347 lines
8.7 KiB
C++
347 lines
8.7 KiB
C++
#include "Update.h"
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#include "Arduino.h"
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#include "esp_spi_flash.h"
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#include "esp_ota_ops.h"
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#include "esp_image_format.h"
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static const char * _err2str(uint8_t _error){
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if(_error == UPDATE_ERROR_OK){
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return ("No Error");
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} else if(_error == UPDATE_ERROR_WRITE){
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return ("Flash Write Failed");
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} else if(_error == UPDATE_ERROR_ERASE){
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return ("Flash Erase Failed");
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} else if(_error == UPDATE_ERROR_READ){
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return ("Flash Read Failed");
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} else if(_error == UPDATE_ERROR_SPACE){
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return ("Not Enough Space");
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} else if(_error == UPDATE_ERROR_SIZE){
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return ("Bad Size Given");
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} else if(_error == UPDATE_ERROR_STREAM){
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return ("Stream Read Timeout");
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} else if(_error == UPDATE_ERROR_MD5){
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return ("MD5 Check Failed");
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} else if(_error == UPDATE_ERROR_MAGIC_BYTE){
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return ("Wrong Magic Byte");
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} else if(_error == UPDATE_ERROR_ACTIVATE){
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return ("Could Not Activate The Firmware");
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} else if(_error == UPDATE_ERROR_NO_PARTITION){
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return ("Partition Could Not be Found");
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} else if(_error == UPDATE_ERROR_BAD_ARGUMENT){
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return ("Bad Argument");
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} else if(_error == UPDATE_ERROR_ABORT){
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return ("Aborted");
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}
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return ("UNKNOWN");
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}
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static bool _partitionIsBootable(const esp_partition_t* partition){
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uint8_t buf[4];
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if(!partition){
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return false;
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}
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if(!ESP.flashRead(partition->address, (uint32_t*)buf, 4)) {
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return false;
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}
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if(buf[0] != ESP_IMAGE_HEADER_MAGIC) {
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return false;
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}
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return true;
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}
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static bool _enablePartition(const esp_partition_t* partition){
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uint8_t buf[4];
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if(!partition){
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return false;
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}
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if(!ESP.flashRead(partition->address, (uint32_t*)buf, 4)) {
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return false;
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}
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buf[0] = ESP_IMAGE_HEADER_MAGIC;
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return ESP.flashWrite(partition->address, (uint32_t*)buf, 4);
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}
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UpdateClass::UpdateClass()
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: _error(0)
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, _buffer(0)
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, _bufferLen(0)
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, _size(0)
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, _progress_callback(NULL)
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, _progress(0)
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, _command(U_FLASH)
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, _partition(NULL)
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{
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}
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UpdateClass& UpdateClass::onProgress(THandlerFunction_Progress fn) {
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_progress_callback = fn;
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return *this;
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}
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void UpdateClass::_reset() {
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if (_buffer)
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delete[] _buffer;
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_buffer = 0;
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_bufferLen = 0;
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_progress = 0;
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_size = 0;
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_command = U_FLASH;
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}
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bool UpdateClass::canRollBack(){
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if(_buffer){ //Update is running
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return false;
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}
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const esp_partition_t* partition = esp_ota_get_next_update_partition(NULL);
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return _partitionIsBootable(partition);
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}
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bool UpdateClass::rollBack(){
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if(_buffer){ //Update is running
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return false;
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}
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const esp_partition_t* partition = esp_ota_get_next_update_partition(NULL);
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return _partitionIsBootable(partition) && !esp_ota_set_boot_partition(partition);
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}
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bool UpdateClass::begin(size_t size, int command) {
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if(_size > 0){
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log_w("already running");
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return false;
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}
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_reset();
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_error = 0;
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if(size == 0) {
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_error = UPDATE_ERROR_SIZE;
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return false;
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}
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if (command == U_FLASH) {
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_partition = esp_ota_get_next_update_partition(NULL);
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if(!_partition){
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_error = UPDATE_ERROR_NO_PARTITION;
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return false;
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}
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log_d("OTA Partition: %s", _partition->label);
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}
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else if (command == U_SPIFFS) {
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_partition = esp_partition_find_first(ESP_PARTITION_TYPE_DATA, ESP_PARTITION_SUBTYPE_DATA_SPIFFS, NULL);
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if(!_partition){
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_error = UPDATE_ERROR_NO_PARTITION;
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return false;
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}
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}
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else {
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_error = UPDATE_ERROR_BAD_ARGUMENT;
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log_e("bad command %u", command);
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return false;
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}
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if(size == UPDATE_SIZE_UNKNOWN){
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size = _partition->size;
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} else if(size > _partition->size){
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_error = UPDATE_ERROR_SIZE;
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log_e("too large %u > %u", size, _partition->size);
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return false;
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}
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//initialize
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_buffer = (uint8_t*)malloc(SPI_FLASH_SEC_SIZE);
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if(!_buffer){
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log_e("malloc failed");
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return false;
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}
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_size = size;
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_command = command;
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_md5.begin();
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return true;
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}
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void UpdateClass::_abort(uint8_t err){
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_reset();
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_error = err;
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}
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void UpdateClass::abort(){
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_abort(UPDATE_ERROR_ABORT);
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}
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bool UpdateClass::_writeBuffer(){
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//first bytes of new firmware
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if(!_progress && _command == U_FLASH){
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//check magic
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if(_buffer[0] != ESP_IMAGE_HEADER_MAGIC){
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_abort(UPDATE_ERROR_MAGIC_BYTE);
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return false;
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}
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//remove magic byte from the firmware now and write it upon success
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//this ensures that partially written firmware will not be bootable
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_buffer[0] = 0xFF;
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}
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if(!ESP.flashEraseSector((_partition->address + _progress)/SPI_FLASH_SEC_SIZE)){
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_abort(UPDATE_ERROR_ERASE);
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return false;
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}
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if (!ESP.flashWrite(_partition->address + _progress, (uint32_t*)_buffer, _bufferLen)) {
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_abort(UPDATE_ERROR_WRITE);
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return false;
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}
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//restore magic or md5 will fail
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if(!_progress && _command == U_FLASH){
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_buffer[0] = ESP_IMAGE_HEADER_MAGIC;
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}
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_md5.add(_buffer, _bufferLen);
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_progress += _bufferLen;
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_bufferLen = 0;
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return true;
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}
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bool UpdateClass::_verifyHeader(uint8_t data) {
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if(_command == U_FLASH) {
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if(data != ESP_IMAGE_HEADER_MAGIC) {
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_abort(UPDATE_ERROR_MAGIC_BYTE);
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return false;
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}
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return true;
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} else if(_command == U_SPIFFS) {
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return true;
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}
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return false;
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}
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bool UpdateClass::_verifyEnd() {
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if(_command == U_FLASH) {
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if(!_enablePartition(_partition) || !_partitionIsBootable(_partition)) {
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_abort(UPDATE_ERROR_READ);
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return false;
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}
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if(esp_ota_set_boot_partition(_partition)){
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_abort(UPDATE_ERROR_ACTIVATE);
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return false;
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}
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_reset();
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return true;
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} else if(_command == U_SPIFFS) {
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_reset();
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return true;
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}
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return false;
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}
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bool UpdateClass::setMD5(const char * expected_md5){
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if(strlen(expected_md5) != 32)
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{
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return false;
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}
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_target_md5 = expected_md5;
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return true;
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}
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bool UpdateClass::end(bool evenIfRemaining){
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if(hasError() || _size == 0){
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return false;
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}
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if(!isFinished() && !evenIfRemaining){
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log_e("premature end: res:%u, pos:%u/%u\n", getError(), progress(), _size);
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_abort(UPDATE_ERROR_ABORT);
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return false;
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}
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if(evenIfRemaining) {
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if(_bufferLen > 0) {
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_writeBuffer();
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}
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_size = progress();
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}
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_md5.calculate();
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if(_target_md5.length()) {
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if(_target_md5 != _md5.toString()){
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_abort(UPDATE_ERROR_MD5);
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return false;
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}
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}
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return _verifyEnd();
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}
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size_t UpdateClass::write(uint8_t *data, size_t len) {
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if(hasError() || !isRunning()){
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return 0;
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}
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if(len > remaining()){
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_abort(UPDATE_ERROR_SPACE);
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return 0;
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}
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size_t left = len;
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while((_bufferLen + left) > SPI_FLASH_SEC_SIZE) {
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size_t toBuff = SPI_FLASH_SEC_SIZE - _bufferLen;
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memcpy(_buffer + _bufferLen, data + (len - left), toBuff);
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_bufferLen += toBuff;
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if(!_writeBuffer()){
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return len - left;
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}
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left -= toBuff;
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}
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memcpy(_buffer + _bufferLen, data + (len - left), left);
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_bufferLen += left;
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if(_bufferLen == remaining()){
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if(!_writeBuffer()){
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return len - left;
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}
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}
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return len;
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}
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size_t UpdateClass::writeStream(Stream &data) {
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size_t written = 0;
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size_t toRead = 0;
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if(hasError() || !isRunning())
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return 0;
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if(!_verifyHeader(data.peek())) {
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_reset();
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return 0;
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}
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if (_progress_callback) {
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_progress_callback(0, _size);
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}
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while(remaining()) {
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toRead = data.readBytes(_buffer + _bufferLen, (SPI_FLASH_SEC_SIZE - _bufferLen));
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if(toRead == 0) { //Timeout
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delay(100);
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toRead = data.readBytes(_buffer + _bufferLen, (SPI_FLASH_SEC_SIZE - _bufferLen));
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if(toRead == 0) { //Timeout
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_abort(UPDATE_ERROR_STREAM);
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return written;
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}
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}
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_bufferLen += toRead;
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if((_bufferLen == remaining() || _bufferLen == SPI_FLASH_SEC_SIZE) && !_writeBuffer())
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return written;
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written += toRead;
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if(_progress_callback) {
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_progress_callback(_progress, _size);
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}
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}
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if(_progress_callback) {
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_progress_callback(_size, _size);
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}
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return written;
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}
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void UpdateClass::printError(Stream &out){
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out.println(_err2str(_error));
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}
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UpdateClass Update;
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