code sanitization (volatiles check)
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d4d6a7ea07
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8985ee3603
@ -48,7 +48,7 @@ void doHousekeeping() {
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esp_get_minimum_free_heap_size(), ESP.getFreeHeap());
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esp_get_minimum_free_heap_size(), ESP.getFreeHeap());
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SendData(COUNTERPORT); // send data before clearing counters
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SendData(COUNTERPORT); // send data before clearing counters
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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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reset_salt(); // get new salt for salting hashes
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get_salt(); // get new salt for salting hashes
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if (esp_get_minimum_free_heap_size() <= MEM_LOW) // check again
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if (esp_get_minimum_free_heap_size() <= MEM_LOW) // check again
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esp_restart(); // memory leak, reset device
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esp_restart(); // memory leak, reset device
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@ -13,7 +13,7 @@ const char lora_datarate[] = {"1211100908077BFSNA"};
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const char lora_datarate[] = {"100908078CNA121110090807"};
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const char lora_datarate[] = {"100908078CNA121110090807"};
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#endif
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#endif
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uint8_t DisplayState = 0;
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uint8_t volatile DisplayState = 0;
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// helper function, prints a hex key on display
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// helper function, prints a hex key on display
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void DisplayKey(const uint8_t *key, uint8_t len, bool lsb) {
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void DisplayKey(const uint8_t *key, uint8_t len, bool lsb) {
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@ -3,7 +3,7 @@
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#include <U8x8lib.h>
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#include <U8x8lib.h>
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extern uint8_t DisplayState;
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extern uint8_t volatile DisplayState;
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extern HAS_DISPLAY u8x8;
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extern HAS_DISPLAY u8x8;
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void init_display(const char *Productname, const char *Version);
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void init_display(const char *Productname, const char *Version);
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@ -41,12 +41,13 @@ typedef struct {
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// global variables
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// global variables
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extern configData_t cfg; // current device configuration
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extern configData_t cfg; // current device configuration
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extern char display_line6[], display_line7[]; // screen buffers
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extern char display_line6[], display_line7[]; // screen buffers
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extern uint8_t channel; // wifi channel rotation counter
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extern uint8_t volatile channel; // wifi channel rotation counter
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extern uint16_t macs_total, macs_wifi, macs_ble, batt_voltage; // display values
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extern uint16_t volatile macs_total, macs_wifi, macs_ble,
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batt_voltage; // display values
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extern std::set<uint16_t> macs; // temp storage for MACs
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extern std::set<uint16_t> macs; // temp storage for MACs
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extern hw_timer_t *channelSwitch, *sendCycle;
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extern hw_timer_t *channelSwitch, *sendCycle;
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extern portMUX_TYPE timerMux;
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extern portMUX_TYPE timerMux;
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extern volatile int SendCycleTimerIRQ, HomeCycleIRQ, DisplayTimerIRQ,
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extern volatile uint8_t SendCycleTimerIRQ, HomeCycleIRQ, DisplayTimerIRQ,
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ChannelTimerIRQ, ButtonPressedIRQ;
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ChannelTimerIRQ, ButtonPressedIRQ;
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extern std::array<uint64_t, 0xff>::iterator it;
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extern std::array<uint64_t, 0xff>::iterator it;
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@ -11,8 +11,8 @@ static const char TAG[] = "main";
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uint16_t salt;
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uint16_t salt;
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uint16_t reset_salt(void) {
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uint16_t get_salt(void) {
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salt = random(65536); // get new 16bit random for salting hashes
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salt = (uint16_t)random(65536); // get new 16bit random for salting hashes
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return salt;
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return salt;
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}
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}
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@ -71,8 +71,8 @@ bool mac_add(uint8_t *paddr, int8_t rssi, bool sniff_type) {
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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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snprintf(buff, sizeof(buff), "%08X",
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addr2int + (uint32_t)salt); // convert usigned 32-bit salted MAC to
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addr2int + (uint32_t)salt); // convert usigned 32-bit salted MAC
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// 8 digit hex string
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// to 8 digit hex string
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hashedmac = rokkit(&buff[3], 5); // hash MAC last string value, use 5 chars
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hashedmac = rokkit(&buff[3], 5); // hash MAC last string value, use 5 chars
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// to fit hash in uint16_t container
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// to fit hash in uint16_t container
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auto newmac = macs.insert(hashedmac); // add hashed MAC, if new unique
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auto newmac = macs.insert(hashedmac); // add hashed MAC, if new unique
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@ -81,7 +81,6 @@ bool mac_add(uint8_t *paddr, int8_t rssi, bool sniff_type) {
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// Count only if MAC was not yet seen
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// Count only if MAC was not yet seen
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if (added) {
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if (added) {
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// increment counter and one blink led
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// increment counter and one blink led
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if (sniff_type == MAC_SNIFF_WIFI) {
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if (sniff_type == MAC_SNIFF_WIFI) {
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macs_wifi++; // increment Wifi MACs counter
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macs_wifi++; // increment Wifi MACs counter
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@ -12,7 +12,7 @@
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#define MAC_SNIFF_WIFI 0
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#define MAC_SNIFF_WIFI 0
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#define MAC_SNIFF_BLE 1
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#define MAC_SNIFF_BLE 1
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uint16_t reset_salt(void);
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uint16_t get_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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bool mac_add(uint8_t *paddr, int8_t rssi, bool sniff_type);
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bool mac_add(uint8_t *paddr, int8_t rssi, bool sniff_type);
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void printKey(const char *name, const uint8_t *key, uint8_t len, bool lsb);
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void printKey(const char *name, const uint8_t *key, uint8_t len, bool lsb);
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12
src/main.cpp
12
src/main.cpp
@ -47,16 +47,16 @@ ESP32 hardware timers
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configData_t cfg; // struct holds current device configuration
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configData_t cfg; // struct holds current device configuration
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char display_line6[16], display_line7[16]; // display buffers
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char display_line6[16], display_line7[16]; // display buffers
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uint8_t channel = 0; // channel rotation counter
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uint8_t volatile channel = 0; // channel rotation counter
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uint16_t macs_total = 0, macs_wifi = 0, macs_ble = 0,
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uint16_t volatile macs_total = 0, macs_wifi = 0, macs_ble = 0,
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batt_voltage = 0; // globals for display
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batt_voltage = 0; // globals for display
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// hardware timer for cyclic tasks
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// hardware timer for cyclic tasks
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hw_timer_t *channelSwitch, *displaytimer, *sendCycle, *homeCycle;
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hw_timer_t *channelSwitch, *displaytimer, *sendCycle, *homeCycle;
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// this variables will be changed in the ISR, and read in main loop
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// this variables will be changed in the ISR, and read in main loop
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volatile int ButtonPressedIRQ = 0, ChannelTimerIRQ = 0, SendCycleTimerIRQ = 0,
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uint8_t volatile ButtonPressedIRQ = 0, ChannelTimerIRQ = 0,
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DisplayTimerIRQ = 0, HomeCycleIRQ = 0;
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SendCycleTimerIRQ = 0, DisplayTimerIRQ = 0, HomeCycleIRQ = 0;
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TaskHandle_t StateTask = NULL;
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TaskHandle_t StateTask = NULL;
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@ -96,7 +96,7 @@ void setup() {
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// disable brownout detection
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// disable brownout detection
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#ifdef DISABLE_BROWNOUT
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#ifdef DISABLE_BROWNOUT
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// register with brownout is at address DR_REG_RTCCNTL_BASE + 0xd4
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// register with brownout is at address DR_REG_RTCCNTL_BASE + 0xd4
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(*((volatile uint32_t *)ETS_UNCACHED_ADDR((DR_REG_RTCCNTL_BASE + 0xd4)))) = 0;
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(*((uint32_t volatile *)ETS_UNCACHED_ADDR((DR_REG_RTCCNTL_BASE + 0xd4)))) = 0;
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#endif
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#endif
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// setup debug output or silence device
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// setup debug output or silence device
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@ -329,7 +329,7 @@ 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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reset_salt(); // get new 16bit for salting hashes
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get_salt(); // get new 16bit for salting hashes
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// start state machine
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// start state machine
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ESP_LOGI(TAG, "Starting Statemachine...");
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ESP_LOGI(TAG, "Starting Statemachine...");
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@ -29,8 +29,8 @@ const int port = 443;
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const uint32_t RESPONSE_TIMEOUT_MS = 5000;
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const uint32_t RESPONSE_TIMEOUT_MS = 5000;
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// Variables to validate firmware content
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// Variables to validate firmware content
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volatile int contentLength = 0;
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int volatile contentLength = 0;
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volatile bool isValidContentType = false;
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bool volatile isValidContentType = false;
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// Local logging tag
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// Local logging tag
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static const char TAG[] = "main";
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static const char TAG[] = "main";
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@ -18,7 +18,7 @@ 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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reset_salt(); // get new salt
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get_salt(); // get new salt
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sprintf(display_line6, "Reset counter");
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sprintf(display_line6, "Reset counter");
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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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@ -29,7 +29,7 @@ void SendData(uint8_t port) {
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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 ((port == COUNTERPORT) && (cfg.countermode != 1)) {
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if ((port == COUNTERPORT) && (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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reset_salt(); // get new salt for salting hashes
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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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} // SendData
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} // SendData
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@ -44,14 +44,14 @@ void wifi_sniffer_init(void) {
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}
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}
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// Wifi channel rotation
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// Wifi channel rotation
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void switchWifiChannel(uint8_t &ch) {
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void switchWifiChannel(uint8_t volatile &ch) {
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portENTER_CRITICAL(&timerMux);
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portENTER_CRITICAL(&timerMux);
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ChannelTimerIRQ = 0;
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ChannelTimerIRQ = 0;
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portEXIT_CRITICAL(&timerMux);
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portEXIT_CRITICAL(&timerMux);
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// rotates variable channel 1..WIFI_CHANNEL_MAX
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// rotates variable channel 1..WIFI_CHANNEL_MAX
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ch = (ch % WIFI_CHANNEL_MAX) + 1;
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ch = (ch % WIFI_CHANNEL_MAX) + 1;
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esp_wifi_set_channel(ch, WIFI_SECOND_CHAN_NONE);
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esp_wifi_set_channel(ch, WIFI_SECOND_CHAN_NONE);
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ESP_LOGD(TAG, "Wifi set channel %d", &ch);
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ESP_LOGD(TAG, "Wifi set channel %d", ch);
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}
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}
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// IRQ handler
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// IRQ handler
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@ -28,6 +28,6 @@ typedef struct {
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void wifi_sniffer_init(void);
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void wifi_sniffer_init(void);
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void wifi_sniffer_packet_handler(void *buff, wifi_promiscuous_pkt_type_t type);
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void wifi_sniffer_packet_handler(void *buff, wifi_promiscuous_pkt_type_t type);
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void ChannelSwitchIRQ(void);
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void ChannelSwitchIRQ(void);
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void switchWifiChannel(uint8_t &ch);
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void switchWifiChannel(uint8_t volatile &ch);
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#endif
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#endif
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