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openmpi/ompi/mpi/cxx/intercepts.cc
Brian Barrett 1ba97181dc A number of MPI-2 compliance fixes for the C++ bindings:
* Added Create_errhandler for MPI::File
  * Make errors_throw_exceptions a first-class predefined exception
    handler, and make it work for Comm, File, and Win
  * Deal with error handlers and attributes for Files, Types, and Wins
    like we do with Comms - can't just cast the callbacks from C++
    signatures to C signatures.  Callbacks will then fire with the
    C object, not the C++ object.  That's bad.

Refs trac:455

This commit was SVN r12945.

The following Trac tickets were found above:
  Ticket 455 --> https://svn.open-mpi.org/trac/ompi/ticket/455
2006-12-30 23:41:42 +00:00

517 строки
17 KiB
C++

// -*- c++ -*-
//
// Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana
// University Research and Technology
// Corporation. All rights reserved.
// Copyright (c) 2004-2005 The University of Tennessee and The University
// of Tennessee Research Foundation. All rights
// reserved.
// Copyright (c) 2004-2005 High Performance Computing Center Stuttgart,
// University of Stuttgart. All rights reserved.
// Copyright (c) 2004-2005 The Regents of the University of California.
// All rights reserved.
// Copyright (c) 2006 Cisco Systems, Inc. All rights reserved.
// $COPYRIGHT$
//
// Additional copyrights may follow
//
// $HEADER$
//
#include "mpicxx.h"
#include <stdio.h>
#include "ompi_config.h"
#include "ompi/errhandler/errhandler.h"
#include "opal/threads/mutex.h"
MPI::Comm::mpi_comm_map_t MPI::Comm::mpi_comm_map;
MPI::Comm::mpi_comm_err_map_t MPI::Comm::mpi_comm_err_map;
MPI::Comm::mpi_comm_key_fn_map_t MPI::Comm::mpi_comm_key_fn_map;
MPI::Win::mpi_win_map_t MPI::Win::mpi_win_map;
MPI::Win::mpi_win_key_fn_map_t MPI::Win::mpi_win_key_fn_map;
MPI::Datatype::mpi_type_map_t MPI::Datatype::mpi_type_map;
MPI::Datatype::mpi_type_key_fn_map_t MPI::Datatype::mpi_type_key_fn_map;
MPI::File::mpi_file_map_t MPI::File::mpi_file_map;
opal_mutex_t *MPI::mpi_map_mutex;
extern "C"
void ompi_mpi_cxx_throw_exception(int *errcode)
{
#if OMPI_HAVE_CXX_EXCEPTION_SUPPORT
throw(MPI::Exception(*errcode));
#else
// Ick. This is really ugly, but necesary if someone uses a C compiler
// and -lmpi++ (which can legally happen in the LAM MPI implementation,
// and probably in MPICH and others who include -lmpi++ by default in their
// wrapper compilers)
fprintf(stderr, "MPI 2 C++ exception throwing is disabled, MPI::mpi_errno has the error code\n");
MPI::mpi_errno = *errcode;
#endif
}
extern "C"
void ompi_mpi_cxx_comm_throw_excptn_fctn(MPI_Comm *, int *errcode, ...)
{
/* Portland compiler raises a warning if va_start is not used in a
* variable argument function */
va_list ap;
va_start(ap, errcode);
ompi_mpi_cxx_throw_exception(errcode);
va_end(ap);
}
extern "C"
void ompi_mpi_cxx_file_throw_excptn_fctn(MPI_File *, int *errcode, ...)
{
va_list ap;
va_start(ap, errcode);
ompi_mpi_cxx_throw_exception(errcode);
va_end(ap);
}
extern "C"
void ompi_mpi_cxx_win_throw_excptn_fctn(MPI_Win *, int *errcode, ...)
{
va_list ap;
va_start(ap, errcode);
ompi_mpi_cxx_throw_exception(errcode);
va_end(ap);
}
void
MPI::InitializeIntercepts()
{
ompi_mpi_errors_throw_exceptions.eh_comm_fn =
ompi_mpi_cxx_comm_throw_excptn_fctn;
ompi_mpi_errors_throw_exceptions.eh_file_fn =
ompi_mpi_cxx_file_throw_excptn_fctn;
ompi_mpi_errors_throw_exceptions.eh_win_fn =
ompi_mpi_cxx_win_throw_excptn_fctn;
MPI::mpi_map_mutex = OBJ_NEW(opal_mutex_t);
}
void
MPI::FinalizeIntercepts()
{
OBJ_RELEASE(MPI::mpi_map_mutex);
}
extern "C"
void ompi_mpi_cxx_comm_errhandler_intercept(MPI_Comm *mpi_comm, int *err, ...)
{
MPI::Comm* comm;
OPAL_THREAD_LOCK(MPI::mpi_map_mutex);
comm = MPI::Comm::mpi_comm_err_map[*mpi_comm];
OPAL_THREAD_UNLOCK(MPI::mpi_map_mutex);
if (comm && comm->my_errhandler) {
va_list ap;
va_start(ap, err);
comm->my_errhandler->comm_handler_fn(*comm, err, ap);
va_end(ap);
}
}
extern "C"
void ompi_mpi_cxx_file_errhandler_intercept(MPI_File *mpi_file, int *err, ...)
{
MPI::File* file;
OPAL_THREAD_LOCK(MPI::mpi_map_mutex);
file = MPI::File::mpi_file_map[*mpi_file];
OPAL_THREAD_UNLOCK(MPI::mpi_map_mutex);
if (file && file->my_errhandler) {
va_list ap;
va_start(ap, err);
file->my_errhandler->file_handler_fn(*file, err, ap);
va_end(ap);
}
}
extern "C"
void ompi_mpi_cxx_win_errhandler_intercept(MPI_Win *mpi_win, int *err, ...)
{
MPI::Win* win;
OPAL_THREAD_LOCK(MPI::mpi_map_mutex);
win = MPI::Win::mpi_win_map[*mpi_win];
OPAL_THREAD_UNLOCK(MPI::mpi_map_mutex);
if (win && win->my_errhandler) {
va_list ap;
va_start(ap, err);
win->my_errhandler->win_handler_fn(*win, err, ap);
va_end(ap);
}
}
// This is a bit weird; bear with me. The user-supplied function for
// MPI::Op contains a C++ object reference. So it must be called from
// a C++-compiled function. However, libmpi does not contain any C++
// code because there are portability and bootstrapping issues
// involved if someone tries to make a 100% C application link against
// a libmpi that contains C++ code. At a minimum, the user will have
// to use the C++ compiler to link. LA-MPI has shown that users don't
// want to do this (there are other problems, but this one is easy to
// cite).
//
// Hence, there are two problems when trying to invoke the user's
// callback funcion from an MPI::Op:
//
// 1. The MPI_Datatype that the C library has must be converted to an
// (MPI::Datatype)
// 2. The C++ callback function must then be called with a
// (MPI::Datatype&)
//
// Some relevant facts for the discussion:
//
// - The main engine for invoking Op callback functions is in libmpi
// (i.e., in C code).
//
// - The C++ bindings are a thin layer on top of the C bindings.
//
// - The C++ bindings are a separate library from the C bindings
// (libmpi_cxx.la).
//
// - As a direct result, the mpiCC wrapper compiler must generate a
// link order thus: "... -lmpi_cxx -lmpi ...", meaning that we cannot
// have a direct function call from the libmpi to libmpi_cxx. We can
// only do it by function pointer.
//
// So the problem remains -- how to invoke a C++ MPI::Op callback
// function (which only occurrs for user-defined datatypes, BTW) from
// within the C Op callback engine in libmpi?
//
// It is easy to cache a function pointer to the
// ompi_mpi_cxx_op_intercept() function on the MPI_Op (that is located
// in the libmpi_cxx library, and is therefore compiled with a C++
// compiler). But the normal C callback MPI_User_function type
// signature is (void*, void*, int*, MPI_Datatype*) -- so if
// ompi_mpi_cxx_op_intercept() is invoked with these arguments, it has
// no way to deduce what the user-specified callback function is that
// is associated with the MPI::Op.
//
// One can easily imagine a scenario of caching the callback pointer
// of the current MPI::Op in a global variable somewhere, and when
// ompi_mpi_cxx_op_intercept() is invoked, simply use that global
// variable. This is unfortunately not thread safe.
//
// So what we do is as follows:
//
// 1. The C++ dispatch function ompi_mpi_cxx_op_intercept() is *not*
// of type (MPI_User_function*). More specifically, it takes an
// additional argument: a function pointer. its signature is (void*,
// void*, int*, MPI_Datatype*, MPI_Op*, MPI::User_function*). This
// last argument is the function pointer of the user callback function
// to be invoked.
//
// The careful reader will notice that it is impossible for the C Op
// dispatch code in libmpi to call this function properly because the
// last argument is of a type that is not defined in libmpi (i.e.,
// it's only in libmpi_cxx). Keep reading -- this is explained below.
//
// 2. When the MPI::Op is created (in MPI::Op::Init()), we call the
// back-end C MPI_Op_create() function as normal (just like the F77
// bindings, in fact), and pass it the ompi_mpi_cxx_op_intercept()
// function (casting it to (MPI_User_function*) -- it's a function
// pointer, so its size is guaranteed to be the same, even if the
// signature of the real function is different).
//
// 3. The function pointer to ompi_mpi_cxx_op_intercept() will be
// cached in the MPI_Op in op->o_func[0].cxx_intercept_fn.
//
// Recall that MPI_Op is implemented to have an array of function
// pointers so that optimized versions of reduction operations can be
// invoked based on the corresponding datatype. But when an MPI_Op
// represents a user-defined function operation, there is only one
// function, so it is always stored in function pointer array index 0.
//
// 4. When MPI_Op_create() returns, the C++ MPI::Op::Init function
// manually sets OMPI_OP_FLAGS_CXX_FUNC flag on the resulting MPI_Op
// (again, very similar to the F77 MPI_OP_CREATE wrapper). It also
// caches the user's C++ callback function in op->o_func[1].c_fn
// (recall that the array of function pointers is actually a union of
// multiple different function pointer types -- it doesn't matter
// which type the user's callback function pointer is stored in; since
// all the types in the union are function pointers, it's guaranteed
// to be large enough to hold what we need.
//
// Note that we don't have a member of the union for the C++ callback
// function because its signature includes a (MPI::Datatype&), which
// we can't put in the C library libmpi.
//
// 5. When the user invokes an function that uses the MPI::Op (or,
// more specifically, when the Op dispatch engine in ompi/op/op.c [in
// libmpi] tries to dispatch off to it), it will see the
// OMPI_OP_FLAGS_CXX_FUNC flag and know to use the
// op->o_func[0].cxx_intercept_fn and also pass as the 4th argument,
// op->o_func[1].c_fn.
//
// 6. ompi_mpi_cxx_op_intercept() is therefore invoked and receives
// both the (MPI_Datatype*) (which is easy to convert to
// (MPI::Datatype&)) and a pointer to the user's C++ callback function
// (albiet cast as the wrong type). So it casts the callback function
// pointer to (MPI::User_function*) and invokes it.
//
// Wasn't that simple?
//
extern "C" void
ompi_mpi_cxx_op_intercept(void *invec, void *outvec, int *len,
MPI_Datatype *datatype, MPI_User_function *c_fn)
{
MPI::Datatype cxx_datatype = *datatype;
MPI::User_function *cxx_callback = (MPI::User_function*) c_fn;
cxx_callback(invec, outvec, *len, cxx_datatype);
}
//
// Attribute copy functions -- comm, type, and win
//
extern "C" int
ompi_mpi_cxx_comm_copy_attr_intercept(MPI_Comm oldcomm, int keyval,
void *extra_state, void *attribute_val_in,
void *attribute_val_out, int *flag)
{
int ret = 0;
MPI::Comm::key_pair_t* copy_and_delete;
MPI::Comm::Copy_attr_function* copy_fn;
MPI::Comm::comm_pair_t *comm_type;
OPAL_THREAD_LOCK(MPI::mpi_map_mutex);
copy_and_delete = MPI::Comm::mpi_comm_key_fn_map[keyval];
copy_fn = copy_and_delete->first;
comm_type = MPI::Comm::mpi_comm_map[oldcomm];
OPAL_THREAD_UNLOCK(MPI::mpi_map_mutex);
// Just in case...
if (comm_type == 0)
return MPI::ERR_OTHER;
MPI::Intracomm intracomm;
MPI::Intercomm intercomm;
MPI::Graphcomm graphcomm;
MPI::Cartcomm cartcomm;
int thetype = (int)comm_type->second;
bool bflag = OPAL_INT_TO_BOOL(*flag);
switch (thetype) {
case eIntracomm:
intracomm = MPI::Intracomm(*comm_type->first);
ret = copy_fn(intracomm, keyval, extra_state,
attribute_val_in, attribute_val_out, bflag);
break;
case eIntercomm:
intercomm = MPI::Intercomm(*comm_type->first);
ret = copy_fn(intercomm, keyval, extra_state,
attribute_val_in, attribute_val_out, bflag);
break;
case eGraphcomm:
graphcomm = MPI::Graphcomm(*comm_type->first);
ret = copy_fn(graphcomm, keyval, extra_state,
attribute_val_in, attribute_val_out, bflag);
break;
case eCartcomm:
cartcomm = MPI::Cartcomm(*comm_type->first);
ret = copy_fn(cartcomm, keyval, extra_state,
attribute_val_in, attribute_val_out, bflag);
break;
}
*flag = (int)bflag;
return ret;
}
extern "C" int
ompi_mpi_cxx_comm_delete_attr_intercept(MPI_Comm comm, int keyval,
void *attribute_val, void *extra_state)
{
int ret = 0;
MPI::Comm::key_pair_t * copy_and_delete;
MPI::Comm::Delete_attr_function* delete_fn;
MPI::Comm::comm_pair_t *comm_type;
OPAL_THREAD_LOCK(MPI::mpi_map_mutex);
copy_and_delete = MPI::Comm::mpi_comm_key_fn_map[keyval];
delete_fn = copy_and_delete->second;
comm_type = MPI::Comm::mpi_comm_map[comm];
OPAL_THREAD_UNLOCK(MPI::mpi_map_mutex);
// Just in case...
if (comm_type == 0)
return MPI::ERR_OTHER;
MPI::Intracomm intracomm;
MPI::Intercomm intercomm;
MPI::Graphcomm graphcomm;
MPI::Cartcomm cartcomm;
int thetype = (long)(comm_type->second);
if (delete_fn > (MPI::Comm::Delete_attr_function*) 100) {
switch (thetype) {
case eIntracomm:
intracomm = MPI::Intracomm(*comm_type->first);
ret = delete_fn(intracomm, keyval, attribute_val, extra_state);
break;
case eIntercomm:
intercomm = MPI::Intercomm(*comm_type->first);
ret = delete_fn(intercomm, keyval, attribute_val, extra_state);
break;
case eGraphcomm:
graphcomm = MPI::Graphcomm(*comm_type->first);
ret = delete_fn(graphcomm, keyval, attribute_val, extra_state);
break;
case eCartcomm:
cartcomm = MPI::Cartcomm(*comm_type->first);
ret = delete_fn(cartcomm, keyval, attribute_val, extra_state);
break;
}
} else
ret = MPI::ERR_OTHER;
return ret;
}
extern "C" int
ompi_mpi_cxx_type_copy_attr_intercept(MPI_Datatype oldtype, int keyval,
void *extra_state, void *attribute_val_in,
void *attribute_val_out, int *flag)
{
int ret = 0;
MPI::Datatype::key_pair_t* copy_and_delete;
MPI::Datatype::Copy_attr_function* copy_fn;
MPI::Datatype *cxx_oldtype;
OPAL_THREAD_LOCK(MPI::mpi_map_mutex);
cxx_oldtype = MPI::Datatype::mpi_type_map[oldtype];
copy_and_delete = MPI::Datatype::mpi_type_key_fn_map[keyval];
copy_fn = copy_and_delete->first;
OPAL_THREAD_UNLOCK(MPI::mpi_map_mutex);
bool bflag = OPAL_INT_TO_BOOL(*flag);
ret = copy_fn(*cxx_oldtype, keyval, extra_state, attribute_val_in,
attribute_val_out, bflag);
*flag = (int)bflag;
return ret;
}
extern "C" int
ompi_mpi_cxx_type_delete_attr_intercept(MPI_Datatype type, int keyval,
void *attribute_val, void *extra_state)
{
int ret = 0;
MPI::Datatype::key_pair_t* copy_and_delete;
MPI::Datatype::Delete_attr_function* delete_fn;
MPI::Datatype *cxx_type;
OPAL_THREAD_LOCK(MPI::mpi_map_mutex);
cxx_type = MPI::Datatype::mpi_type_map[type];
copy_and_delete = MPI::Datatype::mpi_type_key_fn_map[keyval];
delete_fn = copy_and_delete->second;
OPAL_THREAD_UNLOCK(MPI::mpi_map_mutex);
ret = delete_fn(*cxx_type, keyval, attribute_val, extra_state);
return ret;
}
extern "C" int
ompi_mpi_cxx_win_copy_attr_intercept(MPI_Win oldwin, int keyval,
void *extra_state, void *attribute_val_in,
void *attribute_val_out, int *flag)
{
int ret = 0;
MPI::Win::key_pair_t* copy_and_delete;
MPI::Win::Copy_attr_function* copy_fn;
MPI::Win *cxx_oldwin;
OPAL_THREAD_LOCK(MPI::mpi_map_mutex);
cxx_oldwin = MPI::Win::mpi_win_map[oldwin];
copy_and_delete = MPI::Win::mpi_win_key_fn_map[keyval];
copy_fn = copy_and_delete->first;
OPAL_THREAD_UNLOCK(MPI::mpi_map_mutex);
bool bflag = OPAL_INT_TO_BOOL(*flag);
ret = copy_fn(*cxx_oldwin, keyval, extra_state, attribute_val_in,
attribute_val_out, bflag);
*flag = (int)bflag;
return ret;
}
extern "C" int
ompi_mpi_cxx_win_delete_attr_intercept(MPI_Win win, int keyval,
void *attribute_val, void *extra_state)
{
int ret = 0;
MPI::Win::key_pair_t* copy_and_delete;
MPI::Win::Delete_attr_function* delete_fn;
MPI::Win *cxx_win;
OPAL_THREAD_LOCK(MPI::mpi_map_mutex);
cxx_win = MPI::Win::mpi_win_map[win];
copy_and_delete = MPI::Win::mpi_win_key_fn_map[keyval];
delete_fn = copy_and_delete->second;
OPAL_THREAD_UNLOCK(MPI::mpi_map_mutex);
ret = delete_fn(*cxx_win, keyval, attribute_val, extra_state);
return ret;
}
// For similar reasons as above, we need to intercept calls for the 3
// generalized request callbacks (convert arguments to C++ types and
// invoke the C++ callback signature).
extern "C" int
ompi_mpi_cxx_grequest_query_fn_intercept(void *state, MPI_Status *status)
{
struct MPI::Grequest_intercept_t *data =
(struct MPI::Grequest_intercept_t *) state;
MPI::Status s(*status);
int ret = data->git_cxx_query_fn(data->git_extra, s);
*status = s;
return ret;
}
extern "C" int
ompi_mpi_cxx_grequest_free_fn_intercept(void *state)
{
struct MPI::Grequest_intercept_t *data =
(struct MPI::Grequest_intercept_t *) state;
int ret = data->git_cxx_free_fn(data->git_extra);
// Delete the struct that was "new"ed in MPI::Grequest::Start()
delete data;
return ret;
}
extern "C" int
ompi_mpi_cxx_grequest_cancel_fn_intercept(void *state, int cancelled)
{
struct MPI::Grequest_intercept_t *data =
(struct MPI::Grequest_intercept_t *) state;
return data->git_cxx_cancel_fn(data->git_extra, (bool) cancelled);
}