rust-raspberrypi-OS-tutorials/0D_readfile/fat.c

/*
 * Copyright (C) 2018 bzt (bztsrc@github)
 *
 * Permission is hereby granted, free of charge, to any person
 * obtaining a copy of this software and associated documentation
 * files (the "Software"), to deal in the Software without
 * restriction, including without limitation the rights to use, copy,
 * modify, merge, publish, distribute, sublicense, and/or sell copies
 * of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be
 * included in all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
 * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
 * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
 * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
 * DEALINGS IN THE SOFTWARE.
 *
 */

#include "sd.h"
#include "uart.h"

// get the end of bss segment from linker
extern unsigned char _end;
unsigned int partitionlba;

// the BIOS Parameter Block (in Volume Boot Record)
typedef struct {
    char            jmp[3];
    char            oem[8];
    unsigned short  bps;
    unsigned char   spc;
    unsigned short  rsc;
    unsigned char   nf;
    unsigned short  nr;
    unsigned short  ts16;
    unsigned char   media;
    unsigned short  spf16;
    unsigned short  spt;
    unsigned short  nh;
    unsigned int    hs;
    unsigned int    ts32;
    unsigned int    spf32;
    unsigned int    flg;
    unsigned int    rc;
    char            vol[6];
    char            fst[8];
    char            dmy[20];
    char            fst2[8];
} __attribute__((packed)) bpb_t;

// directory entry structure
typedef struct {
    char            name[8];
    char            ext[3];
    char            attr[9];
    unsigned short  ch;
    unsigned int    attr2;
    unsigned short  cl;
    unsigned int    size;
} __attribute__((packed)) fatdir_t;

/**
 * Get the starting LBA address of the first partition
 * so that we know where or FAT file system starts, and
 * read that volume's BIOS Parameter Block
 */
int fat_getpartition()
{
    unsigned char *mbr=&_end;
    bpb_t *bpb=(bpb_t*)&_end;
    // read the partitioning table
    if(sd_readblock(0,&_end,1)) {
        // check magic
        if(mbr[510]!=0x55 || mbr[511]!=0xAA) {
            uart_puts("ERROR: Bad magic in MBR\n");
            return 0;
        }
        // check partition type
        if(mbr[0x1C2]!=0xE/*FAT16 LBA*/ && mbr[0x1C2]!=0xC/*FAT32 LBA*/) {
            uart_puts("ERROR: Wrong partition type\n");
            return 0;
        }
        partitionlba=*((unsigned int*)((unsigned long)&_end+0x1C6));
        // read the boot record
        if(!sd_readblock(partitionlba,&_end,1)) {
            uart_puts("ERROR: Unable to read boot record\n");
            return 0;
        }
        // check file system type. We don't use cluster numbers for that, but magic bytes
        if( !(bpb->fst[0]=='F' && bpb->fst[1]=='A' && bpb->fst[2]=='T') &&
            !(bpb->fst2[0]=='F' && bpb->fst2[1]=='A' && bpb->fst2[2]=='T')) {
            uart_puts("ERROR: Unknown file system type\n");
            return 0;
        }
        return 1;
    }
    return 0;
}

/**
 * Find a file in root directory entries
 */
unsigned int fat_getcluster(char *fn)
{
    bpb_t *bpb=(bpb_t*)&_end;
    fatdir_t *dir=(fatdir_t*)(&_end+512);
    unsigned int root_sec, s;
    // find the root directory's LBA
    root_sec=((bpb->spf16?bpb->spf16:bpb->spf32)*bpb->nf)+bpb->rsc;
    //WARNING gcc generates bad code for bpb->nr, causing unaligned exception
    s=*((unsigned int*)&bpb->nf);
    s>>=8;
    s&=0xFFFF;
    s<<=5;
    // now s=bpb->nr*sizeof(fatdir_t));
    if(bpb->spf16==0) {
        // adjust for FAT32
        root_sec+=(bpb->rc-2)*bpb->spc;
    }
    // add partition LBA
    root_sec+=partitionlba;
    // load the root directory
    if(sd_readblock(root_sec,(unsigned char*)dir,s/512+1)) {
        // iterate on each entry and check if it's the one we're looking for
        for(;dir->name[0]!=0;dir++) {
            // is it a valid entry?
            if(dir->name[0]==0xE5 || dir->attr[0]==0xF) continue;
            // filename match?
            if(!__builtin_memcmp(dir->name,fn,11)) {
                uart_puts("FAT File ");
                uart_puts(fn);
                uart_puts(" starts at cluster: ");
                uart_hex(((unsigned int)dir->ch)<<16|dir->cl);
                uart_puts("\n");
                // if so, return starting cluster
                return ((unsigned int)dir->ch)<<16|dir->cl;
            }
        }
        uart_puts("ERROR: file not found\n");
    } else {
        uart_puts("ERROR: Unable to load root directory\n");
    }
    return 0;
}

/**
 * Read a file into memory
 */
char *fat_readfile(unsigned int cluster)
{
    // BIOS Parameter Block
    bpb_t *bpb=(bpb_t*)&_end;
    // File allocation tables. We choose between FAT16 and FAT32 dynamically
    unsigned int *fat32=(unsigned int*)(&_end+bpb->rsc*512);
    unsigned short *fat16=(unsigned short*)fat32;
    // Data pointers
    unsigned int data_sec, s;
    unsigned char *data, *ptr;
    // find the LBA of the first data sector
    data_sec=((bpb->spf16?bpb->spf16:bpb->spf32)*bpb->nf)+bpb->rsc;
    //WARNING gcc generates bad code for bpb->nr, causing unaligned exception
    s=*((unsigned int*)&bpb->nf);
    s>>=8;
    s&=0xFFFF;
    s<<=5;
    if(bpb->spf16>0) {
        // adjust for FAT16
        data_sec+=(s+511)>>9;
    }
    // add partition LBA
    data_sec+=partitionlba;
    // dump important properties
    uart_puts("FAT Bytes per Sector: ");
    uart_hex(bpb->bps);
    uart_puts("\nFAT Sectors per Cluster: ");
    uart_hex(bpb->spc);
    uart_puts("\nFAT Number of FAT: ");
    uart_hex(bpb->nf);
    uart_puts("\nFAT Sectors per FAT: ");
    uart_hex((bpb->spf16?bpb->spf16:bpb->spf32));
    uart_puts("\nFAT Reserved Sectors Count: ");
    uart_hex(bpb->rsc);
    uart_puts("\nFAT First data sector: ");
    uart_hex(data_sec);
    uart_puts("\n");
    // load FAT table
    s=sd_readblock(partitionlba+1,(unsigned char*)&_end+512,(bpb->spf16?bpb->spf16:bpb->spf32)+bpb->rsc);
    // end of FAT in memory
    data=ptr=&_end+512+s;
    // iterate on cluster chain
    while(cluster>1 && cluster<0xFFF8) {
        // load all sectors in a cluster
        sd_readblock((cluster-2)*bpb->spc+data_sec,ptr,bpb->spc);
        // move pointer, sector per cluster * bytes per sector
        ptr+=bpb->spc*bpb->bps;
        // get the next cluster in chain
        cluster=bpb->spf16>0?fat16[cluster]:fat32[cluster];
    }
    return (char*)data;
}
Initial commit 2018-01-04 17:24:49 +00:00			`/*`
			`* Copyright (C) 2018 bzt (bztsrc@github)`
			`*`
			`* Permission is hereby granted, free of charge, to any person`
			`* obtaining a copy of this software and associated documentation`
			`* files (the "Software"), to deal in the Software without`
			`* restriction, including without limitation the rights to use, copy,`
			`* modify, merge, publish, distribute, sublicense, and/or sell copies`
			`* of the Software, and to permit persons to whom the Software is`
			`* furnished to do so, subject to the following conditions:`
			`*`
			`* The above copyright notice and this permission notice shall be`
			`* included in all copies or substantial portions of the Software.`
			`*`
			`* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,`
			`* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF`
			`* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND`
			`* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT`
			`* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,`
			`* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,`
			`* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER`
			`* DEALINGS IN THE SOFTWARE.`
			`*`
			`*/`

			`#include "sd.h"`
			`#include "uart.h"`

			`// get the end of bss segment from linker`
			`extern unsigned char _end;`
			`unsigned int partitionlba;`

			`// the BIOS Parameter Block (in Volume Boot Record)`
			`typedef struct {`
			`char jmp[3];`
			`char oem[8];`
			`unsigned short bps;`
			`unsigned char spc;`
			`unsigned short rsc;`
			`unsigned char nf;`
			`unsigned short nr;`
			`unsigned short ts16;`
			`unsigned char media;`
			`unsigned short spf16;`
			`unsigned short spt;`
			`unsigned short nh;`
			`unsigned int hs;`
			`unsigned int ts32;`
			`unsigned int spf32;`
			`unsigned int flg;`
			`unsigned int rc;`
			`char vol[6];`
			`char fst[8];`
			`char dmy[20];`
			`char fst2[8];`
			`} __attribute__((packed)) bpb_t;`

			`// directory entry structure`
			`typedef struct {`
			`char name[8];`
			`char ext[3];`
			`char attr[9];`
			`unsigned short ch;`
			`unsigned int attr2;`
			`unsigned short cl;`
			`unsigned int size;`
			`} __attribute__((packed)) fatdir_t;`

			`/**`
			`* Get the starting LBA address of the first partition`
			`* so that we know where or FAT file system starts, and`
			`* read that volume's BIOS Parameter Block`
			`*/`
			`int fat_getpartition()`
			`{`
			`unsigned char *mbr=&_end;`
			`bpb_t bpb=(bpb_t)&_end;`
			`// read the partitioning table`
			`if(sd_readblock(0,&_end,1)) {`
			`// check magic`
			`if(mbr[510]!=0x55 \|\| mbr[511]!=0xAA) {`
			`uart_puts("ERROR: Bad magic in MBR\n");`
			`return 0;`
			`}`
			`// check partition type`
			`if(mbr[0x1C2]!=0xE/FAT16 LBA/ && mbr[0x1C2]!=0xC/FAT32 LBA/) {`
			`uart_puts("ERROR: Wrong partition type\n");`
			`return 0;`
			`}`
			`partitionlba=((unsigned int)((unsigned long)&_end+0x1C6));`
			`// read the boot record`
			`if(!sd_readblock(partitionlba,&_end,1)) {`
			`uart_puts("ERROR: Unable to read boot record\n");`
			`return 0;`
			`}`
			`// check file system type. We don't use cluster numbers for that, but magic bytes`
			`if( !(bpb->fst[0]=='F' && bpb->fst[1]=='A' && bpb->fst[2]=='T') &&`
			`!(bpb->fst2[0]=='F' && bpb->fst2[1]=='A' && bpb->fst2[2]=='T')) {`
			`uart_puts("ERROR: Unknown file system type\n");`
			`return 0;`
			`}`
			`return 1;`
			`}`
			`return 0;`
			`}`

			`/**`
			`* Find a file in root directory entries`
			`*/`
			`unsigned int fat_getcluster(char *fn)`
			`{`
			`bpb_t bpb=(bpb_t)&_end;`
			`fatdir_t dir=(fatdir_t)(&_end+512);`
			`unsigned int root_sec, s;`
			`// find the root directory's LBA`
			`root_sec=((bpb->spf16?bpb->spf16:bpb->spf32)*bpb->nf)+bpb->rsc;`
			`//WARNING gcc generates bad code for bpb->nr, causing unaligned exception`
			`s=((unsigned int)&bpb->nf);`
			`s>>=8;`
			`s&=0xFFFF;`
			`s<<=5;`
			`// now s=bpb->nr*sizeof(fatdir_t));`
			`if(bpb->spf16==0) {`
			`// adjust for FAT32`
			`root_sec+=(bpb->rc-2)*bpb->spc;`
			`}`
			`// add partition LBA`
			`root_sec+=partitionlba;`
			`// load the root directory`
			`if(sd_readblock(root_sec,(unsigned char*)dir,s/512+1)) {`
			`// iterate on each entry and check if it's the one we're looking for`
			`for(;dir->name[0]!=0;dir++) {`
			`// is it a valid entry?`
			`if(dir->name[0]==0xE5 \|\| dir->attr[0]==0xF) continue;`
			`// filename match?`
			`if(!__builtin_memcmp(dir->name,fn,11)) {`
			`uart_puts("FAT File ");`
			`uart_puts(fn);`
			`uart_puts(" starts at cluster: ");`
			`uart_hex(((unsigned int)dir->ch)<<16\|dir->cl);`
			`uart_puts("\n");`
			`// if so, return starting cluster`
			`return ((unsigned int)dir->ch)<<16\|dir->cl;`
			`}`
			`}`
			`uart_puts("ERROR: file not found\n");`
			`} else {`
			`uart_puts("ERROR: Unable to load root directory\n");`
			`}`
			`return 0;`
			`}`

			`/**`
			`* Read a file into memory`
			`*/`
			`char *fat_readfile(unsigned int cluster)`
			`{`
			`// BIOS Parameter Block`
			`bpb_t bpb=(bpb_t)&_end;`
			`// File allocation tables. We choose between FAT16 and FAT32 dynamically`
			`unsigned int fat32=(unsigned int)(&_end+bpb->rsc*512);`
			`unsigned short fat16=(unsigned short)fat32;`
			`// Data pointers`
			`unsigned int data_sec, s;`
			`unsigned char data, ptr;`
			`// find the LBA of the first data sector`
			`data_sec=((bpb->spf16?bpb->spf16:bpb->spf32)*bpb->nf)+bpb->rsc;`
			`//WARNING gcc generates bad code for bpb->nr, causing unaligned exception`
			`s=((unsigned int)&bpb->nf);`
			`s>>=8;`
			`s&=0xFFFF;`
			`s<<=5;`
			`if(bpb->spf16>0) {`
			`// adjust for FAT16`
			`data_sec+=(s+511)>>9;`
			`}`
			`// add partition LBA`
			`data_sec+=partitionlba;`
			`// dump important properties`
			`uart_puts("FAT Bytes per Sector: ");`
			`uart_hex(bpb->bps);`
			`uart_puts("\nFAT Sectors per Cluster: ");`
			`uart_hex(bpb->spc);`
			`uart_puts("\nFAT Number of FAT: ");`
			`uart_hex(bpb->nf);`
			`uart_puts("\nFAT Sectors per FAT: ");`
			`uart_hex((bpb->spf16?bpb->spf16:bpb->spf32));`
			`uart_puts("\nFAT Reserved Sectors Count: ");`
			`uart_hex(bpb->rsc);`
			`uart_puts("\nFAT First data sector: ");`
			`uart_hex(data_sec);`
			`uart_puts("\n");`
			`// load FAT table`
			`s=sd_readblock(partitionlba+1,(unsigned char*)&_end+512,(bpb->spf16?bpb->spf16:bpb->spf32)+bpb->rsc);`
			`// end of FAT in memory`
			`data=ptr=&_end+512+s;`
			`// iterate on cluster chain`
			`while(cluster>1 && cluster<0xFFF8) {`
			`// load all sectors in a cluster`
			`sd_readblock((cluster-2)*bpb->spc+data_sec,ptr,bpb->spc);`
			`// move pointer, sector per cluster * bytes per sector`
			`ptr+=bpb->spc*bpb->bps;`
			`// get the next cluster in chain`
			`cluster=bpb->spf16>0?fat16[cluster]:fat32[cluster];`
			`}`
			`return (char*)data;`
			`}`