5.1.2 Setting Watchpoints

You can use a watchpoint to stop execution whenever the value of an expression changes, without having to predict a particular place where this may happen. (This is sometimes called a data breakpoint.) The expression may be as simple as the value of a single variable, or as complex as many variables combined by operators. Examples include:

• A reference to the value of a single variable.
• An address cast to an appropriate data type. For example, ‘*(int *)0x12345678’ will watch a 4-byte region at the specified address (assuming an int occupies 4 bytes).
• An arbitrarily complex expression, such as ‘a*b + c/d’. The expression can use any operators valid in the program’s native language (see Using ROCGDB with Different Languages).

You can set a watchpoint on an expression even if the expression can not be evaluated yet. For instance, you can set a watchpoint on ‘*global_ptr’ before ‘global_ptr’ is initialized. ROCGDB will stop when your program sets ‘global_ptr’ and the expression produces a valid value. If the expression becomes valid in some other way than changing a variable (e.g. if the memory pointed to by ‘*global_ptr’ becomes readable as the result of a malloc call), ROCGDB may not stop until the next time the expression changes.

Depending on your system, watchpoints may be implemented in software or hardware. ROCGDB does software watchpointing by single-stepping your program and testing the variable’s value each time, which is hundreds of times slower than normal execution. (But this may still be worth it, to catch errors where you have no clue what part of your program is the culprit.)

On some systems, such as most PowerPC or x86-based targets, ROCGDB includes support for hardware watchpoints, which do not slow down the running of your program.

watch [-l|-location] expr [thread thread-id] [mask maskvalue] [task task-id]

Set a watchpoint for an expression. ROCGDB will break when the expression expr is written into by the program and its value changes. The simplest (and the most popular) use of this command is to watch the value of a single variable:

(gdb) watch foo

If the command includes a [thread thread-id] argument, ROCGDB breaks only when the thread identified by thread-id changes the value of expr. If any other threads change the value of expr, ROCGDB will not break. Note that watchpoints restricted to a single thread in this way only work with Hardware Watchpoints.

Similarly, if the task argument is given, then the watchpoint will be specific to the indicated Ada task (see Extensions for Ada Tasks).

Ordinarily a watchpoint respects the scope of variables in expr (see below). The -location argument tells ROCGDB to instead watch the memory referred to by expr. In this case, ROCGDB will evaluate expr, take the address of the result, and watch the memory at that address. The type of the result is used to determine the size of the watched memory. If the expression’s result does not have an address, then ROCGDB will print an error.

The [mask maskvalue] argument allows creation of masked watchpoints, if the current architecture supports this feature (e.g., PowerPC Embedded architecture, see PowerPC Embedded.) A masked watchpoint specifies a mask in addition to an address to watch. The mask specifies that some bits of an address (the bits which are reset in the mask) should be ignored when matching the address accessed by the inferior against the watchpoint address. Thus, a masked watchpoint watches many addresses simultaneously—those addresses whose unmasked bits are identical to the unmasked bits in the watchpoint address. The mask argument implies -location. Examples:

(gdb) watch foo mask 0xffff00ff
(gdb) watch *0xdeadbeef mask 0xffffff00

rwatch [-l|-location] expr [thread thread-id] [mask maskvalue]

Set a watchpoint that will break when the value of expr is read by the program.

awatch [-l|-location] expr [thread thread-id] [mask maskvalue]

Set a watchpoint that will break when expr is either read from or written into by the program.

info watchpoints [list…]

This command prints a list of watchpoints, using the same format as info break (see Setting Breakpoints).

If you watch for a change in a numerically entered address you need to dereference it, as the address itself is just a constant number which will never change. ROCGDB refuses to create a watchpoint that watches a never-changing value:

(gdb) watch 0x600850
Cannot watch constant value 0x600850.
(gdb) watch *(int *) 0x600850
Watchpoint 1: *(int *) 6293584

ROCGDB sets a hardware watchpoint if possible. Hardware watchpoints execute very quickly, and the debugger reports a change in value at the exact instruction where the change occurs. If ROCGDB cannot set a hardware watchpoint, it sets a software watchpoint, which executes more slowly and reports the change in value at the next statement, not the instruction, after the change occurs.

You can force ROCGDB to use only software watchpoints with the set can-use-hw-watchpoints 0 command. With this variable set to zero, ROCGDB will never try to use hardware watchpoints, even if the underlying system supports them. (Note that hardware-assisted watchpoints that were set before setting can-use-hw-watchpoints to zero will still use the hardware mechanism of watching expression values.)

set can-use-hw-watchpoints ¶

Set whether or not to use hardware watchpoints.

show can-use-hw-watchpoints ¶

Show the current mode of using hardware watchpoints.

For remote targets, you can restrict the number of hardware watchpoints ROCGDB will use, see set remote hardware-breakpoint-limit.

When you issue the watch command, ROCGDB reports

Hardware watchpoint num: expr

if it was able to set a hardware watchpoint.

Currently, the awatch and rwatch commands can only set hardware watchpoints, because accesses to data that don’t change the value of the watched expression cannot be detected without examining every instruction as it is being executed, and ROCGDB does not do that currently. If ROCGDB finds that it is unable to set a hardware breakpoint with the awatch or rwatch command, it will print a message like this:

Expression cannot be implemented with read/access watchpoint.

Sometimes, ROCGDB cannot set a hardware watchpoint because the data type of the watched expression is wider than what a hardware watchpoint on the target machine can handle. For example, some systems can only watch regions that are up to 4 bytes wide; on such systems you cannot set hardware watchpoints for an expression that yields a double-precision floating-point number (which is typically 8 bytes wide). As a work-around, it might be possible to break the large region into a series of smaller ones and watch them with separate watchpoints.

If you set too many hardware watchpoints, ROCGDB might be unable to insert all of them when you resume the execution of your program. Since the precise number of active watchpoints is unknown until such time as the program is about to be resumed, ROCGDB might not be able to warn you about this when you set the watchpoints, and the warning will be printed only when the program is resumed:

Hardware watchpoint num: Could not insert watchpoint

If this happens, delete or disable some of the watchpoints.

Watching complex expressions that reference many variables can also exhaust the resources available for hardware-assisted watchpoints. That’s because ROCGDB needs to watch every variable in the expression with separately allocated resources.

If you call a function interactively using print or call, any watchpoints you have set will be inactive until ROCGDB reaches another kind of breakpoint or the call completes.

ROCGDB automatically deletes watchpoints that watch local (automatic) variables, or expressions that involve such variables, when they go out of scope, that is, when the execution leaves the block in which these variables were defined. In particular, when the program being debugged terminates, all local variables go out of scope, and so only watchpoints that watch global variables remain set. If you rerun the program, you will need to set all such watchpoints again. One way of doing that would be to set a code breakpoint at the entry to the main function and when it breaks, set all the watchpoints.

In multi-threaded programs, watchpoints will detect changes to the watched expression from every thread.

Warning: In multi-threaded programs, software watchpoints have only limited usefulness. If ROCGDB creates a software watchpoint, it can only watch the value of an expression in a single thread. If you are confident that the expression can only change due to the current thread’s activity (and if you are also confident that no other thread can become current), then you can use software watchpoints as usual. However, ROCGDB may not notice when a non-current thread’s activity changes the expression. (Hardware watchpoints, in contrast, watch an expression in all threads.)

See set remote hardware-watchpoint-limit.