Provided by: liblttng-ust-dev_2.4.0-4ubuntu1_amd64 bug

NAME

       lttng-ust — Linux Trace Toolkit Next Generation User-Space Tracer 2.x

SYNOPSIS

       Link liblttng-ust.so with applications, following this manpage.

DESCRIPTION

       LTTng-UST, the Linux Trace Toolkit Next Generation Userspace Tracer, is a port of the low-
       overhead tracing capabilities of the  LTTng  kernel  tracer  to  user-space.  The  library
       "liblttng-ust" enables tracing of applications and libraries.

USAGE

       The  simple  way to generate the lttng-ust tracepoint probes is to use the lttng-gen-tp(1)
       tool. See the lttng-gen-tp(1) manpage for explanation.

       Here is the way to do it manually, without the lttng-gen-tp(1) helper script,  through  an
       example:

CREATION OF TRACEPOINT PROVIDER

       To create a tracepoint provider, within a build tree similar to
       examples/easy-ust installed with lttng-ust documentation, see
       sample_component_provider.h for the general layout. You will need to
       define TRACEPOINT_CREATE_PROBES before including your tracepoint
       provider probe in one source file of your application. See tp.c from
       easy-ust for an example of a tracepoint probe source file. This manpage
       will focus on the various types that can be recorded into a trace
       event:

       TRACEPOINT_EVENT(
            /*
             * provider name, not a variable but a string starting with a
             * letter and containing either letters, numbers or underscores.
             * Needs to be the same as TRACEPOINT_PROVIDER. Needs to
             * follow the namespacing guide-lines in lttng/tracepoint.h:
             *
             * Must be included before include tracepoint provider
             * ex.: project_event
             * ex.: project_component_event
             *
             * Optional company name goes here
             *  ex.: com_efficios_project_component_event
             *
             * In this example, "sample" is the project, and "component" is the
             * component.
             */
            sample_component,

            /*
             * tracepoint name, same format as sample provider. Does not
             * need to be declared before. in this case the name is
             * "message"
             */
            message,

            /*
             * TP_ARGS macro contains the arguments passed for the tracepoint
             * it is in the following format
             *         TP_ARGS(type1, name1, type2, name2, ... type10,
                            name10)
             * where there can be from zero to ten elements.
             * typeN is the datatype, such as int, struct or double **.
             * name is the variable name (in "int myInt" the name would be
             * myint)
             *         TP_ARGS() is valid to mean no arguments
             *         TP_ARGS(void) is valid too
             */
            TP_ARGS(int, anint, int, netint, long *, values,
                  char *, text, size_t, textlen,
                  double, doublearg, float, floatarg),

            /*
             * TP_FIELDS describes how to write the fields of the trace event.
             * You can put expressions in the "argument expression" area,
             * typically using the input arguments from TP_ARGS.
             */
            TP_FIELDS(
                 /*
                  * ctf_integer: standard integer field.
                  * args: (type, field name, argument expression)
                  */
                 ctf_integer(int, intfield, anint)
                 ctf_integer(long, longfield, anint)

                 /*
                  * ctf_integer_hex: integer field printed as hexadecimal.
                  * args: (type, field name, argument expression)
                  */
                 ctf_integer_hex(int, intfield2, anint)

                 /*
                  * ctf_integer_network: integer field in network byte
                  * order. (_hex: printed as hexadecimal too)
                  * args: (type, field name, argument expression)
                  */
                 ctf_integer_network(int, netintfield, netint)
                 ctf_integer_network_hex(int, netintfieldhex, netint)

                 /*
                  * ctf_array: a statically-sized array.
                  * args: (type, field name, argument expression, value)
                  */
                 ctf_array(long, arrfield1, values, 3)

                 /*
                  * ctf_array_text: a statically-sized array, printed as
                  * a string. No need to be terminated by a null
                  * character.
                  * Behavior is undefined if "text" argument is NULL.
                  */
                 ctf_array_text(char, arrfield2, text, 10)

                 /*
                  * ctf_sequence: a dynamically-sized array.
                  * args: (type, field name, argument expression,
                  *   type of length expression, length expression)
                  * The "type of length expression" needs to be an
                  * unsigned type. As a reminder, "unsigned char" should
                  * be preferred to "char", since the signedness of
                  * "char" is implementation-defined.
                  * Behavior is undefined if "text" argument is NULL.
                  */
                 ctf_sequence(char, seqfield1, text,
                           size_t, textlen)

                 /*
                  * ctf_sequence_text: a dynamically-sized array, printed
                  * as string. No need to be null-terminated.
                  * Behavior is undefined if "text" argument is NULL.
                  */
                 ctf_sequence_text(char, seqfield2, text,
                           size_t, textlen)

                 /*
                  * ctf_string: null-terminated string.
                  * args: (field name, argument expression)
                  * Behavior is undefined if "text" argument is NULL.
                  */
                 ctf_string(stringfield, text)

                 /*
                  * ctf_float: floating-point number.
                  * args: (type, field name, argument expression)
                  */
                 ctf_float(float, floatfield, floatarg)
                 ctf_float(double, doublefield, doublearg)
            )
       )

       There can be an arbitrary number of tracepoint providers within an
       application, but they must each have their own provider name. Duplicate
       provider names are not allowed.

ASSIGNING LOGLEVEL TO EVENTS

       Optionally, a loglevel can be assigned to a TRACEPOINT_EVENT using the
       following construct:

            TRACEPOINT_LOGLEVEL(< [com_company_]project[_component] >,
                 < event >, < loglevel_name >)

       The first field is the provider name, the second field is the name of
       the tracepoint, and the third field is the loglevel name.  A
       TRACEPOINT_EVENT should be declared prior to the the TRACEPOINT_LOGLEVEL
       for a given tracepoint name. The TRACEPOINT_PROVIDER must be already
       declared before declaring a TRACEPOINT_LOGLEVEL.

       The loglevels go from 0 to 14. Higher numbers imply the most verbosity
       (higher event throughput expected.

       Loglevels 0 through 6, and loglevel 14, match syslog(3) loglevels
       semantic. Loglevels 7 through 13 offer more fine-grained selection of
       debug information.

          TRACE_EMERG           0
          system is unusable

          TRACE_ALERT           1
          action must be taken immediately

          TRACE_CRIT            2
          critical conditions

          TRACE_ERR             3
          error conditions

          TRACE_WARNING         4
          warning conditions

          TRACE_NOTICE          5
          normal, but significant, condition

          TRACE_INFO            6
          informational message

          TRACE_DEBUG_SYSTEM    7
          debug information with system-level scope (set of programs)

          TRACE_DEBUG_PROGRAM   8
          debug information with program-level scope (set of processes)

          TRACE_DEBUG_PROCESS   9
          debug information with process-level scope (set of modules)

          TRACE_DEBUG_MODULE    10
          debug information with module (executable/library) scope (set of
          units)

          TRACE_DEBUG_UNIT      11
          debug information with compilation unit scope (set of functions)

          TRACE_DEBUG_FUNCTION  12
          debug information with function-level scope

          TRACE_DEBUG_LINE      13
          debug information with line-level scope (TRACEPOINT_EVENT default)

          TRACE_DEBUG           14
          debug-level message (trace_printf default)

       See lttng(1) for information on how to use LTTng-UST loglevels.

ADDING TRACEPOINTS TO YOUR CODE

       Include the provider header in each C files you plan to instrument,
       following the building/linking directives in the next section.

       For instance, add within a function:

                 tracepoint(ust_tests_hello, tptest, i, netint, values,
                      text, strlen(text), dbl, flt);

       As a call to the tracepoint. It will only be activated when requested by
       lttng(1) through lttng-sessiond(8).

       Even though LTTng-UST supports tracepoint() call site duplicates having
       the same provider and event name, it is recommended to use a
       provider event name pair only once within the source code to help
       map events back to their call sites when analyzing the trace.

BUILDING/LINKING THE TRACEPOINT PROVIDER

       There are 2 ways to compile the Tracepoint Provider with the
       application: either statically or dynamically. Please follow
       carefully:

         1.1) Compile the Tracepoint provider with the application, either
              directly or through a static library (.a):
           - Into exactly one object of your application: define
             "TRACEPOINT_DEFINE" and include the tracepoint provider.
           - Use "-I." for the compilation unit containing the tracepoint
             provider include (e.g. tp.c).
           - Link application with "-ldl".
           - If building the provider directly into the application,
             link the application with "-llttng-ust".
           - If building a static library for the provider, link the static
             library with "-llttng-ust".
           - Include the tracepoint provider header into all C files using
             the provider.
           - Examples:
             - doc/examples/easy-ust/   sample.c sample_component_provider.h tp.c
               Makefile
             - doc/examples/hello-static-lib/   hello.c tp.c ust_test_hello.h Makefile

         2) Compile the Tracepoint Provider separately from the application,
            using dynamic linking:
           - Into exactly one object of your application: define
             "TRACEPOINT_DEFINE" _and_ also define
             "TRACEPOINT_PROBE_DYNAMIC_LINKAGE", then include the tracepoint
             provider header.
           - Include the tracepoint provider header into all instrumented C
             files that use the provider.
           - Compile the tracepoint provider with "-I.".
           - Link the tracepoint provider with "-llttng-ust".
           - Link application with "-ldl".
           - Set a LD_PRELOAD environment to preload the tracepoint provider
             shared object before starting the application when tracing is
             needed. Another way is to dlopen the tracepoint probe when needed
             by the application.
           - Example:
             - doc/examples/demo   demo.c  tp*.c ust_tests_demo*.h demo-trace Makefile

         - Note about dlclose() usage: it is not safe to use dlclose on a
           provider shared object that is being actively used for tracing due
           to a lack of reference counting from lttng-ust to the used shared
           object.
         - Enable instrumentation and control tracing with the "lttng" command
           from lttng-tools. See lttng-tools doc/quickstart.txt.
         - Note for C++ support: although an application instrumented with
           tracepoints can be compiled with g++, tracepoint probes should be
           compiled with gcc (only tested with gcc so far).

USING LTTNG UST WITH DAEMONS

       Some extra care is needed when using liblttng-ust with daemon
       applications that call fork(), clone(), or BSD rfork() without a
       following exec() family system call. The library "liblttng-ust-fork.so"
       needs to be preloaded for the application (launch with e.g.
       LD_PRELOAD=liblttng-ust-fork.so appname).

CONTEXT

       Context  information  can  be  prepended  by  the tracer before each, or some, events. The
       following context information is supported by LTTng-UST:

       vtid   Virtual thread ID: thread ID as  seen  from  the  point  of  view  of  the  process
              namespace.

       vpid   Virtual  process  ID:  process  ID  as  seen  from the point of view of the process
              namespace.

       ip     Instruction pointer: Enables recording of the exact location where a tracepoint was
              emitted. Can be used to reverse-lookup the source location that caused the event to
              be emitted.

       procname
              Thread name, as set by exec() or prctl(). It is recommended that programs set their
              thread name with prctl() before hitting the first tracepoint for that thread.

       pthread_id
              Pthread  identifier. Can be used on architectures where pthread_t maps nicely to an
              unsigned long type.

BASE ADDRESS STATEDUMP (Experimental feature)

       Warning: This is an  experimental  feature  known  to  cause  deadlocks  when  the  traced
       application uses fork, clone or daemon. Only use it for debugging and testing.  Do NOT use
       it in production.

       If an application that uses liblttng-ust.so becomes part of a session,  information  about
       its  currently loaded shared objects will be traced to the session at session-enable time.
       To record this information, the following event needs to be enabled:

       ust_baddr_statedump:soinfo
              This event is used to trace a currently loaded  shared  object.  The  base  address
              (where  the dynamic linker has placed the shared object) is recorded in the "baddr"
              field. The path to the shared object  gets  recorded  in  the  "sopath"  field  (as
              string).  The  file  size of the loaded object (in bytes) is recorded to the "size"
              field and its time of last modification (in seconds since Epoch) is recorded in the
              "mtime" field.

       If the event above is enabled, a series of "ust_baddr_statedump:soinfo" events is recorded
       at session-enable time. It represents the state of currently loaded shared objects for the
       traced   process.   If   this   information   gets   combined   with  the  lttng-ust-dl(3)
       instrumentation, all aspects of dynamic loading that are  relevant  for  symbol  and  line
       number lookup are traced by LTTng.

ENVIRONMENT VARIABLES

       LTTNG_UST_DEBUG
              Activate liblttng-ust debug output.

       LTTNG_UST_REGISTER_TIMEOUT
              The  environment  variable  "LTTNG_UST_REGISTER_TIMEOUT" can be used to specify how
              long the applications should wait for sessiond "registration done"  command  before
              proceeding  to  execute  the  main  program. The default is 3000ms (3 seconds). The
              timeout value is specified in milliseconds. The value 0  means  "don't  wait".  The
              value  -1  means  "wait  forever".  Setting  this  environment  variable  to  0  is
              recommended for applications with time constraints on the process startup time.

       LTTNG_UST_WITH_EXPERIMENTAL_BADDR_STATEDUMP
              Experimentally allow liblttng-ust to perform a base-address statedump  on  session-
              enable.

SEE ALSO

       lttng-gen-tp(1),   lttng(1),   babeltrace(1),  lttng-ust-cyg-profile(3),  lttng-ust-dl(3),
       lttng-sessiond(8)

COMPATIBILITY

       Older lttng-ust libraries reject more recent, and  incompatible,  probe  providers.  Newer
       lttng-ust  libraries  accept  older probe providers, even though some newer features might
       not be available with those providers.

BUGS

       LTTng-UST 2.0 and 2.1  lttng-ust  libraries  do  not  check  for  probe  provider  version
       compatibility.  This  can  lead  to  out-of-bound  accesses when using a more recent probe
       provider with an older lttng-ust library.   These  error  only  trigger  when  tracing  is
       active. This issue has been fixed in LTTng-UST 2.2.

       If  you  encounter  any  issues or usability problem, please report it on our mailing list
       <lttng-dev@lists.lttng.org> to help improve this project.

CREDITS

       liblttng-ust is distributed under the GNU Lesser General Public License version  2.1.  The
       headers are distributed under the MIT license.

       See http://lttng.org for more information on the LTTng project.

       Mailing list for support and development: <lttng-dev@lists.lttng.org>.

       You can find us on IRC server irc.oftc.net (OFTC) in #lttng.

THANKS

       Thanks to Ericsson for funding this work, providing real-life use-cases, and testing.

       Special  thanks  to Michel Dagenais and the DORSAL laboratory at Polytechnique de Montreal
       for the LTTng journey.

AUTHORS

       liblttng-ust was originally written by Mathieu Desnoyers,  with  additional  contributions
       from   various   other   people.   It   is   currently  maintained  by  Mathieu  Desnoyers
       <mathieu.desnoyers@efficios.com>.

                                        February 16, 2012                            LTTNG-UST(3)