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+@c
+@c  COPYRIGHT (c) 1996.
+@c  On-Line Applications Research Corporation (OAR).
+@c  All rights reserved.
+@c
+
+@ifinfo
+@node Dual-Ported Memory Manager, Dual-Ported Memory Manager Introduction, REGION_GET_SEGMENT_SIZE - Obtain size of a segment, Top
+@end ifinfo
+@chapter Dual-Ported Memory Manager
+@ifinfo
+@menu
+* Dual-Ported Memory Manager Introduction::
+* Dual-Ported Memory Manager Background::
+* Dual-Ported Memory Manager Operations::
+* Dual-Ported Memory Manager Directives::
+@end menu
+@end ifinfo
+
+@ifinfo
+@node Dual-Ported Memory Manager Introduction, Dual-Ported Memory Manager Background, Dual-Ported Memory Manager, Dual-Ported Memory Manager
+@end ifinfo
+@section Introduction
+
+The dual-ported memory manager provides a mechanism
+for converting addresses between internal and external
+representations for multiple dual-ported memory areas (DPMA).
+The directives provided by the dual-ported memory manager are:
+
+@itemize @bullet
+@item @code{port_create} - Create a port
+@item @code{port_ident} - Get ID of a port
+@item @code{port_delete} - Delete a port
+@item @code{port_external_to_internal} - Convert external to internal address
+@item @code{port_internal_to_external} - Convert internal to external address
+@end itemize
+
+@ifinfo
+@node Dual-Ported Memory Manager Background, Dual-Ported Memory Manager Operations, Dual-Ported Memory Manager Introduction, Dual-Ported Memory Manager
+@end ifinfo
+@section Background
+
+A dual-ported memory area (DPMA) is an contiguous
+block of RAM owned by a particular processor but which can be
+accessed by other processors in the system.  The owner accesses
+the memory using internal addresses, while other processors must
+use external addresses.  RTEMS defines a port as a particular
+mapping of internal and external addresses.
+
+There are two system configurations in which
+dual-ported memory is commonly found.  The first is
+tightly-coupled multiprocessor computer systems where the
+dual-ported memory is shared between all nodes and is used for
+inter-node communication.  The second configuration is computer
+systems with intelligent peripheral controllers.  These
+controllers typically utilize the DPMA for high-performance data
+transfers.
+
+@ifinfo
+@node Dual-Ported Memory Manager Operations, Creating a Port, Dual-Ported Memory Manager Background, Dual-Ported Memory Manager
+@end ifinfo
+@section Operations
+@ifinfo
+@menu
+* Creating a Port::
+* Obtaining Port IDs::
+* Converting an Address::
+* Deleting a DPMA Port::
+@end menu
+@end ifinfo
+
+@ifinfo
+@node Creating a Port, Obtaining Port IDs, Dual-Ported Memory Manager Operations, Dual-Ported Memory Manager Operations
+@end ifinfo
+@subsection Creating a Port
+
+The port_create directive creates a port into a DPMA
+with the user-defined name.  The user specifies the association
+between internal and external representations for the port being
+created.  RTEMS allocates a Dual-Ported Memory Control Block
+(DPCB) from the DPCB free list to maintain the newly created
+DPMA.  RTEMS also generates a unique dual-ported memory port ID
+which is returned to the calling task.  RTEMS does not
+initialize the dual-ported memory area or access any memory
+within it.
+
+@ifinfo
+@node Obtaining Port IDs, Converting an Address, Creating a Port, Dual-Ported Memory Manager Operations
+@end ifinfo
+@subsection Obtaining Port IDs
+
+When a port is created, RTEMS generates a unique port
+ID and assigns it to the created port until it is deleted.  The
+port ID may be obtained by either of two methods.  First, as the
+result of an invocation of the port_create directive, the task
+ID is stored in a user provided location.  Second, the port ID
+may be obtained later using the port_ident directive.  The port
+ID is used by other dual-ported memory manager directives to
+access this port.
+
+@ifinfo
+@node Converting an Address, Deleting a DPMA Port, Obtaining Port IDs, Dual-Ported Memory Manager Operations
+@end ifinfo
+@subsection Converting an Address
+
+The port_external_to_internal directive is used to
+convert an address from external to internal representation for
+the specified port.  The port_internal_to_external directive is
+used to convert an address from internal to external
+representation for the specified port.  If an attempt is made to
+convert an address which lies outside the specified DPMA, then
+the address to be converted will be returned.
+
+@ifinfo
+@node Deleting a DPMA Port, Dual-Ported Memory Manager Directives, Converting an Address, Dual-Ported Memory Manager Operations
+@end ifinfo
+@subsection Deleting a DPMA Port
+
+A port can be removed from the system and returned to
+RTEMS with the port_delete directive.  When a port is deleted,
+its control block is returned to the DPCB free list.
+
+@ifinfo
+@node Dual-Ported Memory Manager Directives, PORT_CREATE - Create a port, Deleting a DPMA Port, Dual-Ported Memory Manager
+@end ifinfo
+@section Directives
+@ifinfo
+@menu
+* PORT_CREATE - Create a port::
+* PORT_IDENT - Get ID of a port::
+* PORT_DELETE - Delete a port::
+* PORT_EXTERNAL_TO_INTERNAL - Convert external to internal address::
+* PORT_INTERNAL_TO_EXTERNAL - Convert internal to external address::
+@end menu
+@end ifinfo
+
+This section details the dual-ported memory manager's
+directives.  A subsection is dedicated to each of this manager's
+directives and describes the calling sequence, related
+constants, usage, and status codes.
+
+@page
+@ifinfo
+@node PORT_CREATE - Create a port, PORT_IDENT - Get ID of a port, Dual-Ported Memory Manager Directives, Dual-Ported Memory Manager Directives
+@end ifinfo
+@subsection PORT_CREATE - Create a port
+
+@subheading CALLING SEQUENCE:
+
+@example
+rtems_status_code rtems_port_create(
+  rtems_name        name,
+  void             *internal_start,
+  void             *external_start,
+  rtems_unsigned32  length,
+  rtems_id         *id
+);
+@end example
+
+@subheading DIRECTIVE STATUS CODES:
+@code{SUCCESSFUL} - port created successfully@*
+@code{INVALID_NAME} - invalid task name@*
+@code{INVALID_ADDRESS} - address not on four byte boundary@*
+@code{TOO_MANY} - too many DP memory areas created
+
+@subheading DESCRIPTION:
+
+This directive creates a port which resides on the
+local node for the specified DPMA.  The assigned port id is
+returned in id.  This port id is used as an argument to other
+dual-ported memory manager directives to convert addresses
+within this DPMA.
+
+For control and maintenance of the port, RTEMS
+allocates and initializes an DPCB from the DPCB free pool.  Thus
+memory from the dual-ported memory area is not used to store the
+DPCB.
+
+@subheading NOTES:
+
+The internal_address and external_address parameters
+must be on a four byte boundary.
+
+This directive will not cause the calling task to be
+preempted.
+
+@page
+@ifinfo
+@node PORT_IDENT - Get ID of a port, PORT_DELETE - Delete a port, PORT_CREATE - Create a port, Dual-Ported Memory Manager Directives
+@end ifinfo
+@subsection PORT_IDENT - Get ID of a port
+
+@subheading CALLING SEQUENCE:
+
+@example
+rtems_status_code rtems_port_ident(
+  rtems_name  name,
+  rtems_id   *id
+);
+@end example
+
+@subheading DIRECTIVE STATUS CODES:
+@code{SUCCESSFUL} - port identified successfully@*
+@code{INVALID_NAME} - port name not found
+
+@subheading DESCRIPTION:
+
+This directive obtains the port id associated with
+the specified name to be acquired.  If the port name is not
+unique, then the port id will match one of the DPMAs with that
+name.  However, this port id is not guaranteed to correspond to
+the desired DPMA.  The port id is used to access this DPMA in
+other dual-ported memory area related directives.
+
+@subheading NOTES:
+
+This directive will not cause the running task to be
+preempted.
+
+@page
+@ifinfo
+@node PORT_DELETE - Delete a port, PORT_EXTERNAL_TO_INTERNAL - Convert external to internal address, PORT_IDENT - Get ID of a port, Dual-Ported Memory Manager Directives
+@end ifinfo
+@subsection PORT_DELETE - Delete a port
+
+@subheading CALLING SEQUENCE:
+
+@example
+rtems_status_code rtems_port_delete(
+  rtems_id id
+);
+@end example
+
+@subheading DIRECTIVE STATUS CODES:
+@code{SUCCESSFUL} - port deleted successfully@*
+@code{INVALID_ID} - invalid port id
+
+@subheading DESCRIPTION:
+
+This directive deletes the dual-ported memory area
+specified by id.  The DPCB for the deleted dual-ported memory
+area is reclaimed by RTEMS.
+
+@subheading NOTES:
+
+This directive will not cause the calling task to be
+preempted.
+
+The calling task does not have to be the task that
+created the port.  Any local task that knows the port id can
+delete the port.
+
+@page
+@ifinfo
+@node PORT_EXTERNAL_TO_INTERNAL - Convert external to internal address, PORT_INTERNAL_TO_EXTERNAL - Convert internal to external address, PORT_DELETE - Delete a port, Dual-Ported Memory Manager Directives
+@end ifinfo
+@subsection PORT_EXTERNAL_TO_INTERNAL - Convert external to internal address
+
+@subheading CALLING SEQUENCE:
+
+@example
+rtems_status_code rtems_port_external_to_internal(
+  rtems_id   id,
+  void      *external,
+  void     **internal
+);
+@end example
+
+@subheading DIRECTIVE STATUS CODES:
+@code{SUCCESSFUL} -  always successful
+
+@subheading DESCRIPTION:
+
+This directive converts a dual-ported memory address
+from external to internal representation for the specified port.
+If the given external address is invalid for the specified
+port, then the internal address is set to the given external
+address.
+
+@subheading NOTES:
+
+This directive is callable from an ISR.
+
+This directive will not cause the calling task to be
+preempted.
+
+@page
+@ifinfo
+@node PORT_INTERNAL_TO_EXTERNAL - Convert internal to external address, I/O Manager, PORT_EXTERNAL_TO_INTERNAL - Convert external to internal address, Dual-Ported Memory Manager Directives
+@end ifinfo
+@subsection PORT_INTERNAL_TO_EXTERNAL - Convert internal to external address
+
+@subheading CALLING SEQUENCE:
+
+@example
+rtems_status_code rtems_port_internal_to_external(
+  rtems_id   id,
+  void      *internal,
+  void     **external
+);
+@end example
+
+@subheading DIRECTIVE STATUS CODES:
+@code{SUCCESSFUL} -  always successful
+
+@subheading DESCRIPTION:
+
+This directive converts a dual-ported memory address
+from internal to external representation so that it can be
+passed to owner of the DPMA represented by the specified port.
+If the given internal address is an invalid dual-ported address,
+then the external address is set to the given internal address.
+
+@subheading NOTES:
+
+This directive is callable from an ISR.
+
+This directive will not cause the calling task to be
+preempted.
+
+
+
+
+