snapraid/cmdline/elem.h

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2019-01-07 14:06:15 +01:00
/*
* Copyright (C) 2011 Andrea Mazzoleni
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* 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.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef __ELEM_H
#define __ELEM_H
#include "util.h"
#include "support.h"
#include "tommyds/tommyhash.h"
#include "tommyds/tommylist.h"
#include "tommyds/tommytree.h"
#include "tommyds/tommyhashdyn.h"
#include "tommyds/tommyarray.h"
#include "tommyds/tommyarrayblkof.h"
/****************************************************************************/
/* snapraid */
/**
* Number of measures of the operation progress.
*/
#define PROGRESS_MAX 100
/**
* Max UUID length.
*/
#define UUID_MAX 128
/**
* Invalid position.
*/
#define POS_NULL ((block_off_t)-1)
/**
* Content file specification.
*/
struct snapraid_content {
char content[PATH_MAX]; /**< Path of the content file. */
uint64_t device; /**< Device identifier. */
void* context; /**< Context used for multithread operations. */
tommy_node node; /**< Next node in the list. */
};
/**
* Filter for paths.
*/
struct snapraid_filter {
char pattern[PATH_MAX]; /**< Filter pattern. */
int is_disk; /**< If the pattern is a disk one. */
int is_path; /**< If the pattern is only for the complete path. */
int is_dir; /**< If the pattern is only for dir. */
int direction; /**< If it's an inclusion (=1) or an exclusion (=-1). */
tommy_node node; /**< Next node in the list. */
};
/**
* Block pointer used to represent unused blocks.
*/
#define BLOCK_NULL 0
/**
* This block is an empty one.
* Note that an empty block is represent with ::BLOCK_NULL.
*/
#define BLOCK_STATE_EMPTY 0
/**
* The block has both the hash and the parity computed.
* This is the normal state of a saved block.
*
* The block hash field IS set.
* The parity for this disk is updated.
*/
#define BLOCK_STATE_BLK 1
/**
* The block is new and not yet hashed.
* This happens when a new block overwrite a just removed block, or an empty space.
*
* The block hash field MAY be set and it represents the hash of the OLD data.
* The hash may be also INVALID or ZERO.
*
* If the OLD block was empty, the hash is set to the special ZERO value.
* If the OLD block was lost, the hash is set to the special INVALID value.
*
* The parity for this disk is not updated, but it contains the old data referenced by the hash.
*
* If the state is read from an incomplete sync, we don't really know if the hash is referring at the
* data used to compute the parity, because the sync process was interrupted at an unknown point,
* and the parity may or may not be updated.
*
* For this reason we clear all such hashes when reading the state from an incomplete sync before
* starting a new sync, because sync is affected by such hashes, as sync updates the parity, only
* if the new data read for CHG blocks has a mismatching hash.
* Clearing is done setting the ::clear_past_hash flag before reading the state.
* No clearing is done in other commands, as check and fix are instead able to work with unsynced
* hashes, and scrub ignores CHG/DELETED blocks.
*/
#define BLOCK_STATE_CHG 2
/**
* The block is new and hashed.
* This happens when a new block overwrite a just removed block, or an empty space.
*
* Note that when the file copy heuristic is enabled, the REP blocks may be set
* using this heuristic, meaning that the hash may be wrong.
*
* For this reason, when the ::force_nocopy flag is enabled in sync, we convert all the REP blocks
* to CHG, invalidating the stored hash.
* Clearing is done setting the ::clear_past_hash flag before reading the state.
* No clearing is done in other commands, as they don't stop the process like in sync
* when there is a false silent error.
*
* The block hash field IS set, and it represents the hash of the new data.
* The parity for this disk is not updated.
*/
#define BLOCK_STATE_REP 3
/**
* This block is a deleted one.
* This happens when a file is deleted.
*
* The block hash field IS set, and it represents the hash of the previous data,
* but only if it's different by all 0.
* The parity for this disk is not updated, but it contains the old data referenced by the hash.
*
* If the state is read from an incomplete sync, we don't really know if the hash is referring at the
* data used to compute the parity, because the sync process was interrupted at an unknown point,
* and the parity may or may not be updated.
*
* A now the sync process is not affected by DELETED hash, so clearing won't be really needed,
* but considering that we have to do it for CHG blocks, we do it also for DELETED ones,
* clearing all the past hashes.
* Clearing is done setting the ::clear_past_hash flag before reading the state.
* No clearing is done in other commands, as check and fix are instead able to work with unsynced
* hashes, and scrub ignores CHG/DELETED blocks.
*/
#define BLOCK_STATE_DELETED 4
/**
* Block hash size.
*
* At max HASH_MAX.
*/
extern int BLOCK_HASH_SIZE;
/**
* Block of a file.
*/
struct snapraid_block {
unsigned char state; /**< State of the block. */
/**
* Hash of the block.
*
* The effective stored size is BLOCK_HASH_SIZE.
*/
unsigned char hash[HASH_MAX];
};
/**
* If a file is present in the disk.
* It's used only in scan to detect present and missing files.
*/
#define FILE_IS_PRESENT 0x01
/**
* If it's an excluded file from the processing.
* It's used in both check and fix to mark files to exclude from the processing.
*/
#define FILE_IS_EXCLUDED 0x02
/**
* If a fix was attempted but it failed.
* It's used only in fix to mark that some data is unrecoverable.
*/
#define FILE_IS_DAMAGED 0x04
/**
* If a fix was done.
* It's used only in fix to mark that some data was recovered.
*/
#define FILE_IS_FIXED 0x08
/**
* If the file was originally missing, and it was created in the fix process.
* It's used only in fix to mark files recovered from scratch,
* meaning that they don't have any previous content.
* This is important because it means that deleting them, you are not going
* to lose something that cannot be recovered.
* Note that excluded files won't ever get this flag.
*/
#define FILE_IS_CREATED 0x10
/**
* If the file has completed its processing, meaning that it won't be opened anymore.
* It's used only in fix to mark when we finish processing one file.
* Note that excluded files won't ever get this flag.
*/
#define FILE_IS_FINISHED 0x20
/**
* If the file hash was obtained from a file copy
* identified by the same name, size and stamp.
*/
#define FILE_IS_COPY 0x40
/**
* If the file was opened.
* It's used in fix to detect if it's the first time a file is opened.
*/
#define FILE_IS_OPENED 0x80
/**
* If the file is modified from the latest sync.
* It's used in fix to store if the state of the file before being modified.
*/
#define FILE_IS_UNSYNCED 0x100
/**
* If the file is without inode.
* It could happen in file-system where inodes are not persistent,
* or when restoring a full disk with "fix".
* In such cases we have to clear any stored duplicate inode.
* After the scan process completes, no file should have this flag set.
*/
#define FILE_IS_WITHOUT_INODE 0x200
/**
* The file is deleted.
* This happens when a file is deleted from the array,
* but it's keep inside the parity until the next sync.
*
* During the file-system check we needs this information,
* because deleted files may be present only partially.
*/
#define FILE_IS_DELETED 0x400
/**
* The file is missing.
* This happens in fix/check when a file is cannot be opened,
* and marking it as such prevents to retry to open it again.
*/
#define FILE_IS_MISSING 0x800
#define FILE_IS_HARDLINK 0x1000 /**< If it's an hardlink. */
#define FILE_IS_SYMLINK 0x2000 /**< If it's a file symlink. */
#define FILE_IS_SYMDIR 0x4000 /**< If it's a dir symlink for Windows. Not yet supported. */
#define FILE_IS_JUNCTION 0x8000 /**< If it's a junction for Windows. Not yet supported. */
#define FILE_IS_LINK_MASK 0xF000 /**< Mask for link type. */
/**
* File.
*/
struct snapraid_file {
int64_t mtime_sec; /**< Modification time. */
uint64_t inode; /**< Inode. */
uint64_t physical; /**< Physical offset of the file. */
data_off_t size; /**< Size of the file. */
struct snapraid_block* blockvec; /**< All the blocks of the file. */
int mtime_nsec; /**< Modification time nanoseconds. In the range 0 <= x < 1,000,000,000, or STAT_NSEC_INVALID if not present. */
block_off_t blockmax; /**< Number of blocks. */
unsigned flag; /**< FILE_IS_* flags. */
char* sub; /**< Sub path of the file. Without the disk dir. The disk is implicit. */
/* nodes for data structures */
tommy_node nodelist;
tommy_hashdyn_node nodeset;
tommy_hashdyn_node pathset;
tommy_hashdyn_node stampset;
};
/**
* Symbolic Link.
*/
struct snapraid_link {
unsigned flag; /**< FILE_IS_* flags. */
char* sub; /**< Sub path of the file. Without the disk dir. The disk is implicit. */
char* linkto; /**< Link to. */
/* nodes for data structures */
tommy_node nodelist;
tommy_hashdyn_node nodeset;
};
/**
* Dir.
*/
struct snapraid_dir {
unsigned flag; /**< FILE_IS_* flags. */
char* sub; /**< Sub path of the file. Without the disk dir. The disk is implicit. */
/* nodes for data structures */
tommy_node nodelist;
tommy_hashdyn_node nodeset;
};
/**
* Chunk.
*
* A extent represents a fragment of a file mapped into the parity.
*/
struct snapraid_extent {
struct snapraid_file* file; /**< File containing this extent. */
block_off_t parity_pos; /**< Parity position. */
block_off_t file_pos; /**< Position in the file. */
block_off_t count; /**< Number of sequential blocks in the file and parity. */
tommy_tree_node parity_node; /**< Tree sorted by <parity_pos>. */
tommy_tree_node file_node; /**< Tree sorter by <file,file_pos>. */
};
/**
* Disk.
*/
struct snapraid_disk {
char name[PATH_MAX]; /**< Name of the disk. */
char dir[PATH_MAX]; /**< Mount point of the disk. It always terminates with /. */
char smartctl[PATH_MAX]; /**< Custom command for smartctl. Empty means auto. */
char uuid[UUID_MAX]; /**< UUID of the disk. */
uint64_t device; /**< Device identifier. */
block_off_t total_blocks; /**< Number of total blocks. */
block_off_t free_blocks; /**< Number of free blocks at the last sync. */
uint64_t tick; /**< Usage time. */
uint64_t progress_tick[PROGRESS_MAX]; /**< Last ticks of progress. */
unsigned cached_blocks; /**< Number of IO blocks cached. */
struct snapraid_file* progress_file; /**< File in progress. */
/**
* First free searching block.
* Note that it doesn't necessarily point at the first free block,
* but it just tell you that no free block is present before this position.
*/
block_off_t first_free_block;
int has_volatile_inodes; /**< If the underline file-system has not persistent inodes. */
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int has_volatile_hardlinks; /**< If the underline file-system has not synchronized metadata for hardlink (NTFS). */
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int has_unreliable_physical; /**< If the physical offset of files has duplicates. */
int has_different_uuid; /**< If the disk has a different UUID, meaning that it is not the same file-system. */
int has_unsupported_uuid; /**< If the disk doesn't report UUID, meaning it's not supported. */
int had_empty_uuid; /**< If the disk had an empty UUID, meaning that it's a new disk. */
int mapping_idx; /**< Index in the mapping vector. Used only as buffer when writing the content file. */
int skip_access; /**< If the disk is inaccessible and it should be skipped. */
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#if HAVE_THREAD
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/**
* Mutex for protecting the filesystem structure.
*
* Specifically, this protects ::fs_parity, ::fs_file, and ::fs_last,
* meaning that it protects only extents.
*
* Files, links and dirs are not protected as they are not expected to
* change during multithread processing.
*/
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thread_mutex_t fs_mutex;
int fs_mutex_enabled; /*< If the lock has to be used. */
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#endif
/**
* Mapping of extents in the parity.
* Sorted by <parity_pos> and by <file,file_pos>
*/
tommy_tree fs_parity;
tommy_tree fs_file;
/**
* Last extent we accessed.
* It's used to optimize access of sequential blocks.
*/
struct snapraid_extent* fs_last;
/**
* List of all the snapraid_file for the disk.
*/
tommy_list filelist;
/**
* List of all the deleted file for the disk.
*
* These files are kept allocated, because the blocks are still referenced in
* the ::blockarr.
*/
tommy_list deletedlist;
tommy_hashdyn inodeset; /**< Hashtable by inode of all the files. */
tommy_hashdyn pathset; /**< Hashtable by path of all the files. */
tommy_hashdyn stampset; /**< Hashtable by stamp (size and time) of all the files. */
tommy_list linklist; /**< List of all the links. */
tommy_hashdyn linkset; /**< Hashtable by name of all the links. */
tommy_list dirlist; /**< List of all the empty dirs. */
tommy_hashdyn dirset; /**< Hashtable by name of all the empty dirs. */
/* nodes for data structures */
tommy_node node;
};
/**
* Disk mapping.
*/
struct snapraid_map {
char name[PATH_MAX]; /**< Name of the disk. */
char uuid[UUID_MAX]; /**< UUID of the disk. Empty if unknown. */
block_off_t total_blocks; /**< Number of total blocks. */
block_off_t free_blocks; /**< Number of free blocks at last 'sync'. */
unsigned position; /**< Position of the disk in the parity. */
/* nodes for data structures */
tommy_node node;
};
/**
* Max number of parity split.
*/
#define SPLIT_MAX 8
/**
* Invalid parity size.
*
* This value is used to identify new parities,
* like when you alter the configuration adding
* a new parity level, creating it with 'fix'.
* Given that 'fix' doesn't write the content file,
* the new size will be written only at the next
* 'sync'.
*/
#define PARITY_SIZE_INVALID -1LL
/**
* Parity split.
*/
struct snapraid_split {
char path[PATH_MAX]; /**< Path of the parity file. */
char uuid[UUID_MAX]; /**< UUID of the disk. Empty if unknown. */
/**
* Size of the parity split.
* Only the latest not zero size is allowed to grow.
* If the value is unset, it's PARITY_SIZE_INVALID.
*/
data_off_t size;
uint64_t device; /**< Device identifier of the parity. */
};
/**
* Parity.
*/
struct snapraid_parity {
struct snapraid_split split_map[SPLIT_MAX]; /**< Parity splits. */
unsigned split_mac; /**< Number of parity splits. */
char smartctl[PATH_MAX]; /**< Custom command for smartctl. Empty means auto. */
block_off_t total_blocks; /**< Number of total blocks. */
block_off_t free_blocks; /**< Number of free blocks at the last sync. */
int is_excluded_by_filter; /**< If the parity is excluded by filters. */
int skip_access; /**< If at least one of the parity disk is inaccessible and it should be skipped. */
uint64_t tick; /**< Usage time. */
uint64_t progress_tick[PROGRESS_MAX]; /**< Last cpu ticks of progress. */
unsigned cached_blocks; /**< Number of IO blocks cached. */
};
/**
* Info.
*/
typedef uint32_t snapraid_info;
/**
* Allocate a content.
*/
struct snapraid_content* content_alloc(const char* path, uint64_t dev);
/**
* Deallocate a content.
*/
void content_free(struct snapraid_content* content);
/**
* Allocate a filter pattern for files and directories.
*/
struct snapraid_filter* filter_alloc_file(int is_include, const char* pattern);
/**
* Allocate a filter pattern for disks.
*/
struct snapraid_filter* filter_alloc_disk(int is_include, const char* pattern);
/**
* Deallocate an exclusion.
*/
void filter_free(struct snapraid_filter* filter);
/**
* Filter type description.
*/
const char* filter_type(struct snapraid_filter* filter, char* out, size_t out_size);
/**
* Filter hidden files.
* Return !=0 if it matches and it should be excluded.
*/
static inline int filter_hidden(int enable, struct dirent* dd)
{
if (enable && dirent_hidden(dd)) {
return 1; /* filter out */
}
return 0;
}
/**
* Filter a path using a list of filters.
* For each element of the path all the filters are applied, until the first one that matches.
* Return !=0 if it should be excluded.
*/
int filter_path(tommy_list* filterlist, struct snapraid_filter** reason, const char* disk, const char* sub);
/**
* Filter a file/link/dir if missing.
* This call imply a disk check for the file presence.
* Return !=0 if the file is present and it should be excluded.
*/
int filter_existence(int filter_missing, const char* dir, const char* sub);
/**
* Filter a file if bad.
* Return !=0 if the file is correct and it should be excluded.
*/
int filter_correctness(int filter_error, tommy_arrayblkof* infoarr, struct snapraid_disk* disk, struct snapraid_file* file);
/**
* Filter a dir using a list of filters.
* For each element of the path all the filters are applied, until the first one that matches.
* Thesesdir are always by included by default, to allow to apply rules at the contained files.
* Return !=0 if should be excluded.
*/
int filter_subdir(tommy_list* filterlist, struct snapraid_filter** reason, const char* disk, const char* sub);
/**
* Filter a dir using a list of filters.
* For each element of the path all the filters are applied, until the first one that matches.
* Return !=0 if should be excluded.
*/
int filter_emptydir(tommy_list* filterlist, struct snapraid_filter** reason, const char* disk, const char* sub);
/**
* Filter a path if it's a content file.
* Return !=0 if should be excluded.
*/
int filter_content(tommy_list* contentlist, const char* path);
/**
* Check if the specified hash is invalid.
*
* An invalid hash is represented with all bytes at 0x00.
*
* If working with reduced hash lengths, this function always return 0.
*/
static inline int hash_is_invalid(const unsigned char* hash)
{
int i;
/* if the hash is reduced, we cannot grant that it's a specific kind of hash */
if (BLOCK_HASH_SIZE != HASH_MAX)
return 0;
for (i = 0; i < BLOCK_HASH_SIZE; ++i)
if (hash[i] != 0x00)
return 0;
return 1;
}
/**
* Check if the specified hash represent the zero block.
*
* A zero hash is represented with all bytes at 0xFF.
*
* If working with reduced hash lengths, this function always return 0.
*/
static inline int hash_is_zero(const unsigned char* hash)
{
int i;
/* if the hash is reduced, we cannot grant that it's a specific kind of hash */
if (BLOCK_HASH_SIZE != HASH_MAX)
return 0;
for (i = 0; i < BLOCK_HASH_SIZE; ++i)
if (hash[i] != 0xFF)
return 0;
return 1;
}
/**
* Check if the specified hash is unequivocally representing the data.
*
* If working with reduced hash lengths, this function always return 0.
*/
static inline int hash_is_unique(const unsigned char* hash)
{
/* if the hash is reduced, we cannot grant that it's a specific kind of hash */
if (BLOCK_HASH_SIZE != HASH_MAX)
return 0;
return !hash_is_zero(hash) && !hash_is_invalid(hash);
}
/**
* Set the hash to the special INVALID value.
*/
static inline void hash_invalid_set(unsigned char* hash)
{
memset(hash, 0x00, BLOCK_HASH_SIZE);
}
/**
* Set the hash to the special ZERO value.
*/
static inline void hash_zero_set(unsigned char* hash)
{
memset(hash, 0xFF, BLOCK_HASH_SIZE);
}
/**
* Allocated space for block.
*/
static inline size_t block_sizeof(void)
{
return 1 + BLOCK_HASH_SIZE;
}
/**
* Get the state of the block.
*
* For this function, it's allowed to pass a NULL block
* pointer than results in the BLOCK_STATE_EMPTY state.
*/
static inline unsigned block_state_get(const struct snapraid_block* block)
{
if (block == BLOCK_NULL)
return BLOCK_STATE_EMPTY;
return block->state;
}
/**
* Set the state of the block.
*/
static inline void block_state_set(struct snapraid_block* block, unsigned state)
{
block->state = state;
}
/**
* Check if the specified block has an updated hash.
*
* Note that EMPTY / CHG / DELETED return 0.
*/
static inline int block_has_updated_hash(const struct snapraid_block* block)
{
unsigned state = block_state_get(block);
return state == BLOCK_STATE_BLK || state == BLOCK_STATE_REP;
}
/**
* Check if the specified block has a past hash,
* i.e. the hash of the data that it's now overwritten or lost.
*
* Note that EMPTY / BLK / REP return 0.
*/
static inline int block_has_past_hash(const struct snapraid_block* block)
{
unsigned state = block_state_get(block);
return state == BLOCK_STATE_CHG || state == BLOCK_STATE_DELETED;
}
/**
* Check if the specified block is part of a file.
*
* Note that EMPTY / DELETED return 0.
*/
static inline int block_has_file(const struct snapraid_block* block)
{
unsigned state = block_state_get(block);
return state == BLOCK_STATE_BLK
|| state == BLOCK_STATE_CHG || state == BLOCK_STATE_REP;
}
/**
* Check if the block has an invalid parity than needs to be updated.
*
* Note that EMPTY / BLK return 0.
*/
static inline int block_has_invalid_parity(const struct snapraid_block* block)
{
unsigned state = block_state_get(block);
return state == BLOCK_STATE_DELETED
|| state == BLOCK_STATE_CHG || state == BLOCK_STATE_REP;
}
/**
* Check if the block is part of a file with valid parity.
*
* Note that anything different than BLK return 0.
*/
static inline int block_has_file_and_valid_parity(const struct snapraid_block* block)
{
unsigned state = block_state_get(block);
return state == BLOCK_STATE_BLK;
}
static inline int file_flag_has(const struct snapraid_file* file, unsigned mask)
{
return (file->flag & mask) == mask;
}
static inline void file_flag_set(struct snapraid_file* file, unsigned mask)
{
file->flag |= mask;
}
static inline void file_flag_clear(struct snapraid_file* file, unsigned mask)
{
file->flag &= ~mask;
}
/**
* Allocate a file.
*/
struct snapraid_file* file_alloc(unsigned block_size, const char* sub, data_off_t size, uint64_t mtime_sec, int mtime_nsec, uint64_t inode, uint64_t physical);
/**
* Duplicate a file.
*/
struct snapraid_file* file_dup(struct snapraid_file* copy);
/**
* Deallocate a file.
*/
void file_free(struct snapraid_file* file);
/**
* Rename a file.
*/
void file_rename(struct snapraid_file* file, const char* sub);
/**
* Copy a file.
*/
void file_copy(struct snapraid_file* src_file, struct snapraid_file* dest_file);
/**
* Return the block at the specified position.
*
* Note that the block size if a runtime value.
*/
static inline struct snapraid_block* file_block(struct snapraid_file* file, size_t pos)
{
unsigned char* ptr = (unsigned char*)file->blockvec;
return (struct snapraid_block*)(ptr + pos * block_sizeof());
}
/**
* Return the name of the file, without the dir.
*/
const char* file_name(const struct snapraid_file* file);
/**
* Check if the block is the last in the file.
*/
int file_block_is_last(struct snapraid_file* file, block_off_t file_pos);
/**
* Get the size in bytes of the block.
* If it's the last block of a file it could be less than block_size.
*/
unsigned file_block_size(struct snapraid_file* file, block_off_t file_pos, unsigned block_size);
/**
* Compare a file with an inode.
*/
int file_inode_compare_to_arg(const void* void_arg, const void* void_data);
/**
* Compare files by inode.
*/
int file_inode_compare(const void* void_a, const void* void_b);
/**
* Compare files by path.
*/
int file_path_compare(const void* void_a, const void* void_b);
/**
* Compare files by physical address.
*/
int file_physical_compare(const void* void_a, const void* void_b);
/**
* Compute the hash of a file inode.
*/
static inline tommy_uint32_t file_inode_hash(uint64_t inode)
{
return (tommy_uint32_t)tommy_inthash_u64(inode);
}
/**
* Compare a file with a path.
*/
int file_path_compare_to_arg(const void* void_arg, const void* void_data);
/**
* Compare a file with another file for name, stamp, and both.
*/
int file_name_compare(const void* void_a, const void* void_b);
int file_stamp_compare(const void* void_a, const void* void_b);
int file_namestamp_compare(const void* void_a, const void* void_b);
int file_pathstamp_compare(const void* void_a, const void* void_b);
/**
* Compute the hash of a file path.
*/
static inline tommy_uint32_t file_path_hash(const char* sub)
{
return tommy_hash_u32(0, sub, strlen(sub));
}
/**
* Compute the hash of a file stamp.
*/
static inline tommy_uint32_t file_stamp_hash(data_off_t size, int64_t mtime_sec, int mtime_nsec)
{
return tommy_inthash_u32((tommy_uint32_t)size ^ tommy_inthash_u32(mtime_sec ^ tommy_inthash_u32(mtime_nsec)));
}
/**
* Allocate a extent.
*/
struct snapraid_extent* extent_alloc(block_off_t parity_pos, struct snapraid_file* file, block_off_t file_pos, block_off_t count);
/**
* Deallocate a extent.
*/
void extent_free(struct snapraid_extent* extent);
/**
* Compare extent by parity position.
*/
int extent_parity_compare(const void* void_a, const void* void_b);
/**
* Compare extent by file and file position.
*/
int extent_file_compare(const void* void_a, const void* void_b);
static inline int link_flag_has(const struct snapraid_link* slink, unsigned mask)
{
return (slink->flag & mask) == mask;
}
static inline void link_flag_set(struct snapraid_link* slink, unsigned mask)
{
slink->flag |= mask;
}
static inline void link_flag_clear(struct snapraid_link* slink, unsigned mask)
{
slink->flag &= ~mask;
}
static inline void link_flag_let(struct snapraid_link* slink, unsigned flag, unsigned mask)
{
slink->flag &= ~mask;
slink->flag |= flag & mask;
}
static inline unsigned link_flag_get(struct snapraid_link* slink, unsigned mask)
{
return slink->flag & mask;
}
/**
* Allocate a link.
*/
struct snapraid_link* link_alloc(const char* name, const char* slink, unsigned link_flag);
/**
* Deallocate a link.
*/
void link_free(struct snapraid_link* slink);
/**
* Compare a link with a name.
*/
int link_name_compare_to_arg(const void* void_arg, const void* void_data);
/**
* Compare links by path.
*/
int link_alpha_compare(const void* void_a, const void* void_b);
/**
* Compute the hash of a link name.
*/
static inline tommy_uint32_t link_name_hash(const char* name)
{
return tommy_hash_u32(0, name, strlen(name));
}
static inline int dir_flag_has(const struct snapraid_dir* dir, unsigned mask)
{
return (dir->flag & mask) == mask;
}
static inline void dir_flag_set(struct snapraid_dir* dir, unsigned mask)
{
dir->flag |= mask;
}
static inline void dir_flag_clear(struct snapraid_dir* dir, unsigned mask)
{
dir->flag &= ~mask;
}
/**
* Allocate a dir.
*/
struct snapraid_dir* dir_alloc(const char* name);
/**
* Deallocate a dir.
*/
void dir_free(struct snapraid_dir* dir);
/**
* Compare a dir with a name.
*/
int dir_name_compare(const void* void_arg, const void* void_data);
/**
* Compute the hash of a dir name.
*/
static inline tommy_uint32_t dir_name_hash(const char* name)
{
return tommy_hash_u32(0, name, strlen(name));
}
/**
* Allocate a disk.
*/
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struct snapraid_disk* disk_alloc(const char* name, const char* dir, uint64_t dev, const char* uuid, int skip_access);
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/**
* Deallocate a disk.
*/
void disk_free(struct snapraid_disk* disk);
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/**
* Enable multithread support for the disk.
*/
void disk_start_thread(struct snapraid_disk* disk);
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/**
* Get the size of the disk in blocks.
*/
block_off_t fs_size(struct snapraid_disk* disk);
/**
* Check if a disk is totally empty and can be discarded from the content file.
* A disk is empty if it doesn't contain any file, symlink, hardlink or dir
* and without any DELETED block.
* The blockmax is used to limit the search of DELETED block up to blockmax.
*/
int fs_is_empty(struct snapraid_disk* disk, block_off_t blockmax);
/**
* Check the file-system for errors.
* Return 0 if it's OK.
*/
int fs_check(struct snapraid_disk* disk);
/**
* Allocate a parity position for the specified file position.
*
* After this call you can use the par2file/par2block operations
* to query the relation.
*
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* \note This function is NOT thread-safe as it uses the disk cache. +
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*/
void fs_allocate(struct snapraid_disk* disk, block_off_t parity_pos, struct snapraid_file* file, block_off_t file_pos);
/**
* Deallocate the parity position.
*
* After this call the par2file/par2block operations
* won't find anymore the parity association.
*
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* \note This function is NOT thread-safe as it uses the disk cache.
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*/
void fs_deallocate(struct snapraid_disk* disk, block_off_t pos);
/**
* Get the block from the file position.
*/
struct snapraid_block* fs_file2block_get(struct snapraid_file* file, block_off_t file_pos);
/**
* Get the file position from the parity position.
* Return 0 if no file is using it.
*/
struct snapraid_file* fs_par2file_find(struct snapraid_disk* disk, block_off_t parity_pos, block_off_t* file_pos);
/**
* Get the file position from the parity position.
*/
static inline struct snapraid_file* fs_par2file_get(struct snapraid_disk* disk, block_off_t parity_pos, block_off_t* file_pos)
{
struct snapraid_file* ret;
ret = fs_par2file_find(disk, parity_pos, file_pos);
if (ret == 0) {
/* LCOV_EXCL_START */
log_fatal("Internal inconsistency when deresolving parity to file at position '%u' in disk '%s'\n", parity_pos, disk->name);
os_abort();
/* LCOV_EXCL_STOP */
}
return ret;
}
/**
* Get the parity position from the file position.
* Return POS_NULL if no parity is allocated.
*/
block_off_t fs_file2par_find(struct snapraid_disk* disk, struct snapraid_file* file, block_off_t file_pos);
/**
* Get the parity position from the file position.
*/
static inline block_off_t fs_file2par_get(struct snapraid_disk* disk, struct snapraid_file* file, block_off_t file_pos)
{
block_off_t ret;
ret = fs_file2par_find(disk, file, file_pos);
if (ret == POS_NULL) {
/* LCOV_EXCL_START */
log_fatal("Internal inconsistency when resolving file '%s' at position '%u/%u' in disk '%s'\n", file->sub, file_pos, file->blockmax, disk->name);
os_abort();
/* LCOV_EXCL_STOP */
}
return ret;
}
/**
* Get the block from the parity position.
* Return BLOCK_NULL==0 if the block is over the end of the disk or not used.
*/
struct snapraid_block* fs_par2block_find(struct snapraid_disk* disk, block_off_t parity_pos);
/**
* Get the block from the parity position.
*/
static inline struct snapraid_block* fs_par2block_get(struct snapraid_disk* disk, block_off_t parity_pos)
{
struct snapraid_block* ret;
ret = fs_par2block_find(disk, parity_pos);
if (ret == BLOCK_NULL) {
/* LCOV_EXCL_START */
log_fatal("Internal inconsistency when deresolving parity to block at position '%u' in disk '%s'\n", parity_pos, disk->name);
os_abort();
/* LCOV_EXCL_STOP */
}
return ret;
}
/**
* Allocate a disk mapping.
* Uses uuid="" if not available.
*/
struct snapraid_map* map_alloc(const char* name, unsigned position, block_off_t total_blocks, block_off_t free_blocks, const char* uuid);
/**
* Deallocate a disk mapping.
*/
void map_free(struct snapraid_map* map);
/**
* Mask used to store additional information in the info bits.
*
* These bits reduce the granularity of the time in the memory representation.
*/
#define INFO_MASK 0x7
/**
* Make an info.
*/
static inline snapraid_info info_make(time_t last_access, int error, int rehash, int justsynced)
{
/* clear the lowest bits as reserved for other information */
snapraid_info info = last_access & ~INFO_MASK;
if (error != 0)
info |= 0x1;
if (rehash != 0)
info |= 0x2;
if (justsynced != 0)
info |= 0x4;
return info;
}
/**
* Extract the time information.
* This is the last time when the block was know to be correct.
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* The "scrubbed" info tells if the time is referring at the latest sync or scrub.
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*/
static inline time_t info_get_time(snapraid_info info)
{
return info & ~INFO_MASK;
}
/**
* Extract the error information.
* Report if the block address had some problem.
*/
static inline int info_get_bad(snapraid_info info)
{
return (info & 0x1) != 0;
}
/**
* Extract the rehash information.
* Report if the block address is using the old hash and needs to be rehashed.
*/
static inline int info_get_rehash(snapraid_info info)
{
return (info & 0x2) != 0;
}
/**
* Extract the scrubbed information.
* Report if the block address was never scrubbed.
*/
static inline int info_get_justsynced(snapraid_info info)
{
return (info & 0x4) != 0;
}
/**
* Mark the block address as with error.
*/
static inline snapraid_info info_set_bad(snapraid_info info)
{
return info | 0x1;
}
/**
* Mark the block address as with rehash.
*/
static inline snapraid_info info_set_rehash(snapraid_info info)
{
return info | 0x2;
}
/**
* Set the info at the specified position.
* The position is allocated if not yet done.
*/
static inline void info_set(tommy_arrayblkof* array, block_off_t pos, snapraid_info info)
{
tommy_arrayblkof_grow(array, pos + 1);
memcpy(tommy_arrayblkof_ref(array, pos), &info, sizeof(snapraid_info));
}
/**
* Get the info at the specified position.
* For not allocated position, 0 is returned.
*/
static inline snapraid_info info_get(tommy_arrayblkof* array, block_off_t pos)
{
snapraid_info info;
if (pos >= tommy_arrayblkof_size(array))
return 0;
memcpy(&info, tommy_arrayblkof_ref(array, pos), sizeof(snapraid_info));
return info;
}
/**
* Compare times
*/
int time_compare(const void* void_a, const void* void_b);
/****************************************************************************/
/* format */
#define FMT_FILE 0 /**< Print only the file. */
#define FMT_DISK 1 /**< Print the disk name and the file. */
#define FMT_PATH 2 /**< Print the full path. */
extern int FMT_MODE;
/**
* Format a file path for poll reference
*/
const char* fmt_poll(const struct snapraid_disk* disk, const char* str, char* buffer);
/**
* Format a path name for terminal reference
*/
const char* fmt_term(const struct snapraid_disk* disk, const char* str, char* buffer);
#endif