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Linux/Documentation/trace/debugging.rst

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Diff markup

Differences between /Documentation/trace/debugging.rst (Architecture sparc64) and /Documentation/trace/debugging.rst (Architecture i386)


  1 ==============================                      1 ==============================
  2 Using the tracer for debugging                      2 Using the tracer for debugging
  3 ==============================                      3 ==============================
  4                                                     4 
  5 Copyright 2024 Google LLC.                          5 Copyright 2024 Google LLC.
  6                                                     6 
  7 :Author:   Steven Rostedt <rostedt@goodmis.org>      7 :Author:   Steven Rostedt <rostedt@goodmis.org>
  8 :License:  The GNU Free Documentation License,      8 :License:  The GNU Free Documentation License, Version 1.2
  9           (dual licensed under the GPL v2)          9           (dual licensed under the GPL v2)
 10                                                    10 
 11 - Written for: 6.12                                11 - Written for: 6.12
 12                                                    12 
 13 Introduction                                       13 Introduction
 14 ------------                                       14 ------------
 15 The tracing infrastructure can be very useful      15 The tracing infrastructure can be very useful for debugging the Linux
 16 kernel. This document is a place to add variou     16 kernel. This document is a place to add various methods of using the tracer
 17 for debugging.                                     17 for debugging.
 18                                                    18 
 19 First, make sure that the tracefs file system      19 First, make sure that the tracefs file system is mounted::
 20                                                    20 
 21  $ sudo mount -t tracefs tracefs /sys/kernel/t     21  $ sudo mount -t tracefs tracefs /sys/kernel/tracing
 22                                                    22 
 23                                                    23 
 24 Using trace_printk()                               24 Using trace_printk()
 25 --------------------                               25 --------------------
 26                                                    26 
 27 trace_printk() is a very lightweight utility t     27 trace_printk() is a very lightweight utility that can be used in any context
 28 inside the kernel, with the exception of "noin     28 inside the kernel, with the exception of "noinstr" sections. It can be used
 29 in normal, softirq, interrupt and even NMI con     29 in normal, softirq, interrupt and even NMI context. The trace data is
 30 written to the tracing ring buffer in a lockle     30 written to the tracing ring buffer in a lockless way. To make it even
 31 lighter weight, when possible, it will only re     31 lighter weight, when possible, it will only record the pointer to the format
 32 string, and save the raw arguments into the bu     32 string, and save the raw arguments into the buffer. The format and the
 33 arguments will be post processed when the ring     33 arguments will be post processed when the ring buffer is read. This way the
 34 trace_printk() format conversions are not done     34 trace_printk() format conversions are not done during the hot path, where
 35 the trace is being recorded.                       35 the trace is being recorded.
 36                                                    36 
 37 trace_printk() is meant only for debugging, an     37 trace_printk() is meant only for debugging, and should never be added into
 38 a subsystem of the kernel. If you need debuggi     38 a subsystem of the kernel. If you need debugging traces, add trace events
 39 instead. If a trace_printk() is found in the k     39 instead. If a trace_printk() is found in the kernel, the following will
 40 appear in the dmesg::                              40 appear in the dmesg::
 41                                                    41 
 42   ********************************************     42   **********************************************************
 43   **   NOTICE NOTICE NOTICE NOTICE NOTICE NOTI     43   **   NOTICE NOTICE NOTICE NOTICE NOTICE NOTICE NOTICE   **
 44   **                                               44   **                                                      **
 45   ** trace_printk() being used. Allocating ext     45   ** trace_printk() being used. Allocating extra memory.  **
 46   **                                               46   **                                                      **
 47   ** This means that this is a DEBUG kernel an     47   ** This means that this is a DEBUG kernel and it is     **
 48   ** unsafe for production use.                    48   ** unsafe for production use.                           **
 49   **                                               49   **                                                      **
 50   ** If you see this message and you are not d     50   ** If you see this message and you are not debugging    **
 51   ** the kernel, report this immediately to yo     51   ** the kernel, report this immediately to your vendor!  **
 52   **                                               52   **                                                      **
 53   **   NOTICE NOTICE NOTICE NOTICE NOTICE NOTI     53   **   NOTICE NOTICE NOTICE NOTICE NOTICE NOTICE NOTICE   **
 54   ********************************************     54   **********************************************************
 55                                                    55 
 56 Debugging kernel crashes                           56 Debugging kernel crashes
 57 ------------------------                           57 ------------------------
 58 There is various methods of acquiring the stat     58 There is various methods of acquiring the state of the system when a kernel
 59 crash occurs. This could be from the oops mess     59 crash occurs. This could be from the oops message in printk, or one could
 60 use kexec/kdump. But these just show what happ     60 use kexec/kdump. But these just show what happened at the time of the crash.
 61 It can be very useful in knowing what happened     61 It can be very useful in knowing what happened up to the point of the crash.
 62 The tracing ring buffer, by default, is a circ     62 The tracing ring buffer, by default, is a circular buffer than will
 63 overwrite older events with newer ones. When a     63 overwrite older events with newer ones. When a crash happens, the content of
 64 the ring buffer will be all the events that le     64 the ring buffer will be all the events that lead up to the crash.
 65                                                    65 
 66 There are several kernel command line paramete     66 There are several kernel command line parameters that can be used to help in
 67 this. The first is "ftrace_dump_on_oops". This     67 this. The first is "ftrace_dump_on_oops". This will dump the tracing ring
 68 buffer when a oops occurs to the console. This     68 buffer when a oops occurs to the console. This can be useful if the console
 69 is being logged somewhere. If a serial console     69 is being logged somewhere. If a serial console is used, it may be prudent to
 70 make sure the ring buffer is relatively small,     70 make sure the ring buffer is relatively small, otherwise the dumping of the
 71 ring buffer may take several minutes to hours      71 ring buffer may take several minutes to hours to finish. Here's an example
 72 of the kernel command line::                       72 of the kernel command line::
 73                                                    73 
 74   ftrace_dump_on_oops trace_buf_size=50K           74   ftrace_dump_on_oops trace_buf_size=50K
 75                                                    75 
 76 Note, the tracing buffer is made up of per CPU     76 Note, the tracing buffer is made up of per CPU buffers where each of these
 77 buffers is broken up into sub-buffers that are     77 buffers is broken up into sub-buffers that are by default PAGE_SIZE. The
 78 above trace_buf_size option above sets each of     78 above trace_buf_size option above sets each of the per CPU buffers to 50K,
 79 so, on a machine with 8 CPUs, that's actually      79 so, on a machine with 8 CPUs, that's actually 400K total.
 80                                                    80 
 81 Persistent buffers across boots                    81 Persistent buffers across boots
 82 -------------------------------                    82 -------------------------------
 83 If the system memory allows it, the tracing ri     83 If the system memory allows it, the tracing ring buffer can be specified at
 84 a specific location in memory. If the location     84 a specific location in memory. If the location is the same across boots and
 85 the memory is not modified, the tracing buffer     85 the memory is not modified, the tracing buffer can be retrieved from the
 86 following boot. There's two ways to reserve me     86 following boot. There's two ways to reserve memory for the use of the ring
 87 buffer.                                            87 buffer.
 88                                                    88 
 89 The more reliable way (on x86) is to reserve m     89 The more reliable way (on x86) is to reserve memory with the "memmap" kernel
 90 command line option and then use that memory f     90 command line option and then use that memory for the trace_instance. This
 91 requires a bit of knowledge of the physical me     91 requires a bit of knowledge of the physical memory layout of the system. The
 92 advantage of using this method, is that the me     92 advantage of using this method, is that the memory for the ring buffer will
 93 always be the same::                               93 always be the same::
 94                                                    94 
 95   memmap==12M$0x284500000 trace_instance=boot_     95   memmap==12M$0x284500000 trace_instance=boot_map@0x284500000:12M
 96                                                    96 
 97 The memmap above reserves 12 megabytes of memo     97 The memmap above reserves 12 megabytes of memory at the physical memory
 98 location 0x284500000. Then the trace_instance      98 location 0x284500000. Then the trace_instance option will create a trace
 99 instance "boot_map" at that same location with     99 instance "boot_map" at that same location with the same amount of memory
100 reserved. As the ring buffer is broke up into     100 reserved. As the ring buffer is broke up into per CPU buffers, the 12
101 megabytes will be broken up evenly between tho    101 megabytes will be broken up evenly between those CPUs. If you have 8 CPUs,
102 each per CPU ring buffer will be 1.5 megabytes    102 each per CPU ring buffer will be 1.5 megabytes in size. Note, that also
103 includes meta data, so the amount of memory ac    103 includes meta data, so the amount of memory actually used by the ring buffer
104 will be slightly smaller.                         104 will be slightly smaller.
105                                                   105 
106 Another more generic but less robust way to al    106 Another more generic but less robust way to allocate a ring buffer mapping
107 at boot is with the "reserve_mem" option::        107 at boot is with the "reserve_mem" option::
108                                                   108 
109   reserve_mem=12M:4096:trace trace_instance=bo    109   reserve_mem=12M:4096:trace trace_instance=boot_map@trace
110                                                   110 
111 The reserve_mem option above will find 12 mega    111 The reserve_mem option above will find 12 megabytes that are available at
112 boot up, and align it by 4096 bytes. It will l    112 boot up, and align it by 4096 bytes. It will label this memory as "trace"
113 that can be used by later command line options    113 that can be used by later command line options.
114                                                   114 
115 The trace_instance option creates a "boot_map"    115 The trace_instance option creates a "boot_map" instance and will use the
116 memory reserved by reserve_mem that was labele    116 memory reserved by reserve_mem that was labeled as "trace". This method is
117 more generic but may not be as reliable. Due t    117 more generic but may not be as reliable. Due to KASLR, the memory reserved
118 by reserve_mem may not be located at the same     118 by reserve_mem may not be located at the same location. If this happens,
119 then the ring buffer will not be from the prev    119 then the ring buffer will not be from the previous boot and will be reset.
120                                                   120 
121 Sometimes, by using a larger alignment, it can    121 Sometimes, by using a larger alignment, it can keep KASLR from moving things
122 around in such a way that it will move the loc    122 around in such a way that it will move the location of the reserve_mem. By
123 using a larger alignment, you may find better     123 using a larger alignment, you may find better that the buffer is more
124 consistent to where it is placed::                124 consistent to where it is placed::
125                                                   125 
126   reserve_mem=12M:0x2000000:trace trace_instan    126   reserve_mem=12M:0x2000000:trace trace_instance=boot_map@trace
127                                                   127 
128 On boot up, the memory reserved for the ring b    128 On boot up, the memory reserved for the ring buffer is validated. It will go
129 through a series of tests to make sure that th    129 through a series of tests to make sure that the ring buffer contains valid
130 data. If it is, it will then set it up to be a    130 data. If it is, it will then set it up to be available to read from the
131 instance. If it fails any of the tests, it wil    131 instance. If it fails any of the tests, it will clear the entire ring buffer
132 and initialize it as new.                         132 and initialize it as new.
133                                                   133 
134 The layout of this mapped memory may not be co    134 The layout of this mapped memory may not be consistent from kernel to
135 kernel, so only the same kernel is guaranteed     135 kernel, so only the same kernel is guaranteed to work if the mapping is
136 preserved. Switching to a different kernel ver    136 preserved. Switching to a different kernel version may find a different
137 layout and mark the buffer as invalid.            137 layout and mark the buffer as invalid.
138                                                   138 
139 Using trace_printk() in the boot instance         139 Using trace_printk() in the boot instance
140 -----------------------------------------         140 -----------------------------------------
141 By default, the content of trace_printk() goes    141 By default, the content of trace_printk() goes into the top level tracing
142 instance. But this instance is never preserved    142 instance. But this instance is never preserved across boots. To have the
143 trace_printk() content, and some other interna    143 trace_printk() content, and some other internal tracing go to the preserved
144 buffer (like dump stacks), either set the inst    144 buffer (like dump stacks), either set the instance to be the trace_printk()
145 destination from the kernel command line, or s    145 destination from the kernel command line, or set it after boot up via the
146 trace_printk_dest option.                         146 trace_printk_dest option.
147                                                   147 
148 After boot up::                                   148 After boot up::
149                                                   149 
150   echo 1 > /sys/kernel/tracing/instances/boot_    150   echo 1 > /sys/kernel/tracing/instances/boot_map/options/trace_printk_dest
151                                                   151 
152 From the kernel command line::                    152 From the kernel command line::
153                                                   153 
154   reserve_mem=12M:4096:trace trace_instance=bo    154   reserve_mem=12M:4096:trace trace_instance=boot_map^traceprintk^traceoff@trace
155                                                   155 
156 If setting it from the kernel command line, it    156 If setting it from the kernel command line, it is recommended to also
157 disable tracing with the "traceoff" flag, and     157 disable tracing with the "traceoff" flag, and enable tracing after boot up.
158 Otherwise the trace from the most recent boot     158 Otherwise the trace from the most recent boot will be mixed with the trace
159 from the previous boot, and may make it confus    159 from the previous boot, and may make it confusing to read.
                                                      

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