freebsd-skq/sys/xen/interface/kexec.h
Roger Pau Monné 1a52c10530 Update Xen headers from 4.2 to 4.6
Pull the latest headers for Xen which allow us to add support for ARM and
use new features in FreeBSD.

This is a verbatim copy of the xen/include/public so every headers which
don't exits anymore in the Xen repositories have been dropped.

Note the interface version hasn't been bumped, it will be done in a
follow-up. Although, it requires fix in the code to get it compiled:

 - sys/xen/xen_intr.h: evtchn_port_t is already defined in the headers so
   drop it.

 - {amd64,i386}/include/intr_machdep.h: NR_EVENT_CHANNELS now depends on
   xen/interface/event_channel.h, so include it.

 - {amd64,i386}/{amd64,i386}/support.S: It's not neccessary to include
   machine/intr_machdep.h. This is also fixing build compilation with the
   new headers.

 - dev/xen/blkfront/blkfront.c: The typedef for blkif_request_segmenthas
   been dropped. So directly use struct blkif_request_segment

Finally, modify xen/interface/xen-compat.h to throw a preprocessing error if
__XEN_INTERFACE_VERSION__ is not set. This is allow us to catch any file
where xen/xen-os.h is not correctly included.

Submitted by:		Julien Grall <julien.grall@citrix.com>
Reviewed by:		royger
Differential Revision:	https://reviews.freebsd.org/D3805
Sponsored by:		Citrix Systems R&D
2015-10-06 11:29:44 +00:00

250 lines
8.8 KiB
C

/******************************************************************************
* kexec.h - Public portion
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*
* Xen port written by:
* - Simon 'Horms' Horman <horms@verge.net.au>
* - Magnus Damm <magnus@valinux.co.jp>
*/
#ifndef _XEN_PUBLIC_KEXEC_H
#define _XEN_PUBLIC_KEXEC_H
/* This file describes the Kexec / Kdump hypercall interface for Xen.
*
* Kexec under vanilla Linux allows a user to reboot the physical machine
* into a new user-specified kernel. The Xen port extends this idea
* to allow rebooting of the machine from dom0. When kexec for dom0
* is used to reboot, both the hypervisor and the domains get replaced
* with some other kernel. It is possible to kexec between vanilla
* Linux and Xen and back again. Xen to Xen works well too.
*
* The hypercall interface for kexec can be divided into three main
* types of hypercall operations:
*
* 1) Range information:
* This is used by the dom0 kernel to ask the hypervisor about various
* address information. This information is needed to allow kexec-tools
* to fill in the ELF headers for /proc/vmcore properly.
*
* 2) Load and unload of images:
* There are no big surprises here, the kexec binary from kexec-tools
* runs in userspace in dom0. The tool loads/unloads data into the
* dom0 kernel such as new kernel, initramfs and hypervisor. When
* loaded the dom0 kernel performs a load hypercall operation, and
* before releasing all page references the dom0 kernel calls unload.
*
* 3) Kexec operation:
* This is used to start a previously loaded kernel.
*/
#include "xen.h"
#if defined(__i386__) || defined(__x86_64__)
#define KEXEC_XEN_NO_PAGES 17
#endif
/*
* Prototype for this hypercall is:
* int kexec_op(int cmd, void *args)
* @cmd == KEXEC_CMD_...
* KEXEC operation to perform
* @args == Operation-specific extra arguments (NULL if none).
*/
/*
* Kexec supports two types of operation:
* - kexec into a regular kernel, very similar to a standard reboot
* - KEXEC_TYPE_DEFAULT is used to specify this type
* - kexec into a special "crash kernel", aka kexec-on-panic
* - KEXEC_TYPE_CRASH is used to specify this type
* - parts of our system may be broken at kexec-on-panic time
* - the code should be kept as simple and self-contained as possible
*/
#define KEXEC_TYPE_DEFAULT 0
#define KEXEC_TYPE_CRASH 1
/* The kexec implementation for Xen allows the user to load two
* types of kernels, KEXEC_TYPE_DEFAULT and KEXEC_TYPE_CRASH.
* All data needed for a kexec reboot is kept in one xen_kexec_image_t
* per "instance". The data mainly consists of machine address lists to pages
* together with destination addresses. The data in xen_kexec_image_t
* is passed to the "code page" which is one page of code that performs
* the final relocations before jumping to the new kernel.
*/
typedef struct xen_kexec_image {
#if defined(__i386__) || defined(__x86_64__)
unsigned long page_list[KEXEC_XEN_NO_PAGES];
#endif
unsigned long indirection_page;
unsigned long start_address;
} xen_kexec_image_t;
/*
* Perform kexec having previously loaded a kexec or kdump kernel
* as appropriate.
* type == KEXEC_TYPE_DEFAULT or KEXEC_TYPE_CRASH [in]
*
* Control is transferred to the image entry point with the host in
* the following state.
*
* - The image may be executed on any PCPU and all other PCPUs are
* stopped.
*
* - Local interrupts are disabled.
*
* - Register values are undefined.
*
* - The image segments have writeable 1:1 virtual to machine
* mappings. The location of any page tables is undefined and these
* page table frames are not be mapped.
*/
#define KEXEC_CMD_kexec 0
typedef struct xen_kexec_exec {
int type;
} xen_kexec_exec_t;
/*
* Load/Unload kernel image for kexec or kdump.
* type == KEXEC_TYPE_DEFAULT or KEXEC_TYPE_CRASH [in]
* image == relocation information for kexec (ignored for unload) [in]
*/
#define KEXEC_CMD_kexec_load_v1 1 /* obsolete since 0x00040400 */
#define KEXEC_CMD_kexec_unload_v1 2 /* obsolete since 0x00040400 */
typedef struct xen_kexec_load_v1 {
int type;
xen_kexec_image_t image;
} xen_kexec_load_v1_t;
#define KEXEC_RANGE_MA_CRASH 0 /* machine address and size of crash area */
#define KEXEC_RANGE_MA_XEN 1 /* machine address and size of Xen itself */
#define KEXEC_RANGE_MA_CPU 2 /* machine address and size of a CPU note */
#define KEXEC_RANGE_MA_XENHEAP 3 /* machine address and size of xenheap
* Note that although this is adjacent
* to Xen it exists in a separate EFI
* region on ia64, and thus needs to be
* inserted into iomem_machine separately */
#define KEXEC_RANGE_MA_BOOT_PARAM 4 /* Obsolete: machine address and size of
* the ia64_boot_param */
#define KEXEC_RANGE_MA_EFI_MEMMAP 5 /* machine address and size of
* of the EFI Memory Map */
#define KEXEC_RANGE_MA_VMCOREINFO 6 /* machine address and size of vmcoreinfo */
/*
* Find the address and size of certain memory areas
* range == KEXEC_RANGE_... [in]
* nr == physical CPU number (starting from 0) if KEXEC_RANGE_MA_CPU [in]
* size == number of bytes reserved in window [out]
* start == address of the first byte in the window [out]
*/
#define KEXEC_CMD_kexec_get_range 3
typedef struct xen_kexec_range {
int range;
int nr;
unsigned long size;
unsigned long start;
} xen_kexec_range_t;
#if __XEN_INTERFACE_VERSION__ >= 0x00040400
/*
* A contiguous chunk of a kexec image and it's destination machine
* address.
*/
typedef struct xen_kexec_segment {
union {
XEN_GUEST_HANDLE(const_void) h;
uint64_t _pad;
} buf;
uint64_t buf_size;
uint64_t dest_maddr;
uint64_t dest_size;
} xen_kexec_segment_t;
DEFINE_XEN_GUEST_HANDLE(xen_kexec_segment_t);
/*
* Load a kexec image into memory.
*
* For KEXEC_TYPE_DEFAULT images, the segments may be anywhere in RAM.
* The image is relocated prior to being executed.
*
* For KEXEC_TYPE_CRASH images, each segment of the image must reside
* in the memory region reserved for kexec (KEXEC_RANGE_MA_CRASH) and
* the entry point must be within the image. The caller is responsible
* for ensuring that multiple images do not overlap.
*
* All image segments will be loaded to their destination machine
* addresses prior to being executed. The trailing portion of any
* segments with a source buffer (from dest_maddr + buf_size to
* dest_maddr + dest_size) will be zeroed.
*
* Segments with no source buffer will be accessible to the image when
* it is executed.
*/
#define KEXEC_CMD_kexec_load 4
typedef struct xen_kexec_load {
uint8_t type; /* One of KEXEC_TYPE_* */
uint8_t _pad;
uint16_t arch; /* ELF machine type (EM_*). */
uint32_t nr_segments;
union {
XEN_GUEST_HANDLE(xen_kexec_segment_t) h;
uint64_t _pad;
} segments;
uint64_t entry_maddr; /* image entry point machine address. */
} xen_kexec_load_t;
DEFINE_XEN_GUEST_HANDLE(xen_kexec_load_t);
/*
* Unload a kexec image.
*
* Type must be one of KEXEC_TYPE_DEFAULT or KEXEC_TYPE_CRASH.
*/
#define KEXEC_CMD_kexec_unload 5
typedef struct xen_kexec_unload {
uint8_t type;
} xen_kexec_unload_t;
DEFINE_XEN_GUEST_HANDLE(xen_kexec_unload_t);
#else /* __XEN_INTERFACE_VERSION__ < 0x00040400 */
#define KEXEC_CMD_kexec_load KEXEC_CMD_kexec_load_v1
#define KEXEC_CMD_kexec_unload KEXEC_CMD_kexec_unload_v1
#define xen_kexec_load xen_kexec_load_v1
#define xen_kexec_load_t xen_kexec_load_v1_t
#endif
#endif /* _XEN_PUBLIC_KEXEC_H */
/*
* Local variables:
* mode: C
* c-file-style: "BSD"
* c-basic-offset: 4
* tab-width: 4
* indent-tabs-mode: nil
* End:
*/