/* * e4defrag.c - ext4 filesystem defragmenter * * Copyright (C) 2009 NEC Software Tohoku, Ltd. * * Author: Akira Fujita <a-fujita@rs.jp.nec.com> * Takashi Sato <t-sato@yk.jp.nec.com> */ #ifndef _LARGEFILE_SOURCE #define _LARGEFILE_SOURCE #endif #ifndef _LARGEFILE64_SOURCE #define _LARGEFILE64_SOURCE #endif #ifndef _GNU_SOURCE #define _GNU_SOURCE #endif #include "config.h" #include <ctype.h> #include <dirent.h> #include <endian.h> #include <errno.h> #include <fcntl.h> #include <ftw.h> #include <limits.h> #include <mntent.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <unistd.h> #include <ext2fs/ext2_types.h> #include <ext2fs/ext2fs.h> #include <sys/ioctl.h> #include <ext2fs/fiemap.h> #include <sys/mman.h> #include <sys/stat.h> #include <sys/statfs.h> #include <sys/vfs.h> #include "../version.h" /* A relatively new ioctl interface ... */ #ifndef EXT4_IOC_MOVE_EXT #define EXT4_IOC_MOVE_EXT _IOWR('f', 15, struct move_extent) #endif /* Macro functions */ #define PRINT_ERR_MSG(msg) fprintf(stderr, "%s\n", (msg)) #define IN_FTW_PRINT_ERR_MSG(msg) \ fprintf(stderr, "\t%s\t\t[ NG ]\n", (msg)) #define PRINT_FILE_NAME(file) fprintf(stderr, " \"%s\"\n", (file)) #define PRINT_ERR_MSG_WITH_ERRNO(msg) \ fprintf(stderr, "\t%s:%s\t[ NG ]\n", (msg), strerror(errno)) #define STATISTIC_ERR_MSG(msg) \ fprintf(stderr, "\t%s\n", (msg)) #define STATISTIC_ERR_MSG_WITH_ERRNO(msg) \ fprintf(stderr, "\t%s:%s\n", (msg), strerror(errno)) #define min(x, y) (((x) > (y)) ? (y) : (x)) #define CALC_SCORE(ratio) \ ((ratio) > 10 ? (80 + 20 * (ratio) / 100) : (8 * (ratio))) /* Wrap up the free function */ #define FREE(tmp) \ do { \ if ((tmp) != NULL) \ free(tmp); \ } while (0) \ /* Insert list2 after list1 */ #define insert(list1, list2) \ do { \ list2->next = list1->next; \ list1->next->prev = list2; \ list2->prev = list1; \ list1->next = list2; \ } while (0) /* To delete unused warning */ #ifdef __GNUC__ #define EXT2FS_ATTR(x) __attribute__(x) #else #define EXT2FS_ATTR(x) #endif /* The mode of defrag */ #define DETAIL 0x01 #define STATISTIC 0x02 #define DEVNAME 0 #define DIRNAME 1 #define FILENAME 2 #define FTW_OPEN_FD 2000 #define FS_EXT4 "ext4" #define ROOT_UID 0 #define BOUND_SCORE 55 #define SHOW_FRAG_FILES 5 /* Magic number for ext4 */ #define EXT4_SUPER_MAGIC 0xEF53 /* Definition of flex_bg */ #define EXT4_FEATURE_INCOMPAT_FLEX_BG 0x0200 /* The following macro is used for ioctl FS_IOC_FIEMAP * EXTENT_MAX_COUNT: the maximum number of extents for exchanging between * kernel-space and user-space per ioctl */ #define EXTENT_MAX_COUNT 512 /* The following macros are error message */ #define MSG_USAGE \ "Usage : e4defrag [-v] file...| directory...| device...\n\ : e4defrag -c file...| directory...| device...\n" #define NGMSG_EXT4 "Filesystem is not ext4 filesystem" #define NGMSG_FILE_EXTENT "Failed to get file extents" #define NGMSG_FILE_INFO "Failed to get file information" #define NGMSG_FILE_OPEN "Failed to open" #define NGMSG_FILE_UNREG "File is not regular file" #define NGMSG_LOST_FOUND "Can not process \"lost+found\"" /* Data type for filesystem-wide blocks number */ typedef unsigned long long ext4_fsblk_t; struct fiemap_extent_data { __u64 len; /* blocks count */ __u64 logical; /* start logical block number */ ext4_fsblk_t physical; /* start physical block number */ }; struct fiemap_extent_list { struct fiemap_extent_list *prev; struct fiemap_extent_list *next; struct fiemap_extent_data data; /* extent belong to file */ }; struct fiemap_extent_group { struct fiemap_extent_group *prev; struct fiemap_extent_group *next; __u64 len; /* length of this continuous region */ struct fiemap_extent_list *start; /* start ext */ struct fiemap_extent_list *end; /* end ext */ }; struct move_extent { __s32 reserved; /* original file descriptor */ __u32 donor_fd; /* donor file descriptor */ __u64 orig_start; /* logical start offset in block for orig */ __u64 donor_start; /* logical start offset in block for donor */ __u64 len; /* block length to be moved */ __u64 moved_len; /* moved block length */ }; struct frag_statistic_ino { int now_count; /* the file's extents count of before defrag */ int best_count; /* the best file's extents count */ __u64 size_per_ext; /* size(KB) per extent */ float ratio; /* the ratio of fragmentation */ char msg_buffer[PATH_MAX + 1]; /* pathname of the file */ }; static char lost_found_dir[PATH_MAX + 1]; static int block_size; static int extents_before_defrag; static int extents_after_defrag; static int mode_flag; static unsigned int current_uid; static unsigned int defraged_file_count; static unsigned int frag_files_before_defrag; static unsigned int frag_files_after_defrag; static unsigned int regular_count; static unsigned int succeed_cnt; static unsigned int total_count; static __u8 log_groups_per_flex; static __u32 blocks_per_group; static __u32 feature_incompat; static ext4_fsblk_t files_block_count; static struct frag_statistic_ino frag_rank[SHOW_FRAG_FILES]; /* * We prefer posix_fadvise64 when available, as it allows 64bit offset on * 32bit systems */ #if defined(HAVE_POSIX_FADVISE64) #define posix_fadvise posix_fadvise64 #elif defined(HAVE_FADVISE64) #define posix_fadvise fadvise64 #elif !defined(HAVE_POSIX_FADVISE) #error posix_fadvise not available! #endif #ifndef HAVE_FALLOCATE64 #error fallocate64 not available! #endif /* ! HAVE_FALLOCATE64 */ /* * get_mount_point() - Get device's mount point. * * @devname: the device's name. * @mount_point: the mount point. * @dir_path_len: the length of directory. */ static int get_mount_point(const char *devname, char *mount_point, int dir_path_len) { /* Refer to /etc/mtab */ const char *mtab = MOUNTED; FILE *fp = NULL; struct mntent *mnt = NULL; struct stat64 sb; if (stat64(devname, &sb) < 0) { perror(NGMSG_FILE_INFO); PRINT_FILE_NAME(devname); return -1; } fp = setmntent(mtab, "r"); if (fp == NULL) { perror("Couldn't access /etc/mtab"); return -1; } while ((mnt = getmntent(fp)) != NULL) { struct stat64 ms; /* * To handle device symlinks, we see if the * device number matches, not the name */ if (stat64(mnt->mnt_fsname, &ms) < 0) continue; if (sb.st_rdev != ms.st_rdev) continue; endmntent(fp); if (strcmp(mnt->mnt_type, FS_EXT4) == 0) { strncpy(mount_point, mnt->mnt_dir, dir_path_len); return 0; } PRINT_ERR_MSG(NGMSG_EXT4); return -1; } endmntent(fp); PRINT_ERR_MSG("Filesystem is not mounted"); return -1; } /* * is_ext4() - Whether on an ext4 filesystem. * * @file: the file's name. */ static int is_ext4(const char *file, char *devname) { int maxlen = 0; int len, ret; FILE *fp = NULL; char *mnt_type = NULL; /* Refer to /etc/mtab */ const char *mtab = MOUNTED; char file_path[PATH_MAX + 1]; struct mntent *mnt = NULL; struct statfs64 fsbuf; /* Get full path */ if (realpath(file, file_path) == NULL) { perror("Couldn't get full path"); PRINT_FILE_NAME(file); return -1; } if (statfs64(file_path, &fsbuf) < 0) { perror("Failed to get filesystem information"); PRINT_FILE_NAME(file); return -1; } if (fsbuf.f_type != EXT4_SUPER_MAGIC) { PRINT_ERR_MSG(NGMSG_EXT4); return -1; } fp = setmntent(mtab, "r"); if (fp == NULL) { perror("Couldn't access /etc/mtab"); return -1; } while ((mnt = getmntent(fp)) != NULL) { if (mnt->mnt_fsname[0] != '/') continue; len = strlen(mnt->mnt_dir); ret = memcmp(file_path, mnt->mnt_dir, len); if (ret != 0) continue; if (maxlen >= len) continue; maxlen = len; mnt_type = realloc(mnt_type, strlen(mnt->mnt_type) + 1); if (mnt_type == NULL) { endmntent(fp); return -1; } memset(mnt_type, 0, strlen(mnt->mnt_type) + 1); strncpy(mnt_type, mnt->mnt_type, strlen(mnt->mnt_type)); strncpy(lost_found_dir, mnt->mnt_dir, PATH_MAX); strncpy(devname, mnt->mnt_fsname, strlen(mnt->mnt_fsname) + 1); } endmntent(fp); if (mnt_type && strcmp(mnt_type, FS_EXT4) == 0) { FREE(mnt_type); return 0; } else { FREE(mnt_type); PRINT_ERR_MSG(NGMSG_EXT4); return -1; } } /* * calc_entry_counts() - Calculate file counts. * * @file: file name. * @buf: file info. * @flag: file type. * @ftwbuf: the pointer of a struct FTW. */ static int calc_entry_counts(const char *file EXT2FS_ATTR((unused)), const struct stat64 *buf, int flag EXT2FS_ATTR((unused)), struct FTW *ftwbuf EXT2FS_ATTR((unused))) { if (S_ISREG(buf->st_mode)) regular_count++; total_count++; return 0; } /* * page_in_core() - Get information on whether pages are in core. * * @fd: defrag target file's descriptor. * @defrag_data: data used for defrag. * @vec: page state array. * @page_num: page number. */ static int page_in_core(int fd, struct move_extent defrag_data, unsigned char **vec, unsigned int *page_num) { long pagesize; void *page = NULL; loff_t offset, end_offset, length; if (vec == NULL || *vec != NULL) return -1; pagesize = sysconf(_SC_PAGESIZE); if (pagesize < 0) return -1; /* In mmap, offset should be a multiple of the page size */ offset = (loff_t)defrag_data.orig_start * block_size; length = (loff_t)defrag_data.len * block_size; end_offset = offset + length; /* Round the offset down to the nearest multiple of pagesize */ offset = (offset / pagesize) * pagesize; length = end_offset - offset; page = mmap(NULL, length, PROT_READ, MAP_SHARED, fd, offset); if (page == MAP_FAILED) return -1; *page_num = 0; *page_num = (length + pagesize - 1) / pagesize; *vec = (unsigned char *)calloc(*page_num, 1); if (*vec == NULL) { munmap(page, length); return -1; } /* Get information on whether pages are in core */ if (mincore(page, (size_t)length, *vec) == -1 || munmap(page, length) == -1) { FREE(*vec); return -1; } return 0; } /* * defrag_fadvise() - Predeclare an access pattern for file data. * * @fd: defrag target file's descriptor. * @defrag_data: data used for defrag. * @vec: page state array. * @page_num: page number. */ static int defrag_fadvise(int fd, struct move_extent defrag_data, unsigned char *vec, unsigned int page_num) { int flag = 1; long pagesize = sysconf(_SC_PAGESIZE); int fadvise_flag = POSIX_FADV_DONTNEED; int sync_flag = SYNC_FILE_RANGE_WAIT_BEFORE | SYNC_FILE_RANGE_WRITE | SYNC_FILE_RANGE_WAIT_AFTER; unsigned int i; loff_t offset; if (pagesize < 1) return -1; offset = (loff_t)defrag_data.orig_start * block_size; offset = (offset / pagesize) * pagesize; #ifdef HAVE_SYNC_FILE_RANGE /* Sync file for fadvise process */ if (sync_file_range(fd, offset, (loff_t)pagesize * page_num, sync_flag) < 0) return -1; #endif /* Try to release buffer cache which this process used, * then other process can use the released buffer */ for (i = 0; i < page_num; i++) { if ((vec[i] & 0x1) == 0) { offset += pagesize; continue; } if (posix_fadvise(fd, offset, pagesize, fadvise_flag) < 0) { if ((mode_flag & DETAIL) && flag) { perror("\tFailed to fadvise"); flag = 0; } } offset += pagesize; } return 0; } /* * check_free_size() - Check if there's enough disk space. * * @fd: defrag target file's descriptor. * @file: file name. * @blk_count: file blocks. */ static int check_free_size(int fd, const char *file, ext4_fsblk_t blk_count) { ext4_fsblk_t free_blk_count; struct statfs64 fsbuf; if (fstatfs64(fd, &fsbuf) < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); PRINT_ERR_MSG_WITH_ERRNO( "Failed to get filesystem information"); } return -1; } /* Compute free space for root and normal user separately */ if (current_uid == ROOT_UID) free_blk_count = fsbuf.f_bfree; else free_blk_count = fsbuf.f_bavail; if (free_blk_count >= blk_count) return 0; return -ENOSPC; } /* * file_frag_count() - Get file fragment count. * * @fd: defrag target file's descriptor. */ static int file_frag_count(int fd) { int ret; struct fiemap fiemap_buf; /* When fm_extent_count is 0, * ioctl just get file fragment count. */ memset(&fiemap_buf, 0, sizeof(struct fiemap)); fiemap_buf.fm_start = 0; fiemap_buf.fm_length = FIEMAP_MAX_OFFSET; fiemap_buf.fm_flags |= FIEMAP_FLAG_SYNC; ret = ioctl(fd, FS_IOC_FIEMAP, &fiemap_buf); if (ret < 0) return ret; return fiemap_buf.fm_mapped_extents; } /* * file_check() - Check file's attributes. * * @fd: defrag target file's descriptor. * @buf: a pointer of the struct stat64. * @file: file name. * @extents: file extents. * @blk_count: file blocks. */ static int file_check(int fd, const struct stat64 *buf, const char *file, int extents, ext4_fsblk_t blk_count) { int ret; struct flock lock; /* Write-lock check is more reliable */ lock.l_type = F_WRLCK; lock.l_start = 0; lock.l_whence = SEEK_SET; lock.l_len = 0; /* Free space */ ret = check_free_size(fd, file, blk_count); if (ret < 0) { if ((mode_flag & DETAIL) && ret == -ENOSPC) { printf("\033[79;0H\033[K[%u/%u] \"%s\"\t\t" " extents: %d -> %d\n", defraged_file_count, total_count, file, extents, extents); IN_FTW_PRINT_ERR_MSG( "Defrag size is larger than filesystem's free space"); } return -1; } /* Access authority */ if (current_uid != ROOT_UID && buf->st_uid != current_uid) { if (mode_flag & DETAIL) { printf("\033[79;0H\033[K[%u/%u] \"%s\"\t\t" " extents: %d -> %d\n", defraged_file_count, total_count, file, extents, extents); IN_FTW_PRINT_ERR_MSG( "File is not current user's file" " or current user is not root"); } return -1; } /* Lock status */ if (fcntl(fd, F_GETLK, &lock) < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); PRINT_ERR_MSG_WITH_ERRNO( "Failed to get lock information"); } return -1; } else if (lock.l_type != F_UNLCK) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); IN_FTW_PRINT_ERR_MSG("File has been locked"); } return -1; } return 0; } /* * insert_extent_by_logical() - Sequentially insert extent by logical. * * @ext_list_head: the head of logical extent list. * @ext: the extent element which will be inserted. */ static int insert_extent_by_logical(struct fiemap_extent_list **ext_list_head, struct fiemap_extent_list *ext) { struct fiemap_extent_list *ext_list_tmp = *ext_list_head; if (ext == NULL) goto out; /* First element */ if (*ext_list_head == NULL) { (*ext_list_head) = ext; (*ext_list_head)->prev = *ext_list_head; (*ext_list_head)->next = *ext_list_head; return 0; } if (ext->data.logical <= ext_list_tmp->data.logical) { /* Insert before head */ if (ext_list_tmp->data.logical < ext->data.logical + ext->data.len) /* Overlap */ goto out; /* Adjust head */ *ext_list_head = ext; } else { /* Insert into the middle or last of the list */ do { if (ext->data.logical < ext_list_tmp->data.logical) break; ext_list_tmp = ext_list_tmp->next; } while (ext_list_tmp != (*ext_list_head)); if (ext->data.logical < ext_list_tmp->prev->data.logical + ext_list_tmp->prev->data.len) /* Overlap */ goto out; if (ext_list_tmp != *ext_list_head && ext_list_tmp->data.logical < ext->data.logical + ext->data.len) /* Overlap */ goto out; } ext_list_tmp = ext_list_tmp->prev; /* Insert "ext" after "ext_list_tmp" */ insert(ext_list_tmp, ext); return 0; out: errno = EINVAL; return -1; } /* * insert_extent_by_physical() - Sequentially insert extent by physical. * * @ext_list_head: the head of physical extent list. * @ext: the extent element which will be inserted. */ static int insert_extent_by_physical(struct fiemap_extent_list **ext_list_head, struct fiemap_extent_list *ext) { struct fiemap_extent_list *ext_list_tmp = *ext_list_head; if (ext == NULL) goto out; /* First element */ if (*ext_list_head == NULL) { (*ext_list_head) = ext; (*ext_list_head)->prev = *ext_list_head; (*ext_list_head)->next = *ext_list_head; return 0; } if (ext->data.physical <= ext_list_tmp->data.physical) { /* Insert before head */ if (ext_list_tmp->data.physical < ext->data.physical + ext->data.len) /* Overlap */ goto out; /* Adjust head */ *ext_list_head = ext; } else { /* Insert into the middle or last of the list */ do { if (ext->data.physical < ext_list_tmp->data.physical) break; ext_list_tmp = ext_list_tmp->next; } while (ext_list_tmp != (*ext_list_head)); if (ext->data.physical < ext_list_tmp->prev->data.physical + ext_list_tmp->prev->data.len) /* Overlap */ goto out; if (ext_list_tmp != *ext_list_head && ext_list_tmp->data.physical < ext->data.physical + ext->data.len) /* Overlap */ goto out; } ext_list_tmp = ext_list_tmp->prev; /* Insert "ext" after "ext_list_tmp" */ insert(ext_list_tmp, ext); return 0; out: errno = EINVAL; return -1; } /* * insert_exts_group() - Insert a exts_group. * * @ext_group_head: the head of a exts_group list. * @exts_group: the exts_group element which will be inserted. */ static int insert_exts_group(struct fiemap_extent_group **ext_group_head, struct fiemap_extent_group *exts_group) { struct fiemap_extent_group *ext_group_tmp = NULL; if (exts_group == NULL) { errno = EINVAL; return -1; } /* Initialize list */ if (*ext_group_head == NULL) { (*ext_group_head) = exts_group; (*ext_group_head)->prev = *ext_group_head; (*ext_group_head)->next = *ext_group_head; return 0; } ext_group_tmp = (*ext_group_head)->prev; insert(ext_group_tmp, exts_group); return 0; } /* * join_extents() - Find continuous region(exts_group). * * @ext_list_head: the head of the extent list. * @ext_group_head: the head of the target exts_group list. */ static int join_extents(struct fiemap_extent_list *ext_list_head, struct fiemap_extent_group **ext_group_head) { __u64 len = ext_list_head->data.len; struct fiemap_extent_list *ext_list_start = ext_list_head; struct fiemap_extent_list *ext_list_tmp = ext_list_head->next; do { struct fiemap_extent_group *ext_group_tmp = NULL; /* This extent and previous extent are not continuous, * so, all previous extents are treated as an extent group. */ if ((ext_list_tmp->prev->data.logical + ext_list_tmp->prev->data.len) != ext_list_tmp->data.logical) { ext_group_tmp = malloc(sizeof(struct fiemap_extent_group)); if (ext_group_tmp == NULL) return -1; memset(ext_group_tmp, 0, sizeof(struct fiemap_extent_group)); ext_group_tmp->len = len; ext_group_tmp->start = ext_list_start; ext_group_tmp->end = ext_list_tmp->prev; if (insert_exts_group(ext_group_head, ext_group_tmp) < 0) { FREE(ext_group_tmp); return -1; } ext_list_start = ext_list_tmp; len = ext_list_tmp->data.len; ext_list_tmp = ext_list_tmp->next; continue; } /* This extent and previous extent are continuous, * so, they belong to the same extent group, and we check * if the next extent belongs to the same extent group. */ len += ext_list_tmp->data.len; ext_list_tmp = ext_list_tmp->next; } while (ext_list_tmp != ext_list_head->next); return 0; } /* * get_file_extents() - Get file's extent list. * * @fd: defrag target file's descriptor. * @ext_list_head: the head of the extent list. */ static int get_file_extents(int fd, struct fiemap_extent_list **ext_list_head) { __u32 i; int ret; int ext_buf_size, fie_buf_size; __u64 pos = 0; struct fiemap *fiemap_buf = NULL; struct fiemap_extent *ext_buf = NULL; struct fiemap_extent_list *ext_list = NULL; /* Convert units, in bytes. * Be careful : now, physical block number in extent is 48bit, * and the maximum blocksize for ext4 is 4K(12bit), * so there is no overflow, but in future it may be changed. */ /* Alloc space for fiemap */ ext_buf_size = EXTENT_MAX_COUNT * sizeof(struct fiemap_extent); fie_buf_size = sizeof(struct fiemap) + ext_buf_size; fiemap_buf = malloc(fie_buf_size); if (fiemap_buf == NULL) return -1; ext_buf = fiemap_buf->fm_extents; memset(fiemap_buf, 0, fie_buf_size); fiemap_buf->fm_length = FIEMAP_MAX_OFFSET; fiemap_buf->fm_flags |= FIEMAP_FLAG_SYNC; fiemap_buf->fm_extent_count = EXTENT_MAX_COUNT; do { fiemap_buf->fm_start = pos; memset(ext_buf, 0, ext_buf_size); ret = ioctl(fd, FS_IOC_FIEMAP, fiemap_buf); if (ret < 0 || fiemap_buf->fm_mapped_extents == 0) goto out; for (i = 0; i < fiemap_buf->fm_mapped_extents; i++) { ext_list = NULL; ext_list = malloc(sizeof(struct fiemap_extent_list)); if (ext_list == NULL) goto out; ext_list->data.physical = ext_buf[i].fe_physical / block_size; ext_list->data.logical = ext_buf[i].fe_logical / block_size; ext_list->data.len = ext_buf[i].fe_length / block_size; ret = insert_extent_by_physical( ext_list_head, ext_list); if (ret < 0) { FREE(ext_list); goto out; } } /* Record file's logical offset this time */ pos = ext_buf[EXTENT_MAX_COUNT-1].fe_logical + ext_buf[EXTENT_MAX_COUNT-1].fe_length; /* * If fm_extents array has been filled and * there are extents left, continue to cycle. */ } while (fiemap_buf->fm_mapped_extents == EXTENT_MAX_COUNT && !(ext_buf[EXTENT_MAX_COUNT-1].fe_flags & FIEMAP_EXTENT_LAST)); FREE(fiemap_buf); return 0; out: FREE(fiemap_buf); return -1; } /* * get_logical_count() - Get the file logical extents count. * * @logical_list_head: the head of the logical extent list. */ static int get_logical_count(struct fiemap_extent_list *logical_list_head) { int ret = 0; struct fiemap_extent_list *ext_list_tmp = logical_list_head; do { ret++; ext_list_tmp = ext_list_tmp->next; } while (ext_list_tmp != logical_list_head); return ret; } /* * get_physical_count() - Get the file physical extents count. * * @physical_list_head: the head of the physical extent list. */ static int get_physical_count(struct fiemap_extent_list *physical_list_head) { int ret = 0; struct fiemap_extent_list *ext_list_tmp = physical_list_head; do { if ((ext_list_tmp->data.physical + ext_list_tmp->data.len) != ext_list_tmp->next->data.physical || (ext_list_tmp->data.logical + ext_list_tmp->data.len) != ext_list_tmp->next->data.logical) { /* This extent and next extent are not continuous. */ ret++; } ext_list_tmp = ext_list_tmp->next; } while (ext_list_tmp != physical_list_head); return ret; } /* * change_physical_to_logical() - Change list from physical to logical. * * @physical_list_head: the head of physical extent list. * @logical_list_head: the head of logical extent list. */ static int change_physical_to_logical( struct fiemap_extent_list **physical_list_head, struct fiemap_extent_list **logical_list_head) { int ret; struct fiemap_extent_list *ext_list_tmp = *physical_list_head; struct fiemap_extent_list *ext_list_next = ext_list_tmp->next; while (1) { if (ext_list_tmp == ext_list_next) { ret = insert_extent_by_logical( logical_list_head, ext_list_tmp); if (ret < 0) return -1; *physical_list_head = NULL; break; } ext_list_tmp->prev->next = ext_list_tmp->next; ext_list_tmp->next->prev = ext_list_tmp->prev; *physical_list_head = ext_list_next; ret = insert_extent_by_logical( logical_list_head, ext_list_tmp); if (ret < 0) { FREE(ext_list_tmp); return -1; } ext_list_tmp = ext_list_next; ext_list_next = ext_list_next->next; } return 0; } /* get_file_blocks() - Get total file blocks. * * @ext_list_head: the extent list head of the target file */ static ext4_fsblk_t get_file_blocks(struct fiemap_extent_list *ext_list_head) { ext4_fsblk_t blk_count = 0; struct fiemap_extent_list *ext_list_tmp = ext_list_head; do { blk_count += ext_list_tmp->data.len; ext_list_tmp = ext_list_tmp->next; } while (ext_list_tmp != ext_list_head); return blk_count; } /* * free_ext() - Free the extent list. * * @ext_list_head: the extent list head of which will be free. */ static void free_ext(struct fiemap_extent_list *ext_list_head) { struct fiemap_extent_list *ext_list_tmp = NULL; if (ext_list_head == NULL) return; while (ext_list_head->next != ext_list_head) { ext_list_tmp = ext_list_head; ext_list_head->prev->next = ext_list_head->next; ext_list_head->next->prev = ext_list_head->prev; ext_list_head = ext_list_head->next; free(ext_list_tmp); } free(ext_list_head); } /* * free_exts_group() - Free the exts_group. * * @*ext_group_head: the exts_group list head which will be free. */ static void free_exts_group(struct fiemap_extent_group *ext_group_head) { struct fiemap_extent_group *ext_group_tmp = NULL; if (ext_group_head == NULL) return; while (ext_group_head->next != ext_group_head) { ext_group_tmp = ext_group_head; ext_group_head->prev->next = ext_group_head->next; ext_group_head->next->prev = ext_group_head->prev; ext_group_head = ext_group_head->next; free(ext_group_tmp); } free(ext_group_head); } /* * get_best_count() - Get the file best extents count. * * @block_count: the file's physical block count. */ static int get_best_count(ext4_fsblk_t block_count) { int ret; unsigned int flex_bg_num; /* Calculate best extents count */ if (feature_incompat & EXT4_FEATURE_INCOMPAT_FLEX_BG) { flex_bg_num = 1 << log_groups_per_flex; ret = ((block_count - 1) / ((ext4_fsblk_t)blocks_per_group * flex_bg_num)) + 1; } else ret = ((block_count - 1) / blocks_per_group) + 1; return ret; } /* * file_statistic() - Get statistic info of the file's fragments. * * @file: the file's name. * @buf: the pointer of the struct stat64. * @flag: file type. * @ftwbuf: the pointer of a struct FTW. */ static int file_statistic(const char *file, const struct stat64 *buf, int flag EXT2FS_ATTR((unused)), struct FTW *ftwbuf EXT2FS_ATTR((unused))) { int fd; int ret; int now_ext_count, best_ext_count = 0, physical_ext_count; int i, j; __u64 size_per_ext = 0; float ratio = 0.0; ext4_fsblk_t blk_count = 0; char msg_buffer[PATH_MAX + 24]; struct fiemap_extent_list *physical_list_head = NULL; struct fiemap_extent_list *logical_list_head = NULL; defraged_file_count++; if (mode_flag & DETAIL) { if (total_count == 1 && regular_count == 1) printf("<File>\n"); else { printf("[%u/%u]", defraged_file_count, total_count); fflush(stdout); } } if (lost_found_dir[0] != '\0' && !memcmp(file, lost_found_dir, strnlen(lost_found_dir, PATH_MAX))) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); STATISTIC_ERR_MSG(NGMSG_LOST_FOUND); } return 0; } if (!S_ISREG(buf->st_mode)) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); STATISTIC_ERR_MSG(NGMSG_FILE_UNREG); } return 0; } /* Access authority */ if (current_uid != ROOT_UID && buf->st_uid != current_uid) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); STATISTIC_ERR_MSG( "File is not current user's file" " or current user is not root"); } return 0; } /* Empty file */ if (buf->st_size == 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); STATISTIC_ERR_MSG("File size is 0"); } return 0; } /* Has no blocks */ if (buf->st_blocks == 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); STATISTIC_ERR_MSG("File has no blocks"); } return 0; } fd = open64(file, O_RDONLY); if (fd < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); STATISTIC_ERR_MSG_WITH_ERRNO(NGMSG_FILE_OPEN); } return 0; } /* Get file's physical extents */ ret = get_file_extents(fd, &physical_list_head); if (ret < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); STATISTIC_ERR_MSG_WITH_ERRNO(NGMSG_FILE_EXTENT); } goto out; } /* Get the count of file's continuous physical region */ physical_ext_count = get_physical_count(physical_list_head); /* Change list from physical to logical */ ret = change_physical_to_logical(&physical_list_head, &logical_list_head); if (ret < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); STATISTIC_ERR_MSG_WITH_ERRNO(NGMSG_FILE_EXTENT); } goto out; } /* Count file fragments before defrag */ now_ext_count = get_logical_count(logical_list_head); if (current_uid == ROOT_UID) { /* Calculate the size per extent */ blk_count = get_file_blocks(logical_list_head); best_ext_count = get_best_count(blk_count); /* e4defrag rounds size_per_ext up to a block size boundary */ size_per_ext = blk_count * (buf->st_blksize / 1024) / now_ext_count; ratio = (float)(physical_ext_count - best_ext_count) * 100 / blk_count; extents_before_defrag += now_ext_count; extents_after_defrag += best_ext_count; files_block_count += blk_count; } if (total_count == 1 && regular_count == 1) { /* File only */ if (mode_flag & DETAIL) { int count = 0; struct fiemap_extent_list *ext_list_tmp = logical_list_head; /* Print extents info */ do { count++; printf("[ext %d]:\tstart %llu:\tlogical " "%llu:\tlen %llu\n", count, ext_list_tmp->data.physical, ext_list_tmp->data.logical, ext_list_tmp->data.len); ext_list_tmp = ext_list_tmp->next; } while (ext_list_tmp != logical_list_head); } else { printf("%-40s%10s/%-10s%9s\n", "<File>", "now", "best", "size/ext"); if (current_uid == ROOT_UID) { if (strlen(file) > 40) printf("%s\n%50d/%-10d%6llu KB\n", file, now_ext_count, best_ext_count, size_per_ext); else printf("%-40s%10d/%-10d%6llu KB\n", file, now_ext_count, best_ext_count, size_per_ext); } else { if (strlen(file) > 40) printf("%s\n%50d/%-10s%7s\n", file, now_ext_count, "-", "-"); else printf("%-40s%10d/%-10s%7s\n", file, now_ext_count, "-", "-"); } } succeed_cnt++; goto out; } if (mode_flag & DETAIL) { /* Print statistic info */ sprintf(msg_buffer, "[%u/%u]%s", defraged_file_count, total_count, file); if (current_uid == ROOT_UID) { if (strlen(msg_buffer) > 40) printf("\033[79;0H\033[K%s\n" "%50d/%-10d%6llu KB\n", msg_buffer, now_ext_count, best_ext_count, size_per_ext); else printf("\033[79;0H\033[K%-40s" "%10d/%-10d%6llu KB\n", msg_buffer, now_ext_count, best_ext_count, size_per_ext); } else { if (strlen(msg_buffer) > 40) printf("\033[79;0H\033[K%s\n%50d/%-10s%7s\n", msg_buffer, now_ext_count, "-", "-"); else printf("\033[79;0H\033[K%-40s%10d/%-10s%7s\n", msg_buffer, now_ext_count, "-", "-"); } } for (i = 0; i < SHOW_FRAG_FILES; i++) { if (ratio >= frag_rank[i].ratio) { for (j = SHOW_FRAG_FILES - 1; j > i; j--) { memset(&frag_rank[j], 0, sizeof(struct frag_statistic_ino)); strncpy(frag_rank[j].msg_buffer, frag_rank[j - 1].msg_buffer, strnlen(frag_rank[j - 1].msg_buffer, PATH_MAX)); frag_rank[j].now_count = frag_rank[j - 1].now_count; frag_rank[j].best_count = frag_rank[j - 1].best_count; frag_rank[j].size_per_ext = frag_rank[j - 1].size_per_ext; frag_rank[j].ratio = frag_rank[j - 1].ratio; } memset(&frag_rank[i], 0, sizeof(struct frag_statistic_ino)); strncpy(frag_rank[i].msg_buffer, file, strnlen(file, PATH_MAX)); frag_rank[i].now_count = now_ext_count; frag_rank[i].best_count = best_ext_count; frag_rank[i].size_per_ext = size_per_ext; frag_rank[i].ratio = ratio; break; } } succeed_cnt++; out: close(fd); free_ext(physical_list_head); free_ext(logical_list_head); return 0; } /* * print_progress - Print defrag progress * * @file: file name. * @start: logical offset for defrag target file * @file_size: defrag target filesize */ static void print_progress(const char *file, loff_t start, loff_t file_size) { int percent = (start * 100) / file_size; printf("\033[79;0H\033[K[%u/%u]%s:\t%3d%%", defraged_file_count, total_count, file, min(percent, 100)); fflush(stdout); return; } /* * call_defrag() - Execute the defrag program. * * @fd: target file descriptor. * @donor_fd: donor file descriptor. * @file: target file name. * @buf: pointer of the struct stat64. * @ext_list_head: head of the extent list. */ static int call_defrag(int fd, int donor_fd, const char *file, const struct stat64 *buf, struct fiemap_extent_list *ext_list_head) { loff_t start = 0; unsigned int page_num; unsigned char *vec = NULL; int defraged_ret = 0; int ret; struct move_extent move_data; struct fiemap_extent_list *ext_list_tmp = NULL; memset(&move_data, 0, sizeof(struct move_extent)); move_data.donor_fd = donor_fd; /* Print defrag progress */ print_progress(file, start, buf->st_size); ext_list_tmp = ext_list_head; do { move_data.orig_start = ext_list_tmp->data.logical; /* Logical offset of orig and donor should be same */ move_data.donor_start = move_data.orig_start; move_data.len = ext_list_tmp->data.len; move_data.moved_len = 0; ret = page_in_core(fd, move_data, &vec, &page_num); if (ret < 0) { if (mode_flag & DETAIL) { printf("\n"); PRINT_ERR_MSG_WITH_ERRNO( "Failed to get file map"); } else { printf("\t[ NG ]\n"); } return -1; } /* EXT4_IOC_MOVE_EXT */ defraged_ret = ioctl(fd, EXT4_IOC_MOVE_EXT, &move_data); /* Free pages */ ret = defrag_fadvise(fd, move_data, vec, page_num); if (vec) { free(vec); vec = NULL; } if (ret < 0) { if (mode_flag & DETAIL) { printf("\n"); PRINT_ERR_MSG_WITH_ERRNO( "Failed to free page"); } else { printf("\t[ NG ]\n"); } return -1; } if (defraged_ret < 0) { if (mode_flag & DETAIL) { printf("\n"); PRINT_ERR_MSG_WITH_ERRNO( "Failed to defrag with " "EXT4_IOC_MOVE_EXT ioctl"); if (errno == ENOTTY) printf("\tAt least 2.6.31-rc1 of " "vanilla kernel is required\n"); } else { printf("\t[ NG ]\n"); } return -1; } /* Adjust logical offset for next ioctl */ move_data.orig_start += move_data.moved_len; move_data.donor_start = move_data.orig_start; start = move_data.orig_start * buf->st_blksize; /* Print defrag progress */ print_progress(file, start, buf->st_size); /* End of file */ if (start >= buf->st_size) break; ext_list_tmp = ext_list_tmp->next; } while (ext_list_tmp != ext_list_head); return 0; } /* * file_defrag() - Check file attributes and call ioctl to defrag. * * @file: the file's name. * @buf: the pointer of the struct stat64. * @flag: file type. * @ftwbuf: the pointer of a struct FTW. */ static int file_defrag(const char *file, const struct stat64 *buf, int flag EXT2FS_ATTR((unused)), struct FTW *ftwbuf EXT2FS_ATTR((unused))) { int fd; int donor_fd = -1; int ret; int best; int file_frags_start, file_frags_end; int orig_physical_cnt, donor_physical_cnt = 0; char tmp_inode_name[PATH_MAX + 8]; ext4_fsblk_t blk_count = 0; struct fiemap_extent_list *orig_list_physical = NULL; struct fiemap_extent_list *orig_list_logical = NULL; struct fiemap_extent_list *donor_list_physical = NULL; struct fiemap_extent_list *donor_list_logical = NULL; struct fiemap_extent_group *orig_group_head = NULL; struct fiemap_extent_group *orig_group_tmp = NULL; defraged_file_count++; if (mode_flag & DETAIL) { printf("[%u/%u]", defraged_file_count, total_count); fflush(stdout); } if (lost_found_dir[0] != '\0' && !memcmp(file, lost_found_dir, strnlen(lost_found_dir, PATH_MAX))) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); IN_FTW_PRINT_ERR_MSG(NGMSG_LOST_FOUND); } return 0; } if (!S_ISREG(buf->st_mode)) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); IN_FTW_PRINT_ERR_MSG(NGMSG_FILE_UNREG); } return 0; } /* Empty file */ if (buf->st_size == 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); IN_FTW_PRINT_ERR_MSG("File size is 0"); } return 0; } /* Has no blocks */ if (buf->st_blocks == 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); STATISTIC_ERR_MSG("File has no blocks"); } return 0; } fd = open64(file, O_RDWR); if (fd < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); PRINT_ERR_MSG_WITH_ERRNO(NGMSG_FILE_OPEN); } return 0; } /* Get file's extents */ ret = get_file_extents(fd, &orig_list_physical); if (ret < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); PRINT_ERR_MSG_WITH_ERRNO(NGMSG_FILE_EXTENT); } goto out; } /* Get the count of file's continuous physical region */ orig_physical_cnt = get_physical_count(orig_list_physical); /* Change list from physical to logical */ ret = change_physical_to_logical(&orig_list_physical, &orig_list_logical); if (ret < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); PRINT_ERR_MSG_WITH_ERRNO(NGMSG_FILE_EXTENT); } goto out; } /* Count file fragments before defrag */ file_frags_start = get_logical_count(orig_list_logical); blk_count = get_file_blocks(orig_list_logical); if (file_check(fd, buf, file, file_frags_start, blk_count) < 0) goto out; if (fsync(fd) < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); PRINT_ERR_MSG_WITH_ERRNO("Failed to sync(fsync)"); } goto out; } if (current_uid == ROOT_UID) best = get_best_count(blk_count); else best = 1; if (file_frags_start <= best) goto check_improvement; /* Combine extents to group */ ret = join_extents(orig_list_logical, &orig_group_head); if (ret < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); PRINT_ERR_MSG_WITH_ERRNO(NGMSG_FILE_EXTENT); } goto out; } /* Create donor inode */ memset(tmp_inode_name, 0, PATH_MAX + 8); sprintf(tmp_inode_name, "%.*s.defrag", (int)strnlen(file, PATH_MAX), file); donor_fd = open64(tmp_inode_name, O_WRONLY | O_CREAT | O_EXCL, S_IRUSR); if (donor_fd < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); if (errno == EEXIST) PRINT_ERR_MSG_WITH_ERRNO( "File is being defraged by other program"); else PRINT_ERR_MSG_WITH_ERRNO(NGMSG_FILE_OPEN); } goto out; } /* Unlink donor inode */ ret = unlink(tmp_inode_name); if (ret < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); PRINT_ERR_MSG_WITH_ERRNO("Failed to unlink"); } goto out; } /* Allocate space for donor inode */ orig_group_tmp = orig_group_head; do { ret = fallocate64(donor_fd, 0, (loff_t)orig_group_tmp->start->data.logical * block_size, (loff_t)orig_group_tmp->len * block_size); if (ret < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); PRINT_ERR_MSG_WITH_ERRNO("Failed to fallocate"); } goto out; } orig_group_tmp = orig_group_tmp->next; } while (orig_group_tmp != orig_group_head); /* Get donor inode's extents */ ret = get_file_extents(donor_fd, &donor_list_physical); if (ret < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); PRINT_ERR_MSG_WITH_ERRNO(NGMSG_FILE_EXTENT); } goto out; } /* Calculate donor inode's continuous physical region */ donor_physical_cnt = get_physical_count(donor_list_physical); /* Change donor extent list from physical to logical */ ret = change_physical_to_logical(&donor_list_physical, &donor_list_logical); if (ret < 0) { if (mode_flag & DETAIL) { PRINT_FILE_NAME(file); PRINT_ERR_MSG_WITH_ERRNO(NGMSG_FILE_EXTENT); } goto out; } check_improvement: if (mode_flag & DETAIL) { if (file_frags_start != 1) frag_files_before_defrag++; extents_before_defrag += file_frags_start; } if (file_frags_start <= best || orig_physical_cnt <= donor_physical_cnt) { printf("\033[79;0H\033[K[%u/%u]%s:\t%3d%%", defraged_file_count, total_count, file, 100); if (mode_flag & DETAIL) printf(" extents: %d -> %d", file_frags_start, file_frags_start); printf("\t[ OK ]\n"); succeed_cnt++; if (file_frags_start != 1) frag_files_after_defrag++; extents_after_defrag += file_frags_start; goto out; } /* Defrag the file */ ret = call_defrag(fd, donor_fd, file, buf, donor_list_logical); /* Count file fragments after defrag and print extents info */ if (mode_flag & DETAIL) { file_frags_end = file_frag_count(fd); if (file_frags_end < 0) { printf("\n"); PRINT_ERR_MSG_WITH_ERRNO(NGMSG_FILE_INFO); goto out; } if (file_frags_end != 1) frag_files_after_defrag++; extents_after_defrag += file_frags_end; if (ret < 0) goto out; printf(" extents: %d -> %d", file_frags_start, file_frags_end); fflush(stdout); } if (ret < 0) goto out; printf("\t[ OK ]\n"); fflush(stdout); succeed_cnt++; out: close(fd); if (donor_fd != -1) close(donor_fd); free_ext(orig_list_physical); free_ext(orig_list_logical); free_ext(donor_list_physical); free_exts_group(orig_group_head); return 0; } /* * main() - Ext4 online defrag. * * @argc: the number of parameter. * @argv[]: the pointer array of parameter. */ int main(int argc, char *argv[]) { int opt; int i, j, ret = 0; int flags = FTW_PHYS | FTW_MOUNT; int arg_type = -1; int mount_dir_len = 0; int success_flag = 0; char dir_name[PATH_MAX + 1]; char dev_name[PATH_MAX + 1]; struct stat64 buf; ext2_filsys fs = NULL; printf("e4defrag %s (%s)\n", E2FSPROGS_VERSION, E2FSPROGS_DATE); /* Parse arguments */ if (argc == 1) goto out; while ((opt = getopt(argc, argv, "vc")) != EOF) { switch (opt) { case 'v': mode_flag |= DETAIL; break; case 'c': mode_flag |= STATISTIC; break; default: goto out; } } if (argc == optind) goto out; current_uid = getuid(); /* Main process */ for (i = optind; i < argc; i++) { succeed_cnt = 0; regular_count = 0; total_count = 0; frag_files_before_defrag = 0; frag_files_after_defrag = 0; extents_before_defrag = 0; extents_after_defrag = 0; defraged_file_count = 0; files_block_count = 0; blocks_per_group = 0; feature_incompat = 0; log_groups_per_flex = 0; memset(dir_name, 0, PATH_MAX + 1); memset(dev_name, 0, PATH_MAX + 1); memset(lost_found_dir, 0, PATH_MAX + 1); memset(frag_rank, 0, sizeof(struct frag_statistic_ino) * SHOW_FRAG_FILES); if ((mode_flag & STATISTIC) && i > optind) printf("\n"); #if BYTE_ORDER != BIG_ENDIAN && BYTE_ORDER != LITTLE_ENDIAN PRINT_ERR_MSG("Endian's type is not big/little endian"); PRINT_FILE_NAME(argv[i]); continue; #endif if (lstat64(argv[i], &buf) < 0) { perror(NGMSG_FILE_INFO); PRINT_FILE_NAME(argv[i]); continue; } /* Handle i.e. lvm device symlinks */ if (S_ISLNK(buf.st_mode)) { struct stat64 buf2; if (stat64(argv[i], &buf2) == 0 && S_ISBLK(buf2.st_mode)) buf = buf2; } if (S_ISBLK(buf.st_mode)) { /* Block device */ strncpy(dev_name, argv[i], strnlen(argv[i], PATH_MAX)); if (get_mount_point(argv[i], dir_name, PATH_MAX) < 0) continue; if (lstat64(dir_name, &buf) < 0) { perror(NGMSG_FILE_INFO); PRINT_FILE_NAME(argv[i]); continue; } arg_type = DEVNAME; if (!(mode_flag & STATISTIC)) printf("ext4 defragmentation for device(%s)\n", argv[i]); } else if (S_ISDIR(buf.st_mode)) { /* Directory */ if (access(argv[i], R_OK) < 0) { perror(argv[i]); continue; } arg_type = DIRNAME; strncpy(dir_name, argv[i], strnlen(argv[i], PATH_MAX)); } else if (S_ISREG(buf.st_mode)) { /* Regular file */ arg_type = FILENAME; } else { /* Irregular file */ PRINT_ERR_MSG(NGMSG_FILE_UNREG); PRINT_FILE_NAME(argv[i]); continue; } /* Set blocksize */ block_size = buf.st_blksize; /* For device case, * filesystem type checked in get_mount_point() */ if (arg_type == FILENAME || arg_type == DIRNAME) { if (is_ext4(argv[i], dev_name) < 0) continue; if (realpath(argv[i], dir_name) == NULL) { perror("Couldn't get full path"); PRINT_FILE_NAME(argv[i]); continue; } } if (current_uid == ROOT_UID) { /* Get super block info */ ret = ext2fs_open(dev_name, EXT2_FLAG_64BITS, 0, block_size, unix_io_manager, &fs); if (ret) { if (mode_flag & DETAIL) com_err(argv[1], ret, "while trying to open file system: %s", dev_name); continue; } blocks_per_group = fs->super->s_blocks_per_group; feature_incompat = fs->super->s_feature_incompat; log_groups_per_flex = fs->super->s_log_groups_per_flex; ext2fs_close_free(&fs); } switch (arg_type) { case DIRNAME: if (!(mode_flag & STATISTIC)) printf("ext4 defragmentation " "for directory(%s)\n", argv[i]); mount_dir_len = strnlen(lost_found_dir, PATH_MAX); strncat(lost_found_dir, "/lost+found", PATH_MAX - strnlen(lost_found_dir, PATH_MAX)); /* Not the case("e4defrag mount_point_dir") */ if (dir_name[mount_dir_len] != '\0') { /* * "e4defrag mount_point_dir/lost+found" * or "e4defrag mount_point_dir/lost+found/" */ if (strncmp(lost_found_dir, dir_name, strnlen(lost_found_dir, PATH_MAX)) == 0 && (dir_name[strnlen(lost_found_dir, PATH_MAX)] == '\0' || dir_name[strnlen(lost_found_dir, PATH_MAX)] == '/')) { PRINT_ERR_MSG(NGMSG_LOST_FOUND); PRINT_FILE_NAME(argv[i]); continue; } /* "e4defrag mount_point_dir/else_dir" */ memset(lost_found_dir, 0, PATH_MAX + 1); } /* fall through */ case DEVNAME: if (arg_type == DEVNAME) { strncpy(lost_found_dir, dir_name, strnlen(dir_name, PATH_MAX)); strncat(lost_found_dir, "/lost+found/", PATH_MAX - strnlen(lost_found_dir, PATH_MAX)); } nftw64(dir_name, calc_entry_counts, FTW_OPEN_FD, flags); if (mode_flag & STATISTIC) { if (mode_flag & DETAIL) printf("%-40s%10s/%-10s%9s\n", "<File>", "now", "best", "size/ext"); if (!(mode_flag & DETAIL) && current_uid != ROOT_UID) { printf(" Done.\n"); success_flag = 1; continue; } nftw64(dir_name, file_statistic, FTW_OPEN_FD, flags); if (succeed_cnt != 0 && current_uid == ROOT_UID) { if (mode_flag & DETAIL) printf("\n"); printf("%-40s%10s/%-10s%9s\n", "<Fragmented files>", "now", "best", "size/ext"); for (j = 0; j < SHOW_FRAG_FILES; j++) { if (strlen(frag_rank[j]. msg_buffer) > 37) { printf("%d. %s\n%50d/" "%-10d%6llu KB\n", j + 1, frag_rank[j].msg_buffer, frag_rank[j].now_count, frag_rank[j].best_count, frag_rank[j]. size_per_ext); } else if (strlen(frag_rank[j]. msg_buffer) > 0) { printf("%d. %-37s%10d/" "%-10d%6llu KB\n", j + 1, frag_rank[j].msg_buffer, frag_rank[j].now_count, frag_rank[j].best_count, frag_rank[j]. size_per_ext); } else break; } } break; } /* File tree walk */ nftw64(dir_name, file_defrag, FTW_OPEN_FD, flags); printf("\n\tSuccess:\t\t\t[ %u/%u ]\n", succeed_cnt, total_count); printf("\tFailure:\t\t\t[ %u/%u ]\n", total_count - succeed_cnt, total_count); if (mode_flag & DETAIL) { printf("\tTotal extents:\t\t\t%4d->%d\n", extents_before_defrag, extents_after_defrag); printf("\tFragmented percentage:\t\t" "%3llu%%->%llu%%\n", !regular_count ? 0 : ((unsigned long long) frag_files_before_defrag * 100) / regular_count, !regular_count ? 0 : ((unsigned long long) frag_files_after_defrag * 100) / regular_count); } break; case FILENAME: total_count = 1; regular_count = 1; strncat(lost_found_dir, "/lost+found/", PATH_MAX - strnlen(lost_found_dir, PATH_MAX)); if (strncmp(lost_found_dir, dir_name, strnlen(lost_found_dir, PATH_MAX)) == 0) { PRINT_ERR_MSG(NGMSG_LOST_FOUND); PRINT_FILE_NAME(argv[i]); continue; } if (mode_flag & STATISTIC) { file_statistic(argv[i], &buf, FTW_F, NULL); break; } else printf("ext4 defragmentation for %s\n", argv[i]); /* Defrag single file process */ file_defrag(argv[i], &buf, FTW_F, NULL); if (succeed_cnt != 0) printf(" Success:\t\t\t[1/1]\n"); else printf(" Success:\t\t\t[0/1]\n"); break; } if (succeed_cnt != 0) success_flag = 1; if (mode_flag & STATISTIC) { if (current_uid != ROOT_UID) { printf(" Done.\n"); continue; } if (!succeed_cnt) { if (mode_flag & DETAIL) printf("\n"); if (arg_type == DEVNAME) printf(" In this device(%s), " "none can be defragmented.\n", argv[i]); else if (arg_type == DIRNAME) printf(" In this directory(%s), " "none can be defragmented.\n", argv[i]); else printf(" This file(%s) " "can't be defragmented.\n", argv[i]); } else { float files_ratio = 0.0; float score = 0.0; __u64 size_per_ext = files_block_count * (buf.st_blksize / 1024) / extents_before_defrag; files_ratio = (float)(extents_before_defrag - extents_after_defrag) * 100 / files_block_count; score = CALC_SCORE(files_ratio); printf("\n Total/best extents\t\t\t\t%d/%d\n" " Average size per extent" "\t\t\t%llu KB\n" " Fragmentation score\t\t\t\t%.0f\n", extents_before_defrag, extents_after_defrag, size_per_ext, score); printf(" [0-30 no problem:" " 31-55 a little bit fragmented:" " 56- needs defrag]\n"); if (arg_type == DEVNAME) printf(" This device (%s) ", argv[i]); else if (arg_type == DIRNAME) printf(" This directory (%s) ", argv[i]); else printf(" This file (%s) ", argv[i]); if (score > BOUND_SCORE) printf("needs defragmentation.\n"); else printf("does not need " "defragmentation.\n"); } printf(" Done.\n"); } } if (success_flag) return 0; exit(1); out: printf(MSG_USAGE); exit(1); }