3. Booting the machine

First, configure the terminal program, in our case minicom, the following way: 9600 bps, 8 bits, no parity, 1 stop bit and no flow control of any kind. The serial port in Linux should be /dev/ttyS0 for COM1, /dev/ttyS1 for COM2 etc.

Start the target. You should see the vxWorks bootloader on your terminal screen, and should be able to stop the boot sequence by pressing the space bar.

Note

We cannot use the vxWorks bootloader to load a Linux kernel since it looks in the ELF header and loads the image to the address written there. However, the Linux kernel, which uses virtual memory, is linked to a high-memory address, and vxWorks can't handle that.

Once the target is stopped, run the VisionICE software and perform the following steps:

After pressing the Run button, nothing happened. At that moment, and for some time after, it seemed that nothing was happening and the kernel was stuck. We used ICE to step through the initialization code of the kernel and rule out some potential problems, like virtual memory errors, only to finally discover that the problem was simple: the kernel was indeed booting but since the console (tty) driver had problems, we couldn't see anything!

Caution

VisionICE is not the correct tool to use when debugging Linux. ICE doesn't know about virtual memory and protected mode (at least the version we had), and since the Linux kernel turns on virtual memory very early, ICE is only useful for debugging the first assembler statements. After VM is turned on, ICE starts crashing and giving wierd results.