I would like to simulate ARM code. For example, I want to run code like this:
MOV R0, #5 ADD R0, R0, #1 //somehow output R0
And it would output 6 on some software on my Ubuntu. Is it possible?
MDK-Lite evaluation version is available free of cost for a maximum code size of 32KB.
Linux version of MDK is not available. But Keil MDK works perfectly over WINE in Ubuntu.
Keil uVision MDK Installation on WINE:
Step 1: Install wine on Ubuntu
Open a terminal and type:
Step 2: Download Keil MDK.
Step 3: Install MDK
Right-Click on MDK executable file and select "Open With Wine Windows Program Loader" option.
Step 4: Invoke Keil uVision MDK on Ubuntu
Open a terminal and type:
Step 5: Install Flash Magic (Optional)
Flash Magic is a tool used to download software for Keil boards. Download Flash Magic Software and install it on wine (refer previous steps).
Create a COM1 link to serial port. Open a terminal and type:
Keil uVision MDK Project Creation and Debugging:
Step 1: Create a Keil UVision project for ARM7 target.
In Keil UVision tool bar select Project --> New Project.
Navigate to a location where you want to create this project.
Enter a project name and click Save.
Select ARM --> ARM7(Little Endian) as device for Target. Click OK.
Step 2: Create an assembly source file for the target
In Keil UVision tool bar select File --> New. Add the following code to the newly created file:
Provide tab-space before each assembly statement as done above. Save the file with '.s' extension.
Step 3: Add source file to project
In Project window (located left side of UVision), Right click on Source Group 1 and select "Add Files to Group Source Group 1" option.
Select test.s and click 'Add'. (Select File Type as ASM Source file)
Step 4: Build source file
In Keil UVision tool bar select Project --> Build target or Press F7 to compile the source file.
Step 5: Simulate/Debug application
In Keil UVision tool bar select Debug--> Start/Stop Debug Session or Press Ctrl + F5.
The debug perspective opens up with a Register view at left side, Code View at center, Memory view at right bottom, etc...
Use the debugging keys to execute the code:
Observe Register view at end of program execution:
In Keil UVision tool bar select Debug--> Start/Stop Debug Session or Press Ctrl + F5 to come out of Debugging Perspective.
If you build it into an actual executable then you can use QEMU's ARM emulator to run it.
you could run arm code through QEMU that is an emulator but I don't think you can output directly to another pice of software because QEMU is also a software but you could use something like shared memory or even a file (warning concurrent access to a file may require a mutex) to pass results from the emulator to the host software and back even if it could be a little slow
This article gives a step by step introduction into using QEMU for simulating baremetal ARM code: http://balau82.wordpress.com/2010/02/28/hello-world-for-bare-metal-arm-using-qemu/
Of course you don't need to take care of the C stuff and can place your assembly directly in the startup.s
You can use the code in this git repository as a starting point:
As others have mentioned you'll first need to install QEMU to emulate the ARM hardware and you will need to have some way of compiling your code (I recommend the CodeSourcery Lite Edition Toolchain). Then edit the
The code in this repository provides a bunch of examples that you can adapt to your own purposes and the C test files will allow you to call your assembly code and output the results to your terminal in Ubuntu. :)
I guess what you're after is a way to
To start with, you need to arrange your ARM code into an assembly function inside an assembly (.s) file, say
Once the two files are ready, you can build them into an ARM binary using
And then run the binary using
Believe me, this will print a
Install qemu, cross compile it for arm, and then use
on your terminal
Not sure why noone has mentioned it yet, but you can get a "real" and affordable arm platform to experiment with, with Raspberry pi.
It doesn't come with Ubuntu by default, to my knowledge it come's with a Debian remix called Raspbian (but can also run Fedora, Arch or Debian plain).
I always use a small qemu ARM VM to test ARM programs.
Since it simulates a full arm system, you can write the programs on it (e.g. with vim + gcc) and then test them there.