Note, if you are looking for a graphical front-end for the bochs debugger, you may want to check out . This is a package written by a Bochs user which can interface with the text based Bochs debugger. No linking is necessary. It's not part of Bochs, but you may find it useful.
You can now conditionally compile in a GDB like command line debugger, that allows you to set breakpoints, step through instructions, and other useful functions. If there isn't a command for something you believe is generally useful for the debugger, let me know and I'll implement it if possible.
To use the debugger, you must configure Bochs with the --enable-debugger and --enable-disasm flags. For example:
./configure --enable-debugger --enable-disasm |
Note: You must use flex version 2.5.4 or greater. I have heard that version 2.5.2 will not work.
When you first start up Bochs, you will see the command line prompt
From here, you may use the following commands:
c continue executing
continue
s [count] execute count instructions, default is 1
step [count]
stepi [count]
Ctrl-C stop execution, and return to command line prompt
Ctrl-D if at empty line on command line, exit
q quit debugger and execution
quit
exit |
NOTE: The format of 'seg', 'off', and 'addr' in these descriptions,
are as follows. I don't have any way to set the current radix.
hexidecimal: 0xcdef0123
decimal: 123456789
octal: 01234567
vbreak seg:off Set a virtual address instruction breakpoint
vb seg:off
lbreak addr Set a linear address instruction breakpoint
lb addr
pbreak [*] addr Set a physical address instruction breakpoint
pb [*] addr (the '*' is optional for GDB compatibility)
break [*] addr
b [*] addr
info break Display state of all current breakpoints
bpe n Enable a breakpoint
bpd n Disable a breakpoint
delete n Delete a breakpoint
del n
d n
|
x /nuf addr Examine memory at linear address addr
xp /nuf addr Examine memory at physical address addr
n Count of how many units to display
u Unit size; one of
b Individual bytes
h Halfwords (2 bytes)
w Words (4 bytes)
g Giant words (8 bytes)
NOTE: these are *not* typical Intel nomenclature sizes,
but they are consistent with GDB convention.
f Printing format. one of
x Print in hexadecimal
d Print in decimal
u Print in unsigned decimal
o Print in octal
t Print in binary
n, f, and u are optional parameters. u and f default to the last values
you used, or to w(words) and x(hex) if none have been supplied.
n currently defaults to 1. If none of these optional parameters are
used, no slash should be typed. addr is also optional. If you don't
specify it, it will be the value the next address (as if you had
specified n+1 in the last x command).
setpmem addr datasize val Set physical memory location of size
datasize to value val.
crc addr1 addr2 Show CRC32 for physical memory range addr1..addr2
info dirty Show physical pages dirtied (written to) since last display
Values displayed are the top 20 bits only (page addresses)
|
info r|reg|regs|registers List of CPU integer registers and their contents
info cpu List of all CPU registers and their contents
info fpu List of all FPU registers and their contents
info sse List of all SSE registers and their contents
info cr Show CR0-4 registers and their contents
info eflags Show decoded EFLAGS register
info break Information about current breakpoint status
info tab Show paging address translation |
set reg = expr Change a CPU register to value of expression.
Currently only general purpose registers are supported,
you may not change:
eflags, eip, cs, ss, ds, es, fs, gs.
Examples: set eax = 2+2/2
set esi = 2*eax+ebx
registers List of CPU registers and their contents
regs
reg
r
dump_cpu Dump complete CPU state
set_cpu Set complete CPU state
Format of "dump_cpu" and "set_cpu":
"eax:0x%x\n"
"ebx:0x%x\n"
"ecx:0x%x\n"
"edx:0x%x\n"
"ebp:0x%x\n"
"esi:0x%x\n"
"edi:0x%x\n"
"esp:0x%x\n"
"eflags:0x%x\n"
"eip:0x%x\n"
"cs:s=0x%x, dl=0x%x, dh=0x%x, valid=%u\n"
"ss:s=0x%x, dl=0x%x, dh=0x%x, valid=%u\n"
"ds:s=0x%x, dl=0x%x, dh=0x%x, valid=%u\n"
"es:s=0x%x, dl=0x%x, dh=0x%x, valid=%u\n"
"fs:s=0x%x, dl=0x%x, dh=0x%x, valid=%u\n"
"gs:s=0x%x, dl=0x%x, dh=0x%x, valid=%u\n"
"ldtr:s=0x%x, dl=0x%x, dh=0x%x, valid=%u\n"
"tr:s=0x%x, dl=0x%x, dh=0x%x, valid=%u\n"
"gdtr:base=0x%x, limit=0x%x\n"
"idtr:base=0x%x, limit=0x%x\n"
"dr0:0x%x\n"
"dr1:0x%x\n"
"dr2:0x%x\n"
"dr3:0x%x\n"
"dr4:0x%x\n"
"dr5:0x%x\n"
"dr6:0x%x\n"
"dr7:0x%x\n"
"cr0:0x%x\n"
"cr1:0x%x\n"
"cr2:0x%x\n"
"cr3:0x%x\n"
"cr4:0x%x\n"
"inhibit_int:%u\n"
"done\n"
Notes:
- s is the selector
- dl is the shadow descriptor low dword (4 byte quantitiy)
- dh is the shadow descriptor high dword (4 byte quantitiy)
- valid denotes if the segment register holds a validated shadow descriptor
- inhibit_int is set if the previous instruction was one which delays the
acceptance of interrupts by one instruction (STI, MOV SS)
- any errors encountered by the set_cpu command, are reported by
"Error: ...". They may be reported after any of the input lines,
or after the "done" line, during limit checks.
- A successful set_cpu command ends with the separate line:
"OK". |
disassemble start end Disassemble instructions in given linear address
range, inclusive of start, exclusive of end.
Use "set $disassemble_size =" to tell
debugger desired segment size. Use a value for
end of less than start (or zero) if you only
want the first instruction disassembled.
disassemble switch-mode Switch between Intel and AT&T disassebly styles
for debugger disassembler.
disassemble size = n Tell debugger what segment size to use when
the "disassemble" command is used. Use values
of 0, 16 or 32 for n. Value of 0 means
"use segment size specified by current CS
segment". Default is 0.
set $auto_disassemble = n Cause debugger to disassemble current instruction
every time execution stops if n=1. Default is 0.
Segment size of current CPU context is used for
disassembly, so the "disassemble size" variable is
ignored.
set disassemble on The same as 'set $auto_disassemble = 1'
set disassemble off The same as 'set $auto_disassemble = 0' |
trace on Disassemble every executed instruction. Note
that instructions which caused exceptions are
not really executed, and therefore not traced.
trace off Disable instruction tracing. |
To use instrumentation features in bochs, you must compile in support for it. You should build a custom instrumentation library in a separate directory in the "instrument/" directory. To tell configure which instrumentation library you want to use, use the "--enable-instrumentation" option. The default library consists of a set of stubs, and the following are equivalent:
./configure [...] --enable-instrumentation
./configure [...] --enable-instrumentation="instrument/stubs" |
You could make a separate directory with your custom library, for example "instrument/myinstrument", copy the contents of the "instrument/stubs" directory to it, then customize it. Use:
./configure [...] --enable-instrumentation="instrument/myinstrument" |
instrument start calls bx_instr_start()
instrument stop calls bx_instr_stop()
instrument reset calls bx_instr_reset()
instrument print calls bx_instr_print() |
Print the current time (number of ticks since start of simulation).
Insert a time break point "delta" instructions into the future ("delta" is a 64-bit integer followed by "L", for example 1000L).
Insert a time break point at "time" ("time" is a 64-bit integer followed by "L", for example 1000L).
Record console input to file
filename. The file consists of zero or more lines of the form "%s %d %x", where the first word is the event type, the second is a time stamp and the third is event specific data.
Playback console input from file
filename. Additional input can be given directly in the console window. Events in the file will be played back at times relative to the time when the playback command was executed.
Print the
num words top 16-bit words on the stack.
Num words defaults to 16. Only works reliably in protected mode when the base address of the stack segment is zero.
Stop the simulation (and return to prompt) when a watch point is encountered.
Do not stop the simulation when watch points are encountered. They will still be logged.
Print current watch point status.
Remove all watch points.
Insert a read watch point at physical address
address.
Insert a write watch point at physical address
address.
Remove read watch point from physical address
address.
Remove write watch point from physical address
address.
Toggles CPU mode switch breakpoint.
load-symbols [global] filename [offset] |
Load symbols from file
filename. If the global keyword is added, then the the symbols will be visible in all contexts for which symbols have not been loaded.
Offset (default is 0) is added to every symbol entry. The symbols are loaded in the current (executing) context.
The symbol file consists of zero or more lines of the format
.
Toggles show symbolic info (calls to begin with).
show - shows current show mode
show mode - show, when processor switch mode
show int - show, when interrupt is happens
show call - show, when call is happens
show ret - show, when iret is happens
show off - toggles off symbolic info
show dbg-all - turn on all show flags
show dbg-none - turn off all show flags |