// Copyright 2014 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 MOJO_PUBLIC_CPP_SYSTEM_HANDLE_H_ #define MOJO_PUBLIC_CPP_SYSTEM_HANDLE_H_ #include <stdint.h> #include <limits> #include "base/compiler_specific.h" #include "base/logging.h" #include "base/macros.h" #include "mojo/public/c/system/functions.h" #include "mojo/public/c/system/types.h" #include "mojo/public/cpp/system/handle_signals_state.h" namespace mojo { // OVERVIEW // // |Handle| and |...Handle|: // // |Handle| is a simple, copyable wrapper for the C type |MojoHandle| (which is // just an integer). Its purpose is to increase type-safety, not provide // lifetime management. For the same purpose, we have trivial *subclasses* of // |Handle|, e.g., |MessagePipeHandle| and |DataPipeProducerHandle|. |Handle| // and its subclasses impose *no* extra overhead over using |MojoHandle|s // directly. // // Note that though we provide constructors for |Handle|/|...Handle| from a // |MojoHandle|, we do not provide, e.g., a constructor for |MessagePipeHandle| // from a |Handle|. This is for type safety: If we did, you'd then be able to // construct a |MessagePipeHandle| from, e.g., a |DataPipeProducerHandle| (since // it's a |Handle|). // // |ScopedHandleBase| and |Scoped...Handle|: // // |ScopedHandleBase<HandleType>| is a templated scoped wrapper, for the handle // types above (in the same sense that a C++11 |unique_ptr<T>| is a scoped // wrapper for a |T*|). It provides lifetime management, closing its owned // handle on destruction. It also provides move semantics, again along the lines // of C++11's |unique_ptr|. A moved-from |ScopedHandleBase<HandleType>| sets its // handle value to MOJO_HANDLE_INVALID. // // |ScopedHandle| is just (a typedef of) a |ScopedHandleBase<Handle>|. // Similarly, |ScopedMessagePipeHandle| is just a // |ScopedHandleBase<MessagePipeHandle>|. Etc. Note that a // |ScopedMessagePipeHandle| is *not* a (subclass of) |ScopedHandle|. // // Wrapper functions: // // We provide simple wrappers for the |Mojo...()| functions (in // mojo/public/c/system/core.h -- see that file for details on individual // functions). // // The general guideline is functions that imply ownership transfer of a handle // should take (or produce) an appropriate |Scoped...Handle|, while those that // don't take a |...Handle|. For example, |CreateMessagePipe()| has two // |ScopedMessagePipe| "out" parameters, whereas |Wait()| and |WaitMany()| take // |Handle| parameters. Some, have both: e.g., |DuplicatedBuffer()| takes a // suitable (unscoped) handle (e.g., |SharedBufferHandle|) "in" parameter and // produces a suitable scoped handle (e.g., |ScopedSharedBufferHandle| a.k.a. // |ScopedHandleBase<SharedBufferHandle>|) as an "out" parameter. // // An exception are some of the |...Raw()| functions. E.g., |CloseRaw()| takes a // |Handle|, leaving the user to discard the wrapper. // // ScopedHandleBase ------------------------------------------------------------ // Scoper for the actual handle types defined further below. It's move-only, // like the C++11 |unique_ptr|. template <class HandleType> class ScopedHandleBase { public: using RawHandleType = HandleType; ScopedHandleBase() {} explicit ScopedHandleBase(HandleType handle) : handle_(handle) {} ~ScopedHandleBase() { CloseIfNecessary(); } template <class CompatibleHandleType> explicit ScopedHandleBase(ScopedHandleBase<CompatibleHandleType> other) : handle_(other.release()) {} // Move-only constructor and operator=. ScopedHandleBase(ScopedHandleBase&& other) noexcept : handle_(other.release()) {} ScopedHandleBase& operator=(ScopedHandleBase&& other) noexcept { if (&other != this) { CloseIfNecessary(); handle_ = other.release(); } return *this; } const HandleType& get() const { return handle_; } const HandleType* operator->() const { DCHECK(handle_.is_valid()); return &handle_; } template <typename PassedHandleType> static ScopedHandleBase<HandleType> From( ScopedHandleBase<PassedHandleType> other) { static_assert( sizeof(static_cast<PassedHandleType*>(static_cast<HandleType*>(0))), "HandleType is not a subtype of PassedHandleType"); return ScopedHandleBase<HandleType>( static_cast<HandleType>(other.release().value())); } void swap(ScopedHandleBase& other) { handle_.swap(other.handle_); } HandleType release() WARN_UNUSED_RESULT { HandleType rv; rv.swap(handle_); return rv; } void reset(HandleType handle = HandleType()) { CloseIfNecessary(); handle_ = handle; } bool is_valid() const { return handle_.is_valid(); } explicit operator bool() const { return handle_; } bool operator==(const ScopedHandleBase& other) const { return handle_.value() == other.get().value(); } private: void CloseIfNecessary() { if (handle_.is_valid()) handle_.Close(); } HandleType handle_; DISALLOW_COPY_AND_ASSIGN(ScopedHandleBase); }; template <typename HandleType> inline ScopedHandleBase<HandleType> MakeScopedHandle(HandleType handle) { return ScopedHandleBase<HandleType>(handle); } // Handle ---------------------------------------------------------------------- const MojoHandle kInvalidHandleValue = MOJO_HANDLE_INVALID; // Wrapper base class for |MojoHandle|. class Handle { public: Handle() : value_(kInvalidHandleValue) {} explicit Handle(MojoHandle value) : value_(value) {} ~Handle() {} void swap(Handle& other) { MojoHandle temp = value_; value_ = other.value_; other.value_ = temp; } bool is_valid() const { return value_ != kInvalidHandleValue; } explicit operator bool() const { return value_ != kInvalidHandleValue; } const MojoHandle& value() const { return value_; } MojoHandle* mutable_value() { return &value_; } void set_value(MojoHandle value) { value_ = value; } void Close() { DCHECK(is_valid()); MojoResult result = MojoClose(value_); ALLOW_UNUSED_LOCAL(result); DCHECK_EQ(MOJO_RESULT_OK, result); } HandleSignalsState QuerySignalsState() const { HandleSignalsState signals_state; MojoResult result = MojoQueryHandleSignalsState( value_, static_cast<MojoHandleSignalsState*>(&signals_state)); DCHECK_EQ(MOJO_RESULT_OK, result); return signals_state; } private: MojoHandle value_; // Copying and assignment allowed. }; // Should have zero overhead. static_assert(sizeof(Handle) == sizeof(MojoHandle), "Bad size for C++ Handle"); // The scoper should also impose no more overhead. typedef ScopedHandleBase<Handle> ScopedHandle; static_assert(sizeof(ScopedHandle) == sizeof(Handle), "Bad size for C++ ScopedHandle"); // |Close()| takes ownership of the handle, since it'll invalidate it. // Note: There's nothing to do, since the argument will be destroyed when it // goes out of scope. template <class HandleType> inline void Close(ScopedHandleBase<HandleType> /*handle*/) { } // Most users should typically use |Close()| (above) instead. inline MojoResult CloseRaw(Handle handle) { return MojoClose(handle.value()); } // Strict weak ordering, so that |Handle|s can be used as keys in |std::map|s, inline bool operator<(const Handle a, const Handle b) { return a.value() < b.value(); } // Comparison, so that |Handle|s can be used as keys in hash maps. inline bool operator==(const Handle a, const Handle b) { return a.value() == b.value(); } } // namespace mojo #endif // MOJO_PUBLIC_CPP_SYSTEM_HANDLE_H_