Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/s3/@/amd64/compile/hs32/modules/usr/src/sys/modules/usb/usie/@/amd64/compile/hs32/modules/usr/src/sys/modules/ipwfw/ipw_monitor/@/amd64/compile/hs32/modules/usr/src/sys/modules/sound/driver/hda/@/contrib/ngatm/netnatm/sig/ |
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/s3/@/amd64/compile/hs32/modules/usr/src/sys/modules/usb/usie/@/amd64/compile/hs32/modules/usr/src/sys/modules/ipwfw/ipw_monitor/@/amd64/compile/hs32/modules/usr/src/sys/modules/sound/driver/hda/@/contrib/ngatm/netnatm/sig/unipriv.h |
/* * Copyright (c) 1996-2003 * Fraunhofer Institute for Open Communication Systems (FhG Fokus). * All rights reserved. * * Redistribution 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 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 IS PROVIDED BY THE AUTHOR AND 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 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. * * Author: Hartmut Brandt <harti@freebsd.org> * * $Begemot: libunimsg/netnatm/sig/unipriv.h,v 1.17 2004/07/08 08:22:25 brandt Exp $ * * Private UNI stuff. */ #ifndef unipriv_h #define unipriv_h #ifdef _KERNEL #ifdef __FreeBSD__ #include <netgraph/atm/uni/ng_uni_cust.h> #endif #else #include "unicust.h" #endif struct call; struct party; enum cu_stat { CU_STAT0, /* AAL connection released */ CU_STAT1, /* awaiting establish */ CU_STAT2, /* awaiting release */ CU_STAT3, /* AAL connection established */ }; /* * Internal Signals */ #define DEF_COORD_SIGS \ DEF_PRIV_SIG(O_SAAL_ESTABLISH_indication, SAAL) \ DEF_PRIV_SIG(O_SAAL_ESTABLISH_confirm, SAAL) \ DEF_PRIV_SIG(O_SAAL_RELEASE_indication, SAAL) \ DEF_PRIV_SIG(O_SAAL_RELEASE_confirm, SAAL) \ DEF_PRIV_SIG(O_SAAL_DATA_indication, SAAL) \ DEF_PRIV_SIG(O_SAAL_UDATA_indication, SAAL) \ DEF_PRIV_SIG(O_T309, Coord) \ DEF_PRIV_SIG(O_DATA, Coord) \ DEF_PRIV_SIG(O_LINK_ESTABLISH_request, API) \ DEF_PRIV_SIG(O_LINK_RELEASE_request, API) \ DEF_PRIV_SIG(O_RESET_request, API) \ DEF_PRIV_SIG(O_RESET_response, API) \ DEF_PRIV_SIG(O_RESET_ERROR_response, API) \ DEF_PRIV_SIG(O_SETUP_request, API) \ DEF_PRIV_SIG(O_SETUP_response, API) \ DEF_PRIV_SIG(O_SETUP_COMPLETE_request, API) \ DEF_PRIV_SIG(O_PROCEEDING_request, API) \ DEF_PRIV_SIG(O_ALERTING_request, API) \ DEF_PRIV_SIG(O_RELEASE_request, API) \ DEF_PRIV_SIG(O_RELEASE_response, API) \ DEF_PRIV_SIG(O_NOTIFY_request, API) \ DEF_PRIV_SIG(O_STATUS_ENQUIRY_request, API) \ DEF_PRIV_SIG(O_ADD_PARTY_request, API) \ DEF_PRIV_SIG(O_PARTY_ALERTING_request, API) \ DEF_PRIV_SIG(O_ADD_PARTY_ACK_request, API) \ DEF_PRIV_SIG(O_ADD_PARTY_REJ_request, API) \ DEF_PRIV_SIG(O_DROP_PARTY_request, API) \ DEF_PRIV_SIG(O_DROP_PARTY_ACK_request, API) \ DEF_PRIV_SIG(O_ABORT_CALL_request, API) \ DEF_PRIV_SIG(O_CALL_DESTROYED, CallControl) \ DEF_PRIV_SIG(O_RESET_indication, ResetRespond) \ DEF_PRIV_SIG(O_END, Coord) #define DEF_RESPOND_SIGS \ DEF_PRIV_SIG(R_RESTART, Coord) \ DEF_PRIV_SIG(R_STATUS, Coord) \ DEF_PRIV_SIG(R_RESET_response, Coord) \ DEF_PRIV_SIG(R_RESET_ERROR_response, Coord) \ DEF_PRIV_SIG(R_T317, ResetRespond) \ DEF_PRIV_SIG(R_END, ResetRespond) #define DEF_START_SIGS \ DEF_PRIV_SIG(S_RESTART_ACK, Coord) \ DEF_PRIV_SIG(S_STATUS, Coord) \ DEF_PRIV_SIG(S_RESET_request, Coord) \ DEF_PRIV_SIG(S_T316, ResetStart) \ DEF_PRIV_SIG(S_END, ResetStart) #define DEF_CALL_SIGS \ DEF_PRIV_SIG(C_LINK_ESTABLISH_confirm, Coord) \ DEF_PRIV_SIG(C_LINK_ESTABLISH_indication, Coord) \ DEF_PRIV_SIG(C_LINK_ESTABLISH_ERROR_indication,Coord) \ DEF_PRIV_SIG(C_LINK_RELEASE_indication, Coord) \ DEF_PRIV_SIG(C_SETUP_request, Coord) \ DEF_PRIV_SIG(C_SETUP_response, Coord) \ DEF_PRIV_SIG(C_SETUP_COMPLETE_request, Coord) \ DEF_PRIV_SIG(C_PROCEEDING_request, Coord) \ DEF_PRIV_SIG(C_ALERTING_request, Coord) \ DEF_PRIV_SIG(C_RELEASE_request, Coord) \ DEF_PRIV_SIG(C_RELEASE_response, Coord) \ DEF_PRIV_SIG(C_NOTIFY_request, Coord) \ DEF_PRIV_SIG(C_STATUS_ENQUIRY_request, Coord) \ DEF_PRIV_SIG(C_ADD_PARTY_request, Coord) \ DEF_PRIV_SIG(C_PARTY_ALERTING_request, Coord) \ DEF_PRIV_SIG(C_ADD_PARTY_ACK_request, Coord) \ DEF_PRIV_SIG(C_ADD_PARTY_REJ_request, Coord) \ DEF_PRIV_SIG(C_DROP_PARTY_request, Coord) \ DEF_PRIV_SIG(C_DROP_PARTY_ACK_request, Coord) \ DEF_PRIV_SIG(C_ABORT_CALL_request, Coord) \ DEF_PRIV_SIG(C_UNKNOWN, Coord) \ DEF_PRIV_SIG(C_SETUP, Coord) \ DEF_PRIV_SIG(C_CALL_PROC, Coord) \ DEF_PRIV_SIG(C_ALERTING, Coord) \ DEF_PRIV_SIG(C_CONNECT, Coord) \ DEF_PRIV_SIG(C_CONNECT_ACK, Coord) \ DEF_PRIV_SIG(C_RELEASE, Coord) \ DEF_PRIV_SIG(C_RELEASE_COMPL, Coord) \ DEF_PRIV_SIG(C_COBISETUP, Coord) \ DEF_PRIV_SIG(C_NOTIFY, Coord) \ DEF_PRIV_SIG(C_STATUS, Coord) \ DEF_PRIV_SIG(C_STATUS_ENQ, Coord) \ DEF_PRIV_SIG(C_ADD_PARTY, Coord) \ DEF_PRIV_SIG(C_PARTY_ALERTING, Coord) \ DEF_PRIV_SIG(C_ADD_PARTY_ACK, Coord) \ DEF_PRIV_SIG(C_ADD_PARTY_REJ, Coord) \ DEF_PRIV_SIG(C_DROP_PARTY, Coord) \ DEF_PRIV_SIG(C_DROP_PARTY_ACK, Coord) \ DEF_PRIV_SIG(C_CALL_DELETE, CallControl) \ DEF_PRIV_SIG(C_T301, CallControl) \ DEF_PRIV_SIG(C_T303, CallControl) \ DEF_PRIV_SIG(C_T308, CallControl) \ DEF_PRIV_SIG(C_T310, CallControl) \ DEF_PRIV_SIG(C_T313, CallControl) \ DEF_PRIV_SIG(C_T322, CallControl) \ DEF_PRIV_SIG(C_DROP_PARTY_indication, PartyControl) \ DEF_PRIV_SIG(C_SEND_DROP_PARTY, PartyControl) \ DEF_PRIV_SIG(C_DROP_PARTY_ACK_indication, PartyControl) \ DEF_PRIV_SIG(C_SEND_DROP_PARTY_ACK, PartyControl) \ DEF_PRIV_SIG(C_ADD_PARTY_REJ_indication, PartyControl) \ DEF_PRIV_SIG(C_SEND_ADD_PARTY_REJ, PartyControl) \ DEF_PRIV_SIG(C_SEND_STATUS_ENQ, PartyControl) \ DEF_PRIV_SIG(C_PARTY_DESTROYED, PartyControl) \ DEF_PRIV_SIG(C_END, CallControl) #define DEF_PARTY_SIGS \ DEF_PRIV_SIG(P_SETUP, CallControl) \ DEF_PRIV_SIG(P_ALERTING, CallControl) \ DEF_PRIV_SIG(P_CONNECT, CallControl) \ DEF_PRIV_SIG(P_CONNECT_ACK, CallControl) \ DEF_PRIV_SIG(P_RELEASE, CallControl) \ DEF_PRIV_SIG(P_RELEASE_COMPL, CallControl) \ DEF_PRIV_SIG(P_STATUS, CallControl) \ DEF_PRIV_SIG(P_ADD_PARTY, CallControl) \ DEF_PRIV_SIG(P_PARTY_ALERTING, CallControl) \ DEF_PRIV_SIG(P_ADD_PARTY_ACK, CallControl) \ DEF_PRIV_SIG(P_ADD_PARTY_REJ, CallControl) \ DEF_PRIV_SIG(P_DROP_PARTY, CallControl) \ DEF_PRIV_SIG(P_DROP_PARTY_ACK, CallControl) \ DEF_PRIV_SIG(P_SETUP_request, CallControl) \ DEF_PRIV_SIG(P_SETUP_response, CallControl) \ DEF_PRIV_SIG(P_SETUP_COMPL_request, CallControl) \ DEF_PRIV_SIG(P_ALERTING_request, CallControl) \ DEF_PRIV_SIG(P_RELEASE_request, CallControl) \ DEF_PRIV_SIG(P_RELEASE_response, CallControl) \ DEF_PRIV_SIG(P_RELEASE_confirm, CallControl) \ DEF_PRIV_SIG(P_STATUS_ENQUIRY_request, CallControl) \ DEF_PRIV_SIG(P_ADD_PARTY_request, CallControl) \ DEF_PRIV_SIG(P_PARTY_ALERTING_request, CallControl) \ DEF_PRIV_SIG(P_ADD_PARTY_ACK_request, CallControl) \ DEF_PRIV_SIG(P_ADD_PARTY_REJ_request, CallControl) \ DEF_PRIV_SIG(P_DROP_PARTY_request, CallControl) \ DEF_PRIV_SIG(P_DROP_PARTY_ACK_request, CallControl) \ DEF_PRIV_SIG(P_PARTY_DELETE, PartyControl) \ DEF_PRIV_SIG(P_T397, PartyControl) \ DEF_PRIV_SIG(P_T398, PartyControl) \ DEF_PRIV_SIG(P_T399, PartyControl) \ DEF_PRIV_SIG(P_END, PartyControl) #define DEF_PRIV_SIG(NAME, FROM) SIG##NAME, enum coord_sig { DEF_COORD_SIGS }; enum respond_sig { DEF_RESPOND_SIGS }; enum start_sig { DEF_START_SIGS }; enum call_sig { DEF_CALL_SIGS }; enum party_sig { DEF_PARTY_SIGS }; #undef DEF_PRIV_SIG /************************************************************* * * SIGNALS and SIGNAL QUEUES */ enum { SIG_COORD, SIG_RESET_START, SIG_RESET_RESP, SIG_CALL, SIG_PARTY, }; struct sig { TAILQ_ENTRY(sig) link; u_int type; /* one of the above */ struct call *call; /* call to send to */ struct party *party; /* party to send to */ uint32_t sig; /* the signal */ uint32_t cookie; /* user cookie */ struct uni_msg *msg; /* attached message */ struct uni_all *u; /* dito */ }; TAILQ_HEAD(sigqueue, sig); #define SIGQ_CLEAR(Q) \ do { \ struct sig *s; \ while(!TAILQ_EMPTY(Q)) { \ s = TAILQ_FIRST(Q); \ TAILQ_REMOVE(Q, s, link); \ if(s->msg) uni_msg_destroy(s->msg); \ if(s->u) UNI_FREE(s->u); \ SIG_FREE(s); \ } \ } while(0) void uni_sig_party(struct party *, enum party_sig, uint32_t cookie, struct uni_msg *, struct uni_all *); void uni_sig_call(struct call *, enum call_sig, uint32_t cookie, struct uni_msg *, struct uni_all *); void uni_sig_coord(struct uni *, enum coord_sig, uint32_t cookie, struct uni_msg *); void uni_sig_start(struct uni *, enum start_sig, uint32_t cookie, struct uni_msg *, struct uni_all *); void uni_sig_respond(struct uni *, enum respond_sig, uint32_t cookie, struct uni_msg *, struct uni_all *); /************************************************************* * * CALL INSTANCES */ struct party { struct call *call; TAILQ_ENTRY(party) link; u_int epref; /* endpoint reference */ u_int flags; /* flags */ enum uni_epstate state; /* party state */ struct uni_timer t397; /* T397 */ struct uni_timer t398; /* T398 */ struct uni_timer t399; /* T399 */ }; #define PARTY_MINE 0x0001 /* must be 1 */ #define PARTY_CONNECT 0x0002 /* connect request from this party */ TAILQ_HEAD(partyqueue, party); void uni_destroy_party(struct party *, int); struct party *uni_find_party(struct call *, struct uni_ie_epref *); struct party *uni_find_partyx(struct call *, u_int epref, u_int mine); struct party *uni_create_party(struct call *, struct uni_ie_epref *); struct party *uni_create_partyx(struct call *, u_int epref, u_int mine, uint32_t cookie); u_int uni_party_act_count(struct call *, int); enum call_type { CALL_NULL, /* not known yet */ CALL_P2P, /* normal point-to-point call */ CALL_COBI, /* Q.2932.1 COBI call */ CALL_ROOT, /* point-to-multipoint root */ CALL_LEAF, /* point-to-multipoint leaf */ }; enum call_state { CALLST_NULL, CALLST_U1, CALLST_U3, CALLST_U4, CALLST_U6, CALLST_U7, CALLST_U8, CALLST_U9, CALLST_U10, CALLST_U11, CALLST_U12, CALLST_N1, CALLST_N3, CALLST_N4, CALLST_N6, CALLST_N7, CALLST_N8, CALLST_N9, CALLST_N10, CALLST_N11, CALLST_N12 }; struct call { TAILQ_ENTRY(call) link; /* link between calls */ struct uni *uni; /* backpointer to owning UNI */ u_int cref; /* call reference value or lij seqno */ u_int mine; /* if TRUE this is my call */ enum call_type type; /* what call is it */ enum call_state cstate; /* the state of the call */ struct uni_ie_connid connid; /* the connection ID */ struct uni_setup msg_setup; /* retransmission */ struct uni_release msg_release; /* retransmission */ struct uni_ie_epref stat_epref; /* retransmission */ struct partyqueue parties; u_int se_active; /* status enquiry active */ u_int epref_alloc; struct uni_timer t308; /* T303 */ u_int cnt308; struct uni_timer t303; /* T303 */ u_int cnt303; struct uni_timer t301; /* T301 */ struct uni_timer t310; /* T310 */ struct uni_timer t313; /* T313 */ struct uni_timer t322; /* T322 */ u_int cnt322; }; TAILQ_HEAD(callqueue, call); struct call *uni_find_call(struct uni *, struct uni_cref *); struct call *uni_find_callx(struct uni *, u_int cref, u_int mine); struct call *uni_create_call(struct uni *, u_int cref, u_int mine, uint32_t cookie); struct call *uni_create_new_call(struct uni *, uint32_t cookie); void uni_destroy_call(struct call *, int); void uni_bad_message(struct call *, struct uni_all *, u_int, struct uni_ie_epref *, int); extern const struct callstates { const char *name; enum uni_callstate ext; } callstates[]; /************************************************************* * * UNI INSTANCE */ struct uni { void *arg; /* user arg */ const struct uni_funcs *funcs; enum uni_proto proto; /* protocol */ struct unicx cx; /* decoding/coding context */ int sb_tb : 1; /* Sb-Tb/Tb point */ struct sigqueue workq; /* work queue */ struct sigqueue delq; /* delayed signal queue */ int working; uint32_t cref_alloc; enum cu_stat custat; /* coordinator state */ struct uni_timer t309; u_int timer309; enum uni_callstate glob_start; enum uni_callstate glob_respond; struct uni_timer t316; struct uni_timer t317; struct uni_ie_connid connid_start; struct uni_ie_connid connid_respond; u_int cnt316; struct uni_ie_restart restart_start; struct callqueue calls; struct uni_ie_cause cause; /* working area for verify */ /* tuneable parameters */ u_int timer301; u_int init303; u_int timer303; u_int init308; u_int timer308; u_int timer310; u_int timer313; u_int init316; u_int timer316; u_int timer317; u_int timer322; u_int init322; u_int timer397; u_int timer398; u_int timer399; u_int debug[UNI_MAXFACILITY]; }; void uniapi_uni_error(struct uni *uni, uint32_t reason, uint32_t cookie, uint32_t state); void uniapi_call_error(struct call *c, uint32_t reason, uint32_t cookie); void uniapi_party_error(struct party *p, uint32_t reason, uint32_t cookie); /************************************************************* * * INLINE FUNCTIONS */ /* Enqueue a signal in the working queue */ void uni_enq_sig(struct uni *, u_int, struct call *, struct party *, uint32_t, uint32_t, struct uni_msg *, struct uni_all *); /* Enqueue a signal in the delayed queue */ void uni_delenq_sig(struct uni *, u_int, struct call *, struct party *, uint32_t, uint32_t, struct uni_msg *, struct uni_all *); /* Enqueue a signal to the coordinator */ #define uni_enq_coord(UNI, SIG, COOKIE, MSG) do { \ uni_enq_sig((UNI), SIG_COORD, NULL, NULL, \ (SIG), (COOKIE), (MSG), NULL); \ } while (0) /* Enqueue a delayed signal to the coordinator */ #define uni_delenq_coord(UNI, SIG, COOKIE, MSG) do { \ uni_delenq_sig((UNI), SIG_COORD, NULL, NULL, \ (SIG), (COOKIE), (MSG), NULL); \ } while (0) /* Enqueue a signal to a call */ #define uni_enq_call(CALL, SIG, COOKIE, MSG, U) do { \ uni_enq_sig((CALL)->uni, SIG_CALL, (CALL), NULL, \ (SIG), (COOKIE), (MSG), (U)); \ } while (0) /* Enqueue a signal to a party */ #define uni_enq_party(PARTY, SIG, COOKIE, MSG, U) do { \ uni_enq_sig((PARTY)->call->uni, SIG_PARTY, (PARTY)->call, \ (PARTY), (SIG), (COOKIE), (MSG), (U)); \ } while (0) /* Enqueue a signal to RESET-START */ #define uni_enq_start(UNI, SIG, COOKIE, MSG, U) do { \ uni_enq_sig((UNI), SIG_RESET_START, NULL, NULL, \ (SIG), (COOKIE), (MSG), (U)); \ } while (0) /* Enqueue a signal to RESET-RESPOND */ #define uni_enq_resp(UNI, SIG, COOKIE, MSG, U) do { \ uni_enq_sig((UNI), SIG_RESET_RESP, NULL, NULL, \ (SIG), (COOKIE), (MSG), (U)); \ } while (0) int uni_send_output(struct uni_all *u, struct uni *uni); void uni_undel(struct uni *, int (*)(struct sig *, void *), void *); void uni_delsig(struct uni *, u_int, struct call *, struct party *); void uni_release_compl(struct call *, struct uni_all *); /*************************************************************/ /* * Message verification. */ #define MANDATE_IE(UNI,MSG,IE) \ do { \ if (!IE_ISGOOD(MSG)) \ uni_mandate_ie(UNI, IE); \ } while(0) enum verify { VFY_OK, /* ok */ VFY_RAP, /* report and proceed */ VFY_RAPU, /* report and proceed becuase of unknown IEs */ VFY_I, /* ignore */ VFY_CLR, /* clear call */ VFY_RAI, /* report and ignore */ VFY_RAIM, /* report and ignore because if mandat. IE miss */ }; void uni_mandate_ie(struct uni *, enum uni_ietype); void uni_mandate_epref(struct uni *, struct uni_ie_epref *); enum verify uni_verify(struct uni *, enum uni_msgact); void uni_respond_status_verify(struct uni *, struct uni_cref *, enum uni_callstate, struct uni_ie_epref *, enum uni_epstate); void uni_vfy_remove_unknown(struct uni *); void uni_vfy_remove_cause(struct uni *); void uni_vfy_collect_ies(struct uni *); void uni_respond_status(struct uni *uni, struct uni_cref *cref, enum uni_callstate cs, enum uni_cause c1); void uni_respond_status_mtype(struct uni *uni, struct uni_cref *cref, enum uni_callstate cs, enum uni_cause c1, u_int mtype); #define FOREACH_ERR(E, UNI) \ for ((E) = (UNI)->cx.err; (E) < (UNI)->cx.err + (UNI)->cx.errcnt; (E)++) #define ALLOC_API(TYPE,API) \ ({ \ TYPE *_tmp = NULL; \ \ if(((API) = uni_msg_alloc(sizeof(TYPE))) != NULL) { \ _tmp = uni_msg_wptr((API), TYPE *); \ (API)->b_wptr += sizeof(TYPE); \ memset(_tmp, 0, sizeof(TYPE)); \ } \ _tmp; \ }) #if defined(__GNUC__) && __GNUC__ < 3 #define VERBOSE(UNI, FAC, LEVEL, ARGS...) do { \ if ((UNI)->debug[(FAC)] >= (LEVEL)) { \ (UNI)->funcs->verbose((UNI), (UNI)->arg, (FAC) ,\ ## ARGS); \ } \ } while(0) #define VERBOSE0(UNI, FAC, ARGS...) do { \ (UNI)->funcs->verbose((UNI), (UNI)->arg, (FAC) , \ ## ARGS); \ } while(0) #else #define VERBOSE(UNI, FAC, LEVEL, ...) do { \ if ((UNI)->debug[(FAC)] >= (LEVEL)) { \ (UNI)->funcs->verbose((UNI), (UNI)->arg, (FAC), \ __VA_ARGS__); \ } \ } while(0) #define VERBOSE0(UNI, FAC, ...) do { \ (UNI)->funcs->verbose((UNI), (UNI)->arg, (FAC), \ __VA_ARGS__); \ } while(0) #endif #define TIMER_INIT_UNI(U,T) _TIMER_INIT(U,T) #define TIMER_INIT_CALL(C,T) _TIMER_INIT(C,T) #define TIMER_INIT_PARTY(P,T) _TIMER_INIT(P,T) #define TIMER_DESTROY_UNI(U,T) _TIMER_DESTROY(U, (U)->T) #define TIMER_DESTROY_CALL(C,T) _TIMER_DESTROY((C)->uni, (C)->T) #define TIMER_DESTROY_PARTY(P,T) _TIMER_DESTROY((P)->call->uni, (P)->T) #define TIMER_STOP_UNI(U,T) _TIMER_STOP(U, (U)->T) #define TIMER_STOP_CALL(C,T) _TIMER_STOP((C)->uni, (C)->T) #define TIMER_STOP_PARTY(P,T) _TIMER_STOP((P)->call->uni, (P)->T) #define TIMER_START_UNI(U,T,N) _TIMER_START(U, U, (U)->T, N, _##T##_func) #define TIMER_START_CALL(C,T,N) _TIMER_START(C->uni, C, (C)->T, N, _##T##_func) #define TIMER_START_PARTY(P,T,N) _TIMER_START(P->call->uni, P, (P)->T, N, _##T##_func) #endif