/* * Copyright (c) 2004-2007 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2008 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) 2006-2007 Los Alamos National Security, LLC. All rights * reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ /** * @file * * Byte Transfer Layer (BTL) * * * BTL Initialization: * * During library initialization, all available BTL components are * loaded and opened via their mca_base_open_component_fn_t * function. The BTL open function should register any mca parameters * used to tune/adjust the behaviour of the BTL (mca_base_param_register_int(), * mca_base_param_register_string()). Note that the open function may fail * if the resources (e.g. shared libraries, etc) required by the network * transport are not available. * * The mca_btl_base_component_init_fn_t() is then called for each of the * components that are succesfully opened. The component init function may * return either: * * (1) a NULL list of BTL modules if the transport is not available, * (2) a list containing a one or more single BTL modules, where the BTL provides * a layer of abstraction over one or more physical devices (e.g. NICs), * * During module initialization, the module should post any addressing * information required by its peers. An example would be the TCP * listen port opened by the TCP module for incoming connection * requests. This information is published to peers via the * ompi_modex_send() interface. Note that peer information is not * guaranteed to be available via ompi_modex_recv() during the * module's init function. However, it will be available during * BTL selection (mca_btl_base_add_proc_fn_t()). * * BTL Selection: * * The upper layer builds an ordered list of the available BTL modules sorted * by their exclusivity ranking. This is a relative ranking that is used * to determine the set of BTLs that may be used to reach a given destination. * During startup the BTL modules are queried via their * mca_btl_base_add_proc_fn_t() to determine if they are able to reach * a given destination. The BTL module with the highest ranking that * returns success is selected. Subsequent BTL modules are selected only * if they have the same exclusivity ranking. * * An example of how this might be used: * * BTL Exclusivity Comments * -------- ----------- ------------------ * LO 100 Selected exclusively for local process * SM 50 Selected exclusively for other processes on host * IB 0 Selected based on network reachability * IB 0 Selected based on network reachability * TCP 0 Selected based on network reachability * TCP 0 Selected based on network reachability * * When mca_btl_base_add_proc_fn_t() is called on a BTL module, the BTL * will populate an OUT variable with mca_btl_base_endpoint_t pointers. * Each pointer is treated as an opaque handle by the upper layer and is * returned to the BTL on subsequent data transfer calls to the * corresponding destination process. The actual contents of the * data structure are defined on a per BTL basis, and may be used to * cache addressing or connection information, such as a TCP socket * or IB queue pair. * * Progress: * * By default, the library provides for polling based progress of outstanding * requests. The BTL component exports an interface function (btl_progress) * that is called in a polling mode by the PML during calls into the MPI * library. Note that the btl_progress() function is called on the BTL component * rather than each BTL module. This implies that the BTL author is responsible * for iterating over the pending operations in each of the BTL modules associated * with the component. * * On platforms where threading support is provided, the library provides the * option of building with asynchronous threaded progress. In this case, the BTL * author is responsible for providing a thread to progress pending operations. * A thread is associated with the BTL component/module such that transport specific * functionality/APIs may be used to block the thread until a pending operation * completes. This thread MUST NOT poll for completion as this would oversubscribe * the CPU. * * Note that in the threaded case the PML may choose to use a hybrid approach, * such that polling is implemented from the user thread for a fixed number of * cycles before relying on the background thread(s) to complete requests. If * possible the BTL should support the use of both modes concurrently. * */ #ifndef MCA_BTL_H #define MCA_BTL_H #include "ompi_config.h" #include "opal/mca/mca.h" #include "opal/class/opal_bitmap.h" #include "opal/datatype/opal_convertor.h" #include "opal/prefetch.h" /* For OPAL_LIKELY */ #include "ompi/mca/mpool/mpool.h" #include "ompi/types.h" #include "opal/types.h" #include "opal/mca/crs/crs.h" #include "opal/mca/crs/base/base.h" BEGIN_C_DECLS /* * BTL types */ struct mca_btl_base_module_t; struct mca_btl_base_endpoint_t; struct mca_btl_base_descriptor_t; struct mca_mpool_base_resources_t; struct ompi_proc_t; /* send/recv operations require tag matching */ typedef uint8_t mca_btl_base_tag_t; #define MCA_BTL_NO_ORDER 255 /* * Communication specific defines. There are a number of active message ID * that can be shred between all frameworks that need to communicate (i.e. * use the PML or the BTL directly). These ID are exchanged between the * processes, therefore they need to be identical everywhere. The simplest * approach is to have them defined as constants, and give each framework a * small number. Here is the rule that defines these ID (they are 8 bits): * - the first 3 bits are used to code the framework (i.e. PML, OSC, COLL) * - the remaining 5 bytes are used internally by the framework, and divided * based on the components requirements. Therefore, the way the PML and * the OSC frameworks use these defines will be different. For more * information about how these framework ID are defined, take a look in the * header file associated with the framework. */ #define MCA_BTL_AM_FRAMEWORK_MASK 0xD0 #define MCA_BTL_TAG_BTL 0x20 #define MCA_BTL_TAG_PML 0x40 #define MCA_BTL_TAG_OSC_RDMA 0x60 #define MCA_BTL_TAG_USR 0x80 #define MCA_BTL_TAG_MAX 255 /* 1 + highest allowed tag num */ /* * Reserved tags for specific BTLs. As multiple BTLs can be active * simultaneously, their tags should not collide. */ #define MCA_BTL_TAG_IB (MCA_BTL_TAG_BTL + 0) #define MCA_BTL_TAG_UDAPL (MCA_BTL_TAG_BTL + 1) /* prefered protocol */ #define MCA_BTL_FLAGS_SEND 0x0001 #define MCA_BTL_FLAGS_PUT 0x0002 #define MCA_BTL_FLAGS_GET 0x0004 #define MCA_BTL_FLAGS_RDMA (MCA_BTL_FLAGS_GET|MCA_BTL_FLAGS_PUT) /* btl can send directly from user buffer w/out registration */ #define MCA_BTL_FLAGS_SEND_INPLACE 0x0008 /* btl transport reliability flags - currently used only by the DR PML */ #define MCA_BTL_FLAGS_NEED_ACK 0x0010 #define MCA_BTL_FLAGS_NEED_CSUM 0x0020 /** RDMA put/get calls must have a matching prepare_{src,dst} call on the target with the same base (and possibly bound). */ #define MCA_BTL_FLAGS_RDMA_MATCHED 0x0040 /* btl needs local rdma completion */ #define MCA_BTL_FLAGS_RDMA_COMPLETION 0x0080 /* btl can do heterogeneous rdma operations on byte buffers */ #define MCA_BTL_FLAGS_HETEROGENEOUS_RDMA 0x0100 /* Default exclusivity levels */ #define MCA_BTL_EXCLUSIVITY_HIGH (64*1024) /* internal loopback */ #define MCA_BTL_EXCLUSIVITY_DEFAULT 1024 /* GM/IB/etc. */ #define MCA_BTL_EXCLUSIVITY_LOW 0 /* TCP used as a last resort */ /* error callback flags */ #define MCA_BTL_ERROR_FLAGS_FATAL 0x1 /** * Asynchronous callback function on completion of an operation. * Completion Semantics: The descriptor can be reused or returned to the * BTL via mca_btl_base_module_free_fn_t. The operation has been queued to * the network device or will otherwise make asynchronous progress without * subsequent calls to btl_progress. * * @param[IN] module the BTL module * @param[IN] endpoint the BTL endpoint * @param[IN] descriptor the BTL descriptor * */ typedef void (*mca_btl_base_completion_fn_t)( struct mca_btl_base_module_t* module, struct mca_btl_base_endpoint_t* endpoint, struct mca_btl_base_descriptor_t* descriptor, int status); /** * Describes a region/segment of memory that is addressable * by an BTL. */ struct mca_btl_base_segment_t { /** Address of the memory */ ompi_ptr_t seg_addr; /** Length in bytes */ uint32_t seg_len; #if OPAL_ENABLE_HETEROGENEOUS_SUPPORT /** Heterogeneous padding */ uint8_t seg_padding[4]; #endif /** Memory segment key required by some RDMA networks */ union { uint32_t key32[2]; uint64_t key64; uint8_t key8[8]; } seg_key; }; typedef struct mca_btl_base_segment_t mca_btl_base_segment_t; /** * A descriptor that holds the parameters to a send/put/get * operation along w/ a callback routine that is called on * completion of the request. * Note: from the initiator of a PUT operation des_src is the local memory * and des_dst is the remote memory * from the initiator of a GET operations des_dst is the local memory * and des_src is the remote memory * from the initiator of a SEND operation des_src is the local memory * and des_dst is not used */ struct mca_btl_base_descriptor_t { ompi_free_list_item_t super; mca_btl_base_segment_t *des_src; /**< source segments */ size_t des_src_cnt; /**< number of source segments */ mca_btl_base_segment_t *des_dst; /**< destination segments */ size_t des_dst_cnt; /**< number of destination segments */ mca_btl_base_completion_fn_t des_cbfunc; /**< local callback function */ void* des_cbdata; /**< opaque callback data */ void* des_context; /**< more opaque callback data */ uint32_t des_flags; /**< hints to BTL */ /** order value, this is only valid in the local completion callback and may be used in subsequent calls to btl_alloc, btl_prepare_src/dst to request a descriptor that will be ordered w.r.t. this descriptor */ uint8_t order; }; typedef struct mca_btl_base_descriptor_t mca_btl_base_descriptor_t; OMPI_DECLSPEC OBJ_CLASS_DECLARATION(mca_btl_base_descriptor_t); #define MCA_BTL_DES_FLAGS_PRIORITY 0x0001 /* Allow the BTL to dispose the descriptor once the callback * associated was triggered. */ #define MCA_BTL_DES_FLAGS_BTL_OWNERSHIP 0x0002 /* Allow the BTL to avoid calling the descriptor callback * if the send succeded in the btl_send (i.e in the fast path). */ #define MCA_BTL_DES_SEND_ALWAYS_CALLBACK 0x0004 /** * Maximum number of allowed segments in src/dst fields of a descriptor. */ #define MCA_BTL_DES_MAX_SEGMENTS 16 /* * BTL base header, stores the tag at a minimum */ struct mca_btl_base_header_t{ mca_btl_base_tag_t tag; }; typedef struct mca_btl_base_header_t mca_btl_base_header_t; #define MCA_BTL_BASE_HEADER_HTON(hdr) #define MCA_BTL_BASE_HEADER_NTOH(hdr) /* * BTL component interface functions and datatype. */ /** * MCA->BTL Initializes the BTL component and creates specific BTL * module(s). * * @param num_btls (OUT) Returns the number of btl modules created, or 0 * if the transport is not available. * * @param enable_progress_threads (IN) Whether this component is * allowed to run a hidden/progress thread or not. * * @param enable_mpi_threads (IN) Whether support for multiple MPI * threads is enabled or not (i.e., MPI_THREAD_MULTIPLE), which * indicates whether multiple threads may invoke this component * simultaneously or not. * * @return Array of pointers to BTL modules, or NULL if the transport * is not available. * * During component initialization, the BTL component should discover * the physical devices that are available for the given transport, * and create a BTL module to represent each device. Any addressing * information required by peers to reach the device should be published * during this function via the ompi_modex_send() interface. * */ typedef struct mca_btl_base_module_t** (*mca_btl_base_component_init_fn_t)( int *num_btls, bool enable_progress_threads, bool enable_mpi_threads ); /** * MCA->BTL Called to progress outstanding requests for * non-threaded polling environments. * * @return Count of "completions", a metric of * how many items where completed in the call * to progress. */ typedef int (*mca_btl_base_component_progress_fn_t)(void); /** * Callback function that is called asynchronously on receipt * of data by the transport layer. * Note that the the mca_btl_base_descriptor_t is only valid within the * completion function, this implies that all data payload in the * mca_btl_base_descriptor_t must be copied out within this callback or * forfeited back to the BTL. * * @param[IN] btl BTL module * @param[IN] tag The active message receive callback tag value * @param[IN] descriptor The BTL descriptor (contains the receive payload) * @param[IN] cbdata Opaque callback data */ typedef void (*mca_btl_base_module_recv_cb_fn_t)( struct mca_btl_base_module_t* btl, mca_btl_base_tag_t tag, mca_btl_base_descriptor_t* descriptor, void* cbdata ); typedef struct mca_btl_active_message_callback_t { mca_btl_base_module_recv_cb_fn_t cbfunc; void* cbdata; } mca_btl_active_message_callback_t; OMPI_DECLSPEC extern mca_btl_active_message_callback_t mca_btl_base_active_message_trigger[MCA_BTL_TAG_MAX]; /** * BTL component descriptor. Contains component version information * and component open/close/init functions. */ struct mca_btl_base_component_2_0_0_t { mca_base_component_t btl_version; mca_base_component_data_t btl_data; mca_btl_base_component_init_fn_t btl_init; mca_btl_base_component_progress_fn_t btl_progress; }; typedef struct mca_btl_base_component_2_0_0_t mca_btl_base_component_2_0_0_t; typedef struct mca_btl_base_component_2_0_0_t mca_btl_base_component_t; /* add the 1_0_0_t typedef for source compatibility * we can do this safely because 1_0_0 components are the same as * 1_0_1 components, the difference is in the btl module. * Fortunately the only difference in the module is an additional interface * function added to 1_0_1. We can therefore safely treat an older module just * just like the new one so long as we check the component version * prior to invoking the new interface function. */ typedef struct mca_btl_base_component_2_0_0_t mca_btl_base_component_1_0_1_t; typedef struct mca_btl_base_component_2_0_0_t mca_btl_base_component_1_0_0_t; /* * BTL module interface functions and datatype. */ /** * MCA->BTL Clean up any resources held by BTL module * before the module is unloaded. * * @param btl (IN) BTL module. * @return OMPI_SUCCESS or error status on failure. * * Prior to unloading a BTL module, the MCA framework will call * the BTL finalize method of the module. Any resources held by * the BTL should be released and if required the memory corresponding * to the BTL module freed. * */ typedef int (*mca_btl_base_module_finalize_fn_t)( struct mca_btl_base_module_t* btl ); /** * BML->BTL notification of change in the process list. * * @param btl (IN) BTL module * @param nprocs (IN) Number of processes * @param procs (IN) Array of processes * @param endpoint (OUT) Array of mca_btl_base_endpoint_t structures by BTL. * @param reachable (OUT) Bitmask indicating set of peer processes that are reachable by this BTL. * @return OMPI_SUCCESS or error status on failure. * * The mca_btl_base_module_add_procs_fn_t() is called by the BML to * determine the set of BTLs that should be used to reach each process. * Any addressing information exported by the peer via the ompi_modex_send() * function should be available during this call via the corresponding * ompi_modex_recv() function. The BTL may utilize this information to * determine reachability of each peer process. * * For each process that is reachable by the BTL, the bit corresponding to the index * into the proc array (nprocs) should be set in the reachable bitmask. The BTL * will return an array of pointers to a data structure defined * by the BTL that is then returned to the BTL on subsequent calls to the BTL data * transfer functions (e.g btl_send). This may be used by the BTL to cache any addressing * or connection information (e.g. TCP socket, IB queue pair). */ typedef int (*mca_btl_base_module_add_procs_fn_t)( struct mca_btl_base_module_t* btl, size_t nprocs, struct ompi_proc_t** procs, struct mca_btl_base_endpoint_t** endpoints, struct opal_bitmap_t* reachable ); /** * Notification of change to the process list. * * @param btl (IN) BTL module * @param nprocs (IN) Number of processes * @param proc (IN) Set of processes * @param peer (IN) Set of peer addressing information. * @return Status indicating if cleanup was successful * * When the process list changes, the BML notifies the BTL of the * change, to provide the opportunity to cleanup or release any * resources associated with the peer. */ typedef int (*mca_btl_base_module_del_procs_fn_t)( struct mca_btl_base_module_t* btl, size_t nprocs, struct ompi_proc_t** procs, struct mca_btl_base_endpoint_t** peer ); /** * Register a callback function that is called on receipt * of a fragment. * * @param[IN] btl BTL module * @param[IN] tag tag value of this callback * (specified on subsequent send operations) * @param[IN] cbfunc The callback function * @param[IN] cbdata Opaque callback data * * @return OMPI_SUCCESS The callback was registered successfully * @return OMPI_ERROR The callback was NOT registered successfully * */ typedef int (*mca_btl_base_module_register_fn_t)( struct mca_btl_base_module_t* btl, mca_btl_base_tag_t tag, mca_btl_base_module_recv_cb_fn_t cbfunc, void* cbdata ); /** * Callback function that is called asynchronously on receipt * of an error from the transport layer * * @param[IN] btl BTL module * @param[IN] flags type of error */ typedef void (*mca_btl_base_module_error_cb_fn_t)( struct mca_btl_base_module_t* btl, int32_t flags ); /** * Register a callback function that is called on receipt * of an error. * * @param[IN] btl BTL module * @param[IN] cbfunc The callback function * * @return OMPI_SUCCESS The callback was registered successfully * @return OMPI_ERROR The callback was NOT registered successfully * */ typedef int (*mca_btl_base_module_register_error_fn_t)( struct mca_btl_base_module_t* btl, mca_btl_base_module_error_cb_fn_t cbfunc ); /** * Allocate a descriptor with a segment of the requested size. * Note that the BTL layer may choose to return a smaller size * if it cannot support the request. The order tag value ensures that * operations on the descriptor that is allocated will be * ordered w.r.t. a previous operation on a particular descriptor. * Ordering is only guaranteed if the previous descriptor had its * local completion callback function called and the order tag of * that descriptor is only valid upon the local completion callback function. * * * @param btl (IN) BTL module * @param size (IN) Request segment size. * @param order (IN) The ordering tag (may be MCA_BTL_NO_ORDER) */ typedef mca_btl_base_descriptor_t* (*mca_btl_base_module_alloc_fn_t)( struct mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t* endpoint, uint8_t order, size_t size, uint32_t flags ); /** * Return a descriptor allocated from this BTL via alloc/prepare. * A descriptor can only be deallocated after its local completion * callback function has called for all send/put/get operations. * * @param btl (IN) BTL module * @param segment (IN) Descriptor allocated from the BTL */ typedef int (*mca_btl_base_module_free_fn_t)( struct mca_btl_base_module_t* btl, mca_btl_base_descriptor_t* descriptor ); /** * Prepare a descriptor for send/put/get using the supplied * convertor. If the convertor references data that is contiguous, * the descriptor may simply point to the user buffer. Otherwise, * this routine is responsible for allocating buffer space and * packing if required. * * The descriptor returned can be used in multiple concurrent operations * (send/put/get) unless the BTL has the MCA_BTL_FLAGS_RDMA_MATCHED flag set * in which case a corresponding prepare call must accompany the put/get call * in addition, the address and length that is put/get must match the address * and length which is prepared. * * The order tag value ensures that operations on the * descriptor that is prepared will be ordered w.r.t. a previous * operation on a particular descriptor. Ordering is only guaranteed if * the previous descriptor had its local completion callback function * called and the order tag of that descriptor is only valid upon the local * completion callback function. * * @param btl (IN) BTL module * @param endpoint (IN) BTL peer addressing * @param registration (IN) Memory registration * @param convertor (IN) Data type convertor * @param order (IN) The ordering tag (may be MCA_BTL_NO_ORDER) * @param reserve (IN) Additional bytes requested by upper layer to precede user data * @param size (IN/OUT) Number of bytes to prepare (IN), * number of bytes actually prepared (OUT) * */ typedef struct mca_btl_base_descriptor_t* (*mca_btl_base_module_prepare_fn_t)( struct mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t* endpoint, mca_mpool_base_registration_t* registration, struct opal_convertor_t* convertor, uint8_t order, size_t reserve, size_t* size, uint32_t flags ); /** * Initiate an asynchronous send. * Completion Semantics: the descriptor has been queued for a send operation * the BTL now controls the descriptor until local * completion callback is made on the descriptor * * All BTLs allow multiple concurrent asynchronous send operations on a descriptor * * @param btl (IN) BTL module * @param endpoint (IN) BTL addressing information * @param descriptor (IN) Description of the data to be transfered * @param tag (IN) The tag value used to notify the peer. * * @retval OMPI_SUCCESS The descriptor was successfully queued for a send * @retval OMPI_ERROR The descriptor was NOT successfully queued for a send * @retval OMPI_ERR_UNREACH The endpoint is not reachable */ typedef int (*mca_btl_base_module_send_fn_t)( struct mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t* endpoint, struct mca_btl_base_descriptor_t* descriptor, mca_btl_base_tag_t tag ); /** * Initiate an immediate blocking send. * Completion Semantics: the BTL will make a best effort * to send the header and "size" bytes from the datatype using the convertor. * The header is guaranteed to be delivered entirely in the first segment. * Should the BTL be unable to deliver the data due to resource constraints * the BTL will return a descriptor (via the OUT param) * of size "payload_size + header_size". * * @param btl (IN) BTL module * @param endpoint (IN) BTL addressing information * @param convertor (IN) Data type convertor * @param header (IN) Pointer to header. * @param header_size (IN) Size of header. * @param payload_size (IN) Size of payload (from convertor). * @param order (IN) The ordering tag (may be MCA_BTL_NO_ORDER) * @param flags (IN) Flags. * @param tag (IN) The tag value used to notify the peer. * @param descriptor (OUT) The descriptor to be returned unable to be sent immediately * @retval OMPI_SUCCESS The send was successfully queued * @retval OMPI_ERROR The send failed * @retval OMPI_ERR_UNREACH The endpoint is not reachable * @retval OMPI_ERR_RESOURCE_BUSY The BTL is busy a descriptor will be returned * (via the OUT param) if descriptors are available */ typedef int (*mca_btl_base_module_sendi_fn_t)( struct mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t* endpoint, struct opal_convertor_t* convertor, void* header, size_t header_size, size_t payload_size, uint8_t order, uint32_t flags, mca_btl_base_tag_t tag, mca_btl_base_descriptor_t** descriptor ); /** * Initiate an asynchronous put. * Completion Semantics: the descriptor has been queued for a put operation * the BTL now controls the descriptor until local * completion callback is made on the descriptor * * BTLs that do not have the MCA_BTL_FLAGS_RDMA_MATCHED flag set * allow multiple concurrent put operations on the same descriptor. * BTLs that do have the MCA_BTL_FLAGS_RDMA_MATCHED flag set require * a corresponding prepare_src/dst call for each put operation and * therefore prohibit multiple concurrent put operations. * * @param btl (IN) BTL module * @param endpoint (IN) BTL addressing information * @param descriptor (IN) Description of the data to be transferred * * @retval OMPI_SUCCESS The descriptor was successfully queued for a put * @retval OMPI_ERROR The descriptor was NOT successfully queued for a put */ typedef int (*mca_btl_base_module_put_fn_t)( struct mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t* endpoint, struct mca_btl_base_descriptor_t* descriptor ); /** * Initiate an asynchronous get. * * Completion Semantics: the descriptor has been queued for a get operation * the BTL now controls the descriptor until local * completion callback is made on the descriptor * * BTLs that do not have the MCA_BTL_FLAGS_RDMA_MATCHED flag set * allow multiple concurrent get operations on the same descriptor. * BTLs that do have the MCA_BTL_FLAGS_RDMA_MATCHED flag set require * a corresponding prepare_src/dst call for each get operation and * therefore prohibit multiple concurrent get operations. * * @param btl (IN) BTL module * @param endpoint (IN) BTL addressing information * @param descriptor (IN) Description of the data to be transferred * * @retval OMPI_SUCCESS The descriptor was successfully queued for a get * @retval OMPI_ERROR The descriptor was NOT successfully queued for a get * */ typedef int (*mca_btl_base_module_get_fn_t)( struct mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t* endpoint, struct mca_btl_base_descriptor_t* descriptor ); /** * Diagnostic dump of btl state. * * @param btl (IN) BTL module * @param endpoint (IN) BTL endpoint * @param verbose (IN) Verbosity level */ typedef void (*mca_btl_base_module_dump_fn_t)( struct mca_btl_base_module_t* btl, struct mca_btl_base_endpoint_t* endpoint, int verbose ); /** * Fault Tolerance Event Notification Function * @param state Checkpoint Status * @return OMPI_SUCCESS or failure status */ typedef int (*mca_btl_base_module_ft_event_fn_t)(int state); /** * BTL module interface functions and attributes. */ struct mca_btl_base_module_t { /* BTL common attributes */ mca_btl_base_component_t* btl_component; /**< pointer back to the BTL component structure */ size_t btl_eager_limit; /**< maximum size of first fragment -- eager send */ size_t btl_rndv_eager_limit; /**< the size of a data sent in a first fragment of rendezvous protocol */ size_t btl_max_send_size; /**< maximum send fragment size supported by the BTL */ size_t btl_rdma_pipeline_send_length; /**< amount of bytes that should be send by pipeline protocol */ size_t btl_rdma_pipeline_frag_size; /**< maximum rdma fragment size supported by the BTL */ size_t btl_min_rdma_pipeline_size; /**< minimum packet size for pipeline protocol */ uint32_t btl_exclusivity; /**< indicates this BTL should be used exclusively */ uint32_t btl_latency; /**< relative ranking of latency used to prioritize btls */ uint32_t btl_bandwidth; /**< bandwidth (Mbytes/sec) supported by each endpoint */ uint32_t btl_flags; /**< flags (put/get...) */ /* BTL function table */ mca_btl_base_module_add_procs_fn_t btl_add_procs; mca_btl_base_module_del_procs_fn_t btl_del_procs; mca_btl_base_module_register_fn_t btl_register; mca_btl_base_module_finalize_fn_t btl_finalize; mca_btl_base_module_alloc_fn_t btl_alloc; mca_btl_base_module_free_fn_t btl_free; mca_btl_base_module_prepare_fn_t btl_prepare_src; mca_btl_base_module_prepare_fn_t btl_prepare_dst; mca_btl_base_module_send_fn_t btl_send; mca_btl_base_module_sendi_fn_t btl_sendi; mca_btl_base_module_put_fn_t btl_put; mca_btl_base_module_get_fn_t btl_get; mca_btl_base_module_dump_fn_t btl_dump; /** the mpool associated with this btl (optional) */ mca_mpool_base_module_t* btl_mpool; /** register a default error handler */ mca_btl_base_module_register_error_fn_t btl_register_error; /** fault tolerant even notification */ mca_btl_base_module_ft_event_fn_t btl_ft_event; }; typedef struct mca_btl_base_module_t mca_btl_base_module_t; /* * Macro for use in modules that are of type btl v2.0.1 */ #define MCA_BTL_BASE_VERSION_2_0_0 \ MCA_BASE_VERSION_2_0_0, \ "btl", 2, 0, 0 END_C_DECLS #endif /* OMPI_MCA_BTL_H */