// Copyright (c) 2012 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 GPU_COMMAND_BUFFER_COMMON_COMMAND_BUFFER_H_ #define GPU_COMMAND_BUFFER_COMMON_COMMAND_BUFFER_H_ #include #include #include "base/macros.h" #include "gpu/command_buffer/common/buffer.h" #include "gpu/command_buffer/common/constants.h" #include "gpu/gpu_export.h" namespace gpu { // Common interface for CommandBuffer implementations. class GPU_EXPORT CommandBuffer { public: struct State { State() : get_offset(0), token(-1), release_count(0), error(error::kNoError), context_lost_reason(error::kUnknown), generation(0), set_get_buffer_count(0) {} // The offset (in entries) from which the reader is reading. int32_t get_offset; // The current token value. This is used by the writer to defer // changes to shared memory objects until the reader has reached a certain // point in the command buffer. The reader is responsible for updating the // token value, for example in response to an asynchronous set token command // embedded in the command buffer. The default token value is zero. int32_t token; // The fence sync release count. Incremented by InsertFenceSync commands. // Used by the client to monitor sync token progress. uint64_t release_count; // Error status. error::Error error; // Lost context detail information. error::ContextLostReason context_lost_reason; // Generation index of this state. The generation index is incremented every // time a new state is retrieved from the command processor, so that // consistency can be kept even if IPC messages are processed out-of-order. uint32_t generation; // Number of times SetGetBuffer was called. This allows the client to verify // that |get| corresponds (or not) to the last buffer it set. uint32_t set_get_buffer_count; }; struct ConsoleMessage { // An user supplied id. int32_t id; // The message. std::string message; }; CommandBuffer() = default; virtual ~CommandBuffer() = default; // Check if a value is between a start and end value, inclusive, allowing // for wrapping if start > end. static bool InRange(int32_t start, int32_t end, int32_t value) { if (start <= end) return start <= value && value <= end; else return start <= value || value <= end; } // Returns the last state without synchronizing with the service. virtual State GetLastState() = 0; // The writer calls this to update its put offset. This ensures the reader // sees the latest added commands, and will eventually process them. On the // service side, commands are processed up to the given put_offset before // subsequent Flushes on the same GpuChannel. virtual void Flush(int32_t put_offset) = 0; // As Flush, ensures that on the service side, commands up to put_offset // are processed but before subsequent commands on the same GpuChannel but // flushing to the service may be deferred. virtual void OrderingBarrier(int32_t put_offset) = 0; // The writer calls this to wait until the current token is within a // specific range, inclusive. Can return early if an error is generated. virtual State WaitForTokenInRange(int32_t start, int32_t end) = 0; // The writer calls this to wait until the current get offset is within a // specific range, inclusive, after SetGetBuffer was called exactly // set_get_buffer_count times. Can return early if an error is generated. virtual State WaitForGetOffsetInRange(uint32_t set_get_buffer_count, int32_t start, int32_t end) = 0; // Sets the buffer commands are read from. // Also resets the get and put offsets to 0, and increments // set_get_buffer_count. virtual void SetGetBuffer(int32_t transfer_buffer_id) = 0; // Create a transfer buffer of the given size. Returns its ID or -1 on // error. virtual scoped_refptr CreateTransferBuffer(uint32_t size, int32_t* id) = 0; // Destroy a transfer buffer. The ID must be positive. virtual void DestroyTransferBuffer(int32_t id) = 0; private: DISALLOW_COPY_AND_ASSIGN(CommandBuffer); }; } // namespace gpu #endif // GPU_COMMAND_BUFFER_COMMON_COMMAND_BUFFER_H_