Re: [Crash-utility] Kernel Crash Analysis on Android
by Shankar, AmarX
Hi Dave,
Thanks for your info regarding kexec tool.
I am unable to download kexec from below link.
http://www.kernel.org/pub/linux/kernel/people/horms/kexec-tools/kexec-too...
It says HTTP 404 Page Not Found.
Could you please guide me on this?
Thanks & Regards,
Amar Shankar
> On Wed, Mar 21, 2012 at 06:00:00PM +0000, Shankar, AmarX wrote:
>
> > I want to do kernel crash Analysis on Android Merrifield Target.
> >
> > Could someone please help me how to do it?
>
> Merrifield is pretty much similar than Medfield, e.g it has x86 core. So I
> guess you can follow the instructions how to setup kdump on x86 (see
> Documentation/kdump/kdump.txt) unless you already have that configured.
>
> crash should support this directly presuming you have vmlinux/vmcore files to
> feed it. You can configure crash to support x86 on x86_64 host by running:
>
> % make target=X86
> & make
>
> (or something along those lines).
Right -- just the first make command will suffice, i.e., when running
on an x86_64 host:
$ wget http://people.redhat.com/anderson/crash-6.0.4.tar.gz
$ tar xzf crash-6.0.4.tar.gz
...
$ cd crash-6.0.4
$ make target=X86
...
$ ./crash <path-to>/vmlinux <path-to>/vmcore
Dave
From: Shankar, AmarX
Sent: Wednesday, March 21, 2012 11:30 PM
To: 'crash-utility(a)redhat.com'
Subject: Kernel Crash Analysis on Android
Hi,
I want to do kernel crash Analysis on Android Merrifield Target.
Could someone please help me how to do it?
Thanks & Regards,
Amar Shankar
11 months, 4 weeks
[PATCH] kmem, snap: iomem/ioport display and vmcore snapshot support
by HATAYAMA Daisuke
Some days ago I was in a situation that I had to convert vmcore in
kvmdump format into ELF since some extension module we have locally
can be used only on relatively old crash utility, around version 4,
but such old crash utility cannot handle kvmdump format.
To do the conversion in handy, I used snap command with some modifications
so that it tries to use iomem information in vmcore instead of host's
/proc/iomem. This patch is its cleaned-up version.
In this development, I naturally got down to also making an interface
for an access to resource objects, and so together with the snap
command's patch, I also extended kmem command for iomem/ioport
support. Actually:
kmem -r displays /proc/iomem
crash> kmem -r
00000000-0000ffff : reserved
00010000-0009dbff : System RAM
0009dc00-0009ffff : reserved
000c0000-000c7fff : Video ROM
...
and kmem -R displays /proc/ioport
crash> kmem -R
0000-001f : dma1
0020-0021 : pic1
0040-0043 : timer0
0050-0053 : timer1
...
Looking into old version of kernel source code back, resource structure
has been unchanged since linux-2.4.0. I borrowed the way of walking on
resouce tree in this patch from the lastest v3.3-rc series, but I
guess the logic is also applicable to old kernels. I expect Dave's
regression testsuite.
Also, there would be another command more sutable for iomem/ioport.
If necessay, I'll repost the patch.
---
HATAYAMA Daisuke (4):
Add vmcore snapshot support
Add kmem -r and -R options
Add dump iomem/ioport functions; a helper for resource objects
Add a helper function for iterating resource objects
defs.h | 9 ++++
extensions/snap.c | 54 ++++++++++++++++++++++-
help.c | 2 +
memory.c | 122 +++++++++++++++++++++++++++++++++++++++++++++++++++--
4 files changed, 180 insertions(+), 7 deletions(-)
--
Thanks.
HATAYAMA Daisuke
11 months, 4 weeks
Re: [Crash-utility] question about phys_base
by Dave Anderson
----- Original Message -----
> >
> > OK, so then I don't understand what you mean by "may be the same"?
> >
> > You didn't answer my original question, but if I understand you correctly,
> > it would be impossible for the qemu host to create a PT_LOAD segment that
> > describes an x86_64 guest's __START_KERNEL_map region, because the host
> > doesn't know that what kind of kernel the guest is running.
>
> Yes. Even if the guest is linux, it is still impossible to do it. Because
> the guest maybe in the second kernel.
>
> qemu-dump walks all guest's page table and collect virtual address and
> physical address mapping. If the page is not used by guest, the virtual is set
> to 0. I create PT_LOAD according to such mapping. So if the guest is linux,
> there may be a PT_LOAD segment that describes __START_KERNEL_map region.
> But the information stored in PT_LOAD maybe for the second kernel. If crash
> uses it, crash will see the second kernel, not the first kernel.
Just to be clear -- what do you mean by the "second" kernel? Do you
mean that a guest kernel crashed guest, and did a kdump operation,
and that second kdump kernel failed somehow, and now you're trying
to do a "virsh dump" on the kdump kernel?
Dave
11 months, 4 weeks
question about phys_base
by Wen Congyang
Hi, Dave
I am implementing a new dump command in the qemu. The vmcore's
format is elf(like kdump). And I try to provide phys_base in
the PT_LOAD. But if the os uses the first vcpu do kdump, the
value of phys_base is wrong.
I find a function x86_64_virt_phys_base() in crash's code.
Is it OK to call this function first? If the function
successes, we do not calculate phys_base according to PT_LOAD.
Thanks
Wen Congyang
11 months, 4 weeks
[PATCH] runq: search current task's runqueue explicitly
by HATAYAMA Daisuke
Currently, runq sub-command doesn't consider CFS runqueue's current
task removed from CFS runqueue. Due to this, the remaining CFS
runqueus that follow the current task's is not displayed. This patch
fixes this by making runq sub-command search current task's runqueue
explicitly.
Note that CFS runqueue exists for each task group, and so does CFS
runqueue's current task, and the above search needs to be done
recursively.
Test
====
On vmcore I made 7 task groups:
root group --- A --- AA --- AAA
+ +- AAB
|
+- AB --- ABA
+- ABB
and then I ran three CPU bound tasks, which is exactly the same as
int main(void) { for (;;) continue; return 0; }
for each task group, including root group; so total 24 tasks. For
readability, I annotated each task name with its belonging group name.
For example, loop.ABA belongs to task group ABA.
Look at CPU0 collumn below. [before] lacks 8 tasks and [after]
successfully shows all tasks on the runqueue, which is identical to
the result of [sched debug] that is expected to ouput correct result.
I'll send this vmcore later.
[before]
crash> runq | cat
CPU 0 RUNQUEUE: ffff88000a215f80
CURRENT: PID: 28263 TASK: ffff880037aaa040 COMMAND: "loop.ABA"
RT PRIO_ARRAY: ffff88000a216098
[no tasks queued]
CFS RB_ROOT: ffff88000a216010
[120] PID: 28262 TASK: ffff880037cc40c0 COMMAND: "loop.ABA"
<cut>
[after]
crash_fix> runq
CPU 0 RUNQUEUE: ffff88000a215f80
CURRENT: PID: 28263 TASK: ffff880037aaa040 COMMAND: "loop.ABA"
RT PRIO_ARRAY: ffff88000a216098
[no tasks queued]
CFS RB_ROOT: ffff88000a216010
[120] PID: 28262 TASK: ffff880037cc40c0 COMMAND: "loop.ABA"
[120] PID: 28271 TASK: ffff8800787a8b40 COMMAND: "loop.ABB"
[120] PID: 28272 TASK: ffff880037afd580 COMMAND: "loop.ABB"
[120] PID: 28245 TASK: ffff8800785e8b00 COMMAND: "loop.AB"
[120] PID: 28246 TASK: ffff880078628ac0 COMMAND: "loop.AB"
[120] PID: 28241 TASK: ffff880078616b40 COMMAND: "loop.AA"
[120] PID: 28239 TASK: ffff8800785774c0 COMMAND: "loop.AA"
[120] PID: 28240 TASK: ffff880078617580 COMMAND: "loop.AA"
[120] PID: 28232 TASK: ffff880079b5d4c0 COMMAND: "loop.A"
<cut>
[sched debug]
crash> runq -d
CPU 0
[120] PID: 28232 TASK: ffff880079b5d4c0 COMMAND: "loop.A"
[120] PID: 28239 TASK: ffff8800785774c0 COMMAND: "loop.AA"
[120] PID: 28240 TASK: ffff880078617580 COMMAND: "loop.AA"
[120] PID: 28241 TASK: ffff880078616b40 COMMAND: "loop.AA"
[120] PID: 28245 TASK: ffff8800785e8b00 COMMAND: "loop.AB"
[120] PID: 28246 TASK: ffff880078628ac0 COMMAND: "loop.AB"
[120] PID: 28262 TASK: ffff880037cc40c0 COMMAND: "loop.ABA"
[120] PID: 28263 TASK: ffff880037aaa040 COMMAND: "loop.ABA"
[120] PID: 28271 TASK: ffff8800787a8b40 COMMAND: "loop.ABB"
[120] PID: 28272 TASK: ffff880037afd580 COMMAND: "loop.ABB"
<cut>
Diff stat
=========
defs.h | 1 +
task.c | 37 +++++++++++++++++--------------------
2 files changed, 18 insertions(+), 20 deletions(-)
Thanks.
HATAYAMA, Daisuke
11 months, 4 weeks
[RFC] makedumpfile, crash: LZO compression support
by HATAYAMA Daisuke
Hello,
This is a RFC patch set that adds LZO compression support to
makedumpfile and crash utility. LZO is as good as in size but by far
better in speed than ZLIB, leading to reducing down time during
generation of crash dump and refiltering.
How to build:
1. Get LZO library, which is provided as lzo-devel package on recent
linux distributions, and is also available on author's website:
http://www.oberhumer.com/opensource/lzo/.
2. Apply the patch set to makedumpfile v1.4.0 and crash v6.0.0.
3. Build both using make. But for crash, do the following now:
$ make CFLAGS="-llzo2"
How to use:
I've newly used -l option for lzo compression in this patch. So for
example, do as follows:
$ makedumpfile -l vmcore dumpfile
$ crash vmlinux dumpfile
Request of configure-like feature for crash utility:
I would like configure-like feature on crash utility for users to
select wheather to add LZO feature actually or not in build-time,
that is: ./configure --enable-lzo or ./configure --disable-lzo.
The reason is that support staff often downloads and installs the
latest version of crash utility on machines where lzo library is not
provided.
Looking at the source code, it looks to me that crash does some kind
of configuration processing in a local manner, around configure.c,
and I guess it's difficult to use autoconf tools directly.
Or is there another better way?
Performance Comparison:
Sample Data
Ideally, I must have measured the performance for many enough
vmcores generated from machines that was actually running, but now
I don't have enough sample vmcores, I couldn't do so. So this
comparison doesn't answer question on I/O time improvement. This
is TODO for now.
Instead, I choosed worst and best cases regarding compression
ratio and speed only. Specifically, the former is /dev/urandom and
the latter is /dev/zero.
I get the sample data of 10MB, 100MB and 1GB by doing like this:
$ dd bs=4096 count=$((1024*1024*1024/4096)) if=/dev/urandom of=urandom.1GB
How to measure
Then I performed compression for each block, 4096 bytes, and
measured total compression time and output size. See attached
mycompress.c.
Result
See attached file result.txt.
Discussion
For both kinds of data, lzo's compression was considerably quicker
than zlib's. Compression ratio is about 37% for urandom data, and
about 8.5% for zero data. Actual situation of physical memory
would be in between the two cases, and so I guess average
compression time ratio is between 37% and 8.5%.
Although beyond the topic of this patch set, we can estimate worst
compression time on more data size since compression is performed
block size wise and the compression time increases
linearly. Estimated worst time on 2TB memory is about 15 hours for
lzo and about 40 hours for zlib. In this case, compressed data
size is larger than the original, so they are really not used,
compression time is fully meaningless. I think compression must be
done in parallel, and I'll post such patch later.
Diffstat
* makedumpfile
diskdump_mod.h | 3 +-
makedumpfile.c | 98 +++++++++++++++++++++++++++++++++++++++++++++++++------
makedumpfile.h | 12 +++++++
3 files changed, 101 insertions(+), 12 deletions(-)
* crash
defs.h | 1 +
diskdump.c | 20 +++++++++++++++++++-
diskdump.h | 3 ++-
3 files changed, 22 insertions(+), 2 deletions(-)
TODO
* evaluation including I/O time using actual vmcores
Thanks.
HATAYAMA, Daisuke
11 months, 4 weeks
Re: [Crash-utility] [RFI] Support Fujitsu's sadump dump format
by tachibana@mxm.nes.nec.co.jp
Hi Hatayama-san,
On 2011/06/29 12:12:18 +0900, HATAYAMA Daisuke <d.hatayama(a)jp.fujitsu.com> wrote:
> From: Dave Anderson <anderson(a)redhat.com>
> Subject: Re: [Crash-utility] [RFI] Support Fujitsu's sadump dump format
> Date: Tue, 28 Jun 2011 08:57:42 -0400 (EDT)
>
> >
> >
> > ----- Original Message -----
> >> Fujitsu has stand-alone dump mechanism based on firmware level
> >> functionality, which we call SADUMP, in short.
> >>
> >> We've maintained utility tools internally but now we're thinking that
> >> the best is crash utility and makedumpfile supports the sadump format
> >> for the viewpoint of both portability and maintainability.
> >>
> >> We'll be of course responsible for its maintainance in a continuous
> >> manner. The sadump dump format is very similar to diskdump format and
> >> so kdump (compressed) format, so we estimate patch set would be a
> >> relatively small size.
> >>
> >> Could you tell me whether crash utility and makedumpfile can support
> >> the sadump format? If OK, we'll start to make patchset.
I think it's not bad to support sadump by makedumpfile. However I have
several questions.
- Do you want to use makedumpfile to make an existing file that sadump has
dumped small?
- It isn't possible to support the same form as kdump-compressed format
now, is it?
- When the information that makedumpfile reads from a note of /proc/vmcore
(or a header of kdump-compressed format) is added by an extension of
makedumpfile, do you need to modify sadump?
Thanks
tachibana
> >
> > Sure, yes, the crash utility can always support another dumpfile format.
> >
>
> Thanks. It helps a lot.
>
> > It's unclear to me how similar SADUMP is to diskdump/compressed-kdump.
> > Does your internal version patch diskdump.c, or do you maintain your
> > own "sadump.c"? I ask because if your patchset is at all intrusive,
> > I'd prefer it be kept in its own file, primarily for maintainability,
> > but also because SADUMP is essentially a black-box to anybody outside
> > Fujitsu.
>
> What I meant when I used ``similar'' is both literally and
> logically. The format consists of diskdump header-like header, two
> kinds of bitmaps used for the same purpose as those in diskump format,
> and memory data. They can be handled in common with the existing data
> structure, diskdump_data, non-intrusively, so I hope they are placed
> in diskdump.c.
>
> On the other hand, there's a code to be placed at such specific
> area. sadump is triggered depending on kdump's progress and so
> register values to be contained in vmcore varies according to the
> progress: If crash_notes has been initialized when sadump is
> triggered, sadump packs the register values in crash_notes; if not
> yet, packs registers gathered by firmware. This is sadump specific
> processing, so I think putting it in specific sadump.c file is a
> natural and reasonable choise.
>
> Anyway, I have not made any patch set for this. I'll post a patch set
> when I complete.
>
> Again, thanks a lot for the positive answer.
>
> Thanks.
> HATAYAMA, Daisuke
>
>
> _______________________________________________
> kexec mailing list
> kexec(a)lists.infradead.org
> http://lists.infradead.org/mailman/listinfo/kexec
11 months, 4 weeks
[RFC PATCH] struct: Fix handing of percpu symbols
by Aaron Tomlin
Hi Dave,
When a percpu symbol is of type pointer, the 'struct' command does
not generate the expected output. For example:
Note: The correct value of 'exec_start' should be
0x15b070b28b0c27 not 0x0
crash> struct task_struct.se.exec_start softlockup_watchdog:0
[0]: ffff880214e55a00
se.exec_start = 0x0,
crash> px softlockup_watchdog:0-1
per_cpu(softlockup_watchdog, 0) = $1 = (struct task_struct *) 0xffff880fe97e2e00
crash> px ((struct task_struct *)0xffff880fe97e2e00)->se.exec_start
$2 = 0x15b070b28b0c27
Currently, the 'struct' and 'p' command simply calculates 'cpuaddr' as
follows -- where 'addr' is a percpu's value:
cpuaddr = addr + __per_cpu_offset
This is correct if the percpu symbol or offset
(i.e. [percpu symbol:cpu-specifier] or [percpu value:cpu-specifier])
is not of type pointer. If a given percpu symbol is of type pointer such as
in 'static DEFINE_PER_CPU(struct task_struct *, softlockup_watchdog)', we
need to dereference the pointer to obtain the above correct kernel virtual
address.
For instance, using the above example, we need to pass the following to gdb
to resolve appropriately:
kernel virtual addresses for the cpus specified.
crash> set gdb on
gdb: on
gdb> p *(struct task_struct **) 0xffff880fffc0ddc0
$1 = (struct task_struct *) 0xffff880fe97e2e00
gdb>
With this patch, we now obtain the expected output:
crash> struct task_struct.se.exec_start softlockup_watchdog:0
[0]: ffff880214e55a00
se.exec_start = 0x15b070b28b0c27,
In short, this patch does the following:
1. Fix the handling of a percpu symbol which are of type pointer
2. The 'struct' and 'p' command is now able to correctly handle a
percpu symbol's value for example:
Note: we show the address of the percpu object irrespective of data type
crash> p f738
PER-CPU DATA TYPE:
struct task_struct *softlockup_watchdog;
PER-CPU ADDRESSES:
[0]: ffff88021e20f738
[1]: ffff88021e24f738
[2]: ffff88021e28f738
[3]: ffff88021e2cf738
crash> p f738:a
per_cpu(softlockup_watchdog, 0) = $5 = (struct task_struct *) 0xffff880214e55a00
per_cpu(softlockup_watchdog, 1) = $6 = (struct task_struct *) 0xffff88021498da00
per_cpu(softlockup_watchdog, 2) = $7 = (struct task_struct *) 0xffff8802149c3c00
per_cpu(softlockup_watchdog, 3) = $8 = (struct task_struct *) 0xffff880214b39e00
crash> struct task_struct.se.cfs_rq f738:a
[0]: ffff880214e55a00
se.cfs_rq = 0xffff88021e216e78,
[1]: ffff88021498da00
se.cfs_rq = 0xffff88021e256e78,
[2]: ffff8802149c3c00
se.cfs_rq = 0xffff88021e296e78,
[3]: ffff880214b39e00
se.cfs_rq = 0xffff88021e2d6e78,
Signed-off-by: Aaron Tomlin <atomlin(a)redhat.com>
---
symbols.c | 96 +++++++++++++++++++++++++++++++++++++++++++++++++++++----------
1 file changed, 82 insertions(+), 14 deletions(-)
diff --git a/symbols.c b/symbols.c
index 51d41d8..0ded35d 100644
--- a/symbols.c
+++ b/symbols.c
@@ -76,8 +76,11 @@ static void cmd_datatype_common(ulong);
static void do_datatype_addr(struct datatype_member *, ulong, int,
ulong, char **, int);
static void process_gdb_output(char *, unsigned, const char *, int);
+static char *expr_type_name(const char *);
static int display_per_cpu_info(struct syment *, int, char *);
static struct load_module *get_module_percpu_sym_owner(struct syment *);
+static struct syment *__per_cpu_symbol_search(char *);
+static struct syment *per_cpu_symbol_value_search(ulong);
static int is_percpu_symbol(struct syment *);
static void dump_percpu_symbols(struct load_module *);
static void print_struct_with_dereference(ulong, struct datatype_member *, ulong);
@@ -5119,17 +5122,8 @@ symbol_exists(char *symbol)
return(FALSE);
}
-/*
- * Determine whether a per-cpu symbol exists.
-
- * The old-style per-cpu symbol names were pre-pended with
- * "per_cpu__", whereas the new-style ones (as of 2.6.34)
- * are not. This function allows the symbol argument to
- * use either the old- or new-sytle format, and find either
- * type.
- */
struct syment *
-per_cpu_symbol_search(char *symbol)
+__per_cpu_symbol_search(char *symbol)
{
struct syment *sp;
char old[BUFSIZE];
@@ -5164,6 +5158,37 @@ per_cpu_symbol_search(char *symbol)
}
/*
+ * Determine whether a per-cpu symbol exists.
+
+ * The old-style per-cpu symbol names were pre-pended with
+ * "per_cpu__", whereas the new-style ones (as of 2.6.34)
+ * are not. This function allows the symbol argument to
+ * use either the old- or new-sytle format, and find either
+ * type.
+ */
+struct syment *
+per_cpu_symbol_search(char *symbol)
+{
+ struct syment *sp;
+ return sp = __per_cpu_symbol_search(symbol);
+}
+
+struct syment *
+per_cpu_symbol_value_search(ulong value)
+{
+ struct syment *sp;
+
+ if ((sp = symval_hash_search(value)) == NULL)
+ sp = st->symtable;
+
+ for (; sp < st->symend; sp++)
+ if (value == sp->value)
+ return sp = __per_cpu_symbol_search(sp->name);
+
+ return NULL;
+}
+
+/*
* Determine whether a static kernel symbol exists.
*/
int
@@ -5987,12 +6012,17 @@ cmd_datatype_common(ulong flags)
ulong list_head_offset;
int count;
int argc_members;
+ int ptype;
int optind_save;
unsigned int radix, restore_radix;
struct datatype_member datatype_member, *dm;
- char *separator;
- char *structname, *members;
- char *memberlist[MAXARGS];
+ char *separator;
+ char *structname, *members;
+ char *memberlist[MAXARGS];
+ char *typename;
+ char buf[BUFSIZE];
+ char *argv[MAXARGS];
+ FILE *tmpfp;
dm = &datatype_member;
count = 0xdeadbeef;
@@ -6000,9 +6030,11 @@ cmd_datatype_common(ulong flags)
list_head_offset = 0;
argc_members = 0;
radix = restore_radix = 0;
+ ptype = 0;
separator = members = NULL;
cpuspec = NULL;
cpus = NULL;
+ typename = NULL;
while ((c = getopt(argcnt, args, "pxdhfuc:rvol:")) != EOF) {
switch (c)
@@ -6104,6 +6136,10 @@ cmd_datatype_common(ulong flags)
if (pc->curcmd_flags & MEMTYPE_FILEADDR)
error(FATAL, "-f option cannot be used with percpu\n");
addr = htol(args[optind], FAULT_ON_ERROR, NULL);
+ if (!(sp = per_cpu_symbol_value_search(addr)))
+ error(FATAL,
+ "invalid percpu symbol value: %s\n",
+ args[optind]);
aflag++;
} else {
if (pc->curcmd_flags & MEMTYPE_FILEADDR)
@@ -6138,6 +6174,7 @@ cmd_datatype_common(ulong flags)
}
if (cpuspec) {
+ typename = expr_type_name(sp->name);
cpus = get_cpumask_buf();
if (STREQ(cpuspec, ""))
SET_BIT(cpus, CURRENT_CONTEXT()->processor);
@@ -6212,6 +6249,8 @@ cmd_datatype_common(ulong flags)
dm->name, memberlist[0]);
do_datatype_declaration(dm, flags | (dm->flags & TYPEDEF));
} else if (cpus) {
+ if (typename && (ptype = (LASTCHAR(typename) == '*')))
+ open_tmpfile2();
for (c = 0; c < kt->cpus; c++) {
ulong cpuaddr;
@@ -6227,9 +6266,25 @@ cmd_datatype_common(ulong flags)
continue;
}
+ if (ptype) {
+ snprintf(buf, sizeof buf, "p *(%s*) 0x%lx",
+ typename, cpuaddr);
+ gdb_pass_through(buf, pc->tmpfile2, GNU_RETURN_ON_ERROR);
+
+ rewind(pc->tmpfile2);
+ fgets(buf, BUFSIZE, pc->tmpfile2);
+ parse_line(buf, argv);
+ cpuaddr = htol(argv[3], FAULT_ON_ERROR, NULL);
+ rewind(pc->tmpfile2);
+ tmpfp = pc->tmpfile2;
+ pc->tmpfile2 = NULL;
+ }
fprintf(fp, "%lx\n", cpuaddr);
+
do_datatype_addr(dm, cpuaddr , count,
flags, memberlist, argc_members);
+ if (ptype)
+ set_tmpfile2(tmpfp);
}
} else
do_datatype_addr(dm, addr, count, flags,
@@ -6237,6 +6292,9 @@ cmd_datatype_common(ulong flags)
restore_current_radix(restore_radix);
+ if (ptype)
+ close_tmpfile2();
+
freebuf:
if (argc_members) {
FREEBUF(structname);
@@ -6245,6 +6303,9 @@ freebuf:
if (cpus)
FREEBUF(cpus);
+
+ if (typename)
+ FREEBUF(typename);
}
static void
@@ -6773,7 +6834,14 @@ cmd_p(void)
if (cpuspec)
*cpuspec++ = NULLCHAR;
- sp = NULL;
+ if (hexadecimal(args[optind], 0)) {
+ if ((sp = per_cpu_symbol_value_search(htol(args[optind],
+ FAULT_ON_ERROR, NULL)))) {
+ display_per_cpu_info(sp, radix, cpuspec);
+ return;
+ }
+ } else
+ sp = NULL;
if ((sp = symbol_search(args[optind])) && !args[optind+1]) {
if ((percpu_sp = per_cpu_symbol_search(args[optind])) &&
display_per_cpu_info(percpu_sp, radix, cpuspec))
--
2.5.5
8 years, 1 month
[PATH v4 0/2] fix kernel memory map handling for kaslr-enabled kernel
by AKASHI Takahiro
changes in v4:
* Fixed VA_BITS calculation for v4.5 or earlier
* Added 4-level address translation with 4KB page size
* Removed "fix a renaming of a member of struct page, _count to _refcount"
* Removed "kmem <vmalloc addr>" issue description from a commit message
(This was not a bug.)
Chnages in v3:
* Refined KASLR handling
hopefully the tool works even on a live system if CONFIG_RANDOMIZE_RAM is
not configured
* Fixed a renaming of a member of struct page
* Removed a commit message regarding an issue of backtracing a panic'ed task
because this is not a bug in this tool, but my kdump patch's.
* Reported "kmem <vmalloc addr>" issue in a commit message
changes in v2:
* Fixed build warnings
* Moved ARM64_NEW_VMEMMAP to machdep->flags
* Show additional kaslr-related parameters in arm64_dump_machdep_table()
* Handle a VMCOREINFO, "NUMBER(kimage_voffset)"
AKASHI Takahiro (2):
arm64: fix kernel memory map handling for kaslr-enabled kernel
arm64: add 4-level translation
arm64.c | 338 +++++++++++++++++++++++++++++++++++++++++++++++++++-----------
defs.h | 49 +++++++--
main.c | 7 +-
symbols.c | 12 ++-
4 files changed, 334 insertions(+), 72 deletions(-)
--
2.8.1
8 years, 5 months