#include "fatfs.h" #include "filesystem-api.h" #include "sd-filesystem.h" #include "menu/menu.h" #include "menu/menu_item.h" #include "cli/cli.h" FS_Api* fs_api_alloc() { FS_Api* fs_api = furi_alloc(sizeof(FS_Api)); // fill file api fs_api->file.open = fs_file_open; fs_api->file.close = fs_file_close; fs_api->file.read = fs_file_read; fs_api->file.write = fs_file_write; fs_api->file.seek = fs_file_seek; fs_api->file.tell = fs_file_tell; fs_api->file.truncate = fs_file_truncate; fs_api->file.size = fs_file_size; fs_api->file.sync = fs_file_sync; fs_api->file.eof = fs_file_eof; // fill dir api fs_api->dir.open = fs_dir_open; fs_api->dir.close = fs_dir_close; fs_api->dir.read = fs_dir_read; fs_api->dir.rewind = fs_dir_rewind; // fill common api fs_api->common.info = fs_common_info; fs_api->common.remove = fs_common_remove; fs_api->common.rename = fs_common_rename; fs_api->common.set_attr = fs_common_set_attr; fs_api->common.mkdir = fs_common_mkdir; fs_api->common.set_time = fs_common_set_time; fs_api->common.get_fs_info = fs_get_fs_info; // fill errors api fs_api->error.get_desc = fs_error_get_desc; fs_api->error.get_internal_desc = fs_error_get_internal_desc; return fs_api; } void sd_set_lines(SdApp* sd_app, uint8_t count, ...) { va_list argptr; count = min(count, SD_STATE_LINES_COUNT); for(uint8_t i = 0; i < SD_STATE_LINES_COUNT; i++) { sd_app->line[i] = ""; } va_start(argptr, count); for(uint8_t i = 0; i < count; i++) { sd_app->line[i] = va_arg(argptr, char*); } va_end(argptr); } void sd_icon_draw_callback(Canvas* canvas, void* context) { furi_assert(canvas); furi_assert(context); SdApp* sd_app = context; switch(sd_app->info.status) { case SD_NO_CARD: break; case SD_OK: canvas_draw_icon(canvas, 0, 0, sd_app->icon.mounted); break; default: canvas_draw_icon(canvas, 0, 0, sd_app->icon.fail); break; } } void sd_app_draw_callback(Canvas* canvas, void* context) { furi_assert(canvas); furi_assert(context); SdApp* sd_app = context; canvas_clear(canvas); canvas_set_color(canvas, ColorBlack); canvas_set_font(canvas, FontPrimary); for(uint8_t i = 0; i < SD_STATE_LINES_COUNT; i++) { canvas_draw_str(canvas, 0, (i + 1) * 10, sd_app->line[i]); } } void sd_app_input_callback(InputEvent* event, void* context) { furi_assert(context); SdApp* sd_app = context; osMessageQueuePut(sd_app->event_queue, event, 0, 0); } SdApp* sd_app_alloc() { SdApp* sd_app = furi_alloc(sizeof(SdApp)); // init inner fs data if(!_fs_init(&sd_app->info)) { furiac_exit(NULL); } sd_app->event_queue = osMessageQueueNew(8, sizeof(InputEvent), NULL); // init view_port sd_app->view_port = view_port_alloc(); view_port_draw_callback_set(sd_app->view_port, sd_app_draw_callback, sd_app); view_port_input_callback_set(sd_app->view_port, sd_app_input_callback, sd_app); view_port_enabled_set(sd_app->view_port, false); // init lines sd_set_lines(sd_app, 0); // init icon view_port sd_app->icon.view_port = view_port_alloc(); sd_app->icon.mounted = assets_icons_get(I_SDcardMounted_11x8); sd_app->icon.fail = assets_icons_get(I_SDcardFail_11x8); view_port_set_width(sd_app->icon.view_port, icon_get_width(sd_app->icon.mounted)); view_port_draw_callback_set(sd_app->icon.view_port, sd_icon_draw_callback, sd_app); view_port_enabled_set(sd_app->icon.view_port, false); return sd_app; } bool app_sd_ask(SdApp* sd_app, InputKey input_true, InputKey input_false) { bool result; InputEvent event; while(1) { osStatus_t event_status = osMessageQueueGet(sd_app->event_queue, &event, NULL, osWaitForever); if(event_status == osOK) { if(event.type == InputTypeShort && event.key == input_true) { result = true; break; } if(event.type == InputTypeShort && event.key == InputKeyBack) { result = false; break; } } } return result; } void app_sd_info_callback(void* context) { furi_assert(context); SdApp* sd_app = context; view_port_enabled_set(sd_app->view_port, true); // dynamic strings const uint8_t str_buffer_size = 26; const uint8_t str_count = 6; char* str_buffer[str_count]; bool memory_error = false; // info vars uint32_t serial_num; SDError get_label_result, get_free_result; FATFS* fs; uint32_t free_clusters, free_sectors, total_sectors; char volume_label[34]; // init strings for(uint8_t i = 0; i < str_count; i++) { str_buffer[i] = malloc(str_buffer_size + 1); if(str_buffer[i] == NULL) { memory_error = true; } else { str_buffer[i][0] = 0; } } if(memory_error) { sd_set_lines(sd_app, 1, "not enough memory"); } else { // get fs info _fs_lock(&sd_app->info); get_label_result = f_getlabel(sd_app->info.path, volume_label, &serial_num); get_free_result = f_getfree(sd_app->info.path, &free_clusters, &fs); _fs_unlock(&sd_app->info); // calculate size total_sectors = (fs->n_fatent - 2) * fs->csize; free_sectors = free_clusters * fs->csize; uint16_t sector_size = _MAX_SS; #if _MAX_SS != _MIN_SS sector_size = fs->ssize; #endif // output info to dynamic strings if(get_label_result == SD_OK && get_free_result == SD_OK) { snprintf(str_buffer[0], str_buffer_size, "%s", volume_label); const char* fs_type = ""; switch(fs->fs_type) { case(FS_FAT12): fs_type = "FAT12"; break; case(FS_FAT16): fs_type = "FAT16"; break; case(FS_FAT32): fs_type = "FAT32"; break; case(FS_EXFAT): fs_type = "EXFAT"; break; default: fs_type = "UNKNOWN"; break; } snprintf(str_buffer[1], str_buffer_size, "%s, S/N: %lu", fs_type, serial_num); snprintf(str_buffer[2], str_buffer_size, "Cluster: %d sectors", fs->csize); snprintf(str_buffer[3], str_buffer_size, "Sector: %d bytes", sector_size); snprintf( str_buffer[4], str_buffer_size, "%lu KB total", total_sectors / 1024 * sector_size); snprintf( str_buffer[5], str_buffer_size, "%lu KB free", free_sectors / 1024 * sector_size); } else { snprintf(str_buffer[0], str_buffer_size, "SD status error:"); snprintf( str_buffer[1], str_buffer_size, "%s", fs_error_get_internal_desc(_fs_status(&sd_app->info))); snprintf(str_buffer[2], str_buffer_size, "Label error:"); snprintf( str_buffer[3], str_buffer_size, "%s", fs_error_get_internal_desc(get_label_result)); snprintf(str_buffer[4], str_buffer_size, "Get free error:"); snprintf( str_buffer[5], str_buffer_size, "%s", fs_error_get_internal_desc(get_free_result)); } // dynamic strings to screen sd_set_lines( sd_app, 6, str_buffer[0], str_buffer[1], str_buffer[2], str_buffer[3], str_buffer[4], str_buffer[5]); } app_sd_ask(sd_app, InputKeyBack, InputKeyBack); sd_set_lines(sd_app, 0); view_port_enabled_set(sd_app->view_port, false); for(uint8_t i = 0; i < str_count; i++) { free(str_buffer[i]); } } void app_sd_format_internal(SdApp* sd_app) { uint8_t* work_area; _fs_lock(&sd_app->info); work_area = malloc(_MAX_SS); if(work_area == NULL) { sd_app->info.status = SD_NOT_ENOUGH_CORE; } else { sd_app->info.status = f_mkfs(sd_app->info.path, FM_ANY, 0, work_area, _MAX_SS); free(work_area); if(sd_app->info.status == SD_OK) { // set label and mount card f_setlabel("Flipper SD"); sd_app->info.status = f_mount(&sd_app->info.fat_fs, sd_app->info.path, 1); } } _fs_unlock(&sd_app->info); } void app_sd_format_callback(void* context) { furi_assert(context); SdApp* sd_app = context; // ask to really format sd_set_lines(sd_app, 2, "Press UP to format", "or BACK to exit"); view_port_enabled_set(sd_app->view_port, true); // wait for input if(!app_sd_ask(sd_app, InputKeyUp, InputKeyBack)) { view_port_enabled_set(sd_app->view_port, false); return; } // show warning sd_set_lines(sd_app, 3, "formatting SD card", "procedure can be lengthy", "please wait"); // format card app_sd_format_internal(sd_app); if(sd_app->info.status != SD_OK) { sd_set_lines( sd_app, 2, "SD card format error", fs_error_get_internal_desc(sd_app->info.status)); } else { sd_set_lines(sd_app, 1, "SD card formatted"); } // wait for BACK app_sd_ask(sd_app, InputKeyBack, InputKeyBack); view_port_enabled_set(sd_app->view_port, false); } void app_sd_unmount_card(SdApp* sd_app) { _fs_lock(&sd_app->info); // set status sd_app->info.status = SD_NO_CARD; view_port_enabled_set(sd_app->icon.view_port, false); // close files for(uint8_t index = 0; index < SD_FS_MAX_FILES; index++) { FileData* filedata = &sd_app->info.files[index]; if(filedata->thread_id != NULL) { if(filedata->is_dir) { f_closedir(&filedata->data.dir); } else { f_close(&filedata->data.file); } filedata->thread_id = NULL; } } // unmount volume f_mount(0, sd_app->info.path, 0); _fs_unlock(&sd_app->info); } void app_sd_eject_callback(void* context) { furi_assert(context); SdApp* sd_app = context; sd_set_lines(sd_app, 1, "ejecting SD card"); view_port_enabled_set(sd_app->view_port, true); app_sd_unmount_card(sd_app); sd_set_lines(sd_app, 1, "SD card can be pulled out"); // wait for BACK app_sd_ask(sd_app, InputKeyBack, InputKeyBack); view_port_enabled_set(sd_app->view_port, false); } static void cli_sd_status(string_t args, void* _ctx) { SdApp* sd_app = (SdApp*)_ctx; printf("SD status: "); printf(fs_error_get_internal_desc(sd_app->info.status)); printf("\r\n"); } static void cli_sd_format(string_t args, void* _ctx) { SdApp* sd_app = (SdApp*)_ctx; printf("formatting SD card, please wait\r\n"); // format card app_sd_format_internal(sd_app); if(sd_app->info.status != SD_OK) { printf("SD card format error: "); printf(fs_error_get_internal_desc(sd_app->info.status)); printf("\r\n"); } else { printf("SD card formatted\r\n"); } } static void cli_sd_info(string_t args, void* _ctx) { SdApp* sd_app = (SdApp*)_ctx; const uint8_t str_buffer_size = 64; char str_buffer[str_buffer_size]; // info vars uint32_t serial_num; SDError get_label_result, get_free_result; FATFS* fs; uint32_t free_clusters, free_sectors, total_sectors; char volume_label[34]; // get fs info _fs_lock(&sd_app->info); get_label_result = f_getlabel(sd_app->info.path, volume_label, &serial_num); get_free_result = f_getfree(sd_app->info.path, &free_clusters, &fs); _fs_unlock(&sd_app->info); // calculate size total_sectors = (fs->n_fatent - 2) * fs->csize; free_sectors = free_clusters * fs->csize; uint16_t sector_size = _MAX_SS; #if _MAX_SS != _MIN_SS sector_size = fs->ssize; #endif // output info to dynamic strings if(get_label_result == SD_OK && get_free_result == SD_OK) { const char* fs_type = ""; switch(fs->fs_type) { case(FS_FAT12): fs_type = "FAT12"; break; case(FS_FAT16): fs_type = "FAT16"; break; case(FS_FAT32): fs_type = "FAT32"; break; case(FS_EXFAT): fs_type = "EXFAT"; break; default: fs_type = "UNKNOWN"; break; } snprintf(str_buffer, str_buffer_size, "Label: %s\r\n", volume_label); printf(str_buffer); snprintf(str_buffer, str_buffer_size, "%s, S/N: %lu\r\n", fs_type, serial_num); printf(str_buffer); snprintf(str_buffer, str_buffer_size, "Cluster: %d sectors\r\n", fs->csize); printf(str_buffer); snprintf(str_buffer, str_buffer_size, "Sector: %d bytes\r\n", sector_size); printf(str_buffer); snprintf( str_buffer, str_buffer_size, "%lu KB total\r\n", total_sectors / 1024 * sector_size); printf(str_buffer); snprintf( str_buffer, str_buffer_size, "%lu KB free\r\n", free_sectors / 1024 * sector_size); printf(str_buffer); } else { printf("SD status error: "); snprintf( str_buffer, str_buffer_size, "%s\r\n", fs_error_get_internal_desc(_fs_status(&sd_app->info))); printf(str_buffer); printf("Label error: "); snprintf( str_buffer, str_buffer_size, "%s\r\n", fs_error_get_internal_desc(get_label_result)); printf(str_buffer); printf("Get free error: "); snprintf( str_buffer, str_buffer_size, "%s\r\n", fs_error_get_internal_desc(get_free_result)); printf(str_buffer); } } void sd_filesystem(void* p) { SdApp* sd_app = sd_app_alloc(); FS_Api* fs_api = fs_api_alloc(); Gui* gui = furi_record_open("gui"); Cli* cli = furi_record_open("cli"); ValueMutex* menu_vm = furi_record_open("menu"); gui_add_view_port(gui, sd_app->view_port, GuiLayerFullscreen); gui_add_view_port(gui, sd_app->icon.view_port, GuiLayerStatusBarLeft); cli_add_command(cli, "sd_status", cli_sd_status, sd_app); cli_add_command(cli, "sd_format", cli_sd_format, sd_app); cli_add_command(cli, "sd_info", cli_sd_info, sd_app); // add api record furi_record_create("sdcard", fs_api); // init menu // TODO menu icon MenuItem* menu_item; menu_item = menu_item_alloc_menu("SD Card", assets_icons_get(I_SDcardMounted_11x8)); menu_item_subitem_add( menu_item, menu_item_alloc_function("Info", NULL, app_sd_info_callback, sd_app)); menu_item_subitem_add( menu_item, menu_item_alloc_function("Format", NULL, app_sd_format_callback, sd_app)); menu_item_subitem_add( menu_item, menu_item_alloc_function("Eject", NULL, app_sd_eject_callback, sd_app)); // add item to menu furi_check(menu_vm); with_value_mutex( menu_vm, (Menu * menu) { menu_item_add(menu, menu_item); }); printf("[sd_filesystem] start\r\n"); // add api record furi_record_create("sdcard", fs_api); // sd card cycle bool sd_was_present = true; while(true) { if(sd_was_present) { if(hal_gpio_read_sd_detect()) { printf("[sd_filesystem] card detected\r\n"); uint8_t bsp_result = BSP_SD_Init(); if(bsp_result) { sd_app->info.status = SD_LOW_LEVEL_ERR; printf("[sd_filesystem] bsp error: %x\n", bsp_result); } else { printf("[sd_filesystem] bsp ok\r\n"); sd_app->info.status = f_mount(&sd_app->info.fat_fs, sd_app->info.path, 1); if(sd_app->info.status != SD_OK) { printf("[sd_filesystem] mount error: %d\n", sd_app->info.status); } else { printf("[sd_filesystem] mount ok\r\n"); } } view_port_enabled_set(sd_app->icon.view_port, true); sd_was_present = false; } } else { if(!hal_gpio_read_sd_detect()) { printf("[sd_filesystem] card removed\r\n"); view_port_enabled_set(sd_app->icon.view_port, false); app_sd_unmount_card(sd_app); sd_was_present = true; } } delay(1000); } }