Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/runfw/@/contrib/ngatm/netnatm/api/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/runfw/@/contrib/ngatm/netnatm/api/ccpriv.h |
/* * Copyright (c) 2003-2004 * Hartmut Brandt * All rights reserved. * * Author: Harti Brandt <harti@freebsd.org> * * Redistribution of this software and documentation and use in source and * binary forms, with or without modification, are permitted provided that * the following conditions are met: * * 1. Redistributions of source code or documentation must retain the above * copyright notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE AND DOCUMENTATION IS PROVIDED BY THE AUTHOR * AND ITS CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND * FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL * THE AUTHOR OR ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, * OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * $Begemot: libunimsg/netnatm/api/ccpriv.h,v 1.2 2005/05/23 11:49:17 brandt_h Exp $ * * ATM API as defined per af-saa-0108 * * Private declarations. */ #ifdef _KERNEL #ifdef __FreeBSD__ #include <netgraph/atm/ccatm/ng_ccatm_cust.h> #endif #else /* !_KERNEL */ #include "cccust.h" #endif struct ccuser; struct ccconn; struct ccaddr; struct ccport; struct ccdata; struct ccsig; struct ccparty; LIST_HEAD(ccuser_list, ccuser); LIST_HEAD(ccconn_list, ccconn); TAILQ_HEAD(ccaddr_list, ccaddr); TAILQ_HEAD(ccport_list, ccport); TAILQ_HEAD(ccsig_list, ccsig); LIST_HEAD(ccparty_list, ccparty); /* * Private node data. */ struct ccdata { struct ccuser_list user_list; /* instance list */ struct ccport_list port_list; /* list of ports */ struct ccconn_list orphaned_conns; /* list of connections */ struct ccsig_list sigs; /* current signals */ struct ccsig_list def_sigs; /* deferred signals */ struct ccsig_list free_sigs; /* free signals */ const struct cc_funcs *funcs; uint32_t cookie; /* cookie generator */ u_int log; /* logging flags */ }; /* retrieve info on local ports */ struct atm_port_list *cc_get_local_port_info(struct ccdata *, u_int, size_t *); /* log */ #ifdef CCATM_DEBUG #if defined(__GNUC__) && __GNUC__ < 3 #define cc_log(CC, FMT, ARGS...) do { \ (CC)->funcs->log("%s (data=%p): " FMT, __FUNCTION__, \ (CC) , ## ARGS); \ } while (0) #else #define cc_log(CC, FMT, ...) do { \ (CC)->funcs->log("%s (data=%p): " FMT, __func__, \ (CC), __VA_ARGS__); \ } while (0) #endif #else #if defined(__GNUC__) && __GNUC__ < 3 #define cc_log(CC, FMT, ARGS...) do { } while (0) #else #define cc_log(CC, FMT, ...) do { } while (0) #endif #endif /* * structure to remember cookies for outstanding requests * we also remember the request itself but don't use it. */ struct ccreq { TAILQ_ENTRY(ccreq) link; uint32_t cookie; uint32_t req; struct ccconn *conn; }; TAILQ_HEAD(ccreq_list, ccreq); /* * Port data. Each port has one UNI stack below. * The port number is in param.port. The number is assigned when the * hook to the uni is connected. This hook has the name 'uni<port>'. */ struct ccport { void *uarg; /* hook to UNI protocol */ struct ccdata *cc; /* back pointer to node */ enum { CCPORT_STOPPED, /* halted */ CCPORT_RUNNING, /* ok */ } admin; /* admin status */ struct ccconn_list conn_list; /* list of connections */ struct ccaddr_list addr_list; /* list of network addresses */ struct atm_port_info param; /* parameters */ /* list of outstanding requests */ struct ccreq_list cookies; TAILQ_ENTRY(ccport) node_link; }; #ifdef CCATM_DEBUG #if defined(__GNUC__) && __GNUC__ < 3 #define cc_port_log(P, FMT, ARGS...) do { \ (P)->cc->funcs->log("%s (port=%p/%u): " FMT, __FUNCTION__, \ (P), (P)->param.port , ## ARGS); \ } while (0) #else #define cc_port_log(P, FMT, ...) do { \ (P)->cc->funcs->log("%s (port=%p/%u): " FMT, __func__, \ (P), (P)->param.port, __VA_ARGS__); \ } while (0) #endif #else #if defined(__GNUC__) && __GNUC__ < 3 #define cc_port_log(P, FMT, ARGS...) do { } while (0) #else #define cc_port_log(P, FMT, ...) do { } while (0) #endif #endif #define CONN_STATES \ DEF(CONN_NULL) /* C0 */ \ DEF(CONN_OUT_PREPARING) /* C1 */ \ DEF(CONN_OUT_WAIT_CREATE) /* C2 */ \ DEF(CONN_OUT_WAIT_OK) /* C3 */ \ DEF(CONN_OUT_WAIT_CONF) /* C4 */ \ \ DEF(CONN_ACTIVE) /* C5 */ \ \ DEF(CONN_IN_PREPARING) /* C10 */ \ DEF(CONN_IN_WAITING) /* C21 */ \ DEF(CONN_IN_ARRIVED) /* C11 */ \ DEF(CONN_IN_WAIT_ACCEPT_OK) /* C12 */ \ DEF(CONN_IN_WAIT_COMPL) /* C13 */ \ \ DEF(CONN_REJ_WAIT_OK) /* C14 */ \ DEF(CONN_REL_IN_WAIT_OK) /* C15 */ \ DEF(CONN_REL_WAIT_OK) /* C20 */ \ \ DEF(CONN_AB_WAIT_REQ_OK) /* C33 */ \ DEF(CONN_AB_WAIT_RESP_OK) /* C34 */ \ DEF(CONN_AB_FLUSH_IND) /* C35 */ \ DEF(CONN_OUT_WAIT_DESTROY) /* C37 */ enum conn_state { #define DEF(N) N, CONN_STATES #undef DEF }; #define CONN_SIGS \ DEF(CONNECT_OUTGOING) /* U */ \ DEF(ARRIVAL) /* U */ \ DEF(RELEASE) /* U */ \ DEF(REJECT) /* U */ \ DEF(ACCEPT) /* U newuser */ \ DEF(ADD_PARTY) /* U ident */ \ DEF(DROP_PARTY) /* U ident */ \ DEF(USER_ABORT) /* U */ \ \ DEF(CREATED) /* P msg */ \ DEF(DESTROYED) /* P */ \ DEF(SETUP_CONFIRM) /* P msg */ \ DEF(SETUP_IND) /* P msg */ \ DEF(SETUP_COMPL) /* P msg */ \ DEF(PROC_IND) /* P msg */ \ DEF(ALERTING_IND) /* P msg */ \ DEF(REL_CONF) /* P msg */ \ DEF(REL_IND) /* P msg */ \ DEF(PARTY_CREATED) /* P msg */ \ DEF(PARTY_DESTROYED) /* P msg */ \ DEF(PARTY_ALERTING_IND) /* P msg */ \ DEF(PARTY_ADD_ACK_IND) /* P msg */ \ DEF(PARTY_ADD_REJ_IND) /* P msg */ \ DEF(DROP_PARTY_IND) /* P msg */ \ DEF(DROP_PARTY_ACK_IND) /* P msg */ \ \ DEF(OK) /* P msg */ \ DEF(ERROR) /* P msg */ enum conn_sig { #define DEF(NAME) CONN_SIG_##NAME, CONN_SIGS #undef DEF }; extern const char *const cc_conn_sigtab[]; /* * This describes a connection and must be in sync with the UNI * stack. */ struct ccconn { enum conn_state state; /* API state of the connection */ struct ccdata *cc; /* owner node */ struct ccport *port; /* the port we belong to */ struct ccuser *user; /* user instance we belong to */ TAILQ_ENTRY(ccconn) connq_link; /* queue of the owner */ LIST_ENTRY(ccconn) port_link; /* link in list of port */ struct uni_cref cref; uint8_t reason; struct ccuser *acceptor; /* attributes */ uint32_t blli_selector; struct uni_ie_blli blli[UNI_NUM_IE_BLLI]; struct uni_ie_bearer bearer; struct uni_ie_traffic traffic; struct uni_ie_qos qos; struct uni_ie_exqos exqos; struct uni_ie_called called; struct uni_ie_calledsub calledsub; struct uni_ie_aal aal; struct uni_ie_epref epref; struct uni_ie_conned conned; struct uni_ie_connedsub connedsub; struct uni_ie_eetd eetd; struct uni_ie_abrsetup abrsetup; struct uni_ie_abradd abradd; struct uni_ie_mdcr mdcr; struct uni_ie_calling calling; struct uni_ie_callingsub callingsub; struct uni_ie_connid connid; struct uni_ie_tns tns[UNI_NUM_IE_TNS]; struct uni_ie_atraffic atraffic; struct uni_ie_mintraffic mintraffic; struct uni_ie_cscope cscope; struct uni_ie_bhli bhli; /* bit mask of written attributes in A6 */ u_int dirty_attr; struct uni_ie_cause cause[2]; struct ccparty_list parties; }; /* dirty attribute mask values */ enum { CCDIRTY_AAL = 0x0001, CCDIRTY_BLLI = 0x0002, CCDIRTY_CONNID = 0x0004, CCDIRTY_NOTIFY = 0x0008, /* XXX */ CCDIRTY_EETD = 0x0010, CCDIRTY_GIT = 0x0020, /* XXX */ CCDIRTY_UU = 0x0040, /* XXX */ CCDIRTY_TRAFFIC = 0x0080, CCDIRTY_EXQOS = 0x0100, CCDIRTY_ABRSETUP = 0x0200, CCDIRTY_ABRADD = 0x0400, }; /* set conn to new state */ void cc_conn_set_state(struct ccconn *, enum conn_state); /* return string for state */ const char *cc_conn_state2str(u_int); /* connect connection to user */ void cc_connect_to_user(struct ccconn *, struct ccuser *); /* disconnect from the user */ void cc_disconnect_from_user(struct ccconn *); /* abort the connection */ void cc_conn_abort(struct ccconn *, int); /* destroy a connection */ void cc_conn_destroy(struct ccconn *); /* create a connection */ struct ccconn *cc_conn_create(struct ccdata *); /* assign to port */ void cc_conn_ins_port(struct ccconn *, struct ccport *); /* remove from port */ void cc_conn_rem_port(struct ccconn *); /* dispatch a connection to a user or reject it */ void cc_conn_dispatch(struct ccconn *); /* disconnect from acceptor */ void cc_conn_reset_acceptor(struct ccconn *); /* log on a connection */ #ifdef CCATM_DEBUG #if defined(__GNUC__) && __GNUC__ < 3 #define cc_conn_log(C, FMT, ARGS...) do { \ (C)->cc->funcs->log("%s (conn=%p): " FMT, __FUNCTION__, \ (C) , ## ARGS); \ } while (0) #else #define cc_conn_log(C, FMT, ...) do { \ (C)->cc->funcs->log("%s (conn=%p): " FMT, __func__, \ (C), __VA_ARGS__); \ } while (0) #endif #else #if defined(__GNUC__) && __GNUC__ < 3 #define cc_conn_log(C, FMT, ARGS...) do { } while (0) #else #define cc_conn_log(C, FMT, ...) do { } while (0) #endif #endif /* handle signal to connection */ void cc_conn_sig_handle(struct ccconn *, enum conn_sig, void *arg, u_int iarg); /* * Mp connection parties */ #define PARTY_STATES \ DEF(NULL) /* 0 created */ \ DEF(ACTIVE) /* 1 active */ \ DEF(ADD_WAIT_CREATE) /* 2 wait for PARTY_CREATE */ \ DEF(ADD_WAIT_OK) /* 3 wait for OK for ADD.request */ \ DEF(ADD_WAIT_ACK) /* 4 wait for ADD.ack/rej */ \ DEF(DROP_WAIT_OK) /* 5 wait for OK for DROP.request */ \ DEF(DROP_WAIT_ACK) /* 6 wait for DROP.ack */ \ DEF(WAIT_DESTROY) /* 7 wait for destroy */ \ DEF(WAIT_SETUP_COMPL) /* 8 wait for setup.complete */ \ DEF(WAIT_DROP_ACK_OK) /* 9 wait for OK for DROP_ACK.request */\ DEF(WAIT_SETUP_CONF) /* 10 wait for setup.confirm */ \ DEF(ADD_DROP_WAIT_OK) /* 11 wait for ok to DROP.request */ \ DEF(ADD_DROPACK_WAIT_OK)/* 12 wait for ok to DROP_ACK.req */ enum party_state { #define DEF(N) PARTY_##N, PARTY_STATES #undef DEF }; struct ccparty { struct ccconn *conn; /* owner */ LIST_ENTRY(ccparty) link; enum party_state state; struct uni_ie_called called; struct uni_ie_epref epref; }; /* set party to new state */ void cc_party_set_state(struct ccparty *, enum party_state); /* return string for state */ const char *cc_party_state2str(u_int); /* create new party */ struct ccparty *cc_party_create(struct ccconn *, u_int ident, u_int flag); /* log on a party */ #ifdef CCATM_DEBUG #if defined(__GNUC__) && __GNUC__ < 3 #define cc_party_log(P, FMT, ARGS...) do { \ (P)->conn->cc->funcs->log("%s (conn=%p, party=%p): " FMT, \ __FUNCTION__, (P)->conn, (P) , ## ARGS); \ } while (0) #else #define cc_party_log(P, FMT, ...) do { \ (P)->conn->cc->funcs->log("%s (conn=%p, party=%p): " FMT, \ __func__, (P)->conn, (P), __VA_ARGS__); \ } while (0) #endif #else #if defined(__GNUC__) && __GNUC__ < 3 #define cc_party_log(P, FMT, ARGS...) do { } while (0) #else #define cc_party_log(P, FMT, ...) do { } while (0) #endif #endif /* * This is kind of a user socket, i.e. the entity managed towards the * upper layer. */ #define USER_STATES \ DEF(USER_NULL) /* U0 none */ \ DEF(USER_OUT_PREPARING) /* U1 process set/query requests */ \ DEF(USER_OUT_WAIT_OK) /* U2 wait for OK to setup */ \ DEF(USER_OUT_WAIT_CONF) /* U3 wait for SETUP.confirm */ \ DEF(USER_ACTIVE) /* U4 A8-9-10/U10 */ \ DEF(USER_REL_WAIT) /* U5 wait for release to compl */ \ DEF(USER_IN_PREPARING) /* U6 set SAP */ \ DEF(USER_IN_WAITING) /* U7 wait and dispatch */ \ DEF(USER_IN_ARRIVED) /* U8 waiting for rej/acc */ \ DEF(USER_IN_WAIT_REJ) /* U9 wait for rejecting */ \ DEF(USER_IN_WAIT_ACC) /* U10 wait for accepting */ \ DEF(USER_IN_ACCEPTING) /* U11 wait for SETUP_complete */ \ DEF(USER_REL_WAIT_SCOMP)/* U12 wait for SETUP_complete */ \ DEF(USER_REL_WAIT_SCONF)/* U13 wait for SETUP.confirm */ \ DEF(USER_REL_WAIT_CONF) /* U14 wait for confirm */ \ DEF(USER_REL_WAIT_CONN) /* U15 wait for CONN_OK */ enum user_state { #define DEF(N) N, USER_STATES #undef DEF }; #define USER_SIGS \ DEF(PREPARE_OUTGOING) /* U */ \ DEF(CONNECT_OUTGOING) /* U msg */ \ DEF(PREPARE_INCOMING) /* U msg */ \ DEF(WAIT_ON_INCOMING) /* U msg */ \ DEF(REJECT_INCOMING) /* U msg */ \ DEF(ACCEPT_INCOMING) /* U msg */ \ DEF(CALL_RELEASE) /* U msg */ \ DEF(ADD_PARTY) /* U msg */ \ DEF(DROP_PARTY) /* U msg */ \ DEF(QUERY_ATTR) /* U msg */ \ DEF(QUERY_ATTR_X) /* U msg */ \ DEF(SET_ATTR) /* U msg */ \ DEF(SET_ATTR_X) /* U msg */ \ DEF(QUERY_STATE) /* U */ \ DEF(GET_LOCAL_PORT_INFO) /* U msg */ \ DEF(ABORT_CONNECTION) /* U msg */ \ \ DEF(CONNECT_OUTGOING_OK) /* */ \ DEF(CONNECT_OUTGOING_ERR) /* reason */ \ DEF(SETUP_CONFIRM) /* */ \ DEF(SETUP_IND) /* */ \ DEF(REJECT_OK) /* */ \ DEF(REJECT_ERR) /* reason */ \ DEF(ACCEPT_OK) /* */ \ DEF(ACCEPT_ERR) /* reason */ \ DEF(ACCEPTING) /* */ \ DEF(SETUP_COMPL) /* */ \ DEF(RELEASE_CONFIRM) /* */ \ DEF(RELEASE_ERR) /* reason */ \ DEF(ADD_PARTY_ERR) /* reason */ \ DEF(ADD_PARTY_OK) /* */ \ DEF(ADD_PARTY_ACK) /* leaf-ident */ \ DEF(ADD_PARTY_REJ) /* leaf-ident */ \ DEF(DROP_PARTY_ERR) /* reason */ \ DEF(DROP_PARTY_OK) /* */ \ DEF(DROP_PARTY_IND) /* leaf-ident */ \ enum user_sig { #define DEF(NAME) USER_SIG_##NAME, USER_SIGS #undef DEF }; extern const char *const cc_user_sigtab[]; struct ccuser { LIST_ENTRY(ccuser) node_link; /* link in list of node */ enum user_state state; /* type of this instance */ struct ccdata *cc; /* the node */ void *uarg; /* the hook (if any) */ char name[ATM_EPNAMSIZ]; enum { USER_P2P, USER_ROOT, USER_LEAF } config; /* configuration */ struct uni_sap *sap; /* listening SAP */ u_int queue_max; /* maximum queue size */ u_int queue_act; /* actual queue size */ TAILQ_HEAD(,ccconn) connq; /* pending connections */ struct ccconn *accepted; struct uni_ie_cause cause[2]; /* cause from connection */ u_int aborted; }; /* set user to new state */ void cc_user_set_state(struct ccuser *, enum user_state); /* return string for state */ const char *cc_user_state2str(u_int); /* log on a user */ #ifdef CCATM_DEBUG #if defined(__GNUC__) && __GNUC__ < 3 #define cc_user_log(U, FMT, ARGS...) do { \ (U)->cc->funcs->log("%s (user=%p): " FMT, __FUNCTION__, \ (U) , ## ARGS); \ } while (0) #else #define cc_user_log(U, FMT, ...) do { \ (U)->cc->funcs->log("%s (user=%p): " FMT, __func__, \ (U), __VA_ARGS__); \ } while (0) #endif #else #if defined(__GNUC__) && __GNUC__ < 3 #define cc_user_log(U, FMT, ARGS...) do { } while (0) #else #define cc_user_log(U, FMT, ...) do { } while (0) #endif #endif /* Handle a signal to this user */ void cc_user_sig_handle(struct ccuser *, enum user_sig, void *, u_int); /* * Addresses */ struct ccaddr { TAILQ_ENTRY(ccaddr) port_link; struct uni_addr addr; }; /* signal to connection */ int cc_conn_sig(struct ccconn *, enum conn_sig, void *arg); /* signal with message to connection */ int cc_conn_sig_msg(struct ccconn *, enum conn_sig, struct uni_msg *); int cc_conn_sig_msg_nodef(struct ccconn *, enum conn_sig, struct uni_msg *); /* response signal to connection */ int cc_conn_resp(struct ccconn *, enum conn_sig, u_int, u_int, u_int); /* flush all signals to a given connection */ void cc_conn_sig_flush(struct ccconn *); /* Queue a signal to this user */ int cc_user_sig(struct ccuser *, enum user_sig, void *, u_int); /* Queue a signal with message to this user */ int cc_user_sig_msg(struct ccuser *, enum user_sig, struct uni_msg *); /* Flush all signals to a given user */ void cc_user_sig_flush(struct ccuser *); /* flush all signals */ void cc_sig_flush_all(struct ccdata *);