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|
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* Copyright by the Board of Trustees of the University of Illinois. *
* All rights reserved. *
* *
* This file is part of HDF5. The full HDF5 copyright notice, including *
* terms governing use, modification, and redistribution, is contained in *
* the files COPYING and Copyright.html. COPYING can be found at the root *
* of the source code distribution tree; Copyright.html can be found at the *
* root level of an installed copy of the electronic HDF5 document set and *
* is linked from the top-level documents page. It can also be found at *
* http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have *
* access to either file, you may request a copy from help@hdfgroup.org. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*-------------------------------------------------------------------------
*
* Created: H5FScache.c
* May 2 2006
* Quincey Koziol <koziol@ncsa.uiuc.edu>
*
* Purpose: Implement file free space metadata cache methods.
*
*-------------------------------------------------------------------------
*/
/****************/
/* Module Setup */
/****************/
#define H5FS_PACKAGE /*suppress error about including H5FSpkg */
/***********/
/* Headers */
/***********/
#include "H5private.h" /* Generic Functions */
#include "H5ACprivate.h" /* Metadata cache */
#include "H5Eprivate.h" /* Error handling */
#include "H5FSpkg.h" /* File free space */
#include "H5MFprivate.h" /* File memory management */
#include "H5VMprivate.h" /* Vectors and arrays */
#include "H5WBprivate.h" /* Wrapped Buffers */
/****************/
/* Local Macros */
/****************/
/* File free space format version #'s */
#define H5FS_HDR_VERSION 0 /* Header */
#define H5FS_SINFO_VERSION 0 /* Serialized sections */
/******************/
/* Local Typedefs */
/******************/
/* User data for skip list iterator callback for iterating over section size nodes when syncing */
typedef struct {
H5FS_sinfo_t *sinfo; /* Free space section info */
uint8_t **image; /* Pointer to address of buffer pointer to serialize with */
unsigned sect_cnt_size; /* # of bytes to encode section size counts in */
} H5FS_iter_ud_t;
/********************/
/* Package Typedefs */
/********************/
/********************/
/* Local Prototypes */
/********************/
/* Section info routines */
static herr_t H5FS__sinfo_serialize_sect_cb(void *_item, void H5_ATTR_UNUSED *key, void *_udata);
static herr_t H5FS__sinfo_serialize_node_cb(void *_item, void H5_ATTR_UNUSED *key, void *_udata);
/* Metadata cache callbacks */
static herr_t H5FS__cache_hdr_get_load_size(const void *udata, size_t *image_len);
static void *H5FS__cache_hdr_deserialize(const void *image, size_t len,
void *udata, hbool_t *dirty);
static herr_t H5FS__cache_hdr_image_len(const void *thing, size_t *image_len,
hbool_t *compressed_ptr, size_t *compressed_image_len_ptr);
static herr_t H5FS__cache_hdr_pre_serialize(const H5F_t *f, hid_t dxpl_id,
void *thing, haddr_t addr, size_t len, size_t compressed_len,
haddr_t *new_addr, size_t *new_len, size_t *new_compressed_len,
unsigned *flags);
static herr_t H5FS__cache_hdr_serialize(const H5F_t *f, void *image,
size_t len, void *thing);
static herr_t H5FS__cache_hdr_free_icr(void *thing);
static herr_t H5FS__cache_sinfo_get_load_size(const void *udata, size_t *image_len);
static void *H5FS__cache_sinfo_deserialize(const void *image, size_t len,
void *udata, hbool_t *dirty);
static herr_t H5FS__cache_sinfo_image_len(const void *thing, size_t *image_len,
hbool_t *compressed_ptr, size_t *compressed_image_len_ptr);
static herr_t H5FS__cache_sinfo_pre_serialize(const H5F_t *f, hid_t dxpl_id,
void *thing, haddr_t addr, size_t len, size_t compressed_len,
haddr_t *new_addr, size_t *new_len, size_t *new_compressed_len,
unsigned *flags);
static herr_t H5FS__cache_sinfo_serialize(const H5F_t *f, void *image,
size_t len, void *thing);
static herr_t H5FS__cache_sinfo_free_icr(void *thing);
/*********************/
/* Package Variables */
/*********************/
/* H5FS header inherits cache-like properties from H5AC */
const H5AC_class_t H5AC_FSPACE_HDR[1] = {{
H5AC_FSPACE_HDR_ID, /* Metadata client ID */
"Free Space Header", /* Metadata client name (for debugging) */
H5FD_MEM_FSPACE_HDR, /* File space memory type for client */
H5AC__CLASS_NO_FLAGS_SET, /* Client class behavior flags */
H5FS__cache_hdr_get_load_size, /* 'get_load_size' callback */
H5FS__cache_hdr_deserialize, /* 'deserialize' callback */
H5FS__cache_hdr_image_len, /* 'image_len' callback */
H5FS__cache_hdr_pre_serialize, /* 'pre_serialize' callback */
H5FS__cache_hdr_serialize, /* 'serialize' callback */
NULL, /* 'notify' callback */
H5FS__cache_hdr_free_icr, /* 'free_icr' callback */
NULL, /* 'clear' callback */
NULL, /* 'fsf_size' callback */
}};
/* H5FS section info inherits cache-like properties from H5AC */
const H5AC_class_t H5AC_FSPACE_SINFO[1] = {{
H5AC_FSPACE_SINFO_ID, /* Metadata client ID */
"Free Space Section Info", /* Metadata client name (for debugging) */
H5FD_MEM_FSPACE_SINFO, /* File space memory type for client */
H5AC__CLASS_NO_FLAGS_SET, /* Client class behavior flags */
H5FS__cache_sinfo_get_load_size, /* 'get_load_size' callback */
H5FS__cache_sinfo_deserialize, /* 'deserialize' callback */
H5FS__cache_sinfo_image_len, /* 'image_len' callback */
H5FS__cache_sinfo_pre_serialize, /* 'pre_serialize' callback */
H5FS__cache_sinfo_serialize, /* 'serialize' callback */
NULL, /* 'notify' callback */
H5FS__cache_sinfo_free_icr, /* 'free_icr' callback */
NULL, /* 'clear' callback */
NULL, /* 'fsf_size' callback */
}};
/*****************************/
/* Library Private Variables */
/*****************************/
/*******************/
/* Local Variables */
/*******************/
/*-------------------------------------------------------------------------
* Function: H5FS__cache_hdr_get_load_size
*
* Purpose: Compute the size of the data structure on disk.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Quincey Koziol
* koziol@hdfgroup.org
* August 14, 2013
*
*-------------------------------------------------------------------------
*/
static herr_t
H5FS__cache_hdr_get_load_size(const void *_udata, size_t *image_len)
{
const H5FS_hdr_cache_ud_t *udata = (const H5FS_hdr_cache_ud_t *)_udata; /* User-data for metadata cache callback */
FUNC_ENTER_STATIC_NOERR
/* Check arguments */
HDassert(image_len);
/* Set the image length size */
*image_len = (size_t)H5FS_HEADER_SIZE(udata->f);
FUNC_LEAVE_NOAPI(SUCCEED)
} /* end H5FS__cache_hdr_get_load_size() */
/*-------------------------------------------------------------------------
* Function: H5FS__cache_hdr_deserialize
*
* Purpose: Given a buffer containing the on disk image of the free space
* manager section info, allocate an instance of H5FS_t, load
* it with the data contained in the image, and return a pointer
* to the new instance.
*
* Return: Success: Pointer to new object
* Failure: NULL
*
* Programmer: Quincey Koziol
* koziol@hdfgroup.org
* August 18 2013
*
*-------------------------------------------------------------------------
*/
static void *
H5FS__cache_hdr_deserialize(const void *_image, size_t len, void *_udata,
hbool_t H5_ATTR_UNUSED *dirty)
{
H5FS_t *fspace = NULL; /* Free space header info */
H5FS_hdr_cache_ud_t *udata = (H5FS_hdr_cache_ud_t *)_udata; /* User data for callback */
const uint8_t *image = (const uint8_t *)_image; /* Pointer into raw data buffer */
uint32_t stored_chksum; /* Stored metadata checksum value */
uint32_t computed_chksum; /* Computed metadata checksum value */
unsigned nclasses; /* Number of section classes */
H5FS_t *ret_value; /* Return value */
FUNC_ENTER_STATIC
/* Check arguments */
HDassert(image);
HDassert(udata);
HDassert(udata->f);
/* Allocate a new free space manager */
if(NULL == (fspace = H5FS__new(udata->f, udata->nclasses, udata->classes, udata->cls_init_udata)))
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, NULL, "memory allocation failed")
/* Set free space manager's internal information */
fspace->addr = udata->addr;
/* Magic number */
if(HDmemcmp(image, H5FS_HDR_MAGIC, (size_t)H5_SIZEOF_MAGIC))
HGOTO_ERROR(H5E_FSPACE, H5E_CANTLOAD, NULL, "wrong free space header signature")
image += H5_SIZEOF_MAGIC;
/* Version */
if(*image++ != H5FS_HDR_VERSION)
HGOTO_ERROR(H5E_FSPACE, H5E_CANTLOAD, NULL, "wrong free space header version")
/* Client ID */
fspace->client = (H5FS_client_t)*image++;
if(fspace->client >= H5FS_NUM_CLIENT_ID)
HGOTO_ERROR(H5E_FSPACE, H5E_CANTLOAD, NULL, "unknown client ID in free space header")
/* Total space tracked */
H5F_DECODE_LENGTH(udata->f, image, fspace->tot_space);
/* Total # of free space sections tracked */
H5F_DECODE_LENGTH(udata->f, image, fspace->tot_sect_count);
/* # of serializable free space sections tracked */
H5F_DECODE_LENGTH(udata->f, image, fspace->serial_sect_count);
/* # of ghost free space sections tracked */
H5F_DECODE_LENGTH(udata->f, image, fspace->ghost_sect_count);
/* # of section classes */
/* (only check if we actually have some classes) */
UINT16DECODE(image, nclasses);
if(fspace->nclasses > 0 && fspace->nclasses != nclasses)
HGOTO_ERROR(H5E_FSPACE, H5E_CANTLOAD, NULL, "section class count mismatch")
/* Shrink percent */
UINT16DECODE(image, fspace->shrink_percent);
/* Expand percent */
UINT16DECODE(image, fspace->expand_percent);
/* Size of address space free space sections are within
* (log2 of actual value)
*/
UINT16DECODE(image, fspace->max_sect_addr);
/* Max. size of section to track */
H5F_DECODE_LENGTH(udata->f, image, fspace->max_sect_size);
/* Address of serialized free space sections */
H5F_addr_decode(udata->f, &image, &fspace->sect_addr);
/* Size of serialized free space sections */
H5F_DECODE_LENGTH(udata->f, image, fspace->sect_size);
/* Allocated size of serialized free space sections */
H5F_DECODE_LENGTH(udata->f, image, fspace->alloc_sect_size);
/* Compute checksum on indirect block */
computed_chksum = H5_checksum_metadata(_image, (size_t)(image - (const uint8_t *)_image), 0);
/* Metadata checksum */
UINT32DECODE(image, stored_chksum);
/* Sanity check */
HDassert((size_t)(image - (const uint8_t *)_image) <= len);
/* Verify checksum */
if(stored_chksum != computed_chksum)
HGOTO_ERROR(H5E_FSPACE, H5E_BADVALUE, NULL, "incorrect metadata checksum for fractal heap indirect block")
/* Set return value */
ret_value = fspace;
done:
/* Release resources */
if(!ret_value && fspace)
if(H5FS__hdr_dest(fspace) < 0)
HDONE_ERROR(H5E_FSPACE, H5E_CANTFREE, NULL, "unable to destroy free space header")
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5FS__cache_hdr_deserialize() */
/*-------------------------------------------------------------------------
* Function: H5FS__cache_hdr_image_len
*
* Purpose: Compute the size of the data structure on disk and return
* it in *image_len.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Quincey Koziol
* koziol@hdfgroup.org
* August 14, 2013
*
*-------------------------------------------------------------------------
*/
static herr_t
H5FS__cache_hdr_image_len(const void *_thing, size_t *image_len,
hbool_t H5_ATTR_UNUSED *compressed_ptr, size_t H5_ATTR_UNUSED *compressed_image_len_ptr)
{
const H5FS_t *fspace = (const H5FS_t *)_thing; /* Pointer to the object */
FUNC_ENTER_STATIC_NOERR
/* Check arguments */
HDassert(fspace);
HDassert(fspace->cache_info.magic == H5C__H5C_CACHE_ENTRY_T_MAGIC);
HDassert(fspace->cache_info.type == H5AC_FSPACE_HDR);
HDassert(image_len);
/* Set the image length size */
*image_len = fspace->hdr_size;
FUNC_LEAVE_NOAPI(SUCCEED)
} /* end H5FS__cache_hdr_image_len() */
/*-------------------------------------------------------------------------
* Function: H5FS__cache_hdr_pre_serialize
*
* Purpose: The free space manager header contains the address, size, and
* allocation size of the free space manager section info. However,
* since it is possible for the section info to either not be allocated
* at all, or be allocated in temporary (AKA imaginary) files space,
* it is possible for the above mentioned fields to contain giberish
* when the free space manager header is serialized.
*
* This function exists to prevent this problem. It does so by
* forcing allocation of real file space for the section information.
*
* Note that in the Version 2 cache, this problem was dealt with by
* simply flushing the section info before flushing the header. This
* was possible, since the clients handled file I/O directly. As
* this responsibility has moved to the cache in Version 3, this
* solution is no longer directly applicable.
*
* Return: Success: SUCCEED
* Failure: FAIL
*
* Programmer: John Mainzer
* 6/21/14
*
*-------------------------------------------------------------------------
*/
static herr_t
H5FS__cache_hdr_pre_serialize(const H5F_t *f, hid_t dxpl_id, void *_thing,
haddr_t addr, size_t H5_ATTR_UNUSED len, size_t H5_ATTR_UNUSED compressed_len,
haddr_t *new_addr, size_t *new_len, size_t H5_ATTR_UNUSED *new_compressed_len,
unsigned *flags)
{
H5FS_t *fspace = (H5FS_t *)_thing; /* Pointer to the object */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC_TAG(dxpl_id, H5AC__FREESPACE_TAG, FAIL)
/* Sanity check */
HDassert(f);
HDassert(fspace);
HDassert(fspace->cache_info.magic == H5C__H5C_CACHE_ENTRY_T_MAGIC);
HDassert(fspace->cache_info.type == H5AC_FSPACE_HDR);
HDassert(H5F_addr_defined(addr));
HDassert(new_addr);
HDassert(new_len);
HDassert(flags);
if(fspace->sinfo) {
/* This implies that the header "owns" the section info.
*
* Unfortunately, the comments in the code are not clear as to
* what this means, but from reviewing the code (most particularly
* H5FS_close(), H5FS_sinfo_lock, and H5FS_sinfo_unlock()), I
* gather that it means that the header is maintaining a pointer to
* an instance of H5FS_sinfo_t in which free space data is
* maintained, and either:
*
* 1) The instance of H5FS_sinfo_t is not in the metadata cache.
*
* This will be TRUE iff H5F_addr_defined(fspace->sect_addr)
* is FALSE, and fspace->sinfo is not NULL. This is sometimes
* referred to as "floating" section info in the comments.
*
* If the section info structure contains free space data
* that must be placed on disk eventually, then
*
* fspace->serial_sect_count > 0
*
* and
*
* H5F_addr_defined(fspace->addr)
*
* will both be TRUE. If this contition does not hold, then
* either the free space info is not persistant
* (!H5F_addr_defined(fspace->addr)???) or the section info
* contains no free space data that must be written to file
* ( fspace->serial_sect_count == 0 ).
*
* 2) The instance of H5FS_sinfo_t is in the metadata cache with
* address in temporary file space (AKA imaginary file space).
* The entry may or may not be protected, and if protected, it
* may be protected either RW or RO (as indicated by
* fspace->sinfo_protected and fspace->sinfo_accmod).
*
* 3) The instance of H5FS_sinfo_t is in the metadata cache with
* address in real file space. As in case 2) above, the entry
* may or may not be protected, and if protected, it
* may be protected either RW or RO (as indicated by
* fspace->sinfo_protected and fspace->sinfo_accmod).
*
* Observe that fspace->serial_sect_count > 0 must be TRUE in
* cases 2) and 3), as the section info should not be stored on
* disk if it doesn't exist. Similarly, since the section info
* will not be stored to disk unless the header is,
* H5F_addr_defined(fspace->addr) must hold as well.
*
* As the objective is to touch up the free space manager header
* so that it contains sensical data on the size and location of
* the section information, we have to handle each of the above
* cases differently.
*
* Case 1) If either fspace->serial_sect_count == 0 or
* ! H5F_addr_defined(fspace->addr) do nothing as either
* the free space manager data is not persistant, or the
* section info is empty.
*
* Otherwise, allocate space for the section info in real
* file space, insert the section info at this location, and
* set fspace->sect_addr, fspace->sect_size, and
* fspace->alloc_sect_size to reflect the new location
* of the section info. Note that it is not necessary to
* force a write of the section info.
*
* Case 2) Allocate space for the section info in real file space,
* and tell the metadata cache to relocate the entry.
* Update fspace->sect_addr, fspace->sect_size, and
* fspace->alloc_sect_size to reflect the new location.
*
* Case 3) Nothing to be done in this case, although it is useful
* to perform sanity checks.
*
* Note that while we may alter the contents of the free space
* header in cases 1) and 2), there is no need to mark the header
* as dirty, as the metadata cache would not be attempting to
* serialize the header if it though it was clean.
*/
if(fspace->serial_sect_count > 0 && H5F_addr_defined(fspace->addr)) {
/* Sanity check */
HDassert(fspace->sect_size > 0);
if(!H5F_addr_defined(fspace->sect_addr)) { /* case 1 */
/* allocate file space for the section info, and insert it
* into the metadata cache.
*/
if(HADDR_UNDEF == (fspace->sect_addr = H5MF_alloc((H5F_t *)f, H5FD_MEM_FSPACE_SINFO, dxpl_id, fspace->sect_size)))
HGOTO_ERROR(H5E_FSPACE, H5E_NOSPACE, FAIL, "file allocation failed for free space sections")
fspace->alloc_sect_size = (size_t)fspace->sect_size;
if(H5AC_insert_entry((H5F_t *)f, dxpl_id, H5AC_FSPACE_SINFO, fspace->sect_addr, fspace->sinfo, H5AC__NO_FLAGS_SET) < 0)
HGOTO_ERROR(H5E_FSPACE, H5E_CANTINIT, FAIL, "can't add free space sections to cache")
HDassert(fspace->sinfo->cache_info.size == fspace->alloc_sect_size);
/* the metadata cache is now managing the section info,
* so set fspace->sinfo to NULL.
*/
fspace->sinfo = NULL;
} /* end if */
else if(H5F_IS_TMP_ADDR(f, fspace->sect_addr)) { /* case 2 */
haddr_t new_sect_addr;
/* move the section info from temporary (AKA imaginary) file
* space to real file space.
*/
/* if my reading of the code is correct, this should always
* be the case. If not, we will have to add code to resize
* file space allocation for section info as well as moving it.
*/
HDassert(fspace->sect_size > 0);
HDassert(fspace->alloc_sect_size == (size_t)fspace->sect_size);
/* Allocate space for the section info in file */
if(HADDR_UNDEF == (new_sect_addr = H5MF_alloc((H5F_t *)f, H5FD_MEM_FSPACE_SINFO, dxpl_id, fspace->sect_size)))
HGOTO_ERROR(H5E_FSPACE, H5E_NOSPACE, FAIL, "file allocation failed for free space sections")
fspace->alloc_sect_size = (size_t)fspace->sect_size;
HDassert(fspace->sinfo->cache_info.size == fspace->alloc_sect_size);
/* Let the metadata cache know the section info moved */
if(H5AC_move_entry((H5F_t *)f, H5AC_FSPACE_SINFO, fspace->sect_addr, new_sect_addr) < 0)
HGOTO_ERROR(H5E_HEAP, H5E_CANTMOVE, FAIL, "unable to move section info")
fspace->sect_addr = new_sect_addr;
} /* end else-if */
else { /* case 3 -- nothing to do but sanity checking */
/* if my reading of the code is correct, this should always
* be the case. If not, we will have to add code to resize
* file space allocation for section info.
*/
HDassert(fspace->sect_size > 0);
HDassert(fspace->alloc_sect_size == (size_t)fspace->sect_size);
} /* end else */
} /* end else */
else {
/* for one reason or another (see comment above) there should
* not be any file space allocated for the section info.
*/
HDassert(!H5F_addr_defined(fspace->sect_addr));
} /* end else */
} /* end if */
else if(H5F_addr_defined(fspace->sect_addr)) {
/* Here the metadata cache is managing the section info.
*
* Do some sanity checks, and then test to see if the section
* info is in real file space. If it isn't relocate it into
* real file space lest the header be written to file with
* a nonsense section info address.
*/
HDassert(fspace->serial_sect_count > 0);
HDassert(fspace->sect_size > 0);
HDassert(fspace->alloc_sect_size == (size_t)fspace->sect_size);
if(H5F_IS_TMP_ADDR(f, fspace->sect_addr)) {
unsigned sect_status = 0;
haddr_t new_sect_addr;
/* we have work to do -- must relocate section info into
* real file space.
*
* Since the section info address is in temporary space (AKA
* imaginary space), it follows that the entry must be in
* cache. Further, since fspace->sinfo is NULL, it must be
* unprotected and un-pinned. Start by verifying this.
*/
if(H5AC_get_entry_status(f, fspace->sect_addr, §_status) < 0)
HGOTO_ERROR(H5E_FSPACE, H5E_CANTGET, FAIL, "can't get section info status")
HDassert(sect_status & H5AC_ES__IN_CACHE);
HDassert((sect_status & H5AC_ES__IS_PROTECTED) == 0);
HDassert((sect_status & H5AC_ES__IS_PINNED) == 0);
/* Allocate space for the section info in file */
if(HADDR_UNDEF == (new_sect_addr = H5MF_alloc((H5F_t *)f, H5FD_MEM_FSPACE_SINFO, dxpl_id, fspace->sect_size)))
HGOTO_ERROR(H5E_FSPACE, H5E_NOSPACE, FAIL, "file allocation failed for free space sections")
fspace->alloc_sect_size = (size_t)fspace->sect_size;
/* Sanity check */
HDassert(!H5F_addr_eq(fspace->sect_addr, new_sect_addr));
/* Let the metadata cache know the section info moved */
if(H5AC_move_entry((H5F_t *)f, H5AC_FSPACE_SINFO, fspace->sect_addr, new_sect_addr) < 0)
HGOTO_ERROR(H5E_FSPACE, H5E_CANTMOVE, FAIL, "unable to move section info")
/* Update the internal address for the section info */
fspace->sect_addr = new_sect_addr;
/* No need to mark the header dirty, as we are about to
* serialize it.
*/
} /* end if */
} /* end else-if */
else { /* there is no section info at present */
/* do some sanity checks */
HDassert(fspace->serial_sect_count == 0);
HDassert(fspace->tot_sect_count == fspace->ghost_sect_count);
} /* end else */
/* what ever happened above, set *flags to 0 */
*flags = 0;
done:
FUNC_LEAVE_NOAPI_TAG(ret_value, FAIL)
} /* end H5FS__cache_hdr_pre_serialize() */
/*-------------------------------------------------------------------------
* Function: H5FS__cache_hdr_serialize
*
* Purpose: Given an instance of H5FS_t and a suitably sized buffer,
* serialize the contents of the instance of H5FS_t and write
* its contents to the buffer. This buffer will be used to
* write the image of the instance to file.
*
* Return: Success: SUCCEED
* Failure: FAIL
*
* Programmer: John Mainzer
* 6/21/14
*
*-------------------------------------------------------------------------
*/
static herr_t
H5FS__cache_hdr_serialize(const H5F_t *f, void *_image, size_t len,
void *_thing)
{
H5FS_t *fspace = (H5FS_t *)_thing; /* Pointer to the object */
uint8_t *image = (uint8_t *)_image; /* Pointer into raw data buffer */
uint32_t metadata_chksum; /* Computed metadata checksum value */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC_NOERR
/* Check arguments */
HDassert(f);
HDassert(image);
HDassert(fspace);
HDassert(fspace->cache_info.magic == H5C__H5C_CACHE_ENTRY_T_MAGIC);
HDassert(fspace->cache_info.type == H5AC_FSPACE_HDR);
HDassert(fspace->hdr_size == len);
/* The section information does not always exits, and if it does,
* it is not always in the cache. To make matters more interesting,
* even if it is in the cache, it may not be in real file space.
*
* The pre-serialize function should have moved the section info
* into real file space if necessary before this function was called.
* The following asserts are a cursory check on this.
*/
HDassert((! H5F_addr_defined(fspace->sect_addr)) || (! H5F_IS_TMP_ADDR(f, fspace->sect_addr)));
HDassert((! H5F_addr_defined(fspace->sect_addr)) ||
((fspace->serial_sect_count > 0) &&
(fspace->sect_size > 0) &&
(fspace->alloc_sect_size == (size_t)fspace->sect_size)));
/* Magic number */
HDmemcpy(image, H5FS_HDR_MAGIC, (size_t)H5_SIZEOF_MAGIC);
image += H5_SIZEOF_MAGIC;
/* Version # */
*image++ = H5FS_HDR_VERSION;
/* Client ID */
*image++ = fspace->client;
/* Total space tracked */
H5F_ENCODE_LENGTH(f, image, fspace->tot_space);
/* Total # of free space sections tracked */
H5F_ENCODE_LENGTH(f, image, fspace->tot_sect_count);
/* # of serializable free space sections tracked */
H5F_ENCODE_LENGTH(f, image, fspace->serial_sect_count);
/* # of ghost free space sections tracked */
H5F_ENCODE_LENGTH(f, image, fspace->ghost_sect_count);
/* # of section classes */
UINT16ENCODE(image, fspace->nclasses);
/* Shrink percent */
UINT16ENCODE(image, fspace->shrink_percent);
/* Expand percent */
UINT16ENCODE(image, fspace->expand_percent);
/* Size of address space free space sections are within (log2 of
* actual value)
*/
UINT16ENCODE(image, fspace->max_sect_addr);
/* Max. size of section to track */
H5F_ENCODE_LENGTH(f, image, fspace->max_sect_size);
/* Address of serialized free space sections */
H5F_addr_encode(f, &image, fspace->sect_addr);
/* Size of serialized free space sections */
H5F_ENCODE_LENGTH(f, image, fspace->sect_size);
/* Allocated size of serialized free space sections */
H5F_ENCODE_LENGTH(f, image, fspace->alloc_sect_size);
/* Compute checksum */
metadata_chksum = H5_checksum_metadata((uint8_t *)_image, (size_t)(image - (uint8_t *)_image), 0);
/* Metadata checksum */
UINT32ENCODE(image, metadata_chksum);
/* sanity checks */
HDassert((size_t)(image - (uint8_t *)_image) == fspace->hdr_size);
FUNC_LEAVE_NOAPI(ret_value)
} /* H5FS__cache_hdr_serialize() */
/***************************************/
/* no H5FS__cache_hdr_notify() function */
/***************************************/
/*-------------------------------------------------------------------------
* Function: H5FS__cache_hdr_free_icr
*
* Purpose: Destroys a free space header in memory.
*
* Note: The metadata cache sets the object's cache_info.magic to
* H5C__H5C_CACHE_ENTRY_T_BAD_MAGIC before calling a free_icr
* callback (checked in assert).
*
* Return: Success: SUCCEED
* Failure: FAIL
*
* Programmer: Quincey Koziol
* koziol@ncsa.uiuc.edu
* May 2 2006
*
*-------------------------------------------------------------------------
*/
static herr_t
H5FS__cache_hdr_free_icr(void *_thing)
{
H5FS_t *fspace = (H5FS_t *)_thing; /* Pointer to the object */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Sanity checks */
HDassert(fspace);
HDassert(fspace->cache_info.magic == H5C__H5C_CACHE_ENTRY_T_BAD_MAGIC);
HDassert(fspace->cache_info.type == H5AC_FSPACE_HDR);
/* We should not still be holding on to the free space section info */
HDassert(!fspace->sinfo);
/* Destroy free space header */
if(H5FS__hdr_dest(fspace) < 0)
HGOTO_ERROR(H5E_FSPACE, H5E_CANTFREE, FAIL, "unable to destroy free space header")
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5FS__cache_hdr_free_icr() */
/********************************************************/
/* metadata cache callback definitions for section info */
/********************************************************/
/*-------------------------------------------------------------------------
* Function: H5FS__cache_sinfo_get_load_size()
*
* Purpose: Compute the size of the on disk image of the free space
* manager section info, and place this value in *image_len.
*
* Return: Success: SUCCEED
* Failure: FAIL
*
* Programmer: John Mainzer
* 7/7/14
*
*-------------------------------------------------------------------------
*/
static herr_t
H5FS__cache_sinfo_get_load_size(const void *_udata, size_t *image_len)
{
const H5FS_t *fspace; /* free space manager */
const H5FS_sinfo_cache_ud_t *udata = (const H5FS_sinfo_cache_ud_t *)_udata; /* User data for callback */
FUNC_ENTER_STATIC_NOERR
/* Sanity checks */
HDassert(udata);
fspace = udata->fspace;
HDassert(fspace);
HDassert(fspace->sect_size > 0);
HDassert(image_len);
*image_len = (size_t)(fspace->sect_size);
FUNC_LEAVE_NOAPI(SUCCEED)
} /* end H5FS__cache_sinfo_get_load_size() */
/*-------------------------------------------------------------------------
* Function: H5FS__cache_sinfo_deserialize
*
* Purpose: Given a buffer containing the on disk image of the free space
* manager section info, allocate an instance of H5FS_sinfo_t, load
* it with the data contained in the image, and return a pointer to
* the new instance.
*
*
* Return: Success: Pointer to in core representation
* Failure: NULL
*
* Programmer: John Mainzer
* 7/7/14
*
*-------------------------------------------------------------------------
*/
static void *
H5FS__cache_sinfo_deserialize(const void *_image, size_t len, void *_udata,
hbool_t *dirty)
{
H5FS_sinfo_cache_ud_t *udata = (H5FS_sinfo_cache_ud_t *)_udata; /* User data for callback */
H5FS_t *fspace; /* free space manager */
H5FS_sinfo_t *sinfo = NULL; /* Free space section info */
haddr_t fs_addr; /* Free space header address */
size_t old_sect_size; /* Old section size */
const uint8_t *image = (const uint8_t *)_image; /* Pointer into raw data buffer */
uint32_t stored_chksum; /* Stored metadata checksum */
uint32_t computed_chksum; /* Computed metadata checksum */
void * ret_value; /* Return value */
FUNC_ENTER_STATIC
/* Sanity checks */
HDassert(image);
HDassert(udata);
fspace = udata->fspace;
HDassert(fspace);
HDassert(fspace->sect_size == len);
HDassert(dirty);
/* Allocate a new free space section info */
if(NULL == (sinfo = H5FS_sinfo_new(udata->f, fspace)))
HGOTO_ERROR(H5E_RESOURCE, H5E_NOSPACE, NULL, "memory allocation failed")
/* initialize old_sect_size */
H5_CHECKED_ASSIGN(old_sect_size, size_t, udata->fspace->sect_size, hsize_t);
/* Magic number */
if(HDmemcmp(image, H5FS_SINFO_MAGIC, (size_t)H5_SIZEOF_MAGIC))
HGOTO_ERROR(H5E_FSPACE, H5E_CANTLOAD, NULL, "wrong free space sections signature")
image += H5_SIZEOF_MAGIC;
/* Version */
if(*image++ != H5FS_SINFO_VERSION)
HGOTO_ERROR(H5E_FSPACE, H5E_CANTLOAD, NULL, "wrong free space sections version")
/* Address of free space header for these sections */
H5F_addr_decode(udata->f, &image, &fs_addr);
if(H5F_addr_ne(fs_addr, udata->fspace->addr))
HGOTO_ERROR(H5E_FSPACE, H5E_CANTLOAD, NULL, "incorrect header address for free space sections")
/* Check for any serialized sections */
if(fspace->serial_sect_count > 0) {
hsize_t old_tot_sect_count; /* Total section count from header */
hsize_t old_serial_sect_count; /* Total serializable section count from header */
hsize_t old_ghost_sect_count; /* Total ghost section count from header */
hsize_t old_tot_space; /* Total space managed from header */
unsigned sect_cnt_size; /* The size of the section size counts */
/* Compute the size of the section counts */
sect_cnt_size = H5VM_limit_enc_size((uint64_t)udata->fspace->serial_sect_count);
/* Reset the section count, the "add" routine will update it */
old_tot_sect_count = fspace->tot_sect_count;
old_serial_sect_count = fspace->serial_sect_count;
old_ghost_sect_count = fspace->ghost_sect_count;
old_tot_space = fspace->tot_space;
fspace->tot_sect_count = 0;
fspace->serial_sect_count = 0;
fspace->ghost_sect_count = 0;
fspace->tot_space = 0;
/* Walk through the image, deserializing sections */
do {
hsize_t sect_size; /* Current section size */
size_t node_count; /* # of sections of this size */
size_t u; /* Local index variable */
/* The number of sections of this node's size */
UINT64DECODE_VAR(image, node_count, sect_cnt_size);
HDassert(node_count);
/* The size of the sections for this node */
UINT64DECODE_VAR(image, sect_size, sinfo->sect_len_size);
HDassert(sect_size);
/* Loop over nodes of this size */
for(u = 0; u < node_count; u++) {
H5FS_section_info_t *new_sect; /* Section that was deserialized */
haddr_t sect_addr; /* Address of free space section in the address space */
unsigned sect_type; /* Type of free space section */
unsigned des_flags; /* Flags from deserialize callback */
/* The address of the section */
UINT64DECODE_VAR(image, sect_addr, sinfo->sect_off_size);
/* The type of this section */
sect_type = *image++;
/* Call 'deserialize' callback for this section */
des_flags = 0;
HDassert(udata->fspace->sect_cls[sect_type].deserialize);
if(NULL == (new_sect = (*fspace->sect_cls[sect_type].deserialize) (&fspace->sect_cls[sect_type], udata->dxpl_id, image, sect_addr, sect_size, &des_flags)))
HGOTO_ERROR(H5E_FSPACE, H5E_CANTDECODE, NULL, "can't deserialize section")
/* Update offset in serialization image */
image += udata->fspace->sect_cls[sect_type].serial_size;
/* Insert section in free space manager, unless requested not to */
if(!(des_flags & H5FS_DESERIALIZE_NO_ADD))
if(H5FS_sect_add(udata->f, udata->dxpl_id, udata->fspace, new_sect, H5FS_ADD_DESERIALIZING, NULL) < 0)
HGOTO_ERROR(H5E_FSPACE, H5E_CANTINSERT, NULL, "can't add section to free space manager")
} /* end for */
} while(image < (((const uint8_t *)_image + old_sect_size) - H5FS_SIZEOF_CHKSUM));
/* Sanity check */
HDassert((size_t)(image - (const uint8_t *)_image) == (old_sect_size - H5FS_SIZEOF_CHKSUM));
HDassert(old_sect_size == fspace->sect_size);
HDassert(old_tot_sect_count == fspace->tot_sect_count);
HDassert(old_serial_sect_count == fspace->serial_sect_count);
HDassert(old_ghost_sect_count == fspace->ghost_sect_count);
HDassert(old_tot_space == fspace->tot_space);
} /* end if */
/* Compute checksum on indirect block */
computed_chksum = H5_checksum_metadata((const uint8_t *)_image, (size_t)(image - (const uint8_t *)_image), 0);
/* Metadata checksum */
UINT32DECODE(image, stored_chksum);
/* Verify checksum */
if(stored_chksum != computed_chksum)
HGOTO_ERROR(H5E_FSPACE, H5E_BADVALUE, NULL, "incorrect metadata checksum for fractal heap indirect block")
/* Sanity check */
HDassert((size_t)(image - (const uint8_t *)_image) == old_sect_size);
/* Set return value */
ret_value = sinfo;
done:
if(!ret_value && sinfo)
if(H5FS_sinfo_dest(sinfo) < 0)
HDONE_ERROR(H5E_FSPACE, H5E_CANTFREE, NULL, "unable to destroy free space info")
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5FS__cache_sinfo_deserialize() */
/*-------------------------------------------------------------------------
* Function: H5FS__cache_sinfo_image_len
*
* Purpose: Compute the size of the data structure on disk and return
* it in *image_len.
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Quincey Koziol
* koziol@hdfgroup.org
* August 14, 2013
*
*-------------------------------------------------------------------------
*/
static herr_t
H5FS__cache_sinfo_image_len(const void *_thing, size_t *image_len,
hbool_t H5_ATTR_UNUSED *compressed_ptr, size_t H5_ATTR_UNUSED *compressed_image_len_ptr)
{
const H5FS_sinfo_t *sinfo = (const H5FS_sinfo_t *)_thing; /* Pointer to the object */
const H5FS_t *fspace; /* Free space header */
FUNC_ENTER_STATIC_NOERR
/* Sanity checks */
HDassert(sinfo);
HDassert(sinfo->cache_info.magic == H5C__H5C_CACHE_ENTRY_T_MAGIC);
HDassert(sinfo->cache_info.type == H5AC_FSPACE_SINFO);
fspace = sinfo->fspace;
HDassert(fspace);
HDassert(fspace->cache_info.magic == H5C__H5C_CACHE_ENTRY_T_MAGIC);
HDassert(fspace->cache_info.type == H5AC_FSPACE_HDR);
HDassert(image_len);
/* Set the image length size */
H5_CHECKED_ASSIGN(*image_len, size_t, sinfo->fspace->alloc_sect_size, hsize_t);
FUNC_LEAVE_NOAPI(SUCCEED)
} /* end H5FS__cache_sinfo_image_len() */
/*-------------------------------------------------------------------------
* Function: H5FS__cache_sinfo_pre_serialize
*
* Purpose: The objective of this function is to test to see if file space
* for the section info is located in temporary (AKA imaginary) file
* space. If it is, relocate file space for the section info to
* regular file space.
*
* Return: Success: SUCCEED
* Failure: FAIL
*
* Programmer: John Mainzer
* 7/7/14
*
*-------------------------------------------------------------------------
*/
static herr_t
H5FS__cache_sinfo_pre_serialize(const H5F_t *f, hid_t dxpl_id, void *_thing,
haddr_t addr, size_t len, size_t H5_ATTR_UNUSED compressed_len, haddr_t *new_addr,
size_t *new_len, size_t H5_ATTR_UNUSED *new_compressed_len, unsigned *flags)
{
H5FS_sinfo_t *sinfo = (H5FS_sinfo_t *)_thing; /* Pointer to the object */
H5FS_t *fspace; /* Free space header */
haddr_t sinfo_addr; /* Address for section info */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Sanity checks */
HDassert(f);
HDassert(sinfo);
HDassert(sinfo->cache_info.magic == H5C__H5C_CACHE_ENTRY_T_MAGIC);
HDassert(sinfo->cache_info.type == H5AC_FSPACE_SINFO);
fspace = sinfo->fspace;
HDassert(fspace->cache_info.magic == H5C__H5C_CACHE_ENTRY_T_MAGIC);
HDassert(fspace->cache_info.type == H5AC_FSPACE_HDR);
HDassert(fspace->cache_info.is_pinned);
HDassert(H5F_addr_defined(addr));
HDassert(H5F_addr_eq(fspace->sect_addr, addr));
HDassert(fspace->sect_size == len);
HDassert(new_addr);
HDassert(new_len);
HDassert(flags);
/* we shouldn't be called if the section info is empty */
HDassert(fspace->serial_sect_count > 0);
sinfo_addr = addr; /* this will change if we relocate the section data */
/* Check for section info at temporary address */
if(H5F_IS_TMP_ADDR(f, fspace->sect_addr)) {
/* Sanity check */
HDassert(fspace->sect_size > 0);
HDassert(H5F_addr_eq(fspace->sect_addr, addr));
/* Allocate space for the section info in file */
if(HADDR_UNDEF == (sinfo_addr = H5MF_alloc((H5F_t *)f, H5FD_MEM_FSPACE_SINFO, dxpl_id, fspace->sect_size)))
HGOTO_ERROR(H5E_FSPACE, H5E_NOSPACE, FAIL, "file allocation failed for free space sections")
fspace->alloc_sect_size = (size_t)fspace->sect_size;
/* Sanity check */
HDassert(!H5F_addr_eq(sinfo->fspace->sect_addr, sinfo_addr));
/* Let the metadata cache know the section info moved */
if(H5AC_move_entry((H5F_t *)f, H5AC_FSPACE_SINFO, sinfo->fspace->sect_addr, sinfo_addr) < 0)
HGOTO_ERROR(H5E_FSPACE, H5E_CANTMOVE, FAIL, "unable to move section info")
/* Update the internal address for the section info */
sinfo->fspace->sect_addr = sinfo_addr;
/* Mark free space header as dirty */
if(H5AC_mark_entry_dirty(fspace) < 0)
HGOTO_ERROR(H5E_FSPACE, H5E_CANTMARKDIRTY, FAIL, "unable to mark free space header as dirty")
} /* end if */
if(!H5F_addr_eq(addr, sinfo_addr)) {
*new_addr = sinfo_addr;
*flags = H5C__SERIALIZE_MOVED_FLAG;
} /* end if */
else
*flags = 0;
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5FS__cache_sinfo_pre_serialize() */
/*-------------------------------------------------------------------------
* Function: H5FS__cache_sinfo_serialize
*
* Purpose: Given an instance of H5FS_sinfo_t and a suitably sized buffer,
* serialize the contents of the instance of H5FS_sinfo_t and write
* its contents to the buffer. This buffer will be used to write
* the image of the instance to file.
*
* Return: Success: SUCCEED
* Failure: FAIL
*
* Programmer: John Mainzer
* 6/21/14
*
*-------------------------------------------------------------------------
*/
static herr_t
H5FS__cache_sinfo_serialize(const H5F_t *f, void *_image, size_t len,
void *_thing)
{
H5FS_sinfo_t *sinfo = (H5FS_sinfo_t *)_thing; /* Pointer to the object */
H5FS_t *fspace; /* Free space header */
H5FS_iter_ud_t udata; /* User data for callbacks */
uint8_t *image = (uint8_t *)_image; /* Pointer into raw data buffer */
uint32_t metadata_chksum; /* Computed metadata checksum value */
unsigned bin; /* Current bin we are on */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Sanity checks */
HDassert(f);
HDassert(image);
HDassert(sinfo);
HDassert(sinfo->cache_info.magic == H5C__H5C_CACHE_ENTRY_T_MAGIC);
HDassert(sinfo->cache_info.type == H5AC_FSPACE_SINFO);
fspace = sinfo->fspace;
HDassert(fspace->cache_info.magic == H5C__H5C_CACHE_ENTRY_T_MAGIC);
HDassert(fspace->cache_info.type == H5AC_FSPACE_HDR);
HDassert(fspace->cache_info.is_pinned);
HDassert(fspace->sect_size == len);
HDassert(fspace->sect_cls);
/* Magic number */
HDmemcpy(image, H5FS_SINFO_MAGIC, (size_t)H5_SIZEOF_MAGIC);
image += H5_SIZEOF_MAGIC;
/* Version # */
*image++ = H5FS_SINFO_VERSION;
/* Address of free space header for these sections */
H5F_addr_encode(f, &image, sinfo->fspace->addr);
/* Set up user data for iterator */
udata.sinfo = sinfo;
udata.image = ℑ
udata.sect_cnt_size = H5VM_limit_enc_size((uint64_t)sinfo->fspace->serial_sect_count);
/* Iterate over all the bins */
for(bin = 0; bin < sinfo->nbins; bin++)
/* Check if there are any sections in this bin */
if(sinfo->bins[bin].bin_list)
/* Iterate over list of section size nodes for bin */
if(H5SL_iterate(sinfo->bins[bin].bin_list, H5FS__sinfo_serialize_node_cb, &udata) < 0)
HGOTO_ERROR(H5E_FSPACE, H5E_BADITER, FAIL, "can't iterate over section size nodes")
/* Compute checksum */
metadata_chksum = H5_checksum_metadata(_image, (size_t)(image - (uint8_t *)_image), 0);
/* Metadata checksum */
UINT32ENCODE(image, metadata_chksum);
/* Sanity check */
HDassert((size_t)(image - (uint8_t *)_image) == sinfo->fspace->sect_size);
HDassert(sinfo->fspace->sect_size <= sinfo->fspace->alloc_sect_size);
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5FS__cache_sinfo_serialize() */
/*-------------------------------------------------------------------------
* Function: H5FS__cache_sinfo_free_icr
*
* Purpose: Free the memory used for the in core representation of the
* free space manager section info.
*
* Note: The metadata cache sets the object's cache_info.magic to
* H5C__H5C_CACHE_ENTRY_T_BAD_MAGIC before calling a free_icr
* callback (checked in assert).
*
* Return: Success: SUCCEED
* Failure: FAIL
*
* Programmer: John Mainzer
* 6/21/14
*
*-------------------------------------------------------------------------
*/
static herr_t
H5FS__cache_sinfo_free_icr(void *_thing)
{
H5FS_sinfo_t *sinfo = (H5FS_sinfo_t *)_thing; /* Pointer to the object */
H5FS_t *fspace; /* Free space header */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Sanity checks */
HDassert(sinfo);
HDassert(sinfo->cache_info.magic == H5C__H5C_CACHE_ENTRY_T_BAD_MAGIC);
HDassert(sinfo->cache_info.type == H5AC_FSPACE_SINFO);
fspace = sinfo->fspace;
HDassert(fspace->cache_info.magic == H5C__H5C_CACHE_ENTRY_T_MAGIC);
HDassert(fspace->cache_info.type == H5AC_FSPACE_HDR);
HDassert(fspace->cache_info.is_pinned);
/* Destroy free space info */
if(H5FS_sinfo_dest(sinfo) < 0)
HGOTO_ERROR(H5E_FSPACE, H5E_CANTFREE, FAIL, "unable to destroy free space info")
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* end H5FS__cache_sinfo_free_icr() */
/*-------------------------------------------------------------------------
* Function: H5FS__sinfo_serialize_sect_cb
*
* Purpose: Skip list iterator callback to serialize free space sections
* of a particular size
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Quincey Koziol
* Monday, May 8, 2006
*
*-------------------------------------------------------------------------
*/
static herr_t
H5FS__sinfo_serialize_sect_cb(void *_item, void H5_ATTR_UNUSED *key, void *_udata)
{
H5FS_section_class_t *sect_cls; /* Class of section */
H5FS_section_info_t *sect= (H5FS_section_info_t *)_item; /* Free space section to work on */
H5FS_iter_ud_t *udata = (H5FS_iter_ud_t *)_udata; /* Callback info */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Check arguments. */
HDassert(sect);
HDassert(udata->sinfo);
HDassert(udata->image);
/* Get section's class */
sect_cls = &udata->sinfo->fspace->sect_cls[sect->type];
/* Check if this section should be serialized (i.e. is not a ghost section) */
if(!(sect_cls->flags & H5FS_CLS_GHOST_OBJ)) {
/* The address of the section */
UINT64ENCODE_VAR(*udata->image, sect->addr, udata->sinfo->sect_off_size);
/* The type of this section */
*(*udata->image)++ = (uint8_t)sect->type;
/* Call 'serialize' callback for this section */
if(sect_cls->serialize) {
if((*sect_cls->serialize)(sect_cls, sect, *udata->image) < 0)
HGOTO_ERROR(H5E_FSPACE, H5E_CANTSERIALIZE, FAIL, "can't syncronize section")
/* Update offset in serialization buffer */
(*udata->image) += sect_cls->serial_size;
} /* end if */
else
HDassert(sect_cls->serial_size == 0);
} /* end if */
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* H5FS__sinfo_serialize_sect_cb() */
/*-------------------------------------------------------------------------
* Function: H5FS__sinfo_serialize_node_cb
*
* Purpose: Skip list iterator callback to serialize free space sections
* in a bin
*
* Return: Non-negative on success/Negative on failure
*
* Programmer: Quincey Koziol
* Monday, May 8, 2006
*
*-------------------------------------------------------------------------
*/
static herr_t
H5FS__sinfo_serialize_node_cb(void *_item, void H5_ATTR_UNUSED *key, void *_udata)
{
H5FS_node_t *fspace_node = (H5FS_node_t *)_item; /* Free space size node to work on */
H5FS_iter_ud_t *udata = (H5FS_iter_ud_t *)_udata; /* Callback info */
herr_t ret_value = SUCCEED; /* Return value */
FUNC_ENTER_STATIC
/* Check arguments. */
HDassert(fspace_node);
HDassert(udata->sinfo);
HDassert(udata->image);
/* Check if this node has any serializable sections */
if(fspace_node->serial_count > 0) {
/* The number of serializable sections of this node's size */
UINT64ENCODE_VAR(*udata->image, fspace_node->serial_count, udata->sect_cnt_size);
/* The size of the sections for this node */
UINT64ENCODE_VAR(*udata->image, fspace_node->sect_size, udata->sinfo->sect_len_size);
/* Iterate through all the sections of this size */
HDassert(fspace_node->sect_list);
if(H5SL_iterate(fspace_node->sect_list, H5FS__sinfo_serialize_sect_cb, udata) < 0)
HGOTO_ERROR(H5E_FSPACE, H5E_BADITER, FAIL, "can't iterate over section nodes")
} /* end if */
done:
FUNC_LEAVE_NOAPI(ret_value)
} /* H5FS__sinfo_serialize_node_cb() */
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