mirror of
https://github.com/DarkFlippers/unleashed-firmware
synced 2024-11-23 21:13:16 +00:00
1daef3d025
* rename old ibutton app to ibutton-test * more renames * updated onewire library compilation condition * add submenu_clean subroutine * add index for submenu callback * c++ guard for gui modules * add released ibutton app * fix the position of the submenu window if there are too few items * iButton app basis * negative icon position info * fix submenu_clean subroutine * add ibutton app to applications makefile * add onewire key read routine to read mode * rename mode to scene * rename files and folder (mode to scene) * rename ibutton view to view manager * rename get_view to get_view_manager * cpp guards * key read, store and notify features * syntax fix * make iButtonScene functions pure virtual * fix syntax * add text store, add new scene (crc error) * not a key scene * syntax fix * read success scene * app, switching to the previous scene with the number of scenes to be skipped * scene whith menu when key is readed * fix font height calculation, fix offsets * add key write scene * view_dispatcher_remove_view subroutine * generic pause/resume os methods * fix furi_assert usage * key store, worker * fix pointer comparsion * saved keys, saved key action scenes * key delete/confirm delete scenes and routines * use last input subsystem changes * fix syntax * fix new model usage in submenu * fix includes * use vibro pin * use stored key name if valid * emulate scene * random name generator * name and save readed key scenes, new icon * fix icon position * fix text scene exit * fix naming, fix text placement, new info scene * state-driven cyfral decoder * better cyfral decoder * better cyfral decoder * one wire: search command set * metakom decoder * more key types * add next scene to error scenes * universal key reader * use new key reader * syntax fix * warning fix * byte input module template * new thread and insomnia api usage * New element: slightly rounded frame * Use elements_slightly_rounded_frame in text input * Gui test app: byte input usage * Byte input module: data drawing and selection * Byte input: comment currently unused fns * remove volatile qualifier * base byte input realisation * App gui test: remove internal fns visibility * Byne input, final version * test install gcc-arm-none-eabi-10-2020-q4-major * test install gcc-arm-none-eabi-10-2020-q4-major * App iButton: byte input view managment * App iButton: add key manually scenes * App iButton: rename scenes, add popup timeout * App iButton: use new scenes, new fn for rollback to specific prevous scene. * App iButton: remove byte input view on app exit * App iButton: edit key scene * Module byte input: reduce swintch value to uint8_t * Module byte input: switch from switch-case to if, unfortunately we need compile-time constants to use with switch * Icons: new small arrows * Module byte input: new arrangement of elements * OneWire slave lib: fix deattach sequence * App iButton: pulse sequencer * App iButton: add more keys to store * App iButton: split key worker to separate read/write/emulate entitys * App iButton: use new read/emulate entities * fix callback pointer saving * App iButton: use KeyReader error enum instead of KeyWorker error list handling * App iButton: do not use insomnia fns in pulse sequencer * App iButton: use KeyReader error enum in read scene * OneWire slave lib: more READ ROM command variants, call callback only if positive result * GPIO resources: add external gpio * App SD/NFC: removed application * App iButton-test: update to new light api * App iButton: update to new light-api * Outdated apps: add api-light-usage * Gpio: update SD card CS pin settings * API-power: added fns to disable/enable external 3v3 dc-dc * API-gpio: separated SD card detect routines * Resources: removed sd cs pin * SD card: low level init now resets card power supply * App SD-filesystem: use new card detect fns * SD card: fix low level init headers * SD card: more realilable low level init, power reset, exit from command read cycle conditionally * App SD-filesystem: led notifiers, init cycling * SD card: backport to F4 * Api PWM: add c++ guards * App iButton: yellow blink in emulate scene, vibro on * App iButton: one wire keys command set * App iButton: successful write scene * App iButton: key writer * App iButton: syntax fix * App iButton: notify write success * App iButton: fix double scene change * SD card: handle eject in init sequence * SD card: api to set level on detect gpio * SPI: api to set state on bus pins * SD card: set low state on bus pins while power reset * File select: init * File select: fix input consuming * SD Card: fixed dir open api error * SD-card: replace strncpy by strlcpy. Fix buffer overflow error. * API HAL OS: replace CMP based ticks with ARR based one, hard reset lptimer on reconfiguration. * GUI: More stack size for (temporary, wee need to implement sd card api in separate thread) * GUI: File select module. * App iButton-test: remove obsolete app Co-authored-by: rusdacent <rusdacentx0x08@gmail.com> Co-authored-by: coreglitch <mail@s3f.ru> Co-authored-by: Aleksandr Kutuzov <alleteam@gmail.com>
313 lines
No EOL
8.3 KiB
C++
313 lines
No EOL
8.3 KiB
C++
#include "one_wire_slave.h"
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#include "callback-connector.h"
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#include "main.h"
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#include "one_wire_device.h"
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#define OWET OneWireEmulateTiming
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void OneWireSlave::start(void) {
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// add exti interrupt
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api_interrupt_add(exti_cb, InterruptTypeExternalInterrupt, this);
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// init gpio
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gpio_init(one_wire_pin_record, GpioModeInterruptRiseFall);
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pin_set_float();
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// init instructions per us count
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__instructions_per_us = (SystemCoreClock / 1000000.0f);
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}
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void OneWireSlave::stop(void) {
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// deinit gpio
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gpio_init_ex(one_wire_pin_record, GpioModeInput, GpioPullNo, GpioSpeedLow);
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// remove exti interrupt
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api_interrupt_remove(exti_cb, InterruptTypeExternalInterrupt);
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// deattach devices
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deattach();
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}
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OneWireSlave::OneWireSlave(const GpioPin* pin) {
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one_wire_pin_record = pin;
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exti_cb = cbc::obtain_connector(this, &OneWireSlave::exti_callback);
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}
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OneWireSlave::~OneWireSlave() {
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stop();
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}
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void OneWireSlave::attach(OneWireDevice* attached_device) {
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device = attached_device;
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device->attach(this);
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}
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void OneWireSlave::deattach(void) {
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if(device != nullptr) {
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device->deattach();
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}
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device = nullptr;
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}
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void OneWireSlave::set_result_callback(OneWireSlaveResultCallback result_cb, void* ctx) {
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this->result_cb = result_cb;
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this->result_cb_ctx = ctx;
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}
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void OneWireSlave::pin_set_float() {
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gpio_write(one_wire_pin_record, true);
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}
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void OneWireSlave::pin_set_low() {
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gpio_write(one_wire_pin_record, false);
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}
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void OneWireSlave::pin_init_interrupt_in_isr_ctx(void) {
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hal_gpio_init(one_wire_pin_record, GpioModeInterruptRiseFall, GpioPullNo, GpioSpeedLow);
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__HAL_GPIO_EXTI_CLEAR_IT(one_wire_pin_record->pin);
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}
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void OneWireSlave::pin_init_opendrain_in_isr_ctx(void) {
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hal_gpio_init(one_wire_pin_record, GpioModeOutputOpenDrain, GpioPullNo, GpioSpeedLow);
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__HAL_GPIO_EXTI_CLEAR_IT(one_wire_pin_record->pin);
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}
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OneWiteTimeType OneWireSlave::wait_while_gpio_is(OneWiteTimeType time, const bool pin_value) {
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uint32_t start = DWT->CYCCNT;
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uint32_t time_ticks = time * __instructions_per_us;
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uint32_t time_captured;
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do {
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time_captured = DWT->CYCCNT;
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if(gpio_read(one_wire_pin_record) != pin_value) {
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OneWiteTimeType remaining_time = time_ticks - (time_captured - start);
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remaining_time /= __instructions_per_us;
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return remaining_time;
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}
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} while((time_captured - start) < time_ticks);
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return 0;
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}
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bool OneWireSlave::show_presence(void) {
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// wait while master delay presence check
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wait_while_gpio_is(OWET::PRESENCE_TIMEOUT, true);
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// show presence
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pin_set_low();
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delay_us(OWET::PRESENCE_MIN);
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pin_set_float();
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// somebody also can show presence
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const OneWiteTimeType wait_low_time = OWET::PRESENCE_MAX - OWET::PRESENCE_MIN;
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// so we will wait
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if(wait_while_gpio_is(wait_low_time, false) == 0) {
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error = OneWireSlaveError::PRESENCE_LOW_ON_LINE;
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return false;
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}
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return true;
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}
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bool OneWireSlave::receive_bit(void) {
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// wait while bus is low
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OneWiteTimeType time = OWET::SLOT_MAX;
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time = wait_while_gpio_is(time, false);
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if(time == 0) {
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error = OneWireSlaveError::RESET_IN_PROGRESS;
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return false;
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}
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// wait while bus is high
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time = OWET::MSG_HIGH_TIMEOUT;
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time = wait_while_gpio_is(time, true);
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if(time == 0) {
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error = OneWireSlaveError::AWAIT_TIMESLOT_TIMEOUT_HIGH;
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return false;
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}
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// wait a time of zero
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time = OWET::READ_MIN;
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time = wait_while_gpio_is(time, false);
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return (time > 0);
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}
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bool OneWireSlave::send_bit(bool value) {
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const bool write_zero = !value;
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// wait while bus is low
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OneWiteTimeType time = OWET::SLOT_MAX;
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time = wait_while_gpio_is(time, false);
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if(time == 0) {
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error = OneWireSlaveError::RESET_IN_PROGRESS;
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return false;
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}
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// wait while bus is high
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time = OWET::MSG_HIGH_TIMEOUT;
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time = wait_while_gpio_is(time, true);
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if(time == 0) {
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error = OneWireSlaveError::AWAIT_TIMESLOT_TIMEOUT_HIGH;
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return false;
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}
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// choose write time
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if(write_zero) {
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pin_set_low();
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time = OWET::WRITE_ZERO;
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} else {
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time = OWET::READ_MAX;
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}
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// hold line for ZERO or ONE time
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delay_us(time);
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pin_set_float();
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return true;
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}
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bool OneWireSlave::send(const uint8_t* address, const uint8_t data_length) {
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uint8_t bytes_sent = 0;
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pin_set_float();
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// bytes loop
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for(; bytes_sent < data_length; ++bytes_sent) {
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const uint8_t data_byte = address[bytes_sent];
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// bit loop
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for(uint8_t bit_mask = 0x01; bit_mask != 0; bit_mask <<= 1) {
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if(!send_bit(static_cast<bool>(bit_mask & data_byte))) {
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// if we cannot send first bit
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if((bit_mask == 0x01) && (error == OneWireSlaveError::AWAIT_TIMESLOT_TIMEOUT_HIGH))
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error = OneWireSlaveError::FIRST_BIT_OF_BYTE_TIMEOUT;
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return false;
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}
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}
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}
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return true;
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}
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bool OneWireSlave::receive(uint8_t* data, const uint8_t data_length) {
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uint8_t bytes_received = 0;
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pin_set_float();
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for(; bytes_received < data_length; ++bytes_received) {
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uint8_t value = 0;
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for(uint8_t bit_mask = 0x01; bit_mask != 0; bit_mask <<= 1) {
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if(receive_bit()) value |= bit_mask;
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}
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data[bytes_received] = value;
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}
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return (bytes_received != data_length);
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}
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void OneWireSlave::cmd_search_rom(void) {
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const uint8_t key_bytes = 8;
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uint8_t* key = device->id_storage;
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for(uint8_t i = 0; i < key_bytes; i++) {
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uint8_t key_byte = key[i];
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for(uint8_t j = 0; j < 8; j++) {
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bool bit = (key_byte >> j) & 0x01;
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if(!send_bit(bit)) return;
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if(!send_bit(!bit)) return;
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receive_bit();
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if(error != OneWireSlaveError::NO_ERROR) return;
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}
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}
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}
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bool OneWireSlave::receive_and_process_cmd(void) {
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uint8_t cmd;
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receive(&cmd, 1);
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if(error == OneWireSlaveError::RESET_IN_PROGRESS) return true;
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if(error != OneWireSlaveError::NO_ERROR) return false;
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switch(cmd) {
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case 0xF0:
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// SEARCH ROM
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cmd_search_rom();
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return true;
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case 0x0F:
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case 0x33:
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// READ ROM
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device->send_id();
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return true;
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default: // Unknown command
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error = OneWireSlaveError::INCORRECT_ONEWIRE_CMD;
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}
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if(error == OneWireSlaveError::RESET_IN_PROGRESS) return true;
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return (error == OneWireSlaveError::NO_ERROR);
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}
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bool OneWireSlave::bus_start(void) {
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bool result = true;
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if(device == nullptr) {
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result = false;
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} else {
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__disable_irq();
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pin_init_opendrain_in_isr_ctx();
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error = OneWireSlaveError::NO_ERROR;
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if(show_presence()) {
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// TODO think about multiple command cycles
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receive_and_process_cmd();
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result =
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(error == OneWireSlaveError::NO_ERROR ||
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error == OneWireSlaveError::INCORRECT_ONEWIRE_CMD);
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} else {
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result = false;
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}
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pin_init_interrupt_in_isr_ctx();
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__enable_irq();
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}
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return result;
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}
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void OneWireSlave::exti_callback(void* _pin, void* _ctx) {
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// interrupt manager get us pin constant, so...
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uint32_t pin = (uint32_t)_pin;
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OneWireSlave* _this = static_cast<OneWireSlave*>(_ctx);
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if(pin == _this->one_wire_pin_record->pin) {
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volatile bool input_state = gpio_read(_this->one_wire_pin_record);
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static uint32_t pulse_start = 0;
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if(input_state) {
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uint32_t pulse_length = (DWT->CYCCNT - pulse_start) / __instructions_per_us;
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if(pulse_length >= OWET::RESET_MIN) {
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if(pulse_length <= OWET::RESET_MAX) {
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// reset cycle ok
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bool result = _this->bus_start();
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if(result && _this->result_cb != nullptr) {
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_this->result_cb(result, _this->result_cb_ctx);
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}
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} else {
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error = OneWireSlaveError::VERY_LONG_RESET;
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}
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} else {
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error = OneWireSlaveError::VERY_SHORT_RESET;
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}
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} else {
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//FALL event
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pulse_start = DWT->CYCCNT;
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}
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}
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} |