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Prusa-Firmware-MMU
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First pass/WIP

pull/203/head
VintagePC 2022-09-13 08:47:27 -04:00
parent 860b91e42b
commit 973db11bec
6 changed files with 214 additions and 0 deletions
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5
src/hal/tmc2130.h
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@ -109,6 +109,11 @@ public:
gpio::TogglePin(params.stepPin); // assumes DEDGE
}
/// Set step to an explicit state
static inline void SetStep(const MotorParams &params, bool state) {
gpio::WritePin(params.stepPin, (state ? gpio::Level::high : gpio::Level::low));
}
/// Return SG state
static inline bool SampleDiag(const MotorParams &params) {
return gpio::ReadPin(params.sgPin) == gpio::Level::low;

1
src/logic/CMakeLists.txt
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@ -6,6 +6,7 @@ target_sources(
feed_to_bondtech.cpp
feed_to_finda.cpp
home.cpp
hw_sanity.cpp
load_filament.cpp
move_selector.cpp
no_command.cpp

7
src/logic/error_codes.h
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@ -70,6 +70,13 @@ enum class ErrorCode : uint_fast16_t {
/// - E34240 All 3 TMC driver
TMC_RESET = 0x8400,
/// TMC driver - IO pins are unreliable. While in theory it's recoverable, in practice it most likely
/// means your hardware is borked (we can't command the drivers reliably via STEP/EN/DIR due to electrical
/// issues or hardware fault. Possible "fixable" cause is undervoltage on the 5v logic line.
/// Unfixable possible cause: bad or cracked solder joints on the PCB, failed shift register, failed driver.
/// TODO: DRRacer - Separate codes per channel.
TMC_PINS_UNRELIABLE = 0x8600,
/// not enough current for the TMC, NOT RECOVERABLE
/// - E34880 Pulley TMC driver
/// - E34944 Selector TMC driver

143
src/logic/hw_sanity.cpp Normal file
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@ -0,0 +1,143 @@
/// @file hw_sanity.cpp
#include "hw_sanity.h"
#include "../modules/globals.h"
#include "../modules/motion.h"
#include "../modules/leds.h"
#include "../modules/timebase.h"
#include "config/axis.h"
namespace logic {
// Copy-pasta from command_base, they're inline
// so this shouldn't affect code size.
inline ErrorCode &operator|=(ErrorCode &a, ErrorCode b) {
return a = (ErrorCode)((uint16_t)a | (uint16_t)b);
}
using Axis = config::Axis;
using TMC2130 = hal::tmc2130::TMC2130;
static constexpr uint8_t LED_WAIT_MS = 50U;
static constexpr uint8_t TEST_PASSES = 6U;
static_assert(TEST_PASSES < 32); // Would overflow counters
HWSanity hwSanity;
uint8_t HWSanity::test_step = 0;
uint8_t HWSanity::fault_masks[] = { 0 };
uint16_t HWSanity::wait_start = 0;
Axis HWSanity::axis;
ProgressCode HWSanity::next_state = ProgressCode::HWTestBegin;
bool HWSanity::Reset(uint8_t param) {
state = ProgressCode::HWTestBegin;
error = ErrorCode::RUNNING;
axis = config::Axis::Idler;
fault_masks[0] = 0;
fault_masks[1] = 0;
fault_masks[2] = 0;
return true;
}
enum pin_bits {
BIT_STEP = 0b001,
BIT_DIR = 0b010,
BIT_ENA = 0b100,
};
bool HWSanity::StepInner() {
switch (state) {
case ProgressCode::HWTestBegin:
//auto& driver = mm::motion.DriverForAxis(config::Axis::Pulley);
test_step = 0;
// Todo - set TOFF so the output bridge is disabled.
state = ProgressCode::HWTestIdler;
break;
case ProgressCode::HWTestIdler:
axis = config::Axis::Idler;
ml::leds.SetPairButOffOthers(5, ml::on, ml::off);
state = ProgressCode::HWTestExec;
next_state = ProgressCode::HWTestSelector;
break;
case ProgressCode::HWTestSelector:
axis = config::Axis::Selector;
ml::leds.SetPairButOffOthers(5, ml::off, ml::on);
state = ProgressCode::HWTestExec;
next_state = ProgressCode::HWTestPulley;
break;
case ProgressCode::HWTestPulley:
axis = config::Axis::Pulley;
ml::leds.SetPairButOffOthers(5, ml::on, ml::on);
state = ProgressCode::HWTestExec;
next_state = ProgressCode::HWTestCleanup;
break;
// The main test loop for a given axis.
case ProgressCode::HWTestDisplay:
// Hold for a few ms while we display the last step result.
if (!mt::timebase.Elapsed(wait_start, LED_WAIT_MS)) {
break;
} else {
state = ProgressCode::HWTestExec;
}
/* FALLTHRU */
case ProgressCode::HWTestExec: {
auto driver = mm::motion.DriverForAxis(axis);
auto params = mm::axisParams[axis].params;
if (test_step < (TEST_PASSES * 8)) // 8 combos per axis
{
uint8_t set_state = test_step % 8;
// The order of the bits here is roughly the same as that of IOIN.
driver.SetStep(params, set_state & BIT_STEP);
driver.SetDir(params, set_state & BIT_DIR);
driver.SetEnabled(params, set_state & BIT_ENA);
uint16_t drv_ioin = driver.ReadRegister(params, TMC2130::Registers::IOIN);
// Compose IOIN to look like set_state.
drv_ioin = (drv_ioin & 0b11) | ((drv_ioin & 0b10000) >> 2);
uint8_t bit_errs = (drv_ioin ^ set_state);
// Set the LEDs. Note RED is index 0 in the enum, so we want the expression FALSE if there's an error.
ml::leds.SetMode(0, static_cast<ml::Color>((bit_errs & BIT_STEP) == 0), ml::on);
ml::leds.SetMode(1, static_cast<ml::Color>((bit_errs & BIT_DIR) == 0), ml::on);
ml::leds.SetMode(2, static_cast<ml::Color>((bit_errs & BIT_ENA) == 0), ml::on);
// Capture the error for later.
fault_masks[axis] |= bit_errs;
// Enter the wait state:
wait_start = mt::timebase.Millis();
state = ProgressCode::HWTestDisplay;
// Next iteration.
test_step++;
} else {
// This pass is complete. Move on to the next motor or cleanup.
test_step = 0;
state = next_state;
}
} break;
case ProgressCode::HWTestCleanup:
if (fault_masks[0] || fault_masks[1] || fault_masks[2]) {
// error, display it and return the code.
state = ProgressCode::ErrHwTestFailed;
error = ErrorCode::TMC_PINS_UNRELIABLE;
if (fault_masks[Axis::Idler]) {
error |= ErrorCode::TMC_IDLER_BIT;
}
if (fault_masks[Axis::Pulley]) {
error |= ErrorCode::TMC_PULLEY_BIT;
}
if (fault_masks[Axis::Selector]) {
error |= ErrorCode::TMC_SELECTOR_BIT;
}
return true;
} else {
//TODO: Re-enable TOFF here
FinishedOK();
}
case ProgressCode::OK:
return true;
default: // we got into an unhandled state, better report it
state = ProgressCode::ERRInternal;
error = ErrorCode::INTERNAL;
return true;
}
return false;
}
} // namespace logic

49
src/logic/hw_sanity.h Normal file
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@ -0,0 +1,49 @@
/// @file hw_sanity.h
#pragma once
#include <stdint.h>
#include "command_base.h"
#include "config/axis.h"
namespace logic {
/// @brief Performs a sanity check of the hardware at reset/boot. Checks the following:
/// - TMC drivers using their IOIN registers (DIR/STEP/DRV_EN)
/// - ...
/// - Profit!
class HWSanity : public CommandBase {
public:
inline HWSanity()
: CommandBase() {}
/// Restart the automaton
bool Reset(uint8_t param) override;
/// @returns true if the state machine finished its job, false otherwise.
/// LED indicators during the test execution:
/// Slots 1-3: Pin states for STEP, DIR, and ENA
/// Slot 4: Axis under test - G: Idler, R: Selector, RG: Pully.
/// Slot 5: G: Blinking to indicate test progression. R: Solid to indicate completed test w/ fault.
/// Indicators at test end (fault condition):
/// Slots 1-3 now indicate pin
/// - Off: No faults detected.
/// - G: STEP fault
/// - R: DIR fault
/// - RG: EN fault.
/// - Blinking R/G: Multiple fault, e.g both an EN fault together with STEP and/or DIR.
/// Slot 4: Reserved
/// Slot 5: R: Solid
bool StepInner() override;
private:
static uint8_t test_step;
static config::Axis axis;
static uint8_t fault_masks[3];
static ProgressCode next_state;
static uint16_t wait_start;
};
/// The one and only instance of hwSanity state machine in the FW
extern HWSanity hwSanity;
} // namespace logic

9
src/logic/progress_codes.h
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@ -41,5 +41,14 @@ enum class ProgressCode : uint_fast8_t {
FeedingToFSensor, // P28
HWTestBegin, // P29
HWTestIdler, // P30
HWTestSelector, // P31
HWTestPulley, // P32
HWTestCleanup, // P33
HWTestExec, // P34
HWTestDisplay, // P35
ErrHwTestFailed, // P36
Empty = 0xff // dummy empty state
};