make file structure

This commit is contained in:
Mats van Reenen 2020-10-13 15:54:38 +02:00
parent 7f21e0fa93
commit 894649cdfa
8 changed files with 249 additions and 44 deletions

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.gitignore vendored
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# Learn more about .gitignore:
# https://www.atlassian.com/git/tutorials/saving-changes/gitignore
# ccs artifact files
/.settings
/targetConfigs
/.ccs*
/.cproject
/.project
*.cmd
/*.c
/*.h
# Node artifact files
node_modules/
dist/

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**Edit a file, create a new file, and clone from Bitbucket in under 2 minutes**
# Eindopdracht EMS20 - Groep 5
When you're done, you can delete the content in this README and update the file with details for others getting started with your repository.
*We recommend that you open this README in another tab as you perform the tasks below. You can [watch our video](https://youtu.be/0ocf7u76WSo) for a full demo of all the steps in this tutorial. Open the video in a new tab to avoid leaving Bitbucket.*
---
## Edit a file
Youll start by editing this README file to learn how to edit a file in Bitbucket.
1. Click **Source** on the left side.
2. Click the README.md link from the list of files.
3. Click the **Edit** button.
4. Delete the following text: *Delete this line to make a change to the README from Bitbucket.*
5. After making your change, click **Commit** and then **Commit** again in the dialog. The commit page will open and youll see the change you just made.
6. Go back to the **Source** page.
---
## Create a file
Next, youll add a new file to this repository.
1. Click the **New file** button at the top of the **Source** page.
2. Give the file a filename of **contributors.txt**.
3. Enter your name in the empty file space.
4. Click **Commit** and then **Commit** again in the dialog.
5. Go back to the **Source** page.
Before you move on, go ahead and explore the repository. You've already seen the **Source** page, but check out the **Commits**, **Branches**, and **Settings** pages.
---
## Clone a repository
Use these steps to clone from SourceTree, our client for using the repository command-line free. Cloning allows you to work on your files locally. If you don't yet have SourceTree, [download and install first](https://www.sourcetreeapp.com/). If you prefer to clone from the command line, see [Clone a repository](https://confluence.atlassian.com/x/4whODQ).
1. Youll see the clone button under the **Source** heading. Click that button.
2. Now click **Check out in SourceTree**. You may need to create a SourceTree account or log in.
3. When you see the **Clone New** dialog in SourceTree, update the destination path and name if youd like to and then click **Clone**.
4. Open the directory you just created to see your repositorys files.
Now that you're more familiar with your Bitbucket repository, go ahead and add a new file locally. You can [push your change back to Bitbucket with SourceTree](https://confluence.atlassian.com/x/iqyBMg), or you can [add, commit,](https://confluence.atlassian.com/x/8QhODQ) and [push from the command line](https://confluence.atlassian.com/x/NQ0zDQ).
Dit is een project opgegeven door Hoogeschool Rotterdam voor de opleiding elektrotechniek en gemaakt door Bram Bleij en Mats van Reenen.

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common.syscfg Normal file
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/*
* Copyright (c) 2018-2019, Texas Instruments Incorporated
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* * Neither the name of Texas Instruments Incorporated nor the names of
* its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
// @cliArgs --board /ti/boards/CC3220S_LAUNCHXL
/*
* common.syscfg
*/
var SimpleLinkWifi = scripting.addModule("/ti/drivers/net/wifi/SimpleLinkWifi");
var Crypto = scripting.addModule("/ti/drivers/Crypto");
var Crypto1 = Crypto.addInstance();
var Power = scripting.addModule("/ti/drivers/Power");
var Board = scripting.addModule("/ti/drivers/Board");
var DriverLib = scripting.addModule("/ti/devices/DriverLib");
var Display = scripting.addModule("/ti/display/Display");
var Display1 = Display.addInstance();
var DMA = scripting.addModule("/ti/drivers/DMA");
var GPIO = scripting.addModule("/ti/drivers/GPIO");
var GPIO1 = GPIO.addInstance();
var GPIO2 = GPIO.addInstance();
var GPIO3 = GPIO.addInstance();
var GPIO4 = GPIO.addInstance();
var GPIO5 = GPIO.addInstance();
var GPIO6 = GPIO.addInstance();
var GPIO7 = GPIO.addInstance();
var GPIO8 = GPIO.addInstance();
var SPI = scripting.addModule("/ti/drivers/SPI");
var SPI1 = SPI.addInstance();
var Timer = scripting.addModule("/ti/drivers/Timer");
var Timer1 = Timer.addInstance();
var Timer2 = Timer.addInstance();
var Timer3 = Timer.addInstance();
var Watchdog = scripting.addModule("/ti/drivers/Watchdog");
var Watchdog1 = Watchdog.addInstance();
var SlNet = scripting.addModule("/ti/net/SlNet");
var SlNet1 = SlNet.addInstance();
// Name - The C/C++ identifier used in applications as the index parameter passed to Crypto runtime APIs
Crypto1.$name = "CONFIG_Crypto_0";
// IO Retention Shutdown - IO groups to be retained during Shutdown
Power.ioRetentionShutdown = ["GRP_1"];
// Name
Power.parkPins.$name = "ti_drivers_power_PowerCC32XXPins0";
// Name - The C/C++ identifier used in applications as the index parameter passed to Display runtime APIs
Display1.$name = "CONFIG_Display_0";
// Use Hardware - Select the hardware to use, or 'None' to use available header pins
Display1.$hardware = system.deviceData.board.components.XDS110UART;
// Name - The C/C++ identifier used in applications as the index parameter passed to UART runtime APIs
Display1.uart.$name = "CONFIG_UART_0";
// Use DMA
Display1.uart.useDMA = true;
// Name
Display1.uart.uart.$name = "MyUART1";
// Use Peripheral
Display1.uart.uart.$assign = "UART0";
// Assign pin
Display1.uart.uart.txPin.$assign = "GP01"; // pin number - 55
// Assign pin
Display1.uart.uart.rxPin.$assign = "GP02"; // pin number - 57
// Assign pin
Display1.uart.uart.txDmaChannel.$assign = "UDMA_CH9";
// Assign pin
Display1.uart.uart.rxDmaChannel.$assign = "UDMA_CH8";
// Use Hardware - Select the hardware to use, or 'None' to use available header pins
GPIO1.$hardware = system.deviceData.board.components.SW2;
// Name - The C/C++ identifier used in applications as the index parameter passed to GPIO runtime APIs
GPIO1.$name = "CONFIG_GPIO_BUTTON_0";
// Assign pin
GPIO1.gpioPin.$assign = "boosterpack.3"; // P04
// Use Hardware - Select the hardware to use, or 'None' to use available header pins
GPIO2.$hardware = system.deviceData.board.components.SW3;
// Name - The C/C++ identifier used in applications as the index parameter passed to GPIO runtime APIs
GPIO2.$name = "CONFIG_GPIO_BUTTON_1";
// Assign pin
GPIO2.gpioPin.$assign = "boosterpack.11"; // P15
// Use Hardware - Select the hardware to use, or 'None' to use available header pins
GPIO3.$hardware = system.deviceData.board.components.LED0;
// Output Strength - Specifies the output strength
GPIO3.outputStrength = "High";
// Name - The C/C++ identifier used in applications as the index parameter passed to GPIO runtime APIs
GPIO3.$name = "CONFIG_GPIO_LED_0";
// Use Hardware - Select the hardware to use, or 'None' to use available header pins
GPIO4.$hardware = system.deviceData.board.components.LED2;
// Output Strength - Specifies the output strength
GPIO4.outputStrength = "High";
// Name - The C/C++ identifier used in applications as the index parameter passed to GPIO runtime APIs
GPIO4.$name = "CONFIG_GPIO_LED_1";
// Use Hardware - Select the hardware to use, or 'None' to use available header pins
GPIO5.$hardware = system.deviceData.board.components.LED1;
// Output Strength - Specifies the output strength
GPIO5.outputStrength = "High";
// Name - The C/C++ identifier used in applications as the index parameter passed to GPIO runtime APIs
GPIO5.$name = "CONFIG_GPIO_LED_2";
// Name - The C/C++ identifier used in applications as the index parameter passed to GPIO runtime APIs
GPIO6.$name = "CONFIG_GPIO_0";
// Mode - Select the GPIO mode
GPIO6.mode = "Dynamic";
// Assign pin
GPIO6.gpioPin.$assign = "boosterpack.19"; // P18
// Name - The C/C++ identifier used in applications as the index parameter passed to GPIO runtime APIs
GPIO7.$name = "CONFIG_GPIO_1";
// Mode - Select the GPIO mode
GPIO7.mode = "Dynamic";
// Assign pin
GPIO7.gpioPin.$assign = "boosterpack.2"; // P58*
// Name - The C/C++ identifier used in applications as the index parameter passed to GPIO runtime APIs
GPIO8.$name = "CONFIG_GPIO_2";
// Mode - Select the GPIO mode
GPIO8.mode = "Dynamic";
// Assign pin
GPIO8.gpioPin.$assign = "boosterpack.4"; // P03
// Name - The C/C++ identifier used in applications as the index parameter passed to SPI runtime APIs
SPI1.$name = "CONFIG_SPI_0";
// Mode - In three pin mode the SS signal is not used.
SPI1.mode = "Four Pin SS Active Low";
// Default TX Buffer Value - Specifies the default transmit buffer value.
SPI1.defaultTxBufferValue = "0";
// Name
SPI1.spi.$name = "MySPI1";
// Use Peripheral
SPI1.spi.$assign = "SPI0";
// Assign pin
SPI1.spi.sclkPin.$assign = "boosterpack.7"; // P05
// Assign pin
SPI1.spi.misoPin.$assign = "boosterpack.14"; // P06
// Assign pin
SPI1.spi.mosiPin.$assign = "boosterpack.15"; // P07
// Assign pin
SPI1.spi.ssPin.$assign = "boosterpack.18"; // P08
// Assign pin
SPI1.spi.dmaRxChannel.$assign = "UDMA_CH6";
// Assign pin
SPI1.spi.dmaTxChannel.$assign = "UDMA_CH7";
// Name - The C/C++ identifier used in applications as the index parameter passed to Timer runtime APIs
Timer1.$name = "CONFIG_TIMER_0";
// Timer Type
Timer1.timerType = "32 Bits";
// Name
Timer1.timer.$name = "MyTimer1";
// Use Peripheral
Timer1.timer.$assign = "Timer0";
// Name - The C/C++ identifier used in applications as the index parameter passed to Timer runtime APIs
Timer2.$name = "CONFIG_TIMER_1";
// Name
Timer2.timer.$name = "MyTimer1";
// Use Peripheral
Timer2.timer.$assign = "Timer1";
// Name - The C/C++ identifier used in applications as the index parameter passed to Timer runtime APIs
Timer3.$name = "CONFIG_TIMER_2";
// Name
Timer3.timer.$name = "MyTimer1";
// Use Peripheral
Timer3.timer.$assign = "Timer1";
// Name - The C/C++ identifier used in applications as the index parameter passed to Watchdog runtime APIs
Watchdog1.$name = "CONFIG_WATCHDOG_0";
// Name
Watchdog1.watchdog.$name = "MyWATCHDOG1";
// Use Peripheral
Watchdog1.watchdog.$assign = "WATCHDOG0";
// Name
SlNet1.$name = "CONFIG_SLNET";
// Interface Name - Specifies the name for this interface"
SlNet1.ifName = "CC32xx";
// Suggest solution
GPIO3.gpioPin.$suggestSolution = "64";
// Suggest solution
GPIO4.gpioPin.$suggestSolution = "1";
// Suggest solution
GPIO5.gpioPin.$suggestSolution = "2";

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src/gsensor.c Normal file
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src/header.h Normal file
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void * GSensorTask(void *args);
void * MQTTTask(void *args);
void * SocketTask(void *args);

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src/main.c Normal file
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#include <stdint.h>
#include <pthread.h>
#include <ti/sysbios/BIOS.h>
#include <ti/drivers/GPIO.h>
#include "ti_drivers_config.h"
#include "./header.h"
void Hardware_init(){
Board_init();
GPIO_init();
}
int main(void){
Hardware_init() // initilize hardware
// ==============================================
// === tread for G sensor =======================
// ==============================================
BIOS_start();
return (0);
}
/*
* ======== dummyOutput ========
* Dummy SysMin output function needed for benchmarks and size comparison
* of FreeRTOS and TI-RTOS solutions.
*/
void dummyOutput(void)
{
}

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src/mqtt.c Normal file
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src/socket.c Normal file
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