hash&salt code simplified
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70150fa606
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@ -10,6 +10,7 @@
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#include "display.h"
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#include "display.h"
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#include "sds011read.h"
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#include "sds011read.h"
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#include "sdcard.h"
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#include "sdcard.h"
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#include "macsniff.h"
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extern Ticker cyclicTimer;
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extern Ticker cyclicTimer;
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@ -14,7 +14,7 @@
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#include "corona.h"
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#include "corona.h"
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#endif
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#endif
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uint16_t get_salt(void);
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uint32_t renew_salt(void);
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uint64_t macConvert(uint8_t *paddr);
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uint64_t macConvert(uint8_t *paddr);
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esp_err_t macQueueInit(void);
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esp_err_t macQueueInit(void);
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void mac_process(void *pvParameters);
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void mac_process(void *pvParameters);
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@ -97,7 +97,6 @@ void doHousekeeping() {
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"free heap = %d bytes)",
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"free heap = %d bytes)",
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ESP.getMinFreeHeap(), ESP.getFreeHeap());
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ESP.getMinFreeHeap(), ESP.getFreeHeap());
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reset_counters(); // clear macs container and reset all counters
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reset_counters(); // clear macs container and reset all counters
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get_salt(); // get new salt for salting hashes
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if (ESP.getMinFreeHeap() <= MEM_LOW) // check again
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if (ESP.getMinFreeHeap() <= MEM_LOW) // check again
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do_reset(true); // memory leak, reset device
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do_reset(true); // memory leak, reset device
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@ -108,7 +107,6 @@ void doHousekeeping() {
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if (ESP.getMinFreePsram() <= MEM_LOW) {
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if (ESP.getMinFreePsram() <= MEM_LOW) {
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ESP_LOGI(TAG, "PSRAM full, counter cleared");
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ESP_LOGI(TAG, "PSRAM full, counter cleared");
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reset_counters(); // clear macs container and reset all counters
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reset_counters(); // clear macs container and reset all counters
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get_salt(); // get new salt for salting hashes
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if (ESP.getMinFreePsram() <= MEM_LOW) // check again
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if (ESP.getMinFreePsram() <= MEM_LOW) // check again
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do_reset(true); // memory leak, reset device
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do_reset(true); // memory leak, reset device
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@ -140,6 +138,7 @@ void reset_counters() {
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macs.clear(); // clear all macs container
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macs.clear(); // clear all macs container
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macs_wifi = 0;
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macs_wifi = 0;
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macs_ble = 0;
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macs_ble = 0;
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renew_salt(); // get new salt
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#ifdef HAS_DISPLAY
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#ifdef HAS_DISPLAY
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dp_plotCurve(0, true);
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dp_plotCurve(0, true);
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#endif
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#endif
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@ -9,10 +9,11 @@ static const char TAG[] = __FILE__;
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QueueHandle_t MacQueue;
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QueueHandle_t MacQueue;
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TaskHandle_t macProcessTask;
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TaskHandle_t macProcessTask;
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uint16_t salt = 0;
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static uint32_t salt = renew_salt();
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uint16_t get_salt(void) {
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uint32_t renew_salt(void) {
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salt = (uint16_t)random(65536); // get new 16bit random for salting hashes
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salt = esp_random();
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ESP_LOGV(TAG, "new salt = %04X", salt);
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return salt;
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return salt;
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}
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}
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@ -101,9 +102,6 @@ void IRAM_ATTR mac_add(uint8_t *paddr, int8_t rssi, snifftype_t sniff_type) {
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uint16_t mac_analyze(MacBuffer_t MacBuffer) {
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uint16_t mac_analyze(MacBuffer_t MacBuffer) {
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if (salt == 0) // ensure we have salt (appears after radio is turned on)
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return 0;
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if ((cfg.rssilimit) &&
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if ((cfg.rssilimit) &&
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(MacBuffer.rssi < cfg.rssilimit)) { // rssi is negative value
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(MacBuffer.rssi < cfg.rssilimit)) { // rssi is negative value
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ESP_LOGI(TAG, "%s RSSI %d -> ignoring (limit: %d)",
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ESP_LOGI(TAG, "%s RSSI %d -> ignoring (limit: %d)",
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@ -126,8 +124,7 @@ uint16_t mac_analyze(MacBuffer_t MacBuffer) {
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}
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}
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};
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};
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char buff[10]; // temporary buffer for printf
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uint32_t *mac; // pointer to shortened 4 byte MAC
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uint32_t *mac; // temporary buffer for shortened MAC
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// only last 3 MAC Address bytes are used for MAC address anonymization
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// only last 3 MAC Address bytes are used for MAC address anonymization
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// but since it's uint32 we take 4 bytes to avoid 1st value to be 0.
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// but since it's uint32 we take 4 bytes to avoid 1st value to be 0.
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@ -138,11 +135,15 @@ uint16_t mac_analyze(MacBuffer_t MacBuffer) {
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// and increment counter on display
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// and increment counter on display
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// https://en.wikipedia.org/wiki/MAC_Address_Anonymization
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// https://en.wikipedia.org/wiki/MAC_Address_Anonymization
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snprintf(buff, sizeof(buff), "%08X",
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// reversed 4 byte MAC added to current salt
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*mac + (uint32_t)salt); // convert unsigned 32-bit salted MAC
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const uint32_t saltedmac = *mac + salt;
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// to 8 digit hex string
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uint16_t hashedmac = hash(&buff[3], 5); // hash MAC 8 digit -> 5 digit
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// hashed 4 byte MAC
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auto newmac = macs.insert(hashedmac); // add hashed MAC, if new unique
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// to save RAM, we use only lower 2 bytes of hash, since collisions don't
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// matter in our use case
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const uint16_t hashedmac = hash((const char *)&saltedmac, 4);
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auto newmac = macs.insert(hashedmac); // add hashed MAC, if new unique
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bool added =
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bool added =
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newmac.second ? true : false; // true if hashed MAC is unique in container
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newmac.second ? true : false; // true if hashed MAC is unique in container
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@ -183,7 +184,8 @@ uint16_t mac_analyze(MacBuffer_t MacBuffer) {
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// Log scan result
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// Log scan result
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ESP_LOGV(TAG,
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ESP_LOGV(TAG,
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"%s %s RSSI %ddBi -> salted MAC %s -> Hash %04X -> WiFi:%d "
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"%s %s RSSI %ddBi -> MAC %0x:%0x:%0x:%0x:%0x:%0x -> salted %04X"
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" -> hashed %04X -> WiFi:%d "
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"BLTH:%d "
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"BLTH:%d "
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#if (COUNT_ENS)
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#if (COUNT_ENS)
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"(CWA:%d)"
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"(CWA:%d)"
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@ -191,7 +193,9 @@ uint16_t mac_analyze(MacBuffer_t MacBuffer) {
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"-> %d Bytes left",
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"-> %d Bytes left",
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added ? "new " : "known",
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added ? "new " : "known",
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MacBuffer.sniff_type == MAC_SNIFF_WIFI ? "WiFi" : "BLTH",
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MacBuffer.sniff_type == MAC_SNIFF_WIFI ? "WiFi" : "BLTH",
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MacBuffer.rssi, buff, hashedmac, macs_wifi, macs_ble,
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MacBuffer.rssi, MacBuffer.mac[0], MacBuffer.mac[1], MacBuffer.mac[2],
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MacBuffer.mac[3], MacBuffer.mac[4], MacBuffer.mac[5], saltedmac,
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hashedmac, macs_wifi, macs_ble,
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#if (COUNT_ENS)
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#if (COUNT_ENS)
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cwa_report(),
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cwa_report(),
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#endif
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#endif
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@ -428,7 +428,7 @@ void setup() {
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// initialize salt value using esp_random() called by random() in
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// initialize salt value using esp_random() called by random() in
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// arduino-esp32 core. Note: do this *after* wifi has started, since
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// arduino-esp32 core. Note: do this *after* wifi has started, since
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// function gets it's seed from RF noise
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// function gets it's seed from RF noise
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get_salt(); // get new 16bit for salting hashes
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reset_counters();
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// start state machine
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// start state machine
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ESP_LOGI(TAG, "Starting Interrupt Handler...");
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ESP_LOGI(TAG, "Starting Interrupt Handler...");
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@ -18,7 +18,6 @@ void set_reset(uint8_t val[]) {
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case 1: // reset MAC counter
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case 1: // reset MAC counter
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ESP_LOGI(TAG, "Remote command: reset MAC counter");
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ESP_LOGI(TAG, "Remote command: reset MAC counter");
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reset_counters(); // clear macs
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reset_counters(); // clear macs
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get_salt(); // get new salt
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break;
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break;
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case 2: // reset device to factory settings
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case 2: // reset device to factory settings
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ESP_LOGI(TAG, "Remote command: reset device to factory settings");
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ESP_LOGI(TAG, "Remote command: reset device to factory settings");
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@ -119,7 +118,6 @@ void set_countmode(uint8_t val[]) {
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return;
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return;
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}
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}
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reset_counters(); // clear macs
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reset_counters(); // clear macs
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get_salt(); // get new salt
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}
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}
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void set_screensaver(uint8_t val[]) {
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void set_screensaver(uint8_t val[]) {
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@ -115,7 +115,6 @@ void sendData() {
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// clear counter if not in cumulative counter mode
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// clear counter if not in cumulative counter mode
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if (cfg.countermode != 1) {
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if (cfg.countermode != 1) {
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reset_counters(); // clear macs container and reset all counters
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reset_counters(); // clear macs container and reset all counters
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get_salt(); // get new salt for salting hashes
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ESP_LOGI(TAG, "Counter cleared");
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ESP_LOGI(TAG, "Counter cleared");
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}
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}
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#ifdef HAS_DISPLAY
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#ifdef HAS_DISPLAY
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