and they added a panic. Apparantly this instruction is not used very often
because it went for a long time before anyone noticed. Peter Tattam started
running into the panic while emulating his OS called Petros, and through
a comparison between vmware and bochs results he believes that enter is
doing the right thing. So, I have changed the panic into a BX_ERROR for now,
and added code to ensure that it only gets printed once per bochs run.
BEFORE it is executed. Print the registers at this time, BEFORE the
instruction, since they are the values BEFORE the instruction is executed.
The important result of this is that in TRACE output, both the instruction
causing an exception and the first instruction of the exception handler
are BOTH printed.
I'm working on getting this behavior in the debugger user-interface.
Modified Files:
cpu/cpu.cc debug/dbg_main.cc
It did an exception, and then the real code seemed to be commented out
with an #if 0...#endif. I put a panic there, asking people to please
report how they arrived at that condition, and enabled the #if 0 code.
This was pointed out by luca abeni <l_abeni@hotmail.com>.
which were generated with gcc -MM to the end of each Makefile.in
so that make understands which files depend on which. Basically,
everything depends on bochs.h, which depends on everything, which
is not ideal.
that TICK is called so I put a trace call just before each TICK.
This seems best, since the trace has a chance to print before the tick
can trigger time-based events elsewhere in the system.
[ #433759 ] virtual address checks can overflow
> Bochs has been crashing in some cases when you try to access data which
> overlaps the segment limit, when the segment limit is near the 32-bit
> boundary. The example that came up a few times is reading/writing 4 bytes
> starting at 0xffffffff when the segment limit was 0xffffffff. The
> condition used to compare offset+length-1 with the limit, but
> offset+length-1 was overflowing so the comparison went wrong. This patch
> changes the condition so that it supports all segment limits except for
> sizes 0,1,2,3 bytes. Dave and I figured that these sizes would not be
> needed, while size 0xffffffff is used quite a lot.
has run. This ensures that the prev_eip and prev_esp that is used
for tracing and breakpoint checks is correct even in the cycle after
an interrupt or trap.
> This patch fixes a number of debugger problems.
> - with trace-on, simulation time would pass 5x faster than usual, so
> interrupts and other timed events would happen at different times
> - with trace-on, breakpoints were ignored
> - with trace-on, control-C would not stop the processor and return to the
> debugger.
>
> This patch changes the execution quantum for the debugger to 1, which means
> that cpu_loop is asked to do one instruction at a time. This may cause
> bochs with the debugger to be slower than before.
>
> I haven't tested without the debugger yet, so I don't know if the timing
> of events matches or not.
in an output format similar to gdb (when you do info all-registers).
Also, if you do "info all" you get the CPU registers and the FPU
registers.
- added bx_cpu_c method called fpu_print_regs, which is implemented
in wmFPUemu_glue.cc
by thomas.petazzoni@meridon.com. Bryce introduced this bug in
revision 1.9 when split the code into separate #ifdefs for single
CPU and multiple CPU. Comments on the patch are:
> The following patch addresses a bug concerning the exception 1 (debug)
> which is being raised during HALT under certain conditions. It
> appears only on recent versions (1.2.1 or last CVS), and not on
> version 2000-0104.
BX_SUPPORT_APIC were used. To follow the pattern used by other
names like this, I changed them all to BX_SUPPORT_APIC.
Thanks to Tom Lindström for chasing this down!
BX_CPU_C bx_cpu;
BX_MEM_C bx_mem;
and when more than one processor, use
BX_CPU_C *bx_cpu_array[BX_SMP_PROCESSORS];
BX_MEM_C *bx_mem_array[BX_ADDRESS_SPACES];
The changeover is controlled by BX_SMP_PROCESSORS, but there are only
a few code changes since nearly all code uses the BX_CPU(n) and BX_MEM(n)
macros.
- This turns out to make a 10% speed difference! With this revision,
the CVS version now gets 95% of the performance of the 3/25/2000
snapshot, which I've been using as my baseline.
is the first attempt to regain the performance of pre-SMP bochs
(1.1.2). When simulating only one processor, stay in cpu_loop forever
as pre-SMP versions did. The overhead of returning from cpu_loop over
and over was slowing us down.
