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[/] [plasma/] [trunk/] [kernel/] [filesys.c] - Rev 425
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/*-------------------------------------------------------------------- * TITLE: Plasma File System * AUTHOR: Steve Rhoads (rhoadss@yahoo.com) * DATE CREATED: 4/26/07 * FILENAME: filesys.c * PROJECT: Plasma CPU core * COPYRIGHT: Software placed into the public domain by the author. * Software 'as is' without warranty. Author liable for nothing. * DESCRIPTION: * Plasma File System. Supports RAM, flash, and disk file systems. * Possible call tree: * OS_fclose() * FileFindRecursive() //find the existing file * FileOpen() //open root file system * FileFind() //find the next level of directory * OS_fread() //read the directory file * BlockRead() //read blocks of directory * MediaBlockRead() //low level read * FileOpen() //open next directory * OS_fwrite() //write file entry into directory * BlockRead() //flush changes to directory *--------------------------------------------------------------------*/ #include "rtos.h" #define FLASH_SIZE (1024*1024*16) #define FLASH_SECTOR_SIZE (1024*128) #define FLASH_BLOCK_SIZE 512 #define FLASH_LN2_SIZE 9 //2^FLASH_LN2_SIZE == FLASH_BLOCK_SIZE #define FLASH_OFFSET FLASH_SECTOR_SIZE //offset to start of flash file system #define FLASH_BLOCKS FLASH_SIZE/FLASH_BLOCK_SIZE #define FLASH_START (FLASH_OFFSET+FLASH_BLOCKS/8*2)/FLASH_BLOCK_SIZE #define BLOCK_SIZE 512 #define FILE_NAME_SIZE 40 #define FULL_NAME_SIZE 128 #define BLOCK_MALLOC 0x0 #define BLOCK_EOF 0xffffffff typedef enum { FILE_MEDIA_RAM, FILE_MEDIA_FLASH, FILE_MEDIA_DISK } OS_MediaType_e; typedef struct OS_FileEntry_s { char name[FILE_NAME_SIZE]; uint32 blockIndex; //first block of file uint32 modifiedTime; uint32 length; uint8 isDirectory; uint8 attributes; uint8 valid; uint8 mediaType; uint16 blockSize; //Normally BLOCK_SIZE uint8 pad1, pad2; } OS_FileEntry_t; typedef struct OS_Block_s { uint32 next; uint8 data[BLOCK_SIZE - sizeof(uint32)]; } OS_Block_t; struct OS_FILE_s { OS_FileEntry_t fileEntry; //written to directory upon OS_fclose() uint8 fileModified; uint8 blockModified; uint8 pad1, pad2; uint32 blockIndex; //index of block uint32 blockOffset; //byte offset into block uint32 fileOffset; //byte offset into file char fullname[FULL_NAME_SIZE]; //includes full path OS_Block_t *block; OS_Block_t blockLocal; //local copy for flash or disk file system }; static OS_FileEntry_t rootFileEntry; static OS_Mutex_t *mutexFilesys; // Public prototypes #ifndef _FILESYS_ typedef struct OS_FILE_s OS_FILE; #endif OS_FILE *OS_fopen(char *name, char *mode); void OS_fclose(OS_FILE *file); int OS_fread(void *buffer, int size, int count, OS_FILE *file); int OS_fwrite(void *buffer, int size, int count, OS_FILE *file); int OS_fseek(OS_FILE *file, int offset, int mode); int OS_fmkdir(char *name); int OS_fdir(OS_FILE *dir, char name[64]); void OS_fdelete(char *name); /***************** Media Functions Start ***********************/ #ifndef EXCLUDE_FLASH static unsigned char FlashBlockEmpty[FLASH_BLOCKS/8]; static unsigned char FlashBlockUsed[FLASH_BLOCKS/8]; static int FlashBlock; //Free unused flash blocks static int MediaBlockCleanup(void) { int i, sector, block, count=0; unsigned char *buf; printf("FlashCleanup\n"); buf = (unsigned char*)malloc(FLASH_SECTOR_SIZE); if(buf == NULL) return 0; FlashLock(); for(sector = FLASH_OFFSET / FLASH_SECTOR_SIZE; sector < FLASH_SIZE / FLASH_SECTOR_SIZE; ++sector) { printf("."); FlashRead((uint16*)buf, FLASH_SECTOR_SIZE*sector, FLASH_SECTOR_SIZE); if(sector == FLASH_OFFSET / FLASH_SECTOR_SIZE) { for(i = FLASH_START/8; i < FLASH_BLOCKS/8; ++i) FlashBlockEmpty[i] |= ~FlashBlockUsed[i]; memset(FlashBlockEmpty, 0, FLASH_START/8); memcpy(buf, FlashBlockEmpty, sizeof(FlashBlockEmpty)); memset(FlashBlockUsed, 0xff, sizeof(FlashBlockUsed)); memset(buf+sizeof(FlashBlockEmpty), 0xff, sizeof(FlashBlockUsed)); } //Erase empty blocks for(block = 0; block < FLASH_SECTOR_SIZE / FLASH_BLOCK_SIZE; ++block) { i = sector * FLASH_SECTOR_SIZE / FLASH_BLOCK_SIZE + block; if(FlashBlockEmpty[i >> 3] & (1 << (i & 7))) { memset(buf + FLASH_BLOCK_SIZE*block, 0xff, FLASH_BLOCK_SIZE); ++count; } } FlashErase(FLASH_SECTOR_SIZE * sector); FlashWrite((uint16*)buf, FLASH_SECTOR_SIZE * sector, FLASH_SECTOR_SIZE); } FlashBlock = FLASH_START; FlashUnlock(); free(buf); return count; } int MediaBlockInit(void) { FlashRead((uint16*)FlashBlockEmpty, FLASH_OFFSET, sizeof(FlashBlockEmpty)); FlashRead((uint16*)FlashBlockUsed, FLASH_OFFSET+sizeof(FlashBlockEmpty), sizeof(FlashBlockUsed)); FlashBlock = FLASH_START; memset(FlashBlockEmpty, 0, FLASH_START/8); //space for FlashBlockEmpty/Used return FlashBlockEmpty[FlashBlock >> 3] & (1 << (FlashBlock & 7)); } #endif //!EXCLUDE_FLASH static uint32 MediaBlockMalloc(OS_FILE *file) { int i, j; (void)i; (void)j; if(file->fileEntry.mediaType == FILE_MEDIA_RAM) return (uint32)malloc(file->fileEntry.blockSize); #ifndef EXCLUDE_FLASH //Find empty flash block for(i = FlashBlock; i < FLASH_BLOCKS; ++i) { if(FlashBlockEmpty[i >> 3] & (1 << (i & 7))) { FlashBlock = i + 1; FlashBlockEmpty[i >> 3] &= ~(1 << (i & 7)); j = i >> 3; j &= ~1; FlashWrite((uint16*)(FlashBlockEmpty + j), FLASH_OFFSET + j, 2); return i; } } i = MediaBlockCleanup(); if(i == 0) return 0; FlashBlock = FLASH_START; return MediaBlockMalloc(file); #else return 0; #endif } static void MediaBlockFree(OS_FILE *file, uint32 blockIndex) { if(file->fileEntry.mediaType == FILE_MEDIA_RAM) free((void*)blockIndex); #ifndef EXCLUDE_FLASH else { int i=blockIndex, j; FlashBlockUsed[i >> 3] &= ~(1 << (i & 7)); j = i >> 3; j &= ~1; FlashWrite((uint16*)(FlashBlockUsed + j), FLASH_OFFSET + sizeof(FlashBlockEmpty) + j, 2); } #endif } static void MediaBlockRead(OS_FILE *file, uint32 blockIndex) { if(file->fileEntry.mediaType == FILE_MEDIA_RAM) file->block = (OS_Block_t*)blockIndex; #ifndef EXCLUDE_FLASH else { file->block = &file->blockLocal; FlashRead((uint16*)file->block, blockIndex << FLASH_LN2_SIZE, FLASH_BLOCK_SIZE); } #endif } static void MediaBlockWrite(OS_FILE *file, uint32 blockIndex) { (void)file; (void)blockIndex; #ifndef EXCLUDE_FLASH if(file->fileEntry.mediaType != FILE_MEDIA_RAM) FlashWrite((uint16*)file->block, blockIndex << FLASH_LN2_SIZE, FLASH_BLOCK_SIZE); #endif } /***************** Media Functions End *************************/ // Get the next block and write the old block if it was modified static void BlockRead(OS_FILE *file, uint32 blockIndex) { uint32 blockIndexSave = blockIndex; OS_MutexPend(mutexFilesys); if(blockIndex == BLOCK_MALLOC) { // Get a new block blockIndex = MediaBlockMalloc(file); if(blockIndex == 0) blockIndex = BLOCK_EOF; if(file->block) { // Set next pointer in previous block file->block->next = blockIndex; file->blockModified = 1; } } if(file->block && file->blockModified) { // Write block back to flash or disk MediaBlockWrite(file, file->blockIndex); file->blockModified = 0; } if(blockIndex == BLOCK_EOF) { OS_MutexPost(mutexFilesys); return; } file->blockIndex = blockIndex; file->blockOffset = 0; MediaBlockRead(file, blockIndex); if(blockIndexSave == BLOCK_MALLOC) { memset(file->block, 0xff, file->fileEntry.blockSize); file->blockModified = 1; } OS_MutexPost(mutexFilesys); } int OS_fread(void *buffer, int size, int count, OS_FILE *file) { int items, bytes; uint8 *buf = (uint8*)buffer; for(items = 0; items < count; ++items) { for(bytes = 0; bytes < size; ++bytes) { if(file->fileOffset >= file->fileEntry.length && file->fileEntry.isDirectory == 0) return items; if(file->blockOffset >= file->fileEntry.blockSize - sizeof(uint32)) { if(file->block->next == BLOCK_EOF) return items; BlockRead(file, file->block->next); } *buf++ = file->block->data[file->blockOffset++]; ++file->fileOffset; } } return items; } int OS_fwrite(void *buffer, int size, int count, OS_FILE *file) { int items, bytes; uint8 *buf = (uint8*)buffer; OS_MutexPend(mutexFilesys); file->blockModified = 1; for(items = 0; items < count; ++items) { for(bytes = 0; bytes < size; ++bytes) { if(file->blockOffset >= file->fileEntry.blockSize - sizeof(uint32)) { if(file->block->next == BLOCK_EOF) file->block->next = BLOCK_MALLOC; BlockRead(file, file->block->next); if(file->blockIndex == BLOCK_EOF) { count = 0; --items; break; } file->blockModified = 1; } file->block->data[file->blockOffset++] = *buf++; ++file->fileOffset; } } file->blockModified = 1; file->fileModified = 1; if(file->fileOffset > file->fileEntry.length) file->fileEntry.length = file->fileOffset; OS_MutexPost(mutexFilesys); return items; } int OS_fseek(OS_FILE *file, int offset, int mode) { if(mode == 1) //SEEK_CUR offset += file->fileOffset; else if(mode == 2) //SEEK_END offset += file->fileEntry.length; file->fileOffset = offset; BlockRead(file, file->fileEntry.blockIndex); while(offset > (int)file->fileEntry.blockSize - (int)sizeof(uint32)) { BlockRead(file, file->block->next); offset -= file->fileEntry.blockSize - (int)sizeof(uint32); } file->blockOffset = offset; return 0; } static int FileOpen(OS_FILE *file, char *name, OS_FileEntry_t *fileEntry) { memset(file, 0, sizeof(OS_FILE)); if(fileEntry == NULL) { // Open root file memcpy(&file->fileEntry, &rootFileEntry, sizeof(OS_FileEntry_t)); } else if(fileEntry->valid == 1) { // Open existing file memcpy(&file->fileEntry, fileEntry, sizeof(OS_FileEntry_t)); } else { // Initialize new file file->fileModified = 1; file->blockModified = 1; memset(&file->fileEntry, 0, sizeof(OS_FileEntry_t)); file->fileEntry.isDirectory = 0; file->fileEntry.length = 0; strncpy(file->fileEntry.name, name, FILE_NAME_SIZE-1); file->fileEntry.blockIndex = 0; file->fileEntry.valid = 1; file->fileEntry.blockSize = fileEntry->blockSize; file->fileEntry.mediaType = fileEntry->mediaType; } BlockRead(file, file->fileEntry.blockIndex); //Get first block file->fileEntry.blockIndex = file->blockIndex; file->fileOffset = 0; if(file->blockIndex == BLOCK_EOF) return -1; return 0; } static int FileFind(OS_FILE *directory, char *name, OS_FileEntry_t *fileEntry) { int count, rc = -1; uint32 blockIndex, blockOffset; uint32 blockIndexEmpty=BLOCK_EOF, blockOffsetEmpty=0, fileOffsetEmpty=0; // Loop through files in directory for(;;) { blockIndex = directory->blockIndex; blockOffset = directory->blockOffset; count = OS_fread(fileEntry, sizeof(OS_FileEntry_t), 1, directory); if(count == 0 || fileEntry->blockIndex == BLOCK_EOF) break; if(fileEntry->valid == 1 && strcmp(fileEntry->name, name) == 0) { rc = 0; //Found the file in the directory break; } if(fileEntry->valid != 1 && blockIndexEmpty == BLOCK_EOF) { blockIndexEmpty = blockIndex; blockOffsetEmpty = blockOffset; fileOffsetEmpty = directory->fileOffset - sizeof(OS_FileEntry_t); } } if(rc == 0 || directory->fileEntry.mediaType == FILE_MEDIA_FLASH || blockIndexEmpty == BLOCK_EOF) { // Backup to start of fileEntry or last entry in directory if(directory->blockIndex != blockIndex) BlockRead(directory, blockIndex); directory->blockOffset = blockOffset; } else if(blockIndexEmpty != BLOCK_EOF) { // Backup to empty slot if(directory->blockIndex != blockIndexEmpty) BlockRead(directory, blockIndexEmpty); directory->blockOffset = blockOffsetEmpty; directory->fileOffset = fileOffsetEmpty; } return rc; } static int FileFindRecursive(OS_FILE *directory, char *name, OS_FileEntry_t *fileEntry, char *filename) { int rc, length; rc = FileOpen(directory, NULL, NULL); //Open root directory for(;;) { if(name[0] == '/') ++name; for(length = 0; length < FILE_NAME_SIZE-1; ++length) { if(name[length] == 0 || name[length] == '/') break; filename[length] = name[length]; } filename[length] = 0; rc = FileFind(directory, filename, fileEntry); //Find file if(rc) { // File not found fileEntry->mediaType = directory->fileEntry.mediaType; fileEntry->blockSize = directory->fileEntry.blockSize; fileEntry->valid = 0; if(strstr(name, "/") == NULL) return rc; else return -2; //can't find parent directory } name += length; if(name[0]) rc = FileOpen(directory, filename, fileEntry); //Open subdir else break; } return rc; } OS_FILE *OS_fopen(char *name, char *mode) { OS_FILE *file; OS_FileEntry_t fileEntry; OS_FILE dir; char filename[FILE_NAME_SIZE]; //Name without directories int rc; //printf("OS_fopen(%s)\n", name); if(rootFileEntry.blockIndex == 0) { // Mount file system mutexFilesys = OS_MutexCreate("filesys"); memset(&dir, 0, sizeof(OS_FILE)); dir.fileEntry.blockSize = BLOCK_SIZE; //dir.fileEntry.mediaType = FILE_MEDIA_FLASH; //Test flash BlockRead(&dir, BLOCK_MALLOC); strcpy(rootFileEntry.name, "/"); rootFileEntry.mediaType = dir.fileEntry.mediaType; rootFileEntry.blockIndex = dir.blockIndex; rootFileEntry.blockSize = dir.fileEntry.blockSize; rootFileEntry.isDirectory = 1; BlockRead(&dir, BLOCK_EOF); //Flush data #ifndef EXCLUDE_FLASH file = OS_fopen("flash", "w+"); if(file == NULL) return NULL; file->fileEntry.isDirectory = 1; file->fileEntry.mediaType = FILE_MEDIA_FLASH; file->fileEntry.blockSize = FLASH_BLOCK_SIZE; file->block = NULL; rc = MediaBlockInit(); if(rc == 1) BlockRead(file, BLOCK_MALLOC); else BlockRead(file, FLASH_START); file->fileEntry.blockIndex = file->blockIndex; OS_fclose(file); #endif } file = (OS_FILE*)malloc(sizeof(OS_FILE)); if(file == NULL) return NULL; OS_MutexPend(mutexFilesys); if(name[0] == 0 || strcmp(name, "/") == 0) { FileOpen(file, NULL, NULL); OS_MutexPost(mutexFilesys); return file; } if(mode[0] == 'w') { //Don't over write a directory fileEntry.isDirectory = 0; rc = FileFindRecursive(&dir, name, &fileEntry, filename); if(rc == 0) { if(fileEntry.isDirectory) { free(file); return NULL; } OS_fdelete(name); } } rc = FileFindRecursive(&dir, name, &fileEntry, filename); if(rc == -2 || (rc && mode[0] == 'r')) { free(file); OS_MutexPost(mutexFilesys); return NULL; } if(rc) fileEntry.valid = 0; rc = FileOpen(file, filename, &fileEntry); //Open file file->fullname[0] = 0; strncat(file->fullname, name, FULL_NAME_SIZE); OS_MutexPost(mutexFilesys); if(mode[0] == 'a') OS_fseek(file, 0, 2); //goto end of file return file; } void OS_fclose(OS_FILE *file) { OS_FileEntry_t fileEntry; OS_FILE dir; char filename[FILE_NAME_SIZE]; int rc; if(file->fileModified) { // Write file->fileEntry into parent directory OS_MutexPend(mutexFilesys); BlockRead(file, BLOCK_EOF); rc = FileFindRecursive(&dir, file->fullname, &fileEntry, filename); if(file->fileEntry.mediaType == FILE_MEDIA_FLASH && rc == 0) { // Invalidate old entry and add new entry at the end fileEntry.valid = 0; OS_fwrite(&fileEntry, sizeof(OS_FileEntry_t), 1, &dir); FileFind(&dir, "endoffile", &fileEntry); } OS_fwrite(&file->fileEntry, sizeof(OS_FileEntry_t), 1, &dir); BlockRead(&dir, BLOCK_EOF); //flush data OS_MutexPost(mutexFilesys); } free(file); } int OS_fmkdir(char *name) { OS_FILE *file; file = OS_fopen(name, "w+"); if(file == NULL) return -1; file->fileEntry.isDirectory = 1; OS_fclose(file); return 0; } void OS_fdelete(char *name) { OS_FILE dir, file; OS_FileEntry_t fileEntry; int rc; uint32 blockIndex; char filename[FILE_NAME_SIZE]; //Name without directories OS_MutexPend(mutexFilesys); rc = FileFindRecursive(&dir, name, &fileEntry, filename); if(rc == 0) { FileOpen(&file, NULL, &fileEntry); for(blockIndex = file.blockIndex; file.block->next != BLOCK_EOF; blockIndex = file.blockIndex) { BlockRead(&file, file.block->next); MediaBlockFree(&file, blockIndex); } MediaBlockFree(&file, blockIndex); fileEntry.valid = 0; OS_fwrite((char*)&fileEntry, sizeof(OS_FileEntry_t), 1, &dir); BlockRead(&dir, BLOCK_EOF); } OS_MutexPost(mutexFilesys); } int OS_flength(char *entry) { OS_FileEntry_t *entry2=(OS_FileEntry_t*)entry; return entry2->length; } int OS_fdir(OS_FILE *dir, char name[64]) { OS_FileEntry_t *fileEntry = (OS_FileEntry_t*)name; int count; for(;;) { count = OS_fread(fileEntry, sizeof(OS_FileEntry_t), 1, dir); if(count == 0 || fileEntry->blockIndex == BLOCK_EOF) return -1; if(fileEntry->valid == 1) break; } return 0; } /*************************************************/ #define TEST_FILES #ifdef TEST_FILES int DirRecursive(char *name) { OS_FileEntry_t fileEntry; OS_FILE *dir; char fullname[FULL_NAME_SIZE]; int rc; dir = OS_fopen(name, "r"); if(dir == NULL) return 0; for(;;) { rc = OS_fdir(dir, (char*)&fileEntry); if(rc) break; printf("%s %d\n", fileEntry.name, fileEntry.length); if(fileEntry.isDirectory) { if(strcmp(name, "/") == 0) sprintf(fullname, "/%s", fileEntry.name); else sprintf(fullname, "%s/%s", name, fileEntry.name); DirRecursive(fullname); } } OS_fclose(dir); return 0; } int OS_ftest(void) { OS_FILE *file; char *buf; int count; int i, j; buf = (char*)malloc(5000); if(buf == NULL) return -1; memset(buf, 0, 5000); for(count = 0; count < 4000; ++count) buf[count] = (char)('A' + (count % 26)); OS_fmkdir("dir"); OS_fmkdir("/dir/subdir"); file = OS_fopen("/dir/subdir/test.txt", "w"); if(file == NULL) return -1; count = OS_fwrite(buf, 1, 4000, file); OS_fclose(file); memset(buf, 0, 5000); file = OS_fopen("/dir/subdir/test.txt", "r"); if(file == NULL) return -1; count = OS_fread(buf, 1, 5000, file); OS_fclose(file); printf("(%s)\n", buf); DirRecursive("/"); for(i = 0; i < 5; ++i) { sprintf(buf, "/dir%d", i); OS_fmkdir(buf); for(j = 0; j < 5; ++j) { sprintf(buf, "/dir%d/file%d%d", i, i, j); file = OS_fopen(buf, "w"); if(file) { sprintf(buf, "i=%d j=%d", i, j); OS_fwrite(buf, 1, 8, file); OS_fclose(file); } } } OS_fdelete("/dir1/file12"); DirRecursive("/"); file = OS_fopen("/baddir/myfile.txt", "w"); if(file) printf("ERROR!\n"); for(i = 0; i < 5; ++i) { for(j = 0; j < 5; ++j) { sprintf(buf, "/dir%d/file%d%d", i, i, j); file = OS_fopen(buf, "r"); if(file) { count = OS_fread(buf, 1, 500, file); printf("i=%d j=%d count=%d (%s)\n", i, j, count, buf); OS_fclose(file); } } } OS_fdelete("/dir/subdir/test.txt"); OS_fdelete("/dir/subdir"); OS_fdelete("/dir"); for(i = 0; i < 5; ++i) { for(j = 0; j < 5; ++j) { sprintf(buf, "/dir%d/file%d%d", i, i, j); OS_fdelete(buf); } sprintf(buf, "/dir%d", i); OS_fdelete(buf); } DirRecursive("/"); free(buf); return 0; } #endif //TEST_FILES