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/* Store I/O

   Copyright (C) 1995, 1996 Free Software Foundation, Inc.

   Written by Miles Bader <miles@gnu.ai.mit.edu>

   This file is part of the GNU Hurd.

   The GNU Hurd is free software; you can redistribute it and/or
   modify it under the terms of the GNU General Public License as
   published by the Free Software Foundation; either version 2, or (at
   your option) any later version.

   The GNU Hurd is distributed in the hope that it will be useful, but
   WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
   General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */

#ifndef __STORE_H__
#define __STORE_H__

#include <sys/types.h>

#include <mach.h>
#include <device/device.h>
#include <hurd/hurd_types.h>

/* A portion of a store.  If START == -1, it's a hole.  */
struct store_run
{
  off_t start, length;
};

struct store
{
  /* If this store was created using store_create, the file from which we got
     our store.  */
  file_t source;

  /* Address ranges in the underlying storage which make up our contiguous
     address space.  In units of BLOCK_SIZE, below.  */
  struct store_run *runs;	/* Malloced */
  size_t num_runs;		/* Length of RUNS.  */

  /* Maximum valid offset.  This is the same as SIZE, but in blocks.  */
  off_t end;

  /* WRAP_SRC is the sum of the run lengths in RUNS.  If this is less than
     END, then RUNS describes a repeating pattern, of length WRAP_SRC -- each
     successive iteration having an additional offset of WRAP_DST.  */
  off_t wrap_src;
  off_t wrap_dst;		/* Only meaningful if WRAP_SRC < END */

  /* Handles for the underlying storage.  */
  char *name;			/* Malloced */
  mach_port_t port;		/* Send right */

  /* The size of a `block' on this storage.  */
  size_t block_size;

  /* The number of blocks (of size BLOCK_SIZE) in this storage.  */
  size_t blocks;
  /* The number of bytes in this storage, including holes.  */
  size_t size;

  /* Log_2 (BLOCK_SIZE) or 0 if not a power of 2. */
  unsigned log2_block_size;
  /* Log_2 (VM_PAGE_SIZE / BLOCK_SIZE); only valid if LOG2_BLOCK_SIZE is.  */
  unsigned log2_blocks_per_page;

  /* Random flags.  */
  int flags;

  void *misc;			/* malloced */
  size_t misc_len;

  const struct store_class *class;

  /* A list of sub-stores.  The interpretation of this is type-specific.  */
  struct store **children;
  size_t num_children;

  void *hook;			/* Type specific noise.  */
};

/* Store flags.  These are in addition to the STORAGE_ flags defined in
   <hurd/hurd_types.h>.  XXX synchronize these values.  */

/* Flags that reflect something immutable about the object.  */
#define STORE_IMMUTABLE_FLAGS	0x00FF

/* Flags implemented by generic store code.  */
#define STORE_READONLY		0x0100	/* No writing allowed. */
#define STORE_NO_FILEIO		0x0200	/* If store_create can't fetch store
					   information, don't create a store
					   using file io instead.  */
#define STORE_GENERIC_FLAGS	(STORE_READONLY | STORE_NO_FILEIO)

/* Flags implemented by each backend.  */
#define STORE_HARD_READONLY	0x0400	/* Can't be made writable.  */
#define STORE_ENFORCED		0x0800	/* Range is enforced by device.  */
#define STORE_BACKEND_SPEC_BASE	0x1000 /* Here up are backend-specific */
#define STORE_BACKEND_FLAGS	(STORE_HARD_READONLY | STORE_ENFORCED \
				 | ~(STORE_BACKEND_SPEC_BASE - 1))

typedef error_t (*store_write_meth_t)(struct store *store,
				      off_t addr, size_t index,
				      void *buf, mach_msg_type_number_t len,
				      mach_msg_type_number_t *amount);
typedef error_t (*store_read_meth_t)(struct store *store,
				     off_t addr, size_t index,
				     mach_msg_type_number_t amount,
				     void **buf, mach_msg_type_number_t *len);

struct store_enc;		/* fwd decl */

struct store_class
{
  /* The type of storage this is (see STORAGE_ in hurd/hurd_types.h).  */
  enum file_storage_class id;

  /* Name of the class.  */
  char *name;

  /* Read up to AMOUNT bytes at the underlying address ADDR from the storage
     into BUF and LEN.  INDEX varies from 0 to the number of runs in STORE. */
  store_read_meth_t read;
  /* Write up to LEN bytes from BUF to the storage at the underlying address
     ADDR.  INDEX varies from 0 to the number of runs in STORE. */
  store_write_meth_t write;

  /* To the lengths of each for the four arrays in ENC, add how much STORE
     would need to be encoded.  */
  error_t (*allocate_encoding)(const struct store *store,
			       struct store_enc *enc);
  /* Append the encoding for STORE to ENC.  */
  error_t (*encode) (const struct store *store, struct store_enc *enc);

  /* Decode from ENC a new store, which return in STORE.  CLASSES is used to
     lookup child classes.  */
  error_t (*decode) (struct store_enc *enc,
		     const struct store_class *const *classes,
		     struct store **store);

  /* Modify flags that reflect backend state, such as STORE_HARD_READONLY and
     STORE_ENFORCED.  */
  error_t (*set_flags) (struct store *store, int flags);
  error_t (*clear_flags) (struct store *store, int flags);

  /* Called just before deallocating STORE.  */
  void (*cleanup) (struct store *store);

  /* Copy any format-dependent fields in FROM to TO; if there's some reason
     why the copy can't be made, an error should be returned.  This call is
     made after all format-indendependent fields have been cloned.  */
  error_t (*clone) (const struct store *from, struct store *to);

  /* Return in STORE a store that only contains the parts of SOURCE as
     enumerated in RUNS & RUNS_LEN, consuming SOURCE in the process.  The
     default behavior, if REMAP is 0, is to replace SOURCE's run list with
     the subset selected by RUNS, and return SOURCE.  */
  error_t (*remap) (struct store *source,
		    const struct store_run *runs, size_t num_runs,
		    struct store **store);

  /* Open a new store called NAME in this class.  CLASSES is supplied in case
     it's desirable to open a sub-store in some manner.  */
  error_t (*open) (const char *name, int flags,
		   const struct store_class *const *classes,
		   struct store **store);

  /* Given a user argument ARG, this function should check it for syntactic
     validaty, or print a syntax error, using ARGP_STATE in the normal
     manner; if zero is returned, then this argument is assumed valid, and
     can be passed to the open function.  If ARG is 0, then there were *no*
     arguments specified; in this case, returning EINVAL means that this is
     not kosher.  If PARSE is 0, then it is assumed that if this class has an
     OPEN function, then validity can't be syntactically determined.  */
  error_t (*validate_name) (const char *name,
			    const struct store_class *const *classes);
};

/* Return a new store in STORE, which refers to the storage underlying
   SOURCE.  CLASSES is used to select classes specified by the provider; if
   it is 0, STORE_STD_CLASSES is used.  FLAGS is set with store_set_flags.  A
   reference to SOURCE is created (but may be destroyed with
   store_close_source).  */
error_t store_create (file_t source, int flags,
		      const struct store_class *const *classes,
		      struct store **store);

void store_free (struct store *store);

/* Open the file NAME, and return a new store in STORE, which refers to the
   storage underlying it.  CLASSES is used to select classes specified by the
   provider; if it is 0, STORE_STD_CLASSES is used.  FLAGS is set with
   store_set_flags.  A reference to the open file is created (but may be
   destroyed with store_close_source).  */
error_t store_open (const char *name, int flags,
		    const struct store_class *const *classes,
		    struct store **store);

/* Allocate a new store structure with class CLASS, and the various other
   fields initialized to the given parameters.  */
struct store *
_make_store (const struct store_class *class, mach_port_t port, int flags,
	     size_t block_size, const struct store_run *runs, size_t num_runs,
	     off_t end);

/* Set STORE's current runs list to (a copy of) RUNS and NUM_RUNS.  */
error_t store_set_runs (struct store *store,
			const struct store_run *runs, size_t num_runs);

/* Set STORE's current children to (a copy of) CHILDREN and NUM_CHILDREN
   (note that just the vector CHILDREN is copied, not the actual children).  */
error_t store_set_children (struct store *store,
			    struct store *const *children, size_t num_children);

/* Sets the name associated with STORE to a copy of NAME.  */
error_t store_set_name (struct store *store, const char *name);

/* Add FLAGS to STORE's currently set flags.  */
error_t store_set_flags (struct store *store, int flags);

/* Remove FLAGS from STORE's currently set flags.  */
error_t store_clear_flags (struct store *store, int flags);

/* Fills in the values of the various fields in STORE that are derivable from
   the set of runs & the block size.  */
void _store_derive (struct store *store);

/* Return in TO a copy of FROM.  */
error_t store_clone (struct store *from, struct store **to);

/* Return a store in STORE that reflects the blocks in RUNS & RUNS_LEN from
   source; SOURCE is consumed, but not RUNS.  Unlike the store_remap_create
   function, this may simply modify SOURCE and return it.  */
error_t store_remap (struct store *source,
		     const struct store_run *runs, size_t num_runs,
		     struct store **store);

/* Write LEN bytes from BUF to STORE at ADDR.  Returns the amount written in
   AMOUNT (in bytes).  ADDR is in BLOCKS (as defined by STORE->block_size).  */
error_t store_write (struct store *store,
		     off_t addr, void *buf, size_t len, size_t *amount);

/* Read AMOUNT bytes from STORE at ADDR into BUF & LEN (which following the
   usual mach buffer-return semantics) to STORE at ADDR.  ADDR is in BLOCKS
   (as defined by STORE->block_size).  Note that LEN is in bytes.  */
error_t store_read (struct store *store,
		    off_t addr, size_t amount, void **buf, size_t *len);

/* If STORE was created using store_create, remove the reference to the
   source from which it was created.  */
void store_close_source (struct store *store);

#if 0

/* Return a memory object paging on STORE.  [among other reasons,] this may
   fail because store contains non-contiguous regions on the underlying
   object.  In such a case you can try calling some of the routines below to
   get a pager.  */
error_t store_map (struct store *store, vm_prot_t prot, ...,
		   mach_port_t *pager);

/* Returns a memory object paging on the file from which STORE was created.
   If STORE wasn't created using store_create, or the source was destroyed
   using store_close_source, this will fail.  */
error_t store_map_source (struct store *store, vm_prot_t prot, ...,
			  mach_port_t *pager)

/* Create a new pager and paging threads paging on STORE, and return the
   resulting memory object in PAGER.  */
error_t store_create_pager (struct store *store, vm_prot_t prot, ...,
			    mach_port_t *pager)

#endif

/* Creating specific types of stores.  */

/* Return a new store in STORE referring to the mach device DEVICE.  Consumes
   the send right DEVICE.  */
error_t store_device_create (device_t device, int flags, struct store **store);

/* Like store_device_create, but doesn't query the device for information.   */
error_t _store_device_create (device_t device, int flags, size_t block_size,
			      const struct store_run *runs, size_t num_runs,
			      struct store **store);

/* Open the device NAME, and return the corresponding store in STORE.  */
error_t store_device_open (const char *name, int flags, struct store **store);

/* Return a new store in STORE referring to the file FILE.  Unlike
   store_create, this will always use file i/o, even it would be possible to
   be more direct.  This may work in more cases, for instance if the file has
   holes.  Consumes the send right FILE.  */
error_t store_file_create (file_t file, int flags, struct store **store);

/* Like store_file_create, but doesn't query the file for information.  */
error_t _store_file_create (file_t file, int flags, size_t block_size,
			    const struct store_run *runs, size_t num_runs,
			    struct store **store);

/* Open the file NAME, and return the corresponding store in STORE.  */
error_t store_file_open (const char *name, int flags, struct store **store);

/* Return a new store in STORE that interleaves all the stores in STRIPES
   (NUM_STRIPES of them) every INTERLEAVE bytes; INTERLEAVE must be an
   integer multiple of each stripe's block size.  The stores in STRIPES are
   consumed -- that is, will be freed when this store is (however, the
   *array* STRIPES is copied, and so should be freed by the caller).  */
error_t store_ileave_create (struct store * const *stripes, size_t num_stripes,
			     off_t interleave, int flags, struct store **store);

/* Return a new store in STORE that concatenates all the stores in STORES
   (NUM_STORES of them).  The stores in STRIPES are consumed -- that is, will
   be freed when this store is (however, the *array* STRIPES is copied, and
   so should be freed by the caller).  */
error_t store_concat_create (struct store * const *stores, size_t num_stores,
			     int flags, struct store **store);

/* Return a new store in STORE that reflects the blocks in RUNS & RUNS_LEN
   from SOURCE; SOURCE is consumed, but RUNS is not.  Unlike the store_remap
   function, this function always operates by creating a new store of type
   `remap' which has SOURCE as a child, and so may be less efficient than
   store_remap for some types of stores.  */
error_t store_remap_create (struct store *source,
			    const struct store_run *runs, size_t num_runs,
			    int flags, struct store **store);

/* Return a new zero store SIZE bytes long in STORE.  */
error_t store_zero_create (size_t size, int flags, struct store **store);

/* Standard store classes implemented by libstore.  */
extern const struct store_class *const store_std_classes[];

extern const struct store_class store_device_class;
extern const struct store_class store_file_class;
extern const struct store_class store_zero_class;
extern const struct store_class store_ileave_class;
extern const struct store_class store_concat_class;
extern const struct store_class store_remap_class;
extern const struct store_class store_query_class;

/* Used to hold the various bits that make up the representation of a store
   for transmission via rpc.  See <hurd/hurd_types.h> for an explanation of
   the encodings for the various storage types.  */
struct store_enc
{
  /* Each of the four vectors used.  All are vm_allocated.  */
  mach_port_t *ports;
  int *ints;
  off_t *offsets;
  char *data;

  /* The sizes of the vectors.  */
  mach_msg_type_number_t num_ports, num_ints, num_offsets, data_len;

  /* Offsets into the above vectors, for an encoding/decoding in progress. */
  size_t cur_port, cur_int, cur_offset, cur_data;

  /* Each of these is an `initial' version of the associated vector.  When
     store_enc_dealloc is called, any vector that is the same as its `init_'
     version won't be deallocated.  */
  mach_port_t *init_ports;
  int *init_ints;
  off_t *init_offsets;
  char *init_data;
};

/* Initialize ENC.  The given vector and sizes will be used for the encoding
   if they are big enough (otherwise new ones will be automatically
   allocated).  */
void store_enc_init (struct store_enc *enc,
		     mach_port_t *ports, mach_msg_type_number_t num_ports,
		     int *ints, mach_msg_type_number_t num_ints,
		     off_t *offsets, mach_msg_type_number_t num_offsets,
		     char *data, mach_msg_type_number_t data_len);

/* Deallocate storage used by the fields in ENC (but nothing is done with ENC
   itself).  */
void store_enc_dealloc (struct store_enc *enc);

/* Copy out the parameters from ENC into the given variables suitably for
   returning from a file_get_storage_info rpc, and deallocate ENC.  */
void store_enc_return (struct store_enc *enc,
		       mach_port_t **ports, mach_msg_type_number_t *num_ports,
		       int **ints, mach_msg_type_number_t *num_ints,
		       off_t **offsets, mach_msg_type_number_t *num_offsets,
		       char **data, mach_msg_type_number_t *data_len);

/* Encode STORE into the given return variables, suitably for returning from a
   file_get_storage_info rpc.  */
error_t store_return (const struct store *store,
		      mach_port_t **ports, mach_msg_type_number_t *num_ports,
		      int **ints, mach_msg_type_number_t *num_ints,
		      off_t **offsets, mach_msg_type_number_t *num_offsets,
		      char **data, mach_msg_type_number_t *data_len);

/* Encode STORE into ENC, which should have been prepared with
   store_enc_init, or return an error.  The contents of ENC may then be
   return as the value of file_get_storage_info; if for some reason this
   can't be done, store_enc_dealloc may be used to deallocate the mmemory
   used by the unsent vectors.  */
error_t store_encode (const struct store *store, struct store_enc *enc);

/* Decode ENC, either returning a new store in STORE, or an error.  CLASSES
   defines the mapping from hurd storage class ids to store classes; if it is
   0, STORE_STD_CLASSES is used.  If nothing else is to be done with ENC, its
   contents may then be freed using store_enc_dealloc.  */
error_t store_decode (struct store_enc *enc,
		      const struct store_class *const *classes,
		      struct store **store);

/* Calls the allocate_encoding method in each child store of STORE,
   propagating any errors.  If any child does not hae such a method,
   EOPNOTSUPP is returned.  */
error_t store_allocate_child_encodings (const struct store *store,
					struct store_enc *enc);

/* Calls the encode method in each child store of STORE, propagating any
   errors.  If any child does not hae such a method, EOPNOTSUPP is returned. */
error_t store_encode_children (const struct store *store,
			       struct store_enc *enc);

/* Decodes NUM_CHILDREN from ENC, storing the results into successive
   positions in CHILDREN.  */
error_t store_decode_children (struct store_enc *enc, int num_children,
			       const struct store_class *const *classes,
			       struct store **children);

/* Call FUN with the vector RUNS of length NUM_RUNS extracted from ENC.  */
error_t store_with_decoded_runs (struct store_enc *enc, size_t num_runs,
				 error_t (*fun) (const struct store_run *runs,
						 size_t num_runs));

/* Standard encoding used for most leaf store types.  */
error_t store_std_leaf_allocate_encoding (const struct store *store,
					  struct store_enc *enc);
error_t store_std_leaf_encode (const struct store *store,
			       struct store_enc *enc);

/* Creation function signature used by store_std_leaf_decode.  */
typedef error_t (*store_std_leaf_create_t)(mach_port_t port,
					   int flags,
					   size_t block_size,
					   const struct store_run *runs,
					   size_t num_runs,
					   struct store **store);

/* Decodes the standard leaf encoding that's common to various builtin
   formats, and calls CREATE to actually create the store.  */
error_t store_std_leaf_decode (struct store_enc *enc,
			       store_std_leaf_create_t create,
			       struct store **store);

/* An argument parser that may be used for parsing a simple command line
   specification for stores.  The accompanying input parameter must be a
   pointer to a struct store_argp_params.  */
extern struct argp store_argp;

/* The structure used to pass args back and forth from STORE_ARGP.  */
struct store_argp_params
{
  /* The resulting parsed result.  */
  struct store_parsed *result;

  /* If --store-type isn't specified use this; 0 is equivalent to "query".  */
  const char *default_type;

  /* The set of classes used to validate store-types and argument syntax. */
  const struct store_class *const *classes;
};

/* The result of parsing a store, which should be enough information to open
   it, or return the arguments.  */
struct store_parsed;

/* Free all resources used by PARSED.  */
void store_parsed_free (struct store_parsed *parsed);

/* Open PARSED, and return the corresponding store in STORE.  */
error_t store_parsed_open (const struct store_parsed *parsed, int flags,
			   struct store **store);

/* Add the arguments  PARSED, and return the corresponding store in STORE.  */
error_t store_parsed_append_args (const struct store_parsed *parsed,
				  char **args, size_t *args_len);

/* Make a string describing PARSED, and return it in malloced storage in
   NAME.  */
error_t store_parsed_name (const struct store_parsed *parsed, char **name);

/* XXX Hacks to avoid touching hurd/hurd_types.h; these should be merged into
   that file the next time it is updated (in enum storage_types). XXX  */
#define STORAGE_REMAP (STORAGE_LAYER + 1) /* new type */
#define STORAGE_ZERO  STORAGE_NULL        /* renaming of STORAGE_NULL  */

/* Doc for STORAGE_REMAP:
   STORAGE_REMAP is a layer on top of another store that remaps its blocks
   ...
    remap  - 	     TY, FL, NR      	     NR * (OFFS, LEN)  -	 1
      (BS and SIZE are that of the child)
*/

#endif /* __STORE_H__ */