freebsd-skq/sys/netatm/atm_stack.h
Poul-Henning Kamp 1820df7a2d Add new files for HARP3
Host ATM Research Platform (HARP), Network Computing Services, Inc.
This software was developed with the support of the Defense Advanced
Research Projects Agency (DARPA).
1998-09-15 08:23:17 +00:00

288 lines
10 KiB
C

/*
*
* ===================================
* HARP | Host ATM Research Platform
* ===================================
*
*
* This Host ATM Research Platform ("HARP") file (the "Software") is
* made available by Network Computing Services, Inc. ("NetworkCS")
* "AS IS". NetworkCS does not provide maintenance, improvements or
* support of any kind.
*
* NETWORKCS MAKES NO WARRANTIES OR REPRESENTATIONS, EXPRESS OR IMPLIED,
* INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF MERCHANTABILITY
* AND FITNESS FOR A PARTICULAR PURPOSE, AS TO ANY ELEMENT OF THE
* SOFTWARE OR ANY SUPPORT PROVIDED IN CONNECTION WITH THIS SOFTWARE.
* In no event shall NetworkCS be responsible for any damages, including
* but not limited to consequential damages, arising from or relating to
* any use of the Software or related support.
*
* Copyright 1994-1998 Network Computing Services, Inc.
*
* Copies of this Software may be made, however, the above copyright
* notice must be reproduced on all copies.
*
* @(#) $Id: atm_stack.h,v 1.5 1998/02/19 19:59:59 mks Exp $
*
*/
/*
* Core ATM Services
* -----------------
*
* ATM Stack definitions
*
*/
#ifndef _NETATM_ATM_STACK_H
#define _NETATM_ATM_STACK_H
#ifdef ATM_KERNEL
/*
* Structure used to define a kernel-provided ATM stack service and its
* associated entry points. Each stack service provider must register
* themselves before they will be used. ATM stack service providers include
* kernel modules (both linked and loaded) and device drivers, which must list
* (via its atm_pif) any of its available hardware-supplied stack services
* (such as on-card AAL processing).
*/
struct stack_defn {
struct stack_defn *sd_next; /* Next in registry list */
Sap_t sd_sap; /* Stack instance SAP */
u_char sd_flag; /* Flags (see below) */
/* Exported functions */
int (*sd_inst) /* Stack instantiation */
__P((struct stack_defn **, Atm_connvc *));
void (*sd_lower) /* Lower (from above) command handler */
__P((int, void *, int, int));
void (*sd_upper) /* Upper (from below) command handler */
__P((int, void *, int, int));
/* Variables used during stack instantiation */
void *sd_toku; /* Stack service instance token */
};
/*
* Stack Service Flags
*/
#define SDF_TERM 0x01 /* Terminal (to lowest layer) service */
/*
* Stack Specification List
*
* The list names the stack services and their layering relationships in
* order to construct a stack to provide the protocol services defined
* by the list. The list is ordered starting from the stack service
* interfacing with the user "down" to the ATM cell service.
*/
#define STACK_CNT 8 /* Max services in a stack list */
struct stack_list {
Sap_t sl_sap[STACK_CNT]; /* Stack service SAP list */
};
/*
* Structure used during the construction and instantiation of a stack
* instance from a supplied stack list. It contains pointers to the stack
* service definitions which will be used to implement the stack. The first
* element in the array is reserved for the user's "stack service".
*/
struct stack_inst {
struct stack_defn *si_srvc[STACK_CNT+1]; /* Assigned services */
};
/*
* Macros to update buffer headroom values during stack instantiation.
*
* These values are advisory, i.e. every service must verify the amount
* of available space in input/output messages and allocate new buffers
* if needed.
*
* The 'maximum' and 'minimum' values used below may be chosen by a
* service to reflect the typical, expected message traffic pattern
* for a specific connection.
*
* The macro arguments are:
* cvp = pointer to connection vcc;
* hi = maximum amount of buffer headroom required by the current
* service during input message processing;
* si = minimum amount of buffer data stripped off the front
* of an input message by the current service;
* ho = maximum amount of buffer headroom required by the current
* service during output message processing;
* ao = maximum amount of buffer data added to the front
* of an output message by the current service;
*/
#define HEADIN(cvp, hi, si) \
{ \
short t = (cvp)->cvc_attr.headin - (si); \
t = (t >= (hi)) ? t : (hi); \
(cvp)->cvc_attr.headin = roundup(t, sizeof(long)); \
}
#define HEADOUT(cvp, ho, ao) \
{ \
short t = (cvp)->cvc_attr.headout + (ao); \
t = (t >= (ho)) ? t : (ho); \
(cvp)->cvc_attr.headout = roundup(t, sizeof(long)); \
}
/*
* Stack command codes - All stack command codes are specific to the
* defined stack SAP across which the command is used. Command values 0-15
* are reserved for any common codes, which all stack SAPs must support.
*/
#define STKCMD(s, d, v) (((s) << 16) | (d) | (v))
#define STKCMD_DOWN 0
#define STKCMD_UP 0x00008000
#define STKCMD_SAP_MASK 0xffff0000
#define STKCMD_VAL_MASK 0x00007fff
/* Common command values (0-15) */
#define CCV_INIT 1 /* DOWN */
#define CCV_TERM 2 /* DOWN */
/* SAP_ATM */
#define ATM_INIT STKCMD(SAP_ATM, STKCMD_DOWN, CCV_INIT)
#define ATM_TERM STKCMD(SAP_ATM, STKCMD_DOWN, CCV_TERM)
#define ATM_DATA_REQ STKCMD(SAP_ATM, STKCMD_DOWN, 16)
#define ATM_DATA_IND STKCMD(SAP_ATM, STKCMD_UP, 17)
/* SAP_SAR */
#define SAR_INIT STKCMD(SAP_SAR, STKCMD_DOWN, CCV_INIT)
#define SAR_TERM STKCMD(SAP_SAR, STKCMD_DOWN, CCV_TERM)
#define SAR_UNITDATA_INV STKCMD(SAP_SAR, STKCMD_DOWN, 16)
#define SAR_UNITDATA_SIG STKCMD(SAP_SAR, STKCMD_UP, 17)
#define SAR_UABORT_INV STKCMD(SAP_SAR, STKCMD_DOWN, 18)
#define SAR_UABORT_SIG STKCMD(SAP_SAR, STKCMD_UP, 19)
#define SAR_PABORT_SIG STKCMD(SAP_SAR, STKCMD_UP, 20)
/* SAP_CPCS */
#define CPCS_INIT STKCMD(SAP_CPCS, STKCMD_DOWN, CCV_INIT)
#define CPCS_TERM STKCMD(SAP_CPCS, STKCMD_DOWN, CCV_TERM)
#define CPCS_UNITDATA_INV STKCMD(SAP_CPCS, STKCMD_DOWN, 16)
#define CPCS_UNITDATA_SIG STKCMD(SAP_CPCS, STKCMD_UP, 17)
#define CPCS_UABORT_INV STKCMD(SAP_CPCS, STKCMD_DOWN, 18)
#define CPCS_UABORT_SIG STKCMD(SAP_CPCS, STKCMD_UP, 19)
#define CPCS_PABORT_SIG STKCMD(SAP_CPCS, STKCMD_UP, 20)
/* SAP_SSCOP */
#define SSCOP_INIT STKCMD(SAP_SSCOP, STKCMD_DOWN, CCV_INIT)
#define SSCOP_TERM STKCMD(SAP_SSCOP, STKCMD_DOWN, CCV_TERM)
#define SSCOP_ESTABLISH_REQ STKCMD(SAP_SSCOP, STKCMD_DOWN, 16)
#define SSCOP_ESTABLISH_IND STKCMD(SAP_SSCOP, STKCMD_UP, 17)
#define SSCOP_ESTABLISH_RSP STKCMD(SAP_SSCOP, STKCMD_DOWN, 18)
#define SSCOP_ESTABLISH_CNF STKCMD(SAP_SSCOP, STKCMD_UP, 19)
#define SSCOP_RELEASE_REQ STKCMD(SAP_SSCOP, STKCMD_DOWN, 20)
#define SSCOP_RELEASE_IND STKCMD(SAP_SSCOP, STKCMD_UP, 21)
#define SSCOP_RELEASE_CNF STKCMD(SAP_SSCOP, STKCMD_UP, 22)
#define SSCOP_DATA_REQ STKCMD(SAP_SSCOP, STKCMD_DOWN, 23)
#define SSCOP_DATA_IND STKCMD(SAP_SSCOP, STKCMD_UP, 24)
#define SSCOP_RESYNC_REQ STKCMD(SAP_SSCOP, STKCMD_DOWN, 25)
#define SSCOP_RESYNC_IND STKCMD(SAP_SSCOP, STKCMD_UP, 26)
#define SSCOP_RESYNC_RSP STKCMD(SAP_SSCOP, STKCMD_DOWN, 27)
#define SSCOP_RESYNC_CNF STKCMD(SAP_SSCOP, STKCMD_UP, 28)
#define SSCOP_RECOVER_IND STKCMD(SAP_SSCOP, STKCMD_UP, 29)
#define SSCOP_RECOVER_RSP STKCMD(SAP_SSCOP, STKCMD_DOWN, 30)
#define SSCOP_UNITDATA_REQ STKCMD(SAP_SSCOP, STKCMD_DOWN, 31)
#define SSCOP_UNITDATA_IND STKCMD(SAP_SSCOP, STKCMD_UP, 32)
#define SSCOP_RETRIEVE_REQ STKCMD(SAP_SSCOP, STKCMD_DOWN, 33)
#define SSCOP_RETRIEVE_IND STKCMD(SAP_SSCOP, STKCMD_UP, 34)
#define SSCOP_RETRIEVECMP_IND STKCMD(SAP_SSCOP, STKCMD_UP, 35)
/* SAP_SSCF_UNI */
#define SSCF_UNI_INIT STKCMD(SAP_SSCF_UNI, STKCMD_DOWN, CCV_INIT)
#define SSCF_UNI_TERM STKCMD(SAP_SSCF_UNI, STKCMD_DOWN, CCV_TERM)
#define SSCF_UNI_ESTABLISH_REQ STKCMD(SAP_SSCF_UNI, STKCMD_DOWN, 16)
#define SSCF_UNI_ESTABLISH_IND STKCMD(SAP_SSCF_UNI, STKCMD_UP, 17)
#define SSCF_UNI_ESTABLISH_CNF STKCMD(SAP_SSCF_UNI, STKCMD_UP, 18)
#define SSCF_UNI_RELEASE_REQ STKCMD(SAP_SSCF_UNI, STKCMD_DOWN, 19)
#define SSCF_UNI_RELEASE_IND STKCMD(SAP_SSCF_UNI, STKCMD_UP, 20)
#define SSCF_UNI_RELEASE_CNF STKCMD(SAP_SSCF_UNI, STKCMD_UP, 21)
#define SSCF_UNI_DATA_REQ STKCMD(SAP_SSCF_UNI, STKCMD_DOWN, 22)
#define SSCF_UNI_DATA_IND STKCMD(SAP_SSCF_UNI, STKCMD_UP, 23)
#define SSCF_UNI_UNITDATA_REQ STKCMD(SAP_SSCF_UNI, STKCMD_DOWN, 24)
#define SSCF_UNI_UNITDATA_IND STKCMD(SAP_SSCF_UNI, STKCMD_UP, 25)
/*
* The STACK_CALL macro must be used for all stack calls between adjacent
* entities. In order to avoid the problem with recursive stack calls
* modifying protocol state, this macro will only allow calls to proceed if
* they are not "against the flow" of any currently pending calls for a
* stack instance. If the requested call can't be processed now, it will
* be deferred and queued until a later, safe time (but before control is
* returned back to the kernel scheduler) when it will be dispatched.
*
* The STACK_CALL macro arguments are:
* cmd = command code;
* fn = Destination entity processing function
* tok = Destination layer's session token;
* cvp = Connection VCC address;
* a1 = command specific argument;
* a2 = command specific argument;
* ret = call result value (0 => success)
*
* The receiving entity command processing function prototype is:
*
* void (fn)(int cmd, int tok, int arg1, int arg2)
*
*/
#define STACK_CALL(cmd, fn, tok, cvp, a1, a2, ret) \
{ \
if ((cmd) & STKCMD_UP) { \
if ((cvp)->cvc_downcnt) { \
(ret) = atm_stack_enq((cmd), (fn), (tok), \
(cvp), (a1), (a2)); \
} else { \
(cvp)->cvc_upcnt++; \
(*fn)(cmd, tok, a1, a2); \
(cvp)->cvc_upcnt--; \
(ret) = 0; \
} \
} else { \
if ((cvp)->cvc_upcnt) { \
(ret) = atm_stack_enq((cmd), (fn), (tok), \
(cvp), (a1), (a2)); \
} else { \
(cvp)->cvc_downcnt++; \
(*fn)(cmd, tok, a1, a2); \
(cvp)->cvc_downcnt--; \
(ret) = 0; \
} \
} \
}
/*
* Stack queue entry - The stack queue will contain stack calls which have
* been deferred in order to avoid recursive calls to a single protocol
* control block. The queue entries are allocated from its own storage pool.
*/
struct stackq_entry {
struct stackq_entry *sq_next; /* Next entry in queue */
int sq_cmd; /* Stack command */
void (*sq_func) /* Destination function */
__P((int, void *, int, int));
void *sq_token; /* Destination token */
int sq_arg1; /* Command-specific argument */
int sq_arg2; /* Command-specific argument */
Atm_connvc *sq_connvc; /* Connection VCC */
};
/*
* Macro to avoid unnecessary function call when draining the stack queue.
*/
#define STACK_DRAIN() \
{ \
if (atm_stackq_head) \
atm_stack_drain(); \
}
#endif /* ATM_KERNEL */
#endif /* _NETATM_ATM_STACK_H */