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Linux/Documentation/admin-guide/kdump/kdump.rst

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Differences between /Documentation/admin-guide/kdump/kdump.rst (Architecture mips) and /Documentation/admin-guide/kdump/kdump.rst (Architecture sparc)


  1 ==============================================      1 ================================================================
  2 Documentation for Kdump - The kexec-based Cras      2 Documentation for Kdump - The kexec-based Crash Dumping Solution
  3 ==============================================      3 ================================================================
  4                                                     4 
  5 This document includes overview, setup, instal      5 This document includes overview, setup, installation, and analysis
  6 information.                                        6 information.
  7                                                     7 
  8 Overview                                            8 Overview
  9 ========                                            9 ========
 10                                                    10 
 11 Kdump uses kexec to quickly boot to a dump-cap     11 Kdump uses kexec to quickly boot to a dump-capture kernel whenever a
 12 dump of the system kernel's memory needs to be     12 dump of the system kernel's memory needs to be taken (for example, when
 13 the system panics). The system kernel's memory     13 the system panics). The system kernel's memory image is preserved across
 14 the reboot and is accessible to the dump-captu     14 the reboot and is accessible to the dump-capture kernel.
 15                                                    15 
 16 You can use common commands, such as cp, scp o     16 You can use common commands, such as cp, scp or makedumpfile to copy
 17 the memory image to a dump file on the local d     17 the memory image to a dump file on the local disk, or across the network
 18 to a remote system.                                18 to a remote system.
 19                                                    19 
 20 Kdump and kexec are currently supported on the     20 Kdump and kexec are currently supported on the x86, x86_64, ppc64,
 21 s390x, arm and arm64 architectures.                21 s390x, arm and arm64 architectures.
 22                                                    22 
 23 When the system kernel boots, it reserves a sm     23 When the system kernel boots, it reserves a small section of memory for
 24 the dump-capture kernel. This ensures that ong     24 the dump-capture kernel. This ensures that ongoing Direct Memory Access
 25 (DMA) from the system kernel does not corrupt      25 (DMA) from the system kernel does not corrupt the dump-capture kernel.
 26 The kexec -p command loads the dump-capture ke     26 The kexec -p command loads the dump-capture kernel into this reserved
 27 memory.                                            27 memory.
 28                                                    28 
 29 On x86 machines, the first 640 KB of physical      29 On x86 machines, the first 640 KB of physical memory is needed for boot,
 30 regardless of where the kernel loads. For simp     30 regardless of where the kernel loads. For simpler handling, the whole
 31 low 1M is reserved to avoid any later kernel o     31 low 1M is reserved to avoid any later kernel or device driver writing
 32 data into this area. Like this, the low 1M can     32 data into this area. Like this, the low 1M can be reused as system RAM
 33 by kdump kernel without extra handling.            33 by kdump kernel without extra handling.
 34                                                    34 
 35 On PPC64 machines first 32KB of physical memor     35 On PPC64 machines first 32KB of physical memory is needed for booting
 36 regardless of where the kernel is loaded and t     36 regardless of where the kernel is loaded and to support 64K page size
 37 kexec backs up the first 64KB memory.              37 kexec backs up the first 64KB memory.
 38                                                    38 
 39 For s390x, when kdump is triggered, the crashk     39 For s390x, when kdump is triggered, the crashkernel region is exchanged
 40 with the region [0, crashkernel region size] a     40 with the region [0, crashkernel region size] and then the kdump kernel
 41 runs in [0, crashkernel region size]. Therefor     41 runs in [0, crashkernel region size]. Therefore no relocatable kernel is
 42 needed for s390x.                                  42 needed for s390x.
 43                                                    43 
 44 All of the necessary information about the sys     44 All of the necessary information about the system kernel's core image is
 45 encoded in the ELF format, and stored in a res     45 encoded in the ELF format, and stored in a reserved area of memory
 46 before a crash. The physical address of the st     46 before a crash. The physical address of the start of the ELF header is
 47 passed to the dump-capture kernel through the      47 passed to the dump-capture kernel through the elfcorehdr= boot
 48 parameter. Optionally the size of the ELF head     48 parameter. Optionally the size of the ELF header can also be passed
 49 when using the elfcorehdr=[size[KMG]@]offset[K     49 when using the elfcorehdr=[size[KMG]@]offset[KMG] syntax.
 50                                                    50 
 51 With the dump-capture kernel, you can access t     51 With the dump-capture kernel, you can access the memory image through
 52 /proc/vmcore. This exports the dump as an ELF-     52 /proc/vmcore. This exports the dump as an ELF-format file that you can
 53 write out using file copy commands such as cp      53 write out using file copy commands such as cp or scp. You can also use
 54 makedumpfile utility to analyze and write out      54 makedumpfile utility to analyze and write out filtered contents with
 55 options, e.g with '-d 31' it will only write o     55 options, e.g with '-d 31' it will only write out kernel data. Further,
 56 you can use analysis tools such as the GNU Deb     56 you can use analysis tools such as the GNU Debugger (GDB) and the Crash
 57 tool to debug the dump file. This method ensur     57 tool to debug the dump file. This method ensures that the dump pages are
 58 correctly ordered.                                 58 correctly ordered.
 59                                                    59 
 60 Setup and Installation                             60 Setup and Installation
 61 ======================                             61 ======================
 62                                                    62 
 63 Install kexec-tools                                63 Install kexec-tools
 64 -------------------                                64 -------------------
 65                                                    65 
 66 1) Login as the root user.                         66 1) Login as the root user.
 67                                                    67 
 68 2) Download the kexec-tools user-space package     68 2) Download the kexec-tools user-space package from the following URL:
 69                                                    69 
 70 http://kernel.org/pub/linux/utils/kernel/kexec     70 http://kernel.org/pub/linux/utils/kernel/kexec/kexec-tools.tar.gz
 71                                                    71 
 72 This is a symlink to the latest version.           72 This is a symlink to the latest version.
 73                                                    73 
 74 The latest kexec-tools git tree is available a     74 The latest kexec-tools git tree is available at:
 75                                                    75 
 76 - git://git.kernel.org/pub/scm/utils/kernel/ke     76 - git://git.kernel.org/pub/scm/utils/kernel/kexec/kexec-tools.git
 77 - http://www.kernel.org/pub/scm/utils/kernel/k     77 - http://www.kernel.org/pub/scm/utils/kernel/kexec/kexec-tools.git
 78                                                    78 
 79 There is also a gitweb interface available at      79 There is also a gitweb interface available at
 80 http://www.kernel.org/git/?p=utils/kernel/kexe     80 http://www.kernel.org/git/?p=utils/kernel/kexec/kexec-tools.git
 81                                                    81 
 82 More information about kexec-tools can be foun     82 More information about kexec-tools can be found at
 83 http://horms.net/projects/kexec/                   83 http://horms.net/projects/kexec/
 84                                                    84 
 85 3) Unpack the tarball with the tar command, as     85 3) Unpack the tarball with the tar command, as follows::
 86                                                    86 
 87         tar xvpzf kexec-tools.tar.gz               87         tar xvpzf kexec-tools.tar.gz
 88                                                    88 
 89 4) Change to the kexec-tools directory, as fol     89 4) Change to the kexec-tools directory, as follows::
 90                                                    90 
 91         cd kexec-tools-VERSION                     91         cd kexec-tools-VERSION
 92                                                    92 
 93 5) Configure the package, as follows::             93 5) Configure the package, as follows::
 94                                                    94 
 95         ./configure                                95         ./configure
 96                                                    96 
 97 6) Compile the package, as follows::               97 6) Compile the package, as follows::
 98                                                    98 
 99         make                                       99         make
100                                                   100 
101 7) Install the package, as follows::              101 7) Install the package, as follows::
102                                                   102 
103         make install                              103         make install
104                                                   104 
105                                                   105 
106 Build the system and dump-capture kernels         106 Build the system and dump-capture kernels
107 -----------------------------------------         107 -----------------------------------------
108 There are two possible methods of using Kdump.    108 There are two possible methods of using Kdump.
109                                                   109 
110 1) Build a separate custom dump-capture kernel    110 1) Build a separate custom dump-capture kernel for capturing the
111    kernel core dump.                              111    kernel core dump.
112                                                   112 
113 2) Or use the system kernel binary itself as d    113 2) Or use the system kernel binary itself as dump-capture kernel and there is
114    no need to build a separate dump-capture ke    114    no need to build a separate dump-capture kernel. This is possible
115    only with the architectures which support a    115    only with the architectures which support a relocatable kernel. As
116    of today, i386, x86_64, ppc64, arm and arm6    116    of today, i386, x86_64, ppc64, arm and arm64 architectures support
117    relocatable kernel.                            117    relocatable kernel.
118                                                   118 
119 Building a relocatable kernel is advantageous     119 Building a relocatable kernel is advantageous from the point of view that
120 one does not have to build a second kernel for    120 one does not have to build a second kernel for capturing the dump. But
121 at the same time one might want to build a cus    121 at the same time one might want to build a custom dump capture kernel
122 suitable to his needs.                            122 suitable to his needs.
123                                                   123 
124 Following are the configuration setting requir    124 Following are the configuration setting required for system and
125 dump-capture kernels for enabling kdump suppor    125 dump-capture kernels for enabling kdump support.
126                                                   126 
127 System kernel config options                      127 System kernel config options
128 ----------------------------                      128 ----------------------------
129                                                   129 
130 1) Enable "kexec system call" or "kexec file b    130 1) Enable "kexec system call" or "kexec file based system call" in
131    "Processor type and features."::               131    "Processor type and features."::
132                                                   132 
133         CONFIG_KEXEC=y or CONFIG_KEXEC_FILE=y     133         CONFIG_KEXEC=y or CONFIG_KEXEC_FILE=y
134                                                   134 
135    And both of them will select KEXEC_CORE::      135    And both of them will select KEXEC_CORE::
136                                                   136 
137         CONFIG_KEXEC_CORE=y                       137         CONFIG_KEXEC_CORE=y
138                                                   138 
139 2) Enable "sysfs file system support" in "File    139 2) Enable "sysfs file system support" in "Filesystem" -> "Pseudo
140    filesystems." This is usually enabled by de    140    filesystems." This is usually enabled by default::
141                                                   141 
142         CONFIG_SYSFS=y                            142         CONFIG_SYSFS=y
143                                                   143 
144    Note that "sysfs file system support" might    144    Note that "sysfs file system support" might not appear in the "Pseudo
145    filesystems" menu if "Configure standard ke    145    filesystems" menu if "Configure standard kernel features (expert users)"
146    is not enabled in "General Setup." In this     146    is not enabled in "General Setup." In this case, check the .config file
147    itself to ensure that sysfs is turned on, a    147    itself to ensure that sysfs is turned on, as follows::
148                                                   148 
149         grep 'CONFIG_SYSFS' .config               149         grep 'CONFIG_SYSFS' .config
150                                                   150 
151 3) Enable "Compile the kernel with debug info"    151 3) Enable "Compile the kernel with debug info" in "Kernel hacking."::
152                                                   152 
153         CONFIG_DEBUG_INFO=Y                       153         CONFIG_DEBUG_INFO=Y
154                                                   154 
155    This causes the kernel to be built with deb    155    This causes the kernel to be built with debug symbols. The dump
156    analysis tools require a vmlinux with debug    156    analysis tools require a vmlinux with debug symbols in order to read
157    and analyze a dump file.                       157    and analyze a dump file.
158                                                   158 
159 Dump-capture kernel config options (Arch Indep    159 Dump-capture kernel config options (Arch Independent)
160 ----------------------------------------------    160 -----------------------------------------------------
161                                                   161 
162 1) Enable "kernel crash dumps" support under "    162 1) Enable "kernel crash dumps" support under "Processor type and
163    features"::                                    163    features"::
164                                                   164 
165         CONFIG_CRASH_DUMP=y                       165         CONFIG_CRASH_DUMP=y
166                                                   166 
167    And this will select VMCORE_INFO and CRASH_    167    And this will select VMCORE_INFO and CRASH_RESERVE::
168         CONFIG_VMCORE_INFO=y                      168         CONFIG_VMCORE_INFO=y
169         CONFIG_CRASH_RESERVE=y                    169         CONFIG_CRASH_RESERVE=y
170                                                   170 
171 2) Enable "/proc/vmcore support" under "Filesy    171 2) Enable "/proc/vmcore support" under "Filesystems" -> "Pseudo filesystems"::
172                                                   172 
173         CONFIG_PROC_VMCORE=y                      173         CONFIG_PROC_VMCORE=y
174                                                   174 
175    (CONFIG_PROC_VMCORE is set by default when     175    (CONFIG_PROC_VMCORE is set by default when CONFIG_CRASH_DUMP is selected.)
176                                                   176 
177 Dump-capture kernel config options (Arch Depen    177 Dump-capture kernel config options (Arch Dependent, i386 and x86_64)
178 ----------------------------------------------    178 --------------------------------------------------------------------
179                                                   179 
180 1) On i386, enable high memory support under "    180 1) On i386, enable high memory support under "Processor type and
181    features"::                                    181    features"::
182                                                   182 
183         CONFIG_HIGHMEM64G=y                       183         CONFIG_HIGHMEM64G=y
184                                                   184 
185    or::                                           185    or::
186                                                   186 
187         CONFIG_HIGHMEM4G                          187         CONFIG_HIGHMEM4G
188                                                   188 
189 2) With CONFIG_SMP=y, usually nr_cpus=1 need s    189 2) With CONFIG_SMP=y, usually nr_cpus=1 need specified on the kernel
190    command line when loading the dump-capture     190    command line when loading the dump-capture kernel because one
191    CPU is enough for kdump kernel to dump vmco    191    CPU is enough for kdump kernel to dump vmcore on most of systems.
192                                                   192 
193    However, you can also specify nr_cpus=X to     193    However, you can also specify nr_cpus=X to enable multiple processors
194    in kdump kernel.                               194    in kdump kernel.
195                                                   195 
196    With CONFIG_SMP=n, the above things are not    196    With CONFIG_SMP=n, the above things are not related.
197                                                   197 
198 3) A relocatable kernel is suggested to be bui    198 3) A relocatable kernel is suggested to be built by default. If not yet,
199    enable "Build a relocatable kernel" support    199    enable "Build a relocatable kernel" support under "Processor type and
200    features"::                                    200    features"::
201                                                   201 
202         CONFIG_RELOCATABLE=y                      202         CONFIG_RELOCATABLE=y
203                                                   203 
204 4) Use a suitable value for "Physical address     204 4) Use a suitable value for "Physical address where the kernel is
205    loaded" (under "Processor type and features    205    loaded" (under "Processor type and features"). This only appears when
206    "kernel crash dumps" is enabled. A suitable    206    "kernel crash dumps" is enabled. A suitable value depends upon
207    whether kernel is relocatable or not.          207    whether kernel is relocatable or not.
208                                                   208 
209    If you are using a relocatable kernel use C    209    If you are using a relocatable kernel use CONFIG_PHYSICAL_START=0x100000
210    This will compile the kernel for physical a    210    This will compile the kernel for physical address 1MB, but given the fact
211    kernel is relocatable, it can be run from a    211    kernel is relocatable, it can be run from any physical address hence
212    kexec boot loader will load it in memory re    212    kexec boot loader will load it in memory region reserved for dump-capture
213    kernel.                                        213    kernel.
214                                                   214 
215    Otherwise it should be the start of memory     215    Otherwise it should be the start of memory region reserved for
216    second kernel using boot parameter "crashke    216    second kernel using boot parameter "crashkernel=Y@X". Here X is
217    start of memory region reserved for dump-ca    217    start of memory region reserved for dump-capture kernel.
218    Generally X is 16MB (0x1000000). So you can    218    Generally X is 16MB (0x1000000). So you can set
219    CONFIG_PHYSICAL_START=0x1000000                219    CONFIG_PHYSICAL_START=0x1000000
220                                                   220 
221 5) Make and install the kernel and its modules    221 5) Make and install the kernel and its modules. DO NOT add this kernel
222    to the boot loader configuration files.        222    to the boot loader configuration files.
223                                                   223 
224 Dump-capture kernel config options (Arch Depen    224 Dump-capture kernel config options (Arch Dependent, ppc64)
225 ----------------------------------------------    225 ----------------------------------------------------------
226                                                   226 
227 1) Enable "Build a kdump crash kernel" support    227 1) Enable "Build a kdump crash kernel" support under "Kernel" options::
228                                                   228 
229         CONFIG_CRASH_DUMP=y                       229         CONFIG_CRASH_DUMP=y
230                                                   230 
231 2)   Enable "Build a relocatable kernel" suppo    231 2)   Enable "Build a relocatable kernel" support::
232                                                   232 
233         CONFIG_RELOCATABLE=y                      233         CONFIG_RELOCATABLE=y
234                                                   234 
235    Make and install the kernel and its modules    235    Make and install the kernel and its modules.
236                                                   236 
237 Dump-capture kernel config options (Arch Depen    237 Dump-capture kernel config options (Arch Dependent, arm)
238 ----------------------------------------------    238 ----------------------------------------------------------
239                                                   239 
240 -   To use a relocatable kernel,                  240 -   To use a relocatable kernel,
241     Enable "AUTO_ZRELADDR" support under "Boot    241     Enable "AUTO_ZRELADDR" support under "Boot" options::
242                                                   242 
243         AUTO_ZRELADDR=y                           243         AUTO_ZRELADDR=y
244                                                   244 
245 Dump-capture kernel config options (Arch Depen    245 Dump-capture kernel config options (Arch Dependent, arm64)
246 ----------------------------------------------    246 ----------------------------------------------------------
247                                                   247 
248 - Please note that kvm of the dump-capture ker    248 - Please note that kvm of the dump-capture kernel will not be enabled
249   on non-VHE systems even if it is configured.    249   on non-VHE systems even if it is configured. This is because the CPU
250   will not be reset to EL2 on panic.              250   will not be reset to EL2 on panic.
251                                                   251 
252 crashkernel syntax                                252 crashkernel syntax
253 ===========================                       253 ===========================
254 1) crashkernel=size@offset                        254 1) crashkernel=size@offset
255                                                   255 
256    Here 'size' specifies how much memory to re    256    Here 'size' specifies how much memory to reserve for the dump-capture kernel
257    and 'offset' specifies the beginning of thi    257    and 'offset' specifies the beginning of this reserved memory. For example,
258    "crashkernel=64M@16M" tells the system kern    258    "crashkernel=64M@16M" tells the system kernel to reserve 64 MB of memory
259    starting at physical address 0x01000000 (16    259    starting at physical address 0x01000000 (16MB) for the dump-capture kernel.
260                                                   260 
261    The crashkernel region can be automatically    261    The crashkernel region can be automatically placed by the system
262    kernel at run time. This is done by specify    262    kernel at run time. This is done by specifying the base address as 0,
263    or omitting it all together::                  263    or omitting it all together::
264                                                   264 
265          crashkernel=256M@0                       265          crashkernel=256M@0
266                                                   266 
267    or::                                           267    or::
268                                                   268 
269          crashkernel=256M                         269          crashkernel=256M
270                                                   270 
271    If the start address is specified, note tha    271    If the start address is specified, note that the start address of the
272    kernel will be aligned to a value (which is    272    kernel will be aligned to a value (which is Arch dependent), so if the
273    start address is not then any space below t    273    start address is not then any space below the alignment point will be
274    wasted.                                        274    wasted.
275                                                   275 
276 2) range1:size1[,range2:size2,...][@offset]       276 2) range1:size1[,range2:size2,...][@offset]
277                                                   277 
278    While the "crashkernel=size[@offset]" synta    278    While the "crashkernel=size[@offset]" syntax is sufficient for most
279    configurations, sometimes it's handy to hav    279    configurations, sometimes it's handy to have the reserved memory dependent
280    on the value of System RAM -- that's mostly    280    on the value of System RAM -- that's mostly for distributors that pre-setup
281    the kernel command line to avoid a unbootab    281    the kernel command line to avoid a unbootable system after some memory has
282    been removed from the machine.                 282    been removed from the machine.
283                                                   283 
284    The syntax is::                                284    The syntax is::
285                                                   285 
286        crashkernel=<range1>:<size1>[,<range2>:    286        crashkernel=<range1>:<size1>[,<range2>:<size2>,...][@offset]
287        range=start-[end]                          287        range=start-[end]
288                                                   288 
289    For example::                                  289    For example::
290                                                   290 
291        crashkernel=512M-2G:64M,2G-:128M           291        crashkernel=512M-2G:64M,2G-:128M
292                                                   292 
293    This would mean:                               293    This would mean:
294                                                   294 
295        1) if the RAM is smaller than 512M, the    295        1) if the RAM is smaller than 512M, then don't reserve anything
296           (this is the "rescue" case)             296           (this is the "rescue" case)
297        2) if the RAM size is between 512M and     297        2) if the RAM size is between 512M and 2G (exclusive), then reserve 64M
298        3) if the RAM size is larger than 2G, t    298        3) if the RAM size is larger than 2G, then reserve 128M
299                                                   299 
300 3) crashkernel=size,high and crashkernel=size,    300 3) crashkernel=size,high and crashkernel=size,low
301                                                   301 
302    If memory above 4G is preferred, crashkerne    302    If memory above 4G is preferred, crashkernel=size,high can be used to
303    fulfill that. With it, physical memory is a    303    fulfill that. With it, physical memory is allowed to be allocated from top,
304    so could be above 4G if system has more tha    304    so could be above 4G if system has more than 4G RAM installed. Otherwise,
305    memory region will be allocated below 4G if    305    memory region will be allocated below 4G if available.
306                                                   306 
307    When crashkernel=X,high is passed, kernel c    307    When crashkernel=X,high is passed, kernel could allocate physical memory
308    region above 4G, low memory under 4G is nee    308    region above 4G, low memory under 4G is needed in this case. There are
309    three ways to get low memory:                  309    three ways to get low memory:
310                                                   310 
311       1) Kernel will allocate at least 256M me    311       1) Kernel will allocate at least 256M memory below 4G automatically
312          if crashkernel=Y,low is not specified    312          if crashkernel=Y,low is not specified.
313       2) Let user specify low memory size inst    313       2) Let user specify low memory size instead.
314       3) Specified value 0 will disable low me    314       3) Specified value 0 will disable low memory allocation::
315                                                   315 
316             crashkernel=0,low                     316             crashkernel=0,low
317                                                   317 
318 Boot into System Kernel                           318 Boot into System Kernel
319 -----------------------                           319 -----------------------
320 1) Update the boot loader (such as grub, yaboo    320 1) Update the boot loader (such as grub, yaboot, or lilo) configuration
321    files as necessary.                            321    files as necessary.
322                                                   322 
323 2) Boot the system kernel with the boot parame    323 2) Boot the system kernel with the boot parameter "crashkernel=Y@X".
324                                                   324 
325    On x86 and x86_64, use "crashkernel=Y[@X]".    325    On x86 and x86_64, use "crashkernel=Y[@X]". Most of the time, the
326    start address 'X' is not necessary, kernel     326    start address 'X' is not necessary, kernel will search a suitable
327    area. Unless an explicit start address is e    327    area. Unless an explicit start address is expected.
328                                                   328 
329    On ppc64, use "crashkernel=128M@32M".          329    On ppc64, use "crashkernel=128M@32M".
330                                                   330 
331    On s390x, typically use "crashkernel=xxM".     331    On s390x, typically use "crashkernel=xxM". The value of xx is dependent
332    on the memory consumption of the kdump syst    332    on the memory consumption of the kdump system. In general this is not
333    dependent on the memory size of the product    333    dependent on the memory size of the production system.
334                                                   334 
335    On arm, the use of "crashkernel=Y@X" is no     335    On arm, the use of "crashkernel=Y@X" is no longer necessary; the
336    kernel will automatically locate the crash     336    kernel will automatically locate the crash kernel image within the
337    first 512MB of RAM if X is not given.          337    first 512MB of RAM if X is not given.
338                                                   338 
339    On arm64, use "crashkernel=Y[@X]".  Note th    339    On arm64, use "crashkernel=Y[@X]".  Note that the start address of
340    the kernel, X if explicitly specified, must    340    the kernel, X if explicitly specified, must be aligned to 2MiB (0x200000).
341                                                   341 
342 Load the Dump-capture Kernel                      342 Load the Dump-capture Kernel
343 ============================                      343 ============================
344                                                   344 
345 After booting to the system kernel, dump-captu    345 After booting to the system kernel, dump-capture kernel needs to be
346 loaded.                                           346 loaded.
347                                                   347 
348 Based on the architecture and type of image (r    348 Based on the architecture and type of image (relocatable or not), one
349 can choose to load the uncompressed vmlinux or    349 can choose to load the uncompressed vmlinux or compressed bzImage/vmlinuz
350 of dump-capture kernel. Following is the summa    350 of dump-capture kernel. Following is the summary.
351                                                   351 
352 For i386 and x86_64:                              352 For i386 and x86_64:
353                                                   353 
354         - Use bzImage/vmlinuz if kernel is rel    354         - Use bzImage/vmlinuz if kernel is relocatable.
355         - Use vmlinux if kernel is not relocat    355         - Use vmlinux if kernel is not relocatable.
356                                                   356 
357 For ppc64:                                        357 For ppc64:
358                                                   358 
359         - Use vmlinux                             359         - Use vmlinux
360                                                   360 
361 For s390x:                                        361 For s390x:
362                                                   362 
363         - Use image or bzImage                    363         - Use image or bzImage
364                                                   364 
365 For arm:                                          365 For arm:
366                                                   366 
367         - Use zImage                              367         - Use zImage
368                                                   368 
369 For arm64:                                        369 For arm64:
370                                                   370 
371         - Use vmlinux or Image                    371         - Use vmlinux or Image
372                                                   372 
373 If you are using an uncompressed vmlinux image    373 If you are using an uncompressed vmlinux image then use following command
374 to load dump-capture kernel::                     374 to load dump-capture kernel::
375                                                   375 
376    kexec -p <dump-capture-kernel-vmlinux-image    376    kexec -p <dump-capture-kernel-vmlinux-image> \
377    --initrd=<initrd-for-dump-capture-kernel> -    377    --initrd=<initrd-for-dump-capture-kernel> --args-linux \
378    --append="root=<root-dev> <arch-specific-op    378    --append="root=<root-dev> <arch-specific-options>"
379                                                   379 
380 If you are using a compressed bzImage/vmlinuz,    380 If you are using a compressed bzImage/vmlinuz, then use following command
381 to load dump-capture kernel::                     381 to load dump-capture kernel::
382                                                   382 
383    kexec -p <dump-capture-kernel-bzImage> \       383    kexec -p <dump-capture-kernel-bzImage> \
384    --initrd=<initrd-for-dump-capture-kernel> \    384    --initrd=<initrd-for-dump-capture-kernel> \
385    --append="root=<root-dev> <arch-specific-op    385    --append="root=<root-dev> <arch-specific-options>"
386                                                   386 
387 If you are using a compressed zImage, then use    387 If you are using a compressed zImage, then use following command
388 to load dump-capture kernel::                     388 to load dump-capture kernel::
389                                                   389 
390    kexec --type zImage -p <dump-capture-kernel    390    kexec --type zImage -p <dump-capture-kernel-bzImage> \
391    --initrd=<initrd-for-dump-capture-kernel> \    391    --initrd=<initrd-for-dump-capture-kernel> \
392    --dtb=<dtb-for-dump-capture-kernel> \          392    --dtb=<dtb-for-dump-capture-kernel> \
393    --append="root=<root-dev> <arch-specific-op    393    --append="root=<root-dev> <arch-specific-options>"
394                                                   394 
395 If you are using an uncompressed Image, then u    395 If you are using an uncompressed Image, then use following command
396 to load dump-capture kernel::                     396 to load dump-capture kernel::
397                                                   397 
398    kexec -p <dump-capture-kernel-Image> \         398    kexec -p <dump-capture-kernel-Image> \
399    --initrd=<initrd-for-dump-capture-kernel> \    399    --initrd=<initrd-for-dump-capture-kernel> \
400    --append="root=<root-dev> <arch-specific-op    400    --append="root=<root-dev> <arch-specific-options>"
401                                                   401 
402 Following are the arch specific command line o    402 Following are the arch specific command line options to be used while
403 loading dump-capture kernel.                      403 loading dump-capture kernel.
404                                                   404 
405 For i386 and x86_64:                              405 For i386 and x86_64:
406                                                   406 
407         "1 irqpoll nr_cpus=1 reset_devices"       407         "1 irqpoll nr_cpus=1 reset_devices"
408                                                   408 
409 For ppc64:                                        409 For ppc64:
410                                                   410 
411         "1 maxcpus=1 noirqdistrib reset_device    411         "1 maxcpus=1 noirqdistrib reset_devices"
412                                                   412 
413 For s390x:                                        413 For s390x:
414                                                   414 
415         "1 nr_cpus=1 cgroup_disable=memory"       415         "1 nr_cpus=1 cgroup_disable=memory"
416                                                   416 
417 For arm:                                          417 For arm:
418                                                   418 
419         "1 maxcpus=1 reset_devices"               419         "1 maxcpus=1 reset_devices"
420                                                   420 
421 For arm64:                                        421 For arm64:
422                                                   422 
423         "1 nr_cpus=1 reset_devices"               423         "1 nr_cpus=1 reset_devices"
424                                                   424 
425 Notes on loading the dump-capture kernel:         425 Notes on loading the dump-capture kernel:
426                                                   426 
427 * By default, the ELF headers are stored in EL    427 * By default, the ELF headers are stored in ELF64 format to support
428   systems with more than 4GB memory. On i386,     428   systems with more than 4GB memory. On i386, kexec automatically checks if
429   the physical RAM size exceeds the 4 GB limit    429   the physical RAM size exceeds the 4 GB limit and if not, uses ELF32.
430   So, on non-PAE systems, ELF32 is always used    430   So, on non-PAE systems, ELF32 is always used.
431                                                   431 
432   The --elf32-core-headers option can be used     432   The --elf32-core-headers option can be used to force the generation of ELF32
433   headers. This is necessary because GDB curre    433   headers. This is necessary because GDB currently cannot open vmcore files
434   with ELF64 headers on 32-bit systems.           434   with ELF64 headers on 32-bit systems.
435                                                   435 
436 * The "irqpoll" boot parameter reduces driver     436 * The "irqpoll" boot parameter reduces driver initialization failures
437   due to shared interrupts in the dump-capture    437   due to shared interrupts in the dump-capture kernel.
438                                                   438 
439 * You must specify <root-dev> in the format co    439 * You must specify <root-dev> in the format corresponding to the root
440   device name in the output of mount command.     440   device name in the output of mount command.
441                                                   441 
442 * Boot parameter "1" boots the dump-capture ke    442 * Boot parameter "1" boots the dump-capture kernel into single-user
443   mode without networking. If you want network    443   mode without networking. If you want networking, use "3".
444                                                   444 
445 * We generally don't have to bring up a SMP ke    445 * We generally don't have to bring up a SMP kernel just to capture the
446   dump. Hence generally it is useful either to    446   dump. Hence generally it is useful either to build a UP dump-capture
447   kernel or specify maxcpus=1 option while loa    447   kernel or specify maxcpus=1 option while loading dump-capture kernel.
448   Note, though maxcpus always works, you had b    448   Note, though maxcpus always works, you had better replace it with
449   nr_cpus to save memory if supported by the c    449   nr_cpus to save memory if supported by the current ARCH, such as x86.
450                                                   450 
451 * You should enable multi-cpu support in dump-    451 * You should enable multi-cpu support in dump-capture kernel if you intend
452   to use multi-thread programs with it, such a    452   to use multi-thread programs with it, such as parallel dump feature of
453   makedumpfile. Otherwise, the multi-thread pr    453   makedumpfile. Otherwise, the multi-thread program may have a great
454   performance degradation. To enable multi-cpu    454   performance degradation. To enable multi-cpu support, you should bring up an
455   SMP dump-capture kernel and specify maxcpus/    455   SMP dump-capture kernel and specify maxcpus/nr_cpus options while loading it.
456                                                   456 
457 * For s390x there are two kdump modes: If a EL    457 * For s390x there are two kdump modes: If a ELF header is specified with
458   the elfcorehdr= kernel parameter, it is used    458   the elfcorehdr= kernel parameter, it is used by the kdump kernel as it
459   is done on all other architectures. If no el    459   is done on all other architectures. If no elfcorehdr= kernel parameter is
460   specified, the s390x kdump kernel dynamicall    460   specified, the s390x kdump kernel dynamically creates the header. The
461   second mode has the advantage that for CPU a    461   second mode has the advantage that for CPU and memory hotplug, kdump has
462   not to be reloaded with kexec_load().           462   not to be reloaded with kexec_load().
463                                                   463 
464 * For s390x systems with many attached devices    464 * For s390x systems with many attached devices the "cio_ignore" kernel
465   parameter should be used for the kdump kerne    465   parameter should be used for the kdump kernel in order to prevent allocation
466   of kernel memory for devices that are not re    466   of kernel memory for devices that are not relevant for kdump. The same
467   applies to systems that use SCSI/FCP devices    467   applies to systems that use SCSI/FCP devices. In that case the
468   "allow_lun_scan" zfcp module parameter shoul    468   "allow_lun_scan" zfcp module parameter should be set to zero before
469   setting FCP devices online.                     469   setting FCP devices online.
470                                                   470 
471 Kernel Panic                                      471 Kernel Panic
472 ============                                      472 ============
473                                                   473 
474 After successfully loading the dump-capture ke    474 After successfully loading the dump-capture kernel as previously
475 described, the system will reboot into the dum    475 described, the system will reboot into the dump-capture kernel if a
476 system crash is triggered.  Trigger points are    476 system crash is triggered.  Trigger points are located in panic(),
477 die(), die_nmi() and in the sysrq handler (ALT    477 die(), die_nmi() and in the sysrq handler (ALT-SysRq-c).
478                                                   478 
479 The following conditions will execute a crash     479 The following conditions will execute a crash trigger point:
480                                                   480 
481 If a hard lockup is detected and "NMI watchdog    481 If a hard lockup is detected and "NMI watchdog" is configured, the system
482 will boot into the dump-capture kernel ( die_n    482 will boot into the dump-capture kernel ( die_nmi() ).
483                                                   483 
484 If die() is called, and it happens to be a thr    484 If die() is called, and it happens to be a thread with pid 0 or 1, or die()
485 is called inside interrupt context or die() is    485 is called inside interrupt context or die() is called and panic_on_oops is set,
486 the system will boot into the dump-capture ker    486 the system will boot into the dump-capture kernel.
487                                                   487 
488 On powerpc systems when a soft-reset is genera    488 On powerpc systems when a soft-reset is generated, die() is called by all cpus
489 and the system will boot into the dump-capture    489 and the system will boot into the dump-capture kernel.
490                                                   490 
491 For testing purposes, you can trigger a crash     491 For testing purposes, you can trigger a crash by using "ALT-SysRq-c",
492 "echo c > /proc/sysrq-trigger" or write a modu    492 "echo c > /proc/sysrq-trigger" or write a module to force the panic.
493                                                   493 
494 Write Out the Dump File                           494 Write Out the Dump File
495 =======================                           495 =======================
496                                                   496 
497 After the dump-capture kernel is booted, write    497 After the dump-capture kernel is booted, write out the dump file with
498 the following command::                           498 the following command::
499                                                   499 
500    cp /proc/vmcore <dump-file>                    500    cp /proc/vmcore <dump-file>
501                                                   501 
502 or use scp to write out the dump file between     502 or use scp to write out the dump file between hosts on a network, e.g::
503                                                   503 
504    scp /proc/vmcore remote_username@remote_ip:    504    scp /proc/vmcore remote_username@remote_ip:<dump-file>
505                                                   505 
506 You can also use makedumpfile utility to write    506 You can also use makedumpfile utility to write out the dump file
507 with specified options to filter out unwanted     507 with specified options to filter out unwanted contents, e.g::
508                                                   508 
509    makedumpfile -l --message-level 1 -d 31 /pr    509    makedumpfile -l --message-level 1 -d 31 /proc/vmcore <dump-file>
510                                                   510 
511 Analysis                                          511 Analysis
512 ========                                          512 ========
513                                                   513 
514 Before analyzing the dump image, you should re    514 Before analyzing the dump image, you should reboot into a stable kernel.
515                                                   515 
516 You can do limited analysis using GDB on the d    516 You can do limited analysis using GDB on the dump file copied out of
517 /proc/vmcore. Use the debug vmlinux built with    517 /proc/vmcore. Use the debug vmlinux built with -g and run the following
518 command::                                         518 command::
519                                                   519 
520    gdb vmlinux <dump-file>                        520    gdb vmlinux <dump-file>
521                                                   521 
522 Stack trace for the task on processor 0, regis    522 Stack trace for the task on processor 0, register display, and memory
523 display work fine.                                523 display work fine.
524                                                   524 
525 Note: GDB cannot analyze core files generated     525 Note: GDB cannot analyze core files generated in ELF64 format for x86.
526 On systems with a maximum of 4GB of memory, yo    526 On systems with a maximum of 4GB of memory, you can generate
527 ELF32-format headers using the --elf32-core-he    527 ELF32-format headers using the --elf32-core-headers kernel option on the
528 dump kernel.                                      528 dump kernel.
529                                                   529 
530 You can also use the Crash utility to analyze     530 You can also use the Crash utility to analyze dump files in Kdump
531 format. Crash is available at the following UR    531 format. Crash is available at the following URL:
532                                                   532 
533    https://github.com/crash-utility/crash         533    https://github.com/crash-utility/crash
534                                                   534 
535 Crash document can be found at:                   535 Crash document can be found at:
536    https://crash-utility.github.io/               536    https://crash-utility.github.io/
537                                                   537 
538 Trigger Kdump on WARN()                           538 Trigger Kdump on WARN()
539 =======================                           539 =======================
540                                                   540 
541 The kernel parameter, panic_on_warn, calls pan    541 The kernel parameter, panic_on_warn, calls panic() in all WARN() paths.  This
542 will cause a kdump to occur at the panic() cal    542 will cause a kdump to occur at the panic() call.  In cases where a user wants
543 to specify this during runtime, /proc/sys/kern    543 to specify this during runtime, /proc/sys/kernel/panic_on_warn can be set to 1
544 to achieve the same behaviour.                    544 to achieve the same behaviour.
545                                                   545 
546 Trigger Kdump on add_taint()                      546 Trigger Kdump on add_taint()
547 ============================                      547 ============================
548                                                   548 
549 The kernel parameter panic_on_taint facilitate    549 The kernel parameter panic_on_taint facilitates a conditional call to panic()
550 from within add_taint() whenever the value set    550 from within add_taint() whenever the value set in this bitmask matches with the
551 bit flag being set by add_taint().                551 bit flag being set by add_taint().
552 This will cause a kdump to occur at the add_ta    552 This will cause a kdump to occur at the add_taint()->panic() call.
553                                                   553 
554 Contact                                           554 Contact
555 =======                                           555 =======
556                                                   556 
557 - kexec@lists.infradead.org                       557 - kexec@lists.infradead.org
558                                                   558 
559 GDB macros                                        559 GDB macros
560 ==========                                        560 ==========
561                                                   561 
562 .. include:: gdbmacros.txt                        562 .. include:: gdbmacros.txt
563    :literal:                                      563    :literal:
                                                      

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