// Copyright (c) 2011 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/shared_memory.h" #include #include #include #include #include #include "base/file_util.h" #include "base/logging.h" #include "base/threading/platform_thread.h" #include "base/safe_strerror_posix.h" #include "base/threading/thread_restrictions.h" #include "base/utf_string_conversions.h" namespace base { namespace { // Paranoia. Semaphores and shared memory segments should live in different // namespaces, but who knows what's out there. const char kSemaphoreSuffix[] = "-sem"; } SharedMemory::SharedMemory() : mapped_file_(-1), mapped_size_(0), inode_(0), memory_(NULL), read_only_(false), created_size_(0) { } SharedMemory::SharedMemory(SharedMemoryHandle handle, bool read_only) : mapped_file_(handle.fd), mapped_size_(0), inode_(0), memory_(NULL), read_only_(read_only), created_size_(0) { struct stat st; if (fstat(handle.fd, &st) == 0) { // If fstat fails, then the file descriptor is invalid and we'll learn this // fact when Map() fails. inode_ = st.st_ino; } } SharedMemory::SharedMemory(SharedMemoryHandle handle, bool read_only, ProcessHandle process) : mapped_file_(handle.fd), mapped_size_(0), inode_(0), memory_(NULL), read_only_(read_only), created_size_(0) { // We don't handle this case yet (note the ignored parameter); let's die if // someone comes calling. NOTREACHED(); } SharedMemory::~SharedMemory() { Close(); } // static bool SharedMemory::IsHandleValid(const SharedMemoryHandle& handle) { return handle.fd >= 0; } // static SharedMemoryHandle SharedMemory::NULLHandle() { return SharedMemoryHandle(); } // static void SharedMemory::CloseHandle(const SharedMemoryHandle& handle) { DCHECK(handle.fd >= 0); if (HANDLE_EINTR(close(handle.fd)) < 0) PLOG(ERROR) << "close"; } bool SharedMemory::CreateAndMapAnonymous(uint32 size) { return CreateAnonymous(size) && Map(size); } bool SharedMemory::CreateAnonymous(uint32 size) { return CreateNamed("", false, size); } // Chromium mostly only uses the unique/private shmem as specified by // "name == L"". The exception is in the StatsTable. // TODO(jrg): there is no way to "clean up" all unused named shmem if // we restart from a crash. (That isn't a new problem, but it is a problem.) // In case we want to delete it later, it may be useful to save the value // of mem_filename after FilePathForMemoryName(). bool SharedMemory::CreateNamed(const std::string& name, bool open_existing, uint32 size) { DCHECK_EQ(-1, mapped_file_); if (size == 0) return false; // This function theoretically can block on the disk, but realistically // the temporary files we create will just go into the buffer cache // and be deleted before they ever make it out to disk. base::ThreadRestrictions::ScopedAllowIO allow_io; FILE *fp; bool fix_size = true; FilePath path; if (name.empty()) { // It doesn't make sense to have a open-existing private piece of shmem DCHECK(!open_existing); // Q: Why not use the shm_open() etc. APIs? // A: Because they're limited to 4mb on OS X. FFFFFFFUUUUUUUUUUU fp = file_util::CreateAndOpenTemporaryShmemFile(&path); // Deleting the file prevents anyone else from mapping it in // (making it private), and prevents the need for cleanup (once // the last fd is closed, it is truly freed). if (fp) file_util::Delete(path, false); } else { if (!FilePathForMemoryName(name, &path)) return false; fp = file_util::OpenFile(path, "w+x"); if (fp == NULL && open_existing) { // "w+" will truncate if it already exists. fp = file_util::OpenFile(path, "a+"); fix_size = false; } } if (fp && fix_size) { // Get current size. struct stat stat; if (fstat(fileno(fp), &stat) != 0) return false; const uint32 current_size = stat.st_size; if (current_size != size) { if (HANDLE_EINTR(ftruncate(fileno(fp), size)) != 0) return false; if (fseeko(fp, size, SEEK_SET) != 0) return false; } created_size_ = size; } if (fp == NULL) { #if !defined(OS_MACOSX) PLOG(ERROR) << "Creating shared memory in " << path.value() << " failed"; FilePath dir = path.DirName(); if (access(dir.value().c_str(), W_OK | X_OK) < 0) { PLOG(ERROR) << "Unable to access(W_OK|X_OK) " << dir.value(); if (dir.value() == "/dev/shm") { LOG(FATAL) << "This is frequently caused by incorrect permissions on " << "/dev/shm. Try 'sudo chmod 1777 /dev/shm' to fix."; } } #else PLOG(ERROR) << "Creating shared memory in " << path.value() << " failed"; #endif return false; } return PrepareMapFile(fp); } // Our current implementation of shmem is with mmap()ing of files. // These files need to be deleted explicitly. // In practice this call is only needed for unit tests. bool SharedMemory::Delete(const std::string& name) { FilePath path; if (!FilePathForMemoryName(name, &path)) return false; if (file_util::PathExists(path)) { return file_util::Delete(path, false); } // Doesn't exist, so success. return true; } bool SharedMemory::Open(const std::string& name, bool read_only) { FilePath path; if (!FilePathForMemoryName(name, &path)) return false; read_only_ = read_only; const char *mode = read_only ? "r" : "r+"; FILE *fp = file_util::OpenFile(path, mode); return PrepareMapFile(fp); } bool SharedMemory::Map(uint32 bytes) { if (mapped_file_ == -1) return false; memory_ = mmap(NULL, bytes, PROT_READ | (read_only_ ? 0 : PROT_WRITE), MAP_SHARED, mapped_file_, 0); if (memory_) mapped_size_ = bytes; bool mmap_succeeded = (memory_ != (void*)-1); DCHECK(mmap_succeeded) << "Call to mmap failed, errno=" << errno; return mmap_succeeded; } bool SharedMemory::Unmap() { if (memory_ == NULL) return false; munmap(memory_, mapped_size_); memory_ = NULL; mapped_size_ = 0; return true; } SharedMemoryHandle SharedMemory::handle() const { return FileDescriptor(mapped_file_, false); } void SharedMemory::Close() { Unmap(); if (mapped_file_ > 0) { if (HANDLE_EINTR(close(mapped_file_)) < 0) PLOG(ERROR) << "close"; mapped_file_ = -1; } } void SharedMemory::Lock() { #if !defined(ANDROID) LockOrUnlockCommon(F_LOCK); #endif } void SharedMemory::Unlock() { #if !defined(ANDROID) LockOrUnlockCommon(F_ULOCK); #endif } bool SharedMemory::PrepareMapFile(FILE *fp) { DCHECK_EQ(-1, mapped_file_); if (fp == NULL) return false; // This function theoretically can block on the disk, but realistically // the temporary files we create will just go into the buffer cache // and be deleted before they ever make it out to disk. base::ThreadRestrictions::ScopedAllowIO allow_io; file_util::ScopedFILE file_closer(fp); mapped_file_ = dup(fileno(fp)); if (mapped_file_ == -1) { if (errno == EMFILE) { LOG(WARNING) << "Shared memory creation failed; out of file descriptors"; return false; } else { NOTREACHED() << "Call to dup failed, errno=" << errno; } } struct stat st; if (fstat(mapped_file_, &st)) NOTREACHED(); inode_ = st.st_ino; return true; } // For the given shmem named |mem_name|, return a filename to mmap() // (and possibly create). Modifies |filename|. Return false on // error, or true of we are happy. bool SharedMemory::FilePathForMemoryName(const std::string& mem_name, FilePath* path) { // mem_name will be used for a filename; make sure it doesn't // contain anything which will confuse us. DCHECK_EQ(std::string::npos, mem_name.find('/')); DCHECK_EQ(std::string::npos, mem_name.find('\0')); FilePath temp_dir; if (!file_util::GetShmemTempDir(&temp_dir)) return false; *path = temp_dir.AppendASCII("com.google.chrome.shmem." + mem_name); return true; } void SharedMemory::LockOrUnlockCommon(int function) { DCHECK_GE(mapped_file_, 0); #if !defined(ANDROID) while (lockf(mapped_file_, function, 0) < 0) { if (errno == EINTR) { continue; } else if (errno == ENOLCK) { // temporary kernel resource exaustion base::PlatformThread::Sleep(500); continue; } else { NOTREACHED() << "lockf() failed." << " function:" << function << " fd:" << mapped_file_ << " errno:" << errno << " msg:" << safe_strerror(errno); } } #endif } bool SharedMemory::ShareToProcessCommon(ProcessHandle process, SharedMemoryHandle *new_handle, bool close_self) { const int new_fd = dup(mapped_file_); DCHECK_GE(new_fd, 0); new_handle->fd = new_fd; new_handle->auto_close = true; if (close_self) Close(); return true; } } // namespace base