third_party: Add gpfs.h header file

This is the only requirement for building the vfs_gpfs module; the
corresponding library is opened through dlopen at runtime. The intent
here is to always build the vfs_gpfs module to easily detect breakage
e.g. due to vfs interface changes.

Signed-off-by: Christof Schmitt <cs@samba.org>
Reviewed-by: Volker Lendecke <vl@samba.org>

1 files changed, 4042 insertions, 0 deletions

diff --git a/third_party/gpfs/gpfs.h b/third_party/gpfs/gpfs.h
new file mode 100644
index 00000000000..acafe12c2e7
--- /dev/null
+++ b/third_party/gpfs/gpfs.h
@@ -0,0 +1,4042 @@
+/*                                                                              */
+/* Copyright (C) 2001 International Business Machines                           */
+/* All rights reserved.                                                         */
+/*                                                                              */
+/* This file is part of the GPFS user library.                                  */
+/*                                                                              */
+/* Redistribution and use in source and binary forms, with or without           */
+/* modification, are permitted provided that the following conditions           */
+/* are met:                                                                     */
+/*                                                                              */
+/*  1. Redistributions of source code must retain the above copyright notice,   */
+/*     this list of conditions and the following disclaimer.                    */
+/*  2. Redistributions in binary form must reproduce the above copyright        */
+/*     notice, this list of conditions and the following disclaimer in the      */
+/*     documentation and/or other materials provided with the distribution.     */
+/*  3. The name of the author may not be used to endorse or promote products    */
+/*     derived from this software without specific prior written                */
+/*     permission.                                                              */
+/*                                                                              */
+/* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR         */
+/* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES    */
+/* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.      */
+/* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, */
+/* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, */
+/* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;  */
+/* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,     */
+/* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR      */
+/* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF       */
+/* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.                                   */
+/*                                                                              */
+/* @(#)42       1.1.12.3  src/avs/fs/mmfs/ts/util/gpfs.h, mmfs, avs_rttn423, rttn423s001a 4/10/17 10:46:33 */
+/*
+ *  Library calls for GPFS interfaces
+ */
+#ifndef H_GPFS
+#define H_GPFS
+
+#include <stddef.h>
+
+/* Define GPFS_64BIT_INODES to map the default interface definitions
+   to 64-bit interfaces. Without this define, the 32-bit interface
+   is the default. Both interfaces are always present, but the
+   define sets the default. The actual mapping can be found near the
+   end of this header. */
+/* #define GPFS_64BIT_INODES 1 */
+
+#define NFS_IP_SIZE 32
+
+#ifdef __cplusplus
+extern "C" {
+#endif
+
+#if defined(WIN32) && defined(GPFSDLL)
+
+  /* The following errno values either are missing from Windows errno.h or
+     have a conflicting value. Other errno values (e.g. EPERM) are okay. */
+  #define GPFS_EALREADY     37      /* Operation already in progress        */
+  #define GPFS_EOPNOTSUPP   45      /* Operation not supported              */
+  #define GPFS_EDQUOT       69      /* Disk quota exceeded                  */
+  #define GPFS_ESTALE       9       /* No file system (mapped to EBADF)      */
+  #define GPFS_EFORMAT      19      /* Unformatted media (mapped to ENODEV) */
+
+  /* specify the library calling convention */
+  #define GPFS_API __stdcall
+
+  /* On Windows, this is a HANDLE as returned by CreateFile() */
+  typedef void* gpfs_file_t;
+
+#else /* not gpfs.dll on Windows */
+
+  #define GPFS_API
+  /* On UNIX systems, this is a file descriptor as returned by open() */
+  typedef int gpfs_file_t;
+
+#endif
+
+
+typedef unsigned int gpfs_uid_t;
+typedef long long gpfs_off64_t;
+typedef unsigned long long gpfs_uid64_t;
+
+typedef struct gpfs_timestruc
+{
+  unsigned int tv_sec;
+  unsigned int tv_nsec;
+} gpfs_timestruc_t;
+
+typedef struct gpfs_timestruc64
+{
+  long long    tv_sec;
+  unsigned int tv_nsec;
+} gpfs_timestruc64_t;
+
+#define GPFS_SLITE_SIZE_BIT     0x00000001
+#define GPFS_SLITE_BLKSIZE_BIT  0x00000002
+#define GPFS_SLITE_BLOCKS_BIT   0x00000004
+#define GPFS_SLITE_ATIME_BIT    0x00000010
+#define GPFS_SLITE_MTIME_BIT    0x00000020
+#define GPFS_SLITE_CTIME_BIT    0x00000040
+#define GPFS_SLITE_EXACT_BITS   0x00000077
+
+/* Returns "1" if the attribute is requested to be accurate.
+   (On output, indicates the value returned in statbufP is accurate). */
+#define GPFS_SLITE(m)         (0 == (m))
+#define GPFS_SLITE_SIZET(m)   (0 != ((m) & GPFS_SLITE_SIZE_BIT))
+#define GPFS_SLITE_BLKSIZE(m) (0 != ((m) & GPFS_SLITE_BLKSIZE_BIT))
+#define GPFS_SLITE_BLOCKS(m)  (0 != ((m) & GPFS_SLITE_BLOCKS_BIT))
+#define GPFS_SLITE_ATIME(m)   (0 != ((m) & GPFS_SLITE_ATIME_BIT))
+#define GPFS_SLITE_MTIME(m)   (0 != ((m) & GPFS_SLITE_MTIME_BIT))
+#define GPFS_SLITE_CTIME(m)   (0 != ((m) & GPFS_SLITE_CTIME_BIT))
+#define GPFS_SLITE_EXACT(m)   (GPFS_SLITE_EXACT_BITS == (m))
+
+/* Sets the litemask bit indicating that the attribute should be accurate */
+#define GPFS_S_SLITE(m)         (m) = 0
+#define GPFS_S_SLITE_SIZET(m)   (m) |= GPFS_SLITE_SIZE_BIT
+#define GPFS_S_SLITE_BLKSIZE(m) (m) |= GPFS_SLITE_BLKSIZE_BIT
+#define GPFS_S_SLITE_BLOCKS(m)  (m) |= GPFS_SLITE_BLOCKS_BIT
+#define GPFS_S_SLITE_ATIME(m)   (m) |= GPFS_SLITE_ATIME_BIT
+#define GPFS_S_SLITE_MTIME(m)   (m) |= GPFS_SLITE_MTIME_BIT
+#define GPFS_S_SLITE_CTIME(m)   (m) |= GPFS_SLITE_CTIME_BIT
+#define GPFS_S_SLITE_EXACT(m)   (m) |= GPFS_SLITE_EXACT_BITS
+
+#define GPFS_STATLITE 0
+#define GPFS_NOFOLLOW 1
+
+/* Mapping of buffer for gpfs_getacl, gpfs_putacl. */
+typedef struct gpfs_opaque_acl
+{
+  int            acl_buffer_len;  /* INPUT:  Total size of buffer (including this field).
+                                     OUTPUT: Actual size of the ACL information.  */
+  unsigned short acl_version;     /* INPUT:  Set to zero.
+                                     OUTPUT: Current version of the returned ACL. */
+  unsigned char  acl_type;        /* INPUT:  Type of ACL: access (1) or default (2). */
+  char           acl_var_data[1]; /* OUTPUT: Remainder of the ACL information. */
+} gpfs_opaque_acl_t;
+
+/* ACL types (acl_type field in gpfs_opaque_acl_t or gpfs_acl_t) */
+#define GPFS_ACL_TYPE_ACCESS  1
+#define GPFS_ACL_TYPE_DEFAULT 2
+#define GPFS_ACL_TYPE_NFS4    3
+
+/* gpfs_getacl, gpfs_putacl flag indicating structures instead of the
+   opaque style data normally used.  */
+#define GPFS_GETACL_STRUCT 0x00000020
+#define GPFS_PUTACL_STRUCT 0x00000020
+
+/* gpfs_getacl, gpfs_putacl flag indicating smbd is the caller */
+#define GPFS_ACL_SAMBA     0x00000040
+
+/* Defined values for gpfs_aclVersion_t */
+#define GPFS_ACL_VERSION_POSIX   1
+#define GPFS_ACL_VERSION_NFS4F   3 /* GPFS_ACL_VERSION_NFS4 plus V4FLAGS */
+#define GPFS_ACL_VERSION_NFS4    4
+
+/* Values for gpfs_aclLevel_t  */
+#define GPFS_ACL_LEVEL_BASE    0 /* compatible with all acl_version values */
+#define GPFS_ACL_LEVEL_V4FLAGS 1 /* requires GPFS_ACL_VERSION_NFS4 */
+
+/* Values for gpfs_aceType_t (ACL_VERSION_POSIX) */
+#define GPFS_ACL_USER_OBJ  1
+#define GPFS_ACL_GROUP_OBJ 2
+#define GPFS_ACL_OTHER     3
+#define GPFS_ACL_MASK      4
+#define GPFS_ACL_USER      5
+#define GPFS_ACL_GROUP     6
+
+/* Values for gpfs_acePerm_t (ACL_VERSION_POSIX) */
+#define ACL_PERM_EXECUTE 001
+#define ACL_PERM_WRITE   002
+#define ACL_PERM_READ    004
+#define ACL_PERM_CONTROL 010
+
+/* Values for gpfs_aceType_t (ACL_VERSION_NFS4) */
+#define ACE4_TYPE_ALLOW 0
+#define ACE4_TYPE_DENY  1
+#define ACE4_TYPE_AUDIT 2
+#define ACE4_TYPE_ALARM 3
+
+/* Values for gpfs_aceFlags_t (ACL_VERSION_NFS4) */
+#define ACE4_FLAG_FILE_INHERIT    0x00000001
+#define ACE4_FLAG_DIR_INHERIT     0x00000002
+#define ACE4_FLAG_NO_PROPAGATE    0x00000004
+#define ACE4_FLAG_INHERIT_ONLY    0x00000008
+#define ACE4_FLAG_SUCCESSFUL      0x00000010
+#define ACE4_FLAG_FAILED          0x00000020
+#define ACE4_FLAG_GROUP_ID        0x00000040
+#define ACE4_FLAG_INHERITED       0x00000080
+
+/* GPFS-defined flags.  Placed in a separate ACL field to avoid
+   ever running into newly defined NFSv4 flags. */
+#define ACE4_IFLAG_SPECIAL_ID     0x80000000
+
+/* Values for gpfs_aceMask_t (ACL_VERSION_NFS4) */
+#define ACE4_MASK_READ         0x00000001
+#define ACE4_MASK_LIST_DIR     0x00000001
+#define ACE4_MASK_WRITE        0x00000002
+#define ACE4_MASK_ADD_FILE     0x00000002
+#define ACE4_MASK_APPEND       0x00000004
+#define ACE4_MASK_ADD_SUBDIR   0x00000004
+#define ACE4_MASK_READ_NAMED   0x00000008
+#define ACE4_MASK_WRITE_NAMED  0x00000010
+#define ACE4_MASK_EXECUTE      0x00000020
+
+/* The rfc doesn't provide a mask equivalent to "search" ("x" on a
+ * directory in posix), but it also doesn't say that its EXECUTE
+ * is to have this dual use (even though it does so for other dual
+ * use permissions such as read/list.  Going to make the assumption
+ * here that the EXECUTE bit has this dual meaning... otherwise
+ * we're left with no control over search.
+ */
+#define ACE4_MASK_SEARCH       0x00000020
+
+#define ACE4_MASK_DELETE_CHILD 0x00000040
+#define ACE4_MASK_READ_ATTR    0x00000080
+#define ACE4_MASK_WRITE_ATTR   0x00000100
+#define ACE4_MASK_DELETE       0x00010000
+#define ACE4_MASK_READ_ACL     0x00020000
+#define ACE4_MASK_WRITE_ACL    0x00040000
+#define ACE4_MASK_WRITE_OWNER  0x00080000
+#define ACE4_MASK_SYNCHRONIZE  0x00100000
+#define ACE4_MASK_ALL          0x001f01ff
+
+/* Values for gpfs_uid_t (ACL_VERSION_NFS4) */
+#define ACE4_SPECIAL_OWNER              1
+#define ACE4_SPECIAL_GROUP              2
+#define ACE4_SPECIAL_EVERYONE           3
+
+/* per-ACL flags imported from a Windows security descriptor object */
+#define ACL4_FLAG_OWNER_DEFAULTED               0x00000100
+#define ACL4_FLAG_GROUP_DEFAULTED               0x00000200
+#define ACL4_FLAG_DACL_PRESENT                  0x00000400
+#define ACL4_FLAG_DACL_DEFAULTED                0x00000800
+#define ACL4_FLAG_SACL_PRESENT                  0x00001000
+#define ACL4_FLAG_SACL_DEFAULTED                0x00002000
+#define ACL4_FLAG_DACL_UNTRUSTED                0x00004000
+#define ACL4_FLAG_SERVER_SECURITY               0x00008000
+#define ACL4_FLAG_DACL_AUTO_INHERIT_REQ         0x00010000
+#define ACL4_FLAG_SACL_AUTO_INHERIT_REQ         0x00020000
+#define ACL4_FLAG_DACL_AUTO_INHERITED           0x00040000
+#define ACL4_FLAG_SACL_AUTO_INHERITED           0x00080000
+#define ACL4_FLAG_DACL_PROTECTED                0x00100000
+#define ACL4_FLAG_SACL_PROTECTED                0x00200000
+#define ACL4_FLAG_RM_CONTROL_VALID              0x00400000
+#define ACL4_FLAG_NULL_DACL                     0x00800000
+#define ACL4_FLAG_NULL_SACL                     0x01000000
+#define ACL4_FLAG_VALID_FLAGS                   0x01ffff00
+
+
+/* Externalized ACL defintions */
+typedef unsigned int gpfs_aclType_t;
+typedef unsigned int gpfs_aclLen_t;
+typedef unsigned int gpfs_aclLevel_t;
+typedef unsigned int gpfs_aclVersion_t;
+typedef unsigned int gpfs_aclCount_t;
+typedef unsigned int gpfs_aclFlag_t;
+
+typedef unsigned int gpfs_aceType_t;
+typedef unsigned int gpfs_aceFlags_t;
+typedef unsigned int gpfs_acePerm_t;
+typedef unsigned int gpfs_aceMask_t;
+
+/* A POSIX ACL Entry */
+typedef struct gpfs_ace_v1
+{
+  gpfs_aceType_t  ace_type; /* POSIX ACE type */
+  gpfs_uid_t      ace_who;  /* uid/gid */
+  gpfs_acePerm_t  ace_perm; /* POSIX permissions */
+} gpfs_ace_v1_t;
+
+/* An NFSv4 ACL Entry */
+typedef struct gpfs_ace_v4
+{
+  gpfs_aceType_t  aceType;   /* Allow or Deny */
+  gpfs_aceFlags_t aceFlags;  /* Inherit specifications, etc. */
+  gpfs_aceFlags_t aceIFlags; /* GPFS Internal flags */
+  gpfs_aceMask_t  aceMask;   /* NFSv4 mask specification */
+  gpfs_uid_t      aceWho;    /* User/Group identification */
+} gpfs_ace_v4_t;
+
+/* when GPFS_ACL_VERSION_NFS4, and GPFS_ACL_LEVEL_V4FLAGS */
+typedef struct v4Level1_ext /* ACL extension */
+{
+  gpfs_aclFlag_t acl_flags; /* per-ACL flags */
+  gpfs_ace_v4_t ace_v4[1];
+} v4Level1_t;
+
+/* The GPFS ACL */
+typedef struct gpfs_acl
+{
+  gpfs_aclLen_t     acl_len;     /* Total length of this ACL in bytes */
+  gpfs_aclLevel_t   acl_level;   /* Reserved (must be zero) */
+  gpfs_aclVersion_t acl_version; /* POSIX or NFS4 ACL */
+  gpfs_aclType_t    acl_type;    /* Access, Default, or NFS4 */
+  gpfs_aclCount_t   acl_nace;    /* Number of Entries that follow */
+  union
+  {
+    gpfs_ace_v1_t  ace_v1[1]; /* when GPFS_ACL_VERSION_POSIX */
+    gpfs_ace_v4_t  ace_v4[1]; /* when GPFS_ACL_VERSION_NFS4  */
+    v4Level1_t     v4Level1;  /* when GPFS_ACL_LEVEL_V4FLAGS */
+  };
+} gpfs_acl_t;
+
+
+/* NAME:        gpfs_getacl()
+ *
+ * FUNCTION:    Retrieves the ACL information for a file.
+ *
+ *              The aclP parameter must point to a buffer mapped by either:
+ *                - gpfs_opaque_acl_t (when flags are zero).  In this case,
+ *                  the opaque data that is intended to be used by a backup
+ *                  program (restoreed by passing this data back on a subsequent
+ *                  call to gpfs_putacl).
+ *                - gpfs_acl_t (when GPFS_GETACL_STRUCT is specified).  In this
+ *                  case, the data can be interpreted by the calling application
+ *                  (and may be modified and applied to the file by passing it
+ *                  to gpfs_putacl...along with the GPFS_PUTACL_STRUCT flag).
+ *
+ *              On input, the first four bytes of the buffer must contain its
+ *              total size.
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  function not available
+ *              ENOSPC  buffer too small to return the entire ACL.
+ *                      Needed size is returned in the first four
+ *                      bytes of the buffer pointed to by aclP.
+ *              EINVAL  Invalid arguments
+ *              ENOTDIR Not on directory
+ *              ENOMEM  Out of memory
+ */
+int GPFS_API
+gpfs_getacl(const char *pathname,
+            int flags,
+            void *acl);
+
+
+/* NAME:        gpfs_putacl()
+ *
+ * FUNCTION:    Sets the ACL information for a file.
+ *              The buffer passed in should contain the ACL data
+ *              that was obtained by a previous call to gpfs_getacl.
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  function not available
+ *              EINVAL  Invalid arguments
+ *              ENOTDIR Not on directory
+ *              ENOMEM  Out of memory
+ *              EPERM   Caller does not hold appropriate privilege
+ */
+int GPFS_API
+gpfs_putacl(const char *pathname,
+            int flags,
+            void *acl);
+
+
+/* NAME:        gpfs_prealloc()
+ *
+ * FUNCTION:    Preallocate disk storage for a file or directory, starting
+ *              at the specified startOffset and covering at least the number
+ *              of bytes requested by bytesToPrealloc.  Allocations are rounded
+ *              to block boundaries (block size can be found in st_blksize
+ *              returned by fstat()), or possibly larger sizes.  For files, the
+ *              file descriptor must be open for write, but any existing data
+ *              already present will not be modified.  Reading the preallocated
+ *              blocks will return zeros.  For directories, the file descriptor
+ *              may be open for read but the caller must have write permission,
+ *              and existing entries are unaffected; startOffset must be zero.
+ *
+ *              This function implements the behavior of mmchattr when invoked
+ *              with --compact[=minimumEntries].  The minimumEntries value
+ *              specifies both the lower bound on automatic compaction and the
+ *              desired size for pre-allocation.  It defaults to zero, meaning
+ *              no pre-allocation and compact the directory as much as
+ *              possible.  The mapping between minimumEntries and the
+ *              bytesToPrealloc is given by GPFS_PREALLOC_DIR_SLOT_SIZE, see
+ *              below.
+ *
+ *              Directory compaction (zero bytesToPrealloc) requires a file
+ *              system supporting V2 directories (format version 1400, v4.1).
+ *              Directories created before upgrading the file system to version
+ *              4.1, are upgraded from V1 to V2 by this operation even if no
+ *              other change is made.  Since v4.2.2, bytesToPrealloc may be
+ *              nonzero effecting pre-allocation by setting a minimum
+ *              compaction size.  Prior to v4.2.2 the minimum size of any
+ *              directory is zero.
+ *
+ * Returns:     0       Success
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  No prealloc service available
+ *              EBADF   Bad file descriptor
+ *              EINVAL  Not a GPFS file
+ *              EINVAL  Not a regular file or directory
+ *              EINVAL  Directory pre-allocation not supported
+ *              EINVAL  startOffset or bytesToPrealloc < 0
+ *              EACCES  File not opened for writing
+ *              EACCES  Caller does not have write access to directory.
+ *              EDQUOT  Quota exceeded
+ *              ENOSPC  Not enough space on disk
+ *              EPERM   File is in a snapshot
+ */
+int GPFS_API
+gpfs_prealloc(gpfs_file_t fileDesc,
+              gpfs_off64_t startOffset,
+              gpfs_off64_t bytesToPrealloc);
+
+/* Directory entries are nominally (assuming compact names of 19 bytes or less)
+   32 bytes in size.  This conversion factor is used in mapping between a
+   number of entries (for mmchattr) and a size when calling gpfs_prealloc. */
+#define GPFS_PREALLOC_DIR_SLOT_SIZE 32  /* for size => bytes per entry */
+
+
+typedef struct gpfs_winattr
+{
+  gpfs_timestruc_t creationTime;
+  unsigned int winAttrs; /* values as defined below */
+} gpfs_winattr_t;
+
+/* winAttrs values */
+#define GPFS_WINATTR_ARCHIVE              0x0001
+#define GPFS_WINATTR_COMPRESSED           0x0002
+#define GPFS_WINATTR_DEVICE               0x0004
+#define GPFS_WINATTR_DIRECTORY            0x0008
+#define GPFS_WINATTR_ENCRYPTED            0x0010
+#define GPFS_WINATTR_HIDDEN               0x0020
+#define GPFS_WINATTR_NORMAL               0x0040
+#define GPFS_WINATTR_NOT_CONTENT_INDEXED  0x0080
+#define GPFS_WINATTR_OFFLINE              0x0100
+#define GPFS_WINATTR_READONLY             0x0200
+#define GPFS_WINATTR_REPARSE_POINT        0x0400
+#define GPFS_WINATTR_SPARSE_FILE          0x0800
+#define GPFS_WINATTR_SYSTEM               0x1000
+#define GPFS_WINATTR_TEMPORARY            0x2000
+#define GPFS_WINATTR_HAS_STREAMS          0x4000
+
+
+/* NAME:        gpfs_get_winattrs()
+ *              gpfs_get_winattrs_path()
+ *
+ * FUNCTION:    Returns gpfs_winattr_t attributes
+ *
+ * Returns:      0      Success
+ *              -1      Failure
+ *
+ * Errno:       ENOENT  file not found
+ *              EBADF   Bad file handle, not a GPFS file
+ *              ENOMEM  Memory allocation failed
+ *              EACCESS Permission denied
+ *              EFAULT  Bad address provided
+ *              EINVAL  Not a regular file
+ *              ENOSYS  function not available
+ */
+int GPFS_API
+gpfs_get_winattrs(gpfs_file_t fileDesc, gpfs_winattr_t *attrP);
+
+int GPFS_API
+gpfs_get_winattrs_path(const char *pathname, gpfs_winattr_t *attrP);
+
+
+/* NAME:        gpfs_set_winattrs()
+ *              gpfs_set_winattrs_path()
+ *
+ * FUNCTION:    Sets gpfs_winattr_t attributes (as specified by
+ *              the flags).
+ *
+ * Returns:      0      Success
+ *              -1      Failure
+ *
+ * Errno:       ENOENT  file not found
+ *              EBADF   Bad file handle, not a GPFS file
+ *              ENOMEM  Memory allocation failed
+ *              EACCESS Permission denied
+ *              EFAULT  Bad address provided
+ *              EINVAL  Not a regular file
+ *              ENOSYS  function not available
+ */
+int GPFS_API
+gpfs_set_winattrs(gpfs_file_t fileDesc, int flags, gpfs_winattr_t *attrP);
+
+int GPFS_API
+gpfs_set_winattrs_path(const char *pathname, int flags, gpfs_winattr_t *attrP);
+
+/* gpfs_set_winattr flag values */
+#define GPFS_WINATTR_SET_CREATION_TIME 0x08
+#define GPFS_WINATTR_SET_ATTRS         0x10
+
+/*
+ * NAME:        gpfs_set_times(), gpfs_set_times_path()
+ *
+ * FUNCTION:    Sets file access time, modified time, change time,
+ *              and/or creation time (as specified by the flags).
+ *
+ * Input:       flagsfileDesc : file descriptor of the object to set
+ *              pathname      : path to a file or directory
+ *              flag          : define time value to set
+ *              GPFS_SET_ATIME - set access time
+ *              GPFS_SET_MTIME - set mod. time
+ *              GPFS_SET_CTIME - set change time
+ *              GPFS_SET_CREATION_TIME - set creation time
+ *              GPFS_SET_TIME_NO_FOLLOW - don't follow links
+ *              times         : array to times
+ *
+ * Returns:      0      Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  function not available
+ *              EBADF   Not a GPFS File
+ *              EINVAL  invalid argument
+ *              EACCES  Permission denied
+ *              EROFS   Filesystem is read only
+ *              ENOENT  No such file or directory
+ */
+typedef gpfs_timestruc_t gpfs_times_vector_t[4];
+
+int GPFS_API
+gpfs_set_times(gpfs_file_t fileDesc, int flags, gpfs_times_vector_t times);
+
+int GPFS_API
+gpfs_set_times_path(char *pathname, int flags, gpfs_times_vector_t times);
+
+/* gpfs_set_times flag values */
+#define GPFS_SET_ATIME          0x01
+#define GPFS_SET_MTIME          0x02
+#define GPFS_SET_CTIME          0x04
+#define GPFS_SET_CREATION_TIME  0x08
+#define GPFS_SET_TIME_NO_FOLLOW 0x10
+
+
+/* NAME:        gpfs_set_share()
+ *
+ * FUNCTION:    Acquire shares
+ *
+ * Input:       fileDesc : file descriptor
+ *              allow    : share type being requested
+ *                         GPFS_SHARE_NONE, GPFS_SHARE_READ,
+ *                         GPFS_SHARE_WRITE, GPFS_SHARE_BOTH
+ *              deny     : share type to deny to others
+ *                         GPFS_DENY_NONE, GPFS_DENY_READ,
+ *                         GPFS_DENY_WRITE, GPFS_DENY_BOTH
+ *
+ * Returns:      0      Success
+ *              -1      Failure
+ *
+ * Errno:       EBADF   Bad file handle
+ *              EINVAL  Bad argument given
+ *              EFAULT  Bad address provided
+ *              ENOMEM  Memory allocation failed
+ *              EACCES  share mode not available
+ *              ENOSYS  function not available
+ */
+
+/* allow/deny specifications */
+#define GPFS_SHARE_NONE   0
+#define GPFS_SHARE_READ   1
+#define GPFS_SHARE_WRITE  2
+#define GPFS_SHARE_BOTH   3
+#define GPFS_SHARE_ALL    3
+#define GPFS_DENY_NONE    0
+#define GPFS_DENY_READ    1
+#define GPFS_DENY_WRITE   2
+#define GPFS_DENY_BOTH    3
+#define GPFS_DENY_DELETE  4
+#define GPFS_DENY_ALL     7
+
+int GPFS_API
+gpfs_set_share(gpfs_file_t fileDesc,
+               unsigned int share,
+               unsigned int deny);
+
+
+/* NAME:        gpfs_set_lease()
+ *
+ * FUNCTION:    Acquire leases for Samba
+ *
+ * Input:       fileDesc  : file descriptor
+ *              leaseType : lease type being requested
+ *                          GPFS_LEASE_NONE GPFS_LEASE_READ,
+ *                          GPFS_LEASE_WRITE
+ *
+ * Returns:      0      Success
+ *              -1      Failure
+ *
+ * Errno:       EBADF   Bad file handle
+ *              EINVAL  Bad argument given
+ *              EFAULT  Bad address provided
+ *              ENOMEM  Memory allocation failed
+ *              EAGAIN  lease not available
+ *              EACCES  permission denied
+ *              EOPNOTSUPP unsupported leaseType
+ *              ESTALE  unmounted file system
+ *              ENOSYS  function not available
+ */
+
+/* leaseType specifications */
+#define GPFS_LEASE_NONE    0
+#define GPFS_LEASE_READ    1
+#define GPFS_LEASE_WRITE   2
+
+int GPFS_API
+gpfs_set_lease(gpfs_file_t fileDesc,
+               unsigned int leaseType);
+
+
+/* NAME:        gpfs_get_lease()
+ *
+ * FUNCTION:    Returns the type of lease currently held
+ *
+ * Returns:     GPFS_LEASE_READ
+ *              GPFS_LEASE_WRITE
+ *              GPFS_LEASE_NONE
+ *
+ * Returns:  >= 0       Success
+ *             -1       Failure
+ *
+ * Errno:       EINVAL
+ */
+int GPFS_API
+gpfs_get_lease(gpfs_file_t fileDesc);
+
+
+ /* NAME:        gpfs_get_realfilename(), gpfs_get_realfilename_path()
+  *
+  * FUNCTION:    Interface to get real name of a file.
+  *
+  * INPUT:       File descriptor, pathname, buffer, bufferlength
+  * OUTPUT:      Real file name stored in file system
+  *
+  * Returns:     0       Success
+  *             -1       Failure
+  *
+  * Errno:       EBADF   Bad file handle
+  *              EINVAL  Not a regular file
+  *              EFAULT  Bad address provided
+  *              ENOSPC  buffer too small to return the real file name.
+  *                      Needed size is returned in buflen parameter.
+  *              ENOENT  File does not exist
+  *              ENOMEM  Memory allocation failed
+  *              EACCESS Permission denied
+  *              ENOSYS  function not available
+  */
+int GPFS_API
+gpfs_get_realfilename(gpfs_file_t fileDesc,
+                      char *fileNameP,
+                      int *buflen);
+
+int GPFS_API
+gpfs_get_realfilename_path(const char *pathname,
+                           char *fileNameP,
+                           int *buflen);
+
+ /* NAME:        gpfs_ftruncate()
+  *
+  * FUNCTION:    Interface to truncate a file.
+  *
+  * INPUT:       File descriptor
+  *              length
+  * Returns:     0       Successful
+  *              -1      Failure
+  *
+  * Errno:       ENOSYS  function not available
+  *              EBADF   Bad file handle
+  *              EBADF   Not a GPFS file
+  *              EINVAL  Not a regular file
+  *              ENOENT  File does not exist
+  *              ENOMEM  Memory allocation failed
+  *              EINVAL  length < 0
+  *              EACCESS  Permission denied
+  */
+int GPFS_API
+gpfs_ftruncate(gpfs_file_t fileDesc, gpfs_off64_t length);
+
+#define GPFS_WIN_CIFS_REGISTERED   0x02000000
+typedef struct cifsThreadData_t
+{
+  unsigned int dataLength; /* Total buffer length */
+  unsigned int share;      /* gpfs_set_share declaration */
+  unsigned int deny;       /* gpfs_set_share specification */
+  unsigned int lease;      /* gpfs_set_lease lease type */
+  unsigned int secInfoFlags; /* Future use.  Must be zero */
+  gpfs_uid_t   sdUID;      /* Owning user */
+  gpfs_uid_t   sdGID;      /* Owning group */
+  int          shareLocked_fd; /* file descriptor with share locks */
+  unsigned int aclLength ; /* Length of the following ACL */
+  gpfs_acl_t   acl;        /* The initial ACL for create/mkdir */
+} cifsThreadData_t;
+
+ /* NAME:        gpfs_register_cifs_export()
+  *
+  * FUNCTION:    Register a CIFS export process.
+  *
+  * INPUT:       implicit use of the process ids
+  *
+  * Returns:     0       Successful
+  *              ENOSYS  function not available
+  *              EACCES  cannot establish credentials
+  *              ENOMEM  temporary shortage of memory
+  *              EINVAL  prior process/thread registrations exist
+  *              EBADF   unable to allocate a file descriptor
+  */
+int GPFS_API
+gpfs_register_cifs_export(void);
+
+ /* NAME:        gpfs_unregister_cifs_export()
+  *
+  * FUNCTION:    remove a registration for a CIFS export
+  *
+  * INPUT:       implicit use of the process ids
+  *
+  * Returns:     0       Successful
+  *              ENOSYS  function not available
+  *              EACCES  cannot establish credentials
+  *              ENOMEM  temporary shortage of memory
+  */
+int GPFS_API
+gpfs_unregister_cifs_export(void);
+
+ /* NAME:        gpfs_register_cifs_buffer()
+  *
+  * FUNCTION:    Register a CIFS thread/buffer combination
+  *
+  * INPUT:       implicit use of the process and thread ids
+  *              Address of a cifsThreadData_t structure that will include
+  *              a GPFS ACL (GPFS_ACL_VERSION_NFS4/GPFS_ACL_LEVEL_V4FLAGS)
+  *              that can be applied at file/dir creation.
+  *
+  * Returns:     0       Successful
+  *              ENOSYS  function not available
+  *              EACCES  cannot establish credentials
+  *              ENOMEM  unable to allocate required memory
+  *              EINVAL  no associated process registrion exists
+  *                      bad dataLength in buffer.
+  */
+int GPFS_API
+gpfs_register_cifs_buffer(cifsThreadData_t *bufP);
+
+ /* NAME:        gpfs_unregister_cifs_buffer()
+  *
+  * FUNCTION:    remove a CIFS thread/buffer registration
+  *
+  * INPUT:       implicit use of the process and thread ids
+  *
+  * Returns:     0       Successful
+  *              ENOSYS  function not available
+  *              EACCES  cannot establish credentials
+  *              ENOMEM  unable to allocate required memory
+  *              EINVAL  no associated process registrion exists
+  */
+int GPFS_API
+gpfs_unregister_cifs_buffer(void);
+
+/* NAME:        gpfs_lib_init()
+ *
+ * FUNCTION:    Open GPFS main module device file
+ *
+ * INPUT:       Flags
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  Function not available
+ */
+int GPFS_API
+gpfs_lib_init(int flags);
+
+/* NAME:        gpfs_lib_term()
+ *
+ * FUNCTION:    Close GPFS main module device file
+ *
+ * INPUT:       Flags
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  Function not available
+ */
+int GPFS_API
+gpfs_lib_term(int flags);
+
+/* Define maximum length of the name for a GPFS named object, such
+   as a snapshot, storage pool or fileset. The name is a null-terminated
+   character string, which is not include in the max length */
+#define GPFS_MAXNAMLEN       255
+
+/* Define maximum length of the path to a GPFS named object
+   such as a snapshot or fileset. If the absolute path name exceeds
+   this limit, then use a relative path name. The path is a null-terminated
+   character string, which is not included in the max length */
+#define GPFS_MAXPATHLEN     1023
+
+/* ASCII code for "GPFS" in the struct statfs f_type field */
+#define GPFS_SUPER_MAGIC     0x47504653
+
+/* GPFS inode attributes
+   gpfs_uid_t - defined above
+   gpfs_uid64_t - defined above
+   gpfs_off64_t - defined above
+
+   gpfs_mode_t may include gpfs specific values including 0x02000000
+   To have a gpfs_mode_t be equivalent to a mode_t mask that value out.
+   */
+typedef unsigned int gpfs_mode_t;
+typedef unsigned int gpfs_gid_t;
+typedef unsigned long long gpfs_gid64_t;
+typedef unsigned int gpfs_ino_t;
+typedef unsigned long long gpfs_ino64_t;
+typedef unsigned int gpfs_gen_t;
+typedef unsigned long long gpfs_gen64_t;
+typedef unsigned int gpfs_dev_t;
+typedef unsigned int gpfs_mask_t;
+typedef unsigned int gpfs_pool_t;
+typedef unsigned int gpfs_snapid_t;
+typedef unsigned long long gpfs_snapid64_t;
+typedef unsigned long long gpfs_fsid64_t[2];
+typedef short gpfs_nlink_t;
+typedef long long gpfs_nlink64_t;
+
+
+#if defined(WIN32) || defined(_MS_SUA_)
+  typedef struct gpfs_stat64
+  {
+    gpfs_dev_t         st_dev;        /* id of device containing file */
+    gpfs_ino64_t       st_ino;        /* file inode number */
+    gpfs_mode_t        st_mode;       /* access mode */
+    gpfs_nlink64_t     st_nlink;      /* number of links */
+    unsigned int       st_flags;      /* flag word */
+    gpfs_uid64_t       st_uid;        /* owner uid */
+    gpfs_gid64_t       st_gid;        /* owner gid */
+    gpfs_dev_t         st_rdev;       /* device id (if special file) */
+    gpfs_off64_t       st_size;       /* file size in bytes */
+    gpfs_timestruc64_t st_atime;      /* time of last access */
+    gpfs_timestruc64_t st_mtime;      /* time of last data modification */
+    gpfs_timestruc64_t st_ctime;      /* time of last status change */
+    int                st_blksize;    /* preferred block size for io */
+    gpfs_off64_t       st_blocks;     /* 512 byte blocks of disk held by file */
+    long long          st_fsid;       /* file system id */
+    unsigned int       st_type;       /* file type */
+    gpfs_gen64_t       st_gen;        /* inode generation number */
+    gpfs_timestruc64_t st_createtime; /* time of creation */
+    unsigned int       st_attrs;      /* Windows flags */
+  } gpfs_stat64_t;
+#else
+  typedef struct stat64 gpfs_stat64_t;
+#endif
+
+#if defined(WIN32) || defined(_MS_SUA_)
+  typedef struct gpfs_statfs64
+  {
+    gpfs_off64_t       f_blocks;      /* total data blocks in file system */
+    gpfs_off64_t       f_bfree;       /* free block in fs */
+    gpfs_off64_t       f_bavail;      /* free blocks avail to non-superuser */
+    int                f_bsize;       /* optimal file system block size */
+    gpfs_ino64_t       f_files;       /* total file nodes in file system */
+    gpfs_ino64_t       f_ffree;       /* free file nodes in fs */
+    gpfs_fsid64_t      f_fsid;        /* file system id */
+    int                f_fsize;       /* fundamental file system block size */
+    int                f_sector_size; /* logical disk sector size */
+    char               f_fname[32];   /* file system name (usually mount pt.) */
+    char               f_fpack[32];   /* file system pack name */
+    int                f_name_max;    /* maximum component name length for posix */
+  } gpfs_statfs64_t;
+#else
+  typedef struct statfs64 gpfs_statfs64_t;
+#endif
+
+/* Declarations for backwards compatibility. */
+typedef gpfs_stat64_t stat64_t;
+typedef gpfs_statfs64_t statfs64_t;
+
+
+/* Define a version number for the directory entry data to allow
+   future changes in this structure. Careful callers should also use
+   the d_reclen field for the size of the structure rather than sizeof,
+   to allow some degree of forward compatibility */
+#define GPFS_D_VERSION 1
+
+typedef struct gpfs_direntx
+{
+  int            d_version;     /* this struct's version */
+  unsigned short d_reclen;      /* actual size of this struct including
+                                   null terminated variable length d_name */
+  unsigned short d_type;        /* Types are defined below */
+  gpfs_ino_t     d_ino;         /* File inode number */
+  gpfs_gen_t     d_gen;         /* Generation number for the inode */
+  char           d_name[256];   /* null terminated variable length name */
+} gpfs_direntx_t;
+
+
+#define GPFS_D64_VERSION 2
+
+typedef struct gpfs_direntx64
+{
+  int            d_version;     /* this struct's version */
+  unsigned short d_reclen;      /* actual size of this struct including
+                                   null terminated variable length d_name */
+  unsigned short d_type;        /* Types are defined below */
+  gpfs_ino64_t   d_ino;         /* File inode number */
+  gpfs_gen64_t   d_gen;         /* Generation number for the inode */
+  unsigned int   d_flags;       /* Flags are defined below */
+  char           d_name[1028];  /* null terminated variable length name */
+                                /* (1020+null+7 byte pad to double word) */
+                                /* to handle up to 255 UTF-8 chars */
+} gpfs_direntx64_t;
+
+/* File types for d_type field in gpfs_direntx_t */
+#define GPFS_DE_OTHER    0
+#define GPFS_DE_FIFO     1
+#define GPFS_DE_CHR      2
+#define GPFS_DE_DIR      4
+#define GPFS_DE_BLK      6
+#define GPFS_DE_REG      8
+#define GPFS_DE_LNK     10
+#define GPFS_DE_SOCK    12
+#define GPFS_DE_DEL     16
+
+/* Define flags for gpfs_direntx64_t */
+#define GPFS_DEFLAG_NONE      0x0000 /* Default value, no flags set */
+#define GPFS_DEFLAG_JUNCTION  0x0001 /* DirEnt is a fileset junction */
+#define GPFS_DEFLAG_IJUNCTION 0x0002 /* DirEnt is a inode space junction */
+#define GPFS_DEFLAG_ORPHAN    0x0004 /* DirEnt is an orphan (pcache) */
+#define GPFS_DEFLAG_CLONE     0x0008 /* DirEnt is a clone child */
+
+/* Define a version number for the iattr data to allow future changes
+   in this structure. Careful callers should also use the ia_reclen field
+   for the size of the structure rather than sizeof, to allow some degree
+   of forward compatibility */
+#define GPFS_IA_VERSION 1
+#define GPFS_IA64_VERSION 3 /* ver 3 adds ia_repl_xxxx bytes instead of ia_pad2 */
+#define GPFS_IA64_RESERVED 4
+#define GPFS_IA64_UNUSED 8
+
+typedef struct gpfs_iattr
+{
+  int              ia_version;    /* this struct version */
+  int              ia_reclen;     /* sizeof this structure */
+  int              ia_checksum;   /* validity check on iattr struct */
+  gpfs_mode_t      ia_mode;       /* access mode; see gpfs_mode_t comment */
+  gpfs_uid_t       ia_uid;        /* owner uid */
+  gpfs_gid_t       ia_gid;        /* owner gid */
+  gpfs_ino_t       ia_inode;      /* file inode number */
+  gpfs_gen_t       ia_gen;        /* inode generation number */
+  gpfs_nlink_t     ia_nlink;      /* number of links */
+  short            ia_flags;      /* Flags (defined below) */
+  int              ia_blocksize;  /* preferred block size for io */
+  gpfs_mask_t      ia_mask;       /* Initial attribute mask (not used) */
+  unsigned int     ia_pad1;       /* reserved space */
+  gpfs_off64_t     ia_size;       /* file size in bytes */
+  gpfs_off64_t     ia_blocks;     /* 512 byte blocks of disk held by file */
+  gpfs_timestruc_t ia_atime;      /* time of last access */
+  gpfs_timestruc_t ia_mtime;      /* time of last data modification */
+  gpfs_timestruc_t ia_ctime;      /* time of last status change */
+  gpfs_dev_t       ia_rdev;       /* id of device */
+  unsigned int     ia_xperm;      /* extended attributes (defined below) */
+  unsigned int     ia_modsnapid;  /* snapshot id of last modification */
+  unsigned int     ia_filesetid;  /* fileset ID */
+  unsigned int     ia_datapoolid; /* storage pool ID for data */
+  unsigned int     ia_pad2;       /* reserved space */
+} gpfs_iattr_t;
+
+
+typedef struct gpfs_iattr64
+{
+  int                ia_version;    /* this struct version */
+  int                ia_reclen;     /* sizeof this structure */
+  int                ia_checksum;   /* validity check on iattr struct */
+  gpfs_mode_t        ia_mode;       /* access mode; see gpfs_mode_t comment */
+  gpfs_uid64_t       ia_uid;        /* owner uid */
+  gpfs_gid64_t       ia_gid;        /* owner gid */
+  gpfs_ino64_t       ia_inode;      /* file inode number */
+  gpfs_gen64_t       ia_gen;        /* inode generation number */
+  gpfs_nlink64_t     ia_nlink;      /* number of links */
+  gpfs_off64_t       ia_size;       /* file size in bytes */
+  gpfs_off64_t       ia_blocks;     /* 512 byte blocks of disk held by file */
+  gpfs_timestruc64_t ia_atime;      /* time of last access */
+  unsigned int       ia_winflags;   /* windows flags (defined below) */
+  unsigned int       ia_pad1;       /* reserved space */
+  gpfs_timestruc64_t ia_mtime;      /* time of last data modification */
+  unsigned int       ia_flags;      /* flags (defined below) */
+  /* next four bytes were ia_pad2 */
+  unsigned char      ia_repl_data;  /* data replication factor */
+  unsigned char      ia_repl_data_max; /* data replication max factor */
+  unsigned char      ia_repl_meta;  /* meta data replication factor */
+  unsigned char      ia_repl_meta_max; /* meta data replication max factor */
+  gpfs_timestruc64_t ia_ctime;      /* time of last status change */
+  int                ia_blocksize;  /* preferred block size for io */
+  unsigned int       ia_pad3;       /* reserved space */
+  gpfs_timestruc64_t ia_createtime; /* creation time */
+  gpfs_mask_t        ia_mask;       /* initial attribute mask (not used) */
+  int                ia_pad4;       /* reserved space */
+  unsigned int       ia_reserved[GPFS_IA64_RESERVED]; /* reserved space */
+  unsigned int       ia_xperm;      /* extended attributes (defined below) */
+  gpfs_dev_t         ia_dev;        /* id of device containing file */
+  gpfs_dev_t         ia_rdev;       /* device id (if special file) */
+  unsigned int       ia_pcacheflags; /* pcache inode bits */
+  gpfs_snapid64_t    ia_modsnapid;  /* snapshot id of last modification */
+  unsigned int       ia_filesetid;  /* fileset ID */
+  unsigned int       ia_datapoolid; /* storage pool ID for data */
+  gpfs_ino64_t       ia_inode_space_mask; /* inode space mask of this file system */
+                                          /* This value is saved in the iattr structure
+                                             during backup and used during restore */
+  gpfs_off64_t       ia_dirminsize; /* dir pre-allocation size in bytes */
+  unsigned int       ia_unused[GPFS_IA64_UNUSED];  /* reserved space */
+} gpfs_iattr64_t;
+
+/* Define flags for inode attributes */
+#define GPFS_IAFLAG_SNAPDIR         0x0001 /* (obsolete) */
+#define GPFS_IAFLAG_USRQUOTA        0x0002 /* inode is a user quota file */
+#define GPFS_IAFLAG_GRPQUOTA        0x0004 /* inode is a group quota file */
+#define GPFS_IAFLAG_ERROR           0x0008 /* error reading inode */
+/* Define flags for inode replication attributes */
+#define GPFS_IAFLAG_FILESET_ROOT    0x0010 /* root dir of a fileset */
+#define GPFS_IAFLAG_NO_SNAP_RESTORE 0x0020 /* don't restore from snapshots */
+#define GPFS_IAFLAG_FILESETQUOTA    0x0040 /* inode is a fileset quota file */
+#define GPFS_IAFLAG_COMANAGED       0x0080 /* file data is co-managed */
+#define GPFS_IAFLAG_ILLPLACED       0x0100 /* may not be properly placed */
+#define GPFS_IAFLAG_REPLMETA        0x0200 /* metadata replication set */
+#define GPFS_IAFLAG_REPLDATA        0x0400 /* data replication set */
+#define GPFS_IAFLAG_EXPOSED         0x0800 /* may have data on suspended disks */
+#define GPFS_IAFLAG_ILLREPLICATED   0x1000 /* may not be properly replicated */
+#define GPFS_IAFLAG_UNBALANCED      0x2000 /* may not be properly balanced */
+#define GPFS_IAFLAG_DATAUPDATEMISS  0x4000 /* has stale data blocks on
+                                              unavailable disk */
+#define GPFS_IAFLAG_METAUPDATEMISS  0x8000 /* has stale metadata on
+                                              unavailable disk */
+
+#define GPFS_IAFLAG_IMMUTABLE       0x00010000 /* Immutability */
+#define GPFS_IAFLAG_INDEFRETENT     0x00020000 /* Indefinite retention */
+#define GPFS_IAFLAG_SECUREDELETE    0x00040000 /* Secure deletion */
+
+#define GPFS_IAFLAG_TRUNCMANAGED    0x00080000 /* dmapi truncate event enabled */
+#define GPFS_IAFLAG_READMANAGED     0x00100000 /* dmapi read event enabled */
+#define GPFS_IAFLAG_WRITEMANAGED    0x00200000 /* dmapi write event enabled */
+
+#define GPFS_IAFLAG_APPENDONLY      0x00400000 /* AppendOnly only */
+#define GPFS_IAFLAG_DELETED         0x00800000 /* inode has been deleted */
+#ifdef ZIP
+#define GPFS_IAFLAG_ILLCOMPRESSED   0x01000000 /* may not be properly compressed */
+#endif
+#define GPFS_IAFLAG_FPOILLPLACED    0x02000000 /* may not be properly placed per
+                                                  FPO attributes (bgf, wad, wadfg) */
+
+/* Define flags for window's attributes */
+#define GPFS_IWINFLAG_ARCHIVE       0x0001 /* Archive */
+#define GPFS_IWINFLAG_HIDDEN        0x0002 /* Hidden */
+#define GPFS_IWINFLAG_NOTINDEXED    0x0004 /* Not content indexed */
+#define GPFS_IWINFLAG_OFFLINE       0x0008 /* Off-line */
+#define GPFS_IWINFLAG_READONLY      0x0010 /* Read-only */
+#define GPFS_IWINFLAG_REPARSE       0x0020 /* Reparse point */
+#define GPFS_IWINFLAG_SYSTEM        0x0040 /* System */
+#define GPFS_IWINFLAG_TEMPORARY     0x0080 /* Temporary */
+#define GPFS_IWINFLAG_COMPRESSED    0x0100 /* Compressed */
+#define GPFS_IWINFLAG_ENCRYPTED     0x0200 /* Encrypted */
+#define GPFS_IWINFLAG_SPARSE        0x0400 /* Sparse file */
+#define GPFS_IWINFLAG_HASSTREAMS    0x0800 /* Has streams */
+
+/* Define flags for extended attributes */
+#define GPFS_IAXPERM_ACL            0x0001 /* file has acls */
+#define GPFS_IAXPERM_XATTR          0x0002 /* file has extended attributes */
+#define GPFS_IAXPERM_DMATTR         0x0004 /* file has dm attributes */
+#define GPFS_IAXPERM_DOSATTR        0x0008 /* file has non-default dos attrs */
+#define GPFS_IAXPERM_RPATTR         0x0010 /* file has restore policy attrs */
+
+/* Define flags for pcache bits defined in the inode */
+#define GPFS_ICAFLAG_CACHED   0x0001  /* "cached complete"  */
+#define GPFS_ICAFLAG_CREATE   0x0002  /* "created"          */
+#define GPFS_ICAFLAG_DIRTY    0x0004  /* "data dirty"       */
+#define GPFS_ICAFLAG_LINK     0x0008  /* "hard linked"      */
+#define GPFS_ICAFLAG_SETATTR  0x0010  /* "attr changed"     */
+#define GPFS_ICAFLAG_LOCAL    0x0020  /* "local"            */
+#define GPFS_ICAFLAG_APPEND   0x0040  /* "append"           */
+#define GPFS_ICAFLAG_STATE    0x0080  /* "has remote state" */
+
+/* Define pointers to interface types */
+typedef struct gpfs_fssnap_handle gpfs_fssnap_handle_t;
+typedef struct gpfs_iscan gpfs_iscan_t;
+typedef struct gpfs_ifile gpfs_ifile_t;
+typedef struct gpfs_restore gpfs_restore_t;
+
+typedef struct gpfs_fssnap_id
+{
+  char opaque[48];
+} gpfs_fssnap_id_t;
+
+
+/* Define extended return codes for gpfs backup & restore
+   calls without an explicit return code will return the value in errno */
+#define GPFS_NEW_ERRNO_BASE 185
+#define GPFS_E_INVAL_INUM           (GPFS_NEW_ERRNO_BASE+0) /* invalid inode number */
+
+#define GPFS_ERRNO_BASE  190
+#define GPFS_E_INVAL_FSSNAPID       (GPFS_ERRNO_BASE+0) /* invalid fssnap id */
+#define GPFS_E_INVAL_ISCAN          (GPFS_ERRNO_BASE+1) /* invalid iscan pointer */
+#define GPFS_E_INVAL_IFILE          (GPFS_ERRNO_BASE+2) /* invalid ifile pointer */
+#define GPFS_E_INVAL_IATTR          (GPFS_ERRNO_BASE+3) /* invalid iattr structure */
+#define GPFS_E_INVAL_RESTORE        (GPFS_ERRNO_BASE+4) /* invalid restore pointer */
+#define GPFS_E_INVAL_FSSNAPHANDLE   (GPFS_ERRNO_BASE+5) /* invalid fssnap handle */
+#define GPFS_E_INVAL_SNAPNAME       (GPFS_ERRNO_BASE+6) /* invalid snapshot name */
+#define GPFS_E_FS_NOT_RESTORABLE    (GPFS_ERRNO_BASE+7) /* FS is not clean */
+#define GPFS_E_RESTORE_NOT_ENABLED  (GPFS_ERRNO_BASE+8) /* Restore was not enabled */
+#define GPFS_E_RESTORE_STARTED      (GPFS_ERRNO_BASE+9) /* Restore is running */
+#define GPFS_E_INVAL_XATTR          (GPFS_ERRNO_BASE+10) /* invalid extended
+                                                            attribute pointer */
+
+/* Define flags parameter for get/put file attributes.
+   Used by gpfs_fgetattr, gpfs_fputattr, gpfs_fputattrwithpath
+   gpfs_igetattrsx, gpfs_iputattrsx
+   and gpfs_lwe_getattrs, gpfs_lwe_putattrs
+*/
+#define GPFS_ATTRFLAG_DEFAULT            0x0000  /* default behavior */
+#define GPFS_ATTRFLAG_NO_PLACEMENT       0x0001  /* exclude file placement attributes */
+#define GPFS_ATTRFLAG_IGNORE_POOL        0x0002  /* saved poolid is not valid */
+#define GPFS_ATTRFLAG_USE_POLICY         0x0004  /* use restore policy rules to
+                                                    determine poolid */
+#define GPFS_ATTRFLAG_INCL_DMAPI         0x0008  /* Include dmapi attributes */
+#define GPFS_ATTRFLAG_FINALIZE_ATTRS     0x0010  /* Finalize immutability attributes */
+#define GPFS_ATTRFLAG_SKIP_IMMUTABLE     0x0020  /* Skip immutable attributes */
+#define GPFS_ATTRFLAG_INCL_ENCR          0x0040  /* Include encryption attributes */
+#define GPFS_ATTRFLAG_SKIP_CLONE         0x0080  /* Skip clone attributes */
+#define GPFS_ATTRFLAG_MODIFY_CLONEPARENT 0x0100  /* Allow modification on clone parent */
+#ifdef ZIP
+#define GPFS_ATTRFLAG_NO_COMPRESSED      0x0200  /* exclude "compressed" attribute */
+#endif
+
+/* Define structure used by gpfs_statfspool */
+typedef struct gpfs_statfspool_s
+{
+  gpfs_off64_t f_blocks;     /* total data blocks in pool */
+  gpfs_off64_t f_bfree;      /* free blocks in pool */
+  gpfs_off64_t f_bavail;     /* free blocks avail to non-superuser */
+  gpfs_off64_t f_mblocks;    /* total metadata blocks in pool */
+  gpfs_off64_t f_mfree;      /* free blocks avail for system metadata */
+  int          f_bsize;      /* optimal storage pool block size */
+  int          f_files;      /* total file nodes assigned to pool */
+  gpfs_pool_t  f_poolid;     /* storage pool id */
+  int          f_fsize;      /* fundamental file system block size */
+  unsigned int f_usage;      /* data and/or metadata stored in pool */
+  int          f_replica;    /* replica */
+  int          f_bgf;        /* block group factor */
+  int          f_wad;        /* write affinity depth */
+  int          f_allowWriteAffinity;   /* allow write affinity depth. 1 means yes */
+  int          f_reserved[3];/* Current unused and set to  zero */
+} gpfs_statfspool_t;
+
+#define STATFSPOOL_USAGE_DATA      0x0001 /* Pool stores user data */
+#define STATFSPOOL_USAGE_METADATA  0x0002 /* Pool stores system metadata */
+
+
+/* NAME:        gpfs_fstat(), gpfs_stat()
+ *
+ * FUNCTION:    Get exact stat information for a file descriptor (or filename).
+ *              Forces all other nodes to flush dirty data and metadata to disk.
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  The gpfs_fstat() (or) gpfs_stat() subroutine is not supported
+ *                      under the current file system format
+ *              EBADF   The file descriptor is not valid.
+ *              EINVAL  The file descriptor does not refer to a GPFS file or a
+ *                      regular file.
+ *              ESTALE  The cached file system information was not valid.
+ */
+int GPFS_API
+gpfs_fstat(gpfs_file_t fileDesc,
+           gpfs_stat64_t *buffer);
+
+int GPFS_API
+gpfs_stat(const char *pathname, /* File pathname */
+          gpfs_stat64_t *buffer);
+
+/* NAME:        gpfs_fstat_x(), gpfs_stat_x()
+ *
+ * FUNCTION:    Returns extended stat() information with specified accuracy
+ *              for a file descriptor (or filename)
+ *
+ * Input:       fileDesc    : file descriptor or handle
+ *              pathname    : path to a file or directory
+ *              iattrBufLen : length of iattr buffer
+ *
+ * In/Out:      st_litemaskP: bitmask specification of required accuracy
+ *              iattr       : buffer for returned stat information
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  function not available
+ *              ENOENT  invalid pathname
+ *              EBADF   Bad file desc
+ *              EINVAL  Not a GPFS file
+ *              ESTALE  cached fs information was invalid
+ */
+int GPFS_API
+gpfs_fstat_x(gpfs_file_t fileDesc,
+             unsigned int *st_litemaskP,
+             gpfs_iattr64_t *iattr,
+             size_t iattrBufLen);
+
+int GPFS_API
+gpfs_stat_x(const char *pathname, /* File pathname */
+            unsigned int *st_litemaskP,
+            gpfs_iattr64_t *iattr,
+            size_t iattrBufLen);
+
+/* NAME:        gpfs_statfs64()
+ *
+ * FUNCTION:    Get information about the file system.
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  function not available
+ *              EBADF   Bad file desc
+ *              EINVAL  Not a GPFS file
+ *              ESTALE  cached fs information was invalid
+ */
+int GPFS_API
+gpfs_statfs64(const char *pathname, /* File pathname */
+              gpfs_statfs64_t *buffer);
+
+/* NAME:        gpfs_statlite()
+ *              gpfs_lstatlite() - do not follow a symlink at the end of the path
+ *
+ * FUNCTION:    Returns stat() information with specified accuracy
+ *
+ * Input:       pathname    : path to a file or directory
+ *
+ * In/Out:      st_litemaskP: bitmask specification of required accuracy
+ *              statbufP    : buffer for returned stat information
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       Specific error indication
+ *              EINVAL
+ *
+ */
+int GPFS_API
+gpfs_statlite(const char *pathname,
+              unsigned int *st_litemaskP,
+              gpfs_stat64_t *statbufP);
+
+int GPFS_API
+gpfs_lstatlite(const char *pathname,
+               unsigned int *st_litemaskP,
+               gpfs_stat64_t *statbufP);
+
+
+/* NAME:        gpfs_fgetattrs()
+ *
+ * FUNCTION:    Retrieves all extended file attributes in opaque format.
+ *              This function together with gpfs_fputattrs is intended for
+ *              use by a backup program to save (gpfs_fgetattrs) and
+ *              restore (gpfs_fputattrs) all extended file attributes
+ *              (ACLs, user attributes, ...) in one call.
+ *
+ *              NOTE: This call does not return extended attributes used for
+ *                    the Data Storage Management (XDSM) API (aka DMAPI).
+ *
+ * Input:       flags   Define behavior of get attributes
+ *                GPFS_ATTRFLAG_NO_PLACEMENT - file attributes for placement
+ *                      are not saved, neither is the current storage pool.
+ *                GPFS_ATTRFLAG_IGNORE_POOL - file attributes for placement
+ *                      are saved, but the current storage pool is not.
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  function not available
+ *              EINVAL  Not a GPFS file
+ *              EINVAL  invalid flags provided
+ *              ENOSPC  buffer too small to return all attributes
+ *                      *attrSizeP will be set to the size necessary
+ */
+int GPFS_API
+gpfs_fgetattrs(gpfs_file_t fileDesc,
+               int flags,
+               void *bufferP,
+               int bufferSize,
+               int *attrSizeP);
+
+
+/* NAME:        gpfs_fputattrs()
+ *
+ * FUNCTION:    Sets all extended file attributes of a file
+ *              and sets the file's storage pool and data replication
+ *              to the values saved in the extended attributes.
+ *
+ *              If the saved storage pool is not valid or if the IGNORE_POOL
+ *              flag is set, then it will select the storage pool by matching
+ *              a PLACEMENT rule using the saved file attributes.
+ *              If it fails to match a placement rule or if there are
+ *              no placement rules installed it will assign the file
+ *              to the "system" storage pool.
+ *
+ *              The buffer passed in should contain extended attribute data
+ *              that was obtained by a previous call to gpfs_fgetattrs.
+ *
+ * Input:       flags   Define behavior of put attributes
+ *                GPFS_ATTRFLAG_NO_PLACEMENT - file attributes are restored
+ *                      but the storage pool and data replication are unchanged
+ *                GPFS_ATTRFLAG_IGNORE_POOL - file attributes are restored
+ *                      but the storage pool and data replication are selected
+ *                      by matching the saved attributes to a placement rule
+ *                      instead of restoring the saved storage pool.
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  function not available
+ *              EINVAL  Not a GPFS file
+ *              EINVAL  the buffer does not contain valid attribute data
+ *              EINVAL  invalid flags provided
+ */
+int GPFS_API
+gpfs_fputattrs(gpfs_file_t fileDesc,
+               int flags,
+               void *bufferP);
+
+
+/* NAME:        gpfs_fputattrswithpathname()
+ *
+ * FUNCTION:    Sets all extended file attributes of a file and invokes
+ *              the policy engine to match a RESTORE rule using the file's
+ *              attributes saved in the extended attributes to set the
+ *              file's storage pool and data replication. The caller should
+ *              include the full path to the file, including the file name,
+ *              to allow rule selection based on file name or path.
+ *
+ *              If the file fails to match a RESTORE rule, or if there are
+ *              no RESTORE rules installed, then the storage pool and data
+ *              replication are selected as when calling gpfs_fputattrs().
+ *
+ *              The buffer passed in should contain extended attribute data
+ *              that was obtained by a previous call to gpfs_fgetattrs.
+ *
+ *              pathName is a UTF-8 encoded string. On Windows, applications
+ *              can convert UTF-16 ("Unicode") to UTF-8 using the platforms
+ *              WideCharToMultiByte function.
+ *
+ *
+ * Input:       flags   Define behavior of put attributes
+ *                GPFS_ATTRFLAG_NO_PLACEMENT - file attributes are restored
+ *                      but the storage pool and data replication are unchanged
+ *                GPFS_ATTRFLAG_IGNORE_POOL - file attributes are restored
+ *                      but if the file fails to match a RESTORE rule, it
+ *                      ignore the saved storage pool and select a pool
+ *                      by matching the saved attributes to a PLACEMENT rule.
+ *                GPFS_ATTRFLAG_SKIP_IMMUTABLE - Skip immutable/appendOnly flags
+ *                      before restoring file data. Then use GPFS_ATTRFLAG_FINALIZE_ATTRS
+ *                      to restore immutable/appendOnly flags after data is restored.
+ *                GPFS_ATTRFLAG_FINALIZE_ATTRS - file attributes that are restored
+ *                      after data is retored. If file is immutable/appendOnly
+ *                      call without this flag before restoring data
+ *                      then call with this flag after restoring data
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  function not available
+ *              EINVAL  Not a GPFS file
+ *              EINVAL  the buffer does not contain valid attribute data
+ *              ENOENT  invalid pathname
+ *              EINVAL  invalid flags provided
+ */
+int GPFS_API
+gpfs_fputattrswithpathname(gpfs_file_t fileDesc,
+                           int flags,
+                           void *bufferP,
+                           const char *pathName);
+
+
+/* NAME:        gpfs_get_fssnaphandle_by_path()
+ *
+ * FUNCTION:    Get a volatile handle to uniquely identify a file system
+ *              and snapshot by the path to the file system and snapshot
+ *
+ * Input:       pathName: path to a file or directory in a gpfs file system
+ *                        or to one of its snapshots
+ *
+ * Returns:     pointer to gpfs_fssnap_handle_t (Successful)
+ *              NULL and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EINVAL  Not a GPFS file
+ *              ENOENT invalid pathname
+ *              see system calls open(), fstatfs(), and malloc() ERRORS
+ */
+gpfs_fssnap_handle_t * GPFS_API
+gpfs_get_fssnaphandle_by_path(const char *pathName);
+
+
+/* NAME:        gpfs_get_fssnaphandle_by_name()
+ *
+ * FUNCTION:    Get a volatile handle to uniquely identify a file system
+ *              and snapshot by the file system name and snapshot name.
+ *
+ * Input:       fsName: unique name for gpfs file system (may be specified
+ *                      as fsName or /dev/fsName)
+ *              snapName: name for snapshot within that file system
+ *                        or NULL to access the active file system rather
+ *                        than a snapshot within the file system.
+ *
+ * Returns:     pointer to gpfs_fssnap_handle_t (Successful)
+ *              NULL and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              ENOENT invalid file system name
+ *              GPFS_E_INVAL_SNAPNAME invalid snapshot name
+ *              see system calls open(), fstatfs(), and malloc() ERRORS
+ */
+gpfs_fssnap_handle_t * GPFS_API
+gpfs_get_fssnaphandle_by_name(const char *fsName,
+                              const char *snapName);
+
+
+/* NAME:        gpfs_get_fssnaphandle_by_fssnapid()
+ *
+ * FUNCTION:    Get a volatile handle to uniquely identify a file system
+ *              and snapshot by a fssnapId created from a previous handle.
+ *
+ * Input:       fssnapId: unique id for a file system and snapshot
+ *
+ * Returns:     pointer to gpfs_fssnap_handle_t (Successful)
+ *              NULL and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              GPFS_E_INVAL_FSSNAPID invalid snapshot id
+ *              see system calls open(), fstatfs(), and malloc() ERRORS
+ */
+gpfs_fssnap_handle_t * GPFS_API
+gpfs_get_fssnaphandle_by_fssnapid(const gpfs_fssnap_id_t *fssnapId);
+
+/* NAME:        gpfs_get_fset_snaphandle_by_path()
+ *
+ * FUNCTION:    Get a volatile handle to uniquely identify an inode space within a
+ *              filesyetsm and snapshot by the path to the file system and snapshot.
+ *
+ * Input:       pathName: path to a file or directory in a gpfs file system
+ *                        or to one of its snapshots
+ *
+ * Returns:     pointer to gpfs_fssnap_handle_t (Successful)
+ *              NULL and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EINVAL  Not a GPFS file
+ *              ENOENT invalid pathname
+ *              see system calls open(), fstatfs(), and malloc() ERRORS
+ */
+gpfs_fssnap_handle_t * GPFS_API
+gpfs_get_fset_snaphandle_by_path(const char *pathName);
+
+/* NAME:        gpfs_get_fset_snaphandle_by_name()
+ *
+ * FUNCTION:    Get a volatile handle to uniquely identify an inode space within a
+ *              file system and snapshot by the independent fileset name, file system
+ *              name and snapshot name.
+ *
+ * Input:       fsName: unique name for gpfs file system (may be specified
+ *                      as fsName or /dev/fsName)
+ *              fsetName name of the independent fileset that owns the inode space
+ *              snapName: name for snapshot within that file system
+ *                        or NULL to access the active file system rather
+ *                        than a snapshot within the file system.
+ *
+ * Returns:     pointer to gpfs_fssnap_handle_t (Successful)
+ *              NULL and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              ENOENT invalid file system name
+ *              GPFS_E_INVAL_FSETNAME invalid fset nsmae
+ *              GPFS_E_INVAL_SNAPNAME invalid snapshot name
+ *              see system calls open(), fstatfs(), and malloc() ERRORS
+ */
+gpfs_fssnap_handle_t * GPFS_API
+gpfs_get_fset_snaphandle_by_name(const char *fsName,
+                                 const char *fsetName,
+                                 const char *snapName);
+
+/* NAME:        gpfs_get_fset_snaphandle_by_fset_snapid()
+ *
+ * FUNCTION:    Get a volatile handle to uniquely identify a file system
+ *              and snapshot by a fssnapId created from a previous handle.
+ *
+ * Input:       fssnapId: unique id for a file system and snapshot
+ *
+ * Returns:     pointer to gpfs_fssnap_handle_t (Successful)
+ *              NULL and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              GPFS_E_INVAL_FSSNAPID invalid snapshot id
+ *              see system calls open(), fstatfs(), and malloc() ERRORS
+ */
+gpfs_fssnap_handle_t * GPFS_API
+gpfs_get_fset_snaphandle_by_fset_snapid(const gpfs_fssnap_id_t *fsetsnapId);
+
+/* NAME:        gpfs_get_pathname_from_fssnaphandle()
+ *
+ * FUNCTION:    Get the mountpoint and path to a file system
+ *              and snapshot identified by a fssnapHandle
+ *
+ * Input:       fssnapHandle: ptr to file system & snapshot handle
+ *
+ * Returns:     ptr to path name to the file system  (Successful)
+ *              NULL and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              GPFS_E_INVAL_FSSNAPHANDLE invalid fssnapHandle
+ */
+const char * GPFS_API
+gpfs_get_pathname_from_fssnaphandle(gpfs_fssnap_handle_t *fssnapHandle);
+
+
+/* NAME:        gpfs_get_fsname_from_fssnaphandle()
+ *
+ * FUNCTION:    Get the unique name for the file system
+ *              identified by a fssnapHandle
+ *
+ * Input:       fssnapHandle: ptr to file system & snapshot handle
+ *
+ * Returns:     ptr to name of the file system  (Successful)
+ *              NULL and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              GPFS_E_INVAL_FSSNAPHANDLE invalid fssnapHandle
+ */
+const char * GPFS_API
+gpfs_get_fsname_from_fssnaphandle(gpfs_fssnap_handle_t *fssnapHandle);
+
+
+/* NAME:        gpfs_get_snapname_from_fssnaphandle()
+ *
+ * FUNCTION:    Get the name for the snapshot
+ *              uniquely identified by a fssnapHandle
+ *
+ * Input:       fssnapHandle: ptr to file system & snapshot handle
+ *
+ * Returns:     ptr to name assigned to the snapshot (Successful)
+ *              NULL and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              GPFS_E_INVAL_FSSNAPHANDLE invalid fssnaphandle
+ *              GPFS_E_INVAL_SNAPNAME snapshot has been deleted
+ *
+ * Notes:       If the snapshot has been deleted from the file system
+ *              the snapId may still be valid, but the call will fail
+ *              with errno set to GPFS_E_INVAL_SNAPNAME.
+ */
+const char * GPFS_API
+gpfs_get_snapname_from_fssnaphandle(gpfs_fssnap_handle_t *fssnapHandle);
+
+
+/* NAME:        gpfs_get_snapid_from_fssnaphandle()
+ *
+ * FUNCTION:    Get the numeric id for the snapshot identified
+ *              by a fssnapHandle. The snapshots define an ordered
+ *              sequence of changes to each file. The file's iattr
+ *              structure defines the snapshot id in which the file
+ *              was last modified (ia_modsnapid). This numeric value
+ *              can be compared to the numeric snapid from a fssnaphandle
+ *              to determine if the file changed before or after the
+ *              snapshot identified by the fssnaphandle.
+ *
+ * Input:       fssnapHandle: ptr to file system & snapshot handle
+ *
+ * Returns:     Numeric id for the snapshot referred to by the fssnaphandle
+ *              0 if the fssnaphandle does not refer to a snapshot
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              GPFS_E_INVAL_FSSNAPHANDLE invalid fssnaphandle
+ *
+ * Notes:       The snapshot need not be on-line to determine the
+ *              snapshot's numeric id.
+ */
+gpfs_snapid_t GPFS_API
+gpfs_get_snapid_from_fssnaphandle(gpfs_fssnap_handle_t *fssnapHandle);
+
+gpfs_snapid64_t GPFS_API
+gpfs_get_snapid_from_fssnaphandle64(gpfs_fssnap_handle_t *fssnapHandle);
+
+
+/* NAME:        gpfs_get_fssnapid_from_fssnaphandle()
+ *
+ * FUNCTION:    Get a unique, non-volatile file system and snapshot id
+ *              for the file system and snapshot identified by a
+ *              volatile fssnap handle.
+ *
+ * Input:       fssnapHandle: ptr to file system & snapshot handle
+ *              fssnapId: returned fssnapId uniquely identifying the
+ *                        file system and snapshot being scanned
+ *
+ * Returns:     0 and fssnapId is set with id (Successful)
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       GPFS_E_INVAL_FSSNAPHANDLE invalid fssnaphandle
+ *              EINVAL null ptr given for returned fssnapId
+ *              EFAULT size mismatch for fssnapId
+ */
+int GPFS_API
+gpfs_get_fssnapid_from_fssnaphandle(gpfs_fssnap_handle_t *fssnapHandle,
+                                    gpfs_fssnap_id_t *fssnapId);
+
+
+/* NAME:        gpfs_get_restore_fssnapid_from_fssnaphandle()
+ *
+ * FUNCTION:    Get the unique, non-volatile file system and snapshot id
+ *              used for the last complete restore of a mirrored file
+ *              system. The file system must been a previous restore
+ *              target and ready for additional incremental restore.
+ *
+ * Input:       fssnapHandle: ptr to file system & snapshot handle
+ *              fssnapId: returned fssnapId uniquely identifying the
+ *                        last complete restored file system.
+ *
+ * Returns:     0 and fssnapId is set with id (Successful)
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       GPFS_E_INVAL_FSSNAPHANDLE invalid fssnaphandle
+ *              EINVAL null ptr given for returned fssnapId
+ *              EFAULT size mismatch for fssnapId
+ *              EPERM caller must have superuser privilege
+ *              ENOMEM unable to allocate memory for request
+ *              GPFS_E_FS_NOT_RESTORABLE fs is not clean for restore
+ */
+int GPFS_API
+gpfs_get_restore_fssnapid_from_fssnaphandle(gpfs_fssnap_handle_t *fssnapHandle,
+                                            gpfs_fssnap_id_t *fssnapId);
+
+/* NAME:        gpfs_free_fssnaphandle()
+ *
+ * FUNCTION:    Free a fssnapHandle
+ *
+ * Input:       fssnapHandle: ptr to file system & snapshot handle
+ *
+ * Returns:     void
+ *
+ * Errno:       None
+ */
+void GPFS_API
+gpfs_free_fssnaphandle(gpfs_fssnap_handle_t *fssnapHandle);
+
+/* NAME:        gpfs_get_snapdirname()
+ *
+ * FUNCTION:    Get the name of the directory containing snapshots.
+ *
+ * Input:       fssnapHandle: handle for the file system
+ *              snapdirName: buffer into which the name of the snapshot
+ *                directory will be copied
+ *              bufLen: the size of the provided buffer
+ *
+ * Returns:     0 (Successful)
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              ENOMEM unable to allocate memory for request
+ *              GPFS_E_INVAL_FSSNAPHANDLE fssnapHandle is invalid
+ *              E2BIG buffer too small to return the snapshot directory name
+ */
+int GPFS_API
+gpfs_get_snapdirname(gpfs_fssnap_handle_t *fssnapHandle,
+                     char *snapdirName,
+                     int bufLen);
+
+
+/* NAME:        gpfs_open_inodescan()
+ *
+ * FUNCTION:    Open inode file for inode scan.
+ *
+ * Input:       fssnapHandle: handle for file system and snapshot
+ *                            to be scanned
+ *              prev_fssnapId:
+ *                if NULL, all inodes of existing file will be returned;
+ *                if non-null, only returns inodes of files that have changed
+ *                since the specified previous snapshot;
+ *                if specifies the same snapshot as the one referred by
+ *                fssnapHandle, only the snapshot inodes that have been
+ *                copied into this snap inode file are returned;
+ *              maxIno: if non-null, returns the maximum inode number
+ *                available in the inode file being scanned.
+ *
+ * Returns:     pointer to gpfs_iscan_t (Successful)
+ *              NULL and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EINVAL bad parameters
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              ENOMEM unable to allocate memory for request
+ *              GPFS_E_INVAL_FSSNAPHANDLE fssnapHandle is invalid
+ *              GPFS_E_INVAL_FSSNAPID prev_fssnapId is invalid
+ *              EDOM prev_fssnapId is from a different fs
+ *              ERANGE prev_fssnapId is  more recent than snapId
+ *                     being scanned
+ *              see system calls dup() and malloc() ERRORS
+ */
+gpfs_iscan_t * GPFS_API
+gpfs_open_inodescan(gpfs_fssnap_handle_t *fssnapHandle,
+                    const gpfs_fssnap_id_t *prev_fssnapId,
+                    gpfs_ino_t *maxIno);
+
+gpfs_iscan_t * GPFS_API
+gpfs_open_inodescan64(gpfs_fssnap_handle_t *fssnapHandle,
+                      const gpfs_fssnap_id_t *prev_fssnapId,
+                      gpfs_ino64_t *maxIno);
+
+
+/* NAME:        gpfs_open_inodescan_with_xattrs()
+ *
+ * FUNCTION:    Open inode file and extended attributes for an inode scan
+ *
+ * Input:       fssnapHandle: handle for file system and snapshot
+ *                            to be scanned
+ *              prev_fssnapId: if NULL, all inodes of existing file will
+ *                be returned; if non-null, only returns inodes of files
+ *                that have changed since the specified previous snapshot;
+ *                if specifies the same snapshot as the one referred by
+ *                fssnapHandle, only the snapshot inodes that have been
+ *                copied into this snap inode file are returned;
+ *              nxAttrs: count of extended attributes to be returned.
+ *                if nxAttrs is set to 0, call returns no extended
+ *                attributes, like gpfs_open_inodescan.
+ *                if nxAttrs is set to -1, call returns all extended attributes
+ *              xAttrList: pointer to array of pointers to names of extended
+ *                attribute to be returned. nxAttrList may be null if nxAttrs
+ *                is set to 0 or -1.
+ *              maxIno: if non-null, returns the maximum inode number
+ *                available in the inode file being scanned.
+ *
+ * Returns:     pointer to gpfs_iscan_t (Successful)
+ *              NULL and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EINVAL bad parameters
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              ENOMEM unable to allocate memory for request
+ *              GPFS_E_INVAL_FSSNAPHANDLE fssnapHandle is invalid
+ *              GPFS_E_INVAL_FSSNAPID prev_fssnapId is invalid
+ *              EDOM prev_fssnapId is from a different fs
+ *              ERANGE prev_fssnapId is more recent than snapId
+ *                     being scanned
+ *              see system calls dup() and malloc() ERRORS
+ */
+gpfs_iscan_t * GPFS_API
+gpfs_open_inodescan_with_xattrs(gpfs_fssnap_handle_t *fssnapHandle,
+                                const gpfs_fssnap_id_t *prev_fssnapId,
+                                int nxAttrs,
+                                const char *xattrsList[],
+                                gpfs_ino_t *maxIno);
+
+gpfs_iscan_t * GPFS_API
+gpfs_open_inodescan_with_xattrs64(gpfs_fssnap_handle_t *fssnapHandle,
+                                  const gpfs_fssnap_id_t *prev_fssnapId,
+                                  int nxAttrs,
+                                  const char *xattrList[],
+                                  gpfs_ino64_t *maxIno);
+
+
+/* NAME:        gpfs_next_inode()
+ *
+ * FUNCTION:    Get next inode from inode scan. Scan terminates before
+ *              the last inode specified or the last inode in the
+ *              inode file being scanned.
+ *
+ *              If the inode scan was opened to expressly look for inodes
+ *              in a snapshot, and not dittos, gets the next inode skipping
+ *              holes, if any.
+ *
+ * Input:       iscan: ptr to inode scan descriptor
+ *              termIno: scan terminates before this inode number
+ *                caller may specify maxIno from gpfs_open_inodescan()
+ *                or 0 to scan the entire inode file.
+ *              iattr: pointer to returned pointer to file's iattr.
+ *
+ * Returns:     0 and *iattr set to point to gpfs_iattr_t (Successful)
+ *              0 and *iattr set to NULL for no more inodes before termIno
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              ENOMEM buffer too small
+ *              GPFS_E_INVAL_ISCAN bad parameters
+ *              GPFS_E_INVAL_FSSNAPID the snapshot id provided in the
+ *                                    gpfs iscan is not valid
+ *
+ * Notes:       The data returned by gpfs_next_inode() is overwritten by
+ *              subsequent calls to gpfs_next_inode() or gpfs_seek_inode().
+ *
+ *              The termIno parameter provides a means to partition an
+ *              inode scan such that it may be executed on more than one node.
+ */
+int GPFS_API
+gpfs_next_inode(gpfs_iscan_t *iscan,
+                gpfs_ino_t termIno,
+                const gpfs_iattr_t **iattr);
+
+int GPFS_API
+gpfs_next_inode64(gpfs_iscan_t *iscan,
+                  gpfs_ino64_t termIno,
+                  const gpfs_iattr64_t **iattr);
+
+
+/* NAME:        gpfs_next_inode_with_xattrs()
+ *
+ * FUNCTION:    Get next inode and its extended attributes from the inode scan.
+ *              The set of extended attributes returned were defined when
+ *              the inode scan was opened. The scan terminates before the last
+ *              inode specified or the last inode in the inode file being
+ *              scanned.
+ *
+ *              If the inode scan was opened to expressly look for inodes
+ *              in a snapshot, and not dittos, gets the next inode skipping
+ *              holes, if any.
+ *
+ * Input:       iscan: ptr to inode scan descriptor
+ *              termIno: scan terminates before this inode number
+ *                caller may specify maxIno from gpfs_open_inodescan()
+ *                or 0 to scan the entire inode file.
+ *              iattr: pointer to returned pointer to file's iattr.
+ *              xattrBuf: pointer to returned pointer to xattr buffer
+ *              xattrBufLen: returned length of xattr buffer
+ *
+ *
+ * Returns:     0 and *iattr set to point to gpfs_iattr_t (Successful)
+ *              0 and *iattr set to NULL for no more inodes before termIno
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              EFAULT buffer data was overwritten
+ *              ENOMEM buffer too small
+ *              GPFS_E_INVAL_ISCAN bad parameters
+ *              GPFS_E_INVAL_XATTR bad parameters
+ *
+ * Notes:       The data returned by gpfs_next_inode() is overwritten by
+ *              subsequent calls to gpfs_next_inode(), gpfs_seek_inode()
+ *              or gpfs_stat_inode().
+ *
+ *              The termIno parameter provides a means to partition an
+ *              inode scan such that it may be executed on more than one node.
+ *
+ *              The returned values for xattrBuf and xattrBufLen must be
+ *              provided to gpfs_next_xattr() to obtain the extended attribute
+ *              names and values. The buffer used for the extended attributes
+ *              is overwritten by subsequent calls to gpfs_next_inode(),
+ *              gpfs_seek_inode() or gpfs_stat_inode();
+ *
+ *              The returned pointers to the extended attribute name and value
+ *              will be aligned to a double-word boundary.
+ */
+int GPFS_API
+gpfs_next_inode_with_xattrs(gpfs_iscan_t *iscan,
+                            gpfs_ino_t termIno,
+                            const gpfs_iattr_t **iattr,
+                            const char **xattrBuf,
+                            unsigned int *xattrBufLen);
+
+int GPFS_API
+gpfs_next_inode_with_xattrs64(gpfs_iscan_t *iscan,
+                              gpfs_ino64_t termIno,
+                              const gpfs_iattr64_t **iattr,
+                              const char **xattrBuf,
+                              unsigned int *xattrBufLen);
+
+
+/* NAME:        gpfs_next_xattr()
+ *
+ * FUNCTION:    Iterate over the extended attributes buffer returned
+ *              by get_next_inode_with_xattrs to return the individual
+ *              attributes and their values. Note that the attribute names
+ *              are null-terminated strings, whereas the atttribute value
+ *              contains binary data.
+ *
+ * Input:       iscan: ptr to inode scan descriptor
+ *              xattrBufLen: ptr to attribute buffer length
+ *              xattrBuf: ptr to the ptr to the attribute buffer
+ *
+ * Returns:     0 and *name set to point attribue name (Successful)
+ *                also sets: *valueLen to length of attribute value
+ *                           *value to point to attribute value
+ *                           *xattrBufLen to remaining length of buffer
+ *                           **xattrBuf to index next attribute in buffer
+ *              0 and *name set to NULL for no more attributes in buffer
+ *                also sets: *valueLen to 0
+ *                           *value to NULL
+ *                           *xattrBufLen to 0
+ *                           **xattrBuf to NULL
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              GPFS_E_INVAL_ISCAN invalid iscan parameter
+ *              GPFS_E_INVAL_XATTR invalid xattr parameters
+ *
+ * Notes:       The caller is not allowed to modify the returned attribute
+ *              names or values.  The data returned by gpfs_next_attribute()
+ *              may be overwritten by subsequent calls to gpfs_next_attribute()
+ *              or other gpfs library calls.
+ */
+int GPFS_API
+gpfs_next_xattr(gpfs_iscan_t *iscan,
+                const char **xattrBuf,
+                unsigned int *xattrBufLen,
+                const char **name,
+                unsigned int *valueLen,
+                const char **value);
+
+
+
+/* NAME:        gpfs_seek_inode()
+ *
+ * FUNCTION:    Seek to a given inode number.
+ *
+ * Input:       iscan: ptr to inode scan descriptor
+ *              ino: next inode number to be scanned
+ *
+ * Returns:     0       Successful
+ *              -1      Failure and errno is set
+ *
+ * Errno:       ENOSYS function not available
+ *              GPFS_E_INVAL_ISCAN bad parameters
+ */
+int GPFS_API
+gpfs_seek_inode(gpfs_iscan_t *iscan,
+                gpfs_ino_t ino);
+
+int GPFS_API
+gpfs_seek_inode64(gpfs_iscan_t *iscan,
+                  gpfs_ino64_t ino);
+
+
+#ifdef SNAPSHOT_ILM
+
+/* define GPFS generated errno */
+#define GPFS_E_HOLE_IN_IFILE  238 /* hole in inode file */
+
+#endif
+/* NAME:        gpfs_stat_inode()
+ * NAME:        gpfs_stat_inode_with_xattrs()
+ *
+ * FUNCTION:    Seek to the specified inode and get that inode and
+ *              its extended attributes from the inode scan. This is
+ *              simply a combination of gpfs_seek_inode and get_next_inode
+ *              but will only return the specified inode.
+ *
+ * Input:       iscan: ptr to inode scan descriptor
+ *              ino: inode number to be returned
+ *              termIno: prefetch inodes up to this inode
+ *                caller may specify maxIno from gpfs_open_inodescan()
+ *                or 0 to allow prefetching over the entire inode file.
+ *              iattr: pointer to returned pointer to file's iattr.
+ *              xattrBuf: pointer to returned pointer to xattr buffer
+ *              xattrBufLen: returned length of xattr buffer
+ *
+ * Returns:     0 and *iattr set to point to gpfs_iattr_t (Successful)
+ *              0 and *iattr set to NULL for no more inodes before termIno
+ *                or if requested inode does not exist.
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              ENOMEM buffer too small
+ *              GPFS_E_INVAL_ISCAN bad parameters
+ *              GPFS_E_HOLE_IN_IFILE if we are expressly looking for inodes in
+ *                                   the snapshot file and this one has yet not
+ *                                   been copied into snapshot.
+ *
+ * Notes:       The data returned by gpfs_next_inode() is overwritten by
+ *              subsequent calls to gpfs_next_inode(), gpfs_seek_inode()
+ *              or gpfs_stat_inode().
+ *
+ *              The termIno parameter provides a means to partition an
+ *              inode scan such that it may be executed on more than one node.
+ *              It is only used by this call to control prefetching.
+ *
+ *              The returned values for xattrBuf and xattrBufLen must be
+ *              provided to gpfs_next_xattr() to obtain the extended attribute
+ *              names and values. The buffer used for the extended attributes
+ *              is overwritten by subsequent calls to gpfs_next_inode(),
+ *              gpfs_seek_inode() or gpfs_stat_inode();
+ */
+int GPFS_API
+gpfs_stat_inode(gpfs_iscan_t *iscan,
+                gpfs_ino_t ino,
+                gpfs_ino_t termIno,
+                const gpfs_iattr_t **iattr);
+
+int GPFS_API
+gpfs_stat_inode64(gpfs_iscan_t *iscan,
+                  gpfs_ino64_t ino,
+                  gpfs_ino64_t termIno,
+                  const gpfs_iattr64_t **iattr);
+
+int GPFS_API
+gpfs_stat_inode_with_xattrs(gpfs_iscan_t *iscan,
+                            gpfs_ino_t ino,
+                            gpfs_ino_t termIno,
+                            const gpfs_iattr_t **iattr,
+                            const char **xattrBuf,
+                            unsigned int *xattrBufLen);
+
+int GPFS_API
+gpfs_stat_inode_with_xattrs64(gpfs_iscan_t *iscan,
+                              gpfs_ino64_t ino,
+                              gpfs_ino64_t termIno,
+                              const gpfs_iattr64_t **iattr,
+                              const char **xattrBuf,
+                              unsigned int *xattrBufLen);
+
+
+/* NAME:        gpfs_close_inodescan()
+ *
+ * FUNCTION:    Close inode file.
+ *
+ * Input:       iscan: ptr to inode scan descriptor
+ *
+ * Returns:     void
+ *
+ * Errno:       None
+ */
+void GPFS_API
+gpfs_close_inodescan(gpfs_iscan_t *iscan);
+
+
+/* NAME:        gpfs_cmp_fssnapid()
+ *
+ * FUNCTION:    Compare two fssnapIds for the same file system to
+ *              determine the order in which the two snapshots were taken.
+ *              The 'result' variable will be set as follows:
+ *                *result < 0:  snapshot 1 was taken before snapshot 2
+ *                *result == 0: snapshot 1 and 2 are the same
+ *                *result > 0:  snapshot 1 was taken after snapshot 2
+ *
+ * Input:      fssnapId1: ptr to fssnapId 1
+ *             fssnapId2: ptr to fssnapId id 2
+ *             result: ptr to returned results
+ *
+ * Returns:     0 and *result is set as described above (Successful)
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              GPFS_E_INVAL_FSSNAPID fssnapid1 or fssnapid2 is not a
+ *                valid snapshot id
+ *              EDOM the two snapshots cannot be compared because
+ *                they were taken from two different file systems.
+ */
+int GPFS_API
+gpfs_cmp_fssnapid(const gpfs_fssnap_id_t *fssnapId1,
+                  const gpfs_fssnap_id_t *fssnapId2,
+                  int *result);
+
+
+/* NAME:        gpfs_iopen()
+ *
+ * FUNCTION:    Open a file or directory by inode number.
+ *
+ * Input: fssnapHandle: handle for file system and snapshot
+ *                      being scanned
+ *        ino: inode number
+ *        open_flags: O_RDONLY for gpfs_iread()
+ *                    O_WRONLY for gpfs_iwrite()
+ *                    O_CREAT create the file if it doesn't exist
+ *                    O_TRUNC if the inode already exists delete it
+ *           caller may use GPFS_O_BACKUP to read files for backup
+ *                      and GPFS_O_RESTORE to write files for restore
+ *        statxbuf: used only with O_CREAT/GPFS_O_BACKUP
+ *                  all other cases set to NULL
+ *        symLink: used only with O_CREAT/GPFS_O_BACKUP for a symbolic link
+ *                 all other cases set to NULL
+ *
+ * Returns:     pointer to gpfs_ifile_t (Successful)
+ *              NULL and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              ENOENT file not existed
+ *              EINVAL missing or bad parameter
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              ENOMEM unable to allocate memory for request
+ *              EFORMAT invalid fs version number
+ *              EIO error reading original inode
+ *              ERANGE error ino is out of range, should use gpfs_iopen64
+ *              GPFS_E_INVAL_INUM reserved inode is not allowed to open
+ *              GPFS_E_INVAL_IATTR iattr structure was corrupted
+ *              see dup() and malloc() ERRORS
+ */
+gpfs_ifile_t * GPFS_API
+gpfs_iopen(gpfs_fssnap_handle_t *fssnapHandle,
+           gpfs_ino_t ino,
+           int open_flags,
+           const gpfs_iattr_t *statxbuf,
+           const char *symLink);
+
+gpfs_ifile_t * GPFS_API
+gpfs_iopen64(gpfs_fssnap_handle_t *fssnapHandle,
+             gpfs_ino64_t ino,
+             int open_flags,
+             const gpfs_iattr64_t *statxbuf,
+             const char *symLink);
+
+
+/* Define gpfs_iopen flags as used by the backup & restore by inode.
+   The backup code will only read the source files.
+   The restore code writes the target files & creates them if they
+   don't already exist. The file length is set by the inode attributes.
+   Consequently, to restore a user file it is unnecessary to include
+   the O_TRUNC flag. */
+#define GPFS_O_BACKUP  (O_RDONLY)
+#define GPFS_O_RESTORE (O_WRONLY | O_CREAT)
+
+
+/* NAME:        gpfs_iread()
+ *
+ * FUNCTION:    Read file opened by gpfs_iopen.
+ *
+ * Input:       ifile:      pointer to gpfs_ifile_t from gpfs_iopen
+ *              buffer:     buffer for data to be read
+ *              bufferSize: size of buffer (ie amount of data to be read)
+ * In/Out       offset:     offset of where within the file to read
+ *                          if successful, offset will be updated to the
+ *                          next byte after the last one that was read
+ *
+ * Returns:     number of bytes read (Successful)
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EISDIR file is a directory
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              GPFS_E_INVAL_IFILE bad ifile parameters
+ *              see system call read() ERRORS
+ */
+int GPFS_API
+gpfs_iread(gpfs_ifile_t *ifile,
+           void *buffer,
+           int bufferSize,
+           gpfs_off64_t *offset);
+
+
+/* NAME:        gpfs_iwrite()
+ *
+ * FUNCTION:    Write file opened by gpfs_iopen.
+ *
+ * Input:       ifile:    pointer to gpfs_ifile_t from gpfs_iopen
+ *              buffer:   the data to be written
+ *              writeLen: how much to write
+ * In/Out       offset:   offset of where within the file to write
+ *                        if successful, offset will be updated to the
+ *                        next byte after the last one that was written
+ *
+ * Returns:     number of bytes written (Successful)
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EISDIR file is a directory
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              GPFS_E_INVAL_IFILE bad ifile parameters
+ *              see system call write() ERRORS
+ */
+int GPFS_API
+gpfs_iwrite(gpfs_ifile_t *ifile,
+            void *buffer,
+            int writeLen,
+            gpfs_off64_t *offset);
+
+
+/* NAME:        gpfs_ireaddir()
+ *
+ * FUNCTION:    Get next directory entry.
+ *
+ * Input:       idir:   pointer to gpfs_ifile_t from gpfs_iopen
+ *              dirent: pointer to returned pointer to directory entry
+ *
+ * Returns:     0 and pointer to gpfs_direntx set (Successful)
+ *              0 and pointer to gpfs_direntx set to NULL (End of directory)
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              ENOTDIR file is not a directory
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              GPFS_E_INVAL_IFILE bad ifile parameter
+ *              ENOMEM unable to allocate memory for request
+ *
+ * Notes:       The data returned by gpfs_ireaddir() is overwritten by
+ *              subsequent calls to gpfs_ireaddir().
+ */
+int GPFS_API
+gpfs_ireaddir(gpfs_ifile_t *idir,
+              const gpfs_direntx_t **dirent);
+
+int GPFS_API
+gpfs_ireaddir64(gpfs_ifile_t *idir,
+                const gpfs_direntx64_t **dirent);
+
+
+int GPFS_API
+gpfs_ireaddirx(gpfs_ifile_t *idir,
+               gpfs_iscan_t *iscan,      /* in only  */
+               const gpfs_direntx_t **dirent);
+
+int GPFS_API
+gpfs_ireaddirx64(gpfs_ifile_t *idir,
+                 gpfs_iscan_t *iscan,      /* in only  */
+                 const gpfs_direntx64_t **dirent);
+
+
+/* NAME:        gpfs_iwritedir()
+ *
+ * FUNCTION:    Create a directory entry in a directory opened by gpfs_iopen.
+ *
+ * Input:       idir:   pointer to gpfs_ifile_t from gpfs_iopen
+ *              dirent: directory entry to be written
+ *
+ * Returns:     0 (Successful)
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              GPFS_E_INVAL_IFILE bad file pointer
+ *              ENOTDIR file is not a directory
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              ENOMEM unable to allocate memory for request
+ *              EFORMAT invalid dirent version number
+ *              see system call write() ERRORS
+ */
+int GPFS_API
+gpfs_iwritedir(gpfs_ifile_t *idir,
+               const gpfs_direntx_t *dirent);
+
+int GPFS_API
+gpfs_iwritedir64(gpfs_ifile_t *idir,
+                 const gpfs_direntx64_t *dirent);
+
+
+/* NAME:        gpfs_igetattrs()
+ *
+ * FUNCTION:    Retrieves all extended file attributes in opaque format.
+ *              This function together with gpfs_iputattrs is intended for
+ *              use by a backup program to save (gpfs_igetattrs) and
+ *              restore (gpfs_iputattrs) all extended file attributes
+ *              (ACLs, user attributes, ...) in one call.
+ *
+ *              NOTE: This call does not return extended attributes used for
+ *                    the Data Storage Management (XDSM) API (aka DMAPI).
+ *
+ * Input:       ifile:      pointer to gpfs_ifile_t from gpfs_iopen
+ *              buffer:     pointer to buffer for returned attributes
+ *              bufferSize: size of buffer
+ *              attrSize:   ptr to returned size of attributes
+ *
+ * Returns:     0       Successful
+ *              -1      Failure and errno is set
+ *
+ * Errno:       ENOSYS  function not available
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              ENOSPC  buffer too small to return all attributes
+ *                      *attrSizeP will be set to the size necessary
+ *              GPFS_E_INVAL_IFILE bad ifile parameters
+ */
+int GPFS_API
+gpfs_igetattrs(gpfs_ifile_t *ifile,
+               void *buffer,
+               int bufferSize,
+               int *attrSize);
+
+/* NAME:        gpfs_igetattrsx()
+ *
+ * FUNCTION:    Retrieves all extended file attributes in opaque format.
+ *              This function together with gpfs_iputattrsx is intended for
+ *              use by a backup program to save (gpfs_igetattrsx) and
+ *              restore (gpfs_iputattrsx) all extended file attributes
+ *              (ACLs, user attributes, ...) in one call.
+ *
+ *              NOTE: This call can optionally return extended attributes
+ *                    used for the Data Storage Management (XDSM) API
+ *                    (aka DMAPI).
+ *
+ * Input:       ifile:      pointer to gpfs_ifile_t from gpfs_iopen
+ *              flags   Define behavior of get attributes
+ *                GPFS_ATTRFLAG_NO_PLACEMENT - file attributes for placement
+ *                      are not saved, neither is the current storage pool.
+ *                GPFS_ATTRFLAG_IGNORE_POOL - file attributes for placement
+ *                      are saved, but the current storage pool is not.
+ *                GPFS_ATTRFLAG_INCL_DMAPI - file attributes for dmapi are
+ *                      included in the returned buffer
+ *                GPFS_ATTRFLAG_INCL_ENCR - file attributes for encryption
+ *                      are included in the returned buffer
+ *
+ *              buffer:     pointer to buffer for returned attributes
+ *              bufferSize: size of buffer
+ *              attrSize:   ptr to returned size of attributes
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  function not available
+ *              EINVAL  Not a GPFS file
+ *              EINVAL  invalid flags provided
+ *              ENOSPC  buffer too small to return all attributes
+ *                      *attrSizeP will be set to the size necessary
+ */
+int GPFS_API
+gpfs_igetattrsx(gpfs_ifile_t *ifile,
+                int flags,
+                void *buffer,
+                int bufferSize,
+                int *attrSize);
+
+
+/* NAME:        gpfs_igetxattr()
+ *
+ * FUNCTION:    Retrieves an extended file attributes from ifile which has been open
+ *              by gpfs_iopen().
+ *
+ *              NOTE: This call does not return extended attributes used for
+ *                    the Data Storage Management (XDSM) API (aka DMAPI).
+ *
+ * Input:       ifile:      pointer to gpfs_ifile_t from gpfs_iopen
+ *              buffer:     pointer to buffer for key and returned extended
+ *                          attribute value
+ *              bufferSize: size of buffer, should be enough to save attribute value
+ *              attrSize:   ptr to key length as input and ptr to the returned
+ *                          size of attributes as putput.
+ *
+ * Returns:      0      Successful
+ *              -1      Failure and errno is set
+ *
+ * Errno:       ENOSYS  function not available
+ *              EPERM caller must have superuser priviledges
+ *              ESTALE cached fs information was invalid
+ *              ENOSPC  buffer too small to return all attributes
+ *                      *attrSize will be set to the size necessary
+ *              GPFS_E_INVAL_IFILE bad ifile parameters
+ */
+int GPFS_API
+gpfs_igetxattr(gpfs_ifile_t *ifile,
+	       void *buffer,
+	       int bufferSize,
+	       int *attrSize);
+
+
+/* NAME:        gpfs_iputattrs()
+ *
+ * FUNCTION:    Sets all extended file attributes of a file.
+ *              The buffer passed in should contain extended attribute data
+ *              that was obtained by a previous call to gpfs_igetattrs.
+ *
+ *              NOTE: This call will not restore extended attributes
+ *                    used for the Data Storage Management (XDSM) API
+ *                    (aka DMAPI). They will be silently ignored.
+ *
+ * Input:       ifile:  pointer to gpfs_ifile_t from gpfs_iopen
+ *              buffer: pointer to buffer for returned attributes
+ *
+ * Returns:     0       Successful
+ *              -1      Failure and errno is set
+ *
+ * Errno:       ENOSYS  function not available
+ *              EINVAL  the buffer does not contain valid attribute data
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              GPFS_E_INVAL_IFILE bad ifile parameters
+ */
+int GPFS_API
+gpfs_iputattrs(gpfs_ifile_t *ifile,
+               void *buffer);
+
+
+/* NAME:        gpfs_iputattrsx()
+ *
+ * FUNCTION:    Sets all extended file attributes of a file.
+ *
+ *              This routine can optionally invoke the policy engine
+ *              to match a RESTORE rule using the file's attributes saved
+ *              in the extended attributes to set the file's storage pool and
+ *              data replication as when calling gpfs_fputattrswithpathname.
+ *              When used with the policy the caller should include the
+ *              full path to the file, including the file name, to allow
+ *              rule selection based on file name or path.
+ *
+ *              By default, the routine will not use RESTORE policy rules
+ *              for data placement. The pathName parameter will be ignored
+ *              and may be set to NULL.
+ *
+ *              If the call does not use RESTORE policy rules, or if the
+ *              file fails to match a RESTORE rule, or if there are no
+ *              RESTORE rules installed, then the storage pool and data
+ *              replication are selected as when calling gpfs_fputattrs().
+ *
+ *              The buffer passed in should contain extended attribute data
+ *              that was obtained by a previous call to gpfs_fgetattrs.
+ *
+ *              pathName is a UTF-8 encoded string. On Windows, applications
+ *              can convert UTF-16 ("Unicode") to UTF-8 using the platforms
+ *              WideCharToMultiByte function.
+ *
+ *              NOTE: This call will restore extended attributes
+ *                    used for the Data Storage Management (XDSM) API
+ *                    (aka DMAPI) if they are present in the buffer.
+ *
+ * Input:       ifile:  pointer to gpfs_ifile_t from gpfs_iopen
+ *              flags   Define behavior of put attributes
+ *                GPFS_ATTRFLAG_NO_PLACEMENT - file attributes are restored
+ *                      but the storage pool and data replication are unchanged
+ *                GPFS_ATTRFLAG_IGNORE_POOL - file attributes are restored
+ *                      but the storage pool and data replication are selected
+ *                      by matching the saved attributes to a placement rule
+ *                      instead of restoring the saved storage pool.
+ *                GPFS_ATTRFLAG_USE_POLICY - file attributes are restored
+ *                      but the storage pool and data replication are selected
+ *                      by matching the saved attributes to a RESTORE rule
+ *                      instead of restoring the saved storage pool.
+ *                GPFS_ATTRFLAG_FINALIZE_ATTRS - file attributes that are restored
+ *                      after data is retored. If file is immutable/appendOnly
+ *                      call without this flag before restoring data
+ *                      then call with this flag after restoring data
+ *                GPFS_ATTRFLAG_INCL_ENCR - file attributes for encryption
+ *                      are restored. Note that this may result in the file's
+ *                      File Encryption Key (FEK) being changed, and in this
+ *                      case any prior content in the file is effectively lost.
+ *                      This option should only be used when the entire file
+ *                      content is restored after the attributes are restored.
+ *
+ *              buffer: pointer to buffer for returned attributes
+ *              pathName: pointer to file path and file name for file
+ *                        May be set to NULL.
+ *
+ * Returns:     0       Successful
+ *              -1      Failure and errno is set
+ *
+ * Errno:       ENOSYS  function not available
+ *              EINVAL  the buffer does not contain valid attribute data
+ *              EINVAL  invalid flags provided
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              GPFS_E_INVAL_IFILE bad ifile parameters
+ */
+int GPFS_API
+gpfs_iputattrsx(gpfs_ifile_t *ifile,
+                int flags,
+                void *buffer,
+                const char *pathName);
+
+
+/* NAME:        gpfs_igetfilesetname()
+ *
+ * FUNCTION:    Retrieves the name of the fileset which contains this file.
+ *              The fileset name is a null-terminated string, with a
+ *              a maximum length of GPFS_MAXNAMLEN.
+ *
+ * Input:       iscan:      ptr to gpfs_iscan_t from gpfs_open_inodescan()
+ *              filesetId:  ia_filesetId returned in an iattr from the iscan
+ *              buffer:     pointer to buffer for returned fileset name
+ *              bufferSize: size of buffer
+ *
+ * Returns:     0       Successful
+ *              -1      Failure and errno is set
+ *
+ * Errno:       ENOSYS  function not available
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              ENOSPC  buffer too small to return fileset name
+ *              GPFS_E_INVAL_ISCAN bad iscan parameter
+ */
+int GPFS_API
+gpfs_igetfilesetname(gpfs_iscan_t *iscan,
+                     unsigned int filesetId,
+                     void *buffer,
+                     int bufferSize);
+
+
+/* NAME:        gpfs_igetstoragepool()
+ *
+ * FUNCTION:    Retrieves the name of the storage pool assigned for
+ *              this file's data. The storage pool name is a null-terminated
+ *              string, with a maximum length of GPFS_MAXNAMLEN.
+ *
+ * Input:       iscan:      ptr to gpfs_iscan_t from gpfs_open_inodescan()
+ *              dataPoolId: ia_dataPoolId returned in an iattr from the iscan
+ *              buffer:     pointer to buffer for returned attributes
+ *              bufferSize: size of buffer
+ *
+ * Returns:     0       Successful
+ *              -1      Failure and errno is set
+ *
+ * Errno:       ENOSYS  function not available
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              ENOSPC  buffer too small to return all storage pool name
+ *              GPFS_E_INVAL_ISCAN bad iscan parameters
+ */
+int GPFS_API
+gpfs_igetstoragepool(gpfs_iscan_t *iscan,
+                     unsigned int dataPoolId,
+                     void *buffer,
+                     int bufferSize);
+
+
+/* NAME:        gpfs_iclose()
+ *
+ * FUNCTION:    Close file opened by inode and update dates.
+ *
+ * Input:       ifile:   pointer to gpfs_ifile_t from gpfs_iopen
+ *
+ * Returns:     void
+ */
+void GPFS_API
+gpfs_iclose(gpfs_ifile_t *ifile);
+
+
+/* NAME:        gpfs_ireadlink()
+ *
+ * FUNCTION:    Read symbolic link by inode number.
+ *
+ * Input:       fssnapHandle: handle for file system & snapshot being scanned
+ *              ino:        inode number of link file to read
+ *              buffer:     pointer to buffer for returned link data
+ *              bufferSize: size of the buffer
+ *
+ * Returns:     number of bytes read (Successful)
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              GPFS_E_INVAL_FSSNAPHANDLE invalid fssnap handle
+ *              see system call readlink() ERRORS
+ */
+int GPFS_API
+gpfs_ireadlink(gpfs_fssnap_handle_t *fssnapHandle,
+               gpfs_ino_t ino,
+               char *buffer,
+               int bufferSize);
+
+int GPFS_API
+gpfs_ireadlink64(gpfs_fssnap_handle_t *fssnapHandle,
+               gpfs_ino64_t ino,
+               char *buffer,
+               int bufferSize);
+
+
+/* NAME:        gpfs_sync_fs()
+ *
+ * FUNCTION:    sync file system.
+ *
+ * Input:       fssnapHandle: handle for file system being restored
+ *
+ * Returns:      0 all data flushed to disk (Successful)
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS  function not available
+ *              ENOMEM unable to allocate memory for request
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              GPFS_E_INVAL_FSSNAPHANDLE invalid fssnapHandle
+ */
+int GPFS_API
+gpfs_sync_fs(gpfs_fssnap_handle_t *fssnapHandle);
+
+
+/* NAME:        gpfs_enable_restore()
+ *
+ * FUNCTION:    Mark file system as enabled for restore on/off
+ *
+ * Input:       fssnapHandle: handle for file system to be enabled
+ *                            or disabled for restore
+ *              on_off:   flag set to 1 to enable restore
+ *                                    0 to disable restore
+ *
+ * Returns:      0 (Successful)
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EINVAL bad parameters
+ *              GPFS_E_INVAL_FSSNAPHANDLE invalid fssnapHandle
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              ENOMEM unable to allocate memory for request
+ *              E_FS_NOT_RESTORABLE fs is not clean
+ *              EALREADY fs already marked as requested
+ *              E_RESTORE_STARTED restore in progress
+ *
+ * Notes: EALREADY indicates enable/disable restore was already called
+ * for this fs. The caller must decide if EALREADY represents an
+ * error condition.
+ */
+int GPFS_API
+gpfs_enable_restore(gpfs_fssnap_handle_t *fssnapHandle,
+                    int on_off);
+
+
+/* NAME:        gpfs_start_restore()
+ *
+ * FUNCTION:    Start a restore session.
+ *
+ * Input:       fssnapHandle: handle for file system to be restored
+ *              restore_flags: Flag to indicate the restore should be started
+ *                             even if a prior restore has not completed.
+ *              old_fssnapId: fssnapId of last restored snapshot
+ *              new_fssnapId: fssnapId of snapshot being restored
+ *
+ * Returns:     pointer to gpfs_restore_t (Successful)
+ *              NULL and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              ENOMEM unable to allocate memory for request
+ *              EINVAL missing parameter
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              EDOM restore fs does not match existing fs
+ *              ERANGE restore is missing updates
+ *              EFORMAT invalid fs version number
+ *              GPFS_E_INVAL_FSSNAPHANDLE invalid fssnaphandle
+ *              GPFS_E_INVAL_FSSNAPID bad fssnapId parameter
+ *              E_FS_NOT_RESTORABLE fs is not clean for restore
+ *              E_RESTORE_NOT_ENABLED fs is not enabled for restore
+ *              EALREADY Restore already in progress
+ *
+ * Note: EALREADY indicates start restore was already called for
+ * this fs. This could be due to a prior restore process that failed
+ * or it could be due to a concurrent restore process still running.
+ * The caller must decide if EALREADY represents an error condition.
+ */
+gpfs_restore_t * GPFS_API
+gpfs_start_restore(gpfs_fssnap_handle_t *fssnapHandle,
+                   int restore_flags,
+                   const gpfs_fssnap_id_t *old_fssnapId,
+                   const gpfs_fssnap_id_t *new_fssnapId);
+
+#define GPFS_RESTORE_NORMAL 0   /* Restore not started if prior restore
+                                   has not completed. */
+#define GPFS_RESTORE_FORCED 1   /* Restore starts even if prior restore
+                                   has not completed. */
+
+
+/* NAME:        gpfs_end_restore()
+ *
+ * FUNCTION:    End a restore session.
+ *
+ * Input:       restoreId: ptr to gpfs_restore_t
+ *
+ * Returns:     0 (Successful)
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EINVAL bad parameters
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              GPFS_E_INVAL_RESTORE bad restoreId parameter
+ *              GPFS_E_FS_NOT_RESTORABLE fs is not clean for restore
+ *              GPFS_E_RESTORE_NOT_ENABLED fs is not enabled for restore
+ *              EALREADY Restore already ended
+ *
+ * Note: EALREADY indicates end restore was already called for
+ * this fs. This could be due to a concurrent restore process that
+ * already completed. The caller must decide if EALREADY represents
+ * an error condition.
+ */
+int GPFS_API
+gpfs_end_restore(gpfs_restore_t *restoreId);
+
+
+/* NAME:        gpfs_ireadx()
+ *
+ * FUNCTION:    Block level incremental read on a file opened by gpfs_iopen
+ *              with a given incremental scan opened via gpfs_open_inodescan.
+ *
+ * Input:       ifile:      ptr to gpfs_ifile_t returned from gpfs_iopen()
+ *              iscan:      ptr to gpfs_iscan_t from gpfs_open_inodescan()
+ *              buffer:     ptr to buffer for returned data
+ *              bufferSize: size of buffer for returned data
+ *              offset:     ptr to offset value
+ *              termOffset: read terminates before reading this offset
+ *                          caller may specify ia_size for the file's
+ *                          gpfs_iattr_t or 0 to scan the entire file.
+ *              hole:       ptr to returned flag to indicate a hole in the file
+ *
+ * Returns:     number of bytes read and returned in buffer
+ *              or size of hole encountered in the file. (Success)
+ *              -1 and errno is set (Failure)
+ *
+ *              On input, *offset contains the offset in the file
+ *              at which to begin reading to find a difference same file
+ *              in a previous snapshot specified when the inodescan was opened.
+ *              On return, *offset contains the offset of the first
+ *              difference.
+ *
+ *              On return, *hole indicates if the change in the file
+ *              was data (*hole == 0) and the data is returned in the
+ *              buffer provided. The function's value is the amount of data
+ *              returned. If the change is a hole in the file,
+ *              *hole != 0 and the size of the changed hole is returned
+ *              as the function value.
+ *
+ *              A call with a NULL buffer pointer will query the next increment
+ *              to be read from the current offset. The *offset, *hole and
+ *              returned length will be set for the next increment to be read,
+ *              but no data will be returned. The bufferSize parameter is
+ *              ignored, but the termOffset parameter will limit the
+ *              increment returned.
+ *
+ * Errno:       ENOSYS function not available
+ *              EINVAL missing or bad parameter
+ *              EISDIR file is a directory
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              ENOMEM unable to allocate memory for request
+ *              EDOM fs snapId does match local fs
+ *              ERANGE previous snapId is more recent than scanned snapId
+ *              GPFS_E_INVAL_IFILE bad ifile parameter
+ *              GPFS_E_INVAL_ISCAN bad iscan parameter
+ *              see system call read() ERRORS
+ *
+ * Notes:       The termOffset parameter provides a means to partition a
+ *              file's data such that it may be read on more than one node.
+ */
+gpfs_off64_t GPFS_API
+gpfs_ireadx(gpfs_ifile_t *ifile,      /* in only  */
+            gpfs_iscan_t *iscan,      /* in only  */
+            void *buffer,             /* in only  */
+            int bufferSize,           /* in only  */
+            gpfs_off64_t *offset,     /* in/out   */
+            gpfs_off64_t termOffset,  /* in only */
+            int *hole);               /* out only */
+
+
+/* NAME:        gpfs_ireadx_ext
+ *
+ * FUNCTION:    gpfs_ireadx_ext is used to find different blocks between clone
+ *              child and parent files. Input and output are the same as
+ *              gpfs_ireadx.
+ *
+ * Returns:     See gpfs_ireadx()
+ */
+gpfs_off64_t GPFS_API
+gpfs_ireadx_ext(gpfs_ifile_t *ifile,      /* in only  */
+            gpfs_iscan_t *iscan,      /* in only  */
+            void *buffer,             /* in only  */
+            int bufferSize,           /* in only  */
+            gpfs_off64_t *offset,     /* in/out   */
+            gpfs_off64_t termOffset,  /* in only */
+            int *hole);
+
+
+/* NAME:        gpfs_iwritex()
+ *
+ * FUNCTION:    Write file opened by gpfs_iopen.
+ *              If parameter hole == 0, then write data
+ *              addressed by buffer to the given offset for the
+ *              given length. If hole != 0, then write
+ *              a hole at the given offset for the given length.
+ *
+ * Input:       ifile :   ptr to gpfs_ifile_t returned from gpfs_iopen()
+ *              buffer:   ptr to data buffer
+ *              writeLen: length of data to write
+ *              offset:   offset in file to write data
+ *              hole:     flag =1 to write a "hole"
+ *                             =0 to write data
+ *
+ * Returns:     number of bytes/size of hole written (Success)
+ *              -1 and errno is set (Failure)
+ *
+ * Errno:       ENOSYS function not available
+ *              EINVAL missing or bad parameter
+ *              EISDIR file is a directory
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              GPFS_E_INVAL_IFILE bad ifile parameter
+ *              see system call write() ERRORS
+ */
+gpfs_off64_t GPFS_API
+gpfs_iwritex(gpfs_ifile_t *ifile,    /* in only */
+             void *buffer,           /* in only */
+             gpfs_off64_t writeLen,  /* in only */
+             gpfs_off64_t offset,    /* in only */
+             int hole);              /* in only */
+
+
+/* NAME:        gpfs_statfspool()
+ *
+ * FUNCTION:    Obtain status information about the storage pools
+ *
+ * Input:       pathname   : path to any file in the file system
+ *              poolId     : id of first pool to return
+ *                           on return set to next poolId or -1
+ *                           to indicate there are no more pools.
+ *              options    : option flags (currently not used)
+ *              nPools     : number of stat structs requested or 0
+ *                           on return number of stat structs in buffer
+ *                           or if nPools was 0 its value is the max number
+ *                           of storage pools currently defined
+ *              buffer     :  ptr to return stat structures
+ *              bufferSize : sizeof stat buffer
+ *
+ *              The user is expected to issue two or more calls. On the first
+ *              call the user should pass nPools set to 0 and gpfs will
+ *              return in nPools the total number of storage pools currently
+ *              defined for the file system indicated by the pathname
+ *              and it returns in poolId the id of the first storage pool.
+ *              The buffer parameter may be set to NULL for this call.
+ *
+ *              The user may then allocate a buffer large enough to contain
+ *              a gpfs_statfspool_t structure for each of the pools and issue
+ *              a second call to obtain stat information about each pool.
+ *              Parameter nPools should be set the number of pools requested.
+ *              On return, nPools will be set to the number of stat structs
+ *              contained in the buffer, and poolId will be set to the id
+ *              of the next storage pool or -1 to indicate there are no
+ *              additional storage pools defined.
+ *
+ *              Alternatively, if the user has a valid poolId from a previous
+ *              call, the user may provide that poolId and a buffer large
+ *              enough for a single gpfs_statfspool_t structure, and the call
+ *              will return the status for a single storage pool.
+ *
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       Specific error indication
+ *              EINVAL
+ */
+int GPFS_API
+gpfs_statfspool(const char *pathname, /* in only: path to file system*/
+                gpfs_pool_t *poolId,  /* in out: id of first pool to return
+                                         on return set to next poolId
+                                         or -1 when there are no more pools */
+                unsigned int options, /* in only: option flags */
+                int *nPools,          /* in out: number of pool stats requested
+                                         on return number of stat structs
+                                         returned in buffer or if nPools was
+                                         set to 0, the return value is the
+                                         number of pools currently defined */
+                void *buffer,         /* ptr to return stat structures */
+                int bufferSize);      /* sizeof stat buffer or 0 */
+
+
+/* NAME:        gpfs_getpoolname()
+ *
+ * FUNCTION:    Retrieves the name of the storage pool assigned for
+ *              this file's data. The storage pool name is a null-terminated
+ *              string, with a maximum length of GPFS_MAXNAMLEN.
+ *
+ * Input:       pathname:   path to any file in the file system
+ *              poolId:     f_poolid returned in gpfs_statfspool_t
+ *              buffer:     pointer to buffer for returned name
+ *              bufferSize: size of buffer
+ *
+ * Returns:     0       Successful
+ *              -1      Failure and errno is set
+ *
+ * Errno:       ENOSYS function not available
+ *              ESTALE file system was unmounted
+ *              E_FORMAT_INCOMPAT file system does not support pools
+ *              E2BIG  buffer too small to return storage pool name
+ */
+int GPFS_API
+gpfs_getpoolname(const char *pathname,
+                 gpfs_pool_t poolId,
+                 void *buffer,
+                 int bufferSize);
+
+
+/* /usr/src/linux/include/linux/fs.h includes /usr/src/linux/include/linux/quota.h
+   which has conflicting definitions. */
+#ifdef _LINUX_QUOTA_
+  #undef Q_SYNC
+  #undef Q_GETQUOTA
+  #undef Q_SETQUOTA
+  #undef Q_QUOTAON
+  #undef Q_QUOTAOFF
+#endif
+
+
+/* GPFS QUOTACTL */
+
+/*
+ * Command definitions for the 'gpfs_quotactl' system call.
+ * The commands are broken into a main command defined below
+ * and a subcommand that is used to convey the type of
+ * quota that is being manipulated (see above).
+ */
+
+#define SUBCMDMASK      0x00ff
+#define SUBCMDSHIFT     8
+#define GPFS_QCMD(cmd, type) (((cmd) << SUBCMDSHIFT) | ((type) & SUBCMDMASK))
+
+#define Q_QUOTAON       0x0100  /* enable quotas */
+#define Q_QUOTAOFF      0x0200  /* disable quotas */
+#define Q_GETQUOTA      0x0300  /* get limits and usage */
+#ifndef _LINUX_SOURCE_COMPAT
+  /* Standard AIX definitions of quota commands */
+  #define Q_SETQUOTA    0x0400  /* set limits */
+  #define Q_SETQLIM     Q_SETQUOTA
+#else
+  /* Alternate definitions, for Linux Affinity */
+  #define Q_SETQLIM     0x0400  /* set limits */
+  #define Q_SETQUOTA    0x0700  /* set limits and usage */
+#endif
+#define Q_SETUSE        0x0500  /* set usage */
+#define Q_SYNC          0x0600  /* sync disk copy of a file systems quotas */
+#define Q_SETGRACETIME  0x0900  /* set grace time */
+#define Q_SETGRACETIME_ENHANCE  0x0800  /* set grace time and update all
+                                         * quota entries */
+#define Q_GETDQPFSET    0x0A00  /* get default quota per fileset */
+#define Q_SETDQPFSET    0x0B00  /* set default quota per fileset */
+#define Q_SETQUOTA_UPDATE_ET 0x0C00 /* this SETQUOTA needs to update entryType */
+#define Q_GETDQPFSYS    0x0D00  /* get default quota per file system */
+#define Q_SETDQPFSYS    0x0E00  /* set default quota per file system */
+
+/* gpfs quota types */
+#define GPFS_USRQUOTA     0
+#define GPFS_GRPQUOTA     1
+#define GPFS_FILESETQUOTA 2
+
+/* define GPFS generated errno */
+#define GPFS_E_NO_QUOTA_INST  237 /* file system does not support quotas */
+
+typedef struct gpfs_quotaInfo
+{
+  gpfs_off64_t blockUsage;      /* current block count in 1 KB units*/
+  gpfs_off64_t blockHardLimit;  /* absolute limit on disk blks alloc */
+  gpfs_off64_t blockSoftLimit;  /* preferred limit on disk blks */
+  gpfs_off64_t blockInDoubt;    /* distributed shares + "lost" usage for blks */
+  int          inodeUsage;      /* current # allocated inodes */
+  int          inodeHardLimit;  /* absolute limit on allocated inodes */
+  int          inodeSoftLimit;  /* preferred inode limit */
+  int          inodeInDoubt;    /* distributed shares + "lost" usage for inodes */
+  gpfs_uid_t   quoId;           /* uid, gid or fileset id */
+  int          entryType;       /* entry type, not used */
+  unsigned int blockGraceTime;  /* time limit for excessive disk use */
+  unsigned int inodeGraceTime;  /* time limit for excessive inode use */
+} gpfs_quotaInfo_t;
+
+
+/* NAME:        gpfs_quotactl()
+ *
+ * FUNCTION:    Manipulate disk quotas
+ * INPUT:       pathname: specifies the pathname of any file within the
+ *                        mounted file system to which the command is to
+ *                        be applied
+ *              cmd: specifies a quota control command to be applied
+ *                   to UID/GID/FILESETID id. The cmd parameter can be
+ *                   constructed using GPFS_QCMD(cmd, type) macro defined
+ *                   in gpfs.h
+ *              id:  UID or GID or FILESETID that command applied to.
+ *              bufferP: points to the address of an optional, command
+ *                       specific, data structure that is copied in or out of
+ *                       the system.
+ *
+ * OUTPUT:      bufferP, if applicable.
+ *
+ * Returns:     0 success
+ *              -1 failure
+ *
+ * Errno:       EACCESS
+ *              EFAULT        An invalid bufferP parameter is supplied;
+ *                            the associated structure could not be copied
+ *                            in or out of the kernel
+ *              EINVAL
+ *              ENOENT        No such file or directory
+ *              EPERM         The quota control command is privileged and
+ *                            the caller did not have root user authority
+ *              EOPNOTSUPP
+ *              GPFS_E_NO_QUOTA_INST The file system does not support quotas
+ */
+int GPFS_API
+gpfs_quotactl(const char *pathname,
+              int cmd,
+              int id,
+              void *bufferP);
+
+
+/* NAME:        gpfs_getfilesetid()
+ *
+ * FUNCTION:    Translate FilesetName to FilesetID
+ *
+ * INPUT:       pathname: specifies the pathname of any file within the
+ *                        mounted file system to which the command is to
+ *                        be applied
+ *              name: name of the fileset
+ *
+ * OUTPUT:      idP:  points to the address of an integer that receives the ID
+ *
+ * Returns:     0 success
+ *              -1 failure
+ *
+ * Errno:       EACCESS
+ *              EFAULT        An invalid pointer is supplied; the associated
+ *                            data could not be copied in or out of the kernel
+ *              EINVAL
+ *              ENOENT        No such file, directory or fileset
+ */
+int GPFS_API
+gpfs_getfilesetid(const char *pathname,
+                  const char *name,
+                  int *idP);
+
+
+/* NAME:        gpfs_clone_snap()
+ *
+ * FUNCTION:    Create an immutable clone parent from a source file
+ *
+ * Input:       sourcePathP:  path to source file, which will be cloned
+ *              destPathP:    path to destination file, to be created
+ *
+ *              If destPathP is NULL, then the source file will be changed
+ *              in place into an immutable clone parent.
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  Function not available
+ *              ENOENT  File does not exist
+ *              EACCESS Write access to target or source search permission denied
+ *              EINVAL  Not a regular file or not a GPFS file system
+ *              EFAULT  Input argument points outside accessible address space
+ *              ENAMETOOLONG  Source or destination path name too long
+ *              ENOSPC  Not enough space on disk
+ *              EISDIR  Destination is a directory
+ *              EXDEV   Source and destination aren't in the same file system
+ *              EROFS   Destination is read-only
+ *              EPERM   Invalid source file
+ *              EEXIST  Destination file already exists
+ *              EBUSY   Source file is open
+ *              EFORMAT File system does not support clones
+ *              EMEDIUMTYPE File system does not support clones
+ */
+int GPFS_API
+gpfs_clone_snap(const char *sourcePathP, const char *destPathP);
+
+/* NAME:        gpfs_clone_copy()
+ *
+ * FUNCTION:    Create a clone copy of an immutable clone parent file
+ *
+ * Input:       sourcePathP:  path to immutable source file, to be cloned
+ *              destPathP:    path to destination file, to be created
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  Function not available
+ *              ENOENT  File does not exist
+ *              EACCESS Write access to target or source search permission denied
+ *              EINVAL  Not a regular file or not a GPFS file system
+ *              EFAULT  Input argument points outside accessible address space
+ *              ENAMETOOLONG  Source or destination path name too long
+ *              ENOSPC  Not enough space on disk
+ *              EISDIR  Destination is a directory
+ *              EXDEV   Source and destination aren't in the same file system
+ *              EROFS   Destination is read-only
+ *              EPERM   Invalid source or destination file
+ *              EEXIST  Destination file already exists
+ *              EFORMAT File system does not support clones
+ *              EMEDIUMTYPE File system does not support clones
+ */
+int GPFS_API
+gpfs_clone_copy(const char *sourcePathP, const char *destPathP);
+
+
+/* NAME:        gpfs_declone()
+ *
+ * FUNCTION:    Copy blocks from clone parent(s) to child so that the
+ *              parent blocks are no longer referenced by the child.
+ *
+ * Input:       fileDesc:  File descriptor for file to be de-cloned
+ *              ancLimit:  Ancestor limit (immediate parent only, or all)
+ *              nBlocks:   Maximum number of GPFS blocks to copy
+ * In/Out:      offsetP:   Pointer to starting offset within file (will be
+ *                         updated to offset of next block to process or
+ *                         -1 if no more blocks)
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  Function not available
+ *              EINVAL  Invalid argument to function
+ *              EBADF   Bad file descriptor or not a GPFS file
+ *              EPERM   Not a regular file
+ *              EACCESS Write access to target file not permitted
+ *              EFAULT  Input argument points outside accessible address space
+ *              ENOSPC  Not enough space on disk
+ */
+
+/* Values for ancLimit */
+#define GPFS_CLONE_ALL         0
+#define GPFS_CLONE_PARENT_ONLY 1
+
+int GPFS_API
+gpfs_declone(gpfs_file_t fileDesc, int ancLimit, gpfs_off64_t nBlocks,
+             gpfs_off64_t *offsetP);
+
+/* NAME:        gpfs_clone_split()
+ *
+ * FUNCTION:    Split a clone child file from its parent.  Must call
+ *              gpfs_declone first, to remove all references.
+ *
+ * Input:       fileDesc:  File descriptor for file to be split
+ *              ancLimit:  Ancestor limit (immediate parent only, or all)
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  Function not available
+ *              EINVAL  Invalid argument to function
+ *              EBADF   Bad file descriptor or not a GPFS file
+ *              EPERM   Not a regular file or not a clone child
+ *              EACCESS Write access to target file not permitted
+ */
+int GPFS_API
+gpfs_clone_split(gpfs_file_t fileDesc, int ancLimit);
+
+/* NAME:        gpfs_clone_unsnap()
+ *
+ * FUNCTION:    Change a clone parent with no children back into a
+ *              normal file.
+ *
+ * Input:       fileDesc:  File descriptor for file to be un-snapped
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  Function not available
+ *              EINVAL  Invalid argument to function
+ *              EBADF   Bad file descriptor or not a GPFS file
+ *              EPERM   Not a regular file or not a clone parent
+ *              EACCESS Write access to target file not permitted
+ */
+int GPFS_API
+gpfs_clone_unsnap(gpfs_file_t fileDesc);
+
+/* NAME:       gpfs_get_fset_masks()
+ *
+ * FUNCTION:   return bit masks governing "external" inode and inode-space numbering
+ *
+ * Input:      fset_snaphandle: ptr to an fset snaphandle
+ * Output:     the bit masks and inodes per block factor.
+ *
+ * Returns:    0       Success
+ *            -1       Failure
+ *
+ * Errno:       ENOSYS function not available
+ *              GPFS_E_INVAL_FSSNAPHANDLE invalid fssnapHandle
+ */
+int GPFS_API
+gpfs_get_fset_masks(gpfs_fssnap_handle_t* fset_snapHandle,
+                    gpfs_ino64_t* inodeSpaceMask,
+                    gpfs_ino64_t* inodeBlockMask,
+                    int* inodesPerInodeBlock);
+
+
+/*
+ *   API functions for Light Weight Event
+ */
+
+/*
+ * Define light weight event types
+ */
+typedef enum
+{
+  GPFS_LWE_EVENT_UNKNOWN         = 0, /* "Uknown event" */
+  GPFS_LWE_EVENT_FILEOPEN        = 1, /* 'OPEN' - look at getInfo('OPEN_FLAGS') if you care */
+  GPFS_LWE_EVENT_FILECLOSE       = 2, /* "File Close Event" 'CLOSE' */
+  GPFS_LWE_EVENT_FILEREAD        = 3, /* "File Read Event" 'READ' */
+  GPFS_LWE_EVENT_FILEWRITE       = 4, /* "File Write Event" 'WRITE' */
+  GPFS_LWE_EVENT_FILEDESTROY     = 5, /* File is being destroyed 'DESTROY' */
+  GPFS_LWE_EVENT_FILEEVICT       = 6, /* OpenFile object is being evicted from memory 'FILE_EVICT' */
+  GPFS_LWE_EVENT_BUFFERFLUSH     = 7, /* Data buffer is being written to disk 'BUFFER_FLUSH' */
+  GPFS_LWE_EVENT_POOLTHRESHOLD   = 8, /* Storage pool exceeded defined utilization 'POOL_THRESHOLD' */
+  GPFS_LWE_EVENT_FILEDATA        = 9, /* "Read/Write/Trunc" event on open file */
+  GPFS_LWE_EVENT_FILERENAME      = 10, /* Rename event on open file */
+  GPFS_LWE_EVENT_FILEUNLINK      = 11, /* Unlink file event */
+  GPFS_LWE_EVENT_FILERMDIR       = 12, /* Remove directory event */
+  GPFS_LWE_EVENT_EVALUATE        = 13, /* Evaluate And Set Events */
+
+  GPFS_LWE_EVENT_FILEOPEN_READ   = 14, /* Open for Read Only -  EVENT 'OPEN_READ' - deprecated, use 'OPEN' */
+  GPFS_LWE_EVENT_FILEOPEN_WRITE  = 15, /* Open with Writing privileges - EVENT 'OPEN_WRITE' - deprecated, use 'OPEN' */
+
+  GPFS_LWE_EVENT_FILEPOOL_CHANGE = 16, /* Open with Writing privileges - EVENT 'OPEN_WRITE' - deprecated, use 'OPEN' */
+
+  GPFS_LWE_EVENT_MAX = 17, /* 1 greater than any of the above */
+} gpfs_lwe_eventtype_t;
+
+
+/* Define light weight event response types */
+typedef enum
+{
+  GPFS_LWE_RESP_INVALID  = 0,  /* "Response Invalid/Unknown" */
+  GPFS_LWE_RESP_CONTINUE = 1,  /* "Response Continue" */
+  GPFS_LWE_RESP_ABORT    = 2,  /* "Response Abort" */
+  GPFS_LWE_RESP_DONTCARE = 3   /* "Response DontCare" */
+} gpfs_lwe_resp_t;
+
+/*
+ * Define light weight event inofrmation
+ */
+#define LWE_DATA_FS_NAME          0x00000001  /* "fsName" */
+#define LWE_DATA_PATH_NAME        0x00000002  /* "pathName" */
+#define LWE_DATA_PATH_NEW_NAME    0x00000004  /* "pathNewName" for reanem */
+#define LWE_DATA_URL              0x00000008  /* "URL" */
+#define LWE_DATA_INODE            0x00000010  /* "inode" */
+#define LWE_DATA_OPEN_FLAGS       0x00000020  /* "openFlags" */
+#define LWE_DATA_POOL_NAME        0x00000040  /* "poolName" */
+#define LWE_DATA_FILE_SIZE        0x00000080  /* "fileSize" */
+#define LWE_DATA_OWNER_UID        0x00000100  /* "ownerUserId" */
+#define LWE_DATA_OWNER_GID        0x00000200  /* "ownerGroupId" */
+#define LWE_DATA_ATIME            0x00000400  /* "atime" */
+#define LWE_DATA_MTIME            0x00000800  /* "mtime" */
+#define LWE_DATA_NOW_TIME         0x00001000  /* "nowTime" */
+#define LWE_DATA_ELAPSED_TIME     0x00002000  /* "elapsedTime" */
+#define LWE_DATA_CLIENT_UID       0x00004000  /* "clientUserId" */
+#define LWE_DATA_CLIENT_GID       0x00008000  /* "clientGroupId" */
+#define LWE_DATA_NFS_IP           0x00010000  /* "clientIp" */
+#define LWE_DATA_PROCESS_ID       0x00020000  /* "processId" */
+#define LWE_DATA_TARGET_POOL_NAME 0x00040000  /* "targetPoolName" */
+#define LWE_DATA_BYTES_READ       0x00080000  /* "bytesRead" */
+#define LWE_DATA_BYTES_WRITTEN    0x00100000  /* "bytesWritten" */
+#define LWE_DATA_CLUSTER_NAME     0x00200000  /* "clusterName" */
+#define LWE_DATA_NODE_NAME        0x00400000  /* "nodeName" */
+
+/*
+ * Define light weight events
+ */
+#define LWE_EVENT_EVALUATED       0x00000001  /* policy was evaluated */
+#define LWE_EVENT_FILEOPEN        0x00000002  /* "op_open" */
+#define LWE_EVENT_FILECLOSE       0x00000004  /* "op_close" */
+#define LWE_EVENT_FILEREAD        0x00000008  /* "op_read" */
+#define LWE_EVENT_FILEWRITE       0x00000010  /* "op_write" */
+#define LWE_EVENT_FILEDESTROY     0x00000020  /* "op_destroy" */
+#define LWE_EVENT_FILEEVICT       0x00000040  /* "op_evict" OpenFile object is being evicted from memory 'FILE_EVICT' */
+#define LWE_EVENT_BUFFERFLUSH     0x00000080  /* "op_buffer_flush" Data buffer is being written to disk 'BUFFER_FLUSH' */
+#define LWE_EVENT_POOLTHRESHOLD   0x00000100  /* "op_pool_threshhold" Storage pool exceeded defined utilization 'POOL_THRESHOLD' */
+#define LWE_EVENT_FILEDATA        0x00000200  /* "op_data" "Read/Write/Trunc" event on open file */
+#define LWE_EVENT_FILERENAME      0x00000400  /* "op_rename" Rename event on open file */
+#define LWE_EVENT_FILEUNLINK      0x00000800  /* "op_unlink" Unlink file event */
+#define LWE_EVENT_FILERMDIR       0x00001000  /* "op_rmdir" Remove directory event */
+#define LWE_EVENT_FILEOPEN_READ   0x00002000  /* "op_open_read" Open for Read Only -  EVENT 'OPEN_READ' - deprecated, use 'OPEN' */
+#define LWE_EVENT_FILEOPEN_WRITE  0x00004000  /* "op_open_write" Open with Writing privileges - EVENT 'OPEN_WRITE' - deprecated, use 'OPEN' */
+#define LWE_EVENT_FILEPOOL_CHANGE 0x00008000  /* "op_pool_change" Open with Writing privileges - EVENT 'OPEN_WRITE' - deprecated, use 'OPEN' */
+
+/*
+ * Defines for light weight sessions
+ */
+typedef unsigned long long gpfs_lwe_sessid_t;
+#define GPFS_LWE_NO_SESSION  ((gpfs_lwe_sessid_t) 0)
+#define GPFS_LWE_SESSION_INFO_LEN 256
+
+
+/*
+ * Define light weight token to identify access right
+ */
+typedef struct gpfs_lwe_token
+{
+  unsigned long long high;
+  unsigned long long low;
+
+#ifdef __cplusplus
+  bool operator == (const struct gpfs_lwe_token& rhs) const
+    { return high == rhs.high && low == rhs.low; };
+  bool operator != (const struct gpfs_lwe_token& rhs) const
+    { return high != rhs.high || low != rhs.low; };
+#endif  /* __cplusplus */
+
+} gpfs_lwe_token_t;
+
+/* Define special tokens */
+static const gpfs_lwe_token_t  _gpfs_lwe_no_token = { 0, 0 };
+#define GPFS_LWE_NO_TOKEN      _gpfs_lwe_no_token
+
+static const gpfs_lwe_token_t  _gpfs_lwe_invalid_token = { 0, 1 };
+#define GPFS_LWE_INVALID_TOKEN _gpfs_lwe_invalid_token
+
+/*
+ * Note: LWE data managers can set a file's off-line bit
+ * or any of the managed bits visible to the policy language
+ * by calling dm_set_region or dm_set_region_nosync
+ * with a LWE session and LWE exclusive token. To set the bits
+ * there must be  * exactly one managed region with offset = -1
+ * and size = 0. Any other values will return EINVAL.
+ */
+
+/* LWE also provides light weight regions
+ * that are set via policy rules.
+ */
+#define GPFS_LWE_MAX_REGIONS 2
+
+/* LWE data events are generated from user access
+ * to a LWE managed region. */
+#define GPFS_LWE_DATAEVENT_NONE     (0x0)
+#define GPFS_LWE_DATAEVENT_READ     (0x1)
+#define GPFS_LWE_DATAEVENT_WRITE    (0x2)
+#define GPFS_LWE_DATAEVENT_TRUNCATE (0x4)
+
+
+
+/*
+ * Define light weight event structure
+ */
+typedef struct gpfs_lwe_event {
+  int                   eventLen;        /* offset 0 */
+  gpfs_lwe_eventtype_t  eventType;       /* offset 4 */
+  gpfs_lwe_token_t      eventToken;      /* offset 8 <--- Must on DWORD */
+  int                   isSync;          /* offset 16 */
+  int                   parmLen;         /* offset 20 */
+  char*                 parmP;           /* offset 24 <-- Must on DWORD */
+} gpfs_lwe_event_t;
+
+
+
+/*
+ * Define light weight access rights
+ */
+#define GPFS_LWE_RIGHT_NULL           0
+#define GPFS_LWE_RIGHT_SHARED         1
+#define GPFS_LWE_RIGHT_EXCL           2
+
+
+/* Flag indicating whether to wait
+ * when requesting a right or an event
+ */
+#define GPFS_LWE_FLAG_NONE   0
+#define GPFS_LWE_FLAG_WAIT   1
+
+
+
+
+
+/* NAME:       gpfs_lwe_create_session()
+ *
+ * FUNCTION:   create a light weight event session
+ *
+ * Input:      oldsid: existing session id,
+ *                     Set to GPFS_LWE_NO_SESSION to start new session
+ *                       - If a session with the same name and id already exists
+ *                         it is not terminated, nor will outstanding events
+ *                         be redelivered. This is typically used if a session
+ *                         is shared between multiple processes.
+ *                     Set to an existing session's id to resume that session
+ *                       - If a session with the same name exists, that session
+ *                         will be terminated. All pending/outstanding events
+ *                         for the old session will be redelivered on the new one.
+ *                         This is typically used to take over a session from a
+ *                         failed/hung process.
+ *             sessinfop: session string, unique for each session
+ *
+ * Output:     newsidp: session id for new session
+ *
+ * Returns:    0       Success
+ *            -1       Failure
+ *
+ * Errno:     ENOSYS Function not available
+ *            EINVAL invalid parameters
+ *            ENFILE maximum number of sessions have already been created
+ *            ENOMEM insufficient memory to create new session
+ *            ENOENT session to resume does not exist
+ *            EEXIST session to resume exists with different id
+ *            EPERM  Caller does not hold appropriate privilege
+ */
+int GPFS_API
+gpfs_lwe_create_session(gpfs_lwe_sessid_t  oldsid,        /* IN */
+                        char              *sessinfop,     /* IN */
+                        gpfs_lwe_sessid_t *newsidp);      /* OUT */
+
+#define GPFS_MAX_LWE_SESSION_INFO_LEN 100
+
+
+
+/* NAME:       gpfs_lwe_destroy_session()
+ *
+ * FUNCTION:   destroy a light weight event session
+ *
+ * Input:      sid: id of the session to be destroyed
+ *
+ * Returns:    0       Success
+ *            -1       Failure
+ *
+ * Errno:     ENOSYS Function not available
+ *            EINVAL sid invalid
+ *            EBUSY  session is busy
+ *            EPERM  Caller does not hold appropriate privilege
+ */
+int GPFS_API
+gpfs_lwe_destroy_session(gpfs_lwe_sessid_t sid);         /* IN */
+
+
+
+
+/* NAME:       gpfs_lwe_getall_sessions()
+ *
+ * FUNCTION:   fetch all lwe sessions
+ *
+ * Input:      nelem:   max number of elements
+ *             sidbufp: array of session id
+ *             nelemp:  number of session returned in sidbufp
+ *
+ * Returns:    0       Success
+ *            -1       Failure
+ *
+ * Errno:     ENOSYS Function not available
+ *            EINVAL pass in args invalid
+ *            E2BIG  information is too large
+ *            EPERM  Caller does not hold appropriate privilege
+ */
+int GPFS_API
+gpfs_lwe_getall_sessions(unsigned int        nelem,      /* IN */
+                         gpfs_lwe_sessid_t  *sidbufp,    /* OUT */
+                         unsigned int       *nelemp);    /* OUT */
+
+
+/* NAME:       gpfs_lw_query_session()
+ *
+ * FUNCTION:   query session string by id
+ *
+ * Input:      sid:    id of session to be queryed
+ *             buflen: length of buffer
+ *             bufp:   buffer to store sessions string
+ *             rlenp:  returned length of bufp
+ *
+ * Returns:    0       Success
+ *            -1       Failure
+ *
+ * Errno:      ENOSYS  Function not available
+ *             EINVAL  pass in args invalid
+ *             E2BIG   information is too large
+ *             EPERM   Caller does not hold appropriate privilege
+ */
+int GPFS_API
+gpfs_lwe_query_session(gpfs_lwe_sessid_t  sid,     /* IN */
+                       size_t             buflen,  /* IN */
+                       void              *bufp,    /* OUT */
+                       size_t            *rlenP);  /* OUT */
+
+
+/* NAME:       gpfs_lwe_get_events()
+ *
+ * FUNCTION:   get events from a light weight session
+ *
+ * Input:      sid:     id of the session
+ *             maxmsgs: max number of event to fetch,
+ *                      0 to fetch all possible
+ *             flags:   GPFS_LWE_EV_WAIT: waiting for new events if event
+ *                      queue is empty
+ *             buflen:  length of the buffer
+ *             bufp:    buffer to hold events
+ *             rlenp:   returned length of bufp
+ *
+ * Returns:    0        Success
+ *             E2BIG    information is too large
+ *             EINVAL   pass in args invalid
+ */
+int GPFS_API
+gpfs_lwe_get_events(gpfs_lwe_sessid_t  sid,     /* IN  */
+                    unsigned int       maxmsgs, /* IN  */
+                    unsigned int       flags,   /* IN  */
+                    size_t             buflen,  /* IN  */
+                    void              *bufp,    /* OUT */
+                    size_t            *rlenp);  /* OUT */
+
+/* NAME:      gpfs_lwe_respond_event()
+ *
+ * FUNCTION:  response to a light weight event
+ *
+ * Input:     sid:      id of the session
+ *            token:    token of the event
+ *            response: response to the event
+ *            reterror: return error to event callers
+ *
+ * Returns:   0         Success
+ *            EINVAL    pass in args invalid
+ *
+ */
+int GPFS_API
+gpfs_lwe_respond_event(gpfs_lwe_sessid_t  sid,       /* IN */
+                       gpfs_lwe_token_t   token,     /* IN */
+                       gpfs_lwe_resp_t    response,  /* IN */
+                       int                reterror); /* IN */
+
+
+/* NAME:      gpfs_lwe_request_right
+ *
+ * FUNCTION:  Request an access right to a file using a dmapi handle
+ *
+ * Input:     sid       Id of lw session
+ *            hanp      Pointer to dmapi handle
+ *            hlen      Length of dmapi handle
+ *            right     Shared or exclusive access requested
+ *            flags     Caller will wait to acquire access if necessary
+ *
+ * Output:    token     Unique identifier for access right
+ *
+ * Returns:   0         Success
+ *            -1        Failure
+ *
+ * Errno:     ENOSYS    Function not available
+ *            ESTALE    GPFS not available
+ *            EINVAL    Invalid arguments
+ *            EFAULT    Invalid pointer provided
+ *            EBADF     Bad file
+ *            ENOMEM    Uable to allocate memory for request
+ *            EPERM     Caller does not hold appropriate privilege
+ *            EAGAIN    flags parameter did not include WAIT
+ *                      and process would be blocked
+ *
+ */
+int GPFS_API
+gpfs_lwe_request_right(gpfs_lwe_sessid_t  sid,       /* IN */
+                       void              *hanp,      /* IN */
+                       size_t             hlen,      /* IN */
+                       unsigned int       right,     /* IN */
+                       unsigned int       flags,     /* IN */
+                       gpfs_lwe_token_t  *token);    /* OUT */
+
+
+/* NAME:      gpfs_lwe_upgrade_right
+ *
+ * FUNCTION:  Upgrade an access right from shared to exclusive
+ *
+ *            This is a non-blocking call to upgrade an access right
+ *            from shared to exclusive. If the token already conveys
+ *            exclusive access this call returns imediately with sucess.
+ *            If another process also holds a shared access right
+ *            this call fails with EBUSY to avoid deadlocks.
+ *
+ * Input:     sid       Id of lw session
+ *            hanp      Pointer to dmapi handle
+ *            hlen      Length of dmapi handle
+ *            token     Unique identifier for access right
+ *
+ * Output:    None
+ *
+ * Returns:   0         Success
+ *            -1        Failure
+ *
+ * Errno:     ENOSYS    Function not available
+ *            ESTALE    GPFS not available
+ *            EINVAL    Invalid arguments
+ *            EINVAL    The token is invalid
+ *            EFAULT    Invalid pointer provided
+ *            EPERM     Caller does not hold appropriate privilege
+ *            EPERM     Token's right is not shared or exclusive
+ *            EBUSY     Process would be blocked
+ *
+ */
+int GPFS_API
+gpfs_lwe_upgrade_right(gpfs_lwe_sessid_t  sid,       /* IN */
+                       void              *hanp,      /* IN */
+                       size_t             hlen,      /* IN */
+                       gpfs_lwe_token_t token);      /* IN */
+
+
+/* NAME:      gpfs_lwe_downgrade_right
+ *
+ * FUNCTION:  Downgrade an access right from exclusive to shared
+ *
+ *            This reduces an access right from exclusive to shared
+ *            without dropping the exclusive right to acquire the shared.
+ *            The token must convey exclusive right before the call.
+ *
+ * Input:     sid       Id of lw session
+ *            hanp      Pointer to dmapi handle
+ *            hlen      Length of dmapi handle
+ *            token     Unique identifier for access right
+ *
+ * Output:    None
+ *
+ * Returns:   0         Success
+ *            -1        Failure
+ *
+ * Errno:     ENOSYS    Function not available
+ *            ESTALE    GPFS not available
+ *            EINVAL    Invalid arguments
+ *            EINVAL    The token is invalid
+ *            EFAULT    Invalid pointer provided
+ *            EPERM     Caller does not hold appropriate privilege
+ *            EPERM     Token's right is not exclusive
+ *
+ */
+int GPFS_API
+gpfs_lwe_downgrade_right(gpfs_lwe_sessid_t  sid,   /* IN */
+                         void              *hanp,  /* IN */
+                         size_t             hlen,  /* IN */
+                         gpfs_lwe_token_t token);  /* IN */
+
+
+/* NAME:      gpfs_lwe_release_right
+ *
+ * FUNCTION:  Release an access right conveyed by a token
+ *
+ *            This releases the access right held by a token
+ *            and invalidates the token. Once the access right
+ *            is released the token cannot be reused.
+ *
+ * Input:     sid       Id of lw session
+ *            hanp      Pointer to dmapi handle
+ *            hlen      Length of dmapi handle
+ *            token     Unique identifier for access right
+ *
+ * Output:    None
+ *
+ * Returns:   0         Success
+ *            -1        Failure
+ *
+ * Errno:     ENOSYS    Function not available
+ *            ESTALE    GPFS not available
+ *            EINVAL    Invalid arguments
+ *            EINVAL    The token is invalid
+ *            EFAULT    Invalid pointer provided
+ *            EPERM     Caller does not hold appropriate privilege
+ */
+int GPFS_API
+gpfs_lwe_release_right(gpfs_lwe_sessid_t  sid,       /* IN */
+                       void              *hanp,      /* IN */
+                       size_t             hlen,      /* IN */
+                       gpfs_lwe_token_t token);      /* IN */
+
+
+/* NAME:        gpfs_lwe_getattrs()
+ *
+ * FUNCTION:    Retrieves all extended file attributes in opaque format.
+ *              This function together with gpfs_lwe_putattrs is intended for
+ *              use by a backup program to save (gpfs_lwe_getattrs) and
+ *              restore (gpfs_lwe_putattrs) all extended file attributes
+ *              (ACLs, user attributes, ...) in one call.
+ *
+ *              NOTE: This call is the lwe equivalent of gpfs_igetattrsx
+ *                    but uses a file handle to identify the file
+ *                    and an existing LWE token for locking it.
+ *
+ *
+ * Input:       sid       Id of lw session
+ *              hanp      Pointer to dmapi handle
+ *              hlen      Length of dmapi handle
+ *              token     Unique identifier for access right
+ *              flags   Define behavior of get attributes
+ *                GPFS_ATTRFLAG_NO_PLACEMENT - file attributes for placement
+ *                      are not saved, neither is the current storage pool.
+ *                GPFS_ATTRFLAG_IGNORE_POOL - file attributes for placement
+ *                      are saved, but the current storage pool is not.
+ *                GPFS_ATTRFLAG_INCL_DMAPI - file attributes for dmapi are
+ *                      included in the returned buffer
+ *                GPFS_ATTRFLAG_INCL_ENCR - file attributes for encryption
+ *                      are included in the returned buffer
+ *
+ *              buffer:     pointer to buffer for returned attributes
+ *              bufferSize: size of buffer
+ *              attrSize:   ptr to returned size of attributes
+ *
+ * Returns:     0       Successful
+ *              -1      Failure
+ *
+ * Errno:       ENOSYS  function not available
+ *              EINVAL  Not a GPFS file
+ *              EINVAL  invalid flags provided
+ *              ENOSPC  buffer too small to return all attributes
+ *                      *attrSizeP will be set to the size necessary
+ */
+int GPFS_API
+gpfs_lwe_getattrs(gpfs_lwe_sessid_t  sid,
+                  void              *hanp,
+                  size_t             hlen,
+                  gpfs_lwe_token_t   token,
+                  int                flags,
+                  void              *buffer,
+                  int                bufferSize,
+                  int               *attrSize);
+
+
+/* NAME:        gpfs_lwe_putattrs()
+ *
+ * FUNCTION:    Sets all extended file attributes of a file.
+ *
+ *              This routine can optionally invoke the policy engine
+ *              to match a RESTORE rule using the file's attributes saved
+ *              in the extended attributes to set the file's storage pool and
+ *              data replication as when calling gpfs_fputattrswithpathname.
+ *              When used with the policy the caller should include the
+ *              full path to the file, including the file name, to allow
+ *              rule selection based on file name or path.
+ *
+ *              By default, the routine will not use RESTORE policy rules
+ *              for data placement. The pathName parameter will be ignored
+ *              and may be set to NULL.
+ *
+ *              If the call does not use RESTORE policy rules, or if the
+ *              file fails to match a RESTORE rule, or if there are no
+ *              RESTORE rules installed, then the storage pool and data
+ *              replication are selected as when calling gpfs_fputattrs().
+ *
+ *              The buffer passed in should contain extended attribute data
+ *              that was obtained by a previous call to gpfs_fgetattrs.
+ *
+ *              pathName is a UTF-8 encoded string. On Windows, applications
+ *              can convert UTF-16 ("Unicode") to UTF-8 using the platforms
+ *              WideCharToMultiByte function.
+ *
+ *              NOTE: This call is the lwe equivalent of gpfs_iputaattrsx
+ *                    but uses a file handle to identify the file
+ *                    and an existing LWE token for locking it.
+ *
+ *
+ * Input:        sid       Id of lw session
+ *               hanp      Pointer to dmapi handle
+ *               hlen      Length of dmapi handle
+ *               token     Unique identifier for access right
+ *               flags   Define behavior of put attributes
+ *                GPFS_ATTRFLAG_NO_PLACEMENT - file attributes are restored
+ *                      but the storage pool and data replication are unchanged
+ *                GPFS_ATTRFLAG_IGNORE_POOL - file attributes are restored
+ *                      but the storage pool and data replication are selected
+ *                      by matching the saved attributes to a placement rule
+ *                      instead of restoring the saved storage pool.
+ *                GPFS_ATTRFLAG_USE_POLICY - file attributes are restored
+ *                      but the storage pool and data replication are selected
+ *                      by matching the saved attributes to a RESTORE rule
+ *                      instead of restoring the saved storage pool.
+ *                GPFS_ATTRFLAG_FINALIZE_ATTRS - file attributes that are restored
+ *                      after data is retored. If file is immutable/appendOnly
+ *                      call without this flag before restoring data
+ *                      then call with this flag after restoring data
+ *                GPFS_ATTRFLAG_INCL_ENCR - file attributes for encryption
+ *                      are restored. Note that this may result in the file's
+ *                      File Encryption Key (FEK) being changed, and in this
+ *                      case any prior content in the file is effectively lost.
+ *                      This option should only be used when the entire file
+ *                      content is restored after the attributes are restored.
+ *
+ *              buffer: pointer to buffer for returned attributes
+ *              pathName: pointer to file path and file name for file
+ *                        May be set to NULL.
+ *
+ * Returns:     0       Successful
+ *              -1      Failure and errno is set
+ *
+ * Errno:       ENOSYS  function not available
+ *              EINVAL  the buffer does not contain valid attribute data
+ *              EINVAL  invalid flags provided
+ *              EPERM caller must have superuser privilege
+ *              ESTALE cached fs information was invalid
+ *              GPFS_E_INVAL_IFILE bad ifile parameters
+ */
+int GPFS_API
+gpfs_lwe_putattrs(gpfs_lwe_sessid_t  sid,
+                  void              *hanp,
+                  size_t             hlen,
+                  gpfs_lwe_token_t   token,
+                  int                flags,
+                  void              *buffer,
+                  const char        *pathName);
+
+
+
+const char* GPFS_API
+gpfs_get_fspathname_from_fsname(const char* fsname_or_path);
+/* Check that fsname_or_path refers to a GPFS file system and find the path to its root
+ Return a strdup()ed copy of the path -OR- NULL w/errno
+*/
+
+int GPFS_API
+/* experimental */
+gpfs_qos_getstats(
+                   const char *fspathname, /* in only: path to file system*/
+                   unsigned int options, /* in only: option flags: 0=begin at specified qip, 1=begin after qip */
+                   unsigned int qosid,   /* in only: 0 or a specific qosid at which to start or continue */
+                   gpfs_pool_t  poolid,  /* in only: -1 or a specific poolid at which to start or continue */
+                   unsigned int mqips,   /* in only: max number of qip=(qosid,poolid) histories to retrieve */
+                   unsigned int nslots,  /* in only: max number of time slots of history to retrieve */
+                   void *bufferP,        /* ptr to return stat structures */
+                   unsigned int bufferSize);  /* sizeof stat buffer or 0 */
+
+int GPFS_API
+/* experimental */
+gpfs_qos_control(
+                   const char *fspathname, /* in only: path to file system*/
+                   void *bufferP,        /* in/out control/get/set structs */
+                   unsigned int bufferSize);
+
+int GPFS_API
+gpfs_qos_set(
+             const char *fspathname,
+             const char *classname, /* "gold", "silver", or .. "1" or "2" .. */
+             int   id,        /* process id or  pgrp or userid */
+             int   which,    /* process, pgrp or user */
+             double* qshareP); /* return the share, percentage or when negative IOP limit */
+/* if id==0 then getpid() or getpgrp() or getuid()
+   if which==0 or 1 then process, if 2 process then group, if 3 then userid
+   Return -1 on error, with errno=
+    ENOSYS if QOS is not available in the currently installed GPFS software.
+    ENOENT if classname is not recognized.
+    ENXIO  if QOS throttling is not active
+        (but classname is recognized and *qshareP has configured value)
+*/
+
+/* For the given process get QOS info */
+int GPFS_API
+gpfs_qos_get(
+             const char *fspathname,
+	     int  *classnumP,
+             char  classname[18], /* "gold", "silver", or .. "1" or "2" .. */
+             int   id,        /* process id or  pgrp or userid */
+             int   which,    /* process, pgrp or user */
+             double* qshareP); /* return the share, percentage or when negative IOP limit */
+
+/* given classname, set *classnumP and  set *qshareP
+   Return -1 on error, with errno=
+    ENOSYS if QOS is not available in the currently installed GPFS software.
+    ENOENT if classname is not recognized.
+    ENXIO  if QOS throttling is not active
+        (but classname is recognized, *classnumP and *qshareP have configured values)
+*/
+int GPFS_API
+gpfs_qos_lkupName(
+                  const char *fspathname,
+		  int        *classnumP,
+                  const char *classname,
+                  double* qshareP);
+
+/* given classnumber, find name and share (similar to above), but start with number instead of name */
+int GPFS_API
+gpfs_qos_lkupVal(
+                  const char *fspathname,
+		  int        val,
+                  char    classname[18],
+                  double* qshareP);
+
+int GPFS_API
+gpfs_ioprio_set(int,int,int); /* do not call directly */
+
+int GPFS_API
+gpfs_ioprio_get(int,int); /* do not call directly */
+
+
+/* NAME:        gpfs_enc_file_rewrap_key()
+ *
+ * FUNCTION:    Re-wrap the File Encryption Key (FEK) for the file,
+ *              replacing the usage of the original (second parameter)
+ *              Master Encryption Key (MEK) with the new key provided as
+ *              the third parameter. The content of the file remains intact.
+ *
+ *              If the FEK is not currently being wrapped with the MEK
+ *              identified by the second parameter then no action is taken.
+ *
+ *              This function is normally invoked before the original MEK is
+ *              removed.
+ *
+ *              The file may be opened in read-only mode for this function
+ *              to perform the key rewrap.
+ *
+ *              Superuser privilege is required to invoke this API.
+ *
+ * INPUT:       fileDesc: File descriptor for file whose key is to be rewrapped
+ *              orig_key_p: Key ID for the key (MEK) to be replaced
+ *              new_key_p: Key ID for the new key (MEK) to be used
+ *
+ * OUTPUT:      N/A
+ *
+ * Returns:     0 success
+ *              -1 failure
+ *
+ * Errno:
+ *              EACCESS    Existing or new key cannot be retrieved
+ *                         The new key is already being used to wrap the
+ *                         file's FEK
+ *              EBADF      Bad file descriptor
+ *              EINVAL     Arguments are invalid: key format is incorrect
+ *              EFAULT     An invalid pointer is supplied; the associated
+ *                         data could not be copied in or out of the kernel
+ *              E2BIG      Key IDs provided are too long
+ *              ENOSYS     Function not available (cluster or file system not
+ *                         enabled for encryption)
+ *              EPERM      File is in a snapshot
+ *                         Caller must have superuser privilege
+ */
+
+/* The Key ID is a string comprised of the key ID and the remote key
+   server RKM ID, separated by ':' */
+typedef const char *gpfs_enc_key_id_t;    /* "<KEY ID> : <KMS ID>" */
+
+int GPFS_API
+gpfs_enc_file_rewrap_key(gpfs_file_t fileDesc,
+                         gpfs_enc_key_id_t orig_key_p,
+                         gpfs_enc_key_id_t new_key_p);
+
+
+/* NAME:        gpfs_enc_get_algo()
+ *
+ * FUNCTION:    Retrieve a string describing the encryption algorithm, key
+ *              length, Master Encryption Key(s) ID, and wrapping and combining
+ *              mechanisms used for the file.
+ *
+ * INPUT:       fileDesc: File descriptor for file whose encryption
+ *                        algorithm is being retrieved
+ *              encryption_xattrP: content of the gpfs.Encryption
+ *                        extended attribute, retrieved by a call to
+ *                        gpfs_fcntl (with structure type GPFS_FCNTL_GET_XATTR)
+ *              xattr_len: length of the data in encryption_xattrP
+ *              algo_txt_size: space reserved by the caller for algo_txtP
+ *
+ * OUTPUT:      algo_txtP: NULL-terminated string describing the
+ *                        encryption for the file
+ *
+ * Returns:     0 success
+ *              -1 failure
+ *
+ * Errno:
+ *              ENOENT    File not found
+ *              EBADF     Bad file handle, not a GPFS file
+ *              EACCESS   Permission denied
+ *              EFAULT    Bad address provided
+ *              EINVAL    Not a regular file
+ *              EINVAL    Invalid values for xattr_len or algo_txt_size
+ *              EINVAL    Invalid content of encryption extended attribute
+ *              ENOSYS    Function not available
+ *              E2BIG     Output string does not fit in algo_txtP
+ */
+
+int GPFS_API
+gpfs_enc_get_algo(gpfs_file_t fileDesc,
+                  const char *encryption_xattrP,
+                  int xattr_len,
+                  char *algo_txtP,
+                  int algo_txt_size);
+
+
+/* NAME:        gpfs_init_trace()
+ *
+ * FUNCTION:    Initialize the GPFS trace facility and start to use it.
+ *              Must be called before calling gpfs_add_trace().
+ *
+ * Returns:      0      Success
+ *              -1      Failure
+ *
+ * Errno:       ENOENT  file not found
+ *              ENOMEM  Memory allocation failed
+ *              EACCESS Permission denied
+ *              ENFILE  Too many open files
+ *              ENOSYS  Function not available
+ */
+int GPFS_API
+gpfs_init_trace(void);
+
+/* NAME:        gpfs_query_trace()
+ *
+ * FUNCTION:    Query and cache the latest settings of GPFS trace facility.
+ *              Generally this should be called by the notification handler
+ *              for the "traceConfigChanged" event, which is invoked when
+ *              something changes in the configuration of the trace facility.
+ *
+ * Returns:      0      Success
+ *              -1      Failure
+ *
+ * Errno:       ENOENT  file not found
+ *              ENOMEM  Memory allocation failed
+ *              EACCESS Permission denied
+ *              ENFILE  Too many open files
+ *              ENOSYS  Function not available
+ */
+int GPFS_API
+gpfs_query_trace(void);
+
+/* NAME:        gpfs_add_trace()
+ *
+ * FUNCTION:    write the logs into GPFS trace driver. When the user specified
+ *              parameter "level" is less than or equal to the GPFS trace level,
+ *              the log message pointed to by parameter "msg" would be written to
+ *              GPFS trace buffer, and user can use mmtracectl command to cut
+ *              the GPFS trace buffer into a file to observe. Must be called after
+ *              the call to gpfs_init_trace(). Also ensure the gpfs_query_trace()
+ *              is called properly to update the gpfs trace level cached in
+ *              application, otherwise, the trace may miss to write down to
+ *              GPFS trace driver.
+ *
+ * Input:       level: the level for this trace generation. When the level
+ *                     is less than or equal to the GPFS trace level, this
+ *                     trace record would be written to GPFS trace buffer.
+ *              msg: the message string that would be put into GPFS trace buffer.
+ *
+ * Returns:     None.
+ */
+void GPFS_API
+gpfs_add_trace(int level, const char *msg);
+
+/* NAME:        gpfs_fini_trace()
+ *
+ * FUNCTION:    Stop using GPFS trace facility. This should be paired with
+ *              gpfs_init_trace(), and must be called after the last
+ *              gpfs_add_trace().
+ *
+ * Returns:     None.
+ */
+
+void gpfs_fini_trace(void);
+
+/*
+ * When GPFS_64BIT_INODES is defined, use the 64-bit interface definitions as
+ * the default.
+ */
+
+#ifdef GPFS_64BIT_INODES
+  #undef  GPFS_D_VERSION
+  #define GPFS_D_VERSION GPFS_D64_VERSION
+  #undef  GPFS_IA_VERSION
+  #define GPFS_IA_VERSION GPFS_IA64_VERSION
+
+  #define gpfs_ino_t gpfs_ino64_t
+  #define gpfs_gen_t gpfs_gen64_t
+  #define gpfs_uid_t gpfs_uid64_t
+  #define gpfs_gid_t gpfs_gid64_t
+  #define gpfs_snapid_t gpfs_snapid64_t
+  #define gpfs_nlink_t gpfs_nlink64_t
+  #define gpfs_timestruc_t gpfs_timestruc64_t
+  #define gpfs_direntx_t gpfs_direntx64_t
+  #define gpfs_direntx gpfs_direntx64
+  #define gpfs_iattr_t gpfs_iattr64_t
+
+  #define gpfs_get_snapid_from_fssnaphandle gpfs_get_snapid_from_fssnaphandle64
+  #define gpfs_open_inodescan gpfs_open_inodescan64
+  #define gpfs_open_inodescan_with_xattrs gpfs_open_inodescan_with_xattrs64
+  #define gpfs_next_inode gpfs_next_inode64
+  #define gpfs_next_inode_with_xattrs gpfs_next_inode_with_xattrs64
+  #define gpfs_seek_inode gpfs_seek_inode64
+  #define gpfs_stat_inode gpfs_stat_inode64
+  #define gpfs_stat_inode_with_xattrs gpfs_stat_inode_with_xattrs64
+  #define gpfs_iopen gpfs_iopen64
+  #define gpfs_ireaddir gpfs_ireaddir64
+  #define gpfs_ireaddirx gpfs_ireaddirx64
+  #define gpfs_iwritedir gpfs_iwritedir64
+  #define gpfs_ireadlink gpfs_ireadlink64
+#endif
+
+#define gpfs_icreate gpfs_icreate64
+
+#ifdef __cplusplus
+}
+#endif
+
+#endif /* H_GPFS */