/** 
 * \brief This function displays information using LEDs about the SHA204 devices 
 *        on the Security Xplained board.
 * \param[in] device_present_mask The high nibble represents the four SHA204 devices.
 * \param[in] sha204_revision revision of the SHA204 devices
 */
void display_status(uint8_t device_present_mask, uint8_t sha204_revision)
{
	uint8_t i;
	uint8_t shifter = 1;

	// Find out how many devices are present.
	for (i = 0; shifter < 0x10; shifter <<= 1)
		if (shifter & device_present_mask)
			i++;

	if (i < SHA204_DEVICE_COUNT) {
		// Indicate communication failure.
		// Display the devices found using LED4..7 and error using LED0..3.
		uint8_t i;
		for (i = 0; i < 4; i++) {
			led_display_number(~device_present_mask);
			sha204h_delay_ms(125);
			led_display_number(0);
			sha204h_delay_ms(125);
		}
	}
	else {
		// Indicate success.
		// Display the devices found using LED4..7 and revision of last device using LED0..3.
		led_display_number((device_present_mask << 4) | sha204_revision);
		sha204h_delay_ms(1000);
		led_display_number(0);
		sha204h_delay_ms(1000);
	}	  
}
예제 #2
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/** \brief This function is the entry function for an example application that
           uses the SHA204 ASF component.
 * \return result (0: success, otherwise failure)
 */
int main(void)
{
	static uint8_t tx_buffer_command[CHECKMAC_COUNT]; // biggest command in this example
	static uint8_t rx_buffer[SHA204_RSP_SIZE_MAX];
	static uint8_t challenge[MAC_CHALLENGE_SIZE];
	static uint8_t other_data[CHECKMAC_OTHER_DATA_SIZE];
	uint8_t sha204_lib_return = SHA204_SUCCESS;
	uint32_t loop_count = 0;
	uint8_t i2c_address_index = 0;
	uint8_t twi_address_client;
	uint8_t twi_address_host;

    // Initialize system clock.
	sysclk_init();

	// Initialize board.
	board_init();

	// Initialize logging (USART).
	log_init();

	// Initialize interrupt vectors.
	irq_initialize_vectors();

	// Send example info.
	log_sha204_title("ATSHA204 Mac / CheckMac Example\r\n");

	// Indicate entering main loop.
	led_display_number(0xFF);
	sha204h_delay_ms(1000);

	// The main loop wakes up all four devices, sends a Mac command to one serving
	// as a client, and subsequently a CheckMac command with the Mac challenge and response data
	// to another SHA204 serving as a host. At the end of the loop, all four devices
	// are put back to sleep by sending a Sleep command to every one of them.
	while (true) {
		// Indicate success or error for some time.
		led_display_number(sha204_lib_return);
		sha204h_delay_ms(1000);

		log_sha204_title("----------------------");
		sprintf((char *) tx_buffer_command, "loop count = %lu", loop_count++);
		log_sha204_title((char *) tx_buffer_command);

		// Indicate that Mac / CheckMac command sequence is running.
		led_display_number(0xFF);

		// Generate Wakeup pulse. All SHA204 devices that share SDA will wake up.
		log_sha204_title("generating 60 us Wakeup low pulse on TWI SDA");
		sha204_lib_return = sha204p_wakeup();
	    if (sha204_lib_return != SHA204_SUCCESS) {
			// todo Indicate Wakeup failure.
			continue;		 
	    }
		// Exercise all four devices.
		twi_address_client = sha204_i2c_address(i2c_address_index % 4);
		i2c_address_index++;
		twi_address_host = sha204_i2c_address(i2c_address_index % 4);
		i2c_address_index++;

		// ---------------------------------------------------------------------------------
		// Now let's send a Mac to one SHA204, and verify the generated Mac with a second
		// SHA204 serving as a host device. In this example, we are not using the Nonce
		// command but the least secure and simplest mode.

		// Let host generate a random number to use as Mac challenge. An unlocked SHA204
		// will always generate "FFFF0000FFFF0000...".
		struct sha204_random_parameters random;
		random.mode = 0;
		random.tx_buffer = tx_buffer_command;
		random.rx_buffer = rx_buffer;
		sha204p_set_device_id(twi_address_host);
		log_sha204_title("sending Random command to host");
		sha204_lib_return = sha204m_random(&random);
		log_sha204(random.tx_buffer[SHA204_COUNT_IDX], random.tx_buffer, false);
	    if (sha204_lib_return != SHA204_SUCCESS) {
			sha204_sleep_all();
			continue;
	    }
		log_sha204(random.rx_buffer[SHA204_COUNT_IDX], random.rx_buffer, true);

		// Save challenge for subsequent CheckMac command.
		memcpy(challenge, &random.rx_buffer[SHA204_BUFFER_POS_DATA], sizeof(challenge));

		// Send Mac command to client.
		struct sha204_mac_parameters mac;
		mac.mode = 0;
		mac.key_id = 0;
		mac.challenge = challenge;
		mac.tx_buffer = tx_buffer_command;
		mac.rx_buffer = rx_buffer;
		sha204p_set_device_id(twi_address_client);
		log_sha204_title("sending Mac command to client");
		sha204_lib_return = sha204m_mac(&mac);
		log_sha204(mac.tx_buffer[SHA204_COUNT_IDX], mac.tx_buffer, false);
	    if (sha204_lib_return != SHA204_SUCCESS) {
			sha204_sleep_all();
			continue;
	    }
		log_sha204(mac.rx_buffer[SHA204_COUNT_IDX], mac.rx_buffer, true);

		// Save first four bytes of Mac command for subsequent CheckMac command.
		memset(other_data, 0, CHECKMAC_OTHER_DATA_SIZE);
		memcpy(other_data, &tx_buffer_command[SHA204_OPCODE_IDX], CHECKMAC_CLIENT_COMMAND_SIZE);

		// Send CheckMac command to host.
		struct sha204_check_mac_parameters check_mac;
		check_mac.mode = 0;
		check_mac.key_id = 0;
		check_mac.client_challenge = challenge;
		check_mac.client_response = &rx_buffer[SHA204_BUFFER_POS_DATA];
		check_mac.other_data = other_data;
		check_mac.tx_buffer = tx_buffer_command;
		check_mac.rx_buffer = rx_buffer;
		sha204p_set_device_id(twi_address_host);
		log_sha204_title("sending CheckMac command to host");
		sha204_lib_return = sha204m_check_mac(&check_mac);
		log_sha204(check_mac.tx_buffer[SHA204_COUNT_IDX], check_mac.tx_buffer, false);
	    if (sha204_lib_return != SHA204_SUCCESS) {
			sha204_sleep_all();
			continue;
	    }
		log_sha204(check_mac.rx_buffer[SHA204_COUNT_IDX], check_mac.rx_buffer, true);

		log_sha204_title("sending a Sleep command to all devices");
		sha204_sleep_all();
		
		// Display response status byte.
		sha204_lib_return = check_mac.rx_buffer[SHA204_BUFFER_POS_STATUS];
	}	

	return sha204_lib_return;
}