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view gsm-fw/services/ffs/core.h @ 439:c2da9dd01f85
OSL: os_mem_ir.c done
author | Michael Spacefalcon <msokolov@ivan.Harhan.ORG> |
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date | Sun, 22 Jun 2014 22:10:03 +0000 |
parents | 847e2585a0f2 |
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/****************************************************************************** * Flash File System (ffs) * Idea, design and coding by Mads Meisner-Jensen, mmj@ti.com * * ffs core functions * * $Id: core.h 1.80.1.15.1.36 Thu, 08 Jan 2004 15:05:23 +0100 tsj $ * ******************************************************************************/ #if (TARGET == 1) #include "../../riviera/rv/rv_defined_swe.h" #endif /****************************************************************************** * Compile option switches ******************************************************************************/ // FFS compiled with extra test functionality #define FFS_TEST 1 // Default max number of simultaneous open files #ifdef RVM_MSFE_SWE #define FFS_FD_MAX 20 #else #define FFS_FD_MAX 4 #endif #define FFS_RECLAIM_NEW 1 /****************************************************************************** * Compile constants ******************************************************************************/ // FFS API version (in four-digit BCD format) #define FFS_API_VERSION ((uint16) 0x0642) // FFS_DRV_VERSION is in drv.h // TMFFS protocol version is in tmffs.h // Magic for determining (formatted) file system version. First two digits // represent major version, bottom two digits represent minor version. An // ffs code compiled for one major version X is compatible with any other // format version with major = X. Minor version is incremented when adding // new features that does not break compatibility. #define FFS_FORMAT_VERSION (0x0210) #define BLOCK_MAGIC_LOW ('f'<<8|'F') // "Ffs#" #define BLOCK_MAGIC_HIGH ('#'<<8|'s') #define BLOCK_MAGIC ((BLOCK_MAGIC_HIGH << 8)|(BLOCK_MAGIC_LOW)) // Absolute maximum number of inodes allowed #define FFS_INODES_MAX 2048 // Default maximum number of inodes allowed #define FFS_INODES_MAX_DEFAULT 1024 // Default number of path components (limit due to recursiveness of // inodes_reclaim()) #define FFS_PATH_DEPTH_MAX 6 // Maximum number of blocks (flash sectors) in a ffs system. FFS_BLOCKS_MAX // must be >= the number of blocks in the largest flash device memory // map. It is used to allocate the number of entries in the static bstat // array. #define FFS_BLOCKS_MAX 128 // Default size of journal file (represented as 256'ths of the blocksize) #define FFS_JOURNAL_SIZE_IN256THS 16 // one 16'ths of the block size. // Without the min size will the maximum of files (fs.blocks_files_max) in // one block be 32 files if the blocksize is 8kB! #define FFS_JOURNAL_SIZE_MIN 1024 #define FFS_JOURNAL_NAME ".journal" // Default max size of file name (excluding null terminator) #define FFS_FILENAME_MAX 20 // Maximum distance in age between youngest and oldest blocks #define FFS_DAGE_MAX 256 #define FFS_DAGE_GAIN_MIN (FFS_DAGE_MAX / 4) #define FFS_DAGE_EARLY_WIDTH 64 // Offset on file descriptors #define FFS_FD_OFFSET '1' // Macros to set flags and test bits in flash memory words (negative logic) #define BIT_SET(value, bits) ((value) & (~bits)) #define IS_BIT_SET(value, bits) (~(value) & (bits)) // Number of free inodes and journal entries to keep for "emergencies" #define FFS_INODES_MARGIN 4 #define FFS_JOURNAL_MARGIN 4 /****************************************************************************** * Macros used in both drv.c and core.c ******************************************************************************/ // Convert a offset_t value to a block index #define offset2block(offset) (((uint32) offset) >> dev.binfo[0].size_ld) // Convert between offset and address #define offset2addr(offset) (dev.base + (offset)) // Size of a block #define blocksize(block) (1 << dev.binfo[block].size_ld) // Test if flag is set #define is_open_option(options, flags) ((options & flags) == flags) // Amount of reserved space. #define RESERVED_LOW 2 * fs.journal_size #define RESERVED_NONE 0 // We have to saturate because a recently reclaimed inodes block could // theoretically possess a high age #define saturate_dage(dage) (dage > (2*FFS_DAGE_MAX) ? (2*FFS_DAGE_MAX) : dage) /****************************************************************************** * Block Types ******************************************************************************/ // Block age, ie. number of times block has been erased typedef uint16 age_t; // Maximum age a block can have #define BLOCK_AGE_MAX 0xFFFF // ffs block status flags. These are stored in the first 2 bytes of // the ffs block in the flash sector. enum BLOCK_FLAGS { BF_LOST = 0x80, // block is lost and will soon be erased BF_FREE = 0x40, // free (preformatted and with block magic) BF_DATA = 0x02, // data BF_CLEANING = 0x01, // block is being cleaned BF_INODES = 0x10, // block contains inodes BF_COPYING = 0x04 // block is a coming inodes block }; enum BLOCK_STATES { BF_IS_EMPTY = ~(0), BF_IS_FREE = ~(BF_FREE), BF_IS_DATA = ~(BF_FREE | BF_DATA), BF_IS_CLEANING = ~(BF_FREE | BF_DATA | BF_CLEANING), BF_IS_COPYING = ~(BF_FREE | BF_COPYING), BF_IS_INODES = ~(BF_FREE | BF_COPYING | BF_INODES), BF_IS_INODES_LOST = ~(BF_FREE | BF_COPYING | BF_INODES | BF_LOST) }; // Header of each FFS block struct block_header_s { uint16 magic_low; // 32-bit magic number uint16 magic_high; uint16 version; // FFS_FORMAT_VERSION used for formatting age_t age; // number of times this block has been erased uint16 flags; // status flags of this block (BLOCK_FLAGS) uint16 reserved0; uint16 reserved1; uint16 reserved2; }; // Important the below define MUST fit to the size of the header that is written #define BHEADER_SIZE sizeof(struct block_header_s) #define OLD_BLOCK_MAGIC_LOW ('S'<<8|'F') // "FS" #define OLD_FFS_FORMAT_VERSION (0x0100) // 1.00 (in four-digit BCD format) // Old header of each FFS block. From old/previous FFS format version struct block_header_old_s { uint8 flags; uint8 copied; uint8 magicflags; uint8 reserved0; uint16 magic_low; uint16 magic_high; uint16 reserved1; uint16 reserved2; }; // Block status. This struct holds the status of one ffs block This relation // is always valid: <block size> = <used> + <lost> + <free>. The block size // is obtained from the corresponding block_info structure. <used> and // <lost> variables always holds a value which is a multiple of // FFS_GRANULARITY. For inodes, <used> is number of inodes in active use, // <lost> is number of deleted/lost inodes, <numfiles> is the index of the // first free inode. struct block_stat_s { blocksize_t used; // number of used bytes blocksize_t lost; // number of lost bytes uint16 flags; // flash block flags (first 16 bits of each block) uint16 objects; // number of valid objects }; /****************************************************************************** * External declarations ******************************************************************************/ extern struct fs_s fs; extern struct block_stat_s bstat[FFS_BLOCKS_MAX]; extern struct ffs_stats_s stats; extern const struct block_info_s *binfo; /****************************************************************************** * Object Types ******************************************************************************/ // This enum MUST be in sync with the one in ffs.h. enum OBJECT_TYPE_E { // remaining filetypes are in ffs.h OT_ERASED = 0, OT_NULL = 7, OT_MASK = 7, OT_MAX = 4 }; // This enum MUST be in sync with the one in ffs.h. enum OBJECT_FLAGS_E { // remaining object flags are in ffs.h OF_UNDEF0 = 1<<5, OF_UNDEF1 = 1<<6, OF_EXACT = 1<<7, // used by control()/update_commit() interaction. This // is *not* an object flag! OF_ALL = OF_READONLY, // all flags allowed to be changed by user OF_MASK = 0xF0 }; struct inode_s { uint16 size; uint8 reserved; // size extension? objflags_t flags; iref_t child; // link to first inode in dir (this inode is a dir) iref_t sibling; // link to next inode in same directory location_t location; // location of object uint16 sequence; // uint16 updates; // times this object has been updated }; struct file_descriptor_s { char *buf; // Write buffer iref_t seghead; // First chunk. Contain file name and optional data iref_t wch; // Inode of work chunk (if chunk is read to buf) int fp; // File pointer int wfp; // Work file pointer always points to start of wch int size; // Size of object (all chunks and data from buf) int8 options; // Open options int dirty; // Indicate if buf contain valid data or not }; /****************************************************************************** * Journal types and global fs structure ******************************************************************************/ enum JOURNAL_FLAGS { JOURNAL_WRITING = 0x02, // journal is being written to journal file JOURNAL_READY = 0x04, // journal has been written to journal file JOURNAL_DONE = 0x08 // journal has been written to ffs }; enum JOURNAL_STATES { JOURNAL_IS_EMPTY = ~(0), JOURNAL_IS_WRITING = ~(JOURNAL_WRITING), JOURNAL_IS_READY = ~(JOURNAL_WRITING | JOURNAL_READY), JOURNAL_IS_DONE = ~(JOURNAL_WRITING | JOURNAL_READY | JOURNAL_DONE) }; // Journal entry structure. Note that the state byte *MUST* be the first // byte of the structure! struct journal_s { uint8 state; // state of journal entry. objflags_t flags; // type of object iref_t i; // iref of object iref_t diri; // iref of object that is this object's parent/sibling iref_t oldi; // iref of object being replaced (only for updates) location_t location; // object's location uint16 size; // object's size iref_t repli; // inode which is replaced }; // Main ffs info struct (initialised by ffs_initialize()) struct fs_s { struct inode_s *inodes_addr; // base address of inodes iref_t root; // iref of root directory bref_t inodes; // index into bstat containing inode block bref_t newinodes; // index into bstat containing new inode block bref_t blocks_free_min; // Number of spare blocks (0 or 1) int filesize_max; // Max size of object data int reserved_space; // Byte size of space reserved for journal relocation iref_t inodes_max; // Max number of inodes possible iref_t inodes_high; // number of inodes triggering an inodes_reclaim() iref_t objects_max; // Max number of objects (valid inodes) allowed age_t age_max; // Max block age found by blocks_fsck() iref_t block_files_max; // max number of files in a block iref_t block_files_reserved; // Reserved for journals uint16 format; // FFS version as formatted in flash blocks uint16 sequence; // Object sequence number (for debug only) effs_t initerror; // ffs_initialize() return code uint8 lost_threshold; // Threshold percentage for data block reclaim uint8 flags; // Global FFS options/flags uint8 filename_max; // Max length of a filename uint8 path_depth_max; // Max path componenents allowed uint8 numfds; // Mumber of available file descriptors uint8 testflags; int8 journal_depth; // Current journal nesting depth (0 or 1) iref_t ijournal; // iref of journal file uint32 journal_size; // Byte size of journal file uint32 journal_pos; // Byte offset to first free entry in journal file struct journal_s journal; uint8 fd_max; // number of max available file descriptors int fd_buf_size; // size of stream buffer struct file_descriptor_s fd[FFS_FD_MAX]; struct journal_s ojournal; // "Old" journal int link_child; // Link child in journal or not iref_t i_backup; // Used by ffs_file_write() int chunk_size_max; // Max size of one chunk int chunk_size_min; // Min size of one chunk uint32 debug[4]; }; // This is the layout of the FFS performance statistics file. The file is // created with the name ".statistics" in the root directory at format. It // is updated after each data and inodes reclaim (after writing the file // that provoked the reclaim). The file is only updated if it exists, so if // the user does not want the file, she can erase it after the initial // format. FIXME: The use of the .statistics file is not yet implemented struct ffs_stats_s { uint32 data_allocated; // implemented struct { // Not yet implemented uint32 created; uint32 updated; uint32 read; } files; struct { // Not yet implemented uint32 written[2]; uint32 read[2]; } bytes; struct { uint32 most_lost; // Block candidate uint32 most_unused; // Block candidate uint32 youngest; // Block candidate uint32 valid[2]; // Amount of valid reclaimed data uint32 lost[2]; // Amount of lost reclaimed data } drec; struct { uint32 num; // Number of inode reclaims uint32 valid; // Number of valid reclaimed inodes uint32 lost; // Number of lost reclaimed inodes } irec; }; extern struct ffs_stats_s stats; /****************************************************************************** * Miscellaneous types ******************************************************************************/ // only used with (FFS_TEST == 1) enum TEST_RECOVERY { JOURNAL_TEST_BASE = 0x10, JOURNAL_TEST_EMPTY, JOURNAL_TEST_WRITING, JOURNAL_TEST_READY, JOURNAL_TEST_COMMITTING, JOURNAL_TEST_COMMITTED, JOURNAL_TEST_DONE, BLOCK_COMMIT_BASE = 0x20, BLOCK_COMMIT_BEFORE, BLOCK_COMMIT_NO_VALID, BLOCK_COMMIT_OLD_FREE, BLOCK_COMMIT_AFTER, BLOCK_RECLAIM_BASE = 0x40, BLOCK_RECLAIM_ALLOC, BLOCK_RECLAIM_CLEANING, BLOCK_RECLAIM_NO_CLEAN, BLOCK_RECOVER_OBJECTS }; enum FLASH_DATA { FLASH_NULL8 = 0xFF, FLASH_NULL16 = 0xFFFF, FLASH_NULL32 = 0xFFFFFFFFL, IREF_NULL = FLASH_NULL16 }; // This enum MUST be in sync with the one in ffs.h. enum OBJECT_CONTROL { // remaining object control codes are in ffs.h OC_FS_FLAGS = 80, OC_TRACE_INIT = 82, OC_DEV_MANUFACT = 88, OC_DEV_DEVICE = 89, OC_DEBUG_FIRST = 120, OC_DEBUG_0 = 120, OC_DEBUG_1 = 121, OC_DEBUG_2 = 122, OC_DEBUG_3 = 123, OC_DEBUG_LAST = 123, OC_FS_TESTFLAGS = 127 }; enum FS_FLAGS { FS_DIR_DATA = 0x01 // allow directory objects to contain data. }; enum RECLAIM_CANDIDATE { MOST_LOST, MOST_UNUSED, YOUNGEST }; /****************************************************************************** * Macros ******************************************************************************/ // Convert between location and offset #define location2offset(location) ((location) << dev.atomlog2) #define offset2location(offset) (((uint32) offset) >> dev.atomlog2) // test if object is of a specific type #define is_object(objp, type) (((objp)->flags & OT_MASK) == (type)) // test if object is valid (directory, file or symlink) #define is_object_valid(ip) ((ip->flags & OT_MASK) <= OT_MAX && (ip->flags & OT_MASK) != OT_ERASED) // test if block is in a specific state #define is_block(block, state) (bstat[block].flags == (uint16) (state)) // test if block has certain flags set #define is_block_flag(block, bits) (IS_BIT_SET(bstat[block].flags, (bits))) // convert an object's data address to the address of the object's name #define addr2name(addr) (addr) // Convert a size to an aligned size #define atomalign(size) (((size) + dev.atomsize-1) & ~dev.atomnotmask) #define wordalign(size) (((size) + 3) & ~3) #define halfwordalign(size) (((size) + 1) & ~1) #define inode_addr(i) (fs.inodes_addr + i) #define JOURNAL_POS_INITIAL (wordalign(2 + sizeof(FFS_JOURNAL_NAME) + 1)) /****************************************************************************** * Function prototypes ******************************************************************************/ // Helper functions effs_t is_filename(const char *s); int ffs_strlen(const char *s); int ffs_strcmp(const char *s, const char *p); char *addr2data(const char *addr, const struct inode_s *ip); int object_datasize(iref_t i); iref_t is_readonly(iref_t i, const char *name); iref_t dir_traverse(iref_t i, iref_t *entries); bref_t block_alloc(bref_t n, uint16 flags); bref_t block_alloc_try(bref_t *n); void block_flags_write(uint8 block, uint8 flags); offset_t data_alloc(int size); offset_t data_alloc_try(int size); offset_t data_reserved_alloc(int size); iref_t inode_alloc(void); effs_t is_fd_valid(fd_t fdi); effs_t is_offset_in_buf(int offset, fd_t fdi); iref_t chunk_alloc(int realsize, int is_journal, offset_t *offset); iref_t inode_alloc_try(void); fd_t get_fdi(iref_t i); offset_t data_prealloc(int realsize); // Functions used by API effs_t object_update(iref_t oldi); iref_t object_create(const char *name, const char *buf, int size, iref_t dir); int file_read(const char *name, void *addr, int size); int stream_read(fd_t fdi, void *src, int size); int object_read(const char *name, char *buf, int size, int linkflag); iref_t object_stat(const char *name, struct xstat_s *stat, int linkflag, int fdi, int extended); effs_t object_remove(iref_t i); iref_t object_rename(iref_t oldi, const char *newname, iref_t newdir); effs_t object_control(iref_t i, int8 action, int value); int object_truncate(const char *pathname, fd_t fdi, offset_t length); iref_t object_lookup(const char *path, char **leaf, iref_t *dir); iref_t object_lookup_once(const char *path, char **leaf, iref_t *dir); iref_t dir_open(const char *name); iref_t dir_next (iref_t dir, iref_t i, char *name, int8 size); // Journalling void journal_begin(iref_t oldi); void journal_end(uint8 type); void journal_commit(uint8 type); int journal_push(void); int journal_pop(void); iref_t journal_create(iref_t oldi); effs_t journal_init(iref_t i); // Format, Init and Reclaim void block_preformat(bref_t b, age_t age); effs_t fs_preformat(void); effs_t is_formattable(int8 flag); effs_t fs_format(const char *fsname_and_options); effs_t ffs_initialize(void); void fs_params_init(const char *p); blocksize_t block_used(bref_t b); effs_t ffs_begin(void); int ffs_end(int error); int block_reclaim(bref_t b); int blocks_reclaim(void); void block_commit(void); iref_t data_reclaim(int space); int data_reclaim_try(int space); iref_t data_block_reclaim(bref_t b, int reclaim_candidate); iref_t object_relocate(iref_t oldi); iref_t block_clean(bref_t b); void block_free(bref_t block); void inodes_set(iref_t i); effs_t inodes_reclaim(void); int reclaim(void); // Internally used functions effs_t file_read_int(const char *path, void *src, int size); effs_t file_update(const char *path, void *src, int size); int statistics_file_create(void); int statistics_write(void); void statistics_init(void); void statistics_update_drec(int valid, int lost, int candidate); void statistics_update_irec(int valid, int lost); // Chunk Operations iref_t segment_create(const char *buf, int size, iref_t dir); int segment_datasize(const struct inode_s *ip); int segment_read(iref_t i, char *buf, int size, int offset); iref_t segment_next(iref_t i); iref_t segment_traverse(iref_t i, iref_t *entries); int segfile_seek(iref_t in_i, int in_pos, iref_t *out_i, int *out_pos_i); iref_t chunk_traverse(iref_t i); effs_t datasync(fd_t fdi); // debug/test functions void tr_bstat(void); void tr_fd(fd_t fdi); // These prototypes really belong in ffs.h but as they have not been // implemented, we will not show these prototypes to application // programmers. effs_t fcntl(fd_t fd, int8 action, uint32 *param);