/* * Copyright (c) 2004-2015 Apple Inc. All rights reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ #ifndef _HFS_FSCTL_H_ #define _HFS_FSCTL_H_ #include <sys/appleapiopts.h> #include <sys/param.h> #include <sys/ioccom.h> #include <sys/time.h> #include <stdint.h> #ifdef __APPLE_API_UNSTABLE struct hfs_backingstoreinfo { int signature; /* == 3419115 */ int version; /* version of this struct (1) */ int backingfd; /* disk image file (on backing fs) */ int bandsize; /* sparse disk image band size */ }; typedef char pathname_t[MAXPATHLEN]; struct hfs_journal_info { off_t jstart; off_t jsize; }; // Will be deprecated and replaced by hfs_fsinfo struct hfsinfo_metadata { uint32_t total; uint32_t extents; uint32_t catalog; uint32_t allocation; uint32_t attribute; uint32_t journal; uint32_t reserved[4]; }; /* * Flags for hfs_fsinfo_data structure */ #define HFS_FSINFO_CLASS_A 0x0001 /* Information for class A files requested */ #define HFS_FSINFO_CLASS_B 0x0002 /* Information for class B files requested */ #define HFS_FSINFO_CLASS_C 0x0004 /* Information for class C files requested */ #define HFS_FSINFO_CLASS_D 0x0008 /* Information for class D files requested */ /* * Maximum number of buckets to represent range from 0 to 1TB (2^40) in * increments of power of 2, and one catch-all bucket for anything that * is greater than 1TB */ #define HFS_FSINFO_DATA_MAX_BUCKETS 42 /* * Maximum number of buckets to represents percentage range from 0 to 100 * in increments of 10. */ #define HFS_FSINFO_PERCENT_MAX_BUCKETS 10 /* * Maximum number of buckets to represent number of file/directory name characters * (range 1 to 255) in increments of 5. */ #define HFS_FSINFO_NAME_MAX_BUCKETS 51 /* * Version number to ensure that the caller and the kernel have same understanding * of the hfs_fsinfo_data structure. This version needs to be bumped whenever the * number of buckets is changed. */ #define HFS_FSINFO_VERSION 1 /* * hfs_fsinfo_data is generic data structure to aggregate information like sizes * or counts in buckets of power of 2. Each bucket represents a range of values * that is determined based on its index in the array. Specifically, buckets[i] * represents values that are greater than or equal to 2^(i-1) and less than 2^i, * except the last bucket which represents range greater than or equal to 2^(i-1) * * The current maximum number of buckets is 41, so we can represent range from * 0 up to 1TB in increments of power of 2, and then a catch-all bucket of * anything that is greater than or equal to 1TB. * * For example, * bucket[0] -> greater than or equal to 0 and less than 1 * bucket[1] -> greater than or equal to 1 and less than 2 * bucket[10] -> greater than or equal to 2^(10-1) = 512 and less than 2^10 = 1024 * bucket[20] -> greater than or equal to 2^(20-1) = 512KB and less than 2^20 = 1MB * bucket[41] -> greater than or equal to 2^(41-1) = 1TB * * Note that fsctls that populate this data structure can take long time to * execute as this operation can be I/O intensive (traversing btrees) and compute * intensive. * * WARNING: Any changes to this structure should also update version number to * ensure that the clients and kernel are reading/writing correctly. */ /* * The header includes the user input fields. */ typedef struct hfs_fsinfo_header { uint32_t request_type; uint16_t version; uint16_t flags; } hfs_fsinfo_header_t; struct hfs_fsinfo_data { hfs_fsinfo_header_t header; uint32_t bucket[HFS_FSINFO_DATA_MAX_BUCKETS]; }; /* * Structure to represent information about metadata files * * WARNING: Any changes to this structure should also update version number to * ensure that the clients and kernel are reading/writing correctly. */ struct hfs_fsinfo_metadata { hfs_fsinfo_header_t header; uint32_t extents; uint32_t catalog; uint32_t allocation; uint32_t attribute; uint32_t journal; }; /* * Structure to represent distribution of number of file name characters * in increments of 5s. Each bucket represents a range of values that is * determined based on its index in the array. So bucket[i] represents values * that are greater than or equal to (i*5) and less than ((i+1)*10). * * Since this structure represents range of file name characters and the * maximum number of unicode characters in HFS+ is 255, the maximum number * of buckets will be 52 [0..51]. * * For example, * bucket[4] -> greater than or equal to 20 and less than 25 characters * bucket[51] -> equal to 255 characters * * WARNING: Any changes to this structure should also update version number to * ensure that the clients and kernel are reading/writing correctly. */ struct hfs_fsinfo_name { hfs_fsinfo_header_t header; uint32_t bucket[HFS_FSINFO_NAME_MAX_BUCKETS]; }; /* * Structure to represent information about content protection classes * * WARNING: Any changes to this structure should also update version number to * ensure that the clients and kernel are reading/writing correctly. */ struct hfs_fsinfo_cprotect { hfs_fsinfo_header_t header; uint32_t class_A; uint32_t class_B; uint32_t class_C; uint32_t class_D; uint32_t class_E; uint32_t class_F; }; /* * Union of all the different values returned by HFSIOC_FSINFO fsctl */ union hfs_fsinfo { hfs_fsinfo_header_t header; struct hfs_fsinfo_data data; struct hfs_fsinfo_metadata metadata; struct hfs_fsinfo_name name; struct hfs_fsinfo_cprotect cprotect; }; typedef union hfs_fsinfo hfs_fsinfo; /* * Type of FSINFO requested, specified by the caller in request_type field */ enum { /* Information about number of allocation blocks for each metadata file, returns struct hfs_fsinfo_metadata */ HFS_FSINFO_METADATA_BLOCKS_INFO = 1, /* Information about number of extents for each metadata file, returns struct hfs_fsinfo_metadata */ HFS_FSINFO_METADATA_EXTENTS = 2, /* Information about percentage of free nodes vs used nodes in metadata btrees, returns struct hfs_fsinfo_metadata */ HFS_FSINFO_METADATA_PERCENTFREE = 3, /* Distribution of number of extents for data files (data fork, no rsrc fork, no xattr), returns struct hfs_fsinfo_data */ HFS_FSINFO_FILE_EXTENT_COUNT = 4, /* Distribution of extent sizes for data files (data fork, no rsrc fork, no xattr), returns struct hfs_fsinfo_data */ HFS_FSINFO_FILE_EXTENT_SIZE = 5, /* Distribution of file sizes for data files (data fork, no rsrc fork, no xattr), returns struct hfs_fsinfo_data */ HFS_FSINFO_FILE_SIZE = 6, /* Distribution of valence for all directories, returns struct hfs_fsinfo_data */ HFS_FSINFO_DIR_VALENCE = 7, /* Distribution of file/directory name size in unicode characters, returns struct hfs_fsinfo_name */ HFS_FSINFO_NAME_SIZE = 8, /* Distribution of extended attribute sizes, returns hfs_fsinfo_data */ HFS_FSINFO_XATTR_SIZE = 9, /* Distribution of free space for the entire file system, returns struct hfs_fsinfo_data */ HFS_FSINFO_FREE_EXTENTS = 10, /* Information about number of files belonging to each class, returns hfs_fsinfo_cprotect */ HFS_FSINFO_FILE_CPROTECT_COUNT = 11, /* * Distribution of symbolic link sizes for data files (data fork, no rsrc fork, no xattr), * returns struct hfs_fsinfo_data */ HFS_FSINFO_SYMLINK_SIZE = 12, }; /* HFS FS CONTROL COMMANDS */ #define HFSIOC_RESIZE_PROGRESS _IOR('h', 1, u_int32_t) #define HFSIOC_RESIZE_VOLUME _IOW('h', 2, u_int64_t) #define HFSIOC_CHANGE_NEXT_ALLOCATION _IOWR('h', 3, u_int32_t) /* Magic value for next allocation to use with fcntl to set next allocation * to zero and never update it again on new block allocation. */ #define HFS_NO_UPDATE_NEXT_ALLOCATION 0xffffFFFF #if defined(KERNEL) #define HFSIOC_GET_VOL_CREATE_TIME_32 _IOR('h', 4, int32_t) #define HFSIOC_GET_VOL_CREATE_TIME_64 _IOR('h', 4, int64_t) #else #define HFSIOC_GET_VOL_CREATE_TIME _IOR('h', 4, time_t) #endif /* KERNEL */ #define HFSIOC_SETBACKINGSTOREINFO _IOW('h', 7, struct hfs_backingstoreinfo) #define HFSIOC_CLRBACKINGSTOREINFO _IO('h', 8) // 'h', 9 used to be HFSIOC_BULKACCESS which is now deprecated /* Unsupported - Previously used to enable/disable ACLs */ #define HFSIOC_UNSUPPORTED _IOW('h', 10, int32_t) #define HFSIOC_PREV_LINK _IOWR('h', 11, u_int32_t) #define HFSIOC_NEXT_LINK _IOWR('h', 12, u_int32_t) #define HFSIOC_GETPATH _IOWR('h', 13, pathname_t) /* By default, the path returned by HFS_GETPATH is an absolute path, * i.e. it also contains the mount point of the volume on which the * fileID exists. If the following bit is set, the path returned is * relative to the root of the volume. */ #define HFS_GETPATH_VOLUME_RELATIVE 0x1 /* Enable/disable extent-based extended attributes */ #define HFSIOC_SET_XATTREXTENTS_STATE _IOW('h', 14, u_int32_t) #if defined(KERNEL) #define HFSIOC_EXT_BULKACCESS32 _IOW('h', 15, struct user32_ext_access_t) #define HFSIOC_EXT_BULKACCESS64 _IOW('h', 15, struct user64_ext_access_t) #else #define HFSIOC_EXT_BULKACCESS _IOW('h', 15, struct ext_access_t) #endif /* KERNEL */ #define HFSIOC_MARK_BOOT_CORRUPT _IO('h', 16) #define HFSIOC_GET_JOURNAL_INFO _IOR('h', 17, struct hfs_journal_info) #define HFSIOC_SET_VERY_LOW_DISK _IOW('h', 20, u_int32_t) #define HFSIOC_SET_LOW_DISK _IOW('h', 21, u_int32_t) #define HFSIOC_SET_DESIRED_DISK _IOW('h', 22, u_int32_t) #define HFSIOC_SET_ALWAYS_ZEROFILL _IOW('h', 23, int32_t) /* XXXJRT Keep until 31866920 is resolved. */ #define HFS_SET_ALWAYS_ZEROFILL IOCBASECMD(HFSIOC_SET_ALWAYS_ZEROFILL) #define HFSIOC_VOLUME_STATUS _IOR('h', 24, u_int32_t) /* Disable metadata zone for given volume */ #define HFSIOC_DISABLE_METAZONE _IO('h', 25) /* Change the next CNID value */ #define HFSIOC_CHANGE_NEXTCNID _IOWR('h', 26, u_int32_t) /* XXXJRT Keep until 31866920 is resolved. */ #define HFS_CHANGE_NEXTCNID IOCBASECMD(HFSIOC_CHANGE_NEXTCNID) /* Get the low disk space values */ #define HFSIOC_GET_VERY_LOW_DISK _IOR('h', 27, u_int32_t) #define HFSIOC_GET_LOW_DISK _IOR('h', 28, u_int32_t) #define HFSIOC_GET_DESIRED_DISK _IOR('h', 29, u_int32_t) /* 30 was HFSIOC_GET_WRITE_GEN_COUNTER and is now deprecated */ /* 31 was HFSIOC_GET_DOCUMENT_ID and is now deprecated */ /* revisiond only uses this when something transforms in a way the kernel can't track such as "foo.rtf" -> "foo.rtfd" */ #define HFSIOC_TRANSFER_DOCUMENT_ID _IOW('h', 32, u_int32_t) /* * XXX: Will be deprecated and replaced by HFSIOC_GET_FSINFO * * Get information about number of file system allocation blocks used by metadata * files on the volume, including individual btrees and journal file. The caller * can determine the size of file system allocation block using value returned as * f_bsize by statfs(2). */ #define HFSIOC_FSINFO_METADATA_BLOCKS _IOWR('h', 38, struct hfsinfo_metadata) /* Send TRIMs for all free blocks to the underlying device */ #define HFSIOC_CS_FREESPACE_TRIM _IOWR('h', 39, u_int32_t) /* Get file system information for the given volume */ #define HFSIOC_GET_FSINFO _IOWR('h', 45, hfs_fsinfo) /* Re-pin hotfile data; argument controls what state gets repinned */ #define HFSIOC_REPIN_HOTFILE_STATE _IOWR('h', 46, u_int32_t) #define HFS_REPIN_METADATA 0x0001 #define HFS_REPIN_USERDATA 0x0002 /* Mark a directory or file as worth caching on any underlying "fast" device */ #define HFSIOC_SET_HOTFILE_STATE _IOWR('h', 47, u_int32_t) /* flags to pass to SET_HOTFILE_STATE */ #define HFS_MARK_FASTDEVCANDIDATE 0x0001 #define HFS_UNMARK_FASTDEVCANDIDATE 0x0002 #define HFS_NEVER_FASTDEVCANDIDATE 0x0004 #define HFSIOC_SET_MAX_DEFRAG_SIZE _IOWR('h', 48, u_int32_t) #define HFSIOC_FORCE_ENABLE_DEFRAG _IOWR('h', 49, u_int32_t) /* These fsctls are ported from apfs. */ #ifndef APFSIOC_SET_NEAR_LOW_DISK #define APFSIOC_SET_NEAR_LOW_DISK _IOW('J', 17, u_int32_t) #endif /* APFSIOC_SET_NEAR_LOW_DISK */ #ifndef APFSIOC_GET_NEAR_LOW_DISK #define APFSIOC_GET_NEAR_LOW_DISK _IOR('J', 18, u_int32_t) #endif /* APFSIOC_GET_NEAR_LOW_DISK */ #endif /* __APPLE_API_UNSTABLE */ #endif /* ! _HFS_FSCTL_H_ */