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(root)/
include/
linux/
fsmap.h
       1  /* SPDX-License-Identifier: GPL-2.0 WITH Linux-syscall-note */
       2  /*
       3   * FS_IOC_GETFSMAP ioctl infrastructure.
       4   *
       5   * Copyright (C) 2017 Oracle.  All Rights Reserved.
       6   *
       7   * Author: Darrick J. Wong <darrick.wong@oracle.com>
       8   */
       9  #ifndef _LINUX_FSMAP_H
      10  #define _LINUX_FSMAP_H
      11  
      12  #include <linux/types.h>
      13  
      14  /*
      15   *	Structure for FS_IOC_GETFSMAP.
      16   *
      17   *	The memory layout for this call are the scalar values defined in
      18   *	struct fsmap_head, followed by two struct fsmap that describe
      19   *	the lower and upper bound of mappings to return, followed by an
      20   *	array of struct fsmap mappings.
      21   *
      22   *	fmh_iflags control the output of the call, whereas fmh_oflags report
      23   *	on the overall record output.  fmh_count should be set to the
      24   *	length of the fmh_recs array, and fmh_entries will be set to the
      25   *	number of entries filled out during each call.  If fmh_count is
      26   *	zero, the number of reverse mappings will be returned in
      27   *	fmh_entries, though no mappings will be returned.  fmh_reserved
      28   *	must be set to zero.
      29   *
      30   *	The two elements in the fmh_keys array are used to constrain the
      31   *	output.  The first element in the array should represent the
      32   *	lowest disk mapping ("low key") that the user wants to learn
      33   *	about.  If this value is all zeroes, the filesystem will return
      34   *	the first entry it knows about.  For a subsequent call, the
      35   *	contents of fsmap_head.fmh_recs[fsmap_head.fmh_count - 1] should be
      36   *	copied into fmh_keys[0] to have the kernel start where it left off.
      37   *
      38   *	The second element in the fmh_keys array should represent the
      39   *	highest disk mapping ("high key") that the user wants to learn
      40   *	about.  If this value is all ones, the filesystem will not stop
      41   *	until it runs out of mapping to return or runs out of space in
      42   *	fmh_recs.
      43   *
      44   *	fmr_device can be either a 32-bit cookie representing a device, or
      45   *	a 32-bit dev_t if the FMH_OF_DEV_T flag is set.  fmr_physical,
      46   *	fmr_offset, and fmr_length are expressed in units of bytes.
      47   *	fmr_owner is either an inode number, or a special value if
      48   *	FMR_OF_SPECIAL_OWNER is set in fmr_flags.
      49   */
      50  struct fsmap {
      51  	__u32		fmr_device;	/* device id */
      52  	__u32		fmr_flags;	/* mapping flags */
      53  	__u64		fmr_physical;	/* device offset of segment */
      54  	__u64		fmr_owner;	/* owner id */
      55  	__u64		fmr_offset;	/* file offset of segment */
      56  	__u64		fmr_length;	/* length of segment */
      57  	__u64		fmr_reserved[3];	/* must be zero */
      58  };
      59  
      60  struct fsmap_head {
      61  	__u32		fmh_iflags;	/* control flags */
      62  	__u32		fmh_oflags;	/* output flags */
      63  	__u32		fmh_count;	/* # of entries in array incl. input */
      64  	__u32		fmh_entries;	/* # of entries filled in (output). */
      65  	__u64		fmh_reserved[6];	/* must be zero */
      66  
      67  	struct fsmap	fmh_keys[2];	/* low and high keys for the mapping search */
      68  	struct fsmap	fmh_recs[];	/* returned records */
      69  };
      70  
      71  /* Size of an fsmap_head with room for nr records. */
      72  static __inline__ __kernel_size_t
      73  fsmap_sizeof(
      74  	unsigned int	nr)
      75  {
      76  	return sizeof(struct fsmap_head) + nr * sizeof(struct fsmap);
      77  }
      78  
      79  /* Start the next fsmap query at the end of the current query results. */
      80  static __inline__ void
      81  fsmap_advance(
      82  	struct fsmap_head	*head)
      83  {
      84  	head->fmh_keys[0] = head->fmh_recs[head->fmh_entries - 1];
      85  }
      86  
      87  /*	fmh_iflags values - set by FS_IOC_GETFSMAP caller in the header. */
      88  /* no flags defined yet */
      89  #define FMH_IF_VALID		0
      90  
      91  /*	fmh_oflags values - returned in the header segment only. */
      92  #define FMH_OF_DEV_T		0x1	/* fmr_device values will be dev_t */
      93  
      94  /*	fmr_flags values - returned for each non-header segment */
      95  #define FMR_OF_PREALLOC		0x1	/* segment = unwritten pre-allocation */
      96  #define FMR_OF_ATTR_FORK	0x2	/* segment = attribute fork */
      97  #define FMR_OF_EXTENT_MAP	0x4	/* segment = extent map */
      98  #define FMR_OF_SHARED		0x8	/* segment = shared with another file */
      99  #define FMR_OF_SPECIAL_OWNER	0x10	/* owner is a special value */
     100  #define FMR_OF_LAST		0x20	/* segment is the last in the dataset */
     101  
     102  /* Each FS gets to define its own special owner codes. */
     103  #define FMR_OWNER(type, code)	(((__u64)type << 32) | \
     104  				 ((__u64)code & 0xFFFFFFFFULL))
     105  #define FMR_OWNER_TYPE(owner)	((__u32)((__u64)owner >> 32))
     106  #define FMR_OWNER_CODE(owner)	((__u32)(((__u64)owner & 0xFFFFFFFFULL)))
     107  #define FMR_OWN_FREE		FMR_OWNER(0, 1) /* free space */
     108  #define FMR_OWN_UNKNOWN		FMR_OWNER(0, 2) /* unknown owner */
     109  #define FMR_OWN_METADATA	FMR_OWNER(0, 3) /* metadata */
     110  
     111  #define FS_IOC_GETFSMAP		_IOWR('X', 59, struct fsmap_head)
     112  
     113  #endif /* _LINUX_FSMAP_H */