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1 | /*#######################################################################################*/ |
1 | /*#######################################################################################*/ |
2 | /* !!! THIS IS NOT FREE SOFTWARE !!! */ |
2 | /* !!! THIS IS NOT FREE SOFTWARE !!! */ |
3 | /*#######################################################################################*/ |
3 | /*#######################################################################################*/ |
4 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
4 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
5 | // + Copyright (c) 2008 Ingo Busker, Holger Buss |
5 | // + Copyright (c) 2008 Ingo Busker, Holger Buss |
6 | // + Nur für den privaten Gebrauch / NON-COMMERCIAL USE ONLY |
6 | // + Nur für den privaten Gebrauch / NON-COMMERCIAL USE ONLY |
7 | // + FOR NON COMMERCIAL USE ONLY |
7 | // + FOR NON COMMERCIAL USE ONLY |
8 | // + www.MikroKopter.com |
8 | // + www.MikroKopter.com |
9 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
9 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
10 | // + Es gilt für das gesamte Projekt (Hardware, Software, Binärfiles, Sourcecode und Dokumentation), |
10 | // + Es gilt für das gesamte Projekt (Hardware, Software, Binärfiles, Sourcecode und Dokumentation), |
11 | // + dass eine Nutzung (auch auszugsweise) nur für den privaten (nicht-kommerziellen) Gebrauch zulässig ist. |
11 | // + dass eine Nutzung (auch auszugsweise) nur für den privaten (nicht-kommerziellen) Gebrauch zulässig ist. |
12 | // + Sollten direkte oder indirekte kommerzielle Absichten verfolgt werden, ist mit uns (info@mikrokopter.de) Kontakt |
12 | // + Sollten direkte oder indirekte kommerzielle Absichten verfolgt werden, ist mit uns (info@mikrokopter.de) Kontakt |
13 | // + bzgl. der Nutzungsbedingungen aufzunehmen. |
13 | // + bzgl. der Nutzungsbedingungen aufzunehmen. |
14 | // + Eine kommerzielle Nutzung ist z.B.Verkauf von MikroKoptern, Bestückung und Verkauf von Platinen oder Bausätzen, |
14 | // + Eine kommerzielle Nutzung ist z.B.Verkauf von MikroKoptern, Bestückung und Verkauf von Platinen oder Bausätzen, |
15 | // + Verkauf von Luftbildaufnahmen, usw. |
15 | // + Verkauf von Luftbildaufnahmen, usw. |
16 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
16 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
17 | // + Werden Teile des Quellcodes (mit oder ohne Modifikation) weiterverwendet oder veröffentlicht, |
17 | // + Werden Teile des Quellcodes (mit oder ohne Modifikation) weiterverwendet oder veröffentlicht, |
18 | // + unterliegen sie auch diesen Nutzungsbedingungen und diese Nutzungsbedingungen incl. Copyright müssen dann beiliegen |
18 | // + unterliegen sie auch diesen Nutzungsbedingungen und diese Nutzungsbedingungen incl. Copyright müssen dann beiliegen |
19 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
19 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
20 | // + Sollte die Software (auch auszugesweise) oder sonstige Informationen des MikroKopter-Projekts |
20 | // + Sollte die Software (auch auszugesweise) oder sonstige Informationen des MikroKopter-Projekts |
21 | // + auf anderen Webseiten oder sonstigen Medien veröffentlicht werden, muss unsere Webseite "http://www.mikrokopter.de" |
21 | // + auf anderen Webseiten oder sonstigen Medien veröffentlicht werden, muss unsere Webseite "http://www.mikrokopter.de" |
22 | // + eindeutig als Ursprung verlinkt werden |
22 | // + eindeutig als Ursprung verlinkt werden |
23 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
23 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
24 | // + Keine Gewähr auf Fehlerfreiheit, Vollständigkeit oder Funktion |
24 | // + Keine Gewähr auf Fehlerfreiheit, Vollständigkeit oder Funktion |
25 | // + Benutzung auf eigene Gefahr |
25 | // + Benutzung auf eigene Gefahr |
26 | // + Wir übernehmen keinerlei Haftung für direkte oder indirekte Personen- oder Sachschäden |
26 | // + Wir übernehmen keinerlei Haftung für direkte oder indirekte Personen- oder Sachschäden |
27 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
27 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
28 | // + Die Portierung oder Nutzung der Software (oder Teile davon) auf andere Systeme (ausser der Hardware von www.mikrokopter.de) ist nur |
28 | // + Die Portierung oder Nutzung der Software (oder Teile davon) auf andere Systeme (ausser der Hardware von www.mikrokopter.de) ist nur |
29 | // + mit unserer Zustimmung zulässig |
29 | // + mit unserer Zustimmung zulässig |
30 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
30 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
31 | // + Die Funktion printf_P() unterliegt ihrer eigenen Lizenz und ist hiervon nicht betroffen |
31 | // + Die Funktion printf_P() unterliegt ihrer eigenen Lizenz und ist hiervon nicht betroffen |
32 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
32 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
33 | // + Redistributions of source code (with or without modifications) must retain the above copyright notice, |
33 | // + Redistributions of source code (with or without modifications) must retain the above copyright notice, |
34 | // + this list of conditions and the following disclaimer. |
34 | // + this list of conditions and the following disclaimer. |
35 | // + * Neither the name of the copyright holders nor the names of contributors may be used to endorse or promote products derived |
35 | // + * Neither the name of the copyright holders nor the names of contributors may be used to endorse or promote products derived |
36 | // + from this software without specific prior written permission. |
36 | // + from this software without specific prior written permission. |
37 | // + * The use of this project (hardware, software, binary files, sources and documentation) is only permitted |
37 | // + * The use of this project (hardware, software, binary files, sources and documentation) is only permitted |
38 | // + for non-commercial use (directly or indirectly) |
38 | // + for non-commercial use (directly or indirectly) |
39 | // + Commercial use (for excample: selling of MikroKopters, selling of PCBs, assembly, ...) is only permitted |
39 | // + Commercial use (for excample: selling of MikroKopters, selling of PCBs, assembly, ...) is only permitted |
40 | // + with our written permission |
40 | // + with our written permission |
41 | // + * If sources or documentations are redistributet on other webpages, out webpage (http://www.MikroKopter.de) must be |
41 | // + * If sources or documentations are redistributet on other webpages, out webpage (http://www.MikroKopter.de) must be |
42 | // + clearly linked as origin |
42 | // + clearly linked as origin |
43 | // + * porting the sources to other systems or using the software on other systems (except hardware from www.mikrokopter.de) is not allowed |
43 | // + * porting the sources to other systems or using the software on other systems (except hardware from www.mikrokopter.de) is not allowed |
44 | // |
44 | // |
45 | // + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" |
45 | // + THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" |
46 | // + AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
46 | // + AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
47 | // + IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE |
47 | // + IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE |
48 | // + ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE |
48 | // + ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE |
49 | // + LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR |
49 | // + LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR |
50 | // + CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF |
50 | // + CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF |
51 | // + SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS |
51 | // + SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS |
52 | // + INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN |
52 | // + INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN |
53 | // + CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) |
53 | // + CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) |
54 | // + ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE |
54 | // + ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE |
55 | // + POSSIBILITY OF SUCH DAMAGE. |
55 | // + POSSIBILITY OF SUCH DAMAGE. |
56 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
56 | // ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ |
57 | #include <stdio.h> |
57 | #include <stdio.h> |
58 | #include "91x_lib.h" |
58 | #include "91x_lib.h" |
59 | #include "timer1.h" |
59 | #include "timer1.h" |
60 | #include "fat16.h" |
60 | #include "fat16.h" |
61 | #include "sdc.h" |
61 | #include "sdc.h" |
62 | #include "uart1.h" |
62 | #include "uart1.h" |
63 | 63 | ||
64 | //________________________________________________________________________________________________________________________________________ |
64 | //________________________________________________________________________________________________________________________________________ |
65 | // Module name: fat16.c |
65 | // Module name: fat16.c |
66 | // Compiler used: avr-gcc 3.4.5 |
66 | // Compiler used: avr-gcc 3.4.5 |
67 | // Last Modifikation: 20.03.2010 |
67 | // Last Modifikation: 20.03.2010 |
68 | // Version: 2.10 |
68 | // Version: 2.10 |
69 | // Authors: Stephan Busker & Gregor Stobrawa |
69 | // Authors: Stephan Busker & Gregor Stobrawa |
70 | // Description: Source files for FAT16 implementation with read and write-access |
70 | // Description: Source files for FAT16 implementation with read and write-access |
71 | // Copyright (C) 2008 Stephan Busker & Gregor Stobrawa |
71 | // Copyright (C) 2008 Stephan Busker & Gregor Stobrawa |
72 | //........................................................................................................................................ |
72 | //........................................................................................................................................ |
73 | // Functions: extern s16 Fat16_Init(void); |
73 | // Functions: extern s16 Fat16_Init(void); |
74 | // extern s16 Fat16_Deinit(void); |
74 | // extern s16 Fat16_Deinit(void); |
75 | // extern s8* FAT16_GetVolumeLabel(void); |
75 | // extern s8* FAT16_GetVolumeLabel(void); |
76 | // extern File_t * fopen_(const u8 *filename, const s8 mode); |
76 | // extern File_t * fopen_(const u8 *filename, const s8 mode); |
77 | // extern s16 fclose_(File_t *File); |
77 | // extern s16 fclose_(File_t *File); |
78 | // extern u8 fexist_(s8 * const filename); |
78 | // extern u8 fexist_(s8 * const filename); |
79 | // extern s16 fflush_(File_t *File); |
79 | // extern s16 fflush_(File_t *File); |
80 | // extern s16 fseek_(File_t *File, s32 offset, s16 origin); |
80 | // extern s16 fseek_(File_t *File, s32 offset, s16 origin); |
81 | // extern s16 fgetc_(File_t *File); |
81 | // extern s16 fgetc_(File_t *File); |
82 | // extern s16 fputc_(u8 c, File_t *File); |
82 | // extern s16 fputc_(u8 c, File_t *File); |
83 | // extern u32 fread_(void *buffer, u32 size, u32 count, File_t *File); |
83 | // extern u32 fread_(void *buffer, u32 size, u32 count, File_t *File); |
84 | // extern u32 fwrite_(void *buffer, u32 size, u32 count, File_t *File); |
84 | // extern u32 fwrite_(void *buffer, u32 size, u32 count, File_t *File); |
85 | // extern s16 fputs_(const u8 *string, File_t *File); |
85 | // extern s16 fputs_(const u8 *string, File_t *File); |
86 | // extern u8 * fgets_(u8 *string, s16 length, File_t *File); |
86 | // extern u8 * fgets_(u8 *string, s16 length, File_t *File); |
87 | // extern u8 feof_(File_t * const file); |
87 | // extern u8 feof_(File_t * const file); |
88 | //........................................................................................................................................ |
88 | //........................................................................................................................................ |
89 | // ext. functions: extern SD_Result_t SDC_Init(void;) |
89 | // ext. functions: extern SD_Result_t SDC_Init(void;) |
90 | // extern SD_Result_t SDC_Deinit(void); |
90 | // extern SD_Result_t SDC_Deinit(void); |
91 | // extern SD_Result_t SDC_GetSector (u32,u8 *); |
91 | // extern SD_Result_t SDC_GetSector (u32,u8 *); |
92 | // extern SD_Result_t SDC_PutSector (u32,u8 *); |
92 | // extern SD_Result_t SDC_PutSector (u32,u8 *); |
93 | //........................................................................................................................................ |
93 | //........................................................................................................................................ |
94 | // |
94 | // |
95 | // URL: www.Mikro-Control.de |
95 | // URL: www.Mikro-Control.de |
96 | // mailto: stephan.busker@mikro-control.de |
96 | // mailto: stephan.busker@mikro-control.de |
97 | //________________________________________________________________________________________________________________________________________ |
97 | //________________________________________________________________________________________________________________________________________ |
98 | 98 | ||
99 | /* |
99 | /* |
100 | FAT16 Drive Layout: |
100 | FAT16 Drive Layout: |
101 | Description Offset |
101 | Description Offset |
102 | Volume Boot Sector Start of Partition |
102 | Volume Boot Sector Start of Partition |
103 | Fat Tables Start + # of Reserved Sectors |
103 | Fat Tables Start + # of Reserved Sectors |
104 | Root Directory Entry Start + # of Reserved + (# of Sectors Per FAT * 2) |
104 | Root Directory Entry Start + # of Reserved + (# of Sectors Per FAT * 2) |
105 | Data Area (Starts with Cluster #2) Start + # of Reserved + (# of Sectors Per FAT * 2) + ((Maximum Root Directory Entries * 32) / Bytes per Sector) |
105 | Data Area (Starts with Cluster #2) Start + # of Reserved + (# of Sectors Per FAT * 2) + ((Maximum Root Directory Entries * 32) / Bytes per Sector) |
106 | */ |
106 | */ |
107 | 107 | ||
108 | 108 | ||
109 | /* |
109 | /* |
110 | ________________________________________________________________________________________________________________________________________ |
110 | ________________________________________________________________________________________________________________________________________ |
111 | 111 | ||
112 | Structure of an partition entry |
112 | Structure of an partition entry |
113 | ________________________________________________________________________________________________________________________________________ |
113 | ________________________________________________________________________________________________________________________________________ |
114 | 114 | ||
115 | Partition Entry is 16 bytes long |
115 | Partition Entry is 16 bytes long |
116 | */ |
116 | */ |
117 | typedef struct |
117 | typedef struct |
118 | { |
118 | { |
119 | u8 PartitionState; // Current State of Partition (00h=Inactive, 80h=Active) |
119 | u8 PartitionState; // Current State of Partition (00h=Inactive, 80h=Active) |
120 | u8 BeginningHead; // Beginning of Partition - Head |
120 | u8 BeginningHead; // Beginning of Partition - Head |
121 | u16 BeginningCylSec; // Beginning of Partition - Cylinder/Sector (See Below) |
121 | u16 BeginningCylSec; // Beginning of Partition - Cylinder/Sector (See Below) |
122 | u8 Type; // Type of Partition (See List Below) |
122 | u8 Type; // Type of Partition (See List Below) |
123 | u8 EndHead; // End of Partition - Head |
123 | u8 EndHead; // End of Partition - Head |
124 | u16 EndCylSec; // End of Partition - Cylinder/Sector |
124 | u16 EndCylSec; // End of Partition - Cylinder/Sector |
125 | u32 NoSectorsBeforePartition; // Number of Sectors between the MBR and the First Sector in the Partition |
125 | u32 NoSectorsBeforePartition; // Number of Sectors between the MBR and the First Sector in the Partition |
126 | u32 NoSectorsPartition ; // Number of Sectors in the Partition |
126 | u32 NoSectorsPartition ; // Number of Sectors in the Partition |
127 | } __attribute__((packed)) PartitionEntry_t; |
127 | } __attribute__((packed)) PartitionEntry_t; |
128 | 128 | ||
129 | /* |
129 | /* |
130 | Coding of Cylinder/Sector words |
130 | Coding of Cylinder/Sector words |
131 | 131 | ||
132 | Cylinder is 10 bits: [7:0] at [15:8] and [9:8] at [7:6] |
132 | Cylinder is 10 bits: [7:0] at [15:8] and [9:8] at [7:6] |
133 | Sector is 5 bits: [5:0] at [5:0] |
133 | Sector is 5 bits: [5:0] at [5:0] |
134 | */ |
134 | */ |
135 | 135 | ||
136 | // Partition Types: |
136 | // Partition Types: |
137 | #define PART_TYPE_UNKNOWN 0x00 |
137 | #define PART_TYPE_UNKNOWN 0x00 |
138 | #define PART_TYPE_FAT12 0x01 |
138 | #define PART_TYPE_FAT12 0x01 |
139 | #define PART_TYPE_XENIX 0x02 |
139 | #define PART_TYPE_XENIX 0x02 |
140 | #define PART_TYPE_FAT16_ST_32_MB 0x04 |
140 | #define PART_TYPE_FAT16_ST_32_MB 0x04 |
141 | #define PART_TYPE_EXTDOS 0x05 |
141 | #define PART_TYPE_EXTDOS 0x05 |
142 | #define PART_TYPE_FAT16_LT_32_MB 0x06 |
142 | #define PART_TYPE_FAT16_LT_32_MB 0x06 |
143 | #define PART_TYPE_NTFS 0x07 |
143 | #define PART_TYPE_NTFS 0x07 |
144 | #define PART_TYPE_FAT32 0x0B |
144 | #define PART_TYPE_FAT32 0x0B |
145 | #define PART_TYPE_FAT32LBA 0x0C |
145 | #define PART_TYPE_FAT32LBA 0x0C |
146 | #define PART_TYPE_FAT16LBA 0x0E |
146 | #define PART_TYPE_FAT16LBA 0x0E |
147 | #define PART_TYPE_EXTDOSLBA 0x0F |
147 | #define PART_TYPE_EXTDOSLBA 0x0F |
148 | #define PART_TYPE_EISA 0x12 |
148 | #define PART_TYPE_EISA 0x12 |
149 | #define PART_TYPE_ONTRACK 0x33 |
149 | #define PART_TYPE_ONTRACK 0x33 |
150 | #define PART_TYPE_NOVELL 0x40 |
150 | #define PART_TYPE_NOVELL 0x40 |
151 | #define PART_TYPE_DYNAMIC 0x42 |
151 | #define PART_TYPE_DYNAMIC 0x42 |
152 | #define PART_TYPE_PCIX 0x4B |
152 | #define PART_TYPE_PCIX 0x4B |
153 | #define PART_TYPE_LINUX_SWAP 0x82 |
153 | #define PART_TYPE_LINUX_SWAP 0x82 |
154 | #define PART_TYPE_LINUX_NATIVE 0x83 |
154 | #define PART_TYPE_LINUX_NATIVE 0x83 |
155 | #define PART_TYPE_LINUX_LVM 0x8E |
155 | #define PART_TYPE_LINUX_LVM 0x8E |
156 | #define PART_TYPE_PHOENIXSAVE 0xA0 |
156 | #define PART_TYPE_PHOENIXSAVE 0xA0 |
157 | #define PART_TYPE_FREEBSD 0xA5 |
157 | #define PART_TYPE_FREEBSD 0xA5 |
158 | #define PART_TYPE_OPENBSD 0xA6 |
158 | #define PART_TYPE_OPENBSD 0xA6 |
159 | #define PART_TYPE_NETNBSD 0xA9 |
159 | #define PART_TYPE_NETNBSD 0xA9 |
160 | #define PART_TYPE_CPM 0xDB |
160 | #define PART_TYPE_CPM 0xDB |
161 | #define PART_TYPE_DBFS 0xE0 |
161 | #define PART_TYPE_DBFS 0xE0 |
162 | #define PART_TYPE_BBT 0xFF |
162 | #define PART_TYPE_BBT 0xFF |
163 | 163 | ||
164 | 164 | ||
165 | /* |
165 | /* |
166 | ________________________________________________________________________________________________________________________________________ |
166 | ________________________________________________________________________________________________________________________________________ |
167 | 167 | ||
168 | Structure of the MasterBootRecord |
168 | Structure of the MasterBootRecord |
169 | ________________________________________________________________________________________________________________________________________ |
169 | ________________________________________________________________________________________________________________________________________ |
170 | 170 | ||
171 | Master Boot Record is 512 bytes long |
171 | Master Boot Record is 512 bytes long |
172 | The Master Boot Record is the same for pretty much all Operating Systems. |
172 | The Master Boot Record is the same for pretty much all Operating Systems. |
173 | It is located on the first Sector of the Hard Drive, at Cylinder 0, Head 0, Sector 1 |
173 | It is located on the first Sector of the Hard Drive, at Cylinder 0, Head 0, Sector 1 |
174 | */ |
174 | */ |
175 | typedef struct |
175 | typedef struct |
176 | { |
176 | { |
177 | u8 ExecutableCode[446]; // 446 bytes for machine start code |
177 | u8 ExecutableCode[446]; // 446 bytes for machine start code |
178 | PartitionEntry_t PartitionEntry1; // 16 bytes for partition entry 1 |
178 | PartitionEntry_t PartitionEntry1; // 16 bytes for partition entry 1 |
179 | PartitionEntry_t PartitionEntry2; // 16 bytes for partition entry 2 |
179 | PartitionEntry_t PartitionEntry2; // 16 bytes for partition entry 2 |
180 | PartitionEntry_t PartitionEntry3; // 16 bytes for partition entry 3 |
180 | PartitionEntry_t PartitionEntry3; // 16 bytes for partition entry 3 |
181 | PartitionEntry_t PartitionEntry4; // 16 bytes for partition entry 4 |
181 | PartitionEntry_t PartitionEntry4; // 16 bytes for partition entry 4 |
182 | u16 ExecutableMarker; // BIOS-Signature (0x55 0xAA) |
182 | u16 ExecutableMarker; // BIOS-Signature (0x55 0xAA) |
183 | } __attribute__((packed)) MBR_Entry_t; |
183 | } __attribute__((packed)) MBR_Entry_t; |
184 | 184 | ||
185 | 185 | ||
186 | /* |
186 | /* |
187 | ________________________________________________________________________________________________________________________________________ |
187 | ________________________________________________________________________________________________________________________________________ |
188 | 188 | ||
189 | Structure of the VolumeBootRecord |
189 | Structure of the VolumeBootRecord |
190 | ________________________________________________________________________________________________________________________________________ |
190 | ________________________________________________________________________________________________________________________________________ |
191 | 191 | ||
192 | The Volume Boot Record is 512 bytes long |
192 | The Volume Boot Record is 512 bytes long |
193 | This information is located in the first sector of every partition. |
193 | This information is located in the first sector of every partition. |
194 | */ |
194 | */ |
195 | typedef struct |
195 | typedef struct |
196 | { |
196 | { |
197 | u8 JumpCode[3]; // Jump Code + NOP |
197 | u8 JumpCode[3]; // Jump Code + NOP |
198 | s8 OEMName[8]; // OEM Name |
198 | s8 OEMName[8]; // OEM Name |
199 | u16 BytesPerSector; // Bytes Per Sector |
199 | u16 BytesPerSector; // Bytes Per Sector |
200 | u8 SectorsPerCluster; // Sectors Per Cluster |
200 | u8 SectorsPerCluster; // Sectors Per Cluster |
201 | u16 ReservedSectors; // Reserved Sectors |
201 | u16 ReservedSectors; // Reserved Sectors |
202 | u8 NoFATCopies; // Number of Copies of FAT |
202 | u8 NoFATCopies; // Number of Copies of FAT |
203 | u16 MaxRootEntries; // Maximum Root Directory Entries |
203 | u16 MaxRootEntries; // Maximum Root Directory Entries |
204 | u16 NoSectorsInPartSml32MB; // Number of Sectors in Partition Smaller than 32 MB |
204 | u16 NoSectorsInPartSml32MB; // Number of Sectors in Partition Smaller than 32 MB |
205 | u8 MediaDescriptor; // Media Descriptor (0xF8 for Hard Disks) |
205 | u8 MediaDescriptor; // Media Descriptor (0xF8 for Hard Disks) |
206 | u16 SectorsPerFAT; // Sectors Per FAT |
206 | u16 SectorsPerFAT; // Sectors Per FAT |
207 | u16 SectorsPerTrack; // Sectors Per Track |
207 | u16 SectorsPerTrack; // Sectors Per Track |
208 | u16 NoHeads; // Number of Heads |
208 | u16 NoHeads; // Number of Heads |
209 | u32 NoHiddenSectors; // Number of Hidden Sectors in Partition |
209 | u32 NoHiddenSectors; // Number of Hidden Sectors in Partition |
210 | u32 NoSectors; // Number of Sectors in Partition |
210 | u32 NoSectors; // Number of Sectors in Partition |
211 | u16 DriveNo; // Logical Drive Number of Partition |
211 | u16 DriveNo; // Logical Drive Number of Partition |
212 | u8 ExtendedSig; // Extended Signature (0x29) |
212 | u8 ExtendedSig; // Extended Signature (0x29) |
213 | u32 SerialNo; // Serial Number of the Partition |
213 | u32 SerialNo; // Serial Number of the Partition |
214 | s8 VolumeName[11]; // Volume Name of the Partititon |
214 | s8 VolumeName[11]; // Volume Name of the Partititon |
215 | s8 FATName[8]; // FAT Name (FAT16) |
215 | s8 FATName[8]; // FAT Name (FAT16) |
216 | u8 ExecutableCode[446]; // 446 bytes for machine start code |
216 | u8 ExecutableCode[446]; // 446 bytes for machine start code |
217 | u16 ExecutableMarker; // Executable Marker (0x55 0xAA) |
217 | u16 ExecutableMarker; // Executable Marker (0x55 0xAA) |
218 | } __attribute__((packed)) VBR_Entry_t; |
218 | } __attribute__((packed)) VBR_Entry_t; |
219 | 219 | ||
220 | 220 | ||
221 | 221 | ||
222 | /* |
222 | /* |
223 | ________________________________________________________________________________________________________________________________________ |
223 | ________________________________________________________________________________________________________________________________________ |
224 | 224 | ||
225 | Structure of an directory entry |
225 | Structure of an directory entry |
226 | ________________________________________________________________________________________________________________________________________ |
226 | ________________________________________________________________________________________________________________________________________ |
227 | 227 | ||
228 | Directory entry is 32 bytes. |
228 | Directory entry is 32 bytes. |
229 | */ |
229 | */ |
230 | typedef struct |
230 | typedef struct |
231 | { |
231 | { |
232 | s8 Name[8]; // 8 bytes name, padded with spaces. |
232 | s8 Name[8]; // 8 bytes name, padded with spaces. |
233 | u8 Extension[3]; // 3 bytes extension, padded with spaces. |
233 | u8 Extension[3]; // 3 bytes extension, padded with spaces. |
234 | u8 Attribute; // attribute of the directory entry (unused,archive,read-only,system,directory,volume) |
234 | u8 Attribute; // attribute of the directory entry (unused,archive,read-only,system,directory,volume) |
235 | u8 Res1; // should be zero |
235 | u8 Res1; // should be zero |
236 | u8 CreationTime10ms; // subsecond resolution of creation time |
236 | u8 CreationTime10ms; // subsecond resolution of creation time |
237 | u16 CreationTime; // Time of creation h:m:s |
237 | u16 CreationTime; // Time of creation h:m:s |
238 | u16 CreationDate; // Date of creation Y.M.D |
238 | u16 CreationDate; // Date of creation Y.M.D |
239 | u16 LastAccessDate; // The date where the file was last accessed |
239 | u16 LastAccessDate; // The date where the file was last accessed |
240 | u8 Res2[2]; // should be zero |
240 | u8 Res2[2]; // should be zero |
241 | u16 ModTime; // date of last write access |
241 | u16 ModTime; // date of last write access |
242 | u16 ModDate; // date of last write access to the file or directory. |
242 | u16 ModDate; // date of last write access to the file or directory. |
243 | u16 StartCluster; // first cluster of the file or directory. |
243 | u16 StartCluster; // first cluster of the file or directory. |
244 | u32 Size; // size of the file or directory in bytes. |
244 | u32 Size; // size of the file or directory in bytes. |
245 | } __attribute__((packed)) DirEntry_t; |
245 | } __attribute__((packed)) DirEntry_t; |
246 | 246 | ||
247 | #define SLOT_EMPTY 0x00 // slot has never been used |
247 | #define SLOT_EMPTY 0x00 // slot has never been used |
248 | #define SLOT_E5 0x05 // the real value is 0xe5 |
248 | #define SLOT_E5 0x05 // the real value is 0xe5 |
249 | #define SLOT_DELETED 0xE5 // file in this slot deleted |
249 | #define SLOT_DELETED 0xE5 // file in this slot deleted |
250 | 250 | ||
251 | #define ATTR_NONE 0x00 // normal file |
251 | #define ATTR_NONE 0x00 // normal file |
252 | #define ATTR_READONLY 0x01 // file is readonly |
252 | #define ATTR_READONLY 0x01 // file is readonly |
253 | #define ATTR_HIDDEN 0x02 // file is hidden |
253 | #define ATTR_HIDDEN 0x02 // file is hidden |
254 | #define ATTR_SYSTEM 0x04 // file is a system file |
254 | #define ATTR_SYSTEM 0x04 // file is a system file |
255 | #define ATTR_VOLUMELABEL 0x08 // entry is a volume label |
255 | #define ATTR_VOLUMELABEL 0x08 // entry is a volume label |
256 | #define ATTR_LONG_FILENAME 0x0F // this is a long filename entry |
256 | #define ATTR_LONG_FILENAME 0x0F // this is a long filename entry |
257 | #define ATTR_SUBDIRECTORY 0x10 // entry is a directory name |
257 | #define ATTR_SUBDIRECTORY 0x10 // entry is a directory name |
258 | #define ATTR_ARCHIVE 0x20 // file is new or modified |
258 | #define ATTR_ARCHIVE 0x20 // file is new or modified |
259 | 259 | ||
260 | 260 | ||
261 | /* |
261 | /* |
262 | ________________________________________________________________________________________________________________________________________ |
262 | ________________________________________________________________________________________________________________________________________ |
263 | 263 | ||
264 | Structure of an entry within the fileallocationtable. |
264 | Structure of an entry within the fileallocationtable. |
265 | ________________________________________________________________________________________________________________________________________ |
265 | ________________________________________________________________________________________________________________________________________ |
266 | */ |
266 | */ |
267 | typedef struct |
267 | typedef struct |
268 | { |
268 | { |
269 | u16 NextCluster; // the next cluster of the file. |
269 | u16 NextCluster; // the next cluster of the file. |
270 | } __attribute__((packed)) Fat16Entry_t; |
270 | } __attribute__((packed)) Fat16Entry_t; |
271 | 271 | ||
272 | // secial fat entries |
272 | // secial fat entries |
273 | #define FAT16_CLUSTER_FREE 0x0000 |
273 | #define FAT16_CLUSTER_FREE 0x0000 |
274 | #define FAT16_CLUSTER_RESERVED 0x0001 |
274 | #define FAT16_CLUSTER_RESERVED 0x0001 |
275 | #define FAT16_CLUSTER_USED_MIN 0x0002 |
275 | #define FAT16_CLUSTER_USED_MIN 0x0002 |
276 | #define FAT16_CLUSTER_USED_MAX 0xFFEF |
276 | #define FAT16_CLUSTER_USED_MAX 0xFFEF |
277 | #define FAT16_CLUSTER_ROOTDIR_MIN 0xFFF0 |
277 | #define FAT16_CLUSTER_ROOTDIR_MIN 0xFFF0 |
278 | #define FAT16_CLUSTER_ROOTDIR_MAX 0xFFF6 |
278 | #define FAT16_CLUSTER_ROOTDIR_MAX 0xFFF6 |
279 | #define FAT16_CLUSTER_BAD 0xFFF7 |
279 | #define FAT16_CLUSTER_BAD 0xFFF7 |
280 | #define FAT16_CLUSTER_LAST_MIN 0xFFF8 |
280 | #define FAT16_CLUSTER_LAST_MIN 0xFFF8 |
281 | #define FAT16_CLUSTER_LAST_MAX 0xFFFF |
281 | #define FAT16_CLUSTER_LAST_MAX 0xFFFF |
282 | 282 | ||
283 | /*****************************************************************************************************************************************/ |
283 | /*****************************************************************************************************************************************/ |
284 | /* */ |
284 | /* */ |
285 | /* Global variables needed for read- or write-acces to the FAT16- filesystem. */ |
285 | /* Global variables needed for read- or write-acces to the FAT16- filesystem. */ |
286 | /* */ |
286 | /* */ |
287 | /*****************************************************************************************************************************************/ |
287 | /*****************************************************************************************************************************************/ |
288 | 288 | ||
289 | #define MBR_SECTOR 0x00 // the masterboot record is located in sector 0. |
289 | #define MBR_SECTOR 0x00 // the masterboot record is located in sector 0. |
290 | #define DIRENTRY_SIZE 32 //bytes |
290 | #define DIRENTRY_SIZE 32 //bytes |
291 | #define DIRENTRIES_PER_SECTOR BYTES_PER_SECTOR/DIRENTRY_SIZE |
291 | #define DIRENTRIES_PER_SECTOR BYTES_PER_SECTOR/DIRENTRY_SIZE |
292 | #define FAT16_BYTES 2 |
292 | #define FAT16_BYTES 2 |
293 | #define FAT16_ENTRIES_PER_SECTOR BYTES_PER_SECTOR/FAT16_BYTES |
293 | #define FAT16_ENTRIES_PER_SECTOR BYTES_PER_SECTOR/FAT16_BYTES |
294 | 294 | ||
295 | #define SECTOR_UNDEFINED 0x00000000L |
295 | #define SECTOR_UNDEFINED 0x00000000L |
296 | #define CLUSTER_UNDEFINED 0x0000 |
296 | #define CLUSTER_UNDEFINED 0x0000 |
297 | 297 | ||
298 | #define FSTATE_UNUSED 0 |
298 | #define FSTATE_UNUSED 0 |
299 | #define FSTATE_USED 1 |
299 | #define FSTATE_USED 1 |
300 | 300 | ||
301 | typedef struct |
301 | typedef struct |
302 | { |
302 | { |
303 | u8 IsValid; // 0 means invalid, else valid |
303 | u8 IsValid; // 0 means invalid, else valid |
304 | u8 SectorsPerCluster; // how many sectors does a cluster contain? |
304 | u8 SectorsPerCluster; // how many sectors does a cluster contain? |
305 | u8 FatCopies; // Numbers of copies of the FAT |
305 | u8 FatCopies; // Numbers of copies of the FAT |
306 | u16 MaxRootEntries; // Possible number of entries in the root directory. |
306 | u16 MaxRootEntries; // Possible number of entries in the root directory. |
307 | u16 SectorsPerFat; // how many sectors does a fat16 contain? |
307 | u16 SectorsPerFat; // how many sectors does a fat16 contain? |
308 | u32 FirstFatSector; // sector of the start of the fat |
308 | u32 FirstFatSector; // sector of the start of the fat |
309 | u32 FirstRootDirSector; // sector of the rootdirectory |
309 | u32 FirstRootDirSector; // sector of the rootdirectory |
310 | u32 FirstDataSector; // sector of the first cluster containing data (cluster2). |
310 | u32 FirstDataSector; // sector of the first cluster containing data (cluster2). |
311 | u32 LastDataSector; // the last data sector of the partition |
311 | u32 LastDataSector; // the last data sector of the partition |
312 | u8 VolumeLabel[12]; // the volume label |
312 | u8 VolumeLabel[12]; // the volume label |
313 | } Partition_t; |
313 | } Partition_t; |
314 | 314 | ||
315 | Partition_t Partition; // Structure holds partition information |
315 | Partition_t Partition; // Structure holds partition information |
316 | 316 | ||
317 | File_t FilePointer[FILE_MAX_OPEN]; // Allocate Memmoryspace for each filepointer used. |
317 | File_t FilePointer[FILE_MAX_OPEN]; // Allocate Memmoryspace for each filepointer used. |
318 | 318 | ||
319 | 319 | ||
320 | /****************************************************************************************************************************************/ |
320 | /****************************************************************************************************************************************/ |
321 | /* Function: FileDate(DateTime_t *); */ |
321 | /* Function: FileDate(DateTime_t *); */ |
322 | /* */ |
322 | /* */ |
323 | /* Description: This function calculates the DOS date from a pointer to a time structure. */ |
323 | /* Description: This function calculates the DOS date from a pointer to a time structure. */ |
324 | /* */ |
324 | /* */ |
325 | /* Returnvalue: Returns the DOS date. */ |
325 | /* Returnvalue: Returns the DOS date. */ |
326 | /****************************************************************************************************************************************/ |
326 | /****************************************************************************************************************************************/ |
327 | u16 FileDate(DateTime_t * pTimeStruct) |
327 | u16 FileDate(DateTime_t * pTimeStruct) |
328 | { |
328 | { |
329 | u16 date = 0; |
329 | u16 date = 0; |
330 | if(pTimeStruct == NULL) return date; |
330 | if(pTimeStruct == NULL) return date; |
331 | if(!(pTimeStruct->Valid)) return date; |
331 | if(!(pTimeStruct->Valid)) return date; |
332 | 332 | ||
333 | date |= (0x007F & (u16)(pTimeStruct->Year - 1980))<<9; // set year |
333 | date |= (0x007F & (u16)(pTimeStruct->Year - 1980))<<9; // set year |
334 | date |= (0x000F & (u16)(pTimeStruct->Month))<<5; // set month |
334 | date |= (0x000F & (u16)(pTimeStruct->Month))<<5; // set month |
335 | date |= (0x001F & (u16)(pTimeStruct->Day)); |
335 | date |= (0x001F & (u16)(pTimeStruct->Day)); |
336 | return date; |
336 | return date; |
337 | } |
337 | } |
338 | 338 | ||
339 | /****************************************************************************************************************************************/ |
339 | /****************************************************************************************************************************************/ |
340 | /* Function: FileTime(DateTime_t *); */ |
340 | /* Function: FileTime(DateTime_t *); */ |
341 | /* */ |
341 | /* */ |
342 | /* Description: This function calculates the DOS time from a pointer to a time structure. */ |
342 | /* Description: This function calculates the DOS time from a pointer to a time structure. */ |
343 | /* */ |
343 | /* */ |
344 | /* Returnvalue: Returns the DOS time. */ |
344 | /* Returnvalue: Returns the DOS time. */ |
345 | /****************************************************************************************************************************************/ |
345 | /****************************************************************************************************************************************/ |
346 | 346 | ||
347 | u16 FileTime(DateTime_t * pTimeStruct) |
347 | u16 FileTime(DateTime_t * pTimeStruct) |
348 | { |
348 | { |
349 | u16 time = 0; |
349 | u16 time = 0; |
350 | if(pTimeStruct == NULL) return time; |
350 | if(pTimeStruct == NULL) return time; |
351 | if(!(pTimeStruct->Valid)) return time; |
351 | if(!(pTimeStruct->Valid)) return time; |
352 | 352 | ||
353 | time |= (0x001F & (u16)(pTimeStruct->Hour))<<11; |
353 | time |= (0x001F & (u16)(pTimeStruct->Hour))<<11; |
354 | time |= (0x003F & (u16)(pTimeStruct->Min))<<5; |
354 | time |= (0x003F & (u16)(pTimeStruct->Min))<<5; |
355 | time |= (0x001F & (u16)(pTimeStruct->Sec/2)); |
355 | time |= (0x001F & (u16)(pTimeStruct->Sec/2)); |
356 | return time; |
356 | return time; |
357 | } |
357 | } |
358 | 358 | ||
359 | /****************************************************************************************************************************************/ |
359 | /****************************************************************************************************************************************/ |
360 | /* Function: LockFilePointer(); */ |
360 | /* Function: LockFilePointer(); */ |
361 | /* */ |
361 | /* */ |
362 | /* Description: This function trys to lock a free file pointer. */ |
362 | /* Description: This function trys to lock a free file pointer. */ |
363 | /* */ |
363 | /* */ |
364 | /* Returnvalue: Returns the Filepointer on success or 0. */ |
364 | /* Returnvalue: Returns the Filepointer on success or 0. */ |
365 | /****************************************************************************************************************************************/ |
365 | /****************************************************************************************************************************************/ |
366 | File_t * LockFilePointer(void) |
366 | File_t * LockFilePointer(void) |
367 | { |
367 | { |
368 | u8 i; |
368 | u8 i; |
369 | File_t * File = 0; |
369 | File_t * File = 0; |
370 | for(i = 0; i < FILE_MAX_OPEN; i++) |
370 | for(i = 0; i < FILE_MAX_OPEN; i++) |
371 | { |
371 | { |
372 | if(FilePointer[i].State == FSTATE_UNUSED) // found an unused one |
372 | if(FilePointer[i].State == FSTATE_UNUSED) // found an unused one |
373 | { |
373 | { |
374 | File = &FilePointer[i]; // set pointer to that entry |
374 | File = &FilePointer[i]; // set pointer to that entry |
375 | FilePointer[i].State = FSTATE_USED; // mark it as used |
375 | FilePointer[i].State = FSTATE_USED; // mark it as used |
376 | break; |
376 | break; |
377 | } |
377 | } |
378 | } |
378 | } |
379 | return(File); |
379 | return(File); |
380 | } |
380 | } |
381 | 381 | ||
382 | /****************************************************************************************************************************************/ |
382 | /****************************************************************************************************************************************/ |
383 | /* Function: UnlockFilePointer(file_t *); */ |
383 | /* Function: UnlockFilePointer(file_t *); */ |
384 | /* */ |
384 | /* */ |
385 | /* Description: This function trys to unlock a file pointer. */ |
385 | /* Description: This function trys to unlock a file pointer. */ |
386 | /* */ |
386 | /* */ |
387 | /* Returnvalue: Returns 1 if file pointer was freed else 0. */ |
387 | /* Returnvalue: Returns 1 if file pointer was freed else 0. */ |
388 | /****************************************************************************************************************************************/ |
388 | /****************************************************************************************************************************************/ |
389 | u8 UnlockFilePointer(File_t * file) |
389 | u8 UnlockFilePointer(File_t * file) |
390 | { |
390 | { |
391 | u8 cnt; |
391 | u8 cnt; |
392 | if(file == NULL) return(0); |
392 | if(file == NULL) return(0); |
393 | for(cnt = 0; cnt < FILE_MAX_OPEN; cnt++) |
393 | for(cnt = 0; cnt < FILE_MAX_OPEN; cnt++) |
394 | { |
394 | { |
395 | if(&FilePointer[cnt] == file) // filepointer to be freed found? |
395 | if(&FilePointer[cnt] == file) // filepointer to be freed found? |
396 | { |
396 | { |
397 | file->State = FSTATE_UNUSED; |
397 | file->State = FSTATE_UNUSED; |
398 | file->FirstSectorOfFirstCluster = SECTOR_UNDEFINED; // Sectorpointer to the first sector of the first datacluster of the file. |
398 | file->FirstSectorOfFirstCluster = SECTOR_UNDEFINED; // Sectorpointer to the first sector of the first datacluster of the file. |
399 | file->FirstSectorOfCurrCluster = SECTOR_UNDEFINED; // Pointer to the cluster which is edited at the moment. |
399 | file->FirstSectorOfCurrCluster = SECTOR_UNDEFINED; // Pointer to the cluster which is edited at the moment. |
400 | file->SectorOfCurrCluster = 0; // The sector which is edited at the moment (cluster_pointer + sector_index). |
400 | file->SectorOfCurrCluster = 0; // The sector which is edited at the moment (cluster_pointer + sector_index). |
401 | file->ByteOfCurrSector = 0; // The bytelocation within the current sector (cluster_pointer + sector_index + byte_index). |
401 | file->ByteOfCurrSector = 0; // The bytelocation within the current sector (cluster_pointer + sector_index + byte_index). |
402 | file->Mode = 0; // mode of fileoperation (read,write) |
402 | file->Mode = 0; // mode of fileoperation (read,write) |
403 | file->Size = 0; // the size of the opend file in bytes. |
403 | file->Size = 0; // the size of the opend file in bytes. |
404 | file->Position = 0; // pointer to a character within the file 0 < fileposition < filesize |
404 | file->Position = 0; // pointer to a character within the file 0 < fileposition < filesize |
405 | file->SectorInCache = SECTOR_UNDEFINED; // the last sector read, wich is still in the sectorbuffer. |
405 | file->SectorInCache = SECTOR_UNDEFINED; // the last sector read, wich is still in the sectorbuffer. |
406 | file->DirectorySector = SECTOR_UNDEFINED; // the sectorposition where the directoryentry has been made. |
406 | file->DirectorySector = SECTOR_UNDEFINED; // the sectorposition where the directoryentry has been made. |
407 | file->DirectoryIndex = 0; // the index to the directoryentry within the specified sector. |
407 | file->DirectoryIndex = 0; // the index to the directoryentry within the specified sector. |
408 | file->Attribute = 0; // the attribute of the file opened. |
408 | file->Attribute = 0; // the attribute of the file opened. |
409 | file = NULL; |
409 | file = NULL; |
410 | return(1); |
410 | return(1); |
411 | } |
411 | } |
412 | } |
412 | } |
413 | return(0); |
413 | return(0); |
414 | } |
414 | } |
415 | 415 | ||
416 | /****************************************************************************************************************************************/ |
416 | /****************************************************************************************************************************************/ |
417 | /* Function: SeperateDirName(s8*, s8*); */ |
417 | /* Function: SeperateDirName(s8*, s8*); */ |
418 | /* */ |
418 | /* */ |
419 | /* Description: This function seperates the first dirname from filepath and brings them */ |
419 | /* Description: This function seperates the first dirname from filepath and brings them */ |
420 | /* into the needed format ('test.txt' -> 'TEST TXT') */ |
420 | /* into the needed format ('test.txt' -> 'TEST TXT') */ |
421 | /* The subpath is the pointer to the remaining substring of the filepath */ |
421 | /* The subpath is the pointer to the remaining substring of the filepath */ |
422 | /* */ |
422 | /* */ |
423 | /* Returnvalue: Return NULL on error or pointer to subpath */ |
423 | /* Returnvalue: Return NULL on error or pointer to subpath */ |
424 | /****************************************************************************************************************************************/ |
424 | /****************************************************************************************************************************************/ |
425 | s8* SeperateDirName(const s8 *filepath, s8 *dirname) |
425 | s8* SeperateDirName(const s8 *filepath, s8 *dirname) |
426 | { |
426 | { |
427 | s8* subpath = NULL; |
427 | s8* subpath = NULL; |
428 | u8 readpointer = 0; |
428 | u8 readpointer = 0; |
429 | u8 writepointer = 0; |
429 | u8 writepointer = 0; |
430 | 430 | ||
431 | // search subpath from beginning of filepath |
431 | // search subpath from beginning of filepath |
432 | subpath = NULL; |
432 | subpath = NULL; |
433 | readpointer = 0; |
433 | readpointer = 0; |
434 | if(filepath[0] == '/') readpointer = 1; // ignore first '/' |
434 | if(filepath[0] == '/') readpointer = 1; // ignore first '/' |
435 | while(subpath == NULL) // search the filepath until a subpath was found. |
435 | while(subpath == NULL) // search the filepath until a subpath was found. |
436 | { |
436 | { |
437 | if(((filepath[readpointer] == 0) || (filepath[readpointer] == '/'))) // if '/' found or end of filepath reached |
437 | if(((filepath[readpointer] == 0) || (filepath[readpointer] == '/'))) // if '/' found or end of filepath reached |
438 | { |
438 | { |
439 | subpath = (s8*)&filepath[readpointer]; // store the position of the first "/" found after the beginning of the filenpath |
439 | subpath = (s8*)&filepath[readpointer]; // store the position of the first "/" found after the beginning of the filenpath |
440 | } |
440 | } |
441 | readpointer++; |
441 | readpointer++; |
442 | } |
442 | } |
443 | 443 | ||
444 | // clear dirname with spaces |
444 | // clear dirname with spaces |
445 | dirname[11] = 0; // terminate dirname |
445 | dirname[11] = 0; // terminate dirname |
446 | for(writepointer = 0; writepointer < 11; writepointer++) dirname[writepointer] = ' '; |
446 | for(writepointer = 0; writepointer < 11; writepointer++) dirname[writepointer] = ' '; |
447 | writepointer = 0; |
447 | writepointer = 0; |
448 | // start seperating the dirname from the filepath. |
448 | // start seperating the dirname from the filepath. |
449 | readpointer = 0; |
449 | readpointer = 0; |
450 | if(filepath[0] == '/') readpointer = 1; // ignore first '/' |
450 | if(filepath[0] == '/') readpointer = 1; // ignore first '/' |
451 | while( &filepath[readpointer] < subpath) |
451 | while( &filepath[readpointer] < subpath) |
452 | { |
452 | { |
453 | if(writepointer >= 11) return(NULL); // dirname to long |
453 | if(writepointer >= 11) return(NULL); // dirname to long |
454 | if(filepath[readpointer] == '.') // seperating dirname and extension. |
454 | if(filepath[readpointer] == '.') // seperating dirname and extension. |
455 | { |
455 | { |
456 | if(writepointer <= 8) |
456 | if(writepointer <= 8) |
457 | { |
457 | { |
458 | readpointer++; // next character in filename |
458 | readpointer++; // next character in filename |
459 | writepointer = 8; // jump to start of extension |
459 | writepointer = 8; // jump to start of extension |
460 | } |
460 | } |
461 | else return(NULL); // dirbasename to long |
461 | else return(NULL); // dirbasename to long |
462 | } |
462 | } |
463 | else |
463 | else |
464 | { |
464 | { |
465 | if((0x60 < filepath[readpointer]) && (filepath[readpointer] < 0x7B)) |
465 | if((0x60 < filepath[readpointer]) && (filepath[readpointer] < 0x7B)) |
466 | { |
466 | { |
467 | dirname[writepointer] = (filepath[readpointer] - 0x20); // all characters must be upper case. |
467 | dirname[writepointer] = (filepath[readpointer] - 0x20); // all characters must be upper case. |
468 | } |
468 | } |
469 | else |
469 | else |
470 | { |
470 | { |
471 | dirname[writepointer] = filepath[readpointer]; |
471 | dirname[writepointer] = filepath[readpointer]; |
472 | } |
472 | } |
473 | readpointer++; |
473 | readpointer++; |
474 | writepointer++; |
474 | writepointer++; |
475 | } |
475 | } |
476 | } |
476 | } |
477 | return(subpath); |
477 | return(subpath); |
478 | } |
478 | } |
479 | 479 | ||
480 | 480 | ||
481 | /**************************************************************************************************************************************+*/ |
481 | /**************************************************************************************************************************************+*/ |
482 | /* Function: Fat16ClusterToSector( u16 cluster); */ |
482 | /* Function: Fat16ClusterToSector( u16 cluster); */ |
483 | /* */ |
483 | /* */ |
484 | /* Description: This function converts a cluster number given by the fat to the corresponding */ |
484 | /* Description: This function converts a cluster number given by the fat to the corresponding */ |
485 | /* sector that points to the start of the data area that is represented by the cluster number. */ |
485 | /* sector that points to the start of the data area that is represented by the cluster number. */ |
486 | /* */ |
486 | /* */ |
487 | /* Returnvalue: The sector number with the data area of the given cluster */ |
487 | /* Returnvalue: The sector number with the data area of the given cluster */ |
488 | /****************************************************************************************************************************************/ |
488 | /****************************************************************************************************************************************/ |
489 | u32 Fat16ClusterToSector(u16 cluster) |
489 | u32 Fat16ClusterToSector(u16 cluster) |
490 | { |
490 | { |
491 | if(!Partition.IsValid) return SECTOR_UNDEFINED; |
491 | if(!Partition.IsValid) return SECTOR_UNDEFINED; |
492 | if ((cluster < 2) || (cluster == CLUSTER_UNDEFINED)) |
492 | if ((cluster < 2) || (cluster == CLUSTER_UNDEFINED)) |
493 | { |
493 | { |
494 | return SECTOR_UNDEFINED; |
494 | return SECTOR_UNDEFINED; |
495 | } |
495 | } |
496 | else |
496 | else |
497 | { |
497 | { |
498 | return ( (cluster - 2) * Partition.SectorsPerCluster) + Partition.FirstDataSector; // the first data sector is represented by the 2nd cluster |
498 | return ( (cluster - 2) * Partition.SectorsPerCluster) + Partition.FirstDataSector; // the first data sector is represented by the 2nd cluster |
499 | } |
499 | } |
500 | } |
500 | } |
501 | 501 | ||
502 | /****************************************************************************************************************************************/ |
502 | /****************************************************************************************************************************************/ |
503 | /* Function: SectorToFat16Cluster( u32 sector); */ |
503 | /* Function: SectorToFat16Cluster( u32 sector); */ |
504 | /* */ |
504 | /* */ |
505 | /* Description: This function converts a given sector number given to the corresponding */ |
505 | /* Description: This function converts a given sector number given to the corresponding */ |
506 | /* cluster number in the fat that represents this data area. */ |
506 | /* cluster number in the fat that represents this data area. */ |
507 | /* */ |
507 | /* */ |
508 | /* Returnvalue: The cluster number representing the data area of the sector. */ |
508 | /* Returnvalue: The cluster number representing the data area of the sector. */ |
509 | /****************************************************************************************************************************************/ |
509 | /****************************************************************************************************************************************/ |
510 | u16 SectorToFat16Cluster(u32 sector) |
510 | u16 SectorToFat16Cluster(u32 sector) |
511 | { |
511 | { |
512 | if(!Partition.IsValid) return CLUSTER_UNDEFINED; |
512 | if(!Partition.IsValid) return CLUSTER_UNDEFINED; |
513 | if((sector == SECTOR_UNDEFINED) || (sector < Partition.FirstDataSector)) return CLUSTER_UNDEFINED; |
513 | if((sector == SECTOR_UNDEFINED) || (sector < Partition.FirstDataSector)) return CLUSTER_UNDEFINED; |
514 | else return ((u16)((sector - Partition.FirstDataSector) / Partition.SectorsPerCluster) + 2); |
514 | else return ((u16)((sector - Partition.FirstDataSector) / Partition.SectorsPerCluster) + 2); |
515 | } |
515 | } |
516 | 516 | ||
517 | 517 | ||
518 | /****************************************************************************************************************************************/ |
518 | /****************************************************************************************************************************************/ |
519 | /* Function: Fat16_IsValid(void); */ |
519 | /* Function: Fat16_IsValid(void); */ |
520 | /* */ |
520 | /* */ |
521 | /* Description: This function return the Fat 16 filesystem state */ |
521 | /* Description: This function return the Fat 16 filesystem state */ |
522 | /* */ |
522 | /* */ |
523 | /* Returnvalue: The function returns "1" on success */ |
523 | /* Returnvalue: The function returns "1" on success */ |
524 | /****************************************************************************************************************************************/ |
524 | /****************************************************************************************************************************************/ |
525 | u8 Fat16_IsValid(void) |
525 | u8 Fat16_IsValid(void) |
526 | { |
526 | { |
527 | return(Partition.IsValid); |
527 | return(Partition.IsValid); |
528 | } |
528 | } |
529 | 529 | ||
530 | /****************************************************************************************************************************************/ |
530 | /****************************************************************************************************************************************/ |
531 | /* Function: Fat16_Deinit(void); */ |
531 | /* Function: Fat16_Deinit(void); */ |
532 | /* */ |
532 | /* */ |
533 | /* Description: This function uninitializes the fat 16 api */ |
533 | /* Description: This function uninitializes the fat 16 api */ |
534 | /* */ |
534 | /* */ |
535 | /* Returnvalue: The function returns "0" on success */ |
535 | /* Returnvalue: The function returns "0" on success */ |
536 | /****************************************************************************************************************************************/ |
536 | /****************************************************************************************************************************************/ |
537 | u8 Fat16_Deinit(void) |
537 | u8 Fat16_Deinit(void) |
538 | { |
538 | { |
539 | s16 returnvalue = 0; |
539 | s16 returnvalue = 0; |
540 | u8 cnt; |
540 | u8 cnt; |
541 | 541 | ||
542 | UART1_PutString("\r\n FAT16 deinit..."); |
542 | UART1_PutString("\r\n FAT16 deinit..."); |
543 | // declare the filepointers as unused. |
543 | // declare the filepointers as unused. |
544 | for(cnt = 0; cnt < FILE_MAX_OPEN; cnt++) |
544 | for(cnt = 0; cnt < FILE_MAX_OPEN; cnt++) |
545 | { |
545 | { |
546 | if(FilePointer[cnt].State == FSTATE_USED) |
546 | if(FilePointer[cnt].State == FSTATE_USED) |
547 | { |
547 | { |
548 | returnvalue += fclose_(&FilePointer[cnt]); // try to close open file pointers |
548 | returnvalue += fclose_(&FilePointer[cnt]); // try to close open file pointers |
549 | } |
549 | } |
550 | else UnlockFilePointer(&FilePointer[cnt]); |
550 | else UnlockFilePointer(&FilePointer[cnt]); |
551 | 551 | ||
552 | } |
552 | } |
553 | SDC_Deinit(); // uninitialize interface to sd-card |
553 | SDC_Deinit(); // uninitialize interface to sd-card |
554 | Partition.IsValid = 0; // mark data in partition structure as invalid |
554 | Partition.IsValid = 0; // mark data in partition structure as invalid |
555 | Partition.VolumeLabel[0]='\0'; |
555 | Partition.VolumeLabel[0]='\0'; |
556 | UART1_PutString("ok"); |
556 | UART1_PutString("ok"); |
557 | return(returnvalue); |
557 | return(returnvalue); |
558 | } |
558 | } |
559 | 559 | ||
560 | /****************************************************************************************************************************************/ |
560 | /****************************************************************************************************************************************/ |
561 | /* Function: Fat16_Init(void); */ |
561 | /* Function: Fat16_Init(void); */ |
562 | /* */ |
562 | /* */ |
563 | /* Description: This function reads the Masterbootrecord and finds the position of the Volumebootrecord, the FAT and the Rootdir */ |
563 | /* Description: This function reads the Masterbootrecord and finds the position of the Volumebootrecord, the FAT and the Rootdir */ |
564 | /* and stores the information in global variables. */ |
564 | /* and stores the information in global variables. */ |
565 | /* */ |
565 | /* */ |
566 | /* Returnvalue: The function returns "0" if the filesystem is initialized. */ |
566 | /* Returnvalue: The function returns "0" if the filesystem is initialized. */ |
567 | /****************************************************************************************************************************************/ |
567 | /****************************************************************************************************************************************/ |
568 | u8 Fat16_Init(void) |
568 | u8 Fat16_Init(void) |
569 | { |
569 | { |
570 | u8 cnt = 0; |
570 | u8 cnt = 0; |
571 | u32 partitionfirstsector; |
571 | u32 partitionfirstsector; |
572 | VBR_Entry_t *VBR; |
572 | VBR_Entry_t *VBR; |
573 | MBR_Entry_t *MBR; |
573 | MBR_Entry_t *MBR; |
574 | File_t *file; |
574 | File_t *file; |
575 | u8 result = 0; |
575 | u8 result = 0; |
576 | 576 | ||
577 | UART1_PutString("\r\n FAT16 init..."); |
577 | UART1_PutString("\r\n FAT16 init..."); |
578 | Partition.IsValid = 0; |
578 | Partition.IsValid = 0; |
579 | 579 | ||
580 | // declare the filepointers as unused. |
580 | // declare the filepointers as unused. |
581 | for(cnt = 0; cnt < FILE_MAX_OPEN; cnt++) |
581 | for(cnt = 0; cnt < FILE_MAX_OPEN; cnt++) |
582 | { |
582 | { |
583 | UnlockFilePointer(&FilePointer[cnt]); |
583 | UnlockFilePointer(&FilePointer[cnt]); |
584 | } |
584 | } |
585 | // set current file pinter to first position in list |
585 | // set current file pinter to first position in list |
586 | file = &FilePointer[0]; |
586 | file = &FilePointer[0]; |
587 | 587 | ||
588 | // try to initialize the sd-card. |
588 | // try to initialize the sd-card. |
589 | if(SD_SUCCESS != SDC_Init()) |
589 | if(SD_SUCCESS != SDC_Init()) |
590 | { |
590 | { |
591 | UART1_PutString("SD-Card could not be initialized."); |
591 | UART1_PutString("SD-Card could not be initialized."); |
592 | result = 1; |
592 | result = 1; |
593 | goto end; |
593 | goto end; |
594 | } |
594 | } |
595 | 595 | ||
596 | // SD-Card is initialized successfully |
596 | // SD-Card is initialized successfully |
597 | if(SD_SUCCESS != SDC_GetSector((u32)MBR_SECTOR,file->Cache)) // Read the MasterBootRecord |
597 | if(SD_SUCCESS != SDC_GetSector((u32)MBR_SECTOR,file->Cache)) // Read the MasterBootRecord |
598 | { |
598 | { |
599 | UART1_PutString("Error reading the MBR."); |
599 | UART1_PutString("Error reading the MBR."); |
600 | result = 2; |
600 | result = 2; |
601 | goto end; |
601 | goto end; |
602 | } |
602 | } |
603 | MBR = (MBR_Entry_t *)file->Cache; // Enter the MBR using the structure MBR_Entry_t. |
603 | MBR = (MBR_Entry_t *)file->Cache; // Enter the MBR using the structure MBR_Entry_t. |
604 | if((MBR->PartitionEntry1.Type == PART_TYPE_FAT16_ST_32_MB) || |
604 | if((MBR->PartitionEntry1.Type == PART_TYPE_FAT16_ST_32_MB) || |
605 | (MBR->PartitionEntry1.Type == PART_TYPE_FAT16_LT_32_MB) || |
605 | (MBR->PartitionEntry1.Type == PART_TYPE_FAT16_LT_32_MB) || |
606 | (MBR->PartitionEntry1.Type == PART_TYPE_FAT16LBA)) |
606 | (MBR->PartitionEntry1.Type == PART_TYPE_FAT16LBA)) |
607 | { |
607 | { |
608 | // get sector offset 1st partition |
608 | // get sector offset 1st partition |
609 | partitionfirstsector = MBR->PartitionEntry1.NoSectorsBeforePartition; |
609 | partitionfirstsector = MBR->PartitionEntry1.NoSectorsBeforePartition; |
610 | // Start of Partition is the Volume Boot Sector |
610 | // Start of Partition is the Volume Boot Sector |
611 | if(SD_SUCCESS != SDC_GetSector(partitionfirstsector,file->Cache)) // Read the volume boot record |
611 | if(SD_SUCCESS != SDC_GetSector(partitionfirstsector,file->Cache)) // Read the volume boot record |
612 | { |
612 | { |
613 | UART1_PutString("Error reading the VBR."); |
613 | UART1_PutString("Error reading the VBR."); |
614 | result = 3; |
614 | result = 3; |
615 | goto end; |
615 | goto end; |
616 | } |
616 | } |
617 | } |
617 | } |
618 | else // maybe the medium has no partition assuming sector 0 is the vbr |
618 | else // maybe the medium has no partition assuming sector 0 is the vbr |
619 | { |
619 | { |
620 | partitionfirstsector = 0; |
620 | partitionfirstsector = 0; |
621 | } |
621 | } |
622 | 622 | ||
623 | VBR = (VBR_Entry_t *) file->Cache; // Enter the VBR using the structure VBR_Entry_t. |
623 | VBR = (VBR_Entry_t *) file->Cache; // Enter the VBR using the structure VBR_Entry_t. |
624 | if(VBR->BytesPerSector != BYTES_PER_SECTOR) |
624 | if(VBR->BytesPerSector != BYTES_PER_SECTOR) |
625 | { |
625 | { |
626 | UART1_PutString("VBR: Sector size not supported."); |
626 | UART1_PutString("VBR: Sector size not supported."); |
627 | result = 4; |
627 | result = 4; |
628 | goto end; |
628 | goto end; |
629 | } |
629 | } |
630 | Partition.SectorsPerCluster = VBR->SectorsPerCluster; // Number of sectors per cluster. Depends on the memorysize of the sd-card. |
630 | Partition.SectorsPerCluster = VBR->SectorsPerCluster; // Number of sectors per cluster. Depends on the memorysize of the sd-card. |
631 | Partition.FatCopies = VBR->NoFATCopies; // Number of fatcopies. |
631 | Partition.FatCopies = VBR->NoFATCopies; // Number of fatcopies. |
632 | Partition.MaxRootEntries = VBR->MaxRootEntries; // How many Entries are possible in the rootdirectory (FAT16 allows max. 512 entries). |
632 | Partition.MaxRootEntries = VBR->MaxRootEntries; // How many Entries are possible in the rootdirectory (FAT16 allows max. 512 entries). |
633 | Partition.SectorsPerFat = VBR->SectorsPerFAT; // The number of sectors per FAT // copy volume label |
633 | Partition.SectorsPerFat = VBR->SectorsPerFAT; // The number of sectors per FAT // copy volume label |
634 | Partition.VolumeLabel[0] = '\0'; // set string terminator |
634 | Partition.VolumeLabel[0] = '\0'; // set string terminator |
635 | 635 | ||
636 | /* Calculate the sectorpositon of the FAT, the Rootdirectory and the first Datacluster. */ |
636 | /* Calculate the sectorpositon of the FAT, the Rootdirectory and the first Datacluster. */ |
637 | // Calculate the position of the FileAllocationTable: |
637 | // Calculate the position of the FileAllocationTable: |
638 | // Start + # of Reserved Sectors |
638 | // Start + # of Reserved Sectors |
639 | Partition.FirstFatSector = (u32)(partitionfirstsector + (u32)(VBR->ReservedSectors)); |
639 | Partition.FirstFatSector = (u32)(partitionfirstsector + (u32)(VBR->ReservedSectors)); |
640 | // Calculate the position of the Rootdirectory: |
640 | // Calculate the position of the Rootdirectory: |
641 | // Start + # of Reserved Sectors + (# of Sectors Per FAT * # of FAT Copies) |
641 | // Start + # of Reserved Sectors + (# of Sectors Per FAT * # of FAT Copies) |
642 | Partition.FirstRootDirSector = Partition.FirstFatSector + (u32)((u32)Partition.SectorsPerFat*(u32)Partition.FatCopies); |
642 | Partition.FirstRootDirSector = Partition.FirstFatSector + (u32)((u32)Partition.SectorsPerFat*(u32)Partition.FatCopies); |
643 | // Calculate the position of the first datacluster: |
643 | // Calculate the position of the first datacluster: |
644 | // Start + # of Reserved + (# of Sectors Per FAT * # of FAT Copies) + ((Maximum Root Directory Entries * 32) / Bytes per Sector) |
644 | // Start + # of Reserved + (# of Sectors Per FAT * # of FAT Copies) + ((Maximum Root Directory Entries * 32) / Bytes per Sector) |
645 | Partition.FirstDataSector = Partition.FirstRootDirSector + (u32)(Partition.MaxRootEntries>>4); // assuming 512 Byte Per Sector |
645 | Partition.FirstDataSector = Partition.FirstRootDirSector + (u32)(Partition.MaxRootEntries>>4); // assuming 512 Byte Per Sector |
646 | // Calculate the last data sector |
646 | // Calculate the last data sector |
647 | if(VBR->NoSectors == 0) |
647 | if(VBR->NoSectors == 0) |
648 | { |
648 | { |
649 | UART1_PutString("VBR: Bad number of sectors."); |
649 | UART1_PutString("VBR: Bad number of sectors."); |
650 | result = 5; |
650 | result = 5; |
651 | goto end; |
651 | goto end; |
652 | } |
652 | } |
653 | Partition.LastDataSector = Partition.FirstDataSector + VBR->NoSectors - 1; |
653 | Partition.LastDataSector = Partition.FirstDataSector + VBR->NoSectors - 1; |
654 | // check for FAT16 in VBR of first partition |
654 | // check for FAT16 in VBR of first partition |
655 | if(!((VBR->FATName[0]=='F') && (VBR->FATName[1]=='A') && (VBR->FATName[2]=='T') && (VBR->FATName[3]=='1')&&(VBR->FATName[4]=='6'))) |
655 | if(!((VBR->FATName[0]=='F') && (VBR->FATName[1]=='A') && (VBR->FATName[2]=='T') && (VBR->FATName[3]=='1')&&(VBR->FATName[4]=='6'))) |
656 | { |
656 | { |
657 | UART1_PutString("VBR: Partition ist not FAT16 type."); |
657 | UART1_PutString("VBR: Partition ist not FAT16 type."); |
658 | result = 6; |
658 | result = 6; |
659 | goto end; |
659 | goto end; |
660 | } |
660 | } |
661 | Partition.IsValid = 1; // mark data in partition structure as valid |
661 | Partition.IsValid = 1; // mark data in partition structure as valid |
662 | result = 0; |
662 | result = 0; |
663 | end: |
663 | end: |
664 | if(result != 0) Fat16_Deinit(); |
664 | if(result != 0) Fat16_Deinit(); |
665 | else UART1_PutString("ok"); |
665 | else UART1_PutString("ok"); |
666 | return(result); |
666 | return(result); |
667 | } |
667 | } |
668 | 668 | ||
669 | 669 | ||
670 | 670 | ||
671 | /****************************************************************************************************************************************/ |
671 | /****************************************************************************************************************************************/ |
672 | /* Function: ClearCurrCluster(File_t*); */ |
672 | /* Function: ClearCurrCluster(File_t*); */ |
673 | /* */ |
673 | /* */ |
674 | /* Description: This function fills the current cluster with 0. */ |
674 | /* Description: This function fills the current cluster with 0. */ |
675 | /* */ |
675 | /* */ |
676 | /* Returnvalue: The function returns 1 on success else 0. */ |
676 | /* Returnvalue: The function returns 1 on success else 0. */ |
677 | /****************************************************************************************************************************************/ |
677 | /****************************************************************************************************************************************/ |
678 | u8 ClearCurrCluster(File_t * file) |
678 | u8 ClearCurrCluster(File_t * file) |
679 | { |
679 | { |
680 | u8 retvalue = 1; |
680 | u8 retvalue = 1; |
681 | u32 i; |
681 | u32 i; |
682 | 682 | ||
683 | if((!Partition.IsValid) || (file == NULL)) return(0); |
683 | if((!Partition.IsValid) || (file == NULL)) return(0); |
684 | 684 | ||
685 | for(i = 0; i < BYTES_PER_SECTOR; i++) file->Cache[i] = 0; // clear file cache |
685 | for(i = 0; i < BYTES_PER_SECTOR; i++) file->Cache[i] = 0; // clear file cache |
686 | if(file->FirstSectorOfCurrCluster == SECTOR_UNDEFINED) return (0); // nothing to do |
686 | if(file->FirstSectorOfCurrCluster == SECTOR_UNDEFINED) return (0); // nothing to do |
687 | for(i = 0; i < Partition.SectorsPerCluster; i++) |
687 | for(i = 0; i < Partition.SectorsPerCluster; i++) |
688 | { |
688 | { |
689 | file->SectorInCache = file->FirstSectorOfCurrCluster + i; |
689 | file->SectorInCache = file->FirstSectorOfCurrCluster + i; |
690 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) |
690 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) |
691 | { |
691 | { |
692 | Fat16_Deinit(); |
692 | Fat16_Deinit(); |
693 | retvalue = 0; |
693 | retvalue = 0; |
694 | } |
694 | } |
695 | } |
695 | } |
696 | return(retvalue); |
696 | return(retvalue); |
697 | } |
697 | } |
698 | 698 | ||
699 | /*****************************************************************************************************************************************/ |
699 | /*****************************************************************************************************************************************/ |
700 | /* Function: GetNextCluster(File_t* ); */ |
700 | /* Function: GetNextCluster(File_t* ); */ |
701 | /* */ |
701 | /* */ |
702 | /* Description: This function finds the next datacluster of the file specified with File *File. */ |
702 | /* Description: This function finds the next datacluster of the file specified with File *File. */ |
703 | /* */ |
703 | /* */ |
704 | /* Returnvalue: The function returns the next cluster or 0 if the last cluster has already reached. */ |
704 | /* Returnvalue: The function returns the next cluster or 0 if the last cluster has already reached. */ |
705 | /*****************************************************************************************************************************************/ |
705 | /*****************************************************************************************************************************************/ |
706 | u16 GetNextCluster(File_t * file) |
706 | u16 GetNextCluster(File_t * file) |
707 | { |
707 | { |
708 | u16 cluster = CLUSTER_UNDEFINED; |
708 | u16 cluster = CLUSTER_UNDEFINED; |
709 | u32 fat_byte_offset, sector, byte; |
709 | u32 fat_byte_offset, sector, byte; |
710 | Fat16Entry_t * fat; |
710 | Fat16Entry_t * fat; |
711 | 711 | ||
712 | if((!Partition.IsValid) || (file == NULL)) return(cluster); |
712 | if((!Partition.IsValid) || (file == NULL)) return(cluster); |
713 | if(file->FirstSectorOfCurrCluster == SECTOR_UNDEFINED) return(cluster); |
713 | if(file->FirstSectorOfCurrCluster == SECTOR_UNDEFINED) return(cluster); |
714 | // if sector is within the data area |
714 | // if sector is within the data area |
715 | if((Partition.FirstDataSector <= file->FirstSectorOfCurrCluster)&& (file->FirstSectorOfCurrCluster <= Partition.LastDataSector)) |
715 | if((Partition.FirstDataSector <= file->FirstSectorOfCurrCluster)&& (file->FirstSectorOfCurrCluster <= Partition.LastDataSector)) |
716 | { |
716 | { |
717 | // determine current file cluster |
717 | // determine current file cluster |
718 | cluster = SectorToFat16Cluster(file->FirstSectorOfCurrCluster); |
718 | cluster = SectorToFat16Cluster(file->FirstSectorOfCurrCluster); |
719 | // calculate byte offset in the fat for corresponding entry |
719 | // calculate byte offset in the fat for corresponding entry |
720 | fat_byte_offset = ((u32)cluster)<<1; // two FAT bytes (16 bits) for every cluster |
720 | fat_byte_offset = ((u32)cluster)<<1; // two FAT bytes (16 bits) for every cluster |
721 | // calculate the sector that contains the current cluster within the fat |
721 | // calculate the sector that contains the current cluster within the fat |
722 | sector = Partition.FirstFatSector + ( fat_byte_offset / BYTES_PER_SECTOR); |
722 | sector = Partition.FirstFatSector + ( fat_byte_offset / BYTES_PER_SECTOR); |
723 | // calculate byte offset of the current cluster within that fat sector |
723 | // calculate byte offset of the current cluster within that fat sector |
724 | byte = fat_byte_offset % BYTES_PER_SECTOR; |
724 | byte = fat_byte_offset % BYTES_PER_SECTOR; |
725 | // read this sector to the file cache |
725 | // read this sector to the file cache |
726 | if(file->SectorInCache != sector) |
726 | if(file->SectorInCache != sector) |
727 | { |
727 | { |
728 | file->SectorInCache = sector; // update sector stored in buffer |
728 | file->SectorInCache = sector; // update sector stored in buffer |
729 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache)) // read sector from sd-card |
729 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache)) // read sector from sd-card |
730 | { |
730 | { |
731 | Fat16_Deinit(); |
731 | Fat16_Deinit(); |
732 | return (cluster); |
732 | return (cluster); |
733 | } |
733 | } |
734 | } |
734 | } |
735 | // read the next cluster from cache |
735 | // read the next cluster from cache |
736 | fat = (Fat16Entry_t *)(&(file->Cache[byte])); |
736 | fat = (Fat16Entry_t *)(&(file->Cache[byte])); |
737 | cluster = fat->NextCluster; |
737 | cluster = fat->NextCluster; |
738 | // if no next cluster exist |
738 | // if no next cluster exist |
739 | if(FAT16_CLUSTER_LAST_MIN <= cluster) |
739 | if(FAT16_CLUSTER_LAST_MIN <= cluster) |
740 | { |
740 | { |
741 | cluster = CLUSTER_UNDEFINED; // next cluster is undefined |
741 | cluster = CLUSTER_UNDEFINED; // next cluster is undefined |
742 | } |
742 | } |
743 | else |
743 | else |
744 | { |
744 | { |
745 | file->FirstSectorOfCurrCluster = Fat16ClusterToSector(cluster); |
745 | file->FirstSectorOfCurrCluster = Fat16ClusterToSector(cluster); |
746 | file->SectorOfCurrCluster = 0; |
746 | file->SectorOfCurrCluster = 0; |
747 | file->ByteOfCurrSector = 0; |
747 | file->ByteOfCurrSector = 0; |
748 | } |
748 | } |
749 | } |
749 | } |
750 | return(cluster); |
750 | return(cluster); |
751 | } |
751 | } |
752 | 752 | ||
753 | 753 | ||
754 | /****************************************************************************************************************************************/ |
754 | /****************************************************************************************************************************************/ |
755 | /* Function: FindNextFreeCluster(File_t *); */ |
755 | /* Function: FindNextFreeCluster(File_t *); */ |
756 | /* */ |
756 | /* */ |
757 | /* Description: This function looks in the fat to find the next free cluster */ |
757 | /* Description: This function looks in the fat to find the next free cluster */ |
758 | /* */ |
758 | /* */ |
759 | /* Returnvalue: The function returns the cluster number of the next free cluster found within the fat. */ |
759 | /* Returnvalue: The function returns the cluster number of the next free cluster found within the fat. */ |
760 | /****************************************************************************************************************************************/ |
760 | /****************************************************************************************************************************************/ |
761 | u16 FindNextFreeCluster(File_t *file) |
761 | u16 FindNextFreeCluster(File_t *file) |
762 | { |
762 | { |
763 | u32 fat_sector; // current sector within the fat relative to the first sector of the fat. |
763 | u32 fat_sector; // current sector within the fat relative to the first sector of the fat. |
764 | u32 curr_sector; // current sector |
764 | u32 curr_sector; // current sector |
765 | u16 fat_entry; // index to an fatentry within the actual sector (256 fatentries are possible within one sector). |
765 | u16 fat_entry; // index to an fatentry within the actual sector (256 fatentries are possible within one sector). |
766 | u16 free_cluster = CLUSTER_UNDEFINED; // next free cluster number. |
766 | u16 free_cluster = CLUSTER_UNDEFINED; // next free cluster number. |
767 | Fat16Entry_t * fat; |
767 | Fat16Entry_t * fat; |
768 | 768 | ||
769 | if((!Partition.IsValid) || (file == NULL)) return(0); |
769 | if((!Partition.IsValid) || (file == NULL)) return(0); |
770 | 770 | ||
771 | // start searching for an empty cluster at the beginning of the fat. |
771 | // start searching for an empty cluster at the beginning of the fat. |
772 | fat_sector = 0; |
772 | fat_sector = 0; |
773 | do |
773 | do |
774 | { |
774 | { |
775 | curr_sector = Partition.FirstFatSector + fat_sector; // calculate sector to read |
775 | curr_sector = Partition.FirstFatSector + fat_sector; // calculate sector to read |
776 | file->SectorInCache = curr_sector; // upate the sector number of file cache. |
776 | file->SectorInCache = curr_sector; // upate the sector number of file cache. |
777 | if( SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache)) // read sector of fat from sd-card. |
777 | if( SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache)) // read sector of fat from sd-card. |
778 | { |
778 | { |
779 | Fat16_Deinit(); |
779 | Fat16_Deinit(); |
780 | return(free_cluster); |
780 | return(free_cluster); |
781 | } |
781 | } |
782 | 782 | ||
783 | fat = (Fat16Entry_t *)file->Cache; // set fat pointer to file cache |
783 | fat = (Fat16Entry_t *)file->Cache; // set fat pointer to file cache |
784 | 784 | ||
785 | for(fat_entry = 0; fat_entry < FAT16_ENTRIES_PER_SECTOR; fat_entry++) // look for an free cluster at all entries in this sector of the fat. |
785 | for(fat_entry = 0; fat_entry < FAT16_ENTRIES_PER_SECTOR; fat_entry++) // look for an free cluster at all entries in this sector of the fat. |
786 | { |
786 | { |
787 | if(fat[fat_entry].NextCluster == FAT16_CLUSTER_FREE) // empty cluster found!! |
787 | if(fat[fat_entry].NextCluster == FAT16_CLUSTER_FREE) // empty cluster found!! |
788 | { |
788 | { |
789 | fat[fat_entry].NextCluster = FAT16_CLUSTER_LAST_MAX; // mark this fat-entry as used |
789 | fat[fat_entry].NextCluster = FAT16_CLUSTER_LAST_MAX; // mark this fat-entry as used |
790 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) // and save the sector at the sd-card. |
790 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) // and save the sector at the sd-card. |
791 | { |
791 | { |
792 | Fat16_Deinit(); |
792 | Fat16_Deinit(); |
793 | return(free_cluster); |
793 | return(free_cluster); |
794 | } |
794 | } |
795 | free_cluster = (u16)(fat_sector * FAT16_ENTRIES_PER_SECTOR + (u32)fat_entry); |
795 | free_cluster = (u16)(fat_sector * FAT16_ENTRIES_PER_SECTOR + (u32)fat_entry); |
796 | fat_entry = FAT16_ENTRIES_PER_SECTOR; // terminate the search for a free cluster in this sector. |
796 | fat_entry = FAT16_ENTRIES_PER_SECTOR; // terminate the search for a free cluster in this sector. |
797 | } |
797 | } |
798 | } |
798 | } |
799 | fat_sector++; // continue the search in next fat sector |
799 | fat_sector++; // continue the search in next fat sector |
800 | // repeat until the end of the fat is reached and no free cluster has been found so far |
800 | // repeat until the end of the fat is reached and no free cluster has been found so far |
801 | }while((fat_sector < Partition.SectorsPerFat) && (!free_cluster)); |
801 | }while((fat_sector < Partition.SectorsPerFat) && (!free_cluster)); |
802 | return(free_cluster); |
802 | return(free_cluster); |
803 | } |
803 | } |
804 | 804 | ||
805 | 805 | ||
806 | /****************************************************************************************************************************************************/ |
806 | /****************************************************************************************************************************************************/ |
807 | /* Function: s16 fseek_(File_t *, s32 *, u8) */ |
807 | /* Function: s16 fseek_(File_t *, s32 *, u8) */ |
808 | /* */ |
808 | /* */ |
809 | /* Description: This function sets the pointer of the stream relative to the position */ |
809 | /* Description: This function sets the pointer of the stream relative to the position */ |
810 | /* specified by origin (SEEK_SET, SEEK_CUR, SEEK_END) */ |
810 | /* specified by origin (SEEK_SET, SEEK_CUR, SEEK_END) */ |
811 | /* Returnvalue: Is 0 if seek was successful */ |
811 | /* Returnvalue: Is 0 if seek was successful */ |
812 | /****************************************************************************************************************************************************/ |
812 | /****************************************************************************************************************************************************/ |
813 | s16 fseek_(File_t *file, s32 offset, s16 origin) |
813 | s16 fseek_(File_t *file, s32 offset, s16 origin) |
814 | { |
814 | { |
815 | s32 fposition = 0; |
815 | s32 fposition = 0; |
816 | s16 retvalue = 1; |
816 | s16 retvalue = 1; |
817 | 817 | ||
818 | if((!Partition.IsValid) || (file == NULL)) return(retvalue); |
818 | if((!Partition.IsValid) || (file == NULL)) return(retvalue); |
819 | switch(origin) |
819 | switch(origin) |
820 | { |
820 | { |
821 | case SEEK_SET: // Fileposition relative to the beginning of the file. |
821 | case SEEK_SET: // Fileposition relative to the beginning of the file. |
822 | fposition = 0; |
822 | fposition = 0; |
823 | break; |
823 | break; |
824 | case SEEK_END: // Fileposition relative to the end of the file. |
824 | case SEEK_END: // Fileposition relative to the end of the file. |
825 | fposition = (s32)file->Size; |
825 | fposition = (s32)file->Size; |
826 | break; |
826 | break; |
827 | case SEEK_CUR: // Fileposition relative to the current position of the file. |
827 | case SEEK_CUR: // Fileposition relative to the current position of the file. |
828 | default: |
828 | default: |
829 | fposition = file->Position; |
829 | fposition = file->Position; |
830 | break; |
830 | break; |
831 | } |
831 | } |
832 | 832 | ||
833 | fposition += offset; |
833 | fposition += offset; |
834 | 834 | ||
835 | if((fposition >= 0) && (fposition <= (s32)file->Size)) // is the pointer still within the file? |
835 | if((fposition >= 0) && (fposition <= (s32)file->Size)) // is the pointer still within the file? |
836 | { |
836 | { |
837 | // reset file position to start of the file |
837 | // reset file position to start of the file |
838 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
838 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
839 | file->SectorOfCurrCluster = 0; |
839 | file->SectorOfCurrCluster = 0; |
840 | file->ByteOfCurrSector = 0; |
840 | file->ByteOfCurrSector = 0; |
841 | file->Position = 0; |
841 | file->Position = 0; |
842 | if(file->FirstSectorOfCurrCluster == SECTOR_UNDEFINED) return(retvalue); |
842 | if(file->FirstSectorOfCurrCluster == SECTOR_UNDEFINED) return(retvalue); |
843 | while(file->Position < fposition) // repeat until the current position is less than target |
843 | while(file->Position < fposition) // repeat until the current position is less than target |
844 | { |
844 | { |
845 | file->Position++; // increment file position |
845 | file->Position++; // increment file position |
846 | file->ByteOfCurrSector++; // next byte in current sector |
846 | file->ByteOfCurrSector++; // next byte in current sector |
847 | if(file->ByteOfCurrSector >= BYTES_PER_SECTOR) |
847 | if(file->ByteOfCurrSector >= BYTES_PER_SECTOR) |
848 | { |
848 | { |
849 | file->ByteOfCurrSector = 0; // reading at the beginning of new sector. |
849 | file->ByteOfCurrSector = 0; // reading at the beginning of new sector. |
850 | file->SectorOfCurrCluster++; // continue reading in next sector |
850 | file->SectorOfCurrCluster++; // continue reading in next sector |
851 | if(file->SectorOfCurrCluster >= Partition.SectorsPerCluster) // if end of cluster is reached, the next datacluster has to be searched in the FAT. |
851 | if(file->SectorOfCurrCluster >= Partition.SectorsPerCluster) // if end of cluster is reached, the next datacluster has to be searched in the FAT. |
852 | { |
852 | { |
853 | if(GetNextCluster(file)) // Sets the clusterpointer of the file to the next datacluster. |
853 | if(GetNextCluster(file)) // Sets the clusterpointer of the file to the next datacluster. |
854 | { |
854 | { |
855 | file->SectorOfCurrCluster = 0; |
855 | file->SectorOfCurrCluster = 0; |
856 | } |
856 | } |
857 | else // the last cluster was allready reached |
857 | else // the last cluster was allready reached |
858 | { |
858 | { |
859 | file->SectorOfCurrCluster--; // jump back to the last sector in the last cluster |
859 | file->SectorOfCurrCluster--; // jump back to the last sector in the last cluster |
860 | file->ByteOfCurrSector = BYTES_PER_SECTOR; // set ByteOfCurrSector one byte over sector end |
860 | file->ByteOfCurrSector = BYTES_PER_SECTOR; // set ByteOfCurrSector one byte over sector end |
861 | } |
861 | } |
862 | } |
862 | } |
863 | } |
863 | } |
864 | } |
864 | } |
865 | } |
865 | } |
866 | if(file->Position == fposition) retvalue = 0; |
866 | if(file->Position == fposition) retvalue = 0; |
867 | return(retvalue); |
867 | return(retvalue); |
868 | } |
868 | } |
869 | 869 | ||
870 | 870 | ||
871 | /****************************************************************************************************************************************/ |
871 | /****************************************************************************************************************************************/ |
872 | /* Function: u16 DeleteClusterChain(File *file); */ |
872 | /* Function: u16 DeleteClusterChain(File *file); */ |
873 | /* */ |
873 | /* */ |
874 | /* Description: This function trances along a cluster chain in the fat and frees all clusters visited. */ |
874 | /* Description: This function trances along a cluster chain in the fat and frees all clusters visited. */ |
875 | /* */ |
875 | /* */ |
876 | /****************************************************************************************************************************************/ |
876 | /****************************************************************************************************************************************/ |
877 | u8 DeleteClusterChain(u16 StartCluster) |
877 | u8 DeleteClusterChain(u16 StartCluster) |
878 | { |
878 | { |
879 | u16 cluster; |
879 | u16 cluster; |
880 | u32 fat_byte_offset, sector, byte; |
880 | u32 fat_byte_offset, sector, byte; |
881 | Fat16Entry_t * fat; |
881 | Fat16Entry_t * fat; |
882 | u8 buffer[BYTES_PER_SECTOR]; |
882 | u8 buffer[BYTES_PER_SECTOR]; |
883 | u32 sector_in_buffer = 0; |
883 | u32 sector_in_buffer = 0; |
884 | u8 repeat = 0; |
884 | u8 repeat = 0; |
885 | 885 | ||
886 | if(!Partition.IsValid) return(0); |
886 | if(!Partition.IsValid) return(0); |
887 | if(StartCluster == CLUSTER_UNDEFINED) return(0); |
887 | if(StartCluster == CLUSTER_UNDEFINED) return(0); |
888 | cluster = StartCluster; // init chain trace |
888 | cluster = StartCluster; // init chain trace |
889 | // if start cluster is no real cluster |
889 | // if start cluster is no real cluster |
890 | if(FAT16_CLUSTER_LAST_MIN <= cluster) return 1; |
890 | if(FAT16_CLUSTER_LAST_MIN <= cluster) return 1; |
891 | 891 | ||
892 | // calculate byte offset in the fat for corresponding entry |
892 | // calculate byte offset in the fat for corresponding entry |
893 | fat_byte_offset = ((u32)cluster)<<1; // two FAT bytes (16 bits) for every cluster |
893 | fat_byte_offset = ((u32)cluster)<<1; // two FAT bytes (16 bits) for every cluster |
894 | // calculate the sector that contains the current cluster within the fat |
894 | // calculate the sector that contains the current cluster within the fat |
895 | sector = Partition.FirstFatSector + ( fat_byte_offset / BYTES_PER_SECTOR); |
895 | sector = Partition.FirstFatSector + ( fat_byte_offset / BYTES_PER_SECTOR); |
896 | // calculate byte offset of the current cluster within that fat sector |
896 | // calculate byte offset of the current cluster within that fat sector |
897 | byte = fat_byte_offset % BYTES_PER_SECTOR; |
897 | byte = fat_byte_offset % BYTES_PER_SECTOR; |
898 | do |
898 | do |
899 | { |
899 | { |
900 | if(sector != sector_in_buffer) |
900 | if(sector != sector_in_buffer) |
901 | { |
901 | { |
902 | // read this sector to buffer |
902 | // read this sector to buffer |
903 | sector_in_buffer = sector; |
903 | sector_in_buffer = sector; |
904 | if(SD_SUCCESS != SDC_GetSector(sector_in_buffer, buffer)) return 0; // read sector from sd-card |
904 | if(SD_SUCCESS != SDC_GetSector(sector_in_buffer, buffer)) return 0; // read sector from sd-card |
905 | } |
905 | } |
906 | // read the next cluster from cache |
906 | // read the next cluster from cache |
907 | fat = (Fat16Entry_t *)(&(buffer[byte])); |
907 | fat = (Fat16Entry_t *)(&(buffer[byte])); |
908 | cluster = fat->NextCluster; |
908 | cluster = fat->NextCluster; |
909 | fat->NextCluster = FAT16_CLUSTER_FREE; // mark current cluster as free |
909 | fat->NextCluster = FAT16_CLUSTER_FREE; // mark current cluster as free |
910 | 910 | ||
911 | if((FAT16_CLUSTER_USED_MIN <= cluster) && (cluster <= FAT16_CLUSTER_USED_MAX) ) |
911 | if((FAT16_CLUSTER_USED_MIN <= cluster) && (cluster <= FAT16_CLUSTER_USED_MAX) ) |
912 | { |
912 | { |
913 | repeat = 1; |
913 | repeat = 1; |
914 | // calculate sector byte and byte offset in the fat for the next cluster |
914 | // calculate sector byte and byte offset in the fat for the next cluster |
915 | fat_byte_offset = ((u32)cluster)<<1; // two FAT bytes (16 bits) for every cluster |
915 | fat_byte_offset = ((u32)cluster)<<1; // two FAT bytes (16 bits) for every cluster |
916 | // calculate the sector that contains the current cluster within the fat |
916 | // calculate the sector that contains the current cluster within the fat |
917 | sector = Partition.FirstFatSector + ( fat_byte_offset / BYTES_PER_SECTOR); |
917 | sector = Partition.FirstFatSector + ( fat_byte_offset / BYTES_PER_SECTOR); |
918 | // calculate byte offset of the current cluster within that fat sector |
918 | // calculate byte offset of the current cluster within that fat sector |
919 | byte = fat_byte_offset % BYTES_PER_SECTOR; |
919 | byte = fat_byte_offset % BYTES_PER_SECTOR; |
920 | } |
920 | } |
921 | else repeat = 0; |
921 | else repeat = 0; |
922 | 922 | ||
923 | // if new sector is not the sector in buffer or the last cluster in the chain was traced |
923 | // if new sector is not the sector in buffer or the last cluster in the chain was traced |
924 | if((sector != sector_in_buffer) || !repeat) |
924 | if((sector != sector_in_buffer) || !repeat) |
925 | { // write sector in buffer |
925 | { // write sector in buffer |
926 | if(SD_SUCCESS != SDC_PutSector(sector_in_buffer,buffer)) |
926 | if(SD_SUCCESS != SDC_PutSector(sector_in_buffer,buffer)) |
927 | { |
927 | { |
928 | Fat16_Deinit(); |
928 | Fat16_Deinit(); |
929 | return(0); |
929 | return(0); |
930 | } |
930 | } |
931 | } |
931 | } |
932 | } |
932 | } |
933 | while(repeat); |
933 | while(repeat); |
934 | 934 | ||
935 | return 1; |
935 | return 1; |
936 | } |
936 | } |
937 | 937 | ||
938 | 938 | ||
939 | /****************************************************************************************************************************************/ |
939 | /****************************************************************************************************************************************/ |
940 | /* Function: u16 AppendCluster(File *file); */ |
940 | /* Function: u16 AppendCluster(File *file); */ |
941 | /* */ |
941 | /* */ |
942 | /* Description: This function looks in the fat to find the next free cluster and appends it to the file. */ |
942 | /* Description: This function looks in the fat to find the next free cluster and appends it to the file. */ |
943 | /* */ |
943 | /* */ |
944 | /* Returnvalue: The function returns the appened cluster number or CLUSTER_UNDEFINED of no cluster was appended. */ |
944 | /* Returnvalue: The function returns the appened cluster number or CLUSTER_UNDEFINED of no cluster was appended. */ |
945 | /****************************************************************************************************************************************/ |
945 | /****************************************************************************************************************************************/ |
946 | u16 AppendCluster(File_t *file) |
946 | u16 AppendCluster(File_t *file) |
947 | { |
947 | { |
948 | u16 last_cluster, new_cluster = CLUSTER_UNDEFINED; |
948 | u16 last_cluster, new_cluster = CLUSTER_UNDEFINED; |
949 | u32 fat_byte_offset, sector, byte; |
949 | u32 fat_byte_offset, sector, byte; |
950 | Fat16Entry_t * fat; |
950 | Fat16Entry_t * fat; |
951 | 951 | ||
952 | if((!Partition.IsValid) || (file == NULL)) return(new_cluster); |
952 | if((!Partition.IsValid) || (file == NULL)) return(new_cluster); |
953 | 953 | ||
954 | new_cluster = FindNextFreeCluster(file); // the next free cluster found on the disk. |
954 | new_cluster = FindNextFreeCluster(file); // the next free cluster found on the disk. |
955 | if(new_cluster != CLUSTER_UNDEFINED) |
955 | if(new_cluster != CLUSTER_UNDEFINED) |
956 | { // A free cluster was found and can be added to the end of the file. |
956 | { // A free cluster was found and can be added to the end of the file. |
957 | fseek_(file, 0, SEEK_END); // jump to the end of the file |
957 | fseek_(file, 0, SEEK_END); // jump to the end of the file |
958 | last_cluster = SectorToFat16Cluster(file->FirstSectorOfCurrCluster); // determine current file cluster |
958 | last_cluster = SectorToFat16Cluster(file->FirstSectorOfCurrCluster); // determine current file cluster |
959 | if(last_cluster != CLUSTER_UNDEFINED) |
959 | if(last_cluster != CLUSTER_UNDEFINED) |
960 | { |
960 | { |
961 | // update FAT entry of last cluster |
961 | // update FAT entry of last cluster |
962 | fat_byte_offset = ((u32)last_cluster)<<1; |
962 | fat_byte_offset = ((u32)last_cluster)<<1; |
963 | sector = Partition.FirstFatSector + ( fat_byte_offset / BYTES_PER_SECTOR); |
963 | sector = Partition.FirstFatSector + ( fat_byte_offset / BYTES_PER_SECTOR); |
964 | byte = fat_byte_offset % BYTES_PER_SECTOR; |
964 | byte = fat_byte_offset % BYTES_PER_SECTOR; |
965 | // read the sector containing the last cluster of the file |
965 | // read the sector containing the last cluster of the file |
966 | if(file->SectorInCache != sector) |
966 | if(file->SectorInCache != sector) |
967 | { |
967 | { |
968 | file->SectorInCache = sector; // update sector stored in buffer |
968 | file->SectorInCache = sector; // update sector stored in buffer |
969 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache)) // read sector from sd-card |
969 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache)) // read sector from sd-card |
970 | { |
970 | { |
971 | Fat16_Deinit(); |
971 | Fat16_Deinit(); |
972 | return(0); |
972 | return(0); |
973 | } |
973 | } |
974 | } |
974 | } |
975 | fat = (Fat16Entry_t *)(&(file->Cache[byte])); |
975 | fat = (Fat16Entry_t *)(&(file->Cache[byte])); |
976 | fat->NextCluster = new_cluster; // append the free cluster to the end of the file in the FAT. |
976 | fat->NextCluster = new_cluster; // append the free cluster to the end of the file in the FAT. |
977 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) // save the modified sector to the FAT. |
977 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) // save the modified sector to the FAT. |
978 | { |
978 | { |
979 | Fat16_Deinit(); |
979 | Fat16_Deinit(); |
980 | return(0); |
980 | return(0); |
981 | } |
981 | } |
982 | } |
982 | } |
983 | else // last cluster of the file is undefined |
983 | else // last cluster of the file is undefined |
984 | { // then the new cluster must be the first one of the file |
984 | { // then the new cluster must be the first one of the file |
985 | // and its cluster number must be set in the direntry |
985 | // and its cluster number must be set in the direntry |
986 | DirEntry_t * dir; |
986 | DirEntry_t * dir; |
987 | file->SectorInCache = file->DirectorySector; // update the sector number of file cache. |
987 | file->SectorInCache = file->DirectorySector; // update the sector number of file cache. |
988 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read in the sector. |
988 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read in the sector. |
989 | { |
989 | { |
990 | Fat16_Deinit(); |
990 | Fat16_Deinit(); |
991 | return(CLUSTER_UNDEFINED); |
991 | return(CLUSTER_UNDEFINED); |
992 | } |
992 | } |
993 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
993 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
994 | dir[file->DirectoryIndex].Res1 = 0; |
994 | dir[file->DirectoryIndex].Res1 = 0; |
995 | dir[file->DirectoryIndex].Res2[0] = 0; |
995 | dir[file->DirectoryIndex].Res2[0] = 0; |
996 | dir[file->DirectoryIndex].Res2[1] = 0; |
996 | dir[file->DirectoryIndex].Res2[1] = 0; |
997 | dir[file->DirectoryIndex].StartCluster = new_cluster; // update startcluster |
997 | dir[file->DirectoryIndex].StartCluster = new_cluster; // update startcluster |
998 | dir[file->DirectoryIndex].ModTime = FileTime(&SystemTime);// set time |
998 | dir[file->DirectoryIndex].ModTime = FileTime(&SystemTime);// set time |
999 | dir[file->DirectoryIndex].ModDate = FileDate(&SystemTime);// and date of modification |
999 | dir[file->DirectoryIndex].ModDate = FileDate(&SystemTime);// and date of modification |
1000 | dir[file->DirectoryIndex].LastAccessDate = dir[file->DirectoryIndex].ModDate; |
1000 | dir[file->DirectoryIndex].LastAccessDate = dir[file->DirectoryIndex].ModDate; |
1001 | dir[file->DirectoryIndex].Size = 0; |
1001 | dir[file->DirectoryIndex].Size = 0; |
1002 | // write sector containing the direntry |
1002 | // write sector containing the direntry |
1003 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) |
1003 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) |
1004 | { |
1004 | { |
1005 | Fat16_Deinit(); |
1005 | Fat16_Deinit(); |
1006 | return(CLUSTER_UNDEFINED); |
1006 | return(CLUSTER_UNDEFINED); |
1007 | } |
1007 | } |
1008 | // update file info |
1008 | // update file info |
1009 | file->FirstSectorOfFirstCluster = Fat16ClusterToSector(new_cluster); |
1009 | file->FirstSectorOfFirstCluster = Fat16ClusterToSector(new_cluster); |
1010 | file->Size = 0; |
1010 | file->Size = 0; |
1011 | file->Position = 0; |
1011 | file->Position = 0; |
1012 | } |
1012 | } |
1013 | // update file pointes |
1013 | // update file pointes |
1014 | file->FirstSectorOfCurrCluster = Fat16ClusterToSector(new_cluster); |
1014 | file->FirstSectorOfCurrCluster = Fat16ClusterToSector(new_cluster); |
1015 | file->SectorOfCurrCluster = 0; |
1015 | file->SectorOfCurrCluster = 0; |
1016 | file->ByteOfCurrSector = 0; |
1016 | file->ByteOfCurrSector = 0; |
1017 | } |
1017 | } |
1018 | return(new_cluster); |
1018 | return(new_cluster); |
1019 | } |
1019 | } |
1020 | 1020 | ||
1021 | /****************************************************************************************************************************************************/ |
1021 | /****************************************************************************************************************************************************/ |
1022 | /* Function: DirectoryEntryExist(s8 *, u8, u8, File_t *) */ |
1022 | /* Function: DirectoryEntryExist(s8 *, u8, u8, File_t *) */ |
1023 | /* */ |
1023 | /* */ |
1024 | /* Description: This function searches all possible dir entries until the file or directory is found or the end of the directory is reached */ |
1024 | /* Description: This function searches all possible dir entries until the file or directory is found or the end of the directory is reached */ |
1025 | /* */ |
1025 | /* */ |
1026 | /* Returnvalue: This function returns 1 if the directory entry specified was found. */ |
1026 | /* Returnvalue: This function returns 1 if the directory entry specified was found. */ |
1027 | /****************************************************************************************************************************************************/ |
1027 | /****************************************************************************************************************************************************/ |
1028 | u8 DirectoryEntryExist(s8 *dirname, u8 attribfilter, u8 attribmask, File_t *file) |
1028 | u8 DirectoryEntryExist(s8 *dirname, u8 attribfilter, u8 attribmask, File_t *file) |
1029 | { |
1029 | { |
1030 | u32 dir_sector, max_dir_sector, curr_sector; |
1030 | u32 dir_sector, max_dir_sector, curr_sector; |
1031 | u16 dir_entry = 0; |
1031 | u16 dir_entry = 0; |
1032 | 1032 | ||
1033 | u16 end_of_directory_not_reached = 0; |
1033 | u16 end_of_directory_not_reached = 0; |
1034 | u8 i = 0; |
1034 | u8 i = 0; |
1035 | u8 direntry_exist = 0; |
1035 | u8 direntry_exist = 0; |
1036 | DirEntry_t * dir; |
1036 | DirEntry_t * dir; |
1037 | 1037 | ||
1038 | // if incomming pointers are useless return immediatly |
1038 | // if incomming pointers are useless return immediatly |
1039 | if((!Partition.IsValid) || (file == NULL) || (dirname == NULL)) return(direntry_exist); |
1039 | if((!Partition.IsValid) || (file == NULL) || (dirname == NULL)) return(direntry_exist); |
1040 | 1040 | ||
1041 | // dir entries can be searched only in filesclusters that have |
1041 | // dir entries can be searched only in filesclusters that have |
1042 | // a corresponding dir entry with adir-flag set in its attribute |
1042 | // a corresponding dir entry with adir-flag set in its attribute |
1043 | // or direct within the root directory area |
1043 | // or direct within the root directory area |
1044 | 1044 | ||
1045 | file->FirstSectorOfFirstCluster = SECTOR_UNDEFINED; |
1045 | file->FirstSectorOfFirstCluster = SECTOR_UNDEFINED; |
1046 | // no current directory exist therefore assume searching in the root |
1046 | // no current directory exist therefore assume searching in the root |
1047 | if(file->DirectorySector == SECTOR_UNDEFINED) |
1047 | if(file->DirectorySector == SECTOR_UNDEFINED) |
1048 | { |
1048 | { |
1049 | max_dir_sector = (Partition.MaxRootEntries * DIRENTRY_SIZE)/BYTES_PER_SECTOR; |
1049 | max_dir_sector = (Partition.MaxRootEntries * DIRENTRY_SIZE)/BYTES_PER_SECTOR; |
1050 | file->FirstSectorOfFirstCluster = Partition.FirstRootDirSector; |
1050 | file->FirstSectorOfFirstCluster = Partition.FirstRootDirSector; |
1051 | } |
1051 | } |
1052 | // within the root directory area we can read sectors sequentially until the end of this area |
1052 | // within the root directory area we can read sectors sequentially until the end of this area |
1053 | else if((Partition.FirstRootDirSector <= file->DirectorySector) && (file->DirectorySector < Partition.FirstDataSector)) |
1053 | else if((Partition.FirstRootDirSector <= file->DirectorySector) && (file->DirectorySector < Partition.FirstDataSector)) |
1054 | { |
1054 | { |
1055 | max_dir_sector = (Partition.MaxRootEntries * DIRENTRY_SIZE)/BYTES_PER_SECTOR; |
1055 | max_dir_sector = (Partition.MaxRootEntries * DIRENTRY_SIZE)/BYTES_PER_SECTOR; |
1056 | } |
1056 | } |
1057 | // within the data clusters we can read sectors sequentially only within the cluster |
1057 | // within the data clusters we can read sectors sequentially only within the cluster |
1058 | else if((Partition.FirstDataSector <= file->DirectorySector) && (file->DirectorySector <= Partition.LastDataSector)) |
1058 | else if((Partition.FirstDataSector <= file->DirectorySector) && (file->DirectorySector <= Partition.LastDataSector)) |
1059 | { |
1059 | { |
1060 | max_dir_sector = Partition.SectorsPerCluster; // limit max secters before next cluster |
1060 | max_dir_sector = Partition.SectorsPerCluster; // limit max secters before next cluster |
1061 | } |
1061 | } |
1062 | else return (direntry_exist); // bad sector range for directory sector of the file |
1062 | else return (direntry_exist); // bad sector range for directory sector of the file |
1063 | // if search area is not defined yet |
1063 | // if search area is not defined yet |
1064 | if(file->FirstSectorOfFirstCluster == SECTOR_UNDEFINED) |
1064 | if(file->FirstSectorOfFirstCluster == SECTOR_UNDEFINED) |
1065 | { |
1065 | { |
1066 | // check if the directory entry of current file is existent and has the dir-flag set |
1066 | // check if the directory entry of current file is existent and has the dir-flag set |
1067 | file->SectorInCache = file->DirectorySector; // update the sector number of file cache. |
1067 | file->SectorInCache = file->DirectorySector; // update the sector number of file cache. |
1068 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read in the sector. |
1068 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read in the sector. |
1069 | { |
1069 | { |
1070 | Fat16_Deinit(); |
1070 | Fat16_Deinit(); |
1071 | return(direntry_exist); |
1071 | return(direntry_exist); |
1072 | } |
1072 | } |
1073 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
1073 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
1074 | switch((u8)dir[file->DirectoryIndex].Name[0]) // check if current directory exist |
1074 | switch((u8)dir[file->DirectoryIndex].Name[0]) // check if current directory exist |
1075 | { |
1075 | { |
1076 | case SLOT_EMPTY: |
1076 | case SLOT_EMPTY: |
1077 | case SLOT_DELETED: |
1077 | case SLOT_DELETED: |
1078 | // the directrory pointer of this file points to a deleted or not existen directory |
1078 | // the directrory pointer of this file points to a deleted or not existen directory |
1079 | // therefore no file or subdirectory can be created |
1079 | // therefore no file or subdirectory can be created |
1080 | return (direntry_exist); |
1080 | return (direntry_exist); |
1081 | break; |
1081 | break; |
1082 | default: // and is a real directory |
1082 | default: // and is a real directory |
1083 | if((dir[file->DirectoryIndex].Attribute & ATTR_SUBDIRECTORY) != ATTR_SUBDIRECTORY) |
1083 | if((dir[file->DirectoryIndex].Attribute & ATTR_SUBDIRECTORY) != ATTR_SUBDIRECTORY) |
1084 | { // current file is not a directory therefore no file or subdirectory can be created here |
1084 | { // current file is not a directory therefore no file or subdirectory can be created here |
1085 | return (direntry_exist); |
1085 | return (direntry_exist); |
1086 | } |
1086 | } |
1087 | break; |
1087 | break; |
1088 | } |
1088 | } |
1089 | file->FirstSectorOfFirstCluster = Fat16ClusterToSector(dir[file->DirectoryIndex].StartCluster); |
1089 | file->FirstSectorOfFirstCluster = Fat16ClusterToSector(dir[file->DirectoryIndex].StartCluster); |
1090 | } |
1090 | } |
1091 | 1091 | ||
1092 | // update current file data area position to start of first cluster |
1092 | // update current file data area position to start of first cluster |
1093 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
1093 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
1094 | file->SectorOfCurrCluster = 0; |
1094 | file->SectorOfCurrCluster = 0; |
1095 | file->ByteOfCurrSector = 0; |
1095 | file->ByteOfCurrSector = 0; |
1096 | 1096 | ||
1097 | do // loop over all data clusters of the current directory entry |
1097 | do // loop over all data clusters of the current directory entry |
1098 | { |
1098 | { |
1099 | dir_sector = 0; // reset sector counter within a new cluster |
1099 | dir_sector = 0; // reset sector counter within a new cluster |
1100 | do // loop over all sectors of a cluster or all sectors of the root directory |
1100 | do // loop over all sectors of a cluster or all sectors of the root directory |
1101 | { |
1101 | { |
1102 | curr_sector = file->FirstSectorOfCurrCluster + dir_sector; // calculate sector number |
1102 | curr_sector = file->FirstSectorOfCurrCluster + dir_sector; // calculate sector number |
1103 | file->SectorInCache = curr_sector; // upate the sector number of file cache. |
1103 | file->SectorInCache = curr_sector; // upate the sector number of file cache. |
1104 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read the sector |
1104 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read the sector |
1105 | { |
1105 | { |
1106 | Fat16_Deinit(); |
1106 | Fat16_Deinit(); |
1107 | return(direntry_exist); |
1107 | return(direntry_exist); |
1108 | } |
1108 | } |
1109 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
1109 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
1110 | // search all directory entries within that sector |
1110 | // search all directory entries within that sector |
1111 | for(dir_entry = 0; dir_entry < DIRENTRIES_PER_SECTOR; dir_entry++) |
1111 | for(dir_entry = 0; dir_entry < DIRENTRIES_PER_SECTOR; dir_entry++) |
1112 | { // check for existing dir entry |
1112 | { // check for existing dir entry |
1113 | switch((u8)dir[dir_entry].Name[0]) |
1113 | switch((u8)dir[dir_entry].Name[0]) |
1114 | { |
1114 | { |
1115 | case SLOT_EMPTY: |
1115 | case SLOT_EMPTY: |
1116 | case SLOT_DELETED: |
1116 | case SLOT_DELETED: |
1117 | // ignore empty or deleted dir entries |
1117 | // ignore empty or deleted dir entries |
1118 | break; |
1118 | break; |
1119 | default: |
1119 | default: |
1120 | // if existing check attributes before names are compared will safe performance |
1120 | // if existing check attributes before names are compared will safe performance |
1121 | if ((dir[dir_entry].Attribute & attribmask) != attribfilter) break; // attribute must match |
1121 | if ((dir[dir_entry].Attribute & attribmask) != attribfilter) break; // attribute must match |
1122 | // then compare the name to the giveb dirname (first 11 characters include 8 chars of basename and 3 chars extension.) |
1122 | // then compare the name to the giveb dirname (first 11 characters include 8 chars of basename and 3 chars extension.) |
1123 | i = 0; |
1123 | i = 0; |
1124 | while((i < 11) && (dir[dir_entry].Name[i] == dirname[i])) i++; |
1124 | while((i < 11) && (dir[dir_entry].Name[i] == dirname[i])) i++; |
1125 | if (i < 10) break; // names does not match |
1125 | if (i < 10) break; // names does not match |
1126 | // if dirname and attribute have matched |
1126 | // if dirname and attribute have matched |
1127 | file->Attribute = dir[dir_entry].Attribute; // store attribute of found dir entry |
1127 | file->Attribute = dir[dir_entry].Attribute; // store attribute of found dir entry |
1128 | file->FirstSectorOfFirstCluster = Fat16ClusterToSector(dir[dir_entry].StartCluster); // set sector of first data cluster |
1128 | file->FirstSectorOfFirstCluster = Fat16ClusterToSector(dir[dir_entry].StartCluster); // set sector of first data cluster |
1129 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
1129 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
1130 | file->SectorOfCurrCluster = 0; |
1130 | file->SectorOfCurrCluster = 0; |
1131 | file->ByteOfCurrSector = 0; |
1131 | file->ByteOfCurrSector = 0; |
1132 | file->DirectorySector = curr_sector; // current sector |
1132 | file->DirectorySector = curr_sector; // current sector |
1133 | file->DirectoryIndex = dir_entry; // current direntry in current sector |
1133 | file->DirectoryIndex = dir_entry; // current direntry in current sector |
1134 | file->Size = dir[dir_entry].Size; |
1134 | file->Size = dir[dir_entry].Size; |
1135 | direntry_exist = 1; // mark as found |
1135 | direntry_exist = 1; // mark as found |
1136 | dir_entry = DIRENTRIES_PER_SECTOR; // stop for-loop |
1136 | dir_entry = DIRENTRIES_PER_SECTOR; // stop for-loop |
1137 | } // end of first byte of name check |
1137 | } // end of first byte of name check |
1138 | } |
1138 | } |
1139 | dir_sector++; // search next sector |
1139 | dir_sector++; // search next sector |
1140 | // stop if we reached the end of the cluster or the end of the root dir |
1140 | // stop if we reached the end of the cluster or the end of the root dir |
1141 | }while((dir_sector < max_dir_sector) && (!direntry_exist)); |
1141 | }while((dir_sector < max_dir_sector) && (!direntry_exist)); |
1142 | 1142 | ||
1143 | // if we are seaching in the data area and the file not found in this cluster so take next cluster. |
1143 | // if we are seaching in the data area and the file not found in this cluster so take next cluster. |
1144 | if(!direntry_exist && ( Partition.FirstDataSector <= file->FirstSectorOfCurrCluster)) |
1144 | if(!direntry_exist && ( Partition.FirstDataSector <= file->FirstSectorOfCurrCluster)) |
1145 | { |
1145 | { |
1146 | end_of_directory_not_reached = GetNextCluster(file); // updates File->FirstSectorOfCurrCluster |
1146 | end_of_directory_not_reached = GetNextCluster(file); // updates File->FirstSectorOfCurrCluster |
1147 | } |
1147 | } |
1148 | }while((end_of_directory_not_reached) && (!direntry_exist)); // repeat until a next cluster exist an no |
1148 | }while((end_of_directory_not_reached) && (!direntry_exist)); // repeat until a next cluster exist an no |
1149 | return(direntry_exist); |
1149 | return(direntry_exist); |
1150 | } |
1150 | } |
1151 | 1151 | ||
1152 | 1152 | ||
1153 | /****************************************************************************************************************************************/ |
1153 | /****************************************************************************************************************************************/ |
1154 | /* Function: CreateDirectoryEntry(s8 *, u16, File_t *) */ |
1154 | /* Function: CreateDirectoryEntry(s8 *, u16, File_t *) */ |
1155 | /* */ |
1155 | /* */ |
1156 | /* Description: This function looks for the next free position in the directory and creates an entry. */ |
1156 | /* Description: This function looks for the next free position in the directory and creates an entry. */ |
1157 | /* The type of an directory entry is specified by the file attribute. */ |
1157 | /* The type of an directory entry is specified by the file attribute. */ |
1158 | /* */ |
1158 | /* */ |
1159 | /* Returnvalue: Return 0 on error */ |
1159 | /* Returnvalue: Return 0 on error */ |
1160 | /****************************************************************************************************************************************/ |
1160 | /****************************************************************************************************************************************/ |
1161 | u8 CreateDirectoryEntry(s8 *dirname, u8 attrib, File_t *file) |
1161 | u8 CreateDirectoryEntry(s8 *dirname, u8 attrib, File_t *file) |
1162 | { |
1162 | { |
1163 | u32 dir_sector, max_dir_sector, curr_sector; |
1163 | u32 dir_sector, max_dir_sector, curr_sector; |
1164 | u16 dir_entry = 0; |
1164 | u16 dir_entry = 0; |
1165 | u16 subdircluster, dircluster = 0; |
1165 | u16 subdircluster, dircluster = 0; |
1166 | u16 end_of_directory_not_reached = 0; |
1166 | u16 end_of_directory_not_reached = 0; |
1167 | u8 i = 0; |
1167 | u8 i = 0; |
1168 | u8 retvalue = 0; |
1168 | u8 retvalue = 0; |
1169 | DirEntry_t *dir; |
1169 | DirEntry_t *dir; |
1170 | 1170 | ||
1171 | if((!Partition.IsValid) || (file == NULL) || (dirname == NULL)) return (retvalue); |
1171 | if((!Partition.IsValid) || (file == NULL) || (dirname == NULL)) return (retvalue); |
1172 | // It is not checked here that the dir entry that should be created is already existent! |
1172 | // It is not checked here that the dir entry that should be created is already existent! |
1173 | 1173 | ||
1174 | // Dir entries can be created only in file-clusters that have |
1174 | // Dir entries can be created only in file-clusters that have |
1175 | // the dir-flag set in its attribute or within the root directory |
1175 | // the dir-flag set in its attribute or within the root directory |
1176 | 1176 | ||
1177 | file->FirstSectorOfFirstCluster = SECTOR_UNDEFINED; |
1177 | file->FirstSectorOfFirstCluster = SECTOR_UNDEFINED; |
1178 | // no current directory exist therefore assume creating in the root |
1178 | // no current directory exist therefore assume creating in the root |
1179 | if(file->DirectorySector == SECTOR_UNDEFINED) |
1179 | if(file->DirectorySector == SECTOR_UNDEFINED) |
1180 | { |
1180 | { |
1181 | max_dir_sector = (Partition.MaxRootEntries * DIRENTRY_SIZE)/BYTES_PER_SECTOR; |
1181 | max_dir_sector = (Partition.MaxRootEntries * DIRENTRY_SIZE)/BYTES_PER_SECTOR; |
1182 | dircluster = 0; |
1182 | dircluster = 0; |
1183 | file->FirstSectorOfFirstCluster = Partition.FirstRootDirSector; |
1183 | file->FirstSectorOfFirstCluster = Partition.FirstRootDirSector; |
1184 | } |
1184 | } |
1185 | // within the root directory area we can read sectors sequentially until the end of this area |
1185 | // within the root directory area we can read sectors sequentially until the end of this area |
1186 | else if((Partition.FirstRootDirSector <= file->DirectorySector) && (file->DirectorySector < Partition.FirstDataSector)) |
1186 | else if((Partition.FirstRootDirSector <= file->DirectorySector) && (file->DirectorySector < Partition.FirstDataSector)) |
1187 | { |
1187 | { |
1188 | max_dir_sector = (Partition.MaxRootEntries * DIRENTRY_SIZE)/BYTES_PER_SECTOR; |
1188 | max_dir_sector = (Partition.MaxRootEntries * DIRENTRY_SIZE)/BYTES_PER_SECTOR; |
1189 | } |
1189 | } |
1190 | // within the data clusters we can read sectors sequentially only within the cluster |
1190 | // within the data clusters we can read sectors sequentially only within the cluster |
1191 | else if((Partition.FirstDataSector <= file->DirectorySector) && (file->DirectorySector <= Partition.LastDataSector)) |
1191 | else if((Partition.FirstDataSector <= file->DirectorySector) && (file->DirectorySector <= Partition.LastDataSector)) |
1192 | { |
1192 | { |
1193 | max_dir_sector = Partition.SectorsPerCluster; |
1193 | max_dir_sector = Partition.SectorsPerCluster; |
1194 | } |
1194 | } |
1195 | else return (retvalue); // bad sector range for directory sector of the file |
1195 | else return (retvalue); // bad sector range for directory sector of the file |
1196 | // if search area is not defined yet |
1196 | // if search area is not defined yet |
1197 | if(file->FirstSectorOfFirstCluster == SECTOR_UNDEFINED) |
1197 | if(file->FirstSectorOfFirstCluster == SECTOR_UNDEFINED) |
1198 | { |
1198 | { |
1199 | // check if the directory entry of current file is existent and has the dir-flag set |
1199 | // check if the directory entry of current file is existent and has the dir-flag set |
1200 | file->SectorInCache = file->DirectorySector; // update the sector number of file cache. |
1200 | file->SectorInCache = file->DirectorySector; // update the sector number of file cache. |
1201 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read in the sector. |
1201 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read in the sector. |
1202 | { |
1202 | { |
1203 | Fat16_Deinit(); |
1203 | Fat16_Deinit(); |
1204 | return(retvalue); |
1204 | return(retvalue); |
1205 | } |
1205 | } |
1206 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
1206 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
1207 | switch((u8)dir[file->DirectoryIndex].Name[0]) // check if current directory exist |
1207 | switch((u8)dir[file->DirectoryIndex].Name[0]) // check if current directory exist |
1208 | { |
1208 | { |
1209 | case SLOT_EMPTY: |
1209 | case SLOT_EMPTY: |
1210 | case SLOT_DELETED: |
1210 | case SLOT_DELETED: |
1211 | return (retvalue); |
1211 | return (retvalue); |
1212 | break; |
1212 | break; |
1213 | default: // and is a real directory |
1213 | default: // and is a real directory |
1214 | if((dir[file->DirectoryIndex].Attribute & ATTR_SUBDIRECTORY) != ATTR_SUBDIRECTORY) |
1214 | if((dir[file->DirectoryIndex].Attribute & ATTR_SUBDIRECTORY) != ATTR_SUBDIRECTORY) |
1215 | { // current file is not a directory therefore no file or subdirectory can be created here |
1215 | { // current file is not a directory therefore no file or subdirectory can be created here |
1216 | return (retvalue); |
1216 | return (retvalue); |
1217 | } |
1217 | } |
1218 | break; |
1218 | break; |
1219 | } |
1219 | } |
1220 | dircluster = dir[file->DirectoryIndex].StartCluster; |
1220 | dircluster = dir[file->DirectoryIndex].StartCluster; |
1221 | file->FirstSectorOfFirstCluster = Fat16ClusterToSector(dircluster); |
1221 | file->FirstSectorOfFirstCluster = Fat16ClusterToSector(dircluster); |
1222 | } |
1222 | } |
1223 | 1223 | ||
1224 | // if the new direntry is a subdirectory |
1224 | // if the new direntry is a subdirectory |
1225 | if((attrib & ATTR_SUBDIRECTORY) == ATTR_SUBDIRECTORY) |
1225 | if((attrib & ATTR_SUBDIRECTORY) == ATTR_SUBDIRECTORY) |
1226 | { // get a free clutser for its content |
1226 | { // get a free clutser for its content |
1227 | subdircluster = FindNextFreeCluster(file); // get the next free cluster on the disk and mark it as used. |
1227 | subdircluster = FindNextFreeCluster(file); // get the next free cluster on the disk and mark it as used. |
1228 | } |
1228 | } |
1229 | else // a normal file |
1229 | else // a normal file |
1230 | { // has no data cluster after creation |
1230 | { // has no data cluster after creation |
1231 | subdircluster = CLUSTER_UNDEFINED; |
1231 | subdircluster = CLUSTER_UNDEFINED; |
1232 | } |
1232 | } |
1233 | 1233 | ||
1234 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
1234 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
1235 | file->SectorOfCurrCluster = 0; |
1235 | file->SectorOfCurrCluster = 0; |
1236 | do // loop over all clusters of current directory |
1236 | do // loop over all clusters of current directory |
1237 | { |
1237 | { |
1238 | dir_sector = 0; // reset sector counter within a new cluster |
1238 | dir_sector = 0; // reset sector counter within a new cluster |
1239 | do // loop over all sectors of a cluster or all sectors of the root directory |
1239 | do // loop over all sectors of a cluster or all sectors of the root directory |
1240 | { |
1240 | { |
1241 | curr_sector = file->FirstSectorOfCurrCluster + dir_sector; // calculate sector number |
1241 | curr_sector = file->FirstSectorOfCurrCluster + dir_sector; // calculate sector number |
1242 | file->SectorInCache = curr_sector; // upate the sector number of file cache. |
1242 | file->SectorInCache = curr_sector; // upate the sector number of file cache. |
1243 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read in the sector. |
1243 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read in the sector. |
1244 | { |
1244 | { |
1245 | Fat16_Deinit(); |
1245 | Fat16_Deinit(); |
1246 | return(retvalue); |
1246 | return(retvalue); |
1247 | } |
1247 | } |
1248 | 1248 | ||
1249 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
1249 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
1250 | // search all directory entries of a sector |
1250 | // search all directory entries of a sector |
1251 | for(dir_entry = 0; dir_entry < DIRENTRIES_PER_SECTOR; dir_entry++) |
1251 | for(dir_entry = 0; dir_entry < DIRENTRIES_PER_SECTOR; dir_entry++) |
1252 | { // check if current direntry is available |
1252 | { // check if current direntry is available |
1253 | if(((u8)dir[dir_entry].Name[0] == SLOT_EMPTY) || ((u8)dir[dir_entry].Name[0] == SLOT_DELETED)) |
1253 | if(((u8)dir[dir_entry].Name[0] == SLOT_EMPTY) || ((u8)dir[dir_entry].Name[0] == SLOT_DELETED)) |
1254 | { // a free direntry was found |
1254 | { // a free direntry was found |
1255 | for(i = 0; i < 11; i++) dir[dir_entry].Name[i] = dirname[i]; // Set dir name |
1255 | for(i = 0; i < 11; i++) dir[dir_entry].Name[i] = dirname[i]; // Set dir name |
1256 | dir[dir_entry].Attribute = attrib; |
1256 | dir[dir_entry].Attribute = attrib; |
1257 | dir[dir_entry].Res1 = 0; |
1257 | dir[dir_entry].Res1 = 0; |
1258 | dir[dir_entry].CreationTime10ms = (u8)(SystemTime.mSec/10); |
1258 | dir[dir_entry].CreationTime10ms = (u8)(SystemTime.mSec/10); |
1259 | dir[dir_entry].CreationTime = FileTime(&SystemTime); |
1259 | dir[dir_entry].CreationTime = FileTime(&SystemTime); |
1260 | dir[dir_entry].CreationDate = FileDate(&SystemTime); |
1260 | dir[dir_entry].CreationDate = FileDate(&SystemTime); |
1261 | dir[dir_entry].LastAccessDate = dir[dir_entry].CreationDate; |
1261 | dir[dir_entry].LastAccessDate = dir[dir_entry].CreationDate; |
1262 | dir[dir_entry].Res2[0] = 0; |
1262 | dir[dir_entry].Res2[0] = 0; |
1263 | dir[dir_entry].Res2[1] = 0; |
1263 | dir[dir_entry].Res2[1] = 0; |
1264 | dir[dir_entry].ModTime = dir[dir_entry].CreationTime; |
1264 | dir[dir_entry].ModTime = dir[dir_entry].CreationTime; |
1265 | dir[dir_entry].ModDate = dir[dir_entry].CreationDate; |
1265 | dir[dir_entry].ModDate = dir[dir_entry].CreationDate; |
1266 | // Set the attribute of the new directoryentry. |
1266 | // Set the attribute of the new directoryentry. |
1267 | dir[dir_entry].StartCluster = subdircluster; // copy the location of the first datacluster to the directoryentry. |
1267 | dir[dir_entry].StartCluster = subdircluster; // copy the location of the first datacluster to the directoryentry. |
1268 | dir[dir_entry].Size = 0; // the new createted file has no content yet. |
1268 | dir[dir_entry].Size = 0; // the new createted file has no content yet. |
1269 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) // write back to card |
1269 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) // write back to card |
1270 | { |
1270 | { |
1271 | Fat16_Deinit(); |
1271 | Fat16_Deinit(); |
1272 | return(retvalue); |
1272 | return(retvalue); |
1273 | } |
1273 | } |
1274 | file->FirstSectorOfFirstCluster = Fat16ClusterToSector(subdircluster); // Calculate absolute sectorposition of first datacluster. |
1274 | file->FirstSectorOfFirstCluster = Fat16ClusterToSector(subdircluster); // Calculate absolute sectorposition of first datacluster. |
1275 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; // Start reading the file with the first sector of the first datacluster. |
1275 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; // Start reading the file with the first sector of the first datacluster. |
1276 | file->SectorOfCurrCluster = 0; // reset sector of cureen cluster |
1276 | file->SectorOfCurrCluster = 0; // reset sector of cureen cluster |
1277 | file->ByteOfCurrSector = 0; // reset the byte location within the current sector |
1277 | file->ByteOfCurrSector = 0; // reset the byte location within the current sector |
1278 | file->Attribute = attrib; // set file attribute to dir attribute |
1278 | file->Attribute = attrib; // set file attribute to dir attribute |
1279 | file->Size = 0; // new file has no size |
1279 | file->Size = 0; // new file has no size |
1280 | file->DirectorySector = curr_sector; |
1280 | file->DirectorySector = curr_sector; |
1281 | file->DirectoryIndex = dir_entry; |
1281 | file->DirectoryIndex = dir_entry; |
1282 | // prepare subdirectory data cluster |
1282 | // prepare subdirectory data cluster |
1283 | if((attrib & ATTR_SUBDIRECTORY) == ATTR_SUBDIRECTORY) // if a new directory was created then initilize the data area |
1283 | if((attrib & ATTR_SUBDIRECTORY) == ATTR_SUBDIRECTORY) // if a new directory was created then initilize the data area |
1284 | { |
1284 | { |
1285 | ClearCurrCluster(file); // fill cluster with zeros |
1285 | ClearCurrCluster(file); // fill cluster with zeros |
1286 | file->SectorInCache = file->FirstSectorOfFirstCluster; |
1286 | file->SectorInCache = file->FirstSectorOfFirstCluster; |
1287 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read in the sector. |
1287 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read in the sector. |
1288 | { |
1288 | { |
1289 | Fat16_Deinit(); |
1289 | Fat16_Deinit(); |
1290 | return(retvalue); |
1290 | return(retvalue); |
1291 | } |
1291 | } |
1292 | dir = (DirEntry_t *)file->Cache; |
1292 | dir = (DirEntry_t *)file->Cache; |
1293 | // create direntry "." to current dir |
1293 | // create direntry "." to current dir |
1294 | dir[0].Name[0] = 0x2E; |
1294 | dir[0].Name[0] = 0x2E; |
1295 | for(i = 1; i < 11; i++) dir[0].Name[i] = ' '; |
1295 | for(i = 1; i < 11; i++) dir[0].Name[i] = ' '; |
1296 | dir[0].Attribute = ATTR_SUBDIRECTORY; |
1296 | dir[0].Attribute = ATTR_SUBDIRECTORY; |
1297 | dir[0].StartCluster = subdircluster; |
1297 | dir[0].StartCluster = subdircluster; |
1298 | dir[0].Size = 0; |
1298 | dir[0].Size = 0; |
1299 | // create direntry ".." to the upper dir |
1299 | // create direntry ".." to the upper dir |
1300 | dir[1].Name[0] = 0x2E; |
1300 | dir[1].Name[0] = 0x2E; |
1301 | dir[1].Name[1] = 0x2E; |
1301 | dir[1].Name[1] = 0x2E; |
1302 | for(i = 2; i < 11; i++) dir[1].Name[i] = ' '; |
1302 | for(i = 2; i < 11; i++) dir[1].Name[i] = ' '; |
1303 | dir[1].Attribute = ATTR_SUBDIRECTORY; |
1303 | dir[1].Attribute = ATTR_SUBDIRECTORY; |
1304 | dir[1].StartCluster = dircluster; |
1304 | dir[1].StartCluster = dircluster; |
1305 | dir[1].Size = 0; |
1305 | dir[1].Size = 0; |
1306 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache))// read in the sector. |
1306 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache))// read in the sector. |
1307 | { |
1307 | { |
1308 | Fat16_Deinit(); |
1308 | Fat16_Deinit(); |
1309 | return(retvalue); |
1309 | return(retvalue); |
1310 | } |
1310 | } |
1311 | } |
1311 | } |
1312 | retvalue = 1; |
1312 | retvalue = 1; |
1313 | dir_entry = DIRENTRIES_PER_SECTOR; // stop for-loop |
1313 | dir_entry = DIRENTRIES_PER_SECTOR; // stop for-loop |
1314 | } |
1314 | } |
1315 | } |
1315 | } |
1316 | dir_sector++; // search next sector |
1316 | dir_sector++; // search next sector |
1317 | // stop if we reached the end of the cluster or the end of the root dir |
1317 | // stop if we reached the end of the cluster or the end of the root dir |
1318 | }while((dir_sector < max_dir_sector) && (!retvalue)); |
1318 | }while((dir_sector < max_dir_sector) && (!retvalue)); |
1319 | 1319 | ||
1320 | // if we are seaching in the data area and the file not found in this cluster so take next cluster. |
1320 | // if we are seaching in the data area and the file not found in this cluster so take next cluster. |
1321 | if(!retvalue && ( Partition.FirstDataSector <= file->FirstSectorOfCurrCluster)) |
1321 | if(!retvalue && ( Partition.FirstDataSector <= file->FirstSectorOfCurrCluster)) |
1322 | { |
1322 | { |
1323 | end_of_directory_not_reached = GetNextCluster(file); // updates File->FirstSectorOfCurrCluster |
1323 | end_of_directory_not_reached = GetNextCluster(file); // updates File->FirstSectorOfCurrCluster |
1324 | } |
1324 | } |
1325 | }while((end_of_directory_not_reached) && (!retvalue)); |
1325 | }while((end_of_directory_not_reached) && (!retvalue)); |
1326 | // Perhaps we are at the end of the last cluster of a directory file and have no free direntry found. |
1326 | // Perhaps we are at the end of the last cluster of a directory file and have no free direntry found. |
1327 | // Then we would need to add a cluster to that file and create the new direntry there. |
1327 | // Then we would need to add a cluster to that file and create the new direntry there. |
1328 | // This code is not implemented yet, because its occurs only if more that 32*32=1024 direntries are |
1328 | // This code is not implemented yet, because its occurs only if more that 32*32=1024 direntries are |
1329 | // within a subdirectory of root. |
1329 | // within a subdirectory of root. |
1330 | 1330 | ||
1331 | return(retvalue); // return 1 if file has been created otherwise return 0. |
1331 | return(retvalue); // return 1 if file has been created otherwise return 0. |
1332 | } |
1332 | } |
1333 | 1333 | ||
1334 | /********************************************************************************************************************************************/ |
1334 | /********************************************************************************************************************************************/ |
1335 | /* Function: FileExist(const s8* filename, u8 attribfilter, u8 attribmask, File_t *file); */ |
1335 | /* Function: FileExist(const s8* filename, u8 attribfilter, u8 attribmask, File_t *file); */ |
1336 | /* */ |
1336 | /* */ |
1337 | /* Description: This function looks for the specified file including its subdirectories beginning */ |
1337 | /* Description: This function looks for the specified file including its subdirectories beginning */ |
1338 | /* in the rootdirectory of the drive. If the file is found the Filepointer properties are */ |
1338 | /* in the rootdirectory of the drive. If the file is found the Filepointer properties are */ |
1339 | /* updated. */ |
1339 | /* updated. */ |
1340 | /* */ |
1340 | /* */ |
1341 | /* Returnvalue: 1 if file is found else 0. */ |
1341 | /* Returnvalue: 1 if file is found else 0. */ |
1342 | /********************************************************************************************************************************************/ |
1342 | /********************************************************************************************************************************************/ |
1343 | u8 FileExist(const s8* filename, const u8 attribfilter, const u8 attribmask, File_t *file) |
1343 | u8 FileExist(const s8* filename, const u8 attribfilter, const u8 attribmask, File_t *file) |
1344 | { |
1344 | { |
1345 | s8* path = 0; |
1345 | s8* path = 0; |
1346 | s8* subpath = 0; |
1346 | s8* subpath = 0; |
1347 | u8 af, am, file_exist = 0; |
1347 | u8 af, am, file_exist = 0; |
1348 | s8 dirname[12]; // 8+3 + temination character |
1348 | s8 dirname[12]; // 8+3 + temination character |
1349 | 1349 | ||
1350 | // if incomming pointers are useless return immediatly |
1350 | // if incomming pointers are useless return immediatly |
1351 | if ((filename == NULL) || (file == NULL) || (!Partition.IsValid)) return 0; |
1351 | if ((filename == NULL) || (file == NULL) || (!Partition.IsValid)) return 0; |
1352 | 1352 | ||
1353 | // trace along the filepath |
1353 | // trace along the filepath |
1354 | path = (s8*)filename; // start a the beginning of the filename string |
1354 | path = (s8*)filename; // start a the beginning of the filename string |
1355 | file->DirectorySector = 0; // start at RootDirectory with file search |
1355 | file->DirectorySector = 0; // start at RootDirectory with file search |
1356 | file->DirectoryIndex = 0; |
1356 | file->DirectoryIndex = 0; |
1357 | // as long as the file was not found and the remaining path is not empty |
1357 | // as long as the file was not found and the remaining path is not empty |
1358 | while((*path != 0) && !file_exist) |
1358 | while((*path != 0) && !file_exist) |
1359 | { // separate dirname and subpath from filepath string |
1359 | { // separate dirname and subpath from filepath string |
1360 | subpath = SeperateDirName(path, dirname); |
1360 | subpath = SeperateDirName(path, dirname); |
1361 | if(subpath != NULL) |
1361 | if(subpath != NULL) |
1362 | { |
1362 | { |
1363 | if(*subpath == 0) |
1363 | if(*subpath == 0) |
1364 | { // empty subpath indicates last element of dir chain |
1364 | { // empty subpath indicates last element of dir chain |
1365 | af = attribfilter; |
1365 | af = attribfilter; |
1366 | am = attribmask; |
1366 | am = attribmask; |
1367 | } |
1367 | } |
1368 | else // it must be a subdirectory and no volume label |
1368 | else // it must be a subdirectory and no volume label |
1369 | { |
1369 | { |
1370 | af = ATTR_SUBDIRECTORY; |
1370 | af = ATTR_SUBDIRECTORY; |
1371 | am = ATTR_SUBDIRECTORY|ATTR_VOLUMELABEL; |
1371 | am = ATTR_SUBDIRECTORY|ATTR_VOLUMELABEL; |
1372 | } |
1372 | } |
1373 | if(!DirectoryEntryExist(dirname, af, am, file)) |
1373 | if(!DirectoryEntryExist(dirname, af, am, file)) |
1374 | { |
1374 | { |
1375 | return (file_exist); // subdirectory does not exist |
1375 | return (file_exist); // subdirectory does not exist |
1376 | } |
1376 | } |
1377 | else |
1377 | else |
1378 | { |
1378 | { |
1379 | if (*subpath == 0) |
1379 | if (*subpath == 0) |
1380 | { |
1380 | { |
1381 | file_exist = 1; // last element of path chain was found with the given attribute filter |
1381 | file_exist = 1; // last element of path chain was found with the given attribute filter |
1382 | } |
1382 | } |
1383 | } |
1383 | } |
1384 | } |
1384 | } |
1385 | else // error seperating the subpath |
1385 | else // error seperating the subpath |
1386 | { |
1386 | { |
1387 | return file_exist; // bad subdir format |
1387 | return file_exist; // bad subdir format |
1388 | } |
1388 | } |
1389 | path = subpath; |
1389 | path = subpath; |
1390 | subpath = 0; |
1390 | subpath = 0; |
1391 | } |
1391 | } |
1392 | return (file_exist); |
1392 | return (file_exist); |
1393 | } |
1393 | } |
1394 | 1394 | ||
1395 | 1395 | ||
1396 | /********************************************************************************************************************************************/ |
1396 | /********************************************************************************************************************************************/ |
1397 | /* Function: FileCreate(const s8* filename, u8 attrib, File_t *file); */ |
1397 | /* Function: FileCreate(const s8* filename, u8 attrib, File_t *file); */ |
1398 | /* */ |
1398 | /* */ |
1399 | /* Description: This function looks for the specified file including its subdirectories beginning */ |
1399 | /* Description: This function looks for the specified file including its subdirectories beginning */ |
1400 | /* in the rootdirectory of the partition. If the file is found the Filepointer properties are */ |
1400 | /* in the rootdirectory of the partition. If the file is found the Filepointer properties are */ |
1401 | /* updated. If file or its subdirectories are not found they will be created */ |
1401 | /* updated. If file or its subdirectories are not found they will be created */ |
1402 | /* */ |
1402 | /* */ |
1403 | /* Returnvalue: 1 if file was created else 0. */ |
1403 | /* Returnvalue: 1 if file was created else 0. */ |
1404 | /********************************************************************************************************************************************/ |
1404 | /********************************************************************************************************************************************/ |
1405 | u8 FileCreate(const s8* filename, const u8 attrib, File_t *file) |
1405 | u8 FileCreate(const s8* filename, const u8 attrib, File_t *file) |
1406 | { |
1406 | { |
1407 | s8 *path = 0; |
1407 | s8 *path = 0; |
1408 | s8 *subpath = 0; |
1408 | s8 *subpath = 0; |
1409 | u8 af, am, file_created = 0; |
1409 | u8 af, am, file_created = 0; |
1410 | s8 dirname[12]; |
1410 | s8 dirname[12]; |
1411 | 1411 | ||
1412 | // if incomming pointers are useless return immediatly |
1412 | // if incomming pointers are useless return immediatly |
1413 | if ((filename == NULL) || (file == NULL) || (!Partition.IsValid)) return 0; |
1413 | if ((filename == NULL) || (file == NULL) || (!Partition.IsValid)) return 0; |
1414 | 1414 | ||
1415 | // trace along the filepath |
1415 | // trace along the filepath |
1416 | path = (s8*)filename; // start a the beginning of the filename string |
1416 | path = (s8*)filename; // start a the beginning of the filename string |
1417 | file->DirectorySector = 0; // start at RootDirectory with file search |
1417 | file->DirectorySector = 0; // start at RootDirectory with file search |
1418 | file->DirectoryIndex = 0; |
1418 | file->DirectoryIndex = 0; |
1419 | // as long as the file was not created and the remaining file path is not empty |
1419 | // as long as the file was not created and the remaining file path is not empty |
1420 | while((*path != 0) && !file_created) |
1420 | while((*path != 0) && !file_created) |
1421 | { // separate dirname and subpath from filepath string |
1421 | { // separate dirname and subpath from filepath string |
1422 | subpath = SeperateDirName(path, dirname); |
1422 | subpath = SeperateDirName(path, dirname); |
1423 | if(subpath != NULL) |
1423 | if(subpath != NULL) |
1424 | { |
1424 | { |
1425 | if(*subpath == 0) |
1425 | if(*subpath == 0) |
1426 | { // empty subpath indicates last element of dir chain |
1426 | { // empty subpath indicates last element of dir chain |
1427 | af = ATTR_NONE; |
1427 | af = ATTR_NONE; |
1428 | am = ATTR_SUBDIRECTORY|ATTR_VOLUMELABEL; // any file that is no subdir or volume label |
1428 | am = ATTR_SUBDIRECTORY|ATTR_VOLUMELABEL; // any file that is no subdir or volume label |
1429 | } |
1429 | } |
1430 | else // it must be a subdirectory and no volume label |
1430 | else // it must be a subdirectory and no volume label |
1431 | { |
1431 | { |
1432 | af = ATTR_SUBDIRECTORY; |
1432 | af = ATTR_SUBDIRECTORY; |
1433 | am = ATTR_SUBDIRECTORY|ATTR_VOLUMELABEL; |
1433 | am = ATTR_SUBDIRECTORY|ATTR_VOLUMELABEL; |
1434 | } |
1434 | } |
1435 | if(!DirectoryEntryExist(dirname, af, am, file)) // if subdir or file is not existent |
1435 | if(!DirectoryEntryExist(dirname, af, am, file)) // if subdir or file is not existent |
1436 | { // try to create subdir or file |
1436 | { // try to create subdir or file |
1437 | if(*subpath == 0) af = attrib; // if last element in dir chain take the given attribute |
1437 | if(*subpath == 0) af = attrib; // if last element in dir chain take the given attribute |
1438 | if(!CreateDirectoryEntry(dirname, af, file)) |
1438 | if(!CreateDirectoryEntry(dirname, af, file)) |
1439 | { // could not be created |
1439 | { // could not be created |
1440 | return(file_created); |
1440 | return(file_created); |
1441 | } |
1441 | } |
1442 | else if (*subpath == 0) file_created = 1; // last element of path chain was created |
1442 | else if (*subpath == 0) file_created = 1; // last element of path chain was created |
1443 | } |
1443 | } |
1444 | } |
1444 | } |
1445 | else // error seperating the subpath |
1445 | else // error seperating the subpath |
1446 | { |
1446 | { |
1447 | return file_created; // bad subdir format |
1447 | return file_created; // bad subdir format |
1448 | } |
1448 | } |
1449 | path = subpath; |
1449 | path = subpath; |
1450 | subpath = 0; |
1450 | subpath = 0; |
1451 | } |
1451 | } |
1452 | return (file_created); |
1452 | return (file_created); |
1453 | } |
1453 | } |
1454 | 1454 | ||
1455 | 1455 | ||
1456 | /********************************************************************************************************************************************/ |
1456 | /********************************************************************************************************************************************/ |
1457 | /* Function: File_t * fopen_(s8* filename, s8 mode); */ |
1457 | /* Function: File_t * fopen_(s8* filename, s8 mode); */ |
1458 | /* */ |
1458 | /* */ |
1459 | /* Description: This function looks for the specified file in the rootdirectory of the drive. If the file is found the number of the */ |
1459 | /* Description: This function looks for the specified file in the rootdirectory of the drive. If the file is found the number of the */ |
1460 | /* corrosponding filepointer is returned. Only modes 'r' (reading) and 'a' append are implemented yet. */ |
1460 | /* corrosponding filepointer is returned. Only modes 'r' (reading) and 'a' append are implemented yet. */ |
1461 | /* */ |
1461 | /* */ |
1462 | /* Returnvalue: The filepointer to the file or 0 if faild. */ |
1462 | /* Returnvalue: The filepointer to the file or 0 if faild. */ |
1463 | /********************************************************************************************************************************************/ |
1463 | /********************************************************************************************************************************************/ |
1464 | File_t * fopen_(s8 * const filename, const s8 mode) |
1464 | File_t * fopen_(s8 * const filename, const s8 mode) |
1465 | { |
1465 | { |
1466 | File_t *file = 0; |
1466 | File_t *file = 0; |
1467 | 1467 | ||
1468 | if((!Partition.IsValid) || (filename == 0)) return(file); |
1468 | if((!Partition.IsValid) || (filename == 0)) return(file); |
1469 | 1469 | ||
1470 | // Look for an unused filepointer in the file pointer list? |
1470 | // Look for an unused filepointer in the file pointer list? |
1471 | file = LockFilePointer(); |
1471 | file = LockFilePointer(); |
1472 | // if no unused file pointer was found return 0 |
1472 | // if no unused file pointer was found return 0 |
1473 | if(file == NULL) return(file); |
1473 | if(file == NULL) return(file); |
1474 | 1474 | ||
1475 | // now we have found a free filepointer and claimed it |
1475 | // now we have found a free filepointer and claimed it |
1476 | // so let initiate its property values |
1476 | // so let initiate its property values |
1477 | file->FirstSectorOfFirstCluster = SECTOR_UNDEFINED; // Sectorpointer to the first sector of the first datacluster of the file. |
1477 | file->FirstSectorOfFirstCluster = SECTOR_UNDEFINED; // Sectorpointer to the first sector of the first datacluster of the file. |
1478 | file->FirstSectorOfCurrCluster = SECTOR_UNDEFINED; // Pointer to the cluster which is edited at the moment. |
1478 | file->FirstSectorOfCurrCluster = SECTOR_UNDEFINED; // Pointer to the cluster which is edited at the moment. |
1479 | file->SectorOfCurrCluster = 0; // The sector which is edited at the moment (cluster_pointer + sector_index). |
1479 | file->SectorOfCurrCluster = 0; // The sector which is edited at the moment (cluster_pointer + sector_index). |
1480 | file->ByteOfCurrSector = 0; // The bytelocation within the current sector (cluster_pointer + sector_index + byte_index). |
1480 | file->ByteOfCurrSector = 0; // The bytelocation within the current sector (cluster_pointer + sector_index + byte_index). |
1481 | file->Mode = mode; // mode of fileoperation (read,write) |
1481 | file->Mode = mode; // mode of fileoperation (read,write) |
1482 | file->Size = 0; // the size of the opened file in bytes. |
1482 | file->Size = 0; // the size of the opened file in bytes. |
1483 | file->Position = 0; // pointer to a byte within the file 0 < fileposition < filesize |
1483 | file->Position = 0; // pointer to a byte within the file 0 < fileposition < filesize |
1484 | file->SectorInCache = SECTOR_UNDEFINED; // the last sector read, wich is still in the sectorbuffer. |
1484 | file->SectorInCache = SECTOR_UNDEFINED; // the last sector read, wich is still in the sectorbuffer. |
1485 | file->DirectorySector = SECTOR_UNDEFINED; // the sectorposition where the directoryentry has been made. |
1485 | file->DirectorySector = SECTOR_UNDEFINED; // the sectorposition where the directoryentry has been made. |
1486 | file->DirectoryIndex = 0; // the index to the directoryentry within the specified sector. |
1486 | file->DirectoryIndex = 0; // the index to the directoryentry within the specified sector. |
1487 | file->Attribute = 0; // the attribute of the file opened. |
1487 | file->Attribute = 0; // the attribute of the file opened. |
1488 | 1488 | ||
1489 | // check if a real file (no directory) to the given filename exist |
1489 | // check if a real file (no directory) to the given filename exist |
1490 | if(FileExist(filename, ATTR_NONE, ATTR_SUBDIRECTORY|ATTR_VOLUMELABEL, file)) |
1490 | if(FileExist(filename, ATTR_NONE, ATTR_SUBDIRECTORY|ATTR_VOLUMELABEL, file)) |
1491 | { // file exist |
1491 | { // file exist |
1492 | switch(mode) // check mode |
1492 | switch(mode) // check mode |
1493 | { |
1493 | { |
1494 | case 'a': // if mode is: append to file |
1494 | case 'a': // if mode is: append to file |
1495 | if((file->Attribute & ATTR_READONLY) == ATTR_READONLY) |
1495 | if((file->Attribute & ATTR_READONLY) == ATTR_READONLY) |
1496 | { // file is marked as readonly --> do not open this file |
1496 | { // file is marked as readonly --> do not open this file |
1497 | fclose_(file); |
1497 | fclose_(file); |
1498 | file = NULL; |
1498 | file = NULL; |
1499 | } |
1499 | } |
1500 | else |
1500 | else |
1501 | { // file is not marked as read only --> goto end of file |
1501 | { // file is not marked as read only --> goto end of file |
1502 | fseek_(file, 0, SEEK_END); // point to the end of the file |
1502 | fseek_(file, 0, SEEK_END); // point to the end of the file |
1503 | } |
1503 | } |
1504 | break; |
1504 | break; |
1505 | case 'w': // if mode is: write to file |
1505 | case 'w': // if mode is: write to file |
1506 | if((file->Attribute & ATTR_READONLY) == ATTR_READONLY) |
1506 | if((file->Attribute & ATTR_READONLY) == ATTR_READONLY) |
1507 | { // file is marked as readonly --> do not open this file |
1507 | { // file is marked as readonly --> do not open this file |
1508 | fclose_(file); |
1508 | fclose_(file); |
1509 | file = NULL; |
1509 | file = NULL; |
1510 | } |
1510 | } |
1511 | else |
1511 | else |
1512 | { // file is not marked as read only |
1512 | { // file is not marked as read only |
1513 | DirEntry_t * dir; |
1513 | DirEntry_t * dir; |
1514 | // free all clusters of that file |
1514 | // free all clusters of that file |
1515 | DeleteClusterChain(SectorToFat16Cluster(file->FirstSectorOfFirstCluster)); |
1515 | DeleteClusterChain(SectorToFat16Cluster(file->FirstSectorOfFirstCluster)); |
1516 | // update directory entry of that file |
1516 | // update directory entry of that file |
1517 | file->SectorInCache = file->DirectorySector; // update the sector number of file cache. |
1517 | file->SectorInCache = file->DirectorySector; // update the sector number of file cache. |
1518 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read in the sector. |
1518 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read in the sector. |
1519 | { |
1519 | { |
1520 | Fat16_Deinit(); |
1520 | Fat16_Deinit(); |
1521 | return(NULL); |
1521 | return(NULL); |
1522 | } |
1522 | } |
1523 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
1523 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
1524 | dir[file->DirectoryIndex].ModTime = FileTime(&SystemTime); // set modification time |
1524 | dir[file->DirectoryIndex].ModTime = FileTime(&SystemTime); // set modification time |
1525 | dir[file->DirectoryIndex].ModDate = FileDate(&SystemTime); // set modification date |
1525 | dir[file->DirectoryIndex].ModDate = FileDate(&SystemTime); // set modification date |
1526 | dir[file->DirectoryIndex].LastAccessDate = dir[file->DirectoryIndex].ModDate; |
1526 | dir[file->DirectoryIndex].LastAccessDate = dir[file->DirectoryIndex].ModDate; |
1527 | dir[file->DirectoryIndex].StartCluster = CLUSTER_UNDEFINED; // update startcluster |
1527 | dir[file->DirectoryIndex].StartCluster = CLUSTER_UNDEFINED; // update startcluster |
1528 | dir[file->DirectoryIndex].Size = 0; |
1528 | dir[file->DirectoryIndex].Size = 0; |
1529 | // write sector containing the direntry |
1529 | // write sector containing the direntry |
1530 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) |
1530 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) |
1531 | { |
1531 | { |
1532 | Fat16_Deinit(); |
1532 | Fat16_Deinit(); |
1533 | return(NULL); |
1533 | return(NULL); |
1534 | } |
1534 | } |
1535 | file->FirstSectorOfFirstCluster = SECTOR_UNDEFINED; |
1535 | file->FirstSectorOfFirstCluster = SECTOR_UNDEFINED; |
1536 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
1536 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
1537 | file->SectorOfCurrCluster = 0; |
1537 | file->SectorOfCurrCluster = 0; |
1538 | file->ByteOfCurrSector = 0; |
1538 | file->ByteOfCurrSector = 0; |
1539 | file->Size = 0; |
1539 | file->Size = 0; |
1540 | file->Position = 0; |
1540 | file->Position = 0; |
1541 | fseek_(file, 0, SEEK_SET); |
1541 | fseek_(file, 0, SEEK_SET); |
1542 | } |
1542 | } |
1543 | break; |
1543 | break; |
1544 | case 'r': // if mode is: read from file |
1544 | case 'r': // if mode is: read from file |
1545 | // goto end of file |
1545 | // goto end of file |
1546 | fseek_(file, 0, SEEK_SET); |
1546 | fseek_(file, 0, SEEK_SET); |
1547 | break; |
1547 | break; |
1548 | default: // other modes are not supported |
1548 | default: // other modes are not supported |
1549 | fclose_(file); |
1549 | fclose_(file); |
1550 | file = NULL; |
1550 | file = NULL; |
1551 | break; |
1551 | break; |
1552 | } |
1552 | } |
1553 | return(file); |
1553 | return(file); |
1554 | } |
1554 | } |
1555 | else // file does not exist |
1555 | else // file does not exist |
1556 | { |
1556 | { |
1557 | switch(mode) // check mode |
1557 | switch(mode) // check mode |
1558 | { |
1558 | { |
1559 | case 'a': |
1559 | case 'a': |
1560 | case 'w': // if mode is write or append |
1560 | case 'w': // if mode is write or append |
1561 | // try to create the file |
1561 | // try to create the file |
1562 | if(!FileCreate(filename, ATTR_ARCHIVE, file)) |
1562 | if(!FileCreate(filename, ATTR_ARCHIVE, file)) |
1563 | { // if it could not be created |
1563 | { // if it could not be created |
1564 | fclose_(file); |
1564 | fclose_(file); |
1565 | file = NULL; |
1565 | file = NULL; |
1566 | } |
1566 | } |
1567 | break; |
1567 | break; |
1568 | case 'r': // else opened for 'r' |
1568 | case 'r': // else opened for 'r' |
1569 | default: // if unsupported mode |
1569 | default: // if unsupported mode |
1570 | fclose_(file); |
1570 | fclose_(file); |
1571 | file = NULL; |
1571 | file = NULL; |
1572 | break; |
1572 | break; |
1573 | } |
1573 | } |
1574 | return(file); |
1574 | return(file); |
1575 | } |
1575 | } |
1576 | // we should never come to this point |
1576 | // we should never come to this point |
1577 | fclose_(file); |
1577 | fclose_(file); |
1578 | file = NULL; |
1578 | file = NULL; |
1579 | return(file); |
1579 | return(file); |
1580 | } |
1580 | } |
1581 | 1581 | ||
1582 | /****************************************************************************************************************************************************/ |
1582 | /****************************************************************************************************************************************************/ |
1583 | /* Function: fflush_(File *); */ |
1583 | /* Function: fflush_(File *); */ |
1584 | /* */ |
1584 | /* */ |
1585 | /* Description: This function writes the data already in the buffer but not yet written to the file. */ |
1585 | /* Description: This function writes the data already in the buffer but not yet written to the file. */ |
1586 | /* */ |
1586 | /* */ |
1587 | /* Returnvalue: 0 on success EOF on error */ |
1587 | /* Returnvalue: 0 on success EOF on error */ |
1588 | /****************************************************************************************************************************************************/ |
1588 | /****************************************************************************************************************************************************/ |
1589 | s16 fflush_(File_t *file) |
1589 | s16 fflush_(File_t *file) |
1590 | { |
1590 | { |
1591 | DirEntry_t *dir; |
1591 | DirEntry_t *dir; |
1592 | 1592 | ||
1593 | if((file == NULL) || (!Partition.IsValid)) return (EOF); |
1593 | if((file == NULL) || (!Partition.IsValid)) return (EOF); |
1594 | 1594 | ||
1595 | switch(file->Mode) |
1595 | switch(file->Mode) |
1596 | { |
1596 | { |
1597 | case 'a': |
1597 | case 'a': |
1598 | case 'w': |
1598 | case 'w': |
1599 | if(file->ByteOfCurrSector > 0) // has data been added to the file? |
1599 | if(file->ByteOfCurrSector > 0) // has data been added to the file? |
1600 | { |
1600 | { |
1601 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache))// save the data still in the buffer |
1601 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache))// save the data still in the buffer |
1602 | { |
1602 | { |
1603 | Fat16_Deinit(); |
1603 | Fat16_Deinit(); |
1604 | return(EOF); |
1604 | return(EOF); |
1605 | } |
1605 | } |
1606 | } |
1606 | } |
1607 | file->SectorInCache = file->DirectorySector; |
1607 | file->SectorInCache = file->DirectorySector; |
1608 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache)) // read the directory entry for this file. |
1608 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache)) // read the directory entry for this file. |
1609 | { |
1609 | { |
1610 | Fat16_Deinit(); |
1610 | Fat16_Deinit(); |
1611 | return(EOF); |
1611 | return(EOF); |
1612 | } |
1612 | } |
1613 | 1613 | ||
1614 | dir = (DirEntry_t *)file->Cache; |
1614 | dir = (DirEntry_t *)file->Cache; |
1615 | // update dile size and modification time & date |
1615 | // update dile size and modification time & date |
1616 | dir[file->DirectoryIndex].ModTime = FileTime(&SystemTime); |
1616 | dir[file->DirectoryIndex].ModTime = FileTime(&SystemTime); |
1617 | dir[file->DirectoryIndex].ModDate = FileDate(&SystemTime); |
1617 | dir[file->DirectoryIndex].ModDate = FileDate(&SystemTime); |
1618 | dir[file->DirectoryIndex].LastAccessDate = dir[file->DirectoryIndex].ModDate; |
1618 | dir[file->DirectoryIndex].LastAccessDate = dir[file->DirectoryIndex].ModDate; |
1619 | dir[file->DirectoryIndex].Size = file->Size; // update file size |
1619 | dir[file->DirectoryIndex].Size = file->Size; // update file size |
1620 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) // write back to sd-card |
1620 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) // write back to sd-card |
1621 | { |
1621 | { |
1622 | Fat16_Deinit(); |
1622 | Fat16_Deinit(); |
1623 | return(EOF); |
1623 | return(EOF); |
1624 | } |
1624 | } |
1625 | break; |
1625 | break; |
1626 | case 'r': |
1626 | case 'r': |
1627 | default: |
1627 | default: |
1628 | // do nothing! |
1628 | // do nothing! |
1629 | return(EOF); |
1629 | return(EOF); |
1630 | break; |
1630 | break; |
1631 | 1631 | ||
1632 | } |
1632 | } |
1633 | return(0); |
1633 | return(0); |
1634 | } |
1634 | } |
1635 | 1635 | ||
1636 | /****************************************************************************************************************************************/ |
1636 | /****************************************************************************************************************************************/ |
1637 | /* Function: fclose_(File *file); */ |
1637 | /* Function: fclose_(File *file); */ |
1638 | /* */ |
1638 | /* */ |
1639 | /* Description: This function closes the open file by writing the remaining data */ |
1639 | /* Description: This function closes the open file by writing the remaining data */ |
1640 | /* from the buffer to the device and entering the filesize in the directory entry. */ |
1640 | /* from the buffer to the device and entering the filesize in the directory entry. */ |
1641 | /* */ |
1641 | /* */ |
1642 | /* Returnvalue: 0 on success EOF on error */ |
1642 | /* Returnvalue: 0 on success EOF on error */ |
1643 | /****************************************************************************************************************************************/ |
1643 | /****************************************************************************************************************************************/ |
1644 | s16 fclose_(File_t *file) |
1644 | s16 fclose_(File_t *file) |
1645 | { |
1645 | { |
1646 | s16 returnvalue = EOF; |
1646 | s16 returnvalue = EOF; |
1647 | 1647 | ||
1648 | if(file == NULL) return(returnvalue); |
1648 | if(file == NULL) return(returnvalue); |
1649 | returnvalue = fflush_(file); |
1649 | returnvalue = fflush_(file); |
1650 | UnlockFilePointer(file); |
1650 | UnlockFilePointer(file); |
1651 | return(returnvalue); |
1651 | return(returnvalue); |
1652 | } |
1652 | } |
1653 | 1653 | ||
1654 | /********************************************************************************************************************************************/ |
1654 | /********************************************************************************************************************************************/ |
1655 | /* Function: fgetc_(File *file); */ |
1655 | /* Function: fgetc_(File *file); */ |
1656 | /* */ |
1656 | /* */ |
1657 | /* Description: This function reads and returns one character from the specified file. Is the end of the actual sector reached the */ |
1657 | /* Description: This function reads and returns one character from the specified file. Is the end of the actual sector reached the */ |
1658 | /* next sector of the cluster is read. If the last sector of the cluster read the next cluster will be searched in FAT. */ |
1658 | /* next sector of the cluster is read. If the last sector of the cluster read the next cluster will be searched in FAT. */ |
1659 | /* */ |
1659 | /* */ |
1660 | /* Returnvalue: The function returns the character read from the specified memorylocation as u8 casted to s16 or EOF. */ |
1660 | /* Returnvalue: The function returns the character read from the specified memorylocation as u8 casted to s16 or EOF. */ |
1661 | /********************************************************************************************************************************************/ |
1661 | /********************************************************************************************************************************************/ |
1662 | s16 fgetc_(File_t *file) |
1662 | s16 fgetc_(File_t *file) |
1663 | { |
1663 | { |
1664 | s16 c = EOF; |
1664 | s16 c = EOF; |
1665 | u32 curr_sector; |
1665 | u32 curr_sector; |
1666 | 1666 | ||
1667 | if( (!Partition.IsValid) || (file == NULL)) return(c); |
1667 | if( (!Partition.IsValid) || (file == NULL)) return(c); |
1668 | // if the end of the file is not reached, get the next character. |
1668 | // if the end of the file is not reached, get the next character. |
1669 | if((0 < file->Size) && ((file->Position+1) < file->Size) ) |
1669 | if((0 < file->Size) && ((file->Position+1) < file->Size) ) |
1670 | { |
1670 | { |
1671 | curr_sector = file->FirstSectorOfCurrCluster; // calculate the sector of the next character to be read. |
1671 | curr_sector = file->FirstSectorOfCurrCluster; // calculate the sector of the next character to be read. |
1672 | curr_sector += file->SectorOfCurrCluster; |
1672 | curr_sector += file->SectorOfCurrCluster; |
1673 | 1673 | ||
1674 | if(file->SectorInCache != curr_sector) |
1674 | if(file->SectorInCache != curr_sector) |
1675 | { |
1675 | { |
1676 | file->SectorInCache = curr_sector; |
1676 | file->SectorInCache = curr_sector; |
1677 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache,file->Cache)) |
1677 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache,file->Cache)) |
1678 | { |
1678 | { |
1679 | Fat16_Deinit(); |
1679 | Fat16_Deinit(); |
1680 | return(c); |
1680 | return(c); |
1681 | } |
1681 | } |
1682 | } |
1682 | } |
1683 | c = (s16) file->Cache[file->ByteOfCurrSector]; |
1683 | c = (s16) file->Cache[file->ByteOfCurrSector]; |
1684 | file->Position++; // increment file position |
1684 | file->Position++; // increment file position |
1685 | file->ByteOfCurrSector++; // goto next byte in sector |
1685 | file->ByteOfCurrSector++; // goto next byte in sector |
1686 | if(file->ByteOfCurrSector >= BYTES_PER_SECTOR) // if end of sector |
1686 | if(file->ByteOfCurrSector >= BYTES_PER_SECTOR) // if end of sector |
1687 | { |
1687 | { |
1688 | file->ByteOfCurrSector = 0; // reset byte location |
1688 | file->ByteOfCurrSector = 0; // reset byte location |
1689 | file->SectorOfCurrCluster++; // next sector |
1689 | file->SectorOfCurrCluster++; // next sector |
1690 | if(file->SectorOfCurrCluster >= Partition.SectorsPerCluster) // if end of cluster is reached, the next datacluster has to be searched in the FAT. |
1690 | if(file->SectorOfCurrCluster >= Partition.SectorsPerCluster) // if end of cluster is reached, the next datacluster has to be searched in the FAT. |
1691 | { |
1691 | { |
1692 | 1692 | ||
1693 | if(GetNextCluster(file)) // Sets the clusterpointer of the file to the next datacluster. |
1693 | if(GetNextCluster(file)) // Sets the clusterpointer of the file to the next datacluster. |
1694 | { |
1694 | { |
1695 | file->SectorOfCurrCluster = 0; // start reading new cluster at first sector of the cluster. |
1695 | file->SectorOfCurrCluster = 0; // start reading new cluster at first sector of the cluster. |
1696 | } |
1696 | } |
1697 | else // the last cluster was allready reached |
1697 | else // the last cluster was allready reached |
1698 | { |
1698 | { |
1699 | file->SectorOfCurrCluster--; // jump back to the last sector in the last cluster |
1699 | file->SectorOfCurrCluster--; // jump back to the last sector in the last cluster |
1700 | file->ByteOfCurrSector = BYTES_PER_SECTOR; // set ByteOfCurrSector one byte over sector end |
1700 | file->ByteOfCurrSector = BYTES_PER_SECTOR; // set ByteOfCurrSector one byte over sector end |
1701 | } |
1701 | } |
1702 | } |
1702 | } |
1703 | } |
1703 | } |
1704 | } |
1704 | } |
1705 | return(c); |
1705 | return(c); |
1706 | } |
1706 | } |
1707 | 1707 | ||
1708 | /********************************************************************************************************************************************/ |
1708 | /********************************************************************************************************************************************/ |
1709 | /* Function: fputc_( const s8 c, File *file); */ |
1709 | /* Function: fputc_( const s8 c, File *file); */ |
1710 | /* */ |
1710 | /* */ |
1711 | /* Description: This function writes a byte to the specified file and takes care of writing the necessary FAT- Entries. */ |
1711 | /* Description: This function writes a byte to the specified file and takes care of writing the necessary FAT- Entries. */ |
1712 | /* next sector of the cluster is read. If the last sector of the cluster read the next cluster will be searched in FAT. */ |
1712 | /* next sector of the cluster is read. If the last sector of the cluster read the next cluster will be searched in FAT. */ |
1713 | /* */ |
1713 | /* */ |
1714 | /* Returnvalue: The function returns the character written to the stream or EOF on error. */ |
1714 | /* Returnvalue: The function returns the character written to the stream or EOF on error. */ |
1715 | /********************************************************************************************************************************************/ |
1715 | /********************************************************************************************************************************************/ |
1716 | s16 fputc_(const s8 c, File_t *file) |
1716 | s16 fputc_(const s8 c, File_t *file) |
1717 | { |
1717 | { |
1718 | u32 curr_sector = 0; |
1718 | u32 curr_sector = 0; |
1719 | 1719 | ||
1720 | if((!Partition.IsValid) || (file == NULL)) return(EOF); |
1720 | if((!Partition.IsValid) || (file == NULL)) return(EOF); |
1721 | switch(file->Mode) |
1721 | switch(file->Mode) |
1722 | { |
1722 | { |
1723 | case 'w': |
1723 | case 'w': |
1724 | case 'a': |
1724 | case 'a': |
1725 | // If file position equals to file size, then the end of file has been reached. |
1725 | // If file position equals to file size, then the end of file has been reached. |
1726 | // In this case it has to be checked that the ByteOfCurrSector is BYTES_PER_SECTOR |
1726 | // In this case it has to be checked that the ByteOfCurrSector is BYTES_PER_SECTOR |
1727 | // and a new cluster should be appended. |
1727 | // and a new cluster should be appended. |
1728 | // If the first sector of first cluster is unvalid, then the file claims no data clusters |
1728 | // If the first sector of first cluster is unvalid, then the file claims no data clusters |
1729 | // and size should be zero, therefore append a new Cluster too. |
1729 | // and size should be zero, therefore append a new Cluster too. |
1730 | if(((file->Position >= file->Size) && (file->ByteOfCurrSector >= BYTES_PER_SECTOR)) || (file->FirstSectorOfFirstCluster == SECTOR_UNDEFINED)) |
1730 | if(((file->Position >= file->Size) && (file->ByteOfCurrSector >= BYTES_PER_SECTOR)) || (file->FirstSectorOfFirstCluster == SECTOR_UNDEFINED)) |
1731 | { |
1731 | { |
1732 | if(CLUSTER_UNDEFINED == AppendCluster(file)) return(EOF); |
1732 | if(CLUSTER_UNDEFINED == AppendCluster(file)) return(EOF); |
1733 | } |
1733 | } |
1734 | 1734 | ||
1735 | curr_sector = file->FirstSectorOfCurrCluster; |
1735 | curr_sector = file->FirstSectorOfCurrCluster; |
1736 | curr_sector += file->SectorOfCurrCluster; |
1736 | curr_sector += file->SectorOfCurrCluster; |
1737 | if(file->SectorInCache != curr_sector) |
1737 | if(file->SectorInCache != curr_sector) |
1738 | { |
1738 | { |
1739 | file->SectorInCache = curr_sector; |
1739 | file->SectorInCache = curr_sector; |
1740 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache)) |
1740 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache)) |
1741 | { |
1741 | { |
1742 | Fat16_Deinit(); |
1742 | Fat16_Deinit(); |
1743 | return(EOF); |
1743 | return(EOF); |
1744 | } |
1744 | } |
1745 | } |
1745 | } |
1746 | 1746 | ||
1747 | file->Cache[file->ByteOfCurrSector] = (u8)c; // write databyte into the buffer. The byte will be written to the device at once |
1747 | file->Cache[file->ByteOfCurrSector] = (u8)c; // write databyte into the buffer. The byte will be written to the device at once |
1748 | if(file->Size == file->Position) file->Size++; // a character has been written to the file so the size is incremented only when the character has been added at the end of the file. |
1748 | if(file->Size == file->Position) file->Size++; // a character has been written to the file so the size is incremented only when the character has been added at the end of the file. |
1749 | file->Position++; // the actual positon within the file. |
1749 | file->Position++; // the actual positon within the file. |
1750 | file->ByteOfCurrSector++; // goto next byte in sector |
1750 | file->ByteOfCurrSector++; // goto next byte in sector |
1751 | if(file->ByteOfCurrSector >= BYTES_PER_SECTOR) // if the end of this sector is reached yet |
1751 | if(file->ByteOfCurrSector >= BYTES_PER_SECTOR) // if the end of this sector is reached yet |
1752 | { // save the sector to the sd-card |
1752 | { // save the sector to the sd-card |
1753 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) |
1753 | if(SD_SUCCESS != SDC_PutSector(file->SectorInCache, file->Cache)) |
1754 | { |
1754 | { |
1755 | Fat16_Deinit(); |
1755 | Fat16_Deinit(); |
1756 | return(EOF); |
1756 | return(EOF); |
1757 | } |
1757 | } |
1758 | file->ByteOfCurrSector = 0; // reset byte location |
1758 | file->ByteOfCurrSector = 0; // reset byte location |
1759 | file->SectorOfCurrCluster++; // next sector |
1759 | file->SectorOfCurrCluster++; // next sector |
1760 | if(file->SectorOfCurrCluster >= Partition.SectorsPerCluster)// if end of cluster is reached, the next datacluster has to be searched in the FAT. |
1760 | if(file->SectorOfCurrCluster >= Partition.SectorsPerCluster)// if end of cluster is reached, the next datacluster has to be searched in the FAT. |
1761 | { |
1761 | { |
1762 | if(!GetNextCluster(file)) // Sets the clusterpointer of the file to the next datacluster. |
1762 | if(!GetNextCluster(file)) // Sets the clusterpointer of the file to the next datacluster. |
1763 | { // if current cluster was the last cluster of the file |
1763 | { // if current cluster was the last cluster of the file |
1764 | if(!AppendCluster(file)) // append a new and free cluster at the end of the file. |
1764 | if(!AppendCluster(file)) // append a new and free cluster at the end of the file. |
1765 | { |
1765 | { |
1766 | file->SectorOfCurrCluster--; // jump back to last sector of last cluster |
1766 | file->SectorOfCurrCluster--; // jump back to last sector of last cluster |
1767 | file->ByteOfCurrSector = BYTES_PER_SECTOR; // set byte location to 1 byte over sector len |
1767 | file->ByteOfCurrSector = BYTES_PER_SECTOR; // set byte location to 1 byte over sector len |
1768 | return(EOF); |
1768 | return(EOF); |
1769 | } |
1769 | } |
1770 | } |
1770 | } |
1771 | else // next cluster |
1771 | else // next cluster |
1772 | { |
1772 | { |
1773 | file->SectorOfCurrCluster = 0; // start reading new cluster at first sector of the cluster. |
1773 | file->SectorOfCurrCluster = 0; // start reading new cluster at first sector of the cluster. |
1774 | } |
1774 | } |
1775 | } |
1775 | } |
1776 | } |
1776 | } |
1777 | break; |
1777 | break; |
1778 | case 'r': |
1778 | case 'r': |
1779 | default: |
1779 | default: |
1780 | return(EOF); |
1780 | return(EOF); |
1781 | break; |
1781 | break; |
1782 | } // EOF switch(file->Mode) |
1782 | } // EOF switch(file->Mode) |
1783 | return(0); |
1783 | return(0); |
1784 | } |
1784 | } |
1785 | 1785 | ||
1786 | 1786 | ||
1787 | /****************************************************************************************************************************************/ |
1787 | /****************************************************************************************************************************************/ |
1788 | /* Function: fread_(void *buffer, s32 size, s32 count, File *File); */ |
1788 | /* Function: fread_(void *buffer, s32 size, s32 count, File *File); */ |
1789 | /* */ |
1789 | /* */ |
1790 | /* Description: This function reads count objects of the specified size */ |
1790 | /* Description: This function reads count objects of the specified size */ |
1791 | /* from the actual position of the file to the specified buffer. */ |
1791 | /* from the actual position of the file to the specified buffer. */ |
1792 | /* */ |
1792 | /* */ |
1793 | /* Returnvalue: The function returns the number of objects (not bytes) read from the file. */ |
1793 | /* Returnvalue: The function returns the number of objects (not bytes) read from the file. */ |
1794 | /****************************************************************************************************************************************/ |
1794 | /****************************************************************************************************************************************/ |
1795 | u32 fread_(void *buffer, u32 size, u32 count, File_t *file) |
1795 | u32 fread_(void *buffer, u32 size, u32 count, File_t *file) |
1796 | { |
1796 | { |
1797 | u32 object_cnt = 0; // count the number of objects read from the file. |
1797 | u32 object_cnt = 0; // count the number of objects read from the file. |
1798 | u32 object_size = 0; // count the number of bytes read from the actual object. |
1798 | u32 object_size = 0; // count the number of bytes read from the actual object. |
1799 | u8 *pbuff = 0; // a pointer to the actual bufferposition. |
1799 | u8 *pbuff = 0; // a pointer to the actual bufferposition. |
1800 | u8 success = 1; // no error occured during read operation to the file. |
1800 | u8 success = 1; // no error occured during read operation to the file. |
1801 | s16 c; |
1801 | s16 c; |
1802 | 1802 | ||
1803 | if((!Partition.IsValid) || (file == NULL) || (buffer == NULL)) return(0); |
1803 | if((!Partition.IsValid) || (file == NULL) || (buffer == NULL)) return(0); |
1804 | 1804 | ||
1805 | pbuff = (u8 *) buffer; // cast the void pointer to an u8 * |
1805 | pbuff = (u8 *) buffer; // cast the void pointer to an u8 * |
1806 | 1806 | ||
1807 | while((object_cnt < count) && success) |
1807 | while((object_cnt < count) && success) |
1808 | { |
1808 | { |
1809 | object_size = size; |
1809 | object_size = size; |
1810 | while((size > 0) && success) |
1810 | while((size > 0) && success) |
1811 | { |
1811 | { |
1812 | c = fgetc_(file); |
1812 | c = fgetc_(file); |
1813 | if(c != EOF) |
1813 | if(c != EOF) |
1814 | { |
1814 | { |
1815 | *pbuff = (u8)c; // read a byte from the buffer to the opened file. |
1815 | *pbuff = (u8)c; // read a byte from the buffer to the opened file. |
1816 | pbuff++; |
1816 | pbuff++; |
1817 | size--; |
1817 | size--; |
1818 | } |
1818 | } |
1819 | else // error or end of file reached |
1819 | else // error or end of file reached |
1820 | { |
1820 | { |
1821 | success = 0; |
1821 | success = 0; |
1822 | } |
1822 | } |
1823 | } |
1823 | } |
1824 | if(success) object_cnt++; |
1824 | if(success) object_cnt++; |
1825 | } |
1825 | } |
1826 | return(object_cnt); // return the number of objects succesfully read from the file |
1826 | return(object_cnt); // return the number of objects succesfully read from the file |
1827 | } |
1827 | } |
1828 | 1828 | ||
1829 | 1829 | ||
1830 | /****************************************************************************************************************************************/ |
1830 | /****************************************************************************************************************************************/ |
1831 | /* Function: fwrite_(void *buffer, s32 size, s32 count, File *file); */ |
1831 | /* Function: fwrite_(void *buffer, s32 size, s32 count, File *file); */ |
1832 | /* */ |
1832 | /* */ |
1833 | /* Description: This function writes count objects of the specified size */ |
1833 | /* Description: This function writes count objects of the specified size */ |
1834 | /* from the buffer pointer to the actual position in the file. */ |
1834 | /* from the buffer pointer to the actual position in the file. */ |
1835 | /* */ |
1835 | /* */ |
1836 | /* Returnvalue: The function returns the number of objects (not bytes) read from the file. */ |
1836 | /* Returnvalue: The function returns the number of objects (not bytes) read from the file. */ |
1837 | /****************************************************************************************************************************************/ |
1837 | /****************************************************************************************************************************************/ |
1838 | u32 fwrite_(void *buffer, u32 size, u32 count, File_t *file) |
1838 | u32 fwrite_(void *buffer, u32 size, u32 count, File_t *file) |
1839 | { |
1839 | { |
1840 | u32 object_cnt = 0; // count the number of objects written to the file. |
1840 | u32 object_cnt = 0; // count the number of objects written to the file. |
1841 | u32 object_size = 0; // count the number of bytes written from the actual object. |
1841 | u32 object_size = 0; // count the number of bytes written from the actual object. |
1842 | u8 *pbuff = 0; // a pointer to the actual bufferposition. |
1842 | u8 *pbuff = 0; // a pointer to the actual bufferposition. |
1843 | u8 success = 1; // no error occured during write operation to the file. |
1843 | u8 success = 1; // no error occured during write operation to the file. |
1844 | s16 c; |
1844 | s16 c; |
1845 | 1845 | ||
1846 | if((!Partition.IsValid) || (file == NULL) || (buffer == NULL)) return(0); |
1846 | if((!Partition.IsValid) || (file == NULL) || (buffer == NULL)) return(0); |
1847 | if(file->Mode == 'r') return (0); // opened read only |
1847 | if(file->Mode == 'r') return (0); // opened read only |
1848 | pbuff = (u8 *) buffer; // cast the void pointer to an u8 * |
1848 | pbuff = (u8 *) buffer; // cast the void pointer to an u8 * |
1849 | 1849 | ||
1850 | while((object_cnt < count) && success) |
1850 | while((object_cnt < count) && success) |
1851 | { |
1851 | { |
1852 | object_size = size; |
1852 | object_size = size; |
1853 | while((size > 0) && success) |
1853 | while((size > 0) && success) |
1854 | { |
1854 | { |
1855 | c = fputc_(*pbuff, file); // write a byte from the buffer to the opened file. |
1855 | c = fputc_(*pbuff, file); // write a byte from the buffer to the opened file. |
1856 | if(c != EOF) |
1856 | if(c != EOF) |
1857 | { |
1857 | { |
1858 | pbuff++; |
1858 | pbuff++; |
1859 | size--; |
1859 | size--; |
1860 | } |
1860 | } |
1861 | else |
1861 | else |
1862 | { |
1862 | { |
1863 | success = 0; |
1863 | success = 0; |
1864 | } |
1864 | } |
1865 | } |
1865 | } |
1866 | if(success) object_cnt++; |
1866 | if(success) object_cnt++; |
1867 | } |
1867 | } |
1868 | 1868 | ||
1869 | return(object_cnt); // return the number of objects succesfully written to the file |
1869 | return(object_cnt); // return the number of objects succesfully written to the file |
1870 | } |
1870 | } |
1871 | 1871 | ||
1872 | 1872 | ||
1873 | /****************************************************************************************************************************************/ |
1873 | /****************************************************************************************************************************************/ |
1874 | /* Function: fputs_(const s8 *string, File_t *File); */ |
1874 | /* Function: fputs_(const s8 *string, File_t *File); */ |
1875 | /* */ |
1875 | /* */ |
1876 | /* Description: This function writes a string to the specified file. */ |
1876 | /* Description: This function writes a string to the specified file. */ |
1877 | /* */ |
1877 | /* */ |
1878 | /* Returnvalue: The function returns a no negative value or EOF on error. */ |
1878 | /* Returnvalue: The function returns a no negative value or EOF on error. */ |
1879 | /****************************************************************************************************************************************/ |
1879 | /****************************************************************************************************************************************/ |
1880 | s16 fputs_(s8 * const string, File_t * const file) |
1880 | s16 fputs_(s8 * const string, File_t * const file) |
1881 | { |
1881 | { |
1882 | u8 i=0; |
1882 | u8 i=0; |
1883 | s16 c = 0; |
1883 | s16 c = 0; |
1884 | 1884 | ||
1885 | if((!Partition.IsValid) || (file == NULL) || (string == NULL)) return(EOF); |
1885 | if((!Partition.IsValid) || (file == NULL) || (string == NULL)) return(EOF); |
1886 | if(file->Mode == 'r') return(EOF); |
1886 | if(file->Mode == 'r') return(EOF); |
1887 | while((string[i] != 0)&& (c != EOF)) |
1887 | while((string[i] != 0)&& (c != EOF)) |
1888 | { |
1888 | { |
1889 | c = fputc_(string[i], file); |
1889 | c = fputc_(string[i], file); |
1890 | i++; |
1890 | i++; |
1891 | } |
1891 | } |
1892 | return(c); |
1892 | return(c); |
1893 | } |
1893 | } |
1894 | 1894 | ||
1895 | /****************************************************************************************************************************************/ |
1895 | /****************************************************************************************************************************************/ |
1896 | /* Function: fgets_(s8 *, s16 , File_t *); */ |
1896 | /* Function: fgets_(s8 *, s16 , File_t *); */ |
1897 | /* */ |
1897 | /* */ |
1898 | /* Description: This function reads a string from the file to the specifies string. */ |
1898 | /* Description: This function reads a string from the file to the specifies string. */ |
1899 | /* */ |
1899 | /* */ |
1900 | /* Returnvalue: A pointer to the string read from the file or 0 on error. */ |
1900 | /* Returnvalue: A pointer to the string read from the file or 0 on error. */ |
1901 | /****************************************************************************************************************************************/ |
1901 | /****************************************************************************************************************************************/ |
1902 | s8 * fgets_(s8 * const string, s16 const length, File_t * const file) |
1902 | s8 * fgets_(s8 * const string, s16 const length, File_t * const file) |
1903 | { |
1903 | { |
1904 | s8 *pbuff; |
1904 | s8 *pbuff; |
1905 | s16 c = 0, bytecount; |
1905 | s16 c = 0, bytecount; |
1906 | 1906 | ||
1907 | if((!Partition.IsValid) || (file == NULL) || (string == NULL) || (length < 1)) return (0); |
1907 | if((!Partition.IsValid) || (file == NULL) || (string == NULL) || (length < 1)) return (0); |
1908 | bytecount = length; |
1908 | bytecount = length; |
1909 | pbuff = string; // set write pointer to start of string |
1909 | pbuff = string; // set write pointer to start of string |
1910 | while(bytecount > 1) // read the length-1 characters from the file to the string. |
1910 | while(bytecount > 1) // read the length-1 characters from the file to the string. |
1911 | { |
1911 | { |
1912 | c = fgetc_(file); // read a character from the opened file. |
1912 | c = fgetc_(file); // read a character from the opened file. |
1913 | switch(c) |
1913 | switch(c) |
1914 | { |
1914 | { |
1915 | case 0x0A: // new line |
1915 | case 0x0A: // new line |
1916 | *pbuff = 0; // set string terminator |
1916 | *pbuff = 0; // set string terminator |
1917 | return(string); // return normal |
1917 | return(string); // return normal |
1918 | 1918 | ||
1919 | case EOF: |
1919 | case EOF: |
1920 | *pbuff = 0; // set string terminator |
1920 | *pbuff = 0; // set string terminator |
1921 | return(0); |
1921 | return(0); |
1922 | 1922 | ||
1923 | default: |
1923 | default: |
1924 | *pbuff++ = (s8)c; // copy byte to string |
1924 | *pbuff++ = (s8)c; // copy byte to string |
1925 | bytecount--; |
1925 | bytecount--; |
1926 | break; |
1926 | break; |
1927 | } |
1927 | } |
1928 | } |
1928 | } |
1929 | *pbuff = 0; // set string terminator |
1929 | *pbuff = 0; // set string terminator |
1930 | return(string); |
1930 | return(string); |
1931 | } |
1931 | } |
1932 | 1932 | ||
1933 | /****************************************************************************************************************************************/ |
1933 | /****************************************************************************************************************************************/ |
1934 | /* Function: fexist_(const u8*); */ |
1934 | /* Function: fexist_(const u8*); */ |
1935 | /* */ |
1935 | /* */ |
1936 | /* Description: This function checks if a file already exist. */ |
1936 | /* Description: This function checks if a file already exist. */ |
1937 | /* */ |
1937 | /* */ |
1938 | /* Returnvalue: 1 if the file exist else 0. */ |
1938 | /* Returnvalue: 1 if the file exist else 0. */ |
1939 | /****************************************************************************************************************************************/ |
1939 | /****************************************************************************************************************************************/ |
1940 | u8 fexist_(s8 * const filename) |
1940 | u8 fexist_(s8 * const filename) |
1941 | { |
1941 | { |
1942 | u8 exist = 0; |
1942 | u8 exist = 0; |
1943 | File_t *file = 0; |
1943 | File_t *file = 0; |
1944 | file = LockFilePointer(); |
1944 | file = LockFilePointer(); |
1945 | exist = FileExist(filename, ATTR_NONE, ATTR_SUBDIRECTORY|ATTR_VOLUMELABEL, file); |
1945 | exist = FileExist(filename, ATTR_NONE, ATTR_SUBDIRECTORY|ATTR_VOLUMELABEL, file); |
1946 | UnlockFilePointer(file); |
1946 | UnlockFilePointer(file); |
1947 | return(exist); |
1947 | return(exist); |
1948 | } |
1948 | } |
1949 | 1949 | ||
1950 | /****************************************************************************************************************************************/ |
1950 | /****************************************************************************************************************************************/ |
1951 | /* Function: feof_(File_t *File); */ |
1951 | /* Function: feof_(File_t *File); */ |
1952 | /* */ |
1952 | /* */ |
1953 | /* Description: This function checks wether the end of the file has been reached. */ |
1953 | /* Description: This function checks wether the end of the file has been reached. */ |
1954 | /* */ |
1954 | /* */ |
1955 | /* Returnvalue: 0 if the end of the file was not reached otherwise 1. */ |
1955 | /* Returnvalue: 0 if the end of the file was not reached otherwise 1. */ |
1956 | /****************************************************************************************************************************************/ |
1956 | /****************************************************************************************************************************************/ |
1957 | u8 feof_(File_t *file) |
1957 | u8 feof_(File_t *file) |
1958 | { |
1958 | { |
1959 | if(((file->Position)+1) < (file->Size)) |
1959 | if(((file->Position)+1) < (file->Size)) |
1960 | { |
1960 | { |
1961 | return(0); |
1961 | return(0); |
1962 | } |
1962 | } |
1963 | else |
1963 | else |
1964 | { |
1964 | { |
1965 | return(1); |
1965 | return(1); |
1966 | } |
1966 | } |
1967 | } |
1967 | } |
1968 | 1968 | ||
1969 | /****************************************************************************************************************************************************/ |
1969 | /****************************************************************************************************************************************************/ |
1970 | /* Function: s8* FAT16_GetVolumeLabel(void) */ |
1970 | /* Function: s8* FAT16_GetVolumeLabel(void) */ |
1971 | /* */ |
1971 | /* */ |
1972 | /* Description: This function returns the volume label */ |
1972 | /* Description: This function returns the volume label */ |
1973 | /* */ |
1973 | /* */ |
1974 | /* Returnvalue: This function returns the pointer to the volume label or NULL if not found. */ |
1974 | /* Returnvalue: This function returns the pointer to the volume label or NULL if not found. */ |
1975 | /****************************************************************************************************************************************************/ |
1975 | /****************************************************************************************************************************************************/ |
1976 | s8* FAT16_GetVolumeLabel(void) |
1976 | s8* FAT16_GetVolumeLabel(void) |
1977 | { |
1977 | { |
1978 | s8 *pVolumeLabel = NULL; |
1978 | s8 *pVolumeLabel = NULL; |
1979 | u32 dir_sector, max_dir_sector, curr_sector; |
1979 | u32 dir_sector, max_dir_sector, curr_sector; |
1980 | u16 dir_entry = 0; |
1980 | u16 dir_entry = 0; |
1981 | u8 i = 0; |
1981 | u8 i = 0; |
1982 | 1982 | ||
1983 | DirEntry_t * dir; |
1983 | DirEntry_t * dir; |
1984 | File_t *file = NULL; |
1984 | File_t *file = NULL; |
1985 | 1985 | ||
1986 | // if Partition is not valud return NULL |
1986 | // if Partition is not valud return NULL |
1987 | if(!Partition.IsValid) return(pVolumeLabel); |
1987 | if(!Partition.IsValid) return(pVolumeLabel); |
1988 | // if Volume label was read before return it |
1988 | // if Volume label was read before return it |
1989 | if(Partition.VolumeLabel[0]!= '\0') return (Partition.VolumeLabel); |
1989 | if(Partition.VolumeLabel[0]!= '\0') return (Partition.VolumeLabel); |
1990 | // try to catch a file pointer |
1990 | // try to catch a file pointer |
1991 | file = LockFilePointer(); |
1991 | file = LockFilePointer(); |
1992 | if(file == NULL) return(pVolumeLabel); |
1992 | if(file == NULL) return(pVolumeLabel); |
1993 | // search dir entries direct within the root directory area |
1993 | // search dir entries direct within the root directory area |
1994 | file->DirectorySector = 0; |
1994 | file->DirectorySector = 0; |
1995 | max_dir_sector = (Partition.MaxRootEntries * DIRENTRY_SIZE)/BYTES_PER_SECTOR; |
1995 | max_dir_sector = (Partition.MaxRootEntries * DIRENTRY_SIZE)/BYTES_PER_SECTOR; |
1996 | file->FirstSectorOfFirstCluster = Partition.FirstRootDirSector; |
1996 | file->FirstSectorOfFirstCluster = Partition.FirstRootDirSector; |
1997 | 1997 | ||
1998 | // update current file data area position to start of first cluster |
1998 | // update current file data area position to start of first cluster |
1999 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
1999 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
2000 | file->SectorOfCurrCluster = 0; |
2000 | file->SectorOfCurrCluster = 0; |
2001 | file->ByteOfCurrSector = 0; |
2001 | file->ByteOfCurrSector = 0; |
2002 | 2002 | ||
2003 | dir_sector = 0; // reset sector counter within a new cluster |
2003 | dir_sector = 0; // reset sector counter within a new cluster |
2004 | do // loop over all sectors of the root directory |
2004 | do // loop over all sectors of the root directory |
2005 | { |
2005 | { |
2006 | curr_sector = file->FirstSectorOfCurrCluster + dir_sector; // calculate sector number |
2006 | curr_sector = file->FirstSectorOfCurrCluster + dir_sector; // calculate sector number |
2007 | file->SectorInCache = curr_sector; // upate the sector number of file cache. |
2007 | file->SectorInCache = curr_sector; // upate the sector number of file cache. |
2008 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read the sector |
2008 | if(SD_SUCCESS != SDC_GetSector(file->SectorInCache, file->Cache))// read the sector |
2009 | { |
2009 | { |
2010 | Fat16_Deinit(); |
2010 | Fat16_Deinit(); |
2011 | return(pVolumeLabel); |
2011 | return(pVolumeLabel); |
2012 | } |
2012 | } |
2013 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
2013 | dir = (DirEntry_t *)file->Cache; // set pointer to directory |
2014 | // search all directory entries within that sector |
2014 | // search all directory entries within that sector |
2015 | for(dir_entry = 0; dir_entry < DIRENTRIES_PER_SECTOR; dir_entry++) |
2015 | for(dir_entry = 0; dir_entry < DIRENTRIES_PER_SECTOR; dir_entry++) |
2016 | { // check for existing dir entry |
2016 | { // check for existing dir entry |
2017 | switch((u8)dir[dir_entry].Name[0]) |
2017 | switch((u8)dir[dir_entry].Name[0]) |
2018 | { |
2018 | { |
2019 | case SLOT_EMPTY: |
2019 | case SLOT_EMPTY: |
2020 | case SLOT_DELETED: |
2020 | case SLOT_DELETED: |
2021 | // ignore empty or deleted dir entries |
2021 | // ignore empty or deleted dir entries |
2022 | break; |
2022 | break; |
2023 | default: |
2023 | default: |
2024 | // check attributes for volume label |
2024 | // check attributes for volume label |
2025 | if ((dir[dir_entry].Attribute & ATTR_VOLUMELABEL) != ATTR_VOLUMELABEL) break; // attribute must match |
2025 | if ((dir[dir_entry].Attribute & ATTR_VOLUMELABEL) != ATTR_VOLUMELABEL) break; // attribute must match |
2026 | // (first 11 characters include 8 chars of basename and 3 chars extension.) |
2026 | // (first 11 characters include 8 chars of basename and 3 chars extension.) |
2027 | for(i = 0; i<11;i++) Partition.VolumeLabel[i] = dir[dir_entry].Name[i]; |
2027 | for(i = 0; i<11;i++) Partition.VolumeLabel[i] = dir[dir_entry].Name[i]; |
2028 | Partition.VolumeLabel[11] = '\0'; // terminate string |
2028 | Partition.VolumeLabel[11] = '\0'; // terminate string |
2029 | file->Attribute = dir[dir_entry].Attribute; // store attribute of found dir entry |
2029 | file->Attribute = dir[dir_entry].Attribute; // store attribute of found dir entry |
2030 | file->FirstSectorOfFirstCluster = Fat16ClusterToSector(dir[dir_entry].StartCluster); // set sector of first data cluster |
2030 | file->FirstSectorOfFirstCluster = Fat16ClusterToSector(dir[dir_entry].StartCluster); // set sector of first data cluster |
2031 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
2031 | file->FirstSectorOfCurrCluster = file->FirstSectorOfFirstCluster; |
2032 | file->SectorOfCurrCluster = 0 file->ByteOfCurrSector = 0; |
2032 | file->SectorOfCurrCluster = 0; |
- | 2033 | file->ByteOfCurrSector = 0; |
|
2033 | file->DirectorySector = curr_sector; // current sector |
2034 | file->DirectorySector = curr_sector; // current sector |
2034 | file->DirectoryIndex = dir_entry; // current direntry in current sector |
2035 | file->DirectoryIndex = dir_entry; // current direntry in current sector |
2035 | file->Size = dir[dir_entry].Size; |
2036 | file->Size = dir[dir_entry].Size; |
2036 | dir_entry = DIRENTRIES_PER_SECTOR; // stop for-loop |
2037 | dir_entry = DIRENTRIES_PER_SECTOR; // stop for-loop |
2037 | pVolumeLabel = Partition.VolumeLabel; |
2038 | pVolumeLabel = Partition.VolumeLabel; |
2038 | } // end of first byte of name check |
2039 | } // end of first byte of name check |
2039 | } |
2040 | } |
2040 | dir_sector++; // search next sector |
2041 | dir_sector++; // search next sector |
2041 | // stop if we reached the end of the cluster or the end of the root dir |
2042 | // stop if we reached the end of the cluster or the end of the root dir |
2042 | }while((dir_sector < max_dir_sector) && (!pVolumeLabel)); |
2043 | }while((dir_sector < max_dir_sector) && (!pVolumeLabel)); |
2043 | 2044 | ||
2044 | UnlockFilePointer(file); |
2045 | UnlockFilePointer(file); |
2045 | return(pVolumeLabel); |
2046 | return(pVolumeLabel); |
2046 | } |
2047 | } |
2047 | 2048 |