/* * Copyright (c) 2022, The OpenThread Authors. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the copyright holder nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /** * @file * This file defines OpenThread `FrameBuilder` class. */ #ifndef FRAME_BUILDER_HPP_ #define FRAME_BUILDER_HPP_ #include "openthread-core-config.h" #include "common/error.hpp" #include "common/message.hpp" #include "common/type_traits.hpp" namespace ot { /** * The `FrameBuilder` can be used to construct frame content in a given data buffer. * */ class FrameBuilder { public: /** * This method initializes the `FrameBuilder` to use a given buffer. * * `FrameBuilder` MUST be initialized before its other methods are used. * * @param[in] aBuffer A pointer to a buffer. * @param[in] aLength The data length (number of bytes in @p aBuffer). * */ void Init(void *aBuffer, uint16_t aLength); /** * This method returns a pointer to the start of `FrameBuilder` buffer. * * @returns A pointer to the frame buffer. * */ const uint8_t *GetBytes(void) const { return mBuffer; } /** * This method returns the current length of frame (number of bytes appended so far). * * @returns The current frame length. * */ uint16_t GetLength(void) const { return mLength; } /** * This method returns the maximum length of frame. * * @returns The maximum frame length (max number of bytes in the frame buffer). * */ uint16_t GetMaxLength(void) const { return mMaxLength; } /** * This method indicates whether or not there are enough bytes remaining in the `FrameBuilder` buffer to append a * given number of bytes. * * @param[in] aLength The append length. * * @retval TRUE There are enough remaining bytes to append @p aLength bytes. * @retval FALSE There are not enough remaining bytes to append @p aLength bytes. * */ bool CanAppend(uint16_t aLength) const { return (static_cast(mLength) + aLength) <= mMaxLength; } /** * This method appends an `uint8_t` value to the `FrameBuilder`. * * @param[in] aUint8 The `uint8_t` value to append. * * @retval kErrorNone Successfully appended the value. * @retval kErrorNoBufs Insufficient available buffers. * */ Error AppendUint8(uint8_t aUint8); /** * This method appends an `uint16_t` value assuming big endian encoding to the `FrameBuilder`. * * @param[in] aUint16 The `uint16_t` value to append. * * @retval kErrorNone Successfully appended the value. * @retval kErrorNoBufs Insufficient available buffers. * */ Error AppendBigEndianUint16(uint16_t aUint16); /** * This method appends an `uint32_t` value assuming big endian encoding to the `FrameBuilder`. * * @param[in] aUint32 The `uint32_t` value to append. * * @retval kErrorNone Successfully appended the value. * @retval kErrorNoBufs Insufficient available buffers. * */ Error AppendBigEndianUint32(uint32_t aUint32); /** * This method appends an `uint16_t` value assuming little endian encoding to the `FrameBuilder`. * * @param[in] aUint16 The `uint16_t` value to append. * * @retval kErrorNone Successfully appended the value. * @retval kErrorNoBufs Insufficient available buffers. * */ Error AppendLittleEndianUint16(uint16_t aUint16); /** * This method appends an `uint32_t` value assuming little endian encoding to the `FrameBuilder`. * * @param[in] aUint32 The `uint32_t` value to append. * * @retval kErrorNone Successfully appended the value. * @retval kErrorNoBufs Insufficient available buffers. * */ Error AppendLittleEndianUint32(uint32_t aUint32); /** * This method appends bytes from a given buffer to the `FrameBuilder`. * * @param[in] aBuffer A pointer to a data bytes to append. * @param[in] aLength Number of bytes in @p aBuffer. * * @retval kErrorNone Successfully appended the bytes. * @retval kErrorNoBufs Insufficient available buffers. * */ Error AppendBytes(const void *aBuffer, uint16_t aLength); /** * This method appends bytes read from a given message to the `FrameBuilder`. * * @param[in] aMessage The message to read the bytes from. * @param[in] aOffset The offset in @p aMessage to start reading the bytes from. * @param[in] aLength Number of bytes to read from @p aMessage and append. * * @retval kErrorNone Successfully appended the bytes. * @retval kErrorNoBufs Insufficient available buffers to append the requested @p aLength bytes. * @retval kErrorParse Not enough bytes in @p aMessage to read @p aLength bytes from @p aOffset. * */ Error AppendBytesFromMessage(const Message &aMessage, uint16_t aOffset, uint16_t aLength); /** * This method appends an object to the `FrameBuilder`. * * @tparam ObjectType The object type to append. * * @param[in] aObject A reference to the object to append. * * @retval kErrorNone Successfully appended the object. * @retval kErrorNoBufs Insufficient available buffers to append @p aObject. * */ template Error Append(const ObjectType &aObject) { static_assert(!TypeTraits::IsPointer::kValue, "ObjectType must not be a pointer"); return AppendBytes(&aObject, sizeof(ObjectType)); } /** * This method writes bytes in `FrameBuilder` at a given offset overwriting the previously appended content. * * This method does not perform any bound checks. The caller MUST ensure that the given data length fits within the * previously appended content. Otherwise the behavior of this method is undefined. * * @param[in] aOffset The offset to begin writing. * @param[in] aBuffer A pointer to a data buffer to write. * @param[in] aLength Number of bytes in @p aBuffer. * */ void WriteBytes(uint16_t aOffset, const void *aBuffer, uint16_t aLength); /** * This methods writes an object to the `FrameBuilder` at a given offset overwriting previously appended content. * * This method does not perform any bound checks. The caller MUST ensure the given data length fits within the * previously appended content. Otherwise the behavior of this method is undefined. * * @tparam ObjectType The object type to write. * * @param[in] aOffset The offset to begin writing. * @param[in] aObject A reference to the object to write. * */ template void Write(uint16_t aOffset, const ObjectType &aObject) { static_assert(!TypeTraits::IsPointer::kValue, "ObjectType must not be a pointer"); WriteBytes(aOffset, &aObject, sizeof(ObjectType)); } private: uint8_t *mBuffer; uint16_t mLength; uint16_t mMaxLength; }; } // namespace ot #endif // FRAME_BUILDER_HPP_