Revert of Cleanup: Remove base/file_util.h. Convert remaining references. (patchset...
[chromium-blink-merge.git] / ipc / ipc_channel_posix.cc
blob7f0a1fe83896ba9a7ad0a054a5d0803d0b1175bd
1 // Copyright (c) 2012 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 "ipc/ipc_channel_posix.h"
7 #include <errno.h>
8 #include <fcntl.h>
9 #include <stddef.h>
10 #include <sys/socket.h>
11 #include <sys/stat.h>
12 #include <sys/types.h>
13 #include <sys/un.h>
14 #include <unistd.h>
16 #if defined(OS_OPENBSD)
17 #include <sys/uio.h>
18 #endif
20 #include <map>
21 #include <string>
23 #include "base/command_line.h"
24 #include "base/files/file_path.h"
25 #include "base/files/file_util.h"
26 #include "base/location.h"
27 #include "base/logging.h"
28 #include "base/memory/scoped_ptr.h"
29 #include "base/memory/singleton.h"
30 #include "base/posix/eintr_wrapper.h"
31 #include "base/posix/global_descriptors.h"
32 #include "base/process/process_handle.h"
33 #include "base/rand_util.h"
34 #include "base/stl_util.h"
35 #include "base/strings/string_util.h"
36 #include "base/synchronization/lock.h"
37 #include "ipc/file_descriptor_set_posix.h"
38 #include "ipc/ipc_descriptors.h"
39 #include "ipc/ipc_listener.h"
40 #include "ipc/ipc_logging.h"
41 #include "ipc/ipc_message_utils.h"
42 #include "ipc/ipc_switches.h"
43 #include "ipc/unix_domain_socket_util.h"
45 namespace IPC {
47 // IPC channels on Windows use named pipes (CreateNamedPipe()) with
48 // channel ids as the pipe names. Channels on POSIX use sockets as
49 // pipes These don't quite line up.
51 // When creating a child subprocess we use a socket pair and the parent side of
52 // the fork arranges it such that the initial control channel ends up on the
53 // magic file descriptor kPrimaryIPCChannel in the child. Future
54 // connections (file descriptors) can then be passed via that
55 // connection via sendmsg().
57 // A POSIX IPC channel can also be set up as a server for a bound UNIX domain
58 // socket, and will handle multiple connect and disconnect sequences. Currently
59 // it is limited to one connection at a time.
61 //------------------------------------------------------------------------------
62 namespace {
64 // The PipeMap class works around this quirk related to unit tests:
66 // When running as a server, we install the client socket in a
67 // specific file descriptor number (@kPrimaryIPCChannel). However, we
68 // also have to support the case where we are running unittests in the
69 // same process. (We do not support forking without execing.)
71 // Case 1: normal running
72 // The IPC server object will install a mapping in PipeMap from the
73 // name which it was given to the client pipe. When forking the client, the
74 // GetClientFileDescriptorMapping will ensure that the socket is installed in
75 // the magic slot (@kPrimaryIPCChannel). The client will search for the
76 // mapping, but it won't find any since we are in a new process. Thus the
77 // magic fd number is returned. Once the client connects, the server will
78 // close its copy of the client socket and remove the mapping.
80 // Case 2: unittests - client and server in the same process
81 // The IPC server will install a mapping as before. The client will search
82 // for a mapping and find out. It duplicates the file descriptor and
83 // connects. Once the client connects, the server will close the original
84 // copy of the client socket and remove the mapping. Thus, when the client
85 // object closes, it will close the only remaining copy of the client socket
86 // in the fd table and the server will see EOF on its side.
88 // TODO(port): a client process cannot connect to multiple IPC channels with
89 // this scheme.
91 class PipeMap {
92 public:
93 static PipeMap* GetInstance() {
94 return Singleton<PipeMap>::get();
97 ~PipeMap() {
98 // Shouldn't have left over pipes.
99 DCHECK(map_.empty());
102 // Lookup a given channel id. Return -1 if not found.
103 int Lookup(const std::string& channel_id) {
104 base::AutoLock locked(lock_);
106 ChannelToFDMap::const_iterator i = map_.find(channel_id);
107 if (i == map_.end())
108 return -1;
109 return i->second;
112 // Remove the mapping for the given channel id. No error is signaled if the
113 // channel_id doesn't exist
114 void Remove(const std::string& channel_id) {
115 base::AutoLock locked(lock_);
116 map_.erase(channel_id);
119 // Insert a mapping from @channel_id to @fd. It's a fatal error to insert a
120 // mapping if one already exists for the given channel_id
121 void Insert(const std::string& channel_id, int fd) {
122 base::AutoLock locked(lock_);
123 DCHECK_NE(-1, fd);
125 ChannelToFDMap::const_iterator i = map_.find(channel_id);
126 CHECK(i == map_.end()) << "Creating second IPC server (fd " << fd << ") "
127 << "for '" << channel_id << "' while first "
128 << "(fd " << i->second << ") still exists";
129 map_[channel_id] = fd;
132 private:
133 base::Lock lock_;
134 typedef std::map<std::string, int> ChannelToFDMap;
135 ChannelToFDMap map_;
137 friend struct DefaultSingletonTraits<PipeMap>;
138 #if defined(OS_ANDROID)
139 friend void ::IPC::Channel::NotifyProcessForkedForTesting();
140 #endif
143 //------------------------------------------------------------------------------
145 bool SocketWriteErrorIsRecoverable() {
146 #if defined(OS_MACOSX)
147 // On OS X if sendmsg() is trying to send fds between processes and there
148 // isn't enough room in the output buffer to send the fd structure over
149 // atomically then EMSGSIZE is returned.
151 // EMSGSIZE presents a problem since the system APIs can only call us when
152 // there's room in the socket buffer and not when there is "enough" room.
154 // The current behavior is to return to the event loop when EMSGSIZE is
155 // received and hopefull service another FD. This is however still
156 // technically a busy wait since the event loop will call us right back until
157 // the receiver has read enough data to allow passing the FD over atomically.
158 return errno == EAGAIN || errno == EMSGSIZE;
159 #else
160 return errno == EAGAIN;
161 #endif // OS_MACOSX
164 } // namespace
166 #if defined(OS_ANDROID)
167 // When we fork for simple tests on Android, we can't 'exec', so we need to
168 // reset these entries manually to get the expected testing behavior.
169 void Channel::NotifyProcessForkedForTesting() {
170 PipeMap::GetInstance()->map_.clear();
172 #endif
174 //------------------------------------------------------------------------------
176 #if defined(OS_LINUX)
177 int ChannelPosix::global_pid_ = 0;
178 #endif // OS_LINUX
180 ChannelPosix::ChannelPosix(const IPC::ChannelHandle& channel_handle,
181 Mode mode, Listener* listener)
182 : ChannelReader(listener),
183 mode_(mode),
184 peer_pid_(base::kNullProcessId),
185 is_blocked_on_write_(false),
186 waiting_connect_(true),
187 message_send_bytes_written_(0),
188 server_listen_pipe_(-1),
189 pipe_(-1),
190 client_pipe_(-1),
191 #if defined(IPC_USES_READWRITE)
192 fd_pipe_(-1),
193 remote_fd_pipe_(-1),
194 #endif // IPC_USES_READWRITE
195 pipe_name_(channel_handle.name),
196 must_unlink_(false) {
197 memset(input_cmsg_buf_, 0, sizeof(input_cmsg_buf_));
198 if (!CreatePipe(channel_handle)) {
199 // The pipe may have been closed already.
200 const char *modestr = (mode_ & MODE_SERVER_FLAG) ? "server" : "client";
201 LOG(WARNING) << "Unable to create pipe named \"" << channel_handle.name
202 << "\" in " << modestr << " mode";
206 ChannelPosix::~ChannelPosix() {
207 Close();
210 bool SocketPair(int* fd1, int* fd2) {
211 int pipe_fds[2];
212 if (socketpair(AF_UNIX, SOCK_STREAM, 0, pipe_fds) != 0) {
213 PLOG(ERROR) << "socketpair()";
214 return false;
217 // Set both ends to be non-blocking.
218 if (fcntl(pipe_fds[0], F_SETFL, O_NONBLOCK) == -1 ||
219 fcntl(pipe_fds[1], F_SETFL, O_NONBLOCK) == -1) {
220 PLOG(ERROR) << "fcntl(O_NONBLOCK)";
221 if (IGNORE_EINTR(close(pipe_fds[0])) < 0)
222 PLOG(ERROR) << "close";
223 if (IGNORE_EINTR(close(pipe_fds[1])) < 0)
224 PLOG(ERROR) << "close";
225 return false;
228 *fd1 = pipe_fds[0];
229 *fd2 = pipe_fds[1];
231 return true;
234 bool ChannelPosix::CreatePipe(
235 const IPC::ChannelHandle& channel_handle) {
236 DCHECK(server_listen_pipe_ == -1 && pipe_ == -1);
238 // Four possible cases:
239 // 1) It's a channel wrapping a pipe that is given to us.
240 // 2) It's for a named channel, so we create it.
241 // 3) It's for a client that we implement ourself. This is used
242 // in single-process unittesting.
243 // 4) It's the initial IPC channel:
244 // 4a) Client side: Pull the pipe out of the GlobalDescriptors set.
245 // 4b) Server side: create the pipe.
247 int local_pipe = -1;
248 if (channel_handle.socket.fd != -1) {
249 // Case 1 from comment above.
250 local_pipe = channel_handle.socket.fd;
251 #if defined(IPC_USES_READWRITE)
252 // Test the socket passed into us to make sure it is nonblocking.
253 // We don't want to call read/write on a blocking socket.
254 int value = fcntl(local_pipe, F_GETFL);
255 if (value == -1) {
256 PLOG(ERROR) << "fcntl(F_GETFL) " << pipe_name_;
257 return false;
259 if (!(value & O_NONBLOCK)) {
260 LOG(ERROR) << "Socket " << pipe_name_ << " must be O_NONBLOCK";
261 return false;
263 #endif // IPC_USES_READWRITE
264 } else if (mode_ & MODE_NAMED_FLAG) {
265 // Case 2 from comment above.
266 if (mode_ & MODE_SERVER_FLAG) {
267 if (!CreateServerUnixDomainSocket(base::FilePath(pipe_name_),
268 &local_pipe)) {
269 return false;
271 must_unlink_ = true;
272 } else if (mode_ & MODE_CLIENT_FLAG) {
273 if (!CreateClientUnixDomainSocket(base::FilePath(pipe_name_),
274 &local_pipe)) {
275 return false;
277 } else {
278 LOG(ERROR) << "Bad mode: " << mode_;
279 return false;
281 } else {
282 local_pipe = PipeMap::GetInstance()->Lookup(pipe_name_);
283 if (mode_ & MODE_CLIENT_FLAG) {
284 if (local_pipe != -1) {
285 // Case 3 from comment above.
286 // We only allow one connection.
287 local_pipe = HANDLE_EINTR(dup(local_pipe));
288 PipeMap::GetInstance()->Remove(pipe_name_);
289 } else {
290 // Case 4a from comment above.
291 // Guard against inappropriate reuse of the initial IPC channel. If
292 // an IPC channel closes and someone attempts to reuse it by name, the
293 // initial channel must not be recycled here. http://crbug.com/26754.
294 static bool used_initial_channel = false;
295 if (used_initial_channel) {
296 LOG(FATAL) << "Denying attempt to reuse initial IPC channel for "
297 << pipe_name_;
298 return false;
300 used_initial_channel = true;
302 local_pipe =
303 base::GlobalDescriptors::GetInstance()->Get(kPrimaryIPCChannel);
305 } else if (mode_ & MODE_SERVER_FLAG) {
306 // Case 4b from comment above.
307 if (local_pipe != -1) {
308 LOG(ERROR) << "Server already exists for " << pipe_name_;
309 return false;
311 base::AutoLock lock(client_pipe_lock_);
312 if (!SocketPair(&local_pipe, &client_pipe_))
313 return false;
314 PipeMap::GetInstance()->Insert(pipe_name_, client_pipe_);
315 } else {
316 LOG(ERROR) << "Bad mode: " << mode_;
317 return false;
321 #if defined(IPC_USES_READWRITE)
322 // Create a dedicated socketpair() for exchanging file descriptors.
323 // See comments for IPC_USES_READWRITE for details.
324 if (mode_ & MODE_CLIENT_FLAG) {
325 if (!SocketPair(&fd_pipe_, &remote_fd_pipe_)) {
326 return false;
329 #endif // IPC_USES_READWRITE
331 if ((mode_ & MODE_SERVER_FLAG) && (mode_ & MODE_NAMED_FLAG)) {
332 server_listen_pipe_ = local_pipe;
333 local_pipe = -1;
336 pipe_ = local_pipe;
337 return true;
340 bool ChannelPosix::Connect() {
341 if (server_listen_pipe_ == -1 && pipe_ == -1) {
342 DLOG(WARNING) << "Channel creation failed: " << pipe_name_;
343 return false;
346 bool did_connect = true;
347 if (server_listen_pipe_ != -1) {
348 // Watch the pipe for connections, and turn any connections into
349 // active sockets.
350 base::MessageLoopForIO::current()->WatchFileDescriptor(
351 server_listen_pipe_,
352 true,
353 base::MessageLoopForIO::WATCH_READ,
354 &server_listen_connection_watcher_,
355 this);
356 } else {
357 did_connect = AcceptConnection();
359 return did_connect;
362 void ChannelPosix::CloseFileDescriptors(Message* msg) {
363 #if defined(OS_MACOSX)
364 // There is a bug on OSX which makes it dangerous to close
365 // a file descriptor while it is in transit. So instead we
366 // store the file descriptor in a set and send a message to
367 // the recipient, which is queued AFTER the message that
368 // sent the FD. The recipient will reply to the message,
369 // letting us know that it is now safe to close the file
370 // descriptor. For more information, see:
371 // http://crbug.com/298276
372 std::vector<int> to_close;
373 msg->file_descriptor_set()->ReleaseFDsToClose(&to_close);
374 for (size_t i = 0; i < to_close.size(); i++) {
375 fds_to_close_.insert(to_close[i]);
376 QueueCloseFDMessage(to_close[i], 2);
378 #else
379 msg->file_descriptor_set()->CommitAll();
380 #endif
383 bool ChannelPosix::ProcessOutgoingMessages() {
384 DCHECK(!waiting_connect_); // Why are we trying to send messages if there's
385 // no connection?
386 if (output_queue_.empty())
387 return true;
389 if (pipe_ == -1)
390 return false;
392 // Write out all the messages we can till the write blocks or there are no
393 // more outgoing messages.
394 while (!output_queue_.empty()) {
395 Message* msg = output_queue_.front();
397 size_t amt_to_write = msg->size() - message_send_bytes_written_;
398 DCHECK_NE(0U, amt_to_write);
399 const char* out_bytes = reinterpret_cast<const char*>(msg->data()) +
400 message_send_bytes_written_;
402 struct msghdr msgh = {0};
403 struct iovec iov = {const_cast<char*>(out_bytes), amt_to_write};
404 msgh.msg_iov = &iov;
405 msgh.msg_iovlen = 1;
406 char buf[CMSG_SPACE(
407 sizeof(int) * FileDescriptorSet::kMaxDescriptorsPerMessage)];
409 ssize_t bytes_written = 1;
410 int fd_written = -1;
412 if (message_send_bytes_written_ == 0 &&
413 !msg->file_descriptor_set()->empty()) {
414 // This is the first chunk of a message which has descriptors to send
415 struct cmsghdr *cmsg;
416 const unsigned num_fds = msg->file_descriptor_set()->size();
418 DCHECK(num_fds <= FileDescriptorSet::kMaxDescriptorsPerMessage);
419 if (msg->file_descriptor_set()->ContainsDirectoryDescriptor()) {
420 LOG(FATAL) << "Panic: attempting to transport directory descriptor over"
421 " IPC. Aborting to maintain sandbox isolation.";
422 // If you have hit this then something tried to send a file descriptor
423 // to a directory over an IPC channel. Since IPC channels span
424 // sandboxes this is very bad: the receiving process can use openat
425 // with ".." elements in the path in order to reach the real
426 // filesystem.
429 msgh.msg_control = buf;
430 msgh.msg_controllen = CMSG_SPACE(sizeof(int) * num_fds);
431 cmsg = CMSG_FIRSTHDR(&msgh);
432 cmsg->cmsg_level = SOL_SOCKET;
433 cmsg->cmsg_type = SCM_RIGHTS;
434 cmsg->cmsg_len = CMSG_LEN(sizeof(int) * num_fds);
435 msg->file_descriptor_set()->GetDescriptors(
436 reinterpret_cast<int*>(CMSG_DATA(cmsg)));
437 msgh.msg_controllen = cmsg->cmsg_len;
439 // DCHECK_LE above already checks that
440 // num_fds < kMaxDescriptorsPerMessage so no danger of overflow.
441 msg->header()->num_fds = static_cast<uint16>(num_fds);
443 #if defined(IPC_USES_READWRITE)
444 if (!IsHelloMessage(*msg)) {
445 // Only the Hello message sends the file descriptor with the message.
446 // Subsequently, we can send file descriptors on the dedicated
447 // fd_pipe_ which makes Seccomp sandbox operation more efficient.
448 struct iovec fd_pipe_iov = { const_cast<char *>(""), 1 };
449 msgh.msg_iov = &fd_pipe_iov;
450 fd_written = fd_pipe_;
451 bytes_written = HANDLE_EINTR(sendmsg(fd_pipe_, &msgh, MSG_DONTWAIT));
452 msgh.msg_iov = &iov;
453 msgh.msg_controllen = 0;
454 if (bytes_written > 0) {
455 CloseFileDescriptors(msg);
458 #endif // IPC_USES_READWRITE
461 if (bytes_written == 1) {
462 fd_written = pipe_;
463 #if defined(IPC_USES_READWRITE)
464 if ((mode_ & MODE_CLIENT_FLAG) && IsHelloMessage(*msg)) {
465 DCHECK_EQ(msg->file_descriptor_set()->size(), 1U);
467 if (!msgh.msg_controllen) {
468 bytes_written = HANDLE_EINTR(write(pipe_, out_bytes, amt_to_write));
469 } else
470 #endif // IPC_USES_READWRITE
472 bytes_written = HANDLE_EINTR(sendmsg(pipe_, &msgh, MSG_DONTWAIT));
475 if (bytes_written > 0)
476 CloseFileDescriptors(msg);
478 if (bytes_written < 0 && !SocketWriteErrorIsRecoverable()) {
479 // We can't close the pipe here, because calling OnChannelError
480 // may destroy this object, and that would be bad if we are
481 // called from Send(). Instead, we return false and hope the
482 // caller will close the pipe. If they do not, the pipe will
483 // still be closed next time OnFileCanReadWithoutBlocking is
484 // called.
485 #if defined(OS_MACOSX)
486 // On OSX writing to a pipe with no listener returns EPERM.
487 if (errno == EPERM) {
488 return false;
490 #endif // OS_MACOSX
491 if (errno == EPIPE) {
492 return false;
494 PLOG(ERROR) << "pipe error on "
495 << fd_written
496 << " Currently writing message of size: "
497 << msg->size();
498 return false;
501 if (static_cast<size_t>(bytes_written) != amt_to_write) {
502 if (bytes_written > 0) {
503 // If write() fails with EAGAIN then bytes_written will be -1.
504 message_send_bytes_written_ += bytes_written;
507 // Tell libevent to call us back once things are unblocked.
508 is_blocked_on_write_ = true;
509 base::MessageLoopForIO::current()->WatchFileDescriptor(
510 pipe_,
511 false, // One shot
512 base::MessageLoopForIO::WATCH_WRITE,
513 &write_watcher_,
514 this);
515 return true;
516 } else {
517 message_send_bytes_written_ = 0;
519 // Message sent OK!
520 DVLOG(2) << "sent message @" << msg << " on channel @" << this
521 << " with type " << msg->type() << " on fd " << pipe_;
522 delete output_queue_.front();
523 output_queue_.pop();
526 return true;
529 bool ChannelPosix::Send(Message* message) {
530 DVLOG(2) << "sending message @" << message << " on channel @" << this
531 << " with type " << message->type()
532 << " (" << output_queue_.size() << " in queue)";
534 #ifdef IPC_MESSAGE_LOG_ENABLED
535 Logging::GetInstance()->OnSendMessage(message, "");
536 #endif // IPC_MESSAGE_LOG_ENABLED
538 message->TraceMessageBegin();
539 output_queue_.push(message);
540 if (!is_blocked_on_write_ && !waiting_connect_) {
541 return ProcessOutgoingMessages();
544 return true;
547 int ChannelPosix::GetClientFileDescriptor() const {
548 base::AutoLock lock(client_pipe_lock_);
549 return client_pipe_;
552 int ChannelPosix::TakeClientFileDescriptor() {
553 base::AutoLock lock(client_pipe_lock_);
554 int fd = client_pipe_;
555 if (client_pipe_ != -1) {
556 PipeMap::GetInstance()->Remove(pipe_name_);
557 client_pipe_ = -1;
559 return fd;
562 void ChannelPosix::CloseClientFileDescriptor() {
563 base::AutoLock lock(client_pipe_lock_);
564 if (client_pipe_ != -1) {
565 PipeMap::GetInstance()->Remove(pipe_name_);
566 if (IGNORE_EINTR(close(client_pipe_)) < 0)
567 PLOG(ERROR) << "close " << pipe_name_;
568 client_pipe_ = -1;
572 bool ChannelPosix::AcceptsConnections() const {
573 return server_listen_pipe_ != -1;
576 bool ChannelPosix::HasAcceptedConnection() const {
577 return AcceptsConnections() && pipe_ != -1;
580 bool ChannelPosix::GetPeerEuid(uid_t* peer_euid) const {
581 DCHECK(!(mode_ & MODE_SERVER) || HasAcceptedConnection());
582 return IPC::GetPeerEuid(pipe_, peer_euid);
585 void ChannelPosix::ResetToAcceptingConnectionState() {
586 // Unregister libevent for the unix domain socket and close it.
587 read_watcher_.StopWatchingFileDescriptor();
588 write_watcher_.StopWatchingFileDescriptor();
589 if (pipe_ != -1) {
590 if (IGNORE_EINTR(close(pipe_)) < 0)
591 PLOG(ERROR) << "close pipe_ " << pipe_name_;
592 pipe_ = -1;
594 #if defined(IPC_USES_READWRITE)
595 if (fd_pipe_ != -1) {
596 if (IGNORE_EINTR(close(fd_pipe_)) < 0)
597 PLOG(ERROR) << "close fd_pipe_ " << pipe_name_;
598 fd_pipe_ = -1;
600 if (remote_fd_pipe_ != -1) {
601 if (IGNORE_EINTR(close(remote_fd_pipe_)) < 0)
602 PLOG(ERROR) << "close remote_fd_pipe_ " << pipe_name_;
603 remote_fd_pipe_ = -1;
605 #endif // IPC_USES_READWRITE
607 while (!output_queue_.empty()) {
608 Message* m = output_queue_.front();
609 output_queue_.pop();
610 delete m;
613 // Close any outstanding, received file descriptors.
614 ClearInputFDs();
616 #if defined(OS_MACOSX)
617 // Clear any outstanding, sent file descriptors.
618 for (std::set<int>::iterator i = fds_to_close_.begin();
619 i != fds_to_close_.end();
620 ++i) {
621 if (IGNORE_EINTR(close(*i)) < 0)
622 PLOG(ERROR) << "close";
624 fds_to_close_.clear();
625 #endif
628 // static
629 bool ChannelPosix::IsNamedServerInitialized(
630 const std::string& channel_id) {
631 return base::PathExists(base::FilePath(channel_id));
634 #if defined(OS_LINUX)
635 // static
636 void ChannelPosix::SetGlobalPid(int pid) {
637 global_pid_ = pid;
639 #endif // OS_LINUX
641 // Called by libevent when we can read from the pipe without blocking.
642 void ChannelPosix::OnFileCanReadWithoutBlocking(int fd) {
643 if (fd == server_listen_pipe_) {
644 int new_pipe = 0;
645 if (!ServerAcceptConnection(server_listen_pipe_, &new_pipe) ||
646 new_pipe < 0) {
647 Close();
648 listener()->OnChannelListenError();
651 if (pipe_ != -1) {
652 // We already have a connection. We only handle one at a time.
653 // close our new descriptor.
654 if (HANDLE_EINTR(shutdown(new_pipe, SHUT_RDWR)) < 0)
655 DPLOG(ERROR) << "shutdown " << pipe_name_;
656 if (IGNORE_EINTR(close(new_pipe)) < 0)
657 DPLOG(ERROR) << "close " << pipe_name_;
658 listener()->OnChannelDenied();
659 return;
661 pipe_ = new_pipe;
663 if ((mode_ & MODE_OPEN_ACCESS_FLAG) == 0) {
664 // Verify that the IPC channel peer is running as the same user.
665 uid_t client_euid;
666 if (!GetPeerEuid(&client_euid)) {
667 DLOG(ERROR) << "Unable to query client euid";
668 ResetToAcceptingConnectionState();
669 return;
671 if (client_euid != geteuid()) {
672 DLOG(WARNING) << "Client euid is not authorised";
673 ResetToAcceptingConnectionState();
674 return;
678 if (!AcceptConnection()) {
679 NOTREACHED() << "AcceptConnection should not fail on server";
681 waiting_connect_ = false;
682 } else if (fd == pipe_) {
683 if (waiting_connect_ && (mode_ & MODE_SERVER_FLAG)) {
684 waiting_connect_ = false;
686 if (!ProcessIncomingMessages()) {
687 // ClosePipeOnError may delete this object, so we mustn't call
688 // ProcessOutgoingMessages.
689 ClosePipeOnError();
690 return;
692 } else {
693 NOTREACHED() << "Unknown pipe " << fd;
696 // If we're a server and handshaking, then we want to make sure that we
697 // only send our handshake message after we've processed the client's.
698 // This gives us a chance to kill the client if the incoming handshake
699 // is invalid. This also flushes any closefd messages.
700 if (!is_blocked_on_write_) {
701 if (!ProcessOutgoingMessages()) {
702 ClosePipeOnError();
707 // Called by libevent when we can write to the pipe without blocking.
708 void ChannelPosix::OnFileCanWriteWithoutBlocking(int fd) {
709 DCHECK_EQ(pipe_, fd);
710 is_blocked_on_write_ = false;
711 if (!ProcessOutgoingMessages()) {
712 ClosePipeOnError();
716 bool ChannelPosix::AcceptConnection() {
717 base::MessageLoopForIO::current()->WatchFileDescriptor(
718 pipe_, true, base::MessageLoopForIO::WATCH_READ, &read_watcher_, this);
719 QueueHelloMessage();
721 if (mode_ & MODE_CLIENT_FLAG) {
722 // If we are a client we want to send a hello message out immediately.
723 // In server mode we will send a hello message when we receive one from a
724 // client.
725 waiting_connect_ = false;
726 return ProcessOutgoingMessages();
727 } else if (mode_ & MODE_SERVER_FLAG) {
728 waiting_connect_ = true;
729 return true;
730 } else {
731 NOTREACHED();
732 return false;
736 void ChannelPosix::ClosePipeOnError() {
737 if (HasAcceptedConnection()) {
738 ResetToAcceptingConnectionState();
739 listener()->OnChannelError();
740 } else {
741 Close();
742 if (AcceptsConnections()) {
743 listener()->OnChannelListenError();
744 } else {
745 listener()->OnChannelError();
750 int ChannelPosix::GetHelloMessageProcId() const {
751 int pid = base::GetCurrentProcId();
752 #if defined(OS_LINUX)
753 // Our process may be in a sandbox with a separate PID namespace.
754 if (global_pid_) {
755 pid = global_pid_;
757 #endif
758 return pid;
761 void ChannelPosix::QueueHelloMessage() {
762 // Create the Hello message
763 scoped_ptr<Message> msg(new Message(MSG_ROUTING_NONE,
764 HELLO_MESSAGE_TYPE,
765 IPC::Message::PRIORITY_NORMAL));
766 if (!msg->WriteInt(GetHelloMessageProcId())) {
767 NOTREACHED() << "Unable to pickle hello message proc id";
769 #if defined(IPC_USES_READWRITE)
770 scoped_ptr<Message> hello;
771 if (remote_fd_pipe_ != -1) {
772 if (!msg->WriteFileDescriptor(base::FileDescriptor(remote_fd_pipe_,
773 false))) {
774 NOTREACHED() << "Unable to pickle hello message file descriptors";
776 DCHECK_EQ(msg->file_descriptor_set()->size(), 1U);
778 #endif // IPC_USES_READWRITE
779 output_queue_.push(msg.release());
782 ChannelPosix::ReadState ChannelPosix::ReadData(
783 char* buffer,
784 int buffer_len,
785 int* bytes_read) {
786 if (pipe_ == -1)
787 return READ_FAILED;
789 struct msghdr msg = {0};
791 struct iovec iov = {buffer, static_cast<size_t>(buffer_len)};
792 msg.msg_iov = &iov;
793 msg.msg_iovlen = 1;
795 msg.msg_control = input_cmsg_buf_;
797 // recvmsg() returns 0 if the connection has closed or EAGAIN if no data
798 // is waiting on the pipe.
799 #if defined(IPC_USES_READWRITE)
800 if (fd_pipe_ >= 0) {
801 *bytes_read = HANDLE_EINTR(read(pipe_, buffer, buffer_len));
802 msg.msg_controllen = 0;
803 } else
804 #endif // IPC_USES_READWRITE
806 msg.msg_controllen = sizeof(input_cmsg_buf_);
807 *bytes_read = HANDLE_EINTR(recvmsg(pipe_, &msg, MSG_DONTWAIT));
809 if (*bytes_read < 0) {
810 if (errno == EAGAIN) {
811 return READ_PENDING;
812 #if defined(OS_MACOSX)
813 } else if (errno == EPERM) {
814 // On OSX, reading from a pipe with no listener returns EPERM
815 // treat this as a special case to prevent spurious error messages
816 // to the console.
817 return READ_FAILED;
818 #endif // OS_MACOSX
819 } else if (errno == ECONNRESET || errno == EPIPE) {
820 return READ_FAILED;
821 } else {
822 PLOG(ERROR) << "pipe error (" << pipe_ << ")";
823 return READ_FAILED;
825 } else if (*bytes_read == 0) {
826 // The pipe has closed...
827 return READ_FAILED;
829 DCHECK(*bytes_read);
831 CloseClientFileDescriptor();
833 // Read any file descriptors from the message.
834 if (!ExtractFileDescriptorsFromMsghdr(&msg))
835 return READ_FAILED;
836 return READ_SUCCEEDED;
839 #if defined(IPC_USES_READWRITE)
840 bool ChannelPosix::ReadFileDescriptorsFromFDPipe() {
841 char dummy;
842 struct iovec fd_pipe_iov = { &dummy, 1 };
844 struct msghdr msg = { 0 };
845 msg.msg_iov = &fd_pipe_iov;
846 msg.msg_iovlen = 1;
847 msg.msg_control = input_cmsg_buf_;
848 msg.msg_controllen = sizeof(input_cmsg_buf_);
849 ssize_t bytes_received = HANDLE_EINTR(recvmsg(fd_pipe_, &msg, MSG_DONTWAIT));
851 if (bytes_received != 1)
852 return true; // No message waiting.
854 if (!ExtractFileDescriptorsFromMsghdr(&msg))
855 return false;
856 return true;
858 #endif
860 // On Posix, we need to fix up the file descriptors before the input message
861 // is dispatched.
863 // This will read from the input_fds_ (READWRITE mode only) and read more
864 // handles from the FD pipe if necessary.
865 bool ChannelPosix::WillDispatchInputMessage(Message* msg) {
866 uint16 header_fds = msg->header()->num_fds;
867 if (!header_fds)
868 return true; // Nothing to do.
870 // The message has file descriptors.
871 const char* error = NULL;
872 if (header_fds > input_fds_.size()) {
873 // The message has been completely received, but we didn't get
874 // enough file descriptors.
875 #if defined(IPC_USES_READWRITE)
876 if (!ReadFileDescriptorsFromFDPipe())
877 return false;
878 if (header_fds > input_fds_.size())
879 #endif // IPC_USES_READWRITE
880 error = "Message needs unreceived descriptors";
883 if (header_fds > FileDescriptorSet::kMaxDescriptorsPerMessage)
884 error = "Message requires an excessive number of descriptors";
886 if (error) {
887 LOG(WARNING) << error
888 << " channel:" << this
889 << " message-type:" << msg->type()
890 << " header()->num_fds:" << header_fds;
891 // Abort the connection.
892 ClearInputFDs();
893 return false;
896 // The shenaniganery below with &foo.front() requires input_fds_ to have
897 // contiguous underlying storage (such as a simple array or a std::vector).
898 // This is why the header warns not to make input_fds_ a deque<>.
899 msg->file_descriptor_set()->SetDescriptors(&input_fds_.front(),
900 header_fds);
901 input_fds_.erase(input_fds_.begin(), input_fds_.begin() + header_fds);
902 return true;
905 bool ChannelPosix::DidEmptyInputBuffers() {
906 // When the input data buffer is empty, the fds should be too. If this is
907 // not the case, we probably have a rogue renderer which is trying to fill
908 // our descriptor table.
909 return input_fds_.empty();
912 bool ChannelPosix::ExtractFileDescriptorsFromMsghdr(msghdr* msg) {
913 // Check that there are any control messages. On OSX, CMSG_FIRSTHDR will
914 // return an invalid non-NULL pointer in the case that controllen == 0.
915 if (msg->msg_controllen == 0)
916 return true;
918 for (cmsghdr* cmsg = CMSG_FIRSTHDR(msg);
919 cmsg;
920 cmsg = CMSG_NXTHDR(msg, cmsg)) {
921 if (cmsg->cmsg_level == SOL_SOCKET && cmsg->cmsg_type == SCM_RIGHTS) {
922 unsigned payload_len = cmsg->cmsg_len - CMSG_LEN(0);
923 DCHECK_EQ(0U, payload_len % sizeof(int));
924 const int* file_descriptors = reinterpret_cast<int*>(CMSG_DATA(cmsg));
925 unsigned num_file_descriptors = payload_len / 4;
926 input_fds_.insert(input_fds_.end(),
927 file_descriptors,
928 file_descriptors + num_file_descriptors);
930 // Check this after adding the FDs so we don't leak them.
931 if (msg->msg_flags & MSG_CTRUNC) {
932 ClearInputFDs();
933 return false;
936 return true;
940 // No file descriptors found, but that's OK.
941 return true;
944 void ChannelPosix::ClearInputFDs() {
945 for (size_t i = 0; i < input_fds_.size(); ++i) {
946 if (IGNORE_EINTR(close(input_fds_[i])) < 0)
947 PLOG(ERROR) << "close ";
949 input_fds_.clear();
952 void ChannelPosix::QueueCloseFDMessage(int fd, int hops) {
953 switch (hops) {
954 case 1:
955 case 2: {
956 // Create the message
957 scoped_ptr<Message> msg(new Message(MSG_ROUTING_NONE,
958 CLOSE_FD_MESSAGE_TYPE,
959 IPC::Message::PRIORITY_NORMAL));
960 if (!msg->WriteInt(hops - 1) || !msg->WriteInt(fd)) {
961 NOTREACHED() << "Unable to pickle close fd.";
963 // Send(msg.release());
964 output_queue_.push(msg.release());
965 break;
968 default:
969 NOTREACHED();
970 break;
974 void ChannelPosix::HandleInternalMessage(const Message& msg) {
975 // The Hello message contains only the process id.
976 PickleIterator iter(msg);
978 switch (msg.type()) {
979 default:
980 NOTREACHED();
981 break;
983 case Channel::HELLO_MESSAGE_TYPE:
984 int pid;
985 if (!msg.ReadInt(&iter, &pid))
986 NOTREACHED();
988 #if defined(IPC_USES_READWRITE)
989 if (mode_ & MODE_SERVER_FLAG) {
990 // With IPC_USES_READWRITE, the Hello message from the client to the
991 // server also contains the fd_pipe_, which will be used for all
992 // subsequent file descriptor passing.
993 DCHECK_EQ(msg.file_descriptor_set()->size(), 1U);
994 base::FileDescriptor descriptor;
995 if (!msg.ReadFileDescriptor(&iter, &descriptor)) {
996 NOTREACHED();
998 fd_pipe_ = descriptor.fd;
999 CHECK(descriptor.auto_close);
1001 #endif // IPC_USES_READWRITE
1002 peer_pid_ = pid;
1003 listener()->OnChannelConnected(pid);
1004 break;
1006 #if defined(OS_MACOSX)
1007 case Channel::CLOSE_FD_MESSAGE_TYPE:
1008 int fd, hops;
1009 if (!msg.ReadInt(&iter, &hops))
1010 NOTREACHED();
1011 if (!msg.ReadInt(&iter, &fd))
1012 NOTREACHED();
1013 if (hops == 0) {
1014 if (fds_to_close_.erase(fd) > 0) {
1015 if (IGNORE_EINTR(close(fd)) < 0)
1016 PLOG(ERROR) << "close";
1017 } else {
1018 NOTREACHED();
1020 } else {
1021 QueueCloseFDMessage(fd, hops);
1023 break;
1024 #endif
1028 void ChannelPosix::Close() {
1029 // Close can be called multiple time, so we need to make sure we're
1030 // idempotent.
1032 ResetToAcceptingConnectionState();
1034 if (must_unlink_) {
1035 unlink(pipe_name_.c_str());
1036 must_unlink_ = false;
1038 if (server_listen_pipe_ != -1) {
1039 if (IGNORE_EINTR(close(server_listen_pipe_)) < 0)
1040 DPLOG(ERROR) << "close " << server_listen_pipe_;
1041 server_listen_pipe_ = -1;
1042 // Unregister libevent for the listening socket and close it.
1043 server_listen_connection_watcher_.StopWatchingFileDescriptor();
1046 CloseClientFileDescriptor();
1049 base::ProcessId ChannelPosix::GetPeerPID() const {
1050 return peer_pid_;
1053 base::ProcessId ChannelPosix::GetSelfPID() const {
1054 return GetHelloMessageProcId();
1057 ChannelHandle ChannelPosix::TakePipeHandle() {
1058 ChannelHandle handle = ChannelHandle(pipe_name_,
1059 base::FileDescriptor(pipe_, false));
1060 pipe_ = -1;
1061 return handle;
1064 //------------------------------------------------------------------------------
1065 // Channel's methods
1067 // static
1068 scoped_ptr<Channel> Channel::Create(
1069 const IPC::ChannelHandle &channel_handle, Mode mode, Listener* listener) {
1070 return make_scoped_ptr(new ChannelPosix(
1071 channel_handle, mode, listener)).PassAs<Channel>();
1074 // static
1075 std::string Channel::GenerateVerifiedChannelID(const std::string& prefix) {
1076 // A random name is sufficient validation on posix systems, so we don't need
1077 // an additional shared secret.
1079 std::string id = prefix;
1080 if (!id.empty())
1081 id.append(".");
1083 return id.append(GenerateUniqueRandomChannelID());
1087 bool Channel::IsNamedServerInitialized(
1088 const std::string& channel_id) {
1089 return ChannelPosix::IsNamedServerInitialized(channel_id);
1092 #if defined(OS_LINUX)
1093 // static
1094 void Channel::SetGlobalPid(int pid) {
1095 ChannelPosix::SetGlobalPid(pid);
1097 #endif // OS_LINUX
1099 } // namespace IPC