/* * * =================================== * 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. * * @(#) $FreeBSD$ * */ /* * SPANS Signalling Manager * --------------------------- * * Protocol control blocks * */ #ifndef _SPANS_SPANS_VAR_H #define _SPANS_SPANS_VAR_H #ifdef _KERNEL /* * Constants to indicate the state of the signalling interface */ #define SPANS_UNI_UP 1 #define SPANS_UNI_DOWN -1 /* * Structure containing state information for each SPANS protocol * instance. There will be one instance for each ATM device interface * using the SPANS signalling manager. */ struct spans { struct siginst sp_inst; /* Header */ struct atm_time sp_time; /* Timer controls */ void (*sp_lower) /* Lower command handler */ __P((int, void *, int, int)); Atm_connection *sp_conn; /* Signalling connection */ long sp_s_epoch; /* Switch epoch */ long sp_h_epoch; /* Host epoch */ u_int sp_probe_ct; /* Status_req msgs unanswered */ u_int sp_alloc_vci; /* Next VCI to allocate */ u_int sp_alloc_vpi; /* Next VPI to allocate */ u_int sp_min_vci; /* Lowest VCI to allocate */ u_int sp_max_vci; /* Highest VCI to allocate */ struct spanscls *sp_cls; /* CLS instance */ }; #define sp_next sp_inst.si_next #define sp_pif sp_inst.si_pif #define sp_addr sp_inst.si_addr #define sp_subaddr sp_inst.si_subaddr #define sp_vccq sp_inst.si_vccq #define sp_state sp_inst.si_state #define sp_ipserv sp_inst.si_ipserv #endif /* _KERNEL */ /* * SPANS Protocol States */ #define SPANS_ACTIVE 1 /* Active */ #define SPANS_DETACH 2 /* Detach in progress */ #define SPANS_INIT 3 /* Initializing */ #define SPANS_PROBE 4 /* Exchanging status info */ #define SPANS_PROBE_INTERVAL (ATM_HZ) /* Interval between SPANS_STAT_REQs */ #define SPANS_PROBE_THRESH 10 /* Probe time-out threshold */ #define SPANS_PROBE_ERR_WAIT (3 * ATM_HZ) /* Time to wait if send probe fails */ #ifdef _KERNEL /* * SPANS Virtual Channel Connection control block. All information * regarding the state of a SPANS-controlled VCC will be recorded here. * There will be one SPANS VCC control block for each SPANS-controlled * VCC. */ struct spans_vccb { struct vccb vcp_hdr; /* Generic VCCB */ u_short sv_retry; /* Xmit retry count */ spans_atm_conn sv_conn; /* SPANS connection info */ spans_resrc sv_spans_qos; /* QoS for VCC */ spans_aal sv_spans_aal; /* AAL for VCC */ }; #define sv_type vcp_hdr.vc_type #define sv_proto vcp_hdr.vc_proto #define sv_sstate vcp_hdr.vc_sstate #define sv_ustate vcp_hdr.vc_ustate #define sv_pif vcp_hdr.vc_pif #define sv_nif vcp_hdr.vc_nif #define sv_sigelem vcp_hdr.vc_sigelem #define sv_time vcp_hdr.vc_time #define sv_vpi vcp_hdr.vc_vpi #define sv_vci vcp_hdr.vc_vci #define sv_connvc vcp_hdr.vc_connvc #define sv_ipdus vcp_hdr.vc_ipdus #define sv_opdus vcp_hdr.vc_opdus #define sv_ibytes vcp_hdr.vc_ibytes #define sv_obytes vcp_hdr.vc_obytes #define sv_ierrors vcp_hdr.vc_ierrors #define sv_oerrors vcp_hdr.vc_oerrors #define sv_tstamp vcp_hdr.vc_tstamp #define sv_daddr sv_conn.daddr #define sv_saddr sv_conn.saddr #define sv_dsap sv_conn.dsap #define sv_ssap sv_conn.ssap #define SV_MAX_RETRY 3 #define SV_TIMEOUT (ATM_HZ) #endif /* _KERNEL */ /* * SPANS VCC Signalling Protocol States */ #define SPANS_VC_NULL 0 /* No state */ #define SPANS_VC_ACTIVE 1 /* Active */ #define SPANS_VC_ACT_DOWN 2 /* Active - Interface down */ #define SPANS_VC_POPEN 3 /* VCC open in progress */ #define SPANS_VC_R_POPEN 4 /* VCC rmt open in progress */ #define SPANS_VC_OPEN 5 /* VCC open */ #define SPANS_VC_CLOSE 6 /* VCC close in progress */ #define SPANS_VC_ABORT 7 /* VCC abort in progress */ #define SPANS_VC_FREE 8 /* Waiting for user to free resources */ #ifdef _KERNEL /* * Macro to compare two SPANS addresses. * * Returns 0 if the addresses are equal. */ #define spans_addr_cmp(a, b) \ (bcmp((caddr_t)a, (caddr_t)b, sizeof(struct spans_addr))) /* * Macro to copy a SPANS address from a to b. */ #define spans_addr_copy(a, b) \ (KM_COPY((caddr_t)a, (caddr_t)b, sizeof(struct spans_addr))) /* * Timer macros */ #define SPANS_TIMER(s, t) atm_timeout(&(s)->sp_time, (t), spans_timer) #define SPANS_CANCEL(s) atm_untimeout(&(s)->sp_time) #define SPANS_VC_TIMER(v, t) atm_timeout(&(v)->vc_time, (t), spans_vctimer) #define SPANS_VC_CANCEL(v) atm_untimeout(&(v)->vc_time) /* * Global function declarations */ struct ipvcc; /* spans_arp.c */ int spansarp_svcout __P((struct ipvcc *, struct in_addr *)); int spansarp_svcin __P((struct ipvcc *, Atm_addr *, Atm_addr *)); int spansarp_svcactive __P((struct ipvcc *)); void spansarp_vcclose __P((struct ipvcc *)); void spansarp_ipact __P((struct spanscls *)); void spansarp_ipdact __P((struct spanscls *)); void spansarp_stop __P((void)); void spansarp_input __P((struct spanscls *, KBuffer *)); int spansarp_ioctl __P((int, caddr_t, caddr_t)); /* spans_cls.c */ int spanscls_start __P((void)); void spanscls_stop __P((void)); int spanscls_attach __P((struct spans *)); void spanscls_detach __P((struct spans *)); void spanscls_closevc __P((struct spanscls *, struct t_atm_cause *)); /* spans_if.c */ int spans_abort __P((struct vccb *)); int spans_free __P((struct vccb *)); /* spans_msg.c */ int spans_send_msg __P((struct spans *, spans_msg *)); int spans_send_open_req __P((struct spans *, struct spans_vccb *)); int spans_send_open_rsp __P((struct spans *, struct spans_vccb *, spans_result)); int spans_send_close_req __P((struct spans *, struct spans_vccb *)); void spans_rcv_msg __P((struct spans *, KBuffer *)); /* spans_print.c */ void spans_print_msg __P((spans_msg *)); /* spans_proto.c */ void spans_timer __P((struct atm_time *)); void spans_vctimer __P((struct atm_time *)); void spans_upper __P((int, void *, int, int)); void spans_notify __P((void *, int, int)); /* spans_subr.c */ int spans_open_vcc __P((struct spans *, Atm_connvc *)); int spans_close_vcc __P((struct spans *, struct spans_vccb *, int)); int spans_clear_vcc __P((struct spans *, struct spans_vccb *)); void spans_switch_reset __P((struct spans *, int)); /* spans_util.c */ int spans_get_spans_sap __P((Sap_t, spans_sap *)); int spans_get_local_sap __P((spans_sap, Sap_t *)); int spans_ephemeral_sap __P((struct spans *)); int spans_get_spans_aal __P((Aal_t, spans_aal *)); int spans_get_local_aal __P((spans_aal, Aal_t *)); int spans_verify_vccb __P((struct spans *, struct spans_vccb *)); struct spans_vccb * spans_find_vpvc __P((struct spans *, int, int, u_char)); struct spans_vccb * spans_find_conn __P((struct spans *, struct spans_atm_conn *)); spans_vpvc spans_alloc_vpvc __P((struct spans *)); char * spans_addr_print __P((struct spans_addr *)); void spans_dump_buffer __P((KBuffer *)); /* * External variables */ extern struct spans_addr spans_bcastaddr; extern struct sp_info spans_vcpool; extern struct sp_info spans_msgpool; extern struct t_atm_cause spans_cause; #endif /* _KERNEL */ #endif /* _SPANS_SPANS_VAR_H */