// 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. #ifndef IPC_FILE_DESCRIPTOR_SET_POSIX_H_ #define IPC_FILE_DESCRIPTOR_SET_POSIX_H_ #include <vector> #include "base/basictypes.h" #include "base/file_descriptor_posix.h" #include "base/memory/ref_counted.h" #include "ipc/ipc_export.h" // ----------------------------------------------------------------------------- // A FileDescriptorSet is an ordered set of POSIX file descriptors. These are // associated with IPC messages so that descriptors can be transmitted over a // UNIX domain socket. // ----------------------------------------------------------------------------- class IPC_EXPORT FileDescriptorSet : public base::RefCountedThreadSafe<FileDescriptorSet> { public: FileDescriptorSet(); // This is the maximum number of descriptors per message. We need to know this // because the control message kernel interface has to be given a buffer which // is large enough to store all the descriptor numbers. Otherwise the kernel // tells us that it truncated the control data and the extra descriptors are // lost. // // In debugging mode, it's a fatal error to try and add more than this number // of descriptors to a FileDescriptorSet. static const size_t kMaxDescriptorsPerMessage = 7; // --------------------------------------------------------------------------- // Interfaces for building during message serialisation... // Add a descriptor to the end of the set. Returns false iff the set is full. bool Add(int fd); // Add a descriptor to the end of the set and automatically close it after // transmission. Returns false iff the set is full. bool AddAndAutoClose(int fd); // --------------------------------------------------------------------------- // --------------------------------------------------------------------------- // Interfaces for accessing during message deserialisation... // Return the number of descriptors unsigned size() const { return descriptors_.size(); } // Return true if no unconsumed descriptors remain bool empty() const { return descriptors_.empty(); } // Fetch the nth descriptor from the beginning of the set. Code using this // /must/ access the descriptors in order, except that it may wrap from the // end to index 0 again. // // This interface is designed for the deserialising code as it doesn't // support close flags. // returns: file descriptor, or -1 on error int GetDescriptorAt(unsigned n) const; // --------------------------------------------------------------------------- // --------------------------------------------------------------------------- // Interfaces for transmission... // Fill an array with file descriptors without 'consuming' them. CommitAll // must be called after these descriptors have been transmitted. // buffer: (output) a buffer of, at least, size() integers. void GetDescriptors(int* buffer) const; // This must be called after transmitting the descriptors returned by // GetDescriptors. It marks all the descriptors as consumed and closes those // which are auto-close. void CommitAll(); // Returns true if any contained file descriptors appear to be handles to a // directory. bool ContainsDirectoryDescriptor() const; // Fetch all filedescriptors with the "auto close" property. // Used instead of CommitAll() when closing must be handled manually. void ReleaseFDsToClose(std::vector<int>* fds); // --------------------------------------------------------------------------- // --------------------------------------------------------------------------- // Interfaces for receiving... // Set the contents of the set from the given buffer. This set must be empty // before calling. The auto-close flag is set on all the descriptors so that // unconsumed descriptors are closed on destruction. void SetDescriptors(const int* buffer, unsigned count); // --------------------------------------------------------------------------- private: friend class base::RefCountedThreadSafe<FileDescriptorSet>; ~FileDescriptorSet(); // A vector of descriptors and close flags. If this message is sent, then // these descriptors are sent as control data. After sending, any descriptors // with a true flag are closed. If this message has been received, then these // are the descriptors which were received and all close flags are true. std::vector<base::FileDescriptor> descriptors_; // This contains the index of the next descriptor which should be consumed. // It's used in a couple of ways. Firstly, at destruction we can check that // all the descriptors have been read (with GetNthDescriptor). Secondly, we // can check that they are read in order. mutable unsigned consumed_descriptor_highwater_; DISALLOW_COPY_AND_ASSIGN(FileDescriptorSet); }; #endif // IPC_FILE_DESCRIPTOR_SET_POSIX_H_