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Resources for tools transitioning from the MPIR to the PMIx tool interface.

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Resources for Tools Transitioning from MPIR to PMIx

The MPIR Process Acquisition Interface is an MPI Forum defined interface for debuggers to interact with MPI programs. The PMIx Standard contains an alternative and more extensible tool interface.

Some PMIx-enabled launchers do not support the MPIR interface, which can be problematic for tools that have not moved from MPIR to PMIx. This project is targeted at those tools as they make their transition. The MPIR to PMIx project has the following goals:

  • Provide links to resources that help tools transition from MPIR to the PMIx tool interface,
  • Maintain a MPIR Shim written in C (to match the language of OpenPMIx) that provides most of the MPIR interface backed by the PMIx tool interface, and
  • Maintain other example software that can aid tools transitioning from MPIR to the PMIx tool interface.

The MPIR Shim code in this repository is meant to be an example for tools to reference when transitioning to PMIx. As such the software attempts to be structured for readability and reference. It is a fully functional MPIR Shim (see usability notes below) with a rudimentary shared library.

The MPIR Shim does not provide debugging capabilities by itself. It merely provides the symbols and back end functionality to support tools that may choose to use those systems.

Documentation

Building the MPIR Shim

What you will need:

  • OpenPMIx v4.x or later installation (though any PMIx v4 standard compliant implementation that includes the tool support can be used)
./configure --prefix=/path-to-install/mpir-shim --with-pmix=/path-to-openpmix-install
make
make install

This will create the mpirc binary which can be used to wrap the native launcher.

Additionally, a library is created (libmpirshim - both static and shared versions) that can be linked into a launcher library that wants to hide the use the shim from the user.

Running the MPIR Shim

The MPIR Shim works in a few different modes, namely:

  • Proxy mode indirect launch
  • Non-proxy mode indirect launch
  • Attach mode

Both the proxy and non-proxy modes operate in what the PMIx Standard refers to as an indirect launch model. This means that they rely on a third-party launcher to start the application. This is in contrast to the direct launch model in which the mpirc tool would call PMIx_Spawn directly to launch the application without the assistance of a third-party launcher. At the moment, only the indirect launch model is used by the mpirc shim, but future versions may be extended to support the direct launch model.

Running in Proxy Mode

Proxy Mode : Running the MPIR Shim in a runtime environment where there are no persistent daemons. For example, prterun or mpirun used to launch a single job. Those launchers are responsible for launching the daemons, then the application, then cleaning it all up when the job is finished.

Example of MPIR Shim being used without a debugger attached:

mpirc mpirun -np 2 ./a.out

Legacy tools may want to just prefix the mpirun command with mpirc in their normal launch model. In the example below we use a fake tool called mytool for illustration purposes only.

# Launching without the MPIR Shim
mytool -- mpirun -n 8 ./a.out
# Launching with the MPIR Shim
mytool -- mpirc mpirun -n 8 ./a.out

Running in Non-Proxy Mode

Non-Proxy Mode : Running the MPIR Shim in a runtime environment with a persistent daemon. For example, if you started the PRRTE prte process to setup a persistent Distributed Virtual Machine (DVM) environment then use prun to launch jobs against the DVM environment.

prte --daemonize
mpirc -n prun -np 2 ./a.out
pterm

Running in Attach Mode

Attach Mode : Running the MPIR Shim as a front end to attach to a running job by referencing the PMIx server by its PID.

Launch your application (possibly without the MPIR shim)

mpirun -np 2 ./a.out

Later, attach to the running job by using the PID of mpirun (using 1234 for illustration below):

mpirc -c 1234
# Or directly with a debugger
mytool -- mpirc -c 1234

The MPIR Shim will extract the MPIR_proctable and idle until the application terminates. You can then use a parallel debugger to connect to the mpirc process to read the process table and attach to the remote processes.

Note that Attach Mode assumes a Proxy Mode launch at this time. It may not work with the Non-Proxy mode.

Using the MPIR Shim Module With Debuggers

The MPIR Shim module can be used with debuggers that are debugging applications in Proxy Mode or Attach Mode. Both modes will be demonstrated using gdb and Open MPI below. Assume the MPIR shim module has been built and installed in /u/test/mpir.

Using the MPIR Shim Module for Debugging in Proxy Mode

Use the debugger to launch the MPIR Shim tool

gdb /u/test/mpir/bin/mpirc

Set a breakpoint at MPIR_Breakpoint. This breakpoint will be hit once the mpirun process has built the MPI process table and it is available for use by a debugger.

Once the breakpoint has been set, have gdb run the mpirun launcher, which starts the application under the control of the MPIR shim module.

The operands to the gdb run command are as if the mpirun command was issued at a shell prompt. Any mpirun options are allowed as well as any parameters for the application program.

(gdb) b MPIR_Breakpoint
(gdb) run mpirun -n 2 /u/test/mpi/bin/hello

The launch will run until the MPIR process table in built. When the breakpoint at MPIR_Breakpoint is hit, you can display MPIR process table information.

Thread 1 "mpirc" hit Breakpoint 1, MPIR_Breakpoint () at mpirshim.c:219
219         MPIR_SHIM_DEBUG_ENTER("");
Missing separate debuginfos, use: yum debuginfo-install libevent-2.1.8-5.el8.ppc64le libgcc-8.4.1-1.el8.ppc64le nvidia-driver-cuda-libs-450.142.00-1.el8.ppc64le openssl-libs-1.1.1g-15.el8_3.ppc64le sssd-client-2.4.0-9.el8_4.2.ppc64le zlib-1.2.11-17.el8.ppc64le
(gdb) p MPIR_proctable_size
$1 = 2
(gdb) p MPIR_proctable[0]
$2 = {
  host_name = 0x20002400a0f0 "c656f7n05",
  executable_name = 0x100310e0 "/u/test/mpi/bin/hello",
  pid = 1501610
}
(gdb) p MPIR_proctable[1]
$3 = {
  host_name = 0x100310c0 "c656f7n05",
  executable_name = 0x100da940 "/u/test/mpi/bin/hello",
  pid = 1501611
}

Execution of mpirun and the target application continues after you enter the gdb continue command.

Using the MPIR Shim Module for Debugging in Attach Mode

Launch the application program and note the process ID (PID) of the mpirun process. The application should run long enough that you can start a debugger and attach to the mpirun process.

c656f7n05:test> mpirun -n 2 hello &
[1]     1501960

Invoke gdb to run the MPIR shim module

gdb /u/test/mpir/bin/mpirc

Set a breakpoint at MPIR_Breakpoint then run the shim module, specifying the PID of the mpirun process.

(gdb) b MPIR_Breakpoint
(gdb) run mpirun -c 1501960

The launch will run until the MPIR process table in built. When the breakpoint at MPIR_Breakpoint is hit, you can display MPIR process table information as shown in the description of the mpirun launch case above.

Support

If you have questions or need help either post a GitHub issue (if it is a problem) or email the OpenPMIx mailing list.

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