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E.6 Tracepoint Packets

Here we describe the packets GDB uses to implement tracepoints (see Tracepoints).

QTDP:n:addr:ena:step:pass[:Fflen][:Xlen,bytes][-]

Create a new tracepoint, number n, at addr. If ena is ‘E’, then the tracepoint is enabled; if it is ‘D’, then the tracepoint is disabled. The step gives the tracepoint’s step count, and pass gives its pass count. If an ‘F’ is present, then the tracepoint is to be a fast tracepoint, and the flen is the number of bytes that the target should copy elsewhere to make room for the tracepoint. If an ‘X’ is present, it introduces a tracepoint condition, which consists of a hexadecimal length, followed by a comma and hex-encoded bytes, in a manner similar to action encodings as described below. If the trailing ‘-’ is present, further ‘QTDP’ packets will follow to specify this tracepoint’s actions.

Replies:

OK

The packet was understood and carried out.

qRelocInsn

See Relocate instruction reply packet.

The packet was not recognized.

QTDP:-n:addr:[S]action[-]

Define actions to be taken when a tracepoint is hit. The n and addr must be the same as in the initial ‘QTDP’ packet for this tracepoint. This packet may only be sent immediately after another ‘QTDP’ packet that ended with a ‘-’. If the trailing ‘-’ is present, further ‘QTDP’ packets will follow, specifying more actions for this tracepoint.

In the series of action packets for a given tracepoint, at most one can have an ‘S’ before its first action. If such a packet is sent, it and the following packets define “while-stepping” actions. Any prior packets define ordinary actions — that is, those taken when the tracepoint is first hit. If no action packet has an ‘S’, then all the packets in the series specify ordinary tracepoint actions.

The ‘action’ portion of the packet is a series of actions, concatenated without separators. Each action has one of the following forms:

R mask

Collect the registers whose bits are set in mask, a hexadecimal number whose i’th bit is set if register number i should be collected. (The least significant bit is numbered zero.) Note that mask may be any number of digits long; it may not fit in a 32-bit word.

M basereg,offset,len

Collect len bytes of memory starting at the address in register number basereg, plus offset. If basereg is ‘-1’, then the range has a fixed address: offset is the address of the lowest byte to collect. The basereg, offset, and len parameters are all unsigned hexadecimal values (the ‘-1’ value for basereg is a special case).

X len,expr

Evaluate expr, whose length is len, and collect memory as it directs. The agent expression expr is as described in Agent Expressions. Each byte of the expression is encoded as a two-digit hex number in the packet; len is the number of bytes in the expression (and thus one-half the number of hex digits in the packet).

Any number of actions may be packed together in a single ‘QTDP’ packet, as long as the packet does not exceed the maximum packet length (400 bytes, for many stubs). There may be only one ‘R’ action per tracepoint, and it must precede any ‘M’ or ‘X’ actions. Any registers referred to by ‘M’ and ‘X’ actions must be collected by a preceding ‘R’ action. (The “while-stepping” actions are treated as if they were attached to a separate tracepoint, as far as these restrictions are concerned.)

Replies:

OK

The packet was understood and carried out.

qRelocInsn

See Relocate instruction reply packet.

The packet was not recognized.

QTDPsrc:n:addr:type:start:slen:bytes

Specify a source string of tracepoint n at address addr. This is useful to get accurate reproduction of the tracepoints originally downloaded at the beginning of the trace run. The type is the name of the tracepoint part, such as ‘cond’ for the tracepoint’s conditional expression (see below for a list of types), while bytes is the string, encoded in hexadecimal.

start is the offset of the bytes within the overall source string, while slen is the total length of the source string. This is intended for handling source strings that are longer than will fit in a single packet.

The available string types are ‘at’ for the location, ‘cond’ for the conditional, and ‘cmd’ for an action command. GDB sends a separate packet for each command in the action list, in the same order in which the commands are stored in the list.

The target does not need to do anything with source strings except report them back as part of the replies to the ‘qTfP’/‘qTsP’ query packets.

Although this packet is optional, and GDB will only send it if the target replies with ‘TracepointSource’ See General Query Packets, it makes both disconnected tracing and trace files much easier to use. Otherwise the user must be careful that the tracepoints in effect while looking at trace frames are identical to the ones in effect during the trace run; even a small discrepancy could cause ‘tdump’ not to work, or a particular trace frame not be found.

QTDV:n:value:builtin:name

Create a new trace state variable, number n, with an initial value of value, which is a 64-bit signed integer. Both n and value are encoded as hexadecimal values. GDB has the option of not using this packet for initial values of zero; the target should simply create the trace state variables as they are mentioned in expressions. The value builtin should be 1 (one) if the trace state variable is builtin and 0 (zero) if it is not builtin. GDB only sets builtin to 1 if a previous ‘qTfV’ or ‘qTsV’ packet had it set. The contents of name is the hex-encoded name (without the leading ‘$’) of the trace state variable.

QTFrame:n

Select the n’th tracepoint frame from the buffer, and use the register and memory contents recorded there to answer subsequent request packets from GDB.

A successful reply from the stub indicates that the stub has found the requested frame. The response is a series of parts, concatenated without separators, describing the frame we selected. Each part has one of the following forms:

F f

The selected frame is number n in the trace frame buffer; f is a hexadecimal number. If f is ‘-1’, then there was no frame matching the criteria in the request packet.

T t

The selected trace frame records a hit of tracepoint number t; t is a hexadecimal number.

QTFrame:pc:addr

Like ‘QTFrame:n’, but select the first tracepoint frame after the currently selected frame whose PC is addr; addr is a hexadecimal number.

QTFrame:tdp:t

Like ‘QTFrame:n’, but select the first tracepoint frame after the currently selected frame that is a hit of tracepoint t; t is a hexadecimal number.

QTFrame:range:start:end

Like ‘QTFrame:n’, but select the first tracepoint frame after the currently selected frame whose PC is between start (inclusive) and end (inclusive); start and end are hexadecimal numbers.

QTFrame:outside:start:end

Like ‘QTFrame:range:start:end’, but select the first frame outside the given range of addresses (exclusive).

qTMinFTPILen

This packet requests the minimum length of instruction at which a fast tracepoint (see Set Tracepoints) may be placed. For instance, on the 32-bit x86 architecture, it is possible to use a 4-byte jump, but it depends on the target system being able to create trampolines in the first 64K of memory, which might or might not be possible for that system. So the reply to this packet will be 4 if it is able to arrange for that.

Replies:

0

The minimum instruction length is currently unknown.

length

The minimum instruction length is length, where length is a hexadecimal number greater or equal to 1. A reply of 1 means that a fast tracepoint may be placed on any instruction regardless of size.

E

An error has occurred.

An empty reply indicates that the request is not supported by the stub.

QTStart

Begin the tracepoint experiment. Begin collecting data from tracepoint hits in the trace frame buffer. This packet supports the ‘qRelocInsn’ reply (see Relocate instruction reply packet).

QTStop

End the tracepoint experiment. Stop collecting trace frames.

QTEnable:n:addr

Enable tracepoint n at address addr in a started tracepoint experiment. If the tracepoint was previously disabled, then collection of data from it will resume.

QTDisable:n:addr

Disable tracepoint n at address addr in a started tracepoint experiment. No more data will be collected from the tracepoint unless ‘QTEnable:n:addr’ is subsequently issued.

QTinit

Clear the table of tracepoints, and empty the trace frame buffer.

QTro:start1,end1:start2,end2:…

Establish the given ranges of memory as “transparent”. The stub will answer requests for these ranges from memory’s current contents, if they were not collected as part of the tracepoint hit.

GDB uses this to mark read-only regions of memory, like those containing program code. Since these areas never change, they should still have the same contents they did when the tracepoint was hit, so there’s no reason for the stub to refuse to provide their contents.

QTDisconnected:value

Set the choice to what to do with the tracing run when GDB disconnects from the target. A value of 1 directs the target to continue the tracing run, while 0 tells the target to stop tracing if GDB is no longer in the picture.

qTStatus

Ask the stub if there is a trace experiment running right now.

The reply has the form:

Trunning[;field]

running is a single digit 1 if the trace is presently running, or 0 if not. It is followed by semicolon-separated optional fields that an agent may use to report additional status.

If the trace is not running, the agent may report any of several explanations as one of the optional fields:

tnotrun:0

No trace has been run yet.

tstop[:text]:0

The trace was stopped by a user-originated stop command. The optional text field is a user-supplied string supplied as part of the stop command (for instance, an explanation of why the trace was stopped manually). It is hex-encoded.

tfull:0

The trace stopped because the trace buffer filled up.

tdisconnected:0

The trace stopped because GDB disconnected from the target.

tpasscount:tpnum

The trace stopped because tracepoint tpnum exceeded its pass count.

terror:text:tpnum

The trace stopped because tracepoint tpnum had an error. The string text is available to describe the nature of the error (for instance, a divide by zero in the condition expression); it is hex encoded.

tunknown:0

The trace stopped for some other reason.

Additional optional fields supply statistical and other information. Although not required, they are extremely useful for users monitoring the progress of a trace run. If a trace has stopped, and these numbers are reported, they must reflect the state of the just-stopped trace.

tframes:n

The number of trace frames in the buffer.

tcreated:n

The total number of trace frames created during the run. This may be larger than the trace frame count, if the buffer is circular.

tsize:n

The total size of the trace buffer, in bytes.

tfree:n

The number of bytes still unused in the buffer.

circular:n

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.

disconn:n

The value of the disconnected tracing flag. 1 means that tracing will continue after GDB disconnects, 0 means that the trace run will stop.

qTP:tp:addr

Ask the stub for the current state of tracepoint number tp at address addr.

Replies:

Vhits:usage

The tracepoint has been hit hits times so far during the trace run, and accounts for usage in the trace buffer. Note that while-stepping steps are not counted as separate hits, but the steps’ space consumption is added into the usage number.

qTV:var

Ask the stub for the value of the trace state variable number var.

Replies:

Vvalue

The value of the variable is value. This will be the current value of the variable if the user is examining a running target, or a saved value if the variable was collected in the trace frame that the user is looking at. Note that multiple requests may result in different reply values, such as when requesting values while the program is running.

U

The value of the variable is unknown. This would occur, for example, if the user is examining a trace frame in which the requested variable was not collected.

qTfP
qTsP

These packets request data about tracepoints that are being used by the target. GDB sends qTfP to get the first piece of data, and multiple qTsP to get additional pieces. Replies to these packets generally take the form of the QTDP packets that define tracepoints. (FIXME add detailed syntax)

qTfV
qTsV

These packets request data about trace state variables that are on the target. GDB sends qTfV to get the first vari of data, and multiple qTsV to get additional variables. Replies to these packets follow the syntax of the QTDV packets that define trace state variables.

qTfSTM
qTsSTM

These packets request data about static tracepoint markers that exist in the target program. GDB sends qTfSTM to get the first piece of data, and multiple qTsSTM to get additional pieces. Replies to these packets take the following form:

Reply:

m address:id:extra

A single marker

m address:id:extra,address:id:extra

a comma-separated list of markers

l

(lower case letter ‘L’) denotes end of list.

E nn

An error occurred. The error number nn is given as hex digits.

An empty reply indicates that the request is not supported by the stub.

The address is encoded in hex; id and extra are strings encoded in hex.

In response to each query, the target will reply with a list of one or more markers, separated by commas. GDB will respond to each reply with a request for more markers (using the ‘qs’ form of the query), until the target responds with ‘l’ (lower-case ell, for last).

qTSTMat:address

This packets requests data about static tracepoint markers in the target program at address. Replies to this packet follow the syntax of the ‘qTfSTM’ and qTsSTM packets that list static tracepoint markers.

QTSave:filename

This packet directs the target to save trace data to the file name filename in the target’s filesystem. The filename is encoded as a hex string; the interpretation of the file name (relative vs absolute, wild cards, etc) is up to the target.

qTBuffer:offset,len

Return up to len bytes of the current contents of trace buffer, starting at offset. The trace buffer is treated as if it were a contiguous collection of traceframes, as per the trace file format. The reply consists as many hex-encoded bytes as the target can deliver in a packet; it is not an error to return fewer than were asked for. A reply consisting of just l indicates that no bytes are available.

QTBuffer:circular:value

This packet directs the target to use a circular trace buffer if value is 1, or a linear buffer if the value is 0.

QTBuffer:size:size

This packet directs the target to make the trace buffer be of size size if possible. A value of -1 tells the target to use whatever size it prefers.

QTNotes:[type:text][;type:text]

This packet adds optional textual notes to the trace run. Allowable types include user, notes, and tstop, the text fields are arbitrary strings, hex-encoded.

E.6.1 Relocate instruction reply packet

When installing fast tracepoints in memory, the target may need to relocate the instruction currently at the tracepoint address to a different address in memory. For most instructions, a simple copy is enough, but, for example, call instructions that implicitly push the return address on the stack, and relative branches or other PC-relative instructions require offset adjustment, so that the effect of executing the instruction at a different address is the same as if it had executed in the original location.

In response to several of the tracepoint packets, the target may also respond with a number of intermediate ‘qRelocInsn’ request packets before the final result packet, to have GDB handle this relocation operation. If a packet supports this mechanism, its documentation will explicitly say so. See for example the above descriptions for the ‘QTStart’ and ‘QTDP’ packets. The format of the request is:

qRelocInsn:from;to

This requests GDB to copy instruction at address from to address to, possibly adjusted so that executing the instruction at to has the same effect as executing it at from. GDB writes the adjusted instruction to target memory starting at to.

Replies:

qRelocInsn:adjusted_size

Informs the stub the relocation is complete. The adjusted_size is the length in bytes of resulting relocated instruction sequence.

E NN

A badly formed request was detected, or an error was encountered while relocating the instruction.


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