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@@ -3,9 +3,10 @@
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/*
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General Idea:
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- HDD for the average home user was <100MB until after 1990
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-- SPI NOR Flash provides around the same amount of storage, with relatively little wear
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- - However, writes are extremely slow
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-- FPGC has 64MiB RAM, which is a lot even for 64 bit addressable words
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+- SPI NOR Flash provides around the same amount of storage, with very little wear
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+ - Very fast reads in QSPI mode
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+ - However, writes are extremely slow and need to be performed in pages of 256 bytes (64 words)
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+- FPGC has 64MiB RAM, which is a lot even for 32 bit addressable words
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- 32MiB is already more than enough for the FPGC in its current form
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- Use the other 32MiB as a fully in RAM filesystem
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- That initializes from SPI flash and writes back to Flash at a chosen time
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@@ -31,25 +32,42 @@ Implementation Details:
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- (3) reserved
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8 word Dir entries:
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- - (4) filename.ext [4 chars per word]
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+ - (4) filename.ext [4 chars per word -> 16 chars total]
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- (1) modify date [to be implemented when RTC]
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- - (1) flags [max 32 flags, TBD]
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+ - (1) flags [max 32 flags, from right to left: directory, hidden]
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- (1) 1st FAT idx
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- (1) file size [in words, not bytes]
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*/
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+/*
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+Required operations:
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+- Format
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+- Create directory
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+- Create file
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+- Open file (allow multiple files open at once)
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+- Close file (update dir entry and check/update all FAT entries)
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+- Set cursor
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+- Get cursor
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+- Read file
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+- Write file
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+- Delete entire file (deleting part of file is not a thing)
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+- Change directory
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+*/
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+
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#define word char
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#include "LIB/MATH.C"
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#include "LIB/SYS.C"
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#include "LIB/STDLIB.C"
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-#define BRFS_RAM_STORAGE_ADDR 0x500000
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+#define BRFS_RAM_STORAGE_ADDR 0x600000
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#define SUPERBLOCK_SIZE 16
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word *brfs_ram_storage = (word*) BRFS_RAM_STORAGE_ADDR; // RAM storage of file system
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+word brfs_current_dir = 0; // Current directory index, points to block in data section
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+
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// 16 words long
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struct brfs_superblock
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{
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@@ -60,16 +78,86 @@ struct brfs_superblock
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word reserved[3];
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};
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-// 16 words long
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+// 8 words long
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struct brfs_dir_entry
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{
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word filename[4]; // 4 chars per word
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word modify_date; // TBD when RTC added to FPGC
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- word flags;
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+ word flags; // 32 flags, from right to left: directory, hidden
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word fat_idx; // idx of first FAT block
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word filesize; // file size in words, not bytes
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};
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+word brfs_find_next_free_block(word* fat_addr, word blocks)
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+{
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+ word i = 0;
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+ word* fat_ptr = fat_addr;
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+
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+ while (i < blocks)
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+ {
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+ if (*fat_ptr == 0)
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+ {
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+ return i;
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+ }
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+
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+ fat_ptr++;
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+ i++;
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+ }
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+
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+ return -1;
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+}
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+
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+word brfs_find_next_free_dir_entry(word* dir_addr, word dir_entries_max)
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+{
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+ word i = 0;
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+ word* dir_ptr = dir_addr;
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+
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+ while (i < dir_entries_max)
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+ {
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+ if (*dir_ptr == 0)
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+ {
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+ return i;
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+ }
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+
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+ dir_ptr += sizeof(struct brfs_dir_entry);
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+ i++;
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+ }
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+
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+ return -1;
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+}
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+
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+void brfs_create_single_dir_entry(struct brfs_dir_entry* dir_entry, char* filename, word fat_idx, word filesize, word flags)
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+{
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+ // Initialize to 0
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+ memset(dir_entry, 0, sizeof(*dir_entry));
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+
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+ // Set filename
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+ char compressed_filename[4] = {0,0,0,0};
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+ strcompress(compressed_filename, filename);
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+ memcpy(&(dir_entry->filename), compressed_filename, sizeof(compressed_filename));
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+
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+ // Set other fields
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+ dir_entry->fat_idx = fat_idx;
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+ dir_entry->flags = flags;
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+ dir_entry->filesize = filesize;
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+}
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+
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+void brfs_init_directory(word* dir_addr, word dir_entries_max, word dir_fat_idx, word parent_fat_idx)
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+{
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+ // Create . entry
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+ struct brfs_dir_entry dir_entry;
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+ brfs_create_single_dir_entry(&dir_entry, ".", dir_fat_idx, dir_entries_max*sizeof(struct brfs_dir_entry), 1);
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+ // Copy to first data entry
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+ memcpy(dir_addr, &dir_entry, sizeof(dir_entry));
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+
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+ // Create .. entry
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+ brfs_create_single_dir_entry(&dir_entry, "..", parent_fat_idx, dir_entries_max*sizeof(struct brfs_dir_entry), 1);
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+ // Copy to second data entry
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+ memcpy(dir_addr+sizeof(dir_entry), &dir_entry, sizeof(dir_entry));
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+
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+ // Set FAT table
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+ brfs_ram_storage[SUPERBLOCK_SIZE + dir_fat_idx] = -1;
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+}
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// Creates hexdump like dump
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void brfs_dump_section(word* addr, word len, word linesize)
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@@ -115,7 +203,7 @@ void brfs_dump(word* ram_addr, word fatsize, word datasize)
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// Datablock dump
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uprintln("\nData:");
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- brfs_dump_section(ram_addr+SUPERBLOCK_SIZE+fatsize, datasize, 16);
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+ brfs_dump_section(ram_addr+SUPERBLOCK_SIZE+fatsize, datasize, 32);
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uprintc('\n');
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}
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@@ -147,16 +235,106 @@ void brfs_format(word* ram_addr, word blocks, word bytes_per_block, char* label,
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memset(ram_addr + SUPERBLOCK_SIZE + blocks, 0, blocks * bytes_per_block);
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}
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- // Create root dir entry in first block
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- struct brfs_dir_entry root_dir;
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+ // Initialize root dir
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+ word dir_entries_max = bytes_per_block / sizeof(struct brfs_dir_entry);
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+ brfs_init_directory(ram_addr + SUPERBLOCK_SIZE + blocks, dir_entries_max, 0, 0);
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- // Initialize to 0
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- memset(&root_dir, 0, sizeof(root_dir));
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+ brfs_current_dir = 0;
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+}
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- // Copy root dir entry to first block
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- memcpy(ram_addr + SUPERBLOCK_SIZE + blocks, &root_dir, sizeof(root_dir));
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+/*
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+* Creates directory in current directory
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+*/
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+void brfs_create_directory(word* ram_addr, char* dirname)
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+{
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+ struct brfs_superblock* superblock = (struct brfs_superblock*) ram_addr;
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-
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+ // Find first free FAT block
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+ word next_free_block = brfs_find_next_free_block(ram_addr + SUPERBLOCK_SIZE, superblock->total_blocks);
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+ if (next_free_block == -1)
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+ {
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+ uprintln("No free blocks left!");
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+ return;
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+ }
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+
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+ // Find first free dir entry
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+ word next_free_dir_entry = brfs_find_next_free_dir_entry(
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+ ram_addr + SUPERBLOCK_SIZE + superblock->total_blocks + (brfs_current_dir * superblock->bytes_per_block),
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+ superblock->bytes_per_block / sizeof(struct brfs_dir_entry)
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+ );
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+ if (next_free_dir_entry == -1)
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+ {
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+ uprintln("No free dir entries left!");
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+ return;
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+ }
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+
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+ // Create dir entry
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+ struct brfs_dir_entry new_entry;
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+ brfs_create_single_dir_entry(&new_entry, dirname, next_free_block, 0, 1);
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+
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+ // Copy dir entry to first free dir entry
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+ memcpy(
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+ ram_addr + SUPERBLOCK_SIZE + superblock->total_blocks + (brfs_current_dir * superblock->bytes_per_block) + (next_free_dir_entry * sizeof(struct brfs_dir_entry)),
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+ &new_entry,
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+ sizeof(new_entry)
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+ );
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+
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+ // Initialize directory
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+ word dir_entries_max = superblock->bytes_per_block / sizeof(struct brfs_dir_entry);
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+ brfs_init_directory(
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+ ram_addr + SUPERBLOCK_SIZE + superblock->total_blocks + (next_free_block * superblock->bytes_per_block),
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+ dir_entries_max,
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+ next_free_block,
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+ brfs_current_dir
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+ );
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+}
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+
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+/*
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+* Creates an empty file in current directory
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+*/
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+void brfs_create_file(word* ram_addr, char* filename)
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+{
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+ struct brfs_superblock* superblock = (struct brfs_superblock*) ram_addr;
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+
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+ // Find first free FAT block
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+ word next_free_block = brfs_find_next_free_block(ram_addr + SUPERBLOCK_SIZE, superblock->total_blocks);
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+ if (next_free_block == -1)
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+ {
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+ uprintln("No free blocks left!");
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+ return;
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+ }
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+
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+ // Find first free dir entry
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+ word next_free_dir_entry = brfs_find_next_free_dir_entry(
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+ ram_addr + SUPERBLOCK_SIZE + superblock->total_blocks + (brfs_current_dir * superblock->bytes_per_block),
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+ superblock->bytes_per_block / sizeof(struct brfs_dir_entry)
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+ );
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+ if (next_free_dir_entry == -1)
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+ {
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+ uprintln("No free dir entries left!");
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+ return;
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+ }
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+
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+ // Create file entry
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+ struct brfs_dir_entry new_entry;
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+ brfs_create_single_dir_entry(&new_entry, filename, next_free_block, 0, 0);
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+
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+ // Copy dir entry to first free dir entry
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+ memcpy(
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+ ram_addr + SUPERBLOCK_SIZE + superblock->total_blocks + (brfs_current_dir * superblock->bytes_per_block) + (next_free_dir_entry * sizeof(struct brfs_dir_entry)),
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+ &new_entry,
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+ sizeof(new_entry)
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+ );
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+
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+ // Initialize file by setting data to 0
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+ memset(
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+ ram_addr + SUPERBLOCK_SIZE + superblock->total_blocks + (next_free_block * superblock->bytes_per_block),
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+ 0,
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+ superblock->bytes_per_block
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+ );
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+
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+ // Update FAT
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+ ram_addr[SUPERBLOCK_SIZE + next_free_block] = -1;
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}
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@@ -172,11 +350,15 @@ int main()
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uprintln("------------------------");
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word blocks = 8;
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- word bytes_per_block = 16;
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+ word bytes_per_block = 32;
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word full_format = 1;
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brfs_format(brfs_ram_storage, blocks, bytes_per_block, "Label", full_format);
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+ brfs_create_file(brfs_ram_storage, "file1");
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+
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+ brfs_create_directory(brfs_ram_storage, "dir1");
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+
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brfs_dump(brfs_ram_storage, blocks, blocks*bytes_per_block);
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return 'q';
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