In some operating systems, such as HP-UX and Solaris, a single program may have more than one thread of execution. The precise semantics of threads differ from one operating system to another, but in general the threads of a single program are akin to multiple processes--except that they share one address space (that is, they can all examine and modify the same variables). On the other hand, each thread has its own registers and execution stack, and perhaps private memory.
gdb provides these facilities for debugging multi-thread programs:
automatic notification of new threads
thread threadno, a command to switch among threads
info threads, a command to inquire about existing threads
thread apply [threadno] [all] args, a command to apply a command to a list of threads
thread-specific breakpoints
Warning: These facilities are not yet available on every gdb configuration where the operating system supports threads. If your gdb does not support threads, these commands have no effect. For example, a system without thread support shows no output from info threads, and always rejects the thread command, like this:
(gdb) info threads (gdb) thread 1 Thread ID 1 not known. Use the "info threads" command to see the IDs of currently known threads.
The gdb thread debugging facility allows you to observe all threads while your program runs--but whenever gdb takes control, one thread in particular is always the focus of debugging. This thread is called the current thread. Debugging commands show program information from the perspective of the current thread.
Whenever gdb detects a new thread in your program, it displays the target system's identification for the thread with a message in the form [New systag]. systag is a thread identifier whose form varies depending on the particular system. For example, on LynxOS, you might see
[New process 35 thread 27] |
when gdb notices a new thread. In contrast, on an SGI system, the systag is simply something like process 368, with no further qualifier.
For debugging purposes, gdb associates its own thread number--always a single integer--with each thread in your program.
Display a summary of all threads currently in your program. gdb displays for each thread (in this order):
the thread number assigned by gdb
the target system's thread identifier (systag)
the current stack frame summary for that thread
An asterisk * to the left of the gdb thread number indicates the current thread.
For example,
(gdb) info threads 3 process 35 thread 27 0x34e5 in sigpause () 2 process 35 thread 23 0x34e5 in sigpause () * 1 process 35 thread 13 main (argc=1, argv=0x7ffffff8) at threadtest.c:68 |
On HP-UX systems:
For debugging purposes, gdb associates its own thread number--a small integer assigned in thread-creation order--with each thread in your program.
Whenever gdb detects a new thread in your program, it displays both gdb's thread number and the target system's identification for the thread with a message in the form [New systag]. systag is a thread identifier whose form varies depending on the particular system. For example, on HP-UX, you see
[New thread 2 (system thread 26594)] |
when gdb notices a new thread.
Display a summary of all threads currently in your program. gdb displays for each thread (in this order):
the thread number assigned by gdb
the target system's thread identifier (systag)
the current stack frame summary for that thread
An asterisk * to the left of the gdb thread number indicates the current thread.
For example,
(gdb) info threads * 3 system thread 26607 worker (wptr=0x7b09c318 "@") \ at quicksort.c:137 2 system thread 26606 0x7b0030d8 in __ksleep () \ from /usr/lib/libc.2 1 system thread 27905 0x7b003498 in _brk () \ from /usr/lib/libc.2 |
Make thread number threadno the current thread. The command argument threadno is the internal gdb thread number, as shown in the first field of the info threads display. gdb responds by displaying the system identifier of the thread you selected, and its current stack frame summary:
(gdb) thread 2 [Switching to process 35 thread 23] 0x34e5 in sigpause () |
As with the [New …] message, the form of the text after Switching to depends on your system's conventions for identifying threads.
The thread apply command allows you to apply a command to one or more threads. Specify the numbers of the threads that you want affected with the command argument threadno. threadno is the internal gdb thread number, as shown in the first field of the info threads display. To apply a command to all threads, use thread apply all args.
Whenever gdb stops your program, due to a breakpoint or a signal, it automatically selects the thread where that breakpoint or signal happened. gdb alerts you to the context switch with a message of the form [Switching to systag] to identify the thread.
Refer to Section 7.4 Stopping and starting multi-thread programs for more information about how gdb behaves when you stop and start programs with multiple threads.
Refer to Section 7.1.2 Setting watchpoints, for information about watchpoints in programs with multiple threads.