/usr/include/dat2/dat.h is in libdapl-dev 2.1.5-1.
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* Copyright (c) 2002-2006, Network Appliance, Inc. All rights reserved.
*
* This Software is licensed under all of the following licenses:
*
* 1) under the terms of the "Common Public License 1.0" a copy of which is
* in the file LICENSE.txt in the root directory. The license is also
* available from the Open Source Initiative, see
* http://www.opensource.org/licenses/cpl.php.
*
* 2) under the terms of the "The BSD License" a copy of which is in the file
* LICENSE2.txt in the root directory. The license is also available from
* the Open Source Initiative, see
* http://www.opensource.org/licenses/bsd-license.php.
*
* 3) under the terms of the "GNU General Public License (GPL) Version 2" a
* copy of which is in the file LICENSE3.txt in the root directory. The
* license is also available from the Open Source Initiative, see
* http://www.opensource.org/licenses/gpl-license.php.
*
* Licensee has the right to choose one of the above licenses.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* Redistributions of source code must retain both the above copyright
* notice and one of the license notices.
*
* Redistributions in binary form must reproduce both the above copyright
* notice, one of the license notices in the documentation
* and/or other materials provided with the distribution.
*
* Neither the name of Network Appliance, Inc. nor the names of other DAT
* Collaborative contributors may be used to endorse or promote
* products derived from this software without specific prior written
* permission.
*/
/***************************************************************
*
* HEADER: dat.h
*
* PURPOSE: defines the common DAT API for uDAPL and kDAPL.
*
* Description: Header file for "DAPL: Direct Access Programming
* Library, Version: 2.0"
*
* Mapping rules:
* All global symbols are prepended with DAT_ or dat_
* All DAT objects have an 'api' tag which, such as 'EP' or 'LMR'
* The method table is in the provider definition structure.
*
*
***************************************************************/
#ifndef _DAT_H_
#define _DAT_H_
#include <dat2/dat_error.h>
#ifdef __cplusplus
extern "C"
{
#endif
/* Generic DAT types */
typedef char * DAT_NAME_PTR; /* Format for ia_name and attributes */
#define DAT_NAME_MAX_LENGTH 256
/*
* Used for provider, vendor, transport, hardware-specific attributes
* definitions.
*/
typedef struct dat_named_attr
{
const char * name; /* Name of attribute */
const char * value; /* Value of attribute */
} DAT_NAMED_ATTR;
typedef enum dat_boolean
{
DAT_FALSE = 0,
DAT_TRUE = 1
} DAT_BOOLEAN;
#ifdef DAT_EXTENSIONS
#define DAT_IB_EXTENSION 1
#define DAT_IW_EXTENSION 2
#endif /* DAT_EXTENSIONS */
typedef DAT_UINT32 DAT_HA_LB;
#define DAT_HA_LB_NONE (DAT_HA_LB)0
#define DAT_HA_LB_INTERCOMM (DAT_HA_LB)1
#define DAT_HA_LB_INTRACOMM (DAT_HA_LB)2
typedef union dat_context
{
DAT_PVOID as_ptr;
DAT_UINT64 as_64;
DAT_UVERYLONG as_index;
} DAT_CONTEXT;
typedef DAT_CONTEXT DAT_DTO_COOKIE;
typedef DAT_CONTEXT DAT_RMR_COOKIE;
typedef enum dat_completion_flags
{
/* Completes with notification */
DAT_COMPLETION_DEFAULT_FLAG = 0x00,
/* Completions suppressed if successful */
DAT_COMPLETION_SUPPRESS_FLAG = 0x01,
/* Sender controlled notification for recv completion */
DAT_COMPLETION_SOLICITED_WAIT_FLAG = 0x02,
/* Completions with unsignaled notifications */
DAT_COMPLETION_UNSIGNALLED_FLAG = 0x04,
/* Do not start processing until all previous RDMA reads complete. */
DAT_COMPLETION_BARRIER_FENCE_FLAG = 0x08,
/* Only valid for uDAPL as EP attribute for Recv Completion flags.
* Waiter unblocking is controlled by the Threshold value of
* dat_evd_wait. UNSIGNALLED for RECV is not allowed when EP has
* this attribute. */
DAT_COMPLETION_EVD_THRESHOLD_FLAG = 0x10,
/* Only valid for kDAPL
* Do not start processing LMR invalidate until all
* previously posted DTOs to the EP Request Queue
* have been completed.
* The value for LMR Invalidate Fence does not
* conflict with uDAPL so it can be extended
* to uDAPL usage later.
*/
DAT_COMPLETION_LMR_INVALIDATE_FENCE_FLAG = 0x20
} DAT_COMPLETION_FLAGS;
typedef DAT_UINT32 DAT_TIMEOUT; /* microseconds */
/* timeout = infinity */
#define DAT_TIMEOUT_INFINITE ((DAT_TIMEOUT) ~0)
/* dat handles */
typedef DAT_PVOID DAT_HANDLE;
typedef DAT_HANDLE DAT_CR_HANDLE;
typedef DAT_HANDLE DAT_EP_HANDLE;
typedef DAT_HANDLE DAT_EVD_HANDLE;
typedef DAT_HANDLE DAT_IA_HANDLE;
typedef DAT_HANDLE DAT_LMR_HANDLE;
typedef DAT_HANDLE DAT_PSP_HANDLE;
typedef DAT_HANDLE DAT_PZ_HANDLE;
typedef DAT_HANDLE DAT_RMR_HANDLE;
typedef DAT_HANDLE DAT_RSP_HANDLE;
typedef DAT_HANDLE DAT_SRQ_HANDLE;
typedef DAT_HANDLE DAT_CSP_HANDLE;
typedef enum dat_dtos
{
DAT_DTO_SEND,
DAT_DTO_RDMA_WRITE,
DAT_DTO_RDMA_READ,
DAT_DTO_RECEIVE,
DAT_DTO_RECEIVE_WITH_INVALIDATE,
DAT_DTO_BIND_MW, /* DAT 2.0 review, binds are reported via DTO events */
DAT_DTO_LMR_FMR, /* kdat specific */
DAT_DTO_LMR_INVALIDATE /* kdat specific */
#ifdef DAT_EXTENSIONS
,DAT_DTO_EXTENSION_BASE /* To be used by DAT extensions
as a starting point of extension DTOs */
#endif /* DAT_EXTENSIONS */
} DAT_DTOS;
/* dat NULL handles */
#define DAT_HANDLE_NULL ((DAT_HANDLE)NULL)
typedef DAT_SOCK_ADDR* DAT_IA_ADDRESS_PTR;
typedef DAT_UINT64 DAT_CONN_QUAL;
typedef DAT_UINT64 DAT_PORT_QUAL;
/* QOS definitions */
typedef enum dat_qos
{
DAT_QOS_BEST_EFFORT = 0x00,
DAT_QOS_HIGH_THROUGHPUT = 0x01,
DAT_QOS_LOW_LATENCY = 0x02,
/* not low latency, nor high throughput */
DAT_QOS_ECONOMY = 0x04,
/* both low latency and high throughput */
DAT_QOS_PREMIUM = 0x08
} DAT_QOS;
/*
* FLAGS
*/
/* for backward compatibility */
#define DAT_CONNECT_MULTIPATH_REQUESTED_FLAG DAT_CONNECT_MULTIPATH_FLAG
typedef enum dat_connect_flags
{
DAT_CONNECT_DEFAULT_FLAG = 0x00,
DAT_CONNECT_MULTIPATH_REQUESTED_FLAG = 0x01,
DAT_CONNECT_MULTIPATH_REQUIRED_FLAG = 0x02
} DAT_CONNECT_FLAGS;
typedef enum dat_close_flags
{
DAT_CLOSE_ABRUPT_FLAG = 0x00,
DAT_CLOSE_GRACEFUL_FLAG = 0x01
} DAT_CLOSE_FLAGS;
#define DAT_CLOSE_DEFAULT DAT_CLOSE_ABRUPT_FLAG
typedef enum dat_evd_flags
{
DAT_EVD_SOFTWARE_FLAG = 0x001,
DAT_EVD_CR_FLAG = 0x010,
DAT_EVD_DTO_FLAG = 0x020,
DAT_EVD_CONNECTION_FLAG = 0x040,
DAT_EVD_RMR_BIND_FLAG = 0x080,
DAT_EVD_ASYNC_FLAG = 0x100,
/* DAT events only, no software events */
DAT_EVD_DEFAULT_FLAG = 0x1F0
#ifdef DAT_EXTENSIONS
/* To be used by DAT extensions as a starting point for extended evd flags */
,DAT_EVD_EXTENSION_BASE = 0x200
#endif /* DAT_EXTENSIONS */
} DAT_EVD_FLAGS;
typedef enum dat_psp_flags
{
DAT_PSP_CONSUMER_FLAG = 0x00, /* Consumer creates an Endpoint */
DAT_PSP_PROVIDER_FLAG = 0x01 /* Provider creates an Endpoint */
} DAT_PSP_FLAGS;
/*
* Memory Buffers
*
* Both LMR and RMR triplets specify 64-bit addresses in the local host's byte
* order, even when that exceeds the size of a DAT_PVOID for the host
* architecture.
*/
/*
* Both LMR and RMR Triplets specify 64-bit addresses in the local host
* order, even when that exceeds the size of a void pointer for the host
* architecture. The DAT_VADDR type that represents addresses is in the
* native byte-order of the local host. Helper macros that allow Consumers
* to convert DAT_VADDR into various orders that might be useful for
* inclusion of RMR Triplets into a payload of a message follow.
*
* DAT defines the following macros to convert the fields on an RMR Triplet
* to defined byte orders to allow their export by the Consumer over wire
* protocols. DAT does not define how the two peers decide which byte should be
* used.
*
* DAT_LMRC_TO_LSB(lmrc) returns the supplied LMR Context in ls-byte
* order.
* DAT_LMRC_TO_MSB(lmrc) returns the supplied LMR Context in ms-byte
* order.
* DAT_RMRC_TO_LSB(rmrc) returns the supplied RMR Context in ls-byte
* order.
* DAT_RMRC_TO_MSB(rmrc) returns the supplied RMR Context in ms-byte
* order.
* DAT_VADDR_TO_LSB(vaddr) returns the supplied Virtual Address in ls-byte
* order.
* DAT_VADDR_TO_MSB(vaddr) returns the supplied Virtual Address in
* ms-byte order.
* DAT_VLEN_TO_LSB(vlen) returns the supplied length in ls-byte order.
* DAT_VLEN_TO_MSB(vlen) returns the supplied length in ms-byte order.
*
* Consumers are free to use 64-bit or 32-bit arithmetic for local or remote
* memory address and length manipulation in their preferred byte-order. Only the
* LMR and RMR Triplets passed to a Provider as part of a Posted DTO are
* required to be in 64-bit address and local host order formats. Providers shall
* convert RMR_Triplets to a Transport-required wire format.
*
* For the best performance, Consumers should align each buffer segment to
* the boundary specified by the dat_optimal_alignment.
*/
typedef DAT_UINT32 DAT_LMR_CONTEXT;
typedef DAT_UINT32 DAT_RMR_CONTEXT;
typedef DAT_UINT64 DAT_VLEN;
typedef DAT_UINT64 DAT_VADDR;
typedef DAT_UINT32 DAT_SEG_LENGTH; /* The maximum data segment length */
typedef struct dat_provider_attr DAT_PROVIDER_ATTR;
typedef struct dat_evd_param DAT_EVD_PARAM;
typedef struct dat_lmr_param DAT_LMR_PARAM;
typedef enum dat_lmr_param_mask DAT_LMR_PARAM_MASK;
/* It is legal for the Consumer to specify zero for segment_length
* of the dat_lmr_triplet. When 0 is specified for the
* segment_length then the other two elements of the
* dat_lmr_triplet are irrelevant and can be invalid.
*/
typedef struct dat_lmr_triplet
{
DAT_VADDR virtual_address;/* 64-bit address */
DAT_SEG_LENGTH segment_length; /* 32-bit length */
DAT_LMR_CONTEXT lmr_context; /* 32-bit lmr_context */
} DAT_LMR_TRIPLET;
typedef struct dat_rmr_triplet
{
DAT_VADDR virtual_address;/* 64-bit address */
DAT_SEG_LENGTH segment_length; /* 32-bit length */
DAT_RMR_CONTEXT rmr_context; /* 32-bit rmr_context */
} DAT_RMR_TRIPLET;
/* Memory privileges */
typedef enum dat_mem_priv_flags
{
DAT_MEM_PRIV_NONE_FLAG = 0x00,
DAT_MEM_PRIV_LOCAL_READ_FLAG = 0x01,
DAT_MEM_PRIV_REMOTE_READ_FLAG = 0x02,
DAT_MEM_PRIV_LOCAL_WRITE_FLAG = 0x10,
DAT_MEM_PRIV_REMOTE_WRITE_FLAG = 0x20,
DAT_MEM_PRIV_ALL_FLAG = 0x33
#ifdef DAT_EXTENSIONS
/* To be used by DAT extensions as a starting
point of extension memory privileges */
,DAT_MEM_PRIV_EXTENSION_BASE = 0x40
#endif /* DAT_EXTENSIONS */
} DAT_MEM_PRIV_FLAGS;
/* For backward compatibility with DAT-1.0, memory privileges values are
* supported
*/
#define DAT_MEM_PRIV_READ_FLAG (DAT_MEM_PRIV_LOCAL_READ_FLAG | DAT_MEM_PRIV_REMOTE_READ_FLAG)
#define DAT_MEM_PRIV_WRITE_FLAG (DAT_MEM_PRIV_LOCAL_WRITE_FLAG | DAT_MEM_PRIV_REMOTE_WRITE_FLAG)
/* LMR VA types */
typedef enum dat_va_type
{
DAT_VA_TYPE_VA = 0x0,
DAT_VA_TYPE_ZB = 0x1
} DAT_VA_TYPE;
/* RMR Arguments & RMR Arguments Mask */
/* DAPL 2.0 addition */
/* Defines RMR protection scope */
typedef enum dat_rmr_scope
{
DAT_RMR_SCOPE_EP, /* bound to at most one EP at a time. */
DAT_RMR_SCOPE_PZ, /* bound to a Protection Zone */
DAT_RMR_SCOPE_ANY /* Supports all types */
} DAT_RMR_SCOPE;
typedef struct dat_rmr_param
{
DAT_IA_HANDLE ia_handle;
DAT_PZ_HANDLE pz_handle;
DAT_LMR_TRIPLET lmr_triplet;
DAT_MEM_PRIV_FLAGS mem_priv;
DAT_RMR_CONTEXT rmr_context;
DAT_RMR_SCOPE rmr_scope;
DAT_VA_TYPE va_type;
} DAT_RMR_PARAM;
typedef enum dat_rmr_param_mask
{
DAT_RMR_FIELD_IA_HANDLE = 0x01,
DAT_RMR_FIELD_PZ_HANDLE = 0x02,
DAT_RMR_FIELD_LMR_TRIPLET = 0x04,
DAT_RMR_FIELD_MEM_PRIV = 0x08,
DAT_RMR_FIELD_RMR_CONTEXT = 0x10,
DAT_RMR_FIELD_RMR_SCOPE = 0x20,
DAT_RMR_FIELD_VA_TYPE = 0x40,
DAT_RMR_FIELD_ALL = 0x7F
} DAT_RMR_PARAM_MASK;
/* Provider attributes */
typedef enum dat_iov_ownership
{
/* Not a modification by the Provider; the Consumer can use anytime. */
DAT_IOV_CONSUMER = 0x0,
/* Provider does not modify returned IOV DTO on completion. */
DAT_IOV_PROVIDER_NOMOD = 0x1,
/* Provider can modify IOV DTO on completion; can't trust it. */
DAT_IOV_PROVIDER_MOD = 0x2
} DAT_IOV_OWNERSHIP;
typedef enum dat_ep_creator_for_psp
{
DAT_PSP_CREATES_EP_NEVER, /* Provider never creates Endpoint. */
DAT_PSP_CREATES_EP_IFASKED, /* Provider creates Endpoint if asked. */
DAT_PSP_CREATES_EP_ALWAYS /* Provider always creates Endpoint. */
} DAT_EP_CREATOR_FOR_PSP;
/* General Interface Adapter attributes. These apply to both udat and kdat. */
/* To support backwards compatibility for DAPL-1.0 */
#define max_rdma_read_per_ep max_rdma_read_per_ep_in
#define DAT_IA_FIELD_IA_MAX_DTO_PER_OP DAT_IA_FIELD_IA_MAX_DTO_PER_EP_IN
/* To support backwards compatibility for DAPL-1.0 & DAPL-1.1 */
#define max_mtu_size max_message_size
/* Query for provider IA extension support */
typedef enum dat_extension
{
DAT_EXTENSION_NONE,/* no extension supported. */
DAT_EXTENSION_IB, /* IB extension. */
DAT_EXTENSION_IW /* iWARP extension. */
} DAT_EXTENSION;
typedef struct dat_ia_attr DAT_IA_ATTR;
/* To support backwards compatibility for DAPL-1.0 & DAPL-1.1 */
#define DAT_IA_FIELD_IA_MAX_MTU_SIZE DAT_IA_FIELD_IA_MAX_MESSAGE_SIZE
typedef DAT_UINT64 DAT_IA_ATTR_MASK;
#define DAT_IA_FIELD_IA_ADAPTER_NAME UINT64_C(0x000000001)
#define DAT_IA_FIELD_IA_VENDOR_NAME UINT64_C(0x000000002)
#define DAT_IA_FIELD_IA_HARDWARE_MAJOR_VERSION UINT64_C(0x000000004)
#define DAT_IA_FIELD_IA_HARDWARE_MINOR_VERSION UINT64_C(0x000000008)
#define DAT_IA_FIELD_IA_FIRMWARE_MAJOR_VERSION UINT64_C(0x000000010)
#define DAT_IA_FIELD_IA_FIRMWARE_MINOR_VERSION UINT64_C(0x000000020)
#define DAT_IA_FIELD_IA_ADDRESS_PTR UINT64_C(0x000000040)
#define DAT_IA_FIELD_IA_MAX_EPS UINT64_C(0x000000080)
#define DAT_IA_FIELD_IA_MAX_DTO_PER_EP UINT64_C(0x000000100)
#define DAT_IA_FIELD_IA_MAX_RDMA_READ_PER_EP_IN UINT64_C(0x000000200)
#define DAT_IA_FIELD_IA_MAX_RDMA_READ_PER_EP_OUT UINT64_C(0x000000400)
#define DAT_IA_FIELD_IA_MAX_EVDS UINT64_C(0x000000800)
#define DAT_IA_FIELD_IA_MAX_EVD_QLEN UINT64_C(0x000001000)
#define DAT_IA_FIELD_IA_MAX_IOV_SEGMENTS_PER_DTO UINT64_C(0x000002000)
#define DAT_IA_FIELD_IA_MAX_LMRS UINT64_C(0x000004000)
#define DAT_IA_FIELD_IA_MAX_LMR_BLOCK_SIZE UINT64_C(0x000008000)
#define DAT_IA_FIELD_IA_MAX_LMR_VIRTUAL_ADDRESS UINT64_C(0x000010000)
#define DAT_IA_FIELD_IA_MAX_PZS UINT64_C(0x000020000)
#define DAT_IA_FIELD_IA_MAX_MESSAGE_SIZE UINT64_C(0x000040000)
#define DAT_IA_FIELD_IA_MAX_RDMA_SIZE UINT64_C(0x000080000)
#define DAT_IA_FIELD_IA_MAX_RMRS UINT64_C(0x000100000)
#define DAT_IA_FIELD_IA_MAX_RMR_TARGET_ADDRESS UINT64_C(0x000200000)
#define DAT_IA_FIELD_IA_MAX_SRQS UINT64_C(0x000400000)
#define DAT_IA_FIELD_IA_MAX_EP_PER_SRQ UINT64_C(0x000800000)
#define DAT_IA_FIELD_IA_MAX_RECV_PER_SRQ UINT64_C(0x001000000)
#define DAT_IA_FIELD_IA_MAX_IOV_SEGMENTS_PER_RDMA_READ UINT64_C(0x002000000)
#define DAT_IA_FIELD_IA_MAX_IOV_SEGMENTS_PER_RDMA_WRITE UINT64_C(0x004000000)
#define DAT_IA_FIELD_IA_MAX_RDMA_READ_IN UINT64_C(0x008000000)
#define DAT_IA_FIELD_IA_MAX_RDMA_READ_OUT UINT64_C(0x010000000)
#define DAT_IA_FIELD_IA_MAX_RDMA_READ_PER_EP_IN_GUARANTEED UINT64_C(0x020000000)
#define DAT_IA_FIELD_IA_MAX_RDMA_READ_PER_EP_OUT_GUARANTEED UINT64_C(0x040000000)
#define DAT_IA_FIELD_IA_ZB_SUPPORTED UINT64_C(0x080000000)
#define DAT_IA_FIELD_IA_EXTENSIONS_SUPPORTED UINT64_C(0x100000000)
/* To support backwards compatibility for DAPL-1.0 & DAPL-1.1 */
#define DAT_IA_ALL DAT_IA_FIELD_ALL
#define DAT_IA_FIELD_NONE UINT64_C(0x0)
/* Endpoint attributes */
typedef enum dat_service_type
{
DAT_SERVICE_TYPE_RC /* reliable connections */
#ifdef DAT_EXTENSIONS
,DAT_SERVICE_TYPE_EXTENSION_BASE /* To be used by DAT extensions
as a starting point of extension services */
#endif /* DAT_EXTENSIONS */
} DAT_SERVICE_TYPE;
typedef struct dat_ep_attr
{
DAT_SERVICE_TYPE service_type;
DAT_SEG_LENGTH max_message_size;
DAT_SEG_LENGTH max_rdma_size;
DAT_QOS qos;
DAT_COMPLETION_FLAGS recv_completion_flags;
DAT_COMPLETION_FLAGS request_completion_flags;
DAT_COUNT max_recv_dtos;
DAT_COUNT max_request_dtos;
DAT_COUNT max_recv_iov;
DAT_COUNT max_request_iov;
DAT_COUNT max_rdma_read_in;
DAT_COUNT max_rdma_read_out;
DAT_COUNT srq_soft_hw;
DAT_COUNT max_rdma_read_iov;
DAT_COUNT max_rdma_write_iov;
DAT_COUNT ep_transport_specific_count;
DAT_NAMED_ATTR * ep_transport_specific;
DAT_COUNT ep_provider_specific_count;
DAT_NAMED_ATTR * ep_provider_specific;
} DAT_EP_ATTR;
/* Endpoint Parameters */
/* For backwards compatibility */
#define DAT_EP_STATE_ERROR DAT_EP_STATE_DISCONNECTED
typedef enum dat_ep_state
{
DAT_EP_STATE_UNCONNECTED, /* quiescent state */
DAT_EP_STATE_UNCONFIGURED_UNCONNECTED,
DAT_EP_STATE_RESERVED,
DAT_EP_STATE_UNCONFIGURED_RESERVED,
DAT_EP_STATE_PASSIVE_CONNECTION_PENDING,
DAT_EP_STATE_UNCONFIGURED_PASSIVE,
DAT_EP_STATE_ACTIVE_CONNECTION_PENDING,
DAT_EP_STATE_TENTATIVE_CONNECTION_PENDING,
DAT_EP_STATE_UNCONFIGURED_TENTATIVE,
DAT_EP_STATE_CONNECTED,
DAT_EP_STATE_DISCONNECT_PENDING,
DAT_EP_STATE_DISCONNECTED,
DAT_EP_STATE_COMPLETION_PENDING,
DAT_EP_STATE_CONNECTED_SINGLE_PATH,
DAT_EP_STATE_CONNECTED_MULTI_PATH
} DAT_EP_STATE;
typedef struct dat_ep_param
{
DAT_IA_HANDLE ia_handle;
DAT_EP_STATE ep_state;
DAT_COMM comm;
DAT_IA_ADDRESS_PTR local_ia_address_ptr;
DAT_PORT_QUAL local_port_qual;
DAT_IA_ADDRESS_PTR remote_ia_address_ptr;
DAT_PORT_QUAL remote_port_qual;
DAT_PZ_HANDLE pz_handle;
DAT_EVD_HANDLE recv_evd_handle;
DAT_EVD_HANDLE request_evd_handle;
DAT_EVD_HANDLE connect_evd_handle;
DAT_SRQ_HANDLE srq_handle;
DAT_EP_ATTR ep_attr;
} DAT_EP_PARAM;
typedef DAT_UINT64 DAT_EP_PARAM_MASK;
#define DAT_EP_FIELD_IA_HANDLE UINT64_C(0x00000001)
#define DAT_EP_FIELD_EP_STATE UINT64_C(0x00000002)
#define DAT_EP_FIELD_COMM UINT64_C(0x00000004)
#define DAT_EP_FIELD_LOCAL_IA_ADDRESS_PTR UINT64_C(0x00000008)
#define DAT_EP_FIELD_LOCAL_PORT_QUAL UINT64_C(0x00000010)
#define DAT_EP_FIELD_REMOTE_IA_ADDRESS_PTR UINT64_C(0x00000020)
#define DAT_EP_FIELD_REMOTE_PORT_QUAL UINT64_C(0x00000040)
#define DAT_EP_FIELD_PZ_HANDLE UINT64_C(0x00000080)
#define DAT_EP_FIELD_RECV_EVD_HANDLE UINT64_C(0x00000100)
#define DAT_EP_FIELD_REQUEST_EVD_HANDLE UINT64_C(0x00000200)
#define DAT_EP_FIELD_CONNECT_EVD_HANDLE UINT64_C(0x00000400)
#define DAT_EP_FIELD_SRQ_HANDLE UINT64_C(0x00000800)
/* Remainder of values from EP_ATTR, 0x00001000 and up */
#define DAT_EP_FIELD_EP_ATTR_SERVICE_TYPE UINT64_C(0x00001000)
#define DAT_EP_FIELD_EP_ATTR_MAX_MESSAGE_SIZE UINT64_C(0x00002000)
#define DAT_EP_FIELD_EP_ATTR_MAX_RDMA_SIZE UINT64_C(0x00004000)
#define DAT_EP_FIELD_EP_ATTR_QOS UINT64_C(0x00008000)
#define DAT_EP_FIELD_EP_ATTR_RECV_COMPLETION_FLAGS UINT64_C(0x00010000)
#define DAT_EP_FIELD_EP_ATTR_REQUEST_COMPLETION_FLAGS UINT64_C(0x00020000)
#define DAT_EP_FIELD_EP_ATTR_MAX_RECV_DTOS UINT64_C(0x00040000)
#define DAT_EP_FIELD_EP_ATTR_MAX_REQUEST_DTOS UINT64_C(0x00080000)
#define DAT_EP_FIELD_EP_ATTR_MAX_RECV_IOV UINT64_C(0x00100000)
#define DAT_EP_FIELD_EP_ATTR_MAX_REQUEST_IOV UINT64_C(0x00200000)
#define DAT_EP_FIELD_EP_ATTR_MAX_RDMA_READ_IN UINT64_C(0x00400000)
#define DAT_EP_FIELD_EP_ATTR_MAX_RDMA_READ_OUT UINT64_C(0x00800000)
#define DAT_EP_FIELD_EP_ATTR_SRQ_SOFT_HW UINT64_C(0x01000000)
#define DAT_EP_FIELD_EP_ATTR_MAX_RDMA_READ_IOV UINT64_C(0x02000000)
#define DAT_EP_FIELD_EP_ATTR_MAX_RDMA_WRITE_IOV UINT64_C(0x04000000)
#define DAT_EP_FIELD_EP_ATTR_NUM_TRANSPORT_ATTR UINT64_C(0x08000000)
#define DAT_EP_FIELD_EP_ATTR_TRANSPORT_SPECIFIC_ATTR UINT64_C(0x10000000)
#define DAT_EP_FIELD_EP_ATTR_NUM_PROVIDER_ATTR UINT64_C(0x20000000)
#define DAT_EP_FIELD_EP_ATTR_PROVIDER_SPECIFIC_ATTR UINT64_C(0x40000000)
#define DAT_EP_FIELD_EP_ATTR_ALL UINT64_C(0x7FFFF000)
#define DAT_EP_FIELD_ALL UINT64_C(0x7FFFFFFF)
#define DAT_WATERMARK_INFINITE ((DAT_COUNT)~0)
#define DAT_HW_DEFAULT DAT_WATERMARK_INFINITE
#define DAT_SRQ_LW_DEFAULT 0x0
typedef enum dat_srq_state
{
DAT_SRQ_STATE_ERROR,
DAT_SRQ_STATE_OPERATIONAL,
DAT_SRQ_STATE_SHUTDOWN
} DAT_SRQ_STATE;
#define DAT_VALUE_UNKNOWN (((DAT_COUNT) ~0)-1)
typedef struct dat_srq_attr
{
DAT_COUNT max_recv_dtos;
DAT_COUNT max_recv_iov;
DAT_COUNT low_watermark;
} DAT_SRQ_ATTR;
typedef struct dat_srq_param
{
DAT_IA_HANDLE ia_handle;
DAT_SRQ_STATE srq_state;
DAT_PZ_HANDLE pz_handle;
DAT_COUNT max_recv_dtos;
DAT_COUNT max_recv_iov;
DAT_COUNT low_watermark;
DAT_COUNT available_dto_count;
DAT_COUNT outstanding_dto_count;
} DAT_SRQ_PARAM;
typedef enum dat_srq_param_mask
{
DAT_SRQ_FIELD_IA_HANDLE = 0x001,
DAT_SRQ_FIELD_SRQ_STATE = 0x002,
DAT_SRQ_FIELD_PZ_HANDLE = 0x004,
DAT_SRQ_FIELD_MAX_RECV_DTO = 0x008,
DAT_SRQ_FIELD_MAX_RECV_IOV = 0x010,
DAT_SRQ_FIELD_LOW_WATERMARK = 0x020,
DAT_SRQ_FIELD_AVAILABLE_DTO_COUNT = 0x040,
DAT_SRQ_FIELD_OUTSTANDING_DTO_COUNT = 0x080,
DAT_SRQ_FIELD_ALL = 0x0FF
} DAT_SRQ_PARAM_MASK;
/* PZ Parameters */
typedef struct dat_pz_param
{
DAT_IA_HANDLE ia_handle;
} DAT_PZ_PARAM;
typedef enum dat_pz_param_mask
{
DAT_PZ_FIELD_IA_HANDLE = 0x01,
DAT_PZ_FIELD_ALL = 0x01
} DAT_PZ_PARAM_MASK;
/* PSP Parameters */
typedef struct dat_psp_param
{
DAT_IA_HANDLE ia_handle;
DAT_CONN_QUAL conn_qual;
DAT_EVD_HANDLE evd_handle;
DAT_PSP_FLAGS psp_flags;
} DAT_PSP_PARAM;
typedef enum dat_psp_param_mask
{
DAT_PSP_FIELD_IA_HANDLE = 0x01,
DAT_PSP_FIELD_CONN_QUAL = 0x02,
DAT_PSP_FIELD_EVD_HANDLE = 0x04,
DAT_PSP_FIELD_PSP_FLAGS = 0x08,
DAT_PSP_FIELD_ALL = 0x0F
} DAT_PSP_PARAM_MASK;
/* RSP Parameters */
typedef struct dat_rsp_param
{
DAT_IA_HANDLE ia_handle;
DAT_CONN_QUAL conn_qual;
DAT_EVD_HANDLE evd_handle;
DAT_EP_HANDLE ep_handle;
} DAT_RSP_PARAM;
typedef enum dat_rsp_param_mask
{
DAT_RSP_FIELD_IA_HANDLE = 0x01,
DAT_RSP_FIELD_CONN_QUAL = 0x02,
DAT_RSP_FIELD_EVD_HANDLE = 0x04,
DAT_RSP_FIELD_EP_HANDLE = 0x08,
DAT_RSP_FIELD_ALL = 0x0F
} DAT_RSP_PARAM_MASK;
/* CSP Parameters */
typedef struct dat_csp_param
{
DAT_IA_HANDLE ia_handle;
DAT_COMM *comm;
DAT_IA_ADDRESS_PTR address_ptr;
DAT_EVD_HANDLE evd_handle;
} DAT_CSP_PARAM;
typedef enum dat_csp_param_mask
{
DAT_CSP_FIELD_IA_HANDLE = 0x01,
DAT_CSP_FIELD_COMM = 0x02,
DAT_CSP_FIELD_IA_ADDRESS = 0x04,
DAT_CSP_FIELD_EVD_HANDLE = 0x08,
DAT_CSP_FIELD_ALL = 0x0F
} DAT_CSP_PARAM_MASK;
/* Connection Request Parameters.
*
* The Connection Request does not provide Remote Endpoint attributes.
* If a local Consumer needs this information, the remote Consumer should
* encode it into Private Data.
*/
typedef struct dat_cr_param
{
/* Remote IA whose Endpoint requested the connection. */
DAT_IA_ADDRESS_PTR remote_ia_address_ptr;
/* Port qualifier of the remote Endpoint of the requested connection.*/
DAT_PORT_QUAL remote_port_qual;
/* Size of the Private Data. */
DAT_COUNT private_data_size;
/* Pointer to the Private Data passed by remote side in the Connection
* Request.
*/
DAT_PVOID private_data;
/* The local Endpoint provided by the Service Point for the requested
* connection. It is the only Endpoint that can accept a Connection
* Request on this Service Point. The value DAT_HANDLE_NULL
* represents that there is no associated local Endpoint for the
* requested connection.
*/
DAT_EP_HANDLE local_ep_handle;
} DAT_CR_PARAM;
typedef enum dat_cr_param_mask
{
DAT_CR_FIELD_REMOTE_IA_ADDRESS_PTR = 0x01,
DAT_CR_FIELD_REMOTE_PORT_QUAL = 0x02,
DAT_CR_FIELD_PRIVATE_DATA_SIZE = 0x04,
DAT_CR_FIELD_PRIVATE_DATA = 0x08,
DAT_CR_FIELD_LOCAL_EP_HANDLE = 0x10,
DAT_CR_FIELD_ALL = 0x1F
} DAT_CR_PARAM_MASK;
/************************** Events ******************************/
/* Completion status flags */
/* DTO completion status */
/* For backwards compatibility */
#define DAT_DTO_LENGTH_ERROR DAT_DTO_ERR_LOCAL_LENGTH
#define DAT_DTO_FAILURE DAT_DTO_ERR_FLUSHED
typedef enum dat_dto_completion_status
{
DAT_DTO_SUCCESS = 0,
DAT_DTO_ERR_FLUSHED = 1,
DAT_DTO_ERR_LOCAL_LENGTH = 2,
DAT_DTO_ERR_LOCAL_EP = 3,
DAT_DTO_ERR_LOCAL_PROTECTION = 4,
DAT_DTO_ERR_BAD_RESPONSE = 5,
DAT_DTO_ERR_REMOTE_ACCESS = 6,
DAT_DTO_ERR_REMOTE_RESPONDER = 7,
DAT_DTO_ERR_TRANSPORT = 8,
DAT_DTO_ERR_RECEIVER_NOT_READY = 9,
DAT_DTO_ERR_PARTIAL_PACKET = 10,
DAT_RMR_OPERATION_FAILED = 11,
DAT_DTO_ERR_LOCAL_MM_ERROR = 12 /* kdat specific */
} DAT_DTO_COMPLETION_STATUS;
/* RMR completion status */
/* For backwards compatibility */
#define DAT_RMR_BIND_SUCCESS DAT_DTO_SUCCESS
#define DAT_RMR_BIND_FAILURE DAT_DTO_ERR_FLUSHED
/* RMR completion status */
#define DAT_RMR_BIND_COMPLETION_STATUS DAT_DTO_COMPLETION_STATUS
/* Completion group structs (six total) */
/* DTO completion event data */
/* transfered_length is not defined if status is not DAT_SUCCESS */
/* invalidate_flag and rmr_context are not defined if status is not DAT_SUCCESS */
typedef struct dat_dto_completion_event_data
{
DAT_EP_HANDLE ep_handle;
DAT_DTO_COOKIE user_cookie;
DAT_DTO_COMPLETION_STATUS status;
DAT_SEG_LENGTH transfered_length;
DAT_DTOS operation;
DAT_RMR_CONTEXT rmr_context;
} DAT_DTO_COMPLETION_EVENT_DATA;
/* RMR bind completion event data */
typedef struct dat_rmr_bind_completion_event_data
{
DAT_RMR_HANDLE rmr_handle;
DAT_RMR_COOKIE user_cookie;
DAT_RMR_BIND_COMPLETION_STATUS status;
} DAT_RMR_BIND_COMPLETION_EVENT_DATA;
typedef union dat_sp_handle
{
DAT_RSP_HANDLE rsp_handle;
DAT_PSP_HANDLE psp_handle;
DAT_CSP_HANDLE csp_handle;
} DAT_SP_HANDLE;
/* Connection Request Arrival event data */
typedef struct dat_cr_arrival_event_data
{
/* Handle to the Service Point that received the Connection Request
* from the remote side. If the Service Point was Reserved, sp_handle is
* DAT_HANDLE_NULL because the reserved Service Point is
* automatically destroyed upon generating this event. Can be PSP,
* CSP, or RSP.
*/
DAT_SP_HANDLE sp_handle;
/* Address of the IA on which the Connection Request arrived. */
DAT_IA_ADDRESS_PTR local_ia_address_ptr;
/* Connection Qualifier of the IA on which the Service Point received a
* Connection Request.
*/
DAT_CONN_QUAL conn_qual;
/* The Connection Request instance created by a Provider for the
* arrived Connection Request. Consumers can find out private_data
* passed by a remote Consumer from cr_handle. It is up to a Consumer
* to dat_cr_accept or dat_cr_reject of the Connection Request.
*/
DAT_CR_HANDLE cr_handle;
/* The binary indicator whether the arrived privata data was trancated
* or not.
* The default value of 0 means not truncation of received private data. */
DAT_BOOLEAN truncate_flag;
} DAT_CR_ARRIVAL_EVENT_DATA;
/* Connection event data */
typedef struct dat_connection_event_data
{
DAT_EP_HANDLE ep_handle;
DAT_COUNT private_data_size;
DAT_PVOID private_data;
} DAT_CONNECTION_EVENT_DATA;
/* Async Error event data */
/* For unaffiliated asynchronous event dat_handle is ia_handle. For
* Endpoint affiliated asynchronous event dat_handle is ep_handle. For
* EVD affiliated asynchronous event dat_handle is evd_handle. For SRQ
* affiliated asynchronous event dat_handle is srq_handle. For Memory
* affiliated asynchronous event dat_handle is either lmr_handle,
* rmr_handle or pz_handle.
*/
typedef struct dat_asynch_error_event_data
{
DAT_HANDLE dat_handle; /* either IA, EP, EVD, SRQ, */
/* LMR, RMR, or PZ handle */
DAT_COUNT reason; /* object specific */
} DAT_ASYNCH_ERROR_EVENT_DATA;
/* The reason is object type specific and its values are defined below. */
typedef enum ia_async_error_reason
{
DAT_IA_CATASTROPHIC_ERROR,
DAT_IA_OTHER_ERROR
} DAT_IA_ASYNC_ERROR_REASON;
typedef enum ep_async_error_reason
{
DAT_EP_TRANSFER_TO_ERROR,
DAT_EP_OTHER_ERROR,
DAT_SRQ_SOFT_HIGH_WATERMARK_EVENT
} DAT_EP_ASYNC_ERROR_REASON;
typedef enum evd_async_error_reason
{
DAT_EVD_OVERFLOW_ERROR,
DAT_EVD_OTHER_ERROR
} DAT_EVD_ASYNC_ERROR_REASON;
typedef enum srq_async_error_reason
{
DAT_SRQ_TRANSFER_TO_ERROR,
DAT_SRQ_OTHER_ERROR,
DAT_SRQ_LOW_WATERMARK_EVENT
} DAT_SRQ_ASYNC_ERROR_REASON;
typedef enum lmr_async_error_reason
{
DAT_LMR_OTHER_ERROR
} DAT_LMR_ASYNC_ERROR_REASON;
typedef enum rmr_async_error_reason
{
DAT_RMR_OTHER_ERROR
} DAT_RMR_ASYNC_ERROR_REASON;
typedef enum pz_async_error_reason
{
DAT_PZ_OTHER_ERROR
} DAT_PZ_ASYNC_ERROR_REASON;
/* Software event data */
typedef struct dat_software_event_data
{
DAT_PVOID pointer;
} DAT_SOFTWARE_EVENT_DATA;
typedef enum dat_event_number
{
DAT_DTO_COMPLETION_EVENT = 0x00001,
DAT_RMR_BIND_COMPLETION_EVENT = 0x01001,
DAT_CONNECTION_REQUEST_EVENT = 0x02001,
DAT_CONNECTION_EVENT_ESTABLISHED = 0x04001,
DAT_CONNECTION_EVENT_PEER_REJECTED = 0x04002,
DAT_CONNECTION_EVENT_NON_PEER_REJECTED = 0x04003,
DAT_CONNECTION_EVENT_ACCEPT_COMPLETION_ERROR = 0x04004,
DAT_CONNECTION_EVENT_DISCONNECTED = 0x04005,
DAT_CONNECTION_EVENT_BROKEN = 0x04006,
DAT_CONNECTION_EVENT_TIMED_OUT = 0x04007,
DAT_CONNECTION_EVENT_UNREACHABLE = 0x04008,
DAT_ASYNC_ERROR_EVD_OVERFLOW = 0x08001,
DAT_ASYNC_ERROR_IA_CATASTROPHIC = 0x08002,
DAT_ASYNC_ERROR_EP_BROKEN = 0x08003,
DAT_ASYNC_ERROR_TIMED_OUT = 0x08004,
DAT_ASYNC_ERROR_PROVIDER_INTERNAL_ERROR = 0x08005,
DAT_HA_DOWN_TO_1 = 0x08101,
DAT_HA_UP_TO_MULTI_PATH = 0x08102,
DAT_SOFTWARE_EVENT = 0x10001
#ifdef DAT_EXTENSIONS
,DAT_EXTENSION_EVENT = 0x20000,
DAT_IB_EXTENSION_RANGE_BASE = 0x40000,
DAT_IW_EXTENSION_RANGE_BASE = 0x80000
#endif /* DAT_EXTENSIONS */
} DAT_EVENT_NUMBER;
/* Union for event Data */
typedef union dat_event_data
{
DAT_DTO_COMPLETION_EVENT_DATA dto_completion_event_data;
DAT_RMR_BIND_COMPLETION_EVENT_DATA rmr_completion_event_data;
DAT_CR_ARRIVAL_EVENT_DATA cr_arrival_event_data;
DAT_CONNECTION_EVENT_DATA connect_event_data;
DAT_ASYNCH_ERROR_EVENT_DATA asynch_error_event_data;
DAT_SOFTWARE_EVENT_DATA software_event_data;
} DAT_EVENT_DATA;
/* Event struct that holds all event information */
typedef struct dat_event
{
DAT_EVENT_NUMBER event_number;
DAT_EVD_HANDLE evd_handle;
DAT_EVENT_DATA event_data;
DAT_UINT64 event_extension_data[8];
} DAT_EVENT;
/* Provider/registration info */
typedef struct dat_provider_info
{
char ia_name[DAT_NAME_MAX_LENGTH];
DAT_UINT32 dapl_version_major;
DAT_UINT32 dapl_version_minor;
DAT_BOOLEAN is_thread_safe;
} DAT_PROVIDER_INFO;
/***************************************************************
*
* FUNCTION PROTOTYPES
***************************************************************/
/*
* IA functions
*
* Note that there are actual 'dat_ia_open' and 'dat_ia_close'
* functions, it is not just a re-directing #define. That is
* because the functions may have to ensure that the provider
* library is loaded before it can call it, and may choose to
* unload the library after the last close.
*/
extern DAT_RETURN DAT_API dat_ia_openv (
IN const DAT_NAME_PTR, /* provider */
IN DAT_COUNT, /* asynch_evd_min_qlen */
INOUT DAT_EVD_HANDLE *, /* asynch_evd_handle */
OUT DAT_IA_HANDLE *, /* ia_handle */
IN DAT_UINT32, /* dat major version number */
IN DAT_UINT32, /* dat minor version number */
IN DAT_BOOLEAN); /* dat thread safety */
#define dat_ia_open(name, qlen, async_evd, ia) \
dat_ia_openv((name), (qlen), (async_evd), (ia), \
DAT_VERSION_MAJOR, DAT_VERSION_MINOR, \
DAT_THREADSAFE)
extern DAT_RETURN DAT_API dat_ia_query (
IN DAT_IA_HANDLE, /* ia_handle */
OUT DAT_EVD_HANDLE *, /* async_evd_handle */
IN DAT_IA_ATTR_MASK, /* ia_attr_mask */
OUT DAT_IA_ATTR *, /* ia_attr */
IN DAT_PROVIDER_ATTR_MASK, /* provider_attr_mask */
OUT DAT_PROVIDER_ATTR * ); /* provider_attr */
extern DAT_RETURN DAT_API dat_ia_close (
IN DAT_IA_HANDLE, /* ia_handle */
IN DAT_CLOSE_FLAGS ); /* close_flags */
/* helper functions */
extern DAT_RETURN DAT_API dat_set_consumer_context (
IN DAT_HANDLE, /* dat_handle */
IN DAT_CONTEXT); /* context */
extern DAT_RETURN DAT_API dat_get_consumer_context (
IN DAT_HANDLE, /* dat_handle */
OUT DAT_CONTEXT * ); /* context */
extern DAT_RETURN DAT_API dat_get_handle_type (
IN DAT_HANDLE, /* dat_handle */
OUT DAT_HANDLE_TYPE * ); /* handle_type */
/* CR functions */
extern DAT_RETURN DAT_API dat_cr_query (
IN DAT_CR_HANDLE, /* cr_handle */
IN DAT_CR_PARAM_MASK, /* cr_param_mask */
OUT DAT_CR_PARAM * ); /* cr_param */
extern DAT_RETURN DAT_API dat_cr_accept (
IN DAT_CR_HANDLE, /* cr_handle */
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_COUNT, /* private_data_size */
IN const DAT_PVOID ); /* private_data */
extern DAT_RETURN DAT_API dat_cr_reject (
IN DAT_CR_HANDLE, /* cr_handle */
IN DAT_COUNT, /* private_data_size */
IN const DAT_PVOID ); /* private_data */
/* For DAT-1.1 and above, this function is defined for both uDAPL and
* kDAPL. For DAT-1.0, it is only defined for uDAPL.
*/
extern DAT_RETURN DAT_API dat_cr_handoff (
IN DAT_CR_HANDLE, /* cr_handle */
IN DAT_CONN_QUAL); /* handoff */
/* EVD functions */
extern DAT_RETURN DAT_API dat_evd_resize (
IN DAT_EVD_HANDLE, /* evd_handle */
IN DAT_COUNT ); /* evd_min_qlen */
extern DAT_RETURN DAT_API dat_evd_post_se (
IN DAT_EVD_HANDLE, /* evd_handle */
IN const DAT_EVENT * ); /* event */
extern DAT_RETURN DAT_API dat_evd_dequeue (
IN DAT_EVD_HANDLE, /* evd_handle */
OUT DAT_EVENT * ); /* event */
extern DAT_RETURN DAT_API dat_evd_query (
IN DAT_EVD_HANDLE, /* evd_handle */
IN DAT_EVD_PARAM_MASK, /* evd_param_mask */
OUT DAT_EVD_PARAM * ); /* evd_param */
extern DAT_RETURN DAT_API dat_evd_free (
IN DAT_EVD_HANDLE ); /* evd_handle */
/* EP functions */
extern DAT_RETURN DAT_API dat_ep_create (
IN DAT_IA_HANDLE, /* ia_handle */
IN DAT_PZ_HANDLE, /* pz_handle */
IN DAT_EVD_HANDLE, /* recv_completion_evd_handle */
IN DAT_EVD_HANDLE, /* request_completion_evd_handle */
IN DAT_EVD_HANDLE, /* connect_evd_handle */
IN const DAT_EP_ATTR *, /* ep_attributes */
OUT DAT_EP_HANDLE * ); /* ep_handle */
extern DAT_RETURN DAT_API dat_ep_query (
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_EP_PARAM_MASK, /* ep_param_mask */
OUT DAT_EP_PARAM * ); /* ep_param */
extern DAT_RETURN DAT_API dat_ep_modify (
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_EP_PARAM_MASK, /* ep_param_mask */
IN const DAT_EP_PARAM * ); /* ep_param */
extern DAT_RETURN DAT_API dat_ep_connect (
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_IA_ADDRESS_PTR, /* remote_ia_address */
IN DAT_CONN_QUAL, /* remote_conn_qual */
IN DAT_TIMEOUT, /* timeout */
IN DAT_COUNT, /* private_data_size */
IN const DAT_PVOID, /* private_data */
IN DAT_QOS, /* quality_of_service */
IN DAT_CONNECT_FLAGS ); /* connect_flags */
extern DAT_RETURN DAT_API dat_ep_dup_connect (
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_EP_HANDLE, /* ep_dup_handle */
IN DAT_TIMEOUT, /* timeout */
IN DAT_COUNT, /* private_data_size */
IN const DAT_PVOID, /* private_data */
IN DAT_QOS); /* quality_of_service */
extern DAT_RETURN DAT_API dat_ep_common_connect (
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_IA_ADDRESS_PTR, /* remote_ia_address */
IN DAT_TIMEOUT, /* timeout */
IN DAT_COUNT, /* private_data_size */
IN const DAT_PVOID ); /* private_data */
extern DAT_RETURN DAT_API dat_ep_disconnect (
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_CLOSE_FLAGS ); /* close_flags */
extern DAT_RETURN DAT_API dat_ep_post_send (
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_COUNT, /* num_segments */
IN DAT_LMR_TRIPLET *, /* local_iov */
IN DAT_DTO_COOKIE, /* user_cookie */
IN DAT_COMPLETION_FLAGS ); /* completion_flags */
extern DAT_RETURN DAT_API dat_ep_post_send_with_invalidate (
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_COUNT, /* num_segments */
IN DAT_LMR_TRIPLET *, /* local_iov */
IN DAT_DTO_COOKIE, /* user_cookie */
IN DAT_COMPLETION_FLAGS, /* completion_flags */
IN DAT_BOOLEAN, /* invalidate_flag */
IN DAT_RMR_CONTEXT ); /* RMR to invalidate */
extern DAT_RETURN DAT_API dat_ep_post_recv (
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_COUNT, /* num_segments */
IN DAT_LMR_TRIPLET *, /* local_iov */
IN DAT_DTO_COOKIE, /* user_cookie */
IN DAT_COMPLETION_FLAGS ); /* completion_flags */
extern DAT_RETURN DAT_API dat_ep_post_rdma_read (
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_COUNT, /* num_segments */
IN DAT_LMR_TRIPLET *, /* local_iov */
IN DAT_DTO_COOKIE, /* user_cookie */
IN const DAT_RMR_TRIPLET *,/* remote_iov */
IN DAT_COMPLETION_FLAGS ); /* completion_flags */
extern DAT_RETURN DAT_API dat_ep_post_rdma_read_to_rmr (
IN DAT_EP_HANDLE, /* ep_handle */
IN const DAT_RMR_TRIPLET *, /* local_iov */
IN DAT_DTO_COOKIE, /* user_cookie */
IN const DAT_RMR_TRIPLET *,/* remote_iov */
IN DAT_COMPLETION_FLAGS ); /* completion_flags */
extern DAT_RETURN DAT_API dat_ep_post_rdma_write (
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_COUNT, /* num_segments */
IN DAT_LMR_TRIPLET *, /* local_iov */
IN DAT_DTO_COOKIE, /* user_cookie */
IN const DAT_RMR_TRIPLET *,/* remote_iov */
IN DAT_COMPLETION_FLAGS ); /* completion_flags */
extern DAT_RETURN DAT_API dat_ep_get_status (
IN DAT_EP_HANDLE, /* ep_handle */
OUT DAT_EP_STATE *, /* ep_state */
OUT DAT_BOOLEAN *, /* recv_idle */
OUT DAT_BOOLEAN * ); /* request_idle */
extern DAT_RETURN DAT_API dat_ep_free (
IN DAT_EP_HANDLE); /* ep_handle */
extern DAT_RETURN DAT_API dat_ep_reset (
IN DAT_EP_HANDLE); /* ep_handle */
extern DAT_RETURN DAT_API dat_ep_create_with_srq (
IN DAT_IA_HANDLE, /* ia_handle */
IN DAT_PZ_HANDLE, /* pz_handle */
IN DAT_EVD_HANDLE, /* recv_evd_handle */
IN DAT_EVD_HANDLE, /* request_evd_handle */
IN DAT_EVD_HANDLE, /* connect_evd_handle */
IN DAT_SRQ_HANDLE, /* srq_handle */
IN const DAT_EP_ATTR *, /* ep_attributes */
OUT DAT_EP_HANDLE *); /* ep_handle */
extern DAT_RETURN DAT_API dat_ep_recv_query (
IN DAT_EP_HANDLE, /* ep_handle */
OUT DAT_COUNT *, /* nbufs_allocated */
OUT DAT_COUNT *); /* bufs_alloc_span */
extern DAT_RETURN DAT_API dat_ep_set_watermark (
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_COUNT, /* soft_high_watermark */
IN DAT_COUNT); /* hard_high_watermark */
/* LMR functions */
extern DAT_RETURN DAT_API dat_lmr_free (
IN DAT_LMR_HANDLE); /* lmr_handle */
/* Non-coherent memory functions */
extern DAT_RETURN DAT_API dat_lmr_sync_rdma_read (
IN DAT_IA_HANDLE, /* ia_handle */
IN const DAT_LMR_TRIPLET *, /* local_segments */
IN DAT_VLEN); /* num_segments */
extern DAT_RETURN DAT_API dat_lmr_sync_rdma_write (
IN DAT_IA_HANDLE, /* ia_handle */
IN const DAT_LMR_TRIPLET *, /* local_segments */
IN DAT_VLEN); /* num_segments */
/* RMR functions */
extern DAT_RETURN DAT_API dat_rmr_create (
IN DAT_PZ_HANDLE, /* pz_handle */
OUT DAT_RMR_HANDLE *); /* rmr_handle */
extern DAT_RETURN DAT_API dat_rmr_create_for_ep (
IN DAT_PZ_HANDLE, /* pz_handle */
OUT DAT_RMR_HANDLE *); /* rmr_handle */
extern DAT_RETURN DAT_API dat_rmr_query (
IN DAT_RMR_HANDLE, /* rmr_handle */
IN DAT_RMR_PARAM_MASK, /* rmr_param_mask */
OUT DAT_RMR_PARAM *); /* rmr_param */
extern DAT_RETURN DAT_API dat_rmr_bind (
IN DAT_RMR_HANDLE, /* rmr_handle */
IN DAT_LMR_HANDLE, /* lmr_handle */
IN const DAT_LMR_TRIPLET *,/* lmr_triplet */
IN DAT_MEM_PRIV_FLAGS, /* mem_priv */
IN DAT_VA_TYPE, /* va_type */
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_RMR_COOKIE, /* user_cookie */
IN DAT_COMPLETION_FLAGS, /* completion_flags */
OUT DAT_RMR_CONTEXT * ); /* context */
extern DAT_RETURN DAT_API dat_rmr_free (
IN DAT_RMR_HANDLE); /* rmr_handle */
/* PSP functions */
extern DAT_RETURN DAT_API dat_psp_create (
IN DAT_IA_HANDLE, /* ia_handle */
IN DAT_CONN_QUAL, /* conn_qual */
IN DAT_EVD_HANDLE, /* evd_handle */
IN DAT_PSP_FLAGS, /* psp_flags */
OUT DAT_PSP_HANDLE * ); /* psp_handle */
extern DAT_RETURN DAT_API dat_psp_create_any (
IN DAT_IA_HANDLE, /* ia_handle */
OUT DAT_CONN_QUAL *, /* conn_qual */
IN DAT_EVD_HANDLE, /* evd_handle */
IN DAT_PSP_FLAGS, /* psp_flags */
OUT DAT_PSP_HANDLE * ); /* psp_handle */
extern DAT_RETURN DAT_API dat_psp_query (
IN DAT_PSP_HANDLE, /* psp_handle */
IN DAT_PSP_PARAM_MASK, /* psp_param_mask */
OUT DAT_PSP_PARAM * ); /* psp_param */
extern DAT_RETURN DAT_API dat_psp_free (
IN DAT_PSP_HANDLE ); /* psp_handle */
/* RSP functions */
extern DAT_RETURN DAT_API dat_rsp_create (
IN DAT_IA_HANDLE, /* ia_handle */
IN DAT_CONN_QUAL, /* conn_qual */
IN DAT_EP_HANDLE, /* ep_handle */
IN DAT_EVD_HANDLE, /* evd_handle */
OUT DAT_RSP_HANDLE * ); /* rsp_handle */
extern DAT_RETURN DAT_API dat_rsp_query (
IN DAT_RSP_HANDLE, /* rsp_handle */
IN DAT_RSP_PARAM_MASK, /* rsp_param_mask */
OUT DAT_RSP_PARAM * ); /* rsp_param */
extern DAT_RETURN DAT_API dat_rsp_free (
IN DAT_RSP_HANDLE ); /* rsp_handle */
/* CSP functions */
extern DAT_RETURN DAT_API dat_csp_create (
IN DAT_IA_HANDLE, /* ia_handle */
IN DAT_COMM *, /* communicator */
IN DAT_IA_ADDRESS_PTR, /* address */
IN DAT_EVD_HANDLE, /* evd_handle */
OUT DAT_CSP_HANDLE * ); /* csp_handle */
extern DAT_RETURN DAT_API dat_csp_query (
IN DAT_CSP_HANDLE, /* csp_handle */
IN DAT_CSP_PARAM_MASK, /* csp_param_mask */
OUT DAT_CSP_PARAM * ); /* csp_param */
extern DAT_RETURN DAT_API dat_csp_free (
IN DAT_CSP_HANDLE ); /* csp_handle */
/* PZ functions */
extern DAT_RETURN DAT_API dat_pz_create (
IN DAT_IA_HANDLE, /* ia_handle */
OUT DAT_PZ_HANDLE * ); /* pz_handle */
extern DAT_RETURN DAT_API dat_pz_query (
IN DAT_PZ_HANDLE, /* pz_handle */
IN DAT_PZ_PARAM_MASK, /* pz_param_mask */
OUT DAT_PZ_PARAM *); /* pz_param */
extern DAT_RETURN DAT_API dat_pz_free (
IN DAT_PZ_HANDLE ); /* pz_handle */
/* SRQ functions */
extern DAT_RETURN DAT_API dat_srq_create (
IN DAT_IA_HANDLE, /* ia_handle */
IN DAT_PZ_HANDLE, /* pz_handle */
IN DAT_SRQ_ATTR *, /* srq_attr */
OUT DAT_SRQ_HANDLE *); /* srq_handle */
extern DAT_RETURN DAT_API dat_srq_free (
IN DAT_SRQ_HANDLE); /* srq_handle */
extern DAT_RETURN DAT_API dat_srq_post_recv (
IN DAT_SRQ_HANDLE, /* srq_handle */
IN DAT_COUNT, /* num_segments */
IN DAT_LMR_TRIPLET *, /* local_iov */
IN DAT_DTO_COOKIE); /* user_cookie */
extern DAT_RETURN DAT_API dat_srq_query (
IN DAT_SRQ_HANDLE, /* srq_handle */
IN DAT_SRQ_PARAM_MASK, /* srq_param_mask */
OUT DAT_SRQ_PARAM *); /* srq_param */
extern DAT_RETURN DAT_API dat_srq_resize (
IN DAT_SRQ_HANDLE, /* srq_handle */
IN DAT_COUNT); /* srq_max_recv_dto */
extern DAT_RETURN DAT_API dat_srq_set_lw (
IN DAT_SRQ_HANDLE, /* srq_handle */
IN DAT_COUNT); /* low_watermark */
#ifdef DAT_EXTENSIONS
#define DAT_OPEN_EXTENSION_BASE 0x1000
#define DAT_CLOSE_EXTENSION_BASE 0x2000
typedef int DAT_EXTENDED_OP;
extern DAT_RETURN DAT_API dat_extension_op(
IN DAT_HANDLE, /* handle */
IN DAT_EXTENDED_OP, /* operation */
IN ... ); /* args */
#endif
/*
* DAT registry functions.
*
* Note the dat_ia_open and dat_ia_close functions are linked to
* registration code which "redirects" to the appropriate provider.
*/
extern DAT_RETURN DAT_API dat_registry_list_providers (
IN DAT_COUNT, /* max_to_return */
OUT DAT_COUNT *, /* entries_returned */
OUT DAT_PROVIDER_INFO *(dat_provider_list[]) ); /* dat_provider_list */
/*
* DAT error functions.
*/
extern DAT_RETURN DAT_API dat_strerror (
IN DAT_RETURN, /* dat function return */
OUT const char ** , /* major message string */
OUT const char ** ); /* minor message string */
#ifdef __cplusplus
}
#endif
#endif /* _DAT_H_ */
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