Anthony's answer is awesome. Following his answer, I tried out another solution on Windows(x86-64 bits Windows). I know this question here is for GDB on Linux, however, I think this solution is a supplement for this kind of question. It might be helpful for others.
Solution on Windows
In Linux a call to
printf would result in call to the API
write. And because Linux is an open source OS, we could debug within the API. However, the API is different on Windows, it provided it's own API WriteFile. Due to Windows is a commercial non-open source OS, breakpoints could not be added in the APIs.
But some of the source code of VC is published together with Visual Studio, so we could find out in the source code where finally called the
WriteFile API and set a breakpoint there. After debugging on the sample code, I found the
printf method could result in a call to
_write_nolock in which
WriteFile is called. The function is located in:
The prototype is:
/* now define version that doesn't lock/unlock, validate fh */
int __cdecl _write_nolock (
const void *buf,
Compared to the
write API on Linux:
ssize_t write(int fd, const void *buf, size_t count);
They have totally the same parameters. So we could just set a
condition breakpoint in
_write_nolock just refer to the solutions above, with only some differences in detail.
Portable Solution for Both Win32 and x64
It is very lucky that we could use the name of parameters directly on Visual Studio when setting a condition for breakpoints on both Win32 and x64. So it becomes very easy to write the condition:
Add a breakpoints in
NOTICE: There are little difference on Win32 and x64. We could just use the function name to set the location of breakpoints on Win32. However, it won't work on x64 because in the entrance of the function, the parameters is not initialized. Therefore, we could not use the parameter name to set the condition of breakpoints.
But fortunately we have some work around: use the location in the function rather than the function name to set the breakpoints, e.g., the 1st line of the function. The parameters are already initialized there. (I mean use the
filename+line number to set the breakpoints, or open the file directly and set a breakpoint in the function, not the entrance but the first line. )
Restrict the condition:
fh == 1 && strstr((char *)buf, "Hello World") != 0
NOTICE: there is still a problem here, I tested two different ways to write something into stdout:
printf would write all the strings to the
_write_nolock function at once. However
std::cout would only pass character by character to
_write_nolock, which means the API would be called
strlen("your string") times. In this case, the condition could not be activated forever.
Of course we could use the same methods as
Anthony provided: set the condition of breakpoints by registers.
For a Win32 program, the solution is almost the same with
GDB on Linux. You might notice that there is a decorate
__cdecl in the prototype of
_write_nolock. This calling convention means:
- Argument-passing order is Right to left.
- Calling function pops the arguments from the stack.
- Name-decoration convention: Underscore character (_) is prefixed to names.
- No case translation performed.
There is a description here. And there is an example which is used to show the registers and stacks on Microsoft's website. The result could be found here.
Then it is very easy to set the condition of breakpoints:
- Set a breakpoint in
Restrict the condition:
*(int *)($esp + 4) == 1 && strstr(*(char **)($esp + 8), "Hello") != 0
It is the same method as on the Linux. The first condition is to make sure the string is written to
stdout. The second one is to match the specified string.
Two important modification from x86 to x64 are the 64-bit addressing capability and a flat set of 16 64-bit registers for general use. As the increase of registers, x64 only use
__fastcall as the calling convention. The first four integer arguments are passed in registers. Arguments five and higher are passed on the stack.
You could refer to the Parameter Passing page on Microsoft's website. The four registers (in order left to right) are
R9. So it is very easy to restrict the condition:
Set a breakpoint in
NOTICE: it's different from the portable solution above, we could just set the location of breakpoint to the function rather than the 1st line of the function. The reason is all the registers are already initialized at the entrance.
$rcx == 1 && strstr((char *)$rdx, "Hello") != 0
The reason why we need cast and dereference on
esp is that
$esp accesses the
ESP register, and for all intents and purposes is a
void*. While the registers here stores directly the values of parameters. So another level of indirection is not needed anymore.
I also enjoy this question very much, so I translated Anthony's post into Chinese and put my answer in it as a supplement. The post could be found here. Thanks for @anthony-arnold 's permission.