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/*
* Copyright (C) 2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "crash_collector.h"
#include <dirent.h>
#include <fcntl.h> // For file creation modes.
#include <inttypes.h>
#include <linux/limits.h> // PATH_MAX
#include <pwd.h> // For struct passwd.
#include <sys/types.h> // for mode_t.
#include <sys/wait.h> // For waitpid.
#include <unistd.h> // For execv and fork.
#include <set>
#include <utility>
#include <vector>
#include <base/files/file_util.h>
#include <base/logging.h>
#include <base/posix/eintr_wrapper.h>
#include <base/strings/string_split.h>
#include <base/strings/string_util.h>
#include <base/strings/stringprintf.h>
#include <brillo/key_value_store.h>
#include <brillo/process.h>
namespace {
const char kCollectChromeFile[] =
"/mnt/stateful_partition/etc/collect_chrome_crashes";
const char kCrashTestInProgressPath[] =
"/data/misc/crash_reporter/tmp/crash-test-in-progress";
const char kDefaultLogConfig[] = "/etc/crash_reporter_logs.conf";
const char kDefaultUserName[] = "chronos";
const char kLeaveCoreFile[] = "/data/misc/crash_reporter/.leave_core";
const char kShellPath[] = "/system/bin/sh";
const char kSystemCrashPath[] = "/data/misc/crash_reporter/crash";
const char kUploadVarPrefix[] = "upload_var_";
const char kUploadFilePrefix[] = "upload_file_";
// Normally this path is not used. Unfortunately, there are a few edge cases
// where we need this. Any process that runs as kDefaultUserName that crashes
// is consider a "user crash". That includes the initial Chrome browser that
// runs the login screen. If that blows up, there is no logged in user yet,
// so there is no per-user dir for us to stash things in. Instead we fallback
// to this path as it is at least encrypted on a per-system basis.
//
// This also comes up when running autotests. The GUI is sitting at the login
// screen while tests are sshing in, changing users, and triggering crashes as
// the user (purposefully).
const char kFallbackUserCrashPath[] = "/home/chronos/crash";
// Directory mode of the user crash spool directory.
const mode_t kUserCrashPathMode = 0755;
// Directory mode of the system crash spool directory.
const mode_t kSystemCrashPathMode = 01755;
const uid_t kRootOwner = 0;
const uid_t kRootGroup = 0;
} // namespace
// Maximum crash reports per crash spool directory. Note that this is
// a separate maximum from the maximum rate at which we upload these
// diagnostics. The higher this rate is, the more space we allow for
// core files, minidumps, and kcrash logs, and equivalently the more
// processor and I/O bandwidth we dedicate to handling these crashes when
// many occur at once. Also note that if core files are configured to
// be left on the file system, we stop adding crashes when either the
// number of core files or minidumps reaches this number.
const int CrashCollector::kMaxCrashDirectorySize = 32;
using base::FilePath;
using base::StringPrintf;
CrashCollector::CrashCollector()
: log_config_path_(kDefaultLogConfig) {
}
CrashCollector::~CrashCollector() {
}
void CrashCollector::Initialize(
CrashCollector::CountCrashFunction count_crash_function,
CrashCollector::IsFeedbackAllowedFunction is_feedback_allowed_function) {
CHECK(count_crash_function);
CHECK(is_feedback_allowed_function);
count_crash_function_ = count_crash_function;
is_feedback_allowed_function_ = is_feedback_allowed_function;
}
int CrashCollector::WriteNewFile(const FilePath &filename,
const char *data,
int size) {
int fd = HANDLE_EINTR(open(filename.value().c_str(),
O_CREAT | O_WRONLY | O_TRUNC | O_EXCL, 0666));
if (fd < 0) {
return -1;
}
int rv = base::WriteFileDescriptor(fd, data, size) ? size : -1;
IGNORE_EINTR(close(fd));
return rv;
}
std::string CrashCollector::Sanitize(const std::string &name) {
// Make sure the sanitized name does not include any periods.
// The logic in crash_sender relies on this.
std::string result = name;
for (size_t i = 0; i < name.size(); ++i) {
if (!isalnum(result[i]) && result[i] != '_')
result[i] = '_';
}
return result;
}
std::string CrashCollector::FormatDumpBasename(const std::string &exec_name,
time_t timestamp,
pid_t pid) {
struct tm tm;
localtime_r(&timestamp, &tm);
std::string sanitized_exec_name = Sanitize(exec_name);
return StringPrintf("%s.%04d%02d%02d.%02d%02d%02d.%d",
sanitized_exec_name.c_str(),
tm.tm_year + 1900,
tm.tm_mon + 1,
tm.tm_mday,
tm.tm_hour,
tm.tm_min,
tm.tm_sec,
pid);
}
FilePath CrashCollector::GetCrashPath(const FilePath &crash_directory,
const std::string &basename,
const std::string &extension) {
return crash_directory.Append(StringPrintf("%s.%s",
basename.c_str(),
extension.c_str()));
}
FilePath CrashCollector::GetCrashDirectoryInfo(
mode_t *mode,
uid_t *directory_owner,
gid_t *directory_group) {
*mode = kSystemCrashPathMode;
*directory_owner = kRootOwner;
*directory_group = kRootGroup;
return FilePath(kSystemCrashPath);
}
bool CrashCollector::GetUserInfoFromName(const std::string &name,
uid_t *uid,
gid_t *gid) {
char storage[256];
struct passwd passwd_storage;
struct passwd *passwd_result = nullptr;
if (getpwnam_r(name.c_str(), &passwd_storage, storage, sizeof(storage),
&passwd_result) != 0 || passwd_result == nullptr) {
LOG(ERROR) << "Cannot find user named " << name;
return false;
}
*uid = passwd_result->pw_uid;
*gid = passwd_result->pw_gid;
return true;
}
bool CrashCollector::GetCreatedCrashDirectoryByEuid(uid_t euid,
FilePath *crash_directory,
bool *out_of_capacity) {
if (out_of_capacity) *out_of_capacity = false;
// For testing.
if (!forced_crash_directory_.empty()) {
*crash_directory = forced_crash_directory_;
return true;
}
mode_t directory_mode;
uid_t directory_owner;
gid_t directory_group;
*crash_directory =
GetCrashDirectoryInfo(&directory_mode,
&directory_owner,
&directory_group);
if (!base::PathExists(*crash_directory)) {
// Create the spool directory with the appropriate mode (regardless of
// umask) and ownership.
mode_t old_mask = umask(0);
if (mkdir(crash_directory->value().c_str(), directory_mode) < 0 ||
chown(crash_directory->value().c_str(),
directory_owner,
directory_group) < 0) {
LOG(ERROR) << "Unable to create appropriate crash directory";
return false;
}
umask(old_mask);
}
if (!base::PathExists(*crash_directory)) {
LOG(ERROR) << "Unable to create crash directory "
<< crash_directory->value().c_str();
return false;
}
if (!CheckHasCapacity(*crash_directory)) {
if (out_of_capacity) *out_of_capacity = true;
LOG(ERROR) << "Directory " << crash_directory->value()
<< " is out of capacity.";
return false;
}
return true;
}
FilePath CrashCollector::GetProcessPath(pid_t pid) {
return FilePath(StringPrintf("/proc/%d", pid));
}
bool CrashCollector::GetSymlinkTarget(const FilePath &symlink,
FilePath *target) {
ssize_t max_size = 64;
std::vector<char> buffer;
while (true) {
buffer.resize(max_size + 1);
ssize_t size = readlink(symlink.value().c_str(), buffer.data(), max_size);
if (size < 0) {
int saved_errno = errno;
LOG(ERROR) << "Readlink failed on " << symlink.value() << " with "
<< saved_errno;
return false;
}
buffer[size] = 0;
if (size == max_size) {
max_size *= 2;
if (max_size > PATH_MAX) {
return false;
}
continue;
}
break;
}
*target = FilePath(buffer.data());
return true;
}
bool CrashCollector::GetExecutableBaseNameFromPid(pid_t pid,
std::string *base_name) {
FilePath target;
FilePath process_path = GetProcessPath(pid);
FilePath exe_path = process_path.Append("exe");
if (!GetSymlinkTarget(exe_path, &target)) {
LOG(INFO) << "GetSymlinkTarget failed - Path " << process_path.value()
<< " DirectoryExists: "
<< base::DirectoryExists(process_path);
// Try to further diagnose exe readlink failure cause.
struct stat buf;
int stat_result = stat(exe_path.value().c_str(), &buf);
int saved_errno = errno;
if (stat_result < 0) {
LOG(INFO) << "stat " << exe_path.value() << " failed: " << stat_result
<< " " << saved_errno;
} else {
LOG(INFO) << "stat " << exe_path.value() << " succeeded: st_mode="
<< buf.st_mode;
}
return false;
}
*base_name = target.BaseName().value();
return true;
}
// Return true if the given crash directory has not already reached
// maximum capacity.
bool CrashCollector::CheckHasCapacity(const FilePath &crash_directory) {
DIR* dir = opendir(crash_directory.value().c_str());
if (!dir) {
LOG(WARNING) << "Unable to open crash directory "
<< crash_directory.value();
return false;
}
struct dirent ent_buf;
struct dirent* ent;
bool full = false;
std::set<std::string> basenames;
while (readdir_r(dir, &ent_buf, &ent) == 0 && ent) {
if ((strcmp(ent->d_name, ".") == 0) ||
(strcmp(ent->d_name, "..") == 0))
continue;
std::string filename(ent->d_name);
size_t last_dot = filename.rfind(".");
std::string basename;
// If there is a valid looking extension, use the base part of the
// name. If the only dot is the first byte (aka a dot file), treat
// it as unique to avoid allowing a directory full of dot files
// from accumulating.
if (last_dot != std::string::npos && last_dot != 0)
basename = filename.substr(0, last_dot);
else
basename = filename;
basenames.insert(basename);
if (basenames.size() >= static_cast<size_t>(kMaxCrashDirectorySize)) {
LOG(WARNING) << "Crash directory " << crash_directory.value()
<< " already full with " << kMaxCrashDirectorySize
<< " pending reports";
full = true;
break;
}
}
closedir(dir);
return !full;
}
bool CrashCollector::GetLogContents(const FilePath &config_path,
const std::string &exec_name,
const FilePath &output_file) {
brillo::KeyValueStore store;
if (!store.Load(config_path)) {
LOG(INFO) << "Unable to read log configuration file "
<< config_path.value();
return false;
}
std::string command;
if (!store.GetString(exec_name, &command))
return false;
brillo::ProcessImpl diag_process;
diag_process.AddArg(kShellPath);
diag_process.AddStringOption("-c", command);
diag_process.RedirectOutput(output_file.value());
const int result = diag_process.Run();
if (result != 0) {
LOG(INFO) << "Log command \"" << command << "\" exited with " << result;
return false;
}
return true;
}
void CrashCollector::AddCrashMetaData(const std::string &key,
const std::string &value) {
extra_metadata_.append(StringPrintf("%s=%s\n", key.c_str(), value.c_str()));
}
void CrashCollector::AddCrashMetaUploadFile(const std::string &key,
const std::string &path) {
if (!path.empty())
AddCrashMetaData(kUploadFilePrefix + key, path);
}
void CrashCollector::AddCrashMetaUploadData(const std::string &key,
const std::string &value) {
if (!value.empty())
AddCrashMetaData(kUploadVarPrefix + key, value);
}
void CrashCollector::WriteCrashMetaData(const FilePath &meta_path,
const std::string &exec_name,
const std::string &payload_path) {
int64_t payload_size = -1;
base::GetFileSize(FilePath(payload_path), &payload_size);
std::string meta_data = StringPrintf("%sexec_name=%s\n"
"payload=%s\n"
"payload_size=%" PRId64 "\n"
"done=1\n",
extra_metadata_.c_str(),
exec_name.c_str(),
payload_path.c_str(),
payload_size);
// We must use WriteNewFile instead of base::WriteFile as we
// do not want to write with root access to a symlink that an attacker
// might have created.
if (WriteNewFile(meta_path, meta_data.c_str(), meta_data.size()) < 0) {
LOG(ERROR) << "Unable to write " << meta_path.value();
}
}
bool CrashCollector::IsCrashTestInProgress() {
return base::PathExists(FilePath(kCrashTestInProgressPath));
}
bool CrashCollector::IsDeveloperImage() {
// If we're testing crash reporter itself, we don't want to special-case
// for developer images.
if (IsCrashTestInProgress())
return false;
return base::PathExists(FilePath(kLeaveCoreFile));
}