Difference between revisions of "How to configure JLinkScript files to enable tracing"
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* Some target devices allow multiple sets of trace pins that can be activated, if you are mixing them make sure that this is supported by the MCU. |
* Some target devices allow multiple sets of trace pins that can be activated, if you are mixing them make sure that this is supported by the MCU. |
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* Does the issue persist when using Ozone instead? Some IDE/debugger vendors do not support all trace features that the J-Trace PRO offers. |
* Does the issue persist when using Ozone instead? Some IDE/debugger vendors do not support all trace features that the J-Trace PRO offers. |
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+ | * Make sure your application does not repurpose the trace pins during run time for other peripherals. |
Revision as of 14:46, 22 May 2018
This article will describe how to enable trace with a JLinkScript file for supported target devices.
Contents
Introduction
To enable tracing on a target device two configurations must be met:
- The trace related Arm Coresight module needs to be set up (done automatically by J-Link software)
- Target device specific pins and SFRs need to be initialized (done by the user in the J-Link Script file)
For the best trace experience we recommend using Ozone: https://www.segger.com/products/development-tools/ozone-j-link-debugger/
Generic Guide
- Create a J-Link script file by creating a plain text file and renaming it to Filename.JLinkScript and open it in a text editor.
- Add the function OnTraceStart() to the J-Link script file. (more information about script file functions in the J-Link User Manual UM08001)
- Locate the trace pins used on your board schematics.
- Initialize the trace pins and enable the trace clock with the corresponding clock registers if needed.
- If available, configure additional trace config registers that are not part of Arm Coresight modules.
- Set the script file in your IDE/debugger of choice: https://wiki.segger.com/Using_J-Link_Script_Files
- Connect the J-Trace via the trace connector to your target.
- Start tracing.
Example Setup
Prerequisites
The following prerequisites must be met to be able to work with the example setup:
- J-Link software version V6.16i or later
- Ozone V2.44d or later
- J-Trace PRO Cortex-M or J-Trace PRO Cortex
- Cortex-M Trace Reference Board (enclosed with each J-Trace PRO delivery)
- Example project: https://wiki.segger.com/Tracing_on_ST_STM32F407_(SEGGER_Cortex-M_Trace_Reference_Board)
The example project is already configured to run out-of-the-box with Ozone. However this tutorial is meant to teach how to create a new configuration for any target device that is supported.
Setup
In the example project you will find a .JLinkScript file that already configures the target device correctly. This script file will now be used as reference to explain how a script file would be created for the Cortex-M Trace Reference Board from scratch.
The Cortex-M Trace Reference Board is based on a ST STM32F407VE.
- Get a copy of the STM32F407VE Reference Manual from ST, this documentation will be needed to have all necessary register information.
- Create a J-Link script file by simply creating a plain text file and renaming it to Filename.JLinkScript.
- Add function OnTraceStart()to the J-Link script file. It follows C like syntax which is explained further in the J-Link user manual.
- Locate the trace pins used on your board schematics, in case of the example device pins PE2-PE6 are used for tracing.
- For most Arm Cortex devices peripheral clocks for GPIOs are disabled after reset, in case of the example device register RCC_AHB1ENR needs to be edited to enable the GPIOE clock.
- Access 32-bit registers through the script file by using JLINK_MEM_ReadU32() and JLINK_MEM_WriteU32().
- Set the corresponding GPIO registers to enable alternate function mode for pins PE2-PE6, we recommend using the highest speed setting for trace pins to stay within timing requirements for trace.
- For the example device there is an additional device specific trace register that must be set, it is called DBGMCU_CR. In this register the used pin number (1-4) must be configured and trace enabled.
- Save the script file and set it in your IDE/debugger of choice: https://wiki.segger.com/Using_J-Link_Script_Files
- Start tracing.
Troubleshooting
Do you get no or incorrect trace data? Consider the following troubleshooting steps:
- Check if registers need to be unlocked first.
- Check if the correct peripheral clocks have been enabled, the clock tree in the target device manual should give more insight.
- Check if the correct pins are configured, on some devices the GPIO settings must be set in the right order.
- Check if there is an additional device specific trace related register which needs to be configured.
- Make sure there are no capacitive or inductive elements connected to the trace lanes (e.g. Diodes, capacitors, inductors etc.).
- Some target devices allow multiple sets of trace pins that can be activated, if you are mixing them make sure that this is supported by the MCU.
- Does the issue persist when using Ozone instead? Some IDE/debugger vendors do not support all trace features that the J-Trace PRO offers.
- Make sure your application does not repurpose the trace pins during run time for other peripherals.