package org.freertr.clnt; import org.freertr.addr.addrEmpty; import org.freertr.addr.addrIP; import org.freertr.addr.addrType; import org.freertr.cfg.cfgIfc; import org.freertr.cfg.cfgVrf; import org.freertr.cry.cryHashFcs16; import org.freertr.ifc.ifcDn; import org.freertr.ifc.ifcNull; import org.freertr.ifc.ifcUp; import org.freertr.ip.ipFwd; import org.freertr.ip.ipFwdIface; import org.freertr.ip.ipFwdTab; import org.freertr.ip.ipPrt; import org.freertr.pack.packHolder; import org.freertr.user.userTerminal; import org.freertr.util.bits; import org.freertr.util.counter; import org.freertr.util.logger; import org.freertr.util.state; /** * ax25 (rfc1226) client * * @author matecsaba */ public class clntAx25 implements Runnable, ipPrt, ifcDn { /** * create instance */ public clntAx25() { } /** * protocol number */ public final static int prot = 93; /** * upper layer */ public ifcUp upper = new ifcNull(); /** * preferred ip protocol version */ public int prefer = 0; /** * target of tunnel */ public String target = null; /** * vrf of target */ public cfgVrf vrf = null; /** * source interface */ public cfgIfc srcIfc = null; /** * sending ttl value, -1 means maps out */ public int sendingTTL = 255; /** * sending tos value, -1 means maps out */ public int sendingTOS = -1; /** * sending df value, -1 means maps out */ public int sendingDFN = -1; /** * sending flow value, -1 means maps out */ public int sendingFLW = -1; /** * counter */ public counter cntr = new counter(); private ipFwd fwdCor; private addrIP fwdTrg; private ipFwdIface fwdIfc; private boolean working = true; public String toString() { return "ax25 to " + fwdTrg; } /** * get hw address * * @return address */ public addrType getHwAddr() { return new addrEmpty(); } /** * set filter * * @param promisc promiscous mode */ public void setFilter(boolean promisc) { } /** * get state * * @return state */ public state.states getState() { return state.states.up; } /** * close interface */ public void closeDn() { clearState(); } /** * flap interface */ public void flapped() { clearState(); } /** * set upper layer * * @param server upper layer */ public void setUpper(ifcUp server) { upper = server; upper.setParent(this); } /** * get counter * * @return counter */ public counter getCounter() { return cntr; } /** * get mtu size * * @return mtu size */ public int getMTUsize() { return 1400; } /** * get bandwidth * * @return bandwidth */ public long getBandwidth() { return 10000000; } /** * send packet * * @param pck packet */ public void sendPack(packHolder pck) { pck.merge2beg(); if (fwdIfc == null) { return; } cryHashFcs16 sum = new cryHashFcs16(); sum.init(); pck.hashData(sum, 0, pck.dataSize()); byte[] cb = sum.finish(); pck.putCopy(cb, 0, 0, cb.length); pck.putSkip(cb.length); pck.merge2end(); cntr.tx(pck); pck.putDefaults(); if (sendingTTL >= 0) { pck.IPttl = sendingTTL; } if (sendingTOS >= 0) { pck.IPtos = sendingTOS; } if (sendingDFN >= 0) { pck.IPdf = sendingDFN == 1; } if (sendingFLW >= 0) { pck.IPid = sendingFLW; } pck.IPprt = prot; pck.IPsrc.setAddr(fwdIfc.addr); pck.IPtrg.setAddr(fwdTrg); fwdCor.protoPack(fwdIfc, null, pck); } /** * start connection */ public void workStart() { new Thread(this).start(); } /** * stop connection */ public void workStop() { working = false; clearState(); } public void run() { for (;;) { if (!working) { break; } try { clearState(); workDoer(); } catch (Exception e) { logger.traceback(e); } clearState(); bits.sleep(1000); } } private void workDoer() { fwdTrg = userTerminal.justResolv(target, prefer); if (fwdTrg == null) { return; } fwdCor = vrf.getFwd(fwdTrg); fwdIfc = null; if (srcIfc != null) { fwdIfc = srcIfc.getFwdIfc(fwdTrg); } if (fwdIfc == null) { fwdIfc = ipFwdTab.findSendingIface(fwdCor, fwdTrg); } if (fwdIfc == null) { return; } fwdCor.protoAdd(this, fwdIfc, fwdTrg); for (;;) { if (!working) { break; } bits.sleep(1000); } } private void clearState() { if (fwdIfc != null) { fwdCor.protoDel(this, fwdIfc, fwdTrg); fwdIfc = null; } } /** * get protocol number * * @return number */ public int getProtoNum() { return prot; } /** * close interface * * @param iface interface */ public void closeUp(ipFwdIface iface) { } /** * set state * * @param iface interface * @param stat state */ public void setState(ipFwdIface iface, state.states stat) { } /** * received packet * * @param rxIfc interface * @param pck packet */ public void recvPack(ipFwdIface rxIfc, packHolder pck) { int siz = pck.dataSize(); if (siz < 3) { cntr.drop(pck, counter.reasons.tooSmall); return; } cryHashFcs16 sum = new cryHashFcs16(); sum.init(); pck.hashData(sum, 0, siz - 2); byte[] cb = sum.finish(); byte[] cg = new byte[cb.length]; pck.getCopy(cg, 0, siz - cg.length, cg.length); if (bits.byteComp(cg, 0, cb, 0, cg.length) != 0) { cntr.drop(pck, counter.reasons.badSum); return; } pck.setDataSize(siz - cg.length); cntr.rx(pck); upper.recvPack(pck); } /** * received alert * * @param rxIfc interface * @param pck packet * @return false on success, true on error */ public boolean alertPack(ipFwdIface rxIfc, packHolder pck) { return true; } /** * received error * * @param err error code * @param rtr address * @param rxIfc interface * @param pck packet */ public void errorPack(counter.reasons err, addrIP rtr, ipFwdIface rxIfc, packHolder pck) { } }