401 lines
12 KiB
C
401 lines
12 KiB
C
/**
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* \file
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* <!--
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* This file is part of BeRTOS.
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*
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* Bertos is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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*
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* As a special exception, you may use this file as part of a free software
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* library without restriction. Specifically, if other files instantiate
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* templates or use macros or inline functions from this file, or you compile
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* this file and link it with other files to produce an executable, this
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* file does not by itself cause the resulting executable to be covered by
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* the GNU General Public License. This exception does not however
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* invalidate any other reasons why the executable file might be covered by
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* the GNU General Public License.
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*
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* Copyright 2009 Develer S.r.l. (http://www.develer.com/)
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*
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* -->
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*
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* \defgroup io_kblock KBlock interface
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* \ingroup core
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* \{
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*
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* \brief KBlock interface
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*
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* A block device is a device which can only be read/written
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* with data blocks of constant size: flash memories,
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* SD cards, hard disks, etc...
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* This interface is designed to adapt to most block devices and
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* use peculiar features in order to save CPU time and memory space.
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*
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* There is no init function because you do not have to use this
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* structure directly, specific implementations will supply their own init
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* functions.
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*
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* Error handling is done in a way similar to standard C library: whenever a
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* function (eg. kblock_flush()) returns error, you need to check the error
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* code, which is implementation specific.
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*
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* Example of code flow:
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* \code
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* // init a KBlock-derived class
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* Flash fls;
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* flash_init(&fls.blk, 0);
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*
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* // use kblock_* functions to access the derived class
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* kblock_write(&fls.blk, ...);
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* if (kblock_flush(&fls.blk) == EOF)
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* {
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* // oops, error occurred!
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* int err = kblock_error(&fls.blk);
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* // handle Flash specific error conditions
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* // ...
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* // clear error condition
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* kblock_clearerr(&fls.blk);
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* }
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* \endcode
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*
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* \note The KBlock interface is optimized for block reads. If you need a
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* file-like access, you can use \ref kfile_block.
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*
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* \author Francesco Sacchi <batt@develer.com>
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*
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* $WIZ$ module_name = "kblock"
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*/
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#ifndef IO_KBLOCK_H
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#define IO_KBLOCK_H
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#include <cfg/compiler.h>
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#include <cfg/debug.h>
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#include <cfg/macros.h>
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/** Type for addressing blocks in the device. */
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typedef uint32_t block_idx_t;
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// Fwd Declaration
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struct KBlock;
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/**
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* \name Prototypes for KBlock low level access functions.
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*
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* When writing a driver implementing the KBlock interface you can choose which
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* function subset to implement, but you have to set to NULL unimplemented
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* features.
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*
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* \{
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*/
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typedef size_t (* kblock_read_direct_t) (struct KBlock *b, block_idx_t index, void *buf, size_t offset, size_t size);
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typedef size_t (* kblock_write_direct_t) (struct KBlock *b, block_idx_t index, const void *buf, size_t offset, size_t size);
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typedef size_t (* kblock_read_t) (struct KBlock *b, void *buf, size_t offset, size_t size);
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typedef size_t (* kblock_write_t) (struct KBlock *b, const void *buf, size_t offset, size_t size);
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typedef int (* kblock_load_t) (struct KBlock *b, block_idx_t index);
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typedef int (* kblock_store_t) (struct KBlock *b, block_idx_t index);
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typedef int (* kblock_error_t) (struct KBlock *b);
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typedef void (* kblock_clearerr_t) (struct KBlock *b);
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typedef int (* kblock_close_t) (struct KBlock *b);
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/* \} */
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/*
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* Table of interface functions for a KBlock device.
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*/
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typedef struct KBlockVTable
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{
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kblock_read_direct_t readDirect;
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kblock_write_direct_t writeDirect;
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kblock_read_t readBuf;
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kblock_write_t writeBuf;
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kblock_load_t load;
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kblock_store_t store;
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kblock_error_t error; // \sa kblock_error()
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kblock_clearerr_t clearerr; // \sa kblock_clearerr()
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kblock_close_t close; // \sa kblock_close()
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} KBlockVTable;
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#define KB_BUFFERED BV(0) ///< Internal flag: true if the KBlock has a buffer
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#define KB_CACHE_DIRTY BV(1) ///< Internal flag: true if the cache is dirty
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#define KB_PARTIAL_WRITE BV(2) ///< Internal flag: true if the device allows partial block write
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/*
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* KBlock private members.
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* These are the private members of the KBlock interface, please do not
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* access these directly, use the KBlock API.
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*/
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typedef struct KBlockPriv
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{
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DB(id_t type); // Used to keep track, at runtime, of the class type.
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int flags; // Status and error flags.
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void *buf; // Pointer to the page buffer for RAM-cached KBlocks.
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block_idx_t blk_start; // Start block number when the device is trimmed. \sa kblock_trim().
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block_idx_t curr_blk; // Current cached block number in cached KBlocks.
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const struct KBlockVTable *vt; // Virtual table of interface functions.
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} KBlockPriv;
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/**
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* KBlock: interface for a generic block device.
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*
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*/
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typedef struct KBlock
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{
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KBlockPriv priv; ///< Interface private data, do not use directly.
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/* Public access members */
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size_t blk_size; ///< Block size.
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block_idx_t blk_cnt; ///< Number of blocks available in the device.
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} KBlock;
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/**
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* Use a subset of the blocks on the device.
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*
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* This function is useful for partitioning a device and use it for
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* different purposes at the same time.
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*
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* This function will limit the number of blocks used on the device by setting
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* a start index and a number of blocks to be used counting from that index.
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*
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* The blocks outside this range are no more accessible.
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*
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* Logical block indexes will be mapped to physical indexes inside this new
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* range automatically. Even following calls to kblock_trim() will use logical
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* indexes, so, once trimmed, access can only be limited further and never
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* expanded back.
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*
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* Example:
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* \code
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* //...init KBlock device dev
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* kblock_trim(dev, 200, 1500); // Restrict access to the 200-1700 physical block range.
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* kblock_read(dev, 0, buf, 0, dev->blk_size); // Read from physical block #200.
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* kblock_trim(dev, 0, 300); // Restrict access to the 200-500 physical block range.
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* \endcode
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*
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* \param b KBlock device.
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* \param start The index of the start block for the limiting window in logical addressing units.
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* \param count The number of blocks to be used.
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*
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* \return 0 if all is OK, EOF on errors.
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*/
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int kblock_trim(struct KBlock *b, block_idx_t start, block_idx_t count);
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#define KB_ASSERT_METHOD(b, method) \
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do \
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{ \
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ASSERT(b); \
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ASSERT((b)->priv.vt); \
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ASSERT((b)->priv.vt->method); \
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} \
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while (0)
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/**
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* Get the current errors for the device.
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*
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* \note Calling this function will not clear the errors.
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*
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* \param b KBlock device.
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*
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* \return 0 if no error is present, a driver specific mask of errors otherwise.
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*
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* \sa kblock_clearerr()
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*/
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INLINE int kblock_error(struct KBlock *b)
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{
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KB_ASSERT_METHOD(b, error);
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return b->priv.vt->error(b);
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}
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/**
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* Clear the errors of the device.
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*
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* \param b KBlock device.
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*
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*
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* \sa kblock_error()
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*/
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INLINE void kblock_clearerr(struct KBlock *b)
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{
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KB_ASSERT_METHOD(b, clearerr);
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b->priv.vt->clearerr(b);
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}
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/**
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* Flush the cache (if any) to the device.
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*
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* This function will write any pending modifications to the device.
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* If the device does not have a cache, this function will do nothing.
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*
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* \return 0 if all is OK, EOF on errors.
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* \sa kblock_read(), kblock_write(), kblock_buffered().
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*/
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int kblock_flush(struct KBlock *b);
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/**
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* Close the device.
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*
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* \param b KBlock device.
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*
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* \return 0 on success, EOF on errors.
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*/
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INLINE int kblock_close(struct KBlock *b)
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{
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KB_ASSERT_METHOD(b, close);
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return kblock_flush(b) | b->priv.vt->close(b);
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}
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/**
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* \return true if the device \a b is buffered, false otherwise.
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* \param b KBlock device.
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* \sa kblock_cachedBlock(), kblock_cacheDirty().
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*/
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INLINE bool kblock_buffered(struct KBlock *b)
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{
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ASSERT(b);
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return (b->priv.flags & KB_BUFFERED);
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}
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/**
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* \return The current cached block number if the device is buffered.
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* \param b KBlock device.
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* \note This function will throw an ASSERT if called on a non buffered KBlock.
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* \sa kblock_buffered(), kblock_cacheDirty().
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*/
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INLINE block_idx_t kblock_cachedBlock(struct KBlock *b)
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{
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ASSERT(kblock_buffered(b));
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return b->priv.curr_blk;
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}
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/**
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* Return the status of the internal cache.
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*
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* \param b KBlock device.
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* \return If the device supports buffering, returns true if the cache is dirty,
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* false if the cache is clean and coherent with device content.
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* \note This function will throw an ASSERT if called on a non buffered KBlock.
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* \sa kblock_cachedBlock(), kblock_buffered().
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*/
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INLINE bool kblock_cacheDirty(struct KBlock *b)
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{
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ASSERT(kblock_buffered(b));
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return kblock_buffered(b) && (b->priv.flags & KB_CACHE_DIRTY);
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}
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/**
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* \return true if the device \a b supports partial block write. That is, you
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* can call kblock_write() with a size which is lesser than the block
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* size.
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* \param b KBlock device.
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* \sa kblock_write().
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*/
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INLINE bool kblock_partialWrite(struct KBlock *b)
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{
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ASSERT(b);
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return (b->priv.flags & KB_PARTIAL_WRITE);
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}
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/**
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* Read data from the block device.
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*
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* This function will read \a size bytes from block \a idx starting at
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* address \a offset inside the block.
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*
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* Most block devices (almost all flash memories, for instance),
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* can efficiently read even a part of the block.
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*
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* \note This function can be slow if you try to partial read a block from
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* a device which does not support partial block reads and is opened
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* in unbuffered mode.
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*
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* \param b KBlock device.
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* \param idx the block number where you want to read.
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* \param buf a buffer where the data will be read.
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* \param offset the offset inside the block from which data reading will start.
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* \param size the size of data to be read.
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*
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* \return the number of bytes read.
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*
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* \sa kblock_write().
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*/
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size_t kblock_read(struct KBlock *b, block_idx_t idx, void *buf, size_t offset, size_t size);
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/**
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* Write data to the block device.
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*
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* This function will write \a size bytes to block \a idx starting at
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* address \a offset inside the block.
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*
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* \note Partial block writes are supported only on certain devices.
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* You can use kblock_partialWrite() in order to check if the device
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* has this feature or not.
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*
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* \note If the device is opened in buffered mode, this function will use
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* efficiently and trasparently the cache provided.
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* In order to be sure that all modifications are actually written
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* to the device you have to call kblock_flush().
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*
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* \param b KBlock device.
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* \param idx the block number where you want to write.
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* \param buf a pointer to the data to be written.
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* \param offset the offset inside the block from which data writing will start.
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* \param size the size of data to be written.
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*
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* \return the number of bytes written.
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*
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* \sa kblock_read(), kblock_flush(), kblock_buffered(), kblock_partialWrite().
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*/
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size_t kblock_write(struct KBlock *b, block_idx_t idx, const void *buf, size_t offset, size_t size);
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/**
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* Copy one block to another.
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*
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* This function will copy the content of block \a src to block \a dest.
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*
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* \note This function is available only on devices which support partial
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* block write or are opened in buffered mode.
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*
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* \param b KBlock device.
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* \param src source block number.
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* \param dest destination block number.
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*
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* \return 0 if all is OK, EOF on errors.
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*/
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int kblock_copy(struct KBlock *b, block_idx_t src, block_idx_t dest);
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int kblock_swLoad(struct KBlock *b, block_idx_t index);
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int kblock_swStore(struct KBlock *b, block_idx_t index);
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size_t kblock_swReadBuf(struct KBlock *b, void *buf, size_t offset, size_t size);
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size_t kblock_swWriteBuf(struct KBlock *b, const void *buf, size_t offset, size_t size);
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int kblock_swClose(struct KBlock *b);
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/** \} */ //defgroup io_kblock
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#endif /* IO_KBLOCK_H */
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