/* * Copyright (c) 2006-2008 by Roland Riegel * * This file is free software; you can redistribute it and/or modify * it under the terms of either the GNU General Public License version 2 * or the GNU Lesser General Public License version 2.1, both as * published by the Free Software Foundation. */ #ifndef PARTITION_H #define PARTITION_H #include #include "sd_raw_config.h" #include "partition_config.h" /** * \addtogroup partition * * @{ */ /** * \file * Partition table header (license: GPLv2 or LGPLv2.1) * * \author Roland Riegel */ /** * The partition table entry is not used. */ #define PARTITION_TYPE_FREE 0x00 /** * The partition contains a FAT12 filesystem. */ #define PARTITION_TYPE_FAT12 0x01 /** * The partition contains a FAT16 filesystem with 32MB maximum. */ #define PARTITION_TYPE_FAT16_32MB 0x04 /** * The partition is an extended partition with its own partition table. */ #define PARTITION_TYPE_EXTENDED 0x05 /** * The partition contains a FAT16 filesystem. */ #define PARTITION_TYPE_FAT16 0x06 /** * The partition contains a FAT32 filesystem. */ #define PARTITION_TYPE_FAT32 0x0b /** * The partition contains a FAT32 filesystem with LBA. */ #define PARTITION_TYPE_FAT32_LBA 0x0c /** * The partition contains a FAT16 filesystem with LBA. */ #define PARTITION_TYPE_FAT16_LBA 0x0e /** * The partition is an extended partition with LBA. */ #define PARTITION_TYPE_EXTENDED_LBA 0x0f /** * The partition has an unknown type. */ #define PARTITION_TYPE_UNKNOWN 0xff /** * A function pointer used to read from the partition. * * \param[in] offset The offset on the device where to start reading. * \param[out] buffer The buffer into which to place the data. * \param[in] length The count of bytes to read. */ typedef uint8_t (*device_read_t)(offset_t offset, uint8_t* buffer, uintptr_t length); /** * A function pointer passed to a \c device_read_interval_t. * * \param[in] buffer The buffer which contains the data just read. * \param[in] offset The offset from which the data in \c buffer was read. * \param[in] p An opaque pointer. * \see device_read_interval_t */ typedef uint8_t (*device_read_callback_t)(uint8_t* buffer, offset_t offset, void* p); /** * A function pointer used to continuously read units of \c interval bytes * and call a callback function. * * This function starts reading at the specified offset. Every \c interval bytes, * it calls the callback function with the associated data buffer. * * By returning zero, the callback may stop reading. * * \param[in] offset Offset from which to start reading. * \param[in] buffer Pointer to a buffer which is at least interval bytes in size. * \param[in] interval Number of bytes to read before calling the callback function. * \param[in] length Number of bytes to read altogether. * \param[in] callback The function to call every interval bytes. * \param[in] p An opaque pointer directly passed to the callback function. * \returns 0 on failure, 1 on success * \see device_read_t */ typedef uint8_t (*device_read_interval_t)(offset_t offset, uint8_t* buffer, uintptr_t interval, uintptr_t length, device_read_callback_t callback, void* p); /** * A function pointer used to write to the partition. * * \param[in] offset The offset on the device where to start writing. * \param[in] buffer The buffer which to write. * \param[in] length The count of bytes to write. */ typedef uint8_t (*device_write_t)(offset_t offset, const uint8_t* buffer, uintptr_t length); /** * A function pointer passed to a \c device_write_interval_t. * * \param[in] buffer The buffer which receives the data to write. * \param[in] offset The offset to which the data in \c buffer will be written. * \param[in] p An opaque pointer. * \returns The number of bytes put into \c buffer * \see device_write_interval_t */ typedef uintptr_t (*device_write_callback_t)(uint8_t* buffer, offset_t offset, void* p); /** * A function pointer used to continuously write a data stream obtained from * a callback function. * * This function starts writing at the specified offset. To obtain the * next bytes to write, it calls the callback function. The callback fills the * provided data buffer and returns the number of bytes it has put into the buffer. * * By returning zero, the callback may stop writing. * * \param[in] offset Offset where to start writing. * \param[in] buffer Pointer to a buffer which is used for the callback function. * \param[in] length Number of bytes to write in total. May be zero for endless writes. * \param[in] callback The function used to obtain the bytes to write. * \param[in] p An opaque pointer directly passed to the callback function. * \returns 0 on failure, 1 on success * \see device_write_t */ typedef uint8_t (*device_write_interval_t)(offset_t offset, uint8_t* buffer, uintptr_t length, device_write_callback_t callback, void* p); /** * Describes a partition. */ struct partition_struct { /** * The function which reads data from the partition. * * \note The offset given to this function is relative to the whole disk, * not to the start of the partition. */ device_read_t device_read; /** * The function which repeatedly reads a constant amount of data from the partition. * * \note The offset given to this function is relative to the whole disk, * not to the start of the partition. */ device_read_interval_t device_read_interval; /** * The function which writes data to the partition. * * \note The offset given to this function is relative to the whole disk, * not to the start of the partition. */ device_write_t device_write; /** * The function which repeatedly writes data to the partition. * * \note The offset given to this function is relative to the whole disk, * not to the start of the partition. */ device_write_interval_t device_write_interval; /** * The type of the partition. * * Compare this value to the PARTITION_TYPE_* constants. */ uint8_t type; /** * The offset in blocks on the disk where this partition starts. */ uint32_t offset; /** * The length in blocks of this partition. */ uint32_t length; }; struct partition_struct* partition_open(device_read_t device_read, device_read_interval_t device_read_interval, device_write_t device_write, device_write_interval_t device_write_interval, int8_t index); uint8_t partition_close(struct partition_struct* partition); /** * @} */ #endif