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- // Bart's RAM File System (BRFS)
- /*
- Implementing in BDOS on PCB v3:
- - BDOS only uses ~340 pages of 256 bytes -> 90000 bytes
- - SPI flash has 65536 pages of 256 bytes -> 16777216 bytes
- - With current verilog implementation, only 32MiB of RAM is addressable, so BRFS should be used somewhere in the first 32MiB
- - With current BDOS memory map, BRFS should be placed in the first 8MiB available as BDOS Program Code
- - Lets use the last 4MiB of this space for BRFS (0x100000 - 0x200000)
- */
- #define BRFS_SUPPORTED_VERSION 1
- #define BRFS_RAM_STORAGE_ADDR 0x100000 // From 4th MiB
- // Addresses in SPI Flash
- // Note that each section should be in a different 4KiB sector in SPI Flash
- #define BRFS_SPIFLASH_SUPERBLOCK_ADDR 0xDF000 // One sector before FAT
- #define BRFS_SPIFLASH_FAT_ADDR 0xE0000 // Can be 32768 words (128KiB) for 32MiB of 256word blocks
- #define BRFS_SPIFLASH_BLOCK_ADDR 0x100000 // From first MiB
- //#define MAX_PATH_LENGTH 127 // Set by BDOS
- #define MAX_OPEN_FILES 16 // Can be set higher, but 4 is good for testing
- // Length of structs, should not be changed
- #define SUPERBLOCK_SIZE 16
- #define DIR_ENTRY_SIZE 8
- #define BRFS_MAX_BLOCKS 65536 // 64KiB
- word brfs_changed_blocks[BRFS_MAX_BLOCKS >> 5]; // Bitmap of changed blocks, each block has 1 bit
- // 16 words long
- struct brfs_superblock
- {
- word total_blocks;
- word words_per_block;
- word label[10]; // 1 char per word
- word brfs_version;
- word reserved[3];
- };
- // 8 words long
- struct brfs_dir_entry
- {
- word filename[4]; // 4 chars per word
- word modify_date; // TBD when RTC added to FPGC
- word flags; // 32 flags, from right to left: directory, hidden
- word fat_idx; // idx of first FAT block
- word filesize; // file size in words, not bytes
- };
- word *brfs_ram_storage = (word*) BRFS_RAM_STORAGE_ADDR; // RAM storage of file system
- // Variables for open files
- word brfs_cursors[MAX_OPEN_FILES]; // Cursor position offset from start of file
- word brfs_file_pointers[MAX_OPEN_FILES]; // FAT idx of open file
- struct brfs_dir_entry* brfs_dir_entry_pointers[MAX_OPEN_FILES]; // Pointer to dir entry of open file
- /**
- * Create a hexdump like dump of a section of memory
- * addr: address of the section
- * len: length of the section in words
- * linesize: number of words per line to print
- */
- void brfs_dump_section(word* addr, word len, word linesize)
- {
- char buf[16];
- word i;
- for (i = 0; i < len; i++)
- {
- itoah(addr[i], buf);
- if (strlen(buf+2) == 1)
- uprintc('0');
- uprint(buf+2);
- uprintc(' ');
- // newline every linesize words
- // also print last linesize words as chars if alphanum
- if (i != 0 && MATH_modU(i+1, linesize) == 0)
- {
- uprint(" ");
- word j;
- for (j = i - (linesize-1); j < i+1; j++)
- {
- if (isalnum(addr[j]) || addr[j] == ' ')
- uprintc(addr[j]);
- else
- uprintc('.');
- }
- uprintc('\n');
- }
- }
- }
- /**
- * Create a raw filesystem dump over UART
- * fatsize: size of the FAT table in words
- * datasize: size of the data section in words
- */
- void brfs_dump(word fatsize, word datasize)
- {
- // Superblock dump
- uprintln("Superblock:");
- brfs_dump_section(brfs_ram_storage, SUPERBLOCK_SIZE, 16);
- // FAT dump
- uprintln("\nFAT:");
- brfs_dump_section(brfs_ram_storage+SUPERBLOCK_SIZE, fatsize, 16);
- // Datablock dump
- uprintln("\nData:");
- brfs_dump_section(brfs_ram_storage+SUPERBLOCK_SIZE+fatsize, datasize, 32);
- uprintln("\nOpen files:");
- word i;
- for (i = 0; i < MAX_OPEN_FILES; i++)
- {
- uprint("FP");
- uprintDec(i+1);
- uprint(":");
- uprint(" FAT idx: ");
- uprintDec(brfs_file_pointers[i]);
- uprint(" Cursor: ");
- uprintDec(brfs_cursors[i]);
- uprint(" Size: ");
- uprintDec(brfs_dir_entry_pointers[i] ? brfs_dir_entry_pointers[i]->filesize : 0);
- uprintc('\n');
- }
- }
- /**
- * Return the FAT index of a directory, or -1 if not found
- * dir_path: full path of the directory
- */
- word brfs_get_fat_idx_of_dir(char* dir_path)
- {
- // Check length of path
- if (strlen(dir_path) > MAX_PATH_LENGTH)
- {
- uprintln("Path too long!");
- return -1;
- }
- // Start with root directory
- word current_dir_fat_idx = 0;
- // Check if root directory is requested
- if (strcmp(dir_path, "/") == 0)
- {
- return current_dir_fat_idx;
- }
- // Copy dir_path, size + 1 for null terminator
- // Since strtok modifies the string
- char dir_path_copy[MAX_PATH_LENGTH+1];
- strcpy(dir_path_copy, dir_path);
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word* brfs_data_block_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks;
- word dir_entries_max = superblock->words_per_block / sizeof(struct brfs_dir_entry);
- // Split path by '/' and traverse directories
- char* token = strtok(dir_path_copy, "/");
- while (token != (word*)-1)
- {
- // Find token in current directory
- word* dir_addr = brfs_data_block_addr + (current_dir_fat_idx * superblock->words_per_block);
- word found_dir = 0; // Keep track if token is found in current directory
- word i;
- for (i = 0; i < dir_entries_max; i++)
- {
- struct brfs_dir_entry* dir_entry = (struct brfs_dir_entry*) (dir_addr + (i * sizeof(struct brfs_dir_entry)));
- if (dir_entry->filename[0] != 0)
- {
- char decompressed_filename[17];
- strdecompress(decompressed_filename, (char*)&(dir_entry->filename));
- // Also check for directory flag
- if (strcmp(decompressed_filename, token) == 0 && dir_entry->flags == 1)
- {
- // Found token in current directory
- // Set current directory to token's FAT index
- current_dir_fat_idx = dir_entry->fat_idx;
- found_dir = 1;
- break;
- }
- }
- }
- // If token not found in current directory, return -1
- if (!found_dir)
- {
- uprint("Directory ");
- uprint(dir_path);
- uprintln(" not found!");
- return -1;
- }
- token = strtok((word*)-1, "/");
- }
- return current_dir_fat_idx;
- }
- /**
- * Given the address of the FAT table and the number of blocks, find the next free block
- * Returns -1 if no free block is found
- * fat_addr: address of the FAT table
- * blocks: number of blocks in the FAT table
- */
- word brfs_find_next_free_block(word* fat_addr, word blocks)
- {
- word i = 0;
- word* fat_ptr = fat_addr;
- while (i < blocks)
- {
- if (*fat_ptr == 0)
- {
- return i;
- }
- fat_ptr++;
- i++;
- }
- return -1;
- }
- /**
- * Given the address of a directory data block and the maximum number of entries, find the next free directory entry
- * Returns -1 if no free entry is found
- * dir_addr: address of the directory data block (not the FAT idx)
- * dir_entries_max: maximum number of entries in the directory
- */
- word brfs_find_next_free_dir_entry(word* dir_addr, word dir_entries_max)
- {
- word i = 0;
- word* dir_ptr = dir_addr;
- while (i < dir_entries_max)
- {
- if (*dir_ptr == 0)
- {
- return i;
- }
- dir_ptr += sizeof(struct brfs_dir_entry);
- i++;
- }
- return -1;
- }
- /**
- * Create a single directory entry
- * dir_entry: pointer to the directory entry to be created
- * filename: name of the file, max 16 chars and uncompressed
- * fat_idx: index of the first FAT block of the file/directory
- * filesize: size of the file in words
- * flags: flags of the file/directory
- */
- void brfs_create_single_dir_entry(struct brfs_dir_entry* dir_entry, char* filename, word fat_idx, word filesize, word flags)
- {
- // Initialize to 0
- memset((char*)dir_entry, 0, sizeof(*dir_entry));
- // Set filename
- char compressed_filename[4] = {0,0,0,0};
- strcompress(compressed_filename, filename);
- memcpy((char*)&(dir_entry->filename), compressed_filename, sizeof(compressed_filename));
- // Set other fields
- dir_entry->fat_idx = fat_idx;
- dir_entry->flags = flags;
- dir_entry->filesize = filesize;
- }
- /**
- * Initialize a directory with . and .. entries
- * dir_addr: address of the directory data block
- * dir_entries_max: maximum number of entries in the directory
- * dir_fat_idx: index of the FAT block of the directory
- * parent_fat_idx: index of the FAT block of the parent directory
- */
- void brfs_init_directory(word* dir_addr, word dir_entries_max, word dir_fat_idx, word parent_fat_idx)
- {
- // Get block size from superblock
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word block_size = superblock->words_per_block;
- // Set data block of dir_fat_idx to 0
- memset(dir_addr, 0, block_size);
- // Create . entry
- struct brfs_dir_entry dir_entry;
- brfs_create_single_dir_entry(&dir_entry, ".", dir_fat_idx, dir_entries_max*sizeof(struct brfs_dir_entry), 1);
- // Copy to first data entry
- memcpy(dir_addr, (char*)&dir_entry, sizeof(dir_entry));
- // Create .. entry
- brfs_create_single_dir_entry(&dir_entry, "..", parent_fat_idx, dir_entries_max*sizeof(struct brfs_dir_entry), 1);
- // Copy to second data entry
- memcpy(dir_addr+sizeof(dir_entry), (char*)&dir_entry, sizeof(dir_entry));
- // Set FAT table
- brfs_ram_storage[SUPERBLOCK_SIZE + dir_fat_idx] = -1;
- // Set changed block
- brfs_changed_blocks[dir_fat_idx >> 5] |= (1 << (dir_fat_idx & 31));
- }
- /**
- * Format the ram storage as a BRFS filesystem
- * Also writes the superblock to SPI Flash
- * blocks: number of blocks in the filesystem
- * words_per_block: number of bytes per block
- * label: label of the filesystem
- * full_format: if 1, initialize data section to 0
- */
- void brfs_format(word blocks, word words_per_block, char* label, word full_format)
- {
- // Create a superblock
- struct brfs_superblock superblock;
- // Initialize to 0
- memset((char*)&superblock, 0, sizeof(superblock));
- // Set values of superblock
- superblock.total_blocks = blocks;
- superblock.words_per_block = words_per_block;
- strcpy((char*)&superblock.label, label);
- superblock.brfs_version = BRFS_SUPPORTED_VERSION;
- // Copy superblock to head of ram addr
- memcpy(brfs_ram_storage, (char*)&superblock, sizeof(superblock));
- // Create FAT
- memset(brfs_ram_storage + SUPERBLOCK_SIZE, 0, blocks);
- // Create Data section
- if (full_format)
- {
- memset(brfs_ram_storage + SUPERBLOCK_SIZE + blocks, 0, blocks * words_per_block);
- }
-
- // Initialize root dir
- word dir_entries_max = words_per_block / sizeof(struct brfs_dir_entry);
- brfs_init_directory(brfs_ram_storage + SUPERBLOCK_SIZE + blocks, dir_entries_max, 0, 0);
- // Clear open files and cursors
- memset(brfs_file_pointers, 0, sizeof(brfs_file_pointers));
- memset(brfs_cursors, 0, sizeof(brfs_cursors));
- // Set all dir entry pointers to 0
- word i;
- for (i = 0; i < MAX_OPEN_FILES; i++)
- {
- brfs_dir_entry_pointers[i] = 0;
- }
- // For all blocks that have just been formatted, set changed block
- word j;
- for (j = 0; j < blocks; j++)
- {
- brfs_changed_blocks[j >> 5] |= (1 << (j & 31));
- }
- // Write superblock to SPI Flash
- spiflash_sector_erase(BRFS_SPIFLASH_SUPERBLOCK_ADDR);
- spiflash_write_page_in_words((char*)&superblock, BRFS_SPIFLASH_SUPERBLOCK_ADDR, sizeof(superblock));
- }
- /**
- * Create a new directory in the directory of parent_dir_path
- * Returns 1 on success, 0 on error
- * parent_dir_path: full path of the parent directory
- * dirname: name of the new directory
- */
- word brfs_create_directory(char* parent_dir_path, char* dirname)
- {
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word* brfs_data_block_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks;
- // Find first free FAT block
- word next_free_block = brfs_find_next_free_block(brfs_ram_storage + SUPERBLOCK_SIZE, superblock->total_blocks);
- if (next_free_block == -1)
- {
- uprintln("No free blocks left!");
- return 0;
- }
- // Find data block address of parent directory path
- word parent_dir_fat_idx = brfs_get_fat_idx_of_dir(parent_dir_path);
- if (parent_dir_fat_idx == -1)
- {
- uprint("Parent directory ");
- uprint(parent_dir_path);
- uprintln(" not found!");
- return 0;
- }
- // Check if file or folder already exists
- word* parent_dir_addr = brfs_data_block_addr + (parent_dir_fat_idx * superblock->words_per_block);
- word dir_entries_max = superblock->words_per_block / sizeof(struct brfs_dir_entry);
- word i;
- for (i = 0; i < dir_entries_max; i++)
- {
- struct brfs_dir_entry* dir_entry = (struct brfs_dir_entry*) (parent_dir_addr + (i * sizeof(struct brfs_dir_entry)));
- if (dir_entry->filename[0] != 0)
- {
- char decompressed_filename[17];
- strdecompress(decompressed_filename, (char*)&(dir_entry->filename));
- if (strcmp(decompressed_filename, dirname) == 0)
- {
- uprint(dirname);
- uprintln(" already exists!");
- return 0;
- }
- }
- }
- // Find first free dir entry
- word next_free_dir_entry = brfs_find_next_free_dir_entry(
- brfs_data_block_addr + (parent_dir_fat_idx * superblock->words_per_block),
- superblock->words_per_block / sizeof(struct brfs_dir_entry)
- );
- if (next_free_dir_entry == -1)
- {
- uprintln("No free dir entries left!");
- return 0;
- }
- // Create dir entry
- struct brfs_dir_entry new_entry;
- brfs_create_single_dir_entry(&new_entry, dirname, next_free_block, dir_entries_max*sizeof(struct brfs_dir_entry), 1);
- // Copy dir entry to first free dir entry
- memcpy(
- brfs_data_block_addr + (parent_dir_fat_idx * superblock->words_per_block) + (next_free_dir_entry * sizeof(struct brfs_dir_entry)),
- (char*)&new_entry,
- sizeof(new_entry)
- );
- // Initialize directory
- brfs_init_directory(
- brfs_data_block_addr + (next_free_block * superblock->words_per_block),
- dir_entries_max,
- next_free_block,
- parent_dir_fat_idx
- );
- // Update changed block
- brfs_changed_blocks[next_free_block >> 5] |= (1 << (next_free_block & 31));
- brfs_changed_blocks[parent_dir_fat_idx >> 5] |= (1 << (parent_dir_fat_idx & 31));
- return 1;
- }
- /**
- * Create a new file in the directory of parent_dir_path
- * Returns 1 on success, 0 on error
- * parent_dir_path: full path of the parent directory
- * filename: name of the new file
- */
- word brfs_create_file(char* parent_dir_path, char* filename)
- {
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word* brfs_data_block_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks;
- // Find first free FAT block
- word next_free_block = brfs_find_next_free_block(brfs_ram_storage + SUPERBLOCK_SIZE, superblock->total_blocks);
- if (next_free_block == -1)
- {
- uprintln("No free blocks left!");
- return 0;
- }
- // Find data block address of parent directory path
- word parent_dir_fat_idx = brfs_get_fat_idx_of_dir(parent_dir_path);
- if (parent_dir_fat_idx == -1)
- {
- uprint("Parent directory ");
- uprint(parent_dir_path);
- uprintln(" not found!");
- return 0;
- }
- // Check if file or folder already exists
- word* parent_dir_addr = brfs_data_block_addr + (parent_dir_fat_idx * superblock->words_per_block);
- word dir_entries_max = superblock->words_per_block / sizeof(struct brfs_dir_entry);
- word i;
- for (i = 0; i < dir_entries_max; i++)
- {
- struct brfs_dir_entry* dir_entry = (struct brfs_dir_entry*) (parent_dir_addr + (i * sizeof(struct brfs_dir_entry)));
- if (dir_entry->filename[0] != 0)
- {
- char decompressed_filename[17];
- strdecompress(decompressed_filename, (char*)&(dir_entry->filename));
- if (strcmp(decompressed_filename, filename) == 0)
- {
- uprint(filename);
- uprintln(" already exists!");
- return 0;
- }
- }
- }
- // Find first free dir entry
- word next_free_dir_entry = brfs_find_next_free_dir_entry(
- brfs_data_block_addr + (parent_dir_fat_idx * superblock->words_per_block),
- superblock->words_per_block / sizeof(struct brfs_dir_entry)
- );
- if (next_free_dir_entry == -1)
- {
- uprintln("No free dir entries left!");
- return 0;
- }
- // Create file entry
- struct brfs_dir_entry new_entry;
- brfs_create_single_dir_entry(&new_entry, filename, next_free_block, 0, 0);
- // Copy dir entry to first free dir entry
- memcpy(
- brfs_data_block_addr + (parent_dir_fat_idx * superblock->words_per_block) + (next_free_dir_entry * sizeof(struct brfs_dir_entry)),
- (char*)&new_entry,
- sizeof(new_entry)
- );
- // Initialize file by setting data to 0
- memset(
- brfs_data_block_addr + (next_free_block * superblock->words_per_block),
- 0,
- superblock->words_per_block
- );
- // Update FAT
- brfs_ram_storage[SUPERBLOCK_SIZE + next_free_block] = -1;
- // Update changed block
- brfs_changed_blocks[next_free_block >> 5] |= (1 << (next_free_block & 31));
- return 1;
- }
- /**
- * List the contents of a directory over UART
- * dir_path: full path of the directory
- */
- void brfs_list_directory(char* dir_path)
- {
- uprint("Listing directory ");
- uprintln(dir_path);
- uprintln("-------------------");
- // Find data block address of parent directory path
- word dir_fat_idx = brfs_get_fat_idx_of_dir(dir_path);
- if (dir_fat_idx == -1)
- {
- uprint("Parent directory ");
- uprint(dir_path);
- uprintln(" not found!");
- return;
- }
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word* dir_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks + (dir_fat_idx * superblock->words_per_block);
- word dir_entries_max = superblock->words_per_block / sizeof(struct brfs_dir_entry);
- word i;
- for (i = 0; i < dir_entries_max; i++)
- {
- struct brfs_dir_entry* dir_entry = (struct brfs_dir_entry*) (dir_addr + (i * sizeof(struct brfs_dir_entry)));
- if (dir_entry->filename[0] != 0)
- {
- uprint("Filename: ");
- char decompressed_filename[17];
- strdecompress(decompressed_filename, (char*)&(dir_entry->filename));
- uprint(decompressed_filename);
- uprint(" FAT idx: ");
- uprintDec((dir_entry->fat_idx));
- uprint(" Flags: ");
- uprintDec((dir_entry->flags));
- uprint(" Filesize: ");
- uprintDec((dir_entry->filesize));
- uprintc('\n');
- }
- }
- uprintln("");
- }
- /**
- * Open a file for reading and writing
- * Returns the file pointer (FAT idx of file), or -1 on error
- * file_path: full path of the file
- */
- word brfs_open_file(char* file_path)
- {
- // Split filename from path using basename and dirname
- char dirname_output[MAX_PATH_LENGTH];
- char* file_path_basename = basename(file_path);
- char* file_path_dirname = dirname(dirname_output, file_path);
- // Find data block address of parent directory path
- word dir_fat_idx = brfs_get_fat_idx_of_dir(file_path_dirname);
- if (dir_fat_idx == -1)
- {
- uprint("Parent directory ");
- uprint(file_path_dirname);
- uprintln(" not found!");
- return -1;
- }
- // Find file in directory
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word* dir_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks + (dir_fat_idx * superblock->words_per_block);
- word dir_entries_max = superblock->words_per_block / sizeof(struct brfs_dir_entry);
- word i;
- for (i = 0; i < dir_entries_max; i++)
- {
- struct brfs_dir_entry* dir_entry = (struct brfs_dir_entry*) (dir_addr + (i * sizeof(struct brfs_dir_entry)));
- if (dir_entry->filename[0] != 0)
- {
- char decompressed_filename[17];
- strdecompress(decompressed_filename, (char*)&(dir_entry->filename));
- // Also check for directory flag to be 0
- if (strcmp(decompressed_filename, file_path_basename) == 0 && dir_entry->flags == 0)
- {
- // Found file
- // Check if file is already open
- word j;
- for (j = 0; j < MAX_OPEN_FILES; j++)
- {
- if (brfs_file_pointers[j] == dir_entry->fat_idx)
- {
- uprint("File ");
- uprint(file_path_basename);
- uprintln(" already open!");
- return -1;
- }
- }
- // Find first free file pointer
- word next_free_file_pointer = -1;
- for (j = 0; j < MAX_OPEN_FILES; j++)
- {
- if (brfs_file_pointers[j] == 0)
- {
- next_free_file_pointer = j;
- break;
- }
- }
- if (next_free_file_pointer == -1)
- {
- uprintln("All files already opened!");
- return -1;
- }
- // Open file
- brfs_file_pointers[next_free_file_pointer] = dir_entry->fat_idx;
- brfs_cursors[next_free_file_pointer] = 0;
- brfs_dir_entry_pointers[next_free_file_pointer] = dir_entry;
- return brfs_file_pointers[next_free_file_pointer];
- }
- }
- }
- uprint("File ");
- uprint(file_path_basename);
- uprintln(" not found!");
- return -1;
- }
- /**
- * Close an opened file
- * Returns 1 on success, 0 on error
- * file_pointer: file pointer returned by brfs_open_file
- */
- word brfs_close_file(word file_pointer)
- {
- // Find file pointer
- word i;
- for (i = 0; i < MAX_OPEN_FILES; i++)
- {
- if (brfs_file_pointers[i] == file_pointer)
- {
- // Close file
- brfs_file_pointers[i] = 0;
- brfs_cursors[i] = 0;
- brfs_dir_entry_pointers[i] = 0;
- return 1;
- }
- }
- uprintln("File not found!");
- return 0;
- }
- /**
- * Delete a file by removing all FAT blocks and the directory entry
- * Returns 1 on success, 0 on error
- * file_path: full path of the file
- */
- word brfs_delete_file(char* file_path)
- {
- // Split filename from path using basename and dirname
- char dirname_output[MAX_PATH_LENGTH];
- char* file_path_basename = basename(file_path);
- char* file_path_dirname = dirname(dirname_output, file_path);
- // Find data block address of parent directory path
- word dir_fat_idx = brfs_get_fat_idx_of_dir(file_path_dirname);
- if (dir_fat_idx == -1)
- {
- uprint("Parent directory ");
- uprint(file_path_dirname);
- uprintln(" not found!");
- return 0;
- }
- // Find file in directory
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word* dir_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks + (dir_fat_idx * superblock->words_per_block);
- word dir_entries_max = superblock->words_per_block / sizeof(struct brfs_dir_entry);
- word i;
- for (i = 0; i < dir_entries_max; i++)
- {
- struct brfs_dir_entry* dir_entry = (struct brfs_dir_entry*) (dir_addr + (i * sizeof(struct brfs_dir_entry)));
- if (dir_entry->filename[0] != 0)
- {
- char decompressed_filename[17];
- strdecompress(decompressed_filename, (char*)&(dir_entry->filename));
- // Also check for directory flag to be 0
- if (strcmp(decompressed_filename, file_path_basename) == 0 && (dir_entry->flags & 0x01) == 0)
- {
- // Found file
- // Check if file is already open
- word j;
- for (j = 0; j < MAX_OPEN_FILES; j++)
- {
- if (brfs_file_pointers[j] == dir_entry->fat_idx)
- {
- uprint("File ");
- uprint(file_path_basename);
- uprintln(" is open!");
- return 0;
- }
- }
- // Delete fat blocks
- word current_fat_idx = dir_entry->fat_idx;
- word next_fat_idx;
- while (current_fat_idx != -1)
- {
- next_fat_idx = brfs_ram_storage[SUPERBLOCK_SIZE + current_fat_idx];
- brfs_ram_storage[SUPERBLOCK_SIZE + current_fat_idx] = 0;
- brfs_changed_blocks[current_fat_idx >> 5] |= (1 << (current_fat_idx & 31));
- current_fat_idx = next_fat_idx;
- }
- // Delete file
- memset((char*)dir_entry, 0, sizeof(struct brfs_dir_entry));
- // Update changed block
- brfs_changed_blocks[dir_fat_idx >> 5] |= (1 << (dir_fat_idx & 31));
- return 1;
- }
- }
- }
- uprint("File ");
- uprint(file_path_basename);
- uprintln(" not found!");
- return 0;
- }
- /**
- * Set the cursor of an opened file
- * Returns 1 on success, 0 on error
- * file_pointer: file pointer returned by brfs_open_file
- * cursor: new cursor position in words
- */
- word brfs_set_cursor(word file_pointer, word cursor)
- {
- if (file_pointer == 0)
- {
- uprintln("File not open!");
- return 0;
- }
- // Find file pointer
- word i;
- for (i = 0; i < MAX_OPEN_FILES; i++)
- {
- if (brfs_file_pointers[i] == file_pointer)
- {
- // Set cursor
- if (cursor < 0 || cursor > brfs_dir_entry_pointers[i]->filesize)
- {
- cursor = brfs_dir_entry_pointers[i]->filesize;
- }
- brfs_cursors[i] = cursor;
- return 1;
- }
- }
- uprintln("File not found!");
- return 0;
- }
- /**
- * Get the cursor of an opened file
- * Returns the cursor position in words, or -1 on error
- * file_pointer: file pointer returned by brfs_open_file
- */
- word brfs_get_cursor(word file_pointer)
- {
- if (file_pointer == 0)
- {
- uprintln("File not open!");
- return -1;
- }
- // Find file pointer
- word i;
- for (i = 0; i < MAX_OPEN_FILES; i++)
- {
- if (brfs_file_pointers[i] == file_pointer)
- {
- // Get cursor
- return brfs_cursors[i];
- }
- }
- uprintln("File not found!");
- return -1;
- }
- /**
- * Get the FAT index of a file at the cursor
- * Returns the FAT index, or 0 on error
- * file_pointer: file pointer returned by brfs_open_file
- * cursor: cursor position of opened file
- */
- word brfs_get_fat_idx_at_cursor(word file_pointer, word cursor)
- {
- if (file_pointer == 0)
- {
- uprintln("File not open!");
- return 0;
- }
- // Get FAT index of file at cursor
- word current_fat_idx = file_pointer;
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- // Loop through FAT until cursor is reached
- while (cursor > superblock->words_per_block)
- {
- current_fat_idx = brfs_ram_storage[SUPERBLOCK_SIZE + current_fat_idx];
- if (current_fat_idx == -1)
- {
- uprintln("Cursor is out of bounds!");
- return 0;
- }
- cursor -= superblock->words_per_block;
- }
- return current_fat_idx;
- }
- /**
- * Read a file from the cursor position
- * Returns 1 on success, or 0 on error
- * file_pointer: file pointer returned by brfs_open_file
- * buffer: buffer to read the file into
- * length: number of words to read
- */
- word brfs_read(word file_pointer, word* buffer, word length)
- {
- if (file_pointer == 0)
- {
- uprintln("File not open!");
- return 0;
- }
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word* data_block_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks;
- // Find file pointer
- word i;
- for (i = 0; i < MAX_OPEN_FILES; i++)
- {
- if (brfs_file_pointers[i] == file_pointer)
- {
- if (length < 0)
- {
- uprintln("Length cannot be negative!");
- return 0;
- }
- // Trunctate length to file size - cursor
- if (length > brfs_dir_entry_pointers[i]->filesize - brfs_cursors[i])
- {
- length = brfs_dir_entry_pointers[i]->filesize - brfs_cursors[i];
- }
- // Get FAT index of file at cursor
- word current_fat_idx = brfs_get_fat_idx_at_cursor(file_pointer, brfs_cursors[i]);
- if (current_fat_idx == 0)
- {
- uprintln("Error getting FAT index at cursor!");
- return 0;
- }
- // Loop:
- // - calculate words until end of block (or up to length)
- // - read words until end of block (or up to length)
- // - decrease length by words read
- // - get next block from FAT
- // - repeat until length is 0
- while (length > 0)
- {
- word words_until_end_of_block = superblock->words_per_block - (MATH_modU(brfs_cursors[i], superblock->words_per_block));
- word words_to_read = words_until_end_of_block > length ? length : words_until_end_of_block;
- // Copy words to buffer
- memcpy(buffer, data_block_addr + (current_fat_idx * superblock->words_per_block) + MATH_modU(brfs_cursors[i], superblock->words_per_block), words_to_read);
- // Update cursor and length
- brfs_cursors[i] += words_to_read;
- length -= words_to_read;
- buffer += words_to_read;
- // Get next block from FAT
- current_fat_idx = brfs_ram_storage[SUPERBLOCK_SIZE + current_fat_idx];
- if (current_fat_idx == -1 && length > 0)
- {
- uprintln("There is no next block in the file!");
- return 0;
- }
-
- }
- return 1;
- }
- }
- uprintln("File not found!");
- return 0;
- }
- /**
- * Write a file from the cursor position
- * Returns 1 on success, or 0 on error
- * file_pointer: file pointer returned by brfs_open_file
- * buffer: buffer to write to the file
- * length: number of words to write
- */
- word brfs_write(word file_pointer, word* buffer, word length)
- {
- if (file_pointer == 0)
- {
- uprintln("File not open!");
- return 0;
- }
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word* data_block_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks;
- // Find file pointer
- word i;
- for (i = 0; i < MAX_OPEN_FILES; i++)
- {
- if (brfs_file_pointers[i] == file_pointer)
- {
- if (length < 0)
- {
- uprintln("Length cannot be negative!");
- return 0;
- }
- // Get FAT index of file at cursor
- word current_fat_idx = brfs_get_fat_idx_at_cursor(file_pointer, brfs_cursors[i]);
- if (current_fat_idx == 0)
- {
- uprintln("Error getting FAT index at cursor!");
- return 0;
- }
- // Loop:
- // - calculate words until end of block (or up to length)
- // - write words until end of block (or up to length)
- // - decrease length by words written
- // - get next block from FAT, or find next free block if end of block
- // - if next block is needed, update FAT
- // - repeat until length is 0
- while (length > 0)
- {
- word cursor_in_block = MATH_modU(brfs_cursors[i], superblock->words_per_block);
- word words_until_end_of_block = superblock->words_per_block - cursor_in_block;
- word words_to_write = words_until_end_of_block > length ? length : words_until_end_of_block;
- // Copy words to buffer
- memcpy(data_block_addr + (current_fat_idx * superblock->words_per_block) + cursor_in_block, buffer, words_to_write);
- // Update changed block
- brfs_changed_blocks[current_fat_idx >> 5] |= (1 << (current_fat_idx & 31));
- // Update cursor and length
- brfs_cursors[i] += words_to_write;
- length -= words_to_write;
- buffer += words_to_write;
- // Get next block from FAT, or find next free block if end of block
- if (words_until_end_of_block == words_to_write && length > 0)
- {
-
- word next_fat_idx = brfs_ram_storage[SUPERBLOCK_SIZE + current_fat_idx];
- // Check if next block is already allocated
- if (next_fat_idx != -1)
- {
- current_fat_idx = next_fat_idx;
- }
- else
- {
- // Find next free block
- word next_free_block = brfs_find_next_free_block(brfs_ram_storage + SUPERBLOCK_SIZE, superblock->total_blocks);
- if (next_free_block == -1)
- {
- uprintln("No free blocks left!");
- return 0;
- }
- // Update FAT
- brfs_ram_storage[SUPERBLOCK_SIZE + current_fat_idx] = next_free_block;
- // Go to next block
- current_fat_idx = next_free_block;
- // Set next block to -1 to indicate end of file
- brfs_ram_storage[SUPERBLOCK_SIZE + current_fat_idx] = -1;
- // Update changed block
- brfs_changed_blocks[current_fat_idx >> 5] |= (1 << (current_fat_idx & 31));
- }
- }
- }
- // Update file size in dir entry if we wrote past the current size
- if (brfs_cursors[i] > brfs_dir_entry_pointers[i]->filesize)
- {
- brfs_dir_entry_pointers[i]->filesize = brfs_cursors[i];
- }
- return 1;
- }
- }
- uprintln("File not found!");
- return 0;
- }
- /**
- * Stat a file or directory
- * Returns the directory entry, or -1 on error
- */
- struct brfs_dir_entry* brfs_stat(char* file_path)
- {
- // Split filename from path using basename and dirname
- char dirname_output[MAX_PATH_LENGTH];
- char* file_path_basename = basename(file_path);
- char* file_path_dirname = dirname(dirname_output, file_path);
- // Find data block address of parent directory path
- word dir_fat_idx = brfs_get_fat_idx_of_dir(file_path_dirname);
- if (dir_fat_idx == -1)
- {
- uprint("Parent directory ");
- uprint(file_path_dirname);
- uprintln(" not found!");
- return (struct brfs_dir_entry*)-1;
- }
- // Find file in directory
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word* dir_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks + (dir_fat_idx * superblock->words_per_block);
- word dir_entries_max = superblock->words_per_block / sizeof(struct brfs_dir_entry);
- word i;
- for (i = 0; i < dir_entries_max; i++)
- {
- struct brfs_dir_entry* dir_entry = (struct brfs_dir_entry*) (dir_addr + (i * sizeof(struct brfs_dir_entry)));
- if (dir_entry->filename[0] != 0)
- {
- char decompressed_filename[17];
- strdecompress(decompressed_filename, (char*)&(dir_entry->filename));
- // Also check for directory flag to be 0
- if (strcmp(decompressed_filename, file_path_basename) == 0)
- {
- return dir_entry;
- }
- }
- }
- uprint("File or directory ");
- uprint(file_path_basename);
- uprintln(" not found!");
- return (struct brfs_dir_entry*)-1;
- }
- /**
- * Check if a block has changed by comparing it to the flash, returns 1 if changed and 0 if not
- * Note: this is slow and should eventually be replaced by a list of changed blocks
- * block_idx: index of the block
- */
- word brfs_check_block_changed(word block_idx)
- {
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word* data_block_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks;
- word spi_data_buffer[256];
- if (superblock->words_per_block > 256)
- {
- uprintln("Error: words_per_block should be <= 256 for this function!");
- return 0;
- }
- // Read block from flash, and enable bytes to word
- spiflash_read_from_address(spi_data_buffer, BRFS_SPIFLASH_BLOCK_ADDR + block_idx * superblock->words_per_block, superblock->words_per_block, 1);
- // Compare block to flash
- return memcmp(data_block_addr + (block_idx * superblock->words_per_block), spi_data_buffer, superblock->words_per_block);
- }
- /**
- * Write the FAT table to SPI flash by performing three steps:
- * 1. Check which FAT entries have changed
- * 2. Erase the 4KiB sectors that contain these FAT entries
- * 3. Write each changed FAT entry to flash by using 16 page writes per sector
- */
- void brfs_write_fat_to_flash()
- {
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word* data_block_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks;
- // 1 sector = 4KiB = 1024 words = 1024 FAT entries
- // 1 word contains 32 flags for changed blocks/FAT entries
- // 1024/32 = 32 words in the changed_blocks array per sector
- uprintln("---Writing FAT to SPI Flash---");
- // Loop over brfs_changed_blocks in 32 word parts
- // Assumes length of brfs_changed_blocks is a multiple of 32
- word i;
- for (i = 0; i < sizeof(brfs_changed_blocks); i+=32)
- {
- // Check if any value within brfs_changed_blocks[i:i+32] is not 0
- word j;
- word changed = 0;
- for (j = 0; j < 32; j++)
- {
- if (brfs_changed_blocks[i+j] != 0)
- {
- changed = 1;
- break;
- }
- }
- if (changed)
- {
- // Erase sector
- word addr = BRFS_SPIFLASH_FAT_ADDR; // Workaround because of large static number
- addr += (i >> 5) * 4096; // Sector idx * bytes per sector
- spiflash_sector_erase(addr);
- uprint("Erased sector ");
- uprintDec(i >> 5);
- uprint(" at address ");
- uprintHex(addr);
- uprintln("");
- // Write sector by writing 16 pages k of 64 words
- // Does not check for boundaries of actual FAT table size,
- // so it can write garbage if block size is not a multiple of 1024
- word k;
- for (k = 0; k < 1024; k+=64)
- {
- addr = BRFS_SPIFLASH_FAT_ADDR; // Workaround because of large static number
- addr += (i >> 5) * 4096; // Sector idx * bytes per sector
- addr += k << 2; // 64 words * 4 bytes per word
- word* fat_addr_ram = brfs_ram_storage + SUPERBLOCK_SIZE + (i << 5) + k;
- spiflash_write_page_in_words(fat_addr_ram, addr, 64);
- uprint("Wrote FAT entries ");
- uprintDec((i << 5) + k);
- uprint(":");
- uprintDec((i << 5) + k + 63);
- uprint(" from RAM addr ");
- uprintHex((word)fat_addr_ram);
- uprint(" to SPI Flash addr ");
- uprintHex(addr);
- uprintln("");
- }
- }
- }
- uprintln("---Finished writing FAT to SPI Flash---");
- }
- /**
- * Write a sector (4KiB) to SPI flash
- * sector_idx: index of the sector
- */
- void brfs_write_sector_to_flash(word sector_idx)
- {
- word spi_addr = BRFS_SPIFLASH_BLOCK_ADDR; // Workaround because of large static number
- spi_addr += sector_idx * 4096; // Sector idx * bytes per sector
-
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word* data_block_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks;
- word brfs_sector_addr = data_block_addr + sector_idx * (4096 >> 2); // Divided by 4 because of word size
- // Write sector by writing 16 pages k of 64 words
- // Does not check for boundaries of actual FAT table size,
- // so it can write garbage if block size is not a multiple of 1024
- word k;
- for (k = 0; k < 1024; k+=64)
- {
- spiflash_write_page_in_words(brfs_sector_addr + k, spi_addr + (k << 2), 64);
- uprint("Wrote sector ");
- uprintDec(sector_idx);
- uprint(":");
- uprintDec(sector_idx + 15);
- uprint(" from RAM addr ");
- uprintHex((word)(brfs_sector_addr + k));
- uprint(" to SPI Flash addr ");
- uprintHex(spi_addr + (k << 2));
- uprintln("");
- }
- }
- /**
- * Write the data blocks to SPI flash by performing three steps:
- * 1. Check which blocks have changed
- * 2. Erase the 4KiB sectors that contain these blocks
- * 3. Write each erased sector with the new block data by using 16 page writes per sector
- */
- void brfs_write_blocks_to_flash()
- {
- // Loop over all blocks
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- word* data_block_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks;
- // Check if block size is <= 4KiB
- if (superblock->words_per_block > 1024)
- {
- uprintln("Error: block size should be <= 4KiB");
- return;
- }
- // Check if block size is a multiple of 64
- if (superblock->words_per_block & 63)
- {
- uprintln("Error: block size should be a multiple of 64");
- return;
- }
- uprintln("---Writing blocks to SPI Flash---");
- word blocks_per_sector = MATH_divU(4096, superblock->words_per_block * 4);
- uprint("Blocks per sector: ");
- uprintDec(blocks_per_sector);
- uprintln("");
- // Erase 4KiB sectors that contain changed blocks
- // This code is written such that it only erases each sector once, even if multiple blocks in the sector have changed
- word i;
- word sector_to_erase = -1;
- for (i = 0; i < superblock->total_blocks; i++)
- {
- if (brfs_changed_blocks[i >> 5] & (1 << (i & 31)))
- {
- if (sector_to_erase == -1)
- {
- sector_to_erase = MATH_divU(i, blocks_per_sector);
- }
- else if (sector_to_erase != MATH_divU(i, blocks_per_sector))
- {
- word addr = BRFS_SPIFLASH_BLOCK_ADDR; // Workaround because of large static number
- addr += sector_to_erase * 4096;
- spiflash_sector_erase(addr);
- uprint("Erased sector ");
- uprintDec(sector_to_erase);
- uprint(" at address ");
- uprintHex(addr);
- uprintln("");
- brfs_write_sector_to_flash(sector_to_erase);
- sector_to_erase = MATH_divU(i, blocks_per_sector);
- }
- }
- }
- if (sector_to_erase != -1)
- {
- word addr = BRFS_SPIFLASH_BLOCK_ADDR; // Workaround because of large static number
- addr += sector_to_erase * 4096;
- spiflash_sector_erase(addr);
- uprint("Erased sector ");
- uprintDec(sector_to_erase);
- uprint(" at address ");
- uprintHex(addr);
- uprintln("");
- brfs_write_sector_to_flash(sector_to_erase);
- }
- uprintln("---Finished writing blocks to SPI Flash---");
- }
- /**
- * Write the FAT and data blocks to SPI flash
- * Superblock should already be written to flash during format
- */
- void brfs_write_to_flash()
- {
- brfs_write_fat_to_flash();
- brfs_write_blocks_to_flash();
- // Reset changed blocks
- memset(brfs_changed_blocks, 0, sizeof(brfs_changed_blocks));
- }
- /**
- * Checks if given superblock is valid
- * Returns 1 if valid, 0 if invalid
- */
- word brfs_superblock_is_valid(struct brfs_superblock* superblock)
- {
- // Check if brfs version is correct
- if (superblock->brfs_version != BRFS_SUPPORTED_VERSION)
- {
- uprint("BRFS version ");
- uprintDec(superblock->brfs_version);
- uprint(" is not supported by this implementation (");
- uprintDec(BRFS_SUPPORTED_VERSION);
- uprintln(")!");
- return 0;
- }
- // Check if total blocks is > 0 and a multiple of 64
- if (superblock->total_blocks == 0 || superblock->total_blocks & 63)
- {
- uprintln("Error: total blocks should be > 0 and a multiple of 64");
- return 0;
- }
- // Check if block size is > 0
- if (superblock->words_per_block == 0)
- {
- uprintln("Error: block size should be > 0");
- return 0;
- }
- // Check if words per block is > 0 and <= 2048
- if (superblock->words_per_block == 0 || superblock->words_per_block > 2048)
- {
- uprintln("Error: words per block should be > 0 and <= 2048");
- return 0;
- }
- return 1;
- }
- /**
- * Read the superblock, FAT and data blocks from SPI flash
- * Returns 1 on success, or 0 on error
- */
- word brfs_read_from_flash()
- {
- // Read superblock from flash
- spiflash_read_from_address(brfs_ram_storage, BRFS_SPIFLASH_SUPERBLOCK_ADDR, SUPERBLOCK_SIZE, 1);
- // Perform validity checks on superblock
- struct brfs_superblock* superblock = (struct brfs_superblock*) brfs_ram_storage;
- if (!brfs_superblock_is_valid(superblock))
- {
- uprintln("Error: superblock is not valid!");
- return 0;
- }
-
- word* data_block_addr = brfs_ram_storage + SUPERBLOCK_SIZE + superblock->total_blocks;
- // Read FAT from flash
- spiflash_read_from_address(brfs_ram_storage + SUPERBLOCK_SIZE, BRFS_SPIFLASH_FAT_ADDR, superblock->total_blocks, 1);
- // Read data blocks from flash
- spiflash_read_from_address(data_block_addr, BRFS_SPIFLASH_BLOCK_ADDR, superblock->total_blocks * superblock->words_per_block, 1);
- return 1;
- }
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