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PANIC(9) FreeBSD Kernel Developer's Manual PANIC(9)
NAME
panic - bring down system on fatal error
SYNOPSIS
#include <sys/types.h>
#include <sys/systm.h>
extern char *panicstr;
void
panic(const char *fmt, ...);
void
vpanic(const char *fmt, va_list ap);
KERNEL_PANICKED();
DESCRIPTION
The panic() and vpanic() functions terminate the running system. The
message fmt is a printf(3) style format string. The message is printed
to the console and panicstr is set pointing to the address of the message
text. This can be retrieved from a core dump at a later time.
Upon entering the panic() function the panicking thread disables
interrupts and calls critical_enter(9). This prevents the thread from
being preempted or interrupted while the system is still in a running
state. Next, it will instruct the other CPUs in the system to stop.
This synchronizes with other threads to prevent concurrent panic
conditions from interfering with one another. In the unlikely event of
concurrent panics, only one panicking thread will proceed.
Control will be passed to the kernel debugger via kdb_enter(). This is
conditional on a debugger being installed and enabled by the
debugger_on_panic variable; see ddb(4) and gdb(4). The debugger may
initiate a system reset, or it may eventually return.
Finally, kern_reboot(9) is called to restart the system, and a kernel
dump will be requested. If panic() is called recursively (from the disk
sync routines, for example), kern_reboot() will be instructed not to sync
the disks.
The vpanic() function implements the main body of panic(). It is
suitable to be called by functions which perform their own variable-
length argument processing. In all other cases, panic() is preferred.
The KERNEL_PANICKED() macro is the preferred way to determine if the
system has panicked. It returns a boolean value. Most often this is
used to avoid taking an action that cannot possibly succeed in a panic
context.
EXECUTION CONTEXT
Once the panic has been initiated, code executing in a panic context is
subject to the following restrictions:
o Single-threaded execution. The scheduler is disabled, and other CPUs
are stopped/forced idle. Functions that manipulate the scheduler
state must be avoided. This includes, but is not limited to,
o Lock acquisition/release will be ignored, meaning these operations
will appear to succeed.
o Sleeping on a resource is not strictly prohibited, but will result in
an immediate return from the sleep function. Time-based sleeps such
as pause(9) may be performed as a busy-wait.
RETURN VALUES
The panic() and vpanic() functions do not return.
SEE ALSO
printf(3), ddb(4), gdb(4), KASSERT(9), kern_reboot(9)
FreeBSD 14.0-RELEASE-p11 March 17, 2023 FreeBSD 14.0-RELEASE-p11