cregit-Linux how code gets into the kernel

Release 4.11 fs/ocfs2/blockcheck.c

Directory: fs/ocfs2
/* -*- mode: c; c-basic-offset: 8; -*-
 * vim: noexpandtab sw=8 ts=8 sts=0:
 *
 * blockcheck.c
 *
 * Checksum and ECC codes for the OCFS2 userspace library.
 *
 * Copyright (C) 2006, 2008 Oracle.  All rights reserved.
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public
 * License, version 2, as published by the Free Software Foundation.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * General Public License for more details.
 */

#include <linux/kernel.h>
#include <linux/types.h>
#include <linux/crc32.h>
#include <linux/buffer_head.h>
#include <linux/bitops.h>
#include <linux/debugfs.h>
#include <linux/module.h>
#include <linux/fs.h>
#include <asm/byteorder.h>

#include <cluster/masklog.h>

#include "ocfs2.h"

#include "blockcheck.h"


/*
 * We use the following conventions:
 *
 * d = # data bits
 * p = # parity bits
 * c = # total code bits (d + p)
 */


/*
 * Calculate the bit offset in the hamming code buffer based on the bit's
 * offset in the data buffer.  Since the hamming code reserves all
 * power-of-two bits for parity, the data bit number and the code bit
 * number are offset by all the parity bits beforehand.
 *
 * Recall that bit numbers in hamming code are 1-based.  This function
 * takes the 0-based data bit from the caller.
 *
 * An example.  Take bit 1 of the data buffer.  1 is a power of two (2^0),
 * so it's a parity bit.  2 is a power of two (2^1), so it's a parity bit.
 * 3 is not a power of two.  So bit 1 of the data buffer ends up as bit 3
 * in the code buffer.
 *
 * The caller can pass in *p if it wants to keep track of the most recent
 * number of parity bits added.  This allows the function to start the
 * calculation at the last place.
 */

static unsigned int calc_code_bit(unsigned int i, unsigned int *p_cache) { unsigned int b, p = 0; /* * Data bits are 0-based, but we're talking code bits, which * are 1-based. */ b = i + 1; /* Use the cache if it is there */ if (p_cache) p = *p_cache; b += p; /* * For every power of two below our bit number, bump our bit. * * We compare with (b + 1) because we have to compare with what b * would be _if_ it were bumped up by the parity bit. Capice? * * p is set above. */ for (; (1 << p) < (b + 1); p++) b++; if (p_cache) *p_cache = p; return b; }

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Joel Becker79100.00%3100.00%
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/* * This is the low level encoder function. It can be called across * multiple hunks just like the crc32 code. 'd' is the number of bits * _in_this_hunk_. nr is the bit offset of this hunk. So, if you had * two 512B buffers, you would do it like so: * * parity = ocfs2_hamming_encode(0, buf1, 512 * 8, 0); * parity = ocfs2_hamming_encode(parity, buf2, 512 * 8, 512 * 8); * * If you just have one buffer, use ocfs2_hamming_encode_block(). */
u32 ocfs2_hamming_encode(u32 parity, void *data, unsigned int d, unsigned int nr) { unsigned int i, b, p = 0; BUG_ON(!d); /* * b is the hamming code bit number. Hamming code specifies a * 1-based array, but C uses 0-based. So 'i' is for C, and 'b' is * for the algorithm. * * The i++ in the for loop is so that the start offset passed * to ocfs2_find_next_bit_set() is one greater than the previously * found bit. */ for (i = 0; (i = ocfs2_find_next_bit(data, d, i)) < d; i++) { /* * i is the offset in this hunk, nr + i is the total bit * offset. */ b = calc_code_bit(nr + i, &p); /* * Data bits in the resultant code are checked by * parity bits that are part of the bit number * representation. Huh? * * <wikipedia href="http://en.wikipedia.org/wiki/Hamming_code"> * In other words, the parity bit at position 2^k * checks bits in positions having bit k set in * their binary representation. Conversely, for * instance, bit 13, i.e. 1101(2), is checked by * bits 1000(2) = 8, 0100(2)=4 and 0001(2) = 1. * </wikipedia> * * Note that 'k' is the _code_ bit number. 'b' in * our loop. */ parity ^= b; } /* While the data buffer was treated as little endian, the * return value is in host endian. */ return parity; }

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Joel Becker85100.00%3100.00%
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u32 ocfs2_hamming_encode_block(void *data, unsigned int blocksize) { return ocfs2_hamming_encode(0, data, blocksize * 8, 0); }

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Joel Becker27100.00%1100.00%
Total27100.00%1100.00%

/* * Like ocfs2_hamming_encode(), this can handle hunks. nr is the bit * offset of the current hunk. If bit to be fixed is not part of the * current hunk, this does nothing. * * If you only have one hunk, use ocfs2_hamming_fix_block(). */
void ocfs2_hamming_fix(void *data, unsigned int d, unsigned int nr, unsigned int fix) { unsigned int i, b; BUG_ON(!d); /* * If the bit to fix has an hweight of 1, it's a parity bit. One * busted parity bit is its own error. Nothing to do here. */ if (hweight32(fix) == 1) return; /* * nr + d is the bit right past the data hunk we're looking at. * If fix after that, nothing to do */ if (fix >= calc_code_bit(nr + d, NULL)) return; /* * nr is the offset in the data hunk we're starting at. Let's * start b at the offset in the code buffer. See hamming_encode() * for a more detailed description of 'b'. */ b = calc_code_bit(nr, NULL); /* If the fix is before this hunk, nothing to do */ if (fix < b) return; for (i = 0; i < d; i++, b++) { /* Skip past parity bits */ while (hweight32(b) == 1) b++; /* * i is the offset in this data hunk. * nr + i is the offset in the total data buffer. * b is the offset in the total code buffer. * * Thus, when b == fix, bit i in the current hunk needs * fixing. */ if (b == fix) { if (ocfs2_test_bit(i, data)) ocfs2_clear_bit(i, data); else ocfs2_set_bit(i, data); break; } } }

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Joel Becker142100.00%3100.00%
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void ocfs2_hamming_fix_block(void *data, unsigned int blocksize, unsigned int fix) { ocfs2_hamming_fix(data, blocksize * 8, 0, fix); }

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Joel Becker30100.00%1100.00%
Total30100.00%1100.00%

/* * Debugfs handling. */ #ifdef CONFIG_DEBUG_FS
static int blockcheck_u64_get(void *data, u64 *val) { *val = *(u64 *)data; return 0; }

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Joel Becker27100.00%1100.00%
Total27100.00%1100.00%

DEFINE_SIMPLE_ATTRIBUTE(blockcheck_fops, blockcheck_u64_get, NULL, "%llu\n");
static struct dentry *blockcheck_debugfs_create(const char *name, struct dentry *parent, u64 *value) { return debugfs_create_file(name, S_IFREG | S_IRUSR, parent, value, &blockcheck_fops); }

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Joel Becker39100.00%1100.00%
Total39100.00%1100.00%


static void ocfs2_blockcheck_debug_remove(struct ocfs2_blockcheck_stats *stats) { if (stats) { debugfs_remove(stats->b_debug_check); stats->b_debug_check = NULL; debugfs_remove(stats->b_debug_failure); stats->b_debug_failure = NULL; debugfs_remove(stats->b_debug_recover); stats->b_debug_recover = NULL; debugfs_remove(stats->b_debug_dir); stats->b_debug_dir = NULL; } }

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Joel Becker69100.00%1100.00%
Total69100.00%1100.00%


static int ocfs2_blockcheck_debug_install(struct ocfs2_blockcheck_stats *stats, struct dentry *parent) { int rc = -EINVAL; if (!stats) goto out; stats->b_debug_dir = debugfs_create_dir("blockcheck", parent); if (!stats->b_debug_dir) goto out; stats->b_debug_check = blockcheck_debugfs_create("blocks_checked", stats->b_debug_dir, &stats->b_check_count); stats->b_debug_failure = blockcheck_debugfs_create("checksums_failed", stats->b_debug_dir, &stats->b_failure_count); stats->b_debug_recover = blockcheck_debugfs_create("ecc_recoveries", stats->b_debug_dir, &stats->b_recover_count); if (stats->b_debug_check && stats->b_debug_failure && stats->b_debug_recover) rc = 0; out: if (rc) ocfs2_blockcheck_debug_remove(stats); return rc; }

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Joel Becker137100.00%1100.00%
Total137100.00%1100.00%

#else
static inline int ocfs2_blockcheck_debug_install(struct ocfs2_blockcheck_stats *stats, struct dentry *parent) { return 0; }

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Joel Becker20100.00%1100.00%
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static inline void ocfs2_blockcheck_debug_remove(struct ocfs2_blockcheck_stats *stats) { }

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Joel Becker11100.00%1100.00%
Total11100.00%1100.00%

#endif /* CONFIG_DEBUG_FS */ /* Always-called wrappers for starting and stopping the debugfs files */
int ocfs2_blockcheck_stats_debugfs_install(struct ocfs2_blockcheck_stats *stats, struct dentry *parent) { return ocfs2_blockcheck_debug_install(stats, parent); }

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Joel Becker23100.00%1100.00%
Total23100.00%1100.00%


void ocfs2_blockcheck_stats_debugfs_remove(struct ocfs2_blockcheck_stats *stats) { ocfs2_blockcheck_debug_remove(stats); }

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Joel Becker15100.00%1100.00%
Total15100.00%1100.00%


static void ocfs2_blockcheck_inc_check(struct ocfs2_blockcheck_stats *stats) { u64 new_count; if (!stats) return; spin_lock(&stats->b_lock); stats->b_check_count++; new_count = stats->b_check_count; spin_unlock(&stats->b_lock); if (!new_count) mlog(ML_NOTICE, "Block check count has wrapped\n"); }

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Joel Becker59100.00%1100.00%
Total59100.00%1100.00%


static void ocfs2_blockcheck_inc_failure(struct ocfs2_blockcheck_stats *stats) { u64 new_count; if (!stats) return; spin_lock(&stats->b_lock); stats->b_failure_count++; new_count = stats->b_failure_count; spin_unlock(&stats->b_lock); if (!new_count) mlog(ML_NOTICE, "Checksum failure count has wrapped\n"); }

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Joel Becker59100.00%1100.00%
Total59100.00%1100.00%


static void ocfs2_blockcheck_inc_recover(struct ocfs2_blockcheck_stats *stats) { u64 new_count; if (!stats) return; spin_lock(&stats->b_lock); stats->b_recover_count++; new_count = stats->b_recover_count; spin_unlock(&stats->b_lock); if (!new_count) mlog(ML_NOTICE, "ECC recovery count has wrapped\n"); }

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Joel Becker59100.00%1100.00%
Total59100.00%1100.00%

/* * These are the low-level APIs for using the ocfs2_block_check structure. */ /* * This function generates check information for a block. * data is the block to be checked. bc is a pointer to the * ocfs2_block_check structure describing the crc32 and the ecc. * * bc should be a pointer inside data, as the function will * take care of zeroing it before calculating the check information. If * bc does not point inside data, the caller must make sure any inline * ocfs2_block_check structures are zeroed. * * The data buffer must be in on-disk endian (little endian for ocfs2). * bc will be filled with little-endian values and will be ready to go to * disk. */
void ocfs2_block_check_compute(void *data, size_t blocksize, struct ocfs2_block_check *bc) { u32 crc; u32 ecc; memset(bc, 0, sizeof(struct ocfs2_block_check)); crc = crc32_le(~0, data, blocksize); ecc = ocfs2_hamming_encode_block(data, blocksize); /* * No ecc'd ocfs2 structure is larger than 4K, so ecc will be no * larger than 16 bits. */ BUG_ON(ecc > USHRT_MAX); bc->bc_crc32e = cpu_to_le32(crc); bc->bc_ecc = cpu_to_le16((u16)ecc); }

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Joel Becker8598.84%150.00%
Alexey Dobriyan11.16%150.00%
Total86100.00%2100.00%

/* * This function validates existing check information. Like _compute, * the function will take care of zeroing bc before calculating check codes. * If bc is not a pointer inside data, the caller must have zeroed any * inline ocfs2_block_check structures. * * Again, the data passed in should be the on-disk endian. */
int ocfs2_block_check_validate(void *data, size_t blocksize, struct ocfs2_block_check *bc, struct ocfs2_blockcheck_stats *stats) { int rc = 0; u32 bc_crc32e; u16 bc_ecc; u32 crc, ecc; ocfs2_blockcheck_inc_check(stats); bc_crc32e = le32_to_cpu(bc->bc_crc32e); bc_ecc = le16_to_cpu(bc->bc_ecc); memset(bc, 0, sizeof(struct ocfs2_block_check)); /* Fast path - if the crc32 validates, we're good to go */ crc = crc32_le(~0, data, blocksize); if (crc == bc_crc32e) goto out; ocfs2_blockcheck_inc_failure(stats); mlog(ML_ERROR, "CRC32 failed: stored: 0x%x, computed 0x%x. Applying ECC.\n", (unsigned int)bc_crc32e, (unsigned int)crc); /* Ok, try ECC fixups */ ecc = ocfs2_hamming_encode_block(data, blocksize); ocfs2_hamming_fix_block(data, blocksize, ecc ^ bc_ecc); /* And check the crc32 again */ crc = crc32_le(~0, data, blocksize); if (crc == bc_crc32e) { ocfs2_blockcheck_inc_recover(stats); goto out; } mlog(ML_ERROR, "Fixed CRC32 failed: stored: 0x%x, computed 0x%x\n", (unsigned int)bc_crc32e, (unsigned int)crc); rc = -EIO; out: bc->bc_crc32e = cpu_to_le32(bc_crc32e); bc->bc_ecc = cpu_to_le16(bc_ecc); return rc; }

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Joel Becker21096.77%360.00%
Al Viro52.30%120.00%
Sunil Mushran20.92%120.00%
Total217100.00%5100.00%

/* * This function generates check information for a list of buffer_heads. * bhs is the blocks to be checked. bc is a pointer to the * ocfs2_block_check structure describing the crc32 and the ecc. * * bc should be a pointer inside data, as the function will * take care of zeroing it before calculating the check information. If * bc does not point inside data, the caller must make sure any inline * ocfs2_block_check structures are zeroed. * * The data buffer must be in on-disk endian (little endian for ocfs2). * bc will be filled with little-endian values and will be ready to go to * disk. */
void ocfs2_block_check_compute_bhs(struct buffer_head **bhs, int nr, struct ocfs2_block_check *bc) { int i; u32 crc, ecc; BUG_ON(nr < 0); if (!nr) return; memset(bc, 0, sizeof(struct ocfs2_block_check)); for (i = 0, crc = ~0, ecc = 0; i < nr; i++) { crc = crc32_le(crc, bhs[i]->b_data, bhs[i]->b_size); /* * The number of bits in a buffer is obviously b_size*8. * The offset of this buffer is b_size*i, so the bit offset * of this buffer is b_size*8*i. */ ecc = (u16)ocfs2_hamming_encode(ecc, bhs[i]->b_data, bhs[i]->b_size * 8, bhs[i]->b_size * 8 * i); } /* * No ecc'd ocfs2 structure is larger than 4K, so ecc will be no * larger than 16 bits. */ BUG_ON(ecc > USHRT_MAX); bc->bc_crc32e = cpu_to_le32(crc); bc->bc_ecc = cpu_to_le16((u16)ecc); }

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Joel Becker16499.39%150.00%
Alexey Dobriyan10.61%150.00%
Total165100.00%2100.00%

/* * This function validates existing check information on a list of * buffer_heads. Like _compute_bhs, the function will take care of * zeroing bc before calculating check codes. If bc is not a pointer * inside data, the caller must have zeroed any inline * ocfs2_block_check structures. * * Again, the data passed in should be the on-disk endian. */
int ocfs2_block_check_validate_bhs(struct buffer_head **bhs, int nr, struct ocfs2_block_check *bc, struct ocfs2_blockcheck_stats *stats) { int i, rc = 0; u32 bc_crc32e; u16 bc_ecc; u32 crc, ecc, fix; BUG_ON(nr < 0); if (!nr) return 0; ocfs2_blockcheck_inc_check(stats); bc_crc32e = le32_to_cpu(bc->bc_crc32e); bc_ecc = le16_to_cpu(bc->bc_ecc); memset(bc, 0, sizeof(struct ocfs2_block_check)); /* Fast path - if the crc32 validates, we're good to go */ for (i = 0, crc = ~0; i < nr; i++) crc = crc32_le(crc, bhs[i]->b_data, bhs[i]->b_size); if (crc == bc_crc32e) goto out; ocfs2_blockcheck_inc_failure(stats); mlog(ML_ERROR, "CRC32 failed: stored: %u, computed %u. Applying ECC.\n", (unsigned int)bc_crc32e, (unsigned int)crc); /* Ok, try ECC fixups */ for (i = 0, ecc = 0; i < nr; i++) { /* * The number of bits in a buffer is obviously b_size*8. * The offset of this buffer is b_size*i, so the bit offset * of this buffer is b_size*8*i. */ ecc = (u16)ocfs2_hamming_encode(ecc, bhs[i]->b_data, bhs[i]->b_size * 8, bhs[i]->b_size * 8 * i); } fix = ecc ^ bc_ecc; for (i = 0; i < nr; i++) { /* * Try the fix against each buffer. It will only affect * one of them. */ ocfs2_hamming_fix(bhs[i]->b_data, bhs[i]->b_size * 8, bhs[i]->b_size * 8 * i, fix); } /* And check the crc32 again */ for (i = 0, crc = ~0; i < nr; i++) crc = crc32_le(crc, bhs[i]->b_data, bhs[i]->b_size); if (crc == bc_crc32e) { ocfs2_blockcheck_inc_recover(stats); goto out; } mlog(ML_ERROR, "Fixed CRC32 failed: stored: %u, computed %u\n", (unsigned int)bc_crc32e, (unsigned int)crc); rc = -EIO; out: bc->bc_crc32e = cpu_to_le32(bc_crc32e); bc->bc_ecc = cpu_to_le16(bc_ecc); return rc; }

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Joel Becker37898.69%266.67%
Al Viro51.31%133.33%
Total383100.00%3100.00%

/* * These are the main API. They check the superblock flag before * calling the underlying operations. * * They expect the buffer(s) to be in disk format. */
void ocfs2_compute_meta_ecc(struct super_block *sb, void *data, struct ocfs2_block_check *bc) { if (ocfs2_meta_ecc(OCFS2_SB(sb))) ocfs2_block_check_compute(data, sb->s_blocksize, bc); }

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Joel Becker40100.00%1100.00%
Total40100.00%1100.00%


int ocfs2_validate_meta_ecc(struct super_block *sb, void *data, struct ocfs2_block_check *bc) { int rc = 0; struct ocfs2_super *osb = OCFS2_SB(sb); if (ocfs2_meta_ecc(osb)) rc = ocfs2_block_check_validate(data, sb->s_blocksize, bc, &osb->osb_ecc_stats); return rc; }

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Joel Becker62100.00%2100.00%
Total62100.00%2100.00%


void ocfs2_compute_meta_ecc_bhs(struct super_block *sb, struct buffer_head **bhs, int nr, struct ocfs2_block_check *bc) { if (ocfs2_meta_ecc(OCFS2_SB(sb))) ocfs2_block_check_compute_bhs(bhs, nr, bc); }

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Joel Becker43100.00%1100.00%
Total43100.00%1100.00%


int ocfs2_validate_meta_ecc_bhs(struct super_block *sb, struct buffer_head **bhs, int nr, struct ocfs2_block_check *bc) { int rc = 0; struct ocfs2_super *osb = OCFS2_SB(sb); if (ocfs2_meta_ecc(osb)) rc = ocfs2_block_check_validate_bhs(bhs, nr, bc, &osb->osb_ecc_stats); return rc; }

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Joel Becker65100.00%2100.00%
Total65100.00%2100.00%


Overall Contributors

PersonTokensPropCommitsCommitProp
Joel Becker199599.25%660.00%
Al Viro100.50%110.00%
Alexey Dobriyan20.10%110.00%
Sunil Mushran20.10%110.00%
Uwe Kleine-König10.05%110.00%
Total2010100.00%10100.00%
Directory: fs/ocfs2
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