1LTTNG-UST-DL(3)                  LTTng Manual                  LTTNG-UST-DL(3)
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NAME

6       lttng-ust-cyg-profile - Function tracing (LTTng-UST helper)
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SYNOPSIS

9       Compile your application with compiler option -finstrument-functions.
10
11       Launch your application by preloading liblttng-ust-cyg-profile-fast.so
12       for fast function tracing:
13
14       $ LD_PRELOAD=liblttng-ust-cyg-profile-fast.so my-app
15
16       Launch your application by preloading liblttng-ust-cyg-profile.so for
17       slower, more verbose function tracing:
18
19       $ LD_PRELOAD=liblttng-ust-cyg-profile.so my-app
20

DESCRIPTION

22       When the liblttng-ust-cyg-profile.so or the liblttng-ust-cyg-profile-
23       fast.so library is preloaded before a given application starts, all
24       function entry and return points are traced by LTTng-UST (see lttng-
25       ust(3)), provided said application was compiled with the -finstrument-
26       functions compiler option.
27
28       See lttng(1) to learn more about how to control LTTng tracing sessions.
29
30       Function tracing with LTTng-UST comes in two flavors, each one
31       providing a different trade-off between performance and robustness:
32
33       liblttng-ust-cyg-profile-fast.so
34           This is a lightweight variant that should only be used where it can
35           be guaranteed that the complete event stream is recorded without
36           any missing events. Any kind of duplicate information is left out.
37
38           At each function entry, the address of the called function is
39           recorded in an LTTng-UST event. Function exits are recorded as
40           another, empty LTTng-UST event.
41
42           See the Fast function tracing section below for the complete list
43           of emitted events and their fields.
44
45       liblttng-ust-cyg-profile.so
46           This is a more robust variant which also works for use cases where
47           events might get discarded, or not recorded from application
48           startup. In these cases, the trace analyzer needs extra information
49           to be able to reconstruct the program flow.
50
51           At each function entry and exit, the address of the called function
52           and the call site address are recorded in an LTTng-UST event.
53
54           See the Verbose function tracing section below for the complete
55           list of emitted events and their fields.
56
57   Usage
58       To use LTTng-UST function tracing, you need to make sure the sources of
59       your application are compiled with the -finstrument-functions compiler
60       option.
61
62       It might be necessary to limit the number of source files where this
63       option is used to prevent excessive amount of trace data to be
64       generated at run time. Usually, there are additional compiler flags
65       that allow you to specify a more fine-grained selection of function
66       instrumentation.
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68       For each instrumented function, the executable will contain calls to
69       profiling function hooks (after function entry, named
70       __cyg_profile_func_enter(), and just before function exit, named
71       __cyg_profile_func_exit()).
72
73       By preloading (using the LD_PRELOAD environment variable) one of the
74       provided shared libraries, these profiling hooks get defined to emit
75       LTTng events (as described below).
76
77           Note
78           Using this feature can result in a massive amount of trace data to
79           be generated by the instrumented application. Application run time
80           is also considerably affected. Be careful on systems with limited
81           resources.
82
83   Fast function tracing
84       The following LTTng-UST events are available when using liblttng-ust-
85       cyg-profile-fast.so. Their log level is set to TRACE_DEBUG_FUNCTION.
86
87       lttng_ust_cyg_profile_fast:func_entry
88           Emitted when an application function is entered, or more
89           specifically, when __cyg_profile_func_enter() is called.
90
91           Fields:
92
93           ┌───────────┬───────────────────┐
94Field name Description       
95           ├───────────┼───────────────────┤
96func_addr  │ Function address. │
97           └───────────┴───────────────────┘
98
99       lttng_ust_cyg_profile_fast:func_exit
100           Emitted when an application function returns, or more specifically,
101           when __cyg_profile_func_exit() is called.
102
103           This event has no fields. Since the liblttng-ust-cyg-profile-
104           fast.so library should only be used when it can be guaranteed that
105           the complete event stream is recorded without any missing events, a
106           per-thread, stack-based approach can be used on the trace analyzer
107           side to match function entry and return events.
108
109   Verbose function tracing
110       The following LTTng-UST events are available when using liblttng-ust-
111       cyg-profile.so. Their log level is set to TRACE_DEBUG_FUNCTION.
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113       lttng_ust_cyg_profile:func_entry
114           Emitted when an application function is entered, or more
115           specifically, when __cyg_profile_func_enter() is called.
116
117           Fields:
118
119           ┌───────────┬─────────────────────────┐
120Field name Description             
121           ├───────────┼─────────────────────────┤
122func_addr  │ Function address.       │
123           ├───────────┼─────────────────────────┤
124call_site  │ Address from which this │
125           │           │ function was called.    │
126           └───────────┴─────────────────────────┘
127
128       lttng_ust_cyg_profile:func_exit
129           Emitted when an application function returns, or more specifically,
130           when __cyg_profile_func_exit() is called.
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132           Fields:
133
134           ┌───────────┬─────────────────────────┐
135Field name Description             
136           ├───────────┼─────────────────────────┤
137func_addr  │ Function address.       │
138           ├───────────┼─────────────────────────┤
139call_site  │ Address from which this │
140           │           │ function was called.    │
141           └───────────┴─────────────────────────┘
142

BUGS

144       If you encounter any issue or usability problem, please report it on
145       the LTTng bug tracker <https://bugs.lttng.org/projects/lttng-ust>.
146

RESOURCES

148       ·   LTTng project website <http://lttng.org>
149
150       ·   LTTng documentation <http://lttng.org/docs>
151
152       ·   Git repositories <http://git.lttng.org>
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154       ·   GitHub organization <http://github.com/lttng>
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156       ·   Continuous integration <http://ci.lttng.org/>
157
158       ·   Mailing list <http://lists.lttng.org> for support and development:
159           lttng-dev@lists.lttng.org
160
161       ·   IRC channel <irc://irc.oftc.net/lttng>: #lttng on irc.oftc.net
162

COPYRIGHTS

164       This library is part of the LTTng-UST project.
165
166       This library is distributed under the GNU Lesser General Public
167       License, version 2.1 <http://www.gnu.org/licenses/old-
168       licenses/lgpl-2.1.en.html>. See the COPYING
169       <https://github.com/lttng/lttng-ust/blob/v2.12.0-rc3/COPYING> file for
170       more details.
171

THANKS

173       Thanks to Ericsson for funding this work, providing real-life use
174       cases, and testing.
175
176       Special thanks to Michel Dagenais and the DORSAL laboratory
177       <http://www.dorsal.polymtl.ca/> at École Polytechnique de Montréal for
178       the LTTng journey.
179

AUTHORS

181       LTTng-UST was originally written by Mathieu Desnoyers, with additional
182       contributions from various other people. It is currently maintained by
183       Mathieu Desnoyers <mailto:mathieu.desnoyers@efficios.com>.
184

SEE ALSO

186       lttng-ust(3), lttng(1), gcc(1), ld.so(8)
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189
190LTTng 2.12.0-rc3                  03/27/2020                   LTTNG-UST-DL(3)
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