rockbox/firmware/include/file_internal.h
Michael Sevakis 7373cf518f Restore dircache hookup in the database ramcache.
Do a few other changes to dircache and file code flags to
accomodate its demands.

Change-Id: I4742a54e8cfbe4d8b9cffb75faaf920dd907cf8a
2017-02-10 05:05:23 -05:00

385 lines
14 KiB
C

/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2014 by Michael Sevakis
*
* This program 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
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#ifndef _FILE_INTERNAL_H_
#define _FILE_INTERNAL_H_
#include <sys/types.h>
#include <stdlib.h>
#include "mv.h"
#include "linked_list.h"
#include "mutex.h"
#include "mrsw_lock.h"
#include "fs_attr.h"
#include "fat.h"
#ifdef HAVE_DIRCACHE
#include "dircache.h"
#endif
/** Tuneable parameters **/
/* limits for number of open descriptors - if you increase these values, make
certain that the disk cache has enough available buffers */
#define MAX_OPEN_FILES 11
#define MAX_OPEN_DIRS 12
#define MAX_OPEN_HANDLES (MAX_OPEN_FILES+MAX_OPEN_DIRS)
/* internal functions open streams as well; make sure they don't fail if all
user descs are busy; this needs to be at least the greatest quantity needed
at once by all internal functions */
#ifdef HAVE_DIRCACHE
#define AUX_FILEOBJS 3
#else
#define AUX_FILEOBJS 2
#endif
/* number of components statically allocated to handle the vast majority
of path depths; should maybe be tuned for >= 90th percentile but for now,
imma just guessing based on something like:
root + 'Music' + 'Artist' + 'Album' + 'Disc N' + filename */
#define STATIC_PATHCOMP_NUM 6
#define MAX_NAME 255
/* unsigned value that will also hold the off_t range we need without
overflow */
#define file_size_t uint32_t
#ifdef __USE_FILE_OFFSET64
/* if we want, we can deal with files up to 2^32-1 bytes-- the full FAT16/32
range */
#define FILE_SIZE_MAX (0xffffffffu)
#else
/* file contents and size will be preserved by the APIs so long as ftruncate()
isn't used; bytes passed 2^31-1 will not accessible nor will writes succeed
that would extend the file beyond the max for a 32-bit off_t */
#define FILE_SIZE_MAX (0x7fffffffu)
#endif
/* if file is "large(ish)", then get rid of the contents now rather than
lazily when the file is synced or closed in order to free-up space */
#define O_TRUNC_THRESH 65536
/* default attributes when creating new files and directories */
#define ATTR_NEW_FILE (ATTR_ARCHIVE)
#define ATTR_NEW_DIRECTORY (ATTR_DIRECTORY)
#define ATTR_SYSTEM_ROOT (ATTR_SYSROOT | ATTR_DIRECTORY)
#define ATTR_MOUNT_POINT (ATTR_VOLUME | ATTR_DIRECTORY)
/** File sector cache **/
enum filestr_cache_flags
{
FSC_DIRTY = 0x1, /* buffer is dirty (needs writeback) */
FSC_NEW = 0x2, /* buffer is new (never yet written) */
};
struct filestr_cache
{
uint8_t *buffer; /* buffer to hold sector */
unsigned long sector; /* file sector that is in buffer */
unsigned int flags; /* FSC_* bits */
};
void file_cache_init(struct filestr_cache *cachep);
void file_cache_reset(struct filestr_cache *cachep);
void file_cache_alloc(struct filestr_cache *cachep);
void file_cache_free(struct filestr_cache *cachep);
/** Common bitflags used throughout **/
/* bitflags used by open files and descriptors */
enum fildes_and_obj_flags
{
/* used in descriptor and common */
FDO_BUSY = 0x0001, /* descriptor/object is in use */
/* only used in individual stream descriptor */
FD_WRITE = 0x0002, /* descriptor has write mode */
FD_WRONLY = 0x0004, /* descriptor is write mode only */
FD_APPEND = 0x0008, /* descriptor is append mode */
FD_NONEXIST = 0x8000, /* closed but not freed (uncombined) */
/* only used as common flags */
FO_DIRECTORY = 0x0010, /* fileobj is a directory */
FO_TRUNC = 0x0020, /* fileobj is opened to be truncated */
FO_REMOVED = 0x0040, /* fileobj was deleted while open */
FO_SINGLE = 0x0080, /* fileobj has only one stream open */
FDO_MASK = 0x00ff,
FDO_CHG_MASK = FO_TRUNC, /* fileobj permitted external change */
/* bitflags that instruct various 'open' functions how to behave;
* saved in stream flags (only) but not used by manager */
FF_FILE = 0x00000000, /* expect file; accept file only */
FF_DIR = 0x00010000, /* expect dir; accept dir only */
FF_ANYTYPE = 0x00020000, /* succeed if either file or dir */
FF_TYPEMASK = 0x00030000, /* mask of typeflags */
FF_CREAT = 0x00040000, /* create if file doesn't exist */
FF_EXCL = 0x00080000, /* fail if creating and file exists */
FF_CHECKPREFIX = 0x00100000, /* detect if file is prefix of path */
FF_NOISO = 0x00200000, /* do not decode ISO filenames to UTF-8 */
FF_PROBE = 0x00400000, /* only test existence; don't open */
FF_CACHEONLY = 0x00800000, /* succeed only if in dircache */
FF_INFO = 0x01000000, /* return info on self */
FF_PARENTINFO = 0x02000000, /* return info on parent */
FF_MASK = 0x03ff0000,
};
/** Common data structures used throughout **/
/* basic file information about its location */
struct file_base_info
{
union {
#ifdef HAVE_MULTIVOLUME
int volume; /* file's volume (overlaps fatfile.volume) */
#endif
#if CONFIG_PLATFORM & PLATFORM_NATIVE
struct fat_file fatfile; /* FS driver file info */
#endif
};
#ifdef HAVE_DIRCACHE
struct dircache_file dcfile; /* dircache file info */
#endif
};
#define BASEINFO_VOL(infop) \
IF_MV_VOL((infop)->volume)
/* open files binding item */
struct file_base_binding
{
struct ll_node node; /* list item node (first!) */
struct file_base_info info; /* basic file info */
};
#define BASEBINDING_VOL(bindp) \
BASEINFO_VOL(&(bindp)->info)
/* directory scanning position info */
struct dirscan_info
{
#if CONFIG_PLATFORM & PLATFORM_NATIVE
struct fat_dirscan_info fatscan; /* FS driver scan info */
#endif
#ifdef HAVE_DIRCACHE
struct dircache_file dcscan; /* dircache scan info */
#endif
};
/* describes the file as an open stream */
struct filestr_base
{
struct ll_node node; /* list item node (first!) */
uint32_t flags; /* F[DF]_* bits of this stream */
struct filestr_cache cache; /* stream-local cache */
struct filestr_cache *cachep; /* the cache in use (local or shared) */
struct file_base_info *infop; /* base file information */
struct fat_filestr fatstr; /* FS driver information */
struct file_base_binding *bindp; /* common binding for file/dir */
struct mutex *mtx; /* serialization for this stream */
};
void filestr_base_init(struct filestr_base *stream);
void filestr_base_destroy(struct filestr_base *stream);
void filestr_alloc_cache(struct filestr_base *stream);
void filestr_free_cache(struct filestr_base *stream);
void filestr_assign_cache(struct filestr_base *stream,
struct filestr_cache *cachep);
void filestr_copy_cache(struct filestr_base *stream,
struct filestr_cache *cachep);
void filestr_discard_cache(struct filestr_base *stream);
/* allocates a cache buffer if needed and returns the cache pointer */
static inline struct filestr_cache *
filestr_get_cache(struct filestr_base *stream)
{
struct filestr_cache *cachep = stream->cachep;
if (!cachep->buffer)
filestr_alloc_cache(stream);
return cachep;
}
static inline void filestr_lock(struct filestr_base *stream)
{
mutex_lock(stream->mtx);
}
static inline void filestr_unlock(struct filestr_base *stream)
{
mutex_unlock(stream->mtx);
}
/* stream lock doesn't have to be used if getting RW lock writer access */
#define FILESTR_WRITER 0
#define FILESTR_READER 1
#define FILESTR_LOCK(type, stream) \
({ if (FILESTR_##type) filestr_lock(stream); })
#define FILESTR_UNLOCK(type, stream) \
({ if (FILESTR_##type) filestr_unlock(stream); })
/* auxilliary attributes - out of the way of regular ATTR_* bits */
#define ATTR_SYSROOT (0x8000)
#define ATTR_PREFIX (0x4000)
/* structure to return detailed information about what you opened */
struct path_component_info
{
const char *name; /* OUT: pointer to name within 'path' */
size_t length; /* OUT: length of component within 'path' */
file_size_t filesize; /* OUT: size of the opened file (0 if dir) */
unsigned int attr; /* OUT: attributes of this component */
struct file_base_info info; /* OUT: base info on file
(FF_INFO) */
struct file_base_info parentinfo; /* OUT: base parent directory info
(FF_PARENTINFO) */
struct file_base_info *prefixp; /* IN: base info to check as prefix
(FF_CHECKPREFIX) */
};
int open_stream_internal(const char *path, unsigned int callflags,
struct filestr_base *stream,
struct path_component_info *compinfo);
int close_stream_internal(struct filestr_base *stream);
int create_stream_internal(struct file_base_info *parentinfop,
const char *basename, size_t length,
unsigned int attr, unsigned int callflags,
struct filestr_base *stream);
int remove_stream_internal(const char *path, struct filestr_base *stream,
unsigned int callflags);
int test_stream_exists_internal(const char *path, unsigned int callflags);
int open_noiso_internal(const char *path, int oflag); /* file.c */
void force_close_writer_internal(struct filestr_base *stream); /* file.c */
struct dirent;
int uncached_readdir_dirent(struct filestr_base *stream,
struct dirscan_info *scanp,
struct dirent *entry);
void uncached_rewinddir_dirent(struct dirscan_info *scanp);
int uncached_readdir_internal(struct filestr_base *stream,
struct file_base_info *infop,
struct fat_direntry *fatent);
void uncached_rewinddir_internal(struct file_base_info *infop);
int test_dir_empty_internal(struct filestr_base *stream);
struct dirinfo_internal
{
unsigned int attr;
file_size_t size;
uint16_t wrtdate;
uint16_t wrttime;
};
/** Synchronization used throughout **/
/* acquire the filesystem lock as READER */
static inline void file_internal_lock_READER(void)
{
extern struct mrsw_lock file_internal_mrsw;
mrsw_read_acquire(&file_internal_mrsw);
}
/* release the filesystem lock as READER */
static inline void file_internal_unlock_READER(void)
{
extern struct mrsw_lock file_internal_mrsw;
mrsw_read_release(&file_internal_mrsw);
}
/* acquire the filesystem lock as WRITER */
static inline void file_internal_lock_WRITER(void)
{
extern struct mrsw_lock file_internal_mrsw;
mrsw_write_acquire(&file_internal_mrsw);
}
/* release the filesystem lock as WRITER */
static inline void file_internal_unlock_WRITER(void)
{
extern struct mrsw_lock file_internal_mrsw;
mrsw_write_release(&file_internal_mrsw);
}
#define ERRNO 0 /* maintain errno value */
#define RC 0 /* maintain rc value */
/* NOTES: if _errno is a non-constant expression, it must set an error
* number and not return the ERRNO constant which will merely set
* errno to zero, not preserve the current value; if you must set
* errno to zero, set it explicitly, not in the macro
*
* if _rc is constant-expression evaluation to 'RC', then rc will
* NOT be altered; i.e. if you must set rc to zero, set it explicitly,
* not in the macro
*/
#define FILE_SET_CODE(_name, _keepcode, _value) \
({ __builtin_constant_p(_value) ? \
({ if ((_value) != (_keepcode)) _name = (_value); }) : \
({ _name = (_value); }); })
/* set errno and rc and proceed to the "file_error:" label */
#define FILE_ERROR(_errno, _rc) \
({ FILE_SET_CODE(errno, ERRNO, (_errno)); \
FILE_SET_CODE(rc, RC, (_rc)); \
goto file_error; })
/* set errno and return a value at the point of invocation */
#define FILE_ERROR_RETURN(_errno, _rc...) \
({ FILE_SET_CODE(errno, ERRNO, _errno); \
return _rc; })
/* set errno and return code, no branching */
#define FILE_ERROR_SET(_errno, _rc) \
({ FILE_SET_CODE(errno, ERRNO, (_errno)); \
FILE_SET_CODE(rc, RC, (_rc)); })
/** Misc. stuff **/
/* iterate through all the volumes if volume < 0, else just the given volume */
#define FOR_EACH_VOLUME(volume, i) \
for (int i = (IF_MV_VOL(volume) >= 0 ? IF_MV_VOL(volume) : 0), \
_end = (IF_MV_VOL(volume) >= 0 ? i : NUM_VOLUMES-1); \
i <= _end; i++)
/* return a pointer to the static struct fat_direntry */
static inline struct fat_direntry *get_dir_fatent(void)
{
extern struct fat_direntry dir_fatent;
return &dir_fatent;
}
void iso_decode_d_name(char *d_name);
#ifdef HAVE_DIRCACHE
void empty_dirent(struct dirent *entry);
void fill_dirinfo_native(struct dirinfo_native *din);
#endif /* HAVE_DIRCACHE */
void filesystem_init(void) INIT_ATTR;
#endif /* _FILE_INTERNAL_H_ */