fat.c File Reference

FAT 12/16/32 Services. More...

#include "conf_explorer.h"
#include "fs_com.h"
#include "fat.h"
#include <LIB_MEM>
#include <LIB_CTRLACCESS>

Include dependency graph for fat.c:

Go to the source code of this file.

Position of the current cluster in the FAT <br>

Global variable used to take time with routines fat_cluster_readnext() and fat_cluster_val()

_MEM_TYPE_FAST_ U16 fs_g_u16_pos_fat
Bool fat_cluster_val (Bool b_mode)
 This function returns or modifys a cluster value in FAT.
Bool fat_cluster_readnext (void)
 This function is optimized to read a continue cluster list on FAT16 and FAT32.
U8 fat_checkcluster (void)
 This function checks the cluster value.

Defines

#define _fat_c_
#define u8_data3   (LSB(u16_offset_fat))
#define u8_data4   (MSB(u16_offset_fat))

Functions

Bool fat_check_device (void)
 This function checks device state.
Bool fat_check_mount (void)
 This function checks if the partition is mounted.
Bool fat_check_noopen (void)
 This function checks if a file is not opened on current navigator.
Bool fat_check_open (void)
 This function checks if a file is opened on current navigator.
Bool fat_check_select (void)
 This function checks if a file is selected on current navigator.
Bool fat_check_mount_noopen (void)
 This function checks if the partition is mounted and no file is opened.
Bool fat_check_mount_select_noopen (void)
 This function checks if the partition is mounted and if no file is opened and a file is selected.
Bool fat_check_mount_select_open (void)
 This function checks if the partition is mounted and if a file is opened.
Bool fat_check_mount_select (void)
 This function checks if the partition is mounted and if a file is selected.
Bool fat_check_is_file (void)
 This function checks if the selected file entry is a file and not a directory.
U8 fat_get_nbpartition (void)
 This function returns the number of partition on current drive.
Bool fat_cluster_list (U8 opt_action, Bool b_for_file)
 This function gets or clears a cluster list.
Bool fat_read_file (U8 mode)
 This function gets or clears a cluster list at the current position in the selected file.
Bool fat_read_dir (void)
 This function fill the internal cache with a sector from current directory.
Bool fat_entry_check (Bool b_type)
 This function checks the entry.
Bool fat_entry_checkext (FS_STRING sz_filter)
 This function checks the file extension.
void fat_get_entry_info (void)
 This function reads information about selected file.
Bool fat_entry_is_dir (void)
 This function checks if the entry file is a directory.
void fat_clear_entry_info_and_ptr (void)
 This function resets the selection pointers.
Bool fat_entry_shortname (FS_STRING sz_name, U8 u8_size_max, Bool b_mode)
 This function returns or compares the short name entry.
Bool fat_entry_longname (FS_STRING sz_name, U8 u8_size_max, Bool b_mode, Bool b_match_case)
 This function returns or compares the long name entry.
Bool fat_check_eof_name (U16 character)
 Check end of name.
PTR_CACHE fat_get_ptr_entry (void)
 This function returns a cache pointer on the current entry.
Bool fat_cache_read_sector (Bool b_load)
 This function loads a memory sector in internal cache sector.
void fat_cache_reset (void)
 This function resets the sector cache.
Bool fat_cache_flush (void)
 This function flushs the sector cache on the memory if necessary.
Internal functions to manage cluster list caches
void fat_cache_clusterlist_update_start (Bool b_for_file)
 This function initializes a cache in cluster list caches.
void fat_cache_clusterlist_update_finish (void)
 This function updates a cache of cluster list caches.
Bool fat_cache_clusterlist_update_read (Bool b_for_file)
 This function searchs a cluster list in cluster list caches.
void fat_cache_clusterlist_update_select (void)
 This function signals that a cache is used.
void fat_cache_clusterlist_reset (void)
 This function resets the cluster list caches.

Variables

Variables to manage cluster list caches
_MEM_TYPE_SLOW_
Fs_clusterlist_cache 
fs_g_cache_clusterlist [FS_NB_CACHE_CLUSLIST *2]
_MEM_TYPE_SLOW_ U8 fs_g_u8_current_cache


Detailed Description

FAT 12/16/32 Services.

This file defines a useful set of functions for the FAT accesses on AVR32 devices.

Author:
Atmel Corporation: http://www.atmel.com
Support and FAQ: http://support.atmel.no/

Definition in file fat.c.


Define Documentation

#define _fat_c_

Definition at line 44 of file fat.c.

#define u8_data3   (LSB(u16_offset_fat))

Referenced by fat_cluster_val().

#define u8_data4   (MSB(u16_offset_fat))

Referenced by fat_cluster_val().


Function Documentation

void fat_cache_clusterlist_update_start ( Bool  b_for_file  ) 

This function initializes a cache in cluster list caches.

Parameters:
b_for_file If TRUE then it is a file cluster list else a directory cluster list

Definition at line 900 of file fat.c.

References Fs_clusterlist_cache::b_cache_file, fs_g_cache_clusterlist, fs_g_cluster, fs_g_seg, fs_g_u8_current_cache, FS_NB_CACHE_CLUSLIST, Fs_clusterlist_cache::u32_cluster, Fs_cluster::u32_pos, Fs_segment::u32_size_or_pos, Fs_clusterlist_cache::u32_start, Fs_clusterlist_cache::u8_level_use, and Fs_clusterlist_cache::u8_lun.

Referenced by fat_cache_clusterlist_update_read().

00901 {
00902    // Get the OLD cache (=max level used)
00903    U8 u8_i;
00904    for( u8_i=0; u8_i<((FS_NB_CACHE_CLUSLIST*2)-1); u8_i++ ) // (FS_NB_CACHE_CLUSLIST*2)-1, in case of error
00905    {
00906       if( fs_g_cache_clusterlist[u8_i].b_cache_file == b_for_file )
00907       {
00908 #if (FS_NB_CACHE_CLUSLIST>1)
00909          if( (FS_NB_CACHE_CLUSLIST-2) < fs_g_cache_clusterlist[u8_i].u8_level_use )
00910 #endif
00911             break;
00912       }
00913    }
00914    fs_g_u8_current_cache = u8_i;
00915    fs_g_cache_clusterlist[fs_g_u8_current_cache].b_cache_file = b_for_file;
00916    fs_g_cache_clusterlist[fs_g_u8_current_cache].u8_lun       = 0xFF;                     // unvalid cache
00917    fs_g_cache_clusterlist[fs_g_u8_current_cache].u32_cluster  = fs_g_cluster.u32_pos;
00918    fs_g_cache_clusterlist[fs_g_u8_current_cache].u32_start    = fs_g_seg.u32_size_or_pos;
00919 }

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void fat_cache_clusterlist_update_finish ( void   ) 

This function updates a cache of cluster list caches.

Definition at line 924 of file fat.c.

References fat_cache_clusterlist_update_select(), fs_g_cache_clusterlist, fs_g_nav, fs_g_seg, fs_g_u8_current_cache, Fs_segment::u32_addr, Fs_clusterlist_cache::u32_addr, Fs_clusterlist_cache::u32_size, Fs_segment::u32_size_or_pos, Fs_clusterlist_cache::u32_start, Fs_management::u8_BPB_SecPerClus, Fs_management::u8_lun, and Fs_clusterlist_cache::u8_lun.

Referenced by fat_cluster_list().

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Bool fat_cache_clusterlist_update_read ( Bool  b_for_file  ) 

This function searchs a cluster list in cluster list caches.

Parameters:
b_for_file If TRUE then it is a file cluster list else a directory cluster list
Returns:
TRUE cluster list found and global variable fs_g_seg updated

FALSE no found in cluster list caches

Definition at line 964 of file fat.c.

References FALSE, fat_cache_clusterlist_update_select(), fat_cache_clusterlist_update_start(), fs_g_cache_clusterlist, fs_g_cluster, fs_g_nav, fs_g_seg, fs_g_u8_current_cache, FS_NB_CACHE_CLUSLIST, TRUE, Fs_clusterlist_cache::u32_addr, Fs_segment::u32_addr, Fs_management::u32_offset_data, Fs_cluster::u32_pos, Fs_management::u32_ptr_fat, Fs_clusterlist_cache::u32_size, Fs_segment::u32_size_or_pos, Fs_clusterlist_cache::u32_start, Fs_management::u8_BPB_SecPerClus, Fs_management::u8_lun, and Fs_clusterlist_cache::u8_lun.

Referenced by fat_cluster_list().

00965 {
00966    U32 u32_tmp;
00967    U8 u8_i;
00968    for( u8_i=0; u8_i<(FS_NB_CACHE_CLUSLIST*2); u8_i++ )
00969    {
00970       if( (fs_g_cache_clusterlist[u8_i].b_cache_file == b_for_file)
00971       &&  (fs_g_cache_clusterlist[u8_i].u8_lun == fs_g_nav.u8_lun ) )
00972       {
00973          if( fs_g_cache_clusterlist[u8_i].u32_cluster == fs_g_cluster.u32_pos )
00974          {
00975             if( fs_g_cache_clusterlist[u8_i].u32_start <= fs_g_seg.u32_size_or_pos )
00976             {
00977                // The segment research is in or after the cache
00978                if( fs_g_cache_clusterlist[u8_i].u32_size  > (fs_g_seg.u32_size_or_pos-fs_g_cache_clusterlist[u8_i].u32_start) )
00979                {
00980                   //** The segment research is in cache, then compute the segment infos
00981                   fs_g_seg.u32_size_or_pos -= fs_g_cache_clusterlist[u8_i].u32_start;
00982                   fs_g_seg.u32_addr = fs_g_cache_clusterlist[u8_i].u32_addr + fs_g_seg.u32_size_or_pos;
00983                   fs_g_seg.u32_size_or_pos = fs_g_cache_clusterlist[u8_i].u32_size - fs_g_seg.u32_size_or_pos;
00984                   fs_g_u8_current_cache = u8_i;
00985                   fat_cache_clusterlist_update_select();
00986                   return TRUE;   // the segment is in cluster list cache
00987                }else{
00988                   //** It is after the cache then get cache information and continue to read the cluster list in FAT
00989                   // Store the resultat in this cache
00990                   fs_g_u8_current_cache = u8_i;
00991                   fs_g_cache_clusterlist[fs_g_u8_current_cache].u8_lun       = 0xFF;   // unvalid cache
00992                   // fs_g_cache_clusterlist[fs_g_u8_current_cache].u32_cluster  = fs_g_cluster.u32_pos;  // It is the same cluster start
00993 
00994                   // Get cache information to take time during the next FAT access
00995                   // Compute the cluster number corresponding at the last cluster of the cluster list cache
00996                   fs_g_cluster.u32_pos     = ((fs_g_cache_clusterlist[u8_i].u32_addr -fs_g_nav.u32_ptr_fat - fs_g_nav.u32_offset_data + fs_g_cache_clusterlist[u8_i].u32_size -1)
00997                                              / fs_g_nav.u8_BPB_SecPerClus) +2;
00998                   u32_tmp  = fs_g_seg.u32_size_or_pos;                                 // save position ask
00999                   // Compute the position of the end of cluster list cache, and decrement the position asked
01000                   fs_g_seg.u32_size_or_pos-= ((fs_g_cache_clusterlist[fs_g_u8_current_cache].u32_start + fs_g_cache_clusterlist[u8_i].u32_size -1)
01001                                              / fs_g_nav.u8_BPB_SecPerClus)
01002                                              * fs_g_nav.u8_BPB_SecPerClus;
01003                   fs_g_cache_clusterlist[fs_g_u8_current_cache].u32_start = u32_tmp;   // Update cache with the position asked
01004                   return FALSE;                                                        // The segment isn't in cluster list cache
01005                }
01006             }
01007          }
01008       }
01009    }
01010    // No found in cache then read FAT and store the resultat in cache
01011    fat_cache_clusterlist_update_start(b_for_file);
01012    return FALSE;
01013 }

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void fat_cache_clusterlist_update_select ( void   ) 

This function signals that a cache is used.

Definition at line 939 of file fat.c.

References Fs_clusterlist_cache::b_cache_file, fs_g_cache_clusterlist, fs_g_u8_current_cache, FS_NB_CACHE_CLUSLIST, and Fs_clusterlist_cache::u8_level_use.

Referenced by fat_cache_clusterlist_update_finish(), and fat_cache_clusterlist_update_read().

00940 {
00941    U8 u8_i;
00942    U8 u8_level_to_update;
00943    Bool b_file_cache;
00944 
00945    b_file_cache         = fs_g_cache_clusterlist[ fs_g_u8_current_cache ].b_cache_file;
00946    u8_level_to_update   = fs_g_cache_clusterlist[ fs_g_u8_current_cache ].u8_level_use;
00947    for( u8_i=0; u8_i<(FS_NB_CACHE_CLUSLIST*2); u8_i++ )
00948    {
00949       if( fs_g_cache_clusterlist[u8_i].b_cache_file == b_file_cache )
00950          if( u8_level_to_update > fs_g_cache_clusterlist[u8_i].u8_level_use )
00951            fs_g_cache_clusterlist[u8_i].u8_level_use++;
00952    }
00953    fs_g_cache_clusterlist[  fs_g_u8_current_cache  ].u8_level_use = 0;
00954 }

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Bool fat_check_device ( void   ) 

This function checks device state.

Returns:
TRUE device ready

FALSE otherwise

//! This function updates all navigator datas when the device state change.
//! 

Definition at line 91 of file fat.c.

Referenced by fat_check_mount(), fat_check_noopen(), fat_get_nbpartition(), fat_mount(), nav_partition_freespace(), nav_partition_freespace_percent(), nav_partition_space(), and nav_partition_type().

00092 {
00093    U8 retry=0;
00094 #if (FS_NB_NAVIGATOR > 1)
00095    U8 i;
00096 #endif
00097    Ctrl_status status;
00098    
00099    // Possibility to ignore the disk check. Used to take time during multi read/write access
00100    if( g_b_no_check_disk )
00101       return TRUE;
00102 
00103    if( 0xFF == fs_g_nav.u8_lun )
00104    {
00105       fs_g_status = FS_ERR_HW;
00106       return FALSE;                                // No device selected
00107    }
00108 
00109    for( retry=0 ; retry<100 ; retry++ )
00110    {
00111       // Check device
00112       status = mem_test_unit_ready( fs_g_nav.u8_lun );
00113       if( CTRL_GOOD       == status )
00114          return TRUE;                              // drive ready
00115 
00116       //* HERE error or state change
00117       // Clean all navigator datas which use this device
00118       fs_g_nav_fast.u8_type_fat = FS_TYPE_FAT_UNM; // By default the fat isn't mounted
00119       Fat_file_close();                            // By default the file is not open
00120 #if (FS_NB_NAVIGATOR > 1)
00121       for( i=0 ; i!=(FS_NB_NAVIGATOR-1) ; i++ )
00122       {
00123          if( fs_g_nav.u8_lun == fs_g_navext[i].u8_lun )
00124          {
00125             fs_g_navext_fast[i].u8_type_fat     = FS_TYPE_FAT_UNM;   // By default the fat isn't mounted
00126             fs_g_navext_entry[i].u8_open_mode   = 0;                 // By default the file is not open
00127          }
00128       }
00129 #endif
00130       // If the internal cache corresponding at device then clean it
00131       if( fs_g_nav.u8_lun == fs_g_sectorcache.u8_lun )
00132       {
00133          fat_cache_reset();
00134       }
00135       fat_cache_clusterlist_reset();
00136 
00137       fs_g_status = FS_ERR_HW;                     // By default HW error
00138       if( CTRL_BUSY == status )
00139          continue;                                 // If device busy then retry
00140 
00141       if( CTRL_NO_PRESENT == status )
00142          fs_g_status = FS_ERR_HW_NO_PRESENT;       // Update error flag
00143       break;                                       // FAIL or NOT PRESENT = fatal error = no retry
00144    }
00145    return FALSE;
00146 }

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Bool fat_check_mount ( void   ) 

This function checks if the partition is mounted.

Returns:
TRUE partition mounted

FALSE otherwise

Definition at line 154 of file fat.c.

Referenced by fat_check_mount_noopen(), fat_check_mount_select(), fat_check_mount_select_noopen(), fat_check_mount_select_open(), and nav_partition_serialnumber().

00155 {
00156    if( !fat_check_device() )
00157       return FALSE;
00158    if (FS_TYPE_FAT_UNM == fs_g_nav_fast.u8_type_fat)
00159    {
00160       if( !fat_mount() )
00161       {
00162          fs_g_status = FS_ERR_NO_MOUNT;
00163          return FALSE;
00164       }
00165    }
00166    return TRUE;
00167 }

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Bool fat_check_noopen ( void   ) 

This function checks if a file is not opened on current navigator.

Returns:
TRUE no file opened

FALSE otherwise

Definition at line 175 of file fat.c.

Referenced by fat_check_mount_noopen(), fat_check_mount_select_noopen(), nav_drive_set(), nav_filelist_fileisnotopen(), nav_partition_mount(), nav_partition_set(), and nav_setcwd().

00176 {
00177    if( !fat_check_device() )
00178       return TRUE;
00179    if (FS_TYPE_FAT_UNM == fs_g_nav_fast.u8_type_fat)
00180       return TRUE;
00181    if( Fat_file_is_open() )
00182    {
00183       fs_g_status = FS_ERR_TOO_FILE_OPEN;  // The navigation have already open a file
00184       return FALSE;
00185    }
00186    return TRUE;
00187 }

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Bool fat_check_open ( void   ) 

This function checks if a file is opened on current navigator.

Returns:
TRUE a file is opened

FALSE otherwise

Definition at line 195 of file fat.c.

Referenced by fat_check_mount_select_open().

00196 {
00197    if( Fat_file_isnot_open() )
00198    {
00199       fs_g_status = FS_ERR_FILE_NO_OPEN;
00200       return FALSE;
00201    }
00202    return TRUE;
00203 }

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Bool fat_check_select ( void   ) 

This function checks if a file is selected on current navigator.

Returns:
TRUE a file is selected

FALSE otherwise

Definition at line 211 of file fat.c.

Referenced by fat_check_mount_select(), fat_check_mount_select_noopen(), fat_check_mount_select_open(), and nav_getcwd().

00212 {
00213    if (FS_NO_SEL == fs_g_nav_fast.u16_entry_pos_sel_file)
00214    {
00215       fs_g_status = FS_ERR_NO_FILE_SEL;
00216       return FALSE;
00217    }
00218    return TRUE;
00219 }

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Bool fat_check_mount_noopen ( void   ) 

This function checks if the partition is mounted and no file is opened.

Returns:
TRUE partition mounted and no file is opened

FALSE otherwise

Definition at line 227 of file fat.c.

Referenced by nav_dir_gotoparent(), nav_dir_is_root(), nav_dir_name(), nav_filelist_reset(), nav_filelist_set(), and nav_getcwd().

00228 {
00229    if( !fat_check_mount() )
00230       return FALSE;
00231    return fat_check_noopen();
00232 }

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Bool fat_check_mount_select_noopen ( void   ) 

This function checks if the partition is mounted and if no file is opened and a file is selected.

Returns:
TRUE partition mounted and no file is opened and a file is selected

FALSE otherwise

Definition at line 240 of file fat.c.

Referenced by file_open(), nav_dir_cd(), and nav_filelist_validpos().

00241 {
00242    if( !fat_check_mount() )
00243       return FALSE;
00244    if( !fat_check_select() )
00245       return FALSE;
00246    return fat_check_noopen();
00247 }

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Bool fat_check_mount_select_open ( void   ) 

This function checks if the partition is mounted and if a file is opened.

Returns:
TRUE partition mounted and a file is opened

FALSE otherwise

Definition at line 255 of file fat.c.

Referenced by file_bof(), file_close(), file_eof(), file_getpos(), file_read(), file_read_buf(), and file_seek().

00256 {
00257    if( !fat_check_mount() )
00258       return FALSE;
00259    if( !fat_check_select() )
00260       return FALSE;
00261    return fat_check_open();
00262 }

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Bool fat_check_mount_select ( void   ) 

This function checks if the partition is mounted and if a file is selected.

Returns:
TRUE partition mounted and a file is selected

FALSE otherwise

Definition at line 270 of file fat.c.

Referenced by file_ispresent(), nav_file_checkext(), nav_file_dateget(), nav_file_isreadonly(), and nav_file_name().

00271 {
00272    if( !fat_check_mount() )
00273       return FALSE;
00274    return fat_check_select();
00275 }

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Bool fat_check_is_file ( void   ) 

This function checks if the selected file entry is a file and not a directory.

Returns:
TRUE It is a file and not a directory

FALSE otherwise

Definition at line 283 of file fat.c.

Referenced by file_ispresent(), and file_open().

00284 {
00285    if( Fat_is_not_a_file )
00286    {
00287       fs_g_status = FS_ERR_NO_FILE;   // It isn't a file, it is a directory or a volume id
00288       return FALSE;
00289    }
00290    return TRUE;
00291 }

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U8 fat_get_nbpartition ( void   ) 

This function returns the number of partition on current drive.

This function returns the number of partition present on selected drive.

Returns:
u8_number number of partition

Definition at line 299 of file fat.c.

Referenced by nav_partition_nb().

00300 {
00301    if( !fat_check_device() )
00302       return 0;
00303 
00304 #warning this routine contains bug, rework it
00305    // Read the first sector of drive
00306    fs_gu32_addrsector = 0;
00307    if( !fat_cache_read_sector( TRUE ))
00308       return FALSE;
00309 
00310    // Check PBR or MBR signature
00311    if ( (fs_g_sector[510] != FS_BR_SIGNATURE_LOW  )
00312    &&   (fs_g_sector[511] != FS_BR_SIGNATURE_HIGH ) )
00313    {
00314       // No MBR
00315       // The sector, is it a PBR ?
00316       if ( (fs_g_sector[0] == 0xEB) &&          // PBR Byte 0
00317            (fs_g_sector[2] == 0x90) &&          // PBR Byte 2
00318            ((fs_g_sector[21] & 0xF0) == 0xF0) ) // PBR Byte 21 : Media byte
00319       {
00320          return 1;   // No MBR but PBR exist then only one partition
00321       } else {
00322          return 0;   // No MBR and no PBR then no partition found
00323       }
00324    }
00325 
00326    number_part = 0;
00327    while( 1 )
00328    {
00329       // The first sector must be a MBR, then check the partition entry in the MBR
00330       if ( ((fs_g_sector[FS_MBR_OFFSET_PART_ENTRY(number_part)+0] != FS_PARTITION_ACTIVE) &&
00331             (fs_g_sector[FS_MBR_OFFSET_PART_ENTRY(number_part)+0] != 0x00))
00332       ||    (fs_g_sector[FS_MBR_OFFSET_PART_ENTRY(number_part)+4] == 0x00) )
00333       {
00334          break;
00335       }
00336       number_part++;
00337    }
00338    return number_part;
00339 }

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Bool fat_cluster_list ( U8  opt_action,
Bool  b_for_file 
)

This function gets or clears a cluster list.

Parameters:
b_for_file If TRUE then it is a file cluster list else a directory cluster list
opt_action Choose action on the cluster list
FS_CLUST_ACT_SEG Get continue memory segment corresponding at cluster list
FS_CLUST_ACT_ONE Get only one memory sector (512B) corresponding at cluster list
FS_CLUST_ACT_CLR Clear the cluster list
Returns:
FALSE in case of error, see global value "fs_g_status" for more detail

TRUE otherwise

//! Global variables used
//! IN :
//!   fs_g_seg.u32_addr          The first cluster of the cluster list
//!   fs_g_seg.u32_size_or_pos   Start position in the cluster list (unit 512B)
//! OUT:
//!   fs_g_seg.u32_addr          The memory segment address corresponding at the beginning of cluster list (only for action FS_CLUST_ACT_SEG & FS_CLUST_ACT_ONE)
//!   fs_g_seg.u32_size_or_pos   The memory segment size corresponding at cluster list readed or cleared (unit 512B)
//! 

Definition at line 364 of file fat.c.

Referenced by fat_read_dir(), and fat_read_file().

00365 {
00366    _MEM_TYPE_FAST_ U32 u32_tmp;
00367    _MEM_TYPE_FAST_ U8 u8_cluster_status;
00368 
00369    fs_g_status = FS_ERR_FS;      // By default system error
00370 
00371    if(  Is_fat32
00372    &&  (FS_CLUST_ACT_CLR == opt_action) )
00373    {
00374 #if (FSFEATURE_WRITE_COMPLET == (FS_LEVEL_FEATURES & FSFEATURE_WRITE_COMPLET) )
00375       // Clear free space information storage in FAT32
00376       if( !fat_write_fat32_FSInfo( 0xFFFFFFFF ))
00377          return FALSE;
00378 #else
00379       return FALSE;
00380 #endif
00381    }
00382 
00383    if ( 0 == fs_g_seg.u32_addr )
00384    {
00385       // Cluster list of root directory
00386       if( FS_CLUST_ACT_CLR == opt_action )
00387          return FALSE;           // Impossible to erase ROOT DIR
00388 
00389       if ( Is_fat12 || Is_fat16 )
00390       {
00391          // For a FAT 12 & 16, the root dir isn't a cluster list
00392          // Check the position
00393          if ( fs_g_seg.u32_size_or_pos < fs_g_nav.rootdir.seg.u16_size )
00394          {
00395             // Compute the start address and the size
00396             fs_g_seg.u32_addr = fs_g_nav.u32_ptr_fat + fs_g_nav.rootdir.seg.u16_pos + fs_g_seg.u32_size_or_pos;
00397             fs_g_seg.u32_size_or_pos = fs_g_nav.rootdir.seg.u16_size - fs_g_seg.u32_size_or_pos;
00398             return TRUE;
00399          } else {
00400             fs_g_status = FS_ERR_OUT_LIST;
00401             return FALSE;        // Position outside the root area
00402          }
00403       }
00404       if ( Is_fat32 )
00405       {
00406          // For FAT 32, the root is a cluster list and the first cluster is reading during the mount
00407          fs_g_cluster.u32_pos = fs_g_nav.rootdir.u32_cluster;
00408       }
00409    } else {
00410       // It is the first cluster of a cluster list
00411       fs_g_cluster.u32_pos = fs_g_seg.u32_addr;
00412    }
00413 
00414    // Management of cluster list caches
00415    if( FS_CLUST_ACT_CLR != opt_action )
00416    {
00417       if( fat_cache_clusterlist_update_read( b_for_file ) )
00418          return TRUE;            // Segment found in cache
00419       // Segment not found & cache ready to update
00420    }else{
00421       fat_cache_clusterlist_reset();   // It is a clear action then clear cluster list caches
00422 #if (FS_LEVEL_FEATURES > FSFEATURE_READ)
00423       fat_clear_info_fat_mod();        // Init cache on fat modification range
00424 #endif  // FS_LEVEL_FEATURES
00425    }
00426 
00427    // Init loop with a start segment no found
00428    MSB0( fs_g_seg.u32_addr ) = 0xFF;
00429 
00430    //**** Loop to read the cluster list
00431    while ( 1 )
00432    {
00433       if ( fs_g_seg.u32_size_or_pos < fs_g_nav.u8_BPB_SecPerClus )
00434       {
00435          // The segment starts in this cluster
00436          // Compute the sector address of this cluster
00437          fs_g_seg.u32_addr = ((fs_g_cluster.u32_pos - 2) * fs_g_nav.u8_BPB_SecPerClus)
00438                            + fs_g_nav.u32_ptr_fat + fs_g_nav.u32_offset_data + fs_g_seg.u32_size_or_pos;
00439 
00440          if ( FS_CLUST_ACT_ONE == opt_action )
00441          {
00442             // Compute the maximum size
00443             fs_g_seg.u32_size_or_pos = fs_g_nav.u8_BPB_SecPerClus-fs_g_seg.u32_size_or_pos;
00444             fat_cache_clusterlist_update_finish();
00445             // Send a size of one sector
00446             fs_g_seg.u32_size_or_pos = 1;
00447             return TRUE;
00448          }
00449          // Update the segment size
00450          fs_g_seg.u32_size_or_pos = fs_g_nav.u8_BPB_SecPerClus - LSB0( fs_g_seg.u32_size_or_pos );
00451 
00452          // Take time, during read cluster list on FAT 16 & 32
00453          if( (FS_CLUST_ACT_SEG == opt_action)
00454          &&  (!Is_fat12) )
00455          {
00456             // Init loop with the current cluster
00457             u32_tmp = fs_g_cluster.u32_pos;
00458             if( !fat_cluster_val( FS_CLUST_VAL_READ ))
00459                return FALSE;
00460             // Read cluster list, while this one is continue
00461             while(1)
00462             {
00463                if ( (++fs_g_cluster.u32_pos) != fs_g_cluster.u32_val )
00464                {
00465                   fs_g_cluster.u32_pos--;                   // Recompute previous value
00466                   u32_tmp = fs_g_cluster.u32_pos - u32_tmp; // Compute the size of cluster list
00467                   fs_g_seg.u32_size_or_pos += u32_tmp * fs_g_nav.u8_BPB_SecPerClus;
00468                   break;
00469                }
00470                if( !fat_cluster_readnext() )
00471                   return FALSE;
00472             }
00473          }
00474       }
00475       // Get the cluster value
00476       if( !fat_cluster_val( FS_CLUST_VAL_READ ))
00477          return FALSE;
00478 
00479       // Read and check the status of the new cluster
00480       u8_cluster_status = fat_checkcluster();
00481       if (FS_CLUS_BAD == u8_cluster_status)
00482          return FALSE; // error, end of cluster list
00483 
00484       if (0xFF == MSB0(fs_g_seg.u32_addr))
00485       {
00486          // The beginning of the segment isn't found
00487          if (FS_CLUS_END == u8_cluster_status)
00488          {
00489             u32_tmp = fs_g_seg.u32_size_or_pos;       // Save number of sector remaining
00490 
00491             // Compute the sector address of this last cluster to take time during a futur request with the same cluster list
00492             fs_g_cache_clusterlist[fs_g_u8_current_cache].u32_start -= fs_g_seg.u32_size_or_pos;
00493             fs_g_seg.u32_addr = ((fs_g_cluster.u32_pos - 2) * fs_g_nav.u8_BPB_SecPerClus)
00494                               + fs_g_nav.u32_ptr_fat + fs_g_nav.u32_offset_data;
00495             fs_g_seg.u32_size_or_pos = fs_g_nav.u8_BPB_SecPerClus;
00496             if (FS_CLUST_ACT_CLR != opt_action)
00497                fat_cache_clusterlist_update_finish();
00498 
00499             // The position is outside the cluster list
00500             fs_g_seg.u32_addr = fs_g_cluster.u32_pos; // Send the last cluster value
00501             fs_g_seg.u32_size_or_pos = u32_tmp;       // Restore number of sector remaining
00502             fs_g_status = FS_ERR_OUT_LIST;
00503             return FALSE;
00504          }
00505          // Good cluster then continue
00506          fs_g_seg.u32_size_or_pos -= fs_g_nav.u8_BPB_SecPerClus;
00507 #if (FS_LEVEL_FEATURES > FSFEATURE_READ)
00508          if (FS_CLUST_ACT_CLR == opt_action)
00509          {
00510             if( fs_g_seg.u32_size_or_pos == 0)
00511             {
00512                // At cluster position, set the flag end of cluster list
00513                fs_g_seg.u32_addr = fs_g_cluster.u32_val; // Save the next cluster
00514                fs_g_cluster.u32_val = FS_CLUST_VAL_EOL;
00515                if( !fat_cluster_val( FS_CLUST_VAL_WRITE ))
00516                   return FALSE;
00517                fs_g_cluster.u32_val = fs_g_seg.u32_addr; // Resotre the next cluster
00518                // !!!! It isn't necessary to reinit MSB0( fs_g_seg.u32_addr ) to 0xFF,
00519                // !!!! fs_g_seg.u32_addr will be modified at the beginning of main loop
00520             }
00521          }
00522 #endif  // FS_LEVEL_FEATURES
00523       }
00524       else
00525       {
00526          // The beginning of segment is found
00527          if (FS_CLUST_ACT_SEG == opt_action)
00528          {
00529             if ( (fs_g_cluster.u32_pos+1) != fs_g_cluster.u32_val )
00530             {
00531                // The cluster is not a continue cluster or a invalid cluster
00532                fat_cache_clusterlist_update_finish();
00533                return TRUE;                              // End of segment
00534             }
00535          }
00536 #if (FS_LEVEL_FEATURES > FSFEATURE_READ)
00537          if (FS_CLUST_ACT_CLR == opt_action)
00538          {
00539             //** Clear cluster position
00540             fs_g_seg.u32_addr = fs_g_cluster.u32_val;    // Save the next cluster
00541             fs_g_cluster.u32_val = 0;                    // by default free cluster
00542             // If it is the first cluster (fs_g_seg.u32_size_or_pos <= fs_g_nav.u8_BPB_SecPerClus)
00543             // and doesn't start at the beginning of cluster (fs_g_seg.u32_size_or_pos != fs_g_nav.u8_BPB_SecPerClus)
00544             if (fs_g_seg.u32_size_or_pos < fs_g_nav.u8_BPB_SecPerClus)
00545             {
00546                fs_g_cluster.u32_val = FS_CLUST_VAL_EOL;  // End of cluster list allocated
00547             }
00548             if( !fat_cluster_val( FS_CLUST_VAL_WRITE ))
00549                return FALSE;
00550             fs_g_cluster.u32_val = fs_g_seg.u32_addr;    // Resotre the next cluster
00551             // !!!! It isn't necessary to reinit MSB0( fs_g_seg.u32_addr ) at 0xFF,
00552             // !!!! because it isn't possible that MSB0( fs_g_cluster.val ) = 0xFF.
00553          }
00554 #endif  // FS_LEVEL_FEATURES
00555 
00556          // Check the end of cluster list
00557          if (FS_CLUS_END == u8_cluster_status)
00558          {
00559 #if (FS_LEVEL_FEATURES > FSFEATURE_READ)
00560             if (FS_CLUST_ACT_CLR == opt_action)
00561             {
00562                return fat_update_fat2();
00563             }
00564 #endif  // FS_LEVEL_FEATURES
00565             fat_cache_clusterlist_update_finish();
00566             return TRUE; // End of segment
00567          }
00568 
00569          // Update the segment size
00570          fs_g_seg.u32_size_or_pos += fs_g_nav.u8_BPB_SecPerClus;
00571       }
00572       // HERE, Continue to read the cluster list
00573       // The next cluster is the value of previous cluster
00574       fs_g_cluster.u32_pos = fs_g_cluster.u32_val;
00575    }  // End of main loop
00576 }

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Bool fat_cluster_val ( Bool  b_mode  ) 

This function returns or modifys a cluster value in FAT.

Parameters:
b_mode FALSE, to read a cluster value
TRUE, to write a cluster value
Returns:
FALSE in case of error, see global value "fs_g_status" for more detail

TRUE otherwise

//! Global variables used
//! IN :
//!   fs_g_cluster.u32_pos    cluster number to read or write
//!   fs_g_cluster.u32_val    value to write
//! OUT:
//!   fs_g_cluster.u32_val    value readed
//!   fs_g_u16_pos_fat        position in FAT of the cluster to read or write
//!                           value init in case of the fat_cluster_readnext() routine is used after
//! 

Definition at line 603 of file fat.c.

Referenced by fat_cluster_list(), fat_getfreespace(), and fat_getfreespace_percent().

00604 {
00605    _MEM_TYPE_FAST_ U16   u16_offset_fat;
00606    _MEM_TYPE_FAST_ U8    u8_data1, u8_data2;
00607 #define  u8_data3    (LSB(u16_offset_fat)) // Manual overlay
00608 #define  u8_data4    (MSB(u16_offset_fat)) // Manual overlay
00609    _MEM_TYPE_FAST_ PTR_CACHE u8_ptr_cluster;
00610 
00611    //**** Compute the cluster position in FAT (sector address & position in sector)
00612    if ( Is_fat32 )
00613    {
00614       // FAT 32
00615       // Optimization of -> u16_offset_fat = fs_g_cluster.pos * 4 / FS_CACHE_SIZE;
00616       // Optimization of -> u16_offset_fat = fs_g_cluster.pos / 128
00617       u16_offset_fat = fs_g_cluster.u32_pos >> (8-1);
00618 
00619       // Optimization of -> fs_g_u16_pos_fat = (fs_g_cluster.u32_pos * 4) % FS_CACHE_SIZE;
00620       // Optimization of -> fs_g_u16_pos_fat = (fs_g_cluster.u32_pos % 128) * 4
00621       fs_g_u16_pos_fat = ((U16)(LSB0(fs_g_cluster.u32_pos) & 0x7F))<< 2;
00622    }
00623    else if ( Is_fat16 )
00624    {
00625       // FAT 16
00626       // Optimization of -> u16_offset_fat = fs_g_cluster.u32_pos * 2 / FS_CACHE_SIZE = fs_g_cluster.u32_pos / 256;
00627       u16_offset_fat = LSB1(fs_g_cluster.u32_pos);
00628       // Optimization of -> fs_g_u16_pos_fat = (fs_g_cluster.u32_pos * 2) % FS_CACHE_SIZE;
00629       // Optimization of -> fs_g_u16_pos_fat = (fs_g_cluster.u32_pos % 256) * 2
00630       fs_g_u16_pos_fat = ((U16)LSB0(fs_g_cluster.u32_pos)) <<1;
00631    }
00632    else if ( Is_fat12 )
00633    {
00634       // FAT 12
00635       // Optimization of -> fs_g_u16_pos_fat = fs_g_cluster.u32_pos + (fs_g_cluster.u32_pos/ 2)
00636       fs_g_u16_pos_fat = (U16)fs_g_cluster.u32_pos + ((U16)fs_g_cluster.u32_pos >>1);
00637       // Optimization of -> u16_offset_fat = fs_g_cluster.u32_pos / FS_CACHE_SIZE
00638       u16_offset_fat = MSB(fs_g_u16_pos_fat) >> 1;
00639       // Optimization of -> fs_g_u16_pos_fat = fs_g_u16_pos_fat % FS_CACHE_SIZE
00640       MSB( fs_g_u16_pos_fat ) &= 0x01;
00641    }
00642 
00643 #if (FS_LEVEL_FEATURES > FSFEATURE_READ)
00644    if (b_mode)
00645    {
00646       // Update information about FAT modification
00647       if( fs_g_u16_first_mod_fat > u16_offset_fat )
00648       {
00649          fs_g_u16_first_mod_fat = u16_offset_fat;
00650       }
00651       if( fs_g_u16_last_mod_fat < u16_offset_fat )
00652       {
00653          fs_g_u16_last_mod_fat = u16_offset_fat;
00654       }
00655       if ( Is_fat12 )
00656       {  // A cluster may be stored on two sectors
00657          if( fs_g_u16_pos_fat == (FS_CACHE_SIZE-1) )
00658          {  // Count the next FAT sector
00659             if( fs_g_u16_last_mod_fat < (u16_offset_fat+1) )
00660             {
00661                fs_g_u16_last_mod_fat = (u16_offset_fat+1);
00662             }
00663          }
00664       }
00665    }
00666 #endif  // FS_LEVEL_FEATURES
00667 
00668    //**** Read cluster sector in FAT
00669    fs_gu32_addrsector = fs_g_nav.u32_ptr_fat + u16_offset_fat;   // Computed logical sector address
00670    if( !fat_cache_read_sector( TRUE ))
00671       return FALSE;
00672 
00673    // Read cluster information
00674    u8_ptr_cluster = &fs_g_sector[fs_g_u16_pos_fat];
00675    u8_data1 = u8_ptr_cluster[0];
00676    // Remark: if (fs_g_u16_pos_fat+1)=512 then it isn't a mistake, because this value will be erase in next lines
00677    u8_data2 = u8_ptr_cluster[1];
00678    u8_data3 = u8_ptr_cluster[2];
00679    u8_data4 = u8_ptr_cluster[3];
00680 
00681    if ( Is_fat12 )
00682    {   // A cluster may be stored on two sectors
00683       if(  fs_g_u16_pos_fat == (FS_CACHE_SIZE-1) )
00684       {  // Go to next sector
00685          fs_gu32_addrsector++;
00686          if( !fat_cache_read_sector( TRUE ))
00687            return FALSE;
00688          u8_data2 = fs_g_sector[0];
00689       }
00690    }
00691 
00692    if (FALSE == b_mode)
00693    {
00694       //**** Read the cluster value
00695       LSB0( fs_g_cluster.u32_val ) = u8_data1;  // FAT 12,16,32
00696       LSB1( fs_g_cluster.u32_val ) = u8_data2;  // FAT 12,16,32
00697 
00698       if ( Is_fat32 )
00699       {  // FAT 32
00700          LSB2( fs_g_cluster.u32_val ) = u8_data3;
00701          LSB3( fs_g_cluster.u32_val ) = u8_data4 & 0x0F; // The high 4 bits are reserved
00702       }
00703       else
00704       {  // FAT 12 & 16 don't use the high bytes
00705          LSB2( fs_g_cluster.u32_val ) = 0;
00706          LSB3( fs_g_cluster.u32_val ) = 0;
00707 
00708          // FAT 12 translate 16bits value to 12bits
00709          if ( Is_fat12 )
00710          {
00711             if ( 0x01 & LSB0(fs_g_cluster.u32_pos) )
00712             {  // Readed cluster is ODD
00713                LSB0( fs_g_cluster.u32_val ) = (LSB1( fs_g_cluster.u32_val ) <<4 ) + (LSB0( fs_g_cluster.u32_val ) >>4 );
00714                LSB1( fs_g_cluster.u32_val ) =  LSB1( fs_g_cluster.u32_val ) >>4 ;
00715             }
00716             else
00717             {  // Readed cluster is EVEN
00718                LSB1( fs_g_cluster.u32_val ) &= 0x0F;
00719             }
00720          }
00721       }
00722    } else {
00723 #if (FS_LEVEL_FEATURES > FSFEATURE_READ)
00724       //**** Write the cluster value
00725       if ( Is_fat12 )
00726       {
00727          // FAT 12, translate cluster value
00728          if ( 0x01 & LSB0(fs_g_cluster.u32_pos) )
00729          {  // Cluster writing is ODD
00730             u8_data1 = (u8_data1 & 0x0F) + (LSB0( fs_g_cluster.u32_val )<<4);
00731             u8_data2 = (LSB1( fs_g_cluster.u32_val )<<4) + (LSB0( fs_g_cluster.u32_val )>>4) ;
00732          } else {
00733             // Cluster writing is EVEN
00734             u8_data1 = LSB0( fs_g_cluster.u32_val );
00735             u8_data2 = (u8_data2 & 0xF0) + (LSB1( fs_g_cluster.u32_val ) & 0x0F) ;
00736          }
00737 
00738          // A cluster may be stored on two sectors
00739          if( fs_g_u16_pos_fat == (FS_CACHE_SIZE-1) )
00740          {
00741             fs_g_sector[0] = u8_data2;
00742             fat_cache_mark_sector_as_dirty();
00743             // Go to previous sector
00744             fs_gu32_addrsector--;
00745             if( !fat_cache_read_sector( TRUE ))
00746               return FALSE;
00747             // Modify the previous sector
00748             fs_g_sector[ FS_CACHE_SIZE-1 ] = u8_data1;
00749             fat_cache_mark_sector_as_dirty();
00750             return TRUE;
00751          }
00752       }
00753       else
00754       {
00755          // FAT 16 & 32
00756          u8_data1 = LSB0( fs_g_cluster.u32_val );
00757          u8_data2 = LSB1( fs_g_cluster.u32_val );
00758          if ( Is_fat32 )
00759          {  // FAT 32
00760             u8_ptr_cluster[2] = LSB2( fs_g_cluster.u32_val );
00761             u8_ptr_cluster[3] = LSB3( fs_g_cluster.u32_val ) + (u8_data4 & 0xF0); // The high 4 bits are reserved
00762          }
00763       }
00764       // Here for FAT 32, 16 & 12 (only if the cluster values are in the same sector)
00765       u8_ptr_cluster[0] = u8_data1;
00766       u8_ptr_cluster[1] = u8_data2;
00767       fat_cache_mark_sector_as_dirty();
00768 #else
00769       fs_g_status = FS_ERR_COMMAND;
00770       return FALSE;
00771 #endif  // FS_LEVEL_FEATURES
00772    }
00773 
00774    return TRUE;
00775 #undef  u8_data3    // end of Manual overlay
00776 #undef  u8_data4    // end of Manual overlay
00777 }

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Bool fat_cluster_readnext ( void   ) 

This function is optimized to read a continue cluster list on FAT16 and FAT32.

Read global value "fs_g_status" in case of error : FS_ERR_HW Hardware driver error FS_LUN_WP Drive is read only

Returns:
FALSE in case of error, see global value "fs_g_status" for more detail

TRUE otherwise

//! Global variables used
//! IN :
//!   fs_g_u16_pos_fat        previous cluster position in FAT
//! OUT:
//!   fs_g_u16_pos_fat        readed cluster position in FAT
//!   fs_g_cluster.u32_val    value of cluster readed
//! 

Definition at line 798 of file fat.c.

Referenced by fat_cluster_list(), and fat_getfreespace().

00799 {
00800    // Compute the next cluster position in FAT
00801    if ( Is_fat32 )
00802    {
00803       fs_g_u16_pos_fat += 4;
00804    }else{
00805       // Is_fat16
00806       fs_g_u16_pos_fat += 2;
00807    }
00808 
00809    // Check if next cluster is in internal cache
00810    if( FS_CACHE_SIZE == fs_g_u16_pos_fat )
00811    {
00812       // Update cache
00813       fs_g_u16_pos_fat = 0;
00814       fs_gu32_addrsector++;
00815       if( !fat_cache_read_sector( TRUE ))
00816          return FALSE;
00817    }
00818 
00819    //**** Read the cluster value
00820    LSB0( fs_g_cluster.u32_val ) = fs_g_sector[fs_g_u16_pos_fat+0];  // FAT 16,32
00821    LSB1( fs_g_cluster.u32_val ) = fs_g_sector[fs_g_u16_pos_fat+1];  // FAT 16,32
00822 
00823    if ( Is_fat32 )
00824    {  // FAT 32
00825       LSB2( fs_g_cluster.u32_val ) = fs_g_sector[fs_g_u16_pos_fat+2];
00826       LSB3( fs_g_cluster.u32_val ) = fs_g_sector[fs_g_u16_pos_fat+3];
00827    }
00828    return TRUE;
00829 }

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U8 fat_checkcluster ( void   ) 

This function checks the cluster value.

Returns:
value status
FS_CLUS_OK Value correct
FS_CLUS_BAD Value bad
FS_CLUS_END It is a end of list
//! Global variable used
//! IN :
//!   fs_g_cluster.u32_val       value to check
//! 

Definition at line 845 of file fat.c.

Referenced by fat_cluster_list().

00846 {
00847   if ( !fs_g_cluster.u32_val )
00848     return FS_CLUS_BAD;
00849 
00850   // Cluster bad if (FAT12 == 0x0FF7) (FAT16 == 0xFFF7) (FAT32 == 0x0FFFFFF7)
00851   // Last cluster if (FAT12 > 0x0FF7) (FAT16 > 0xFFF7) (FAT32 > 0x0FFFFFF7)
00852   if ( Is_fat32 )
00853   {
00854     if (fs_g_cluster.u32_val >= 0x0FFFFFF8)
00855       return FS_CLUS_END;
00856     else if (fs_g_cluster.u32_val == 0x0FFFFFF7)
00857       return FS_CLUS_BAD;
00858   }
00859   else if ( Is_fat16 )
00860   {
00861     if (fs_g_cluster.u32_val >= 0xFFF8)
00862       return FS_CLUS_END;
00863     else if (fs_g_cluster.u32_val == 0xFFF7)
00864       return FS_CLUS_BAD;
00865   }
00866   else if ( Is_fat12 )
00867   {
00868     if (fs_g_cluster.u32_val >= 0xFF8)
00869       return FS_CLUS_END;
00870     else if (fs_g_cluster.u32_val == 0xFF7)
00871       return FS_CLUS_BAD;
00872   }
00873 
00874   return FS_CLUS_OK;
00875 }

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void fat_cache_clusterlist_reset ( void   ) 

This function resets the cluster list caches.

Definition at line 882 of file fat.c.

Referenced by fat_check_device(), fat_cluster_list(), and nav_reset().

00883 {
00884    U8 u8_i;
00885    fs_g_u8_current_cache=0;
00886    for( u8_i=0; u8_i<(FS_NB_CACHE_CLUSLIST*2); u8_i++ )
00887    {
00888       // The cache list is splited in two cache (file cluster list and directory cluster list)
00889       fs_g_cache_clusterlist[u8_i].b_cache_file = (u8_i<FS_NB_CACHE_CLUSLIST)?TRUE:FALSE;
00890       fs_g_cache_clusterlist[u8_i].u8_lun = 0xFF;
00891       fs_g_cache_clusterlist[u8_i].u8_level_use = 0xFF;
00892    }
00893 }

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Bool fat_read_file ( U8  mode  ) 

This function gets or clears a cluster list at the current position in the selected file.

Parameters:
mode Choose action
FS_CLUST_ACT_SEG Get memory segment corresponding at the position in selected file
FS_CLUST_ACT_ONE Store in internal cache the sector corresponding at the position in selected file
FS_CLUST_ACT_CLR Clear the cluster list corresponding at the position in selected file
Returns:
FALSE in case of error, see global value "fs_g_status" for more detail

TRUE otherwise

//! Global variable used
//! IN :
//!   fs_g_nav_entry.u32_cluster       First cluster of selected file
//!   fs_g_nav_entry.u32_pos_in_file   Position in file (unit byte)
//! 

Definition at line 1035 of file fat.c.

Referenced by file_getc(), file_read(), and file_read_buf().

01036 {
01037    U32   u32_sector_pos;
01038 
01039    // Compute sector position
01040    u32_sector_pos = fs_g_nav_entry.u32_pos_in_file >> FS_512B_SHIFT_BIT;
01041 
01042    if(FS_CLUST_ACT_ONE  == mode)
01043    {
01044       if( (fs_g_sectorcache.u8_lun                 == fs_g_nav.u8_lun )
01045       &&  (fs_g_sectorcache.u32_clusterlist_start  == fs_g_nav_entry.u32_cluster )
01046       &&  (fs_g_sectorcache.u32_clusterlist_pos    == u32_sector_pos ) )
01047       {
01048          return TRUE;      // The internal cache contains the sector ascked
01049       }
01050    }
01051    else
01052    {
01053       if( FS_CLUST_ACT_CLR == mode )
01054       {
01055          // Clear cluster list
01056          if( 0 == fs_g_nav_entry.u32_cluster )
01057             return TRUE;   // No cluster list is linked with the file, then no clear is necessary
01058 
01059          if(0 != (fs_g_nav_entry.u32_pos_in_file & FS_512B_MASK) )
01060          {
01061             // The actual sector is used, then start clear on the next sector
01062             u32_sector_pos++;
01063          }
01064       }
01065    }
01066 
01067    // Get the segment which start at the current position
01068    fs_g_seg.u32_addr = fs_g_nav_entry.u32_cluster;
01069    fs_g_seg.u32_size_or_pos = u32_sector_pos;
01070    if( FS_CLUST_ACT_ONE != mode )
01071    {
01072       if( fat_cluster_list( mode, TRUE ) )
01073          return TRUE;      // Get or clear segment OK
01074    }
01075    else
01076    {
01077       if( fat_cluster_list( FS_CLUST_ACT_SEG, TRUE ) )   // Read all segment
01078       {
01079          // Read the sector corresponding at the position file (= first sector of segment)
01080          fs_gu32_addrsector = fs_g_seg.u32_addr ;
01081          if( fat_cache_read_sector( TRUE ) )
01082          {
01083             fs_g_sectorcache.u32_clusterlist_start  = fs_g_nav_entry.u32_cluster;
01084             fs_g_sectorcache.u32_clusterlist_pos    = u32_sector_pos;
01085             return TRUE;
01086          }
01087       }
01088    }
01089    if( (FS_CLUST_ACT_CLR == mode       )
01090    &&  (FS_ERR_OUT_LIST  == fs_g_status) )
01091    {
01092       // It is possible to clear nothing
01093       return TRUE;
01094    }
01095    return FALSE;
01096 }

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Bool fat_read_dir ( void   ) 

This function fill the internal cache with a sector from current directory.

Returns:
FALSE in case of error, see global value "fs_g_status" for more detail

TRUE otherwise

//! Global variable used
//! IN :
//!   fs_g_nav.u32_cluster_sel_dir           First cluster of current directory
//!   fs_g_nav_fast.u16_entry_pos_sel_file   Position in directory (unit entry)
//! 

Definition at line 1195 of file fat.c.

Referenced by file_close(), nav_dir_gotoparent(), nav_file_checkext(), nav_file_dateget(), nav_file_name(), nav_filelist_set(), and nav_partition_label().

01196 {
01197    U32 u32_cluster_pos;
01198 
01199    // Compute the cluster list position corresponding of the current entry
01200    u32_cluster_pos = fs_g_nav_fast.u16_entry_pos_sel_file >> (FS_512B_SHIFT_BIT - FS_SHIFT_B_TO_FILE_ENTRY);
01201 
01202    if( (fs_g_sectorcache.u8_lun                 == fs_g_nav.u8_lun )
01203    &&  (fs_g_sectorcache.u32_clusterlist_start  == fs_g_nav.u32_cluster_sel_dir )
01204    &&  (fs_g_sectorcache.u32_clusterlist_pos    == u32_cluster_pos ) )
01205    {
01206          return TRUE;      // The internal cache contains the sector ascked
01207    }
01208 
01209    // Get sector address corresponding at cluster list position
01210    fs_g_seg.u32_addr = fs_g_nav.u32_cluster_sel_dir;
01211    fs_g_seg.u32_size_or_pos = u32_cluster_pos;
01212    if( fat_cluster_list( FS_CLUST_ACT_ONE, FALSE ) )
01213    {
01214       // Read the sector
01215       fs_gu32_addrsector = fs_g_seg.u32_addr;
01216       if( fat_cache_read_sector( TRUE ) )
01217       {
01218          // Update information about internal sector cache
01219          fs_g_sectorcache.u32_clusterlist_start  = fs_g_nav.u32_cluster_sel_dir;
01220          fs_g_sectorcache.u32_clusterlist_pos    = u32_cluster_pos;
01221          return TRUE;
01222       }
01223    }
01224    return FALSE;
01225 }

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Bool fat_entry_check ( Bool  b_type  ) 

This function checks the entry.

Parameters:
b_type entry type to compare (FS_FILE or FS_DIR)
Returns:
TRUE, the entry is a short entry and correspond to b_type

FALSE, otherwise

//! Global variable used
//! IN :
//!   fs_g_sector       The directory sector corresponding at the current position
//!   fs_g_nav_fast.u16_entry_pos_sel_file    Position in directory of the entry file (unit entry)
//! 

Definition at line 1243 of file fat.c.

Referenced by nav_filelist_set().

01244 {
01245    PTR_CACHE u8_ptr_entry;
01246    U8 u8_first_byte, u8_seconde_byte;
01247    U8 u8_attribut;
01248 
01249    u8_ptr_entry = fat_get_ptr_entry();
01250 
01251    u8_first_byte = u8_ptr_entry[0];
01252    if ( FS_ENTRY_END == u8_first_byte )
01253    {
01254       fs_g_status = FS_ERR_ENTRY_EMPTY;   // end of directory
01255       return FALSE;
01256    }
01257    fs_g_status = FS_ERR_ENTRY_BAD;        // by default BAD ENTRY
01258    if ( FS_ENTRY_DEL == u8_first_byte )      { return FALSE;   } // entry deleted
01259    if (   '.'  == u8_first_byte )            { return FALSE;   } // current dir "."
01260    u8_seconde_byte = u8_ptr_entry[1];
01261    if ( ('.'  == u8_first_byte)
01262    &&   ('.'  == u8_seconde_byte) )          { return FALSE;   } // current dir ".."
01263 
01264    // Check attribut
01265    u8_attribut = u8_ptr_entry[11];
01266    if ( FS_ATTR_VOLUME_ID & u8_attribut )    { return FALSE;   } // volume id
01267    // Optimization, this line isn't necessary because the next test control this case
01268    // if ( FS_ATTR_LFN_ENTRY == *u8_ptr_entry) { return FALSE;   } // long file name
01269 
01270    // Check entry type
01271    if( FS_ATTR_DIRECTORY & u8_attribut )
01272    {
01273       return (FS_DIR == b_type);
01274    }else{
01275       return (FS_FILE == b_type);
01276    }
01277 }

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Bool fat_entry_checkext ( FS_STRING  sz_filter  ) 

This function checks the file extension.

Parameters:
sz_filter extension filter is a ASCII string (ex: "mp3,w*" )
Returns:
TRUE, the file name have a good extension

FALSE, otherwise

//! Global variable used
//! IN :
//!   fs_g_sector       The directory sector corresponding at the current position
//!   fs_g_nav_fast.u16_entry_pos_sel_file    Position in directory of the entry file (unit entry)
//! 

Definition at line 1294 of file fat.c.

Referenced by nav_file_checkext().

01295 {
01296    PTR_CACHE u8_ptr_entry;
01297    U8 u8_i, u8_filter_char, u8_entry_char;
01298 
01299    u8_ptr_entry = fat_get_ptr_entry();
01300 
01301    // Compare the extension with filter
01302    for( u8_i=0 ; u8_i<3 ; u8_i++)
01303    {
01304       u8_filter_char = *sz_filter;
01305       if ('*' == u8_filter_char)
01306          break; // All extension is good
01307 
01308       u8_entry_char = u8_ptr_entry[8+u8_i];
01309 
01310       // Compare the extension filter to extension file (this one ignore the case)
01311       if( (u8_filter_char!=  u8_entry_char     )
01312       &&  (u8_filter_char!= (u8_entry_char+('a'-'A'))) )
01313       {
01314          if ( (',' == u8_filter_char)
01315          ||   ( 0  == u8_filter_char) )
01316          {
01317            // It is the end of filter
01318            if (' ' == u8_entry_char)
01319               break; // it is the end of extension file -> extension good
01320          }
01321          // here, bad extension
01322 
01323          // Search the next filter
01324          while( ',' != u8_filter_char )
01325          {
01326             if (0  == u8_filter_char)
01327             {
01328                return FALSE;   // it is the last filter
01329             }
01330             sz_filter++;
01331             u8_filter_char = *sz_filter;
01332          }
01333          u8_i = 0xFF;          // restart loop compare
01334       }
01335       sz_filter++; // go to next char of filter
01336    }
01337 
01338    return TRUE; // It is a good extension
01339 }

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void fat_get_entry_info ( void   ) 

This function reads information about selected file.

//! Global variable used
//! IN :
//!   fs_g_sector       The directory sector corresponding at the current position
//!   fs_g_nav_fast.u16_entry_pos_sel_file    Position in directory of the entry file (unit entry)
//! OUT:
//!   fs_g_nav_entry. u32_cluster, u8_attr, u32_size
//! 

Definition at line 1353 of file fat.c.

Referenced by nav_dir_gotoparent(), and nav_filelist_set().

01354 {
01355    PTR_CACHE ptr_entry;
01356 
01357    ptr_entry = fat_get_ptr_entry();
01358 
01359    // Get attribut
01360    ptr_entry+= 11;
01361    fs_g_nav_entry.u8_attr = ptr_entry[0];
01362 
01363    // Get the first cluster of the file cluster list
01364    ptr_entry += (20-11);
01365    LSB2(fs_g_nav_entry.u32_cluster) = ptr_entry[0];
01366    LSB3(fs_g_nav_entry.u32_cluster) = ptr_entry[1];
01367    ptr_entry += (26-20);
01368    LSB0(fs_g_nav_entry.u32_cluster) = ptr_entry[0];
01369    LSB1(fs_g_nav_entry.u32_cluster) = ptr_entry[1];
01370 
01371    // Get the size of file
01372    ptr_entry += (28-26);
01373    LSB0(fs_g_nav_entry.u32_size) = ptr_entry[0];
01374    LSB1(fs_g_nav_entry.u32_size) = ptr_entry[1];
01375    LSB2(fs_g_nav_entry.u32_size) = ptr_entry[2];
01376    LSB3(fs_g_nav_entry.u32_size) = ptr_entry[3];
01377 }

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Bool fat_entry_is_dir ( void   ) 

This function checks if the entry file is a directory.

Returns:
TRUE, this entry is a directory

FALSE, otherwise

Definition at line 1385 of file fat.c.

Referenced by nav_dir_cd(), nav_file_isdir(), and nav_setcwd().

01386 {
01387    fs_g_status = FS_ERR_NO_DIR;
01388    return (FS_ATTR_DIRECTORY & fs_g_nav_entry.u8_attr);
01389 }

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void fat_clear_entry_info_and_ptr ( void   ) 

This function resets the selection pointers.

Definition at line 1394 of file fat.c.

Referenced by fat_mount(), nav_filelist_reset(), and nav_partition_mount().

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Bool fat_entry_shortname ( FS_STRING  sz_name,
U8  u8_size_max,
Bool  b_mode 
)

This function returns or compares the short name entry.

Parameters:
b_mode action mode:
FS_NAME_GET to get the short name of selected file
FS_NAME_CHECK to compare the short name of selected file
sz_name if FS_NAME_GET then buffer to store the short name file (ASCII or UNICODE )
if FS_NAME_CHECK then name to compare with short name (ASCII or UNICODE), it must be terminate by NULL or '*' value
u8_size_max buffer size (unit ASCII or UNICODE ) (ignored in "FS_NAME_CHECK" mode)
Returns:
FALSE, in case of error, see global value "fs_g_status" for more detail

TRUE, the name is correct or read OK

//! Global variable used
//! IN :
//!   fs_g_sector       The directory sector corresponding at the current position
//!   fs_g_nav_fast.u16_entry_pos_sel_file    Position in directory of the entry file (unit entry)
//! 

Definition at line 1476 of file fat.c.

Referenced by nav_file_name().

01477 {
01478    Bool b_extension_nostart = TRUE;
01479    U8 u8_pos_name;
01480    U8 u8_entry_char, u8_szname_char;
01481    PTR_CACHE ptr_entry;
01482    U8 u8_pos_entry;
01483 
01484    fs_g_status = FS_ERR_NAME_INCORRECT;  // by default the name don't corresponding at filter name
01485 
01486    u8_pos_name = 0;
01487    u8_pos_entry = 0;
01488    ptr_entry = fat_get_ptr_entry();
01489 
01490    // for each characters of short name
01491    while( 1 )
01492    {
01493       if( FS_SIZE_SFNAME == u8_pos_entry )
01494       {
01495          u8_entry_char = 0;   // end of name
01496       }
01497       else
01498       {
01499          u8_entry_char = ptr_entry[ u8_pos_entry ];
01500          if( ((FS_SIZE_SFNAME_WITHOUT_EXT == u8_pos_entry) && b_extension_nostart)  // end of name and '.' character no writed
01501          ||  ( ' ' == u8_entry_char) )
01502          {
01503             // end of name or extension
01504             if( (FS_SIZE_SFNAME_WITHOUT_EXT >= u8_pos_entry)         // End of name without extension
01505             &&  (' ' != ptr_entry[ FS_SIZE_SFNAME_WITHOUT_EXT ]) )   // extension exists
01506             {
01507                // go to extension position
01508                b_extension_nostart = FALSE;
01509                u8_pos_entry = FS_SIZE_SFNAME_WITHOUT_EXT-1;
01510                u8_entry_char = '.';
01511             }
01512             else
01513             {
01514                u8_entry_char = 0;                                    // end of name
01515             }
01516          }
01517       }
01518 
01519       if( FS_NAME_GET == b_mode )
01520       {
01521          if( !g_b_string_length )
01522          {
01523             if(u8_pos_name >= (u8_size_max-1))
01524                u8_entry_char = 0;                                    // buffer full then force end of string
01525 
01526             if( ('A'<=u8_entry_char) && (u8_entry_char<='Z'))
01527                u8_entry_char += ('a'-'A');                           // display short name in down case
01528 
01529             if( Is_unicode )
01530             {
01531                ((FS_STR_UNICODE)sz_name)[0] = u8_entry_char;
01532             }else{
01533                sz_name[0] = u8_entry_char;
01534             }
01535          }
01536       }
01537       else
01538       {
01539          // Compare the name
01540          if( Is_unicode
01541          && (0 != MSB(((FS_STR_UNICODE)sz_name)[0])) )
01542          {
01543             // The UNICODE is not possibled in short name
01544             return FALSE;
01545          }
01546 
01547          if( Is_unicode )
01548          {
01549             u8_szname_char = ((FS_STR_UNICODE)sz_name)[0];
01550          }else{
01551             u8_szname_char = sz_name[0];
01552          }
01553          if ('*' == u8_szname_char)
01554          {  // end of filter name which autorise all next character
01555             return TRUE;   //*** The name is correct ***
01556          }
01557 
01558          if( (0 != u8_entry_char) || (('\\' != u8_szname_char) && ('/' != u8_szname_char)) )
01559          {
01560             if((u8_szname_char != u8_entry_char)
01561             && (u8_szname_char != (u8_entry_char+('a'-'A'))) )  // no case sensitive
01562                return FALSE;  // short name not equal
01563          }
01564       }
01565 
01566       // For each characters
01567       if (0 == u8_entry_char)
01568       {
01569          if( g_b_string_length )
01570          {
01571             ((FS_STR_UNICODE)sz_name)[0] = u8_pos_name+1;      // Get length name
01572          }
01573          return TRUE;   // End of test correct or end of get name
01574       }
01575       if( !g_b_string_length )
01576       {
01577          sz_name += (Is_unicode? 2 : 1 );
01578       }
01579       u8_pos_name++;
01580       u8_pos_entry++;
01581    }
01582 }

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Bool fat_entry_longname ( FS_STRING  sz_name,
U8  u8_size_max,
Bool  b_mode,
Bool  b_match_case 
)

This function returns or compares the long name entry.

Parameters:
b_mode action mode:
FS_NAME_GET to get the long name of selected file
FS_NAME_CHECK to compare the long name of selected file
sz_name if FS_NAME_GET then buffer to store the long name file (ASCII or UNICODE )
if FS_NAME_CHECK then name to compare with long name (ASCII or UNICODE), it must be terminate by NULL or '*' value
b_match_case FALSE, ignore the case (only used in "FS_NAME_CHECK" action mode)
u8_size_max buffer size (unit ASCII or UNICODE ) (ignored in "FS_NAME_CHECK" mode)
Returns:
FALSE is not the end of long name, or in case of error, see global value "fs_g_status" for more detail

TRUE, the name is correct or read is finish

//! Global variable used
//! IN :
//!   fs_g_sector       The directory sector corresponding at the current position
//!   fs_g_nav_fast.u16_entry_pos_sel_file    Position in directory of the entry file (unit entry)
//! 

Definition at line 1607 of file fat.c.

Referenced by nav_file_name().

01608 {
01609    U8 u8_pos_name;
01610    PTR_CACHE ptr_entry;
01611    U16 u16_unicode_entry;
01612    U16 u16_unicode_szname;
01613 
01614    ptr_entry = fat_get_ptr_entry();
01615 
01616    if( (FS_ENTRY_END == *ptr_entry )            // end of directory
01617    ||  (FS_ENTRY_DEL == *ptr_entry )            // entry deleted
01618    ||  (FS_ATTR_LFN_ENTRY != ptr_entry[11]) )   // no long name
01619    {
01620       fs_g_status = FS_ERR_ENTRY_BAD;
01621       return FALSE;
01622    }
01623 
01624    if( g_b_string_length )
01625    {
01626       if ( 0 == (FS_ENTRY_LFN_LAST & *ptr_entry))
01627       {
01628          // no necessary -> ((FS_STR_UNICODE)sz_name)[0] = FS_SIZE_LFN_ENTRY;
01629          fs_g_status = FS_NO_LAST_LFN_ENTRY;
01630          return FALSE;                          // Other entry long name
01631       }
01632    }
01633 
01634    ptr_entry++;                                 // The long name start at offset 1 of the entry file
01635 
01636    u8_pos_name=0;
01637    while( 1 )
01638    {
01639       LSB(u16_unicode_entry) = ptr_entry[0];
01640       MSB(u16_unicode_entry) = ptr_entry[1];
01641       if( FS_NAME_GET == b_mode )
01642       {
01643          if( !g_b_string_length )
01644          {
01645             // Check the end of buffer
01646             if( u8_pos_name>=(u8_size_max-1) )
01647             {
01648                // Write end of string
01649                if( Is_unicode )
01650                {
01651                   ((FS_STR_UNICODE)sz_name)[0] = 0;
01652                }else{
01653                   sz_name[0] = 0;
01654                }
01655                return TRUE;                     // the buffer is full
01656             }
01657             // Read and store the long name
01658             if( Is_unicode )
01659             {
01660                ((FS_STR_UNICODE)sz_name)[0] = u16_unicode_entry;
01661             }else{
01662                sz_name[0] = (U8)u16_unicode_entry;
01663             }
01664          }
01665       }
01666       else
01667       {
01668          if( Is_unicode )
01669          {
01670             u16_unicode_szname = ((FS_STR_UNICODE)sz_name)[0];
01671          }else{
01672             u16_unicode_szname = sz_name[0];
01673          }
01674          // Check the name
01675          if( '*' == u16_unicode_szname )
01676          {  // end of filter name which autorise all next character
01677             return TRUE;   //*** The name is correct ***
01678          }
01679 
01680          if( ((0 != u16_unicode_entry ) || (( '\\' != u16_unicode_szname) && ( '/' != u16_unicode_szname)) )
01681          &&  ((u16_unicode_szname != (u16_unicode_entry+('a'-'A'))) || b_match_case)
01682          &&  ((u16_unicode_szname != (u16_unicode_entry-('a'-'A'))) || b_match_case)
01683          &&  (u16_unicode_szname != u16_unicode_entry) )
01684          {
01685            fs_g_status = FS_ERR_NAME_INCORRECT; //  The name don't corresponding at filter name
01686            return FALSE;
01687          }
01688       }
01689 
01690       if( 0 == u16_unicode_entry)
01691       {
01692          if( g_b_string_length )
01693          {
01694             ((FS_STR_UNICODE)sz_name)[0] = u8_pos_name+1;
01695          }
01696          return TRUE;                           // Last long name entry
01697       }
01698       if( 4 == u8_pos_name )
01699          ptr_entry += 3;                        // Go to second character
01700 
01701       if( 10 == u8_pos_name )
01702          ptr_entry += 2;                        // Go to third character
01703 
01704       if( 12 == u8_pos_name )
01705       {  // End of entry long name
01706          ptr_entry -= (FS_SIZE_FILE_ENTRY-2);   // Go to the first byte of the file entry
01707          if ( 0 == (FS_ENTRY_LFN_LAST & ptr_entry[0]))
01708          {
01709             fs_g_status = FS_NO_LAST_LFN_ENTRY;
01710             return FALSE;                       // Other long name entry is present
01711          }
01712          else
01713          {  // It is the last long name entry
01714             // then it is the end of name
01715             if( (FS_NAME_GET == b_mode) && g_b_string_length )
01716             {
01717                ((FS_STR_UNICODE)sz_name)[0] = 14;
01718                return TRUE;
01719             }
01720             sz_name += (Is_unicode? 2 : 1 );
01721             if( FS_NAME_GET == b_mode )
01722             {
01723                // Write end of string UNICODE
01724                if( Is_unicode )
01725                {
01726                   ((FS_STR_UNICODE)sz_name)[0] = 0;
01727                }else{
01728                   sz_name[0] = 0;
01729                }
01730                return TRUE;
01731             }
01732             else
01733             {
01734                // if it is the end of filter
01735                if( Is_unicode )
01736                {
01737                   u16_unicode_szname = ((FS_STR_UNICODE)sz_name)[0];
01738                }else{
01739                   u16_unicode_szname = sz_name[0];
01740                }
01741                return fat_check_eof_name(u16_unicode_szname);
01742             }
01743          }
01744       }
01745 
01746       if( !g_b_string_length )
01747       {
01748          sz_name += (Is_unicode? 2 : 1 );
01749       }
01750       u8_pos_name++;
01751       ptr_entry+=2;
01752    }
01753 }

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Bool fat_check_eof_name ( U16  character  ) 

Check end of name.

Parameters:
character value of character to check
Returns:
TRUE, it is a character to signal a end of name (0,'\','/')

FALSE, otherwise

Definition at line 1763 of file fat.c.

Referenced by fat_entry_longname().

01764 {
01765    return (('\0'==character)||('\\'==character)||('/'==character));
01766 }

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PTR_CACHE fat_get_ptr_entry ( void   ) 

This function returns a cache pointer on the current entry.

Returns:
a pointer on the internal cache

Definition at line 1773 of file fat.c.

Referenced by fat_entry_check(), fat_entry_checkext(), fat_entry_longname(), fat_entry_shortname(), fat_get_date(), and fat_get_entry_info().

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Bool fat_cache_read_sector ( Bool  b_load  ) 

This function loads a memory sector in internal cache sector.

Parameters:
b_load TRUE, load the cache with the memory sector corresponding
FALSE, Don't change the sector cache but change the memory address of cache
Returns:
FALSE in case of error, see global value "fs_g_status" for more detail

TRUE otherwise

//! Global variable used
//! IN :
//!   fs_g_nav.u8_lun      drive number to read
//!   fs_gu32_addrsector   address to read (unit sector)
//! 

Definition at line 1794 of file fat.c.

Referenced by fat_cluster_readnext(), fat_cluster_val(), fat_get_nbpartition(), fat_getfreespace_percent(), fat_mount(), fat_read_dir(), and fat_read_file().

01795 {
01796    // Check if the sector asked is the same in cache
01797    if( (fs_g_sectorcache.u8_lun     == fs_g_nav.u8_lun )
01798    &&  (fs_g_sectorcache.u32_addr   == fs_gu32_addrsector ) )
01799    {
01800       return TRUE;
01801    }
01802 
01803    // Write previous cache before fill cache with a new sector
01804    if( !fat_cache_flush())
01805       return FALSE;
01806 
01807    // Delete informations about the caches
01808    fat_cache_reset();
01809 
01810    // Init sector cache
01811    fs_g_sectorcache.u32_addr = fs_gu32_addrsector;
01812    if( b_load )
01813    {
01814       // Load the sector from memory
01815       if( CTRL_GOOD != memory_2_ram( fs_g_nav.u8_lun  , fs_g_sectorcache.u32_addr, fs_g_sector))
01816       {
01817          fs_g_status = FS_ERR_HW;
01818          return FALSE;
01819       }
01820    }
01821    // Valid sector cache
01822    fs_g_sectorcache.u8_lun = fs_g_nav.u8_lun;
01823    return TRUE;
01824 }

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void fat_cache_reset ( void   ) 

This function resets the sector cache.

Definition at line 1829 of file fat.c.

Referenced by fat_cache_read_sector(), fat_check_device(), nav_reset(), stream_mem_to_mem(), ushell_cmd_perform_access(), and ushell_cmd_perform_extaccess().

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Bool fat_cache_flush ( void   ) 

This function flushs the sector cache on the memory if necessary.

Returns:
FALSE in case of error, see global value "fs_g_status" for more detail

TRUE otherwise

Definition at line 1860 of file fat.c.

Referenced by fat_cache_read_sector(), file_close(), nav_exit(), stream_mem_to_mem(), ushell_cmd_perform_access(), and ushell_cmd_perform_extaccess().

01861 {
01862    // If the cache is modified, then write the sector cache on the device
01863    if ( TRUE == fs_g_sectorcache.u8_dirty )
01864    {
01865       fs_g_sectorcache.u8_dirty = FALSE; // Always clear, although an error occur
01866       if( mem_wr_protect( fs_g_sectorcache.u8_lun  ))
01867       {
01868          fs_g_status = FS_LUN_WP;
01869          return FALSE;
01870       }
01871       if (CTRL_GOOD != ram_2_memory( fs_g_sectorcache.u8_lun , fs_g_sectorcache.u32_addr , fs_g_sector ))
01872       {
01873          fs_g_status = FS_ERR_HW;
01874          return FALSE;
01875       }
01876    }
01877    return TRUE;
01878 }

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Variable Documentation

_MEM_TYPE_SLOW_ Fs_clusterlist_cache fs_g_cache_clusterlist[FS_NB_CACHE_CLUSLIST *2]

Definition at line 68 of file fat.c.

Referenced by fat_cache_clusterlist_reset(), fat_cache_clusterlist_update_finish(), fat_cache_clusterlist_update_read(), fat_cache_clusterlist_update_select(), fat_cache_clusterlist_update_start(), and fat_cluster_list().

_MEM_TYPE_SLOW_ U8 fs_g_u8_current_cache

Definition at line 69 of file fat.c.

Referenced by fat_cache_clusterlist_reset(), fat_cache_clusterlist_update_finish(), fat_cache_clusterlist_update_read(), fat_cache_clusterlist_update_select(), fat_cache_clusterlist_update_start(), and fat_cluster_list().

_MEM_TYPE_FAST_ U16 fs_g_u16_pos_fat

Definition at line 581 of file fat.c.

Referenced by fat_cluster_readnext(), and fat_cluster_val().


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