memcpy(proc_file_ + kProcLen + pid_str_len, kCmdline, kCmdlineLen);
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// Read the cmdline for the process.
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int fd = open(proc_file_, O_RDONLY);
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if (fd < 0) {
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return false;
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}
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ssize_t bytes = read(fd, cmd_name_, sizeof(cmd_name_));
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close(fd);
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if (bytes == -1 || bytes == 0) {
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return false;
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}
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memcpy(proc_file_ + kProcLen + pid_str_len, kSmaps, kSmapsLen);
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FileData smaps(proc_file_, buffer_, sizeof(buffer_));
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cur_process_info_t process_info;
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size_t pss_kb;
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process_info.pss_kb = 0;
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while (smaps.getPss(&pss_kb)) {
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process_info.pss_kb += pss_kb;
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}
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if (cur_.count(cmd_name_) == 0) {
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cur_[cmd_name_] = process_info;
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} else {
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cur_[cmd_name_].pss_kb += process_info.pss_kb;
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}
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cur_[cmd_name_].pids.push_back(pid);
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return true;
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}
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void ProcessInfo::scan() {
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DIR *proc_dir = opendir(kProc);
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if (proc_dir == NULL) {
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perror("Cannot open directory.\n");
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exit(1);
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}
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// Clear any current pids.
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for (processes_t::iterator it = all_.begin(); it != all_.end(); ++it) {
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it->second.pids.clear();
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}
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struct dirent *dir_data;
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int len;
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bool is_pid;
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size_t pid;
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cur_.clear();
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while ((dir_data = readdir(proc_dir))) {
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// Check if the directory entry represents a pid.
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len = strlen(dir_data->d_name);
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is_pid = true;
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pid = 0;
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for (int i = 0; i < len; i++) {
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if (!isdigit(dir_data->d_name[i])) {
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is_pid = false;
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break;
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}
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pid = pid * 10 + dir_data->d_name[i] - '0';
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}
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if (is_pid) {
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getInformation(pid, dir_data->d_name, len);
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}
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}
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closedir(proc_dir);
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// Loop through the current processes and add them into our real list.
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for (cur_processes_t::const_iterator it = cur_.begin();
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it != cur_.end(); ++it) {
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if (all_.count(it->first) == 0) {
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// Initialize all of the variables.
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all_[it->first].num_samples = 0;
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all_[it->first].name = it->first;
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all_[it->first].avg_pss_kb = 0;
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all_[it->first].min_pss_kb = 0;
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all_[it->first].max_pss_kb = 0;
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}
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if (it->second.pids.size() > all_[it->first].max_num_pids) {
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all_[it->first].max_num_pids = it->second.pids.size();
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}
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all_[it->first].pids = it->second.pids;
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if (it->second.pss_kb > all_[it->first].max_pss_kb) {
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all_[it->first].max_pss_kb = it->second.pss_kb;
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}
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if (all_[it->first].min_pss_kb == 0 ||
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it->second.pss_kb < all_[it->first].min_pss_kb) {
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all_[it->first].min_pss_kb = it->second.pss_kb;
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}
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all_[it->first].last_pss_kb = it->second.pss_kb;
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computeAvg(&all_[it->first].avg_pss_kb, it->second.pss_kb,
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all_[it->first].num_samples);
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all_[it->first].num_samples++;
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}
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}
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bool comparePss(const process_info_t *first, const process_info_t *second) {
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return first->max_pss_kb > second->max_pss_kb;
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}
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void ProcessInfo::dumpToLog() {
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list_.clear();
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for (processes_t::const_iterator it = all_.begin(); it != all_.end(); ++it) {
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list_.push_back(&it->second);
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}
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// Now sort the list.
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std::sort(list_.begin(), list_.end(), comparePss);
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ALOGI("Dumping process list");
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for (std::vector<const process_info_t *>::const_iterator it = list_.begin();
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it != list_.end(); ++it) {
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ALOGI(" Name: %s", (*it)->name.c_str());
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ALOGI(" Max running processes: %zu", (*it)->max_num_pids);
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if ((*it)->pids.size() > 0) {
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ALOGI(" Currently running pids:");
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for (std::vector<int>::const_iterator pid_it = (*it)->pids.begin();
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pid_it != (*it)->pids.end(); ++pid_it) {
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ALOGI(" %d", *pid_it);
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}
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}
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ALOGI(" Min PSS %0.4fM", (*it)->min_pss_kb/1024.0);
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ALOGI(" Avg PSS %0.4fM", (*it)->avg_pss_kb/1024.0);
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ALOGI(" Max PSS %0.4fM", (*it)->max_pss_kb/1024.0);
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ALOGI(" Last PSS %0.4fM", (*it)->last_pss_kb/1024.0);
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}
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}
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void usage() {
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printf("Usage: memtrack [--verbose | --quiet] [--scan_delay TIME_SECS]\n");
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printf(" --scan_delay TIME_SECS\n");
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printf(" The amount of delay in seconds between scans.\n");
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printf(" --verbose\n");
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printf(" Print information about the scans to stdout only.\n");
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printf(" --quiet\n");
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printf(" Nothing will be printed to stdout.\n");
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printf(" All scan data is dumped to the android log using the tag %s\n",
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LOG_TAG);
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}
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int SignalReceived = 0;
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int SignalsToHandle[] = {
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SIGTSTP,
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SIGINT,
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SIGHUP,
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SIGPIPE,
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SIGUSR1,
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};
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void handleSignal(int signo) {
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if (SignalReceived == 0) {
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SignalReceived = signo;
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}
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}
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int main(int argc, char **argv) {
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if (geteuid() != 0) {
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printf("Must be run as root.\n");
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exit(1);
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}
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bool verbose = false;
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bool quiet = false;
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unsigned int scan_delay_sec = DEFAULT_SLEEP_DELAY_SECONDS;
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for (int i = 1; i < argc; i++) {
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if (strcmp(argv[i], "--verbose") == 0) {
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verbose = true;
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} else if (strcmp(argv[i], "--quiet") == 0) {
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quiet = true;
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} else if (strcmp(argv[i], "--scan_delay") == 0) {
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if (i+1 == argc) {
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printf("The %s options requires a single argument.\n", argv[i]);
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usage();
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exit(1);
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}
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scan_delay_sec = atoi(argv[++i]);
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} else {
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printf("Unknown option %s\n", argv[i]);
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usage();
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exit(1);
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}
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}
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if (quiet && verbose) {
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printf("Both --quiet and --verbose cannot be specified.\n");
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usage();
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exit(1);
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}
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// Set up the signal handlers.
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for (size_t i = 0; i < sizeof(SignalsToHandle)/sizeof(int); i++) {
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if (signal(SignalsToHandle[i], handleSignal) == SIG_ERR) {
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printf("Unable to handle signal %d\n", SignalsToHandle[i]);
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exit(1);
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}
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}
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ProcessInfo proc_info;
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if (!quiet) {
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printf("Hit Ctrl-Z or send SIGUSR1 to pid %d to print the current list of\n",
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getpid());
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printf("processes.\n");
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printf("Hit Ctrl-C to print the list of processes and terminate.\n");
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}
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struct timespec t;
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unsigned long long nsecs;
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while (true) {
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if (verbose) {
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memset(&t, 0, sizeof(t));
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clock_gettime(CLOCK_MONOTONIC, &t);
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nsecs = (unsigned long long)t.tv_sec*NS_PER_SEC + t.tv_nsec;
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}
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proc_info.scan();
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if (verbose) {
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memset(&t, 0, sizeof(t));
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clock_gettime(CLOCK_MONOTONIC, &t);
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nsecs = ((unsigned long long)t.tv_sec*NS_PER_SEC + t.tv_nsec) - nsecs;
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printf("Scan Time %0.4f\n", ((double)nsecs)/NS_PER_SEC);
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}
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if (SignalReceived != 0) {
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proc_info.dumpToLog();
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if (SignalReceived != SIGUSR1 && SignalReceived != SIGTSTP) {
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if (!quiet) {
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printf("Terminating...\n");
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}
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exit(1);
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}
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SignalReceived = 0;
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}
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sleep(scan_delay_sec);
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}
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}
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