ADD my candidate applications

ADD library update-client
ADD pre-commit config
2025-01-04 15:32:00 +01:00 · 2025-01-04 15:31:25 +01:00 · 2025-01-04 15:14:28 +01:00 · 2024-12-31 12:02:40 +01:00 · 2024-12-31 11:54:14 +01:00
39 changed files with 343 additions and 1551 deletions
--- a/.gitignore
+++ b/.gitignore
@@ -4,5 +4,6 @@ projectfiles
 *.py*
 BUILD
 mbed-os
-DISCO_H747I
+DISCO_h747i
 advdembsof_library
 update-client
--- a/.pre-commit-config.yaml
+++ b/.pre-commit-config.yaml
@@ -1,4 +1,4 @@
-files: ^main.cpp|^static_scheduling|^static_scheduling_with_event|^TESTS|^multi_tasking|^common
+files: ^main.cpp|^static_scheduling|^static_scheduling_with_event|^TESTS
 repos:
  - repo: https://github.com/pre-commit/pre-commit-hooks
    rev: v4.3.0
--- a/CONTRIBUTING.md
+++ b/CONTRIBUTING.md
@@ -1,5 +0,0 @@
 # Contributing to Mbed OS
 Mbed OS is an open-source, device software platform for the Internet of Things. Contributions are an important part of the platform, and our goal is to make it as simple as possible to become a contributor.
 To encourage productive collaboration, as well as robust, consistent and maintainable code, we have a set of guidelines for [contributing to Mbed OS](https://os.mbed.com/docs/mbed-os/latest/contributing/index.html).
--- a/165
+++ b/165
@@ -1,165 +0,0 @@
 Apache License
 Version 2.0, January 2004
 http://www.apache.org/licenses/
 TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION
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--- a/README.md
+++ b/README.md
@@ -27,7 +27,6 @@ mbed test -m DISCO_H747I -t GCC_ARM -n advdembsof_library-tests-sensors-hdc1000
 On `.mbedignore` put at the end of the file
 ```
 static_scheduling_with_event/*
 multi_tasking/*
 ```
 On main.cpp include `"static_scheduling/bike_system.hpp"` and use : 
@@ -40,7 +39,6 @@ bikeSystem.start();
 On `.mbedignore` put at the end of the file : 
 ```
 static_scheduling_with_event/*
 multi_tasking/*
 ```
 On main.cpp include `"static_scheduling/bike_system.hpp"` and use : 
@@ -53,20 +51,6 @@ bikeSystem.startWithEventQueue();
 On `.mbedignore` put at the end of the file
 ```
 static_scheduling/*
 static_scheduling_with_event/*
 ```
 On main.cpp include `"multi_tasking/bike_system.hpp"` and use :
 ```cpp
 multi_tasking::BikeSystem bikeSystem;
 bikeSystem.start();
 ```
 ## Run multi-tasking
 On `.mbedignore` put at the end of the file
 ```
 static_scheduling/*
 multi_tasking/*
 ```
 On main.cpp include `"static_scheduling_with_event/bike_system.hpp"` and use : 
@@ -100,21 +84,6 @@ We observe a light usage of 1% of CPU. The CPU is now sleeping all the time and
 We notice, that we miss such less event when is event driven (or not at all). But with a static scheduling the response time is still long because the reset task is call with a certain period.
 # Multi-tasking
 ## Question 1
 We have computed the elapsed time between the event is sent by the interruption until it is executed :
 |Rtos priority            |time   |
 |---|---|
 |osPriorityBelowNormal    |13 usecs   |
 |osPriorityNormal         |13 usecs   |
 |osPriorityAboveNormal    |13 usecs   |
 To abtain these values, we have to consider that there is a isr thread. He dispatchs all the events from the gear device and the reset device. The rest is processed by the main thread.
 Main of the time, it meares these values. But sometimes, higher values can appear. These values doesn't change because there isn't often more than one event in the queue.
 # Issues
 When compile with GCC, the full loop of static scheduling is 2 to 3 ms faster than expected.
 This problem doesn't occur if we compile with ARMC6.
--- a/TESTS/bike-computer/bike-system/main.cpp
+++ b/TESTS/bike-computer/bike-system/main.cpp
@@ -23,23 +23,15 @@
 ***************************************************************************/
 #include <chrono>
 #include <cstdint>
 #include "gear_device.hpp"
 #include "greentea-client/test_env.h"
 #include "mbed.h"
 #include "mbed_trace.h"  // NOLINT
 #include "multi_tasking/bike_system.hpp"
 #include "static_scheduling/bike_system.hpp"
 #include "static_scheduling_with_event/bike_system.hpp"
 #include "task_logger.hpp"
 #include "unity/unity.h"
 #include "utest/utest.h"
 #if defined(MBED_CONF_MBED_TRACE_ENABLE)
 #define TRACE_GROUP "TEST_BIKE_SYSTEM"
 #endif  // MBED_CONF_MBED_TRACE_ENAB
 namespace utest {
 namespace v1 {
@@ -148,235 +140,6 @@ static void test_bike_system_with_event() {
    }
 }
 // test_multi_tasking_bike_system handler function
 static void test_multi_tasking_bike_system() {
    tr_info("test multi tasking bike system");
    // create the BikeSystem instance
    multi_tasking::BikeSystem bikeSystem;
    // run the bike system in a separate thread
    Thread thread;
    osStatus status =
        thread.start(callback(&bikeSystem, &multi_tasking::BikeSystem::start));
    if (status != osOK) {
        tr_error("Thread bike system is not OK !");
    }
    tr_info("bike system has started");
    // let the bike system run for 20 secs
    ThisThread::sleep_for(20s);
    // check whether scheduling was correct
    // Order is kGearTaskIndex, kSpeedTaskIndex, kTemperatureTaskIndex,
    //          kResetTaskIndex, kDisplayTask1Index, kDisplayTask2Index
    // When we use event handling, we do not check the computation time
    constexpr std::chrono::microseconds taskPeriods[] = {
        800000us, 400000us, 1600000us, 800000us, 1600000us, 1600000us};
    // allow for 2 msecs offset (with EventQueue)
    constexpr uint64_t kDeltaUs = 2000;
    // stop the bike system
    bikeSystem.stop();
    thread.terminate();
    tr_info("Threads have stopped");
    TEST_ASSERT_UINT64_WITHIN(
        kDeltaUs,
        taskPeriods[advembsof::TaskLogger::kTemperatureTaskIndex].count(),
        bikeSystem.getTaskLogger()
            .getPeriod(advembsof::TaskLogger::kTemperatureTaskIndex)
            .count());
    TEST_ASSERT_UINT64_WITHIN(
        kDeltaUs,
        taskPeriods[advembsof::TaskLogger::kDisplayTask1Index].count(),
        bikeSystem.getTaskLogger()
            .getPeriod(advembsof::TaskLogger::kDisplayTask1Index)
            .count());
 }
 // test_reset_multi_tasking_bike_system handler function
 Timer timer;
 static std::chrono::microseconds resetTime = std::chrono::microseconds::zero();
 static EventFlags eventFlags;
 static constexpr uint32_t kResetEventFlag = (1UL << 0);
 static void resetCallback() {
    resetTime = timer.elapsed_time();
    eventFlags.set(kResetEventFlag);
 }
 static void test_reset_multi_tasking_bike_system() {
    tr_info("test reset multi tasking bike system");
    // create the BikeSystem instance
    multi_tasking::BikeSystem bikeSystem;
    // run the bike system in a separate thread
    Thread thread;
    osStatus status =
        thread.start(callback(&bikeSystem, &multi_tasking::BikeSystem::start));
    if (status != osOK) {
        tr_error("Thread bike system is not OK !");
    }
    tr_info("Bike system has started");
    // let the bike system run for 2 secs
    ThisThread::sleep_for(2s);
    // test reset on BikeSystem
    bikeSystem.getSpeedometer().setOnResetCallback(resetCallback);
    // start the timer instance
    timer.start();
    // check for reset response time
    constexpr uint8_t kNbrOfResets             = 10;
    std::chrono::microseconds lastResponseTime = std::chrono::microseconds::zero();
    for (uint8_t i = 0; i < kNbrOfResets; i++) {
        tr_info("Reset test N°%d", i);
        // take time before reset
        auto startTime = timer.elapsed_time();
        // reset the BikeSystem
        bikeSystem.onReset();
        // wait for resetCallback to be called
        eventFlags.wait_all(kResetEventFlag);
        // get the response time and check it
        auto responseTime = resetTime - startTime;
        // cppcheck generates an internal error with 20us
        constexpr std::chrono::microseconds kMaxExpectedResponseTime(20);
        tr_info("Reset task: response time is %lld usecs\n, expected : %lld",
                responseTime.count(),
                kMaxExpectedResponseTime.count());
        TEST_ASSERT_TRUE(responseTime.count() <= kMaxExpectedResponseTime.count());
        // jitter of 20us is accepted
        constexpr uint64_t kDeltaUs = 4;
        constexpr std::chrono::microseconds kMaxExpectedJitter(3);
        if (i > 0) {
            auto jitter = responseTime - lastResponseTime;
            tr_info("Reset task: jitter is %lld usecs\n", std::abs(jitter.count()));
            TEST_ASSERT_UINT64_WITHIN(
                kDeltaUs, kMaxExpectedJitter.count(), std::abs(jitter.count()));
        }
        lastResponseTime = responseTime;
        // let the bike system run for 2 secs
        ThisThread::sleep_for(2s);
    }
    // stop the bike system
    bikeSystem.stop();
    thread.terminate();
    tr_info("Threads have stopped");
    timer.stop();
 }
 Timer timerGear;
 static std::chrono::microseconds gearTime = std::chrono::microseconds::zero();
 static EventFlags eventGearFlags;
 static constexpr uint32_t kGearEventFlag = (1UL << 0);
 constexpr uint8_t kNbrOfGear             = 9;
 static void onGearChange() {
    gearTime = timerGear.elapsed_time();
    eventGearFlags.set(kGearEventFlag);
    tr_info("Gear changed");
 }
 static void gearTest(Callback<void()> gearChange) {
    // std::chrono::microseconds lastResponseTime = std::chrono::microseconds::zero();
    for (uint8_t i = 1; i < kNbrOfGear; i++) {
        tr_info("Gear test N°%d", i);
        // take time before increase the gear
        auto startTime = timerGear.elapsed_time();
        // change the gear with the callback
        tr_info("Change gear");
        gearChange();
        // wait flag
        eventGearFlags.wait_all(kGearEventFlag);
        // get the response time and check it
        auto responseTime = gearTime - startTime;
        constexpr std::chrono::microseconds kMaxExpectedResponseTime(100000);
        tr_info("Change gear task: response time is %lld usecs\n, expected : %lld",
                responseTime.count(),
                kMaxExpectedResponseTime.count());
        TEST_ASSERT_TRUE(responseTime.count() <= kMaxExpectedResponseTime.count());
        // jitter of 20us is accepted
        // constexpr uint64_t kDeltaUs = 2000;
        // constexpr std::chrono::microseconds kMaxExpectedJitter(4000);
        // if (i > 1) {
        //     auto jitter = responseTime - lastResponseTime;
        //     tr_info("Gear task: jitter is %lld usecs\n", std::abs(jitter.count()));
        //     TEST_ASSERT_UINT64_WITHIN(
        //         kDeltaUs, kMaxExpectedJitter.count(), std::abs(jitter.count()));
        // }
        // lastResponseTime = responseTime;
        // let the bike system run for 2 secs
        ThisThread::sleep_for(2s);
    }
 }
 static void test_gear_multi_tasking_bike_system() {
    tr_info("test reset multi tasking bike system");
    // create the BikeSystem instance
    multi_tasking::BikeSystem bikeSystem;
    // run the bike system in a separate thread
    Thread thread;
    osStatus status =
        thread.start(callback(&bikeSystem, &multi_tasking::BikeSystem::start));
    if (status != osOK) {
        tr_error("Thread bike system is not OK !");
    }
    tr_info("Bike system has started");
    // let the bike system run for 2 secs
    ThisThread::sleep_for(2s);
    // get the gear device to call onUp and onDown functions
    multi_tasking::GearDevice& gearDevice = bikeSystem.getGearDevice();
    // set callback for response time measuring
    bikeSystem.setCallbackGearChage(onGearChange);
    // start the timer instance
    timerGear.start();
    // test timing incresing the gear
    tr_info("Test incresing gear");
    gearTest(callback(&gearDevice, &multi_tasking::GearDevice::onUp));
    // test timing decreasing the gear
    tr_info("Test decreasing gear");
    gearTest(callback(&gearDevice, &multi_tasking::GearDevice::onDown));
    // stop the bike system
    bikeSystem.stop();
    thread.terminate();
    tr_info("Threads have stopped");
    timerGear.stop();
 }
 static status_t greentea_setup(const size_t number_of_cases) {
    // Here, we specify the timeout (60s) and the host test (a built-in host test
    // or the name of our Python file)
@@ -389,10 +152,7 @@ static status_t greentea_setup(const size_t number_of_cases) {
 static Case cases[] = {
    Case("test bike system", test_bike_system),
    Case("test bike system with event queue", test_bike_system_event_queue),
-    Case("test bike system with event", test_bike_system_with_event),
+    Case("test bike system with event handling", test_bike_system_with_event),
    Case("test multi-tasking bike system", test_multi_tasking_bike_system),
    Case("test reset multi-tasking bike system", test_reset_multi_tasking_bike_system),
    Case("test gear multi-tasking bike system", test_gear_multi_tasking_bike_system),
 };
 static Specification specification(greentea_setup, cases);
@@ -400,9 +160,4 @@ static Specification specification(greentea_setup, cases);
 };  // namespace v1
 };  // namespace utest
-int main() {
+int main() { return !utest::v1::Harness::run(utest::v1::specification); }
 #if defined(MBED_CONF_MBED_TRACE_ENABLE)
    mbed_trace_init();
 #endif
    return !utest::v1::Harness::run(utest::v1::specification);
 }
--- a/common/constants.hpp
+++ b/common/constants.hpp
@@ -52,8 +52,9 @@ static constexpr std::chrono::milliseconds kMaxPedalRotationTime = 1500ms;
 static constexpr std::chrono::milliseconds kDeltaPedalRotationTime = 25ms;
 static constexpr uint32_t kNbrOfSteps = static_cast<uint32_t>(
-    (bike_computer::kMaxPedalRotationTime - bike_computer::kMinPedalRotationTime)
+    (
-        .count() /
+        bike_computer::kMaxPedalRotationTime - bike_computer::kMinPedalRotationTime
-    bike_computer::kDeltaPedalRotationTime.count());
+    ).count() / bike_computer::kDeltaPedalRotationTime.count()
 );
 }  // namespace bike_computer
--- a/common/sensor_device.cpp
+++ b/common/sensor_device.cpp
@@ -1,37 +1,21 @@
 // Copyright 2022 Haute école d'ingénierie et d'architecture de Fribourg
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 /****************************************************************************
 * @file speedometer_device.cpp
 * @author Serge Ayer <serge.ayer@hefr.ch>
 *
 * @brief WheelCounterDevice implementation (static scheduling)
 *
 * @date 2023-08-20
 * @version 1.0.0
 ***************************************************************************/
 #include "sensor_device.hpp"
 namespace bike_computer {
-SensorDevice::SensorDevice() : _hdc1000(I2C_SDA, I2C_SCL, STMOD_11) {}
+SensorDevice::SensorDevice() : _hdc1000(I2C_SDA, I2C_SCL, STMOD_11) 
 {}
-bool SensorDevice::init() { return this->_hdc1000.probe(); }
+bool SensorDevice::init() {
    return this->_hdc1000.probe();
 }
-float SensorDevice::readTemperature(void) { return this->_hdc1000.getTemperature(); }
+float SensorDevice::readTemperature(void) {
    return this->_hdc1000.getTemperature();
 }
-float SensorDevice::readHumidity(void) { return this->_hdc1000.getHumidity(); }
+float SensorDevice::readHumidity(void) {
    return this->_hdc1000.getHumidity();
 }
 } // bike_computer
 }  // namespace bike_computer
--- a/common/speedometer.cpp
+++ b/common/speedometer.cpp
@@ -24,8 +24,9 @@
 #include "speedometer.hpp"
 #include "static_scheduling/gear_device.hpp"
 #include <chrono>
 #include <cstddef>
 #include <ratio>
 // from disco_h747i/wrappers
@@ -79,12 +80,7 @@ float Speedometer::getDistance() {
 }
 void Speedometer::reset() {
-#if defined(MBED_TEST_MODE)
+    // TODO : done
    if (_cbOnReset != NULL) {
        _cbOnReset();
    }
 #endif
    this->_totalDistanceMutex.lock();
    this->_totalDistance = 0.0f;
    this->_totalDistanceMutex.unlock();
@@ -100,7 +96,6 @@ float Speedometer::getTraySize() const { return kTraySize; }
 std::chrono::milliseconds Speedometer::getCurrentPedalRotationTime() const {
    return _pedalRotationTime;
 }
 void Speedometer::setOnResetCallback(mbed::Callback<void()> cb) { _cbOnReset = cb; }
 #endif  // defined(MBED_TEST_MODE)
@@ -112,14 +107,11 @@ void Speedometer::computeSpeed() {
    // = 6.99m If you ride at 80 pedal turns / min, you run a distance of 6.99 * 80 / min
    // ~= 560 m / min = 33.6 km/h
-    // Distance run with one pedal turn = tray size / rear gear size * circumference of
+    // TODO : done
-    // the wheel
+    //Distance run with one pedal turn = tray size / rear gear size * circumference of the wheel
    constexpr float ms_in_hour = static_cast<float>(3600 * 1000);
-    float pedal_rotation_per_hour =
+    float pedal_rotation_per_hour = ms_in_hour / std::chrono::duration_cast<std::chrono::milliseconds>(_pedalRotationTime).count();
-        ms_in_hour /
+    float gear_ratio = static_cast<float>(kTraySize) / static_cast<float>(this->_gearSize);
        std::chrono::duration_cast<std::chrono::milliseconds>(_pedalRotationTime).count();
    float gear_ratio =
        static_cast<float>(kTraySize) / static_cast<float>(this->_gearSize);
    float wheel_dist_km = static_cast<float>(this->kWheelCircumference) / 1000.0;
    this->_currentSpeed = gear_ratio * wheel_dist_km * pedal_rotation_per_hour;
 }
@@ -133,6 +125,7 @@ void Speedometer::computeDistance() {
    // ~= 560 m / min = 33.6 km/h. We then multiply the speed by the time for getting the
    // distance traveled.
    // TODO : done
    Speedometer::computeSpeed();
    // compute distance
--- a/common/speedometer.hpp
+++ b/common/speedometer.hpp
@@ -55,7 +55,6 @@ class Speedometer {
    float getTraySize() const;
    std::chrono::milliseconds getCurrentPedalRotationTime() const;
    void setOnResetCallback(mbed::Callback<void()> cb);
    mbed::Callback<void()> _cbOnReset = NULL;
 #endif  // defined(MBED_TEST_MODE)
   private:
@@ -80,7 +79,9 @@ class Speedometer {
    float _currentSpeed = 0.0f;
    Mutex _totalDistanceMutex;
    float _totalDistance = 0.0f;
-    uint8_t _gearSize    = bike_computer::kMaxGearSize;
+    uint8_t _gearSize    = 1;
    Thread _thread;
 #if defined(MBED_TEST_MODE)
    mbed::Callback<void()> _cb;
--- a/main.cpp
+++ b/main.cpp
@@ -6,10 +6,11 @@
 #if !MBED_TEST_MODE
 #include "mbed.h"  // NOLINT
-#include "mbed_trace.h"  // NOLINT
+#include "mbed_trace.h"
 // #include "static_scheduling/bike_system.hpp"
 #include "FlashIAPBlockDevice.h"
 #include "static_scheduling_with_event/bike_system.hpp"
-// #include "multi_tasking/bike_system.hpp"
+#include "update-client/usb_serial_uc.hpp"
 #if defined(MBED_CONF_MBED_TRACE_ENABLE)
 #define TRACE_GROUP "MAIN"
@@ -20,14 +21,25 @@ int main() {
    mbed_trace_init();
 #endif
    tr_info("Start");
    FlashIAPBlockDevice flashIAPBlockDevice(MBED_ROM_START, MBED_ROM_SIZE);
    update_client::USBSerialUC usbSerialUpdateClient(flashIAPBlockDevice);
    update_client::UCErrorCode rc = usbSerialUpdateClient.start();
    if (rc != update_client::UCErrorCode::UC_ERR_NONE) {
        tr_error("Cannot initialize update client: %d", rc);
    } else {
        tr_info("Update client started");
    }
    // static_scheduling::BikeSystem bikeSystem;
    // bikeSystem.start();
    static_scheduling_with_event::BikeSystem bikeSystem;
    bikeSystem.start();
-    // multi_tasking::BikeSystem bikeSystem;
+    tr_debug("Starting Bike System");
-    // bikeSystem.start();
+    // bikeSystem.startWithEventQueue();
    bikeSystem.start();
    while (true) {
    }
 }
 #endif  // MBED_TEST_MODE
--- a/mbed-bootloader-advembsof.bin
+++ b/mbed-bootloader-advembsof.bin
--- a/mbed-os-bootloader/.gitignore
+++ b/mbed-os-bootloader/.gitignore
@@ -5,4 +5,4 @@ projectfiles
 mbed-os
 BUILD
 !BUILD/DISCO_H747I/GCC_ARM/mbed-os-bootloader.bin
-
+update-client
--- a/mbed-os-bootloader/BUILD/DISCO_H747I/GCC_ARM/mbed-os-bootloader.bin
+++ b/mbed-os-bootloader/BUILD/DISCO_H747I/GCC_ARM/mbed-os-bootloader.bin
--- a/mbed-os-bootloader/main.cpp
+++ b/mbed-os-bootloader/main.cpp
@@ -1,8 +1,10 @@
 #include "mbed.h"
 #include "FlashIAPBlockDevice.h"
 #include "update-client/block_device_application.hpp"
 #include "mbed_trace.h"
 #if MBED_CONF_MBED_TRACE_ENABLE
-#define TRACE_GROUP "bootloader"
+#define TRACE_GROUP "BOOTLOADER"
 #endif // MBED_CONF_MBED_TRACE_ENABLE
 #if MBED_CONF_MBED_TRACE_ENABLE
@@ -22,14 +24,30 @@ int main() {
    mbed_trace_print_function_set(boot_debug);
 #endif // MBED_CONF_MBED_TRACE_ENABLE
-    tr_debug("BikeComputer bootloader\r\n");
+    tr_debug("BikeComputer bootloader\r");
-    // at this stage we directly branch to the main application
+    FlashIAPBlockDevice flashIAPBlockDevice(MBED_ROM_START, MBED_ROM_SIZE);
    int ret = flashIAPBlockDevice.init();
    if(ret == 0) {
        update_client::BlockDeviceApplication app(flashIAPBlockDevice, HEADER_ADDR - MBED_ROM_START, POST_APPLICATION_ADDR - MBED_ROM_START); //MBED_CONF_UPDATE_CLIENT_STORAGE_ADDRESS);//
        tr_debug("Checking active application\n");
        tr_debug("MBED_ROM_START : 0x%08x", MBED_ROM_START);
        tr_debug("MBED_ROM_SIZE : 0x%08x", MBED_ROM_SIZE);
        tr_debug("HEADER_ADDR : 0x%08x", HEADER_ADDR);
        tr_debug("APPLICATION_ADDR : 0x%08x", APPLICATION_ADDR);
        tr_debug("POST_APPLICATION_ADDR : 0x%08x\n", POST_APPLICATION_ADDR);
        update_client::UCErrorCode ret = app.checkApplication();
        if(ret == update_client::UCErrorCode::UC_ERR_NONE) {
            tr_debug("Application is valid");
            void *sp = *((void **) POST_APPLICATION_ADDR + 0);  // NOLINT(readability/casting)
            void *pc = *((void **) POST_APPLICATION_ADDR + 1);  // NOLINT(readability/casting)
-    tr_debug("Starting application at address 0x%08x (sp 0x%08x, pc 0x%08x)\r\n", POST_APPLICATION_ADDR, (uint32_t) sp, (uint32_t) pc);
+            tr_debug("Starting application at address 0x%08x (sp 0x%08x, pc 0x%08x)", POST_APPLICATION_ADDR, (uint32_t) sp, (uint32_t) pc);
            mbed_start_application(POST_APPLICATION_ADDR);
-
+        }
-    return 0;
+        tr_error("Error on check of the application");
    }
 	tr_error("Error on init flash IAP block device");
    return -1;
 }
--- a/mbed-os-bootloader/mbed_app.json
+++ b/mbed-os-bootloader/mbed_app.json
@@ -1,6 +1,7 @@
 {
    "macros": [
-      "MBED_CONF_MBED_TRACE_FEA_IPV6=0"
+      "MBED_CONF_MBED_TRACE_FEA_IPV6=0",
      "MBED_BOOTLOADER_FLASH_BANK_SIZE=MBED_ROM_SIZE/2"
    ],
    "config": {
      "main-stack-size": {
@@ -17,7 +18,10 @@
        "platform.all-stats-enabled": true,
        "target.printf_lib":"minimal-printf",
        "platform.minimal-printf-enable-floating-point": true,
-        "platform.minimal-printf-set-floating-point-max-decimals": 2
+        "platform.minimal-printf-set-floating-point-max-decimals": 2,
        "update-client.storage-address": "(MBED_BOOTLOADER_FLASH_BANK_SIZE)",
        "update-client.storage-size": "(MBED_BOOTLOADER_FLASH_BANK_SIZE)",
        "update-client.storage-locations": 2
      },
      "DISCO_H747I": {
        "target.restrict_size": "0x20000",
--- a/mbed-os-bootloader/mbed_lib.json
+++ b/mbed-os-bootloader/mbed_lib.json
@@ -0,0 +1,22 @@
 {
  "name": "bootloader",
  "target_overrides": {
    "*": {
      "target.header_format": [
        ["magic", "const", "32be", "0x5a51b3d4"],
        ["version", "const", "32be", "2"],
        ["firmwareVersion", "timestamp", "64be", null],
        ["firmwareSize", "size", "64be", ["application"]],
        ["firmwareHash", "digest", "SHA256", "application"],
        ["hashpad", "const", "64be", "0"],
        ["hashpad", "const", "64be", "0"],
        ["hashpad", "const", "64be", "0"],
        ["hashpad", "const", "64be", "0"],
        ["campaign", "const", "64be", "0"],
        ["campaign", "const", "64be", "0"],
        ["firmwareSignatureSize", "const", "32be", "0"],
        ["headerCRC", "digest", "CRCITT32be", "header"]
      ]
    }
  }
 }
--- a/mbed-os-bootloader/update-client.lib
+++ b/mbed-os-bootloader/update-client.lib
@@ -0,0 +1 @@
 https://github.com/SergeAyer/update-client#82fe2add70c714d9ce943f1a7dc5fda7dba75dba
--- a/mbed_app.json
+++ b/mbed_app.json
@@ -1,8 +1,12 @@
 {
-  "macros": ["MBED_CONF_MBED_TRACE_FEA_IPV6=0"],
+    "macros": [
      "MBED_CONF_MBED_TRACE_FEA_IPV6=0",
      "MBED_BOOTLOADER_FLASH_BANK_SIZE=MBED_ROM_SIZE/2",
      "USE_USB_SERIAL_UC=1"
    ],
    "config": {
      "main-stack-size": {
-      "value": 8192
+       "value": 4096
      }
    },
    "target_overrides": {
@@ -15,13 +19,16 @@
        "platform.all-stats-enabled": true,
        "target.printf_lib":"minimal-printf",
        "platform.minimal-printf-enable-floating-point": true,
-      "platform.minimal-printf-set-floating-point-max-decimals": 2
+        "platform.minimal-printf-set-floating-point-max-decimals": 2,
        "update-client.storage-address": "(MBED_BOOTLOADER_FLASH_BANK_SIZE)",
        "update-client.storage-size": "(MBED_BOOTLOADER_FLASH_BANK_SIZE)",
        "update-client.storage-locations": 2
      },
      "DISCO_H747I": {
        "mbed-trace.enable": true,
        "mbed-trace.max-level": "TRACE_LEVEL_DEBUG",
        "target.bootloader_img":"./mbed-os-bootloader/BUILD/DISCO_H747I/GCC_ARM/mbed-os-bootloader.bin",
-      "target.app_offset": "0x20000"
+        "target.header_offset": "0x20000"
      }
    }
  }
--- a/mbed_lib.json
+++ b/mbed_lib.json
@@ -0,0 +1,22 @@
 {
  "name": "bootloader",
  "target_overrides": {
    "*": {
      "target.header_format": [
        ["magic", "const", "32be", "0x5a51b3d4"],
        ["version", "const", "32be", "2"],
        ["firmwareVersion", "timestamp", "64be", null],
        ["firmwareSize", "size", "64be", ["application"]],
        ["firmwareHash", "digest", "SHA256", "application"],
        ["hashpad", "const", "64be", "0"],
        ["hashpad", "const", "64be", "0"],
        ["hashpad", "const", "64be", "0"],
        ["hashpad", "const", "64be", "0"],
        ["campaign", "const", "64be", "0"],
        ["campaign", "const", "64be", "0"],
        ["firmwareSignatureSize", "const", "32be", "0"],
        ["headerCRC", "digest", "CRCITT32be", "header"]
      ]
    }
  }
 }
--- a/multi_tasking/bike_system.cpp
+++ b/multi_tasking/bike_system.cpp
@@ -1,406 +0,0 @@
 // Copyright 2022 Haute école d'ingénierie et d'architecture de Fribourg
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 /****************************************************************************
 * @file bike_system.cpp
 * @author Serge Ayer <serge.ayer@hefr.ch>
 * @author Rémi Heredero <remi@heredero.ch>
 * @author Yann Sierro <yannsierro.pro@gmail.com>
 *
 * @brief Bike System implementation (static scheduling)
 *
 * @date 2023-11-15
 * @version 1.1.0
 ***************************************************************************/
 #include "bike_system.hpp"
 #include <chrono>
 #include <cstdint>
 #include "cmsis_os.h"
 #include "common/constants.hpp"
 #include "mbed_trace.h"
 #if MBED_CONF_MBED_TRACE_ENABLE
 #define TRACE_GROUP "BikeSystem"
 #endif  // MBED_CONF_MBED_TRACE_ENABLE
 namespace multi_tasking {
 static constexpr std::chrono::milliseconds kGearTaskComputationTime          = 100ms;
 static constexpr std::chrono::milliseconds kSpeedDistanceTaskComputationTime = 200ms;
 static constexpr std::chrono::milliseconds kDisplayTask1Period               = 1600ms;
 static constexpr std::chrono::milliseconds kDisplayTask1Delay                = 300ms;
 static constexpr std::chrono::milliseconds kDisplayTask1ComputationTime      = 200ms;
 static constexpr std::chrono::milliseconds kTemperatureTaskPeriod            = 1600ms;
 static constexpr std::chrono::milliseconds kTemperatureTaskDelay             = 1100ms;
 static constexpr std::chrono::milliseconds kTemperatureTaskComputationTime   = 100ms;
 static constexpr std::chrono::milliseconds kCPUTaskPeriod                    = 1600ms;
 static constexpr std::chrono::milliseconds kCPUTaskDelay                     = 0ms;
 BikeSystem::BikeSystem()
    : _timer(),
      _isrEventQueue(),
      _eventQueue(),
      _mailPedalDevice(),
      _mailGearDevice(),
      _mutexGearSize(),
      _mutexGear(),
      _mutexSpeed(),
      _mutexDistance(),
      _mutexSpeedometer(),
      _isrEventThread(osPriorityAboveNormal, OS_STACK_SIZE, nullptr, "ISR_Event"),
      _speedDistanceThread(
          osPriorityNormal, OS_STACK_SIZE, nullptr, "Speed_distance_Task"),
      _gearTaskThread(osPriorityAboveNormal, OS_STACK_SIZE, nullptr, "Gear_Task"),
      _gearDevice(&_mailGearDevice, _timer),
      _pedalDevice(&_mailPedalDevice, _timer),
      _resetDevice(callback(this, &BikeSystem::onReset)),
      _displayDevice(),
      _speedometer(_timer),
      _sensorDevice(),
      _taskLogger(),
      _cpuLogger(_timer) {}
 #if defined(MBED_TEST_MODE)
 const advembsof::TaskLogger& BikeSystem::getTaskLogger() { return _taskLogger; }
 bike_computer::Speedometer& BikeSystem::getSpeedometer() {
    // ENTER CRITICAL SECTION
    _mutexSpeedometer.lock();
    bike_computer::Speedometer& speedometer = _speedometer;
    _mutexSpeedometer.unlock();
    // END CRITICAL SECTION
    return speedometer;
 }
 GearDevice& BikeSystem::getGearDevice() { return _gearDevice; }
 void BikeSystem::setCallbackGearChage(Callback<void()> cbGearChange) {
    _cbGearChange = cbGearChange;
 }
 #endif  // defined(MBED_TEST_MODE)
 void BikeSystem::init() {
    // start the timer
    _timer.start();
    // initialize the lcd display
    disco::ReturnCode rc = _displayDevice.init();
    if (rc != disco::ReturnCode::Ok) {
        tr_error("Ffalseailed to initialized the lcd display: %d", static_cast<int>(rc));
    }
    // initialize the sensor device
    bool present = _sensorDevice.init();
    if (!present) {
        tr_error("Sensor not present or initialization failed");
    }
    // enable/disable task logging
    bool runTaskLogger = false;
 #if defined(MBED_TEST_MODE)
    runTaskLogger = true;
 #endif
    _taskLogger.enable(runTaskLogger);
 }
 void BikeSystem::start() {
    init();
    Event<void()> temperatureEvent(&_eventQueue,
                                   callback(this, &BikeSystem::temperatureTask));
    temperatureEvent.delay(kTemperatureTaskDelay);
    temperatureEvent.period(kTemperatureTaskPeriod);
    temperatureEvent.post();
    Event<void()> displayEvent(&_eventQueue, callback(this, &BikeSystem::displayTask));
    displayEvent.delay(kDisplayTask1Delay);
    displayEvent.period(kDisplayTask1Period);
    displayEvent.post();
    osStatus status =
        _isrEventThread.start(callback(this, &BikeSystem::dispatch_isr_events));
    if (status != osOK) {
        tr_error("Thread %s started with status %ld",
                 _isrEventThread.get_name(),
                 static_cast<int32_t>(status));
    }
    status =
        _speedDistanceThread.start(callback(this, &BikeSystem::loop_speed_distance_task));
    if (status != osOK) {
        tr_error("Thread %s started with status %ld",
                 _isrEventThread.get_name(),
                 static_cast<int32_t>(status));
    }
    status = _gearTaskThread.start(callback(this, &BikeSystem::loop_gear_task));
    if (status != osOK) {
        tr_error("Thread %s started with status %ld",
                 _gearTaskThread.get_name(),
                 static_cast<int32_t>(status));
    }
 #if !defined(MBED_TEST_MODE)
    Event<void()> cpuEvent(&_eventQueue, callback(this, &BikeSystem::cpuTask));
    cpuEvent.delay(kCPUTaskDelay);
    cpuEvent.period(kCPUTaskPeriod);
    cpuEvent.post();
 #endif
    // dispatch the main queue in the main thread
    dispatch_events();
 }
 void BikeSystem::stop() {
    osStatus status = _isrEventThread.terminate();
    status += _speedDistanceThread.terminate();
    status += _gearTaskThread.terminate();
    if (status != 0) {
        tr_error("Stop thread error");
    }
    tr_info("Bike system has stopped !");
 }
 /* Callback from isr */
 void BikeSystem::onReset() {
    _resetTime = _timer.elapsed_time();
    Event<void()> resetEvent(&_isrEventQueue, callback(this, &BikeSystem::resetTask));
    resetEvent.post();
 }
 // ISR thread functions
 void BikeSystem::resetTask() {
 #if !defined(MBED_TEST_MODE)
    auto taskStartTime = _timer.elapsed_time();
    std::chrono::microseconds responseTime = _timer.elapsed_time() - _resetTime;
    tr_info("Reset task: response time is %" PRIu64 " usecs", responseTime.count());
 #endif
    // ENTER CRITICAL SECTION
    _mutexSpeedometer.lock();
    _speedometer.reset();
    _mutexSpeedometer.unlock();
    // END CRITICAL SECTION
 #if !defined(MBED_TEST_MODE)
    _taskLogger.logPeriodAndExecutionTime(
        _timer, advembsof::TaskLogger::kResetTaskIndex, taskStartTime);
 #endif
 }
 // Speed distance thread functions
 void BikeSystem::speedDistanceTask() {
    auto taskStartTime = _timer.elapsed_time();
    pedalMail_t* currentStep = _mailPedalDevice.try_get();
    if (currentStep != nullptr) {
        const auto pedalRotationTime =
            PedalDevice::getCurrentRotationTime(currentStep->step);
        // ENTER CRITICAL SECTION
        _mutexSpeedometer.lock();
        _speedometer.setCurrentRotationTime(pedalRotationTime);
        _mutexSpeedometer.unlock();
        // END CRITICAL SECTION
        std::chrono::microseconds responseTime =
            _timer.elapsed_time() - currentStep->callTime;
        tr_info("Speed distance task: response time is %" PRIu64 " usecs",
                responseTime.count());
        osStatus status = _mailPedalDevice.free(currentStep);
        if (status != osOK) {
            tr_error("free current step in the speed distance tasks doesn't work !");
        }
    }
    // ENTER CRITICAL SECTION
    _mutexSpeedometer.lock();
    _speedometer.setGearSize(getCurrentGearSize());
    _mutexSpeed.lock();
    _currentSpeed = _speedometer.getCurrentSpeed();
    _mutexSpeed.unlock();
    _mutexDistance.lock();
    _traveledDistance = _speedometer.getDistance();
    _mutexDistance.unlock();
    _mutexSpeedometer.unlock();
    // END CRITICAL SECTION
    ThisThread::sleep_for(std::chrono::duration_cast<std::chrono::milliseconds>(
        kSpeedDistanceTaskComputationTime - (_timer.elapsed_time() - taskStartTime)));
    _taskLogger.logPeriodAndExecutionTime(
        _timer, advembsof::TaskLogger::kSpeedTaskIndex, taskStartTime);
 }
 /* Gear thread functions */
 void BikeSystem::gearTask() {
    auto taskStartTime = _timer.elapsed_time();
    gearMail_t* currentGear = _mailGearDevice.try_get();
    if (currentGear != nullptr) {
 #if !defined(MBED_TEST_MODE)
        std::chrono::microseconds responseTime =
            _timer.elapsed_time() - currentGear->callTime;
        tr_info("Gear task: response time is %" PRIu64 " usecs", responseTime.count());
 #endif
 #if defined(MBED_TEST_MODE)
        _cbGearChange();
 #endif
        // ENTER CRITICAL SECTION
        _mutexGear.lock();
        _currentGear = currentGear->gear;
        _mutexGear.unlock();
        _mutexGearSize.lock();
        _currentGearSize = bike_computer::kMaxGearSize - currentGear->gear;
        _mutexGearSize.unlock();
        // END CRITICAL SECTION
        osStatus status = _mailGearDevice.free(currentGear);
        if (status != osOK) {
            tr_error("free current gear in the gear tasks doesn't work !");
        }
    }
    ThisThread::sleep_for(std::chrono::duration_cast<std::chrono::milliseconds>(
        kGearTaskComputationTime - (_timer.elapsed_time() - taskStartTime)));
    _taskLogger.logPeriodAndExecutionTime(
        _timer, advembsof::TaskLogger::kGearTaskIndex, taskStartTime);
 }
 /* Main thread functions */
 void BikeSystem::temperatureTask() {
    auto taskStartTime = _timer.elapsed_time();
    // no need to protect access to data members (single threaded)
    _currentTemperature = _sensorDevice.readTemperature();
    ThisThread::sleep_for(std::chrono::duration_cast<std::chrono::milliseconds>(
        kTemperatureTaskComputationTime - (_timer.elapsed_time() - taskStartTime)));
    _taskLogger.logPeriodAndExecutionTime(
        _timer, advembsof::TaskLogger::kTemperatureTaskIndex, taskStartTime);
 }
 void BikeSystem::displayTask() {
    auto taskStartTime = _timer.elapsed_time();
    // ENTER CRITICAL SECTION
    _displayDevice.displayGear(getCurrentGear());
    _displayDevice.displaySpeed(getCurrentSpeed());
    _displayDevice.displayDistance(getCurrentDistance());
    // END CRITICAL SECTION
    _displayDevice.displayTemperature(_currentTemperature);
    // ThisThread::sleep_for(std::chrono::duration_cast<std::chrono::milliseconds>(kDisplayTask1ComputationTime
    // - (_timer.elapsed_time() - taskStartTime)));
    _taskLogger.logPeriodAndExecutionTime(
        _timer, advembsof::TaskLogger::kDisplayTask1Index, taskStartTime);
 }
 void BikeSystem::cpuTask() { _cpuLogger.printStats(); }
 void BikeSystem::dispatch_isr_events() {
    tr_info("Start dispatching isr events");
    _isrEventQueue.dispatch_forever();
    tr_info("Stop dispatching isr events");
 }
 void BikeSystem::dispatch_events() {
    tr_info("Start dispatching main events");
    _eventQueue.dispatch_forever();
    tr_info("Stop dispatching main events");
 }
 void BikeSystem::loop_speed_distance_task() {
    tr_info("Start loop speed-distance calculation");
    while (true) {
        speedDistanceTask();
    }
 }
 void BikeSystem::loop_gear_task() {
    tr_info("Start loop gear calculation");
    while (true) {
        gearTask();
    }
 }
 uint8_t BikeSystem::getCurrentGear() {
    uint8_t currentGear;
    // ENTER CRITICAL SECTION
    _mutexGear.lock();
    currentGear = _currentGear;
    _mutexGear.unlock();
    // END CRITICAL SECTION
    return currentGear;
 }
 uint8_t BikeSystem::getCurrentGearSize() {
    uint8_t currentGearSize;
    // ENTER CRITICAL SECTION
    _mutexGearSize.lock();
    currentGearSize = _currentGearSize;
    _mutexGearSize.unlock();
    // END CRITICAL SECTION
    return currentGearSize;
 }
 float BikeSystem::getCurrentSpeed() {
    float currentSpeed;
    // ENTER CRITICAL SECTION
    _mutexSpeed.lock();
    currentSpeed = _currentSpeed;
    _mutexSpeed.unlock();
    // END CRITICAL SECTION
    return currentSpeed;
 }
 float BikeSystem::getCurrentDistance() {
    float currentDistance;
    // ENTER CRITICAL SECTION
    _mutexDistance.lock();
    currentDistance = _traveledDistance;
    _mutexDistance.unlock();
    // END CRITICAL SECTION
    return currentDistance;
 }
 }  // namespace multi_tasking
--- a/multi_tasking/bike_system.hpp
+++ b/multi_tasking/bike_system.hpp
@@ -1,171 +0,0 @@
 // Copyright 2022 Haute école d'ingénierie et d'architecture de Fribourg
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 /****************************************************************************
 * @file bike_system.hpp
 * @author Serge Ayer <serge.ayer@hefr.ch>
 *
 * @brief Bike System header file (static scheduling)
 *
 * @date 2023-08-20
 * @version 1.0.0
 ***************************************************************************/
 #pragma once
 // from advembsof
 #include "cpu_logger.hpp"
 #include "display_device.hpp"
 #include "mbed.h"
 #include "task_logger.hpp"
 // from common
 #include "sensor_device.hpp"
 #include "speedometer.hpp"
 // local
 #include "gear_device.hpp"
 #include "pedal_device.hpp"
 #include "reset_device.hpp"
 namespace multi_tasking {
 class BikeSystem {
   public:
    // constructor
    BikeSystem();
    // make the class non copyable
    BikeSystem(BikeSystem&)            = delete;
    BikeSystem& operator=(BikeSystem&) = delete;
    // method called in main() for starting the system
    void start();
    // method called for stopping the system
    void stop();
 #if defined(MBED_TEST_MODE)
    const advembsof::TaskLogger& getTaskLogger();
    bike_computer::Speedometer& getSpeedometer();
    GearDevice& getGearDevice();
    void setCallbackGearChage(Callback<void()> cbGearChange);
    Callback<void()> _cbGearChange;
 #endif  // defined(MBED_TEST_MODE)
   private:
    // private methods
    void init();
    // Main Thread
    void temperatureTask();
    void displayTask();
    void cpuTask();
 // ISR Thread
 #if defined(MBED_TEST_MODE)
   public:
 #endif
    void onReset();
 #if defined(MBED_TEST_MODE)
   private:
 #endif
    void resetTask();
    // gear Thread
    void gearTask();
    // Speed / Distance Thread
    void speedDistanceTask();
    // GETTER - SETTER
    uint8_t getCurrentGear();
    uint8_t getCurrentGearSize();
    float getCurrentSpeed();
    float getCurrentDistance();
    void setCurrentGear(uint8_t gear);
    // Thread functions
    void dispatch_isr_events();
    void dispatch_events();
    void loop_speed_distance_task();
    void loop_gear_task();
    // timer instance used for loggint task time and used by ResetDevice
    std::chrono::microseconds _resetTime      = std::chrono::microseconds::zero();
    std::chrono::microseconds _onGearUpTime   = std::chrono::microseconds::zero();
    std::chrono::microseconds _onGearDownTime = std::chrono::microseconds::zero();
    Timer _timer;
    // Event queues
    EventQueue _isrEventQueue;
    EventQueue _eventQueue;
    // Mail
    Mail<pedalMail_t, 16> _mailPedalDevice;
    Mail<gearMail_t, 16> _mailGearDevice;
    // mutex for shared resource
    Mutex _mutexGearSize;
    Mutex _mutexGear;
    Mutex _mutexSpeed;
    Mutex _mutexDistance;
    Mutex _mutexSpeedometer;
    // Tread for isr events
    Thread _isrEventThread;
    Thread _speedDistanceThread;
    Thread _gearTaskThread;
    // data member that represents the device for manipulating the gear
    GearDevice _gearDevice;
    //////////////////////////////////////////////////////////////
    // shared resources between the main thread and the isr thread
    uint8_t _currentGear     = bike_computer::kMinGear;
    uint8_t _currentGearSize = bike_computer::kMaxGearSize;
    //////////////////////////////////////////////////////////////
    // data member that represents the device for manipulating the pedal rotation
    // speed/time
    PedalDevice _pedalDevice;
    //////////////////////////////////////////////////////////////
    // shared resources between the main thread and the isr thread
    float _currentSpeed     = 0.0f;
    float _traveledDistance = 0.0f;
    //////////////////////////////////////////////////////////////
    // data member that represents the device used for resetting
    ResetDevice _resetDevice;
    // data member that represents the device display
    advembsof::DisplayDevice _displayDevice;
    // data member that represents the device for counting wheel rotations
    bike_computer::Speedometer _speedometer;
    // data member that represents the sensor device
    bike_computer::SensorDevice _sensorDevice;
    float _currentTemperature = 0.0f;
    // used for logging task info
    advembsof::TaskLogger _taskLogger;
    // cpu logger to measure cpu usage
    advembsof::CPULogger _cpuLogger;
 };
 }  // namespace multi_tasking
--- a/multi_tasking/gear_device.cpp
+++ b/multi_tasking/gear_device.cpp
@@ -1,74 +0,0 @@
 // Copyright 2022 Haute école d'ingénierie et d'architecture de Fribourg
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 /****************************************************************************
 * @file gear_device.cpp
 * @author Serge Ayer <serge.ayer@hefr.ch>
 * @author Rémi Heredero <remi@heredero.ch>
 * @author Yann Sierro <yannsierro.pro@gmail.com>
 *
 * @brief Gear Device implementation (static scheduling)
 *
 * @date 2023-11-17
 * @version 1.1.0
 ***************************************************************************/
 #include "gear_device.hpp"
 #include "bike_system.hpp"
 // from disco_h747i/wrappers
 #include "joystick.hpp"
 #include "mbed_atomic.h"
 #include "mbed_trace.h"
 #if MBED_CONF_MBED_TRACE_ENABLE
 #define TRACE_GROUP "GearDevice"
 #endif  // MBED_CONF_MBED_TRACE_ENABLE
 namespace multi_tasking {
 GearDevice::GearDevice(Mail<gearMail_t, 16>* mailBox, Timer& timer)
    : _mailBox(mailBox), _timer(timer) {
    disco::Joystick::getInstance().setUpCallback(callback(this, &GearDevice::onUp));
    disco::Joystick::getInstance().setDownCallback(callback(this, &GearDevice::onDown));
 }
 void GearDevice::onUp() {
    if (_currentGear < bike_computer::kMaxGear) {
        core_util_atomic_incr_u8(&_currentGear, 1);
        sendMail(core_util_atomic_load_u8(&_currentGear));
    }
 }
 void GearDevice::onDown() {
    if (_currentGear > bike_computer::kMinGear) {
        core_util_atomic_decr_u8(&_currentGear, 1);
        sendMail(core_util_atomic_load_u8(&_currentGear));
    }
 }
 void GearDevice::sendMail(uint32_t data) {
    if (_mailBox != nullptr) {
        gearMail_t* currentGear = _mailBox->try_alloc();
        if (currentGear != nullptr) {
            currentGear->gear     = data;
            currentGear->callTime = _timer.elapsed_time();
            _mailBox->put(currentGear);
        }
    }
 }
 }  // namespace multi_tasking
--- a/multi_tasking/gear_device.hpp
+++ b/multi_tasking/gear_device.hpp
@@ -1,61 +0,0 @@
 // Copyright 2022 Haute école d'ingénierie et d'architecture de Fribourg
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 /****************************************************************************
 * @file gear_device.hpp
 * @author Serge Ayer <serge.ayer@hefr.ch>
 * @author Rémi Heredero <remi@heredero.ch>
 * @author Yann Sierro <yannsierro.pro@gmail.com>
 *
 * @brief Gear Device header file (static scheduling)
 *
 * @date 2023-11-17
 * @version 1.1.0
 ***************************************************************************/
 #pragma once
 #include "common/constants.hpp"
 #include "mbed.h"
 namespace multi_tasking {
 typedef struct gearMail {
    uint8_t gear;
    std::chrono::microseconds callTime;
 } gearMail_t;
 class GearDevice {
   public:
    explicit GearDevice(Mail<gearMail_t, 16>* mailBox,
                        Timer& timer);  // NOLINT(runtime/references)
    // make the class non copyable
    GearDevice(GearDevice&)            = delete;
    GearDevice& operator=(GearDevice&) = delete;
    // method called for updating the bike system
    void onUp();
    void onDown();
    void sendMail(uint32_t data);
   private:
    // data members
    volatile uint8_t _currentGear = bike_computer::kMinGear;
    Mail<gearMail_t, 16>* _mailBox;
    Timer& _timer;
 };
 }  // namespace multi_tasking
--- a/multi_tasking/pedal_device.cpp
+++ b/multi_tasking/pedal_device.cpp
@@ -1,85 +0,0 @@
 // Copyright 2022 Haute école d'ingénierie et d'architecture de Fribourg
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 /****************************************************************************
 * @file pedal_device.cpp
 * @author Rémi Heredero <remi@heredero.ch>
 * @author Yann Sierro <yannsierro.pro@gmail.com>
 *
 * @brief Pedal Device implementation (static scheduling)
 * @date 2024-11-17
 * @version 1.1.0
 ****************************************************************************/
 #include "pedal_device.hpp"
 // from disco_h747i/wrappers
 #include <chrono>
 #include "bike_system.hpp"
 #include "joystick.hpp"
 #include "mbed_trace.h"
 #if MBED_CONF_MBED_TRACE_ENABLE
 #define TRACE_GROUP "PedalDevice"
 #endif  // MBED_CONF_MBED_TRACE_ENABLE
 namespace multi_tasking {
 PedalDevice::PedalDevice(Mail<pedalMail_t, 16>* mailBox, Timer& timer)
    : _mailBox(mailBox), _timer(timer) {
    disco::Joystick::getInstance().setLeftCallback(callback(this, &PedalDevice::onLeft));
    disco::Joystick::getInstance().setRightCallback(
        callback(this, &PedalDevice::onRight));
 }
 void PedalDevice::increaseRotationSpeed() {
    uint32_t currentStep = core_util_atomic_load_u32(&_currentStep);
    if (currentStep > 0) {
        core_util_atomic_decr_u32(&_currentStep, 1);
        sendMail(core_util_atomic_load_u32(&_currentStep));
    }
 }
 void PedalDevice::decreaseRotationSpeed() {
    uint32_t currentStep = core_util_atomic_load_u32(&_currentStep);
    if (currentStep < bike_computer::kNbrOfSteps) {
        core_util_atomic_incr_u32(&_currentStep, 1);
        sendMail(core_util_atomic_load_u32(&_currentStep));
    }
 }
 void PedalDevice::onLeft() { decreaseRotationSpeed(); }
 void PedalDevice::onRight() { increaseRotationSpeed(); }
 void PedalDevice::sendMail(uint32_t data) {
    if (_mailBox != nullptr) {
        pedalMail_t* currentStep = _mailBox->try_alloc();
        if (currentStep != nullptr) {
            currentStep->step     = data;
            currentStep->callTime = _timer.elapsed_time();
            _mailBox->put(currentStep);
        }
    }
 }
 // static methods
 std::chrono::milliseconds PedalDevice::getCurrentRotationTime(uint32_t step) {
    return bike_computer::kMinPedalRotationTime +
           step * bike_computer::kDeltaPedalRotationTime;
 }
 }  // namespace multi_tasking
--- a/multi_tasking/pedal_device.hpp
+++ b/multi_tasking/pedal_device.hpp
@@ -1,69 +0,0 @@
 // Copyright 2022 Haute école d'ingénierie et d'architecture de Fribourg
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 /****************************************************************************
 * @file pedal_device.hpp
 * @author Serge Ayer <serge.ayer@hefr.ch>
 * @author Rémi Heredero <remi@heredero.ch>
 * @author Yann Sierro <yannsierro.pro@gmail.com>
 *
 * @brief Pedal System header file (static scheduling)
 *
 * @date 2023-11-17
 * @version 1.1.0
 ***************************************************************************/
 #pragma once
 #include "constants.hpp"
 #include "mbed.h"
 namespace multi_tasking {
 typedef struct pedalMail {
    uint8_t step;
    std::chrono::microseconds callTime;
 } pedalMail_t;
 class PedalDevice {
   public:
    explicit PedalDevice(Mail<pedalMail_t, 16>* mailBox,  // NOLINT (runtime/references)
                         Timer& timer);                   // NOLINT (runtime/references)
    // make the class non copyable
    PedalDevice(PedalDevice&)            = delete;
    PedalDevice& operator=(PedalDevice&) = delete;
    // method called for updating the bike system
    static std::chrono::milliseconds getCurrentRotationTime(uint32_t step);
   private:
    // private methods
    void onLeft();
    void onRight();
    void increaseRotationSpeed();
    void decreaseRotationSpeed();
    void sendMail(uint32_t data);
    // data members
    volatile uint32_t _currentStep = static_cast<uint32_t>(
        (bike_computer::kInitialPedalRotationTime - bike_computer::kMinPedalRotationTime)
            .count() /
        bike_computer::kDeltaPedalRotationTime.count());
    Mail<pedalMail_t, 16>* _mailBox;
    Timer& _timer;
 };
 }  // namespace multi_tasking
--- a/multi_tasking/reset_device.cpp
+++ b/multi_tasking/reset_device.cpp
@@ -1,48 +0,0 @@
 // Copyright 2022 Haute école d'ingénierie et d'architecture de Fribourg
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 /****************************************************************************
 * @file reset_device.cpp
 * @author Rémi Heredero <remi@heredero.ch>
 * @author Yann Sierro <yannsierro.pro@gmail.com>
 *
 * @brief Reset Device implementation (static scheduling with event)
 * @date 2024-11-17
 * @version 1.1.0
 ****************************************************************************/
 #include "reset_device.hpp"
 // from disco_h747i/wrappers
 #include <chrono>
 #include "joystick.hpp"
 #include "mbed_trace.h"
 #if defined(TARGET_DISCO_H747I)
 #define PUSH_BUTTON BUTTON1
 static constexpr uint8_t kPolarityPressed = 1;
 #endif
 #if MBED_CONF_MBED_TRACE_ENABLE
 #define TRACE_GROUP "ResetDevice"
 #endif  // MBED_CONF_MBED_TRACE_ENABLE
 namespace multi_tasking {
 ResetDevice::ResetDevice(Callback<void()> cb) : _resetButton(PUSH_BUTTON) {
    _resetButton.fall(cb);
 }
 }  // namespace multi_tasking
--- a/multi_tasking/reset_device.hpp
+++ b/multi_tasking/reset_device.hpp
@@ -1,47 +0,0 @@
 // Copyright 2022 Haute école d'ingénierie et d'architecture de Fribourg
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.
 /****************************************************************************
 * @file reset_device.hpp
 * @author Serge Ayer <serge.ayer@hefr.ch>
 * @author Rémi Heredero <remi@heredero.ch>
 * @author Yann Sierro <yannsierro.pro@gmail.com>
 *
 * @brief ResetDevice header file (static scheduling with event)
 *
 * @date 2023-11-17
 * @version 1.1.0
 ***************************************************************************/
 #pragma once
 #include "mbed.h"
 namespace multi_tasking {
 class ResetDevice {
   public:
    explicit ResetDevice(Callback<void()> cb);  // NOLINT(runtime/references)
    // make the class non copyable
    ResetDevice(ResetDevice&)            = delete;
    ResetDevice& operator=(ResetDevice&) = delete;
   private:
    // data members
    // instance representing the reset button
    InterruptIn _resetButton;
 };
 }  // namespace multi_tasking
--- a/my_candidate_applications.cpp
+++ b/my_candidate_applications.cpp
@@ -0,0 +1,83 @@
 #include "my_candidate_applications.h"
 #include "mbed_trace.h"
 #if MBED_CONF_MBED_TRACE_ENABLE
 #define TRACE_GROUP "MyCandidateApplications"
 #endif  // MBED_CONF_MBED_TRACE_ENABLE
 update_client::CandidateApplications *createCandidateApplications(
    BlockDevice &blockDevice,
    mbed::bd_addr_t storageAddr,
    mbed::bd_size_t storageSize,
    uint32_t headerSize,
    uint32_t nSlots
 ){
    tr_debug("Create my candidate application");
    update_client::CandidateApplications* candidate = new bike_computer::MyCandidateApplications(blockDevice, storageAddr, storageSize, headerSize, nSlots);
    return candidate;
 }
 namespace bike_computer {
 MyCandidateApplications::MyCandidateApplications(
    BlockDevice &blockDevice,
    mbed::bd_addr_t storageAddr,
    mbed::bd_size_t storageSize,
    uint32_t headerSize,
    uint32_t nSlots
 ) : update_client::CandidateApplications(blockDevice, storageAddr, storageSize, headerSize, nSlots) {
 }
 uint32_t MyCandidateApplications::getSlotForCandidate() {
    tr_debug("Get slot for candidate");
    uint32_t nbrOfSlots = getNbrOfSlots();
    for (uint32_t slotIndex = 0; slotIndex < nbrOfSlots; slotIndex++) {
        if (! getBlockDeviceApplication(slotIndex).isValid()) {
            return slotIndex;
        }
    }
    // return the slot of the oldest firmware candidates
    uint32_t oldestSlotIndex = 0;
    uint64_t oldestFirmwareVersion = getBlockDeviceApplication(oldestSlotIndex).getFirmwareVersion();
    for (uint32_t slotIndex = 1; slotIndex < nbrOfSlots; slotIndex++) {
        mbed::bd_addr_t candidateAddress = 0;
        mbed::bd_size_t slotSize = 0;
        getCandidateAddress(slotIndex, candidateAddress, slotSize);
        tr_debug("Checking application at slot %" PRIu32 " (address 0x%" PRIx64 ", size %" PRIu64 ")",
                 slotIndex, candidateAddress, slotSize);
        if (getBlockDeviceApplication(slotIndex).getFirmwareVersion() < oldestFirmwareVersion) {
            oldestSlotIndex = slotIndex;
            oldestFirmwareVersion = getBlockDeviceApplication(slotIndex).getFirmwareVersion();
        }
    }
    return oldestSlotIndex;
 }
 //uint32_t MyCandidateApplications::getSlotForCandidate() {
 //    mbed::bd_addr_t _storageAddress = MBED_CONF_UPDATE_CLIENT_STORAGE_ADDRESS;
 //    tr_debug("Get slot for candidate");
 //
 //    FlashIAPBlockDevice flashIAPBlockDevice(MBED_ROM_START, MBED_ROM_SIZE);
 //    int ret = flashIAPBlockDevice.init();
 //
 //    if(ret == 0){
 //        for (int i = 0; i < getNbrOfSlots(); i++) {
 //            mbed::bd_addr_t headerAddress = HEADER_ADDR - MBED_ROM_START;
 //            mbed::bd_addr_t applicationAddress = _storageAddress + i * getSlotSize();
 //            update_client::BlockDeviceApplication activeApplication(flashIAPBlockDevice, headerAddress, applicationAddress);
 //            update_client::UCErrorCode rc = activeApplication.checkApplication();
 //
 //            if (update_client::UCErrorCode::UC_ERR_NONE != rc) {
 //                return _storageAddress + i * getSlotSize();
 //            }
 //        }
 //    }
 //    return -1;
 //}
 }
--- a/my_candidate_applications.h
+++ b/my_candidate_applications.h
@@ -0,0 +1,24 @@
 #pragma once
 #include "update-client/candidate_applications.hpp"
 namespace bike_computer {
 class MyCandidateApplications : public update_client::CandidateApplications {
 public:
    MyCandidateApplications(
        BlockDevice &blockDevice,
        mbed::bd_addr_t storageAddr,
        mbed::bd_size_t storageSize,
        uint32_t headerSize,
        uint32_t nSlots
    );
 	virtual uint32_t getSlotForCandidate() override;
 };
 }
 update_client::CandidateApplications *createCandidateApplications(
    BlockDevice &blockDevice,
    mbed::bd_addr_t storageAddr,
    mbed::bd_size_t storageSize,
    uint32_t headerSize,
    uint32_t nSlots
 );
--- a/static_scheduling/bike_system.cpp
+++ b/static_scheduling/bike_system.cpp
@@ -61,10 +61,7 @@ BikeSystem::BikeSystem()
    : _gearDevice(_timer),
      _pedalDevice(_timer),
      _resetDevice(_timer),
      _displayDevice(),
      _speedometer(_timer),
      _sensorDevice(),
      _taskLogger(),
      _cpuLogger(_timer) {}
 void BikeSystem::start() {
@@ -208,18 +205,29 @@ void BikeSystem::speedDistanceTask() {
        _timer, advembsof::TaskLogger::kSpeedTaskIndex, taskStartTime);
 }
-void BikeSystem::displayTask1() {
+void BikeSystem::temperatureTask() {
    auto taskStartTime = _timer.elapsed_time();
-    _displayDevice.displayGear(_currentGear);
+    tr_warn("Tick1 %" PRIu64, _timer.elapsed_time().count());
-    _displayDevice.displaySpeed(_currentSpeed);
+
-    _displayDevice.displayDistance(_traveledDistance);
+    // no need to protect access to data members (single threaded)
    _currentTemperature = _sensorDevice.readTemperature();
    tr_warn("Tick2 %" PRIu64, _timer.elapsed_time().count());
    ThisThread::sleep_for(std::chrono::duration_cast<std::chrono::milliseconds>(
-        kDisplayTask1ComputationTime - (_timer.elapsed_time() - taskStartTime)));
+        kTemperatureTaskComputationTime - (_timer.elapsed_time() - taskStartTime)));
    // simulate task computation by waiting for the required task computation time
    //    std::chrono::microseconds elapsedTime =
    //    std::chrono::microseconds::zero(); while (elapsedTime <
    //    kTemperatureTaskComputationTime) {
    //        elapsedTime = _timer.elapsed_time() - taskStartTime;
    //    }
    _taskLogger.logPeriodAndExecutionTime(
-        _timer, advembsof::TaskLogger::kDisplayTask1Index, taskStartTime);
+        _timer, advembsof::TaskLogger::kTemperatureTaskIndex, taskStartTime);
 }
 void BikeSystem::resetTask() {
@@ -235,17 +243,27 @@ void BikeSystem::resetTask() {
    _taskLogger.logPeriodAndExecutionTime(
        _timer, advembsof::TaskLogger::kResetTaskIndex, taskStartTime);
 }
-void BikeSystem::temperatureTask() {
+
 void BikeSystem::displayTask1() {
    auto taskStartTime = _timer.elapsed_time();
-    // no need to protect access to data members (single threaded)
+    _displayDevice.displayGear(_currentGear);
-    _currentTemperature = _sensorDevice.readTemperature();
+    _displayDevice.displaySpeed(_currentSpeed);
    _displayDevice.displayDistance(_traveledDistance);
    ThisThread::sleep_for(std::chrono::duration_cast<std::chrono::milliseconds>(
-        kTemperatureTaskComputationTime - (_timer.elapsed_time() - taskStartTime)));
+        kDisplayTask1ComputationTime - (_timer.elapsed_time() - taskStartTime)));
    // simulate task computation by waiting for the required task computation time
    //    std::chrono::microseconds elapsedTime =
    //    std::chrono::microseconds::zero(); while (elapsedTime <
    //    kDisplayTask1ComputationTime) {
    //        elapsedTime = _timer.elapsed_time() - taskStartTime;
    //    }
    _taskLogger.logPeriodAndExecutionTime(
-        _timer, advembsof::TaskLogger::kTemperatureTaskIndex, taskStartTime);
+        _timer, advembsof::TaskLogger::kDisplayTask1Index, taskStartTime);
 }
 void BikeSystem::displayTask2() {
@@ -256,6 +274,13 @@ void BikeSystem::displayTask2() {
    ThisThread::sleep_for(std::chrono::duration_cast<std::chrono::milliseconds>(
        kDisplayTask2ComputationTime - (_timer.elapsed_time() - taskStartTime)));
    // simulate task computation by waiting for the required task computation time
    //    std::chrono::microseconds elapsedTime =
    //    std::chrono::microseconds::zero(); while (elapsedTime <
    //    kDisplayTask2ComputationTime) {
    //        elapsedTime = _timer.elapsed_time() - taskStartTime;
    //    }
    _taskLogger.logPeriodAndExecutionTime(
        _timer, advembsof::TaskLogger::kDisplayTask2Index, taskStartTime);
 }
--- a/static_scheduling/bike_system.hpp
+++ b/static_scheduling/bike_system.hpp
@@ -80,7 +80,7 @@ class BikeSystem {
    // data member that represents the device for manipulating the gear
    GearDevice _gearDevice;
    uint8_t _currentGear     = bike_computer::kMinGear;
-    uint8_t _currentGearSize = bike_computer::kMaxGearSize;
+    uint8_t _currentGearSize = bike_computer::kMinGearSize;
    // data member that represents the device for manipulating the pedal rotation
    // speed/time
    PedalDevice _pedalDevice;
--- a/static_scheduling/pedal_device.cpp
+++ b/static_scheduling/pedal_device.cpp
@@ -37,7 +37,7 @@ namespace static_scheduling {
 static constexpr std::chrono::microseconds kTaskRunTime = 200000us;
-PedalDevice::PedalDevice(Timer& timer) : _timer(timer), _pedalRotationTime(0) {}
+PedalDevice::PedalDevice(Timer& timer) : _timer(timer) {}
 std::chrono::milliseconds PedalDevice::getCurrentRotationTime() {
    std::chrono::microseconds initialTime = _timer.elapsed_time();
--- a/static_scheduling/pedal_device.hpp
+++ b/static_scheduling/pedal_device.hpp
@@ -46,9 +46,9 @@ class PedalDevice {
    void decreaseRotationSpeed();
    // data members
    Timer& _timer;
    std::chrono::milliseconds _pedalRotationTime =
        bike_computer::kInitialPedalRotationTime;
    Timer& _timer;
 };
 }  // namespace static_scheduling
--- a/static_scheduling/reset_device.cpp
+++ b/static_scheduling/reset_device.cpp
@@ -43,8 +43,7 @@ namespace static_scheduling {
 static constexpr std::chrono::microseconds kTaskRunTime = 100000us;
-ResetDevice::ResetDevice(Timer& timer)
+ResetDevice::ResetDevice(Timer& timer) : _timer(timer), _resetButton(PUSH_BUTTON) {
    : _resetButton(PUSH_BUTTON), _timer(timer), _pressTime(0) {
    _resetButton.rise(callback(this, &ResetDevice::onRise));
 }
--- a/static_scheduling_with_event/bike_system.cpp
+++ b/static_scheduling_with_event/bike_system.cpp
@@ -67,10 +67,7 @@ BikeSystem::BikeSystem()
    : _gearDevice(),
      _pedalDevice(),
      _resetDevice(callback(this, &BikeSystem::onReset)),
      _displayDevice(),
      _speedometer(_timer),
      _sensorDevice(),
      _taskLogger(),
      _cpuLogger(_timer) {}
 void BikeSystem::start() {
@@ -179,18 +176,21 @@ void BikeSystem::speedDistanceTask() {
        _timer, advembsof::TaskLogger::kSpeedTaskIndex, taskStartTime);
 }
-void BikeSystem::displayTask1() {
+void BikeSystem::temperatureTask() {
    auto taskStartTime = _timer.elapsed_time();
-    _displayDevice.displayGear(_currentGear);
+    // tr_warn("Tick1 %" PRIu64, _timer.elapsed_time().count());
-    _displayDevice.displaySpeed(_currentSpeed);
+
-    _displayDevice.displayDistance(_traveledDistance);
+    // no need to protect access to data members (single threaded)
    _currentTemperature = _sensorDevice.readTemperature();
    // tr_warn("Tick2 %" PRIu64, _timer.elapsed_time().count());
    ThisThread::sleep_for(std::chrono::duration_cast<std::chrono::milliseconds>(
-        kDisplayTask1ComputationTime - (_timer.elapsed_time() - taskStartTime)));
+        kTemperatureTaskComputationTime - (_timer.elapsed_time() - taskStartTime)));
    _taskLogger.logPeriodAndExecutionTime(
-        _timer, advembsof::TaskLogger::kDisplayTask1Index, taskStartTime);
+        _timer, advembsof::TaskLogger::kTemperatureTaskIndex, taskStartTime);
 }
 void BikeSystem::resetTask() {
@@ -208,17 +208,18 @@ void BikeSystem::resetTask() {
        _timer, advembsof::TaskLogger::kResetTaskIndex, taskStartTime);
 }
-void BikeSystem::temperatureTask() {
+void BikeSystem::displayTask1() {
    auto taskStartTime = _timer.elapsed_time();
-    // no need to protect access to data members (single threaded)
+    _displayDevice.displayGear(_currentGear);
-    _currentTemperature = _sensorDevice.readTemperature();
+    _displayDevice.displaySpeed(_currentSpeed);
    _displayDevice.displayDistance(_traveledDistance);
    ThisThread::sleep_for(std::chrono::duration_cast<std::chrono::milliseconds>(
-        kTemperatureTaskComputationTime - (_timer.elapsed_time() - taskStartTime)));
+        kDisplayTask1ComputationTime - (_timer.elapsed_time() - taskStartTime)));
    _taskLogger.logPeriodAndExecutionTime(
-        _timer, advembsof::TaskLogger::kTemperatureTaskIndex, taskStartTime);
+        _timer, advembsof::TaskLogger::kDisplayTask1Index, taskStartTime);
 }
 void BikeSystem::displayTask2() {
--- a/static_scheduling_with_event/bike_system.hpp
+++ b/static_scheduling_with_event/bike_system.hpp
@@ -85,7 +85,7 @@ class BikeSystem {
    // data member that represents the device for manipulating the gear
    GearDevice _gearDevice;
    uint8_t _currentGear     = bike_computer::kMinGear;
-    uint8_t _currentGearSize = bike_computer::kMaxGearSize;
+    uint8_t _currentGearSize = bike_computer::kMinGearSize;
    // data member that represents the device for manipulating the pedal rotation
    // speed/time
    PedalDevice _pedalDevice;
--- a/update-client.lib
+++ b/update-client.lib
@@ -0,0 +1 @@
 https://github.com/SergeAyer/update-client#82fe2add70c714d9ce943f1a7dc5fda7dba75dba
Author	SHA1	Message	Date
Klagarge	86deb5420b	ADD my candidate applications Some checks failed Build test application / build-cli-v1 (debug, DISCO_H747I, tests-bike-computer-bike-system) (push) Failing after 2s Details Build test application / build-cli-v1 (debug, DISCO_H747I, tests-bike-computer-sensor-device) (push) Failing after 3s Details Build test application / build-cli-v1 (debug, DISCO_H747I, tests-bike-computer-speedometer) (push) Failing after 3s Details	2025-01-04 15:32:00 +01:00
Klagarge	f6e3413cf6	ADD library update-client	2025-01-04 15:31:25 +01:00
Klagarge	488d7532e7	ADD pre-commit config	2025-01-04 15:14:28 +01:00
Klagarge	6e79ced7ff	ADD minimal bootloader (main.cpp)	2024-12-31 12:02:40 +01:00
Klagarge	890edc211a	ADD minimal bootloader	2024-12-31 11:54:14 +01:00
		`@@ -0,0 +1 @@`
							`https://github.com/SergeAyer/update-client#82fe2add70c714d9ce943f1a7dc5fda7dba75dba`