One quick question is, can it improve hiberation/wakeup time?
Best regards
Hu, Fenghua
-----Original Message-----
From: [email protected] [mailto:[email protected]] On Behalf Of Huang, Ying
Sent: 2007年8月27日 9:14
To: Eric W. Biederman; Pavel Machek; [email protected]; Andrew Morton; Jeremy Maitin-Shepard; Alan Stern
Cc: [email protected]; Kexec Mailing List; [email protected]
Subject: [linux-pm] [RFC][PATCH 0/2 -mm] kexec based hibernation
Kexec base hibernation has some potential advantages over uswsusp and
TuxOnIce (suspend2). Some most obvious advantages are:
1. The hibernation image size can exceed half of memory size easily.
2. The hibernation image can be written to and read from almost
anywhere, such as USB disk, NFS.
3. It is possible to eliminate freezer from kexec based hibernation
implementation.
4. Based on kexec/kdump implementation, the kernel code needed is
less.
This patch set implements a prototype of kexec based hibernation. The
kernel functionalities added are as follow:
1. Jumping from kexeced kernel back to original kernel. This is used
by hibernation to save/load necessary state in original kernel and
jumping back to original kernel after restore the memory of
original kernel.
2. Add writing support to /dev/oldmem. This is used by hibernation to
restore the memory of original kernel.
The hibernation process with the patch set is as follow:
1. Boot a kernel A
2. Work under kernel A
3. Kexec another kernel B (crash dump enabled) in kernel A.
4. Save the memory image of kernel A through crash dump (such as "cp
/proc/vmcore ~"). Save the "jump buffer pfn".
5. Shutdown or reboot
The restore process with the patch set is as follow:
1. Boot a kernel C
2. Kexec another kernel D (crash dump enabled) in kernel C. The memory
area used by kernel D must be a subset of memory area used by
kernel B.
3. Restore the memory image of kernel A through /dev/oldmem. Restore
the "jump buffer pfn".
4. Jump from kernel D back to kernel A
5. Continue work under kernel A
The following user-space tools are needed to implement hibernation and
restore.
1. kexec-tools needs to be patched to support kexec jump. The patch is
attached in this mail. The precompiled kexec can be download from:
http://linux-mcr700.sourceforge.net/kjump/kexec
2. Memory image saving tool. Currently, the memory image saving is
done through: "cp /proc/vmcore <image file>". This will save all
memory pages of original kernel including the free pages. Maybe the
crash dump tool "makedumpfile" can be used for this, but it has not
been tested.
3. Memory image restore tool. A simplest memory image restoring tool
named "krestore" is implemented. It can be downloaded from
following URL:
source: http://linux-mcr700.sourceforge.net/kjump/krestore.tar.gz
binary: http://linux-mcr700.sourceforge.net/kjump/krestore
Known issues:
1. The kernel B run as a crashdump kernel in reserved memory
region. This is the biggest constrains of the patch set and planed
to be eliminated in the future version. That is, instead of
reserving memory region previously, the needed memory region is
backupped before kexec and restored after jumping back.
2. Another constrains of the patch set is that the CONFIG_ACPI must be
turned off to make kexec jump work. Because ACPI will put devices
into low power state, the kexeced kernel can not be booted properly
under it. This constrains can be eliminated by separating the
suspend method and hibernate method of the devices as proposed
earlier in the LKML.
3. The setup of hibernation/restore is fairly complex. I will continue
working on simplifying.
4. Memory pages including free pages of kernel A are saved. I think
the "makedumpfile" tool can be used to exclude "free pages", but I
have not tested it.
Now, only the i386 architecture is supported. The patch is based on
Linux kernel 2.6.23-rc3-mm1, and has been tested on my IBM T42.
Usage:
1. Compile kernel with following options selected:
CONFIG_X86_32=y
CONFIG_RELOCATABLE=y # not needed strictly, but it is more convenient with it
CONFIG_KEXEC=y
CONFIG_CRASH_DUMP=y # only needed by kexeced kernel to save/restore memory image
CONFIG_PM=y
CONFIG_KEXEC_JUMP=y
2. Download the kexec-tools-testing git tree, apply the kexec-tools
kjump patch and compile. The kexec-tools kjump patch is appended
with the mail. The precompiled kexec can be download from:
http://linux-mcr700.sourceforge.net/kjump/kexec
3. Download and compile the krestore tool. The source code and
precompiled binary can be downloaded from the following URL:
source: http://linux-mcr700.sourceforge.net/kjump/krestore.tar.gz
binary: http://linux-mcr700.sourceforge.net/kjump/krestore
4. Prepare 3 root partition used by kernel A, kernel B, kernel C,
refered as /dev/hda, /dev/hdb, /dev/hdc in following text. This is
not strictly necessary, I use this scheme for testing during
development.
5. Boot kernel compiled for normal usage (kernel A), the reserved
crash kernel memory region must be added to kernel command line as
follow:
crashkernel=<XX>M@<XX>M
Where, <XX> should be replaced by the real memory size and
position. I use 16M@32M in my testing.
6. Load kernel compiled for hibernating usage (kernel B) as a
crashdump kernel with kexec, the same kernel as that of 5 can be
used if CONFIG_RELOCATABLE=y and CONFIG_CRASH_DUMP=y are
selected. The kernel command line option as follow should be
appended to kernel command line.
kexec_jump_buf_pfn=`cat /sys/kernel/kexec_jump_buf_pfn`
The --elf64-core-headers should be specified in command line of
kexec, because only the 64bit ELF is supported by krestore tool.
For example, the shell command line can be as follow:
kexec -p /boot/bzImage --elf64-core-headers --append="root=/dev/hdb
single kexec_jump_buf_pfn=`cat /sys/kernel/kexec_jump_buf_pfn`"
7. Jump to the hibernating kernel (kernel B) with following shell
command line:
kexec -j
8. In the hibernating kernel (kernel B), the memory image of
hibernated kernel (kernel A) can be saved as follow:
cp /proc/vmcore .
cp /sys/kernel/kexec_jump_buf_pfn .
9. Shutdown or reboot in hibernating kernel (kernel B).
10. Boot kernel (kernel C) compiled for normal usage in another root
file system (/dev/hdc).
11. Load restore kernel (kernel D) in kernel C through kexec. This is
almost same as step 6. The root file system of kernel D should be
/dev/hdb.
12. In restore kernel (kernel D), the memory image of kernel A can be
restored as follow:
# get backup address through kernel command line
backup_addr=`cat /proc/cmdline | tr ' ' '\n' | grep kexec_backup | cut -d '=' -f 2`
cp kexec_jump_buf_pfn /sys/kernel/kexec_jump_buf_pfn
krestore -b $backup_addr vmcore
13. Jump back to hibernated kernel (kernel A)
kexec -b
---
Changelog of kexec-tools
A command line option -j/--jump-to is added to support jumping
to/executing the currently loaded kernel. A command line option
-b/--jump-back is added to support jumping back to the original
kernel. The implementation of options is to call corresponding
syscall.
For i386 architecture, the address of backup of 0~640k is passed to
kexeced kernel as a kernel command line option. This is used by
kexeced kernel to restore the backup.
This patch is against kexec-tools-testing git tree.
Index: kexec-tools/kexec/arch/i386/crashdump-x86.c
===================================================================
--- kexec-tools.orig/kexec/arch/i386/crashdump-x86.c 2007-08-17 13:48:51.000000000 +0800
+++ kexec-tools/kexec/arch/i386/crashdump-x86.c 2007-08-17 13:49:50.000000000 +0800
@@ -428,6 +428,29 @@
return 0;
}
+/* Adds the kexec_backup= command line parameter to command line. */
+static int cmdline_add_backup(char *cmdline, unsigned long addr)
+{
+ int cmdlen, len, align = 1024;
+ char str[30], *ptr;
+
+ /* Passing in kexec_backup=xxxK format. Saves space required
+ * in cmdline. Ensure 1K alignment*/
+ if (addr%align)
+ return -1;
+ addr = addr/align;
+ ptr = str;
+ strcpy(str, " kexec_backup=");
+ ptr += strlen(str);
+ ultoa(addr, ptr);
+ strcat(str, "K");
+ len = strlen(str);
+ cmdlen = strlen(cmdline) + len;
+ if (cmdlen > (COMMAND_LINE_SIZE - 1))
+ die("Command line overflow\n");
+ strcat(cmdline, str);
+ return 0;
+}
/*
* This routine is specific to i386 architecture to maintain the
@@ -575,6 +598,7 @@
return -1;
cmdline_add_memmap(mod_cmdline, memmap_p);
cmdline_add_elfcorehdr(mod_cmdline, elfcorehdr);
+ cmdline_add_backup(mod_cmdline, info->backup_start);
return 0;
}
Index: kexec-tools/kexec/kexec-syscall.h
===================================================================
--- kexec-tools.orig/kexec/kexec-syscall.h 2007-08-17 13:48:51.000000000 +0800
+++ kexec-tools/kexec/kexec-syscall.h 2007-08-24 13:44:22.000000000 +0800
@@ -21,6 +21,8 @@
#define LINUX_REBOOT_CMD_KEXEC_OLD 0x81726354
#define LINUX_REBOOT_CMD_KEXEC_OLD2 0x18263645
#define LINUX_REBOOT_CMD_KEXEC 0x45584543
+#define LINUX_REBOOT_CMD_KJUMP_TO 0x3928A5FD
+#define LINUX_REBOOT_CMD_KJUMP_BACK 0x4A39B60E
#ifdef __i386__
#define __NR_kexec_load 283
@@ -63,6 +65,15 @@
return (long) syscall(__NR_reboot, LINUX_REBOOT_MAGIC1, LINUX_REBOOT_MAGIC2, LINUX_REBOOT_CMD_KEXEC, 0);
}
+static inline long kexec_jump_to(void)
+{
+ return (long) syscall(__NR_reboot, LINUX_REBOOT_MAGIC1, LINUX_REBOOT_MAGIC2, LINUX_REBOOT_CMD_KJUMP_TO, 0);
+}
+
+static inline long kexec_jump_back(void)
+{
+ return (long) syscall(__NR_reboot, LINUX_REBOOT_MAGIC1, LINUX_REBOOT_MAGIC2, LINUX_REBOOT_CMD_KJUMP_BACK, 0);
+}
#define KEXEC_ON_CRASH 0x00000001
#define KEXEC_ARCH_MASK 0xffff0000
Index: kexec-tools/kexec/kexec.c
===================================================================
--- kexec-tools.orig/kexec/kexec.c 2007-08-17 13:48:51.000000000 +0800
+++ kexec-tools/kexec/kexec.c 2007-08-24 13:53:43.000000000 +0800
@@ -716,6 +716,33 @@
return -1;
}
+/*
+ * Jump to the new kernel
+ */
+static int my_jump_to(void)
+{
+ int result;
+
+ result = kexec_jump_to();
+ if (result)
+ fprintf(stderr, "kexec jump to failed: %s\n",
+ strerror(errno));
+ return result;
+}
+
+/*
+ * Jump back to the original kernel
+ */
+static int my_jump_back(void)
+{
+ int result;
+
+ result = kexec_jump_back();
+ fprintf(stderr, "kexec jump back failed: %s\n",
+ strerror(errno));
+ return -1;
+}
+
static void version(void)
{
printf(PACKAGE " " VERSION " released " RELEASE_DATE "\n");
@@ -743,6 +770,8 @@
" If capture kernel is being unloaded\n"
" specify -p with -u.\n"
" -e, --exec Execute a currently loaded kernel.\n"
+ " -j, --jump-to Jump to a currently loaded kernel.\n"
+ " -b, --jump-back Jump back to the original kernel.\n"
" -t, --type=TYPE Specify the new kernel is of this type.\n"
" --mem-min=<addr> Specify the lowest memory address to\n"
" load code into.\n"
@@ -773,6 +802,19 @@
return ret;
}
+static int kexec_crash_loaded(void)
+{
+ int ret;
+ FILE *fp;
+
+ fp = fopen("/sys/kernel/kexec_crash_loaded", "r");
+ if (fp == NULL)
+ return -1;
+ fscanf(fp, "%d", &ret);
+ fclose(fp);
+ return ret;
+}
+
/* check we retained the initrd */
void check_reuse_initrd(void)
{
@@ -803,6 +845,8 @@
{
int do_load = 1;
int do_exec = 0;
+ int do_jump_to = 0;
+ int do_jump_back = 0;
int do_shutdown = 1;
int do_sync = 1;
int do_ifdown = 0;
@@ -858,6 +902,22 @@
do_ifdown = 1;
do_exec = 1;
break;
+ case OPT_JUMP_TO:
+ do_load = 0;
+ do_shutdown = 0;
+ do_sync = 1;
+ do_ifdown = 0;
+ do_exec = 0;
+ do_jump_to = 1;
+ break;
+ case OPT_JUMP_BACK:
+ do_load = 0;
+ do_shutdown = 0;
+ do_sync = 1;
+ do_ifdown = 1;
+ do_exec = 0;
+ do_jump_back = 1;
+ break;
case OPT_TYPE:
type = optarg;
break;
@@ -936,6 +996,9 @@
if ((result == 0) && (do_shutdown || do_exec) && !kexec_loaded()) {
die("Nothing has been loaded!\n");
}
+ if ((result == 0) && do_jump_to && !kexec_crash_loaded()) {
+ die("Nothing has been loaded!\n");
+ }
if ((result == 0) && do_shutdown) {
result = my_shutdown();
}
@@ -949,6 +1012,12 @@
if ((result == 0) && do_exec) {
result = my_exec();
}
+ if ((result == 0) && do_jump_to) {
+ result = my_jump_to();
+ }
+ if ((result == 0) && do_jump_back) {
+ result = my_jump_back();
+ }
fflush(stdout);
fflush(stderr);
Index: kexec-tools/kexec/kexec.h
===================================================================
--- kexec-tools.orig/kexec/kexec.h 2007-08-17 13:48:51.000000000 +0800
+++ kexec-tools/kexec/kexec.h 2007-08-24 11:15:27.000000000 +0800
@@ -156,6 +156,8 @@
#define OPT_FORCE 'f'
#define OPT_NOIFDOWN 'x'
#define OPT_EXEC 'e'
+#define OPT_JUMP_TO 'j'
+#define OPT_JUMP_BACK 'b'
#define OPT_LOAD 'l'
#define OPT_UNLOAD 'u'
#define OPT_TYPE 't'
@@ -172,13 +174,15 @@
{ "load", 0, 0, OPT_LOAD }, \
{ "unload", 0, 0, OPT_UNLOAD }, \
{ "exec", 0, 0, OPT_EXEC }, \
+ { "jump-to", 0, 0, OPT_JUMP_TO }, \
+ { "jump-back", 0, 0, OPT_JUMP_BACK }, \
{ "type", 1, 0, OPT_TYPE }, \
{ "load-panic", 0, 0, OPT_PANIC }, \
{ "mem-min", 1, 0, OPT_MEM_MIN }, \
{ "mem-max", 1, 0, OPT_MEM_MAX }, \
{ "reuseinitrd", 0, 0, OPT_REUSE_INITRD }, \
-#define KEXEC_OPT_STR "hvdfxluet:p"
+#define KEXEC_OPT_STR "hvdfxluejbt:p"
extern void die(char *fmt, ...);
extern void *xmalloc(size_t size);
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