#ifndef FS_H #define FS_H #include #include #include #include #include #include #include #include #include "core.h" #include "disk.h" /* * Maximum number of open files. */ #define MAX_OPEN_LG2 7 #define MAX_OPEN (1 << MAX_OPEN_LG2) #define FILENAME_MAX_LG2 8 #define FILENAME_MAX (1 << FILENAME_MAX_LG2) #define CURRENTDIR_MAX FILENAME_MAX #define BLOCK_SIZE(fs) ((fs)->block_size) #define BLOCK_SHIFT(fs) ((fs)->block_shift) #define SECTOR_SIZE(fs) ((fs)->sector_size) #define SECTOR_SHIFT(fs) ((fs)->sector_shift) struct fs_info { const struct fs_ops *fs_ops; struct device *fs_dev; void *fs_info; /* The fs-specific information */ int sector_shift, sector_size; int block_shift, block_size; struct inode *root, *cwd; /* Root and current directories */ char cwd_name[CURRENTDIR_MAX]; /* Current directory by name */ }; extern struct fs_info *this_fs; struct dirent; /* Directory entry structure */ struct file; enum fs_flags { FS_NODEV = 1 << 0, FS_USEMEM = 1 << 1, /* If we need a malloc routine, set it */ FS_THISIND = 1 << 2, /* Set cwd based on config file location */ }; struct fs_ops { /* in fact, we use fs_ops structure to find the right fs */ const char *fs_name; enum fs_flags fs_flags; int (*fs_init)(struct fs_info *); void (*searchdir)(const char *, int, struct file *); uint32_t (*getfssec)(struct file *, char *, int, bool *); void (*close_file)(struct file *); void (*mangle_name)(char *, const char *); size_t (*realpath)(struct fs_info *, char *, const char *, size_t); int (*chdir)(struct fs_info *, const char *); int (*chdir_start)(void); int (*open_config)(struct com32_filedata *); struct inode * (*iget_root)(struct fs_info *); struct inode * (*iget)(const char *, struct inode *); int (*readlink)(struct inode *, char *); /* the _dir_ stuff */ int (*readdir)(struct file *, struct dirent *); int (*next_extent)(struct inode *, uint32_t); int (*copy_super)(void *buf); char * (*fs_uuid)(struct fs_info *); }; /* * Extent structure: contains the mapping of some chunk of a file * that is contiguous on disk. */ struct extent { sector_t pstart; /* Physical start sector */ uint32_t lstart; /* Logical start sector */ uint32_t len; /* Number of contiguous sectors */ }; /* Special sector numbers used for struct extent.pstart */ #define EXTENT_ZERO ((sector_t)-1) /* All-zero extent */ #define EXTENT_VOID ((sector_t)-2) /* Invalid information */ #define EXTENT_SPECIAL(x) ((x) >= EXTENT_VOID) /* * The inode structure, including the detail file information */ struct inode { struct fs_info *fs; /* The filesystem this inode is associated with */ struct inode *parent; /* Parent directory, if any */ const char *name; /* Name, valid for generic path search only */ int refcnt; int mode; /* FILE , DIR or SYMLINK */ uint64_t size; uint64_t blocks; /* How many blocks the file take */ uint64_t ino; /* Inode number */ uint32_t atime; /* Access time */ uint32_t mtime; /* Modify time */ uint32_t ctime; /* Create time */ uint32_t dtime; /* Delete time */ uint32_t flags; uint32_t file_acl; struct extent this_extent, next_extent; char pvt[0]; /* Private filesystem data */ }; struct file { struct fs_info *fs; uint32_t offset; /* for next read */ struct inode *inode; /* The file-specific information */ }; /* * Struct device contains: * the pointer points to the disk structure, * the cache stuff. */ struct cache; struct device { struct disk *disk; /* the cache stuff */ uint8_t cache_init; /* cache initialized state */ char *cache_data; struct cache *cache_head; uint16_t cache_block_size; uint16_t cache_entries; uint32_t cache_size; }; /* * Our definition of "not whitespace" */ static inline bool not_whitespace(char c) { return (unsigned char)c > ' '; } /* * Inode allocator/deallocator */ struct inode *alloc_inode(struct fs_info *fs, uint32_t ino, size_t data); static inline void free_inode(struct inode * inode) { free(inode); } static inline struct inode *get_inode(struct inode *inode) { inode->refcnt++; dprintf("get_inode %p name %s refcnt %d\n", inode, inode->name, inode->refcnt); return inode; } void put_inode(struct inode *inode); static inline void malloc_error(char *obj) { printf("Out of memory: can't allocate memory for %s\n", obj); kaboom(); } /* * File handle conversion functions */ extern struct file files[]; static inline uint16_t file_to_handle(struct file *file) { return file ? (file - files)+1 : 0; } static inline struct file *handle_to_file(uint16_t handle) { return handle ? &files[handle-1] : NULL; } struct path_entry { struct list_head list; const char *str; }; extern struct list_head PATH; extern struct path_entry *path_add(const char *str); /* fs.c */ void fs_init(const struct fs_ops **ops, void *priv); void pm_mangle_name(com32sys_t *); void pm_searchdir(com32sys_t *); void mangle_name(char *, const char *); int searchdir(const char *name, int flags); void _close_file(struct file *); size_t pmapi_read_file(uint16_t *handle, void *buf, size_t sectors); int open_file(const char *name, int flags, struct com32_filedata *filedata); void pm_open_file(com32sys_t *); void close_file(uint16_t handle); void pm_close_file(com32sys_t *); int open_config(void); char *fs_uuid(void); extern uint16_t SectorShift; /* chdir.c */ void pm_realpath(com32sys_t *regs); size_t realpath(char *dst, const char *src, size_t bufsize); int chdir(const char *src); /* readdir.c */ DIR *opendir(const char *pathname); struct dirent *readdir(DIR *dir); int closedir(DIR *dir); /* getcwd.c */ char *core_getcwd(char *buf, size_t size); /* * Generic functions that filesystem drivers may choose to use */ /* chdir.c */ int generic_chdir_start(void); /* mangle.c */ void generic_mangle_name(char *, const char *); /* loadconfig.c */ int search_dirs(struct com32_filedata *filedata, const char *search_directores[], const char *filenames[], char *realname); int generic_open_config(struct com32_filedata *filedata); /* close.c */ void generic_close_file(struct file *file); /* getfssec.c */ uint32_t generic_getfssec(struct file *file, char *buf, int sectors, bool *have_more); /* nonextextent.c */ int no_next_extent(struct inode *, uint32_t); #endif /* FS_H */