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1 Table of Contents
2 =================
3
4 A. How to use lldb for kernel debugging
5 B. Design of lldb kernel debugging platform.
6 C. Kernel debugging commands.
7 i. Using commands.
8 ii. Writing new commands.
9 D. Kernel type summaries.
10 i. Using summaries
11 ii. Writing new summary functions
12 E. FAQ and General Coding Guidelines
13 i. Frequently Asked Questions
14 ii. Formatted Output printing guidelines [MUST READ]
15 iii. Coding conventions. [MUST READ]
16 iv. Submitting changes in lldbmacros [MUST READ]
17 v. Common utility functions and paradigms
18 F. Development and Debugging on lldb kernel debugging platform.
19 i. Reading a exception backtrace
20 ii. Loading custom or local lldbmacros and operating_system plugin
21 iii. Adding debug related 'printf's
22
23 A. How to use lldb for kernel debugging
24 ========================================
25
26 lldb can be used for kernel debugging the same way as gdb. The simplest way is to start lldb with kernel symbol file. The lldb environment by default does not allow loading automatic python modules. Please add the following setting in
27
28 File: ~/.lldbinit
29 settings set target.load-script-from-symbol-file true
30
31 Now lldb will be ready to connect over kdp-remote '\<hostname:port>' or 'gdb-remote \<hostname:port>'. In case using a core file please do 'file --core /path/to/corefile'
32
33 Following are detailed steps on how to debug a panic'ed / NMI'ed machine (For the curious souls).
34
35 lldb debugging in detail:-
36
37 * start lldb with the right symbols file. If you do not know the version apriori, then enable dsymForUUID to load symbols dynamically.
38 bash$ dsymForUUID --enable
39 bash$ lldb /path/to/mach_kernel.symbols
40 Current executable set to '/Sources/Symbols/xnu/xnu-2253~2/mach_kernel' (x86_64).
41 (lldb)
42
43 * connect to remote device or load a core file
44 #for kdp
45 (lldb) process connect --plugin kdp-remote udp://17.123.45.67:41139
46 #for gdb (eg with astris)
47 (lldb) process connect --plugin gdb-remote gdb://17.123.45.67:8000
48 #for loading a core file
49 (lldb) file --core /path/to/core/file /path/to/kernel_symbol_file
50
51 * Once connected you can debug with basic lldb commands like print, bt, expr etc. The xnu debug macros will also be loaded automatically from the dSYM files.
52 In case if you are working with older kernel files you can load kernel specific commands by doing -
53 (lldb) command script import /path/to/xnu/tools/lldbmacros/xnu.py
54 (lldb) showbootargs
55 debug=0x14e ncpus=2
56
57 * You can do `kgmhelp` to get a list of commands available through xnu.py
58
59 SPECIAL: The `xnu.py` script brings in kernel type summary functions. To enable these please do -
60
61 (lldb) showlldbtypesummaries
62
63 These could be very handy in printing important information from structures easily.
64 For ex.
65
66 (lldb) print (thread_t)0x80d6a620
67 (thread_t) $45 = 0x80d6a620
68 thread thread_id processor pri io_policy state wait_queue wait_event wmesg thread_name
69 0x80d6a620 0x317 0x902078c8 61 W 0x910cadd4 0x0 SystemSoundServer
70
71
72
73 B. Design of lldb kernel debugging platform.
74 =============================================
75
76 The lldb debugger provides python scripting bridge for customizing commands and summaries in lldb. Following is the stack of platforms and how commands and summaries interact with it.
77
78 |------- xnu scripts ----------|
79 | |- lldb Command/Scripting-| | <-- provides scriptability for kernel data structures through summary/command invocation.
80 | | |--lldb core--| | | <-- interacts with remote kernel or corefile.
81 | |-------------------------| |
82 |------------------------------|
83
84 The xnu script in xnu/tools/lldbmacros provides the following:
85
86 * Custom functions to do plumbing of lldb command invocation to python function call. (see doc strings for @lldb_command)
87 The command interface provides some common features (which can be invoked after passing '--' on cmd line) like -
88
89 i. send the output of command to file on disk
90 ii. search for a string in the output and selectively print the line containing it.
91 iii. -v options to increase verbosity levels in commands.
92 For example: (lldb)showalltasks -- -s kernel_task --o /tmp/kernel_task.output -v
93 will show task summary output with lines matching string 'kernel_task' into a file /tmp/kernel_task.output and with a verbosity level of (default +1)
94
95 * Customization for plugging in summary functions for lldb type summaries. (see doc strings for @lldb_summary)
96 It will automatically register given types with the functions within the kernel category.
97
98 * Ability to register test cases for macros (see doc strings for @xnudebug_test).
99
100 The file layout is like following
101
102 xnu/
103 |-tools/
104 |-lldbmacros/
105 |-core/ # Core logic about kernel, lldb value abstraction, configs etc. **DO NOT TOUCH THIS DIR**
106 |-plugins/ # Holds plugins for kernel commands.
107 |-xnu.py # xnu debug framework along with kgmhelp, xnudebug commands.
108 |-xnudefines.py
109 |-utils.py
110 |-process.py # files containing commands/summaries code for each subsystem
111 |-...
112
113
114 The lldbmacros directory has a Makefile that follows the build process for xnu. This packages lldbmacros scripts into the dSYM of each kernel build. This helps in rev-locking the lldb commands with changes in kernel sources.
115
116
117 C. Kernel debugging commands.
118 ==============================
119 i. Using commands.
120 ------------------
121 Using xnu debug commands is very similar to kgmacros in gdb. You can use 'kgmhelp' to get a listing of available commands.
122 If you need detailed help for a command please type 'help <command name>' and the documentation for the command will be displayed.
123 For ex.
124
125 (lldb) help pmap_walk
126 Perform a page-table walk in <pmap> for <virtual_address>.
127 You can pass -- -v for verbose output. To increase the verbosity add more -v args after the '--'.
128 Syntax: pmap_walk <pmap> <virtual_address>
129
130 The basic format for every command provided under kgmhelp is like follows
131
132 (lldb) command_name [cmd_args..] [-CMDOPTIONS] [-xnuoptions]
133 where:
134 command_name : name of command as registed using the @lldb_command decorator and described in 'kgmhelp'
135 cmd_args : shell like arguments that are passed as is to the registered python function.
136 If there is error in these arguments than the implementor may display according error message.
137 xnuoptions : common options for stream based operations on the output of command_name.
138 Allowed options are
139 -h : show help string of a command
140 -s <regexp> : print only the lines matching <regexp>
141 -o <file> : direct the output of command to <file>. Will not display anything on terminal
142 -v : increase the verbosity of the command. Each '-v' encountered will increase verbosity by 1.
143 -p <plugin> : pass the output of command to <plugin> for processing and followup with command requests by it.
144 CMDOPTIONS : These are command level options (always a CAPITAL letter option) that are defined by the macro developer. Please do
145 help <cmdname> to know how each option operates on that particular command. For an example of how to use CMDOPTIONS, take a look at vm_object_walk_pages in memory.py
146
147 ii. Writing new commands.
148 --------------------------
149 The python modules are designed in such a way that the command from lldb invokes a python function with the arguments passed at lldb prompt.
150
151 It is recommended that you do a decoupled development for command interface and core utility function so that any function/code can be called as a simple util function and get the same output. i.e.
152
153 (lldb)showtask 0xabcdef000 is same as python >>> GetTaskSummary(0xabcdef000) or equivalent
154
155 Following is a step by step guideline on how to add a new command ( e.g showtaskvme ). [extra tip: Always good idea to wrap your macro code within # Macro: , # EndMacro.]
156
157 1. register a command to a function. Use the lldb_command decorator to map a 'command_name' to a function. Optionally you can provide getopt compatible option string for customizing your command invocation. Note: Only CAPITAL letter options are allowed. lowercase options are reserved for the framework level features.
158
159 2. Immediately after the register define the function to handle the command invocation. The signature is always like Abc(cmd_args=None, cmd_options={})
160
161 3. Add documentation for Abc(). This is very important for lldb to show help for each command. [ Follow the guidelines above with documentation ]
162
163 4. Use cmd_args array to get args passed on command. For example a command like `showtaskvme 0xabcdef00` will put have cmd_args=['0xabcdef00']
164 - note that we use core.value class as an interface to underlying C structures. Refer [Section B] for more details.
165 - use kern.globals.\<variable_name> & kern.GetValueFromAddress for building values from addresses.
166 - remember that the ideal type of object to be passed around is core.value
167 - Anything you 'print' will be relayed to lldb terminal output.
168
169 5. If the user has passed any custom options they would be in cmd_options dict. the format is `{'-<optionflag>':'<value>'}`. The \<value> will be '' (empty string) for non-option flags.
170
171 6. If your function finds issue with the passed argument then you can `raise ArgumentError('error_message')` to notify the user. The framework will automatically catch this and show appropriate help using the function doc string.
172
173 7. Please use "##" for commenting your code. This is important because single "#" based strings may be mistakenly considered in `unifdef` program.
174
175 Time for some code example? Try reading the code for function ShowTaskVmeHelper in memory.py.
176
177 SPECIAL Note: Very often you will find yourself making changes to a file for some command/summary and would like to test it out in lldb.
178
179 To easily reload your changes in lldb please follow the below example.
180
181 * you fire up lldb and start using zprint. And soon you need to add functionality to zprint.
182
183 * you happily change a function code in memory.py file to zprint macro.
184
185 * now to reload that particular changes without killing your debug session do
186 (lldb) xnudebug reload memory
187 memory is reloaded from ./memory.py
188 (lldb)
189
190 * Alternatively, you can use lldb`s command for script loading as
191 (lldb) command script import /path/to/memory.py
192 You can re-run the same command every time you update the code in file.
193
194 It is very important that you do reload using xnudebug command as it does the plumbing of commands and types for your change in the module. Otherwise you could easily get confused
195 why your changes are not reflected in the command.
196
197
198 D. Kernel type summaries.
199 ==========================
200 i. Using summaries
201 ------------------
202 The lldb debugger provides ways for user to customize how a particular type of object be described when printed. These are very useful in displaying complex and large structures
203 where only certain fields are important based on some flag or value in some field or variable. The way it works is every time lldb wants to print an object it checks
204 for registered summaries. We can define python functions and hook it up with lldb as callbacks for type summaries. For example.
205
206 (lldb) print first_zone
207 (zone_t) $49 = 0xd007c000
208 ZONE TOT_SZ ALLOC_ELTS FREE_ELTS FREE_SZ ELT_SZ ALLOC(ELTS PGS SLK) FLAGS NAME
209 0x00000000d007c000 29808 182 25 3600 144 4096 28 1 64 X$ zones
210 (lldb)
211 Just printing the value of first_zone as (zone_t) 0xd007c000 wouldnt have been much help. But with the registered summary for zone_t we can see all the interesting info easily.
212
213 You do not need to do anything special to use summaries. Once they are registered with lldb they show info automatically when printing objects. However if you wish to
214 see all the registered type summaries run the command `type summary list -w kernel` on lldb prompt.
215 Also if you wish to quickly disable the summaries for a particular command use the `showraw` command.
216
217 ii. Writing new summary functions
218 ---------------------------------
219 lldb provides really flexible interface for building summaries for complex objects and data. If you find that a struct or list can be
220 diagnosed better if displayed differently, then feel free to add a type summary for that type. Following is an easy guide on how to do that.
221
222 1. Register a function as a callback for displaying information for a type. Use the `@lldb_type_summary()` decorator with an array of types you wish to register for callback
223
224 2. Provide a header for the summary using `@header()` decorator. This is a strong requirement for summaries. This gets displayed before the output
225 of `GetTypeSummary()` is displayed. [In case you do not wish to have header then still define it as "" (empty string) ]
226
227 3. Define the function with signature of `GetSomeTypeSummary(valobj)`. It is highly recommended that the naming be consistent to `Get.*?Summary(valobj)`
228 The valobj argument holds the core.value object for display.
229
230 4. Use the utility functions and memory read operations to pull out the required information.
231 [ use `kern.globals` & `kern.GetValueFromAddress` for building args to core functions. ]
232 [ remember that the ideal type of object to be passed around is core.value ]
233
234 5. return a string that would be printed by the caller. When lldb makes a call back it expects a str to be returned. So do not print
235 directly out to console. [ debug info or logs output is okay to be printed anywhere :) ]
236
237 Time for some code example? Try reading the code for GetTaskSummary() in process.py.
238
239
240
241 E. FAQs and Generel Coding Guidelines
242 ======================================
243
244 i. Frequently Asked Questions
245 -----------------------------
246
247 Q. How do I avoid printing the summary and see the actual data in a structure?
248
249 A. There is a command called `showraw`. This will disable all kernel specific type summaries and execute any command you provide. For ex.
250
251 (lldb) print (thread_t) 0x80d6a620
252 (thread_t) $45 = 0x80d6a620
253 thread thread_id processor pri io_policy state wait_queue wait_event wmesg thread_name
254 0x80d6a620 0x317 0x902078c8 61 W 0x910cadd4 0x0 SystemSoundServer
255 (lldb) showraw print (thread_t) 0x80d6a620
256 (thread_t) $48 = 0x80d6a620
257
258 Q. I typed `showallvnodes` and nothing happens for a long time? OR How do I get output of long running command instantly on the terminal?
259
260 A. The lldb command interface tries to build result object from output of a python function. So in case of functions with very long output or runtime it may
261 seem that the lldb process is hung. But it is not. You can use "-i" option to get immediate output on terminal.
262
263 ex. (lldb) showallvnodes -- -i
264 Immediate Output
265 ....
266
267 Q. I made a change in a python file for a command or summary, but the output is not reflected in the lldb command?
268
269 A. The python framework does not allow for removing a loaded module and then reloading it. So sometimes if a command has a cached value from
270 old code that it will still call the old function and hence will not display new changes in file on disk. If you find yourself in such a situation
271 please see [Section C. -> SPECIAL Note]. If the change is to basic class or caching mechanism than it is advised to quit lldb and re-load all modules again.
272
273 Q. I am new to python. I get an error message that I do not understand. what should I do?
274
275 A. The syntax for python is different from conventional programming languages. If you get any message with SyntaxError or TypeError or ValueError then please review your code and look for common errors like
276
277 - wrong level of indentation?
278 - missed a ':' at the end of an if, elif, for, while statement?
279 - referencing a key in dictionary that doesn't exist? You might see KeyError in such cases.
280 - mistakenly used python reserved keyword as variable? (check http://docs.python.org/release/3.0.1/reference/lexical_analysis.html#id8)
281 - Trying to modify a string value? You can only create new strings but never modify existing ones.
282 - Trying to add a non string value to a string? This typically happens in print "time is " + gettime(). here gettime() returns int and not str.
283 - using a local variable with same name as global variable?
284 - assigning a value to global variable without declaring first? Its highly recommended to always declare global variable with 'global' keyword
285 If you still have difficulty you can look at the python documentation at http://docs.python.org
286
287
288 Q. I wish to pass value of variable/expression to xnu lldb macro that accepts only pointers. How can I achieve that?
289
290 A. Many lldb macros have syntax that accepts pointers (eg showtaskstacks etc). In order to have your expression be evaluated before passing to command use `back ticks`. For example:
291
292 (lldb) showtaskstacks `(task_t)tasks.next`
293 This way the expressing withing ` ` is evaluated by lldb and the value is passed to the command.
294 Note that if your argument pointer is bad or the memory is corrupted lldb macros will fail with a long backtrace that may not make sense. gdb used to fail silently but lldb does not.
295 Please see Section F(i) for more information on reading backtraces.
296
297 Q. I connected to a coredump file with lldb --core corefile and I got RuntimeError: Unable to find lldb thread for tid=XYZ. What should I do?
298
299 A. This is most likely the case that lldb ignored the operating system plugin in the dSYM and hence threads are not populated. Please put the line 'settings set target.load-script-from-symbol-file true' in your ~/.lldbinit file. If you do not have access you can alternatively do
300
301 bash# lldb
302 (lldb) settings set target.load-script-from-symbol-file true
303 (lldb) file --core corefile
304
305
306 ii. Formatted output printing - zen and peace for life
307 ------------------------------------------------------
308
309 To avoid the horrors of printing a tabular data on console and then 2 weeks later again messing with it for a new field, it is recommended to follow these guidelines.
310
311 * any python string can be invoked to "".format() and hence makes it very easy to play with formats
312
313 * As a convention, I suggest that for printing pointer values in hex use "{0: <#020x}".format(some_int_value). This will print nice 0x prefixed strings with length padded to 20.
314
315 * If you need help with format options take a look at http://docs.python.org/library/string.html#format-string-syntax
316
317 * [ I'd first create a format string for data and then for the header just change the x's and d's to s and pass the header strings to format command. see GetTaskSummary()]
318
319 * If you need to print a string from a core.value object then use str() to get string representation of value.
320
321
322 iii. Coding conventions
323 -----------------------
324 It is very very HIGHLY RECOMMENDED to follow these guidelines for writing any python code.
325
326 * Python is very sensitive to tabs and spaces for alignment. So please make sure you **INDENT YOUR CODE WITH SPACES** at all times.
327
328 * The standard tab width is 4 spaces. Each increasing indent adds 4 spaces beginning of the line.
329
330 * The format for documentation is -
331 """ A one line summary describing what this function / class does
332 Detailed explanation if necessary along with params and return values.
333 """
334
335 * All Classes and functions should have a doc string describing what the function does
336 A consistent format is expected. For ex.
337 def SumOfNumbers(a, b, c, d):
338 """ Calculate sum of numbers.
339 params:
340 a - int, value to be added. can be 0
341 b - int/float, value to be added.
342 returns:
343 int/float - Sum of two values
344 raises:
345 TypeError - If any type is not identified in the params
346 """
347
348 * A Class or Function should always start with CAPITAL letter and be CamelCase. If a function is for internal use only than it starts with '_'.
349
350 * Function params should always be lower_case and be word separated with '_'
351
352 * A local variable inside a function should be lower_case and separated with '_'
353
354 * A variable for internal use in object should start with '_'.
355
356 * if a class variable is supposed to hold non native type of object, it is good idea to comment what type it holds
357
358 * A class function with name matching `Get(.*?)Summary()` is always supposed to return a string which can be printed on stdout or any file.
359
360 * Functions beginning with "Get" (eg. GetVnodePath()) mean they return a value and will not print any output to stdout.
361
362 * Functions beginning with "Show" (eg. ShowZTrace()) mean they will print data on screen and may not return any value.
363
364
365 iv. Submitting changes in lldbmacros
366 ------------------------------------
367
368 To contribute new commands or fixes to existing one, it is recommended that you follow the procedure below.
369
370 * Save the changes requried for new command or fix into lldbmacros directory.
371
372 * Make sure that the coding conventions are strictly followed.
373
374 * Run syntax checker on each of the modified files. It will find basic formatting errors in the changed files for you.
375
376 * If you are adding new file then please update the Makefile and xnu.py imports to ensure they get compiled during kernel build.
377
378 * Do a clean build of kernel from xnu top level directory.
379
380 * Verify that your changes are present in the dSYM directory of new build.
381
382 * Re-run all your test and verification steps with the lldbmacros from the newly packaged dSYM/Contents/Resources/Python/lldbmacros.
383
384 v. Common utility functions and paradigms
385 -----------------------------------------
386 Please search and look around the code for common util functions and paradigm
387
388 * Take a peek at utils.py for common utility like sizeof_fmt() to humanize size strings in KB, MB etc. The convention is to have functions that do self contained actions and does not require intricate knowledge of kernel structures in utils.py
389
390 * If you need to get pagesize of the traget system, do not hard code any value. kern.globals.page_size is your friend. Similarly use config['verbosity'] for finding about configs.
391
392 * If you are developing a command for structure that is different based on development/release kernels please use "hasattr()" functionality to conditionalize referencing #ifdef'ed fields in structure. See example in def GetTaskSummary(task) in process.py
393
394
395 F. Development and Debugging on lldb kernel debugging platform.
396 ===============================================================
397
398 i. Reading a exception backtrace
399 --------------------------------
400 In case of an error the lldbmacros may print out an exception backtrace and halt immediately. The backtrace is very verbose and may be confusing. The important thing is to isolate possible causes of failure, and eventually filing a bug with kernel team. Following are some common ways where you may see an exception instead of your expected result.
401
402 * The lldbmacros cannot divine the type of memory by inspection. If a wrong pointer is passed from commandline then, the command code will try to read and show some results. It may still be junk or plain erronous. Please make sure your command arguments are correct.
403 For example: a common mistake is to pass task address to showactstack. In such a case lldb command may fail and show you a confusing backtrace.
404
405 * Kernel debugging is particularly tricky. Many parts of memory may not be readable. There could be failure in network, debugging protocol or just plain bad memory. In such a case please try to see if you can examine memory for the object you are trying to access.
406
407 * In case of memory corruption, the lldbmacros may have followed wrong pointer dereferencing. This might lead to failure and a exception to be thrown.
408
409
410 ii. Loading custom or local lldbmacros and operating_system plugin
411 ------------------------------------------------------------------
412
413 The lldbmacros are packaged right into the dSYM for the kernel executable. This makes debugging very easy since they can get loaded automatically when symbols are loaded.
414 However, this setup makes it difficult for a lldbmacro developer to load custom/local macros. Following is the suggested solution for customizing your debugging setup:
415
416 * set up environment variable DEBUG_XNU_LLDBMACROS=1 on your shell. This will disable the automatic setup of lldbmacros and the operating_system.py from the symbols.
417 - bash$ export DEBUG_XNU_LLDBMACROS=1
418
419 * start lldb from the shell
420 - bash$ lldb
421
422 * [optional] If you are making changes in the operating_system plugin then you need to set the plugin path for lldb to find your custom operating_system plugin file.
423 - (lldb)settings set target.process.python-os-plugin-path /path/to/xnu/tools/lldbmacros/core/operating_system.py
424 If you do not wish to change anything in operating_system plugin then just leave the setting empty. The symbol loading module will set one up for you.
425
426 * Load the xnu debug macros from your custom location.
427 - (lldb)command script import /path/to/xnu/tools/lldbmacros/xnu.py
428
429
430 iii. Adding debug related 'printf's
431 -----------------------------------
432
433 The xnu debug framework provides a utility function (debuglog) in utils.py. Please use this for any of your debugging needs. It will not print any output unless the user turns on debug logging on the command. Please check the documentaiton of debuglog for usage and options.
434
435 * To enable/disable logging
436 - (lldb) xnudebug debug
437 Enabled debug logging.
438
439