230 lines
7.9 KiB
C
230 lines
7.9 KiB
C
/*
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* Copyright (C) 2013 Andrea Mazzoleni
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*
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* This program 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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#ifndef __RAID_H
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#define __RAID_H
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/**
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* RAID mode supporting up to 6 parities.
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*
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* It requires SSSE3 to get good performance with triple or more parities.
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*
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* This is the default mode set after calling raid_init().
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*/
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#define RAID_MODE_CAUCHY 0
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/**
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* RAID mode supporting up to 3 parities,
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*
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* It has a fast triple parity implementation without SSSE3, but it cannot
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* go beyond triple parity.
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*
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* This is mostly intended for low end CPUs like ARM and AMD Athlon.
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*/
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#define RAID_MODE_VANDERMONDE 1
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/**
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* Maximum number of parity disks supported.
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*/
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#define RAID_PARITY_MAX 6
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/**
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* Maximum number of data disks supported.
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*/
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#define RAID_DATA_MAX 251
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/**
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* Initializes the RAID system.
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*
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* You must call this function before any other.
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*
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* The RAID system is initialized in the RAID_MODE_CAUCHY mode.
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*/
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void raid_init(void);
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/**
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* Runs a basic functionality self test.
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*
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* The test is immediate, and it's intended to be run at application
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* startup to check the integrity of the RAID system.
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*
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* It returns 0 on success.
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*/
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int raid_selftest(void);
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/**
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* Sets the mode to use. One of RAID_MODE_*.
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*
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* You can change mode at any time, and it will affect next calls to raid_gen(),
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* raid_rec() and raid_data().
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*
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* The two modes are compatible for the first two levels of parity.
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* The third one is different.
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*/
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void raid_mode(int mode);
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/**
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* Sets the zero buffer to use in recovering.
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*
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* Before calling raid_rec() and raid_data() you must provide a memory
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* buffer filled with zero with the same size of the blocks to recover.
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*
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* This buffer is only read and never written.
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*/
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void raid_zero(void *zero);
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/**
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* Computes parity blocks.
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*
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* This function computes the specified number of parity blocks of the
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* provided set of data blocks.
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*
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* Each parity block allows to recover one data block.
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*
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* @nd Number of data blocks.
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* @np Number of parities blocks to compute.
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* @size Size of the blocks pointed by @v. It must be a multiplier of 64.
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* @v Vector of pointers to the blocks of data and parity.
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* It has (@nd + @np) elements. The starting elements are the blocks for
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* data, following with the parity blocks.
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* Data blocks are only read and not modified. Parity blocks are written.
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* Each block has @size bytes.
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*/
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void raid_gen(int nd, int np, size_t size, void **v);
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/**
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* Recovers failures in data and parity blocks.
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*
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* This function recovers all the data and parity blocks marked as bad
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* in the @ir vector.
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*
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* Ensure to have @nr <= @np, otherwise recovering is not possible.
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*
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* The parities blocks used for recovering are automatically selected from
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* the ones NOT present in the @ir vector.
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*
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* In case there are more parity blocks than needed, the parities at lower
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* indexes are used in the recovering, and the others are ignored.
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*
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* Note that no internal integrity check is done when recovering. If the
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* provided parities are correct, the resulting data will be correct.
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* If parities are wrong, the resulting recovered data will be wrong.
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* This happens even in the case you have more parities blocks than needed,
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* and some form of integrity verification would be possible.
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*
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* @nr Number of failed data and parity blocks to recover.
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* @ir[] Vector of @nr indexes of the failed data and parity blocks.
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* The indexes start from 0. They must be in order.
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* The first parity is represented with value @nd, the second with value
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* @nd + 1, just like positions in the @v vector.
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* @nd Number of data blocks.
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* @np Number of parity blocks.
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* @size Size of the blocks pointed by @v. It must be a multiplier of 64.
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* @v Vector of pointers to the blocks of data and parity.
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* It has (@nd + @np) elements. The starting elements are the blocks
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* for data, following with the parity blocks.
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* Each block has @size bytes.
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*/
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void raid_rec(int nr, int *ir, int nd, int np, size_t size, void **v);
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/**
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* Recovers failures in data blocks only.
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*
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* This function recovers all the data blocks marked as bad in the @id vector.
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* The parity blocks are not modified.
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*
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* @nr Number of failed data blocks to recover.
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* @id[] Vector of @nr indexes of the data blocks to recover.
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* The indexes start from 0. They must be in order.
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* @ip[] Vector of @nr indexes of the parity blocks to use for recovering.
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* The indexes start from 0. They must be in order.
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* @nd Number of data blocks.
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* @size Size of the blocks pointed by @v. It must be a multiplier of 64.
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* @v Vector of pointers to the blocks of data and parity.
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* It has (@nd + @ip[@nr - 1] + 1) elements. The starting elements are the
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* blocks for data, following with the parity blocks.
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* Each blocks has @size bytes.
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*/
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void raid_data(int nr, int *id, int *ip, int nd, size_t size, void **v);
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/**
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* Check the provided failed blocks combination.
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*
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* This function checks if the specified failed blocks combination satisfies
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* the redundancy information. A combination is assumed matching, if the
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* remaining valid parity is matching the expected value after recovering.
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*
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* The number of failed blocks @nr must be strictly less than the number of
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* parities @np, because you need one more parity to validate the recovering.
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*
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* No data or parity blocks are modified.
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*
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* @nr Number of failed data and parity blocks.
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* @ir[] Vector of @nr indexes of the failed data and parity blocks.
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* The indexes start from 0. They must be in order.
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* The first parity is represented with value @nd, the second with value
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* @nd + 1, just like positions in the @v vector.
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* @nd Number of data blocks.
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* @np Number of parity blocks.
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* @size Size of the blocks pointed by @v. It must be a multiplier of 64.
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* @v Vector of pointers to the blocks of data and parity.
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* It has (@nd + @np) elements. The starting elements are the blocks
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* for data, following with the parity blocks.
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* Each block has @size bytes.
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* @return 0 if the check is satisfied. -1 otherwise.
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*/
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int raid_check(int nr, int *ir, int nd, int np, size_t size, void **v);
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/**
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* Scan for failed blocks.
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*
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* This function identifies the failed data and parity blocks using the
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* available redundancy.
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*
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* It uses a brute force method, and then the call can be expansive.
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* The expected execution time is proportional at the binomial coefficient
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* @np + @nd choose @np - 1, usually written as:
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*
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* ( @np + @nd )
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* ( )
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* ( @np - 1 )
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*
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* No data or parity blocks are modified.
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*
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* The failed block indexes are returned in the @ir vector.
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* It must have space for at least @np - 1 values.
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*
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* The returned @ir vector can then be used in a raid_rec() call to recover
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* the failed data and parity blocks.
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*
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* @ir[] Vector filled with the indexes of the failed data and parity blocks.
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* The indexes start from 0 and they are in order.
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* The first parity is represented with value @nd, the second with value
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* @nd + 1, just like positions in the @v vector.
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* @nd Number of data blocks.
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* @np Number of parity blocks.
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* @size Size of the blocks pointed by @v. It must be a multiplier of 64.
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* @v Vector of pointers to the blocks of data and parity.
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* It has (@nd + @np) elements. The starting elements are the blocks
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* for data, following with the parity blocks.
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* Each block has @size bytes.
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* @return Number of block indexes returned in the @ir vector.
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* 0 if no error is detected.
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* -1 if it's not possible to identify the failed disks.
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*/
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int raid_scan(int *ir, int nd, int np, size_t size, void **v);
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#endif
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