172 lines
4.3 KiB
C++
Executable File
172 lines
4.3 KiB
C++
Executable File
#include <Arduino.h>
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#include <stdio.h>
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extern "C"
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{
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#include "ecat_slv.h"
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#include "utypes.h"
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};
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_Objects Obj;
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HardwareSerial Serial1(PA10, PA9);
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#include "MyEncoder.h"
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void indexPulseEncoderCB1(void);
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MyEncoder Encoder1(TIM2, PA2, indexPulseEncoderCB1);
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void indexPulseEncoderCB1(void)
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{
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Encoder1.indexPulse();
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}
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#if 0
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void indexPulseEncoderCB2(void);
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MyEncoder Encoder2(TIM3, PB6, indexPulseEncoderCB2);
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void indexPulseEncoderCB2(void)
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{
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Encoder2.indexPulse();
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}
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#endif
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#include "StepGen.h"
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void timerCallbackStep1(void);
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StepGen Step1(TIM1, 4, PA_11, PA12, timerCallbackStep1);
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void timerCallbackStep1(void)
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{
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Step1.timerCB();
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}
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void timerCallbackStep2(void);
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StepGen Step2(TIM8, 4, PC_9, PC10, timerCallbackStep2);
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void timerCallbackStep2(void)
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{
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Step2.timerCB();
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}
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void cb_set_outputs(void) // Master outputs gets here, slave inputs, first operation
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{
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Encoder1.setLatch(Obj.IndexLatchEnable);
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Encoder1.setScale(Obj.EncPosScale);
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Step1.reqPos(Obj.StepGenIn1.CommandedPosition);
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Step1.setScale(Obj.StepGenIn1.StepsPerMM);
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Step1.enable(Obj.Enable1);
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Step2.reqPos(Obj.StepGenIn2.CommandedPosition);
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Step2.setScale(Obj.StepGenIn2.StepsPerMM);
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Step2.enable(Obj.Enable1);
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}
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void handleStepper(void)
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{
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Step1.handleStepper();
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Step2.handleStepper();
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}
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void cb_get_inputs(void) // Set Master inputs, slave outputs, last operation
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{
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Obj.IndexStatus = Encoder1.indexHappened();
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Obj.EncPos = Encoder1.currentPos();
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Obj.EncFrequency = Encoder1.frequency(ESCvar.Time);
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Obj.IndexByte = Encoder1.getIndexState();
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Obj.StepGenOut1.ActualPosition = Step1.actPos();
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Obj.StepGenOut2.ActualPosition = Step2.actPos();
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Obj.DiffT = 10000 * Step1.reqPos(); // Debug
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}
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void ESC_interrupt_enable(uint32_t mask);
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void ESC_interrupt_disable(uint32_t mask);
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uint16_t dc_checker(void);
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void sync0Handler(void);
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static esc_cfg_t config =
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{
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.user_arg = NULL,
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.use_interrupt = 1,
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.watchdog_cnt = 150,
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.set_defaults_hook = NULL,
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.pre_state_change_hook = NULL,
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.post_state_change_hook = NULL,
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.application_hook = handleStepper,
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.safeoutput_override = NULL,
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.pre_object_download_hook = NULL,
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.post_object_download_hook = NULL,
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.rxpdo_override = NULL,
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.txpdo_override = NULL,
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.esc_hw_interrupt_enable = ESC_interrupt_enable,
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.esc_hw_interrupt_disable = ESC_interrupt_disable,
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.esc_hw_eep_handler = NULL,
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.esc_check_dc_handler = dc_checker,
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};
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volatile byte serveIRQ = 0;
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void setup(void)
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{
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Serial1.begin(115200);
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rcc_config(); // probably breaks some timers.
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ecat_slv_init(&config);
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}
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void loop(void)
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{
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ESCvar.PrevTime = ESCvar.Time;
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if (serveIRQ)
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{
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DIG_process(DIG_PROCESS_WD_FLAG | DIG_PROCESS_OUTPUTS_FLAG |
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DIG_PROCESS_APP_HOOK_FLAG | DIG_PROCESS_INPUTS_FLAG);
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serveIRQ = 0;
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}
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ecat_slv_poll();
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}
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void sync0Handler(void)
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{
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serveIRQ = 1;
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}
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void ESC_interrupt_enable(uint32_t mask)
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{
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// Enable interrupt for SYNC0 or SM2 or SM3
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// uint32_t user_int_mask = ESCREG_ALEVENT_DC_SYNC0 | ESCREG_ALEVENT_SM2 | ESCREG_ALEVENT_SM3;
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uint32_t user_int_mask = ESCREG_ALEVENT_SM2; // Only SM2
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if (mask & user_int_mask)
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{
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ESC_ALeventmaskwrite(ESC_ALeventmaskread() | (mask & user_int_mask));
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attachInterrupt(digitalPinToInterrupt(PC3), sync0Handler, RISING);
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// Set LAN9252 interrupt pin driver as push-pull active high
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uint32_t bits = 0x00000111;
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ESC_write(0x54, &bits, 4);
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// Enable LAN9252 interrupt
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bits = 0x00000001;
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ESC_write(0x5c, &bits, 4);
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}
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}
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void ESC_interrupt_disable(uint32_t mask)
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{
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// Enable interrupt for SYNC0 or SM2 or SM3
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// uint32_t user_int_mask = ESCREG_ALEVENT_DC_SYNC0 | ESCREG_ALEVENT_SM2 | ESCREG_ALEVENT_SM3;
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uint32_t user_int_mask = ESCREG_ALEVENT_SM2;
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if (mask & user_int_mask)
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{
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// Disable interrupt from SYNC0
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ESC_ALeventmaskwrite(ESC_ALeventmaskread() & ~(mask & user_int_mask));
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detachInterrupt(digitalPinToInterrupt(PC3));
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// Disable LAN9252 interrupt
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uint32_t bits = 0x00000000;
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ESC_write(0x5c, &bits, 4);
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}
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}
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extern "C" uint32_t ESC_SYNC0cycletime(void);
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// Setup of DC
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uint16_t dc_checker(void)
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{
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// Indicate we run DC
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ESCvar.dcsync = 1;
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StepGen::sync0CycleTime = ESC_SYNC0cycletime() / 1000;
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return 0;
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}
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