Debugging with GDB: GDB/MI Tracepoint Commands |
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The commands defined in this section implement MI support for tracepoints. For detailed introduction, see Tracepoints.
-trace-find
Command-trace-find mode [parameters…]
Find a trace frame using criteria defined by mode and parameters. The following table lists permissible modes and their parameters. For details of operation, see tfind.
No parameters are required. Stops examining trace frames.
An integer is required as parameter. Selects tracepoint frame with that index.
An integer is required as parameter. Finds next trace frame that corresponds to tracepoint with the specified number.
An address is required as parameter. Finds next trace frame that corresponds to any tracepoint at the specified address.
Two addresses are required as parameters. Finds next trace frame that corresponds to a tracepoint at an address inside the specified range. Both bounds are considered to be inside the range.
Two addresses are required as parameters. Finds next trace frame that corresponds to a tracepoint at an address outside the specified range. Both bounds are considered to be inside the range.
Line specification is required as parameter. See Specify Location. Finds next trace frame that corresponds to a tracepoint at the specified location.
If ‘none’ was passed as mode, the response does not have fields. Otherwise, the response may have the following fields:
This field has either ‘0’ or ‘1’ as the value, depending on whether a matching tracepoint was found.
The index of the found traceframe. This field is present iff the ‘found’ field has value of ‘1’.
The index of the found tracepoint. This field is present iff the ‘found’ field has value of ‘1’.
The information about the frame corresponding to the found trace frame. This field is present only if a trace frame was found. See GDB/MI Frame Information, for description of this field.
The corresponding GDB command is ‘tfind’.
-trace-define-variable name [ value ]
Create trace variable name if it does not exist. If value is specified, sets the initial value of the specified trace variable to that value. Note that the name should start with the ‘$’ character.
The corresponding GDB command is ‘tvariable’.
-trace-frame-collected
Command-trace-frame-collected [--var-print-values var_pval] [--comp-print-values comp_pval] [--registers-format regformat] [--memory-contents]
This command returns the set of collected objects, register names, trace state variable names, memory ranges and computed expressions that have been collected at a particular trace frame. The optional parameters to the command affect the output format in different ways. See the output description table below for more details.
The reported names can be used in the normal manner to create varobjs and inspect the objects themselves. The items returned by this command are categorized so that it is clear which is a variable, which is a register, which is a trace state variable, which is a memory range and which is a computed expression.
For instance, if the actions were
collect myVar, myArray[myIndex], myObj.field, myPtr->field, myCount + 2 collect *(int*)0xaf02bef0@40
the object collected in its entirety would be myVar
. The
object myArray
would be partially collected, because only the
element at index myIndex
would be collected. The remaining
objects would be computed expressions.
An example output would be:
(gdb) -trace-frame-collected ^done, explicit-variables=[{name="myVar",value="1"}], computed-expressions=[{name="myArray[myIndex]",value="0"}, {name="myObj.field",value="0"}, {name="myPtr->field",value="1"}, {name="myCount + 2",value="3"}, {name="$tvar1 + 1",value="43970027"}], registers=[{number="0",value="0x7fe2c6e79ec8"}, {number="1",value="0x0"}, {number="2",value="0x4"}, ... {number="125",value="0x0"}], tvars=[{name="$tvar1",current="43970026"}], memory=[{address="0x0000000000602264",length="4"}, {address="0x0000000000615bc0",length="4"}] (gdb)
Where:
explicit-variables
The set of objects that have been collected in their entirety (as
opposed to collecting just a few elements of an array or a few struct
members). For each object, its name and value are printed.
The --var-print-values
option affects how or whether the value
field is output. If var_pval is 0, then print only the names;
if it is 1, print also their values; and if it is 2, print the name,
type and value for simple data types, and the name and type for
arrays, structures and unions.
computed-expressions
The set of computed expressions that have been collected at the
current trace frame. The --comp-print-values
option affects
this set like the --var-print-values
option affects the
explicit-variables
set. See above.
registers
The registers that have been collected at the current trace frame.
For each register collected, the name and current value are returned.
The value is formatted according to the --registers-format
option. See the -data-list-register-values
command for a
list of the allowed formats. The default is ‘x’.
tvars
The trace state variables that have been collected at the current trace frame. For each trace state variable collected, the name and current value are returned.
memory
The set of memory ranges that have been collected at the current trace frame. Its content is a list of tuples. Each tuple represents a collected memory range and has the following fields:
address
The start address of the memory range, as hexadecimal literal.
length
The length of the memory range, as decimal literal.
contents
The contents of the memory block, in hex. This field is only present
if the --memory-contents
option is specified.
There is no corresponding GDB command.
-trace-list-variables
Return a table of all defined trace variables. Each element of the table has the following fields:
The name of the trace variable. This field is always present.
The initial value. This is a 64-bit signed integer. This field is always present.
The value the trace variable has at the moment. This is a 64-bit signed integer. This field is absent iff current value is not defined, for example if the trace was never run, or is presently running.
The corresponding GDB command is ‘tvariables’.
(gdb) -trace-list-variables ^done,trace-variables={nr_rows="1",nr_cols="3", hdr=[{width="15",alignment="-1",col_name="name",colhdr="Name"}, {width="11",alignment="-1",col_name="initial",colhdr="Initial"}, {width="11",alignment="-1",col_name="current",colhdr="Current"}], body=[variable={name="$trace_timestamp",initial="0"} variable={name="$foo",initial="10",current="15"}]} (gdb)
-trace-save [ -r ] [ -ctf ] filename
Saves the collected trace data to filename. Without the ‘-r’ option, the data is downloaded from the target and saved in a local file. With the ‘-r’ option the target is asked to perform the save.
By default, this command will save the trace in the tfile format. You can supply the optional ‘-ctf’ argument to save it the CTF format. See Trace Files for more information about CTF.
The corresponding GDB command is ‘tsave’.
-trace-start
Starts a tracing experiment. The result of this command does not have any fields.
The corresponding GDB command is ‘tstart’.
-trace-status
Obtains the status of a tracing experiment. The result may include the following fields:
May have a value of either ‘0’, when no tracing operations are supported, ‘1’, when all tracing operations are supported, or ‘file’ when examining trace file. In the latter case, examining of trace frame is possible but new tracing experiement cannot be started. This field is always present.
May have a value of either ‘0’ or ‘1’ depending on whether tracing experiement is in progress on target. This field is present if ‘supported’ field is not ‘0’.
Report the reason why the tracing was stopped last time. This field
may be absent iff tracing was never stopped on target yet. The
value of ‘request’ means the tracing was stopped as result of
the -trace-stop
command. The value of ‘overflow’ means
the tracing buffer is full. The value of ‘disconnection’ means
tracing was automatically stopped when GDB has disconnected.
The value of ‘passcount’ means tracing was stopped when a
tracepoint was passed a maximal number of times for that tracepoint.
This field is present if ‘supported’ field is not ‘0’.
The number of tracepoint whose passcount as exceeded. This field is present iff the ‘stop-reason’ field has the value of ‘passcount’.
The ‘frames’ field is a count of the total number of trace frames in the trace buffer, while ‘frames-created’ is the total created during the run, including ones that were discarded, such as when a circular trace buffer filled up. Both fields are optional.
These fields tell the current size of the tracing buffer and the remaining space. These fields are optional.
The value of the circular trace buffer flag. 1
means that the
trace buffer is circular and old trace frames will be discarded if
necessary to make room, 0
means that the trace buffer is linear
and may fill up.
The value of the disconnected tracing flag. 1
means that
tracing will continue after GDB disconnects, 0
means
that the trace run will stop.
The filename of the trace file being examined. This field is optional, and only present when examining a trace file.
The corresponding GDB command is ‘tstatus’.
-trace-stop
Stops a tracing experiment. The result of this command has the same
fields as -trace-status
, except that the ‘supported’ and
‘running’ fields are not output.
The corresponding GDB command is ‘tstop’.
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