/* shm_driver.h
*
* This include file contains all the constants, structures,
* and global variables for this RTEMS based shared memory
* communications interface driver.
*
* Processor board dependencies are in other files.
*
* COPYRIGHT (c) 1989-2007.
* 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.org/license/LICENSE.
*/
#ifndef __SHM_h
#define __SHM_h
#include <rtems/clockdrv.h>
#ifdef __cplusplus
extern "C" {
#endif
/* The information contained in the Node Status, Locked Queue, and
* Envelope Control Blocks must be maintained in a NEUTRAL format.
* Currently the neutral format may be selected as big or little
* endian by simply defining either NEUTRAL_BIG or NEUTRAL_LITTLE.
*
* It is CRITICAL to note that the neutral format can ONLY be
* changed by modifying this file and recompiling the ENTIRE
* SHM driver including ALL target specific support files.
*
* The following table details the memory contents for the endian
* field of the Node Status Control Block in the various
* data format configurations (data is in hexadecimal):
*
* NEUTRAL NATIVE BYTE 0 BYTE 1 BYTE 2 BYTE 3
* ======= ====== ====== ====== ====== ======
* BIG BIG 00 00 00 01
* BIG LITTLE 10 00 00 00
* LITTLE BIG 01 00 00 00
* LITTLE LITTLE 00 00 00 10
*
*
* NOTE: XXX
* PORTABILITY OF LOCKING INSTRUCTIONS
* ===================================
* The locking mechanism described below is not
* general enough. Where the hardware supports
* it we should use "atomic swap" instructions
* so the values in the lock can be tailored to
* support a CPU with only weak atomic memory
* instructions. There are combinations of
* CPUs with inflexible atomic memory instructions
* which appear to be incompatible. For example,
* the SPARClite instruction uses a byte which is
* 0xFF when locked. The PA-RISC uses 1 to indicate
* locked and 0 when unlocked. These CPUs appear to
* have incompatible lock instructions. But
* they could be used in a heterogenous system
* with does not mix SPARCs and PA-RISCs. For
* example, the i386 and SPARC or i386 and SPARC
* could work together. The bottom line is that
* not every CPU will work together using this
* locking scheme. There are supposed to be
* algorithms to do this without hardware assist
* and one of these should be incorporated into
* the shared memory driver.
*
* The most flexible scheme using the instructions
* of the various CPUs for efficiency would be to use
* "atomic swaps" wherever possible. Make the lock
* and unlock configurable much like BIG vs LITTLE
* endian use of shared memory is now. The values
* of the lock could then reflect the "worst"
* CPU in a system. This still results in mixes
* of CPUs which are incompatible.
*
* The current locking mechanism is based upon the MC68020
* "tas" instruction which is atomic. All ports to other CPUs
* comply with the restrictive placement of lock bit by this
* instruction. The lock bit is the most significant bit in a
* big-endian uint32_t . On other processors, the lock is
* typically implemented via an atomic swap or atomic modify
* bits type instruction.
*/
#define NEUTRAL_BIG
#ifdef NEUTRAL_BIG
#define SHM_BIG 0x00000001
#define SHM_LITTLE 0x10000000
#endif
#ifdef NEUTRAL_LITTLE
#define SHM_BIG 0x01000000
#define SHM_LITTLE 0x00000010
#endif
/*
* The following are the values used to fill in the lock field. Some CPUs
* are able to write only a single value into field. By making the
* lock and unlock values configurable, CPUs which support "atomic swap"
* instructions can generally be made to work in any heterogeneous
* configuration. However, it is possible for two CPUs to be incompatible
* in regards to the lock field values. This occurs when two CPUs
* which write only a single value to the field are used in a system
* but the two CPUs write different incompatible values.
*
* NOTE: The following is a first attempt at defining values which
* have a chance at working together. The m68k should use
* chk2 instead of tas to be less restrictive. Target endian
* problems (like the Force CPU386 which has (broken) big endian
* view of the VMEbus address space) are not addressed yet.
*/
#if defined(__mc68000__)
#define SHM_LOCK_VALUE 0x80000000
#define SHM_UNLOCK_VALUE 0
#define SHM_LOCK_VALUE 0x80000000
#define SHM_UNLOCK_VALUE 0
#elif defined(__i386__)
#define SHM_LOCK_VALUE 0x80000000
#define SHM_UNLOCK_VALUE 0
#elif defined(__mips__)
#define SHM_LOCK_VALUE 0x80000000
#define SHM_UNLOCK_VALUE 0
#elif defined(__hppa__)
#define SHM_LOCK_VALUE 0
#define SHM_UNLOCK_VALUE 1
#elif defined(__PPC__)
#define SHM_LOCK_VALUE 1
#define SHM_UNLOCK_VALUE 0
#elif defined(__unix__)
#define SHM_LOCK_VALUE 0
#define SHM_UNLOCK_VALUE 1
#elif defined(_AM29K)
#define SHM_LOCK_VALUE 0
#define SHM_UNLOCK_VALUE 1
#elif defined(__nios2__)
#define SHM_LOCK_VALUE 1
#define SHM_UNLOCK_VALUE 0
#elif defined(__sparc__)
#define SHM_LOCK_VALUE 1
#define SHM_UNLOCK_VALUE 0
#elif defined(no_cpu) /* for this values are irrelevant */
#define SHM_LOCK_VALUE 1
#define SHM_UNLOCK_VALUE 0
#else
#error "shm_driver.h - no SHM_LOCK_VALUE defined for this CPU architecture"
#endif
#define Shm_Convert( value ) \
((Shm_Configuration->convert) ? \
(*Shm_Configuration->convert)(value) : (value))
/* constants */
#define SHM_MASTER 1 /* master initialization node */
#define SHM_FIRST_NODE 1
/* size constants */
#define KILOBYTE (1024)
#define MEGABYTE (1024*1024)
/* inter-node interrupt values */
#define NO_INTERRUPT 0 /* used for polled nodes */
#define BYTE 1
#define WORD 2
#define LONG 4
/* operational mode constants -- used in SHM Configuration Table */
#define POLLED_MODE 0
#define INTR_MODE 1
/* error codes */
#define NO_ERROR 0
#define SHM_NO_FREE_PKTS 0xf0000
/* null pointers of different types */
#define NULL_ENV_CB ((Shm_Envelope_control *) 0)
#define NULL_CONVERT 0
/*
* size of stuff before preamble in envelope.
* It must be a constant since we will use it to generate MAX_PACKET_SIZE
*/
#define SHM_ENVELOPE_PREFIX_OVERHEAD (4 * sizeof(vol_u32))
/*
* The following is adjusted so envelopes are MAX_ENVELOPE_SIZE bytes long.
* It must be >= RTEMS_MINIMUM_PACKET_SIZE in mppkt.h.
*/
#ifndef MAX_ENVELOPE_SIZE
#define MAX_ENVELOPE_SIZE 0x180
#endif
#define MAX_PACKET_SIZE (MAX_ENVELOPE_SIZE - \
SHM_ENVELOPE_PREFIX_OVERHEAD + \
sizeof(Shm_Envelope_preamble) + \
sizeof(Shm_Envelope_postamble))
/* constants pertinent to Locked Queue routines */
#define LQ_UNLOCKED SHM_UNLOCK_VALUE
#define LQ_LOCKED SHM_LOCK_VALUE
/* constants related to the Free Envelope Pool */
#define FREE_ENV_POOL 0
#define FREE_ENV_CB (&Shm_Locked_queues[ FREE_ENV_POOL ])
/* The following are important when dealing with
* the shared memory communications interface area.
*
* NOTE: The starting address and length of the shared memory
* is defined in a system dependent file.
*/
#define START_NS_CBS ((void *)Shm_Configuration->base)
#define START_LQ_CBS ((START_NS_CBS) + \
( (sizeof (Shm_Node_status_control)) * (SHM_MAXIMUM_NODES + 1) ) )
#define START_ENVELOPES ( ((void *) START_LQ_CBS) + \
( (sizeof (Shm_Locked_queue_Control)) * (SHM_MAXIMUM_NODES + 1) ) )
#define END_SHMCI_AREA ( (void *) START_ENVELOPES + \
( (sizeof (Shm_Envelope_control)) * Shm_Maximum_envelopes ) )
#define END_SHARED_MEM (START_NS_CBS+Shm_Configuration->length)
/* macros */
#define Shm_Is_master_node() \
( SHM_MASTER ==_Configuration_MP_table-> node )
#define Shm_Free_envelope( ecb ) \
Shm_Locked_queue_Add( FREE_ENV_CB, (ecb) )
#define Shm_Allocate_envelope() \
Shm_Locked_queue_Get(FREE_ENV_CB)
#define Shm_Initialize_receive_queue(node) \
Shm_Locked_queue_Initialize( &Shm_Locked_queues[node], node )
#define Shm_Append_to_receive_queue(node, ecb) \
Shm_Locked_queue_Add( &Shm_Locked_queues[node], (ecb) )
#define Shm_Envelope_control_to_packet_prefix_pointer(ecb) \
((void *)(ecb)->packet)
#define Shm_Packet_prefix_to_envelope_control_pointer( pkt ) \
((Shm_Envelope_control *)((uint8_t*)(pkt) - \
(sizeof(Shm_Envelope_preamble) + SHM_ENVELOPE_PREFIX_OVERHEAD)))
#define Shm_Build_preamble(ecb, node) \
(ecb)->Preamble.endian = Shm_Configuration->format
#define Shm_Build_postamble( ecb )
/* volatile types */
typedef volatile uint8_t vol_u8;
typedef volatile uint32_t vol_u32;
/* shm control information */
struct shm_info {
vol_u32 not_currently_used_0;
vol_u32 not_currently_used_1;
vol_u32 not_currently_used_2;
vol_u32 not_currently_used_3;
};
typedef struct {
/*byte start_of_text;*/
vol_u32 endian;
vol_u32 not_currently_used_0;
vol_u32 not_currently_used_1;
vol_u32 not_currently_used_2;
} Shm_Envelope_preamble;
typedef struct {
} Shm_Envelope_postamble;
/* WARNING! If you change this structure, don't forget to change
* SHM_ENVELOPE_PREFIX_OVERHEAD and
* Shm_Packet_prefix_to_envelope_control_pointer() above.
*/
/* This comment block describes the contents of each field
* of the Envelope Control Block:
*
* next - The index of the next envelope on this queue.
* queue - The index of the queue this envelope is on.
* index - The index of this envelope.
* Preamble - Generic packet preamble. One day this structure
* could be enhanced to contain routing information.
* packet - RTEMS MPCI packet. Untouched by SHM Driver
* other than copying and format conversion as
* documented in the RTEMS User's Guide.
* Postamble - Generic packet postamble. One day this structure
* could be enhanced to contain checksum information.
*/
typedef struct {
vol_u32 next; /* next envelope on queue */
vol_u32 queue; /* queue on which this resides */
vol_u32 index; /* index into array of envelopes*/
vol_u32 pad0; /* insure the next one is aligned */
Shm_Envelope_preamble Preamble; /* header information */
vol_u8 packet[MAX_PACKET_SIZE]; /* RTEMS INFO */
Shm_Envelope_postamble Postamble;/* trailer information */
} Shm_Envelope_control;
/* This comment block describes the contents of each field
* of the Locked Queue Control Block:
*
* lock - Lock used to insure mutually exclusive access.
* front - Index of first envelope on queue. This field
* is used to remove head of queue (receive).
* rear - Index of last envelope on queue. This field
* is used to add evelope to queue (send).
* owner - The node number of the recipient (owning) node.
* RTEMS does not use the node number zero (0).
* The zero node is used by the SHM Driver for the
* Free Envelope Queue shared by all nodes.
*/
typedef struct {
vol_u32 lock; /* lock field for this queue */
vol_u32 front; /* first envelope on queue */
vol_u32 rear; /* last envelope on queue */
vol_u32 owner; /* receiving (i.e. owning) node */
} Shm_Locked_queue_Control;
/* This comment block describes the contents of each field
* of the Node Status Control Block:
*
* status - Node status. Current values are Pending Initialization,
* Initialization Complete, and Active Node. Other values
* could be added to enhance fault tolerance.
* error - Zero if the node has not failed. Otherwise,
* this field contains a status indicating the
* failure reason.
* int_address, int_value, and int_length
* - These field are the Interrupt Information table
* for this node in neutral format. This is how
* each node knows how to generate interrupts.
*/
typedef struct {
vol_u32 status; /* node status information */
vol_u32 error; /* fatal error code */
vol_u32 int_address; /* write here for interrupt */
vol_u32 int_value; /* this value causes interrupt */
vol_u32 int_length; /* for this length (0,1,2,4) */
vol_u32 not_currently_used_0;
vol_u32 not_currently_used_1;
vol_u32 not_currently_used_2;
} Shm_Node_status_control;
/* This comment block describes the contents of each field
* of the Interrupt Information Table. This table describes
* how another node can generate an interrupt to this node.
* This information is target board dependent. If the
* SHM Driver is in POLLED_MODE, then all fields should
* be initialized to NO_INTERRUPT.
*
* address - The address to which another node should
* write to cause an interrupt.
* value - The value which must be written
* length - The size of the value to write. Valid
* values are BYTE, WORD, and LONG.
*
* NOTE: The Node Status Control Block contains this
* information in neutral format and not in a
* structure to avoid potential alignment problems.
*/
typedef struct {
vol_u32 *address; /* write here for interrupt */
vol_u32 value; /* this value causes interrupt */
vol_u32 length; /* for this length (0,1,2,4) */
} Shm_Interrupt_information;
/* SHM Configuration Table
*
* This comment block describes the contents of each field
* of the SHM Configuration Table.
*
* base - The base address of the shared memory. This
* address may be specific to this node.
* length - The length of the shared memory in bytes.
* format - The natural format for uint32_t 's in the
* shared memory. Valid values are currently
* only SHM_LITTLE and SHM_BIG.
* convert - The address of the routine which converts
* between neutral and local format.
* poll_intr - The operational mode of the driver. Some
* target boards may not provide hardware for
* an interprocessor interrupt. If POLLED_MODE
* is selected, the SHM driver will use a
* Classiv API Timer instance to poll for
* incoming packets. Throughput is dependent
* on the time between clock interrupts.
* Valid values are POLLED_MODE and INTR_MODE.
* cause_intr - This is the address of the routine used to
* write to a particular address and cause an
* interrupt on another node. This routine
* may need to be target dependent if something
* other than a normal write from C does not work.
* Intr - This structure describes the operation required
* to cause an interrupt to this node. The actual
* contents of this structure are described above.
*/
struct shm_config_info {
vol_u32 *base; /* base address of SHM */
vol_u32 length; /* length (in bytes) of SHM */
vol_u32 format; /* SHM is big or little endian */
uint32_t (*convert)( uint32_t );/* neutral conversion routine */
vol_u32 poll_intr;/* POLLED or INTR driven mode */
void (*cause_intr)( uint32_t);
Shm_Interrupt_information Intr; /* cause intr information */
};
typedef struct shm_config_info shm_config_table;
#define SHM_MAXIMUM_NODES Multiprocessing_configuration.maximum_nodes
/* global variables */
#ifdef _SHM_INIT
#define SHM_EXTERN
#else
#define SHM_EXTERN extern
#endif
SHM_EXTERN shm_config_table *Shm_Configuration;
SHM_EXTERN Shm_Interrupt_information *Shm_Interrupt_table;
SHM_EXTERN Shm_Node_status_control *Shm_Node_statuses;
SHM_EXTERN Shm_Locked_queue_Control *Shm_Locked_queues;
SHM_EXTERN Shm_Envelope_control *Shm_Envelopes;
SHM_EXTERN uint32_t Shm_Receive_message_count;
SHM_EXTERN uint32_t Shm_Null_message_count;
SHM_EXTERN uint32_t Shm_Interrupt_count;
SHM_EXTERN Shm_Locked_queue_Control *Shm_Local_receive_queue;
SHM_EXTERN Shm_Node_status_control *Shm_Local_node_status;
SHM_EXTERN uint32_t Shm_isrstat;
/* reported by shmdr */
SHM_EXTERN uint32_t Shm_Pending_initialization;
SHM_EXTERN uint32_t Shm_Initialization_complete;
SHM_EXTERN uint32_t Shm_Active_node;
SHM_EXTERN uint32_t Shm_Maximum_envelopes;
SHM_EXTERN uint32_t Shm_Locked_queue_End_of_list;
SHM_EXTERN uint32_t Shm_Locked_queue_Not_on_list;
/* functions */
/* locked queue routines */
void Shm_Locked_queue_Add(
Shm_Locked_queue_Control *, Shm_Envelope_control * );
Shm_Envelope_control *Shm_Locked_queue_Get( Shm_Locked_queue_Control * );
void Shm_Locked_queue_Initialize(
Shm_Locked_queue_Control *, uint32_t);
/* Shm_Initialize_lock is CPU dependent */
/* Shm_Lock is CPU dependent */
/* Shm_Unlock is CPU dependent */
/* portable routines */
void Init_env_pool( void );
void Shm_Print_statistics( void );
void MPCI_Fatal( rtems_fatal_source, bool, rtems_fatal_code );
rtems_task Shm_Cause_interrupt( uint32_t );
void Shm_install_timer( void );
void Shm_Convert_packet( rtems_packet_prefix * );
/* CPU specific routines are inlined in shmcpu.h */
/* target specific routines */
void *Shm_Convert_address( void * );
void Shm_Get_configuration( uint32_t, shm_config_table ** );
void Shm_isr( void );
void Shm_setvec( void );
void Shm_Initialize_lock( Shm_Locked_queue_Control * );
void Shm_Lock( Shm_Locked_queue_Control * );
void Shm_Unlock( Shm_Locked_queue_Control * );
/* MPCI entry points */
rtems_mpci_entry Shm_Get_packet(
rtems_packet_prefix **
);
rtems_mpci_entry Shm_Initialization( void );
rtems_mpci_entry Shm_Receive_packet(
rtems_packet_prefix **
);
rtems_mpci_entry Shm_Return_packet(
rtems_packet_prefix *
);
rtems_mpci_entry Shm_Send_packet(
uint32_t,
rtems_packet_prefix *
);
extern rtems_mpci_table MPCI_table;
#ifdef _SHM_INIT
/* multiprocessor communications interface (MPCI) table */
rtems_mpci_table MPCI_table = {
100000, /* default timeout value in ticks */
MAX_PACKET_SIZE, /* maximum packet size */
Shm_Initialization, /* initialization procedure */
Shm_Get_packet, /* get packet procedure */
Shm_Return_packet, /* return packet procedure */
Shm_Send_packet, /* packet send procedure */
Shm_Receive_packet /* packet receive procedure */
};
#endif
#ifdef __cplusplus
}
#endif
#endif
/* end of include file */