package sgfw import ( "fmt" "strconv" "strings" "sync" // nfnetlink "github.com/subgraph/go-nfnetlink" "github.com/google/gopacket/layers" nfqueue "github.com/subgraph/go-nfnetlink/nfqueue" "github.com/subgraph/go-procsnitch" "net" "os" "syscall" "unsafe" ) var _interpreters = []string{ "python", "ruby", "bash", } /*type sandboxRule struct { SrcIf net.IP DstIP net.IP DstPort uint16 Whitelist bool } var sandboxRules = []sandboxRule { // { net.IP{172,16,1,42}, net.IP{140,211,166,134}, 21, false }, } */ type pendingConnection interface { policy() *Policy procInfo() *procsnitch.Info hostname() string getOptString() string proto() string src() net.IP srcPort() uint16 dst() net.IP dstPort() uint16 sandbox() string socks() bool accept() acceptTLSOnly() drop() setPrompting(bool) getPrompting() bool setPrompter(*dbusObjectP) getPrompter() *dbusObjectP getGUID() string print() string } type pendingPkt struct { pol *Policy name string pkt *nfqueue.NFQPacket pinfo *procsnitch.Info optstring string prompting bool prompter *dbusObjectP guid string } /* Not a *REAL* GUID */ func genGUID() string { frnd, err := os.Open("/dev/urandom") if err != nil { log.Fatal("Error reading random data source:", err) } rndb := make([]byte, 16) frnd.Read(rndb) frnd.Close() guid := fmt.Sprintf("%x-%x-%x-%x", rndb[0:4], rndb[4:8], rndb[8:12], rndb[12:]) return guid } func getEmptyPInfo() *procsnitch.Info { pinfo := procsnitch.Info{} pinfo.UID, pinfo.GID, pinfo.Pid, pinfo.ParentPid = -1, -1, -1, -1 pinfo.ExePath = "[unknown-exe]" pinfo.CmdLine = "[unknown-cmdline]" pinfo.FirstArg = "[unknown-arg]" pinfo.ParentCmdLine = "[unknown-pcmdline]" pinfo.ParentExePath = "[unknown-pexe]" return &pinfo } func (pp *pendingPkt) sandbox() string { return pp.pinfo.Sandbox } func (pp *pendingPkt) socks() bool { return false } func (pp *pendingPkt) policy() *Policy { return pp.pol } func (pp *pendingPkt) procInfo() *procsnitch.Info { if pp.pinfo == nil { return getEmptyPInfo() } return pp.pinfo } func (pp *pendingPkt) getOptString() string { return pp.optstring } func (pp *pendingPkt) hostname() string { return pp.name } func (pp *pendingPkt) src() net.IP { src, _ := getPacketIPAddrs(pp.pkt) return src } func (pp *pendingPkt) dst() net.IP { _, dst := getPacketIPAddrs(pp.pkt) return dst } func getNFQProto(pkt *nfqueue.NFQPacket) string { if pkt.Packet.Layer(layers.LayerTypeTCP) != nil { return "tcp" } else if pkt.Packet.Layer(layers.LayerTypeUDP) != nil { return "udp" } else if pkt.Packet.Layer(layers.LayerTypeICMPv4) != nil { return "icmp" } return "[unknown]" } func (pp *pendingPkt) proto() string { return getNFQProto(pp.pkt) } func (pp *pendingPkt) srcPort() uint16 { srcp, _ := getPacketTCPPorts(pp.pkt) return srcp } func (pp *pendingPkt) dstPort() uint16 { if pp.proto() == "tcp" { _, dstp := getPacketTCPPorts(pp.pkt) return dstp } else if pp.proto() == "udp" { _, dstp := getPacketUDPPorts(pp.pkt) return dstp } else if pp.proto() == "icmp" { code, _ := getpacketICMPCode(pp.pkt) return uint16(code) } return 0 } func (pp *pendingPkt) accept() { pp.pkt.Accept() } func (pp *pendingPkt) acceptTLSOnly() { // Not implemented pp.pkt.SetMark(1) pp.pkt.Accept() } func (pp *pendingPkt) drop() { pp.pkt.SetMark(1) pp.pkt.Accept() } func (pp *pendingPkt) setPrompter(val *dbusObjectP) { pp.prompter = val } func (pp *pendingPkt) getPrompter() *dbusObjectP { return pp.prompter } func (pp *pendingPkt) getGUID() string { if pp.guid == "" { pp.guid = genGUID() } return pp.guid } func (pp *pendingPkt) getPrompting() bool { return pp.prompting } func (pp *pendingPkt) setPrompting(val bool) { pp.prompting = val } func (pp *pendingPkt) print() string { return printPacket(pp.pkt, pp.name, pp.pinfo) } type PendingRule struct { rule string scope int policy string } type Policy struct { fw *Firewall path string sandbox string application string icon string rules RuleList pendingQueue []pendingConnection promptInProgress bool lock sync.Mutex rulesPending []PendingRule } func (fw *Firewall) PolicyForPath(path string) *Policy { fw.lock.Lock() defer fw.lock.Unlock() return fw.policyForPath(path) } func (fw *Firewall) PolicyForPathAndSandbox(path string, sandbox string) *Policy { fw.lock.Lock() defer fw.lock.Unlock() return fw.policyForPathAndSandbox(path, sandbox) } func (fw *Firewall) policyForPathAndSandbox(path string, sandbox string) *Policy { policykey := sandbox + "|" + path if _, ok := fw.policyMap[policykey]; !ok { p := new(Policy) p.fw = fw p.path = path p.application = path p.sandbox = sandbox entry := entryForPath(path) if entry != nil { p.application = entry.name p.icon = entry.icon } fw.policyMap[policykey] = p log.Infof("Creating new policy for path and sandbox: %s\n", policykey) fw.policies = append(fw.policies, p) } return fw.policyMap[policykey] } func (fw *Firewall) policyForPath(path string) *Policy { if _, ok := fw.policyMap[path]; !ok { p := new(Policy) p.fw = fw p.path = path p.application = path entry := entryForPath(path) if entry != nil { p.application = entry.name p.icon = entry.icon } fw.policyMap[path] = p fw.policies = append(fw.policies, p) } return fw.policyMap[path] } func (p *Policy) processPacket(pkt *nfqueue.NFQPacket, pinfo *procsnitch.Info, optstr string) { /* hbytes, err := pkt.GetHWAddr() if err != nil { log.Notice("Failed to get HW address underlying packet: ", err) } else { log.Notice("got hwaddr: ", hbytes) } */ p.lock.Lock() defer p.lock.Unlock() dstb := pkt.Packet.NetworkLayer().NetworkFlow().Dst().Raw() dstip := net.IP(dstb) srcip := net.IP(pkt.Packet.NetworkLayer().NetworkFlow().Src().Raw()) name := p.fw.dns.Lookup(dstip, pinfo.Pid) log.Infof("Lookup(%s): %s", dstip.String(), name) if !FirewallConfig.LogRedact { log.Infof("Lookup(%s): %s", dstip.String(), name) } // fwo := matchAgainstOzRules(srcip, dstip, dstp) result := p.rules.filterPacket(pkt, pinfo, srcip, name, optstr) switch result { case FILTER_DENY: pkt.SetMark(1) pkt.Accept() case FILTER_ALLOW: pkt.Accept() case FILTER_PROMPT: p.processPromptResult(&pendingPkt{pol: p, name: name, pkt: pkt, pinfo: pinfo, optstring: optstr, prompter: nil, prompting: false}) default: log.Warningf("Unexpected filter result: %d", result) } } func (p *Policy) processPromptResult(pc pendingConnection) { p.pendingQueue = append(p.pendingQueue, pc) //fmt.Println("processPromptResult(): p.promptInProgress = ", p.promptInProgress) //if DoMultiPrompt || (!DoMultiPrompt && !p.promptInProgress) { // if !p.promptInProgress { p.promptInProgress = true go p.fw.dbus.prompt(p) // } } func (p *Policy) nextPending() (pendingConnection, bool) { p.lock.Lock() defer p.lock.Unlock() /* if !DoMultiPrompt { if len(p.pendingQueue) == 0 { return nil, true } return p.pendingQueue[0], false }*/ if len(p.pendingQueue) == 0 { return nil, true } // for len(p.pendingQueue) != 0 { for i := 0; i < len(p.pendingQueue); i++ { fmt.Printf("pendingQueue %v of %v: %v\n", i, len(p.pendingQueue), p.pendingQueue[i]) if !p.pendingQueue[i].getPrompting() { return p.pendingQueue[i], false } } // } return nil, false } func (p *Policy) removePending(pc pendingConnection) { p.lock.Lock() defer p.lock.Unlock() remaining := []pendingConnection{} for _, c := range p.pendingQueue { if c != pc { remaining = append(remaining, c) } } if len(remaining) != len(p.pendingQueue) { p.pendingQueue = remaining } } func (p *Policy) processNewRule(r *Rule, scope FilterScope) bool { p.lock.Lock() defer p.lock.Unlock() if scope != APPLY_ONCE { p.rules = append(p.rules, r) } fmt.Println("----------------------- processNewRule()") p.filterPending(r) if len(p.pendingQueue) == 0 { p.promptInProgress = false } return p.promptInProgress } func (p *Policy) parseRule(s string, add bool) (*Rule, error) { //log.Noticef("XXX: attempt to parse rule: |%s|\n", s) r := new(Rule) r.pid = -1 r.mode = RULE_MODE_PERMANENT r.policy = p if !r.parse(s) { return nil, parseError(s) } if add { p.lock.Lock() defer p.lock.Unlock() p.rules = append(p.rules, r) } p.fw.addRule(r) return r, nil } func (p *Policy) removeRule(r *Rule) { p.lock.Lock() defer p.lock.Unlock() var newRules RuleList for _, rr := range p.rules { if rr.id != r.id { newRules = append(newRules, rr) } } p.rules = newRules } func (p *Policy) filterPending(rule *Rule) { remaining := []pendingConnection{} for _, pc := range p.pendingQueue { if rule.match(pc.src(), pc.dst(), pc.dstPort(), pc.hostname(), pc.proto(), pc.procInfo().UID, pc.procInfo().GID, uidToUser(pc.procInfo().UID), gidToGroup(pc.procInfo().GID), pc.procInfo().Sandbox) { prompter := pc.getPrompter() if prompter == nil { fmt.Println("-------- prompter = NULL") } else { call := prompter.Call("com.subgraph.FirewallPrompt.RemovePrompt", 0, pc.getGUID()) fmt.Println("CAAAAAAAAAAAAAAALL = ", call) } log.Infof("Adding rule for: %s", rule.getString(FirewallConfig.LogRedact)) // log.Noticef("%s > %s", rule.getString(FirewallConfig.LogRedact), pc.print()) if rule.rtype == RULE_ACTION_ALLOW { pc.accept() } else if rule.rtype == RULE_ACTION_ALLOW_TLSONLY { pc.acceptTLSOnly() } else { srcs := pc.src().String() + ":" + strconv.Itoa(int(pc.srcPort())) log.Warningf("DENIED outgoing connection attempt by %s from %s %s -> %s:%d (user prompt) %v", pc.procInfo().ExePath, pc.proto(), srcs, pc.dst(), pc.dstPort, rule.rtype) pc.drop() } } else { remaining = append(remaining, pc) } } if len(remaining) != len(p.pendingQueue) { p.pendingQueue = remaining } } func (p *Policy) hasPersistentRules() bool { for _, r := range p.rules { if r.mode != RULE_MODE_SESSION { return true } } return false } func printPacket(pkt *nfqueue.NFQPacket, hostname string, pinfo *procsnitch.Info) string { proto := "???" SrcPort, DstPort := uint16(0), uint16(0) SrcIp, DstIp := getPacketIPAddrs(pkt) code := 0 codestr := "" if pkt.Packet.Layer(layers.LayerTypeTCP) != nil { proto = "TCP" } else if pkt.Packet.Layer(layers.LayerTypeUDP) != nil { proto = "UDP" } else if pkt.Packet.Layer(layers.LayerTypeICMPv4) != nil { proto = "ICMP" } if proto == "TCP" { SrcPort, DstPort = getPacketTCPPorts(pkt) } else if proto == "UDP" { SrcPort, DstPort = getPacketUDPPorts(pkt) } else if proto == "ICMP" { code, codestr = getpacketICMPCode(pkt) } if FirewallConfig.LogRedact { hostname = STR_REDACTED } name := hostname if name == "" { name = DstIp.String() } if pinfo == nil { if proto == "ICMP" { return fmt.Sprintf("(%s %s -> %s: %s [%d])", proto, SrcIp, name, codestr, code) } return fmt.Sprintf("(%s %s:%d -> %s:%d)", proto, SrcIp, SrcPort, name, DstPort) } return fmt.Sprintf("%s %s %s:%d -> %s:%d", pinfo.ExePath, proto, SrcIp, SrcPort, name, DstPort) } func (fw *Firewall) filterPacket(pkt *nfqueue.NFQPacket) { isudp := pkt.Packet.Layer(layers.LayerTypeUDP) != nil if basicAllowPacket(pkt) { if isudp { srcport, _ := getPacketUDPPorts(pkt) if srcport == 53 { fw.dns.processDNS(pkt) } } pkt.Accept() return } /* if isudp { srcport, _ := getPacketUDPPorts(pkt) if srcport == 53 { fw.dns.processDNS(pkt) pkt.Accept() return } } */ _, dstip := getPacketIPAddrs(pkt) /* _, dstp := getPacketPorts(pkt) fwo := eatchAgainstOzRules(srcip, dstip, dstp) log.Notice("XXX: Attempting [2] to filter packet on rules -> ", fwo) if fwo == OZ_FWRULE_WHITELIST { log.Noticef("Automatically passed through whitelisted sandbox traffic from %s to %s:%d\n", srcip, dstip, dstp) pkt.Accept() return } else if fwo == OZ_FWRULE_BLACKLIST { log.Noticef("Automatically blocking blacklisted sandbox traffic from %s to %s:%d\n", srcip, dstip, dstp) pkt.SetMark(1) pkt.Accept() return } */ ppath := "*" strictness := procsnitch.MATCH_STRICT if isudp { strictness = procsnitch.MATCH_LOOSE } pinfo, optstring := findProcessForPacket(pkt, false, strictness) if pinfo == nil { pinfo = getEmptyPInfo() ppath = "[unknown]" optstring = "[Connection could not be mapped]" log.Warningf("No proc found for %s", printPacket(pkt, fw.dns.Lookup(dstip, pinfo.Pid), nil)) // pkt.Accept() // return } else { ppath = pinfo.ExePath cf := strings.Fields(pinfo.CmdLine) if len(cf) > 1 && strings.HasPrefix(cf[1], "/") { for _, intp := range _interpreters { if strings.Contains(pinfo.ExePath, intp) { ppath = cf[1] break } } } } log.Debugf("filterPacket [%s] %s", ppath, printPacket(pkt, fw.dns.Lookup(dstip, pinfo.Pid), nil)) /* if basicAllowPacket(pkt) { pkt.Accept() return } */ policy := fw.PolicyForPathAndSandbox(ppath, pinfo.Sandbox) //log.Notice("XXX: flunked basicallowpacket; policy = ", policy) policy.processPacket(pkt, pinfo, optstring) } func readFileDirect(filename string) ([]byte, error) { bfilename, err := syscall.BytePtrFromString(filename) if err != nil { return nil, err } res, _, err := syscall.Syscall(syscall.SYS_OPEN, uintptr(unsafe.Pointer(bfilename)), syscall.O_RDONLY, 0) fdlong := int64(res) if fdlong < 0 { return nil, err } fd := int(res) data := make([]byte, 65535) i := 0 val := 0 for i = 0; i < 65535; { val, err = syscall.Read(fd, data[i:]) i += val if err != nil && val != 0 { return nil, err } if val == 0 { break } } data = data[0:i] /* val, err := syscall.Read(fd, data) if err != nil { return nil, err } */ syscall.Close(fd) /* if val < 65535 { data = data[0:val] } */ return data, nil } func getAllProcNetDataLocal() ([]string, error) { data := "" for i := 0; i < len(OzInitPids); i++ { fname := fmt.Sprintf("/proc/%d/net/tcp", OzInitPids[i]) //fmt.Println("XXX: opening: ", fname) bdata, err := readFileDirect(fname) if err != nil { fmt.Println("Error reading proc data from ", fname, ": ", err) } else { data += string(bdata) } } lines := strings.Split(data, "\n") rlines := make([]string, 0) ctr := 1 for l := 0; l < len(lines); l++ { lines[l] = strings.TrimSpace(lines[l]) ssplit := strings.Split(lines[l], ":") if len(ssplit) != 6 { continue } ssplit[0] = fmt.Sprintf("%d", ctr) ctr++ rlines = append(rlines, strings.Join(ssplit, ":")) } return rlines, nil } func GetRealRoot(pathname string, pid int) string { pfname := fmt.Sprintf("/proc/%d/root", pid) lnk, err := os.Readlink(pfname) if err != nil { fmt.Printf("Error reading link at %s: %v", pfname, err) return pathname } if lnk == "/" { return pathname } if strings.HasPrefix(pathname, lnk) { return pathname[len(lnk):] } return pathname } // XXX: This is redundant code.... it should be called by findProcessForPacket() func LookupSandboxProc(srcip net.IP, srcp uint16, dstip net.IP, dstp uint16, proto string, strictness, icode int) (*procsnitch.Info, string) { var res *procsnitch.Info = nil var optstr string removePids := make([]int, 0) for i := 0; i < len(OzInitPids); i++ { data := "" fname := fmt.Sprintf("/proc/%d/net/%s", OzInitPids[i].Pid, proto) //fmt.Println("XXX: opening: ", fname) bdata, err := readFileDirect(fname) if err != nil { fmt.Println("Error reading proc data from ", fname, ": ", err) if err == syscall.ENOENT { removePids = append(removePids, OzInitPids[i].Pid) } continue } else { data = string(bdata) lines := strings.Split(data, "\n") rlines := make([]string, 0) for l := 0; l < len(lines); l++ { lines[l] = strings.TrimSpace(lines[l]) ssplit := strings.Split(lines[l], ":") if len(ssplit) != 6 { continue } rlines = append(rlines, strings.Join(ssplit, ":")) } // log.Warningf("Looking for %s:%d => %s:%d \n %s\n******\n", srcip, srcp, dstip, dstp, data) if proto == "tcp" { res = procsnitch.LookupTCPSocketProcessAll(srcip, srcp, dstip, dstp, rlines) } else if proto == "udp" { res = procsnitch.LookupUDPSocketProcessAll(srcip, srcp, dstip, dstp, rlines, strictness) } else if proto == "icmp" { res = procsnitch.LookupICMPSocketProcessAll(srcip, dstip, icode, rlines) } else { fmt.Printf("unknown proto: %s", proto) } if res != nil { // optstr = "Sandbox: " + OzInitPids[i].Name res.Sandbox = OzInitPids[i].Name res.ExePath = GetRealRoot(res.ExePath, OzInitPids[i].Pid) break } /*else { log.Warningf("*****\nCouldn't find proc for %s:%d => %s:%d \n %s\n******\n", srcip, srcp, dstip, dstp, data) } */ } } for _, p := range removePids { removeInitPid(p) } return res, optstr } func findProcessForPacket(pkt *nfqueue.NFQPacket, reverse bool, strictness int) (*procsnitch.Info, string) { srcip, dstip := getPacketIPAddrs(pkt) srcp, dstp := getPacketPorts(pkt) proto := "" optstr := "" icode := -1 if reverse { dstip, srcip = getPacketIPAddrs(pkt) dstp, srcp = getPacketPorts(pkt) } if pkt.Packet.Layer(layers.LayerTypeTCP) != nil { proto = "tcp" } else if pkt.Packet.Layer(layers.LayerTypeUDP) != nil { proto = "udp" } else if pkt.Packet.Layer(layers.LayerTypeICMPv4) != nil { proto = "icmp" icode, _ = getpacketICMPCode(pkt) } else if pkt.Packet.Layer(layers.LayerTypeICMPv6) != nil { proto = "icmp" icode, _ = getpacketICMPCode(pkt) } if proto == "" { log.Warningf("Packet has unknown protocol: %d", pkt.Packet.NetworkLayer().LayerType()) return nil, optstr } // log.Noticef("XXX proto = %s, from %v : %v -> %v : %v\n", proto, srcip, srcp, dstip, dstp) var res *procsnitch.Info = nil // Try normal way first, before the more resource intensive/invasive way. if proto == "tcp" { res = procsnitch.LookupTCPSocketProcessAll(srcip, srcp, dstip, dstp, nil) } else if proto == "udp" { res = procsnitch.LookupUDPSocketProcessAll(srcip, srcp, dstip, dstp, nil, strictness) } else if proto == "icmp" { res = procsnitch.LookupICMPSocketProcessAll(srcip, dstip, icode, nil) } if res == nil { removePids := make([]int, 0) for i := 0; i < len(OzInitPids); i++ { data := "" fname := fmt.Sprintf("/proc/%d/net/%s", OzInitPids[i].Pid, proto) //fmt.Println("XXX: opening: ", fname) bdata, err := readFileDirect(fname) if err != nil { fmt.Println("Error reading proc data from ", fname, ": ", err) if err == syscall.ENOENT { removePids = append(removePids, OzInitPids[i].Pid) } continue } else { data = string(bdata) lines := strings.Split(data, "\n") rlines := make([]string, 0) for l := 0; l < len(lines); l++ { lines[l] = strings.TrimSpace(lines[l]) ssplit := strings.Split(lines[l], ":") if len(ssplit) != 6 { continue } rlines = append(rlines, strings.Join(ssplit, ":")) } if proto == "tcp" { res = procsnitch.LookupTCPSocketProcessAll(srcip, srcp, dstip, dstp, rlines) } else if proto == "udp" { res = procsnitch.LookupUDPSocketProcessAll(srcip, srcp, dstip, dstp, rlines, strictness) } else if proto == "icmp" { res = procsnitch.LookupICMPSocketProcessAll(srcip, dstip, icode, rlines) } if res != nil { optstr = "Sandbox: " + OzInitPids[i].Name res.ExePath = GetRealRoot(res.ExePath, OzInitPids[i].Pid) break } } } for _, p := range removePids { removeInitPid(p) } } return res, optstr } func basicAllowPacket(pkt *nfqueue.NFQPacket) bool { srcip, dstip := getPacketIPAddrs(pkt) if pkt.Packet.Layer(layers.LayerTypeUDP) != nil { _, dport := getPacketUDPPorts(pkt) if dport == 53 { // fw.dns.processDNS(pkt) return true } } if pkt.Packet.Layer(layers.LayerTypeICMPv4) != nil && srcip.Equal(dstip) { // An ICMP dest unreach packet sent to ourselves probably isn't a big security risk. return true } return dstip.IsLoopback() || dstip.IsLinkLocalMulticast() || (pkt.Packet.Layer(layers.LayerTypeTCP) == nil && pkt.Packet.Layer(layers.LayerTypeUDP) == nil && pkt.Packet.Layer(layers.LayerTypeICMPv4) == nil && pkt.Packet.Layer(layers.LayerTypeICMPv6) == nil) } func getPacketIPAddrs(pkt *nfqueue.NFQPacket) (net.IP, net.IP) { ipv4 := true ipLayer := pkt.Packet.Layer(layers.LayerTypeIPv4) if ipLayer == nil { ipv4 = false ipLayer = pkt.Packet.Layer(layers.LayerTypeIPv6) } if ipLayer == nil { if ipv4 { return net.IP{0, 0, 0, 0}, net.IP{0, 0, 0, 0} } return net.IP{}, net.IP{} } if !ipv4 { ip6, _ := ipLayer.(*layers.IPv6) return ip6.SrcIP, ip6.DstIP } ip4, _ := ipLayer.(*layers.IPv4) return ip4.SrcIP, ip4.DstIP } func getpacketICMPCode(pkt *nfqueue.NFQPacket) (int, string) { icmpLayer := pkt.Packet.Layer(layers.LayerTypeICMPv4) if icmpLayer == nil { return -1, "" } icmp, _ := icmpLayer.(*layers.ICMPv4) return int(icmp.TypeCode.Code()), icmp.TypeCode.String() } func getPacketTCPPorts(pkt *nfqueue.NFQPacket) (uint16, uint16) { tcpLayer := pkt.Packet.Layer(layers.LayerTypeTCP) if tcpLayer == nil { return 0, 0 } tcp, _ := tcpLayer.(*layers.TCP) return uint16(tcp.SrcPort), uint16(tcp.DstPort) } func getPacketUDPPorts(pkt *nfqueue.NFQPacket) (uint16, uint16) { udpLayer := pkt.Packet.Layer(layers.LayerTypeUDP) if udpLayer == nil { return 0, 0 } udp, _ := udpLayer.(*layers.UDP) return uint16(udp.SrcPort), uint16(udp.DstPort) } func getPacketPorts(pkt *nfqueue.NFQPacket) (uint16, uint16) { s, d := getPacketTCPPorts(pkt) if s == 0 && d == 0 { s, d = getPacketUDPPorts(pkt) } return s, d } /*func matchAgainstOzRules(srci, dsti net.IP, dstp uint16) int { for i := 0; i < len(sandboxRules); i++ { log.Notice("XXX: Attempting to match: ", srci, " / ", dsti, " / ", dstp, " | ", sandboxRules[i]) if sandboxRules[i].SrcIf.Equal(srci) && sandboxRules[i].DstIP.Equal(dsti) && sandboxRules[i].DstPort == dstp { if sandboxRules[i].Whitelist { return OZ_FWRULE_WHITELIST } return OZ_FWRULE_BLACKLIST } } return OZ_FWRULE_NONE } */