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/**
* @file rtems/score/mpci.h
*
* @brief Constants and Structures Associated with the MPCI Layer
*
* This include file contains all the constants and structures associated
* with the MPCI layer. It provides mechanisms to utilize packets.
*/
/*
* COPYRIGHT (c) 1989-2009.
* On-Line Applications Research Corporation (OAR).
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.com/license/LICENSE.
*/
#ifndef _RTEMS_SCORE_MPCI_H
#define _RTEMS_SCORE_MPCI_H
/**
* @defgroup ScoreMPCI MPCI Handler
*
* @ingroup Score
*
* The MPCI Handler encapsulates functionality which is related to the
* generation, receipt, and processing of remote operations in a
* multiprocessor system. This handler contains the message passing
* support for making remote service calls as well as the server thread
* which processes requests from remote nodes.
*/
/**@{*/
#ifdef __cplusplus
extern "C" {
#endif
#include <rtems/score/mppkt.h>
#include <rtems/score/states.h>
#include <rtems/score/thread.h>
#include <rtems/score/threadq.h>
#include <rtems/score/tqdata.h>
#include <rtems/score/watchdog.h>
/**
* The following defines the node number used when a broadcast is desired.
*/
#define MPCI_ALL_NODES 0
/**
* For packets associated with requests that don't already have a timeout,
* use the one specified by this MPCI driver. The value specified by
* the MPCI driver sets an upper limit on how long a remote request
* should take to complete.
*/
#define MPCI_DEFAULT_TIMEOUT 0xFFFFFFFF
/**
* This type is returned by all user provided MPCI routines.
*/
typedef void MPCI_Entry;
/**
* This type defines the prototype for the initization entry point
* in an Multiprocessor Communications Interface.
*/
typedef MPCI_Entry ( *MPCI_initialization_entry )( void );
/**
* This type defines the prototype for the get packet entry point
* in an Multiprocessor Communications Interface. The single
* parameter will point to the packet allocated.
*/
typedef MPCI_Entry ( *MPCI_get_packet_entry )(
MP_packet_Prefix **
);
/**
* This type defines the prototype for the return packet entry point
* in an Multiprocessor Communications Interface. The single
* parameter will point to a packet previously allocated by the
* get packet MPCI entry.
*/
typedef MPCI_Entry ( *MPCI_return_packet_entry )(
MP_packet_Prefix *
);
/**
* This type defines the prototype for send get packet entry point
* in an Multiprocessor Communications Interface. The single
* parameter will point to a packet previously allocated by the
* get packet entry point that has been filled in by the caller.
*/
typedef MPCI_Entry ( *MPCI_send_entry )(
uint32_t,
MP_packet_Prefix *
);
/**
* This type defines the prototype for the receive packet entry point
* in an Multiprocessor Communications Interface. The single
* parameter will point to a packet allocated and filled in by the
* receive packet handler. The caller will block until a packet is
* received.
*/
typedef MPCI_Entry ( *MPCI_receive_entry )(
MP_packet_Prefix **
);
/**
* This type defines the Multiprocessor Communications
* Interface (MPCI) Table. This table defines the user-provided
* MPCI which is a required part of a multiprocessor system.
*
* For non-blocking local operations that become remote operations,
* we need a timeout. This is a per-driver timeout: default_timeout
*/
typedef struct {
/** This fields contains the timeout for MPCI operations in ticks. */
uint32_t default_timeout;
/** This field contains the maximum size of a packet supported by this
* MPCI layer. This size places a limit on the size of a message
* which can be transmitted over this interface.
**/
size_t maximum_packet_size;
/** This field points to the MPCI initialization entry point. */
MPCI_initialization_entry initialization;
/** This field points to the MPCI get packet entry point. */
MPCI_get_packet_entry get_packet;
/** This field points to the MPCI return packet entry point. */
MPCI_return_packet_entry return_packet;
/** This field points to the MPCI send packet entry point. */
MPCI_send_entry send_packet;
/** This field points to the MPCI receive packet entry point. */
MPCI_receive_entry receive_packet;
} MPCI_Control;
/**
* The following defines the type for packet processing routines
* invoked by the MPCI Receive server.
*/
typedef void (*MPCI_Packet_processor)( MP_packet_Prefix * );
/**
* The following enumerated type defines the list of
* internal MP operations.
*/
typedef enum {
MPCI_PACKETS_SYSTEM_VERIFY = 0
} MPCI_Internal_Remote_operations;
/**
* The following data structure defines the packet used to perform
* remote event operations.
*/
typedef struct {
/** This field is the general header for all packets. */
MP_packet_Prefix Prefix;
/** This value specifies the operation. */
MPCI_Internal_Remote_operations operation;
/** This is the maximum number of nodes in the system. It must agree
* on all nodes.
*/
uint32_t maximum_nodes;
/** This field is the maximum number of concurrently existent
* globally offered objects.
*/
uint32_t maximum_global_objects;
} MPCI_Internal_packet;
/**
* The following thread queue is used to maintain a list of tasks
* which currently have outstanding remote requests.
*/
SCORE_EXTERN Thread_queue_Control _MPCI_Remote_blocked_threads;
/**
* The following define the internal pointers to the user's
* configuration information.
*/
SCORE_EXTERN MPCI_Control *_MPCI_table;
/**
* @brief Pointer to MP thread control block.
*
* The following is used to determine when the multiprocessing receive
* thread is executing so that a proxy can be allocated instead of
* blocking the multiprocessing receive thread.
*/
SCORE_EXTERN Thread_Control *_MPCI_Receive_server_tcb;
/**
* The following table contains the process packet routines provided
* by each object that supports MP operations.
*/
SCORE_EXTERN MPCI_Packet_processor
_MPCI_Packet_processors[MP_PACKET_CLASSES_LAST+1];
/**
* @brief Initialize the MPCI handler.
*
* This routine performs the initialization necessary for this handler.
*
* @param[in] timeout_status is the value which should be returned to
* blocking threads when they timeout on a remote operation.
*/
void _MPCI_Handler_initialization(
uint32_t timeout_status
);
/**
* @brief Create the MPCI server thread.
*
* This routine creates the packet receive server used in MP systems.
*/
void _MPCI_Create_server( void );
/**
* @brief Initialize the MPCI driver.
*
* This routine initializes the MPCI driver by
* invoking the user provided MPCI initialization callout.
*/
void _MPCI_Initialization ( void );
/**
* This routine registers the MPCI packet processor for the
* designated object class.
*
* @param[in] the_class is the class indicator for packets which will
* be processed by @a the_packet_processor method.
* @param[in] the_packet_processor is a pointer to a method which is
* invoked when packets with @a the_class are received.
*/
void _MPCI_Register_packet_processor(
MP_packet_Classes the_class,
MPCI_Packet_processor the_packet_processor
);
/**
* This function obtains a packet by invoking the user provided
* MPCI get packet callout.
*
* @retval This method returns a pointer to a MPCI packet which can be
* filled in by the caller and used to perform a subsequent
* remote operation.
*/
MP_packet_Prefix *_MPCI_Get_packet ( void );
/**
* @brief Deallocate a packet.
*
* This routine deallocates a packet by invoking the user provided
* MPCI return packet callout.
*
* @param[in] the_packet is the MP packet to deallocate.
*/
void _MPCI_Return_packet (
MP_packet_Prefix *the_packet
);
/**
* @brief Send a process packet.
*
* This routine sends a process packet by invoking the user provided
* MPCI send callout.
*
* @param[in] destination is the node which should receive this packet.
* @param[in] the_packet is the packet to be sent.
*/
void _MPCI_Send_process_packet (
uint32_t destination,
MP_packet_Prefix *the_packet
);
/**
* @brief Send a request packet.
*
* This routine sends a request packet by invoking the user provided
* MPCI send callout.
*
* @param[in] destination is the node which should receive this packet.
* @param[in] the_packet is the packet to be sent.
* @param[in] extra_state is the extra thread state bits which should be
* set in addition to the remote operation pending state. It
* may indicate the caller is blocking on a message queue
* operation.
*
* @retval This method returns the operation status from the remote node.
*/
uint32_t _MPCI_Send_request_packet (
uint32_t destination,
MP_packet_Prefix *the_packet,
States_Control extra_state
);
/**
* @brief Send a response packet.
*
* This routine sends a response packet by invoking the user provided
* MPCI send callout.
*
* @param[in] destination is the node which should receive this packet.
* @param[in] the_packet is the packet to be sent.
*/
void _MPCI_Send_response_packet (
uint32_t destination,
MP_packet_Prefix *the_packet
);
/**
* @brief Receive a packet.
*
* This routine receives a packet by invoking the user provided
* MPCI receive callout.
*
* @retval This method returns the packet received.
*/
MP_packet_Prefix *_MPCI_Receive_packet ( void );
/**
* @brief Pass a packet to the thread.
*
* This routine is responsible for passing @a the_packet to the thread
* waiting on the remote operation to complete. The unblocked thread is
* responsible for eventually freeing @a the_packet.
*
* @param[in] the_packet is the response packet to be processed.
*
* @retval This method returns a pointer to the thread which was if unblocked
* or NULL if the waiting thread no longer exists.
*/
Thread_Control *_MPCI_Process_response (
MP_packet_Prefix *the_packet
);
/**
* @brief Receive and process all packets.
*
* This is the server thread which receives and processes all MCPI packets.
*
* @param[in] ignored is the thread argument. It is not used.
*/
Thread _MPCI_Receive_server(
uint32_t ignored
);
/**
* @brief Announce the availability of a packet.
*
* This routine informs RTEMS of the availability of an MPCI packet.
*/
void _MPCI_Announce ( void );
/**
* @brief Perform a process on another node.
*
* This routine performs a remote procedure call so that a
* process operation can be performed on another node.
*
* @param[in] operation is the remote operation to perform.
*/
void _MPCI_Internal_packets_Send_process_packet (
MPCI_Internal_Remote_operations operation
);
/**
* _MPCI_Internal_packets_Send_request_packet
*
* This routine performs a remote procedure call so that a
* directive operation can be initiated on another node.
*
* This routine is not needed since there are no request
* packets to be sent by this manager.
*/
/**
* _MPCI_Internal_packets_Send_response_packet
*
* This routine performs a remote procedure call so that a
* directive can be performed on another node.
*
* This routine is not needed since there are no response
* packets to be sent by this manager.
*/
/**
* @brief Perform requested action from another node.
*
* This routine performs the actions specific to this package for
* the request from another node.
*/
void _MPCI_Internal_packets_Process_packet (
MP_packet_Prefix *the_packet_prefix
);
/**
* _MPCI_Internal_packets_Send_object_was_deleted
*
* This routine is invoked indirectly by the thread queue
* when a proxy has been removed from the thread queue and
* the remote node must be informed of this.
*
* This routine is not needed since there are no objects
* deleted by this manager.
*/
/**
* _MPCI_Internal_packets_Send_extract_proxy
*
* This routine is invoked when a task is deleted and it
* has a proxy which must be removed from a thread queue and
* the remote node must be informed of this.
*
* This routine is not needed since there are no objects
* deleted by this manager.
*/
/**
* @brief Obtain an internal thread.
*
* This routine is used to obtain an internal threads MP packet.
*/
MPCI_Internal_packet *_MPCI_Internal_packets_Get_packet ( void );
#ifdef __cplusplus
}
#endif
/**@}*/
#endif
/* end of include file */
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