kexec_load, kexec_file_load - load a new kernel for later execution
#include <linux/kexec.h>
long kexec_load(unsigned long entry, unsigned long nr_segments,
struct kexec_segment *segments, unsigned long flags);
long kexec_file_load(int kernel_fd, int initrd_fd,
unsigned long cmdline_len, const char *cmdline,
unsigned long flags);
Note: There are no glibc wrappers for these system calls; see NOTES.
The
kexec_load() system call loads a new kernel that can be executed
later by
reboot(2).
The
flags argument is a bit mask that controls the operation of the call.
The following values can be specified in
flags:
- KEXEC_ON_CRASH (since Linux 2.6.13)
- Execute the new kernel automatically on a system crash. This "crash
kernel" is loaded into an area of reserved memory that is determined
at boot time using the crashkernel kernel command-line parameter.
The location of this reserved memory is exported to user space via the
/proc/iomem file, in an entry labeled "Crash kernel". A
user-space application can parse this file and prepare a list of segments
(see below) that specify this reserved memory as destination. If this flag
is specified, the kernel checks that the target segments specified in
segments fall within the reserved region.
- KEXEC_PRESERVE_CONTEXT (since Linux 2.6.27)
- Preserve the system hardware and software states before executing the new
kernel. This could be used for system suspend. This flag is available only
if the kernel was configured with CONFIG_KEXEC_JUMP, and is
effective only if nr_segments is greater than 0.
The high-order bits (corresponding to the mask 0xffff0000) of
flags
contain the architecture of the to-be-executed kernel. Specify (OR) the
constant
KEXEC_ARCH_DEFAULT to use the current architecture, or one of
the following architecture constants
KEXEC_ARCH_386,
KEXEC_ARCH_68K,
KEXEC_ARCH_X86_64,
KEXEC_ARCH_PPC,
KEXEC_ARCH_PPC64,
KEXEC_ARCH_IA_64,
KEXEC_ARCH_ARM,
KEXEC_ARCH_S390,
KEXEC_ARCH_SH,
KEXEC_ARCH_MIPS, and
KEXEC_ARCH_MIPS_LE. The architecture must be executable on the CPU of
the system.
The
entry argument is the physical entry address in the kernel image. The
nr_segments argument is the number of segments pointed to by the
segments pointer; the kernel imposes an (arbitrary) limit of 16 on the
number of segments. The
segments argument is an array of
kexec_segment structures which define the kernel layout:
struct kexec_segment {
void *buf; /* Buffer in user space */
size_t bufsz; /* Buffer length in user space */
void *mem; /* Physical address of kernel */
size_t memsz; /* Physical address length */
};
The kernel image defined by
segments is copied from the calling process
into the kernel either in regular memory or in reserved memory (if
KEXEC_ON_CRASH is set). The kernel first performs various sanity checks
on the information passed in
segments. If these checks pass, the kernel
copies the segment data to kernel memory. Each segment specified in
segments is copied as follows:
- *
- buf and bufsz identify a memory region in the caller's
virtual address space that is the source of the copy. The value in
bufsz may not exceed the value in the memsz field.
- *
- mem and memsz specify a physical address range that is the
target of the copy. The values specified in both fields must be multiples
of the system page size.
- *
- bufsz bytes are copied from the source buffer to the target kernel
buffer. If bufsz is less than memsz, then the excess bytes
in the kernel buffer are zeroed out.
In case of a normal kexec (i.e., the
KEXEC_ON_CRASH flag is not set), the
segment data is loaded in any available memory and is moved to the final
destination at kexec reboot time (e.g., when the
kexec(8) command is
executed with the
-e option).
In case of kexec on panic (i.e., the
KEXEC_ON_CRASH flag is set), the
segment data is loaded to reserved memory at the time of the call, and, after
a crash, the kexec mechanism simply passes control to that kernel.
The
kexec_load() system call is available only if the kernel was
configured with
CONFIG_KEXEC.
The
kexec_file_load() system call is similar to
kexec_load(), but
it takes a different set of arguments. It reads the kernel to be loaded from
the file referred to by the file descriptor
kernel_fd, and the initrd
(initial RAM disk) to be loaded from file referred to by the file descriptor
initrd_fd. The
cmdline argument is a pointer to a buffer
containing the command line for the new kernel. The
cmdline_len
argument specifies size of the buffer. The last byte in the buffer must be a
null byte ('\0').
The
flags argument is a bit mask which modifies the behavior of the call.
The following values can be specified in
flags:
- KEXEC_FILE_UNLOAD
- Unload the currently loaded kernel.
- KEXEC_FILE_ON_CRASH
- Load the new kernel in the memory region reserved for the crash kernel (as
for KEXEC_ON_CRASH). This kernel is booted if the currently running
kernel crashes.
- KEXEC_FILE_NO_INITRAMFS
- Loading initrd/initramfs is optional. Specify this flag if no initramfs is
being loaded. If this flag is set, the value passed in initrd_fd is
ignored.
The
kexec_file_load() system call was added to provide support for
systems where "kexec" loading should be restricted to only kernels
that are signed. This system call is available only if the kernel was
configured with
CONFIG_KEXEC_FILE.
On success, these system calls returns 0. On error, -1 is returned and
errno is set to indicate the error.
- EADDRNOTAVAIL
- The KEXEC_ON_CRASH flags was specified, but the region specified by
the mem and memsz fields of one of the segments
entries lies outside the range of memory reserved for the crash
kernel.
- EADDRNOTAVAIL
- The value in a mem or memsz field in one of the
segments entries is not a multiple of the system page size.
- EBADF
- kernel_fd or initrd_fd is not a valid file descriptor.
- EBUSY
- Another crash kernel is already being loaded or a crash kernel is already
in use.
- EINVAL
- flags is invalid.
- EINVAL
- The value of a bufsz field in one of the segments entries
exceeds the value in the corresponding memsz field.
- EINVAL
- nr_segments exceeds KEXEC_SEGMENT_MAX (16).
- EINVAL
- Two or more of the kernel target buffers overlap.
- EINVAL
- The value in cmdline[cmdline_len-1] is not '\0'.
- EINVAL
- The file referred to by kernel_fd or initrd_fd is empty
(length zero).
- ENOEXEC
- kernel_fd does not refer to an open file, or the kernel can't load
this file. Currently, the file must be a bzImage and contain an x86 kernel
that is loadable above 4 GiB in memory (see the kernel source file
Documentation/x86/boot.txt).
- ENOMEM
- Could not allocate memory.
- EPERM
- The caller does not have the CAP_SYS_BOOT capability.
The
kexec_load() system call first appeared in Linux 2.6.13. The
kexec_file_load() system call first appeared in Linux 3.17.
These system calls are Linux-specific.
Currently, there is no glibc support for these system calls. Call them using
syscall(2).
reboot(2),
syscall(2),
kexec(8)
The kernel source files
Documentation/kdump/kdump.txt and
Documentation/admin-guide/kernel-parameters.txt