ref: aea866a49300a5e31e737d8fe54763711e693f05
dir: /sys/src/9/ip/ip.h/
typedef struct Conv Conv; typedef struct Fragment4 Fragment4; typedef struct Fragment6 Fragment6; typedef struct Fs Fs; typedef union Hwaddr Hwaddr; typedef struct IP IP; typedef struct IPaux IPaux; typedef struct Ip4hdr Ip4hdr; typedef struct Ipfrag Ipfrag; typedef struct Ipself Ipself; typedef struct Ipselftab Ipselftab; typedef struct Iplink Iplink; typedef struct Iplifc Iplifc; typedef struct Ipmulti Ipmulti; typedef struct Ipifc Ipifc; typedef struct Iphash Iphash; typedef struct Ipht Ipht; typedef struct Netlog Netlog; typedef struct Medium Medium; typedef struct Proto Proto; typedef struct Arpent Arpent; typedef struct Arp Arp; typedef struct Route Route; typedef struct Routehint Routehint; typedef struct Translation Translation; typedef struct Routerparams Routerparams; typedef struct Hostparams Hostparams; typedef struct v6params v6params; #pragma incomplete Arp #pragma incomplete Ipself #pragma incomplete Ipselftab #pragma incomplete IP #pragma incomplete Netlog enum { Addrlen= 64, Maxproto= 20, Maxincall= 10, Nchans= 1024, MAClen= 8, /* longest mac address */ MAXTTL= 255, DFLTTOS= 0, IPaddrlen= 16, IPv4addrlen= 4, IPv4off= 12, IPllen= 4, /* ip versions */ V4= 4, V6= 6, IP_VER4= 0x40, IP_VER6= 0x60, IP_HLEN4= 5, /* v4: Header length in words */ IP_DF= 0x4000, /* v4: Don't fragment */ IP_MF= 0x2000, /* v4: More fragments */ IP_FO= 0x1fff, /* v4: Fragment offset */ IP4HDR= IP_HLEN4<<2, /* sizeof(Ip4hdr) */ IP_MAX= 64*1024, /* Max. Internet packet size, v4 & v6 */ /* 2^Lroot trees in the root table */ Lroot= 10, Maxpath = 64, }; enum { Idle= 0, Announcing= 1, Announced= 2, Connecting= 3, Connected= 4, }; /* MIB II counters */ enum { Forwarding, DefaultTTL, InReceives, InHdrErrors, InAddrErrors, ForwDatagrams, InUnknownProtos, InDiscards, InDelivers, OutRequests, OutDiscards, OutNoRoutes, ReasmTimeout, ReasmReqds, ReasmOKs, ReasmFails, FragOKs, FragFails, FragCreates, Nipstats, }; struct Fragment4 { Block* blist; Fragment4* next; ulong src; ulong dst; ushort id; ulong age; }; struct Fragment6 { Block* blist; Fragment6* next; uchar src[IPaddrlen]; uchar dst[IPaddrlen]; uint id; ulong age; }; struct Ipfrag { ushort foff; ushort flen; uchar payload[]; }; #define IPFRAGSZ offsetof(Ipfrag, payload[0]) /* an instance of IP */ struct IP { uvlong stats[Nipstats]; QLock fraglock4; Fragment4* flisthead4; Fragment4* fragfree4; Ref id4; QLock fraglock6; Fragment6* flisthead6; Fragment6* fragfree6; Ref id6; int iprouting; /* true if we route like a gateway */ }; /* on the wire packet header */ struct Ip4hdr { uchar vihl; /* Version and header length */ uchar tos; /* Type of service */ uchar length[2]; /* packet length */ uchar id[2]; /* ip->identification */ uchar frag[2]; /* Fragment information */ uchar ttl; /* Time to live */ uchar proto; /* Protocol */ uchar cksum[2]; /* Header checksum */ uchar src[4]; /* IP source */ uchar dst[4]; /* IP destination */ }; /* * cache for route and arp table lookups. * one per Conv so conversations with a * fixed target can avoid the per packet * lookup overhead. */ struct Routehint { Route *r; /* last route used */ ulong rgen; /* routetable generation for *r */ Arpent *a; /* last arp entry used */ }; /* * hash table for 2 ip addresses + 2 ports */ enum { Nipht= 521, /* convenient prime */ IPmatchexact= 0, /* match on 4 tuple */ IPmatchany, /* *!* */ IPmatchport, /* *!port */ IPmatchaddr, /* addr!* */ IPmatchpa, /* addr!port */ }; struct Iphash { Iphash *nextiphash; uchar trans; /* 0 = conv, 1 = foward, 2 = backward */ uchar match; ushort lport; /* local port number */ ushort rport; /* remote port number */ uchar laddr[IPaddrlen]; /* local IP address */ uchar raddr[IPaddrlen]; /* remote IP address */ }; struct Ipht { Lock; Iphash *tab[Nipht]; }; void iphtadd(Ipht*, Iphash*); void iphtrem(Ipht*, Iphash*); Iphash *iphtlook(Ipht *ht, uchar *sa, ushort sp, uchar *da, ushort dp); /* * NAT entry. * * This holds the 5 tuple as two Iphashes. * The "forward" hash matches the the packets from * the source that need to be translated and * "backward" matches the packets coming back * from the destination. */ struct Translation { Translation *next; Translation **link; ulong time; Iphash forward; #define iphforward(h) ((Translation*)((char*)(h) - (char*)&((Translation*)0)->forward)) Iphash backward; #define iphbackward(h) ((Translation*)((char*)(h) - (char*)&((Translation*)0)->backward)) /* used for forwarding to the source */ Routehint; }; Translation *transforward(Proto *p, Ipht *ht, uchar *sa, int sp, uchar *da, int dp, Route *r); Translation *transbackward(Proto *p, Iphash *iph); /* * one per conversation directory */ struct Conv { QLock; int x; /* conversation index */ Proto* p; uint ttl; /* max time to live */ uint tos; /* type of service */ uchar restricted; /* remote port is restricted */ uchar ignoreadvice; /* don't terminate connection on icmp errors */ uchar ipversion; Iphash; #define iphconv(h) ((Conv*)((char*)(h) - (char*)&((Conv*)0)->Iphash)) char *owner; /* protections */ int perm; int inuse; /* opens of listen/data/ctl */ int length; int state; /* udp specific */ int headers; /* data src/dst headers in udp */ Conv* incall; /* calls waiting to be listened for */ Conv* next; Queue* rq; /* queued data waiting to be read */ Queue* wq; /* queued data waiting to be written */ Queue* eq; /* returned error packets */ Queue* sq; /* snooping queue */ Ref snoopers; /* number of processes with snoop open */ Rendez cr; char cerr[ERRMAX]; QLock listenq; Rendez listenr; Ipmulti *multi; /* multicast bindings for this interface */ void* ptcl; /* protocol specific stuff */ Routehint; }; struct Medium { char *name; int hsize; /* medium header size */ int mintu; /* default min mtu */ int maxtu; /* default max mtu */ int maclen; /* mac address length */ void (*bind)(Ipifc*, int, char**); void (*unbind)(Ipifc*); void (*bwrite)(Ipifc *ifc, Block *b, int version, uchar *ip, Routehint *rh); /* for arming interfaces to receive multicast */ void (*addmulti)(Ipifc *ifc, uchar *a, uchar *ia); void (*remmulti)(Ipifc *ifc, uchar *a, uchar *ia); /* process packets written to 'data' */ void (*pktin)(Fs *f, Ipifc *ifc, Block *bp); /* address resolution */ void (*areg)(Fs *f, Ipifc *ifc, Iplifc *lifc, uchar *ip); /* v6 address generation */ void (*pref2addr)(uchar *pref, uchar *ea); int unbindonclose; /* if non-zero, unbind on last close */ }; /* logical interface associated with a physical one */ struct Iplifc { uchar local[IPaddrlen]; uchar mask[IPaddrlen]; uchar remote[IPaddrlen]; uchar net[IPaddrlen]; uchar type; /* route type */ uchar tentative; /* =1 => v6 dup disc on, =0 => confirmed unique */ uchar onlink; /* =1 => onlink, =0 offlink. */ uchar autoflag; /* v6 autonomous flag */ ulong validlt; /* v6 valid lifetime */ ulong preflt; /* v6 preferred lifetime */ ulong origint; /* time when addr was added */ Iplink *link; /* addresses linked to this lifc */ Iplifc *next; }; /* binding twixt Ipself and Iplifc */ struct Iplink { Ipself *self; Iplifc *lifc; Iplink *selflink; /* next link for this local address */ Iplink *lifclink; /* next link for this lifc */ Iplink *next; /* free list */ ulong expire; int ref; }; /* rfc 2461, pp.40—43. */ /* default values, one per stack */ struct Routerparams { int mflag; /* flag: managed address configuration */ int oflag; /* flag: other stateful configuration */ int maxraint; /* max. router adv interval (ms) */ int minraint; /* min. router adv interval (ms) */ int linkmtu; /* mtu options */ int reachtime; /* reachable time */ int rxmitra; /* retransmit interval */ int ttl; /* cur hop count limit */ int routerlt; /* router lifetime */ }; struct Hostparams { int rxmithost; }; struct Ipifc { RWlock; Conv *conv; /* link to its conversation structure */ char dev[64]; /* device we're attached to */ Medium *m; /* Media pointer */ int maxtu; /* Maximum transfer unit */ int mintu; /* Minumum tranfer unit */ void *arg; /* medium specific */ uchar reflect; /* allow forwarded packets to go out the same interface */ uchar reassemble; /* reassemble IP packets before forwarding to this interface */ uchar ifcid; /* incremented each 'bind/unbind/add/remove' */ uchar mac[MAClen]; /* MAC address */ Iplifc *lifc; /* logical interfaces on this physical one */ ulong in, out; /* message statistics */ ulong inerr, outerr; /* ... */ uchar sendra6; /* flag: send router advs on this ifc */ uchar recvra6; /* flag: recv router advs on this ifc */ Routerparams rp; /* router parameters as in RFC 2461, pp.40—43. used only if node is router */ int speed; /* link speed in bits per second */ int delay; /* burst delay in ms */ int burst; /* burst delay in bytes */ int load; /* bytes in flight */ ulong ticks; }; /* * one per multicast-lifc pair used by a Conv */ struct Ipmulti { uchar ma[IPaddrlen]; uchar ia[IPaddrlen]; Ipmulti *next; }; /* * one per multiplexed protocol */ struct Proto { QLock; char* name; /* protocol name */ int x; /* protocol index */ int ipproto; /* ip protocol type */ char* (*connect)(Conv*, char**, int); char* (*announce)(Conv*, char**, int); char* (*bind)(Conv*, char**, int); int (*state)(Conv*, char*, int); void (*create)(Conv*); void (*close)(Conv*); void (*rcv)(Proto*, Ipifc*, Block*); char* (*ctl)(Conv*, char**, int); void (*advise)(Proto*, Block*, char*); int (*stats)(Proto*, char*, int); int (*local)(Conv*, char*, int); int (*remote)(Conv*, char*, int); int (*inuse)(Conv*); int (*gc)(Proto*); /* returns true if any conversations are freed */ Fs *f; /* file system this proto is part of */ Conv **conv; /* array of conversations */ int ptclsize; /* size of per protocol ctl block */ int nc; /* number of conversations */ int ac; Qid qid; /* qid for protocol directory */ ushort nextrport; /* network address translation */ Translation* translations; Block* (*forward)(Proto*, Block*, Route*); void *priv; }; int unusedlport(Proto *p); /* * one per IP protocol stack */ struct Fs { RWlock; int dev; int np; Proto* p[Maxproto+1]; /* list of supported protocols */ Proto* t2p[256]; /* vector of all protocols */ Proto* ipifc; /* kludge for ipifcremroute & ipifcaddroute */ Proto* ipmux; /* kludge for finding an ip multiplexor */ IP *ip; Ipselftab *self; Arp *arp; v6params *v6p; Route *v4root[1<<Lroot]; /* v4 routing forest */ Route *v6root[1<<Lroot]; /* v6 routing forest */ Route *queue; /* used as temp when reinjecting routes */ Netlog *alog; char ndb[1024]; /* an ndb entry for this interface */ int ndbvers; long ndbmtime; }; struct v6params { Routerparams rp; /* v6 params, one copy per node now */ Hostparams hp; }; int Fsconnected(Conv*, char*); Conv* Fsnewcall(Conv*, uchar*, ushort, uchar*, ushort, uchar); int Fspcolstats(char*, int); int Fsproto(Fs*, Proto*); int Fsbuiltinproto(Fs*, uchar); Conv* Fsprotoclone(Proto*, char*); Proto* Fsrcvpcol(Fs*, uchar); Proto* Fsrcvpcolx(Fs*, uchar); char* Fsstdconnect(Conv*, char**, int); char* Fsstdannounce(Conv*, char**, int); char* Fsstdbind(Conv*, char**, int); ulong scalednconv(void); void closeconv(Conv*); /* * logging */ enum { Logip= 1<<1, Logtcp= 1<<2, Logfs= 1<<3, Logil= 1<<4, Logicmp= 1<<5, Logudp= 1<<6, Logcompress= 1<<7, Logilmsg= 1<<8, Loggre= 1<<9, Logppp= 1<<10, Logtcprxmt= 1<<11, Logigmp= 1<<12, Logudpmsg= 1<<13, Logipmsg= 1<<14, Logrudp= 1<<15, Logrudpmsg= 1<<16, Logesp= 1<<17, Logtcpwin= 1<<18, Logtrans= 1<<19, }; void netloginit(Fs*); void netlogopen(Fs*); void netlogclose(Fs*); void netlogctl(Fs*, char*, int); long netlogread(Fs*, void*, ulong, long); void netlog(Fs*, int, char*, ...); void ifcloginit(Fs*); long ifclogread(Fs*, Chan *,void*, ulong, long); void ifclog(Fs*, uchar *, int); void ifclogopen(Fs*, Chan*); void ifclogclose(Fs*, Chan*); #pragma varargck argpos netlog 3 /* * iproute.c */ typedef struct RouteTree RouteTree; typedef struct V4route V4route; typedef struct V6route V6route; enum { /* type bits */ Rv4= (1<<0), /* this is a version 4 route */ Rifc= (1<<1), /* this route is a directly connected interface */ Rptpt= (1<<2), /* this route is a pt to pt interface */ Runi= (1<<3), /* a unicast self address */ Rbcast= (1<<4), /* a broadcast self address */ Rmulti= (1<<5), /* a multicast self address */ Rproxy= (1<<6), /* this route should be proxied */ Rtrans= (1<<7), /* this route translates source address (NAT) */ Rsrc= (1<<8), /* source specific route */ }; struct RouteTree { Route *mid; Route *left; Route *right; Ipifc *ifc; uchar ifcid; /* must match ifc->id */ uchar depth; ushort type; char tag[4]; int ref; }; struct V4route { ulong address; ulong endaddress; ulong source; ulong endsource; uchar gate[IPv4addrlen]; }; struct V6route { ulong address[IPllen]; ulong endaddress[IPllen]; ulong source[IPllen]; ulong endsource[IPllen]; uchar gate[IPaddrlen]; }; struct Route { RouteTree; union { V6route v6; V4route v4; }; }; extern void addroute(Fs *f, uchar *a, uchar *mask, uchar *s, uchar *smask, uchar *gate, int type, Ipifc *ifc, char *tag); extern void remroute(Fs *f, uchar *a, uchar *mask, uchar *s, uchar *smask, uchar *gate, int type, Ipifc *ifc, char *tag); extern Route* v4lookup(Fs *f, uchar *a, uchar *s, Routehint *rh); extern Route* v6lookup(Fs *f, uchar *a, uchar *s, Routehint *rh); extern Route* v4source(Fs *f, uchar *a, uchar *s); extern Route* v6source(Fs *f, uchar *a, uchar *s); extern long routeread(Fs *f, char*, ulong, int); extern long routewrite(Fs *f, Chan*, char*, int); extern void routetype(int type, char p[8]); /* * devip.c */ /* * Hanging off every ip channel's ->aux is the following structure. * It maintains the state used by devip and iproute. */ struct IPaux { char *owner; /* the user that did the attach */ char tag[4]; }; extern IPaux* newipaux(char*, char*); /* * arp.c */ struct Arpent { uchar ip[IPaddrlen]; uchar mac[MAClen]; Arpent *hash; Arpent *nextrxt; /* re-transmit chain */ Block *hold; Block *last; Ipifc *ifc; uchar ifcid; /* must match ifc->id */ uchar state; uchar rxtsrem; /* re-tranmissions remaining */ ulong ctime; /* time entry was created or refreshed */ ulong utime; /* time entry was last used */ }; extern void arpinit(Fs*); extern int arpread(Arp*, char*, ulong, int); extern int arpwrite(Fs*, char*, int); extern Arpent* arpget(Arp*, Block *bp, int version, Ipifc *ifc, uchar *ip, uchar *mac, Routehint *rh); extern void arprelease(Arp*, Arpent *a); extern void arpcontinue(Arp*, Arpent *a); extern Block* arpresolve(Arp*, Arpent *a, uchar *mac, Routehint *rh); extern int arpenter(Fs*, int version, uchar *ip, uchar *mac, int n, uchar *ia, Ipifc *ifc, int refresh); extern void ndpsendsol(Fs*, Arpent*); /* * ipaux.c */ extern int parseether(uchar*, char*); extern vlong parseip(uchar*, char*); extern vlong parseipmask(uchar*, char*, int); extern vlong parseipandmask(uchar*, uchar*, char*, char*); extern char* v4parseip(uchar*, char*); extern void maskip(uchar *from, uchar *mask, uchar *to); extern int parsemac(uchar *to, char *from, int len); extern uchar* defmask(uchar*); extern int isv4(uchar*); extern void v4tov6(uchar *v6, uchar *v4); extern int v6tov4(uchar *v4, uchar *v6); extern int eipfmt(Fmt*); extern int ipismulticast(uchar *ip); extern int convipvers(Conv *c); extern void hnputs_csum(void *p, ushort v, uchar *pcsum); #define ipmove(x, y) memmove(x, y, IPaddrlen) #define ipcmp(x, y) ( (x)[IPaddrlen-1] != (y)[IPaddrlen-1] || memcmp(x, y, IPaddrlen) ) #define isv4mcast(ip4) ((ip4)[0] >= 0xe0 && (ip4)[0] < 0xf0) extern uchar IPv4bcast[IPaddrlen]; extern uchar IPv4bcastobs[IPaddrlen]; extern uchar IPv4allsys[IPaddrlen]; extern uchar IPv4allrouter[IPaddrlen]; extern uchar IPnoaddr[IPaddrlen]; extern uchar v4prefix[IPaddrlen]; extern uchar IPallbits[IPaddrlen]; #define NOW TK2MS(MACHP(0)->ticks) /* * media */ extern Medium ethermedium; extern Medium nullmedium; extern Medium pktmedium; /* * ipifc.c */ extern Medium* ipfindmedium(char *name); extern void addipmedium(Medium *med); extern void ipifcoput(Ipifc *ifc, Block *bp, int version, uchar *ip, Routehint *rh); extern int ipforme(Fs*, uchar *addr); extern Ipifc* findipifc(Fs*, uchar *local, uchar *remote, int type); extern Ipifc* findipifcstr(Fs *f, char *s); extern void findlocalip(Fs*, uchar *local, uchar *remote); extern int ipv4local(Ipifc *ifc, uchar *local, int prefixlen, uchar *remote); extern int ipv6local(Ipifc *ifc, uchar *local, int prefixlen, uchar *remote); extern Iplifc* iplocalonifc(Ipifc *ifc, uchar *ip); extern Iplifc* ipremoteonifc(Ipifc *ifc, uchar *ip); extern int ipproxyifc(Fs *f, Ipifc *ifc, uchar *ip); extern void ipifcremmulti(Conv *c, uchar *ma, uchar *ia); extern void ipifcaddmulti(Conv *c, uchar *ma, uchar *ia); extern char* ipifcrem(Ipifc *ifc, char **argv, int argc); extern char* ipifcadd(Ipifc *ifc, char **argv, int argc, int tentative, Iplifc *lifcp); extern long ipselftabread(Fs*, char *a, ulong offset, int n); extern char* ipifcadd6(Ipifc *ifc, char**argv, int argc); extern char* ipifcremove6(Ipifc *ifc, char**argv, int argc); /* * ip.c */ extern void iprouting(Fs*, int); extern void icmpnohost(Fs*, Ipifc*, Block*); extern void icmpnoconv(Fs*, Block*); extern void icmpcantfrag(Fs*, Block*, int); extern void icmpttlexceeded(Fs*, Ipifc*, Block*); extern void icmpproxyadvice(Fs *, Block*, uchar*); extern ushort ipcsum(uchar*); extern void ipiput4(Fs*, Ipifc*, Block*); extern void ipiput6(Fs*, Ipifc*, Block*); extern int ipoput4(Fs*, Block*, int, int, int, Routehint*); extern int ipoput6(Fs*, Block*, int, int, int, Routehint*); extern int ipstats(Fs*, char*, int); extern ushort ptclbsum(uchar*, int); extern ushort ptclcsum(Block*, int, int); extern void ip_init(Fs*); extern void ip_init_6(Fs*); /* * bootp.c */ extern int bootpread(char*, ulong, int); /* * resolving inferno/plan9 differences */ char* commonuser(void); char* commonerror(void); /* * chandial.c */ extern Chan* chandial(char*, char*, char*, Chan**); /* * global to all of the stack */ extern void (*igmpreportfn)(Ipifc*, uchar*);