/* $NetBSD: ip_sync.h,v 1.2 2012/07/22 14:27:35 darrenr Exp $ */ /* * Copyright (C) 2012 by Darren Reed. * * See the IPFILTER.LICENCE file for details on licencing. * * @(#)ip_fil.h 1.35 6/5/96 * Id: ip_sync.h,v 1.1.1.2 2012/07/22 13:44:24 darrenr Exp $ */ #ifndef __IP_SYNC_H__ #define __IP_SYNC_H__ typedef struct synchdr { u_32_t sm_magic; /* magic */ u_char sm_v; /* version: 4,6 */ u_char sm_p; /* protocol */ u_char sm_cmd; /* command */ u_char sm_table; /* NAT, STATE, etc */ u_int sm_num; /* table entry number */ int sm_rev; /* forward/reverse */ int sm_len; /* length of the data section */ struct synclist *sm_sl; /* back pointer to parent */ } synchdr_t; #define SYNHDRMAGIC 0x0FF51DE5 /* * Commands * No delete required as expirey will take care of that! */ #define SMC_CREATE 0 /* pass ipstate_t after synchdr_t */ #define SMC_UPDATE 1 #define SMC_MAXCMD 1 /* * Tables */ #define SMC_RLOG -2 /* Only used with SIOCIPFFL */ #define SMC_NAT 0 #define SMC_STATE 1 #define SMC_MAXTBL 1 /* * Only TCP requires "more" information than just a reference to the entry * for which an update is being made. */ typedef struct synctcp_update { u_long stu_age; tcpdata_t stu_data[2]; int stu_state[2]; } synctcp_update_t; typedef struct synclist { struct synclist *sl_next; struct synclist **sl_pnext; int sl_idx; /* update index */ struct synchdr sl_hdr; union { struct ipstate *slu_ips; struct nat *slu_ipn; void *slu_ptr; } sl_un; } synclist_t; #define sl_ptr sl_un.slu_ptr #define sl_ips sl_un.slu_ips #define sl_ipn sl_un.slu_ipn #define sl_magic sl_hdr.sm_magic #define sl_v sl_hdr.sm_v #define sl_p sl_hdr.sm_p #define sl_cmd sl_hdr.sm_cmd #define sl_rev sl_hdr.sm_rev #define sl_table sl_hdr.sm_table #define sl_num sl_hdr.sm_num #define sl_len sl_hdr.sm_len /* * NOTE: SYNCLOG_SZ is defined *low*. It should be the next power of two * up for whatever number of packets per second you expect to see. Be * warned: this index's a table of large elements (upto 272 bytes in size * each), and thus a size of 8192, for example, results in a 2MB table. * The lesson here is not to use small machines for running fast firewalls * (100BaseT) in sync, where you might have upwards of 10k pps. */ #define SYNCLOG_SZ 256 typedef struct synclogent { struct synchdr sle_hdr; union { struct ipstate sleu_ips; struct nat sleu_ipn; } sle_un; } synclogent_t; typedef struct syncupdent { /* 28 or 32 bytes */ struct synchdr sup_hdr; struct synctcp_update sup_tcp; } syncupdent_t; extern void *ipf_sync_create __P((ipf_main_softc_t *)); extern int ipf_sync_soft_init __P((ipf_main_softc_t *, void *)); extern int ipf_sync_soft_fini __P((ipf_main_softc_t *, void *)); extern int ipf_sync_canread __P((void *)); extern int ipf_sync_canwrite __P((void *)); extern void ipf_sync_del_nat __P((void *, synclist_t *)); extern void ipf_sync_del_state __P((void *, synclist_t *)); extern int ipf_sync_init __P((void)); extern int ipf_sync_ioctl __P((ipf_main_softc_t *, caddr_t, ioctlcmd_t, int, int, void *)); extern synclist_t *ipf_sync_new __P((ipf_main_softc_t *, int, fr_info_t *, void *)); extern int ipf_sync_read __P((ipf_main_softc_t *, struct uio *uio)); extern int ipf_sync_write __P((ipf_main_softc_t *, struct uio *uio)); extern int ipf_sync_main_unload __P((void)); extern void ipf_sync_update __P((ipf_main_softc_t *, int, fr_info_t *, synclist_t *)); extern void ipf_sync_expire __P((ipf_main_softc_t *)); extern void ipf_sync_soft_destroy __P((ipf_main_softc_t *, void *)); extern void *ipf_sync_soft_create __P((ipf_main_softc_t *)); #endif /* __IP_SYNC_H__ */