cadbad8850
The UpdateClass in the Updater component has the ability to update data to a SPIFFS partition. It selects the first available partition using the ESP-IDF esp_partition_find_first() function. That behaviour is problematic if one has multiple SPIFFS partitions. This change allows a user to pass the label argument (defaults to NULL) to UpdateClass::begin() so a specific SPIFFS partition can be updated. Additionally, ArduinoOTA can set this partition label using the new method ArduinoOTAClass::setPartitionLabel which is optional. This change does not break compatibility.
191 lines
5.2 KiB
C++
191 lines
5.2 KiB
C++
#ifndef ESP8266UPDATER_H
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#define ESP8266UPDATER_H
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#include <Arduino.h>
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#include <MD5Builder.h>
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#include <functional>
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#include "esp_partition.h"
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#define UPDATE_ERROR_OK (0)
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#define UPDATE_ERROR_WRITE (1)
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#define UPDATE_ERROR_ERASE (2)
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#define UPDATE_ERROR_READ (3)
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#define UPDATE_ERROR_SPACE (4)
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#define UPDATE_ERROR_SIZE (5)
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#define UPDATE_ERROR_STREAM (6)
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#define UPDATE_ERROR_MD5 (7)
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#define UPDATE_ERROR_MAGIC_BYTE (8)
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#define UPDATE_ERROR_ACTIVATE (9)
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#define UPDATE_ERROR_NO_PARTITION (10)
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#define UPDATE_ERROR_BAD_ARGUMENT (11)
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#define UPDATE_ERROR_ABORT (12)
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#define UPDATE_SIZE_UNKNOWN 0xFFFFFFFF
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#define U_FLASH 0
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#define U_SPIFFS 100
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#define U_AUTH 200
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#define ENCRYPTED_BLOCK_SIZE 16
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class UpdateClass {
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public:
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typedef std::function<void(size_t, size_t)> THandlerFunction_Progress;
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UpdateClass();
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/*
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This callback will be called when Update is receiving data
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*/
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UpdateClass& onProgress(THandlerFunction_Progress fn);
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/*
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Call this to check the space needed for the update
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Will return false if there is not enough space
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*/
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bool begin(size_t size=UPDATE_SIZE_UNKNOWN, int command = U_FLASH, int ledPin = -1, uint8_t ledOn = LOW, const char *label = NULL);
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/*
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Writes a buffer to the flash and increments the address
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Returns the amount written
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*/
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size_t write(uint8_t *data, size_t len);
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/*
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Writes the remaining bytes from the Stream to the flash
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Uses readBytes() and sets UPDATE_ERROR_STREAM on timeout
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Returns the bytes written
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Should be equal to the remaining bytes when called
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Usable for slow streams like Serial
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*/
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size_t writeStream(Stream &data);
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/*
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If all bytes are written
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this call will write the config to eboot
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and return true
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If there is already an update running but is not finished and !evenIfRemaining
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or there is an error
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this will clear everything and return false
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the last error is available through getError()
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evenIfRemaining is helpfull when you update without knowing the final size first
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*/
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bool end(bool evenIfRemaining = false);
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/*
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Aborts the running update
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*/
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void abort();
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/*
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Prints the last error to an output stream
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*/
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void printError(Print &out);
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const char * errorString();
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/*
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sets the expected MD5 for the firmware (hexString)
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*/
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bool setMD5(const char * expected_md5);
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/*
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returns the MD5 String of the successfully ended firmware
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*/
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String md5String(void){ return _md5.toString(); }
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/*
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populated the result with the md5 bytes of the successfully ended firmware
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*/
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void md5(uint8_t * result){ return _md5.getBytes(result); }
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//Helpers
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uint8_t getError(){ return _error; }
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void clearError(){ _error = UPDATE_ERROR_OK; }
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bool hasError(){ return _error != UPDATE_ERROR_OK; }
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bool isRunning(){ return _size > 0; }
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bool isFinished(){ return _progress == _size; }
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size_t size(){ return _size; }
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size_t progress(){ return _progress; }
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size_t remaining(){ return _size - _progress; }
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/*
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Template to write from objects that expose
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available() and read(uint8_t*, size_t) methods
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faster than the writeStream method
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writes only what is available
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*/
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template<typename T>
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size_t write(T &data){
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size_t written = 0;
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if (hasError() || !isRunning())
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return 0;
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size_t available = data.available();
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while(available) {
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if(_bufferLen + available > remaining()){
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available = remaining() - _bufferLen;
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}
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if(_bufferLen + available > 4096) {
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size_t toBuff = 4096 - _bufferLen;
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data.read(_buffer + _bufferLen, toBuff);
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_bufferLen += toBuff;
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if(!_writeBuffer())
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return written;
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written += toBuff;
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} else {
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data.read(_buffer + _bufferLen, available);
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_bufferLen += available;
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written += available;
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if(_bufferLen == remaining()) {
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if(!_writeBuffer()) {
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return written;
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}
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}
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}
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if(remaining() == 0)
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return written;
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available = data.available();
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}
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return written;
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}
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/*
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check if there is a firmware on the other OTA partition that you can bootinto
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*/
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bool canRollBack();
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/*
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set the other OTA partition as bootable (reboot to enable)
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*/
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bool rollBack();
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private:
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void _reset();
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void _abort(uint8_t err);
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bool _writeBuffer();
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bool _verifyHeader(uint8_t data);
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bool _verifyEnd();
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bool _enablePartition(const esp_partition_t* partition);
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uint8_t _error;
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uint8_t *_buffer;
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uint8_t *_skipBuffer;
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size_t _bufferLen;
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size_t _size;
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THandlerFunction_Progress _progress_callback;
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uint32_t _progress;
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uint32_t _command;
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const esp_partition_t* _partition;
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String _target_md5;
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MD5Builder _md5;
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int _ledPin;
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uint8_t _ledOn;
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};
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extern UpdateClass Update;
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#endif
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