localhorst/ESP32-Mesh-OTA
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merge into: localhorst:feature/https_client
Branches Tags
localhorst:master localhorst:develop localhorst:feature/blockingOTA localhorst:feature/https_client localhorst:feature/mesh_network localhorst:feature/ota_https
...
pull from: localhorst:feature/blockingOTA
Branches Tags
localhorst:master localhorst:develop localhorst:feature/blockingOTA localhorst:feature/https_client localhorst:feature/mesh_network localhorst:feature/ota_https

29 Commits
feature/ht ... feature/bl

Author SHA1 Message Date
localhorst
7301305135 blocking OTA Tx and Rx 2021-01-20 10:23:41 +01:00
localhorst
57c71c401c OTA Tx and Rx over Mesh 2021-01-19 22:19:30 +01:00
localhorst
94aa8751cb Mesh OTA Master & Slave 2021-01-19 17:20:16 +01:00
localhorst
b274d939c4 OTA mesh worker 2021-01-19 12:36:21 +01:00
localhorst
6446049876 OTA message handle call and vAddAllNeighboursToQueue() 2021-01-18 22:56:42 +01:00
localhorst
88fd2c69a9 added OTA process mutex; progress log; reboot flag 2021-01-18 19:03:32 +01:00
localhorst
a0546aa3ef completet https ota 2021-01-18 17:38:08 +01:00
localhorst
c542dc05ab cleanup https ota 2021-01-18 12:49:52 +01:00
localhorst
cf99410893 added https ota code in task 2021-01-17 23:47:59 +01:00
localhorst
c6829f0483 added control for http_ota task 2021-01-17 23:27:01 +01:00
localhorst
62d16a437a completed demo app blinky_led 2021-01-16 18:23:10 +01:00
localhorst
62b9b1255f added app demo code 2021-01-16 00:23:02 +01:00
Hendrik Schutter
9b4b1d0443 Merge pull request 'feature/mesh_network' (#1) from feature/mesh_network into master 
Reviewed-on: #1
 2021-01-15 09:34:23 +01:00
Hendrik Schutter
0a32400a04 Merge branch 'master' into feature/mesh_network 2021-01-15 09:34:11 +01:00
localhorst
0289d3f1dd added mesh paket and ported to newer IDF 2021-01-14 23:08:45 +01:00
localhorst
c17756160f updated tests, changed file names, new mesh packet type 2021-01-11 22:56:39 +01:00
localhorst
d4182eddb2 format log output 2021-01-11 18:59:19 +01:00
localhorst
378f6e9ad0 cleanup 2021-01-11 18:31:37 +01:00
localhorst
1cdd9477c3 added new network module 2021-01-11 15:22:45 +01:00
localhorst
4ac270475b added image validation and signature 2021-01-10 14:03:50 +01:00
localhorst
0f38c893d9 cleanup 2021-01-09 17:41:40 +01:00
localhorst
f1fb982e21 fix: https and first ota process 2021-01-08 23:08:07 +01:00
localhorst
1ff0de1f49 https image ota 2021-01-08 20:12:03 +01:00
localhorst
d8c9239ed7 extract server image version and unit tests 2021-01-07 23:10:36 +01:00
localhorst
c985ee6031 added test cases for image start offset and fix 2021-01-07 17:10:25 +01:00
localhorst
13cbb310b4 cleanup 2021-01-06 23:04:05 +01:00
localhorst
076c4b62fc image start offset 2021-01-06 18:10:12 +01:00
localhorst
91edfa0c63 added https_client and menuconfig 2021-01-05 12:15:26 +01:00
Hendrik Schutter
0244457d75 added WIP info 
added WIP info
 2020-12-02 18:04:03 +01:00
24 changed files with 3063 additions and 704 deletions
Expand all files Collapse all files

3
.gitignore vendored
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@ -57,3 +57,6 @@ build/
test/build/
*.old
*.orig

17
README.md
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@ -1,2 +1,19 @@
# ESP32-Mesh-OTA
## Work in progress
<img src="https://patenschaft.bienenweide.org/img/loading.gif" alt="code_example_output" width="50"/>
## Todo for first release
### Refactoring
- architecture
- full error handling through all functions
- export as a component library
### Features
- root node: Download new Firmware from HTTPS server instead using newest ota partition
- add example main app

9
components/mesh_ota/CMakeLists.txt
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@ -1,6 +1,7 @@
idf_component_register(SRCS "mesh_ota.c"
idf_component_register(SRCS "HTTPS_client.c" "Mesh_network_handler.c" "Mesh_network.c" "Mesh_OTA.c"
INCLUDE_DIRS "include"
REQUIRES nvs_flash
esp_http_client bootloader_support
PRIV_REQUIRES log app_update
)
esp_http_client
bootloader_support
app_update
log)

280
components/mesh_ota/HTTPS_client.c Normal file
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@ -0,0 +1,280 @@
#include "HTTPS_client.h"
static const char *TAG = "https_client";
static const char *REQUEST = "GET " CONFIG_OTA_HTTPS_URL " HTTP/1.1\r\n"
"Host: "CONFIG_OTA_HTTPS_SERVER_COMMON_NAME"\r\n"
"User-Agent: esp-idf/1.0 esp32\r\n"
"Authorization: Basic " CONFIG_OTA_HTTPS_AUTH "\r\n"
"\r\n";
static HTTPS_Client_t sHTTPS_ClientConfig;
https_client_ret_t https_clientInitEmbedTLS();
https_client_ret_t errHTTPSClientConnectToServer();
https_client_ret_t errHTTPSClientValidateServer();
https_client_ret_t errHTTPSClientSendRequest();
https_client_ret_t errHTTPSClientInitialize()
{
https_client_ret_t i32RetHTTPClient = HTTPS_CLIENT_OK;
i32RetHTTPClient = https_clientInitEmbedTLS();
if (i32RetHTTPClient == HTTPS_CLIENT_ERROR_INIT_EMBEDTLS)
{
ESP_LOGE(TAG, "Unable to initialize EmbedTLS");
i32RetHTTPClient = HTTPS_CLIENT_ERROR;
}
return i32RetHTTPClient;
}
https_client_ret_t errHTTPSClientRetrieveData(char* pu8Data, uint32_t* pu32DataLenght, uint32_t* pu32BytesRead)
{
https_client_ret_t i32RetHTTPClient = HTTPS_CLIENT_OK;
int32_t i32RetRetrieveData = ESP_OK;
bool bRetriveData = true;
bzero(pu8Data, *pu32DataLenght);
*pu32BytesRead = 0U;
while (bRetriveData)
{
mbedtls_ssl_conf_read_timeout(&sHTTPS_ClientConfig.conf, HTTPS_READ_TIMEOUT); //set timeout
//Reading HTTP response
i32RetRetrieveData = mbedtls_ssl_read(&sHTTPS_ClientConfig.ssl, (unsigned char *)(pu8Data+(*pu32BytesRead)), ((*pu32DataLenght)-(*pu32BytesRead)));
if(i32RetRetrieveData > 0)
{
//Data received
*pu32BytesRead = *pu32BytesRead + i32RetRetrieveData;
if(*pu32DataLenght > 0)
{
//buffer not full yet --> read some more
bRetriveData = true;
}
else
{
//buffer full --> stop reading
bRetriveData = false;
}
}
if(i32RetRetrieveData == 0)
{
//all data read --> stop reading
bRetriveData = false;
pu32BytesRead = 0;
}
if(i32RetRetrieveData == MBEDTLS_ERR_SSL_TIMEOUT )
{
//timeout --> stop reading
bRetriveData = false;
}
if(i32RetRetrieveData == MBEDTLS_ERR_SSL_PEER_CLOSE_NOTIFY)
{
//connection is going to be closed
i32RetHTTPClient = HTTPS_CLIENT_ERROR;
bRetriveData = false;
}
}
return i32RetHTTPClient;
}
https_client_ret_t errHTTPSClientReset()
{
https_client_ret_t i32RetHTTPClient = HTTPS_CLIENT_OK;
i32RetHTTPClient = mbedtls_ssl_close_notify(&sHTTPS_ClientConfig.ssl); //close session
if(i32RetHTTPClient != ESP_OK)
{
ESP_LOGE(TAG, "mbedtls_ssl_close_notify returned 0x%x", i32RetHTTPClient);
}
mbedtls_ssl_session_reset(&sHTTPS_ClientConfig.ssl); //reset embedssl
mbedtls_net_free(&sHTTPS_ClientConfig.server_fd); //free ram
return i32RetHTTPClient;
}
https_client_ret_t https_clientInitEmbedTLS()
{
https_client_ret_t i32RetHTTPClient = HTTPS_CLIENT_OK;
int32_t i32RetEmbedTLS = ESP_OK;
static bool bAlreadySetup = false;
mbedtls_ssl_init(&sHTTPS_ClientConfig.ssl);
mbedtls_x509_crt_init(&sHTTPS_ClientConfig.cacert);
mbedtls_ctr_drbg_init(&sHTTPS_ClientConfig.ctr_drbg);
mbedtls_ssl_config_init(&sHTTPS_ClientConfig.conf);
mbedtls_entropy_init(&sHTTPS_ClientConfig.entropy);
i32RetEmbedTLS = mbedtls_ctr_drbg_seed(&sHTTPS_ClientConfig.ctr_drbg, mbedtls_entropy_func, &sHTTPS_ClientConfig.entropy, NULL, 0);
if(i32RetEmbedTLS!= ESP_OK)
{
ESP_LOGE(TAG, "mbedtls_ctr_drbg_seed returned %d", i32RetEmbedTLS);
}
if(i32RetEmbedTLS == ESP_OK)
{
//Attaching the certificate bundle
i32RetEmbedTLS = esp_crt_bundle_attach(&sHTTPS_ClientConfig.conf);
if(i32RetEmbedTLS != ESP_OK)
{
ESP_LOGE(TAG, "esp_crt_bundle_attach returned 0x%x\n\n", i32RetEmbedTLS);
}
}
if(i32RetEmbedTLS == ESP_OK)
{
//Setting hostname for TLS session.
i32RetEmbedTLS = mbedtls_ssl_set_hostname(&sHTTPS_ClientConfig.ssl, CONFIG_OTA_HTTPS_SERVER_COMMON_NAME);
// Hostname set here should match CN in server certificate
if(i32RetEmbedTLS != ESP_OK)
{
ESP_LOGE(TAG, "mbedtls_ssl_set_hostname returned 0x%x", i32RetEmbedTLS);
}
}
if(i32RetEmbedTLS == ESP_OK)
{
//Setting up the SSL/TLS structure
i32RetEmbedTLS = mbedtls_ssl_config_defaults(&sHTTPS_ClientConfig.conf,
MBEDTLS_SSL_IS_CLIENT,
MBEDTLS_SSL_TRANSPORT_STREAM,
MBEDTLS_SSL_PRESET_DEFAULT);
if(i32RetEmbedTLS != ESP_OK)
{
ESP_LOGE(TAG, "mbedtls_ssl_config_defaults returned %d", i32RetEmbedTLS);
}
}
if(i32RetEmbedTLS == ESP_OK)
{
mbedtls_ssl_conf_authmode(&sHTTPS_ClientConfig.conf, MBEDTLS_SSL_VERIFY_REQUIRED);
mbedtls_ssl_conf_ca_chain(&sHTTPS_ClientConfig.conf, &sHTTPS_ClientConfig.cacert, NULL);
mbedtls_ssl_conf_rng(&sHTTPS_ClientConfig.conf, mbedtls_ctr_drbg_random, &sHTTPS_ClientConfig.ctr_drbg);
if (bAlreadySetup == false) //check if mbedtls_ssl_setup was called before
{
i32RetEmbedTLS = mbedtls_ssl_setup(&sHTTPS_ClientConfig.ssl, &sHTTPS_ClientConfig.conf); //call this only once
if(i32RetEmbedTLS != ESP_OK)
{
ESP_LOGE(TAG, "mbedtls_ssl_setup returned 0x%x\n\n", i32RetEmbedTLS);
// uint8_t buffer[20];
//mbedtls_strerror(i32RetEmbedTLS, buffer, 20);
//ESP_LOGE(TAG, "%s", buffer);
}
else
{
bAlreadySetup = true;
}
}
}
if(i32RetEmbedTLS == ESP_OK)
{
mbedtls_net_init(&sHTTPS_ClientConfig.server_fd);
}
if (i32RetEmbedTLS != ESP_OK)
{
i32RetHTTPClient = HTTPS_CLIENT_ERROR_INIT_EMBEDTLS;
}
return i32RetHTTPClient;
}
https_client_ret_t errHTTPSClientConnectToServer()
{
https_client_ret_t i32RetHTTPClient = HTTPS_CLIENT_OK;
int32_t i32RetServerConnect = ESP_OK;
//Connecting to server
i32RetServerConnect = mbedtls_net_connect(&sHTTPS_ClientConfig.server_fd, CONFIG_OTA_HTTPS_SERVER_COMMON_NAME, CONFIG_OTA_HTTPS_SERVER_PORT, MBEDTLS_NET_PROTO_TCP);
if (i32RetServerConnect != ESP_OK)
{
ESP_LOGE(TAG, "mbedtls_net_connect returned %x", i32RetServerConnect);
}
if(i32RetServerConnect == ESP_OK)
{
mbedtls_ssl_set_bio(&sHTTPS_ClientConfig.ssl, &sHTTPS_ClientConfig.server_fd, mbedtls_net_send, mbedtls_net_recv, mbedtls_net_recv_timeout);
//Performing the SSL/TLS handshake
while ((i32RetServerConnect = mbedtls_ssl_handshake(&sHTTPS_ClientConfig.ssl)) != 0)
{
if ((i32RetServerConnect != MBEDTLS_ERR_SSL_WANT_READ) && (i32RetServerConnect != MBEDTLS_ERR_SSL_WANT_WRITE))
{
ESP_LOGE(TAG, "mbedtls_ssl_handshake returned 0x%x", i32RetServerConnect);
}
}
}
if(i32RetServerConnect != ESP_OK)
{
i32RetHTTPClient = HTTPS_CLIENT_ERROR_INIT_CONNECT_TWO_SERVER;
}
return i32RetHTTPClient;
}
https_client_ret_t errHTTPSClientValidateServer()
{
https_client_ret_t i32RetHTTPClient = HTTPS_CLIENT_OK;
int32_t i32RetValidateServer = ESP_OK;
//Verifying peer X.509 certificate
if ((i32RetValidateServer = mbedtls_ssl_get_verify_result(&sHTTPS_ClientConfig.ssl)) != 0)
{
ESP_LOGE(TAG, "Failed to verify peer certificate!");
}
if(i32RetValidateServer != ESP_OK)
{
i32RetHTTPClient = HTTPS_CLIENT_ERROR_INIT_VALIDATE_SERVER;
}
return i32RetHTTPClient;
}
https_client_ret_t errHTTPSClientSendRequest()
{
https_client_ret_t i32RetHTTPClient = HTTPS_CLIENT_OK;
int32_t i32RetSendRequest = ESP_OK;
uint32_t u32WrittenBytes = 0;
bool bWrite = true; //flag to stop loop
//Writing HTTP request
while((u32WrittenBytes < strlen(REQUEST)) && bWrite)
{
i32RetSendRequest = mbedtls_ssl_write(&sHTTPS_ClientConfig.ssl,
(const unsigned char *)REQUEST + u32WrittenBytes,
strlen(REQUEST) - u32WrittenBytes);
if (i32RetSendRequest >= 0)
{
//bytes written
u32WrittenBytes += i32RetSendRequest;
}
else if (i32RetSendRequest != MBEDTLS_ERR_SSL_WANT_WRITE && i32RetSendRequest != MBEDTLS_ERR_SSL_WANT_READ)
{
ESP_LOGE(TAG, "mbedtls_ssl_write returned 0x%x", i32RetSendRequest);
bWrite = false;
}
}
if(bWrite == false)
{
i32RetHTTPClient = HTTPS_CLIENT_ERROR_INIT_SEND_REQUEST;
}
return i32RetHTTPClient;
}

992
components/mesh_ota/Mesh_OTA.c Normal file
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#include "Mesh_OTA.h"
static const char *LOG_TAG = "mesh_ota";
xQueueHandle queueNodes; //nodes that should be checked for ota update (contains children and parent)
xQueueHandle queueMessageOTA; //mesh ota controll messages like "OTA_Version_Response" "OTA_ACK"
SemaphoreHandle_t bsStartStopServerWorker; //binary semaphore
SemaphoreHandle_t bsOTAProcess; //binary semaphore
const esp_partition_t* pOTAPartition; //pointer to ota partition
bool bWantReboot; //flag to signal pending reboot
bool bOtaAbortTx = false;
esp_partition_t* pBootPartitionTx; //pointer to boot partition (that will booted after reset)
uint32_t u32OTABytesWrittenTx = 0U;
uint32_t u32SegmentCounterTx = 0U;
bool bNodeIsRespondingTx = false; //remote node is still active
esp_err_t errMeshOTAInitialize()
{
esp_err_t err = ESP_OK;
BaseType_t xReturned;
bWantReboot = false;
//create queue to store nodes for ota worker task
queueNodes = xQueueCreate(QUEUE_NODES_SIZE, sizeof(mesh_addr_t));
if (queueNodes == 0) // Queue not created
{
ESP_LOGE(LOG_TAG, "Unable to create Queue for Nodes");
err = ESP_FAIL;
}
if(err == ESP_OK)
{
//create queue to store ota messages
queueMessageOTA = xQueueCreate(QUEUE_MESSAGE_OTA_SIZE, sizeof(MESH_PACKET_t));
if (queueMessageOTA == 0) // Queue not created
{
ESP_LOGE(LOG_TAG, "Unable to create Queue for OTA Messages");
err = ESP_FAIL;
}
}
if(err == ESP_OK)
{
bsStartStopServerWorker = xSemaphoreCreateBinary();
if( bsStartStopServerWorker == NULL )
{
ESP_LOGE(LOG_TAG, "Unable to create Mutex to represent state of Server worker");
err = ESP_FAIL;
}
}
if(err == ESP_OK)
{
bsOTAProcess = xSemaphoreCreateBinary();
if( bsOTAProcess == NULL )
{
ESP_LOGE(LOG_TAG, "Unable to create Mutex to grant access to OTA Process");
err = ESP_FAIL;
}
}
if(err == ESP_OK)
{
xSemaphoreGive(bsOTAProcess); //unlock binary semaphore
if( bsOTAProcess == NULL )
{
ESP_LOGE(LOG_TAG, "Unable to unlock Mutex to grant access to OTA Process");
err = ESP_FAIL;
}
}
ERROR_CHECK(errMeshNetworkSetChildConnectedHandle(vAddNodeToPossibleUpdatableQueue));
ERROR_CHECK(errMeshNetworkSetOTAMessageHandle(vAddOTAControllMessageToQueue));
ERROR_CHECK(errMeshNetworkSetChangeStateOfServerWorkerHandle(vChangeStateOfServerWorker));
ERROR_CHECK(errMeshNetworkSetOtaDataHandle(vRecOtaDataHandler));
ERROR_CHECK(errMeshNetworkSetOtaAckHandle(vRecOtaAckHandler));
//ERROR_CHECK(errMeshNetworkSetOtaCompleteHandle(vRecOtaCompleteHandler));
// ERROR_CHECK(errMeshNetworkSetOtaAbortHandle(vRecOtaAbortHandler));
if(err == ESP_OK)
{
pOTAPartition = esp_ota_get_next_update_partition(NULL); //get ota partition
if(pOTAPartition == NULL)
{
err = ESP_FAIL;
ESP_LOGE(LOG_TAG, "unable to get next ota partition");
}
}
if(err == ESP_OK)
{
xReturned = xTaskCreate(vTaskServerWorker, "vTaskServerWorker", 8192, NULL, 5, NULL);
if(xReturned != pdPASS)
{
ESP_LOGE(LOG_TAG, "Unable to create the server worker task");
err = ESP_FAIL;
}
}
if(err == ESP_OK)
{
xReturned = xTaskCreate(vTaskOTAWorker, "vTaskOTAWorker", 8192, NULL, 5, NULL);
if(xReturned != pdPASS)
{
ESP_LOGE(LOG_TAG, "Unable to create the OTA worker task");
err = ESP_FAIL;
}
}
return err;
}
void vAddNodeToPossibleUpdatableQueue(uint8_t* pu8MAC)
{
//send payload to node queues
mesh_addr_t addrNode;
memcpy(&addrNode.addr, (uint8_t *)pu8MAC, 6); //copy MAC
if (xQueueSend(queueNodes, &addrNode, portMAX_DELAY) != pdPASS)
{
ESP_LOGE(LOG_TAG, "Unable to push node into node queue");
}
else
{
ESP_LOGI(LOG_TAG, "added node \"%x:%x:%x:%x:%x:%x\" to possible updatable queue", addrNode.addr[0], addrNode.addr[1], addrNode.addr[2], addrNode.addr[3], addrNode.addr[4], addrNode.addr[5]);
}
}
void vAddOTAControllMessageToQueue(MESH_PACKET_t* puMeshPacket)
{
//send ota packet to packet queue
if (xQueueSend(queueMessageOTA, puMeshPacket, portMAX_DELAY) != pdPASS)
{
ESP_LOGE(LOG_TAG, "Unable to push ota packet into packet queue");
}
else
{
ESP_LOGI(LOG_TAG, "added ota message to queue: %i (type)", puMeshPacket->type);
}
}
void vChangeStateOfServerWorker(bool bState) //allow access via function ptn to networl_handler
{
static bool bLastState = false;
if(bState != bLastState) //change only if necessary
{
ESP_LOGI(LOG_TAG, "server worker change handler");
if(bState == true)
{
if (xSemaphoreGive(bsStartStopServerWorker) != pdTRUE)
{
ESP_LOGE(LOG_TAG, "Unable to give mutex to activate the server worker");
}
}
else
{
if (xSemaphoreTake(bsStartStopServerWorker,( TickType_t ) 10 ) != pdTRUE)
{
ESP_LOGE(LOG_TAG, "Unable to obtain mutex to deactivate the server worker");
}
}
bLastState = bState;
}
}
void vTaskServerWorker(void *arg)
{
esp_err_t err;
bool bNewOTAImage; //true if a new ota image was downloaded and validated
bool bFirstRun = true;
while(true)
{
err = ESP_OK;
bNewOTAImage = false;
xSemaphoreTake(bsStartStopServerWorker, portMAX_DELAY); //wait for binary semaphore that allows to start the worker
xSemaphoreGive(bsStartStopServerWorker); //free binary semaphore, this allows the handler to change is to taken
if (esp_mesh_is_root()) //check again that this node is the root node
{
ESP_LOGI(LOG_TAG, "Checking firmware image on server");
if(bFirstRun == true)
{
ERROR_CHECK(errHTTPSClientInitialize());
bFirstRun = false;
}
ERROR_CHECK(errHTTPSClientConnectToServer());
ERROR_CHECK(errHTTPSClientValidateServer());
ERROR_CHECK(errHTTPSClientSendRequest());
ERROR_CHECK(errOTAHTTPS(&bNewOTAImage));
errHTTPSClientReset();
if(bNewOTAImage == true)
{
//set want reboot
ESP_LOGI(LOG_TAG, "Updated successfully via HTTPS, set pending reboot");
bWantReboot = true;
vAddAllNeighboursToQueue(); //add all existing neighbours to queue (aparent will not be added because this node is the root)
}
vTaskDelay( (SERVER_CHECK_INTERVAL*1000) / portTICK_PERIOD_MS); //sleep till next server checks
}
}
}
void vTaskOTAWorker(void *arg)
{
esp_err_t err = ESP_OK;
bool bNewOTAImage; //true if a new ota image was downloaded and validated
mesh_addr_t meshNodeAddr; //node that should be checked for ota update
while(true)
{
err = ESP_OK;
bNewOTAImage = false;
if((uxQueueSpacesAvailable(queueNodes) - QUEUE_NODES_SIZE) == 0)
{
//nodes queue is empty
ESP_LOGI(LOG_TAG, "nodes queue is empty");
if(bWantReboot == true)
{
ESP_LOGI(LOG_TAG, "ESP32 Reboot ...");
//vTaskDelay( (1000) / portTICK_PERIOD_MS);
//esp_restart();
}
ERROR_CHECK(errOTAMeshSlave(&bNewOTAImage));
}
else
{
//queue not empty
ESP_LOGI(LOG_TAG, "nodes queue not empty: %i", (QUEUE_NODES_SIZE - uxQueueSpacesAvailable(queueNodes)));
if (xQueueReceive(queueNodes, &meshNodeAddr, ((100) / portTICK_PERIOD_MS)) != pdTRUE)
{
ESP_LOGE(LOG_TAG, "Unable to receive OTA Messages from Queue");
err = ESP_FAIL;
}
ERROR_CHECK(errOTAMeshMaster(&bNewOTAImage, &meshNodeAddr));
if (err != ESP_OK)
{
//OTA process faild --> add back to queue
vAddNodeToPossibleUpdatableQueue(meshNodeAddr.addr);
}
}
if(bNewOTAImage == true)
{
//set want reboot
ESP_LOGI(LOG_TAG, "Updated successfully via Mesh, set pending reboot");
bWantReboot = true;
vAddAllNeighboursToQueue(); //add all existing neighbours to queue
}
vTaskDelay( (1000) / portTICK_PERIOD_MS); //TODO this is debug
}
}
esp_err_t errOTAHTTPS(bool* pbNewOTAImage)
{
esp_err_t err = ESP_OK;
char u8OTABuffer[OTA_HTTPS_SEGMENT_SIZE]; //store image segment from server before ota write
uint32_t u32BufferLenght = OTA_HTTPS_SEGMENT_SIZE; //size of buffer
uint32_t u32BytesRead = 0; //number of bytes that are read from server, <= u32BufferLenght
char pcRemoteVersionNumber[12]; //string for version number in server image
const esp_partition_t* pBootPartition; //pointer to boot partition (that will booted after reset)
static esp_ota_handle_t otaHandle; //OTA process handle
uint32_t u32StartOffset = 0U; //start offset for image (exclude the http response data)
esp_app_desc_t bootPartitionDesc; //Metadate from boot partition
uint32_t u32OTABytesWritten = 0U; //counter unsed for progress log
ERROR_CHECK(errHTTPSClientRetrieveData(u8OTABuffer, &u32BufferLenght, &u32BytesRead)); //read first bytes if image, including the version
ERROR_CHECK(errExtractVersionNumber(u8OTABuffer, &u32BytesRead, pcRemoteVersionNumber)); //extract version numbers
if(err == ESP_OK) //check if version number is found
{
xSemaphoreTake(bsOTAProcess, portMAX_DELAY); //wait for binary semaphore that allows to start the OTA process
pBootPartition = esp_ota_get_boot_partition(); //get boot partition (that will booted after reset), not the running partition
ERROR_CHECK(esp_ota_get_partition_description(pBootPartition, &bootPartitionDesc)); //get metadata of partition
if(bNewerVersion((bootPartitionDesc).version, pcRemoteVersionNumber)) //compare local and remote version
{
// server image is newer --> OTA update required
ESP_LOGI(LOG_TAG, "Server: image is newer --> OTA update required");
ERROR_CHECK(errFindImageStart(u8OTABuffer, &u32BufferLenght, &u32StartOffset)); //get image start offset
ERROR_CHECK(esp_ota_begin(pOTAPartition, OTA_SIZE_UNKNOWN, &otaHandle)); //start ota update process
if(err == ESP_OK)
{
//image download and ota partition write
ESP_LOGI(LOG_TAG, "start OTA download via HTTPS");
do
{
vPrintOTAProgress(&(pOTAPartition->size), &u32OTABytesWritten, Receiver);
ERROR_CHECK(esp_ota_write(otaHandle, (const void*) u8OTABuffer+u32StartOffset, (u32BytesRead-u32StartOffset)));
if(err == ESP_OK)
{
//write was succsesfull
u32StartOffset = 0U; //reset the offset for next download
ERROR_CHECK(errHTTPSClientRetrieveData(u8OTABuffer, &u32BufferLenght, &u32BytesRead)); //download next data segment
u32OTABytesWritten = u32OTABytesWritten + u32BytesRead; //update counter
}
}
while ((u32BytesRead > 0) && (err == ESP_OK) && (u32OTABytesWritten <= pOTAPartition->size)); //loop until error or complete image downloaded
}
if(err == ESP_OK)
{
//no error occurred --> finish ota update process
ERROR_CHECK(esp_ota_end(otaHandle)); //finish process
ERROR_CHECK(esp_ota_set_boot_partition(pOTAPartition)); //set new image as boot
if(err == ESP_OK)
{
*pbNewOTAImage = true; //image validated
}
}
else
{
//error occurred --> abort ota update process
ESP_LOGE(LOG_TAG, "abort ota process due to error 0x%x -> %s", err, esp_err_to_name(err));
ERROR_CHECK(esp_ota_abort(otaHandle));
*pbNewOTAImage = false; //ota update failed
}
}
else
{
ESP_LOGI(LOG_TAG, "server image is NOT newer --> OTA update NOT required");
}
xSemaphoreGive(bsOTAProcess); //free binary semaphore, this allows other tasks to start the OTA process
} //end version number extracted
return err;
}
esp_err_t errOTAMeshSlave(bool* pbNewOTAImage)
{
esp_err_t err = ESP_OK;
MESH_PACKET_t sOTAMessage;
const esp_partition_t* pBootPartition; //pointer to boot partition (that will booted after reset)
esp_app_desc_t bootPartitionDesc; //Metadate from boot partition
*pbNewOTAImage = false; //set default false
//read OTAMessages queue
if(uxQueueSpacesAvailable(queueMessageOTA) < QUEUE_MESSAGE_OTA_SIZE)
{
//queue not empty
if (xQueueReceive(queueMessageOTA, &sOTAMessage, ((100) / portTICK_PERIOD_MS)) != pdTRUE)
{
ESP_LOGE(LOG_TAG, "Unable to receive OTA Messages from Queue");
err = ESP_FAIL;
}
if((err == ESP_OK) && (sOTAMessage.type == OTA_Version_Request)) //if OTA_Version_Request
{
xSemaphoreTake(bsOTAProcess, portMAX_DELAY); //wait for binary semaphore that allows to start the OTA process
pBootPartition = esp_ota_get_boot_partition(); //get boot partition (that will booted after reset), not the running partition
ERROR_CHECK(esp_ota_get_partition_description(pBootPartition, &bootPartitionDesc)); //get metadata of partition
ESP_LOGI(LOG_TAG, "//send OTA_Version_Response to sender of OTA_Version_Request packet with version in payload");
ERROR_CHECK(errSendOTAVersionResponse(&sOTAMessage.meshSenderAddr));
if((bNewerVersion((bootPartitionDesc).version, (char*) sOTAMessage.au8Payload)) && (err == ESP_OK)) //compare local and remote version
{
//remote newer as local
ESP_LOGI(LOG_TAG, "remote image on node is newer --> OTA update required");
// --> this version older --> start OTA_Rx --> set pbNewOTAImage true
ERROR_CHECK(errOTAMeshReceive(pbNewOTAImage, &sOTAMessage.meshSenderAddr));
}
if((bNewerVersion((char*) sOTAMessage.au8Payload, (bootPartitionDesc).version)) && (err == ESP_OK)) //compare remote and local version
{
//local newer as remote
ESP_LOGI(LOG_TAG, "remote image on node is older --> OTA send required");
// --> this version newer --> start OTA_Tx
ERROR_CHECK(errOTAMeshTransmit(&sOTAMessage.meshSenderAddr));
}
xSemaphoreGive(bsOTAProcess); //free binary semaphore, this allows other tasks to start the OTA process
}
}
return err;
}
esp_err_t errOTAMeshMaster(bool* pbNewOTAImage, mesh_addr_t* pMeshNodeAddr)
{
esp_err_t err = ESP_OK;
MESH_PACKET_t sOTAMessage;
const esp_partition_t* pBootPartition; //pointer to boot partition (that will booted after reset)
esp_app_desc_t bootPartitionDesc; //Metadata from boot partition
bool bNodeIsConnected = false;
bool bNodeIsResponding = false;
*pbNewOTAImage = false; //set default false
if(bIsNodeNeighbour(pMeshNodeAddr) == true) //check if node is still connected
{
bNodeIsConnected = true; //node is one of the neighbours
xSemaphoreTake(bsOTAProcess, portMAX_DELAY); //wait for binary semaphore that allows to start the OTA process
ERROR_CHECK(errSendOTAVersionRequest(pMeshNodeAddr)); //send OTA_VERSION_REQUEST with local version in payload
for (uint32_t u32Index = 0; u32Index < QUEUE_MESSAGE_OTA_SIZE; u32Index++) //loop through all OTA messages
{
//if(uxQueueSpacesAvailable(queueMessageOTA) < QUEUE_MESSAGE_OTA_SIZE)
// {
//queue not empty
if (xQueueReceive(queueMessageOTA, &sOTAMessage, ((OTA_MESH_TIMEOUT) / portTICK_PERIOD_MS)) != pdTRUE)
{
ESP_LOGE(LOG_TAG, "Unable to receive OTA Messages from queue");
err = ESP_FAIL;
}
if((err == ESP_OK) && (sOTAMessage.type == OTA_Version_Response) && (bCheckMACEquality(sOTAMessage.meshSenderAddr.addr, pMeshNodeAddr->addr))) //if OTA_Version_Request
{
bNodeIsResponding = true;
u32Index = QUEUE_MESSAGE_OTA_SIZE; //this will exit the loop through all OTA messages
pBootPartition = esp_ota_get_boot_partition(); //get boot partition (that will booted after reset), not the running partition
ERROR_CHECK(esp_ota_get_partition_description(pBootPartition, &bootPartitionDesc)); //get metadata of partition
if((bNewerVersion((bootPartitionDesc).version, (char*) sOTAMessage.au8Payload)) && (err == ESP_OK)) //compare local and remote version
{
//remote newer as local
ESP_LOGI(LOG_TAG, "Mesh: remote image on node is newer --> OTA update required");
// --> this version older --> start OTA_Rx --> set pbNewOTAImage true
ERROR_CHECK(errOTAMeshReceive(pbNewOTAImage, &sOTAMessage.meshSenderAddr));
}
if((bNewerVersion((char*) sOTAMessage.au8Payload, (bootPartitionDesc).version)) && (err == ESP_OK)) //compare remote and local version
{
//local newer as remote
ESP_LOGI(LOG_TAG, "Mesh: remote image on node is older --> OTA send required");
// --> this version newer --> start OTA_Tx
ERROR_CHECK(errOTAMeshTransmit(&sOTAMessage.meshSenderAddr));
}
}
else if (err == ESP_OK)
{
ESP_LOGI(LOG_TAG, "//received from wrong node or type --> back to queue");
vAddOTAControllMessageToQueue(&sOTAMessage);
}
/* }
else
{
ESP_LOGI(LOG_TAG, "// OTA Message queue is empty --> wait some time");
vTaskDelay(OTA_MESH_TIMEOUT*u32Index / portTICK_PERIOD_MS);
}
*/
}//end loop
xSemaphoreGive(bsOTAProcess); //free binary semaphore, this allows other tasks to start the OTA process
}
if((bNodeIsResponding == false) && (bNodeIsConnected == true))
{
ESP_LOGI(LOG_TAG, "//add node back to queue if connected and NOT responding");
vAddNodeToPossibleUpdatableQueue(pMeshNodeAddr->addr);
}
return err;
}
bool bNewerVersion(const char* pu8Local, const char* pu8Remote)
{
/*
* Return true if remote version is newer (higher) than local version
*/
char u8LocalTmp[12]; //local version
char u8RemoteTmp[12]; //remote version
char* pu8saveptrLocal; //context for strok_r
char* pu8saveptrRemote; //context for strok_r
bool bReturn = false; //flag to stop loop
uint8_t u8Index = 0; //numbers counter in version string
strncpy(u8LocalTmp, pu8Local, 12); //copy in tmp
strncpy(u8RemoteTmp, pu8Remote, 12); //copy in tmp
char* pu8TokenLocal = strtok_r(u8LocalTmp, ".", &pu8saveptrLocal); //split tokens
char* pu8TokenRemote = strtok_r(u8RemoteTmp, ".", &pu8saveptrRemote); //split tokens
while( (u8Index <= 2) && (bReturn == false)) //loop through tokens
{
u8Index++;
if(atoi(pu8TokenLocal) < atoi(pu8TokenRemote))
{
bReturn = true; //version number difference --> stop loop
}
pu8TokenLocal = strtok_r(NULL, ".", &pu8saveptrLocal); //split tokens
pu8TokenRemote = strtok_r(NULL, ".", &pu8saveptrRemote); //split tokens
}
return bReturn;
}
esp_err_t errFindImageStart(const char* pu8Data, uint32_t* pu32DataLenght, uint32_t* pu32StartOffset)
{
/*
Offset value
0 = 0xE9 (first byte in image --> magic byte)
48 = first digit of version number
*/
esp_err_t errReturn = ESP_OK;
bool bImageStartOffsetFound = false;
uint32_t u32DataIndex = 0;
uint32_t u32FirstDotOffset = 0;
uint32_t u32SecondDotOffset = 0;
uint8_t u8FirstDotIndex = 0;
uint8_t u8SecondDotIndex = 0;
*pu32StartOffset = 0U; //reset offset to zero
while((u32DataIndex < *pu32DataLenght) && (bImageStartOffsetFound == false))
{
//search for magic byte
if(pu8Data[u32DataIndex] == 0xe9)
{
//magic byte found
while ((u8FirstDotIndex < 3) && (u32FirstDotOffset == 0))
{
//search first dot in version number
if((u32DataIndex+49+u8FirstDotIndex) < *pu32DataLenght)
{
if((pu8Data[(u32DataIndex+49+u8FirstDotIndex)] == 0x2e))
{
//first dot found
u32FirstDotOffset = (u32DataIndex+49+u8FirstDotIndex);
}
}
u8FirstDotIndex++;
}
while ((u8SecondDotIndex < 3) && (u32SecondDotOffset == 0) && (u32FirstDotOffset != 0))
{
//search first dot in version number
if((u32FirstDotOffset+(u8SecondDotIndex+2)) < *pu32DataLenght)
{
if((pu8Data[(u32FirstDotOffset+(u8SecondDotIndex+2))] == 0x2e))
{
//second dot found
u32SecondDotOffset = (u32FirstDotOffset+(u8SecondDotIndex+2));
}
}
u8SecondDotIndex++;
}
if((u32FirstDotOffset != 0) && (u32SecondDotOffset != 0))
{
//image start found based on magic byte and version number systax
*pu32StartOffset = u32DataIndex; //store image start offset
bImageStartOffsetFound = true;
}
else
{
// this is propably not the magic byte --> reset
u32FirstDotOffset = 0;
u32SecondDotOffset = 0;
u8FirstDotIndex = 0;
u8SecondDotIndex = 0;
}
}
u32DataIndex++;
}
if(bImageStartOffsetFound == false)
{
errReturn = ESP_ERR_NOT_FOUND;
}
return errReturn;
}
esp_err_t errExtractVersionNumber(const char* pu8Data, uint32_t* pu32DataLenght, char* pc8RemoteVersionNumber)
{
uint32_t u32StartOffset;
esp_err_t err = ESP_OK;
strcpy(pc8RemoteVersionNumber, "999.999.999"); //init value
err = errFindImageStart(pu8Data, pu32DataLenght, &u32StartOffset); //get image start offset
if(err == ESP_OK)
{
//image found
strncpy(pc8RemoteVersionNumber, pu8Data+(u32StartOffset+48), 11); //copy version number
pc8RemoteVersionNumber[12] = '\0';
}
return err;
}
void vPrintOTAProgress(const uint32_t* const pu32TotalImageSize, const uint32_t* const pu32BytesWritten, OTA_MESH_ROLE_t eRole)
{
uint32_t u32Percentage = 0U;
static uint32_t u32LastPercentage = 0U;
if((*pu32BytesWritten) >= (*pu32TotalImageSize))
{
u32Percentage = 100;
}
else
{
u32Percentage = (uint32_t) (((float) (*pu32BytesWritten)/(float) (*pu32TotalImageSize)) * 100.0);
}
if((u32Percentage-u32LastPercentage) >= OTA_PROGRESS_LOG_INTERVAL)
{
if(eRole == Transmitter)
{
ESP_LOGE(LOG_TAG, "Transmitting OTA update: %i %%", u32Percentage);
}
if(eRole == Receiver)
{
ESP_LOGE(LOG_TAG, "Receiving OTA update: %i %%", u32Percentage);
}
u32LastPercentage = u32Percentage;
}
}
void vAddAllNeighboursToQueue(void)
{
esp_err_t err = ESP_OK;
mesh_addr_t addrParent; //addr of parent node
mesh_addr_t childrenAddr[CONFIG_MESH_ROUTE_TABLE_SIZE]; //array of children attached to this node
uint16_t u16ChildrenSize = 0U; //number of children attached to this node
err = errGetParentNode(&addrParent);
if(err == ESP_OK)
{
vAddNodeToPossibleUpdatableQueue(addrParent.addr);
ESP_LOGI(LOG_TAG, "added parent");
}
err = ESP_OK; //reset error code
ERROR_CHECK(errGetChildren(childrenAddr, &u16ChildrenSize)); //get all children
for (uint16_t u16Index = 0; ((u16Index < u16ChildrenSize) && (err == ESP_OK)); u16Index++)
{
vAddNodeToPossibleUpdatableQueue(childrenAddr[u16Index].addr);
ESP_LOGI(LOG_TAG, "added child");
}
}
esp_err_t errSendOTAVersionResponse(mesh_addr_t* pMeshReceiverAddr)
{
esp_err_t err = ESP_OK;
MESH_PACKET_t packet;
packet.type = OTA_Version_Response;
const esp_partition_t* pBootPartition; //pointer to boot partition (that will booted after reset)
esp_app_desc_t bootPartitionDesc; //Metadata from boot partition
pBootPartition = esp_ota_get_boot_partition(); //get boot partition (that will booted after reset), not the running partition
ERROR_CHECK(esp_ota_get_partition_description(pBootPartition, &bootPartitionDesc)); //get metadate of partition
memcpy(&packet.au8Payload, &bootPartitionDesc.version, 12); //copy local version to OTA_Version_Response packet
err = errSendMeshPacket(pMeshReceiverAddr, &packet);
return err;
}
esp_err_t errSendOTAVersionRequest(mesh_addr_t* pMeshReceiverAddr)
{
esp_err_t err = ESP_OK;
MESH_PACKET_t packet;
packet.type = OTA_Version_Request;
const esp_partition_t* pBootPartition; //pointer to boot partition (that will booted after reset)
esp_app_desc_t bootPartitionDesc; //Metadata from boot partition
pBootPartition = esp_ota_get_boot_partition(); //get boot partition (that will booted after reset), not the running partition
ERROR_CHECK(esp_ota_get_partition_description(pBootPartition, &bootPartitionDesc)); //get metadate of partition
memcpy(&packet.au8Payload, &bootPartitionDesc.version, 12); //copy local version to OTA_Version_Request packet
err = errSendMeshPacket(pMeshReceiverAddr, &packet);
return err;
}
esp_err_t errOTAMeshTransmit(mesh_addr_t* pMeshNodeAddr)
{
esp_err_t err = ESP_OK;
//const esp_partition_t* pBootPartition; //pointer to boot partition (that will booted after reset)
MESH_PACKET_t sMeshPacket; //packet for sending and receiving
//uint32_t u32Index = 0U; //index for partition read offset
//bool bAbort = false; //abort the OTA process
//bool bNodeIsResponding = false; //remote node is still active
//uint32_t u32OTABytesWritten = 0U;
//uint32_t u32SegmentCounter = 0U;
pBootPartitionTx = esp_ota_get_boot_partition(); //get boot partition (that will booted after reset), not the running partition
u32OTABytesWrittenTx = 0U;
u32SegmentCounterTx = 0U;
bNodeIsRespondingTx = false; //remote node is still active
//loop through partition to read in segmensts until end or error or abort called
// while( ((OTA_MESH_SEGMENT_SIZE * u32SegmentCounter) < pBootPartition->size) && (err == ESP_OK) && (bAbort == false))
{
//bNodeIsResponding = false; //reset to default
/*
ESP_LOGI(LOG_TAG, "// read partition with offset based in index");
ERROR_CHECK(esp_partition_read(pBootPartition, (OTA_MESH_SEGMENT_SIZE * u32Index), sMeshPacket.au8Payload, OTA_MESH_SEGMENT_SIZE));
u32OTABytesWritten = ((u32SegmentCounter+1) * OTA_MESH_SEGMENT_SIZE);
vPrintOTAProgress(&(pBootPartition->size), &u32OTABytesWritten, Transmitter);
if(err == ESP_OK)
{
//ESP_LOGI(LOG_TAG, "//no error while read --> send OTA_DATA packet");
sMeshPacket.type = OTA_Data;
if((OTA_MESH_SEGMENT_SIZE * (u32SegmentCounter+1)) >= pBootPartition->size) //check if last segment
{
ESP_LOGI(LOG_TAG, "//last partition image segment --> send OTA_Complete");
sMeshPacket.type = OTA_Complete;
ESP_LOGE(LOG_TAG, "u32SegmentCounter: %i", u32SegmentCounter);
}
err = errSendMeshPacket(pMeshNodeAddr, &sMeshPacket);
}
else
{
ESP_LOGI(LOG_TAG, "// error while read --> send OTA_ABORT and abort this OTA process");
sMeshPacket.type = OTA_Abort;
bAbort = true;
errSendMeshPacket(pMeshNodeAddr, &sMeshPacket);
}
*/
// loop through all OTA messages or until abort is called or error
for (uint32_t u32Index = 0; ((u32Index < QUEUE_MESSAGE_OTA_SIZE) && (bOtaAbortTx == false)); u32Index++) //loop through all OTA messages
{
// if(uxQueueSpacesAvailable(queueMessageOTA) < QUEUE_MESSAGE_OTA_SIZE)
// {
//queue not empty
if (xQueueReceive(queueMessageOTA, &sMeshPacket, ((OTA_MESH_TIMEOUT) / portTICK_PERIOD_MS)) != pdTRUE)
{
ESP_LOGE(LOG_TAG, "Unable to receive OTA Messages from queue");
err = ESP_FAIL;
}
if((err == ESP_OK) && (bCheckMACEquality(sMeshPacket.meshSenderAddr.addr, pMeshNodeAddr->addr))) //if OTA_Version_Request
{
ESP_LOGI(LOG_TAG, "//packet from node received");
switch (sMeshPacket.type)
{
case OTA_Abort: //abort this OTA process
bOtaAbortTx = true;
bNodeIsRespondingTx = true;
break;
default:
ESP_LOGI(LOG_TAG, "//receives wrong OTA message type from node --> back to queue");
vAddOTAControllMessageToQueue(&sMeshPacket);
break;
}
}
else if (err == ESP_OK)
{
ESP_LOGI(LOG_TAG, "//received from wrong node --> back to queue");
vAddOTAControllMessageToQueue(&sMeshPacket);
if(bNodeIsRespondingTx == false)
{
ESP_LOGI(LOG_TAG, "//no abort was called but node didnt responded");
bOtaAbortTx = true;
err = ESP_FAIL; //this OTA process failed with error
}
else
{
bNodeIsRespondingTx = false;
}
}
// }
// else
//{
// ESP_LOGI(LOG_TAG, "// OTA Message queue is empty --> wait some time");
//vTaskDelay(OTA_MESH_TIMEOUT*u32Index/ portTICK_PERIOD_MS);
// }
}//end OTA message loop
}
// u32SegmentCounter++;
//}//end of partition segment loop
return err;
}
esp_err_t errOTAMeshReceive(bool* pbNewOTAImage, mesh_addr_t* pMeshNodeAddr)
{
esp_err_t err = ESP_OK;
MESH_PACKET_t sMeshPacket; //packet for sending and receiving
bool bComplete = false; //complete the OTA process
bool bAbort = false; //abort the OTA process
bool bNodeIsResponding = false; //remote node is still active
uint32_t u32OTABytesWritten = 0U; //counter unsed for progress log
static esp_ota_handle_t otaHandle; //OTA process handle
*pbNewOTAImage = false;
uint32_t u32SegmentCounter = 0U;
ERROR_CHECK(esp_ota_begin(pOTAPartition, OTA_SIZE_UNKNOWN, &otaHandle)); //start ota update process
//partition segement loop through partition to read in segmensts until end or error or abort called
while((bComplete == false) && (err == ESP_OK) && (bAbort == false) && (u32OTABytesWritten <= pOTAPartition->size))
{
bNodeIsResponding = false; //reset to default
// loop through all OTA messages or until abort is called
for (uint32_t u32Index = 0; ((u32Index < QUEUE_MESSAGE_OTA_SIZE) && (bAbort == false)); u32Index++) //loop through all OTA messages
{
//if(uxQueueSpacesAvailable(queueMessageOTA) < QUEUE_MESSAGE_OTA_SIZE)
// {
//queue not empty
if (xQueueReceive(queueMessageOTA, &sMeshPacket, ((OTA_MESH_TIMEOUT) / portTICK_PERIOD_MS)) != pdTRUE)
{
ESP_LOGE(LOG_TAG, "Unable to receive OTA Messages from queue");
err = ESP_FAIL;
}
if((err == ESP_OK) && (bCheckMACEquality(sMeshPacket.meshSenderAddr.addr, pMeshNodeAddr->addr))) //if OTA_Version_Request
{
ESP_LOGI(LOG_TAG, "//packet from node received");
switch (sMeshPacket.type)
{
case OTA_Complete:
ESP_LOGI(LOG_TAG, "//signal end of this OTA process, fall through because same behavior as OTA_Data");
bComplete = true;
ESP_LOGE(LOG_TAG, "after rec:Complete u32SegmentCounter: %i", u32SegmentCounter);
//fall through
case OTA_Data:
ESP_LOGI(LOG_TAG, "//data segement received");
bNodeIsResponding = true;
u32Index = QUEUE_MESSAGE_OTA_SIZE; //this will exit the loop through all OTA messages
ERROR_CHECK(esp_ota_write(otaHandle, sMeshPacket.au8Payload, OTA_MESH_SEGMENT_SIZE));
if(err != ESP_OK)
{
ESP_LOGE(LOG_TAG, "write error - Segement: %i", u32SegmentCounter);
}
u32OTABytesWritten = ((u32SegmentCounter+1) * OTA_MESH_SEGMENT_SIZE);
vPrintOTAProgress(&(pOTAPartition->size), &u32OTABytesWritten, Receiver);
break;
case OTA_Abort: //abort this OTA process
bAbort = true;
bNodeIsResponding = true;
break;
default:
ESP_LOGI(LOG_TAG, "//receives wrong OTA message type from node --> back to queue");
vAddOTAControllMessageToQueue(&sMeshPacket);
break;
}
}
else if (err == ESP_OK)
{
ESP_LOGI(LOG_TAG, "//received from wrong node --> back to queue");
vAddOTAControllMessageToQueue(&sMeshPacket);
}
// }
// else
// {
// ESP_LOGI(LOG_TAG, "// OTA Message queue is empty --> wait some time");
// vTaskDelay((OTA_MESH_TIMEOUT*u32Index) / portTICK_PERIOD_MS);
// }
}//end of OTA message loop
if(bNodeIsResponding == false)
{
ESP_LOGI(LOG_TAG, "//no abort was called but node didnt responded --> error");
bAbort = true; //this will stop the partition segement loop
err = ESP_FAIL; //this OTA process failed with error
}
else
{
ESP_LOGI(LOG_TAG, "//node has responded with OTA_DATA or OTA_Complete or OTA_ABORT");
if(err == ESP_OK)
{
if((bAbort == false) && (bComplete == false))
{
ESP_LOGI(LOG_TAG, "//no error while ota write --> send OTA_ACK packet");
sMeshPacket.type = OTA_ACK;
err = errSendMeshPacket(pMeshNodeAddr, &sMeshPacket);
}
}
else if (bComplete == false)
{
ESP_LOGI(LOG_TAG, "// error while read --> send OTA_ABORT and abort this OTA process");
sMeshPacket.type = OTA_Abort;
bAbort = true;
errSendMeshPacket(pMeshNodeAddr, &sMeshPacket);
}
}
u32SegmentCounter++;
}//end of partition segement loop
if(bComplete == true)
{
ESP_LOGI(LOG_TAG, "//all OTA segments received --> validate");
ERROR_CHECK(esp_ota_end(otaHandle));
ERROR_CHECK(esp_ota_set_boot_partition(pOTAPartition));
if(err == ESP_OK)
{
ESP_LOGI(LOG_TAG, "//successfully updated OTA partition");
*pbNewOTAImage = true;
}
}
else
{
ESP_LOGI(LOG_TAG, "//not all OTA segments received --> abort this OTA process");
ERROR_CHECK(esp_ota_abort(otaHandle));
}
return err;
}
void vRecOtaDataHandler(MESH_PACKET_t* puMeshPacket)
{
if(bOtaAbortTx == false)
{
}
}
void vRecOtaAckHandler(MESH_PACKET_t* puMeshPacket)
{
esp_err_t err = ESP_OK;
MESH_PACKET_t sMeshPacket; //packet for sending and receiving
if(bOtaAbortTx == false)
{
//sender node == ota node ?
bNodeIsRespondingTx = true;
ESP_LOGI(LOG_TAG, "// read partition with offset based in index");
ERROR_CHECK(esp_partition_read(pBootPartitionTx, (OTA_MESH_SEGMENT_SIZE * u32SegmentCounterTx), sMeshPacket.au8Payload, OTA_MESH_SEGMENT_SIZE));
u32OTABytesWrittenTx = ((u32SegmentCounterTx+1) * OTA_MESH_SEGMENT_SIZE);
vPrintOTAProgress(&(pBootPartitionTx->size), &u32OTABytesWrittenTx, Transmitter);
sMeshPacket.type = OTA_Data;
if(err != ESP_OK)
{
bOtaAbortTx = true;
sMeshPacket.type = OTA_Abort;
}
if((OTA_MESH_SEGMENT_SIZE * (u32SegmentCounterTx+1)) >= pBootPartitionTx->size) //check if last segment
{
ESP_LOGI(LOG_TAG, "//last partition image segment --> send OTA_Complete");
sMeshPacket.type = OTA_Complete;
ESP_LOGE(LOG_TAG, "u32SegmentCounterTx: %i", u32SegmentCounterTx);
}
err = errSendMeshPacket(&puMeshPacket->meshSenderAddr, &sMeshPacket);
u32SegmentCounterTx++;
}
}
/*
void vRecOtaCompleteHandler(MESH_PACKET_t* puMeshPacket)
{
return;
}
void vRecOtaAbortHandler(MESH_PACKET_t* puMeshPacket)
{
return;
}
*/

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components/mesh_ota/Mesh_network.c Normal file
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#include "Mesh_OTA.h"
static const char *LOG_TAG = "mesh_network";
static uint8_t tx_buf[CONFIG_MESH_MESSAGE_SIZE] = { 0, };
static uint8_t rx_buf[CONFIG_MESH_MESSAGE_SIZE] = { 0, };
uint8_t u8ownMAC[6];
esp_netif_t* netif_sta;
bool bIsMeshConnected;
int32_t i32MeshLayer;
mesh_addr_t meshParentAddr;
void (*pAppRxHandle)(uint8_t*, uint8_t* );
void (*pOTAChildConnectHandle)(uint8_t* );
void (*pOTAMessageHandle)(MESH_PACKET_t* );
void (*pChangeStateOfServerWorkerHandle)(bool );
void (*pOtaDataHandle)(MESH_PACKET_t* );
void (*pOtaAckHandle)(MESH_PACKET_t* );
void (*pOtaCompleteHandle)(MESH_PACKET_t* );
void (*pOtaAbortHandle)(MESH_PACKET_t* );
esp_err_t errMeshNetworkInitialize()
{
//init module variables
esp_err_t err;
bIsMeshConnected = false;
i32MeshLayer = -1;
netif_sta = NULL;
err = nvs_flash_init(); //init non-volatile storage
#ifdef ERASE_NVS
if(err == ESP_ERR_NVS_NO_FREE_PAGES) //check if storage is full
{
ERROR_CHECK(nvs_flash_erase());
}
#endif
// tcpip initialization
ERROR_CHECK(esp_netif_init());
//event initialization
ERROR_CHECK(esp_event_loop_create_default());
//create network interfaces for mesh (only station instance saved for further manipulation, soft AP instance ignored
ERROR_CHECK(esp_netif_create_default_wifi_mesh_netifs(&netif_sta, NULL));
//wifi initialization
ERROR_CHECK(errMeshNetworkInitializeWiFi());
//mesh initialization
ERROR_CHECK(esp_mesh_init());
//mesh initialization
ERROR_CHECK(esp_event_handler_register(MESH_EVENT, ESP_EVENT_ANY_ID, &vMeshEventHandler, NULL));
//set mesh topology
ERROR_CHECK(esp_mesh_set_topology(CONFIG_MESH_TOPOLOGY));
//set mesh max layer according to the topology
ERROR_CHECK(esp_mesh_set_max_layer(CONFIG_MESH_MAX_LAYER));
ERROR_CHECK(esp_mesh_set_vote_percentage(1));
ERROR_CHECK(esp_mesh_set_xon_qsize(128));
//Disable mesh PS function
ERROR_CHECK(esp_mesh_disable_ps());
ERROR_CHECK(esp_mesh_set_ap_assoc_expire(10));
mesh_cfg_t cfg = MESH_INIT_CONFIG_DEFAULT();
/* mesh ID */
memcpy((uint8_t *) &cfg.mesh_id, CONFIG_MESH_ID, 6);
ERROR_CHECK(errMeshNetworkInitializeRouter(&cfg));
/* mesh softAP */
ERROR_CHECK(esp_mesh_set_ap_authmode(CONFIG_MESH_AP_AUTHMODE));
cfg.mesh_ap.max_connection = CONFIG_MESH_AP_CONNECTIONS;
memcpy((uint8_t *) &cfg.mesh_ap.password, CONFIG_MESH_AP_PASSWD,
strlen(CONFIG_MESH_AP_PASSWD));
ERROR_CHECK(esp_mesh_set_config(&cfg));
/* mesh start */
ERROR_CHECK(esp_mesh_start());
ERROR_CHECK(esp_base_mac_addr_get(u8ownMAC))
//debug info
ESP_LOGD(LOG_TAG, "mesh starts successfully, heap:%d, %s<%d>%s, ps:%d\n", esp_get_minimum_free_heap_size(),
esp_mesh_is_root_fixed() ? "root fixed" : "root not fixed",
esp_mesh_get_topology(), esp_mesh_get_topology() ? "(chain)":"(tree)", esp_mesh_is_ps_enabled());
ESP_LOGI(LOG_TAG, "Node MAC: \"%x:%x:%x:%x:%x:%x\" ", u8ownMAC[0], u8ownMAC[1], u8ownMAC[2], u8ownMAC[3], u8ownMAC[4], u8ownMAC[5]);
return ESP_OK;
}
esp_err_t errMeshNetworkInitializeWiFi()
{
//wifi initialization
esp_err_t err = ESP_OK;
wifi_init_config_t config = WIFI_INIT_CONFIG_DEFAULT();
ERROR_CHECK(esp_wifi_init(&config));
ERROR_CHECK(esp_event_handler_register(IP_EVENT, IP_EVENT_STA_GOT_IP, &vIPEventHandler, NULL));
ERROR_CHECK(esp_wifi_set_storage(WIFI_STORAGE_FLASH));
ERROR_CHECK(esp_wifi_start());
return err;
}
esp_err_t errMeshNetworkInitializeRouter(mesh_cfg_t* cfg)
{
//router initialization
esp_err_t err = ESP_OK;
(*cfg).channel = CONFIG_MESH_CHANNEL;
(*cfg).router.ssid_len = strlen(CONFIG_MESH_ROUTER_SSID);
memcpy((uint8_t *) &(*cfg).router.ssid, CONFIG_MESH_ROUTER_SSID, (*cfg).router.ssid_len);
memcpy((uint8_t *) &(*cfg).router.password, CONFIG_MESH_ROUTER_PASSWD,
strlen(CONFIG_MESH_ROUTER_PASSWD));
return err;
}
//returns true if MAC address is equal
bool bCheckMACEquality(uint8_t* pu8aMAC, uint8_t* pu8bMAC)
{
bool bRet = true;
uint8_t index = 0;
while ((index < 6) && (bRet == true))
{
if(pu8aMAC[index] != pu8bMAC[index])
{
bRet = false;
}
index++;
}
return bRet;
}
esp_err_t errGetChildren(mesh_addr_t* pChildren, uint16_t* pu16ChildrenSize)
{
esp_err_t err = ESP_OK;
int route_table_size = 0;
*pu16ChildrenSize = 0;
mesh_addr_t route_table[CONFIG_MESH_ROUTE_TABLE_SIZE];
ERROR_CHECK(esp_mesh_get_routing_table((mesh_addr_t *) &route_table, (CONFIG_MESH_ROUTE_TABLE_SIZE * 6), &route_table_size));
if (err == ESP_OK)
{
for(uint16_t index = 0; index < esp_mesh_get_routing_table_size(); index++)
{
if(! (bCheckMACEquality(u8ownMAC, route_table[index].addr)) )
{
//child node
//ESP_LOGI(LOG_TAG, "adding Node: \"0x%x, 0x%x, 0x%x, 0x%x, 0x%x, 0x%x\" ", route_table[index].addr[0], route_table[index].addr[1], route_table[index].addr[2], route_table[index].addr[3], route_table[index].addr[4], route_table[index].addr[5]);
pChildren[*pu16ChildrenSize] = route_table[index];
*pu16ChildrenSize = (*pu16ChildrenSize)+1;
}
}
}
return err;
}
esp_err_t errGetParentNode(mesh_addr_t* pMeshParentAddr)
{
esp_err_t err = ESP_OK;
if((bIsMeshConnected == false) || (esp_mesh_is_root()))
{
//this node is not connected or is the root --> this node has no parent
err = ESP_FAIL;
}
else
{
//node has parent
memcpy(pMeshParentAddr, &meshParentAddr, sizeof(mesh_addr_t));
}
return err;
}
void vGetOwnAddr(mesh_addr_t* pMeshOwnAddr)
{
memcpy(pMeshOwnAddr->addr, u8ownMAC, 6);
}
bool bIsRootNode()
{
return esp_mesh_is_root();
}
bool bIsNodeNeighbour(mesh_addr_t* pNode)
{
esp_err_t err = ESP_OK;
bool bReturn = false;
mesh_addr_t addrParent; //addr of parent node
mesh_addr_t childrenAddr[CONFIG_MESH_ROUTE_TABLE_SIZE]; //array of children attached to this node
uint16_t u16ChildrenSize = 0U; //number of children attached to this node
err = errGetParentNode(&addrParent);
if(err == ESP_OK)
{
if(bCheckMACEquality(pNode->addr, addrParent.addr) == true)
{
bReturn = true; //node was found
}
}
if(bReturn == false)
{
err = ESP_OK; //reset error code
ERROR_CHECK(errGetChildren(childrenAddr, &u16ChildrenSize)); //get all children
for (uint16_t u16Index = 0; ((u16Index < u16ChildrenSize) && (err == ESP_OK) && (bReturn == false)); u16Index++)
{
if(bCheckMACEquality(pNode->addr, childrenAddr[u16Index].addr) == true)
{
bReturn = true; //node was found
}
}
}
return bReturn;
}
esp_err_t errMeshNetworkSetAppReceiveHandle(void (*pAppRxHandleTmp)(uint8_t * pu8Data, uint8_t* pu8Sender))
{
pAppRxHandle = pAppRxHandleTmp; //set handle from app as receive handle if an app packet is received
return ESP_OK;
}
esp_err_t errMeshNetworkSetChildConnectedHandle(void (*pChildConnectHandleTmp)(uint8_t * pu8Data))
{
pOTAChildConnectHandle = pChildConnectHandleTmp;
return ESP_OK;
}
esp_err_t errMeshNetworkSetOTAMessageHandle(void (*pOTAMessageHandleTmp)(MESH_PACKET_t* puMeshPacket))
{
pOTAMessageHandle = pOTAMessageHandleTmp;
return ESP_OK;
}
esp_err_t errMeshNetworkSetOtaDataHandle(void (*pOtaDataHandleTmp)(MESH_PACKET_t* puMeshPacket))
{
pOtaDataHandle = pOtaDataHandleTmp;
return ESP_OK;
}
esp_err_t errMeshNetworkSetOtaAckHandle(void (*pOtaAckHandleTmp)(MESH_PACKET_t* puMeshPacket))
{
pOtaAckHandle = pOtaAckHandleTmp;
return ESP_OK;
}
esp_err_t errMeshNetworkSetOtaCompleteHandle(void (*pOtaCompleteHandleTmp)(MESH_PACKET_t* puMeshPacket))
{
pOtaCompleteHandle = pOtaCompleteHandleTmp;
return ESP_OK;
}
esp_err_t errMeshNetworkSetOtaAbortHandle(void (*pOtaAbortHandleTmp)(MESH_PACKET_t* puMeshPacket))
{
pOtaAbortHandle = pOtaAbortHandleTmp;
return ESP_OK;
}
esp_err_t errMeshNetworkSetChangeStateOfServerWorkerHandle(void (*pChangeStateOfServerWorkerHandleTmp)(bool bState))
{
pChangeStateOfServerWorkerHandle = pChangeStateOfServerWorkerHandleTmp;
return ESP_OK;
}
esp_err_t errSendMeshPacket(mesh_addr_t* pAddrDest, MESH_PACKET_t* pPacket)
{
esp_err_t err;
mesh_data_t data;
data.data = tx_buf;
data.size = sizeof(tx_buf);
data.proto = MESH_PROTO_BIN;
data.tos = MESH_TOS_P2P;
memcpy(tx_buf, (uint8_t *)pPacket, sizeof(MESH_PACKET_t));
err = esp_mesh_send(pAddrDest, &data, MESH_DATA_P2P, NULL, 0);
return err;
}
esp_err_t errStartReceiveTask()
{
esp_err_t err = ESP_OK;
BaseType_t xReturned;
xReturned = xTaskCreate(vTaskReceiveMeshData, "ReceiveMeshData", 7000, NULL, 5, NULL);
if(xReturned != pdPASS)
{
err = ESP_FAIL;
}
return err;
}
void vTaskReceiveMeshData(void *arg)
{
esp_err_t err;
mesh_addr_t from;
mesh_data_t data;
int flag = 0;
data.data = rx_buf;
data.size = CONFIG_MESH_MESSAGE_SIZE;
while (true)
{
data.size = CONFIG_MESH_MESSAGE_SIZE;
err = esp_mesh_recv(&from, &data, portMAX_DELAY, &flag, NULL, 0);
if (err != ESP_OK || !data.size)
{
ESP_LOGE(LOG_TAG, "err:0x%x, size:%d", err, data.size);
continue;
}
MESH_PACKET_t packet;
memcpy(&packet, (uint8_t *)rx_buf, sizeof(MESH_PACKET_t)); //parse MESH_PACKET_t
memcpy(&packet.meshSenderAddr, &from, sizeof(mesh_addr_t)); //copy sender into packet
switch (packet.type)
{
case APP_Data:
ESP_LOGD(LOG_TAG, "recv: APP_Data");
//call the rx handle from app
pAppRxHandle(packet.au8Payload, from.addr); //hand over payload and sender of this mesh packet
break;
case OTA_Version_Request:
case OTA_Version_Response:
case OTA_Complete:
case OTA_Abort:
//call the rx handle from OTA
if(pOTAMessageHandle)
{
pOTAMessageHandle(&packet);
}
break;
case OTA_Data:
if(pOtaDataHandle)
{
pOtaDataHandle(&packet);
}
break;
case OTA_ACK:
if(pOtaAckHandle)
{
pOtaAckHandle(&packet);
}
break;
/* case OTA_Complete:
if(pOtaCompleteHandle)
{
pOtaCompleteHandle(&packet);
}
break;
case OTA_Abort:
if(pOtaAbortHandle)
{
pOtaAbortHandle(&packet);
}
break;
*/
default:
ESP_LOGE(LOG_TAG, "recv: something");
break;
}//end switch
} //end while
}

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#include "Mesh_OTA.h"
static const char *LOG_TAG = "mesh_network_handler";
void vIPEventHandler(void *arg, esp_event_base_t event_base, int32_t i32EventID, void *vpEventData)
{
ip_event_got_ip_t *event = (ip_event_got_ip_t *) vpEventData;
ESP_LOGI(LOG_TAG, "<IP_EVENT_STA_GOT_IP>IP:" IPSTR, IP2STR(&event->ip_info.ip));
if(pChangeStateOfServerWorkerHandle)
{
pChangeStateOfServerWorkerHandle(true); //signal that this node (root node) has access to internet
}
}
void vMeshEventHandler(void *arg, esp_event_base_t event_base, int32_t i32EventID, void* vpEventData)
{
mesh_addr_t id = {0,};
static uint16_t last_layer = 0;
switch (i32EventID)
{
case MESH_EVENT_STARTED:
{
esp_mesh_get_id(&id);
ESP_LOGI(LOG_TAG, "<MESH_EVENT_MESH_STARTED>ID:"MACSTR"", MAC2STR(id.addr));
bIsMeshConnected = false;
i32MeshLayer = esp_mesh_get_layer();
}
break;
case MESH_EVENT_STOPPED:
{
ESP_LOGI(LOG_TAG, "<MESH_EVENT_STOPPED>");
bIsMeshConnected = false;
i32MeshLayer = esp_mesh_get_layer();
}
break;
case MESH_EVENT_CHILD_CONNECTED:
{
mesh_event_child_connected_t *child_connected = (mesh_event_child_connected_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_CHILD_CONNECTED>aid:%d, "MACSTR"", child_connected->aid, MAC2STR(child_connected->mac));
if(pOTAChildConnectHandle){pOTAChildConnectHandle(child_connected->mac);}//add this child to queue using handle
}
break;
case MESH_EVENT_CHILD_DISCONNECTED:
{
mesh_event_child_disconnected_t *child_disconnected = (mesh_event_child_disconnected_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_CHILD_DISCONNECTED>aid:%d, "MACSTR"",
child_disconnected->aid,
MAC2STR(child_disconnected->mac));
}
break;
case MESH_EVENT_ROUTING_TABLE_ADD:
{
mesh_event_routing_table_change_t *routing_table = (mesh_event_routing_table_change_t *)vpEventData;
ESP_LOGW(LOG_TAG, "<MESH_EVENT_ROUTING_TABLE_ADD>add %d, new:%d, layer:%d",
routing_table->rt_size_change,
routing_table->rt_size_new, i32MeshLayer);
}
break;
case MESH_EVENT_ROUTING_TABLE_REMOVE:
{
mesh_event_routing_table_change_t *routing_table = (mesh_event_routing_table_change_t *)vpEventData;
ESP_LOGW(LOG_TAG, "<MESH_EVENT_ROUTING_TABLE_REMOVE>remove %d, new:%d, layer:%d",
routing_table->rt_size_change,
routing_table->rt_size_new, i32MeshLayer);
}
break;
case MESH_EVENT_NO_PARENT_FOUND:
{
mesh_event_no_parent_found_t *no_parent = (mesh_event_no_parent_found_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_NO_PARENT_FOUND>scan times:%d",
no_parent->scan_times);
/* TODO handler for the failure, maybe nominate themselves */
}
break;
case MESH_EVENT_PARENT_CONNECTED:
{
mesh_event_connected_t *connected = (mesh_event_connected_t *)vpEventData;
esp_mesh_get_id(&id);
i32MeshLayer = connected->self_layer;
memcpy(&meshParentAddr.addr, connected->connected.bssid, 6);
ESP_LOGI(LOG_TAG, "<MESH_EVENT_PARENT_CONNECTED>layer:%d-->%d, parent:"MACSTR"%s, ID:"MACSTR", duty:%d",
last_layer, i32MeshLayer, MAC2STR(meshParentAddr.addr),
esp_mesh_is_root() ? "<ROOT>" : (i32MeshLayer == 2) ? "<layer2>" : "", //print own node title
MAC2STR(id.addr), connected->duty);
last_layer = i32MeshLayer;
bIsMeshConnected = true;
if (esp_mesh_is_root())
{
if(esp_netif_dhcpc_start(netif_sta) == ESP_ERR_ESP_NETIF_DHCP_ALREADY_STARTED) //get a IP from router
{
if(pChangeStateOfServerWorkerHandle){pChangeStateOfServerWorkerHandle(true);}// signal reconnect
}
}
errStartReceiveTask();//start receiving
}
break;
case MESH_EVENT_PARENT_DISCONNECTED:
{
mesh_event_disconnected_t *disconnected = (mesh_event_disconnected_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_PARENT_DISCONNECTED>reason:%d", disconnected->reason);
bIsMeshConnected = false;
if(pChangeStateOfServerWorkerHandle){pChangeStateOfServerWorkerHandle(false);}
i32MeshLayer = esp_mesh_get_layer();
}
break;
case MESH_EVENT_LAYER_CHANGE:
{
mesh_event_layer_change_t *layer_change = (mesh_event_layer_change_t *)vpEventData;
i32MeshLayer = layer_change->new_layer;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_LAYER_CHANGE>layer:%d-->%d%s",
last_layer, i32MeshLayer,
esp_mesh_is_root() ? "<ROOT>" : (i32MeshLayer == 2) ? "<layer2>" : "");
last_layer = i32MeshLayer;
}
break;
case MESH_EVENT_ROOT_ADDRESS:
{
mesh_event_root_address_t *root_addr = (mesh_event_root_address_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_ROOT_ADDRESS>root address:"MACSTR"",
MAC2STR(root_addr->addr));
}
break;
case MESH_EVENT_VOTE_STARTED:
{
mesh_event_vote_started_t *vote_started = (mesh_event_vote_started_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_VOTE_STARTED>attempts:%d, reason:%d, rc_addr:"MACSTR"",
vote_started->attempts,
vote_started->reason,
MAC2STR(vote_started->rc_addr.addr));
}
break;
case MESH_EVENT_VOTE_STOPPED:
{
ESP_LOGI(LOG_TAG, "<MESH_EVENT_VOTE_STOPPED>");
}
break;
case MESH_EVENT_ROOT_SWITCH_REQ:
{
mesh_event_root_switch_req_t *switch_req = (mesh_event_root_switch_req_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_ROOT_SWITCH_REQ>reason:%d, rc_addr:"MACSTR"", switch_req->reason,
MAC2STR( switch_req->rc_addr.addr));
}
break;
case MESH_EVENT_ROOT_SWITCH_ACK:
{
//new root
i32MeshLayer = esp_mesh_get_layer();
esp_mesh_get_parent_bssid(&meshParentAddr);
ESP_LOGI(LOG_TAG, "<MESH_EVENT_ROOT_SWITCH_ACK>layer:%d, parent:"MACSTR"", i32MeshLayer, MAC2STR(meshParentAddr.addr));
}
break;
case MESH_EVENT_TODS_STATE:
{
mesh_event_toDS_state_t *toDs_state = (mesh_event_toDS_state_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_TODS_REACHABLE>state:%d", *toDs_state);
}
break;
case MESH_EVENT_ROOT_FIXED:
{
mesh_event_root_fixed_t *root_fixed = (mesh_event_root_fixed_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_ROOT_FIXED>%s",
root_fixed->is_fixed ? "fixed" : "not fixed");
}
break;
case MESH_EVENT_ROOT_ASKED_YIELD:
{
mesh_event_root_conflict_t *root_conflict = (mesh_event_root_conflict_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_ROOT_ASKED_YIELD>"MACSTR", rssi:%d, capacity:%d",
MAC2STR(root_conflict->addr), root_conflict->rssi, root_conflict->capacity);
}
break;
case MESH_EVENT_CHANNEL_SWITCH:
{
mesh_event_channel_switch_t *channel_switch = (mesh_event_channel_switch_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_CHANNEL_SWITCH>new channel:%d", channel_switch->channel);
}
break;
case MESH_EVENT_SCAN_DONE:
{
mesh_event_scan_done_t *scan_done = (mesh_event_scan_done_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_SCAN_DONE>number:%d", scan_done->number);
}
break;
case MESH_EVENT_NETWORK_STATE:
{
mesh_event_network_state_t *network_state = (mesh_event_network_state_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_NETWORK_STATE>is_rootless:%d", network_state->is_rootless);
}
break;
case MESH_EVENT_STOP_RECONNECTION:
{
ESP_LOGI(LOG_TAG, "<MESH_EVENT_STOP_RECONNECTION>");
}
break;
case MESH_EVENT_FIND_NETWORK:
{
mesh_event_find_network_t *find_network = (mesh_event_find_network_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_FIND_NETWORK>new channel:%d, router BSSID:"MACSTR"",
find_network->channel, MAC2STR(find_network->router_bssid));
}
break;
case MESH_EVENT_ROUTER_SWITCH:
{
mesh_event_router_switch_t *router_switch = (mesh_event_router_switch_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_ROUTER_SWITCH>new router:%s, channel:%d, "MACSTR"",
router_switch->ssid, router_switch->channel, MAC2STR(router_switch->bssid));
}
break;
case MESH_EVENT_PS_PARENT_DUTY:
{
mesh_event_ps_duty_t *ps_duty = (mesh_event_ps_duty_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_PS_PARENT_DUTY>duty:%d", ps_duty->duty);
}
break;
case MESH_EVENT_PS_CHILD_DUTY:
{
mesh_event_ps_duty_t *ps_duty = (mesh_event_ps_duty_t *)vpEventData;
ESP_LOGI(LOG_TAG, "<MESH_EVENT_PS_CHILD_DUTY>cidx:%d, "MACSTR", duty:%d", ps_duty->child_connected.aid-1,
MAC2STR(ps_duty->child_connected.mac), ps_duty->duty);
}
break;
default:
ESP_LOGI(LOG_TAG, "unknown id:%d", i32EventID);
break;
}
}

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#ifndef H_HTTPS_CLIENT
#define H_HTTPS_CLIENT
#include <string.h>
#include <stdlib.h>
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "esp_wifi.h"
#include "esp_event.h"
#include "esp_log.h"
#include "esp_system.h"
#include "nvs_flash.h"
#include "esp_netif.h"
#include "lwip/err.h"
#include "lwip/sockets.h"
#include "lwip/sys.h"
#include "lwip/netdb.h"
#include "lwip/dns.h"
#include "mbedtls/platform.h"
#include "mbedtls/net_sockets.h"
#include "mbedtls/esp_debug.h"
#include "mbedtls/ssl.h"
#include "mbedtls/entropy.h"
#include "mbedtls/ctr_drbg.h"
#include "mbedtls/error.h"
#include "mbedtls/certs.h"
#include "esp_crt_bundle.h"
#ifndef CONFIG_OTA_HTTPS_URL
#define CONFIG_OTA_HTTPS_URL "https://exmaple.com/theImage.bin"
#endif
#ifndef CONFIG_OTA_HTTPS_SERVER_PORT
#define CONFIG_OTA_HTTPS_SERVER_PORT "443"
#endif
#ifndef CONFIG_OTA_HTTPS_AUTH
#define CONFIG_OTA_HTTPS_AUTH "base64(user:password)"
#endif
#ifndef CONFIG_OTA_HTTPS_SERVER_COMMON_NAME
#define CONFIG_OTA_HTTPS_SERVER_COMMON_NAME "exmaple.com"
#endif
#define HTTPS_CLIENT_OK 0
#define HTTPS_CLIENT_ERROR -1
#define HTTPS_CLIENT_ERROR_INIT_EMBEDTLS -2
#define HTTPS_CLIENT_ERROR_INIT_CONNECT_TWO_SERVER -3
#define HTTPS_CLIENT_ERROR_INIT_VALIDATE_SERVER -4
#define HTTPS_CLIENT_ERROR_INIT_SEND_REQUEST -5
#define HTTPS_READ_TIMEOUT 1000 //ms
struct HTTPS_Client
{
mbedtls_entropy_context entropy;
mbedtls_ctr_drbg_context ctr_drbg;
mbedtls_ssl_context ssl;
mbedtls_x509_crt cacert;
mbedtls_ssl_config conf;
mbedtls_net_context server_fd;
};
typedef int32_t https_client_ret_t;
typedef struct HTTPS_Client HTTPS_Client_t;
https_client_ret_t errHTTPSClientInitialize();
https_client_ret_t errHTTPSClientConnectToServer();
https_client_ret_t errHTTPSClientValidateServer();
https_client_ret_t errHTTPSClientSendRequest();
https_client_ret_t errHTTPSClientRetrieveData(char* pu8Data, uint32_t* pu32DataLenght, uint32_t* pu32BytesRead);
https_client_ret_t errHTTPSClientReset();
#endif /* H_HTTPS_CLIENT */

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#ifndef H_MESH_OTA
#define H_MESH_OTA
#include <string.h>
#include "esp_wifi.h"
#include "esp_system.h"
#include "esp_event.h"
#include "esp_log.h"
#include "esp_mesh.h"
#include "esp_mesh_internal.h"
#include "nvs_flash.h"
#include "driver/gpio.h"
#include "esp_ota_ops.h"
#include "esp_partition.h"
#include "Mesh_network.h"
#include "HTTPS_client.h"
#define ERASE_NVS //erase non volatile storage if full
#define QUEUE_NODES_SIZE 10
#define QUEUE_MESSAGE_OTA_SIZE 10
#define SERVER_CHECK_INTERVAL 30 //in seconds
#define OTA_HTTPS_SEGMENT_SIZE 2048U
#define OTA_PROGRESS_LOG_INTERVAL 7U
#define OTA_MESH_SEGMENT_SIZE MESH_NETWORK_PAYLOAD_SIZE
#define OTA_MESH_TIMEOUT 100U //in ms
#define ERROR_CHECK(x) if (err == ESP_OK) \
{ \
err = (x); \
if (err != ESP_OK) \
{ \
ESP_LOGE(LOG_TAG, "%s failed with error: 0x%x -> %s", #x, err, esp_err_to_name(err)); \
} \
} \
enum otaMeshRole
{
Transmitter,
Receiver
};
typedef enum otaMeshRole OTA_MESH_ROLE_t;
esp_err_t errMeshOTAInitialize();
esp_err_t errOTAHTTPS(bool* pbNewOTAImage);
esp_err_t errOTAMeshSlave(bool* pbNewOTAImage);
esp_err_t errOTAMeshMaster(bool* pbNewOTAImage, mesh_addr_t* pMeshNodeAddr);
esp_err_t errOTAMeshTransmit(mesh_addr_t* pMeshNodeAddr);
esp_err_t errOTAMeshReceive(bool* pbNewOTAImage, mesh_addr_t* pMeshNodeAddr);
//helper functions
bool bNewerVersion(const char* pu8Local, const char* pu8Remote);
esp_err_t errExtractVersionNumber(const char* pu8Data, uint32_t* pu32DataLenght, char* pc8RemoteVersionNumber);
esp_err_t errFindImageStart(const char* pu8Data, uint32_t* pu32DataLenght, uint32_t* pu32StartOffset);
void vPrintOTAProgress(const uint32_t* const pu32TotalImageSize, const uint32_t* const pu32BytesWritten, OTA_MESH_ROLE_t eRole);
void vAddAllNeighboursToQueue(void);
esp_err_t errSendOTAVersionResponse(mesh_addr_t* meshReceiverAddr);
esp_err_t errSendOTAVersionRequest(mesh_addr_t* meshReceiverAddr);
//Handler
void vAddNodeToPossibleUpdatableQueue(uint8_t* pu8MAC);
void vAddOTAControllMessageToQueue(MESH_PACKET_t* puMeshPacket);
void vChangeStateOfServerWorker(bool state);
void vRecOtaDataHandler(MESH_PACKET_t* puMeshPacket);
void vRecOtaAckHandler(MESH_PACKET_t* puMeshPacket);
//void vRecOtaCompleteHandler(MESH_PACKET_t* puMeshPacket);
//void vRecOtaAbortHandler(MESH_PACKET_t* puMeshPacket);
//Tasks
void vTaskServerWorker(void *arg);
void vTaskOTAWorker(void *arg);
#endif /* H_MESH_OTA */

110
components/mesh_ota/include/Mesh_network.h Normal file
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@ -0,0 +1,110 @@
#ifndef H_MESH_NETWORK
#define H_MESH_NETWORK
#include <string.h>
#include "esp_wifi.h"
#include "esp_system.h"
#include "esp_event.h"
#include "esp_log.h"
#include "esp_mesh.h"
#include "esp_mesh_internal.h"
#ifndef CONFIG_MESH_MESSAGE_SIZE
#define CONFIG_MESH_MESSAGE_SIZE 1500
#endif
#ifndef CONFIG_MESH_TOPOLOGY
#define CONFIG_MESH_TOPOLOGY MESH_TOPO_TREE
#endif
#ifndef CONFIG_MESH_MAX_LAYER
#define CONFIG_MESH_MAX_LAYER 6
#endif
#ifndef CONFIG_MESH_ID
#define CONFIG_MESH_ID "00, 00, 00, 00, 00, 00"
#endif
#ifndef CONFIG_MESH_AP_AUTHMODE
#define CONFIG_MESH_AP_AUTHMODE WIFI_AUTH_WPA2_PSK
#endif
#ifndef CONFIG_MESH_AP_CONNECTIONS
#define CONFIG_MESH_AP_CONNECTIONS 6
#endif
#ifndef CONFIG_MESH_AP_PASSWD
#define CONFIG_MESH_AP_PASSWD "MAP_PASSWD"
#endif
#ifndef CONFIG_MESH_CHANNEL
#define CONFIG_MESH_CHANNEL 0
#endif
#ifndef CONFIG_MESH_ROUTER_SSID
#define CONFIG_MESH_ROUTER_SSID "ROUTER_SSID"
#endif
#ifndef CONFIG_MESH_ROUTER_PASSWD
#define CONFIG_MESH_ROUTER_PASSWD "ROUTER_PASSWD"
#endif
#ifndef CONFIG_MESH_ROUTE_TABLE_SIZE
#define CONFIG_MESH_ROUTE_TABLE_SIZE 50
#endif
#define MESH_NETWORK_PAYLOAD_SIZE 1024U
struct meshPacket
{
enum otaMeshPacketType
{
APP_Data, //data for application
OTA_Version_Request, //send own version in payload
OTA_Version_Response, //send own version in payload
OTA_Data, //send image segment
OTA_ACK, //ack image segment
OTA_Complete, //signal end of image
OTA_Abort //abort OTA process
} type;
uint8_t au8Payload[MESH_NETWORK_PAYLOAD_SIZE];
mesh_addr_t meshSenderAddr;
};
typedef struct meshPacket MESH_PACKET_t;
extern bool bIsMeshConnected;
extern int32_t i32MeshLayer;
extern mesh_addr_t meshParentAddr;
extern esp_netif_t* netif_sta;
extern uint8_t u8ownMAC[6];
extern void (*pOTAChildConnectHandle)(uint8_t* );
extern void (*pChangeStateOfServerWorkerHandle)(bool );
esp_err_t errMeshNetworkInitialize();
esp_err_t errMeshNetworkInitializeWiFi();
esp_err_t errMeshNetworkInitializeRouter(mesh_cfg_t* cfg);
esp_err_t errMeshNetworkSetAppReceiveHandle(void (*pAppRxHandleTmp)(uint8_t * pu8Data, uint8_t* pu8Sender));
esp_err_t errMeshNetworkSetChildConnectedHandle(void (*pChildConnectHandleTmp)(uint8_t * pu8Data));
esp_err_t errMeshNetworkSetOTAMessageHandle(void (*pOTAMessageHandleTmp)(MESH_PACKET_t* puMeshPacket));
esp_err_t errMeshNetworkSetOtaDataHandle(void (*pOtaDataHandleTmp)(MESH_PACKET_t* puMeshPacket));
esp_err_t errMeshNetworkSetOtaAckHandle(void (*pOtaAckHandleTmp)(MESH_PACKET_t* puMeshPacket));
esp_err_t errMeshNetworkSetOtaCompleteHandle(void (*pOtaCompleteHandleTmp)(MESH_PACKET_t* puMeshPacket));
esp_err_t errMeshNetworkSetOtaAbortHandle(void (*pOtaAbortHandleTmp)(MESH_PACKET_t* puMeshPacket));
esp_err_t errMeshNetworkSetChangeStateOfServerWorkerHandle(void (*pChangeStateOfServerWorkerHandleTmp)(bool bState));
bool bCheckMACEquality(uint8_t* pu8aMAC, uint8_t* pu8bMAC);
void vGetOwnAddr(mesh_addr_t* pMeshOwnAddr);
esp_err_t errGetParentNode(mesh_addr_t* pMeshParentAddr);
esp_err_t errGetChildren(mesh_addr_t* pChildren, uint16_t* pu16ChildrenSize);
bool bIsRootNode();
bool bIsNodeNeighbour(mesh_addr_t* pNode);
esp_err_t errStartReceiveTask();
void vTaskReceiveMeshData(void *arg);
void vMeshEventHandler(void *arg, esp_event_base_t event_base, int32_t i32EventID, void* vpEventData);
void vIPEventHandler(void *arg, esp_event_base_t event_base, int32_t i32EventID, void *event_data);
esp_err_t errSendMeshPacket(mesh_addr_t* pAddrDest, MESH_PACKET_t* pPacket);
#endif /* H_MESH_NETWORK */

27
components/mesh_ota/include/mesh_ota.h
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@ -1,27 +0,0 @@
#ifndef H_MESH_OTA
#define H_MESH_OTA
#include <string.h>
#include "esp_system.h"
#include "esp_event.h"
#include "esp_log.h"
#include <string.h>
#include "esp_wifi.h"
#include "esp_system.h"
#include "esp_event.h"
#include "esp_log.h"
#include "esp_mesh.h"
#include "esp_mesh_internal.h"
#include "nvs_flash.h"
#include "driver/gpio.h"
#include "esp_ota_ops.h"
#include "esp_partition.h"
bool bNewerVersion(const char* pu8Local, const char* pu8Remote);
#endif /* H_MESH_OTA */

42
components/mesh_ota/mesh_ota.c
View File

@ -1,42 +0,0 @@
#include "mesh_ota.h"
/*
* 999.999.999
* Return true if remote version is newer (higher) than local version
*/
bool bNewerVersion(const char* pu8Local, const char* pu8Remote){
char u8LocalTmp[12];
char u8RemoteTmp[12];
char* pu8saveptrLocal;
char* pu8saveptrRemote;
strcpy(u8LocalTmp, pu8Local);
strcpy(u8RemoteTmp, pu8Remote);
char* pu8TokenLocal = strtok_r(u8LocalTmp, ".", &pu8saveptrLocal);
char* pu8TokenRemote = strtok_r(u8RemoteTmp, ".", &pu8saveptrRemote) ;
bool bReturn = false;
uint8_t u8Index = 0;
while( (u8Index <= 2) && (bReturn == false)){
u8Index++;
if(atoi(pu8TokenLocal) < atoi(pu8TokenRemote))
{
bReturn = true;
}
pu8TokenLocal = strtok_r(NULL, ".", &pu8saveptrLocal);
pu8TokenRemote = strtok_r(NULL, ".", &pu8saveptrRemote) ;
}
return bReturn;
}

171
components/mesh_ota/test/test_image_hex.h Normal file
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@ -0,0 +1,171 @@
#ifndef H_TEST_IMAGE_HEX
#define H_TEST_IMAGE_HEX
//with http response + 0.0.1
char dataWithHttpRespone0_0_1[] =
{
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};
//without http response + 0.0.1
char dataWithoutHttpRespone0_0_1[] =
{
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//with http response + 999.999.999
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//with http response + 999.9.999
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//with http response + 999.99.999
char dataWithHttpRespone999_99_999[] =
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};
#endif /* H_TEST_IMAGE_HEX */

182
components/mesh_ota/test/test_mesh_ota.c
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@ -1,59 +1,223 @@
#include <limits.h>
#include "unity.h"
#include "mesh_ota.h"
#include "Mesh_OTA.h"
#include "test_image_hex.h"
// ### ### ### distinguish newer image version ### ### ###
TEST_CASE("Remote got patch", "[distinguish newer image version]")
{
char versionLocal[] = "1.2.3"; //current running image
char versionRemote[] = "1.2.4"; //image from server
TEST_ASSERT_TRUE( bNewerVersion(versionLocal, versionRemote) );
TEST_ASSERT_TRUE( bNewerVersion(versionLocal, versionRemote) );
}
TEST_CASE("Remote got minor", "[distinguish newer image version]")
{
char versionLocal[] = "1.2.3"; //current running image
char versionRemote[] = "1.3.3"; //image from server
TEST_ASSERT_TRUE( bNewerVersion(versionLocal, versionRemote) );
TEST_ASSERT_TRUE( bNewerVersion(versionLocal, versionRemote) );
}
TEST_CASE("Remote got major", "[distinguish newer image version]")
{
char versionLocal[] = "1.2.3"; //current running image
char versionRemote[] = "2.2.3"; //image from server
TEST_ASSERT_TRUE( bNewerVersion(versionLocal, versionRemote) );
TEST_ASSERT_TRUE( bNewerVersion(versionLocal, versionRemote) );
}
TEST_CASE("Local got patch", "[distinguish newer image version]")
{
char versionLocal[] = "1.2.4"; //current running image
char versionRemote[] = "1.2.3"; //image from server
TEST_ASSERT_FALSE( bNewerVersion(versionLocal, versionRemote) );
TEST_ASSERT_FALSE( bNewerVersion(versionLocal, versionRemote) );
}
TEST_CASE("Local got minor", "[distinguish newer image version]")
{
char versionLocal[] = "1.3.3"; //current running image
char versionRemote[] = "1.2.3"; //image from server
TEST_ASSERT_FALSE( bNewerVersion(versionLocal, versionRemote) );
TEST_ASSERT_FALSE( bNewerVersion(versionLocal, versionRemote) );
}
TEST_CASE("Local got major", "[distinguish newer image version]")
{
char versionLocal[] = "2.2.3"; //current running image
char versionRemote[] = "1.2.3"; //image from server
TEST_ASSERT_FALSE( bNewerVersion(versionLocal, versionRemote) );
TEST_ASSERT_FALSE( bNewerVersion(versionLocal, versionRemote) );
}
TEST_CASE("Remote got alpha and patch", "[distinguish newer image version]")
{
char versionLocal[] = "2.2.3"; //current running image
char versionRemote[] = "a2.2.4"; //image from server
TEST_ASSERT_TRUE( bNewerVersion(versionLocal, versionRemote) );
TEST_ASSERT_TRUE( bNewerVersion(versionLocal, versionRemote) );
}
TEST_CASE("Remote got max", "[distinguish newer image version]")
{
char versionLocal[] = "2.2.3"; //current running image
char versionRemote[] = "999.999.999"; //image from server
TEST_ASSERT_TRUE( bNewerVersion(versionLocal, versionRemote) );
TEST_ASSERT_TRUE( bNewerVersion(versionLocal, versionRemote) );
}
// ### ### ### find start offset in firmware image ### ### ###
TEST_CASE("with http response + 0.0.1", "[find start offset in firmware image]")
{
uint32_t u32StartOffset;
uint32_t u32DataLenght = sizeof(dataWithHttpRespone0_0_1)/sizeof(dataWithHttpRespone0_0_1[0]);
esp_err_t err = errFindImageStart(dataWithHttpRespone0_0_1, &u32DataLenght, &u32StartOffset);
if(err == ESP_OK)
{
TEST_ASSERT_EQUAL_INT(305, u32StartOffset);
}
else
{
TEST_ASSERT_EQUAL_INT(ESP_OK, err);
}
}
TEST_CASE("without http response + 0.0.1", "[find start offset in firmware image]")
{
uint32_t u32StartOffset;
uint32_t u32DataLenght = sizeof(dataWithoutHttpRespone0_0_1)/sizeof(dataWithoutHttpRespone0_0_1[0]);
esp_err_t err = errFindImageStart(dataWithoutHttpRespone0_0_1, &u32DataLenght, &u32StartOffset);
if(err == ESP_OK)
{
TEST_ASSERT_EQUAL_INT(0, u32StartOffset);
}
else
{
TEST_ASSERT_EQUAL_INT(ESP_OK, err);
}
}
TEST_CASE("with http response + 999.999.999", "[find start offset in firmware image]")
{
uint32_t u32StartOffset;
uint32_t u32DataLenght = sizeof(dataWithHttpRespone999_999_999)/sizeof(dataWithHttpRespone999_999_999[0]);
esp_err_t err = errFindImageStart(dataWithHttpRespone999_999_999, &u32DataLenght, &u32StartOffset);
if(err == ESP_OK)
{
TEST_ASSERT_EQUAL_INT(305, u32StartOffset);
}
else
{
TEST_ASSERT_EQUAL_INT(ESP_OK, err);
}
}
TEST_CASE("without http response + 999.999.999", "[find start offset in firmware image]")
{
uint32_t u32StartOffset;
uint32_t u32DataLenght = sizeof(dataWithoutHttpRespone999_999_999)/sizeof(dataWithoutHttpRespone999_999_999[0]);
esp_err_t err = errFindImageStart(dataWithoutHttpRespone999_999_999, &u32DataLenght, &u32StartOffset);
if(err == ESP_OK)
{
TEST_ASSERT_EQUAL_INT(0, u32StartOffset);
}
else
{
TEST_ASSERT_EQUAL_INT(ESP_OK, err);
}
}
TEST_CASE("with http response + 999.9.999", "[find start offset in firmware image]")
{
uint32_t u32StartOffset;
uint32_t u32DataLenght = sizeof(dataWithHttpRespone999_9_999)/sizeof(dataWithHttpRespone999_9_999[0]);
esp_err_t err = errFindImageStart(dataWithHttpRespone999_9_999, &u32DataLenght, &u32StartOffset);
if(err == ESP_OK)
{
TEST_ASSERT_EQUAL_INT(302, u32StartOffset);
}
else
{
TEST_ASSERT_EQUAL_INT(ESP_OK, err);
}
}
TEST_CASE("with http response + 999.99.999", "[find start offset in firmware image]")
{
uint32_t u32StartOffset;
uint32_t u32DataLenght = sizeof(dataWithHttpRespone999_99_999)/sizeof(dataWithHttpRespone999_99_999[0]);
esp_err_t err = errFindImageStart(dataWithHttpRespone999_99_999, &u32DataLenght, &u32StartOffset);
if(err == ESP_OK)
{
TEST_ASSERT_EQUAL_INT(299, u32StartOffset);
}
else
{
TEST_ASSERT_EQUAL_INT(ESP_OK, err);
}
}
// ### ### ### distinguish newer image version ### ### ###
TEST_CASE("extract version 0.0.1", "[extract image version number]")
{
char versionLocal[] = "0.0.0"; //current running image
char versionRemote[12];//image from server
uint32_t u32DataLenght = sizeof(dataWithHttpRespone0_0_1)/sizeof(dataWithHttpRespone0_0_1[0]);
esp_err_t err = errExtractVersionNumber(dataWithHttpRespone0_0_1, &u32DataLenght, versionRemote);
if(err == ESP_OK)
{
TEST_ASSERT_TRUE( bNewerVersion(versionLocal, versionRemote) );
}
else
{
TEST_ASSERT_EQUAL_INT(ESP_OK, err);
}
}
TEST_CASE("extract version 999.999.999", "[extract image version number]")
{
char versionLocal[] = "0.0.0"; //current running image
char versionRemote[12];//image from server
uint32_t u32DataLenght = sizeof(dataWithHttpRespone999_999_999)/sizeof(dataWithHttpRespone999_999_999[0]);
esp_err_t err = errExtractVersionNumber(dataWithHttpRespone999_999_999, &u32DataLenght, versionRemote);
if(err == ESP_OK)
{
TEST_ASSERT_TRUE( bNewerVersion(versionLocal, versionRemote) );
}
else
{
TEST_ASSERT_EQUAL_INT(ESP_OK, err);
}
}
TEST_CASE("extract version 999.99.999", "[extract image version number]")
{
char versionLocal[] = "999.100.999"; //current running image
char versionRemote[12];//image from server
uint32_t u32DataLenght = sizeof(dataWithHttpRespone999_99_999)/sizeof(dataWithHttpRespone999_99_999[0]);
esp_err_t err = errExtractVersionNumber(dataWithHttpRespone999_99_999, &u32DataLenght, versionRemote);
if(err == ESP_OK)
{
TEST_ASSERT_FALSE( bNewerVersion(versionLocal, versionRemote) );
}
else
{
TEST_ASSERT_EQUAL_INT(ESP_OK, err);
}
}

186
main/Blinky_LED.c Normal file
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@ -0,0 +1,186 @@
#include "Blinky_LED.h"
static const char *LOG_TAG = "blinky_led";
static bool bLEDisOn = false; //set led default off
static mesh_addr_t addrParent; //addr of parent node
static mesh_addr_t childrenAddr[CONFIG_MESH_ROUTE_TABLE_SIZE]; //array of children attached to this node
static uint16_t u16ChildrenSize; //number of children attached to this node
xQueueHandle queueBlinkyLEDPackets; //handle for led action queue
esp_err_t errBlinkyLEDInitialize()
{
esp_err_t err = ESP_OK;
BaseType_t xReturned;
vGPIOInitialize();
//create queue to store led action created from BTN and mesh network events
queueBlinkyLEDPackets = xQueueCreate(5, sizeof(BLINKY_PACKET_t));
if (queueBlinkyLEDPackets == 0) // Queue not created
{
ESP_LOGE(LOG_TAG, "Unable to create Queue for Application Packets");
err = ESP_FAIL;
}
//register the receiver handle in mesh network
ERROR_CHECK(errMeshNetworkSetAppReceiveHandle(rxHandle));
if(err == ESP_OK)
{
xReturned = xTaskCreate(vTaskReadUserInput, "vTaskReadUserInput", 4096, NULL, 5, NULL);
if(xReturned != pdPASS)
{
err = ESP_FAIL;
}
}
if(err == ESP_OK)
{
xReturned = xTaskCreate(vTaskReceiveData, "vTaskReceiveData", 4096, NULL, 5, NULL);
if(xReturned != pdPASS)
{
err = ESP_FAIL;
}
}
return err;
}
void vGPIOInitialize()
{
gpio_config_t gpioConf;
//LED as Output
gpio_reset_pin(GPIO_LED);
gpio_set_direction(GPIO_LED, GPIO_MODE_OUTPUT);
//BTN as Input
gpioConf.intr_type = GPIO_INTR_DISABLE;
gpioConf.mode = GPIO_MODE_INPUT;
gpioConf.pin_bit_mask = GPIO_INPUT_PIN_SEL;
gpioConf.pull_down_en = 0;
gpioConf.pull_up_en = 1;
gpio_config(&gpioConf);
}
void rxHandle(uint8_t* pu8Data, uint8_t* pu8Sender)
{
//send payload to app queue
BLINKY_PACKET_t bTmpPacket;
memcpy(&bTmpPacket, (uint8_t *)pu8Data, sizeof(BLINKY_PACKET_t));
memcpy(&bTmpPacket.meshSenderAddr, (uint8_t *)pu8Sender, 6); //copy MAC from sender into app packet
if (xQueueSend(queueBlinkyLEDPackets, &bTmpPacket, portMAX_DELAY) != pdPASS)
{
ESP_LOGE(LOG_TAG, "Unable to push packet from mesh into Queue");
}
}
void vTaskReadUserInput(void *arg)
{
esp_err_t err = ESP_OK;
BLINKY_PACKET_t bTmpPacket;
MESH_PACKET_t meshPacket;
bTmpPacket.type = LED_OFF; //default off
meshPacket.type = APP_Data; //this is a app packet
while(true)
{
//check for BTN press
if(gpio_get_level(GPIO_BOOT_BTN) == 0)
{
err = ESP_OK;
if(bLEDisOn == false)
{
bTmpPacket.type = LED_ON;
}
else
{
bTmpPacket.type = LED_OFF;
}
//push led action into queue
if (xQueueSend(queueBlinkyLEDPackets, &bTmpPacket, portMAX_DELAY) != pdPASS)
{
ESP_LOGE(LOG_TAG, "Unable to push packet into queue");
}
memcpy(meshPacket.au8Payload, &bTmpPacket, sizeof(BLINKY_PACKET_t));
if(bIsRootNode() == false)
{
//this node is not root --> send led action to parent
ERROR_CHECK(errGetParentNode(&addrParent));
ERROR_CHECK(errSendMeshPacket(&addrParent, &meshPacket));
}
else
{
//this node is root --> send led action to children
ERROR_CHECK(errGetChildren(childrenAddr, &u16ChildrenSize));
for (uint16_t u16Index = 0; u16Index < u16ChildrenSize; u16Index++)
{
ERROR_CHECK (errSendMeshPacket(&childrenAddr[u16Index], &meshPacket));
}
}
vTaskDelay(200 / portTICK_PERIOD_MS);
}
vTaskDelay(50 / portTICK_PERIOD_MS);
}
}
void vTaskReceiveData(void *arg)
{
esp_err_t err = ESP_OK;
MESH_PACKET_t meshPacket;
BLINKY_PACKET_t bTmpPacket;
bTmpPacket.type = LED_OFF; //default off
meshPacket.type = APP_Data; //this is a app packet
while (1)
{
if (xQueueReceive(queueBlinkyLEDPackets, &bTmpPacket, portMAX_DELAY) != pdTRUE)
{
ESP_LOGE(LOG_TAG, "Unable to receive packet from Queue");
}
else
{
err = ESP_OK;
//Successfully RECEIVED the packet
switch (bTmpPacket.type)
{
case LED_ON:
bLEDisOn = true;
gpio_set_level(GPIO_LED, 1); //switch on
ESP_LOGI(LOG_TAG,"switch LED ON");
break;
case LED_OFF:
bLEDisOn = false;
gpio_set_level(GPIO_LED, 0); //switch off
ESP_LOGI(LOG_TAG,"switch LED OFF");
break;
default:
bLEDisOn = false;
gpio_set_level(GPIO_LED, 0); //switch off
ESP_LOGI(LOG_TAG,"switch LED OFF");
break;
}
}
ERROR_CHECK(errGetChildren(childrenAddr, &u16ChildrenSize)); //get all children attached to this node
memcpy(meshPacket.au8Payload, &bTmpPacket, sizeof(BLINKY_PACKET_t)); //copy led action in mesh packet payload
for (uint16_t u16Index = 0; u16Index < u16ChildrenSize; u16Index++)
{
//loop through children
if(bCheckMACEquality(bTmpPacket.meshSenderAddr.addr, childrenAddr[u16Index].addr) == false) //exclude the sender node
{
ERROR_CHECK (errSendMeshPacket(&childrenAddr[u16Index], &meshPacket)); //send to child
}
}
vTaskDelay(200 / portTICK_PERIOD_MS);
}
}

39
main/Blinky_LED.h Normal file
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@ -0,0 +1,39 @@
#ifndef H_BLINKY_LED
#define H_BLINKY_LED
#include <string.h>
#include "esp_wifi.h"
#include "esp_system.h"
#include "esp_log.h"
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "driver/gpio.h"
#include "Mesh_OTA.h"
#define GPIO_BOOT_BTN 0 //GPIO0 (Boot BTN)
#define GPIO_LED 2 //GPIO2 (internal blue LED in DevKit V1.0)
#define GPIO_INPUT_PIN_SEL (1ULL<<GPIO_BOOT_BTN)
struct blinky_packet
{
enum blinky_packet_type
{
LED_OFF,
LED_ON,
} type;
mesh_addr_t meshSenderAddr; //stores addr of sender of this packet
};
typedef struct blinky_packet BLINKY_PACKET_t;
esp_err_t errBlinkyLEDInitialize();
void vGPIOInitialize();
void rxHandle(uint8_t* pu8Data, uint8_t* pu8Sender);
void vTaskReadUserInput(void *arg);
void vTaskReceiveData(void *arg);
#endif /* H_BLINKY_LED */

2
main/CMakeLists.txt
View File

@ -1,2 +1,2 @@
idf_component_register(SRCS "main.c"
idf_component_register(SRCS "Blinky_LED.c" "Main.c"
INCLUDE_DIRS ".")

51
main/Kconfig.projbuild
View File

@ -105,6 +105,12 @@ menu "Mesh OTA Configuration"
default 0
help
mesh network channel.
config MESH_ID
string "ID for mesh network"
default "00, 00, 00, 00, 00, 00"
help
Mesh network id like MAC addr.
config MESH_ROUTER_SSID
string "Router SSID"
@ -124,22 +130,17 @@ menu "Mesh OTA Configuration"
help
Authentication mode.
config WIFI_AUTH_OPEN
bool "WIFI_AUTH_OPEN"
config WIFI_AUTH_WPA_PSK
bool "WIFI_AUTH_WPA_PSK"
config WIFI_AUTH_WPA2_PSK
bool "WIFI_AUTH_WPA2_PSK"
config WIFI_AUTH_WPA_WPA2_PSK
bool "WIFI_AUTH_WPA_WPA2_PSK"
config WIFI_AUTH_WPA2_ENTERPRISE
bool "WIFI_AUTH_WPA2_ENTERPRISE"
endchoice
config MESH_AP_AUTHMODE
int
default 0 if WIFI_AUTH_OPEN
default 2 if WIFI_AUTH_WPA_PSK
default 3 if WIFI_AUTH_WPA2_PSK
default 4 if WIFI_AUTH_WPA_WPA2_PSK
default 5 if WIFI_AUTH_WPA2_ENTERPRISE
help
Mesh AP authentication mode.
@ -162,4 +163,36 @@ menu "Mesh OTA Configuration"
default 50
help
The number of devices over the network(max: 300).
config MESH_MESSAGE_SIZE
int "Mesh network messages size"
range 1 65536
default 1500
help
Length of messages deliveres by the mesh network.
config OTA_HTTPS_SERVER_COMMON_NAME
string "Common name OTA server"
default "exmaple.com"
help
Fully Qualified Domain Name used in the certificate.
config OTA_HTTPS_SERVER_PORT
string "Server port"
default "443"
help
HTTPS webserver port
config OTA_HTTPS_URL
string "URL to ota image"
default "https://exmaple.com/theImage.bin"
help
Uniform Resource Locator to the image file
config OTA_HTTPS_AUTH
string "HTTPS authentication"
default "base64(user:password)"
help
HTTPS basic auth using base64 decoded "user:password"
endmenu

37
main/Main.c Normal file
View File

@ -0,0 +1,37 @@
#include <string.h>
#include "esp_wifi.h"
#include "esp_system.h"
#include "esp_event.h"
#include "esp_log.h"
#include "esp_mesh.h"
#include "esp_mesh_internal.h"
#include "nvs_flash.h"
#include "driver/gpio.h"
#include "esp_ota_ops.h"
#include "esp_partition.h"
#include "Mesh_OTA.h"
#include "Blinky_LED.h"
static const char *LOG_TAG = "esp_main";
void app_main(void)
{
esp_err_t err = ESP_OK;
ESP_LOGI(LOG_TAG, "hardcoded: 0.0.1");
ESP_LOGI(LOG_TAG, "start mesh network");
err = errMeshNetworkInitialize();
ESP_ERROR_CHECK(err);
ESP_LOGI(LOG_TAG, "start ota");
err = errMeshOTAInitialize();
ESP_ERROR_CHECK(err);
ESP_LOGI(LOG_TAG, "start app");
err = errBlinkyLEDInitialize();
ESP_ERROR_CHECK(err);
}

599
main/main.c
View File

@ -1,599 +0,0 @@
#include <string.h>
#include "esp_wifi.h"
#include "esp_system.h"
#include "esp_event.h"
#include "esp_log.h"
#include "esp_mesh.h"
#include "esp_mesh_internal.h"
#include "nvs_flash.h"
#include "driver/gpio.h"
#include "esp_ota_ops.h"
#include "esp_partition.h"
#include "mesh_ota.h"
#define RX_SIZE (1234)
#define TX_SIZE (1234)
static const char *MESH_TAG = "mesh_main";
static const uint8_t MESH_ID[6] = { 0x77, 0x77, 0x77, 0x77, 0x77, 0x77};
static uint8_t tx_buf[TX_SIZE] = { 0, };
static uint8_t rx_buf[RX_SIZE] = { 0, };
static bool is_mesh_connected = false;
static mesh_addr_t mesh_parent_addr;
static uint8_t ownMAC[6];
static int mesh_layer = -1;
static esp_netif_t *netif_sta = NULL;
struct ota_mesh_packet {
enum ota_mesh_packet_type {
APP_Version_Request,
APP_Version_Response,
OTA_Data,
OTA_ACK,
OTA_Complete
} type;
uint8_t au8Payload[1024];
};
/*******************************************************
* Function Declarations
*******************************************************/
esp_err_t esp_mesh_send_packet(mesh_addr_t* dest, struct ota_mesh_packet* packet);
/*******************************************************
* Function Definitions
*******************************************************/
esp_err_t esp_mesh_ota_send(mesh_addr_t* dest)
{
esp_err_t err = ESP_OK;
static uint32_t u32index;
const esp_partition_t * currentPartition = esp_ota_get_boot_partition();
if((*currentPartition).subtype == 0) {
int data_read = 0;
struct ota_mesh_packet packet;
packet.type=OTA_Data;
if(u32index == 1024)
{
//all data read
data_read = 0;
u32index = 0;
}
else
{
ESP_LOGI(MESH_TAG, "OTA-Data read: %i", u32index);
err = esp_partition_read(currentPartition, (1024*u32index), packet.au8Payload, 1024 );
ESP_ERROR_CHECK(err);
data_read = 1024;
u32index++;
}
if (data_read > 0)
{
//send ota fragemnt to node
esp_mesh_send_packet(dest, &packet);
}
ESP_ERROR_CHECK(err);
}
else
{
ESP_LOGI(MESH_TAG, "Subtype: %d", (*currentPartition).subtype);
}
return err;
}
esp_err_t esp_mesh_ota_receive(mesh_addr_t* dest, struct ota_mesh_packet* packet)
{
esp_err_t err = ESP_OK;
static esp_ota_handle_t otaHandle;
static uint32_t u32index;
const esp_partition_t * currentPartition = esp_ota_get_boot_partition();
const esp_partition_t * otaPartition = esp_ota_get_next_update_partition(currentPartition);
if(u32index == 0)
{
//first run
err = esp_ota_begin(otaPartition, OTA_SIZE_UNKNOWN, &otaHandle);
ESP_ERROR_CHECK(err);
}
ESP_LOGI(MESH_TAG, "OTA-Data write: %i", u32index);
err = esp_ota_write(otaHandle, packet->au8Payload, 1024);
if(err != ESP_OK)
{
ESP_LOGE(MESH_TAG, "OTA-Data write error: %i at %i", err, u32index);
}
ESP_ERROR_CHECK(err);
if(u32index >= 1023)
{
//ota update complete
ESP_LOGI(MESH_TAG, "OTA-Data complete arrived: %i", u32index);
err = esp_ota_end(otaHandle);
ESP_ERROR_CHECK(err);
esp_app_desc_t otaPartitionDesc;
err = esp_ota_get_partition_description(otaPartition, &otaPartitionDesc);
ESP_ERROR_CHECK(err);
ESP_LOGI(MESH_TAG, "otaPartition project_name: %s", (otaPartitionDesc).project_name);
err = esp_ota_set_boot_partition(otaPartition);
ESP_ERROR_CHECK(err);
struct ota_mesh_packet retPacket;
retPacket.type=OTA_Complete;
ESP_ERROR_CHECK (esp_mesh_send_packet(dest, &retPacket)); //send back to parent
//check if this node has children --> Update them
esp_restart();
}
u32index++;
return err;
}
//returns true if MAC address is equal
bool esp_mesh_check_MAC_Equality(uint8_t* aMAC, uint8_t* bMAC)
{
for (uint8_t index = 0; index < 6; index++)
{
if(aMAC[index] != bMAC[index]) {
return false;
}
}
return true;
}
esp_err_t esp_mesh_get_Children(mesh_addr_t children[], uint16_t* pu16ChildrenSize)
{
*pu16ChildrenSize = 0;
mesh_addr_t route_table[CONFIG_MESH_ROUTE_TABLE_SIZE];
int route_table_size = 0;
esp_mesh_get_routing_table((mesh_addr_t *) &route_table, CONFIG_MESH_ROUTE_TABLE_SIZE * 6, &route_table_size);
for(uint16_t index = 0; index < esp_mesh_get_routing_table_size(); index++)
{
if(! (esp_mesh_check_MAC_Equality(ownMAC, route_table[index].addr)) )
{
//child node
// ESP_LOGI(MESH_TAG, "adding Node: \"0x%x, 0x%x, 0x%x, 0x%x, 0x%x, 0x%x\" ", route_table[index].addr[0], route_table[index].addr[1], route_table[index].addr[2], route_table[index].addr[3], route_table[index].addr[4], route_table[index].addr[5]);
children[*pu16ChildrenSize] = route_table[index];
*pu16ChildrenSize = (*pu16ChildrenSize)+1;
}
}
return ESP_OK;
}
esp_err_t esp_mesh_send_packet(mesh_addr_t* dest, struct ota_mesh_packet* packet)
{
esp_err_t err;
mesh_data_t data;
data.data = tx_buf;
data.size = sizeof(tx_buf);
data.proto = MESH_PROTO_BIN;
data.tos = MESH_TOS_P2P;
memcpy(tx_buf, (uint8_t *)packet, sizeof(struct ota_mesh_packet));
err = esp_mesh_send(dest, &data, MESH_DATA_P2P, NULL, 0);
return err;
}
void esp_mesh_p2p_rx_main(void *arg)
{
esp_err_t err;
mesh_addr_t from;
mesh_data_t data;
int flag = 0;
data.data = rx_buf;
data.size = RX_SIZE;
while (true) {
data.size = RX_SIZE;
err = esp_mesh_recv(&from, &data, portMAX_DELAY, &flag, NULL, 0);
if (err != ESP_OK || !data.size) {
ESP_LOGE(MESH_TAG, "err:0x%x, size:%d", err, data.size);
continue;
}
struct ota_mesh_packet packet;
memcpy(&packet, (uint8_t *)rx_buf, sizeof(struct ota_mesh_packet));
switch (packet.type)
{
case APP_Version_Request:
ESP_LOGI(MESH_TAG, "recv: APP_Version_Request");
packet.type=APP_Version_Response;
packet.au8Payload[0] = 42; //TODO get current running version
ESP_ERROR_CHECK (esp_mesh_send_packet(&from, &packet)); //send back to parent
break;
case APP_Version_Response:
ESP_LOGI(MESH_TAG, "recv: APP_Version_Response - App Version %i: ", packet.au8Payload[0]);
//check if node is out-dated
esp_mesh_ota_send(&from);
break;
case OTA_Data:
ESP_LOGI(MESH_TAG, "recv: OTA_Data");
esp_mesh_ota_receive(&from, &packet);
packet.type=OTA_ACK;
ESP_ERROR_CHECK (esp_mesh_send_packet(&from, &packet)); //send back to parent
break;
case OTA_ACK:
ESP_LOGI(MESH_TAG, "recv: OTA_ACK");
esp_mesh_ota_send(&from);
break;
case OTA_Complete:
ESP_LOGI(MESH_TAG, "recv: OTA_Complete");
break;
default:
ESP_LOGE(MESH_TAG, "recv: something");
break;
}
} //end while
vTaskDelete(NULL);
}
esp_err_t esp_mesh_comm_p2p_start(void)
{
static bool is_comm_p2p_started = false;
if (!is_comm_p2p_started) {
is_comm_p2p_started = true;
xTaskCreate(esp_mesh_p2p_rx_main, "MPRX", 7000, NULL, 5, NULL);
}
return ESP_OK;
}
void mesh_event_handler(void *arg, esp_event_base_t event_base,
int32_t event_id, void *event_data)
{
mesh_addr_t id = {0,};
static uint16_t last_layer = 0;
switch (event_id) {
case MESH_EVENT_STARTED: {
esp_mesh_get_id(&id);
ESP_LOGI(MESH_TAG, "<MESH_EVENT_MESH_STARTED>ID:"MACSTR"", MAC2STR(id.addr));
is_mesh_connected = false;
mesh_layer = esp_mesh_get_layer();
}
break;
case MESH_EVENT_STOPPED: {
ESP_LOGI(MESH_TAG, "<MESH_EVENT_STOPPED>");
is_mesh_connected = false;
mesh_layer = esp_mesh_get_layer();
}
break;
case MESH_EVENT_CHILD_CONNECTED: {
mesh_event_child_connected_t *child_connected = (mesh_event_child_connected_t *)event_data;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_CHILD_CONNECTED>aid:%d, "MACSTR"",
child_connected->aid,
MAC2STR(child_connected->mac));
}
break;
case MESH_EVENT_CHILD_DISCONNECTED: {
mesh_event_child_disconnected_t *child_disconnected = (mesh_event_child_disconnected_t *)event_data;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_CHILD_DISCONNECTED>aid:%d, "MACSTR"",
child_disconnected->aid,
MAC2STR(child_disconnected->mac));
}
break;
case MESH_EVENT_ROUTING_TABLE_ADD: {
mesh_event_routing_table_change_t *routing_table = (mesh_event_routing_table_change_t *)event_data;
ESP_LOGW(MESH_TAG, "<MESH_EVENT_ROUTING_TABLE_ADD>add %d, new:%d, layer:%d",
routing_table->rt_size_change,
routing_table->rt_size_new, mesh_layer);
}
break;
case MESH_EVENT_ROUTING_TABLE_REMOVE: {
mesh_event_routing_table_change_t *routing_table = (mesh_event_routing_table_change_t *)event_data;
ESP_LOGW(MESH_TAG, "<MESH_EVENT_ROUTING_TABLE_REMOVE>remove %d, new:%d, layer:%d",
routing_table->rt_size_change,
routing_table->rt_size_new, mesh_layer);
}
break;
case MESH_EVENT_NO_PARENT_FOUND: {
mesh_event_no_parent_found_t *no_parent = (mesh_event_no_parent_found_t *)event_data;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_NO_PARENT_FOUND>scan times:%d",
no_parent->scan_times);
}
/* TODO handler for the failure */
break;
case MESH_EVENT_PARENT_CONNECTED: {
mesh_event_connected_t *connected = (mesh_event_connected_t *)event_data;
esp_mesh_get_id(&id);
mesh_layer = connected->self_layer;
memcpy(&mesh_parent_addr.addr, connected->connected.bssid, 6);
ESP_LOGI(MESH_TAG,
"<MESH_EVENT_PARENT_CONNECTED>layer:%d-->%d, parent:"MACSTR"%s, ID:"MACSTR", duty:%d",
last_layer, mesh_layer, MAC2STR(mesh_parent_addr.addr),
esp_mesh_is_root() ? "<ROOT>" :
(mesh_layer == 2) ? "<layer2>" : "", MAC2STR(id.addr), connected->duty);
last_layer = mesh_layer;
// mesh_connected_indicator(mesh_layer);
is_mesh_connected = true;
if (esp_mesh_is_root()) {
esp_netif_dhcpc_start(netif_sta);
}
esp_mesh_comm_p2p_start();//start receiving
}
break;
case MESH_EVENT_PARENT_DISCONNECTED: {
mesh_event_disconnected_t *disconnected = (mesh_event_disconnected_t *)event_data;
ESP_LOGI(MESH_TAG,
"<MESH_EVENT_PARENT_DISCONNECTED>reason:%d",
disconnected->reason);
is_mesh_connected = false;
// mesh_disconnected_indicator();
mesh_layer = esp_mesh_get_layer();
}
break;
case MESH_EVENT_LAYER_CHANGE: {
mesh_event_layer_change_t *layer_change = (mesh_event_layer_change_t *)event_data;
mesh_layer = layer_change->new_layer;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_LAYER_CHANGE>layer:%d-->%d%s",
last_layer, mesh_layer,
esp_mesh_is_root() ? "<ROOT>" :
(mesh_layer == 2) ? "<layer2>" : "");
last_layer = mesh_layer;
// mesh_connected_indicator(mesh_layer);
}
break;
case MESH_EVENT_ROOT_ADDRESS: {
mesh_event_root_address_t *root_addr = (mesh_event_root_address_t *)event_data;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_ROOT_ADDRESS>root address:"MACSTR"",
MAC2STR(root_addr->addr));
}
break;
case MESH_EVENT_VOTE_STARTED: {
mesh_event_vote_started_t *vote_started = (mesh_event_vote_started_t *)event_data;
ESP_LOGI(MESH_TAG,
"<MESH_EVENT_VOTE_STARTED>attempts:%d, reason:%d, rc_addr:"MACSTR"",
vote_started->attempts,
vote_started->reason,
MAC2STR(vote_started->rc_addr.addr));
}
break;
case MESH_EVENT_VOTE_STOPPED: {
ESP_LOGI(MESH_TAG, "<MESH_EVENT_VOTE_STOPPED>");
break;
}
case MESH_EVENT_ROOT_SWITCH_REQ: {
mesh_event_root_switch_req_t *switch_req = (mesh_event_root_switch_req_t *)event_data;
ESP_LOGI(MESH_TAG,
"<MESH_EVENT_ROOT_SWITCH_REQ>reason:%d, rc_addr:"MACSTR"",
switch_req->reason,
MAC2STR( switch_req->rc_addr.addr));
}
break;
case MESH_EVENT_ROOT_SWITCH_ACK: {
/* new root */
mesh_layer = esp_mesh_get_layer();
esp_mesh_get_parent_bssid(&mesh_parent_addr);
ESP_LOGI(MESH_TAG, "<MESH_EVENT_ROOT_SWITCH_ACK>layer:%d, parent:"MACSTR"", mesh_layer, MAC2STR(mesh_parent_addr.addr));
}
break;
case MESH_EVENT_TODS_STATE: {
mesh_event_toDS_state_t *toDs_state = (mesh_event_toDS_state_t *)event_data;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_TODS_REACHABLE>state:%d", *toDs_state);
}
break;
case MESH_EVENT_ROOT_FIXED: {
mesh_event_root_fixed_t *root_fixed = (mesh_event_root_fixed_t *)event_data;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_ROOT_FIXED>%s",
root_fixed->is_fixed ? "fixed" : "not fixed");
}
break;
case MESH_EVENT_ROOT_ASKED_YIELD: {
mesh_event_root_conflict_t *root_conflict = (mesh_event_root_conflict_t *)event_data;
ESP_LOGI(MESH_TAG,
"<MESH_EVENT_ROOT_ASKED_YIELD>"MACSTR", rssi:%d, capacity:%d",
MAC2STR(root_conflict->addr),
root_conflict->rssi,
root_conflict->capacity);
}
break;
case MESH_EVENT_CHANNEL_SWITCH: {
mesh_event_channel_switch_t *channel_switch = (mesh_event_channel_switch_t *)event_data;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_CHANNEL_SWITCH>new channel:%d", channel_switch->channel);
}
break;
case MESH_EVENT_SCAN_DONE: {
mesh_event_scan_done_t *scan_done = (mesh_event_scan_done_t *)event_data;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_SCAN_DONE>number:%d",
scan_done->number);
}
break;
case MESH_EVENT_NETWORK_STATE: {
mesh_event_network_state_t *network_state = (mesh_event_network_state_t *)event_data;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_NETWORK_STATE>is_rootless:%d",
network_state->is_rootless);
}
break;
case MESH_EVENT_STOP_RECONNECTION: {
ESP_LOGI(MESH_TAG, "<MESH_EVENT_STOP_RECONNECTION>");
}
break;
case MESH_EVENT_FIND_NETWORK: {
mesh_event_find_network_t *find_network = (mesh_event_find_network_t *)event_data;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_FIND_NETWORK>new channel:%d, router BSSID:"MACSTR"",
find_network->channel, MAC2STR(find_network->router_bssid));
}
break;
case MESH_EVENT_ROUTER_SWITCH: {
mesh_event_router_switch_t *router_switch = (mesh_event_router_switch_t *)event_data;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_ROUTER_SWITCH>new router:%s, channel:%d, "MACSTR"",
router_switch->ssid, router_switch->channel, MAC2STR(router_switch->bssid));
}
break;
case MESH_EVENT_PS_PARENT_DUTY: {
mesh_event_ps_duty_t *ps_duty = (mesh_event_ps_duty_t *)event_data;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_PS_PARENT_DUTY>duty:%d", ps_duty->duty);
}
break;
case MESH_EVENT_PS_CHILD_DUTY: {
mesh_event_ps_duty_t *ps_duty = (mesh_event_ps_duty_t *)event_data;
ESP_LOGI(MESH_TAG, "<MESH_EVENT_PS_CHILD_DUTY>cidx:%d, "MACSTR", duty:%d", ps_duty->child_connected.aid-1,
MAC2STR(ps_duty->child_connected.mac), ps_duty->duty);
}
break;
default:
ESP_LOGI(MESH_TAG, "unknown id:%d", event_id);
break;
}
}
void ip_event_handler(void *arg, esp_event_base_t event_base,
int32_t event_id, void *event_data)
{
ip_event_got_ip_t *event = (ip_event_got_ip_t *) event_data;
ESP_LOGI(MESH_TAG, "<IP_EVENT_STA_GOT_IP>IP:" IPSTR, IP2STR(&event->ip_info.ip));
}
void app_main(void)
{
esp_err_t err;
/*
err = nvs_flash_erase();
if(err != ESP_OK){
ESP_LOGI(MESH_TAG, "Error: %x", err);
while(1){
}
}
*/
ESP_ERROR_CHECK(nvs_flash_init());
ESP_LOGI(MESH_TAG, "Hello World");
const esp_partition_t * currentPartition = esp_ota_get_boot_partition();
ESP_LOGI(MESH_TAG, "Type: %d", (*currentPartition).subtype);
ESP_LOGI(MESH_TAG, "Start address: %d", (*currentPartition).address);
ESP_LOGI(MESH_TAG, "Size: %d", (*currentPartition).size); //passt
ESP_LOGI(MESH_TAG, "Encrypted: %d", (*currentPartition).encrypted);
esp_app_desc_t curPartitionDesc;
err = esp_ota_get_partition_description(currentPartition, &curPartitionDesc);
ESP_ERROR_CHECK(err);
ESP_LOGI(MESH_TAG, "currentPartition project_name: %s", (curPartitionDesc).project_name);
ESP_LOGI(MESH_TAG, "currentPartition version: %s", (curPartitionDesc).version);
ESP_LOGI(MESH_TAG, "currentPartition Timestamp: %s %s", (curPartitionDesc).date, (curPartitionDesc).time);
char test[] = "1.2.3";
if(bNewerVersion((curPartitionDesc).version, test)){
ESP_LOGI(MESH_TAG, "Newer Version available");
}
/* tcpip initialization */
ESP_ERROR_CHECK(esp_netif_init());
/* event initialization */
ESP_ERROR_CHECK(esp_event_loop_create_default());
/* create network interfaces for mesh (only station instance saved for further manipulation, soft AP instance ignored */
ESP_ERROR_CHECK(esp_netif_create_default_wifi_mesh_netifs(&netif_sta, NULL));
/* wifi initialization */
wifi_init_config_t config = WIFI_INIT_CONFIG_DEFAULT();
ESP_ERROR_CHECK(esp_wifi_init(&config));
ESP_ERROR_CHECK(esp_event_handler_register(IP_EVENT, IP_EVENT_STA_GOT_IP, &ip_event_handler, NULL));
ESP_ERROR_CHECK(esp_wifi_set_storage(WIFI_STORAGE_FLASH));
ESP_ERROR_CHECK(esp_wifi_start());
/* mesh initialization */
ESP_ERROR_CHECK(esp_mesh_init());
ESP_ERROR_CHECK(esp_event_handler_register(MESH_EVENT, ESP_EVENT_ANY_ID, &mesh_event_handler, NULL));
/* set mesh topology */
ESP_ERROR_CHECK(esp_mesh_set_topology(CONFIG_MESH_TOPOLOGY));
/* set mesh max layer according to the topology */
ESP_ERROR_CHECK(esp_mesh_set_max_layer(CONFIG_MESH_MAX_LAYER));
ESP_ERROR_CHECK(esp_mesh_set_vote_percentage(1));
ESP_ERROR_CHECK(esp_mesh_set_xon_qsize(128));
/* Disable mesh PS function */
ESP_ERROR_CHECK(esp_mesh_disable_ps());
ESP_ERROR_CHECK(esp_mesh_set_ap_assoc_expire(10));
mesh_cfg_t cfg = MESH_INIT_CONFIG_DEFAULT();
/* mesh ID */
memcpy((uint8_t *) &cfg.mesh_id, MESH_ID, 6);
/* router */
cfg.channel = CONFIG_MESH_CHANNEL;
cfg.router.ssid_len = strlen(CONFIG_MESH_ROUTER_SSID);
memcpy((uint8_t *) &cfg.router.ssid, CONFIG_MESH_ROUTER_SSID, cfg.router.ssid_len);
memcpy((uint8_t *) &cfg.router.password, CONFIG_MESH_ROUTER_PASSWD,
strlen(CONFIG_MESH_ROUTER_PASSWD));
/* mesh softAP */
ESP_ERROR_CHECK(esp_mesh_set_ap_authmode(CONFIG_MESH_AP_AUTHMODE));
cfg.mesh_ap.max_connection = CONFIG_MESH_AP_CONNECTIONS;
memcpy((uint8_t *) &cfg.mesh_ap.password, CONFIG_MESH_AP_PASSWD,
strlen(CONFIG_MESH_AP_PASSWD));
ESP_ERROR_CHECK(esp_mesh_set_config(&cfg));
ESP_ERROR_CHECK(esp_base_mac_addr_get(ownMAC));
ESP_LOGI(MESH_TAG, "Own MAC: \"0x%x, 0x%x, 0x%x, 0x%x, 0x%x, 0x%x\" ", ownMAC[0], ownMAC[1], ownMAC[2], ownMAC[3], ownMAC[4], ownMAC[5]);
/* mesh start */
ESP_ERROR_CHECK(esp_mesh_start());
ESP_LOGI(MESH_TAG, "mesh starts successfully, heap:%d, %s<%d>%s, ps:%d\n", esp_get_minimum_free_heap_size(),
esp_mesh_is_root_fixed() ? "root fixed" : "root not fixed",
esp_mesh_get_topology(), esp_mesh_get_topology() ? "(chain)":"(tree)", esp_mesh_is_ps_enabled());
}

5
partitions.csv
View File

@ -3,6 +3,5 @@
nvs, data, nvs, , 0x4000,
otadata, data, ota, , 0x2000,
phy_init, data, phy, , 0x1000,
factory, app, factory, , 1M,
ota_0, app, ota_0, , 1M,
ota_1, app, ota_1, , 1M,
ota_0, app, ota_0, , 1500K,
ota_1, app, ota_1, , 1500K,

1 # Name, Type, SubType, Offset, Size, Flags
3 nvs, data, nvs, , 0x4000,
4 otadata, data, ota, , 0x2000,
5 phy_init, data, phy, , 0x1000,
6 factory, app, factory, , 1M, ota_0, app, ota_0, , 1500K,
7 ota_0, app, ota_0, , 1M, ota_1, app, ota_1, , 1500K,
ota_1, app, ota_1, , 1M,

203
sdkconfig
View File

@ -67,11 +67,12 @@ CONFIG_BOOTLOADER_RESERVE_RTC_SIZE=0
#
# Security features
#
CONFIG_SECURE_SIGNED_ON_BOOT=y
CONFIG_SECURE_SIGNED_ON_UPDATE=y
CONFIG_SECURE_SIGNED_APPS=y
CONFIG_SECURE_SIGNED_APPS_NO_SECURE_BOOT=y
CONFIG_SECURE_SIGNED_APPS_ECDSA_SCHEME=y
# CONFIG_SECURE_SIGNED_ON_BOOT_NO_SECURE_BOOT is not set
CONFIG_SECURE_SIGNED_ON_BOOT_NO_SECURE_BOOT=y
CONFIG_SECURE_SIGNED_ON_UPDATE_NO_SECURE_BOOT=y
# CONFIG_SECURE_BOOT is not set
CONFIG_SECURE_BOOT_BUILD_SIGNED_BINARIES=y
@ -127,7 +128,7 @@ CONFIG_ESPTOOLPY_MONITOR_BAUD=115200
CONFIG_PARTITION_TABLE_CUSTOM=y
CONFIG_PARTITION_TABLE_CUSTOM_FILENAME="partitions.csv"
CONFIG_PARTITION_TABLE_FILENAME="partitions.csv"
CONFIG_PARTITION_TABLE_OFFSET=0x8000
CONFIG_PARTITION_TABLE_OFFSET=0x10000
CONFIG_PARTITION_TABLE_MD5=y
# end of Partition Table
@ -149,16 +150,20 @@ CONFIG_MESH_PS_NETWORK_DUTY_APPLIED_ENTIRE=y
CONFIG_MESH_PS_NWK_DUTY_RULE=0
CONFIG_MESH_MAX_LAYER=6
CONFIG_MESH_CHANNEL=13
CONFIG_MESH_ID="00, 00, 00, 00, 00, 00"
CONFIG_MESH_ROUTER_SSID="labNet"
CONFIG_MESH_ROUTER_PASSWD="12345678"
# CONFIG_WIFI_AUTH_OPEN is not set
# CONFIG_WIFI_AUTH_WPA_PSK is not set
CONFIG_WIFI_AUTH_WPA2_PSK=y
# CONFIG_WIFI_AUTH_WPA_WPA2_PSK is not set
# CONFIG_WIFI_AUTH_WPA2_ENTERPRISE is not set
CONFIG_MESH_AP_AUTHMODE=3
CONFIG_MESH_AP_PASSWD="qaws1234"
CONFIG_MESH_AP_CONNECTIONS=6
CONFIG_MESH_ROUTE_TABLE_SIZE=50
CONFIG_MESH_MESSAGE_SIZE=1234
CONFIG_OTA_HTTPS_SERVER_COMMON_NAME="ota.hendrikschutter.com"
CONFIG_OTA_HTTPS_SERVER_PORT="443"
CONFIG_OTA_HTTPS_URL="https://ota.hendrikschutter.com/mesh_ota.bin"
CONFIG_OTA_HTTPS_AUTH="b3RhOnB3"
# end of Mesh OTA Configuration
#
@ -359,6 +364,7 @@ CONFIG_ESP_CONSOLE_UART_DEFAULT=y
# CONFIG_ESP_CONSOLE_UART_CUSTOM is not set
# CONFIG_ESP_CONSOLE_NONE is not set
CONFIG_ESP_CONSOLE_UART=y
CONFIG_ESP_CONSOLE_MULTIPLE_UART=y
CONFIG_ESP_CONSOLE_UART_NUM=0
CONFIG_ESP_CONSOLE_UART_BAUDRATE=115200
CONFIG_ESP_INT_WDT=y
@ -602,7 +608,8 @@ CONFIG_FREERTOS_IDLE_TASK_STACKSIZE=2304
CONFIG_FREERTOS_ISR_STACKSIZE=1536
# CONFIG_FREERTOS_LEGACY_HOOKS is not set
CONFIG_FREERTOS_MAX_TASK_NAME_LEN=16
# CONFIG_FREERTOS_SUPPORT_STATIC_ALLOCATION is not set
CONFIG_FREERTOS_SUPPORT_STATIC_ALLOCATION=y
# CONFIG_FREERTOS_ENABLE_STATIC_TASK_CLEAN_UP is not set
CONFIG_FREERTOS_TIMER_TASK_PRIORITY=1
CONFIG_FREERTOS_TIMER_TASK_STACK_DEPTH=2048
CONFIG_FREERTOS_TIMER_QUEUE_LENGTH=10
@ -699,7 +706,6 @@ CONFIG_LWIP_LOOPBACK_MAX_PBUFS=8
#
# TCP
#
CONFIG_LWIP_TCP_ISN_HOOK=y
CONFIG_LWIP_MAX_ACTIVE_TCP=16
CONFIG_LWIP_MAX_LISTENING_TCP=16
CONFIG_LWIP_TCP_HIGH_SPEED_RETRANSMISSION=y
@ -727,6 +733,14 @@ CONFIG_LWIP_MAX_UDP_PCBS=16
CONFIG_LWIP_UDP_RECVMBOX_SIZE=6
# end of UDP
#
# Checksums
#
# CONFIG_LWIP_CHECKSUM_CHECK_IP is not set
# CONFIG_LWIP_CHECKSUM_CHECK_UDP is not set
CONFIG_LWIP_CHECKSUM_CHECK_ICMP=y
# end of Checksums
CONFIG_LWIP_TCPIP_TASK_STACK_SIZE=3072
CONFIG_LWIP_TCPIP_TASK_AFFINITY_NO_AFFINITY=y
# CONFIG_LWIP_TCPIP_TASK_AFFINITY_CPU0 is not set
@ -759,6 +773,20 @@ CONFIG_LWIP_SNTP_UPDATE_DELAY=3600000
CONFIG_LWIP_ESP_LWIP_ASSERT=y
#
# Hooks
#
# CONFIG_LWIP_HOOK_TCP_ISN_NONE is not set
CONFIG_LWIP_HOOK_TCP_ISN_DEFAULT=y
# CONFIG_LWIP_HOOK_TCP_ISN_CUSTOM is not set
CONFIG_LWIP_HOOK_IP6_ROUTE_NONE=y
# CONFIG_LWIP_HOOK_IP6_ROUTE_DEFAULT is not set
# CONFIG_LWIP_HOOK_IP6_ROUTE_CUSTOM is not set
CONFIG_LWIP_HOOK_NETCONN_EXT_RESOLVE_NONE=y
# CONFIG_LWIP_HOOK_NETCONN_EXT_RESOLVE_DEFAULT is not set
# CONFIG_LWIP_HOOK_NETCONN_EXT_RESOLVE_CUSTOM is not set
# end of Hooks
#
# Debug
#
@ -769,8 +797,10 @@ CONFIG_LWIP_ESP_LWIP_ASSERT=y
# CONFIG_LWIP_SOCKETS_DEBUG is not set
# CONFIG_LWIP_IP_DEBUG is not set
# CONFIG_LWIP_ICMP_DEBUG is not set
# CONFIG_LWIP_DHCP_DEBUG is not set
# CONFIG_LWIP_IP6_DEBUG is not set
# CONFIG_LWIP_ICMP6_DEBUG is not set
# CONFIG_LWIP_TCP_DEBUG is not set
# end of Debug
# end of LWIP
@ -1079,6 +1109,7 @@ CONFIG_WPA_MBEDTLS_CRYPTO=y
# CONFIG_WPA_DEBUG_PRINT is not set
# CONFIG_WPA_TESTING_OPTIONS is not set
# CONFIG_WPA_WPS_WARS is not set
# CONFIG_WPA_11KV_SUPPORT is not set
# end of Supplicant
# end of Component config
@ -1087,3 +1118,161 @@ CONFIG_WPA_MBEDTLS_CRYPTO=y
#
# CONFIG_LEGACY_INCLUDE_COMMON_HEADERS is not set
# end of Compatibility options
# Deprecated options for backward compatibility
CONFIG_TOOLPREFIX="xtensa-esp32-elf-"
# CONFIG_LOG_BOOTLOADER_LEVEL_NONE is not set
# CONFIG_LOG_BOOTLOADER_LEVEL_ERROR is not set
# CONFIG_LOG_BOOTLOADER_LEVEL_WARN is not set
CONFIG_LOG_BOOTLOADER_LEVEL_INFO=y
# CONFIG_LOG_BOOTLOADER_LEVEL_DEBUG is not set
# CONFIG_LOG_BOOTLOADER_LEVEL_VERBOSE is not set
CONFIG_LOG_BOOTLOADER_LEVEL=3
# CONFIG_APP_ROLLBACK_ENABLE is not set
# CONFIG_FLASH_ENCRYPTION_ENABLED is not set
# CONFIG_FLASHMODE_QIO is not set
# CONFIG_FLASHMODE_QOUT is not set
CONFIG_FLASHMODE_DIO=y
# CONFIG_FLASHMODE_DOUT is not set
# CONFIG_MONITOR_BAUD_9600B is not set
# CONFIG_MONITOR_BAUD_57600B is not set
CONFIG_MONITOR_BAUD_115200B=y
# CONFIG_MONITOR_BAUD_230400B is not set
# CONFIG_MONITOR_BAUD_921600B is not set
# CONFIG_MONITOR_BAUD_2MB is not set
# CONFIG_MONITOR_BAUD_OTHER is not set
CONFIG_MONITOR_BAUD_OTHER_VAL=115200
CONFIG_MONITOR_BAUD=115200
CONFIG_COMPILER_OPTIMIZATION_LEVEL_DEBUG=y
# CONFIG_COMPILER_OPTIMIZATION_LEVEL_RELEASE is not set
CONFIG_OPTIMIZATION_ASSERTIONS_ENABLED=y
# CONFIG_OPTIMIZATION_ASSERTIONS_SILENT is not set
# CONFIG_OPTIMIZATION_ASSERTIONS_DISABLED is not set
# CONFIG_CXX_EXCEPTIONS is not set
CONFIG_STACK_CHECK_NONE=y
# CONFIG_STACK_CHECK_NORM is not set
# CONFIG_STACK_CHECK_STRONG is not set
# CONFIG_STACK_CHECK_ALL is not set
# CONFIG_WARN_WRITE_STRINGS is not set
# CONFIG_DISABLE_GCC8_WARNINGS is not set
# CONFIG_ESP32_APPTRACE_DEST_TRAX is not set
CONFIG_ESP32_APPTRACE_DEST_NONE=y
CONFIG_ESP32_APPTRACE_LOCK_ENABLE=y
CONFIG_BTDM_CONTROLLER_BLE_MAX_CONN_EFF=0
CONFIG_BTDM_CONTROLLER_BR_EDR_MAX_ACL_CONN_EFF=0
CONFIG_BTDM_CONTROLLER_BR_EDR_MAX_SYNC_CONN_EFF=0
CONFIG_BTDM_CONTROLLER_PINNED_TO_CORE=0
CONFIG_ADC2_DISABLE_DAC=y
# CONFIG_SPIRAM_SUPPORT is not set
CONFIG_TRACEMEM_RESERVE_DRAM=0x0
# CONFIG_TWO_UNIVERSAL_MAC_ADDRESS is not set
CONFIG_FOUR_UNIVERSAL_MAC_ADDRESS=y
CONFIG_NUMBER_OF_UNIVERSAL_MAC_ADDRESS=4
# CONFIG_ULP_COPROC_ENABLED is not set
CONFIG_ULP_COPROC_RESERVE_MEM=0
CONFIG_BROWNOUT_DET=y
CONFIG_BROWNOUT_DET_LVL_SEL_0=y
# CONFIG_BROWNOUT_DET_LVL_SEL_1 is not set
# CONFIG_BROWNOUT_DET_LVL_SEL_2 is not set
# CONFIG_BROWNOUT_DET_LVL_SEL_3 is not set
# CONFIG_BROWNOUT_DET_LVL_SEL_4 is not set
# CONFIG_BROWNOUT_DET_LVL_SEL_5 is not set
# CONFIG_BROWNOUT_DET_LVL_SEL_6 is not set
# CONFIG_BROWNOUT_DET_LVL_SEL_7 is not set
CONFIG_BROWNOUT_DET_LVL=0
CONFIG_REDUCE_PHY_TX_POWER=y
CONFIG_ESP32_RTC_CLOCK_SOURCE_INTERNAL_RC=y
# CONFIG_ESP32_RTC_CLOCK_SOURCE_EXTERNAL_CRYSTAL is not set
# CONFIG_ESP32_RTC_CLOCK_SOURCE_EXTERNAL_OSC is not set
# CONFIG_ESP32_RTC_CLOCK_SOURCE_INTERNAL_8MD256 is not set
# CONFIG_DISABLE_BASIC_ROM_CONSOLE is not set
# CONFIG_NO_BLOBS is not set
# CONFIG_COMPATIBLE_PRE_V2_1_BOOTLOADERS is not set
CONFIG_SYSTEM_EVENT_QUEUE_SIZE=32
CONFIG_SYSTEM_EVENT_TASK_STACK_SIZE=2304
CONFIG_MAIN_TASK_STACK_SIZE=3584
CONFIG_IPC_TASK_STACK_SIZE=1024
CONFIG_CONSOLE_UART_DEFAULT=y
# CONFIG_CONSOLE_UART_CUSTOM is not set
# CONFIG_ESP_CONSOLE_UART_NONE is not set
CONFIG_CONSOLE_UART=y
CONFIG_CONSOLE_UART_NUM=0
CONFIG_CONSOLE_UART_BAUDRATE=115200
CONFIG_INT_WDT=y
CONFIG_INT_WDT_TIMEOUT_MS=300
CONFIG_INT_WDT_CHECK_CPU1=y
CONFIG_TASK_WDT=y
# CONFIG_TASK_WDT_PANIC is not set
CONFIG_TASK_WDT_TIMEOUT_S=5
CONFIG_TASK_WDT_CHECK_IDLE_TASK_CPU0=y
CONFIG_TASK_WDT_CHECK_IDLE_TASK_CPU1=y
# CONFIG_EVENT_LOOP_PROFILING is not set
CONFIG_POST_EVENTS_FROM_ISR=y
CONFIG_POST_EVENTS_FROM_IRAM_ISR=y
# CONFIG_ESP32S2_PANIC_PRINT_HALT is not set
CONFIG_ESP32S2_PANIC_PRINT_REBOOT=y
# CONFIG_ESP32S2_PANIC_SILENT_REBOOT is not set
# CONFIG_ESP32S2_PANIC_GDBSTUB is not set
CONFIG_TIMER_TASK_STACK_SIZE=3584
# CONFIG_ESP32_ENABLE_COREDUMP_TO_FLASH is not set
# CONFIG_ESP32_ENABLE_COREDUMP_TO_UART is not set
CONFIG_ESP32_ENABLE_COREDUMP_TO_NONE=y
CONFIG_MB_MASTER_TIMEOUT_MS_RESPOND=150
CONFIG_MB_MASTER_DELAY_MS_CONVERT=200
CONFIG_MB_QUEUE_LENGTH=20
CONFIG_MB_SERIAL_TASK_STACK_SIZE=4096
CONFIG_MB_SERIAL_BUF_SIZE=256
CONFIG_MB_SERIAL_TASK_PRIO=10
CONFIG_MB_CONTROLLER_SLAVE_ID_SUPPORT=y
CONFIG_MB_CONTROLLER_SLAVE_ID=0x00112233
CONFIG_MB_CONTROLLER_NOTIFY_TIMEOUT=20
CONFIG_MB_CONTROLLER_NOTIFY_QUEUE_SIZE=20
CONFIG_MB_CONTROLLER_STACK_SIZE=4096
CONFIG_MB_EVENT_QUEUE_TIMEOUT=20
CONFIG_MB_TIMER_PORT_ENABLED=y
CONFIG_MB_TIMER_GROUP=0
CONFIG_MB_TIMER_INDEX=0
# CONFIG_ENABLE_STATIC_TASK_CLEAN_UP_HOOK is not set
CONFIG_TIMER_TASK_PRIORITY=1
CONFIG_TIMER_TASK_STACK_DEPTH=2048
CONFIG_TIMER_QUEUE_LENGTH=10
# CONFIG_L2_TO_L3_COPY is not set
# CONFIG_USE_ONLY_LWIP_SELECT is not set
CONFIG_ESP_GRATUITOUS_ARP=y
CONFIG_GARP_TMR_INTERVAL=60
CONFIG_TCPIP_RECVMBOX_SIZE=32
CONFIG_TCP_MAXRTX=12
CONFIG_TCP_SYNMAXRTX=12
CONFIG_TCP_MSS=1440
CONFIG_TCP_MSL=60000
CONFIG_TCP_SND_BUF_DEFAULT=5744
CONFIG_TCP_WND_DEFAULT=5744
CONFIG_TCP_RECVMBOX_SIZE=6
CONFIG_TCP_QUEUE_OOSEQ=y
# CONFIG_ESP_TCP_KEEP_CONNECTION_WHEN_IP_CHANGES is not set
CONFIG_TCP_OVERSIZE_MSS=y
# CONFIG_TCP_OVERSIZE_QUARTER_MSS is not set
# CONFIG_TCP_OVERSIZE_DISABLE is not set
CONFIG_UDP_RECVMBOX_SIZE=6
CONFIG_TCPIP_TASK_STACK_SIZE=3072
CONFIG_TCPIP_TASK_AFFINITY_NO_AFFINITY=y
# CONFIG_TCPIP_TASK_AFFINITY_CPU0 is not set
# CONFIG_TCPIP_TASK_AFFINITY_CPU1 is not set
CONFIG_TCPIP_TASK_AFFINITY=0x7FFFFFFF
# CONFIG_PPP_SUPPORT is not set
CONFIG_ESP32_PTHREAD_TASK_PRIO_DEFAULT=5
CONFIG_ESP32_PTHREAD_TASK_STACK_SIZE_DEFAULT=3072
CONFIG_ESP32_PTHREAD_STACK_MIN=768
CONFIG_ESP32_DEFAULT_PTHREAD_CORE_NO_AFFINITY=y
# CONFIG_ESP32_DEFAULT_PTHREAD_CORE_0 is not set
# CONFIG_ESP32_DEFAULT_PTHREAD_CORE_1 is not set
CONFIG_ESP32_PTHREAD_TASK_CORE_DEFAULT=-1
CONFIG_ESP32_PTHREAD_TASK_NAME_DEFAULT="pthread"
CONFIG_SPI_FLASH_WRITING_DANGEROUS_REGIONS_ABORTS=y
# CONFIG_SPI_FLASH_WRITING_DANGEROUS_REGIONS_FAILS is not set
# CONFIG_SPI_FLASH_WRITING_DANGEROUS_REGIONS_ALLOWED is not set
CONFIG_SUPPRESS_SELECT_DEBUG_OUTPUT=y
CONFIG_SUPPORT_TERMIOS=y
CONFIG_SEMIHOSTFS_MAX_MOUNT_POINTS=1
CONFIG_SEMIHOSTFS_HOST_PATH_MAX_LEN=128
# End of deprecated options

15
style_code.sh Normal file
View File

@ -0,0 +1,15 @@
#! /bin/bash
cd main
astyle --style=gnu *.c
astyle --style=gnu *.h
cd ..
cd components/mesh_ota
astyle --style=gnu *.c
cd include
astyle --style=gnu *.h

32
test/sdkconfig
View File

@ -321,6 +321,7 @@ CONFIG_ESP_CONSOLE_UART_DEFAULT=y
# CONFIG_ESP_CONSOLE_UART_CUSTOM is not set
# CONFIG_ESP_CONSOLE_NONE is not set
CONFIG_ESP_CONSOLE_UART=y
CONFIG_ESP_CONSOLE_MULTIPLE_UART=y
CONFIG_ESP_CONSOLE_UART_NUM=0
CONFIG_ESP_CONSOLE_UART_BAUDRATE=115200
CONFIG_ESP_INT_WDT=y
@ -560,7 +561,8 @@ CONFIG_FREERTOS_IDLE_TASK_STACKSIZE=2304
CONFIG_FREERTOS_ISR_STACKSIZE=1536
# CONFIG_FREERTOS_LEGACY_HOOKS is not set
CONFIG_FREERTOS_MAX_TASK_NAME_LEN=16
# CONFIG_FREERTOS_SUPPORT_STATIC_ALLOCATION is not set
CONFIG_FREERTOS_SUPPORT_STATIC_ALLOCATION=y
# CONFIG_FREERTOS_ENABLE_STATIC_TASK_CLEAN_UP is not set
CONFIG_FREERTOS_TIMER_TASK_PRIORITY=1
CONFIG_FREERTOS_TIMER_TASK_STACK_DEPTH=2048
CONFIG_FREERTOS_TIMER_QUEUE_LENGTH=10
@ -657,7 +659,6 @@ CONFIG_LWIP_LOOPBACK_MAX_PBUFS=8
#
# TCP
#
CONFIG_LWIP_TCP_ISN_HOOK=y
CONFIG_LWIP_MAX_ACTIVE_TCP=16
CONFIG_LWIP_MAX_LISTENING_TCP=16
CONFIG_LWIP_TCP_HIGH_SPEED_RETRANSMISSION=y
@ -685,6 +686,14 @@ CONFIG_LWIP_MAX_UDP_PCBS=16
CONFIG_LWIP_UDP_RECVMBOX_SIZE=6
# end of UDP
#
# Checksums
#
# CONFIG_LWIP_CHECKSUM_CHECK_IP is not set
# CONFIG_LWIP_CHECKSUM_CHECK_UDP is not set
CONFIG_LWIP_CHECKSUM_CHECK_ICMP=y
# end of Checksums
CONFIG_LWIP_TCPIP_TASK_STACK_SIZE=3072
CONFIG_LWIP_TCPIP_TASK_AFFINITY_NO_AFFINITY=y
# CONFIG_LWIP_TCPIP_TASK_AFFINITY_CPU0 is not set
@ -717,6 +726,20 @@ CONFIG_LWIP_SNTP_UPDATE_DELAY=3600000
CONFIG_LWIP_ESP_LWIP_ASSERT=y
#
# Hooks
#
# CONFIG_LWIP_HOOK_TCP_ISN_NONE is not set
CONFIG_LWIP_HOOK_TCP_ISN_DEFAULT=y
# CONFIG_LWIP_HOOK_TCP_ISN_CUSTOM is not set
CONFIG_LWIP_HOOK_IP6_ROUTE_NONE=y
# CONFIG_LWIP_HOOK_IP6_ROUTE_DEFAULT is not set
# CONFIG_LWIP_HOOK_IP6_ROUTE_CUSTOM is not set
CONFIG_LWIP_HOOK_NETCONN_EXT_RESOLVE_NONE=y
# CONFIG_LWIP_HOOK_NETCONN_EXT_RESOLVE_DEFAULT is not set
# CONFIG_LWIP_HOOK_NETCONN_EXT_RESOLVE_CUSTOM is not set
# end of Hooks
#
# Debug
#
@ -727,8 +750,10 @@ CONFIG_LWIP_ESP_LWIP_ASSERT=y
# CONFIG_LWIP_SOCKETS_DEBUG is not set
# CONFIG_LWIP_IP_DEBUG is not set
# CONFIG_LWIP_ICMP_DEBUG is not set
# CONFIG_LWIP_DHCP_DEBUG is not set
# CONFIG_LWIP_IP6_DEBUG is not set
# CONFIG_LWIP_ICMP6_DEBUG is not set
# CONFIG_LWIP_TCP_DEBUG is not set
# end of Debug
# end of LWIP
@ -1037,6 +1062,7 @@ CONFIG_WPA_MBEDTLS_CRYPTO=y
# CONFIG_WPA_DEBUG_PRINT is not set
# CONFIG_WPA_TESTING_OPTIONS is not set
# CONFIG_WPA_WPS_WARS is not set
# CONFIG_WPA_11KV_SUPPORT is not set
# end of Supplicant
# end of Component config
@ -1155,7 +1181,7 @@ CONFIG_MB_EVENT_QUEUE_TIMEOUT=20
CONFIG_MB_TIMER_PORT_ENABLED=y
CONFIG_MB_TIMER_GROUP=0
CONFIG_MB_TIMER_INDEX=0
# CONFIG_SUPPORT_STATIC_ALLOCATION is not set
# CONFIG_ENABLE_STATIC_TASK_CLEAN_UP_HOOK is not set
CONFIG_TIMER_TASK_PRIORITY=1
CONFIG_TIMER_TASK_STACK_DEPTH=2048
CONFIG_TIMER_QUEUE_LENGTH=10