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tangara-fw/lib/lvgl/src/misc/lv_fs.c

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/**
* @file lv_fs.c
*
*/
/*********************
* INCLUDES
*********************/
#include "lv_fs.h"
#include "../misc/lv_assert.h"
#include "lv_ll.h"
#include <string.h>
#include "lv_gc.h"
/*********************
* DEFINES
*********************/
/**********************
* TYPEDEFS
**********************/
/**********************
* STATIC PROTOTYPES
**********************/
static const char * lv_fs_get_real_path(const char * path);
/**********************
* STATIC VARIABLES
**********************/
/**********************
* MACROS
**********************/
/**********************
* GLOBAL FUNCTIONS
**********************/
void _lv_fs_init(void)
{
_lv_ll_init(&LV_GC_ROOT(_lv_fsdrv_ll), sizeof(lv_fs_drv_t *));
}
bool lv_fs_is_ready(char letter)
{
lv_fs_drv_t * drv = lv_fs_get_drv(letter);
if(drv == NULL) return false; /*An unknown driver in not ready*/
if(drv->ready_cb == NULL) return true; /*Assume the driver is always ready if no handler provided*/
return drv->ready_cb(drv);
}
lv_fs_res_t lv_fs_open(lv_fs_file_t * file_p, const char * path, lv_fs_mode_t mode)
{
if(path == NULL) {
LV_LOG_WARN("Can't open file: path is NULL");
return LV_FS_RES_INV_PARAM;
}
char letter = path[0];
lv_fs_drv_t * drv = lv_fs_get_drv(letter);
if(drv == NULL) {
LV_LOG_WARN("Can't open file (%s): unknown driver letter", path);
return LV_FS_RES_NOT_EX;
}
if(drv->ready_cb) {
if(drv->ready_cb(drv) == false) {
LV_LOG_WARN("Can't open file (%s): driver not ready", path);
return LV_FS_RES_HW_ERR;
}
}
if(drv->open_cb == NULL) {
LV_LOG_WARN("Can't open file (%s): open function not exists", path);
return LV_FS_RES_NOT_IMP;
}
const char * real_path = lv_fs_get_real_path(path);
void * file_d = drv->open_cb(drv, real_path, mode);
if(file_d == NULL || file_d == (void *)(-1)) {
return LV_FS_RES_UNKNOWN;
}
file_p->drv = drv;
file_p->file_d = file_d;
if(drv->cache_size) {
file_p->cache = lv_mem_alloc(sizeof(lv_fs_file_cache_t));
LV_ASSERT_MALLOC(file_p->cache);
lv_memset_00(file_p->cache, sizeof(lv_fs_file_cache_t));
file_p->cache->start = UINT32_MAX; /*Set an invalid range by default*/
file_p->cache->end = UINT32_MAX - 1;
}
return LV_FS_RES_OK;
}
lv_fs_res_t lv_fs_close(lv_fs_file_t * file_p)
{
if(file_p->drv == NULL) {
return LV_FS_RES_INV_PARAM;
}
if(file_p->drv->close_cb == NULL) {
return LV_FS_RES_NOT_IMP;
}
lv_fs_res_t res = file_p->drv->close_cb(file_p->drv, file_p->file_d);
if(file_p->drv->cache_size && file_p->cache) {
if(file_p->cache->buffer) {
lv_mem_free(file_p->cache->buffer);
}
lv_mem_free(file_p->cache);
}
file_p->file_d = NULL;
file_p->drv = NULL;
file_p->cache = NULL;
return res;
}
static lv_fs_res_t lv_fs_read_cached(lv_fs_file_t * file_p, char * buf, uint32_t btr, uint32_t * br)
{
lv_fs_res_t res = LV_FS_RES_OK;
uint32_t file_position = file_p->cache->file_position;
uint32_t start = file_p->cache->start;
uint32_t end = file_p->cache->end;
char * buffer = file_p->cache->buffer;
uint16_t buffer_size = file_p->drv->cache_size;
if(start <= file_position && file_position < end) {
/* Data can be read from cache buffer */
uint16_t buffer_offset = file_position - start;
uint32_t buffer_remaining_length = LV_MIN((uint32_t)buffer_size - buffer_offset, (uint32_t)end - file_position);
if(btr <= buffer_remaining_length) {
/*Data is in cache buffer, and buffer end not reached, no need to read from FS*/
lv_memcpy(buf, buffer + buffer_offset, btr);
*br = btr;
}
else {
/*First part of data is in cache buffer, but we need to read rest of data from FS*/
lv_memcpy(buf, buffer + buffer_offset, buffer_remaining_length);
uint32_t bytes_read_to_buffer = 0;
if(btr > buffer_size) {
/*If remaining data chuck is bigger than buffer size, then do not use cache, instead read it directly from FS*/
res = file_p->drv->read_cb(file_p->drv, file_p->file_d, (void *)(buf + buffer_remaining_length),
btr - buffer_remaining_length, &bytes_read_to_buffer);
}
else {
/*If remaining data chunk is smaller than buffer size, then read into cache buffer*/
res = file_p->drv->read_cb(file_p->drv, file_p->file_d, (void *)buffer, buffer_size, &bytes_read_to_buffer);
file_p->cache->start = file_p->cache->end;
file_p->cache->end = file_p->cache->start + bytes_read_to_buffer;
uint16_t data_chunk_remaining = LV_MIN(btr - buffer_remaining_length, bytes_read_to_buffer);
lv_memcpy(buf + buffer_remaining_length, buffer, data_chunk_remaining);
}
*br = LV_MIN(buffer_remaining_length + bytes_read_to_buffer, btr);
}
}
else {
/*Data is not in cache buffer*/
if(btr > buffer_size) {
/*If bigger data is requested, then do not use cache, instead read it directly*/
res = file_p->drv->read_cb(file_p->drv, file_p->file_d, (void *)buf, btr, br);
}
else {
/*If small data is requested, then read from FS into cache buffer*/
if(buffer == NULL) {
file_p->cache->buffer = lv_mem_alloc(buffer_size);
LV_ASSERT_MALLOC(file_p->cache->buffer);
buffer = file_p->cache->buffer;
}
uint32_t bytes_read_to_buffer = 0;
res = file_p->drv->read_cb(file_p->drv, file_p->file_d, (void *)buffer, buffer_size, &bytes_read_to_buffer);
file_p->cache->start = file_position;
file_p->cache->end = file_p->cache->start + bytes_read_to_buffer;
*br = LV_MIN(btr, bytes_read_to_buffer);
lv_memcpy(buf, buffer, *br);
}
}
if(res == LV_FS_RES_OK) {
file_p->cache->file_position += *br;
}
return res;
}
lv_fs_res_t lv_fs_read(lv_fs_file_t * file_p, void * buf, uint32_t btr, uint32_t * br)
{
if(br != NULL) *br = 0;
if(file_p->drv == NULL) return LV_FS_RES_INV_PARAM;
if(file_p->drv->read_cb == NULL) return LV_FS_RES_NOT_IMP;
uint32_t br_tmp = 0;
lv_fs_res_t res;
if(file_p->drv->cache_size) {
res = lv_fs_read_cached(file_p, (char *)buf, btr, &br_tmp);
}
else {
res = file_p->drv->read_cb(file_p->drv, file_p->file_d, buf, btr, &br_tmp);
}
if(br != NULL) *br = br_tmp;
return res;
}
lv_fs_res_t lv_fs_write(lv_fs_file_t * file_p, const void * buf, uint32_t btw, uint32_t * bw)
{
if(bw != NULL) *bw = 0;
if(file_p->drv == NULL) {
return LV_FS_RES_INV_PARAM;
}
if(file_p->drv->write_cb == NULL) {
return LV_FS_RES_NOT_IMP;
}
uint32_t bw_tmp = 0;
lv_fs_res_t res = file_p->drv->write_cb(file_p->drv, file_p->file_d, buf, btw, &bw_tmp);
if(bw != NULL) *bw = bw_tmp;
return res;
}
lv_fs_res_t lv_fs_seek(lv_fs_file_t * file_p, uint32_t pos, lv_fs_whence_t whence)
{
if(file_p->drv == NULL) {
return LV_FS_RES_INV_PARAM;
}
if(file_p->drv->seek_cb == NULL) {
return LV_FS_RES_NOT_IMP;
}
lv_fs_res_t res = LV_FS_RES_OK;
if(file_p->drv->cache_size) {
switch(whence) {
case LV_FS_SEEK_SET: {
file_p->cache->file_position = pos;
/*FS seek if new position is outside cache buffer*/
if(file_p->cache->file_position < file_p->cache->start || file_p->cache->file_position > file_p->cache->end) {
res = file_p->drv->seek_cb(file_p->drv, file_p->file_d, file_p->cache->file_position, LV_FS_SEEK_SET);
}
break;
}
case LV_FS_SEEK_CUR: {
file_p->cache->file_position += pos;
/*FS seek if new position is outside cache buffer*/
if(file_p->cache->file_position < file_p->cache->start || file_p->cache->file_position > file_p->cache->end) {
res = file_p->drv->seek_cb(file_p->drv, file_p->file_d, file_p->cache->file_position, LV_FS_SEEK_SET);
}
break;
}
case LV_FS_SEEK_END: {
/*Because we don't know the file size, we do a little trick: do a FS seek, then get new file position from FS*/
res = file_p->drv->seek_cb(file_p->drv, file_p->file_d, pos, whence);
if(res == LV_FS_RES_OK) {
uint32_t tmp_position;
res = file_p->drv->tell_cb(file_p->drv, file_p->file_d, &tmp_position);
if(res == LV_FS_RES_OK) {
file_p->cache->file_position = tmp_position;
}
}
break;
}
}
}
else {
res = file_p->drv->seek_cb(file_p->drv, file_p->file_d, pos, whence);
}
return res;
}
lv_fs_res_t lv_fs_tell(lv_fs_file_t * file_p, uint32_t * pos)
{
if(file_p->drv == NULL) {
*pos = 0;
return LV_FS_RES_INV_PARAM;
}
if(file_p->drv->tell_cb == NULL) {
*pos = 0;
return LV_FS_RES_NOT_IMP;
}
lv_fs_res_t res;
if(file_p->drv->cache_size) {
*pos = file_p->cache->file_position;
res = LV_FS_RES_OK;
}
else {
res = file_p->drv->tell_cb(file_p->drv, file_p->file_d, pos);
}
return res;
}
lv_fs_res_t lv_fs_dir_open(lv_fs_dir_t * rddir_p, const char * path)
{
if(path == NULL) return LV_FS_RES_INV_PARAM;
char letter = path[0];
lv_fs_drv_t * drv = lv_fs_get_drv(letter);
if(drv == NULL) {
return LV_FS_RES_NOT_EX;
}
if(drv->ready_cb) {
if(drv->ready_cb(drv) == false) {
return LV_FS_RES_HW_ERR;
}
}
if(drv->dir_open_cb == NULL) {
return LV_FS_RES_NOT_IMP;
}
const char * real_path = lv_fs_get_real_path(path);
void * dir_d = drv->dir_open_cb(drv, real_path);
if(dir_d == NULL || dir_d == (void *)(-1)) {
return LV_FS_RES_UNKNOWN;
}
rddir_p->drv = drv;
rddir_p->dir_d = dir_d;
return LV_FS_RES_OK;
}
lv_fs_res_t lv_fs_dir_read(lv_fs_dir_t * rddir_p, char * fn)
{
if(rddir_p->drv == NULL || rddir_p->dir_d == NULL) {
fn[0] = '\0';
return LV_FS_RES_INV_PARAM;
}
if(rddir_p->drv->dir_read_cb == NULL) {
fn[0] = '\0';
return LV_FS_RES_NOT_IMP;
}
lv_fs_res_t res = rddir_p->drv->dir_read_cb(rddir_p->drv, rddir_p->dir_d, fn);
return res;
}
lv_fs_res_t lv_fs_dir_close(lv_fs_dir_t * rddir_p)
{
if(rddir_p->drv == NULL || rddir_p->dir_d == NULL) {
return LV_FS_RES_INV_PARAM;
}
if(rddir_p->drv->dir_close_cb == NULL) {
return LV_FS_RES_NOT_IMP;
}
lv_fs_res_t res = rddir_p->drv->dir_close_cb(rddir_p->drv, rddir_p->dir_d);
rddir_p->dir_d = NULL;
rddir_p->drv = NULL;
return res;
}
void lv_fs_drv_init(lv_fs_drv_t * drv)
{
lv_memset_00(drv, sizeof(lv_fs_drv_t));
}
void lv_fs_drv_register(lv_fs_drv_t * drv_p)
{
/*Save the new driver*/
lv_fs_drv_t ** new_drv;
new_drv = _lv_ll_ins_head(&LV_GC_ROOT(_lv_fsdrv_ll));
LV_ASSERT_MALLOC(new_drv);
if(new_drv == NULL) return;
*new_drv = drv_p;
}
lv_fs_drv_t * lv_fs_get_drv(char letter)
{
lv_fs_drv_t ** drv;
_LV_LL_READ(&LV_GC_ROOT(_lv_fsdrv_ll), drv) {
if((*drv)->letter == letter) {
return *drv;
}
}
return NULL;
}
char * lv_fs_get_letters(char * buf)
{
lv_fs_drv_t ** drv;
uint8_t i = 0;
_LV_LL_READ(&LV_GC_ROOT(_lv_fsdrv_ll), drv) {
buf[i] = (*drv)->letter;
i++;
}
buf[i] = '\0';
return buf;
}
const char * lv_fs_get_ext(const char * fn)
{
size_t i;
for(i = strlen(fn); i > 0; i--) {
if(fn[i] == '.') {
return &fn[i + 1];
}
else if(fn[i] == '/' || fn[i] == '\\') {
return ""; /*No extension if a '\' or '/' found*/
}
}
return ""; /*Empty string if no '.' in the file name.*/
}
char * lv_fs_up(char * path)
{
size_t len = strlen(path);
if(len == 0) return path;
len--; /*Go before the trailing '\0'*/
/*Ignore trailing '/' or '\'*/
while(path[len] == '/' || path[len] == '\\') {
path[len] = '\0';
if(len > 0)
len--;
else
return path;
}
size_t i;
for(i = len; i > 0; i--) {
if(path[i] == '/' || path[i] == '\\') break;
}
if(i > 0) path[i] = '\0';
return path;
}
const char * lv_fs_get_last(const char * path)
{
size_t len = strlen(path);
if(len == 0) return path;
len--; /*Go before the trailing '\0'*/
/*Ignore trailing '/' or '\'*/
while(path[len] == '/' || path[len] == '\\') {
if(len > 0)
len--;
else
return path;
}
size_t i;
for(i = len; i > 0; i--) {
if(path[i] == '/' || path[i] == '\\') break;
}
/*No '/' or '\' in the path so return with path itself*/
if(i == 0) return path;
return &path[i + 1];
}
/**********************
* STATIC FUNCTIONS
**********************/
/**
* Skip the driver letter and the possible : after the letter
* @param path path string (E.g. S:/folder/file.txt)
* @return pointer to the beginning of the real path (E.g. /folder/file.txt)
*/
static const char * lv_fs_get_real_path(const char * path)
{
path++; /*Ignore the driver letter*/
if(*path == ':') path++;
return path;
}