Exemplo n.º 1
0
/**
 * FSAL_open:
 * Open a regular file for reading/writing its data content.
 *
 * \param filehandle (input):
 *        Handle of the file to be read/modified.
 * \param cred (input):
 *        Authentication context for the operation (user,...).
 * \param openflags (input):
 *        Flags that indicates behavior for file opening and access.
 *        This is an inclusive OR of the following values
 *        ( such of them are not compatible) :
 *        - FSAL_O_RDONLY: opening file for reading only.
 *        - FSAL_O_RDWR: opening file for reading and writing.
 *        - FSAL_O_WRONLY: opening file for writting only.
 *        - FSAL_O_APPEND: always write at the end of the file.
 *        - FSAL_O_TRUNC: truncate the file to 0 on opening.
 * \param file_descriptor (output):
 *        The file descriptor to be used for FSAL_read/write operations.
 * \param file_attributes (optionnal input/output):
 *        Post operation attributes.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *
 * \return Major error codes:
 *      - ERR_FSAL_NO_ERROR: no error.
 *      - Another error code if an error occured during this call.
 */
fsal_status_t GPFSFSAL_open(fsal_handle_t * p_filehandle,   /* IN */
                        fsal_op_context_t * p_context,  /* IN */
                        fsal_openflags_t openflags,     /* IN */
                        fsal_file_t * file_desc,        /* OUT */
                        fsal_attrib_list_t * p_file_attributes  /* [ IN/OUT ] */
    )
{

  int rc, errsv;
  fsal_status_t status;

  int fd;
  int posix_flags = 0;
  gpfsfsal_file_t * p_file_descriptor = (gpfsfsal_file_t *)file_desc;

  /* sanity checks.
   * note : file_attributes is optional.
   */
  if(!p_filehandle || !p_context || !p_file_descriptor)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_open);

  /* convert fsal open flags to posix open flags */
  rc = fsal2posix_openflags(openflags, &posix_flags);

  /* flags conflicts. */
  if(rc)
    {
      LogWarn(COMPONENT_FSAL, "Invalid/conflicting flags : %#X", openflags);
      Return(rc, 0, INDEX_FSAL_open);
    }

  TakeTokenFSCall();
  status = fsal_internal_handle2fd(p_context, p_filehandle, &fd, posix_flags);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_open);

  /* output attributes */
  if(p_file_attributes)
    {

      p_file_attributes->asked_attributes = GPFS_SUPPORTED_ATTRIBUTES;
      status = GPFSFSAL_getattrs(p_filehandle, p_context, p_file_attributes);
      if(FSAL_IS_ERROR(status))
        ReturnStatus(status, INDEX_FSAL_open);
    }

  TakeTokenFSCall();
  p_file_descriptor->fd = fd;
  errsv = errno;
  ReleaseTokenFSCall();

  /* set the read-only flag of the file descriptor */
  p_file_descriptor->ro = openflags & FSAL_O_RDONLY;

  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_open);

}
Exemplo n.º 2
0
/**
 * FSAL_opendir :
 *     Opens a directory for reading its content.
 *
 * \param dir_handle (input)
 *         the handle of the directory to be opened.
 * \param cred (input)
 *         Permission context for the operation (user,...).
 * \param dir_descriptor (output)
 *         pointer to an allocated structure that will receive
 *         directory stream informations, on successfull completion.
 * \param dir_attributes (optional output)
 *         On successfull completion,the structure pointed
 *         by dir_attributes receives the new directory attributes.
 *         May be NULL.
 *
 * \return Major error codes :
 *        - ERR_FSAL_NO_ERROR     (no error)
 *        - Another error code if an error occured.
 */
fsal_status_t GPFSFSAL_opendir(fsal_handle_t * p_dir_handle,        /* IN */
                           fsal_op_context_t * p_context,       /* IN */
                           fsal_dir_t * dir_desc,       /* OUT */
                           fsal_attrib_list_t * p_dir_attributes        /* [ IN/OUT ] */
    )
{
  fsal_status_t status;
  fsal_accessflags_t access_mask = 0;
  fsal_attrib_list_t dir_attrs;
  gpfsfsal_dir_t *p_dir_descriptor = (gpfsfsal_dir_t *)dir_desc;

  /* sanity checks
   * note : dir_attributes is optionnal.
   */
  if(!p_dir_handle || !p_context || !p_dir_descriptor)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_opendir);

  /* get the path of the directory */
  TakeTokenFSCall();
  status =
      fsal_internal_handle2fd(p_context, p_dir_handle,
			      &p_dir_descriptor->fd,
                              O_RDONLY | O_DIRECTORY);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_opendir);

  /* get directory metadata */
  dir_attrs.asked_attributes = GPFS_SUPPORTED_ATTRIBUTES;
  status = GPFSFSAL_getattrs(p_dir_handle, p_context, &dir_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_opendir);

  /* Test access rights for this directory */

  /* Set both mode and ace4 mask */
  access_mask = FSAL_MODE_MASK_SET(FSAL_R_OK) |
                FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_LIST_DIR);

  status = fsal_internal_testAccess(p_context, access_mask, NULL, &dir_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_opendir);

  /* if everything is OK, fills the dir_desc structure : */

  memcpy(&(p_dir_descriptor->context), p_context, sizeof(fsal_op_context_t));
  memcpy(&(p_dir_descriptor->handle), p_dir_handle, sizeof(fsal_handle_t));

  if(p_dir_attributes)
      *p_dir_attributes = dir_attrs;

  p_dir_descriptor->dir_offset = 0;

  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_opendir);

}
Exemplo n.º 3
0
/**
 * FSAL_getattrs:
 * Get attributes for the object specified by its filehandle.
 *
 * \param filehandle (input):
 *        The handle of the object to get parameters.
 * \param cred (input):
 *        Authentication context for the operation (user,...).
 * \param object_attributes (mandatory input/output):
 *        The retrieved attributes for the object.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *
 * \return Major error codes :
 *        - ERR_FSAL_NO_ERROR     (no error)
 *        - Another error code if an error occured.
 */
fsal_status_t XFSFSAL_getattrs(fsal_handle_t * p_filehandle, /* IN */
                               fsal_op_context_t * p_context,        /* IN */
                               fsal_attrib_list_t * p_object_attributes /* IN/OUT */
    )
{
  int rc, errsv;
  fsal_status_t st;
  int fd;
  struct stat buffstat;

  /* sanity checks.
   * note : object_attributes is mandatory in FSAL_getattrs.
   */
  if(!p_filehandle || !p_context || !p_object_attributes)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_getattrs);

  TakeTokenFSCall();
  st = fsal_internal_handle2fd(p_context, p_filehandle, &fd, O_RDONLY);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(st))
    ReturnStatus(st, INDEX_FSAL_getattrs);

  /* get file metadata */
  TakeTokenFSCall();
  rc = fstat(fd, &buffstat);
  errsv = errno;
  ReleaseTokenFSCall();

  close(fd);

  if(rc != 0)
    {
      if(errsv == ENOENT)
        Return(ERR_FSAL_STALE, errsv, INDEX_FSAL_getattrs);
      else
        Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_getattrs);
    }

  /* convert attributes */
  st = posix2fsal_attributes(&buffstat, p_object_attributes);
  if(FSAL_IS_ERROR(st))
    {
      FSAL_CLEAR_MASK(p_object_attributes->asked_attributes);
      FSAL_SET_MASK(p_object_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
      ReturnStatus(st, INDEX_FSAL_getattrs);
    }

  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_getattrs);

}
Exemplo n.º 4
0
/** @fn fsal_status_t
 *       GPFSFSAL_open(struct fsal_obj_handle *obj_hdl,
 *                     const struct req_op_context *op_ctx,
 *                     fsal_openflags_t openflags, int *file_desc,
 *                     struct attrlist *fsal_attr)
 *
 *  @brief Open a regular file for reading/writing its data content.
 *
 * @param obj_hdl Handle of the file to be read/modified.
 * @param op_ctx Authentication context for the operation (user,...).
 * @param openflags Flags that indicates behavior for file opening and access.
 *        This is an inclusive OR of the following values
 *        ( such of them are not compatible) :
 *        - FSAL_O_RDONLY: opening file for reading only.
 *        - FSAL_O_RDWR: opening file for reading and writing.
 *        - FSAL_O_WRONLY: opening file for writting only.
 *        - FSAL_O_APPEND: always write at the end of the file.
 *        - FSAL_O_TRUNC: truncate the file to 0 on opening.
 * @param file_desc The file descriptor to be used for FSAL_read/write ops.
 *
 * @return ERR_FSAL_NO_ERROR on success, error otherwise
 */
fsal_status_t
GPFSFSAL_open(struct fsal_obj_handle *obj_hdl,
	      const struct req_op_context *op_ctx, int posix_flags,
	      int *file_desc)
{
	struct gpfs_fsal_obj_handle *myself;
	fsal_status_t status;
	struct gpfs_fsal_export *exp = container_of(op_ctx->fsal_export,
					struct gpfs_fsal_export, export);
	int export_fd = exp->export_fd;

	/* sanity checks. */
	if (!obj_hdl || !file_desc)
		return fsalstat(ERR_FSAL_FAULT, 0);

	myself = container_of(obj_hdl, struct gpfs_fsal_obj_handle,
								obj_handle);
	LogFullDebug(COMPONENT_FSAL, "posix_flags 0x%X export_fd %d",
						posix_flags, export_fd);

	fsal_set_credentials(op_ctx->creds);
	status = fsal_internal_handle2fd(export_fd, myself->handle,
					 file_desc, posix_flags);
	fsal_restore_ganesha_credentials();

	if (FSAL_IS_ERROR(status)) {
		/** Try open as root access if the above call fails,
		 * permission will be checked somewhere else in the code.
		 */
		status = fsal_internal_handle2fd(export_fd,
						 myself->handle,
						 file_desc, posix_flags);
	}

	return status;
}
Exemplo n.º 5
0
/** @fn fsal_status_t
 *       GPFSFSAL_open(struct fsal_obj_handle *obj_hdl,
 *                     const struct req_op_context *op_ctx,
 *                     fsal_openflags_t openflags, int *file_desc,
 *                     struct attrlist *fsal_attr, bool reopen)
 *
 *  @brief Open a regular file for reading/writing its data content.
 *
 * @param obj_hdl Handle of the file to be read/modified.
 * @param op_ctx Authentication context for the operation (user,...).
 * @param openflags Flags that indicates behavior for file opening and access.
 *        This is an inclusive OR of the following values
 *        ( such of them are not compatible) :
 *        - FSAL_O_RDONLY: opening file for reading only.
 *        - FSAL_O_RDWR: opening file for reading and writing.
 *        - FSAL_O_WRONLY: opening file for writting only.
 *        - FSAL_O_APPEND: always write at the end of the file.
 *        - FSAL_O_TRUNC: truncate the file to 0 on opening.
 * @param file_desc The file descriptor to be used for FSAL_read/write ops.
 *
 * @return ERR_FSAL_NO_ERROR on success, error otherwise
 */
fsal_status_t
GPFSFSAL_open(struct fsal_obj_handle *obj_hdl,
	      const struct req_op_context *op_ctx, int posix_flags,
	      int *file_desc, bool reopen)
{
	struct gpfs_fsal_obj_handle *myself;
	struct gpfs_filesystem *gpfs_fs;
	fsal_status_t status;

	/* sanity checks. */
	if (!obj_hdl || !file_desc)
		return fsalstat(ERR_FSAL_FAULT, 0);

	myself = container_of(obj_hdl, struct gpfs_fsal_obj_handle, obj_handle);
	gpfs_fs = obj_hdl->fs->private_data;

	LogFullDebug(COMPONENT_FSAL, "posix_flags 0x%X", posix_flags);

	status = fsal_internal_handle2fd(gpfs_fs->root_fd, myself->handle,
					 file_desc, posix_flags, reopen);

	if (FSAL_IS_ERROR(status)) {
		/** In some environments, "root" is denied write access,
		 * so try with the request credentials if the above call
		 * fails.
		 */
		fsal_set_credentials(op_ctx->creds);
		status = fsal_internal_handle2fd(gpfs_fs->root_fd,
						 myself->handle,
						 file_desc, posix_flags,
						 reopen);
		fsal_restore_ganesha_credentials();
	}

	return status;
}
Exemplo n.º 6
0
/**
 * FSAL_getetxattrs:
 * Get attributes for the object specified by its filehandle.
 *
 * \param filehandle (input):
 *        The handle of the object to get parameters.
 * \param cred (input):
 *        Authentication context for the operation (user,...).
 * \param object_attributes (mandatory input/output):
 *        The retrieved attributes for the object.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *
 * \return Major error codes :
 *        - ERR_FSAL_NO_ERROR     (no error)
 *        - Another error code if an error occured.
 */
fsal_status_t XFSFSAL_getextattrs(xfsfsal_handle_t * p_filehandle, /* IN */
                                  xfsfsal_op_context_t * p_context,        /* IN */
                                  fsal_extattrib_list_t * p_object_attributes /* OUT */
    )
{
  fsal_status_t st ;
  xfs_bstat_t bstat;
  xfs_ino_t xfs_ino;
  struct stat buffstat;
  int fd = 0 ;

  /* sanity checks.
   * note : object_attributes is mandatory in FSAL_getattrs.
   */
  if(!p_filehandle || !p_context || !p_object_attributes)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_getattrs);

  TakeTokenFSCall();
  st = fsal_internal_handle2fd(p_context, p_filehandle, &fd, O_RDONLY);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(st))
    ReturnStatus(st, INDEX_FSAL_getextattrs);

  if( p_object_attributes->asked_attributes & FSAL_ATTR_GENERATION )
   {
     /* get file metadata */
     xfs_ino = p_filehandle->data.inode ;
     TakeTokenFSCall();
     if(fsal_internal_get_bulkstat_by_inode(fd, &xfs_ino, &bstat) < 0)
      {
        close(fd);
        ReleaseTokenFSCall();
        ReturnCode(posix2fsal_error(errno), errno);
      }
     ReleaseTokenFSCall();

     p_object_attributes->generation = bstat.bs_gen ;
    }
 
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_getextattrs);
} /* XFSFSAL_getextattrs */
Exemplo n.º 7
0
/**
 * FSAL_open:
 * Open a regular file for reading/writing its data content.
 *
 * \param filehandle (input):
 *        Handle of the file to be read/modified.
 * \param cred (input):
 *        Authentication context for the operation (user,...).
 * \param openflags (input):
 *        Flags that indicates behavior for file opening and access.
 *        This is an inclusive OR of the following values
 *        ( such of them are not compatible) : 
 *        - FSAL_O_RDONLY: opening file for reading only.
 *        - FSAL_O_RDWR: opening file for reading and writing.
 *        - FSAL_O_WRONLY: opening file for writting only.
 *        - FSAL_O_APPEND: always write at the end of the file.
 *        - FSAL_O_TRUNC: truncate the file to 0 on opening.
 * \param file_descriptor (output):
 *        The file descriptor to be used for FSAL_read/write operations.
 * \param file_attributes (optionnal input/output):
 *        Post operation attributes.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *
 * \return Major error codes:
 *      - ERR_FSAL_NO_ERROR: no error.
 *      - Another error code if an error occured during this call.
 */
fsal_status_t XFSFSAL_open(fsal_handle_t * p_filehandle,     /* IN */
                           fsal_op_context_t * p_context,    /* IN */
                           fsal_openflags_t openflags,  /* IN */
                           fsal_file_t * p_file_descriptor,  /* OUT */
                           fsal_attrib_list_t * p_file_attributes       /* [ IN/OUT ] */
    )
{

  int rc, errsv;
  fsal_status_t status;

  int fd = 0 ;
  struct stat buffstat;
  int posix_flags = 0;

  /* sanity checks.
   * note : file_attributes is optional.
   */
  if(!p_filehandle || !p_context || !p_file_descriptor)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_open);

  /* convert fsal open flags to posix open flags */
  rc = fsal2posix_openflags(openflags, &posix_flags);

  /* flags conflicts. */
  if(rc)
    {
      LogEvent(COMPONENT_FSAL, "Invalid/conflicting flags : %#X",
                        openflags);
      Return(rc, 0, INDEX_FSAL_open);
    }

  TakeTokenFSCall();
  status = fsal_internal_handle2fd(p_context, p_filehandle, &fd, posix_flags);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_open);

  /* retrieve file attributes for checking access rights */

  TakeTokenFSCall();
  rc = fstat(fd, &buffstat);
  errsv = errno;
  ReleaseTokenFSCall();

  if(rc)
    {
      close(fd);

      if(errsv == ENOENT)
        Return(ERR_FSAL_STALE, errsv, INDEX_FSAL_open);
      else
        Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_open);
    }

#if 0
  /* No required, the open would have failed if not permitted */
  status =
      fsal_check_access(p_context,
                               openflags & FSAL_O_RDONLY ? FSAL_R_OK : FSAL_W_OK,
                               &buffstat, NULL);
  if(FSAL_IS_ERROR(status))
    {
      close(fd);
      ReturnStatus(status, INDEX_FSAL_open);
    }
#endif

  TakeTokenFSCall();
  ((xfsfsal_file_t *)p_file_descriptor)->fd = fd;
  errsv = errno;
  ReleaseTokenFSCall();

  /* set the read-only flag of the file descriptor */
  ((xfsfsal_file_t *)p_file_descriptor)->ro = openflags & FSAL_O_RDONLY;

  /* output attributes */
  if(p_file_attributes)
    {

      status = posix2fsal_attributes(&buffstat, p_file_attributes);

      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_file_attributes->asked_attributes);
          FSAL_SET_MASK(p_file_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }
    }

  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_open);

}
Exemplo n.º 8
0
fsal_status_t GPFSFSAL_rename(fsal_handle_t * p_old_parentdir_handle,       /* IN */
                          fsal_name_t * p_old_name,     /* IN */
                          fsal_handle_t * p_new_parentdir_handle,       /* IN */
                          fsal_name_t * p_new_name,     /* IN */
                          fsal_op_context_t * p_context,        /* IN */
                          fsal_attrib_list_t * p_src_dir_attributes,    /* [ IN/OUT ] */
                          fsal_attrib_list_t * p_tgt_dir_attributes     /* [ IN/OUT ] */
    )
{

  int rc, errsv;
  fsal_status_t status;
  struct stat buffstat;
  int old_parent_fd, new_parent_fd;
  int src_equal_tgt = FALSE;
  fsal_accessflags_t access_mask = 0;
  fsal_attrib_list_t src_dir_attrs, tgt_dir_attrs;

  /* sanity checks.
   * note : src/tgt_dir_attributes are optional.
   */
  if(!p_old_parentdir_handle || !p_new_parentdir_handle
     || !p_old_name || !p_new_name || !p_context)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_rename);

  /* Get directory access path by fid */

  TakeTokenFSCall();
  status = fsal_internal_handle2fd(p_context, p_old_parentdir_handle,
                                   &old_parent_fd,
                                   O_RDONLY | O_DIRECTORY);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_rename);

  /* retrieve directory metadata for checking access rights */

  src_dir_attrs.asked_attributes = GPFS_SUPPORTED_ATTRIBUTES;
  status = GPFSFSAL_getattrs(p_old_parentdir_handle, p_context, &src_dir_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_rename);

  /* optimisation : don't do the job twice if source dir = dest dir  */
  if(!FSAL_handlecmp(p_old_parentdir_handle, p_new_parentdir_handle, &status))
    {
      new_parent_fd = old_parent_fd;
      src_equal_tgt = TRUE;
      tgt_dir_attrs = src_dir_attrs;
    }
  else
    {
      TakeTokenFSCall();
      status = fsal_internal_handle2fd(p_context, p_new_parentdir_handle,
                                       &new_parent_fd,
                                       O_RDONLY | O_DIRECTORY);
      ReleaseTokenFSCall();

      if(FSAL_IS_ERROR(status))
        {
          close(old_parent_fd);
          ReturnStatus(status, INDEX_FSAL_rename);
        }

      /* retrieve destination attrs */
      tgt_dir_attrs.asked_attributes = GPFS_SUPPORTED_ATTRIBUTES;
      status = GPFSFSAL_getattrs(p_new_parentdir_handle, p_context, &tgt_dir_attrs);
      if(FSAL_IS_ERROR(status))
        ReturnStatus(status, INDEX_FSAL_rename);
    }

  /* check access rights */

  /* Set both mode and ace4 mask */
  access_mask = FSAL_MODE_MASK_SET(FSAL_W_OK | FSAL_X_OK) |
                FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_DELETE_CHILD);

  if(!p_context->export_context->fe_static_fs_info->accesscheck_support)
  status = fsal_internal_testAccess(p_context, access_mask, NULL, &src_dir_attrs);
  else
    status = fsal_internal_access(p_context, p_old_parentdir_handle, access_mask,
                                  &src_dir_attrs);
  if(FSAL_IS_ERROR(status)) {
    close(old_parent_fd);
    if (!src_equal_tgt)
      close(new_parent_fd);
    ReturnStatus(status, INDEX_FSAL_rename);
  }

  if(!src_equal_tgt)
    {
      access_mask = FSAL_MODE_MASK_SET(FSAL_W_OK | FSAL_X_OK) |
                FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_ADD_FILE |
                                   FSAL_ACE_PERM_ADD_SUBDIRECTORY);

	  if(!p_context->export_context->fe_static_fs_info->accesscheck_support)
      status = fsal_internal_testAccess(p_context, access_mask, NULL, &tgt_dir_attrs);
	  else
	    status = fsal_internal_access(p_context, p_new_parentdir_handle, access_mask,
	                                  &tgt_dir_attrs);
      if(FSAL_IS_ERROR(status)) {
        close(old_parent_fd);
        close(new_parent_fd);
        ReturnStatus(status, INDEX_FSAL_rename);
      }
    }

  /* build file paths */
  TakeTokenFSCall();
  rc = fstatat(old_parent_fd, p_old_name->name, &buffstat, AT_SYMLINK_NOFOLLOW);
  errsv = errno;
  ReleaseTokenFSCall();
  if(rc) {
    close(old_parent_fd);
    if (!src_equal_tgt)
      close(new_parent_fd);
    Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_rename);
  }

  /* Check sticky bits */

  /* Sticky bit on the source directory => the user who wants to delete the file must own it or its parent dir */
  if((fsal2unix_mode(src_dir_attrs.mode) & S_ISVTX) &&
     src_dir_attrs.owner != p_context->credential.user &&
     buffstat.st_uid != p_context->credential.user && p_context->credential.user != 0) {
    close(old_parent_fd);
    if (!src_equal_tgt)
      close(new_parent_fd);
    Return(ERR_FSAL_ACCESS, 0, INDEX_FSAL_rename);
  }

  /* Sticky bit on the target directory => the user who wants to create the file must own it or its parent dir */
  if(fsal2unix_mode(tgt_dir_attrs.mode) & S_ISVTX)
    {
      TakeTokenFSCall();
      rc = fstatat(new_parent_fd, p_new_name->name, &buffstat, AT_SYMLINK_NOFOLLOW);
      errsv = errno;
      ReleaseTokenFSCall();

      if(rc < 0)
        {
          if(errsv != ENOENT)
            {
              close(old_parent_fd);
              if (!src_equal_tgt)
                close(new_parent_fd);
              Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_rename);
            }
        }
      else
        {

          if(tgt_dir_attrs.owner != p_context->credential.user
             && buffstat.st_uid != p_context->credential.user
             && p_context->credential.user != 0)
            {
              close(old_parent_fd);
              if (!src_equal_tgt)
                close(new_parent_fd);
              Return(ERR_FSAL_ACCESS, 0, INDEX_FSAL_rename);
            }
        }
    }

  /*************************************
   * Rename the file on the filesystem *
   *************************************/
  TakeTokenFSCall();
  rc = renameat(old_parent_fd, p_old_name->name, new_parent_fd, p_new_name->name);
  errsv = errno;
  ReleaseTokenFSCall();
  close(old_parent_fd);
  if (!src_equal_tgt)
    close(new_parent_fd);

  if(rc)
    Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_rename);

  /***********************
   * Fill the attributes *
   ***********************/

  if(p_src_dir_attributes)
    {

      status = GPFSFSAL_getattrs(p_old_parentdir_handle, p_context, p_src_dir_attributes);

      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_src_dir_attributes->asked_attributes);
          FSAL_SET_MASK(p_src_dir_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }

    }

  if(p_tgt_dir_attributes)
    {

      status = GPFSFSAL_getattrs(p_new_parentdir_handle, p_context, p_tgt_dir_attributes);

      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_tgt_dir_attributes->asked_attributes);
          FSAL_SET_MASK(p_tgt_dir_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }

    }

  /* OK */
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_rename);

}
Exemplo n.º 9
0
/**
 * FSAL_create:
 * Create a regular file.
 *
 * \param parent_directory_handle (input):
 *        Handle of the parent directory where the file is to be created.
 * \param p_filename (input):
 *        Pointer to the name of the file to be created.
 * \param cred (input):
 *        Authentication context for the operation (user,...).
 * \param accessmode (input):
 *        Mode for the file to be created.
 *        (the umask defined into the FSAL configuration file
 *        will be applied on it).
 * \param object_handle (output):
 *        Pointer to the handle of the created file.
 * \param object_attributes (optional input/output): 
 *        The attributes of the created file.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *        May be NULL.
 *
 * \return Major error codes :
 *        - ERR_FSAL_NO_ERROR     (no error)
 *        - Another error code if an error occurred.
 */
fsal_status_t GPFSFSAL_create(fsal_handle_t * p_parent_directory_handle,    /* IN */
                          fsal_name_t * p_filename,     /* IN */
                          fsal_op_context_t * p_context,        /* IN */
                          fsal_accessmode_t accessmode, /* IN */
                          fsal_handle_t * p_object_handle,      /* OUT */
                          fsal_attrib_list_t * p_object_attributes      /* [ IN/OUT ] */
    )
{

  int rc = 0, errsv;
  int setgid_bit = 0;
  fsal_status_t status;

  int fd, newfd;
  mode_t unix_mode;
  fsal_accessflags_t access_mask = 0;
  fsal_attrib_list_t parent_dir_attrs;

  /* sanity checks.
   * note : object_attributes is optional.
   */
  if(!p_parent_directory_handle || !p_context || !p_object_handle || !p_filename)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_create);

  /* convert fsal mode to unix mode. */
  unix_mode = fsal2unix_mode(accessmode);

  /* Apply umask */
  unix_mode = unix_mode & ~global_fs_info.umask;

  LogFullDebug(COMPONENT_FSAL, "Creation mode: 0%o", accessmode);

  TakeTokenFSCall();
  status =
      fsal_internal_handle2fd(p_context, p_parent_directory_handle, &fd,
                              O_RDONLY | O_DIRECTORY);
  ReleaseTokenFSCall();
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_create);

  /* retrieve directory metadata */
  parent_dir_attrs.asked_attributes = GPFS_SUPPORTED_ATTRIBUTES;
  status = GPFSFSAL_getattrs(p_parent_directory_handle, p_context, &parent_dir_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_create);

  /* Check the user can write in the directory, and check the setgid bit on the directory */

  if(fsal2unix_mode(parent_dir_attrs.mode) & S_ISGID)
    setgid_bit = 1;

  /* Set both mode and ace4 mask */
  access_mask = FSAL_MODE_MASK_SET(FSAL_W_OK | FSAL_X_OK) |
                FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_ADD_FILE);

  status = fsal_internal_testAccess(p_context, access_mask, NULL, &parent_dir_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_create);

  /* call to filesystem */

  TakeTokenFSCall();
  /* create the file.
   * O_EXCL=>  error if the file already exists */
  newfd = openat(fd, p_filename->name, O_CREAT | O_WRONLY | O_TRUNC | O_EXCL, unix_mode);
  errsv = errno;

  if(newfd < 0)
    {
      close(fd);
      ReleaseTokenFSCall();
      Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_create);
    }

  /* we no longer need the parent directory open any more */
  close(fd);

  /* close the file descriptor */
  /*** 
   * Previously the file handle was closed here.  I don't think that
   we need that, but leaving the commented out logic just in case.
   rc = close(newfd);
   
   errsv = errno;
   if(rc)
   {
   close(fd);
   ReleaseTokenFSCall();
   Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_create);
   }
  */

  /* get a handle for this new fd, doing this directly ensures no race
     because we still have the fd open until the end of this function */
  status = fsal_internal_fd2handle(newfd, p_object_handle);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    {
      close(newfd);
      ReturnStatus(status, INDEX_FSAL_create);
    }

  /* the file has been created */
  /* chown the file to the current user */

  if(p_context->credential.user != geteuid())
    {
      TakeTokenFSCall();
      /* if the setgid_bit was set on the parent directory, do not change the group of the created file, because it's already the parentdir's group */
      rc = fchown(newfd, p_context->credential.user,
                  setgid_bit ? -1 : (int)p_context->credential.group);
      errsv = errno;
      ReleaseTokenFSCall();
      if(rc)
        {
          close(newfd);
          Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_create);
        }
    }

  /* if we got this far successfully, but the file close fails, we've
     got a problem, possibly a disk full problem. */
  close(newfd);
  if(rc)
    Return(posix2fsal_error(errno), errno, INDEX_FSAL_create);

  /* retrieve file attributes */
  if(p_object_attributes)
    {
      status = GPFSFSAL_getattrs(p_object_handle, p_context, p_object_attributes);

      /* on error, we set a special bit in the mask. */
      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_object_attributes->asked_attributes);
          FSAL_SET_MASK(p_object_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }

    }

  /* OK */
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_create);

}
Exemplo n.º 10
0
/**
 * FSAL_link:
 * Create a hardlink.
 *
 * \param target_handle (input):
 *        Handle of the target object.
 * \param dir_handle (input):
 *        Pointer to the directory handle where
 *        the hardlink is to be created.
 * \param p_link_name (input):
 *        Pointer to the name of the hardlink to be created.
 * \param cred (input):
 *        Authentication context for the operation (user,...).
 * \param accessmode (input):
 *        Mode for the directory to be created.
 *        (the umask defined into the FSAL configuration file
 *        will be applied on it).
 * \param attributes (optionnal input/output): 
 *        The post_operation attributes of the linked object.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *        May be NULL.
 *
 * \return Major error codes :
 *        - ERR_FSAL_NO_ERROR     (no error)
 *        - Another error code if an error occured.
 */
fsal_status_t GPFSFSAL_link(fsal_handle_t * p_target_handle,        /* IN */
                        fsal_handle_t * p_dir_handle,   /* IN */
                        fsal_name_t * p_link_name,      /* IN */
                        fsal_op_context_t * p_context,  /* IN */
                        fsal_attrib_list_t * p_attributes       /* [ IN/OUT ] */
    )
{
  fsal_status_t status;
  int srcfd, dstfd;
  fsal_accessflags_t access_mask = 0;
  fsal_attrib_list_t parent_dir_attrs;

  /* sanity checks.
   * note : attributes is optional.
   */
  if(!p_target_handle || !p_dir_handle || !p_context || !p_context->export_context
     || !p_link_name || !p_link_name->name)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_link);

  /* Tests if hardlinking is allowed by configuration. */

  if(!global_fs_info.link_support)
    Return(ERR_FSAL_NOTSUPP, 0, INDEX_FSAL_link);

  /* get the target handle access by fid */
  TakeTokenFSCall();
  status = fsal_internal_handle2fd(p_context, p_target_handle, &srcfd, O_RDONLY);
  ReleaseTokenFSCall();
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_link);

  /* build the destination path and check permissions on the directory */
  TakeTokenFSCall();
  status =
      fsal_internal_handle2fd(p_context, p_dir_handle, &dstfd, O_RDONLY | O_DIRECTORY);
  ReleaseTokenFSCall();
  if(FSAL_IS_ERROR(status))
    {
      close(srcfd);
      ReturnStatus(status, INDEX_FSAL_link);
    }

  /* retrieve target directory metadata */
  parent_dir_attrs.asked_attributes = GPFS_SUPPORTED_ATTRIBUTES;
  status = GPFSFSAL_getattrs(p_dir_handle, p_context, &parent_dir_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_link);

  /* check permission on target directory */

  /* Set both mode and ace4 mask */
  access_mask = FSAL_MODE_MASK_SET(FSAL_W_OK | FSAL_X_OK) |
                FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_ADD_FILE);

  status = fsal_internal_testAccess(p_context, access_mask, NULL, &parent_dir_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_link);

  /* Create the link on the filesystem */

  TakeTokenFSCall();
  status = fsal_internal_link_at(srcfd, dstfd, p_link_name->name);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    {
      close(srcfd);
      close(dstfd);
      ReturnStatus(status, INDEX_FSAL_link);
    }

  /* optionnaly get attributes */

  if(p_attributes)
    {
      status = GPFSFSAL_getattrs(p_target_handle, p_context, p_attributes);

      /* on error, we set a special bit in the mask. */
      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_attributes->asked_attributes);
          FSAL_SET_MASK(p_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }
    }

  close(srcfd);
  close(dstfd);

  /* OK */
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_link);

}
Exemplo n.º 11
0
fsal_status_t GPFSFSAL_truncate(gpfsfsal_handle_t * p_filehandle,       /* IN */
                            gpfsfsal_op_context_t * p_context,      /* IN */
                            fsal_size_t length, /* IN */
                            gpfsfsal_file_t * file_descriptor,      /* Unused in this FSAL */
                            fsal_attrib_list_t * p_object_attributes    /* [ IN/OUT ] */
    )
{

  int rc, errsv;
  int fd;
  fsal_status_t st;

  /* sanity checks.
   * note : object_attributes is optional.
   */
  if(!p_filehandle || !p_context)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_truncate);

  /* get the path of the file and its handle */
  TakeTokenFSCall();
  st = fsal_internal_handle2fd(p_context, p_filehandle, &fd, O_RDWR);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(st))
    ReturnStatus(st, INDEX_FSAL_truncate);

  /* Executes the POSIX truncate operation */

  TakeTokenFSCall();
  rc = ftruncate(fd, length);
  errsv = errno;
  ReleaseTokenFSCall();

  close(fd);

  /* convert return code */
  if(rc)
    {
      if(errsv == ENOENT)
        Return(ERR_FSAL_STALE, errsv, INDEX_FSAL_truncate);
      else
        Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_truncate);
    }

  /* Optionally retrieve attributes */
  if(p_object_attributes)
    {

      fsal_status_t st;

      st = GPFSFSAL_getattrs(p_filehandle, p_context, p_object_attributes);

      if(FSAL_IS_ERROR(st))
        {
          FSAL_CLEAR_MASK(p_object_attributes->asked_attributes);
          FSAL_SET_MASK(p_object_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }

    }

  /* No error occurred */
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_truncate);

}
Exemplo n.º 12
0
fsal_status_t VFSFSAL_rename(fsal_handle_t * p_old_parentdir_handle,       /* IN */
                          fsal_name_t * p_old_name,     /* IN */
                          fsal_handle_t * p_new_parentdir_handle,       /* IN */
                          fsal_name_t * p_new_name,     /* IN */
                          fsal_op_context_t * p_context,        /* IN */
                          fsal_attrib_list_t * p_src_dir_attributes,    /* [ IN/OUT ] */
                          fsal_attrib_list_t * p_tgt_dir_attributes     /* [ IN/OUT ] */
    )
{

  int rc, errsv;
  fsal_status_t status;
  struct stat old_parent_buffstat, new_parent_buffstat, buffstat;
  int old_parent_fd, new_parent_fd;
  int src_equal_tgt = FALSE;
  uid_t user = ((vfsfsal_op_context_t *)p_context)->credential.user;

  /* sanity checks.
   * note : src/tgt_dir_attributes are optional.
   */
  if(!p_old_parentdir_handle || !p_new_parentdir_handle
     || !p_old_name || !p_new_name || !p_context)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_rename);

  /* Get directory access path by fid */

  TakeTokenFSCall();
  status = fsal_internal_handle2fd(p_context, p_old_parentdir_handle,
                                   &old_parent_fd,
                                   O_RDONLY | O_DIRECTORY);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_rename);

  /* retrieve directory metadata for checking access rights */

  TakeTokenFSCall();
  rc = fstat(old_parent_fd, &old_parent_buffstat);
  errsv = errno;
  ReleaseTokenFSCall();

  if(rc)
    {
      close(old_parent_fd);
      if(errsv == ENOENT)
        Return(ERR_FSAL_STALE, errsv, INDEX_FSAL_rename);
      else
        Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_rename);
    }

  /* optimisation : don't do the job twice if source dir = dest dir  */
  if(!FSAL_handlecmp(p_old_parentdir_handle, p_new_parentdir_handle, &status))
    {
      new_parent_fd = old_parent_fd;
      src_equal_tgt = TRUE;
      new_parent_buffstat = old_parent_buffstat;
    }
  else
    {
      TakeTokenFSCall();
      status = fsal_internal_handle2fd(p_context, p_new_parentdir_handle,
                                       &new_parent_fd,
                                       O_RDONLY | O_DIRECTORY);
      ReleaseTokenFSCall();

      if(FSAL_IS_ERROR(status))
        {
          close(old_parent_fd);
          ReturnStatus(status, INDEX_FSAL_rename);
        }
      /* retrieve destination attrs */
      TakeTokenFSCall();
      rc = fstat(new_parent_fd, &new_parent_buffstat);
      errsv = errno;
      ReleaseTokenFSCall();

      if(rc)
        {
          /* close old and new parent fd */
          close(old_parent_fd);
          close(new_parent_fd);
          if(errsv == ENOENT)
            Return(ERR_FSAL_STALE, errsv, INDEX_FSAL_rename);
          else
            Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_rename);
        }

    }

  /* check access rights */

  status = fsal_check_access(p_context, FSAL_W_OK | FSAL_X_OK,
                                    &old_parent_buffstat,
                                    NULL);
  if(FSAL_IS_ERROR(status)) {
    close(old_parent_fd);
    if (!src_equal_tgt)
      close(new_parent_fd);
    ReturnStatus(status, INDEX_FSAL_rename);
  }
  if(!src_equal_tgt)
    {
      status =  fsal_check_access(p_context, FSAL_W_OK | FSAL_X_OK,
                                         &new_parent_buffstat,
                                         NULL);
      if(FSAL_IS_ERROR(status)) {
        close(old_parent_fd);
        close(new_parent_fd);
        ReturnStatus(status, INDEX_FSAL_rename);
      }
    }

  /* build file paths */
  TakeTokenFSCall();
  rc = fstatat(old_parent_fd, p_old_name->name, &buffstat, AT_SYMLINK_NOFOLLOW);
  errsv = errno;
  ReleaseTokenFSCall();
  if(rc) {
    close(old_parent_fd);
    if (!src_equal_tgt)
      close(new_parent_fd);
    Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_rename);
  }

  /* Check sticky bits */

  /* Sticky bit on the source directory => the user who wants to delete the file must own it or its parent dir */
  if((old_parent_buffstat.st_mode & S_ISVTX) &&
     old_parent_buffstat.st_uid != user &&
     buffstat.st_uid != user && user != 0) {
    close(old_parent_fd);
    if (!src_equal_tgt)
      close(new_parent_fd);
    Return(ERR_FSAL_ACCESS, 0, INDEX_FSAL_rename);
  }

  /* Sticky bit on the target directory => the user who wants to create the file must own it or its parent dir */
  if(new_parent_buffstat.st_mode & S_ISVTX)
    {
      TakeTokenFSCall();
      rc = fstatat(new_parent_fd, p_new_name->name, &buffstat, AT_SYMLINK_NOFOLLOW);
      errsv = errno;
      ReleaseTokenFSCall();

      if(rc < 0)
        {
          if(errsv != ENOENT)
            {
              close(old_parent_fd);
              if (!src_equal_tgt)
                close(new_parent_fd);
              Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_rename);
            }
        }
      else
        {

          if(new_parent_buffstat.st_uid != user
             && buffstat.st_uid != user
             && user != 0)
            {
              close(old_parent_fd);
              if (!src_equal_tgt)
                close(new_parent_fd);
              Return(ERR_FSAL_ACCESS, 0, INDEX_FSAL_rename);
            }
        }
    }

  /*************************************
   * Rename the file on the filesystem *
   *************************************/
  TakeTokenFSCall();
  rc = renameat(old_parent_fd, p_old_name->name, new_parent_fd, p_new_name->name);
  errsv = errno;
  ReleaseTokenFSCall();
  close(old_parent_fd);
  if (!src_equal_tgt)
    close(new_parent_fd);

  if(rc)
    Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_rename);

  /***********************
   * Fill the attributes *
   ***********************/

  if(p_src_dir_attributes)
    {

      status = VFSFSAL_getattrs(p_old_parentdir_handle, p_context, p_src_dir_attributes);

      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_src_dir_attributes->asked_attributes);
          FSAL_SET_MASK(p_src_dir_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }

    }

  if(p_tgt_dir_attributes)
    {

      status = VFSFSAL_getattrs(p_new_parentdir_handle, p_context, p_tgt_dir_attributes);

      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_tgt_dir_attributes->asked_attributes);
          FSAL_SET_MASK(p_tgt_dir_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }

    }

  /* OK */
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_rename);

}
Exemplo n.º 13
0
/**
 * FSAL_open:
 * Open a regular file for reading/writing its data content.
 *
 * \param filehandle (input):
 *        Handle of the file to be read/modified.
 * \param cred (input):
 *        Authentication context for the operation (user,...).
 * \param openflags (input):
 *        Flags that indicates behavior for file opening and access.
 *        This is an inclusive OR of the following values
 *        ( such of them are not compatible) :
 *        - FSAL_O_RDONLY: opening file for reading only.
 *        - FSAL_O_RDWR: opening file for reading and writing.
 *        - FSAL_O_WRONLY: opening file for writting only.
 *        - FSAL_O_APPEND: always write at the end of the file.
 *        - FSAL_O_TRUNC: truncate the file to 0 on opening.
 * \param file_descriptor (output):
 *        The file descriptor to be used for FSAL_read/write operations.
 * \param file_attributes (optionnal input/output):
 *        Post operation attributes.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *
 * \return Major error codes:
 *      - ERR_FSAL_NO_ERROR: no error.
 *      - Another error code if an error occured during this call.
 */
fsal_status_t GPFSFSAL_open(fsal_handle_t * p_filehandle,   /* IN */
                        fsal_op_context_t * p_context,  /* IN */
                        fsal_openflags_t openflags,     /* IN */
                        fsal_file_t * file_desc,        /* OUT */
                        fsal_attrib_list_t * p_file_attributes  /* [ IN/OUT ] */
    )
{

  int rc, errsv;
  fsal_status_t status;

  int fd;
  int posix_flags = 0;
  fsal_accessflags_t access_mask = 0;
  fsal_attrib_list_t file_attrs;
  gpfsfsal_file_t * p_file_descriptor = (gpfsfsal_file_t *)file_desc;

  /* sanity checks.
   * note : file_attributes is optional.
   */
  if(!p_filehandle || !p_context || !p_file_descriptor)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_open);

  /* convert fsal open flags to posix open flags */
  rc = fsal2posix_openflags(openflags, &posix_flags);

  /* flags conflicts. */
  if(rc)
    {
      LogWarn(COMPONENT_FSAL, "Invalid/conflicting flags : %#X", openflags);
      Return(rc, 0, INDEX_FSAL_open);
    }

  TakeTokenFSCall();
  status = fsal_internal_handle2fd(p_context, p_filehandle, &fd, posix_flags);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_open);

  /* retrieve file attributes for checking access rights */

  file_attrs.asked_attributes = GPFS_SUPPORTED_ATTRIBUTES;
  status = GPFSFSAL_getattrs(p_filehandle, p_context, &file_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_open);

  /* Set both mode and ace4 mask */
  if(openflags & FSAL_O_RDONLY)
    access_mask = FSAL_MODE_MASK_SET(FSAL_R_OK | FSAL_OWNER_OK) |
                  FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_READ_DATA);
  else
    access_mask = FSAL_MODE_MASK_SET(FSAL_W_OK | FSAL_OWNER_OK) |
                  FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_WRITE_DATA | FSAL_ACE_PERM_APPEND_DATA);

  status = fsal_internal_testAccess(p_context, access_mask, NULL, &file_attrs);
  if(FSAL_IS_ERROR(status))
    {
      close(fd);
      ReturnStatus(status, INDEX_FSAL_open);
    }

  TakeTokenFSCall();
  p_file_descriptor->fd = fd;
  errsv = errno;
  ReleaseTokenFSCall();

  /* set the read-only flag of the file descriptor */
  p_file_descriptor->ro = openflags & FSAL_O_RDONLY;

  /* output attributes */
  if(p_file_attributes)
    *p_file_attributes = file_attrs;

  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_open);

}
Exemplo n.º 14
0
/**
 * VFSFSAL_setattrs:
 * Set attributes for the object specified by its filehandle.
 *
 * \param filehandle (input):
 *        The handle of the object to get parameters.
 * \param cred (input):
 *        Authentication context for the operation (user,...).
 * \param attrib_set (mandatory input):
 *        The attributes to be set for the object.
 *        It defines the attributes that the caller
 *        wants to set and their values.
 * \param object_attributes (optionnal input/output):
 *        The post operation attributes for the object.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *        May be NULL.
 *
 * \return Major error codes :
 *        - ERR_FSAL_NO_ERROR     (no error)
 *        - Another error code if an error occured.
 */
fsal_status_t VFSFSAL_setattrs(fsal_handle_t * p_filehandle,       /* IN */
                            fsal_op_context_t * p_context,      /* IN */
                            fsal_attrib_list_t * p_attrib_set,  /* IN */
                            fsal_attrib_list_t * p_object_attributes    /* [ IN/OUT ] */
    )
{
  vfsfsal_op_context_t * vfs_context = (vfsfsal_op_context_t *) p_context;
  int rc, errsv;
  unsigned int i;
  fsal_status_t status;
  fsal_attrib_list_t attrs;

  int fd;
  struct stat buffstat;

  /* sanity checks.
   * note : object_attributes is optional.
   */
  if(!p_filehandle || !p_context || !p_attrib_set)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_setattrs);

  /* local copy of attributes */
  attrs = *p_attrib_set;

  /* It does not make sense to setattr on a symlink */
  /* if(p_filehandle->type == DT_LNK)
     return fsal_internal_setattrs_symlink(p_filehandle, p_context, p_attrib_set,
     p_object_attributes);
   */
  /* First, check that FSAL attributes changes are allowed. */

  /* Is it allowed to change times ? */

  if(!global_fs_info.cansettime)
    {

      if(attrs.asked_attributes
         & (FSAL_ATTR_ATIME | FSAL_ATTR_CREATION | FSAL_ATTR_CTIME | FSAL_ATTR_MTIME))
        {
          /* handled as an unsettable attribute. */
          Return(ERR_FSAL_INVAL, 0, INDEX_FSAL_setattrs);
        }
    }

  /* apply umask, if mode attribute is to be changed */
  if(FSAL_TEST_MASK(attrs.asked_attributes, FSAL_ATTR_MODE))
    {
      attrs.mode &= (~global_fs_info.umask);
    }

  TakeTokenFSCall();
  status = fsal_internal_handle2fd(p_context, p_filehandle, &fd, O_RDONLY);
  ReleaseTokenFSCall();
  if(FSAL_IS_ERROR(status))
   {
     /* Symbolic link are handled here, they are to be opened as O_PATH */
     if( status.minor == ELOOP )
      {
           if(p_object_attributes)
             {
               status = VFSFSAL_getattrs(p_filehandle, p_context, p_object_attributes);

               /* on error, we set a special bit in the mask. */
               if(FSAL_IS_ERROR(status))
                 {
                   FSAL_CLEAR_MASK(p_object_attributes->asked_attributes);
                   FSAL_SET_MASK(p_object_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
                 }
             }
           Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_setattrs);
      }

     ReturnStatus( status, INDEX_FSAL_setattrs);
   }

  /* get current attributes */
  TakeTokenFSCall();
  rc = fstat(fd, &buffstat);
  errsv = errno;
  ReleaseTokenFSCall();

  if(rc != 0)
    {
      close(fd);

      if(errsv == ENOENT)
        Return(ERR_FSAL_STALE, errsv, INDEX_FSAL_setattrs);
      else
        Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_setattrs);
    }

  /***********
   *  CHMOD  *
   ***********/
  if(FSAL_TEST_MASK(attrs.asked_attributes, FSAL_ATTR_MODE))
    {

      /* The POSIX chmod call don't affect the symlink object, but
       * the entry it points to. So we must ignore it.
       */
      if(!S_ISLNK(buffstat.st_mode))
        {

          /* For modifying mode, user must be root or the owner */
          if((vfs_context->credential.user != 0)
             && (vfs_context->credential.user != buffstat.st_uid))
            {
              LogFullDebug(COMPONENT_FSAL,
                           "Permission denied for CHMOD opeartion: current owner=%d, credential=%d",
                           buffstat.st_uid, vfs_context->credential.user);
              close(fd);
              Return(ERR_FSAL_PERM, 0, INDEX_FSAL_setattrs);
            }

          TakeTokenFSCall();
          rc = fchmod(fd, fsal2unix_mode(attrs.mode));
          errsv = errno;
          ReleaseTokenFSCall();

          if(rc)
            {
              close(fd);
              Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_setattrs);
            }

        }

    }

  /***********
   *  CHOWN  *
   ***********/
  /* Only root can change uid and A normal user must be in the group he wants to set */
  if(FSAL_TEST_MASK(attrs.asked_attributes, FSAL_ATTR_OWNER))
    {

      /* For modifying owner, user must be root or current owner==wanted==client */
      if((vfs_context->credential.user != 0) &&
         ((vfs_context->credential.user != buffstat.st_uid) ||
          (vfs_context->credential.user != attrs.owner)))
        {
          LogFullDebug(COMPONENT_FSAL,
                       "Permission denied for CHOWN opeartion: current owner=%d, credential=%d, new owner=%d",
                       buffstat.st_uid, vfs_context->credential.user, attrs.owner);
          close(fd);
          Return(ERR_FSAL_PERM, 0, INDEX_FSAL_setattrs);
        }
    }

  if(FSAL_TEST_MASK(attrs.asked_attributes, FSAL_ATTR_GROUP))
    {

      /* For modifying group, user must be root or current owner */
      if((vfs_context->credential.user != 0)
         && (vfs_context->credential.user != buffstat.st_uid))
        {
          close(fd);
          Return(ERR_FSAL_PERM, 0, INDEX_FSAL_setattrs);
        }

      int in_grp = 0;
      /* set in_grp */
      if(vfs_context->credential.group == attrs.group)
        in_grp = 1;
      else
        for(i = 0; i < vfs_context->credential.nbgroups; i++)
          {
            if((in_grp = (attrs.group == vfs_context->credential.alt_groups[i])))
              break;
          }

      /* it must also be in target group */
      if(vfs_context->credential.user != 0 && !in_grp)
        {
          LogFullDebug(COMPONENT_FSAL,
                       "Permission denied for CHOWN operation: current group=%d, credential=%d, new group=%d",
                       buffstat.st_gid, vfs_context->credential.group, attrs.group);
          close(fd);
          Return(ERR_FSAL_PERM, 0, INDEX_FSAL_setattrs);
        }
    }

  if(FSAL_TEST_MASK(attrs.asked_attributes, FSAL_ATTR_OWNER | FSAL_ATTR_GROUP))
    {
      /*      LogFullDebug(COMPONENT_FSAL, "Performing chown(%s, %d,%d)",
                        fsalpath.path, FSAL_TEST_MASK(attrs.asked_attributes,
                                                      FSAL_ATTR_OWNER) ? (int)attrs.owner
                        : -1, FSAL_TEST_MASK(attrs.asked_attributes,
			FSAL_ATTR_GROUP) ? (int)attrs.group : -1);*/

      TakeTokenFSCall();
      rc = fchown(fd,
                  FSAL_TEST_MASK(attrs.asked_attributes,
                                 FSAL_ATTR_OWNER) ? (int)attrs.owner : -1,
                  FSAL_TEST_MASK(attrs.asked_attributes,
                                 FSAL_ATTR_GROUP) ? (int)attrs.group : -1);
      ReleaseTokenFSCall();
      if(rc)
        {
          close(fd);
          Return(posix2fsal_error(errno), errno, INDEX_FSAL_setattrs);
        }
    }

  /***********
   *  UTIME  *
   ***********/

  /* user must be the owner or have read access to modify 'atime' */
  if(FSAL_TEST_MASK(attrs.asked_attributes, FSAL_ATTR_ATIME)
     && (vfs_context->credential.user != 0)
     && (vfs_context->credential.user != buffstat.st_uid)
     && ((status = fsal_check_access(p_context, FSAL_R_OK, &buffstat, NULL)).major
         != ERR_FSAL_NO_ERROR))
    {
      close(fd);
      ReturnStatus(status, INDEX_FSAL_setattrs);
    }
  /* user must be the owner or have write access to modify 'mtime' */
  if(FSAL_TEST_MASK(attrs.asked_attributes, FSAL_ATTR_MTIME)
     && (vfs_context->credential.user != 0)
     && (vfs_context->credential.user != buffstat.st_uid)
     && ((status = fsal_check_access(p_context, FSAL_W_OK, &buffstat, NULL)).major
         != ERR_FSAL_NO_ERROR))
    {
      close(fd);
      ReturnStatus(status, INDEX_FSAL_setattrs);
    }

  if(FSAL_TEST_MASK(attrs.asked_attributes, FSAL_ATTR_ATIME | FSAL_ATTR_MTIME))
    {

      struct timeval timebuf[2];

      /* Atime */
      timebuf[0].tv_sec =
          (FSAL_TEST_MASK(attrs.asked_attributes, FSAL_ATTR_ATIME) ? (time_t) attrs.
           atime.seconds : buffstat.st_atime);
      timebuf[0].tv_usec = 0;

      /* Mtime */
      timebuf[1].tv_sec =
          (FSAL_TEST_MASK(attrs.asked_attributes, FSAL_ATTR_MTIME) ? (time_t) attrs.
           mtime.seconds : buffstat.st_mtime);
      timebuf[1].tv_usec = 0;

      TakeTokenFSCall();
      rc = futimes(fd, timebuf);
      errsv = errno;
      ReleaseTokenFSCall();
      if(rc)
        {
          close(fd);
          Return(posix2fsal_error(errno), errno, INDEX_FSAL_setattrs);
        }
    }

  /* Optionaly fills output attributes. */

  if(p_object_attributes)
    {
      status = VFSFSAL_getattrs(p_filehandle, p_context, p_object_attributes);

      /* on error, we set a special bit in the mask. */
      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_object_attributes->asked_attributes);
          FSAL_SET_MASK(p_object_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }

    }

  close(fd);
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_setattrs);

}
Exemplo n.º 15
0
/**
 * FSAL_lookup :
 * Looks up for an object into a directory.
 *
 * Note : if parent handle and filename are NULL,
 *        this retrieves root's handle.
 *
 * \param parent_directory_handle (input)
 *        Handle of the parent directory to search the object in.
 * \param filename (input)
 *        The name of the object to find.
 * \param p_context (input)
 *        Authentication context for the operation (user,...).
 * \param object_handle (output)
 *        The handle of the object corresponding to filename.
 * \param object_attributes (optional input/output)
 *        Pointer to the attributes of the object we found.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *
 * \return - ERR_FSAL_NO_ERROR, if no error.
 *         - Another error code else.
 *          
 */
fsal_status_t XFSFSAL_lookup(fsal_handle_t * parent_handle,      /* IN */
                             fsal_name_t * p_filename,  /* IN */
                             fsal_op_context_t * context,  /* IN */
                             fsal_handle_t * object_handle,        /* OUT */
                             fsal_attrib_list_t * p_object_attributes   /* [ IN/OUT ] */
    )
{
  xfsfsal_handle_t * p_parent_directory_handle = (xfsfsal_handle_t *)parent_handle;
  xfsfsal_op_context_t * p_context = (xfsfsal_op_context_t *)context;
  xfsfsal_handle_t * p_object_handle = (xfsfsal_handle_t *)object_handle;
  int rc = 0 , errsv = 0 ;
  fsal_status_t status;
  struct stat buffstat;

  int parentfd;

  /* sanity checks
   * note : object_attributes is optionnal
   *        parent_directory_handle may be null for getting FS root.
   */
  if(!p_object_handle || !p_context)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_lookup);

  /* filename AND parent handle are NULL => lookup "/" */
  if((p_parent_directory_handle && !p_filename)
     || (!p_parent_directory_handle && p_filename))
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_lookup);

  /* get information about root */
  if(!p_parent_directory_handle)
    {
      /* get handle for the mount point  */
      memcpy(p_object_handle->data.handle_val, p_context->export_context->mnt_handle_val,
             p_context->export_context->mnt_handle_len);
      p_object_handle->data.handle_len = p_context->export_context->mnt_handle_len;

      /* get attributes, if asked */
      if(p_object_attributes)
        {
          status = XFSFSAL_getattrs(p_object_handle, p_context, p_object_attributes);
          if(FSAL_IS_ERROR(status))
            {
              FSAL_CLEAR_MASK(p_object_attributes->asked_attributes);
              FSAL_SET_MASK(p_object_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
            }
        }
      /* Done */
      Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_lookup);
    }

  /* retrieve directory attributes */
  TakeTokenFSCall();
  status =
      fsal_internal_handle2fd(context, parent_handle, &parentfd, O_RDONLY);
  ReleaseTokenFSCall();
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_lookup);

  /* get directory metadata */
  TakeTokenFSCall();
  rc = fstat(parentfd, &buffstat);
  errsv = errno;
  ReleaseTokenFSCall();

  if(rc)
    {
      close( parentfd ) ;

      if(errsv == ENOENT)
        Return(ERR_FSAL_STALE, errsv, INDEX_FSAL_lookup);
      else
        Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_lookup);
    }

  /* Be careful about junction crossing, symlinks, hardlinks,... */
  switch (posix2fsal_type(buffstat.st_mode))
    {
    case FSAL_TYPE_DIR:
      // OK
      break;

    case FSAL_TYPE_JUNCTION:
      close( parentfd ) ;
      // This is a junction
      Return(ERR_FSAL_XDEV, 0, INDEX_FSAL_lookup);

    case FSAL_TYPE_FILE:
    case FSAL_TYPE_LNK:
    case FSAL_TYPE_XATTR:
      close( parentfd ) ;
      // not a directory 
      Return(ERR_FSAL_NOTDIR, 0, INDEX_FSAL_lookup);

    default:
      close( parentfd ) ;
      Return(ERR_FSAL_SERVERFAULT, 0, INDEX_FSAL_lookup);
    }

  LogFullDebug(COMPONENT_FSAL, "lookup of inode=%"PRIu64"/%s", buffstat.st_ino,
          p_filename->name);

  /* check rights to enter into the directory */
  status = fsal_check_access(context, FSAL_X_OK, &buffstat, NULL);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_lookup);
  
  status = xfsfsal_stat_by_name(context, parentfd, p_filename->name,
				object_handle, p_object_attributes);
  close(parentfd);

  ReturnStatus(status, INDEX_FSAL_lookup);
}
Exemplo n.º 16
0
/**
 * FSAL_mkdir:
 * Create a directory.
 *
 * \param parent_directory_handle (input):
 *        Handle of the parent directory where
 *        the subdirectory is to be created.
 * \param p_dirname (input):
 *        Pointer to the name of the directory to be created.
 * \param cred (input):
 *        Authentication context for the operation (user,...).
 * \param accessmode (input):
 *        Mode for the directory to be created.
 *        (the umask defined into the FSAL configuration file
 *        will be applied on it).
 * \param object_handle (output):
 *        Pointer to the handle of the created directory.
 * \param object_attributes (optionnal input/output): 
 *        The attributes of the created directory.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *        May be NULL.
 *
 * \return Major error codes :
 *        - ERR_FSAL_NO_ERROR     (no error)
 *        - Another error code if an error occured.
 */
fsal_status_t XFSFSAL_mkdir(xfsfsal_handle_t * p_parent_directory_handle,       /* IN */
                            fsal_name_t * p_dirname,    /* IN */
                            xfsfsal_op_context_t * p_context,   /* IN */
                            fsal_accessmode_t accessmode,       /* IN */
                            xfsfsal_handle_t * p_object_handle, /* OUT */
                            fsal_attrib_list_t * p_object_attributes    /* [ IN/OUT ] */
    )
{

  int rc, errsv;
  int setgid_bit = 0;
  struct stat buffstat;
  mode_t unix_mode;
  fsal_status_t status;
  int fd, newfd;

  /* sanity checks.
   * note : object_attributes is optional.
   */
  if(!p_parent_directory_handle || !p_context || !p_object_handle || !p_dirname)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_mkdir);

  /* convert FSAL mode to HPSS mode. */
  unix_mode = fsal2unix_mode(accessmode);

  /* Apply umask */
  unix_mode = unix_mode & ~global_fs_info.umask;

  TakeTokenFSCall();
  status =
      fsal_internal_handle2fd(p_context, p_parent_directory_handle, &fd, O_DIRECTORY);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_mkdir);

  /* get directory metadata */
  TakeTokenFSCall();
  rc = fstat(fd, &buffstat);
  errsv = errno;
  ReleaseTokenFSCall();
  if(rc)
    {
      close(fd);

      if(errsv == ENOENT)
        Return(ERR_FSAL_STALE, errsv, INDEX_FSAL_create);
      else
        Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_create);
    }

  /* Check the user can write in the directory, and check the setgid bit on the directory */

  if(buffstat.st_mode & S_ISGID)
    setgid_bit = 1;

  status = fsal_internal_testAccess(p_context, FSAL_W_OK | FSAL_X_OK, &buffstat, NULL);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_mkdir);

  /* build new entry path */

  /* creates the directory and get its handle */

  TakeTokenFSCall();
  rc = mkdirat(fd, p_dirname->name, unix_mode);
  errsv = errno;
  if(rc)
    {
      close(fd);

      ReleaseTokenFSCall();
      Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_mkdir);
    }

  /* get the new handle */

  if((newfd = openat(fd, p_dirname->name, O_RDONLY | O_DIRECTORY, 0600)) < 0)
    {
      errsv = errno;
      close(fd);
      ReleaseTokenFSCall();
      Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_mkdir);
    }

  status = fsal_internal_fd2handle(p_context, newfd, p_object_handle);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    {
      close(fd);
      close(newfd);
      ReturnStatus(status, INDEX_FSAL_mkdir);
    }

  /* the directory has been created */
  /* chown the file to the current user/group */

  if(p_context->credential.user != geteuid())
    {
      TakeTokenFSCall();
      /* if the setgid_bit was set on the parent directory, do not change the group of the created file, because it's already the parentdir's group */
      rc = fchown(newfd, p_context->credential.user,
                  setgid_bit ? -1 : (int)p_context->credential.group);
      errsv = errno;
      ReleaseTokenFSCall();
      if(rc)
        {
          close(fd);
          close(newfd);
          Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_mkdir);
        }
    }

  close(fd);
  close(newfd);

  /* retrieve file attributes */
  if(p_object_attributes)
    {
      status = XFSFSAL_getattrs(p_object_handle, p_context, p_object_attributes);

      /* on error, we set a special bit in the mask. */
      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_object_attributes->asked_attributes);
          FSAL_SET_MASK(p_object_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }

    }

  /* OK */
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_mkdir);

}
Exemplo n.º 17
0
fsal_status_t XFSFSAL_unlink(fsal_handle_t * p_parent_directory_handle,      /* IN */
                             fsal_name_t * p_object_name,       /* IN */
                             fsal_op_context_t * p_context,  /* IN */
                             fsal_attrib_list_t * p_parent_directory_attributes /* [IN/OUT ] */
    )
{

  fsal_status_t status;
  int rc, errsv;
  struct stat buffstat, buffstat_parent;
  int fd;

  /* sanity checks. */
  if(!p_parent_directory_handle || !p_context || !p_object_name)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_unlink);

  /* build the FID path */
  TakeTokenFSCall();
  status =
      fsal_internal_handle2fd(p_context, p_parent_directory_handle, &fd, O_DIRECTORY);
  ReleaseTokenFSCall();
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_unlink);

  /* get directory metadata */
  TakeTokenFSCall();
  rc = fstat(fd, &buffstat_parent);
  errsv = errno;
  ReleaseTokenFSCall();
  if(rc)
    {
      close(fd);

      if(errsv == ENOENT)
        Return(ERR_FSAL_STALE, errsv, INDEX_FSAL_unlink);
      else
        Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_unlink);
    }

  /* build the child path */

  /* get file metadata */
  TakeTokenFSCall();
  rc = fstatat(fd, p_object_name->name, &buffstat, AT_SYMLINK_NOFOLLOW);
  errsv = errno;
  ReleaseTokenFSCall();
  if(rc)
    {
      close(fd);
      Return(posix2fsal_error(errno), errno, INDEX_FSAL_unlink);
    }

  /* check access rights */

  /* Sticky bit on the directory => the user who wants to delete the file must own it or its parent dir */
  if((buffstat_parent.st_mode & S_ISVTX)
     && buffstat_parent.st_uid != ((xfsfsal_op_context_t *)p_context)->credential.user
     && buffstat.st_uid != ((xfsfsal_op_context_t *)p_context)->credential.user
     && ((xfsfsal_op_context_t *)p_context)->credential.user != 0)
    {
      close(fd);
      Return(ERR_FSAL_ACCESS, 0, INDEX_FSAL_unlink);
    }

  /* client must be able to lookup the parent directory and modify it */
  status =
      fsal_internal_testAccess(p_context, FSAL_W_OK | FSAL_X_OK, &buffstat_parent, NULL);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_unlink);

  /******************************
   * DELETE FROM THE FILESYSTEM *
   ******************************/
  TakeTokenFSCall();
  /* If the object to delete is a directory, use 'rmdir' to delete the object, else use 'unlink' */
  rc = (S_ISDIR(buffstat.st_mode)) ? unlinkat(fd, p_object_name->name,
                                              AT_REMOVEDIR) : unlinkat(fd,
                                                                       p_object_name->name,
                                                                       0);
  errsv = errno;
  ReleaseTokenFSCall();

  close(fd);

  if(rc)
    Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_unlink);

  /***********************
   * FILL THE ATTRIBUTES *
   ***********************/

  if(p_parent_directory_attributes)
    {
      status =
          XFSFSAL_getattrs(p_parent_directory_handle, p_context,
                           p_parent_directory_attributes);
      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_parent_directory_attributes->asked_attributes);
          FSAL_SET_MASK(p_parent_directory_attributes->asked_attributes,
                        FSAL_ATTR_RDATTR_ERR);
        }
    }
  /* OK */
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_unlink);

}
Exemplo n.º 18
0
/**
 * FSAL_opendir :
 *     Opens a directory for reading its content.
 *     
 * \param dir_handle (input)
 *         the handle of the directory to be opened.
 * \param cred (input)
 *         Permission context for the operation (user,...).
 * \param dir_descriptor (output)
 *         pointer to an allocated structure that will receive
 *         directory stream informations, on successfull completion.
 * \param dir_attributes (optional output)
 *         On successfull completion,the structure pointed
 *         by dir_attributes receives the new directory attributes.
 *         May be NULL.
 * 
 * \return Major error codes :
 *        - ERR_FSAL_NO_ERROR     (no error)
 *        - Another error code if an error occured.
 */
fsal_status_t VFSFSAL_opendir(vfsfsal_handle_t * p_dir_handle,  /* IN */
                              vfsfsal_op_context_t * p_context, /* IN */
                              vfsfsal_dir_t * p_dir_descriptor, /* OUT */
                              fsal_attrib_list_t * p_dir_attributes     /* [ IN/OUT ] */
    )
{
  int rc, errsv;
  fsal_status_t status;

  struct stat buffstat;

  /* sanity checks
   * note : dir_attributes is optionnal.
   */
  if(!p_dir_handle || !p_context || !p_dir_descriptor)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_opendir);

  /* get the path of the directory */
  TakeTokenFSCall();
  status =
      fsal_internal_handle2fd(p_context, p_dir_handle, &p_dir_descriptor->fd,
                              O_RDONLY | O_DIRECTORY);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_opendir);

  /* get directory metadata */
  TakeTokenFSCall();
  rc = fstat(p_dir_descriptor->fd, &buffstat);
  ReleaseTokenFSCall();

  if(rc != 0)
    {
      close(p_dir_descriptor->fd);
      if(rc == ENOENT)
        Return(ERR_FSAL_STALE, errsv, INDEX_FSAL_opendir);
      else
        Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_opendir);
    }

  /* Test access rights for this directory */
  status = fsal_internal_testAccess(p_context, FSAL_R_OK, &buffstat, NULL);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_opendir);

  /* if everything is OK, fills the dir_desc structure : */

  memcpy(&(p_dir_descriptor->context), p_context, sizeof(vfsfsal_op_context_t));
  memcpy(&(p_dir_descriptor->handle), p_dir_handle, sizeof(vfsfsal_handle_t));

  if(p_dir_attributes)
    {
      status = posix2fsal_attributes(&buffstat, p_dir_attributes);
      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_dir_attributes->asked_attributes);
          FSAL_SET_MASK(p_dir_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }
    }

  p_dir_descriptor->dir_offset = 0;

  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_opendir);

}
Exemplo n.º 19
0
/**
 * FSAL_lookup :
 * Looks up for an object into a directory.
 *
 * Note : if parent handle and filename are NULL,
 *        this retrieves root's handle.
 *
 * \param parent_directory_handle (input)
 *        Handle of the parent directory to search the object in.
 * \param filename (input)
 *        The name of the object to find.
 * \param p_context (input)
 *        Authentication context for the operation (user,...).
 * \param object_handle (output)
 *        The handle of the object corresponding to filename.
 * \param object_attributes (optional input/output)
 *        Pointer to the attributes of the object we found.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *        It can be NULL (increases performances).
 *
 * \return - ERR_FSAL_NO_ERROR, if no error.
 *         - Another error code else.
 *          
 */
fsal_status_t GPFSFSAL_lookup(fsal_handle_t * p_parent_directory_handle,    /* IN */
                          fsal_name_t * p_filename,     /* IN */
                          fsal_op_context_t * p_context,        /* IN */
                          fsal_handle_t * object_handle,      /* OUT */
                          fsal_attrib_list_t * p_object_attributes      /* [ IN/OUT ] */
    )
{
  fsal_status_t status;
  int parentfd;
  fsal_accessflags_t access_mask = 0;
  fsal_attrib_list_t parent_dir_attrs;
  gpfsfsal_handle_t *p_object_handle = (gpfsfsal_handle_t *)object_handle;

  /* sanity checks
   * note : object_attributes is optional
   *        parent_directory_handle may be null for getting FS root.
   */
  if(!p_object_handle || !p_context)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_lookup);

  /* filename AND parent handle are NULL => lookup "/" */
  if((p_parent_directory_handle && !p_filename)
     || (!p_parent_directory_handle && p_filename))
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_lookup);

  /* get information about root */
  if(!p_parent_directory_handle)
    {
      gpfsfsal_handle_t *root_handle = &((gpfsfsal_op_context_t *)p_context)->export_context->mount_root_handle;

      /* get handle for the mount point  */
      memcpy(p_object_handle->data.handle.f_handle,
	     root_handle->data.handle.f_handle,
             sizeof(root_handle->data.handle.handle_size));
      p_object_handle->data.handle.handle_size = root_handle->data.handle.handle_size;
      p_object_handle->data.handle.handle_key_size = root_handle->data.handle.handle_key_size;

      /* get attributes, if asked */
      if(p_object_attributes)
        {
          status = GPFSFSAL_getattrs(object_handle, p_context, p_object_attributes);
          if(FSAL_IS_ERROR(status))
            {
              FSAL_CLEAR_MASK(p_object_attributes->asked_attributes);
              FSAL_SET_MASK(p_object_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
            }
        }
      /* Done */
      Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_lookup);
    }

  /* retrieve directory attributes */
  TakeTokenFSCall();
  status =
      fsal_internal_handle2fd(p_context, p_parent_directory_handle, &parentfd, O_RDONLY);
  ReleaseTokenFSCall();
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_lookup);

  /* get directory metadata */

  parent_dir_attrs.asked_attributes = GPFS_SUPPORTED_ATTRIBUTES;
  status = GPFSFSAL_getattrs(p_parent_directory_handle, p_context, &parent_dir_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_lookup);

  /* Be careful about junction crossing, symlinks, hardlinks,... */
  switch (parent_dir_attrs.type)
    {
    case FSAL_TYPE_DIR:
      // OK
      break;

    case FSAL_TYPE_JUNCTION:
      // This is a junction
      Return(ERR_FSAL_XDEV, 0, INDEX_FSAL_lookup);

    case FSAL_TYPE_FILE:
    case FSAL_TYPE_LNK:
    case FSAL_TYPE_XATTR:
      // not a directory 
      Return(ERR_FSAL_NOTDIR, 0, INDEX_FSAL_lookup);

    default:
      Return(ERR_FSAL_SERVERFAULT, 0, INDEX_FSAL_lookup);
    }

  //  LogFullDebug(COMPONENT_FSAL,
  //               "lookup of %#llx:%#x:%#x/%s", p_parent_directory_handle->seq,
  //               p_parent_directory_handle->oid, p_parent_directory_handle->ver,
  //               p_filename->name);

  /* check rights to enter into the directory */

  /* Set both mode and ace4 mask */
  access_mask = FSAL_MODE_MASK_SET(FSAL_R_OK | FSAL_X_OK) |
                FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_LIST_DIR);

  if(!p_context->export_context->fe_static_fs_info->accesscheck_support)
  status = fsal_internal_testAccess(p_context, access_mask, NULL, &parent_dir_attrs);
  else
    status = fsal_internal_access(p_context, p_parent_directory_handle, access_mask,
                                  &parent_dir_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_lookup);

  /* get file handle, it it exists */
  /* This might be a race, but it's the best we can currently do */
  status = fsal_internal_get_handle_at(parentfd, p_filename, object_handle);
  close(parentfd);

  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_lookup);

  /* get object attributes */
  if(p_object_attributes)
    {
      status = GPFSFSAL_getattrs(object_handle, p_context, p_object_attributes);
      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_object_attributes->asked_attributes);
          FSAL_SET_MASK(p_object_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }
    }

  /* lookup complete ! */
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_lookup);

}
Exemplo n.º 20
0
/**
 * FSAL_link:
 * Create a hardlink.
 *
 * \param target_handle (input):
 *        Handle of the target object.
 * \param dir_handle (input):
 *        Pointer to the directory handle where
 *        the hardlink is to be created.
 * \param p_link_name (input):
 *        Pointer to the name of the hardlink to be created.
 * \param cred (input):
 *        Authentication context for the operation (user,...).
 * \param accessmode (input):
 *        Mode for the directory to be created.
 *        (the umask defined into the FSAL configuration file
 *        will be applied on it).
 * \param attributes (optionnal input/output): 
 *        The post_operation attributes of the linked object.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *        May be NULL.
 *
 * \return Major error codes :
 *        - ERR_FSAL_NO_ERROR     (no error)
 *        - Another error code if an error occured.
 */
fsal_status_t XFSFSAL_link(fsal_handle_t * p_target_handle,  /* IN */
                           fsal_handle_t * p_dir_handle,     /* IN */
                           fsal_name_t * p_link_name,   /* IN */
                           fsal_op_context_t * p_context,    /* IN */
                           fsal_attrib_list_t * p_attributes    /* [ IN/OUT ] */
    )
{

  int rc, errsv;
  fsal_status_t status;
  int srcfd, dstfd;
  struct stat buffstat_dir;

  /* sanity checks.
   * note : attributes is optional.
   */
  if(!p_target_handle || !p_dir_handle || !p_context || !p_link_name)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_link);

  /* Tests if hardlinking is allowed by configuration. */

  if(!global_fs_info.link_support)
    Return(ERR_FSAL_NOTSUPP, 0, INDEX_FSAL_link);

/*  LogFullDebug(COMPONENT_FSAL, "linking %#llx:%#x:%#x to %#llx:%#x:%#x/%s", */

  /* get the target handle access by fid */
  TakeTokenFSCall();
  status = fsal_internal_handle2fd(p_context, p_target_handle, &srcfd, O_DIRECTORY);
  ReleaseTokenFSCall();
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_link);

  /* build the destination path and check permissions on the directory */
  TakeTokenFSCall();
  status = fsal_internal_handle2fd(p_context, p_dir_handle, &dstfd, O_DIRECTORY);
  ReleaseTokenFSCall();
  if(FSAL_IS_ERROR(status))
    {
      close(srcfd);
      ReturnStatus(status, INDEX_FSAL_link);
    }
  /* retrieve target directory metadata */

  TakeTokenFSCall();
  rc = fstat(dstfd, &buffstat_dir);
  errsv = errno;
  ReleaseTokenFSCall();

  if(rc)
    {
      close(srcfd);
      close(dstfd);

      if(errsv == ENOENT)
        Return(ERR_FSAL_STALE, errsv, INDEX_FSAL_link);
      else
        Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_link);
    }

  /* check permission on target directory */
  status =
      fsal_internal_testAccess(p_context, FSAL_W_OK | FSAL_X_OK, &buffstat_dir, NULL);
  if(FSAL_IS_ERROR(status))
    {
      close(srcfd), close(dstfd);
      ReturnStatus(status, INDEX_FSAL_link);
    }
  /* Create the link on the filesystem */

  TakeTokenFSCall();
  rc = linkat2(srcfd, dstfd, p_link_name->name);
  errsv = errno;
  ReleaseTokenFSCall();
  if(rc)
    {
      close(srcfd), close(dstfd);
      Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_link);
    }
  /* optionnaly get attributes */

  if(p_attributes)
    {
      status = XFSFSAL_getattrs(p_target_handle, p_context, p_attributes);

      /* on error, we set a special bit in the mask. */
      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_attributes->asked_attributes);
          FSAL_SET_MASK(p_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }
    }

  /* OK */
  close(srcfd);
  close(dstfd);
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_link);

}
Exemplo n.º 21
0
/**
 * FSAL_mkdir:
 * Create a directory.
 *
 * \param parent_directory_handle (input):
 *        Handle of the parent directory where
 *        the subdirectory is to be created.
 * \param p_dirname (input):
 *        Pointer to the name of the directory to be created.
 * \param cred (input):
 *        Authentication context for the operation (user,...).
 * \param accessmode (input):
 *        Mode for the directory to be created.
 *        (the umask defined into the FSAL configuration file
 *        will be applied on it).
 * \param object_handle (output):
 *        Pointer to the handle of the created directory.
 * \param object_attributes (optionnal input/output): 
 *        The attributes of the created directory.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *        May be NULL.
 *
 * \return Major error codes :
 *        - ERR_FSAL_NO_ERROR     (no error)
 *        - Another error code if an error occured.
 */
fsal_status_t GPFSFSAL_mkdir(fsal_handle_t * p_parent_directory_handle,     /* IN */
                         fsal_name_t * p_dirname,       /* IN */
                         fsal_op_context_t * p_context, /* IN */
                         fsal_accessmode_t accessmode,  /* IN */
                         fsal_handle_t * p_object_handle,       /* OUT */
                         fsal_attrib_list_t * p_object_attributes       /* [ IN/OUT ] */
    )
{

  int rc, errsv;
  int setgid_bit = 0;
  mode_t unix_mode;
  fsal_status_t status;
  int fd, newfd;
  fsal_accessflags_t access_mask = 0;
  fsal_attrib_list_t parent_dir_attrs;

  /* sanity checks.
   * note : object_attributes is optional.
   */
  if(!p_parent_directory_handle || !p_context || !p_object_handle || !p_dirname)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_mkdir);

  /* convert FSAL mode to unix mode. */
  unix_mode = fsal2unix_mode(accessmode);

  /* Apply umask */
  unix_mode = unix_mode & ~global_fs_info.umask;

  TakeTokenFSCall();
  status = fsal_internal_handle2fd(p_context, p_parent_directory_handle, &fd, O_RDONLY);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_mkdir);

  /* get directory metadata */
  parent_dir_attrs.asked_attributes = GPFS_SUPPORTED_ATTRIBUTES;
  status = GPFSFSAL_getattrs(p_parent_directory_handle, p_context, &parent_dir_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_create);

  /* Check the user can write in the directory, and check the setgid bit on the directory */

  if(fsal2unix_mode(parent_dir_attrs.mode) & S_ISGID)
    setgid_bit = 1;

  /* Set both mode and ace4 mask */
  access_mask = FSAL_MODE_MASK_SET(FSAL_W_OK | FSAL_X_OK) |
                FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_ADD_SUBDIRECTORY);

  status = fsal_internal_testAccess(p_context, access_mask, NULL, &parent_dir_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_mkdir);

  /* build new entry path */

  /* creates the directory and get its handle */

  TakeTokenFSCall();
  rc = mkdirat(fd, p_dirname->name, unix_mode);
  errsv = errno;
  if(rc)
    {
      close(fd);

      ReleaseTokenFSCall();
      Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_mkdir);
    }

  ReleaseTokenFSCall();

  /****
   *  There is a race here between mkdir creation and the open, not
   *  sure there is any way to close it in practice.
   */

  /* get the new handle */
  TakeTokenFSCall();
  status = fsal_internal_get_handle_at(fd, p_dirname, p_object_handle);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    {
      close(fd);
      ReturnStatus(status, INDEX_FSAL_mkdir);
    }

  TakeTokenFSCall();
  status =
      fsal_internal_handle2fd_at(fd, p_object_handle, &newfd, O_RDONLY | O_DIRECTORY);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    {
      close(fd);
      ReturnStatus(status, INDEX_FSAL_mkdir);
    }

  /* the directory has been created */
  /* chown the dir to the current user/group */

  if(p_context->credential.user != geteuid())
    {
      TakeTokenFSCall();
      /* if the setgid_bit was set on the parent directory, do not change the group of the created file, because it's already the parentdir's group */
      rc = fchown(newfd, p_context->credential.user,
                  setgid_bit ? -1 : (int)p_context->credential.group);
      errsv = errno;
      ReleaseTokenFSCall();
      if(rc)
        {
          close(fd);
          close(newfd);
          Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_mkdir);
        }
    }

  close(fd);
  close(newfd);

  /* retrieve file attributes */
  if(p_object_attributes)
    {
      status = GPFSFSAL_getattrs(p_object_handle, p_context, p_object_attributes);

      /* on error, we set a special bit in the mask. */
      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_object_attributes->asked_attributes);
          FSAL_SET_MASK(p_object_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }

    }

  /* OK */
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_mkdir);

}
Exemplo n.º 22
0
/**
 * PTFSAL_setattrs:
 * Set attributes for the object specified by its filehandle.
 *
 * \param filehandle (input):
 *        The handle of the object to get parameters.
 * \param cred (input):
 *        Authentication context for the operation (user,...).
 * \param attrib_set (mandatory input):
 *        The attributes to be set for the object.
 *        It defines the attributes that the caller
 *        wants to set and their values.
 * \param object_attributes (optionnal input/output):
 *        The post operation attributes for the object.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *        May be NULL.
 *
 * \return Major error codes :
 *        - ERR_FSAL_NO_ERROR     (no error)
 *        - Another error code if an error occured.
 */
fsal_status_t
PTFSAL_setattrs(fsal_handle_t      * p_filehandle,       /* IN */
                fsal_op_context_t  * p_context,          /* IN */
                fsal_attrib_list_t * p_attrib_set,       /* IN */
                fsal_attrib_list_t * p_object_attributes /* [ IN/OUT ] */)
{
  unsigned int i;
  fsal_status_t status;

  ptfsal_xstat_t buffxstat;

  fsal_accessflags_t access_mask = 0;
  fsal_attrib_list_t wanted_attrs, current_attrs;
  mode_t             st_mode_in_cache = 0;
  char               fsi_name[PATH_MAX];
  int                rc;
  int fd;

  FSI_TRACE(FSI_DEBUG, "Begin-----------------------------------------\n");

  /* sanity checks.
   * note : object_attributes is optional.
   */
  if (!p_filehandle || !p_context || !p_attrib_set) {
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_setattrs);
  }

  /* local copy of attributes */
  wanted_attrs = *p_attrib_set;

  /* First, check that FSAL attributes changes are allowed. */
  if (!global_fs_info.cansettime) {

    if (wanted_attrs.asked_attributes
       & (FSAL_ATTR_ATIME | FSAL_ATTR_CREATION | FSAL_ATTR_CTIME 
       | FSAL_ATTR_MTIME)) {
       /* handled as an unsettable attribute. */
       Return(ERR_FSAL_INVAL, 0, INDEX_FSAL_setattrs);
    }
  }

  /* apply umask, if mode attribute is to be changed */
  if (FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_MODE)) {
    wanted_attrs.mode &= (~global_fs_info.umask);
  }

  /* get current attributes */
  current_attrs.asked_attributes = PTFS_SUPPORTED_ATTRIBUTES;
  status = PTFSAL_getattrs(p_filehandle, p_context, &current_attrs);
  if (FSAL_IS_ERROR(status)) {
    FSAL_CLEAR_MASK(p_object_attributes->asked_attributes);
    FSAL_SET_MASK(p_object_attributes->asked_attributes, 
                  FSAL_ATTR_RDATTR_ERR);
    ReturnStatus(status, INDEX_FSAL_setattrs);
  }

  /**************
   *  TRUNCATE  *
   **************/

  if(FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_SIZE)) {

      status = fsal_internal_handle2fd(p_context, p_filehandle, &fd, O_RDONLY);

      if (FSAL_IS_ERROR(status)) {
        ReturnStatus(status, INDEX_FSAL_setattrs);
      }

      status = PTFSAL_truncate( p_filehandle,
                                p_context,   
                                wanted_attrs.filesize,                
                                &fd,     
                                p_object_attributes);

      if (FSAL_IS_ERROR(status)) {
        ReturnStatus(status, INDEX_FSAL_setattrs);
      }
    
   }
 

  /***********
   *  CHMOD  *
   ***********/
  if (FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_MODE)) {
    FSI_TRACE(FSI_DEBUG, "Begin chmod------------------\n");
    /* The POSIX chmod call don't affect the symlink object, but
     * the entry it points to. So we must ignore it.
     */
    if (current_attrs.type != FSAL_TYPE_LNK) {

      /* For modifying mode, user must be root or the owner */
      if ((p_context->credential.user != 0)
         && (p_context->credential.user != current_attrs.owner)) {
        FSI_TRACE(FSI_DEBUG,
                  "Permission denied for CHMOD opeartion: " 
                  "current owner=%d, credential=%d",
                  current_attrs.owner, 
                  p_context->credential.user);
        Return(ERR_FSAL_PERM, 0, INDEX_FSAL_setattrs);
      }

#ifdef _USE_NFS4_ACL
          /* Check permission using ACL. */
          access_mask = FSAL_MODE_MASK_SET(0) |  /* Dummy. */
                        FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_WRITE_ATTR);

          if (!p_context->export_context->fe_static_fs_info->accesscheck_support)
            status = fsal_internal_testAccess(p_context, access_mask, NULL, 
            &current_attrs);
          else
            status = fsal_internal_access(p_context, p_filehandle, access_mask,
                                          &current_attrs);

          if (FSAL_IS_ERROR(status))
            ReturnStatus(status, INDEX_FSAL_setattrs);
#endif

      /* Fill wanted mode. */
      buffxstat.buffstat.st_mode = fsal2unix_mode(wanted_attrs.mode);
      FSI_TRACE(FSI_DEBUG,
                "current mode = %o, new mode = %o",
                fsal2unix_mode(current_attrs.mode), 
                buffxstat.buffstat.st_mode);

      rc = fsi_get_name_from_handle(p_context, 
                                    p_filehandle->data.handle.f_handle, 
                                    fsi_name,
                                    NULL);
      if (rc < 0) {
        FSI_TRACE(FSI_ERR, 
                  "Failed to convert file handle back to filename" );
        FSI_TRACE(FSI_DEBUG, "Handle to name failed for hanlde %s", 
                  p_filehandle->data.handle.f_handle);
        Return (ERR_FSAL_BADHANDLE, 0, INDEX_FSAL_setattrs);
      }
      FSI_TRACE(FSI_DEBUG, "Handle to name: %s for handle %s", 
                fsi_name, p_filehandle->data.handle.f_handle);

      rc = ptfsal_chmod(p_context, fsi_name, 
                        buffxstat.buffstat.st_mode);
      if (rc == -1) {
        FSI_TRACE(FSI_ERR, "chmod FAILED");
        Return (ERR_FSAL_PERM, 0, INDEX_FSAL_setattrs);
      } else {
        st_mode_in_cache = (buffxstat.buffstat.st_mode 
                            | fsal_type2unix(current_attrs.type));
        fsi_update_cache_stat(fsi_name, 
                              st_mode_in_cache, 
                              p_context->export_context->pt_export_id);
        FSI_TRACE(FSI_INFO, 
                  "Chmod SUCCEED with st_mode in cache being %o",
                  st_mode_in_cache);
      }

    }
    FSI_TRACE(FSI_DEBUG, "End chmod-------------------\n");
  }

  /***********
   *  CHOWN  *
   ***********/
  FSI_TRACE(FSI_DEBUG, "Begin chown------------------------------\n");
  /* Only root can change uid and A normal user must be in the group 
   * he wants to set 
   */
  if (FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_OWNER)) {

    /* For modifying owner, user must be root or current 
     * owner==wanted==client 
     */
    if ((p_context->credential.user != 0) &&
       ((p_context->credential.user != current_attrs.owner) ||
       (p_context->credential.user != wanted_attrs.owner))) {
      FSI_TRACE(FSI_DEBUG,
                "Permission denied for CHOWN opeartion: " 
                "current owner=%d, credential=%d, new owner=%d",
                current_attrs.owner, p_context->credential.user, 
                wanted_attrs.owner);
       Return(ERR_FSAL_PERM, 0, INDEX_FSAL_setattrs);
    }

#ifdef _USE_NFS4_ACL
          /* Check permission using ACL. */
          access_mask = FSAL_MODE_MASK_SET(0) |  /* Dummy. */
                        FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_WRITE_OWNER);

        if (!p_context->export_context->fe_static_fs_info->accesscheck_support)
          status = fsal_internal_testAccess(p_context, access_mask, NULL, 
                                            &current_attrs);
        else
          status = fsal_internal_access(p_context, p_filehandle, access_mask,
                                        &current_attrs);

          if (FSAL_IS_ERROR(status))
            ReturnStatus(status, INDEX_FSAL_setattrs);
#endif

        }

  if (FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_GROUP)) {

    /* For modifying group, user must be root or current owner */
    if ((p_context->credential.user != 0)
       && (p_context->credential.user != current_attrs.owner)) {
       Return(ERR_FSAL_PERM, 0, INDEX_FSAL_setattrs);
    }

    int in_grp = 0;
    /* set in_grp */
    if (p_context->credential.group == wanted_attrs.group) {
      in_grp = 1;
    } else {
      for(i = 0; i < p_context->credential.nbgroups; i++) {
        if ((in_grp = (wanted_attrs.group == 
            p_context->credential.alt_groups[i])))
          break;
      }
    }
    /* it must also be in target group */
    if (p_context->credential.user != 0 && !in_grp) {
      FSI_TRACE(FSI_DEBUG,
                "Permission denied for CHOWN operation: " 
                "current group=%d, credential=%d, new group=%d",
                current_attrs.group, p_context->credential.group, 
                wanted_attrs.group);
      Return(ERR_FSAL_PERM, 0, INDEX_FSAL_setattrs);
    }

#ifdef _USE_NFS4_ACL
      /* Check permission using ACL. */
      access_mask = FSAL_MODE_MASK_SET(0) |  /* Dummy. */
                    FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_WRITE_OWNER);

      if (!p_context->export_context->fe_static_fs_info->accesscheck_support)
        status = fsal_internal_testAccess(p_context, access_mask, NULL, 
                      &current_attrs);
      else
        status = fsal_internal_access(p_context, p_filehandle, access_mask,
                                      &current_attrs);

      if (FSAL_IS_ERROR(status))
        ReturnStatus(status, INDEX_FSAL_setattrs);
#endif

    }

  if (FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_OWNER | 
     FSAL_ATTR_GROUP)) {

    /* Fill wanted owner. */
    if (FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_OWNER)) {
      buffxstat.buffstat.st_uid = (int)wanted_attrs.owner;
    } else {
      buffxstat.buffstat.st_uid = (int)current_attrs.owner;
    }
    FSI_TRACE(FSI_DEBUG,
              "current uid = %d, new uid = %d",
              current_attrs.owner, buffxstat.buffstat.st_uid);

    /* Fill wanted group. */
    if (FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_GROUP)) {
      buffxstat.buffstat.st_gid = (int)wanted_attrs.group;
    } else {
      buffxstat.buffstat.st_gid = (int)current_attrs.group;
    }
    FSI_TRACE(FSI_DEBUG,
              "current gid = %d, new gid = %d",
              current_attrs.group, buffxstat.buffstat.st_gid);

    rc = fsi_get_name_from_handle(p_context, 
                                  p_filehandle->data.handle.f_handle, 
                                  fsi_name,
                                  NULL);
    if (rc < 0) {
      FSI_TRACE(FSI_ERR, "Failed to convert file handle back to filename" );
      FSI_TRACE(FSI_DEBUG, "Handle to name failed for hanlde %s", 
                p_filehandle->data.handle.f_handle);
      Return (ERR_FSAL_BADHANDLE, 0, INDEX_FSAL_setattrs);
    }
   
    FSI_TRACE(FSI_DEBUG, "handle to name: %s for handle %s", 
              fsi_name, p_filehandle->data.handle.f_handle);
    rc = ptfsal_chown(p_context, fsi_name, buffxstat.buffstat.st_uid, 
                      buffxstat.buffstat.st_gid);
    if (rc == -1) {
      FSI_TRACE(FSI_ERR, "chown FAILED");
      Return (ERR_FSAL_PERM, 1, INDEX_FSAL_setattrs);
    } else {
      FSI_TRACE(FSI_INFO, "Chown SUCCEED");
    }
  }
  FSI_TRACE(FSI_DEBUG, "End chown-----------------------------------\n");

  /***********
   *  UTIME  *
   ***********/
  FSI_TRACE(FSI_DEBUG, "Begin UTIME-----------------------------------\n");
  /* user must be the owner or have read access to modify 'atime' */
  access_mask = FSAL_MODE_MASK_SET(FSAL_R_OK) |
                FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_WRITE_ATTR);

  if (!p_context->export_context->fe_static_fs_info->accesscheck_support) {
    status = fsal_internal_testAccess(p_context, access_mask, NULL, 
                                      &current_attrs);
  } else {
    status = fsal_internal_access(p_context, p_filehandle, access_mask,
                                  &current_attrs);
  }

  if (FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_ATIME)
     && (p_context->credential.user != 0)
     && (p_context->credential.user != current_attrs.owner)
     && (status.major
         != ERR_FSAL_NO_ERROR)) {
    ReturnStatus(status, INDEX_FSAL_setattrs);
  }

  /* user must be the owner or have write access to modify 'mtime' */
  access_mask = FSAL_MODE_MASK_SET(FSAL_W_OK) |
                FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_WRITE_ATTR);

  if (!p_context->export_context->fe_static_fs_info->accesscheck_support) {
    status = fsal_internal_testAccess(p_context, access_mask, NULL, 
                                      &current_attrs);
  } else {
    status = fsal_internal_access(p_context, p_filehandle, access_mask,
                                  &current_attrs);
  }
  if (FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_MTIME)
     && (p_context->credential.user != 0)
     && (p_context->credential.user != current_attrs.owner)
     && (status.major
         != ERR_FSAL_NO_ERROR)) {
     ReturnStatus(status, INDEX_FSAL_setattrs);
  }

  if (FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_ATIME | 
                    FSAL_ATTR_MTIME)) {

    /* Fill wanted atime. */
    if (FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_ATIME)) {
      buffxstat.buffstat.st_atime = (time_t) wanted_attrs.atime.seconds;
      FSI_TRACE(FSI_DEBUG,
                "current atime = %lu, new atime = %lu",
                (unsigned long)current_attrs.atime.seconds, 
                (unsigned long)buffxstat.buffstat.st_atime);
    } else {
      buffxstat.buffstat.st_atime = (time_t) current_attrs.atime.seconds;
    }
    FSI_TRACE(FSI_DEBUG,
              "current atime = %lu, new atime = %lu",
              (unsigned long)current_attrs.atime.seconds,
              (unsigned long)buffxstat.buffstat.st_atime);

    /* Fill wanted mtime. */
    if (FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_MTIME)) {
      buffxstat.buffstat.st_mtime = (time_t) wanted_attrs.mtime.seconds;
    } else {
      buffxstat.buffstat.st_mtime = (time_t) current_attrs.mtime.seconds;
    }
    FSI_TRACE(FSI_DEBUG,
              "current mtime = %lu, new mtime = %lu",
              (unsigned long)current_attrs.mtime.seconds,
              (unsigned long)buffxstat.buffstat.st_mtime);

    rc = fsi_get_name_from_handle(p_context, 
                                  p_filehandle->data.handle.f_handle, 
                                  fsi_name,
                                  NULL);
    if (rc < 0) {
      FSI_TRACE(FSI_ERR, 
                "Failed to convert file handle back to filename "  
                "from cache" );
      FSI_TRACE(FSI_DEBUG, "Handle to name failed for hanlde %s",
                p_filehandle->data.handle.f_handle);
      Return (ERR_FSAL_BADHANDLE, 0, INDEX_FSAL_setattrs);
    }

    FSI_TRACE(FSI_DEBUG, "Handle to name: %s for handle %s", 
              fsi_name, p_filehandle->data.handle.f_handle); 
   
    rc = ptfsal_ntimes(p_context, fsi_name, buffxstat.buffstat.st_atime, 
                       buffxstat.buffstat.st_mtime);
    if (rc == -1) {
      FSI_TRACE(FSI_ERR, "ntime FAILED");
      Return (ERR_FSAL_PERM, 2, INDEX_FSAL_setattrs);
    } else {
      FSI_TRACE(FSI_INFO, "ntime SUCCEED");
    }

  }
  FSI_TRACE(FSI_DEBUG, "End UTIME------------------------------\n");

#ifdef _USE_NFS4_ACL
   /***********
   *  ACL  *
   ***********/

  if (FSAL_TEST_MASK(wanted_attrs.asked_attributes, FSAL_ATTR_ACL)) {
    /* Check permission to set ACL. */
    access_mask = FSAL_MODE_MASK_SET(0) |  /* Dummy */
                  FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_WRITE_ACL);

    if (!p_context->export_context->fe_static_fs_info->accesscheck_support)
      status = fsal_internal_testAccess(p_context, access_mask, NULL, 
                                        &current_attrs);
    else
      status = fsal_internal_access(p_context, p_filehandle, access_mask,
                                      &current_attrs);

    if (FSAL_IS_ERROR(status))
      ReturnStatus(status, INDEX_FSAL_setattrs);

    if (wanted_attrs.acl) {
      LogDebug(COMPONENT_FSAL, "setattr acl = %p", wanted_attrs.acl);

      /* Convert FSAL ACL to PTFS NFS4 ACL and fill the buffer. */
      status = fsal_acl_2_ptfs_acl(wanted_attrs.acl, &buffxstat);

      if (FSAL_IS_ERROR(status))
        ReturnStatus(status, INDEX_FSAL_setattrs);
    } else {
      LogCrit(COMPONENT_FSAL, "setattr acl is NULL");
      Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_setattrs);
    }
  }
#endif                          /* _USE_NFS4_ACL */


  /* Optionaly fills output attributes. */

  if (p_object_attributes) {
    status = PTFSAL_getattrs(p_filehandle, p_context, p_object_attributes);

    /* on error, we set a special bit in the mask. */
    if (FSAL_IS_ERROR(status)) {
      FSAL_CLEAR_MASK(p_object_attributes->asked_attributes);
      FSAL_SET_MASK(p_object_attributes->asked_attributes, 
                    FSAL_ATTR_RDATTR_ERR);
    }

  }
  FSI_TRACE(FSI_DEBUG, "End--------------------------------------------\n");
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_setattrs);

}
Exemplo n.º 23
0
/**
 * FSAL_mknode:
 * Create a special object in the filesystem.
 * Not supported upon HPSS.
 *
 * \return ERR_FSAL_NOTSUPP.
 */
fsal_status_t GPFSFSAL_mknode(fsal_handle_t * parentdir_handle,     /* IN */
                          fsal_name_t * p_node_name,    /* IN */
                          fsal_op_context_t * p_context,        /* IN */
                          fsal_accessmode_t accessmode, /* IN */
                          fsal_nodetype_t nodetype,     /* IN */
                          fsal_dev_t * dev,     /* IN */
                          fsal_handle_t * p_object_handle,      /* OUT (handle to the created node) */
                          fsal_attrib_list_t * node_attributes  /* [ IN/OUT ] */
    )
{
  int rc, errsv;
  int setgid_bit = 0;
  fsal_status_t status;
  int fd, newfd;

  mode_t unix_mode = 0;
  dev_t unix_dev = 0;
  fsal_accessflags_t access_mask = 0;
  fsal_attrib_list_t parent_dir_attrs;

  /* sanity checks.
   * note : link_attributes is optional.
   */
  if(!parentdir_handle || !p_context || !p_node_name)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_mknode);

  unix_mode = fsal2unix_mode(accessmode);

  /* Apply umask */
  unix_mode = unix_mode & ~global_fs_info.umask;

  switch (nodetype)
    {
    case FSAL_TYPE_BLK:
      if(!dev)
        Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_mknode);
      unix_mode |= S_IFBLK;
      unix_dev = (dev->major << 8) | (dev->minor & 0xFF);
      break;

    case FSAL_TYPE_CHR:
      if(!dev)
        Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_mknode);
      unix_mode |= S_IFCHR;
      unix_dev = (dev->major << 8) | (dev->minor & 0xFF);
      break;

    case FSAL_TYPE_SOCK:
      unix_mode |= S_IFSOCK;
      break;

    case FSAL_TYPE_FIFO:
      unix_mode |= S_IFIFO;
      break;

    default:
      LogMajor(COMPONENT_FSAL,
               "Invalid node type in FSAL_mknode: %d", nodetype);
      Return(ERR_FSAL_INVAL, 0, INDEX_FSAL_mknode);
    }

  /* build the directory path */
  status =
      fsal_internal_handle2fd(p_context, parentdir_handle, &fd, O_RDONLY | O_DIRECTORY);

  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_mknode);

  /* retrieve directory attributes */
  parent_dir_attrs.asked_attributes = GPFS_SUPPORTED_ATTRIBUTES;
  status = GPFSFSAL_getattrs(parentdir_handle, p_context, &parent_dir_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_mknode);

  /* Check the user can write in the directory, and check weither the setgid bit on the directory */
  if(fsal2unix_mode(parent_dir_attrs.mode) & S_ISGID)
    setgid_bit = 1;

  /* Set both mode and ace4 mask */
  access_mask = FSAL_MODE_MASK_SET(FSAL_W_OK | FSAL_X_OK) |
                FSAL_ACE4_MASK_SET(FSAL_ACE_PERM_ADD_FILE);

  status = fsal_internal_testAccess(p_context, access_mask, NULL, &parent_dir_attrs);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_mknode);

  /* creates the node, then stats it */
  rc = mknodat(fd, p_node_name->name, unix_mode, unix_dev);
  errsv = errno;

  if(rc)
    {
      close(fd);
      Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_mknode);
    }

  /* WARNING:
   * After creating the new node, the node name could have been changed.
   * This is a race condition. However only root creates new nodes. This
   * is an unlikely race condition, but hopefully can be fixed someday.
   */

  if(FSAL_IS_ERROR(status = fsal_internal_get_handle_at(fd, p_node_name,
                                                        p_object_handle)))
    {
      close(fd);
      ReturnStatus(status, INDEX_FSAL_mknode);
    }

  if(FSAL_IS_ERROR(status = fsal_internal_handle2fd_at(fd,
                                                       p_object_handle, &newfd,
                                                       O_RDONLY | O_NOFOLLOW)))
    {
      close(fd);
      ReturnStatus(status, INDEX_FSAL_mknode);
    }

  /* the node has been created */
  /* chown the file to the current user/group */

  if(p_context->credential.user != geteuid())
    {
      /* if the setgid_bit was set on the parent directory, do not change the group of the created file, because it's already the parentdir's group */
      rc = fchown(newfd, p_context->credential.user,
                  setgid_bit ? -1 : (int)p_context->credential.group);
      errsv = errno;

      if(rc)
        {
          close(fd);
          close(newfd);
          Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_mknode);
        }
    }

  close(fd);
  close(newfd);

  /* Fills the attributes if needed */
  if(node_attributes)
    {

      status = GPFSFSAL_getattrs(p_object_handle, p_context, node_attributes);

      /* on error, we set a special bit in the mask. */

      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(node_attributes->asked_attributes);
          FSAL_SET_MASK(node_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }

    }

  /* Finished */
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_mknode);

}
Exemplo n.º 24
0
/**
 * FSAL_create:
 * Create a regular file.
 *
 * \param parent_directory_handle (input):
 *        Handle of the parent directory where the file is to be created.
 * \param p_filename (input):
 *        Pointer to the name of the file to be created.
 * \param cred (input):
 *        Authentication context for the operation (user,...).
 * \param accessmode (input):
 *        Mode for the file to be created.
 *        (the umask defined into the FSAL configuration file
 *        will be applied on it).
 * \param object_handle (output):
 *        Pointer to the handle of the created file.
 * \param object_attributes (optional input/output): 
 *        The attributes of the created file.
 *        As input, it defines the attributes that the caller
 *        wants to retrieve (by positioning flags into this structure)
 *        and the output is built considering this input
 *        (it fills the structure according to the flags it contains).
 *        May be NULL.
 *
 * \return Major error codes :
 *        - ERR_FSAL_NO_ERROR     (no error)
 *        - Another error code if an error occurred.
 */
fsal_status_t XFSFSAL_create(fsal_handle_t * p_parent_directory_handle,      /* IN */
                             fsal_name_t * p_filename,  /* IN */
                             fsal_op_context_t * p_context,  /* IN */
                             fsal_accessmode_t accessmode,      /* IN */
                             fsal_handle_t * p_object_handle,        /* OUT */
                             fsal_attrib_list_t * p_object_attributes   /* [ IN/OUT ] */
    )
{

  int rc, errsv;
  int setgid_bit = 0;
  fsal_status_t status;

  int fd, newfd;
  struct stat buffstat;
  mode_t unix_mode;

  /* sanity checks.
   * note : object_attributes is optional.
   */
  if(!p_parent_directory_handle || !p_context || !p_object_handle || !p_filename)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_create);

  /* convert fsal mode to unix mode. */
  unix_mode = fsal2unix_mode(accessmode);

  /* Apply umask */
  unix_mode = unix_mode & ~global_fs_info.umask;

  LogFullDebug(COMPONENT_FSAL, "Creation mode: 0%o", accessmode);

  TakeTokenFSCall();
  status =
      fsal_internal_handle2fd(p_context, p_parent_directory_handle, &fd, O_DIRECTORY);
  ReleaseTokenFSCall();
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_create);

  /* retrieve directory metadata */
  TakeTokenFSCall();
  rc = fstat(fd, &buffstat);
  errsv = errno;
  ReleaseTokenFSCall();
  if(rc)
    {
      close(fd);

      if(errsv == ENOENT)
        Return(ERR_FSAL_STALE, errsv, INDEX_FSAL_create);
      else
        Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_create);
    }

  /* Check the user can write in the directory, and check the setgid bit on the directory */

  if(buffstat.st_mode & S_ISGID)
    setgid_bit = 1;

  status = fsal_internal_testAccess(p_context, FSAL_W_OK | FSAL_X_OK, &buffstat, NULL);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_create);

  /* call to filesystem */

  TakeTokenFSCall();
  /* create the file.
   * O_EXCL=>  error if the file already exists */
  newfd = openat(fd, p_filename->name, O_CREAT | O_WRONLY | O_TRUNC | O_EXCL, unix_mode);
  errsv = errno;

  if(newfd == -1)
    {
      close(fd);
      ReleaseTokenFSCall();
      Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_create);
    }

  /* get the new file handle */
  status = fsal_internal_fd2handle(p_context, newfd, p_object_handle);

  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    {
      close(fd);
      close(newfd);
      ReturnStatus(status, INDEX_FSAL_create);
    }
  /* the file has been created */
  /* chown the file to the current user */

  if(((xfsfsal_op_context_t *)p_context)->credential.user != geteuid())
    {
      TakeTokenFSCall();
      /* if the setgid_bit was set on the parent directory, do not change the group of the created file, because it's already the parentdir's group */
      rc = fchown(newfd, ((xfsfsal_op_context_t *)p_context)->credential.user,
                  setgid_bit ? -1 : (int)((xfsfsal_op_context_t *)p_context)->credential.group);
      errsv = errno;
      ReleaseTokenFSCall();
      if(rc)
        {
          close(fd);
          close(newfd);
          Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_create);
        }
    }

  close(fd);
  close(newfd);

  /* retrieve file attributes */
  if(p_object_attributes)
    {
      status = XFSFSAL_getattrs(p_object_handle, p_context, p_object_attributes);

      /* on error, we set a special bit in the mask. */
      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(p_object_attributes->asked_attributes);
          FSAL_SET_MASK(p_object_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }

    }

  /* OK */
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_create);

}
Exemplo n.º 25
0
/**
 * FSAL_mknode:
 * Create a special object in the filesystem.
 * Not supported upon HPSS.
 *
 * \return ERR_FSAL_NOTSUPP.
 */
fsal_status_t XFSFSAL_mknode(fsal_handle_t * parentdir_handle,       /* IN */
                             fsal_name_t * p_node_name, /* IN */
                             fsal_op_context_t * p_context,  /* IN */
                             fsal_accessmode_t accessmode,      /* IN */
                             fsal_nodetype_t nodetype,  /* IN */
                             fsal_dev_t * dev,  /* IN */
                             fsal_handle_t * p_object_handle, /* OUT (handle to the created node) */
                             fsal_attrib_list_t * node_attributes       /* [ IN/OUT ] */
    )
{
  int rc, errsv;
  int setgid_bit = 0;
  struct stat buffstat;
  fsal_status_t status;
  int fd, newfd;

  mode_t unix_mode = 0;
  dev_t unix_dev = 0;

  /* sanity checks.
   * note : link_attributes is optional.
   */
  if(!parentdir_handle || !p_context || !p_node_name)
    Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_mknode);

  unix_mode = fsal2unix_mode(accessmode);

  /* Apply umask */
  unix_mode = unix_mode & ~global_fs_info.umask;

  switch (nodetype)
    {
    case FSAL_TYPE_BLK:
      if(!dev)
        Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_mknode);
      unix_mode |= S_IFBLK;
      unix_dev = (dev->major << 8) | (dev->minor & 0xFF);
      break;

    case FSAL_TYPE_CHR:
      if(!dev)
        Return(ERR_FSAL_FAULT, 0, INDEX_FSAL_mknode);
      unix_mode |= S_IFCHR;
      unix_dev = (dev->major << 8) | (dev->minor & 0xFF);
      break;

    case FSAL_TYPE_SOCK:
      unix_mode |= S_IFSOCK;
      break;

    case FSAL_TYPE_FIFO:
      unix_mode |= S_IFIFO;
      break;

    default:
      LogMajor(COMPONENT_FSAL, "Invalid node type in FSAL_mknode: %d",
                        nodetype);
      Return(ERR_FSAL_INVAL, 0, INDEX_FSAL_mknode);
    }

  /* build the directory path */
  TakeTokenFSCall();
  status = fsal_internal_handle2fd(p_context, parentdir_handle, &fd, O_DIRECTORY);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_mknode);

  /* retrieve directory attributes */
  TakeTokenFSCall();
  rc = fstat(fd, &buffstat);
  errsv = errno;
  ReleaseTokenFSCall();

  if(rc)
    {
      close(fd);

      if(errsv == ENOENT)
        Return(ERR_FSAL_STALE, errsv, INDEX_FSAL_mknode);
      else
        Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_mknode);
    }

  /* Check the user can write in the directory, and check weither the setgid bit on the directory */
  if(buffstat.st_mode & S_ISGID)
    setgid_bit = 1;

  status = fsal_internal_testAccess(p_context, FSAL_W_OK | FSAL_X_OK, &buffstat, NULL);
  if(FSAL_IS_ERROR(status))
    ReturnStatus(status, INDEX_FSAL_mknode);

  /* creates the node, then stats it */
  TakeTokenFSCall();
  rc = mknodat(fd, p_node_name->name, unix_mode, unix_dev);
  errsv = errno;

  if(rc)
    {
      close(fd);
      ReleaseTokenFSCall();
      Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_mknode);
    }

  /* get the new object handle */
  if((newfd = openat(fd, p_node_name->name, O_RDONLY, 0600)) < 0)
    {
      errsv = errno;
      close(fd);
      ReleaseTokenFSCall();
      Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_mkdir);
    }

  status = fsal_internal_fd2handle(p_context, newfd, p_object_handle);
  ReleaseTokenFSCall();

  if(FSAL_IS_ERROR(status))
    {
      close(fd);
      close(newfd);
      ReturnStatus(status, INDEX_FSAL_mknode);
    }

  /* the node has been created */
  /* chown the file to the current user/group */

  if(((xfsfsal_op_context_t *)p_context)->credential.user != geteuid())
    {
      TakeTokenFSCall();

      /* if the setgid_bit was set on the parent directory, do not change the group of the created file, because it's already the parentdir's group */
      rc = fchown(newfd, ((xfsfsal_op_context_t *)p_context)->credential.user,
                  setgid_bit ? -1 : (int)((xfsfsal_op_context_t *)p_context)->credential.group);
      errsv = errno;

      ReleaseTokenFSCall();

      if(rc)
        {
          close(fd);
          close(newfd);
          Return(posix2fsal_error(errsv), errsv, INDEX_FSAL_mknode);
        }
    }

  close(fd);
  close(newfd);

  /* Fills the attributes if needed */
  if(node_attributes)
    {

      status = XFSFSAL_getattrs(p_object_handle, p_context, node_attributes);

      /* on error, we set a special bit in the mask. */

      if(FSAL_IS_ERROR(status))
        {
          FSAL_CLEAR_MASK(node_attributes->asked_attributes);
          FSAL_SET_MASK(node_attributes->asked_attributes, FSAL_ATTR_RDATTR_ERR);
        }

    }

  /* Finished */
  Return(ERR_FSAL_NO_ERROR, 0, INDEX_FSAL_mknode);

}
Exemplo n.º 26
0
/**
 *  @brief Create a symbolic link.
 *
 * @param dir_hdl Handle of the parent dir where the link is to be created.
 * @param linkname Name of the link to be created.
 * @param linkcontent Content of the link to be created.
 * @param op_ctx Authentication context for the operation (user,...).
 * @param accessmode Mode of the link to be created.
 *                  It has no sense in POSIX filesystems.
 * @param gpfs_fh Pointer to the handle of the created symlink.
 * @param link_attr Attributes of the newly created symlink.
 *                 As input, it defines the attributes that the caller
 *                 wants to retrieve (by positioning flags into this structure)
 *                 and the output is built considering this input
 *                 (it fills the structure according to the flags it contains).
 *                 May be NULL.
 *
 * @return Major error codes :
 *        - ERR_FSAL_NO_ERROR     (no error)
 *        - Another error code if an error occured.
 */
fsal_status_t
GPFSFSAL_symlink(struct fsal_obj_handle *dir_hdl, const char *linkname,
		 const char *linkcontent, const struct req_op_context *op_ctx,
		 uint32_t accessmode, struct gpfs_file_handle *gpfs_fh,
		 struct attrlist *link_attr)
{

	int rc, errsv;
	fsal_status_t status;
	int fd;
	struct gpfs_fsal_obj_handle *gpfs_hdl;
	struct gpfs_filesystem *gpfs_fs;

	/* note : link_attr is optional. */
	if (!dir_hdl || !op_ctx || !gpfs_fh || !linkname
	    || !linkcontent)
		return fsalstat(ERR_FSAL_FAULT, 0);

	gpfs_hdl =
	    container_of(dir_hdl, struct gpfs_fsal_obj_handle, obj_handle);

	gpfs_fs = dir_hdl->fs->private_data;

	/* Tests if symlinking is allowed by configuration. */

	if (!op_ctx->fsal_export->exp_ops.
	    fs_supports(op_ctx->fsal_export,
			fso_symlink_support))
		return fsalstat(ERR_FSAL_NOTSUPP, 0);

	status = fsal_internal_handle2fd(gpfs_fs->root_fd, gpfs_hdl->handle,
					 &fd, O_RDONLY | O_DIRECTORY, 0);

	if (FSAL_IS_ERROR(status))
		return status;

	/* build symlink path */

	/* create the symlink on the filesystem using the credentials
	 * for proper ownership assignment.
	 */

	fsal_set_credentials(op_ctx->creds);

	rc = symlinkat(linkcontent, fd, linkname);
	errsv = errno;

	fsal_restore_ganesha_credentials();

	if (rc) {
		close(fd);
		return fsalstat(posix2fsal_error(errsv), errsv);
	}

	/* now get the associated handle, while there is a race, there is
	   also a race lower down  */
	status = fsal_internal_get_handle_at(fd, linkname, gpfs_fh);

	if (FSAL_IS_ERROR(status)) {
		close(fd);
		return status;
	}

	/* get attributes */
	status = GPFSFSAL_getattrs(op_ctx->fsal_export, gpfs_fs,
				   op_ctx, gpfs_fh,
				   link_attr);

	if (!FSAL_IS_ERROR(status) && link_attr->type != SYMBOLIC_LINK) {
		/* We could wind up not failing the creation of the symlink
		 * and the only way we know is that the object type isn't
		 * a symlink.
		 */
		fsal_release_attrs(link_attr);
		status = fsalstat(ERR_FSAL_EXIST, 0);
	}

	close(fd);
	return status;
}