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arduino-esp32/cores/esp32/FirmwareMSC.cpp
Me No Dev 5bb8177aa1
Add initial support for USB MSC (#5466) 
* Add initial support for USB MSC

* Add Firmware Upload/Download With MSC

Current running firmware is available as file inside the MSC Disk. To update the firmware on the ESP, just copy a regular firmware bin into the drive

* Support overwriting of the firmware file

Overwriting a file is done totally differently on MacOS, Windows and Linux. This change supports it on all of them.

* Allow CDC, FirmwareMSC and DFU to be enabled on boot

* Add example ESP32-S2 USB-ONLY board

* Various device code optimizations

Added `end()` methods to MSC classes
Made begin() methods safe to be called multiple times
Optimized CDC class

* Fix CDC Connect/Disconnect detection in Arduino IDE on Windows

* Rework cdc_write

* Update ESP32-S2 board configs
2021-08-02 15:35:13 +03:00

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// Copyright 2015-2021 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include <cstring>
#include "FirmwareMSC.h"
#include "esp_partition.h"
#include "esp_ota_ops.h"
#include "esp32-hal.h"
#include "pins_arduino.h"
#include "firmware_msc_fat.h"
#if CONFIG_TINYUSB_MSC_ENABLED
#ifndef USB_FW_MSC_VENDOR_ID
#define USB_FW_MSC_VENDOR_ID "ESP32" //max 8 chars
#endif
#ifndef USB_FW_MSC_PRODUCT_ID
#define USB_FW_MSC_PRODUCT_ID "Firmware MSC"//max 16 chars
#endif
#ifndef USB_FW_MSC_PRODUCT_REVISION
#define USB_FW_MSC_PRODUCT_REVISION "1.0" //max 4 chars
#endif
#ifndef USB_FW_MSC_VOLUME_NAME
#define USB_FW_MSC_VOLUME_NAME "ESP32-FWMSC" //max 11 chars
#endif
#ifndef USB_FW_MSC_SERIAL_NUMBER
#define USB_FW_MSC_SERIAL_NUMBER 0x00000000
#endif
ESP_EVENT_DEFINE_BASE(ARDUINO_FIRMWARE_MSC_EVENTS);
esp_err_t arduino_usb_event_post(esp_event_base_t event_base, int32_t event_id, void *event_data, size_t event_data_size, TickType_t ticks_to_wait);
esp_err_t arduino_usb_event_handler_register_with(esp_event_base_t event_base, int32_t event_id, esp_event_handler_t event_handler, void *event_handler_arg);
//General Variables
static uint8_t * msc_ram_disk = NULL;
static fat_boot_sector_t * msc_boot = NULL;
static uint8_t * msc_table = NULL;
static uint16_t msc_table_sectors = 0;
static uint16_t msc_total_sectors = 0;
static bool mcs_is_fat16 = false;
//Firmware Read
static const esp_partition_t* msc_run_partition = NULL;
static uint16_t fw_start_sector = 0;
static uint16_t fw_end_sector = 0;
static size_t fw_size = 0;
static fat_dir_entry_t * fw_entry = NULL;
//Firmware Write
typedef enum {
MSC_UPDATE_IDLE,
MSC_UPDATE_STARTING,
MSC_UPDATE_RUNNING,
MSC_UPDATE_END
} msc_update_state_t;
static const esp_partition_t* msc_ota_partition = NULL;
static msc_update_state_t msc_update_state = MSC_UPDATE_IDLE;
static uint16_t msc_update_start_sector = 0;
static uint32_t msc_update_bytes_written = 0;
static fat_dir_entry_t * msc_update_entry = NULL;
static uint32_t get_firmware_size(const esp_partition_t* partition){
esp_image_metadata_t data;
const esp_partition_pos_t running_pos = {
.offset = partition->address,
.size = partition->size,
};
data.start_addr = running_pos.offset;
esp_image_verify(ESP_IMAGE_VERIFY, &running_pos, &data);
return data.image_len;
}
//Get number of sectors required based on the size of the firmware and OTA partition
static size_t msc_update_get_required_disk_sectors(){
size_t data_sectors = 16;
size_t total_sectors = 0;
msc_run_partition = esp_ota_get_running_partition();
msc_ota_partition = esp_ota_get_next_update_partition(NULL);
if(msc_run_partition){
fw_size = get_firmware_size(msc_run_partition);
data_sectors += FAT_SIZE_TO_SECTORS(fw_size);
log_d("APP size: %u (%u sectors)", fw_size, FAT_SIZE_TO_SECTORS(fw_size));
} else {
log_w("APP partition not found. Reading disabled");
}
if(msc_ota_partition){
data_sectors += FAT_SIZE_TO_SECTORS(msc_ota_partition->size);
log_d("OTA size: %u (%u sectors)", msc_ota_partition->size, FAT_SIZE_TO_SECTORS(msc_ota_partition->size));
} else {
log_w("OTA partition not found. Writing disabled");
}
msc_table_sectors = fat_sectors_per_alloc_table(data_sectors, false);
total_sectors = data_sectors + msc_table_sectors + 2;
if(total_sectors > 0xFF4){
log_d("USING FAT16");
mcs_is_fat16 = true;
total_sectors -= msc_table_sectors;
msc_table_sectors = fat_sectors_per_alloc_table(data_sectors, true);
total_sectors += msc_table_sectors;
} else {
log_d("USING FAT12");
mcs_is_fat16 = false;
}
log_d("FAT data sectors: %u", data_sectors);
log_d("FAT table sectors: %u", msc_table_sectors);
log_d("FAT total sectors: %u (%uKB)", total_sectors, (total_sectors * DISK_SECTOR_SIZE) / 1024);
return total_sectors;
}
//setup the ramdisk and add the firmware download file
static bool msc_update_setup_disk(const char * volume_label, uint32_t serial_number){
msc_total_sectors = msc_update_get_required_disk_sectors();
uint8_t ram_sectors = msc_table_sectors + 2;
msc_ram_disk = (uint8_t*)calloc(ram_sectors, DISK_SECTOR_SIZE);
if(!msc_ram_disk){
log_e("Failed to allocate RAM Disk: %u bytes", ram_sectors * DISK_SECTOR_SIZE);
return false;
}
fw_start_sector = ram_sectors;
fw_end_sector = fw_start_sector;
msc_boot = fat_add_boot_sector(msc_ram_disk, msc_total_sectors, msc_table_sectors, fat_file_system_type(mcs_is_fat16), volume_label, serial_number);
msc_table = fat_add_table(msc_ram_disk, msc_boot, mcs_is_fat16);
//fat_dir_entry_t * label = fat_add_label(msc_ram_disk, volume_label);
if(msc_run_partition){
fw_entry = fat_add_root_file(msc_ram_disk, 0, "FIRMWARE", "BIN", fw_size, 2, mcs_is_fat16);
fw_end_sector = FAT_SIZE_TO_SECTORS(fw_size) + fw_start_sector;
}
return true;
}
static void msc_update_delete_disk(){
fw_entry = NULL;
fw_size = 0;
fw_end_sector = 0;
fw_start_sector = 0;
msc_table = NULL;
msc_boot = NULL;
msc_table_sectors = 0;
msc_total_sectors = 0;
msc_run_partition = NULL;
msc_ota_partition = NULL;
msc_update_state = MSC_UPDATE_IDLE;
msc_update_start_sector = 0;
msc_update_bytes_written = 0;
msc_update_entry = NULL;
free(msc_ram_disk);
msc_ram_disk = NULL;
}
//filter out entries to only include BINs in the root folder
static fat_dir_entry_t * msc_update_get_root_bin_entry(uint8_t index){
fat_dir_entry_t * entry = (fat_dir_entry_t *)(msc_ram_disk + ((msc_boot->sectors_per_alloc_table+1) * DISK_SECTOR_SIZE) + (index * sizeof(fat_dir_entry_t)));
fat_lfn_entry_t * lfn = (fat_lfn_entry_t*)entry;
//empty entry
if(entry->file_magic == 0){
return NULL;
}
//long file name
if(lfn->attr == 0x0F && lfn->type == 0x00 && lfn->first_cluster == 0x0000){
return NULL;
}
//only files marked as archives
if(entry->file_attr != FAT_FILE_ATTR_ARCHIVE){
return NULL;
}
//deleted
if(entry->file_magic == 0xE5 || entry->file_magic == 0x05){
return NULL;
}
//not bins
if(memcmp("BIN", entry->file_extension, 3)){
return NULL;
}
return entry;
}
//get an empty bin (the host will add an entry for file about to be written with size of zero)
static fat_dir_entry_t * msc_update_find_new_bin(){
for(uint8_t i=16; i;){
i--;
fat_dir_entry_t * entry = msc_update_get_root_bin_entry(i);
if(entry && entry->file_size == 0){
return entry;
}
}
return NULL;
}
//get a bin starting from particular sector
static fat_dir_entry_t * msc_update_find_bin(uint16_t sector){
for(uint8_t i=16; i; ){
i--;
fat_dir_entry_t * entry = msc_update_get_root_bin_entry(i);
if(entry && entry->data_start_sector == (sector - msc_boot->sectors_per_alloc_table)){
return entry;
}
}
return NULL;
}
//write the new data and erase the flash blocks when necessary
static esp_err_t msc_update_write(const esp_partition_t *partition, uint32_t offset, void *data, size_t size){
esp_err_t err = ESP_OK;
if((offset & (SPI_FLASH_SEC_SIZE-1)) == 0){
err = esp_partition_erase_range(partition, offset, SPI_FLASH_SEC_SIZE);
log_v("ERASE[0x%08X]: %s", offset, (err != ESP_OK)?"FAIL":"OK");
if(err != ESP_OK){
return err;
}
}
return esp_partition_write(partition, offset, data, size);
}
//called when error was encountered while updating
static void msc_update_error(){
log_e("UPDATE_ERROR: %u", msc_update_bytes_written);
arduino_firmware_msc_event_data_t p = {0};
p.error.size = msc_update_bytes_written;
arduino_usb_event_post(ARDUINO_FIRMWARE_MSC_EVENTS, ARDUINO_FIRMWARE_MSC_ERROR_EVENT, &p, sizeof(arduino_firmware_msc_event_data_t), portMAX_DELAY);
msc_update_state = MSC_UPDATE_IDLE;
msc_update_entry = NULL;
msc_update_bytes_written = 0;
msc_update_start_sector = 0;
}
//called when all firmware bytes have been received
static void msc_update_end(){
log_d("UPDATE_END: %u", msc_update_entry->file_size);
msc_update_state = MSC_UPDATE_END;
size_t ota_size = get_firmware_size(msc_ota_partition);
if(ota_size != msc_update_entry->file_size){
log_e("OTA SIZE MISMATCH %u != %u", ota_size, msc_update_entry->file_size);
msc_update_error();
return;
}
if(!ota_size || esp_ota_set_boot_partition(msc_ota_partition) != ESP_OK){
log_e("ENABLING OTA PARTITION FAILED");
msc_update_error();
return;
}
arduino_firmware_msc_event_data_t p = {0};
p.end.size = msc_update_entry->file_size;
arduino_usb_event_post(ARDUINO_FIRMWARE_MSC_EVENTS, ARDUINO_FIRMWARE_MSC_END_EVENT, &p, sizeof(arduino_firmware_msc_event_data_t), portMAX_DELAY);
}
static int32_t msc_write(uint32_t lba, uint32_t offset, uint8_t* buffer, uint32_t bufsize){
//log_d("lba: %u, offset: %u, bufsize: %u", lba, offset, bufsize);
if(lba < fw_start_sector){
//write to sectors that are in RAM
memcpy(msc_ram_disk + (lba * DISK_SECTOR_SIZE) + offset, buffer, bufsize);
if(msc_ota_partition && lba == (fw_start_sector - 1)){
//monitor the root folder table
if(msc_update_state <= MSC_UPDATE_RUNNING){
fat_dir_entry_t * update_entry = msc_update_find_new_bin();
if(update_entry) {
if(msc_update_entry) {
log_v("REPLACING ENTRY");
} else {
log_v("ASSIGNING ENTRY");
}
if(msc_update_state <= MSC_UPDATE_STARTING){
msc_update_state = MSC_UPDATE_STARTING;
msc_update_bytes_written = 0;
msc_update_start_sector = 0;
}
msc_update_entry = update_entry;
} else if(msc_update_state == MSC_UPDATE_RUNNING){
if(!msc_update_entry && msc_update_start_sector){
msc_update_entry = msc_update_find_bin(msc_update_start_sector);
}
if(msc_update_entry && msc_update_bytes_written >= msc_update_entry->file_size){
msc_update_end();
}
}
}
}
} else if(msc_ota_partition && lba >= msc_update_start_sector){
//handle writes to the region where the new firmware will be uploaded
arduino_firmware_msc_event_data_t p = {0};
if(msc_update_state <= MSC_UPDATE_STARTING && buffer[0] == 0xE9){
msc_update_state = MSC_UPDATE_RUNNING;
msc_update_start_sector = lba;
msc_update_bytes_written = 0;
log_d("UPDATE_START: %u (0x%02X)", lba, lba - msc_boot->sectors_per_alloc_table);
arduino_usb_event_post(ARDUINO_FIRMWARE_MSC_EVENTS, ARDUINO_FIRMWARE_MSC_START_EVENT, &p, sizeof(arduino_firmware_msc_event_data_t), portMAX_DELAY);
if(msc_update_write(msc_ota_partition, ((lba - msc_update_start_sector) * DISK_SECTOR_SIZE) + offset, buffer, bufsize) == ESP_OK){
log_v("UPDATE_WRITE: %u %u", ((lba - msc_update_start_sector) * DISK_SECTOR_SIZE) + offset, bufsize);
msc_update_bytes_written = ((lba - msc_update_start_sector) * DISK_SECTOR_SIZE) + offset + bufsize;
p.write.offset = ((lba - msc_update_start_sector) * DISK_SECTOR_SIZE) + offset;
p.write.size = bufsize;
arduino_usb_event_post(ARDUINO_FIRMWARE_MSC_EVENTS, ARDUINO_FIRMWARE_MSC_WRITE_EVENT, &p, sizeof(arduino_firmware_msc_event_data_t), portMAX_DELAY);
} else {
msc_update_error();
return 0;
}
} else if(msc_update_state == MSC_UPDATE_RUNNING){
if(msc_update_entry && msc_update_entry->file_size && msc_update_bytes_written < msc_update_entry->file_size && (msc_update_bytes_written + bufsize) >= msc_update_entry->file_size){
bufsize = msc_update_entry->file_size - msc_update_bytes_written;
}
if(msc_update_write(msc_ota_partition, ((lba - msc_update_start_sector) * DISK_SECTOR_SIZE) + offset, buffer, bufsize) == ESP_OK){
log_v("UPDATE_WRITE: %u %u", ((lba - msc_update_start_sector) * DISK_SECTOR_SIZE) + offset, bufsize);
msc_update_bytes_written = ((lba - msc_update_start_sector) * DISK_SECTOR_SIZE) + offset + bufsize;
p.write.offset = ((lba - msc_update_start_sector) * DISK_SECTOR_SIZE) + offset;
p.write.size = bufsize;
arduino_usb_event_post(ARDUINO_FIRMWARE_MSC_EVENTS, ARDUINO_FIRMWARE_MSC_WRITE_EVENT, &p, sizeof(arduino_firmware_msc_event_data_t), portMAX_DELAY);
if(msc_update_entry && msc_update_entry->file_size && msc_update_bytes_written >= msc_update_entry->file_size){
msc_update_end();
}
} else {
msc_update_error();
return 0;
}
}
}
return bufsize;
}
static int32_t msc_read(uint32_t lba, uint32_t offset, void* buffer, uint32_t bufsize){
//log_d("lba: %u, offset: %u, bufsize: %u", lba, offset, bufsize);
if(lba < fw_start_sector){
memcpy(buffer, msc_ram_disk + (lba * DISK_SECTOR_SIZE) + offset, bufsize);
} else if(msc_run_partition && lba < fw_end_sector){
//read the currently running firmware
if(esp_partition_read(msc_run_partition, ((lba - fw_start_sector) * DISK_SECTOR_SIZE) + offset, buffer, bufsize) != ESP_OK){
return 0;
}
} else {
memset(buffer, 0, bufsize);
}
return bufsize;
}
static bool msc_start_stop(uint8_t power_condition, bool start, bool load_eject){
//log_d("power: %u, start: %u, eject: %u", power_condition, start, load_eject);
arduino_firmware_msc_event_data_t p = {0};
p.power.power_condition = power_condition;
p.power.start = start;
p.power.load_eject = load_eject;
arduino_usb_event_post(ARDUINO_FIRMWARE_MSC_EVENTS, ARDUINO_FIRMWARE_MSC_POWER_EVENT, &p, sizeof(arduino_firmware_msc_event_data_t), portMAX_DELAY);
return true;
}
static volatile TaskHandle_t msc_task_handle = NULL;
static void msc_task(void *pvParameters){
for (;;) {
if(msc_update_state == MSC_UPDATE_END){
delay(100);
esp_restart();
}
delay(100);
}
msc_task_handle = NULL;
vTaskDelete(NULL);
}
FirmwareMSC::FirmwareMSC():msc(){}
FirmwareMSC::~FirmwareMSC(){
end();
}
bool FirmwareMSC::begin(){
if(msc_ram_disk){
return true;
}
if(!msc_update_setup_disk(USB_FW_MSC_VOLUME_NAME, USB_FW_MSC_SERIAL_NUMBER)){
return false;
}
if(!msc_task_handle){
xTaskCreateUniversal(msc_task, "msc_disk", 1024, NULL, 2, (TaskHandle_t*)&msc_task_handle, 0);
if(!msc_task_handle){
msc_update_delete_disk();
return false;
}
}
msc.vendorID(USB_FW_MSC_VENDOR_ID);
msc.productID(USB_FW_MSC_PRODUCT_ID);
msc.productRevision(USB_FW_MSC_PRODUCT_REVISION);
msc.onStartStop(msc_start_stop);
msc.onRead(msc_read);
msc.onWrite(msc_write);
msc.mediaPresent(true);
msc.begin(msc_boot->fat12_sector_num, DISK_SECTOR_SIZE);
return true;
}
void FirmwareMSC::end(){
msc.end();
if(msc_task_handle){
vTaskDelete(msc_task_handle);
msc_task_handle = NULL;
}
msc_update_delete_disk();
}
void FirmwareMSC::onEvent(esp_event_handler_t callback){
onEvent(ARDUINO_FIRMWARE_MSC_ANY_EVENT, callback);
}
void FirmwareMSC::onEvent(arduino_firmware_msc_event_t event, esp_event_handler_t callback){
arduino_usb_event_handler_register_with(ARDUINO_FIRMWARE_MSC_EVENTS, event, callback, this);
}
#if ARDUINO_USB_MSC_ON_BOOT
FirmwareMSC MSC_Update;
#endif
#endif /* CONFIG_USB_MSC_ENABLED */
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