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[chromium-blink-merge.git] / components / crash / browser / crash_handler_host_linux.cc
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1 // Copyright 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "components/crash/browser/crash_handler_host_linux.h"
7 #include <stdint.h>
8 #include <stdlib.h>
9 #include <sys/socket.h>
10 #include <sys/syscall.h>
11 #include <unistd.h>
13 #include "base/bind.h"
14 #include "base/bind_helpers.h"
15 #include "base/files/file_path.h"
16 #include "base/files/file_util.h"
17 #include "base/files/scoped_file.h"
18 #include "base/format_macros.h"
19 #include "base/linux_util.h"
20 #include "base/logging.h"
21 #include "base/message_loop/message_loop.h"
22 #include "base/path_service.h"
23 #include "base/posix/eintr_wrapper.h"
24 #include "base/rand_util.h"
25 #include "base/strings/string_util.h"
26 #include "base/strings/stringprintf.h"
27 #include "base/threading/thread.h"
28 #include "breakpad/src/client/linux/handler/exception_handler.h"
29 #include "breakpad/src/client/linux/minidump_writer/linux_dumper.h"
30 #include "breakpad/src/client/linux/minidump_writer/minidump_writer.h"
31 #include "components/crash/app/breakpad_linux_impl.h"
32 #include "content/public/browser/browser_thread.h"
34 #if defined(OS_ANDROID) && !defined(__LP64__)
35 #include <sys/linux-syscalls.h>
37 #define SYS_read __NR_read
38 #endif
40 using content::BrowserThread;
41 using google_breakpad::ExceptionHandler;
43 namespace breakpad {
45 namespace {
47 const size_t kNumFDs = 1;
48 // The length of the control message:
49 const size_t kControlMsgSize =
50 CMSG_SPACE(kNumFDs * sizeof(int)) + CMSG_SPACE(sizeof(struct ucred));
51 // The length of the regular payload:
52 const size_t kCrashContextSize = sizeof(ExceptionHandler::CrashContext);
54 // Handles the crash dump and frees the allocated BreakpadInfo struct.
55 void CrashDumpTask(CrashHandlerHostLinux* handler,
56 scoped_ptr<BreakpadInfo> info) {
57 if (handler->IsShuttingDown() && info->upload) {
58 base::DeleteFile(base::FilePath(info->filename), false);
59 #if defined(ADDRESS_SANITIZER)
60 base::DeleteFile(base::FilePath(info->log_filename), false);
61 #endif
62 return;
65 HandleCrashDump(*info);
66 delete[] info->filename;
67 #if defined(ADDRESS_SANITIZER)
68 delete[] info->log_filename;
69 delete[] info->asan_report_str;
70 #endif
71 delete[] info->process_type;
72 delete[] info->distro;
73 delete info->crash_keys;
76 } // namespace
78 // Since instances of CrashHandlerHostLinux are leaked, they are only destroyed
79 // at the end of the processes lifetime, which is greater in span than the
80 // lifetime of the IO message loop. Thus, all calls to base::Bind() use
81 // non-refcounted pointers.
83 CrashHandlerHostLinux::CrashHandlerHostLinux(const std::string& process_type,
84 const base::FilePath& dumps_path,
85 bool upload)
86 : process_type_(process_type),
87 dumps_path_(dumps_path),
88 upload_(upload),
89 shutting_down_(false),
90 worker_pool_token_(BrowserThread::GetBlockingPool()->GetSequenceToken()) {
91 int fds[2];
92 // We use SOCK_SEQPACKET rather than SOCK_DGRAM to prevent the process from
93 // sending datagrams to other sockets on the system. The sandbox may prevent
94 // the process from calling socket() to create new sockets, but it'll still
95 // inherit some sockets. With PF_UNIX+SOCK_DGRAM, it can call sendmsg to send
96 // a datagram to any (abstract) socket on the same system. With
97 // SOCK_SEQPACKET, this is prevented.
98 CHECK_EQ(0, socketpair(AF_UNIX, SOCK_SEQPACKET, 0, fds));
99 static const int on = 1;
101 // Enable passcred on the server end of the socket
102 CHECK_EQ(0, setsockopt(fds[1], SOL_SOCKET, SO_PASSCRED, &on, sizeof(on)));
104 process_socket_ = fds[0];
105 browser_socket_ = fds[1];
107 BrowserThread::PostTask(
108 BrowserThread::IO, FROM_HERE,
109 base::Bind(&CrashHandlerHostLinux::Init, base::Unretained(this)));
112 CrashHandlerHostLinux::~CrashHandlerHostLinux() {
113 close(process_socket_);
114 close(browser_socket_);
117 void CrashHandlerHostLinux::StartUploaderThread() {
118 uploader_thread_.reset(
119 new base::Thread(process_type_ + "_crash_uploader"));
120 uploader_thread_->Start();
123 void CrashHandlerHostLinux::Init() {
124 base::MessageLoopForIO* ml = base::MessageLoopForIO::current();
125 CHECK(ml->WatchFileDescriptor(
126 browser_socket_, true /* persistent */,
127 base::MessageLoopForIO::WATCH_READ,
128 &file_descriptor_watcher_, this));
129 ml->AddDestructionObserver(this);
132 void CrashHandlerHostLinux::OnFileCanWriteWithoutBlocking(int fd) {
133 NOTREACHED();
136 void CrashHandlerHostLinux::OnFileCanReadWithoutBlocking(int fd) {
137 DCHECK_EQ(browser_socket_, fd);
139 // A process has crashed and has signaled us by writing a datagram
140 // to the death signal socket. The datagram contains the crash context needed
141 // for writing the minidump as well as a file descriptor and a credentials
142 // block so that they can't lie about their pid.
144 // The message sender is in components/crash/app/breakpad_linux.cc.
146 struct msghdr msg = {0};
147 struct iovec iov[kCrashIovSize];
149 scoped_ptr<char[]> crash_context(new char[kCrashContextSize]);
150 #if defined(ADDRESS_SANITIZER)
151 scoped_ptr<char[]> asan_report(new char[kMaxAsanReportSize + 1]);
152 #endif
154 scoped_ptr<CrashKeyStorage> crash_keys(new CrashKeyStorage);
155 google_breakpad::SerializedNonAllocatingMap* serialized_crash_keys;
156 size_t crash_keys_size = crash_keys->Serialize(
157 const_cast<const google_breakpad::SerializedNonAllocatingMap**>(
158 &serialized_crash_keys));
160 char* tid_buf_addr = NULL;
161 int tid_fd = -1;
162 uint64_t uptime;
163 size_t oom_size;
164 char control[kControlMsgSize];
165 const ssize_t expected_msg_size =
166 kCrashContextSize +
167 sizeof(tid_buf_addr) + sizeof(tid_fd) +
168 sizeof(uptime) +
169 #if defined(ADDRESS_SANITIZER)
170 kMaxAsanReportSize + 1 +
171 #endif
172 sizeof(oom_size) +
173 crash_keys_size;
174 iov[0].iov_base = crash_context.get();
175 iov[0].iov_len = kCrashContextSize;
176 iov[1].iov_base = &tid_buf_addr;
177 iov[1].iov_len = sizeof(tid_buf_addr);
178 iov[2].iov_base = &tid_fd;
179 iov[2].iov_len = sizeof(tid_fd);
180 iov[3].iov_base = &uptime;
181 iov[3].iov_len = sizeof(uptime);
182 iov[4].iov_base = &oom_size;
183 iov[4].iov_len = sizeof(oom_size);
184 iov[5].iov_base = serialized_crash_keys;
185 iov[5].iov_len = crash_keys_size;
186 #if !defined(ADDRESS_SANITIZER)
187 static_assert(5 == kCrashIovSize - 1, "kCrashIovSize should equal 6");
188 #else
189 iov[6].iov_base = asan_report.get();
190 iov[6].iov_len = kMaxAsanReportSize + 1;
191 static_assert(6 == kCrashIovSize - 1, "kCrashIovSize should equal 7");
192 #endif
193 msg.msg_iov = iov;
194 msg.msg_iovlen = kCrashIovSize;
195 msg.msg_control = control;
196 msg.msg_controllen = kControlMsgSize;
198 const ssize_t msg_size = HANDLE_EINTR(recvmsg(browser_socket_, &msg, 0));
199 if (msg_size < 0) {
200 LOG(ERROR) << "Error reading from death signal socket. Crash dumping"
201 << " is disabled."
202 << " msg_size:" << msg_size
203 << " errno:" << errno;
204 file_descriptor_watcher_.StopWatchingFileDescriptor();
205 return;
207 const bool bad_message = (msg_size != expected_msg_size ||
208 msg.msg_controllen != kControlMsgSize ||
209 msg.msg_flags & ~MSG_TRUNC);
210 base::ScopedFD signal_fd;
211 pid_t crashing_pid = -1;
212 if (msg.msg_controllen > 0) {
213 // Walk the control payload and extract the file descriptor and
214 // validated pid.
215 for (struct cmsghdr *hdr = CMSG_FIRSTHDR(&msg); hdr;
216 hdr = CMSG_NXTHDR(&msg, hdr)) {
217 if (hdr->cmsg_level != SOL_SOCKET)
218 continue;
219 if (hdr->cmsg_type == SCM_RIGHTS) {
220 const size_t len = hdr->cmsg_len -
221 (((uint8_t*)CMSG_DATA(hdr)) - (uint8_t*)hdr);
222 DCHECK_EQ(0U, len % sizeof(int));
223 const size_t num_fds = len / sizeof(int);
224 if (num_fds != kNumFDs) {
225 // A nasty process could try and send us too many descriptors and
226 // force a leak.
227 LOG(ERROR) << "Death signal contained wrong number of descriptors;"
228 << " num_fds:" << num_fds;
229 for (size_t i = 0; i < num_fds; ++i)
230 close(reinterpret_cast<int*>(CMSG_DATA(hdr))[i]);
231 return;
233 DCHECK(!signal_fd.is_valid());
234 int fd = reinterpret_cast<int*>(CMSG_DATA(hdr))[0];
235 DCHECK_GE(fd, 0); // The kernel should never send a negative fd.
236 signal_fd.reset(fd);
237 } else if (hdr->cmsg_type == SCM_CREDENTIALS) {
238 DCHECK_EQ(-1, crashing_pid);
239 const struct ucred *cred =
240 reinterpret_cast<struct ucred*>(CMSG_DATA(hdr));
241 crashing_pid = cred->pid;
246 if (bad_message) {
247 LOG(ERROR) << "Received death signal message with the wrong size;"
248 << " msg.msg_controllen:" << msg.msg_controllen
249 << " msg.msg_flags:" << msg.msg_flags
250 << " kCrashContextSize:" << kCrashContextSize
251 << " kControlMsgSize:" << kControlMsgSize;
252 return;
254 if (crashing_pid == -1 || !signal_fd.is_valid()) {
255 LOG(ERROR) << "Death signal message didn't contain all expected control"
256 << " messages";
257 return;
260 // The crashing TID set inside the compromised context via
261 // sys_gettid() in ExceptionHandler::HandleSignal might be wrong (if
262 // the kernel supports PID namespacing) and may need to be
263 // translated.
265 // We expect the crashing thread to be in sys_read(), waiting for us to
266 // write to |signal_fd|. Most newer kernels where we have the different pid
267 // namespaces also have /proc/[pid]/syscall, so we can look through
268 // |actual_crashing_pid|'s thread group and find the thread that's in the
269 // read syscall with the right arguments.
271 std::string expected_syscall_data;
272 // /proc/[pid]/syscall is formatted as follows:
273 // syscall_number arg1 ... arg6 sp pc
274 // but we just check syscall_number through arg3.
275 base::StringAppendF(&expected_syscall_data, "%d 0x%x %p 0x1 ",
276 SYS_read, tid_fd, tid_buf_addr);
277 bool syscall_supported = false;
278 pid_t crashing_tid =
279 base::FindThreadIDWithSyscall(crashing_pid,
280 expected_syscall_data,
281 &syscall_supported);
282 if (crashing_tid == -1) {
283 // We didn't find the thread we want. Maybe it didn't reach
284 // sys_read() yet or the thread went away. We'll just take a
285 // guess here and assume the crashing thread is the thread group
286 // leader. If procfs syscall is not supported by the kernel, then
287 // we assume the kernel also does not support TID namespacing and
288 // trust the TID passed by the crashing process.
289 LOG(WARNING) << "Could not translate tid - assuming crashing thread is "
290 "thread group leader; syscall_supported=" << syscall_supported;
291 crashing_tid = crashing_pid;
294 ExceptionHandler::CrashContext* bad_context =
295 reinterpret_cast<ExceptionHandler::CrashContext*>(crash_context.get());
296 bad_context->tid = crashing_tid;
298 scoped_ptr<BreakpadInfo> info(new BreakpadInfo);
300 info->fd = -1;
301 info->process_type_length = process_type_.length();
302 // Freed in CrashDumpTask().
303 char* process_type_str = new char[info->process_type_length + 1];
304 process_type_.copy(process_type_str, info->process_type_length);
305 process_type_str[info->process_type_length] = '\0';
306 info->process_type = process_type_str;
308 // Memory released from scoped_ptrs below are also freed in CrashDumpTask().
309 info->crash_keys = crash_keys.release();
310 #if defined(ADDRESS_SANITIZER)
311 asan_report[kMaxAsanReportSize] = '\0';
312 info->asan_report_str = asan_report.release();
313 info->asan_report_length = strlen(info->asan_report_str);
314 #endif
316 info->process_start_time = uptime;
317 info->oom_size = oom_size;
318 #if defined(OS_ANDROID)
319 // Nothing gets uploaded in android.
320 info->upload = false;
321 #else
322 info->upload = upload_;
323 #endif
326 BrowserThread::GetBlockingPool()->PostSequencedWorkerTask(
327 worker_pool_token_,
328 FROM_HERE,
329 base::Bind(&CrashHandlerHostLinux::WriteDumpFile,
330 base::Unretained(this),
331 base::Passed(&info),
332 base::Passed(&crash_context),
333 crashing_pid,
334 signal_fd.release()));
337 void CrashHandlerHostLinux::WriteDumpFile(scoped_ptr<BreakpadInfo> info,
338 scoped_ptr<char[]> crash_context,
339 pid_t crashing_pid,
340 int signal_fd) {
341 DCHECK(BrowserThread::GetBlockingPool()->IsRunningSequenceOnCurrentThread(
342 worker_pool_token_));
344 // Set |info->distro| here because base::GetLinuxDistro() needs to run on a
345 // blocking thread.
346 std::string distro = base::GetLinuxDistro();
347 info->distro_length = distro.length();
348 // Freed in CrashDumpTask().
349 char* distro_str = new char[info->distro_length + 1];
350 distro.copy(distro_str, info->distro_length);
351 distro_str[info->distro_length] = '\0';
352 info->distro = distro_str;
354 base::FilePath dumps_path("/tmp");
355 PathService::Get(base::DIR_TEMP, &dumps_path);
356 if (!info->upload)
357 dumps_path = dumps_path_;
358 const std::string minidump_filename =
359 base::StringPrintf("%s/chromium-%s-minidump-%016" PRIx64 ".dmp",
360 dumps_path.value().c_str(),
361 process_type_.c_str(),
362 base::RandUint64());
364 if (!google_breakpad::WriteMinidump(minidump_filename.c_str(),
365 kMaxMinidumpFileSize,
366 crashing_pid,
367 crash_context.get(),
368 kCrashContextSize,
369 google_breakpad::MappingList(),
370 google_breakpad::AppMemoryList())) {
371 LOG(ERROR) << "Failed to write crash dump for pid " << crashing_pid;
373 #if defined(ADDRESS_SANITIZER)
374 // Create a temporary file holding the AddressSanitizer report.
375 const base::FilePath log_path =
376 base::FilePath(minidump_filename).ReplaceExtension("log");
377 base::WriteFile(log_path, info->asan_report_str, info->asan_report_length);
378 #endif
380 // Freed in CrashDumpTask().
381 char* minidump_filename_str = new char[minidump_filename.length() + 1];
382 minidump_filename.copy(minidump_filename_str, minidump_filename.length());
383 minidump_filename_str[minidump_filename.length()] = '\0';
384 info->filename = minidump_filename_str;
385 #if defined(ADDRESS_SANITIZER)
386 // Freed in CrashDumpTask().
387 char* minidump_log_filename_str = new char[minidump_filename.length() + 1];
388 minidump_filename.copy(minidump_log_filename_str, minidump_filename.length());
389 memcpy(minidump_log_filename_str + minidump_filename.length() - 3, "log", 3);
390 minidump_log_filename_str[minidump_filename.length()] = '\0';
391 info->log_filename = minidump_log_filename_str;
392 #endif
393 info->pid = crashing_pid;
395 BrowserThread::PostTask(
396 BrowserThread::IO, FROM_HERE,
397 base::Bind(&CrashHandlerHostLinux::QueueCrashDumpTask,
398 base::Unretained(this),
399 base::Passed(&info),
400 signal_fd));
403 void CrashHandlerHostLinux::QueueCrashDumpTask(scoped_ptr<BreakpadInfo> info,
404 int signal_fd) {
405 DCHECK_CURRENTLY_ON(BrowserThread::IO);
407 // Send the done signal to the process: it can exit now.
408 struct msghdr msg = {0};
409 struct iovec done_iov;
410 done_iov.iov_base = const_cast<char*>("\x42");
411 done_iov.iov_len = 1;
412 msg.msg_iov = &done_iov;
413 msg.msg_iovlen = 1;
415 HANDLE_EINTR(sendmsg(signal_fd, &msg, MSG_DONTWAIT | MSG_NOSIGNAL));
416 close(signal_fd);
418 uploader_thread_->message_loop()->PostTask(
419 FROM_HERE,
420 base::Bind(&CrashDumpTask, base::Unretained(this), base::Passed(&info)));
423 void CrashHandlerHostLinux::WillDestroyCurrentMessageLoop() {
424 file_descriptor_watcher_.StopWatchingFileDescriptor();
426 // If we are quitting and there are crash dumps in the queue, turn them into
427 // no-ops.
428 shutting_down_ = true;
429 uploader_thread_->Stop();
432 bool CrashHandlerHostLinux::IsShuttingDown() const {
433 return shutting_down_;
436 } // namespace breakpad