c2047754c3
Compiler changes: * Change map assignment to use mapassign and assign value directly. * Change string iteration to use decoderune, faster for ASCII strings. * Change makeslice to take int, and use makeslice64 for larger values. * Add new noverflow field to hmap struct used for maps. Unresolved problems, to be fixed later: * Commented out test in go/types/sizes_test.go that doesn't compile. * Commented out reflect.TestStructOf test for padding after zero-sized field. Reviewed-on: https://go-review.googlesource.com/35231 gotools/: Updates for Go 1.8rc1. * Makefile.am (go_cmd_go_files): Add bug.go. (s-zdefaultcc): Write defaultPkgConfig. * Makefile.in: Rebuild. From-SVN: r244456
391 lines
9.5 KiB
Go
391 lines
9.5 KiB
Go
// Copyright 2015 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// +build darwin dragonfly freebsd linux netbsd openbsd solaris
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// Minimal RFC 6724 address selection.
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package net
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import "sort"
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func sortByRFC6724(addrs []IPAddr) {
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if len(addrs) < 2 {
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return
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}
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sortByRFC6724withSrcs(addrs, srcAddrs(addrs))
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}
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func sortByRFC6724withSrcs(addrs []IPAddr, srcs []IP) {
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if len(addrs) != len(srcs) {
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panic("internal error")
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}
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addrAttr := make([]ipAttr, len(addrs))
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srcAttr := make([]ipAttr, len(srcs))
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for i, v := range addrs {
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addrAttr[i] = ipAttrOf(v.IP)
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srcAttr[i] = ipAttrOf(srcs[i])
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}
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sort.Stable(&byRFC6724{
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addrs: addrs,
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addrAttr: addrAttr,
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srcs: srcs,
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srcAttr: srcAttr,
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})
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}
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// srcsAddrs tries to UDP-connect to each address to see if it has a
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// route. (This doesn't send any packets). The destination port
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// number is irrelevant.
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func srcAddrs(addrs []IPAddr) []IP {
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srcs := make([]IP, len(addrs))
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dst := UDPAddr{Port: 9}
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for i := range addrs {
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dst.IP = addrs[i].IP
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dst.Zone = addrs[i].Zone
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c, err := DialUDP("udp", nil, &dst)
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if err == nil {
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if src, ok := c.LocalAddr().(*UDPAddr); ok {
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srcs[i] = src.IP
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}
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c.Close()
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}
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}
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return srcs
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}
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type ipAttr struct {
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Scope scope
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Precedence uint8
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Label uint8
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}
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func ipAttrOf(ip IP) ipAttr {
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if ip == nil {
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return ipAttr{}
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}
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match := rfc6724policyTable.Classify(ip)
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return ipAttr{
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Scope: classifyScope(ip),
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Precedence: match.Precedence,
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Label: match.Label,
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}
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}
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type byRFC6724 struct {
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addrs []IPAddr // addrs to sort
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addrAttr []ipAttr
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srcs []IP // or nil if unreachable
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srcAttr []ipAttr
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}
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func (s *byRFC6724) Len() int { return len(s.addrs) }
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func (s *byRFC6724) Swap(i, j int) {
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s.addrs[i], s.addrs[j] = s.addrs[j], s.addrs[i]
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s.srcs[i], s.srcs[j] = s.srcs[j], s.srcs[i]
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s.addrAttr[i], s.addrAttr[j] = s.addrAttr[j], s.addrAttr[i]
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s.srcAttr[i], s.srcAttr[j] = s.srcAttr[j], s.srcAttr[i]
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}
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// Less reports whether i is a better destination address for this
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// host than j.
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//
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// The algorithm and variable names comes from RFC 6724 section 6.
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func (s *byRFC6724) Less(i, j int) bool {
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DA := s.addrs[i].IP
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DB := s.addrs[j].IP
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SourceDA := s.srcs[i]
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SourceDB := s.srcs[j]
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attrDA := &s.addrAttr[i]
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attrDB := &s.addrAttr[j]
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attrSourceDA := &s.srcAttr[i]
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attrSourceDB := &s.srcAttr[j]
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const preferDA = true
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const preferDB = false
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// Rule 1: Avoid unusable destinations.
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// If DB is known to be unreachable or if Source(DB) is undefined, then
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// prefer DA. Similarly, if DA is known to be unreachable or if
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// Source(DA) is undefined, then prefer DB.
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if SourceDA == nil && SourceDB == nil {
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return false // "equal"
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}
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if SourceDB == nil {
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return preferDA
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}
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if SourceDA == nil {
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return preferDB
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}
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// Rule 2: Prefer matching scope.
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// If Scope(DA) = Scope(Source(DA)) and Scope(DB) <> Scope(Source(DB)),
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// then prefer DA. Similarly, if Scope(DA) <> Scope(Source(DA)) and
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// Scope(DB) = Scope(Source(DB)), then prefer DB.
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if attrDA.Scope == attrSourceDA.Scope && attrDB.Scope != attrSourceDB.Scope {
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return preferDA
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}
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if attrDA.Scope != attrSourceDA.Scope && attrDB.Scope == attrSourceDB.Scope {
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return preferDB
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}
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// Rule 3: Avoid deprecated addresses.
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// If Source(DA) is deprecated and Source(DB) is not, then prefer DB.
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// Similarly, if Source(DA) is not deprecated and Source(DB) is
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// deprecated, then prefer DA.
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// TODO(bradfitz): implement? low priority for now.
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// Rule 4: Prefer home addresses.
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// If Source(DA) is simultaneously a home address and care-of address
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// and Source(DB) is not, then prefer DA. Similarly, if Source(DB) is
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// simultaneously a home address and care-of address and Source(DA) is
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// not, then prefer DB.
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// TODO(bradfitz): implement? low priority for now.
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// Rule 5: Prefer matching label.
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// If Label(Source(DA)) = Label(DA) and Label(Source(DB)) <> Label(DB),
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// then prefer DA. Similarly, if Label(Source(DA)) <> Label(DA) and
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// Label(Source(DB)) = Label(DB), then prefer DB.
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if attrSourceDA.Label == attrDA.Label &&
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attrSourceDB.Label != attrDB.Label {
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return preferDA
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}
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if attrSourceDA.Label != attrDA.Label &&
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attrSourceDB.Label == attrDB.Label {
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return preferDB
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}
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// Rule 6: Prefer higher precedence.
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// If Precedence(DA) > Precedence(DB), then prefer DA. Similarly, if
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// Precedence(DA) < Precedence(DB), then prefer DB.
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if attrDA.Precedence > attrDB.Precedence {
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return preferDA
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}
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if attrDA.Precedence < attrDB.Precedence {
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return preferDB
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}
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// Rule 7: Prefer native transport.
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// If DA is reached via an encapsulating transition mechanism (e.g.,
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// IPv6 in IPv4) and DB is not, then prefer DB. Similarly, if DB is
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// reached via encapsulation and DA is not, then prefer DA.
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// TODO(bradfitz): implement? low priority for now.
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// Rule 8: Prefer smaller scope.
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// If Scope(DA) < Scope(DB), then prefer DA. Similarly, if Scope(DA) >
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// Scope(DB), then prefer DB.
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if attrDA.Scope < attrDB.Scope {
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return preferDA
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}
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if attrDA.Scope > attrDB.Scope {
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return preferDB
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}
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// Rule 9: Use longest matching prefix.
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// When DA and DB belong to the same address family (both are IPv6 or
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// both are IPv4 [but see below]): If CommonPrefixLen(Source(DA), DA) >
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// CommonPrefixLen(Source(DB), DB), then prefer DA. Similarly, if
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// CommonPrefixLen(Source(DA), DA) < CommonPrefixLen(Source(DB), DB),
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// then prefer DB.
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//
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// However, applying this rule to IPv4 addresses causes
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// problems (see issues 13283 and 18518), so limit to IPv6.
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if DA.To4() == nil && DB.To4() == nil {
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commonA := commonPrefixLen(SourceDA, DA)
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commonB := commonPrefixLen(SourceDB, DB)
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if commonA > commonB {
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return preferDA
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}
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if commonA < commonB {
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return preferDB
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}
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}
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// Rule 10: Otherwise, leave the order unchanged.
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// If DA preceded DB in the original list, prefer DA.
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// Otherwise, prefer DB.
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return false // "equal"
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}
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type policyTableEntry struct {
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Prefix *IPNet
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Precedence uint8
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Label uint8
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}
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type policyTable []policyTableEntry
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// RFC 6724 section 2.1.
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var rfc6724policyTable = policyTable{
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{
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Prefix: mustCIDR("::1/128"),
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Precedence: 50,
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Label: 0,
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},
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{
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Prefix: mustCIDR("::/0"),
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Precedence: 40,
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Label: 1,
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},
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{
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// IPv4-compatible, etc.
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Prefix: mustCIDR("::ffff:0:0/96"),
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Precedence: 35,
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Label: 4,
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},
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{
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// 6to4
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Prefix: mustCIDR("2002::/16"),
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Precedence: 30,
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Label: 2,
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},
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{
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// Teredo
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Prefix: mustCIDR("2001::/32"),
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Precedence: 5,
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Label: 5,
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},
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{
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Prefix: mustCIDR("fc00::/7"),
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Precedence: 3,
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Label: 13,
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},
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{
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Prefix: mustCIDR("::/96"),
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Precedence: 1,
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Label: 3,
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},
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{
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Prefix: mustCIDR("fec0::/10"),
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Precedence: 1,
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Label: 11,
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},
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{
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Prefix: mustCIDR("3ffe::/16"),
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Precedence: 1,
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Label: 12,
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},
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}
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func init() {
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sort.Sort(sort.Reverse(byMaskLength(rfc6724policyTable)))
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}
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// byMaskLength sorts policyTableEntry by the size of their Prefix.Mask.Size,
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// from smallest mask, to largest.
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type byMaskLength []policyTableEntry
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func (s byMaskLength) Len() int { return len(s) }
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func (s byMaskLength) Swap(i, j int) { s[i], s[j] = s[j], s[i] }
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func (s byMaskLength) Less(i, j int) bool {
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isize, _ := s[i].Prefix.Mask.Size()
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jsize, _ := s[j].Prefix.Mask.Size()
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return isize < jsize
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}
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// mustCIDR calls ParseCIDR and panics on any error, or if the network
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// is not IPv6.
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func mustCIDR(s string) *IPNet {
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ip, ipNet, err := ParseCIDR(s)
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if err != nil {
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panic(err.Error())
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}
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if len(ip) != IPv6len {
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panic("unexpected IP length")
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}
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return ipNet
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}
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// Classify returns the policyTableEntry of the entry with the longest
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// matching prefix that contains ip.
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// The table t must be sorted from largest mask size to smallest.
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func (t policyTable) Classify(ip IP) policyTableEntry {
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for _, ent := range t {
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if ent.Prefix.Contains(ip) {
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return ent
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}
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}
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return policyTableEntry{}
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}
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// RFC 6724 section 3.1.
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type scope uint8
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const (
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scopeInterfaceLocal scope = 0x1
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scopeLinkLocal scope = 0x2
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scopeAdminLocal scope = 0x4
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scopeSiteLocal scope = 0x5
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scopeOrgLocal scope = 0x8
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scopeGlobal scope = 0xe
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)
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func classifyScope(ip IP) scope {
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if ip.IsLoopback() || ip.IsLinkLocalUnicast() {
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return scopeLinkLocal
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}
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ipv6 := len(ip) == IPv6len && ip.To4() == nil
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if ipv6 && ip.IsMulticast() {
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return scope(ip[1] & 0xf)
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}
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// Site-local addresses are defined in RFC 3513 section 2.5.6
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// (and deprecated in RFC 3879).
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if ipv6 && ip[0] == 0xfe && ip[1]&0xc0 == 0xc0 {
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return scopeSiteLocal
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}
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return scopeGlobal
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}
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// commonPrefixLen reports the length of the longest prefix (looking
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// at the most significant, or leftmost, bits) that the
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// two addresses have in common, up to the length of a's prefix (i.e.,
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// the portion of the address not including the interface ID).
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//
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// If a or b is an IPv4 address as an IPv6 address, the IPv4 addresses
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// are compared (with max common prefix length of 32).
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// If a and b are different IP versions, 0 is returned.
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//
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// See https://tools.ietf.org/html/rfc6724#section-2.2
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func commonPrefixLen(a, b IP) (cpl int) {
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if a4 := a.To4(); a4 != nil {
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a = a4
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}
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if b4 := b.To4(); b4 != nil {
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b = b4
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}
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if len(a) != len(b) {
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return 0
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}
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// If IPv6, only up to the prefix (first 64 bits)
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if len(a) > 8 {
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a = a[:8]
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b = b[:8]
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}
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for len(a) > 0 {
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if a[0] == b[0] {
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cpl += 8
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a = a[1:]
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b = b[1:]
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continue
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}
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bits := 8
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ab, bb := a[0], b[0]
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for {
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ab >>= 1
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bb >>= 1
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bits--
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if ab == bb {
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cpl += bits
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return
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}
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}
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}
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return
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}
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