/* -*- Mode: C; c-basic-offset:4 ; indent-tabs-mode:nil -*- */ /* * Copyright (c) 2004-2005 The Trustees of Indiana University. * All rights reserved. * Copyright (c) 2004-2005 The Trustees of the University of Tennessee. * 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) 2012 Sandia National Laboratories. All rights reserved. * Copyright (c) 2014 Los Alamos National Security, LLC. All rights * reserved. * Copyright (c) 2015 Research Organization for Information Science * and Technology (RIST). All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #ifndef OMPI_MCA_OSC_PT2PT_DATA_MOVE_H #define OMPI_MCA_OSC_PT2PT_DATA_MOVE_H #include "osc_pt2pt_header.h" int ompi_osc_pt2pt_control_send(ompi_osc_pt2pt_module_t *module, int target, void *data, size_t len); /** * ompi_osc_pt2pt_control_send_unbuffered: * * @short Send an unbuffered control message to a peer. * * @param[in] module - OSC PT2PT module * @param[in] target - Target rank * @param[in] data - Data to send * @param[in] len - Length of data * * @long Directly send a control message. This does not allocate a * fragment, so should only be used when sending other messages would * be erroneous (such as complete messages, when there may be queued * transactions from an overlapping post that has already heard back * from its peer). The buffer specified by data will be available * when this call returns. */ int ompi_osc_pt2pt_control_send_unbuffered (ompi_osc_pt2pt_module_t *module, int target, void *data, size_t len); /** * ompi_osc_pt2pt_isend_w_cb: * * @short Post a non-blocking send with a specified callback. * * @param[in] ptr - Source buffer. Will be available when the callback fires * @param[in] count - Number of elements to send * @param[in] datatype - Datatype of elements * @param[in] source - Ranks to send data to * @param[in] tag - Tag to use * @param[in] comm - Communicator for communicating with rank * @param[in] cb - Function to call when the request is complete * @param[in] ctx - Context to store in new request for callback * * @long This function posts a new send request. Upon completion the function cb will * be called with the associated request. The context specified in ctx will be stored in * the req_completion_cb_data member of the ompi_request_t for use by the callback. */ int ompi_osc_pt2pt_isend_w_cb (const void *ptr, int count, ompi_datatype_t *datatype, int target, int tag, ompi_communicator_t *comm, ompi_request_complete_fn_t cb, void *ctx); /** * ompi_osc_pt2pt_irecv_w_cb: * * @short Post a non-blocking receive with a specified callback. * * @param[inout] ptr - Destination for incoming data * @param[in] count - Number of elements to receive * @param[in] datatype - Datatype of elements * @param[in] source - Ranks to receive data from * @param[in] tag - Tag to use * @param[in] comm - Communicator for communicating with rank * @param[in] request_out - Location to store new receive request (may be NULL) * @param[in] cb - Function to call when the request is complete * @param[in] ctx - Context to store in new request for callback * * @long This function posts a new request and stores the request in request_out if * provided. Upon completion the function cb will be called with the associated * request. The context specified in ctx will be stored in the req_completion_cb_data * member of the ompi_request_t for use by the callback. */ int ompi_osc_pt2pt_irecv_w_cb (void *ptr, int count, ompi_datatype_t *datatype, int source, int tag, ompi_communicator_t *comm, ompi_request_t **request_out, ompi_request_complete_fn_t cb, void *ctx); int ompi_osc_pt2pt_process_lock(ompi_osc_pt2pt_module_t* module, int source, struct ompi_osc_pt2pt_header_lock_t* lock_header); void ompi_osc_pt2pt_process_lock_ack(ompi_osc_pt2pt_module_t* module, struct ompi_osc_pt2pt_header_lock_ack_t* lock_header); int ompi_osc_pt2pt_process_unlock(ompi_osc_pt2pt_module_t* module, int source, struct ompi_osc_pt2pt_header_unlock_t* lock_header); int ompi_osc_pt2pt_process_flush (ompi_osc_pt2pt_module_t *module, int source, ompi_osc_pt2pt_header_flush_t *flush_header); /** * ompi_osc_pt2pt_process_unlock_ack: * * @short Process an incoming unlock acknowledgement. * * @param[in] module - OSC PT2PT module * @param[in] source - Source rank * @param[in] unlock_ack_header - Incoming unlock ack header */ void ompi_osc_pt2pt_process_unlock_ack (ompi_osc_pt2pt_module_t *module, int source, ompi_osc_pt2pt_header_unlock_ack_t *unlock_ack_header); /** * ompi_osc_pt2pt_process_flush_ack: * * @short Process an incoming flush acknowledgement. * * @param[in] module - OSC PT2PT module * @param[in] source - Source rank * @param[in] flush_ack_header - Incoming flush ack header */ void ompi_osc_pt2pt_process_flush_ack (ompi_osc_pt2pt_module_t *module, int source, ompi_osc_pt2pt_header_flush_ack_t *flush_ack_header); /** * ompi_osc_pt2pt_frag_start_receive: * * @short Start receiving fragments on the OSC module. * * @param[in] module - OSC module * * @long This function starts receiving eager fragments on the module. The current * implementation uses the pml to transfer eager fragments. */ int ompi_osc_pt2pt_frag_start_receive (ompi_osc_pt2pt_module_t *module); #endif