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/*-------------------------------------------------------------------------
 * Copyright (C) 1997-2001 National Center for Supercomputing Applications
 *			   All rights reserved.
 *
 *-------------------------------------------------------------------------
 *
 * Created:		H5Oprivate.h
 *			Aug  5 1997
 *			Robb Matzke <matzke@llnl.gov>
 *
 * Purpose:		Object header private include file.
 *
 * Modifications:
 *
 *-------------------------------------------------------------------------
 */
#ifndef _H5Oprivate_H
#define _H5Oprivate_H

#include "H5Opublic.h"
#include "H5Dpublic.h"

/* Private headers needed by this file */
#include "H5private.h"
#include "H5Fprivate.h"
#include "H5Gprivate.h"
#include "H5HGprivate.h"
#include "H5Tprivate.h"
#include "H5Spublic.h"
#include "H5Zprivate.h"

/*
 * Align messages on 8-byte boundaries because we would like to copy the
 * object header chunks directly into memory and operate on them there, even
 * on 64-bit architectures.  This allows us to reduce the number of disk I/O
 * requests with a minimum amount of mem-to-mem copies.
 */
#define H5O_ALIGN(X)		(8*(((X)+8-1)/8))

#define H5O_MIN_SIZE	H5O_ALIGN(32)	/*min obj header data size	     */
#define H5O_MAX_SIZE	65536	        /*max obj header data size	     */
#define H5O_NMESGS	32		/*initial number of messages	     */
#define H5O_NCHUNKS	8		/*initial number of chunks	     */
#define H5O_NEW_MESG	(-1)		/*new message			     */
#define H5O_ALL		(-1)		/*delete all messages of type	     */

/* Flags which are part of a message */
#define H5O_FLAG_CONSTANT	0x01u
#define H5O_FLAG_SHARED		0x02u
#define H5O_FLAG_BITS		0x03u
#define H5O_VERSION		1

/*
 * Size of object header header.
 */
#define H5O_SIZEOF_HDR(F)						      \
    H5O_ALIGN(1 +		/*version number	*/		      \
	      1 +		/*alignment		*/		      \
	      2 +		/*number of messages	*/		      \
	      4 +		/*reference count	*/		      \
	      4)		/*header data size	*/

/*
 * Size of message header
 */
#define H5O_SIZEOF_MSGHDR(F)						      \
     H5O_ALIGN(2 +	/*message type		*/			      \
	       2 +	/*sizeof message data	*/			      \
	       4)	/*reserved		*/

struct H5O_shared_t;
typedef struct H5O_class_t {
    int	id;				 /*message type ID on disk   */
    const char	*name;				 /*for debugging             */
    size_t	native_size;			 /*size of native message    */
    void	*(*decode)(H5F_t*, const uint8_t*, struct H5O_shared_t*);
    herr_t	(*encode)(H5F_t*, uint8_t*, const void*);
    void	*(*copy)(const void*, void*);    /*copy native value         */
    size_t	(*raw_size)(H5F_t*, const void*);/*sizeof raw val	     */
    herr_t	(*reset)(void *);		 /*free nested data structs  */
    herr_t	(*free)(void *);		 /*free main data struct  */
    herr_t	(*get_share)(H5F_t*, const void*, struct H5O_shared_t*);
    herr_t  (*set_share)(H5F_t*, void*, const struct H5O_shared_t*);
    herr_t	(*debug)(H5F_t*, const void*, FILE*, int, int);
} H5O_class_t;

typedef struct H5O_mesg_t {
    const H5O_class_t	*type;		/*type of message		     */
    hbool_t		dirty;		/*raw out of date wrt native	     */
    uint8_t		flags;		/*message flags			     */
    void		*native;	/*native format message		     */
    uint8_t		*raw;		/*ptr to raw data		     */
    size_t		raw_size;	/*size with alignment		     */
    unsigned		chunkno;	/*chunk number for this mesg	     */
} H5O_mesg_t;

typedef struct H5O_chunk_t {
    hbool_t	dirty;			/*dirty flag			     */
    haddr_t	addr;			/*chunk file address		     */
    size_t	size;			/*chunk size			     */
    uint8_t	*image;			/*image of file			     */
} H5O_chunk_t;

typedef struct H5O_t {
    H5AC_info_t cache_info; /* Information for H5AC cache functions, _must_ be */
                            /* first field in structure */
    hbool_t	dirty;			/*out of data wrt disk		     */
    int	version;		/*version number		     */
    int	nlink;			/*link count			     */
    unsigned	nmesgs;			/*number of messages		     */
    unsigned	alloc_nmesgs;	/*number of message slots	     */
    H5O_mesg_t	*mesg;		/*array of messages		     */
    unsigned	nchunks;		/*number of chunks		     */
    unsigned	alloc_nchunks;	/*chunks allocated		     */
    H5O_chunk_t *chunk;		/*array of chunks		     */
} H5O_t;

/*
 * Null Message.
 */
#define H5O_NULL_ID	0x0000
__DLLVAR__ const H5O_class_t H5O_NULL[1];

/*
 * Simple Data Space Message.
 */
#define H5O_SDSPACE_ID	0x0001
__DLLVAR__ const H5O_class_t H5O_SDSPACE[1];

/* operates on an H5S_t struct */

/*
 * Data Type Message.
 */
#define H5O_DTYPE_ID	0x0003
__DLLVAR__ const H5O_class_t H5O_DTYPE[1];

/* operates on an H5T_t struct */

/*
 * Old Fill Value Message.
 */
#define H5O_FILL_ID         0x0004
__DLLVAR__ const H5O_class_t    H5O_FILL[1];

typedef struct H5O_fill_t {
    H5T_t               *type;          /*type. Null implies same as dataset */
    size_t              size;           /*number of bytes in the fill value  */
    void                *buf;           /*the fill value                     */
} H5O_fill_t;

/*
 * New Fill Value Message.  The new fill value message is fill value plus 
 * space allocation time and fill value writing time and whether fill 
 * value is defined.
 */
#define H5O_FILL_NEW_ID           0x0005
__DLLVAR__ const H5O_class_t	H5O_FILL_NEW[1];

typedef struct H5O_fill_new_t {
    H5T_t		*type;		/*type. Null implies same as dataset */
    ssize_t		size;		/*number of bytes in the fill value  */
    void		*buf;		/*the fill value		     */
    H5D_alloc_time_t	alloc_time;	/* time to allocate space	     */
    H5D_fill_time_t	fill_time;	/* time to write fill value	     */	
    htri_t		fill_defined;   /* whether fill value is defined     */	
} H5O_fill_new_t;

/*
 * External File List Message
 */
#define H5O_EFL_ID		0x0007	/*external file list id		     */
#define H5O_EFL_ALLOC		16	/*number of slots to alloc at once   */
#define H5O_EFL_UNLIMITED	H5F_UNLIMITED /*max possible file size	     */
__DLLVAR__ const H5O_class_t H5O_EFL[1];/*external file list class	     */

typedef struct H5O_efl_entry_t {
    size_t	name_offset;	/*offset of name within heap	     */
    char	*name;			/*malloc'd name			     */
    off_t	offset;			/*offset of data within file	     */
    hsize_t	size;			/*size allocated within file	     */
} H5O_efl_entry_t;

typedef struct H5O_efl_t {
    haddr_t	heap_addr;		/*address of name heap		     */
    int	nalloc;			/*number of slots allocated	     */
    int	nused;			/*number of slots used		     */
    H5O_efl_entry_t *slot;	/*array of external file entries     */
} H5O_efl_t;

/*
 * Data Layout Message.
 */
#define H5O_LAYOUT_ID		0x0008
#define H5O_LAYOUT_NDIMS	(H5S_MAX_RANK+1)
__DLLVAR__ const H5O_class_t H5O_LAYOUT[1];

typedef struct H5O_layout_t {
    int		type;			/*type of layout, H5D_layout_t	     */
    haddr_t	addr;			/*file address of data or B-tree     */ 
    unsigned	ndims;			/*num dimensions in stored data	     */
    hsize_t	dim[H5O_LAYOUT_NDIMS];	/*size of data or chunk in bytes     */
    hbool_t     dirty;                  /*dirty flag for compact dataset     */ 
    size_t      size;                   /*size of compact dataset in bytes   */
    void        *buf;                   /*buffer for compact dataset         */
} H5O_layout_t;

/*
 * Filter pipeline message.
 */
#define H5O_PLINE_ID	0x000b
__DLLVAR__ const H5O_class_t H5O_PLINE[1];

typedef struct H5O_pline_t {
    size_t	nfilters;		/*num filters defined		     */
    size_t	nalloc;			/*num elements in `filter' array     */
    struct {
        H5Z_filter_t	id;		/*filter identification number	     */
        unsigned		flags;		/*defn and invocation flags	     */
        char		*name;		/*optional filter name		     */
        size_t		cd_nelmts;	/*number of elements in cd_values[]  */
        unsigned		*cd_values;	/*client data values		     */
    } *filter;				/*array of filters		     */
} H5O_pline_t;

/*
 * Attribute Message.
 */
#define H5O_ATTR_ID	0x000c
__DLLVAR__ const H5O_class_t H5O_ATTR[1];

/* operates on an H5A_t struct */

/*
 * Object name message.
 */
#define H5O_NAME_ID	0x000d
__DLLVAR__ const H5O_class_t H5O_NAME[1];

typedef struct H5O_name_t {
    char	*s;			/*ptr to malloc'd memory	     */
} H5O_name_t;

/*
 * Modification time message.  The message is just a `time_t'.
 */
#define H5O_MTIME_ID	0x000e
__DLLVAR__ const H5O_class_t H5O_MTIME[1];

/*
 * Shared object message.  This message ID never really appears in an object
 * header.  Instead, bit 2 of the `Flags' field will be set and the ID field
 * will be the ID of the pointed-to message.
 */
#define H5O_SHARED_ID	0x000f
__DLLVAR__ const H5O_class_t H5O_SHARED[1];

typedef struct H5O_shared_t {
    hbool_t		in_gh;		/*shared by global heap?	     */
    union {
	H5HG_t		gh;		/*global heap info		     */
	H5G_entry_t	ent;		/*symbol table entry info	     */
    } u;
} H5O_shared_t;

/*
 * Object header continuation message.
 */
#define H5O_CONT_ID	0x0010
__DLLVAR__ const H5O_class_t H5O_CONT[1];

typedef struct H5O_cont_t {
    haddr_t	addr;			/*address of continuation block	     */
    size_t	size;			/*size of continuation block	     */

    /* the following field(s) do not appear on disk */
    unsigned	chunkno;		/*chunk this mesg refers to	     */
} H5O_cont_t;

/*
 * Symbol table message.
 */
#define H5O_STAB_ID	0x0011
__DLLVAR__ const H5O_class_t H5O_STAB[1];

__DLL__ void *H5O_stab_fast(const H5G_cache_t *cache, const H5O_class_t *type,
			    void *_mesg);

typedef struct H5O_stab_t {
    haddr_t	btree_addr;		/*address of B-tree		     */
    haddr_t	heap_addr;		/*address of name heap		     */
} H5O_stab_t;

/* General message operators */
__DLL__ herr_t H5O_create(H5F_t *f, size_t size_hint,
			  H5G_entry_t *ent/*out*/);
__DLL__ herr_t H5O_open(H5G_entry_t *ent);
__DLL__ herr_t H5O_close(H5G_entry_t *ent);
__DLL__ int H5O_link(H5G_entry_t *ent, int adjust);
__DLL__ int H5O_count(H5G_entry_t *ent, const H5O_class_t *type);
__DLL__ htri_t H5O_exists(H5G_entry_t *ent, const H5O_class_t *type,
			  int sequence);
__DLL__ void *H5O_read(H5G_entry_t *ent, const H5O_class_t *type,
		       int sequence, void *mesg);
__DLL__ int H5O_modify(H5G_entry_t *ent, const H5O_class_t *type,
			int overwrite, unsigned flags, const void *mesg);
__DLL__ herr_t H5O_touch(H5G_entry_t *ent, hbool_t force);
__DLL__ herr_t H5O_remove(H5G_entry_t *ent, const H5O_class_t *type,
			  int sequence);
__DLL__ herr_t H5O_reset(const H5O_class_t *type, void *native);
__DLL__ void *H5O_free(const H5O_class_t *type, void *mesg);
__DLL__ void *H5O_copy(const H5O_class_t *type, const void *mesg, void *dst);
__DLL__ herr_t H5O_share(H5F_t *f, const H5O_class_t *type, const void *mesg,
			 H5HG_t *hobj/*out*/);
__DLL__ herr_t H5O_debug(H5F_t *f, haddr_t addr, FILE * stream, int indent,
			 int fwidth);

/* Layout operators */
__DLL__ size_t H5O_layout_meta_size(H5F_t *f, const void *_mesg);

/* EFL operators */
__DLL__ hsize_t H5O_efl_total_size(H5O_efl_t *efl);
__DLL__ herr_t H5O_efl_read(H5F_t *f, const H5O_efl_t *efl, haddr_t addr,
			    size_t size, uint8_t *buf);
__DLL__ herr_t H5O_efl_write(H5F_t *f, const H5O_efl_t *efl, haddr_t addr,
			     size_t size, const uint8_t *buf);

/* Fill value operators */
__DLL__ herr_t H5O_fill_convert(void *_fill, H5T_t *type);

#endif