python-plugin-provider: make python_state static
[babeltrace.git] / CONTRIBUTING.adoc
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1// Render with Asciidoctor
2
3= Babeltrace contributor's guide
12e02f34 4Jérémie Galarneau, Philippe Proulx
7715df7b 5v0.2, 19 June 2019
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6:toc:
7:toclevels: 5
8
beb0fb75 9
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10This is a partial contributor's guide for the
11http://diamon.org/babeltrace[Babeltrace] project. If you have any
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12questions that are not answered by this guide, please post them on
13https://lists.lttng.org/cgi-bin/mailman/listinfo/lttng-dev[Babeltrace's
14mailing list].
15
beb0fb75 16
7715df7b 17== Babeltrace library
12e02f34 18
7715df7b 19=== Object reference counting and lifetime
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20
21This section covers the rationale behind the design of Babeltrace's
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22object lifetime management. This applies to the Babeltrace library, as
23well as to the CTF writer library (although the public reference
24counting functions are not named the same way).
12e02f34 25
7715df7b 26Starting from Babeltrace 2.0, all publicly exposed objects inherit a
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27common base: `bt_object`. This base provides a number of facilities to
28all objects, chief amongst which are lifetime management functions.
29
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30The lifetime of some public objects is managed by reference counting. In
31this case, the API offers the `+bt_*_get_ref()+` and `+bt_*_put_ref()+`
32functions which respectively increment and decrement an object's
33reference count.
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34
35As far as lifetime management in concerned, Babeltrace makes a clear
36distinction between regular objects, which have a single parent, and
37root objects, which don't.
38
39
7715df7b 40==== The problem
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41
42Let us consider a problematic case to illustrate the need for this
43distinction.
44
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45A user of the Babeltrace library creates a trace class, which _has_ a
46stream class (the class of a stream) and that stream class, in turn,
47_has_ an event class (the class of an event).
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48
49Nothing prevents this user from releasing his reference on any one of
50these objects in any order. However, all objects in the
51__trace--stream class--event class__ hierarchy can be retrieved
52from any other.
53
54For instance, the user could discard his reference on both the event
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55class and the stream class, only keeping a reference on the trace class.
56From this trace class reference, stream classes can be enumerated,
57providing the user with a new reference to the stream class he discarded
58earlier. Event classes can also be enumerated from stream classes,
59providing the user with references to the individual event classes.
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60
61Conversely, the user could also hold a reference to an event class and
7715df7b 62retrieve its parent stream class. The trace class, in turn, can then be
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63retrieved from the stream class.
64
65This example illustrates what could be interpreted as a circular
66reference dependency existing between these objects. Of course, if the
67objects in such a scenario were to hold references to each other (in
68both directions), we would be in presence of a circular ownership
69resulting in a leak of both objects as their reference counts would
70never reach zero.
71
72Nonetheless, the API must offer the guarantee that holding a node to any
73node of the graph keeps all other reachable nodes alive.
74
75
7715df7b 76==== The solution
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77
78The scheme employed in Babeltrace to break this cycle consists in the
7715df7b 79"children" holding _reverse component references_ to their parents. That
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80is, in the context of the trace IR, that event classes hold a reference
81to their parent stream class and stream classes hold a reference to
7715df7b 82their parent trace class.
12e02f34 83
7715df7b 84On the other hand, parents hold _claiming aggregation references_ to
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85their children. A claiming aggregation reference means that the object
86being referenced should not be deleted as long as the reference still
87exists. In this respect, it can be said that parents truly hold the
88ownership of their children, since they control their lifetime.
89Conversely, the reference counting mechanism is leveraged by children to
90notify parents that no other child indirectly exposes the parent.
91
92When a parented object's reference count reaches zero, it invokes
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93`+bt_*_put_ref()+` on its parent and does _not_ free itself. However,
94from that point, the object depends on its parent to signal the moment
95when it can be safely reclaimed.
96
97The invocation of `+bt_*_put_ref()+` by the last children holding a
98reference to its parent might trigger a cascade of `+bt_*_put_ref()+`
99from child to parent. Eventually, a **root** object is reached. At that
100point, if this orphaned object's reference count reaches zero, the
101object invokes the destructor method defined by everyone of its children
102as part of their base `struct bt_object`. The key point here is that the
103cascade of destructor will necessarily originate from the root and
104propagate in preorder to the children. These children will propagate the
105destruction to their own children before reclaiming their own memory.
106This ensures that a node's pointer to its parent is _always_ valid since
107the parent has the responsibility of tearing-down their children before
108cleaning themselves up.
109
110Assuming a reference to an object is _acquired_ by calling
111`+bt_*_get_ref()+` while its reference count is zero, the object
112acquires, in turn, a reference on its parent using `+bt_*_get_ref()+`.
113At that point, the child can be thought of as having converted its weak
114reference to its parent into a regular reference. That is why this
115reference is referred to as a _claiming_ aggregation reference.
116
117
118==== Caveats
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119
120This scheme imposes a number of strict rules defining the relation
121between objects:
122
123* Objects may only have one parent.
124* Objects, beside the root, are only retrievable from their direct
125 parent or children.
126
127
7715df7b 128==== Example
12e02f34 129
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130The initial situation is rather simple: **User{nbsp}A** is holding a
131reference to a trace class, **TC1**. As per the rules previously
132enounced, stream classes **SC1** and **SC2** don't hold a reference to
133**TC1** since their own reference counts are zero. The same holds true
134for **EC1**, **EC2** and **EC3** with respect to **SC1** and **SC2**.
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135
136image::doc/contributing-images/bt-ref01.png[]
137
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138In this second step, we can see that **User{nbsp}A** has acquired a
139reference on **SC2** through the trace class, **TC1**.
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140
141The stream class's reference count transitions from zero to one,
142triggering the acquisition of a strong reference on **TC1** from
143**SC2**.
144
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145Hence, at this point, the trace class's ownership is shared by
146**User{nbsp}A** and **SC2**.
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147
148image::doc/contributing-images/bt-ref02.png[]
149
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150Next, **User{nbsp}A** acquires a reference on the **EC3** event class
151through its parent stream class, **SC2**. Again, the transition of an
152object's reference count from 0 to 1 triggers the acquisition of a
153reference on its parent.
12e02f34 154
7715df7b 155Note that SC2's reference count was incremented to 2. The trace class's
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156reference count remains unchanged.
157
158image::doc/contributing-images/bt-ref03.png[]
159
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160**User{nbsp}A** decides to drop its reference on **SC2**. **SC2**'s
161reference count returns back to 1, everything else remaining unchanged.
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162
163image::doc/contributing-images/bt-ref04.png[]
164
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165**User{nbsp}A** can then decide to drop its reference on the trace
166class. This results in a reversal of the initial situation:
167**User{nbsp}A** now owns an event, **EC3**, which is keeping everything
168else alive and reachable.
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169
170image::doc/contributing-images/bt-ref05.png[]
171
7715df7b 172If another object, **User{nbsp}B**, enters the picture and acquires a
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173reference on the **SC1** stream class, we see that **SC1**'s reference
174count transitioned from 0 to 1, triggering the acquisition of a
175reference on **TC1**.
176
177image::doc/contributing-images/bt-ref06.png[]
178
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179**User{nbsp}B** hands off a reference to **EC1**, acquired through
180**SC1**, to another object, **User{nbsp}C**. The acquisition of a
181reference on **EC1**, which transitions from 0 to 1, triggers the
182acquisition of a reference on its parent, **SC1**.
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183
184image::doc/contributing-images/bt-ref07.png[]
185
7715df7b 186At some point, **User{nbsp}A** releases its reference on **EC3**. Since
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187**EC3**'s reference count transitions to zero, it releases its reference
188on **SC2**. **SC2**'s reference count, in turn, reaches zero and it
189releases its reference to **TC1**.
190
191**TC1**'s reference count is now 1 and no further action is taken.
192
193image::doc/contributing-images/bt-ref08.png[]
194
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195**User{nbsp}B** releases its reference on **SC1**. **User{nbsp}C**
196becomes the sole owner of the whole hierarchy through his ownership of
197**EC1**.
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198
199image::doc/contributing-images/bt-ref09.png[]
200
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201Finally, **User{nbsp}C** releases his ownership of **EC1**, triggering
202the release of the whole hierarchy. Let's walk through the reclamation
203of the whole graph.
12e02f34 204
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205Mirroring what happened when **User{nbsp}A** released its last reference
206on **EC3**, the release of **EC1** by **User{nbsp}C** causes its
207reference count to fall to zero.
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208
209This transition to zero causes **EC1** to release its reference on
210**SC1**. **SC1**'s reference count reaching zero causes it to release
211its reference on **TC1**.
212
213image::doc/contributing-images/bt-ref10.png[]
214
215Since the reference count of **TC1**, a root object, has reached zero,
216it invokes the destructor method on its children. This method is
217recursive and causes the stream classes to call the destructor method on
218their event classes.
219
220The event classes are reached and, having no children of their own, are
221reclaimed.
222
223image::doc/contributing-images/bt-ref11.png[]
224
225The stream classes having destroyed their children, are then reclaimed
7715df7b 226by the trace class.
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227
228image::doc/contributing-images/bt-ref12.png[]
229
230Finally, the stream classes having been reclaimed, **TC1** is reclaimed.
231
232image::doc/contributing-images/bt-ref13.png[]
233
234
12e02f34 235== Logging
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236
237Logging is a great instrument for a developer to be able to collect
238information about a running software.
239
240Babeltrace is a complex software with many layers. When a Babeltrace
241graph fails to run, what caused the failure? It could be caused by any
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242component, any message iterator, and any deeply nested validation of a
243CTF IR object (within the `ctf` plugin), for example. With the
244appropriate logging statements manually placed in the source code, we
245can find the cause of a bug faster.
beb0fb75 246
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247While <<choose-a-log-level,care must be taken>> when placing _DEBUG_ to
248_FATAL_ logging statements, you should liberally instrument your
c9ecaa78 249Babeltrace module with _TRACE_ logging statements to help future you
7715df7b 250and other developers understand what's happening at run time.
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251
252
12e02f34 253=== Logging API
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254
255The Babeltrace logging API is internal: it is not exposed to the users
7715df7b 256of the library; only to their developers. The only thing that a library
4a41523d 257user can control is the current log level of the library itself with
beb0fb75 258`bt_logging_set_global_level()` and the initial library's log level with
7715df7b 259the `LIBBABELTRACE2_INIT_LOG_LEVEL` environment variable.
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260
261This API is based on https://github.com/wonder-mice/zf_log[zf_log], a
262lightweight, yet featureful, MIT-licensed core logging library for C and
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263pass:[C++]. The zf_log source files were modified to have the `BT_` and
264`bt_` prefixes, and other small changes, like color support and using
265the project's `BT_DEBUG_MODE` definition instead of the standard
266`NDEBUG`.
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267
268The logging functions are implemented in the logging convenience
7715df7b 269library (`src/logging` directory).
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270
271
7715df7b 272[[logging-headers]]
12e02f34 273==== Headers
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274
275The logging API headers are:
276
71c5da58 277`<babeltrace2/logging.h>`::
7715df7b 278 Public header which a library user can use to set and get
40392cf1 279 libbabeltrace2's current log level.
beb0fb75 280
7715df7b 281`"logging/log.h"`::
beb0fb75 282 Internal, generic logging API which you can use in any Babeltrace
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283 module. This is the translation of `zf_log.h`.
284+
285This header offers the <<gen-logging-statements,generic logging
286statement macros>>.
beb0fb75 287
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288`"lib/logging.h"`::
289 Specific internal header to use within the library.
290+
291This header defines `BT_LOG_OUTPUT_LEVEL` to a custom, library-wide
292hidden symbol which is the library's current log level before including
293`"logging/log.h"`.
294+
295This header offers the <<lib-logging-statements,library-specific logging
296statement macros>>.
beb0fb75 297
3fa1b6a3 298`"logging/comp-logging.h"`::
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299 Specific internal header to use within a component class.
300+
301This header offers the <<comp-logging-statements,component-specific
302logging statement macros>>.
beb0fb75 303
b4b9064d 304
7715df7b 305[[log-levels]]
12e02f34 306==== Log levels
beb0fb75 307
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308The internal logging API offers the following log levels, in ascending
309order of severity:
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311[options="header,autowidth",cols="4"]
312|===
313|Log level name
314|Log level short name
315|Internal API enumerator
316|Public API enumerator
317
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318|_TRACE_
319|`T`
320|`BT_LOG_TRACE`
321|`BT_LOGGING_LEVEL_TRACE`
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322
323|_DEBUG_
324|`D`
325|`BT_LOG_DEBUG`
326|`BT_LOGGING_LEVEL_DEBUG`
327
328|_INFO_
329|`I`
330|`BT_LOG_INFO`
331|`BT_LOGGING_LEVEL_INFO`
332
e9d0e821 333|_WARNING_
7715df7b 334|`W`
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335|`BT_LOG_WARNING`
336|`BT_LOGGING_LEVEL_WARNING`
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337
338|_ERROR_
339|`E`
340|`BT_LOG_ERROR`
341|`BT_LOGGING_LEVEL_ERROR`
342
343|_FATAL_
344|`F`
345|`BT_LOG_FATAL`
346|`BT_LOGGING_LEVEL_FATAL`
347
348|_NONE_
349|`N`
350|`BT_LOG_NONE`
351|`BT_LOGGING_LEVEL_NONE`
352|===
353
354The short name is accepted by the log level environment variables and by
355the CLI's `--log-level` options.
beb0fb75 356
7715df7b 357See <<choose-a-log-level,how to decide which one to use>> below.
beb0fb75 358
7715df7b 359There are two important log level expressions:
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360
361[[build-time-log-level]]Build-time, minimal log level::
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362 The minimal log level, or build-time log level, is set at build time
363 and determines the minimal log level of the logging statements which
364 can be executed. This applies to all the modules (CLI, library,
365 plugins, bindings, etc.).
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366+
367All the logging statements with a level below this level are **not built
368at all**. All the logging statements with a level equal to or greater
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369than this level _can_ be executed, depending on the
370<<run-time-log-level,run-time log level>>.
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371+
372You can set this level at configuration time with the
373`BABELTRACE_MINIMAL_LOG_LEVEL` environment variable, for example:
374+
375--
376----
e9d0e821 377$ BABELTRACE_MINIMAL_LOG_LEVEL=INFO ./configure
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378----
379--
380+
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381The default build-time log level is `DEBUG`. For optimal performance,
382set it to `INFO`, which effectively disables all fast path logging in
e9d0e821 383all the Babeltrace modules. You can't set it to `WARNING`, `ERROR`,
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384`FATAL`, or `NONE` because the impact on performance is minuscule
385starting from the _INFO_ log level anyway and we want any Babeltrace
386build to always be able to print _INFO_-level logs.
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387+
388The library's public API provides `bt_logging_get_minimal_level()` to
389get the configured minimal log level.
390
391[[run-time-log-level]]Run-time, dynamic log level::
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392 The dynamic log level is set at run time and determines the current,
393 _active_ log level. All the logging statements with a level below
394 this level are not executed, **but they still evaluate the
395 condition**. All the logging statements with a level equal to or
396 greater than this level are executed, provided that their level is
397 also <<build-time-log-level,enabled at build time>>.
beb0fb75 398+
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399`zf_log` has a concept of a global run-time log level which uses the
400`_bt_log_global_output_lvl` symbol. In practice, we never use this
401symbol, and always make sure that `BT_LOG_OUTPUT_LEVEL` is defined to a
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402module-wise expression before including `"logging/log.h"`.
403+
404In the library, `"lib/logging.h"` defines its own
405`BT_LOG_OUTPUT_LEVEL` to the library's log level symbol before it
406includes `"logging/log.h"` itself.
beb0fb75 407+
40392cf1 408In libbabeltrace2, the user can set the current run-time log level with
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409the `bt_logging_set_global_level()` function, for example:
410+
411--
412[source,c]
413----
414bt_logging_set_global_level(BT_LOGGING_LEVEL_INFO);
415----
416--
417+
418The library's initial run-time log level is defined by the
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419`LIBBABELTRACE2_INIT_LOG_LEVEL` environment variable, or set to _NONE_
420if this environment variable is undefined.
421+
422Other modules have their own way of setting their run-time log level.
423+
424For example, the CLI uses the `BABELTRACE_CLI_LOG_LEVEL` environment
425variable, as well as its global `--log-level` option:
426+
427----
428$ babeltrace2 --log-level=I ...
429----
430+
431The components use their own log level (as returned by
432`bt_component_get_logging_level()`). With the CLI, you can set a
433specific component's log level with its own, position-dependent
434`--log-level` option:
435+
436----
437$ babeltrace2 /path/to/trace -c sink.ctf.fs --log-level=D
438----
439+
440Code which is common to the whole project, for example `src/common`
441and `src/compat`, use function parameters to get its run-time log
442level, for example:
443+
444[source,c]
445----
446BT_HIDDEN
447char *bt_common_get_home_plugin_path(int log_level);
448----
beb0fb75 449+
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450Typically, when a logging-enabled module calls such a function, it
451passes its own log level expression directly (`BT_LOG_OUTPUT_LEVEL`):
beb0fb75 452+
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453[source,c]
454----
455path = bt_common_get_home_plugin_path(BT_LOG_OUTPUT_LEVEL);
456----
457+
458Otherwise, just pass `BT_LOG_NONE`:
459+
460----
461path = bt_common_get_home_plugin_path(BT_LOG_NONE);
462----
463
464
465[[gen-logging-statements]]
466==== Generic logging statement macros
467
468The Babeltrace logging statement macros work just like `printf()`
469(except the `+BT_LOG*_STR()+` ones) and contain their <<log-levels,log
470level>> (short name) in their name.
beb0fb75 471
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472Each of the following macros evaluate the
473<<build-time-log-level,build-time log level>> definition and
474<<run-time-log-level,run-time log level>> expression (as defined by
475`BT_LOG_OUTPUT_LEVEL`) to log conditionally.
beb0fb75 476
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477See <<logging-instrument-c-file-gen,Instrument a C source file
478(generic)>> and <<logging-instrument-h-file-gen,Instrument a C header
479file (generic)>> to learn how to be able to use the following macros.
beb0fb75 480
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481`+BT_LOGT("format string", ...)+`::
482 Generic trace logging statement.
beb0fb75 483
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484`+BT_LOGD("format string", ...)+`::
485 Generic debug logging statement.
beb0fb75 486
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487`+BT_LOGI("format string", ...)+`::
488 Generic info logging statement.
beb0fb75 489
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490`+BT_LOGW("format string", ...)+`::
491 Generic warning logging statement.
beb0fb75 492
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493`+BT_LOGE("format string", ...)+`::
494 Generic error logging statement.
beb0fb75 495
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496`+BT_LOGF("format string", ...)+`::
497 Generic fatal logging statement.
beb0fb75 498
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499`+BT_LOGT_STR("preformatted string")+`::
500 Generic preformatted string trace logging statement.
beb0fb75 501
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502`+BT_LOGD_STR("preformatted string")+`::
503 Generic preformatted string debug logging statement.
beb0fb75 504
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505`+BT_LOGI_STR("preformatted string")+`::
506 Generic preformatted string info logging statement.
beb0fb75 507
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508`+BT_LOGW_STR("preformatted string")+`::
509 Generic preformatted string warning logging statement.
beb0fb75 510
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511`+BT_LOGE_STR("preformatted string")+`::
512 Generic preformatted string error logging statement.
beb0fb75 513
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514`+BT_LOGF_STR("preformatted string")+`::
515 Generic preformatted string fatal logging statement.
beb0fb75 516
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517`+BT_LOGT_MEM(data_ptr, data_size, "format string", ...)+`::
518 Generic memory trace logging statement.
beb0fb75 519
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520`+BT_LOGD_MEM(data_ptr, data_size, "format string", ...)+`::
521 Generic memory debug logging statement.
82b32699 522
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523`+BT_LOGI_MEM(data_ptr, data_size, "format string", ...)+`::
524 Generic memory info logging statement.
82b32699 525
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526`+BT_LOGW_MEM(data_ptr, data_size, "format string", ...)+`::
527 Generic memory warning logging statement.
82b32699 528
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529`+BT_LOGE_MEM(data_ptr, data_size, "format string", ...)+`::
530 Generic memory error logging statement.
82b32699 531
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532`+BT_LOGF_MEM(data_ptr, data_size, "format string", ...)+`::
533 Generic memory fatal logging statement.
82b32699 534
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535`+BT_LOGT_ERRNO("initial message", "format string", ...)+`::
536 Generic `errno` string trace logging statement.
82b32699 537
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538`+BT_LOGD_ERRNO("initial message", "format string", ...)+`::
539 Generic `errno` string debug logging statement.
beb0fb75 540
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541`+BT_LOGI_ERRNO("initial message", "format string", ...)+`::
542 Generic `errno` string info logging statement.
beb0fb75 543
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544`+BT_LOGW_ERRNO("initial message", "format string", ...)+`::
545 Generic `errno` string warning logging statement.
beb0fb75 546
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547`+BT_LOGE_ERRNO("initial message", "format string", ...)+`::
548 Generic `errno` string error logging statement.
beb0fb75 549
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550`+BT_LOGF_ERRNO("initial message", "format string", ...)+`::
551 Generic `errno` string fatal logging statement.
beb0fb75 552
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553
554[[lib-logging-statements]]
555==== Library-specific logging statement macros
556
557The Babeltrace library contains an internal logging API based on the
558generic logging framework. You can use it to log known Babeltrace
559objects without having to manually log each member.
560
561See <<logging-instrument-c-file-lib,Instrument a library C source file>>
562and <<logging-instrument-h-file-lib,Instrument a library C header file>> to
563learn how to be able to use the following macros.
564
565The library logging statement macros are named `+BT_LIB_LOG*()+` instead
566of `+BT_LOG*()+`:
567
c9ecaa78
PP
568`+BT_LIB_LOGT("format string", ...)+`::
569 Library trace logging statement.
7715df7b
PP
570
571`+BT_LIB_LOGD("format string", ...)+`::
572 Library debug logging statement.
573
574`+BT_LIB_LOGI("format string", ...)+`::
575 Library info logging statement.
576
577`+BT_LIB_LOGW("format string", ...)+`::
578 Library warning logging statement.
579
580`+BT_LIB_LOGE("format string", ...)+`::
581 Library error logging statement.
582
583`+BT_LIB_LOGF("format string", ...)+`::
584 Library fatal logging statement.
585
30e5d453
PP
586`+BT_LIB_LOGW_APPEND_CAUSE("format string", ...)+`::
587 Library warning logging statement, and unconditional error cause
588 appending.
589
590`+BT_LIB_LOGE_APPEND_CAUSE("format string", ...)+`::
591 Library error logging statement, and unconditional error cause
592 appending.
593
594`+BT_LIB_LOGF_APPEND_CAUSE("format string", ...)+`::
595 Library fatal logging statement, and unconditional error cause
596 appending.
597
7715df7b
PP
598The macros above accept the typical `printf()` conversion specifiers
599with the following limitations:
600
601* The `+*+` width specifier is not accepted.
602* The `+*+` precision specifier is not accepted.
603* The `j` and `t` length modifiers are not accepted.
604* The `n` format specifier is not accepted.
605* The format specifiers defined in `<inttypes.h>` are not accepted,
606 except for `PRId64`, `PRIu64`, `PRIx64`, `PRIX64`, `PRIo64`, and
607 `PRIi64`.
608
609The Babeltrace library custom conversion specifier is accepted. Its
610syntax is either `%!u` to format a UUID (`bt_uuid` type), or:
611
612. Introductory `%!` sequence.
613
614. **Optional**: `[` followed by a custom prefix for the printed fields
615 of this specifier, followed by `]`. The standard form is to end this
616 prefix with `-` so that, for example, with the prefix `tc-`, the
617 complete field name becomes `tc-addr`.
618
619. **Optional**: `pass:[+]` to print extended object members. This
620 depends on the provided format specifier.
621
622. Format specifier (see below).
623
624The available format specifiers are:
625
626[options="header,autowidth",cols="3"]
627|===
628|Specifier
629|Object
630|Expected C type
631
632|`F`
633|Trace IR field class
88efd0a7 634|`+const struct bt_field_class *+`
7715df7b
PP
635
636|`f`
637|Trace IR field
88efd0a7 638|`+const struct bt_field *+`
7715df7b
PP
639
640|`P`
641|Trace IR field path
88efd0a7 642|`+const struct bt_field_path *+`
7715df7b
PP
643
644|`E`
645|Trace IR event class
88efd0a7 646|`+const struct bt_event_class *+`
7715df7b
PP
647
648|`e`
649|Trace IR event
88efd0a7 650|`+const struct bt_event *+`
7715df7b
PP
651
652|`S`
653|Trace IR stream class.
88efd0a7 654|`+const struct bt_stream_class *+`
7715df7b
PP
655
656|`s`
657|Trace IR stream
88efd0a7 658|`+const struct bt_stream *+`
7715df7b
PP
659
660|`a`
661|Trace IR packet
88efd0a7 662|`+const struct bt_packet *+`
7715df7b
PP
663
664|`T`
665|Trace IR trace class
88efd0a7 666|`+const struct bt_trace_class *+`
7715df7b
PP
667
668|`t`
669|Trace IR trace
88efd0a7 670|`+const struct bt_trace *+`
7715df7b
PP
671
672|`K`
673|Trace IR clock class
88efd0a7 674|`+const struct bt_clock_class *+`
7715df7b
PP
675
676|`k`
677|Trace IR clock snapshot
88efd0a7 678|`+const struct bt_clock_snapshot *+`
7715df7b
PP
679
680|`v`
681|Value object
88efd0a7
PP
682|`+const struct bt_value *+`
683
684|`R`
685|Integer range set
686|`const struct bt_integer_range_set *`
7715df7b
PP
687
688|`n`
689|Message
88efd0a7 690|`+const struct bt_message *+`
7715df7b
PP
691
692|`i`
693|Message iterator
694|`struct bt_message_iterator *`
695
696|`C`
697|Component class
698|`struct bt_component_class *`
699
700|`c`
701|Component
88efd0a7 702|`+const struct bt_component *+`
7715df7b
PP
703
704|`p`
705|Port
88efd0a7 706|`+const struct bt_port *+`
7715df7b
PP
707
708|`x`
709|Connection
88efd0a7 710|`+const struct bt_connection *+`
7715df7b
PP
711
712|`g`
713|Graph
88efd0a7 714|`+const struct bt_graph *+`
7715df7b 715
33573333
PP
716|`z`
717|Interrupter
718|`+struct bt_interrupter *+`
719
7715df7b
PP
720|`l`
721|Plugin
88efd0a7 722|`+const struct bt_plugin *+`
7715df7b 723
c0e90f23
PP
724|`r`
725|Error cause
88efd0a7 726|`+const struct bt_error_cause *+`
c0e90f23 727
7715df7b
PP
728|`o`
729|Object pool
88efd0a7 730|`+const struct bt_object_pool *+`
7715df7b
PP
731
732|`O`
733|Object
88efd0a7 734|`+const struct bt_object *+`
7715df7b
PP
735|===
736
737Conversion specifier examples:
738
739* `%!f`
740* `%![my-event-]+e`
741* `%!t`
742* `%!+F`
743
744The ``, `` string (comma and space) is printed between individual
745fields, but **not after the last one**. Therefore, you must put this
746separator in the format string between two conversion specifiers, for
747example:
748
749[source,c]
750----
751BT_LIB_LOGW("Message: count=%u, %!E, %!+K", count, event_class, clock_class);
752----
753
754Example with a custom prefix:
755
756[source,c]
757----
758BT_LIB_LOGI("Some message: %![ec-a-]e, %![ec-b-]+e", ec_a, ec_b);
759----
760
761It is safe to pass `NULL` as any Babeltrace object parameter: the macros
762only print its null address.
763
764WARNING: Build-time `printf()` format checks are disabled for the
765`+BT_LIB_LOG*()+` macros because there are custom conversion specifiers,
766so make sure to test your logging statements.
767
768
769[[comp-logging-statements]]
770==== Component-specific logging statement macros
771
772There are available logging macros for components. They prepend a prefix
773including the component's name to the logging message.
774
775See <<logging-instrument-c-file-compcls,Instrument a component class C
776source file>> and <<logging-instrument-h-file-compcls,Instrument a
777component class C header file>> to learn how to be able to use the
778following macros.
779
780The component logging statement macros are named `+BT_COMP_LOG*()+`
781instead of `+BT_LOG*()+`:
782
c9ecaa78
PP
783`+BT_COMP_LOGT("format string", ...)+`::
784 Component trace logging statement.
7715df7b
PP
785
786`+BT_COMP_LOGD("format string", ...)+`::
787 Component debug logging statement.
788
789`+BT_COMP_LOGI("format string", ...)+`::
790 Component info logging statement.
791
792`+BT_COMP_LOGW("format string", ...)+`::
793 Component warning logging statement.
794
795`+BT_COMP_LOGE("format string", ...)+`::
796 Component error logging statement.
797
798`+BT_COMP_LOGF("format string", ...)+`::
799 Component fatal logging statement.
800
c9ecaa78
PP
801`+BT_COMP_LOGT_STR("preformatted string")+`::
802 Component preformatted string trace logging statement.
7715df7b
PP
803
804`+BT_COMP_LOGD_STR("preformatted string")+`::
805 Component preformatted string debug logging statement.
806
807`+BT_COMP_LOGI_STR("preformatted string")+`::
808 Component preformatted string info logging statement.
809
810`+BT_COMP_LOGW_STR("preformatted string")+`::
811 Component preformatted string warning logging statement.
812
813`+BT_COMP_LOGE_STR("preformatted string")+`::
814 Component preformatted string error logging statement.
815
816`+BT_COMP_LOGF_STR("preformatted string")+`::
817 Component preformatted string fatal logging statement.
818
c9ecaa78
PP
819`+BT_COMP_LOGT_ERRNO("initial message", "format string", ...)+`::
820 Component `errno` string trace logging statement.
7715df7b
PP
821
822`+BT_COMP_LOGD_ERRNO("initial message", "format string", ...)+`::
823 Component `errno` string debug logging statement.
824
825`+BT_COMP_LOGI_ERRNO("initial message", "format string", ...)+`::
826 Component `errno` string info logging statement.
827
828`+BT_COMP_LOGW_ERRNO("initial message", "format string", ...)+`::
829 Component `errno` string warning logging statement.
830
831`+BT_COMP_LOGE_ERRNO("initial message", "format string", ...)+`::
832 Component `errno` string error logging statement.
833
834`+BT_COMP_LOGF_ERRNO("initial message", "format string", ...)+`::
835 Component `errno` string fatal logging statement.
836
c9ecaa78
PP
837`+BT_COMP_LOGT_MEM(data_ptr, data_size, "format string", ...)+`::
838 Component memory trace logging statement.
7715df7b
PP
839
840`+BT_COMP_LOGD_MEM(data_ptr, data_size, "format string", ...)+`::
841 Component memory debug logging statement.
842
843`+BT_COMP_LOGI_MEM(data_ptr, data_size, "format string", ...)+`::
844 Component memory info logging statement.
845
846`+BT_COMP_LOGW_MEM(data_ptr, data_size, "format string", ...)+`::
847 Component memory warning logging statement.
848
849`+BT_COMP_LOGE_MEM(data_ptr, data_size, "format string", ...)+`::
850 Component memory error logging statement.
851
852`+BT_COMP_LOGF_MEM(data_ptr, data_size, "format string", ...)+`::
853 Component memory fatal logging statement.
beb0fb75
PP
854
855
12e02f34 856==== Conditional logging
beb0fb75 857
7715df7b 858`+BT_LOG_IF(cond, statement)+`::
beb0fb75
PP
859 Execute `statement` only if `cond` is true.
860+
861Example:
862+
863--
864[source,c]
865----
866BT_LOG_IF(i < count / 2, BT_LOGD("Log this: i=%d", i));
867----
868--
869
870To check the <<build-time-log-level,build-time log level>>:
871
872[source,c]
873----
874#if BT_LOG_ENABLED_DEBUG
875...
876#endif
877----
878
7715df7b
PP
879This tests if the _DEBUG_ level was enabled at build time. This means
880that the current, <<run-time-log-level,run-time log level>> _could_ be
12e02f34
PP
881_DEBUG_, but it could also be higher. The rule of thumb is to use only
882logging statements at the same level in a `BT_LOG_ENABLED_*` conditional
883block.
beb0fb75
PP
884
885The available definitions for build-time conditions are:
886
c9ecaa78 887* `BT_LOG_ENABLED_TRACE`
beb0fb75
PP
888* `BT_LOG_ENABLED_DEBUG`
889* `BT_LOG_ENABLED_INFO`
e9d0e821 890* `BT_LOG_ENABLED_WARNING`
beb0fb75
PP
891* `BT_LOG_ENABLED_ERROR`
892* `BT_LOG_ENABLED_FATAL`
893
894To check the current, <<run-time-log-level,run-time log level>>:
895
896[source,c]
897----
898if (BT_LOG_ON_DEBUG) {
899 ...
900}
901----
902
903This tests if the _DEBUG_ log level is dynamically turned on
7715df7b 904(implies that it's also enabled at build time). This check could have a
beb0fb75
PP
905noticeable impact on performance.
906
907The available definitions for run-time conditions are:
908
c9ecaa78 909* `BT_LOG_ON_TRACE`
beb0fb75
PP
910* `BT_LOG_ON_DEBUG`
911* `BT_LOG_ON_INFO`
e9d0e821 912* `BT_LOG_ON_WARNING`
beb0fb75
PP
913* `BT_LOG_ON_ERROR`
914* `BT_LOG_ON_FATAL`
915
7715df7b
PP
916Those macros check the module-specific log level symbol (defined by
917`BT_LOG_OUTPUT_LEVEL`).
beb0fb75
PP
918
919Never, ever write code which would be executed only to compute the
920fields of a logging statement outside a conditional logging scope,
921for example:
922
923[source,c]
924----
925int number = get_number_of_event_classes_with_property_x(...);
926BT_LOGD("Bla bla: number=%d", number);
927----
928
929Do this instead:
930
931[source,c]
932----
933if (BT_LOG_ON_DEBUG) {
934 int number = get_number_of_event_classes_with_property_x(...);
935 BT_LOGD("Bla bla: number=%d", number);
936}
937----
938
939Or even this:
940
941[source,c]
942----
943BT_LOGD("Bla bla: number=%d", get_number_of_event_classes_with_property_x(...));
944----
945
946
7715df7b 947=== Guides
beb0fb75 948
7715df7b
PP
949[[logging-instrument-c-file-gen]]
950==== Instrument a C source file (generic)
beb0fb75 951
7715df7b
PP
952To instrument a C source file (`.c`):
953
954. At the top of the file, before the first `#include` line (if any),
955 define your file's <<choose-a-logging-tag,logging tag>> name:
4a41523d
PP
956+
957--
958[source,c]
959----
7715df7b 960#define BT_LOG_TAG "SUBSYS/MY-MODULE/MY-FILE"
4a41523d
PP
961----
962--
7715df7b
PP
963
964. Below the line above, define the source file's log level expression,
965 `BT_LOG_OUTPUT_LEVEL`. This expression is evaluated for each
966 <<gen-logging-statements,logging statement>> to know the current
967 <<run-time-log-level,run-time log level>>.
968+
969Examples:
970+
971[source,c]
972----
973/* Global log level variable */
974#define BT_LOG_OUTPUT_LEVEL module_global_log_level
975----
4a41523d 976+
7715df7b
PP
977[source,c]
978----
979/* Local log level variable; must exist where you use BT_LOG*() */
980#define BT_LOG_OUTPUT_LEVEL log_level
981----
982+
983[source,c]
984----
985/* Object's log level; `obj` must exist where you use BT_LOG*() */
986#define BT_LOG_OUTPUT_LEVEL (obj->log_level)
987----
4a41523d 988
7715df7b 989. Include `"logging/log.h"`:
4a41523d 990+
beb0fb75
PP
991[source,c]
992----
57952005 993#include "logging/log.h"
7715df7b 994----
4a41523d 995
7715df7b
PP
996. In the file, instrument your code with the
997 <<gen-logging-statements,generic logging statement macros>>.
4a41523d 998
7715df7b
PP
999
1000[[logging-instrument-h-file-gen]]
1001==== Instrument a C header file (generic)
1002
1003To instrument a C header file (`.h`), if you have `static inline`
1004functions in it:
1005
1006. Do not include `"logging/log.h"`!
1007
1008. Do one of:
1009
1010.. In the file, instrument your code with the
1011 <<gen-logging-statements,generic logging statement macros>>, making
1012 each of them conditional to the existence of the macro you're using:
4a41523d 1013+
7715df7b
PP
1014[source,c]
1015----
1016static inline
1017int some_function(int x)
1018{
1019 /* ... */
4a41523d 1020
c9ecaa78
PP
1021#ifdef BT_LOGT
1022 BT_LOGT(...);
7715df7b 1023#endif
beb0fb75 1024
7715df7b 1025 /* ... */
302b23d2 1026
7715df7b
PP
1027#ifdef BT_LOGW_STR
1028 BT_LOGW_STR(...);
1029#endif
12e02f34 1030
7715df7b
PP
1031 /* ... */
1032}
1033----
1034+
1035The C source files which include this header file determine if logging
1036is enabled or not for them, and if so, what is their
1037<<choose-a-logging-tag,logging tag>> and <<run-time-log-level,run-time
1038log level>> expression.
12e02f34 1039
7715df7b
PP
1040.. Require that logging be enabled:
1041+
1042[source,c]
1043----
1044/* Protection: this file uses BT_LOG*() macros directly */
1045#ifndef BT_LOG_SUPPORTED
1046# error Please include "logging/log.h" before including this file.
1047#endif
1048----
1049+
1050Then, in the file, instrument your code with the
1051<<gen-logging-statements,generic logging statement macros>>.
1052
1053
1054[[logging-instrument-c-file-lib]]
1055==== Instrument a library C source file
1056
1057To instrument a library C source file (`.c`):
4a41523d
PP
1058
1059. At the top of the file, before the first `#include` line (if any),
7715df7b
PP
1060 define your file's <<choose-a-logging-tag,logging tag>> name (this
1061 tag must start with `LIB/`):
4a41523d
PP
1062+
1063--
1064[source,c]
1065----
7715df7b 1066#define BT_LOG_TAG "LIB/THE-FILE"
4a41523d
PP
1067----
1068--
7715df7b
PP
1069
1070. Include `"lib/logging.h"`:
4a41523d 1071+
7715df7b
PP
1072[source,c]
1073----
1074#include "lib/logging.h"
1075----
4a41523d 1076
7715df7b
PP
1077. In the file, instrument your code with the
1078 <<lib-logging-statements,library logging statement macros>> or with
1079 the <<gen-logging-statements,generic logging statement macros>>.
4a41523d 1080
12e02f34 1081
7715df7b
PP
1082[[logging-instrument-h-file-lib]]
1083==== Instrument a library C header file
1084
1085To instrument a library C header file (`.h`), if you have `static
1086inline` functions in it:
1087
1088. Do not include `"lib/logging.h"`!
1089
1090. Require that library logging be enabled:
1091+
1092[source,c]
1093----
1094/* Protection: this file uses BT_LIB_LOG*() macros directly */
1095#ifndef BT_LIB_LOG_SUPPORTED
1096# error Please include "lib/logging.h" before including this file.
1097#endif
1098----
1099
1100. In the file, instrument your code with the
1101 <<lib-logging-statements,library logging statement macros>> or with
1102 the <<gen-logging-statements,generic logging statement macros>>.
12e02f34 1103
4a41523d 1104
7715df7b
PP
1105[[logging-instrument-c-file-compcls]]
1106==== Instrument a component class C source file
1107
1108To instrument a component class C source file (`.c`):
1109
1110. At the top of the file, before the first `#include` line (if any),
1111 define your file's <<choose-a-logging-tag,logging tag>> name (this tag
1112 must start with `PLUGIN/` followed by the component class identifier):
4a41523d
PP
1113+
1114--
1115[source,c]
1116----
7715df7b
PP
1117#define BT_LOG_TAG "PLUGIN/SRC.MY-PLUGIN.MY-SRC"
1118----
1119--
4a41523d 1120
7715df7b
PP
1121. Below the line above, define the source file's log level expression,
1122 `BT_LOG_OUTPUT_LEVEL`. This expression is evaluated for each
1123 <<comp-logging-statements,logging statement>> to know the current
1124 <<run-time-log-level,run-time log level>>.
1125+
1126For a component class file, it is usually a member of a local component
1127private structure variable:
1128+
1129[source,c]
1130----
1131#define BT_LOG_OUTPUT_LEVEL (my_comp->log_level)
1132----
4a41523d 1133
7715df7b
PP
1134. Below the line above, define `BT_COMP_LOG_SELF_COMP` to an expression
1135 which, evaluated in the context of the
1136 <<comp-logging-statements,logging statements>>, evaluates to the self
1137 component address (`+bt_self_component *+`) of the component.
1138+
1139This is usually a member of a local component private structure
1140variable:
1141+
1142[source,c]
1143----
1144#define BT_COMP_LOG_SELF_COMP (my_comp->self_comp)
1145----
1146
3fa1b6a3 1147. Include `"logging/comp-logging.h"`:
7715df7b
PP
1148+
1149[source,c]
1150----
3fa1b6a3 1151#include "logging/comp-logging.h"
7715df7b
PP
1152----
1153
1154. In the component initialization method, make sure to set the
1155 component private structure's log level member to the initial
1156 component's log level:
1157+
1158[source,c]
1159----
1160struct my_comp {
1161 bt_logging_level log_level;
4a41523d 1162 /* ... */
7715df7b 1163};
4a41523d 1164
7715df7b
PP
1165BT_HIDDEN
1166bt_self_component_status my_comp_init(
1167 bt_self_component_source *self_comp_src,
1168 bt_value *params, void *init_method_data)
1169{
1170 struct my_comp *my_comp = g_new0(struct my_comp, 1);
1171 bt_self_component *self_comp =
1172 bt_self_component_source_as_self_component(self_comp_src);
1173 const bt_component *comp = bt_self_component_as_component(self_comp);
1174
1175 BT_ASSERT(my_comp);
1176 my_comp->log_level = bt_component_get_logging_level(comp);
4a41523d
PP
1177
1178 /* ... */
1179}
1180----
7715df7b
PP
1181
1182. In the file, instrument your code with the
1183 <<comp-logging-statements,component logging statement macros>>.
1184
1185
1186[[logging-instrument-h-file-compcls]]
1187==== Instrument a component class C header file
1188
1189To instrument a component class C header file (`.h`), if you have
1190`static inline` functions in it:
1191
3fa1b6a3 1192. Do not include `"logging/comp-logging.h"`!
7715df7b
PP
1193
1194. Require that component logging be enabled:
4a41523d 1195+
7715df7b
PP
1196[source,c]
1197----
1198/* Protection: this file uses BT_COMP_LOG*() macros directly */
1199#ifndef BT_COMP_LOG_SUPPORTED
3fa1b6a3 1200# error Please include "logging/comp-logging.h" before including this file.
7715df7b
PP
1201#endif
1202----
1203
1204. In the file, instrument your code with the
1205 <<comp-logging-statements,component logging statement macros>>.
1206
1207
1208[[choose-a-logging-tag]]
1209==== Choose a logging tag
beb0fb75 1210
7715df7b
PP
1211Each logging-enabled C source file must define `BT_LOG_TAG` to a logging
1212tag. A logging tag is a namespace to identify the logging messages of
1213this specific source file.
beb0fb75 1214
7715df7b
PP
1215In general, a logging tag name _must_ be only uppercase letters, digits,
1216and the `-`, `.`, and `/` characters.
beb0fb75 1217
7715df7b
PP
1218Use `/` to show the subsystem to source file hierarchy.
1219
1220For the Babeltrace library, start with `LIB/`.
1221
1222For the CTF writer library, start with `CTF-WRITER/`.
1223
1224For component classes, use:
beb0fb75 1225
99b6e073 1226[verse]
7715df7b
PP
1227`PLUGIN/__CCTYPE__.__PNAME__.__CCNAME__[/__FILE__]`
1228
1229With:
1230
1231`__CCTYPE__`::
1232 Component class's type (`SRC`, `FLT`, or `SINK`).
beb0fb75 1233
7715df7b 1234`__PNAME__`::
99b6e073 1235 Plugin's name.
beb0fb75 1236
7715df7b 1237`__CCNAME__`::
99b6e073 1238 Component class's name.
beb0fb75 1239
7715df7b 1240`__FILE__`::
99b6e073 1241 Additional information to specify the source file name or module.
beb0fb75 1242
7715df7b 1243For plugins (files common to many component classes), use:
beb0fb75 1244
7715df7b
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1245[verse]
1246`PLUGIN/__PNAME__[/__FILE__]`
beb0fb75 1247
7715df7b 1248With:
beb0fb75 1249
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PP
1250`__PNAME__`::
1251 Plugin's name.
1252
1253`__FILE__`::
1254 Additional information to specify the source file name or module.
1255
1256
1257[[choose-a-log-level]]
1258==== Choose a log level
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1259
1260Choosing the appropriate level for your logging statement is very
1261important.
1262
7715df7b 1263[options="header,autowidth",cols="1,2,3a,4"]
beb0fb75 1264|===
7715df7b 1265|Log level |Description |Use cases |Expected impact on performance
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1266
1267|_FATAL_
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1268|
1269The program, library, or plugin cannot continue to work in this
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1270condition: it must be terminated immediately.
1271
b4b9064d 1272A _FATAL_-level logging statement should always be followed by
4a41523d 1273`abort()`.
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1274|
1275* Unexpected return values from system calls.
4a41523d
PP
1276* Logic error in internal code, for example an unexpected value in a
1277 `switch` statement.
7715df7b 1278* Failed assertion (within `BT_ASSERT()`).
fa6cfec3
PP
1279* Unsatisfied library precondition (within `BT_ASSERT_PRE()` or
1280 `BT_ASSERT_PRE_DEV()`).
1281* Unsatisfied library postcondition (within `BT_ASSERT_POST()` or
1282 `BT_ASSERT_POST_DEV()`).
d387e24f 1283|Almost none: always enabled.
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1284
1285|_ERROR_
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1286|
1287An important error which is somewhat not fatal, that is, the program,
beb0fb75
PP
1288library, or plugin can continue to work after this, but you judge that
1289it should be reported to the user.
1290
1291Usually, the program cannot recover from such an error, but it can at
1292least exit cleanly.
1293|
1294* Memory allocation errors.
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1295* Wrong component initialization parameters.
1296* Corrupted, unrecoverable trace data.
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1297* Failed to perform an operation which should work considering the
1298 implementation and the satisfied preconditions. For example, the
1299 failure to create an empty object (no parameters): most probably
1300 failed internally because of an allocation error.
99b6e073 1301* Almost any error in terminal elements: CLI and plugins.
d387e24f 1302|Almost none: always enabled.
beb0fb75 1303
e9d0e821 1304|_WARNING_
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1305|
1306An error which still allows the execution to continue, but you judge
1307that it should be reported to the user.
6c1b33a8 1308
e9d0e821
PP
1309_WARNING_-level logging statements are for any error or weird action
1310that is directly or indirectly caused by the user, often through some
1311bad input data. For example, not having enough memory is considered
1312beyond the user's control, so we always log memory errors with an
1313_ERROR_ level (not _FATAL_ because we usually don't abort in this
1314condition).
beb0fb75 1315|
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1316* Missing data within something that is expected to have it, but there's
1317 an alternative.
1318* Invalid file, but recoverable/fixable.
d387e24f 1319|Almost none: always enabled.
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1320
1321|_INFO_
beb0fb75 1322|
7715df7b
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1323Any useful information which a non-developer user would possibly
1324understand.
1325
1326Anything logged with this level must _not_ happen repetitively on the
1327fast path, that is, nothing related to each message, for example. This
1328level is used for sporadic and one-shot events.
1329|
1330* CLI or component configuration report.
1331* Successful plugin, component, or message iterator initialization.
1332* In the library: anything related to plugins, graphs, component
1333 classes, components, message iterators, connections, and ports which
1334 is not on the fast path.
beb0fb75 1335* Successful connection to or disconnection from another system.
4a41523d 1336* An _optional_ subsystem cannot be loaded.
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1337* An _optional_ field/datum cannot be found.
1338|
d387e24f 1339Very little: always enabled.
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1340
1341|_DEBUG_
beb0fb75 1342|
7715df7b
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1343Something that only Babeltrace developers would be interested into,
1344which can occur on the fast path, but not more often than once per
1345message.
1346
1347The _DEBUG_ level is the default <<build-time-log-level,build-time log
1348level>> as, since it's not _too_ verbose, the performance is similar to
1349an _INFO_ build.
1350|
1351* Object construction and destruction.
1352* Object recycling (except fields).
1353* Object copying (except fields and values).
1354* Object freezing (whatever the type, as freezing only occurs in
1355 developer mode).
d73bb381 1356* Object interruption.
7715df7b
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1357* Calling user methods and logging the result.
1358* Setting object properties (except fields and values).
1359|
c9ecaa78 1360Noticeable, but not as much as the _TRACE_ level: could be executed
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1361in production if you're going to need a thorough log for support
1362tickets without having to rebuild the project.
beb0fb75 1363
c9ecaa78 1364|_TRACE_
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1365|
1366Low-level debugging context information (anything that does not fit the
1367other log levels). More appropriate for tracing in general.
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1368|
1369* Reference count change.
7715df7b 1370* Fast path, low level state machine's state change.
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1371* Get or set an object's property.
1372* Object comparison's intermediate results.
1373|Huge: not executed in production.
1374|===
1375
7715df7b
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1376[IMPORTANT]
1377--
e9d0e821 1378Make sure not to use a _WARNING_ (or higher) log level when the
7715df7b
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1379condition leading to the logging statement can occur under normal
1380circumstances.
1381
1382For example, a public function to get some object or
1383property from an object by name or key that fails to find the value is
1384not a warning scenario: the user could legitimately use this function to
1385check if the name/key exists in the object. In this case, use the
c9ecaa78 1386_TRACE_ level (or do not log at all).
7715df7b 1387--
b4b9064d 1388
beb0fb75 1389
b4b9064d 1390[[message]]
7715df7b 1391==== Write an appropriate message
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1392
1393Follow those rules when you write a logging statement's message:
1394
7715df7b
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1395* Use an English sentence which starts with a capital letter.
1396
1397* Start the sentence with the appropriate verb tense depending on the
1398 context. For example:
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1399+
1400--
b4b9064d
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1401** Beginning of operation (present continuous): _Creating ..._,
1402 _Copying ..._, _Serializing ..._, _Freezing ..._, _Destroying ..._
1403** End of operation (simple past): _Created ..._, _Successfully created ..._,
1404 _Failed to create ..._, _Set ..._ (simple past of _to set_ which is
1405 also _set_)
beb0fb75
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1406--
1407+
1408For warning and error messages, you can start the message with _Cannot_
b4b9064d 1409or _Failed to_ followed by a verb if it's appropriate.
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1410
1411* Do not include the log level in the message itself. For example,
1412 do not start the message with _Error while_ or _Warning:_.
1413
7715df7b
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1414* Do not put newlines, tabs, or other special characters in the message,
1415 unless you want to log a string with such characters. Note that
1416 multiline logging messages can be hard to parse, analyze, and filter,
1417 however, so prefer multiple logging statements over a single statement
1418 with newlines.
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1419
1420* **If there are fields that your logging statement must record**,
1421 follow the message with `:` followed by a space, then with the list of
1422 fields (more about this below). If there are no fields, end the
1423 sentence with a period.
1424
1425The statement's fields _must_ be a comma-separated list of
7715df7b
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1426`__name__=__value__` tokens. Keep `__name__` as simple as possible; use
1427kebab case if possible. If `__value__` is a non-alphanumeric string, put
1428it between double quotes (`"%s"` specifier). Always use the `PRId64` and
1429`PRIu64` specifiers to log an `int64_t` or an `uint64_t` value. Use `%d`
1430to log a boolean value.
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1431
1432Example:
1433
7715df7b
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1434 "Cannot read stream data for indexing: path=\"%s\", name=\"%s\", "
1435 "stream-id=%" PRIu64 ", stream-fd=%d, "
1436 "index=%" PRIu64 ", status=%s, is-mapped=%d"
beb0fb75 1437
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1438By following a standard format for the statement fields, it is easier to
1439use tools like https://www.elastic.co/products/logstash[Logstash] or
1440even https://www.splunk.com/[Splunk] to split fields and analyze logs.
beb0fb75
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1441
1442Prefer the following suffixes in field names:
1443
1444[options="header,autowidth"]
1445|===
1446|Field name suffix |Description |Format specifier
1447
1448|`-addr` |Memory address |`%p`
1449|`-fd` |File descriptor |`%d`
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1450|`-fp` |File stream (`+FILE *+`) |`%p`
1451|`-id` |Object's ID |`%" PRIu64 "`
1452|`-index` |Index |`%" PRIu64 "`
beb0fb75 1453|`-name` |Object's name |`\"%s\"`
beb0fb75
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1454|===
1455
1456
12e02f34 1457=== Output
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1458
1459The log is printed to the standard error stream. A log line contains the
7715df7b
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1460time, the process and thread IDs, the <<log-levels,log level>>, the
1461<<choose-a-logging-tag,logging tag>>, the source's function name, file
1462name and line number, and the <<message,message>>.
beb0fb75 1463
12e02f34
PP
1464When Babeltrace supports terminal color codes (depends on the
1465`BABELTRACE_TERM_COLOR` environment variable's value and what the
1466standard output and error streams are plugged into), _INFO_-level lines
e9d0e821 1467are blue, _WARNING_-level lines are yellow, and _ERROR_-level and
12e02f34
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1468_FATAL_-level lines are red.
1469
1470Log line example:
beb0fb75 1471
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1472----
147305-11 00:58:03.691 23402 23402 D VALUES bt_value_destroy@values.c:498 Destroying value: addr=0xb9c3eb0
1474----
beb0fb75 1475
7715df7b
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1476You can easily filter the log with `grep` or `ag`. For example, to keep
1477only the _DEBUG_-level logging messages that the `FIELD-CLASS` module
beb0fb75
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1478generates:
1479
7715df7b
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1480----
1481$ babeltrace2 --log-level=D /path/to/trace |& ag 'D FIELD-CLASS'
1482----
1483
1484
1485== Valgrind
1486
1487To use Valgrind on an application (for example, the CLI or a test) which
1488loads libbabeltrace2, use:
1489
1490----
1491$ G_SLICE=always-malloc G_DEBUG=gc-friendly PYTHONMALLOC=malloc \
34c83b89 1492 LIBBABELTRACE2_NO_DLCLOSE=1 valgrind --leak-check=full app
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1493----
1494
1495`G_SLICE=always-malloc` and `G_DEBUG=gc-friendly` is for GLib and
1496`PYTHONMALLOC=malloc` is for the Python interpreter, if it is used by
1497the Python plugin provider (Valgrind will probably show a lot of errors
1498which originate from the Python interpreter anyway).
1499
e17763ec 1500`LIBBABELTRACE2_NO_DLCLOSE=1` makes libbabeltrace2 not close the shared
7715df7b
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1501libraries (plugins) which it loads. You need this to see the appropriate
1502backtrace when Valgrind shows errors.
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1503
1504== Testing
1505
9b59650d
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1506[[test-env]]
1507=== Environment
7bcd6625 1508
9b59650d
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1509`tests/utils/utils.sh` sets the environment variables for any Babeltrace
1510test script.
1511
1512`utils.sh` only needs to know the path to the `tests` directory within
1513the source and the build directories. By default, `utils.sh` assumes the
1514build is in tree, that is, you ran `./configure` from the source's root
1515directory, and sets the `BT_TESTS_SRCDIR` and `BT_TESTS_BUILDDIR`
1516environment variables accordingly. You can override those variables, for
1517example if you build out of tree.
1518
1519All test scripts eventually do something like this to source `utils.sh`,
1520according to where they are located relative to the `tests` directory:
1521
1522[source,bash]
1523----
1524if [ "x${BT_TESTS_SRCDIR:-}" != "x" ]; then
1525 UTILSSH="$BT_TESTS_SRCDIR/utils/utils.sh"
1526else
1527 UTILSSH="$(dirname "$0")/../utils/utils.sh"
1528fi
1529----
1530
1531==== Python
1532
1533You can use the `tests/utils/run_python_bt2` script to run any command
1534within an environment making the build's `bt2` Python package available.
1535
1536`run_python_bt2` uses <<test-env,`utils.sh`>> which needs to know the
1537build directory, so make sure you set the `BT_TESTS_BUILDDIR`
1538environment variable correctly _if you build out of tree_, for example:
1539
1540----
1541$ export BT_TESTS_BUILDDIR=/path/to/build/babeltrace/tests
1542----
1543
1544You can run any command which needs the `bt2` Python package through
1545`run_python_bt2`, for example:
7bcd6625
FD
1546
1547----
9b59650d 1548$ ./tests/utils/run_python_bt2 ipython3
7bcd6625
FD
1549----
1550
9b59650d
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1551=== Report format
1552
1553All test scripts output the test results following the
1554https://testanything.org/[Test Anything Protocol] (TAP) format.
1555
1556The TAP format has two mechanisms to print additional information about
1557a test:
1558
1559* Print a line starting with `#` to the standard output.
1560+
1561This is usually done with the `diag()` C function or the `diag` shell
1562function.
1563
1564* Print to the standard error.
1565
1566
1567=== Python bindings
1568
1569The `bt2` Python package tests are located in
1570`tests/bindings/python/bt2`.
1571
1572
1573==== Python test runner
1574
1575`tests/utils/python/testrunner.py` is Babeltrace's Python test runner
1576which loads Python files containing unit tests, finds all the test
1577cases, and runs the tests, producing a TAP report.
1578
1579You can see the test runner command's help with:
7bcd6625
FD
1580
1581----
9b59650d 1582$ python3 ./tests/utils/python/testrunner.py --help
7bcd6625
FD
1583----
1584
9b59650d
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1585By default, the test runner reports failing tests (TAP's `not{nbsp}ok`
1586line), but continues to run other tests. You can use the `--failfast`
1587option to make the test runner fail as soon as a test fails.
7bcd6625 1588
9b59650d
PP
1589
1590==== Guides
1591
1592To run all the `bt2` Python package tests:
1593
1594* Run:
1595+
1596----
1597$ ./tests/utils/run_python_bt2 ./tests/bindings/python/bt2/test_python_bt2
1598----
1599+
1600or:
1601+
1602----
1603$ ./tests/utils/run_python_bt2 python3 ./tests/utils/python/testrunner.py \
1604 ./tests/bindings/python/bt2/ -p '*.py'
1605----
1606
1607To run **all the tests** in a test module (for example,
1608`test_value.py`):
1609
1610* Run:
1611+
1612----
1613$ ./tests/utils/run_python_bt2 python3 ./tests/utils/python/testrunner.py \
1614 ./tests/bindings/python/bt2 -t test_value
1615----
1616
1617To run a **specific test case** (for example, `RealValueTestCase` within
1618`test_value.py`):
1619
1620* Run:
1621+
1622----
1623$ ./tests/utils/run_python_bt2 python3 ./tests/utils/python/testrunner.py \
1624 ./tests/bindings/python/bt2/ -t test_value.RealValueTestCase
1625----
1626
1627To run a **specific test** (for example,
1628`RealValueTestCase.test_assign_pos_int` within `test_value.py`):
1629
1630* Run:
1631+
7bcd6625 1632----
9b59650d
PP
1633$ ./tests/utils/run_python_bt2 python3 ./tests/utils/python/testrunner.py \
1634 ./tests/bindings/python/bt2/ -t test_value.RealValueTestCase.test_assign_pos_int
7bcd6625 1635----
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