mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-12-21 02:03:18 +00:00
247 lines
6.6 KiB
C++
247 lines
6.6 KiB
C++
#include "one_wire_master.h"
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#include "one_wire_timings.h"
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OneWireMaster::OneWireMaster(const GpioPin* one_wire_gpio) {
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gpio = one_wire_gpio;
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reset_search();
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}
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OneWireMaster::~OneWireMaster() {
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stop();
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}
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void OneWireMaster::start(void) {
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gpio_init(gpio, GpioModeOutputOpenDrain);
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}
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void OneWireMaster::stop(void) {
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gpio_init(gpio, GpioModeAnalog);
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}
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void OneWireMaster::reset_search() {
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// reset the search state
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last_discrepancy = 0;
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last_device_flag = false;
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last_family_discrepancy = 0;
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for(int i = 7;; i--) {
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saved_rom[i] = 0;
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if(i == 0) break;
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}
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}
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void OneWireMaster::target_search(uint8_t family_code) {
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// set the search state to find SearchFamily type devices
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saved_rom[0] = family_code;
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for(uint8_t i = 1; i < 8; i++) saved_rom[i] = 0;
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last_discrepancy = 64;
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last_family_discrepancy = 0;
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last_device_flag = false;
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}
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uint8_t OneWireMaster::search(uint8_t* newAddr, bool search_mode) {
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uint8_t id_bit_number;
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uint8_t last_zero, rom_byte_number, search_result;
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uint8_t id_bit, cmp_id_bit;
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unsigned char rom_byte_mask, search_direction;
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// initialize for search
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id_bit_number = 1;
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last_zero = 0;
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rom_byte_number = 0;
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rom_byte_mask = 1;
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search_result = 0;
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// if the last call was not the last one
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if(!last_device_flag) {
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// 1-Wire reset
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if(!reset()) {
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// reset the search
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last_discrepancy = 0;
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last_device_flag = false;
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last_family_discrepancy = 0;
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return false;
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}
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// issue the search command
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if(search_mode == true) {
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write(0xF0); // NORMAL SEARCH
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} else {
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write(0xEC); // CONDITIONAL SEARCH
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}
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// loop to do the search
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do {
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// read a bit and its complement
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id_bit = read_bit();
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cmp_id_bit = read_bit();
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// check for no devices on 1-wire
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if((id_bit == 1) && (cmp_id_bit == 1))
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break;
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else {
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// all devices coupled have 0 or 1
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if(id_bit != cmp_id_bit)
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search_direction = id_bit; // bit write value for search
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else {
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// if this discrepancy if before the Last Discrepancy
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// on a previous next then pick the same as last time
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if(id_bit_number < last_discrepancy)
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search_direction = ((saved_rom[rom_byte_number] & rom_byte_mask) > 0);
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else
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// if equal to last pick 1, if not then pick 0
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search_direction = (id_bit_number == last_discrepancy);
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// if 0 was picked then record its position in LastZero
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if(search_direction == 0) {
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last_zero = id_bit_number;
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// check for Last discrepancy in family
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if(last_zero < 9) last_family_discrepancy = last_zero;
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}
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}
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// set or clear the bit in the ROM byte rom_byte_number
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// with mask rom_byte_mask
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if(search_direction == 1)
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saved_rom[rom_byte_number] |= rom_byte_mask;
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else
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saved_rom[rom_byte_number] &= ~rom_byte_mask;
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// serial number search direction write bit
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write_bit(search_direction);
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// increment the byte counter id_bit_number
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// and shift the mask rom_byte_mask
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id_bit_number++;
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rom_byte_mask <<= 1;
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// if the mask is 0 then go to new SerialNum byte rom_byte_number and reset mask
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if(rom_byte_mask == 0) {
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rom_byte_number++;
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rom_byte_mask = 1;
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}
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}
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} while(rom_byte_number < 8); // loop until through all ROM bytes 0-7
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// if the search was successful then
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if(!(id_bit_number < 65)) {
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// search successful so set last_Discrepancy, last_device_flag, search_result
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last_discrepancy = last_zero;
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// check for last device
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if(last_discrepancy == 0) last_device_flag = true;
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search_result = true;
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}
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}
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// if no device found then reset counters so next 'search' will be like a first
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if(!search_result || !saved_rom[0]) {
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last_discrepancy = 0;
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last_device_flag = false;
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last_family_discrepancy = 0;
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search_result = false;
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} else {
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for(int i = 0; i < 8; i++) newAddr[i] = saved_rom[i];
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}
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return search_result;
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}
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bool OneWireMaster::reset(void) {
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uint8_t r;
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uint8_t retries = 125;
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// wait until the gpio is high
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gpio_write(gpio, true);
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do {
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if(--retries == 0) return 0;
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delay_us(2);
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} while(!gpio_read(gpio));
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// pre delay
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delay_us(OneWireTiming::RESET_DELAY_PRE);
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// drive low
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gpio_write(gpio, false);
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delay_us(OneWireTiming::RESET_DRIVE);
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// release
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gpio_write(gpio, true);
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delay_us(OneWireTiming::RESET_RELEASE);
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// read and post delay
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r = !gpio_read(gpio);
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delay_us(OneWireTiming::RESET_DELAY_POST);
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return r;
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}
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bool OneWireMaster::read_bit(void) {
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bool result;
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// drive low
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gpio_write(gpio, false);
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delay_us(OneWireTiming::READ_DRIVE);
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// release
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gpio_write(gpio, true);
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delay_us(OneWireTiming::READ_RELEASE);
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// read and post delay
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result = gpio_read(gpio);
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delay_us(OneWireTiming::READ_DELAY_POST);
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return result;
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}
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void OneWireMaster::write_bit(bool value) {
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if(value) {
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// drive low
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gpio_write(gpio, false);
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delay_us(OneWireTiming::WRITE_1_DRIVE);
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// release
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gpio_write(gpio, true);
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delay_us(OneWireTiming::WRITE_1_RELEASE);
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} else {
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// drive low
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gpio_write(gpio, false);
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delay_us(OneWireTiming::WRITE_0_DRIVE);
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// release
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gpio_write(gpio, true);
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delay_us(OneWireTiming::WRITE_0_RELEASE);
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}
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}
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uint8_t OneWireMaster::read(void) {
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uint8_t result = 0;
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for(uint8_t bitMask = 0x01; bitMask; bitMask <<= 1) {
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if(read_bit()) {
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result |= bitMask;
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}
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}
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return result;
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}
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void OneWireMaster::read_bytes(uint8_t* buffer, uint16_t count) {
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for(uint16_t i = 0; i < count; i++) {
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buffer[i] = read();
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}
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}
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void OneWireMaster::write(uint8_t value) {
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uint8_t bitMask;
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for(bitMask = 0x01; bitMask; bitMask <<= 1) {
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write_bit((bitMask & value) ? 1 : 0);
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}
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}
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void OneWireMaster::skip(void) {
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write(0xCC);
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}
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