package intel import ( "fmt" "net" "time" "github.com/miekg/dns" ) // RRCache is used to cache DNS data type RRCache struct { Domain string Question dns.Type Answer []dns.RR Ns []dns.RR Extra []dns.RR TTL int64 Server string ServerScope int8 updated int64 servedFromCache bool requestingNew bool Filtered bool FilteredEntries []string } // Clean sets all TTLs to 17 and sets cache expiry with specified minimum. func (m *RRCache) Clean(minExpires uint32) { var lowestTTL uint32 = 0xFFFFFFFF var header *dns.RR_Header // set TTLs to 17 // TODO: double append? is there something more elegant? for _, rr := range append(m.Answer, append(m.Ns, m.Extra...)...) { header = rr.Header() if lowestTTL > header.Ttl { lowestTTL = header.Ttl } header.Ttl = 17 } // TTL must be at least minExpires if lowestTTL < minExpires { lowestTTL = minExpires } // log.Tracef("lowest TTL is %d", lowestTTL) m.TTL = time.Now().Unix() + int64(lowestTTL) } // ExportAllARecords return of a list of all A and AAAA IP addresses. func (m *RRCache) ExportAllARecords() (ips []net.IP) { for _, rr := range m.Answer { if rr.Header().Class != dns.ClassINET { continue } switch rr.Header().Rrtype { case dns.TypeA: aRecord, ok := rr.(*dns.A) if ok { ips = append(ips, aRecord.A) } case dns.TypeAAAA: aaaaRecord, ok := rr.(*dns.AAAA) if ok { ips = append(ips, aaaaRecord.AAAA) } } } return } // ToNameRecord converts the RRCache to a NameRecord for cleaner persistence. func (m *RRCache) ToNameRecord() *NameRecord { new := &NameRecord{ Domain: m.Domain, Question: m.Question.String(), TTL: m.TTL, Server: m.Server, ServerScope: m.ServerScope, } // stringify RR entries for _, entry := range m.Answer { new.Answer = append(new.Answer, entry.String()) } for _, entry := range m.Ns { new.Ns = append(new.Ns, entry.String()) } for _, entry := range m.Extra { new.Extra = append(new.Extra, entry.String()) } return new } // Save saves the RRCache to the database as a NameRecord. func (m *RRCache) Save() error { return m.ToNameRecord().Save() } // GetRRCache tries to load the corresponding NameRecord from the database and convert it. func GetRRCache(domain string, question dns.Type) (*RRCache, error) { rrCache := &RRCache{ Domain: domain, Question: question, } nameRecord, err := GetNameRecord(domain, question.String()) if err != nil { return nil, err } rrCache.TTL = nameRecord.TTL for _, entry := range nameRecord.Answer { rr, err := dns.NewRR(entry) if err == nil { rrCache.Answer = append(rrCache.Answer, rr) } } for _, entry := range nameRecord.Ns { rr, err := dns.NewRR(entry) if err == nil { rrCache.Ns = append(rrCache.Ns, rr) } } for _, entry := range nameRecord.Extra { rr, err := dns.NewRR(entry) if err == nil { rrCache.Extra = append(rrCache.Extra, rr) } } rrCache.Server = nameRecord.Server rrCache.ServerScope = nameRecord.ServerScope rrCache.servedFromCache = true return rrCache, nil } // ServedFromCache marks the RRCache as served from cache. func (m *RRCache) ServedFromCache() bool { return m.servedFromCache } // RequestingNew informs that it has expired and new RRs are being fetched. func (m *RRCache) RequestingNew() bool { return m.requestingNew } // Flags formats ServedFromCache and RequestingNew to a condensed, flag-like format. func (m *RRCache) Flags() string { var s string if m.servedFromCache { s += "C" } if m.requestingNew { s += "R" } if m.Filtered { s += "F" } if s != "" { return fmt.Sprintf(" [%s]", s) } return "" } // IsNXDomain returnes whether the result is nxdomain. func (m *RRCache) IsNXDomain() bool { return len(m.Answer) == 0 } // ShallowCopy returns a shallow copy of the cache. slices are not copied, but referenced. func (m *RRCache) ShallowCopy() *RRCache { return &RRCache{ Domain: m.Domain, Question: m.Question, Answer: m.Answer, Ns: m.Ns, Extra: m.Extra, TTL: m.TTL, Server: m.Server, ServerScope: m.ServerScope, updated: m.updated, servedFromCache: m.servedFromCache, requestingNew: m.requestingNew, Filtered: m.Filtered, FilteredEntries: m.FilteredEntries, } }