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* Copyright (c) 2013. Intel Corporation. All rights reserved.
* Copyright (c) 2006-2012. QLogic Corporation. All rights reserved.
* Copyright (c) 2003-2006, PathScale, Inc. All rights reserved.
*
* This software is available to you under a choice of one of two
* licenses. You may choose to be licensed under the terms of the GNU
* General Public License (GPL) Version 2, available from the file
* COPYING in the main directory of this source tree, or the
* OpenIB.org BSD license below:
*
* 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 the above
* copyright notice, this list of conditions and the following
* disclaimer.
*
* - Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials
* provided with the distribution.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#ifndef PSM_H
#define PSM_H
#include <stdint.h>
#ifdef __cplusplus
extern "C" {
#endif
/* Local endpoint handle (opaque)
*
*
* Handle returned to the user when a new local endpoint is created. The
* handle is a local handle to be used in all communication functions and is
* not intended to globally identify the opened endpoint in any way.
*
* All open endpoint handles can be globally identified using the endpoint id
* integral type (psm_epid_t) and all communication must use an endpoint
* address (psm_epaddr_t) that can be obtained by connecting a local
* endpoint to one or more endpoint identifiers.
*
* @remark The local endpoint handle is opaque to the user. */
typedef struct psm_ep *psm_ep_t;
/* MQ handle (opaque)
*
*
* Handle returned to the user when a new Matched queue is created (@ref
* psm_mq_init). */
typedef struct psm_mq *psm_mq_t;
#define PSM_VERNO 0x0110
#define PSM_VERNO_MAJOR 0x01
#define PSM_VERNO_MINOR 0x10
enum psm_error {
PSM_OK = 0,
PSM_OK_NO_PROGRESS = 1,
PSM_PARAM_ERR = 3,
PSM_NO_MEMORY = 4,
PSM_INIT_NOT_INIT = 5,
PSM_INIT_BAD_API_VERSION = 6,
PSM_NO_AFFINITY = 7,
PSM_INTERNAL_ERR = 8,
PSM_SHMEM_SEGMENT_ERR = 9,
PSM_OPT_READONLY = 10,
PSM_TIMEOUT = 11,
PSM_TOO_MANY_ENDPOINTS = 12,
PSM_IS_FINALIZED = 13,
PSM_EP_WAS_CLOSED = 20,
PSM_EP_NO_DEVICE = 21,
PSM_EP_UNIT_NOT_FOUND = 22,
PSM_EP_DEVICE_FAILURE = 23,
PSM_EP_CLOSE_TIMEOUT = 24,
PSM_EP_NO_PORTS_AVAIL = 25,
PSM_EP_NO_NETWORK = 26,
PSM_EP_INVALID_UUID_KEY = 27,
PSM_EP_NO_RESOURCES = 28,
PSM_EPID_UNKNOWN = 40,
PSM_EPID_UNREACHABLE = 41,
PSM_EPID_INVALID_NODE = 43,
PSM_EPID_INVALID_MTU = 44,
PSM_EPID_INVALID_UUID_KEY = 45,
PSM_EPID_INVALID_VERSION = 46,
PSM_EPID_INVALID_CONNECT = 47,
PSM_EPID_ALREADY_CONNECTED = 48,
PSM_EPID_NETWORK_ERROR = 49,
PSM_EPID_INVALID_PKEY = 50,
PSM_EPID_PATH_RESOLUTION = 51,
PSM_MQ_NO_COMPLETIONS = 60,
PSM_MQ_TRUNCATION = 61,
PSM_AM_INVALID_REPLY = 70,
PSM_ERROR_LAST = 80
};
/* Backwards header compatibility for a confusing error return name */
#define PSM_MQ_INCOMPLETE PSM_MQ_NO_COMPLETIONS
typedef enum psm_error psm_error_t;
enum psm_component {
PSM_COMPONENT_CORE = 0,
PSM_COMPONENT_MQ = 1,
PSM_COMPONENT_AM = 2,
PSM_COMPONENT_IB = 3
};
typedef enum psm_component psm_component_t;
enum psm_path_res {
PSM_PATH_RES_NONE = 0,
PSM_PATH_RES_OPP = 1,
PSM_PATH_RES_UMAD = 2
};
typedef enum psm_path_res psm_path_res_t;
/* Initialize PSM interface
*
* Call to initialize the PSM library for a desired API revision number.
*
* [in,out] api_verno_major As input a pointer to an integer that holds
* PSM_VERNO_MAJOR. As output, the pointer
* is updated with the major revision number of
* the loaded library.
* [in,out] api_verno_minor As intput, a pointer to an integer that holds
* PSM_VERNO_MINOR. As output, the pointer
* is updated with the minor revision number of
* the loaded library.
*
* [pre] The user has not called any other PSM library call except @ref
* psm_error_register_handler to register a global error handler.
*
* [warning] PSM initialization is a precondition for all functions used in the
* PSM library.
*
* [returns] PSM_OK The PSM interface could be opened and the desired API
* revision can be provided.
* [returns] PSM_INIT_BAD_API_VERSION The PSM library cannot compatibility for
* the desired API version.
*
* @verbatim
* // In this example, we want to handle our own errors before doing init,
* // since we don't want a fatal error if InfiniPath is not found.
* // Note that psm_error_register_handler (and psm_uuid_generate)
* // are the only function that can be called before psm_init
*
* int try_to_initialize_psm() {
* int verno_major = PSM_VERNO_MAJOR;
* int verno_minor = PSM_VERNO_MINOR;
*
* int err = psm_error_register_handler(NULL, // Global handler
* PSM_ERRHANDLER_NO_HANDLER); // return errors
* if (err) {
* fprintf(stderr, "Couldn't register global handler: %s\n",
* psm_error_get_string(err));
* return -1;
* }
*
* err = psm_init(&verno_major, &verno_minor);
* if (err || verno_major > PSM_VERNO_MAJOR) {
* if (err)
* fprintf(stderr, "PSM initialization failure: %s\n",
* psm_error_get_string(err));
* else
* fprintf(stderr, "PSM loaded an unexpected/unsupported "
* "version (%d.%d)\n", verno_major, verno_minor);
* return -1;
* }
*
* // We were able to initialize PSM but will defer all further error
* // handling since most of the errors beyond this point will be fatal.
* int err = psm_error_register_handler(NULL, // Global handler
* PSM_ERRHANDLER_PSM_HANDLER); //
* if (err) {
* fprintf(stderr, "Couldn't register global errhandler: %s\n",
* psm_error_get_string(err));
* return -1;
* }
* return 1;
* }
* @endverbatim
*/
psm_error_t
psm_init(int *api_verno_major, int *api_verno_minor);
/* Finalize PSM interface
*
* Single call to finalize PSM and close all unclosed endpoints
*
* [post] The user guarantees not to make any further PSM calls, including @ref
* psm_init.
*
* [returns] PSM_OK Always returns PSM_OK */
psm_error_t
psm_finalize(void);
/* Error handling opaque token
*
* A token is required for users that register their own handlers and wish to
* defer further error handling to PSM. */
typedef struct psm_error_token *psm_error_token_t;
/* Error handling function
*
* Users can handle errors explicitly instead of relying on PSM's own error
* handler. There is one global error handler and error handlers that can be
* individually set for each opened endpoint. By default, endpoints will
* inherit the global handler registered at the time of open.
*
* [in] ep Handle associated to the endpoint over which the error occurred
* or NULL if the error is being handled by the global error
* handler.
* [in] error PSM error identifier
* [in] error_string A descriptive error string of maximum length @ref
* PSM_ERRSTRING_MAXLEN.
* [in] token Opaque PSM token associated with the particular event that
* generated the error. The token can be used to extract the
* error string and can be passed to psm_error_defer to
* defer any remaining or unhandled error handling to PSM.
*
* [post] If the error handler returns, the error returned is propagated to the
* caller. */
typedef psm_error_t (*psm_ep_errhandler_t)(psm_ep_t ep,
const psm_error_t error,
const char *error_string,
psm_error_token_t token);
/* Obsolete names, only here for backwards compatibility */
#define PSM_ERRHANDLER_DEFAULT ((psm_ep_errhandler_t)-1)
#define PSM_ERRHANDLER_NOP ((psm_ep_errhandler_t)-2)
#define PSM_ERRHANDLER_PSM_HANDLER ((psm_ep_errhandler_t)-1)
/* PSM error handler as explained in error_handling */
#define PSM_ERRHANDLER_NO_HANDLER ((psm_ep_errhandler_t)-2)
/* Bypasses the default PSM error handler and returns all errors to the user
* (this is the default) */
#define PSM_ERRSTRING_MAXLEN 512 /* Maximum error string length. */
/* PSM error handler registration
*
* Function to register error handlers on a global basis and on a per-endpoint
* basis. PSM_ERRHANDLER_PSM_HANDLER and PSM_ERRHANDLER_NO_HANDLER are special
* pre-defined handlers to respectively enable use of the default PSM-internal
* handler or the no-handler that disables registered error handling and
* returns all errors to the caller (both are documented in error_handling).
*
* [in] ep Handle of the endpoint over which the error handler should be
* registered. With ep set to NULL, the behavior of the
* global error handler can be controlled.
* [in] errhandler Handler to register. Can be a user-specific error
* handling function or PSM_ERRHANDLER_PSM_HANDLER or
* PSM_ERRHANDLER_NO_HANDLER.
*
* @remark When ep is set to NULL, this is the only function that can be
* called before psm_init
*/
psm_error_t
psm_error_register_handler(psm_ep_t ep, const psm_ep_errhandler_t errhandler);
/* PSM deferred error handler
*
* Function to handle fatal PSM errors if no error handler is installed or if
* the user wishes to defer further error handling to PSM. Depending on the
* type of error, PSM may or may not return from the function call.
*
* [in] err_token Error token initially passed to error handler
*
* [pre] The user is calling into the function because it has decided that PSM
* should handle an error case.
*
* [post] The function may or may not return depending on the error
*/
psm_error_t
psm_error_defer(psm_error_token_t err_token);
/* Get generic error string from error
*
* Function to return the default error string associated to a PSM error.
*
* While a more detailed and precise error string is usually available within
* error handlers, this function is available to obtain an error string out of
* an error handler context or when a no-op error handler is registered.
*
* [in] error PSM error
*/
const char *
psm_error_get_string(psm_error_t error);
/* Option key/pair structure
*
* Currently only used in MQ.
*/
struct psm_optkey
{
uint32_t key; /* Option key */
void *value; /* Option value */
};
/* Endpoint ID
*
* Integral type of size 8 bytes that can be used by the user to globally
* identify a successfully opened endpoint. Although the contents of the
* endpoint id integral type remains opaque to the user, unique network id and
* InfiniPath port number can be extracted using psm_epid_nid and @ref
* psm_epid_context.
*/
typedef uint64_t psm_epid_t;
/* Endpoint Address (opaque)
*
* Remote endpoint addresses are created when the user binds an endpoint ID
* to a particular endpoint handle using psm_ep_connect. A given endpoint
* address is only guaranteed to be valid over a single endpoint.
*/
typedef struct psm_epaddr *psm_epaddr_t;
/* PSM Unique UID
*
* PSM type equivalent to the DCE-1 uuid_t, used to uniquely identify an
* endpoint within a particular job. Since PSM does not participate in job
* allocation and management, users are expected to generate a unique ID to
* associate endpoints to a particular parallel or collective job.
* [see] psm_uuid_generate
*/
typedef uint8_t psm_uuid_t[16];
/* Get Endpoint identifier's Unique Network ID */
uint64_t
psm_epid_nid(psm_epid_t epid);
/* Get Endpoint identifier's InfiniPath context number */
uint64_t
psm_epid_context(psm_epid_t epid);
/* Get Endpoint identifier's InfiniPath port (deprecated, use
* psm_epid_context instead) */
uint64_t
psm_epid_port(psm_epid_t epid);
/* List the number of available InfiniPath units
*
* Function used to determine the amount of locally available InfiniPath units.
* For N units, valid unit numbers in psm_ep_open are 0 to N-1.
*
* [returns] PSM_OK unless the user has not called psm_init
*/
psm_error_t
psm_ep_num_devunits(uint32_t *num_units);
/* Utility to generate UUIDs for psm_ep_open
*
* This function is available as a utility for generating unique job-wide ids.
* See discussion in psm_ep_open for further information.
*
* @remark This function does not require PSM to be initialized.
*/
void
psm_uuid_generate(psm_uuid_t uuid_out);
/* Affinity modes for the affinity member of struct psm_ep_open_opts */
#define PSM_EP_OPEN_AFFINITY_SKIP 0 /* Disable setting affinity */
#define PSM_EP_OPEN_AFFINITY_SET 1 /* Enable setting affinity unless
already set */
#define PSM_EP_OPEN_AFFINITY_FORCE 2 /* Enable setting affinity regardless
of current affinity setting */
/* Default values for some constants */
#define PSM_EP_OPEN_PKEY_DEFAULT 0xffffffffffffffffULL
/* Default protection key */
/* Endpoint Open Options
*
* These options are available for opening a PSM endpoint. Each is
* individually documented and setting each option to -1 or passing NULL as the
* options parameter in psm_ep_open instructs PSM to use
* implementation-defined defaults.
*
* Each option is documented in psm_ep_open */
struct psm_ep_open_opts {
int64_t timeout; /* timeout in nanoseconds to open device */
int unit; /* InfiniPath Unit ID to open on */
int affinity; /* How PSM should set affinity */
int shm_mbytes; /* Megabytes used for intra-node communication */
int sendbufs_num; /* Preallocated send buffers */
#if PSM_VERNO >= 0x0101
uint64_t network_pkey; /* Network Protection Key (v1.01) */
#endif
#if PSM_VERNO >= 0x0107
int port; /* IB port to use (1 to N) */
#if PSM_VERNO <= 0x010a
int outvl; /* IB VL to use when sending pkts */
#endif
int outsl; /* IB SL to use when sending pkts */
#endif
#if PSM_VERNO >= 0x010d
uint64_t service_id; /* IB Service ID to use for endpoint */
psm_path_res_t path_res_type; /* Path resolution type */
#endif
#if PSM_VERNO >= 0x010e
int senddesc_num; /* Preallocated send descriptors */
int imm_size; /* Immediate data size for endpoint */
#endif
};
/* InfiniPath endpoint creation
*
* Function used to create a new local communication endpoint on an InfiniPath
* adapter. The returned endpoint handle is required in all PSM communication
* operations, as PSM can manage communication over multiple endpoints. An
* opened endpoint has no global context until the user connects the endpoint
* to other global endpoints by way of psm_ep_connect. All local endpoint
* handles are globally identified by endpoint IDs (psm_epid_t) which are
* also returned when an endpoint is opened. It is assumed that the user can
* provide an out-of-band mechanism to distribute the endpoint IDs in order to
* establish connections between endpoints (psm_ep_connect for more
* information).
*
* [in] unique_job_key Endpoint key, to uniquely identify the endpoint in
* a parallel job. It is up to the user to ensure
* that the key is globally unique over a period long
* enough to prevent duplicate keys over the same set
* of endpoints (see comments below).
*
* [in] opts Open options of type psm_ep_open_opts
* (see psm_ep_open_opts_get_defaults).
*
* [out] ep User-supplied storage to return a pointer to the newly
* created endpoint. The returned pointer of type psm_ep_t
* is a local handle and cannot be used to globally identify the
* endpoint.
* [out] epid User-supplied storage to return the endpoint ID associated
* to the newly created local endpoint returned in the ep
* handle. The endpoint ID is an integral type suitable for
* uniquely identifying the local endpoint.
*
* PSM does not internally verify the consistency of the uuid, it is up to the
* user to ensure that the uid is unique enough not to collide with other
* currently-running jobs. Users can employ three mechanisms to obtain a uuid.
*
* 1. Use the supplied psm_uuid_generate utility
*
* 2. Use an OS or library-specific uuid generation utility, that complies with
* OSF DCE 1.1, such as uuid_generate on Linux or uuid_create on FreeBSD.
* (see http://www.opengroup.org/onlinepubs/009629399/uuid_create.htm)
*
* 3. Manually pack a 16-byte string using a utility such as /dev/random or
* other source with enough entropy and proper seeding to prevent two nodes
* from generating the same uuid_t.
*
* The following options are relevent when opening an endpoint:
* * timeout establishes the amount of nanoseconds to wait before
* failing to open a port (with -1, defaults to 15 secs).
* * unit sets the InfiniPath unit number to use to open a port (with
* -1, PSM determines the best unit to open the port). If @c
* IPATH_UNIT is set in the environment, this setting is ignored.
* * affinity enables or disables PSM setting processor affinity. The
* option can be controlled to either disable (@ref
* PSM_EP_OPEN_AFFINITY_SKIP) or enable the affinity setting
* only if it is already unset (@ref
* PSM_EP_OPEN_AFFINITY_SET) or regardless of affinity begin
* set or not (PSM_EP_OPEN_AFFINITY_FORCE).
* If IPATH_NO_CPUAFFINITY is set in the environment, this
* setting is ignored.
* * shm_mbytes sets a maximum amount of megabytes that can be allocated
* to each local endpoint ID connected through this
* endpoint (with -1, defaults to 10 MB).
* * sendbufs_num sets the number of send buffers that can be
* pre-allocated for communication (with -1, defaults to
* 512 buffers of MTU size).
* * network_pkey sets the protection key to employ for point-to-point
* PSM communication. Unless a specific value is used,
* this parameter should be set to
* PSM_EP_OPEN_PKEY_DEFAULT.
*
* [warning] Currently, PSM limits the user to calling psm_ep_open only once
* per process and subsequent calls will fail. Multiple endpoints per process
* will be enabled in a future release.
*
* @verbatim
* // In order to open an endpoint and participate in a job, each endpoint has
* // to be distributed a unique 16-byte UUID key from an out-of-band source.
* // Presumably this can come from the parallel spawning utility either
* // indirectly through an implementors own spawning interface or as in this
* // example, the UUID is set as a string in an environment variable
* // propagated to all endpoints in the job.
*
* int try_to_open_psm_endpoint(psm_ep_t *ep, // output endpoint handle
* psm_epid_t *epid, // output endpoint identifier
* int unit) // unit of our choice
* {
* psm_ep_open_opts epopts;
* psm_uuid_t job_uuid;
* char *c;
*
* // Let PSM assign its default values to the endpoint options.
* psm_ep_open_opts_get_defaults(&epopts);
*
* // We want a stricter timeout and a specific unit
* epopts.timeout = 15*1e9; // 15 second timeout
* epopts.unit = unit; // We want a specific unit, -1 would let PSM
* // choose the unit for us.
* epopts.port = port; // We want a specific unit, <= 0 would let PSM
* // choose the port for us.
* // We've already set affinity, don't let PSM do so if it wants to.
* if (epopts.affinity == PSM_EP_OPEN_AFFINITY_SET)
* epopts.affinity = PSM_EP_OPEN_AFFINITY_SKIP;
*
* // ENDPOINT_UUID is set to the same value in the environment of all the
* // processes that wish to communicate over PSM and was generated by
* // the process spawning utility
* c = getenv("ENDPOINT_UUID");
* if (c && *c)
* implementor_string_to_16byte_packing(c, job_uuid);
* else {
* fprintf(stderr, "Can't find UUID for endpoint\n);
* return -1;
* }
*
* // Assume we don't want to handle errors here.
* psm_ep_open(job_uuid, &epopts, ep, epid);
* return 1;
* }
* @endverbatim */
psm_error_t
psm_ep_open(const psm_uuid_t unique_job_key, const struct psm_ep_open_opts *opts,
psm_ep_t *ep, psm_epid_t *epid);
/* Endpoint open default options.
*
* Function used to initialize the set of endpoint options to their default
* values for use in psm_ep_open.
*
* [out] opts Endpoint Open options.
*
* [warning] For portable operation, users should always call this function
* prior to calling psm_ep_open.
*
* [return] PSM_OK If result could be updated
* [return] PSM_INIT_NOT_INIT If psm has not been initialized.
*/
psm_error_t
psm_ep_open_opts_get_defaults(struct psm_ep_open_opts *opts);
/* Endpoint shared memory query
*
* Function used to determine if a remote endpoint shares memory with a
* currently opened local endpiont.
*
* [in] ep Endpoint handle
* [in] epid Endpoint ID
*
* [out] result Result is non-zero if the remote endpoint shares memory with the local
* endpoint ep, or zero otherwise.
*
* [return] PSM_OK If result could be updated
* [return] PSM_EPID_UNKNOWN If the epid is not recognized
*/
psm_error_t
psm_ep_epid_share_memory(psm_ep_t ep, psm_epid_t epid, int *result);
/* Close endpoint
* [in] ep PSM endpoint handle
* [in] mode One of PSM_EP_CLOSE_GRACEFUL or PSM_EP_CLOSE_FORCE
* [in] timeout How long to wait in nanoseconds if mode is
* PSM_EP_CLOSE_GRACEFUL, 0 waits forever. If mode is
* PSM_EP_CLOSE_FORCE, this parameter is ignored.
*
* The following errors are returned, others are handled by the per-endpoint
* error handler:
*
* [return] PSM_OK Endpoint was successfully closed without force or
* successfully closed with force within the supplied timeout.
* [return] PSM_EP_CLOSE_TIMEOUT Endpoint could not be successfully closed
* within timeout.
*/
psm_error_t
psm_ep_close(psm_ep_t ep, int mode, int64_t timeout);
#define PSM_EP_CLOSE_GRACEFUL 0 /* Graceful close mode in psm_ep_close */
#define PSM_EP_CLOSE_FORCE 1 /* Forceful close mode in psm_ep_close */
/* Provide mappings for network id to hostname
*
* Since PSM does not assume or rely on the availability of an external
* networkid-to-hostname mapping service, users can provide one or more of
* these mappings. The psm_map_nid_hostname function allows a list of
* network ids to be associated to hostnames.
*
* This function is not mandatory for correct operation but may allow PSM to
* provide better diagnostics when remote endpoints are unavailable and can
* otherwise only be identified by their network id.
*
* [in] num Number elements in nid and hostnames arrays
* [in] nids User-provided array of network ids (i.e. InfiniBand LIDs),
* should be obtained by calling psm_epid_nid on each
* epid.
* [in] hostnames User-provided array of hostnames (array of
* NUL-terimated strings) where each hostname index
* maps to the provided nid hostname.
*
* [warning] Duplicate nids may be provided in the input nids array, only
* the first corresponding hostname will be remembered.
*
* [pre] The user may or may not have already provided a hostname mappings.
* [post] The user may free any dynamically allocated memory passed to the
* function.
*
*/
psm_error_t
psm_map_nid_hostname(int num, const uint64_t *nids, const char **hostnames);
/* Connect one or more remote endpoints to a local endpoint
*
* Function to non-collectively establish a connection to a set of endpoint IDs
* and translate endpoint IDs into endpoint addresses. Establishing a remote
* connection with a set of remote endpoint IDs does not imply a collective
* operation and the user is free to connect unequal sets on each process.
* Similarly, a given endpoint address does not imply that a pairwise
* communication context exists between the local endpoint and remote endpoint.
*
* [in] ep PSM endpoint handle
*
* [in] num_of_epid The amount of endpoints to connect to, which
* also establishes the amount of elements contained in
* all of the function's array-based parameters.
*
* [in] array_of_epid User-allocated array that contains num_of_epid
* valid endpoint identifiers. Each endpoint id (or
* epid) has been obtained through an out-of-band
* mechanism and each endpoint must have been opened
* with the same uuid key.
*
* [in] array_of_epid_mask User-allocated array that contains num_of_epid
* integers. This array of masks allows users to
* select which of the epids in array_of_epid
* should be connected. If the integer at index i is
* zero, psm does not attempt to connect to the epid
* at index i in array_of_epid. If this parameter
* is NULL, psm will try to connect to each epid.
*
* [out] array_of_errors User-allocated array of at least num_of_epid
* elements. If the function does not return
* PSM_OK, this array can be consulted for each
* endpoint not masked off by array_of_epid_mask
* to know why the endpoint could not be connected.
* Endpoints that could not be connected because of
* an unrelated failure will be marked as @ref
* PSM_EPID_UNKNOWN. If the function returns
* PSM_OK, the errors for all endpoints will also
* contain PSM_OK.
*
* [out] array_of_epaddr User-allocated array of at least num_of_epid
* elements of type psm_epaddr_t. Each
* successfully connected endpoint is updated with
* an endpoint address handle that corresponds to
* the endpoint id at the same index in @c
* array_of_epid. Handles are only updated if the
* endpoint could be connected and if its error in
* array_of_errors is PSM_OK.
*
* [in] timeout Timeout in nanoseconds after which connection attempts will
* be abandoned. Setting this value to 0 disables timeout
* and waits until all endpoints have been successfully
* connected or until an error is detected.
*
* [pre] The user has opened a local endpoint and obtained a list of endpoint
* IDs to connect to a given endpoint handle using an out-of-band
* mechanism not provided by PSM.
*
* [post] If the connect is successful, array_of_epaddr is updated with valid
* endpoint addresses.
*
* [post] If unsuccessful, the user can query the return status of each
* individual remote endpoint in array_of_errors.
*
* [post] The user can call into psm_ep_connect many times with the same
* endpoint ID and the function is guaranteed to return the same output
* parameters.
*
* [post] PSM does not keep any reference to the arrays passed into the
* function and the caller is free to deallocate them.
*
* The error value with the highest importance is returned by
* the function if some portion of the communication failed. Users should
* always refer to individual errors in array_of_errors whenever the
* function cannot return PSM_OK.
*
* [returns] PSM_OK The entire set of endpoint IDs were successfully connected
* and endpoint addresses are available for all endpoint IDs.
*
* @verbatim
* int connect_endpoints(psm_ep_t ep, int numep, const psm_epid_t *array_of_epid,
* psm_epaddr_t **array_of_epaddr_out)
* {
* psm_error_t *errors = (psm_error_t *)
* calloc(numep, sizeof(psm_error_t));
* if (errors == NULL)
* return -1;
*
* psm_epaddr_t *all_epaddrs =
* (psm_epaddr_t *) calloc(numep, sizeof(psm_epaddr_t));
*
* if (all_epaddrs == NULL)
* return -1;
*
* psm_ep_connect(ep, numep, array_of_epid,
* NULL, // We want to connect all epids, no mask needed
* errors,
* all_epaddrs,
* 30*e9); // 30 second timeout, <1 ns is forever
* *array_of_epaddr_out = all_epaddrs;
* free(errors);
* return 1;
* }
* @endverbatim */
psm_error_t
psm_ep_connect(psm_ep_t ep, int num_of_epid, const psm_epid_t *array_of_epid,
const int *array_of_epid_mask, psm_error_t *array_of_errors,
psm_epaddr_t *array_of_epaddr, int64_t timeout);
/* Ensure endpoint communication progress
*
* Function to ensure progress for all PSM components instantiated on an
* endpoint (currently, this only includes the MQ component). The function
* never blocks and is typically required in two cases:
*
* * Allowing all PSM components instantiated over a given endpoint to make
* communication progress. Refer to mq_progress for a detailed
* discussion on MQ-level progress issues.
*
* * Cases where users write their own synchronization primitives that
* depend on remote communication (such as spinning on a memory location
* which's new value depends on ongoing communication).
*
* The poll function doesn't block, but the user can rely on the @ref
* PSM_OK_NO_PROGRESS return value to control polling behaviour in terms of
* frequency (poll until an event happens) or execution environment (poll for a
* while but yield to other threads of CPUs are oversubscribed).
*
* [returns] PSM_OK Some communication events were progressed
* [returns] PSM_OK_NO_PROGRESS Polling did not yield any communication progress
*
*/
psm_error_t
psm_poll(psm_ep_t ep);
/* Set a user-determined ep address label.
*
* [in] epaddr Endpoint address, obtained from psm_ep_connect
* [in] epaddr_label_string User-allocated string to print when
* identifying endpoint in error handling or other verbose
* printing. The NULL-terminated string must be allocated by
* the user since PSM only keeps a pointer to the label. If
* users do not explicitly set a label for each endpoint,
* endpoints will identify themselves as hostname:port.
*/
void
psm_epaddr_setlabel(psm_epaddr_t epaddr, const char *epaddr_label_string);
/* Set a user-determined ep address context.
*
* [in] epaddr Endpoint address, obtained from psm_ep_connect
* [in] ctxt Opaque user defined state to associate with an endpoint
* address. This state can be retrieved via
* psm_epaddr_getctxt.
*/
void
psm_epaddr_setctxt(psm_epaddr_t epaddr, void *ctxt);
/* Get the user-determined ep address context. Users can associate an
* opaque context with each endpoint via psm_epaddr_setctxt.
*
* [in] epaddr Endpoint address, obtained from psm_ep_connect.
*/
void *
psm_epaddr_getctxt(psm_epaddr_t epaddr);
/* Below are all component specific options. The component object for each of
* the options is also specified.
*/
/* PSM_COMPONENT_CORE options */
/* PSM debug level */
#define PSM_CORE_OPT_DEBUG 0x101
/* [uint32_t ] Set/Get the PSM debug level. This option can be set
* before initializing the PSM library.
*
* component object: (null)
* option value: PSM Debug mask to set or currently active debug level.
*/
/* PSM endpoint address context */
#define PSM_CORE_OPT_EP_CTXT 0x102
/* [uint32_t ] Set/Get the context associated with a PSM endpoint
* address (psm_epaddr_t).
*
* component object: PSM endpoint (psm_epaddr_t) address.
* option value: Context associated with PSM endpoint address.
*/
/* PSM_COMPONENT_IB options */
/* Default service level to use to communicate with remote endpoints */
#define PSM_IB_OPT_DF_SL 0x201
/* [uint32_t ] Default Infiniband SL to use for all remote communication.
* If unset defaults to Service Level 0.
*
* component object: Opened PSM endpoint id (psm_ep_t).
* option value: Default IB SL to use for endpoint. (0 <= SL < 15)
*/
/* Set IB service level to use for communication to an endpoint */
#define PSM_IB_OPT_EP_SL 0x202
/* [uint32_t ] Infiniband SL to use for communication to specified
* remote endpoint.
*
* component object: PSM endpoint (@ ref psm_epaddr_t) address.
* option value: SL used to communicate with remote endpoint. (0 <= SL < 15)
*/
/* PSM_COMPONENT_MQ options (deprecates psm_mq_set|getopt) */
/* MQ options that can be set in psm_mq_init and psm_{set,get}_opt */
#define PSM_MQ_OPT_RNDV_IB_SZ 0x301
#define PSM_MQ_RNDV_IPATH_SZ PSM_MQ_OPT_RNDV_IB_SZ
/* [uint32_t ] Size at which to start enabling rendezvous
* messaging for InfiniPath messages (if unset, defaults to values
* between 56000 and 72000 depending on the system configuration)
*
* component object: PSM Matched Queue (psm_mq_t).
* option value: Size at which to switch to rendezvous protocol.
*/
#define PSM_MQ_OPT_RNDV_SHM_SZ 0x302
#define PSM_MQ_RNDV_SHM_SZ PSM_MQ_OPT_RNDV_SHM_SZ
/* [uint32_t ] Size at which to start enabling
* rendezvous messaging for shared memory (intra-node) messages (If
* unset, defaults to 64000 bytes).
*
* component object: PSM Matched Queue (psm_mq_t).
* option value: Size at which to switch to rendezvous protocol.
*/
#define PSM_MQ_OPT_SYSBUF_MYBYTES 0x303
#define PSM_MQ_MAX_SYSBUF_MBYTES PSM_MQ_OPT_SYSBUF_MYBYTES
/* [uint32_t ] Maximum amount of bytes to allocate for unexpected
* messages.
*
* component object: PSM Matched Queue (psm_mq_t).
* option value: Maximum amount of bytes to allocate for unexpected messages.
* Mesages that would cause memory allocation to exceed this amount will be
* dropped.
*/
/* PSM_COMPONENT_AM options */
#define PSM_AM_OPT_FRAG_SZ 0x401
/* Set an option for a PSM component
*
* Function to set the value of a PSM component option
*
* [in] component Type of PSM component for which to set the option
* [in] component_obj Opaque component specify object to apply the set
* operation on. These are passed uninterpreted to the
* appropriate component for interpretation.
* [in] optname Name of component option to set. These are component
* specific and passed uninterpreted to the appropriate
* component for interpretation.
* [in] optval Pointer to storage that contains the value to be updated
* for the supplied option. It is up to the user to
* ensure that the pointer points to a memory location with a
* correct size and format.
* [in] optlen Size of the memory region pointed to by optval.
*
* [returns] PSM_OK if option could be set.
* [returns] PSM_PARAM_ERR if the component or optname are not valid.
* [returns] PSM_OPT_READONLY if the option to be set is a read-only option.
*
*/
psm_error_t
psm_setopt(psm_component_t component, const void *component_obj,
int optname, const void *optval, uint64_t optlen);
/* Get an option for a PSM component
*
* Function to get the value of a PSM component option
*
* [in] component Type of PSM component for which to get the option
* [in] component_obj Opaque component specify object to apply the get
* operation on. These are passed uninterpreted to the
* appropriate component for interpretation.
* [in] optname Name of component option to get. These are component
* specific and passed uninterpreted to the appropriate
* component for interpretation.
* [out] optval Pointer to storage that contains the value to be updated
* for the supplied option. It is up to the user to
* ensure that the pointer points to a valid memory region.
* [in,out] optlen This is a value result parameter initially containing
* the size of the memory region pointed to by optval and
* modified to return the actual size of optval.
*
* [returns] PSM_OK if option value could be retrieved successfully.
* [returns] PSM_PARAM_ERR if the component or optname are not valid.
* [returns] PSM_NO_MEMORY if the memory region optval is of insufficient size.
* optlen contains the required memory region size for
* optname value.
*
*/
psm_error_t
psm_getopt(psm_component_t component, const void *component_obj,
int optname, void *optval, uint64_t *optlen);
/* Datatype for end-point information */
typedef struct psm_epinfo {
psm_ep_t ep; /* The ep for this end-point*/
psm_epid_t epid; /* The epid for this end-point */
psm_uuid_t uuid; /* The UUID for this end-point */
char uuid_str[64]; /* String representation of the UUID for this end-point */
} psm_epinfo_t;
/* Datatype for end-point connection */
typedef struct psm_epconn {
psm_epaddr_t addr; /* The epaddr for this connection */
psm_ep_t ep; /* The ep for this connection */
psm_mq_t mq; /* The mq for this connection */
} psm_epconn_t;
/* Query PSM for end-point information.
*
* Function to query PSM for end-point information. This allows retrieval of end-point
* information in cases where the caller does not have access to the results of psm_ep_open().
* In single-rail mode PSM will use a single end-point. In multi-rail mode, PSM will use an
* end-point per rail.
*
* [in,out] num_of_epinfo On input, sizes the available number of entries in array_of_epinfo.
* On output, specifies the returned number of entries in array_of_epinfo.
* [out] array_of_epinfo Returns end-point information structures.
*
* [pre] PSM is initialized and the end-point has been opened.
*
* [returns] PSM_OK indicates success.
* [returns] PSM_PARAM_ERR if input num_if_epinfo is less than or equal to zero.
* [returns] PSM_EP_WAS_CLOSED if PSM end-point is closed or does not exist.
*/
psm_error_t
psm_ep_query (int *num_of_epinfo, psm_epinfo_t *array_of_epinfo);
/* Query PSM for end-point connections.
*
* Function to query PSM for end-point connections. This allows retrieval of end-point
* connnections in cases where the caller does not have access to the results of psm_ep_connect().
* The epid values can be found using psm_ep_query() so that each PSM process can determine
* its own epid. These values can then be distributed across the PSM process so that each PSM
* process knows the epid for all other PSM processes.
*
* [in] epid The epid of a PSM process.
* [out] epconn The connection information for that PSM process.
*
* [pre] PSM is initialized and the end-point has been connected to this epid.
*
* [returns] PSM_OK indicates success.
* [returns] PSM_EP_WAS_CLOSED if PSM end-point is closed or does not exist.
* [returns] PSM_EPID_UNKNOWN if the epid value is not known to PSM.
*/
psm_error_t
psm_ep_epid_lookup (psm_epid_t epid, psm_epconn_t *epconn);
#ifdef __cplusplus
} /* extern "C" */
#endif
#endif
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