// -*- 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) 2006-2009 Cisco Systems, Inc. All rights reserved. // Copyright (c) 2009 Sun Microsystems, Inc. All rights reserved. // $COPYRIGHT$ // // Additional copyrights may follow // // $HEADER$ // #include "mpicxx.h" #include #include "ompi_config.h" #include "ompi/errhandler/errhandler.h" #include "ompi/communicator/communicator.h" #include "ompi/datatype/ompi_datatype.h" 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); } #if OMPI_PROVIDE_MPI_FILE_INTERFACE 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); } #endif 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.eh_comm_fn = ompi_mpi_cxx_comm_throw_excptn_fctn; #if OMPI_PROVIDE_MPI_FILE_INTERFACE ompi_mpi_errors_throw_exceptions.eh.eh_file_fn = ompi_mpi_cxx_file_throw_excptn_fctn; #endif ompi_mpi_errors_throw_exceptions.eh.eh_win_fn = ompi_mpi_cxx_win_throw_excptn_fctn; } // This function uses OMPI types, and is invoked with C linkage for // the express purpose of having a C++ entity call back the C++ // function (so that types can be converted, etc.). extern "C" void ompi_mpi_cxx_comm_errhandler_invoke(ompi_errhandler_t *c_errhandler, MPI_Comm *c_comm, int *err, const char *message) { // MPI::Comm is an abstract base class; can't instantiate one of // those. So fake it by instantiating an MPI::Intracomm and then // casting it down to an (MPI::Comm&) when invoking the callback. MPI::Intracomm cxx_comm(*c_comm); MPI::Comm::Errhandler_function *cxx_fn = (MPI::Comm::Errhandler_function*) c_errhandler->eh_comm_fn; cxx_fn((MPI::Comm&) cxx_comm, err, message); } #if OMPI_PROVIDE_MPI_FILE_INTERFACE // This function uses OMPI types, and is invoked with C linkage for // the express purpose of having a C++ entity call back the C++ // function (so that types can be converted, etc.). extern "C" void ompi_mpi_cxx_file_errhandler_invoke(ompi_errhandler_t *c_errhandler, MPI_File *c_file, int *err, const char *message) { MPI::File cxx_file(*c_file); MPI::File::Errhandler_function *cxx_fn = (MPI::File::Errhandler_function*) c_errhandler->eh_file_fn; cxx_fn(cxx_file, err, message); } #endif // This function uses OMPI types, and is invoked with C linkage for // the express purpose of having a C++ entity call back the C++ // function (so that types can be converted, etc.). extern "C" void ompi_mpi_cxx_win_errhandler_invoke(ompi_errhandler_t *c_errhandler, MPI_Win *c_win, int *err, const char *message) { MPI::Win cxx_win(*c_win); MPI::Win::Errhandler_function *cxx_fn = (MPI::Win::Errhandler_function*) c_errhandler->eh_win_fn; cxx_fn(cxx_win, err, message); } // 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 comm, int keyval, void *extra_state, void *attribute_val_in, void *attribute_val_out, int *flag, MPI_Comm newcomm) { int ret = 0; MPI::Comm::keyval_intercept_data_t *kid = (MPI::Comm::keyval_intercept_data_t*) extra_state; // The callback may be in C or C++. If it's in C, it's easy - just // call it with no extra C++ machinery. if (NULL != kid->c_copy_fn) { return kid->c_copy_fn(comm, keyval, kid->extra_state, attribute_val_in, attribute_val_out, flag); } // If the callback was C++, we have to do a little more work MPI::Intracomm intracomm; MPI::Intercomm intercomm; MPI::Graphcomm graphcomm; MPI::Cartcomm cartcomm; bool bflag = OPAL_INT_TO_BOOL(*flag); if (NULL != kid->cxx_copy_fn) { if (OMPI_COMM_IS_GRAPH(comm)) { graphcomm = MPI::Graphcomm(comm); ret = kid->cxx_copy_fn(graphcomm, keyval, kid->extra_state, attribute_val_in, attribute_val_out, bflag); } else if (OMPI_COMM_IS_CART(comm)) { cartcomm = MPI::Cartcomm(comm); ret = kid->cxx_copy_fn(cartcomm, keyval, kid->extra_state, attribute_val_in, attribute_val_out, bflag); } else if (OMPI_COMM_IS_INTRA(comm)) { intracomm = MPI::Intracomm(comm); ret = kid->cxx_copy_fn(intracomm, keyval, kid->extra_state, attribute_val_in, attribute_val_out, bflag); } else if (OMPI_COMM_IS_INTER(comm)) { intercomm = MPI::Intercomm(comm); ret = kid->cxx_copy_fn(intercomm, keyval, kid->extra_state, attribute_val_in, attribute_val_out, bflag); } else { ret = MPI::ERR_COMM; } } else { ret = MPI::ERR_OTHER; } *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::keyval_intercept_data_t *kid = (MPI::Comm::keyval_intercept_data_t*) extra_state; // The callback may be in C or C++. If it's in C, it's easy - just // call it with no extra C++ machinery. if (NULL != kid->c_delete_fn) { return kid->c_delete_fn(comm, keyval, attribute_val, kid->extra_state); } // If the callback was C++, we have to do a little more work MPI::Intracomm intracomm; MPI::Intercomm intercomm; MPI::Graphcomm graphcomm; MPI::Cartcomm cartcomm; if (NULL != kid->cxx_delete_fn) { if (OMPI_COMM_IS_GRAPH(comm)) { graphcomm = MPI::Graphcomm(comm); ret = kid->cxx_delete_fn(graphcomm, keyval, attribute_val, kid->extra_state); } else if (OMPI_COMM_IS_CART(comm)) { cartcomm = MPI::Cartcomm(comm); ret = kid->cxx_delete_fn(cartcomm, keyval, attribute_val, kid->extra_state); } else if (OMPI_COMM_IS_INTRA(comm)) { intracomm = MPI::Intracomm(comm); ret = kid->cxx_delete_fn(intracomm, keyval, attribute_val, kid->extra_state); } else if (OMPI_COMM_IS_INTER(comm)) { intercomm = MPI::Intercomm(comm); ret = kid->cxx_delete_fn(intercomm, keyval, attribute_val, kid->extra_state); } else { ret = MPI::ERR_COMM; } } 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::keyval_intercept_data_t *kid = (MPI::Datatype::keyval_intercept_data_t*) extra_state; if (NULL != kid->c_copy_fn) { // The callback may be in C or C++. If it's in C, it's easy - just // call it with no extra C++ machinery. ret = kid->c_copy_fn(oldtype, keyval, kid->extra_state, attribute_val_in, attribute_val_out, flag); } else if (NULL != kid->cxx_copy_fn) { // If the callback was C++, we have to do a little more work bool bflag = OPAL_INT_TO_BOOL(*flag); MPI::Datatype cxx_datatype(oldtype); ret = kid->cxx_copy_fn(cxx_datatype, keyval, kid->extra_state, attribute_val_in, attribute_val_out, bflag); *flag = (int)bflag; } else { ret = MPI::ERR_TYPE; } 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::keyval_intercept_data_t *kid = (MPI::Datatype::keyval_intercept_data_t*) extra_state; if (NULL != kid->c_delete_fn) { return kid->c_delete_fn(type, keyval, attribute_val, kid->extra_state); } else if (NULL != kid->cxx_delete_fn) { MPI::Datatype cxx_datatype(type); return kid->cxx_delete_fn(cxx_datatype, keyval, attribute_val, kid->extra_state); } else { ret = MPI::ERR_TYPE; } 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::keyval_intercept_data_t *kid = (MPI::Win::keyval_intercept_data_t*) extra_state; if (NULL != kid->c_copy_fn) { // The callback may be in C or C++. If it's in C, it's easy - just // call it with no extra C++ machinery. ret = kid->c_copy_fn(oldwin, keyval, kid->extra_state, attribute_val_in, attribute_val_out, flag); } else if (NULL != kid->cxx_copy_fn) { // If the callback was C++, we have to do a little more work bool bflag = OPAL_INT_TO_BOOL(*flag); MPI::Win cxx_win(oldwin); ret = kid->cxx_copy_fn(cxx_win, keyval, kid->extra_state, attribute_val_in, attribute_val_out, bflag); *flag = (int)bflag; } else { ret = MPI::ERR_WIN; } 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::keyval_intercept_data_t *kid = (MPI::Win::keyval_intercept_data_t*) extra_state; if (NULL != kid->c_delete_fn) { return kid->c_delete_fn(win, keyval, attribute_val, kid->extra_state); } else if (NULL != kid->cxx_delete_fn) { MPI::Win cxx_win(win); return kid->cxx_delete_fn(cxx_win, keyval, attribute_val, kid->extra_state); } else { ret = MPI::ERR_WIN; } 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) { MPI::Grequest::Intercept_data_t *data = (MPI::Grequest::Intercept_data_t *) state; MPI::Status s(*status); int ret = data->id_cxx_query_fn(data->id_extra, s); *status = s; return ret; } extern "C" int ompi_mpi_cxx_grequest_free_fn_intercept(void *state) { MPI::Grequest::Intercept_data_t *data = (MPI::Grequest::Intercept_data_t *) state; int ret = data->id_cxx_free_fn(data->id_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) { MPI::Grequest::Intercept_data_t *data = (MPI::Grequest::Intercept_data_t *) state; return data->id_cxx_cancel_fn(data->id_extra, (0 != cancelled ? true : false)); }