564 lines
15 KiB
C
564 lines
15 KiB
C
#include <stdio.h>
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#include <stdbool.h>
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#include <string.h>
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#include "platform.h"
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#include "flash_api.h"
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#include "spiffs.h"
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static spiffs fs;
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#define LOG_PAGE_SIZE 256
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#define LOG_BLOCK_SIZE (INTERNAL_FLASH_SECTOR_SIZE * 2)
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#define LOG_BLOCK_SIZE_SMALL_FS (INTERNAL_FLASH_SECTOR_SIZE)
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#define MIN_BLOCKS_FS 4
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static u8_t spiffs_work_buf[LOG_PAGE_SIZE*2];
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static u8_t spiffs_fds[32*4];
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#if SPIFFS_CACHE
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static u8_t spiffs_cache[(LOG_PAGE_SIZE+32)*2];
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#endif
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static s32_t my_spiffs_read(u32_t addr, u32_t size, u8_t *dst) {
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platform_flash_read(dst, addr, size);
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return SPIFFS_OK;
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}
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static s32_t my_spiffs_write(u32_t addr, u32_t size, u8_t *src) {
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platform_flash_write(src, addr, size);
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return SPIFFS_OK;
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}
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static s32_t my_spiffs_erase(u32_t addr, u32_t size) {
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u32_t sect_first = platform_flash_get_sector_of_address(addr);
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u32_t sect_last = sect_first;
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while( sect_first <= sect_last )
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if( platform_flash_erase_sector( sect_first ++ ) == PLATFORM_ERR )
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return SPIFFS_ERR_INTERNAL;
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return SPIFFS_OK;
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}
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void myspiffs_check_callback(spiffs_check_type type, spiffs_check_report report, u32_t arg1, u32_t arg2){
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// if(SPIFFS_CHECK_PROGRESS == report) return;
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// NODE_ERR("type: %d, report: %d, arg1: %d, arg2: %d\n", type, report, arg1, arg2);
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}
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/*******************
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The W25Q32BV array is organized into 16,384 programmable pages of 256-bytes each. Up to 256 bytes can be programmed at a time.
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Pages can be erased in groups of 16 (4KB sector erase), groups of 128 (32KB block erase), groups of 256 (64KB block erase) or
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the entire chip (chip erase). The W25Q32BV has 1,024 erasable sectors and 64 erasable blocks respectively.
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The small 4KB sectors allow for greater flexibility in applications that require data and parameter storage.
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********************/
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static bool get_spiffs_partition (spiffs_config *cfg)
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{
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platform_partition_t info;
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uint32_t next_free_offs = 0;
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uint8_t i = 0;
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while (platform_partition_info (i, &info))
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{
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if (info.type == PLATFORM_PARTITION_TYPE_NODEMCU &&
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info.subtype == PLATFORM_PARTITION_SUBTYPE_NODEMCU_SPIFFS)
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{
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cfg->phys_addr = info.offs;
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cfg->phys_size = info.size;
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return true;
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}
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else
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{
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++i;
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if ((info.offs + info.size) > next_free_offs)
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next_free_offs = info.offs + info.size;
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}
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}
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// Attempt to append a spiffs partition
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NODE_ERR("No filesystem partition found, attempting to create it...\n");
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info.type = PLATFORM_PARTITION_TYPE_NODEMCU;
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info.subtype = PLATFORM_PARTITION_SUBTYPE_NODEMCU_SPIFFS;
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strcpy ((char *)info.label, "spiffs");
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info.offs = cfg->phys_addr = next_free_offs;
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info.size = cfg->phys_size = flash_safe_get_size_byte () - info.offs;
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if (info.size <= 0)
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{
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NODE_ERR("No space available at end of flash, can't add fs partition!\n");
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return false;
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}
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if (platform_partition_add (&info))
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{
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NODE_ERR("Ok.\n");
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return true;
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}
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else
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{
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NODE_ERR("Error rewriting partition table!\n");
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return false;
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}
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}
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static bool myspiffs_mount_internal(bool force_mount)
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{
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spiffs_config cfg;
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cfg.phys_erase_block = INTERNAL_FLASH_SECTOR_SIZE; // according to datasheet
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cfg.log_page_size = LOG_PAGE_SIZE; // as we said
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cfg.log_block_size = LOG_BLOCK_SIZE;
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cfg.hal_read_f = my_spiffs_read;
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cfg.hal_write_f = my_spiffs_write;
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cfg.hal_erase_f = my_spiffs_erase;
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if (!get_spiffs_partition (&cfg))
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return false;
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if (!force_mount && SPIFFS_probe_fs (&cfg) != cfg.phys_size)
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return false;
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fs.err_code = 0;
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int res = SPIFFS_mount(&fs,
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&cfg,
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spiffs_work_buf,
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spiffs_fds,
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sizeof(spiffs_fds),
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spiffs_cache,
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sizeof(spiffs_cache),
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// myspiffs_check_callback);
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0);
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NODE_DBG("mount res: %d, %d\n", res, fs.err_code);
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return res == SPIFFS_OK;
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}
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bool myspiffs_mount() {
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return myspiffs_mount_internal(false);
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}
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void myspiffs_unmount() {
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SPIFFS_unmount(&fs);
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}
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// FS formatting function
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// Returns 1 if OK, 0 for error
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int myspiffs_format( void )
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{
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SPIFFS_unmount(&fs);
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myspiffs_mount_internal(true);
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SPIFFS_unmount(&fs);
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NODE_DBG("Formatting: size 0x%x, addr 0x%x\n", fs.cfg.phys_size, fs.cfg.phys_addr);
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s32_t res = SPIFFS_format (&fs);
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if (res < 0) {
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return 0;
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}
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return myspiffs_mount();
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}
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#if 0
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void test_spiffs() {
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char buf[12];
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// Surely, I've mounted spiffs before entering here
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spiffs_file fd = SPIFFS_open(&fs, "my_file", SPIFFS_CREAT | SPIFFS_TRUNC | SPIFFS_RDWR, 0);
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if (SPIFFS_write(&fs, fd, (u8_t *)"Hello world", 12) < 0) NODE_DBG("errno %i\n", SPIFFS_errno(&fs));
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SPIFFS_close(&fs, fd);
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fd = SPIFFS_open(&fs, "my_file", SPIFFS_RDWR, 0);
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if (SPIFFS_read(&fs, fd, (u8_t *)buf, 12) < 0) NODE_DBG("errno %i\n", SPIFFS_errno(&fs));
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SPIFFS_close(&fs, fd);
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NODE_DBG("--> %s <--\n", buf);
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}
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#endif
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// ***************************************************************************
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// vfs API
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// ***************************************************************************
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#include <stdlib.h>
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#include "vfs_int.h"
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#define MY_LDRV_ID "FLASH"
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// default current drive
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static int is_current_drive = true;
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// forward declarations
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static int32_t myspiffs_vfs_close( const struct vfs_file *fd );
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static int32_t myspiffs_vfs_read( const struct vfs_file *fd, void *ptr, size_t len );
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static int32_t myspiffs_vfs_write( const struct vfs_file *fd, const void *ptr, size_t len );
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static int32_t myspiffs_vfs_lseek( const struct vfs_file *fd, int32_t off, int whence );
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static int32_t myspiffs_vfs_eof( const struct vfs_file *fd );
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static int32_t myspiffs_vfs_tell( const struct vfs_file *fd );
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static int32_t myspiffs_vfs_flush( const struct vfs_file *fd );
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static int32_t myspiffs_vfs_ferrno( const struct vfs_file *fd );
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static int32_t myspiffs_vfs_closedir( const struct vfs_dir *dd );
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static vfs_item *myspiffs_vfs_readdir( const struct vfs_dir *dd );
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static void myspiffs_vfs_iclose( const struct vfs_item *di );
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static uint32_t myspiffs_vfs_isize( const struct vfs_item *di );
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//static const struct tm *myspiffs_vfs_time( const struct vfs_item *di );
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static const char *myspiffs_vfs_name( const struct vfs_item *di );
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static vfs_vol *myspiffs_vfs_mount( const char *name, int num );
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static vfs_file *myspiffs_vfs_open( const char *name, const char *mode );
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static vfs_dir *myspiffs_vfs_opendir( const char *name );
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static vfs_item *myspiffs_vfs_stat( const char *name );
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static int32_t myspiffs_vfs_remove( const char *name );
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static int32_t myspiffs_vfs_rename( const char *oldname, const char *newname );
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static int32_t myspiffs_vfs_fsinfo( uint32_t *total, uint32_t *used );
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static int32_t myspiffs_vfs_fscfg( uint32_t *phys_addr, uint32_t *phys_size );
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static int32_t myspiffs_vfs_format( void );
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static int32_t myspiffs_vfs_errno( void );
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static void myspiffs_vfs_clearerr( void );
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// ---------------------------------------------------------------------------
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// function tables
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//
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static vfs_fs_fns myspiffs_fs_fns = {
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.mount = myspiffs_vfs_mount,
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.open = myspiffs_vfs_open,
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.opendir = myspiffs_vfs_opendir,
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.stat = myspiffs_vfs_stat,
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.remove = myspiffs_vfs_remove,
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.rename = myspiffs_vfs_rename,
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.mkdir = NULL,
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.fsinfo = myspiffs_vfs_fsinfo,
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.fscfg = myspiffs_vfs_fscfg,
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.format = myspiffs_vfs_format,
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.chdrive = NULL,
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.chdir = NULL,
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.ferrno = myspiffs_vfs_errno,
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.clearerr = myspiffs_vfs_clearerr
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};
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static vfs_file_fns myspiffs_file_fns = {
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.close = myspiffs_vfs_close,
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.read = myspiffs_vfs_read,
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.write = myspiffs_vfs_write,
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.lseek = myspiffs_vfs_lseek,
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.eof = myspiffs_vfs_eof,
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.tell = myspiffs_vfs_tell,
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.flush = myspiffs_vfs_flush,
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.size = NULL,
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.ferrno = myspiffs_vfs_ferrno
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};
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static vfs_item_fns myspiffs_item_fns = {
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.close = myspiffs_vfs_iclose,
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.size = myspiffs_vfs_isize,
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.time = NULL,
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.name = myspiffs_vfs_name,
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.is_dir = NULL,
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.is_rdonly = NULL,
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.is_hidden = NULL,
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.is_sys = NULL,
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.is_arch = NULL
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};
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static vfs_dir_fns myspiffs_dd_fns = {
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.close = myspiffs_vfs_closedir,
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.readdir = myspiffs_vfs_readdir
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};
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// ---------------------------------------------------------------------------
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// specific struct extensions
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//
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struct myvfs_file {
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struct vfs_file vfs_file;
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spiffs_file fh;
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};
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struct myvfs_dir {
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struct vfs_dir vfs_dir;
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spiffs_DIR d;
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};
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struct myvfs_stat {
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struct vfs_item vfs_item;
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spiffs_stat s;
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};
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// ---------------------------------------------------------------------------
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// stat functions
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//
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#define GET_STAT_S(descr) \
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const struct myvfs_stat *mystat = (const struct myvfs_stat *)descr; \
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spiffs_stat *s = (spiffs_stat *)&(mystat->s);
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static void myspiffs_vfs_iclose( const struct vfs_item *di ) {
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// free descriptor memory
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free( (void *)di );
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}
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static uint32_t myspiffs_vfs_isize( const struct vfs_item *di ) {
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GET_STAT_S(di);
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return s->size;
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}
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static const char *myspiffs_vfs_name( const struct vfs_item *di ) {
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GET_STAT_S(di);
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return (const char *)s->name;
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}
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// ---------------------------------------------------------------------------
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// dir functions
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//
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#define GET_DIR_D(descr) \
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const struct myvfs_dir *mydd = (const struct myvfs_dir *)descr; \
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spiffs_DIR *d = (spiffs_DIR *)&(mydd->d);
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static int32_t myspiffs_vfs_closedir( const struct vfs_dir *dd ) {
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GET_DIR_D(dd);
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int32_t res = SPIFFS_closedir( d );
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// free descriptor memory
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free( (void *)dd );
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return res;
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}
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static vfs_item *myspiffs_vfs_readdir( const struct vfs_dir *dd ) {
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GET_DIR_D(dd);
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struct myvfs_stat *stat;
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struct spiffs_dirent dirent;
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if ((stat = malloc( sizeof( struct myvfs_stat ) ))) {
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if (SPIFFS_readdir( d, &dirent )) {
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stat->vfs_item.fs_type = VFS_FS_FATFS;
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stat->vfs_item.fns = &myspiffs_item_fns;
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// copy entries to vfs' directory item
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stat->s.size = dirent.size;
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strncpy((char *)stat->s.name, (char *)dirent.name, SPIFFS_OBJ_NAME_LEN );
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return (vfs_item *)stat;
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} else {
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free( stat );
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}
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}
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return NULL;
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}
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// ---------------------------------------------------------------------------
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// file functions
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//
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#define GET_FILE_FH(descr) \
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const struct myvfs_file *myfd = (const struct myvfs_file *)descr; \
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spiffs_file fh = myfd->fh;
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static int32_t myspiffs_vfs_close( const struct vfs_file *fd ) {
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GET_FILE_FH(fd);
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int32_t res = SPIFFS_close( &fs, fh );
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// free descriptor memory
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free( (void *)fd );
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return res;
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}
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static int32_t myspiffs_vfs_read( const struct vfs_file *fd, void *ptr, size_t len ) {
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GET_FILE_FH(fd);
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return SPIFFS_read( &fs, fh, ptr, len );
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}
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static int32_t myspiffs_vfs_write( const struct vfs_file *fd, const void *ptr, size_t len ) {
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GET_FILE_FH(fd);
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return SPIFFS_write( &fs, fh, (void *)ptr, len );
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}
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static int32_t myspiffs_vfs_lseek( const struct vfs_file *fd, int32_t off, int whence ) {
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GET_FILE_FH(fd);
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int spiffs_whence;
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switch (whence) {
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default:
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case VFS_SEEK_SET:
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spiffs_whence = SPIFFS_SEEK_SET;
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break;
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case VFS_SEEK_CUR:
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spiffs_whence = SPIFFS_SEEK_CUR;
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break;
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case VFS_SEEK_END:
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spiffs_whence = SPIFFS_SEEK_END;
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break;
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}
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return SPIFFS_lseek( &fs, fh, off, spiffs_whence );
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}
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static int32_t myspiffs_vfs_eof( const struct vfs_file *fd ) {
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GET_FILE_FH(fd);
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return SPIFFS_eof( &fs, fh );
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}
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static int32_t myspiffs_vfs_tell( const struct vfs_file *fd ) {
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GET_FILE_FH(fd);
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return SPIFFS_tell( &fs, fh );
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}
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static int32_t myspiffs_vfs_flush( const struct vfs_file *fd ) {
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GET_FILE_FH(fd);
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return SPIFFS_fflush( &fs, fh ) >= 0 ? VFS_RES_OK : VFS_RES_ERR;
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}
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static int32_t myspiffs_vfs_ferrno( const struct vfs_file *fd ) {
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return SPIFFS_errno( &fs );
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}
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static int fs_mode2flag(const char *mode){
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if(strlen(mode)==1){
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if(strcmp(mode,"w")==0)
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return SPIFFS_WRONLY|SPIFFS_CREAT|SPIFFS_TRUNC;
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else if(strcmp(mode, "r")==0)
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return SPIFFS_RDONLY;
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else if(strcmp(mode, "a")==0)
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return SPIFFS_WRONLY|SPIFFS_CREAT|SPIFFS_APPEND;
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else
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return SPIFFS_RDONLY;
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} else if (strlen(mode)==2){
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if(strcmp(mode,"r+")==0)
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return SPIFFS_RDWR;
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else if(strcmp(mode, "w+")==0)
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return SPIFFS_RDWR|SPIFFS_CREAT|SPIFFS_TRUNC;
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else if(strcmp(mode, "a+")==0)
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return SPIFFS_RDWR|SPIFFS_CREAT|SPIFFS_APPEND;
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else
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return SPIFFS_RDONLY;
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} else {
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return SPIFFS_RDONLY;
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}
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}
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// ---------------------------------------------------------------------------
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// filesystem functions
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//
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static vfs_file *myspiffs_vfs_open( const char *name, const char *mode ) {
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struct myvfs_file *fd;
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int flags = fs_mode2flag( mode );
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if ((fd = (struct myvfs_file *)malloc( sizeof( struct myvfs_file ) ))) {
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if (0 < (fd->fh = SPIFFS_open( &fs, name, flags, 0 ))) {
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fd->vfs_file.fs_type = VFS_FS_SPIFFS;
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fd->vfs_file.fns = &myspiffs_file_fns;
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return (vfs_file *)fd;
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} else {
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free( fd );
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}
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}
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return NULL;
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}
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static vfs_dir *myspiffs_vfs_opendir( const char *name ){
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struct myvfs_dir *dd;
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if ((dd = (struct myvfs_dir *)malloc( sizeof( struct myvfs_dir ) ))) {
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if (SPIFFS_opendir( &fs, name, &(dd->d) )) {
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dd->vfs_dir.fs_type = VFS_FS_SPIFFS;
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dd->vfs_dir.fns = &myspiffs_dd_fns;
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return (vfs_dir *)dd;
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} else {
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free( dd );
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}
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}
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return NULL;
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}
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static vfs_item *myspiffs_vfs_stat( const char *name ) {
|
||
struct myvfs_stat *s;
|
||
|
||
if ((s = (struct myvfs_stat *)malloc( sizeof( struct myvfs_stat ) ))) {
|
||
if (0 <= SPIFFS_stat( &fs, name, &(s->s) )) {
|
||
s->vfs_item.fs_type = VFS_FS_SPIFFS;
|
||
s->vfs_item.fns = &myspiffs_item_fns;
|
||
return (vfs_item *)s;
|
||
} else {
|
||
free( s );
|
||
}
|
||
}
|
||
|
||
return NULL;
|
||
}
|
||
|
||
static int32_t myspiffs_vfs_remove( const char *name ) {
|
||
return SPIFFS_remove( &fs, name );
|
||
}
|
||
|
||
static int32_t myspiffs_vfs_rename( const char *oldname, const char *newname ) {
|
||
return SPIFFS_rename( &fs, oldname, newname );
|
||
}
|
||
|
||
static int32_t myspiffs_vfs_fsinfo( uint32_t *total, uint32_t *used ) {
|
||
return SPIFFS_info( &fs, total, used );
|
||
}
|
||
|
||
static int32_t myspiffs_vfs_fscfg( uint32_t *phys_addr, uint32_t *phys_size ) {
|
||
*phys_addr = fs.cfg.phys_addr;
|
||
*phys_size = fs.cfg.phys_size;
|
||
return VFS_RES_OK;
|
||
}
|
||
|
||
static vfs_vol *myspiffs_vfs_mount( const char *name, int num ) {
|
||
// volume descriptor not supported, just return true / false
|
||
return myspiffs_mount() ? (vfs_vol *)1 : NULL;
|
||
}
|
||
|
||
static int32_t myspiffs_vfs_format( void ) {
|
||
return myspiffs_format();
|
||
}
|
||
|
||
static int32_t myspiffs_vfs_errno( void ) {
|
||
return SPIFFS_errno( &fs );
|
||
}
|
||
|
||
static void myspiffs_vfs_clearerr( void ) {
|
||
SPIFFS_clearerr( &fs );
|
||
}
|
||
|
||
|
||
// ---------------------------------------------------------------------------
|
||
// VFS interface functions
|
||
//
|
||
vfs_fs_fns *myspiffs_realm( const char *inname, char **outname, int set_current_drive ) {
|
||
if (inname[0] == '/') {
|
||
size_t idstr_len = strlen( MY_LDRV_ID );
|
||
// logical drive is specified, check if it's our id
|
||
if (0 == strncmp( &(inname[1]), MY_LDRV_ID, idstr_len )) {
|
||
*outname = (char *)&(inname[1 + idstr_len]);
|
||
if (*outname[0] == '/') {
|
||
// skip leading /
|
||
(*outname)++;
|
||
}
|
||
|
||
if (set_current_drive) is_current_drive = true;
|
||
return &myspiffs_fs_fns;
|
||
}
|
||
} else {
|
||
// no logical drive in patchspec, are we current drive?
|
||
if (is_current_drive) {
|
||
*outname = (char *)inname;
|
||
return &myspiffs_fs_fns;
|
||
}
|
||
}
|
||
|
||
if (set_current_drive) is_current_drive = false;
|
||
return NULL;
|
||
}
|