Network Debugging Protocol
RFC: 643
NIC #30873
This document describes a proposed protocol to be used in an
implementation
cross-network debugger.
processes running under an operating system which can perform some of
the "lower level" debugging tasks, such as planting and removing
breakpoints and single stepping. A subset of the protocol could be
used if such a capability does not exist (a stand-alone program for
example).
The protocol is a level 2 protocol, which bypasses the ARPANET
HOST-HOST protocol.
privileged system calls which allow messages to be sent directly to
and received directly from the IMP). Messages are sent between the
PDP-11 and the remote debugger on one link (currently 377 octal).
Each message from the remote debugger to the PDP-ll is a request that
the PDP-11 perform some action, and each message from the PDP-11 to
the remote debugger is either a reply to that request or an indication
that a process has stopped running (i.e.
breakpoint, etc). The exact format of the messages is shown in Figure
1 below.
Each command consists of an 8-bit op-code, and an
process-id, two 16-bit arguments, and an optional string of 8-bit
bytes. The op-code field from the PDP-11 should be the same as that
sent by the remote host to indicate successful completion of the
request or be the same as that set by the remote host with the 200 bit
set to indicate failure to complete the request. Op-codes from the
PDP-11 which have the 100 bit set are asynchronous indication that a
process has stopped for a reason other than a request from the remote
host. (See description of asynchronous replies below).
from the PDP-11 with both the 100 and 200 bit set is meaningless.
Thus, the 8-bit op-code field sent by the PDP-11 can be thought of as
a CAN'T Flag, an Asynchronous STOP Flag, and a 6-bit op-code.
RFC: 643
NIC #30873
This document describes a proposed protocol to be used in an
implementation
cross-network debugger.
processes running under an operating system which can perform some of
the "lower level" debugging tasks, such as planting and removing
breakpoints and single stepping. A subset of the protocol could be
used if such a capability does not exist (a stand-alone program for
example).
The protocol is a level 2 protocol, which bypasses the ARPANET
HOST-HOST protocol.
privileged system calls which allow messages to be sent directly to
and received directly from the IMP). Messages are sent between the
PDP-11 and the remote debugger on one link (currently 377 octal).
Each message from the remote debugger to the PDP-ll is a request that
the PDP-11 perform some action, and each message from the PDP-11 to
the remote debugger is either a reply to that request or an indication
that a process has stopped running (i.e.
breakpoint, etc). The exact format of the messages is shown in Figure
1 below.
Each command consists of an 8-bit op-code, and an
process-id, two 16-bit arguments, and an optional string of 8-bit
bytes. The op-code field from the PDP-11 should be the same as that
sent by the remote host to indicate successful completion of the
request or be the same as that set by the remote host with the 200 bit
set to indicate failure to complete the request. Op-codes from the
PDP-11 which have the 100 bit set are asynchronous indication that a
process has stopped for a reason other than a request from the remote
host. (See description of asynchronous replies below).
from the PDP-11 with both the 100 and 200 bit set is meaningless.
Thus, the 8-bit op-code field sent by the PDP-11 can be thought of as
a CAN'T Flag, an Asynchronous STOP Flag, and a 6-bit op-code.
Eric Mader
July 1974
of a PDP-11 network Bootstrap service and a
The protocol is designed for debugging
(This is implemented on TENEX using special
has trapped, hit a
8-bit
An op-code
July 1974
of a PDP-11 network Bootstrap service and a
The protocol is designed for debugging
(This is implemented on TENEX using special
has trapped, hit a
8-bit
An op-code
-
-
In the description that follows the commands will be given as
-
NAME (Process-ID, Argument 1, Argument 2, BYTE STRING)
with only as many of the fields present as are used.
Op-Code 0 - NOP_______ _ _ ___
This command is intended to be used to determine if the PDP-11 is operational. It has no effect on any process running in the PDP-11. The response is NOP.
Op-Code 1 - DEBUG (Process)_______ _ _ _____ _________
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DEBUGGING (process)
(op-code 1) if no other remote host is currently doing so, and
-
CAN'T DEBUG (process)
(op-code 201) if another remote host has been given permission to
debug the process, or the process doesn't exist.
Op-Code 2 - END DEBUG (Process)_______ _ _ ___ _____ _________
This command relinquishes the ability to debug a process. The
PDP-11 should reply
-
END DEBUG (Process)
(op-code 2) unless the remote host isn't debugging the process, in
which case it should respond
-
-
-
-
-
CAN'T END DEBUG (Process)
-
-
-
-
(op-code 202). If the process isn't running when the END DEBUG is
done, then the effect should be the same as
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RESUME (PROCESS) END DEBUG (PROCESS)
Op-Code 3 - STOP (Process)_______ _ _ ____ _________
This command requests the PDP-11 to stop the given process from
running. The PDP-11 should respond
-
STOPPED (process)
(op-code 3) unless the process isn't being debugged by the remote
host. In this case it should reply
-
CAN'T STOP (process)
(op-code 203).
Op-Code 4 - DEPOSIT (Process, Address, Count, Byte String)_______ _ _ _______ _________ ________ ______ ____ _______
This instructs the PDP-11 to deposit the Count bytes in Byte String into the given process's address space beginning at Address. The PDP-11 should reply
-
-
-
-
DEPOSITED (Process, Address, Count)
-
-
-
if successful or
if the deposit doesn't succeed, or the remote host isn't debugging the
process.
Op-Code 5 - RESUME (Process)_______ _ _ ______ _________
This instructs the PDP-11 to allow the given process to resume
running. The PDP-11 should reply
-
RESUMED (Process)
before it starts the process (in case it traps right away), or
-
CAN'T RESUME (Process)
if the process wasn't stopped, or the remote host isn't debugging the
process.
Op-Code 6 - EXAMINE (Process, Address, Count)_______ _ _ _______ _________ ________ ______
This instructs the PDP-11 to return Count bytes from the given
process address space starting at Address. The PDP-11 should reply
-
CONTENTS (Process, Address, Count, Byte String)
if it can supply the bytes, or
-
CAN'T EXAMINE (Process, Address, Count)
if all the bytes don't exist in the address space, or the remote host
isn't debugging the process.
Op-Code 7 - DEPOSIT STATE VECTOR (Process, Index, Byte Count,_______ _ _ _______ _____ ______ _________ ______ ____ ______
Byte String) ____ _______
This instructs the PDP-11 to deposit the Byte Count bytes in Byte String into the state vector for the given process starting with byte Index. See Figure 2 for the format of the state vector. The PDP-11 should reply DEPOSITED STATE VECTOR (Process, Index, Byte Count)
unless the bytes won't all fit in the state vector or the remote host
isn't debugging the process. In this case the reply should be
-
CAN'T DEPOSIT STATE VECTOR (Process, Index, Byte Count)
Op-Code 10 - BREAK (Process, Address, Proceed Count)_______ __ _ _____ _________ ________ _______ ______
-
BROKE (Process, Address, Proceed Count)
if it was able to plant the breakpoint and
CAN'T BREAK (Proceed, Address, Proceed Count) if it was unable to plant the breakpoint because the breakpoint tables for the process are full, or because the remote host isn't debugging the process. Note that the PDP-11 must keep track of where the breakpoints are, the old contents of these locations etc.
Op-Code 11 - UNBREAK (Process, Address)_______ __ _ _______ _________ ________
This instructs the PDP-11 to remove the breakpoint from Address in the process's address space and release all storage associated with it. The PDP-11 should reply UNBROKE (Process, Address)
when the breakpoint is removed, or
-
-
-
-
CAN'T UNBREAK (Process, Address)
-
-
-
if the process doens't have a breakpoint at Address or the remote host
isn't debugging the process.
Op-Code 12 - SINGLE STEP (Process)_______ __ _ ______ ____ _________
This instructs the PDP-11 to let the given process execute one
instruction, using the Trace Trap feature. The PDP-11 should reply
-
SINGLE STEPPING (Process)
before the process is started, or
-
-
-
-
-
CAN'T SINGLE STEP (Process)
-
-
-
-
if the process is already running or the remote host isn't debugging
the process.
Op-Code 13 - PROCEED BPT (Process)_______ __ _ _______ ___ _________
This instructs the PDP-11 to allow the process to proceed from a
break point trap (BPT, see below). The PDP-11 should reply
-
PROCEEDING BPT (Process)
before allowing the process to proceed, or
-
-
-
-
-
CAN'T PROCEED BPT (Process)
-
-
-
-
Op-Code 14 - CREATE PROCESS_______ __ _ ______ _______
This instructs the PDP-11 to create a process (with its own virtual address space if the system will support such a feature). The PDP-11 should reply CREATED PROCESS (Process) if it could create a process, with the process-id in process. If the process creation failed or the system cannot create processes, the PDP-11 should reply
-
-
-
-
-
CAN'T CREATE PROCESS.
-
-
-
-
Once a remote host has created a process it is debugging it, that is a
-
DEBUG (process)
need not be done.
Op-Code 15 - DESTROY PROCESS (Process)_______ __ _ _______ _______ _________
This instructs the PDP-11 to destroy the given process. After the process is destroyed the remote host cannot, of course, debug it so there is no need to do an
-
-
-
-
-
END DEBUG (Process).
-
-
-
-
The PDP-11 should reply
DESTROYED PROCESS (Process) if the process has been destroyed. If the system doesn't support a multi-process structure or the remote host isn't debugging the process the PDP-11 should reply
-
-
-
-
CAN'T DESTROY PROCESS (Process).
-
-
-
Asynchronous Stop Replies ____________ ____ _______ These replies (op-code between 100 and 177 octal) are sent by the PDP-11 wherever a process being debugged stops running for any reason other than in response to the STOP (Process)
Op-Code 100 - TRAP (Process, Reason, 0, STATE VECTOR)_______ ___ _ ____ _________ _______ __ _____ _______
This informs the remote host that a process has "trapped", or terminated abnormally. The reason is a system error code, or could be a trap vector address in the stand-alone case.
Op-Code 101 - HALT (Process, 0,0, STATE VECTOR)_______ ___ _ ____ _________ ____ _____ _______
This informs the remote host that the given process has
terminated normally.
Op-Code 102 - BPT (Process, 0, 0, STATE VECTOR)_______ ___ _ ___ _________ __ __ _____ _______
This informs the remote host that the given process has hit a
breakpoint trap.
Op-Code 103 - TTRAP (Process, 0, 0, STATE VECTOR)_______ ___ _ _____ _________ __ __ _____ _______
This informs the remote host that the given process has hit a
trace trap, i.e. has just executed one instruction in response to the
-
SINGLE STEP (Process) Figure 1
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-
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FORMAT OF NETWORK DEBUGGER MESSAGES
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---------------- | TYPE | HOST | ---------------- | LINK | STYPE | ---------------- | CMD | PID | ---------------- | ARG1 | ---------------- | ARG2 | ---------------- TYPE -- The HOST-IMP/IMP-HOST message type, should always be zero.
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HOST -- The source host ID.
LINK -- The debugger link.
STYPE -- The message subtype, always zero.
CMD -- The debugger command op-code, excess 100 for asynchronous reply's, excess 200 for "can't" reply's.
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PID -- Process ID of process being debugged.
ARG1 -- The first argument of the command.
ARG2 -- The second argument of the command.
Figure 2
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FORMAT OF STATE VECTORS
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------------ | R0 | ------------ | R1 | ------------ | R2 | ------------ | ... | ------------ | PC | ------------ | PS | ------------
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