/* * buffer.h -- generic memory buffer. * * Copyright (c) 2001-2006, NLnet Labs. All rights reserved. * * See LICENSE for the license. * * * The buffer module implements a generic buffer. The API is based on * the java.nio.Buffer interface. */ #ifndef _BUFFER_H_ #define _BUFFER_H_ #include #include #include #include "region-allocator.h" #include "util.h" typedef struct buffer buffer_type; struct buffer { /* * The current position used for reading/writing. */ size_t _position; /* * The read/write limit. */ size_t _limit; /* * The amount of data the buffer can contain. */ size_t _capacity; /* * The data contained in the buffer. */ uint8_t *_data; /* * If the buffer is fixed it cannot be resized. */ unsigned _fixed : 1; }; #ifdef NDEBUG static inline void buffer_invariant(buffer_type *ATTR_UNUSED(buffer)) { } #else static inline void buffer_invariant(buffer_type *buffer) { assert(buffer); assert(buffer->_position <= buffer->_limit); assert(buffer->_limit <= buffer->_capacity); assert(buffer->_data); } #endif /* * Create a new buffer with the specified capacity. */ buffer_type *buffer_create(region_type *region, size_t capacity); /* * Create a buffer with the specified data. The data is not copied * and no memory allocations are done. The buffer is fixed and cannot * be resized using buffer_reserve(). */ void buffer_create_from(buffer_type *buffer, void *data, size_t size); /* * Clear the buffer and make it ready for writing. The buffer's limit * is set to the capacity and the position is set to 0. */ void buffer_clear(buffer_type *buffer); /* * Make the buffer ready for reading the data that has been written to * the buffer. The buffer's limit is set to the current position and * the position is set to 0. */ void buffer_flip(buffer_type *buffer); /* * Make the buffer ready for re-reading the data. The buffer's * position is reset to 0. */ void buffer_rewind(buffer_type *buffer); static inline size_t buffer_position(buffer_type *buffer) { return buffer->_position; } /* * Set the buffer's position to MARK. The position must be less than * or equal to the buffer's limit. */ static inline void buffer_set_position(buffer_type *buffer, size_t mark) { assert(mark <= buffer->_limit); buffer->_position = mark; } /* * Change the buffer's position by COUNT bytes. The position must not * be moved behind the buffer's limit or before the beginning of the * buffer. */ static inline void buffer_skip(buffer_type *buffer, ssize_t count) { assert(buffer->_position + count <= buffer->_limit); buffer->_position += count; } static inline size_t buffer_limit(buffer_type *buffer) { return buffer->_limit; } /* * Change the buffer's limit. If the buffer's position is greater * than the new limit the position is set to the limit. */ static inline void buffer_set_limit(buffer_type *buffer, size_t limit) { assert(limit <= buffer->_capacity); buffer->_limit = limit; if (buffer->_position > buffer->_limit) buffer->_position = buffer->_limit; } static inline size_t buffer_capacity(buffer_type *buffer) { return buffer->_capacity; } /* * Change the buffer's capacity. The data is reallocated so any * pointers to the data may become invalid. The buffer's limit is set * to the buffer's new capacity. */ void buffer_set_capacity(buffer_type *buffer, size_t capacity); /* * Ensure BUFFER can contain at least AMOUNT more bytes. The buffer's * capacity is increased if necessary using buffer_set_capacity(). * * The buffer's limit is always set to the (possibly increased) * capacity. */ void buffer_reserve(buffer_type *buffer, size_t amount); /* * Return a pointer to the data at the indicated position. */ static inline uint8_t * buffer_at(buffer_type *buffer, size_t at) { assert(at <= buffer->_limit); return buffer->_data + at; } /* * Return a pointer to the beginning of the buffer (the data at * position 0). */ static inline uint8_t * buffer_begin(buffer_type *buffer) { return buffer_at(buffer, 0); } /* * Return a pointer to the end of the buffer (the data at the buffer's * limit). */ static inline uint8_t * buffer_end(buffer_type *buffer) { return buffer_at(buffer, buffer->_limit); } /* * Return a pointer to the data at the buffer's current position. */ static inline uint8_t * buffer_current(buffer_type *buffer) { return buffer_at(buffer, buffer->_position); } /* * The number of bytes remaining between the indicated position and * the limit. */ static inline size_t buffer_remaining_at(buffer_type *buffer, size_t at) { buffer_invariant(buffer); assert(at <= buffer->_limit); return buffer->_limit - at; } /* * The number of bytes remaining between the buffer's position and * limit. */ static inline size_t buffer_remaining(buffer_type *buffer) { return buffer_remaining_at(buffer, buffer->_position); } /* * Check if the buffer has at least COUNT more bytes available. * Before reading or writing the caller needs to ensure enough space * is available! */ static inline int buffer_available_at(buffer_type *buffer, size_t at, size_t count) { return count <= buffer_remaining_at(buffer, at); } static inline int buffer_available(buffer_type *buffer, size_t count) { return buffer_available_at(buffer, buffer->_position, count); } static inline void buffer_write_at(buffer_type *buffer, size_t at, const void *data, size_t count) { assert(buffer_available_at(buffer, at, count)); memcpy(buffer->_data + at, data, count); } static inline void buffer_write(buffer_type *buffer, const void *data, size_t count) { buffer_write_at(buffer, buffer->_position, data, count); buffer->_position += count; } static inline void buffer_write_string_at(buffer_type *buffer, size_t at, const char *str) { buffer_write_at(buffer, at, str, strlen(str)); } static inline void buffer_write_string(buffer_type *buffer, const char *str) { buffer_write(buffer, str, strlen(str)); } static inline void buffer_write_u8_at(buffer_type *buffer, size_t at, uint8_t data) { assert(buffer_available_at(buffer, at, sizeof(data))); buffer->_data[at] = data; } static inline void buffer_write_u8(buffer_type *buffer, uint8_t data) { buffer_write_u8_at(buffer, buffer->_position, data); buffer->_position += sizeof(data); } static inline void buffer_write_u16_at(buffer_type *buffer, size_t at, uint16_t data) { assert(buffer_available_at(buffer, at, sizeof(data))); write_uint16(buffer->_data + at, data); } static inline void buffer_write_u16(buffer_type *buffer, uint16_t data) { buffer_write_u16_at(buffer, buffer->_position, data); buffer->_position += sizeof(data); } static inline void buffer_write_u32_at(buffer_type *buffer, size_t at, uint32_t data) { assert(buffer_available_at(buffer, at, sizeof(data))); write_uint32(buffer->_data + at, data); } static inline void buffer_write_u32(buffer_type *buffer, uint32_t data) { buffer_write_u32_at(buffer, buffer->_position, data); buffer->_position += sizeof(data); } static inline void buffer_read_at(buffer_type *buffer, size_t at, void *data, size_t count) { assert(buffer_available_at(buffer, at, count)); memcpy(data, buffer->_data + at, count); } static inline void buffer_read(buffer_type *buffer, void *data, size_t count) { buffer_read_at(buffer, buffer->_position, data, count); buffer->_position += count; } static inline uint8_t buffer_read_u8_at(buffer_type *buffer, size_t at) { assert(buffer_available_at(buffer, at, sizeof(uint8_t))); return buffer->_data[at]; } static inline uint8_t buffer_read_u8(buffer_type *buffer) { uint8_t result = buffer_read_u8_at(buffer, buffer->_position); buffer->_position += sizeof(uint8_t); return result; } static inline uint16_t buffer_read_u16_at(buffer_type *buffer, size_t at) { assert(buffer_available_at(buffer, at, sizeof(uint16_t))); return read_uint16(buffer->_data + at); } static inline uint16_t buffer_read_u16(buffer_type *buffer) { uint16_t result = buffer_read_u16_at(buffer, buffer->_position); buffer->_position += sizeof(uint16_t); return result; } static inline uint32_t buffer_read_u32_at(buffer_type *buffer, size_t at) { assert(buffer_available_at(buffer, at, sizeof(uint32_t))); return read_uint32(buffer->_data + at); } static inline uint32_t buffer_read_u32(buffer_type *buffer) { uint32_t result = buffer_read_u32_at(buffer, buffer->_position); buffer->_position += sizeof(uint32_t); return result; } /* * Print to the buffer, increasing the capacity if required using * buffer_reserve(). The buffer's position is set to the terminating * '\0'. Returns the number of characters written (not including the * terminating '\0'). */ int buffer_printf(buffer_type *buffer, const char *format, ...) ATTR_FORMAT(printf, 2, 3); #endif /* _BUFFER_H_ */