This document shows the step-by-step process to create a simple blinking LED application for the S32G family using the S32 RTD non-AUTOSAR drivers. For this example used for the S32G-VNP-RDB2 EVB, connected via ethernet connection through S32 Debugger.
Preparation
Setup the software tools
Install S32 Design Studio for S32 Platform
Install the S32G development package and the S32 RTD AUTOSAR 4.4. Both of these are required for the S32 Configuration Tools.
Launch S32 Design Studio for S32 Platform
Procedure
New S32DS Project OR
Provide a name for the project, for example 'Blinking_LED_RTD_No_AUTOSAR'. The name must be entered with no space characters. Expand Family S32G2, Select S32G274A_Rev2 Cortex-M7
Click Next Now, uncheck the selection mark for other two cores.
Click '…' button next to SDKs
Check box next to PlatformSDK_S32XX_2022_07_S32G274A_Rev2_M7_0. (or whichever latest SDK for the S32G is installed). Click OK
Click Finish. Wait for project generation wizard to complete, then expand the project within the Project Explorer view to show the contents.
To control the LED on the board, some configuration needs to be performed within the Pins Tool. There are several ways to do this. One simple way by double-click on the MEX file.
By default, the Pins tool is then presented. For the Blinking LED example, one pin must be configured as output. The S32G-VNP-RDB2 EVB has an RGB LED for which each color is connect to a separate pin on the S32G-VNP-RDB2 EVB. For the blue LED the desired pin is PA_06.
From the Peripheral Signals tab left to the Pins tool perspective layout, locate Open the Siul2_0 from the peripheral signals tab. And from the drop down menu select “gpio,6 PA_06” option as per shown in the following image. We are using PA_06 for the GPIO usage, so we are routing the SIUL2_0 GPIO signal to this pin. (This pin is also available for other modules like -FR, FTM, SPI_1) .
The Direction required! menu will appear. Select Output then OK.
In Routing Details view, notice a new line has been added and highlighted in yellow.
Add ‘LED’ to the Label and Identifier columns for the PORTD 0 pin.
Code Preview
Go to Peripherals tool and add Siul2_Dio to enable LED blinking, it adjacent to the Blue LED on S32G-VNP-RDB2 EVB.
Click on the Peripherals Tool icon from the Eclipse Perspective navigation bar.
From the Components view, click on ‘Add a new configuration component…’ button from the Drivers category. This will bring up a list of all configuration components.
Locate and then select the ‘Siul2_Dio’ component from the list and click OK. Do not worry about the warning message. It is only indicating that the driver is not already part of the current project. The associated driver package will be added automatically. Note: It may be necessary to change the selection at the top from ‘Present in the tool-chain project’ to ‘All’. The DIO driver provides services for reading and writing to/from DIO Channels.
Also, select the Siul2_Port_1 tab and select the check mark against ‘Siul2 IP Port Development Error Detect’ option as below.
The Gpio_Dio driver requires no further configuration. Click Save to store all changes to the .MEX file.
Now the device configurations are complete and the RTD configuration code can be generated. Click ‘Update Code’ from the menu bar.
To control the output pin which was just configured, some application code will need to be written. Return to the ‘C/C++’ perspective.
If not already open, in the project window click the ‘>’ next to the ‘src’ folder to show the contents, then double click ‘main.c’ file to open it. This is where the application code will be added.
Before the pin can be controlled, it needs to be initialized using the configuration information that was generated from the S32 Configuration tools. Initialize all pins using the Port driver by adding the following line: Insert the following line into main, after the comment 'Write your code here':
/* Initialize all pins using the Port driver */ Siul2_Port_Ip_Init(NUM_OF_CONFIGURED_PINS0, g_pin_mux_InitConfigArr0);
Now, add logic for the LED turn and off. To turn the pin on and off with some delays in-between to cause the LED to blink. Make the delays long enough to be perceptible.
Add line to initialize variable uint8 i = 0;
Change the code within the provided for loop, and add the following lines:
//logic for blinking LED 10 times
for (i=0; i<10; i++)
{
Siul2_Dio_Ip_WritePin(LED_PORT, LED_PIN, 1U);
level = Siul2_Dio_Ip_ReadPin(LED_PORT, LED_PIN);
TestDelay(2000000);
Siul2_Dio_Ip_WritePin(LED_PORT, LED_PIN, 0U);
level = Siul2_Dio_Ip_ReadPin(LED_PORT, LED_PIN);
TestDelay(2000000);
}
return (0U);
And add this line above the main() function to initialize the variable
volatile uint8 level;
Before the 'main' function, add a delay function as follows:
void TestDelay(uint32 delay);
void TestDelay(uint32 delay)
{
static volatile uint32 DelayTimer = 0;
while (DelayTimer<delay)
{
DelayTimer++;
}
DelayTimer=0;
}
Update the includes lines at the top of the main.c file to include the headers for the drivers used in the application: Remove #include "Mcal.h" Add
#include "Siul2_Port_Ip.h" #include "Siul2_Dio_Ip.h"
Build 'Blinking_LED_RTD_No_AUTOSAR'. Select the project name in 'C/C++ Projects' view and then press 'Build'.
After the build completes, check that there are no errors.
Open Debug Configurations and select 'Blinking_LED_RTD_No_AUTOSAR_Debug_RAM'. Make sure to select the configuration which matches the build type performed, otherwise it may report an error if the build output doesn’t exist.
Now, you need to Select the Interface (Ethernet or USB) by which the S32 Debug Probe is connected.
If connected via USB and this option is selected for interface, then the COM port will be detected automatically (in the rare event where 2 or more S32 Debug Probes are connected via USB to the host PC, then it may be necessary to select which COM port is correct for the probe which is connected to the EVB)
If connected via Ethernet, enter the IP address of the probe. See the S32 Debug Probe User Manual for ways to determine the IP address.
Click Debug
To see the LED blink, click ‘Resume'.
This code as it will blink the LED times, you can make changes in for loop condition to blink it infinitely.
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