Merge pull request #203 from prusa3d/vintagepc-check-hardware

Add module to check for sketchy electronics
2022-09-22 12:17:04 -04:00 · 2022-09-22 12:17:04 -04:00 · 9c7701c123
parent 1007402b24 c5a5304775
commit 9c7701c123
10 changed files with 307 additions and 8 deletions
--- a/src/application.cpp
+++ b/src/application.cpp
@ -13,6 +13,7 @@
 #include "logic/cut_filament.h"
 #include "logic/eject_filament.h"
 #include "logic/home.h"
 #include "logic/hw_sanity.h"
 #include "logic/load_filament.h"
 #include "logic/move_selector.h"
 #include "logic/no_command.h"
--- a/src/hal/tmc2130.cpp
+++ b/src/hal/tmc2130.cpp
@ -6,6 +6,8 @@
 namespace hal {
 namespace tmc2130 {
 static constexpr uint8_t TOFF_DEFAULT = 3U, TOFF_MASK = 0xFU;
 bool TMC2130::Init(const MotorParams &params, const MotorCurrents &currents, MotorMode mode) {
    // sg_filter_threshold = (1 << (8 - params.mRes));
    sg_filter_threshold = 2;
@ -26,7 +28,7 @@ bool TMC2130::Init(const MotorParams &params, const MotorCurrents &currents, Mot
    errorFlags.reset_flag = false;
    ///apply chopper parameters
-    const uint32_t chopconf = (uint32_t)(3U & 0x0FU) << 0U //toff
+    const uint32_t chopconf = (uint32_t)(TOFF_DEFAULT & TOFF_MASK) << 0U //toff
        | (uint32_t)(5U & 0x07U) << 4U //hstrt
        | (uint32_t)(1U & 0x0FU) << 7U //hend
        | (uint32_t)(2U & 0x03U) << 15U //tbl
@ -71,6 +73,15 @@ void TMC2130::SetMode(const MotorParams &params, MotorMode mode) {
    WriteRegister(params, Registers::TPWMTHRS, (mode == Stealth) ? 70 : 0xFFFF0); // @@TODO should be configurable
 }
 void TMC2130::SetBridgeOutput(const MotorParams &params, bool bOn) {
    uint32_t chopconf = ReadRegister(params, Registers::CHOPCONF);
    chopconf &= ~((uint32_t)TOFF_MASK);
    if (bOn) {
        chopconf |= TOFF_DEFAULT;
    }
    WriteRegister(params, Registers::CHOPCONF, chopconf);
 }
 void TMC2130::SetCurrents(const MotorParams &params, const MotorCurrents &currents) {
    uint32_t ihold_irun = (uint32_t)(currents.iHold & 0x1F) << 0 //ihold
        | (uint32_t)(currents.iRun & 0x1F) << 8 //irun
--- a/src/hal/tmc2130.h
+++ b/src/hal/tmc2130.h
@ -89,6 +89,9 @@ public:
    /// Set the current motor mode
    void SetMode(const MotorParams &params, MotorMode mode);
    /// Disables the output by setting or clearing CHOPCONF's TOFF.
    void SetBridgeOutput(const MotorParams &params, bool on);
    /// Set the current motor currents
    void SetCurrents(const MotorParams &params, const MotorCurrents &currents);
@ -111,11 +114,22 @@ public:
        hal::shr16::shr16.SetTMCDir(params.idx, dir ^ params.dirOn);
    }
    /// Set direction, raw value (i.e. ignore Params).
    static inline void SetRawDir(const MotorParams &params, bool dir) {
        // Also cancels the inversion in SetTMCDir
        hal::shr16::shr16.SetTMCDir(params.idx, !dir);
    }
    /// Step the motor
    static inline void Step(const MotorParams &params) {
        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;
--- a/src/logic/CMakeLists.txt
+++ b/src/logic/CMakeLists.txt
@ -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
--- a/src/logic/error_codes.h
+++ b/src/logic/error_codes.h
@ -100,5 +100,12 @@ enum class ErrorCode : uint_fast16_t {
    /// - E49280 Selector TMC driver
    /// - E49408 Idler TMC driver
    /// - E49600 All 3 TMC driver
-    TMC_OVER_TEMPERATURE_ERROR = 0xC000
+    TMC_OVER_TEMPERATURE_ERROR = 0xC000,
    /// 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.
    MMU_SOLDERING_NEEDS_ATTENTION = 0xC200,
 };
--- a/src/logic/hw_sanity.cpp
+++ b/src/logic/hw_sanity.cpp
@ -0,0 +1,175 @@
 /// @file hw_sanity.cpp
 #include "hw_sanity.h"
 #include "../modules/globals.h"
 #include "../modules/motion.h"
 #include "../modules/leds.h"
 #include "../modules/timebase.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 = 3U;
 static_assert(TEST_PASSES < 32); // Would overflow counters
 HWSanity hwSanity;
 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,
 };
 void HWSanity::SetFaultDisplay(uint8_t slot, uint8_t mask) {
    ml::Mode red_mode = ml::off, green_mode = ml::off;
    if (mask & BIT_STEP) {
        green_mode = ml::on;
    }
    if (mask & BIT_DIR) {
        red_mode = ml::on;
    }
    if (mask & BIT_ENA) {
        green_mode = green_mode ? ml::blink0 : ml::on;
        red_mode = red_mode ? ml::blink0 : ml::on;
    }
    ml::leds.SetMode(slot, ml::green, green_mode);
    ml::leds.SetMode(slot, ml::red, red_mode);
 }
 void HWSanity::PrepareAxis(config::Axis axis) {
    mm::motion.InitAxis(axis);
    mm::motion.SetMode(axis, mm::Normal);
    // Clear TOFF so the motors don't actually step during the test.
    mm::motion.MMU_NEEDS_ATTENTION_DriverForAxis(axis).SetBridgeOutput(mm::axisParams[axis].params, false);
 }
 bool HWSanity::StepInner() {
    switch (state) {
    case ProgressCode::HWTestBegin:
        error = ErrorCode::RUNNING;
        test_step = 0;
        state = ProgressCode::HWTestIdler;
        break;
    case ProgressCode::HWTestIdler:
        axis = config::Axis::Idler;
        ml::leds.SetPairButOffOthers(3, ml::on, ml::off);
        state = ProgressCode::HWTestExec;
        next_state = ProgressCode::HWTestSelector;
        PrepareAxis(axis);
        break;
    case ProgressCode::HWTestSelector:
        axis = config::Axis::Selector;
        ml::leds.SetPairButOffOthers(3, ml::off, ml::on);
        state = ProgressCode::HWTestExec;
        next_state = ProgressCode::HWTestPulley;
        PrepareAxis(axis);
        break;
    case ProgressCode::HWTestPulley:
        axis = config::Axis::Pulley;
        ml::leds.SetPairButOffOthers(3, ml::on, ml::on);
        state = ProgressCode::HWTestExec;
        next_state = ProgressCode::HWTestCleanup;
        PrepareAxis(axis);
        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;
            // display done, reset LEDs.
            for (uint8_t i = 0; i < 6; i++) {
                ml::leds.SetMode(i, ml::off);
            }
        }
        [[fallthrough]];
    case ProgressCode::HWTestExec: {
        auto params = mm::axisParams[axis].params;
        auto &driver = mm::motion.MMU_NEEDS_ATTENTION_DriverForAxis(axis);
        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.SetRawDir(params, set_state & BIT_DIR);
            driver.SetStep(params, set_state & BIT_STEP);
            driver.SetEnabled(params, set_state & BIT_ENA);
            uint32_t drv_ioin = driver.ReadRegister(params, hal::tmc2130::TMC2130::Registers::IOIN);
            // Compose IOIN to look like set_state.
            drv_ioin = (drv_ioin & 0b11) | ((drv_ioin & 0b10000) ? 0 : 4); // Note the logic inversion for ENA readback!
            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();
            das_blinken_state = das_blinken_state ? ml::off : ml::on;
            ml::leds.SetMode(4, ml::green, das_blinken_state);
            state = ProgressCode::HWTestDisplay;
            // Next iteration.
            test_step++;
        } else {
            // This pass is complete. Move on to the next motor or cleanup.
            driver.SetBridgeOutput(params, true);
            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::MMU_SOLDERING_NEEDS_ATTENTION;
            uint8_t mask = fault_masks[Axis::Idler];
            if (mask) {
                SetFaultDisplay(0, mask);
            }
            mask = fault_masks[Axis::Pulley];
            if (mask) {
                SetFaultDisplay(2, mask);
            }
            mask = fault_masks[Axis::Selector];
            if (mask) {
                SetFaultDisplay(1, mask);
            }
            ml::leds.SetMode(3, ml::red, ml::off);
            ml::leds.SetMode(3, ml::green, ml::off);
            ml::leds.SetMode(4, ml::red, ml::on);
            ml::leds.SetMode(4, ml::green, ml::off);
            return true;
        } else {
            ml::leds.SetPairButOffOthers(0, ml::off, ml::off);
            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
--- a/src/logic/hw_sanity.h
+++ b/src/logic/hw_sanity.h
@ -0,0 +1,57 @@
 /// @file hw_sanity.h
 #pragma once
 #include <stdint.h>
 #include "command_base.h"
 #include "../config/axis.h"
 #include "../modules/leds.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 - G:  Set value matches readback, R: Readback disagrees.
    /// 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 pins for Idler/Selector/Pulley, respectively:
    /// - 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:
    // Shared code fault display setup for each axis/slot
    static void SetFaultDisplay(uint8_t slot, uint8_t mask);
    // Prepares an axis for testing by initializing it and turning off the output.
    static void PrepareAxis(config::Axis axis);
    uint8_t test_step = 0;
    config::Axis axis;
    uint8_t fault_masks[3] = { 0 };
    ProgressCode next_state = ProgressCode::HWTestBegin;
    uint16_t wait_start = 0;
    ml::Mode das_blinken_state = ml::off;
 };
 /// The one and only instance of hwSanity state machine in the FW
 extern HWSanity hwSanity;
 } // namespace logic
--- a/src/logic/progress_codes.h
+++ b/src/logic/progress_codes.h
@ -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
 };
--- a/src/main.cpp
+++ b/src/main.cpp
@ -27,6 +27,7 @@
 #include "application.h"
 #include "logic/hw_sanity.h"
 #include "logic/no_command.h"
 /// One-time setup of HW and SW components
@ -112,6 +113,19 @@ static void setup2() {
    }
    ml::leds.Step();
    // Prep hardware sanity:
    logic::hwSanity.Reset(0);
    while (!logic::hwSanity.StepInner()) {
        ml::leds.Step();
    }
    if (logic::hwSanity.Error() != ErrorCode::OK) {
        // forward the issue to the logic startup handler.
        logic::noCommand.SetInitError(logic::hwSanity.Error());
        return;
    }
    // Idler and Selector decide whether homing is possible/safe
    mi::idler.Init();
    ms::selector.Init();
@ -141,14 +155,17 @@ void Panic(ErrorCode ec) {
 /// The idea behind the Step* routines is to keep each automaton non-blocking allowing for some “concurrency”.
 /// Some FW components will leverage ISR to do their stuff (UART, motor stepping?, etc.)
 void loop() {
    mb::buttons.Step();
    ml::leds.Step();
    if (logic::hwSanity.Error() == ErrorCode::OK) {
        mf::finda.Step();
        mfs::fsensor.Step();
        mi::idler.Step();
        ms::selector.Step();
        mpu::pulley.Step();
        mui::userInput.Step();
    }
    hal::cpu::Step();
    mu::cdc.Step();
--- a/src/modules/motion.h
+++ b/src/modules/motion.h
@ -344,6 +344,13 @@ public:
        return axisData[axis].drv;
    }
    /// @returns the (non-const) TMC2130 driver associated with the particular axis.
    /// Do not use unless you know exactly what you're doing, (i.e., nothing else can possibly be using
    /// the axis. Currently the only valid usage is in the hw sanity module.
    inline hal::tmc2130::TMC2130 &MMU_NEEDS_ATTENTION_DriverForAxis(Axis axis) {
        return axisData[axis].drv;
    }
    /// @returns the controller associated with the particular axis
    inline const pulse_gen::PulseGen &CtrlForAxis(Axis axis) const {
        return axisData[axis].ctrl;