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package dns
// A client implementation.
import (
"context"
"crypto/tls"
"encoding/binary"
"io"
"net"
"strings"
"time"
)
const (
dnsTimeout time . Duration = 2 * time . Second
tcpIdleTimeout time . Duration = 8 * time . Second
)
func isPacketConn ( c net . Conn ) bool {
if _ , ok := c . ( net . PacketConn ) ; ! ok {
return false
}
if ua , ok := c . LocalAddr ( ) . ( * net . UnixAddr ) ; ok {
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return ua . Net == "unixgram" || ua . Net == "unixpacket"
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}
return true
}
// A Conn represents a connection to a DNS server.
type Conn struct {
net . Conn // a net.Conn holding the connection
UDPSize uint16 // minimum receive buffer for UDP messages
TsigSecret map [ string ] string // secret(s) for Tsig map[<zonename>]<base64 secret>, zonename must be in canonical form (lowercase, fqdn, see RFC 4034 Section 6.2)
TsigProvider TsigProvider // An implementation of the TsigProvider interface. If defined it replaces TsigSecret and is used for all TSIG operations.
tsigRequestMAC string
}
func ( co * Conn ) tsigProvider ( ) TsigProvider {
if co . TsigProvider != nil {
return co . TsigProvider
}
// tsigSecretProvider will return ErrSecret if co.TsigSecret is nil.
return tsigSecretProvider ( co . TsigSecret )
}
// A Client defines parameters for a DNS client.
type Client struct {
Net string // if "tcp" or "tcp-tls" (DNS over TLS) a TCP query will be initiated, otherwise an UDP one (default is "" for UDP)
UDPSize uint16 // minimum receive buffer for UDP messages
TLSConfig * tls . Config // TLS connection configuration
Dialer * net . Dialer // a net.Dialer used to set local address, timeouts and more
// Timeout is a cumulative timeout for dial, write and read, defaults to 0 (disabled) - overrides DialTimeout, ReadTimeout,
// WriteTimeout when non-zero. Can be overridden with net.Dialer.Timeout (see Client.ExchangeWithDialer and
// Client.Dialer) or context.Context.Deadline (see ExchangeContext)
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Timeout time . Duration
DialTimeout time . Duration // net.DialTimeout, defaults to 2 seconds, or net.Dialer.Timeout if expiring earlier - overridden by Timeout when that value is non-zero
ReadTimeout time . Duration // net.Conn.SetReadTimeout value for connections, defaults to 2 seconds - overridden by Timeout when that value is non-zero
WriteTimeout time . Duration // net.Conn.SetWriteTimeout value for connections, defaults to 2 seconds - overridden by Timeout when that value is non-zero
TsigSecret map [ string ] string // secret(s) for Tsig map[<zonename>]<base64 secret>, zonename must be in canonical form (lowercase, fqdn, see RFC 4034 Section 6.2)
TsigProvider TsigProvider // An implementation of the TsigProvider interface. If defined it replaces TsigSecret and is used for all TSIG operations.
// SingleInflight previously serialised multiple concurrent queries for the
// same Qname, Qtype and Qclass to ensure only one would be in flight at a
// time.
//
// Deprecated: This is a no-op. Callers should implement their own in flight
// query caching if needed. See github.com/miekg/dns/issues/1449.
SingleInflight bool
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}
// Exchange performs a synchronous UDP query. It sends the message m to the address
// contained in a and waits for a reply. Exchange does not retry a failed query, nor
// will it fall back to TCP in case of truncation.
// See client.Exchange for more information on setting larger buffer sizes.
func Exchange ( m * Msg , a string ) ( r * Msg , err error ) {
client := Client { Net : "udp" }
r , _ , err = client . Exchange ( m , a )
return r , err
}
func ( c * Client ) dialTimeout ( ) time . Duration {
if c . Timeout != 0 {
return c . Timeout
}
if c . DialTimeout != 0 {
return c . DialTimeout
}
return dnsTimeout
}
func ( c * Client ) readTimeout ( ) time . Duration {
if c . ReadTimeout != 0 {
return c . ReadTimeout
}
return dnsTimeout
}
func ( c * Client ) writeTimeout ( ) time . Duration {
if c . WriteTimeout != 0 {
return c . WriteTimeout
}
return dnsTimeout
}
// Dial connects to the address on the named network.
func ( c * Client ) Dial ( address string ) ( conn * Conn , err error ) {
return c . DialContext ( context . Background ( ) , address )
}
// DialContext connects to the address on the named network, with a context.Context.
func ( c * Client ) DialContext ( ctx context . Context , address string ) ( conn * Conn , err error ) {
// create a new dialer with the appropriate timeout
var d net . Dialer
if c . Dialer == nil {
d = net . Dialer { Timeout : c . getTimeoutForRequest ( c . dialTimeout ( ) ) }
} else {
d = * c . Dialer
}
network := c . Net
if network == "" {
network = "udp"
}
useTLS := strings . HasPrefix ( network , "tcp" ) && strings . HasSuffix ( network , "-tls" )
conn = new ( Conn )
if useTLS {
network = strings . TrimSuffix ( network , "-tls" )
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tlsDialer := tls . Dialer {
NetDialer : & d ,
Config : c . TLSConfig ,
}
conn . Conn , err = tlsDialer . DialContext ( ctx , network , address )
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} else {
conn . Conn , err = d . DialContext ( ctx , network , address )
}
if err != nil {
return nil , err
}
conn . UDPSize = c . UDPSize
return conn , nil
}
// Exchange performs a synchronous query. It sends the message m to the address
// contained in a and waits for a reply. Basic use pattern with a *dns.Client:
//
// c := new(dns.Client)
// in, rtt, err := c.Exchange(message, "127.0.0.1:53")
//
// Exchange does not retry a failed query, nor will it fall back to TCP in
// case of truncation.
// It is up to the caller to create a message that allows for larger responses to be
// returned. Specifically this means adding an EDNS0 OPT RR that will advertise a larger
// buffer, see SetEdns0. Messages without an OPT RR will fallback to the historic limit
// of 512 bytes
// To specify a local address or a timeout, the caller has to set the `Client.Dialer`
// attribute appropriately
func ( c * Client ) Exchange ( m * Msg , address string ) ( r * Msg , rtt time . Duration , err error ) {
co , err := c . Dial ( address )
if err != nil {
return nil , 0 , err
}
defer co . Close ( )
return c . ExchangeWithConn ( m , co )
}
// ExchangeWithConn has the same behavior as Exchange, just with a predetermined connection
// that will be used instead of creating a new one.
// Usage pattern with a *dns.Client:
//
// c := new(dns.Client)
// // connection management logic goes here
//
// conn := c.Dial(address)
// in, rtt, err := c.ExchangeWithConn(message, conn)
//
// This allows users of the library to implement their own connection management,
// as opposed to Exchange, which will always use new connections and incur the added overhead
// that entails when using "tcp" and especially "tcp-tls" clients.
func ( c * Client ) ExchangeWithConn ( m * Msg , conn * Conn ) ( r * Msg , rtt time . Duration , err error ) {
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return c . ExchangeWithConnContext ( context . Background ( ) , m , conn )
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}
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// ExchangeWithConnContext has the same behaviour as ExchangeWithConn and
// additionally obeys deadlines from the passed Context.
func ( c * Client ) ExchangeWithConnContext ( ctx context . Context , m * Msg , co * Conn ) ( r * Msg , rtt time . Duration , err error ) {
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opt := m . IsEdns0 ( )
// If EDNS0 is used use that for size.
if opt != nil && opt . UDPSize ( ) >= MinMsgSize {
co . UDPSize = opt . UDPSize ( )
}
// Otherwise use the client's configured UDP size.
if opt == nil && c . UDPSize >= MinMsgSize {
co . UDPSize = c . UDPSize
}
// write with the appropriate write timeout
t := time . Now ( )
writeDeadline := t . Add ( c . getTimeoutForRequest ( c . writeTimeout ( ) ) )
readDeadline := t . Add ( c . getTimeoutForRequest ( c . readTimeout ( ) ) )
if deadline , ok := ctx . Deadline ( ) ; ok {
if deadline . Before ( writeDeadline ) {
writeDeadline = deadline
}
if deadline . Before ( readDeadline ) {
readDeadline = deadline
}
}
co . SetWriteDeadline ( writeDeadline )
co . SetReadDeadline ( readDeadline )
co . TsigSecret , co . TsigProvider = c . TsigSecret , c . TsigProvider
if err = co . WriteMsg ( m ) ; err != nil {
return nil , 0 , err
}
if isPacketConn ( co . Conn ) {
for {
r , err = co . ReadMsg ( )
// Ignore replies with mismatched IDs because they might be
// responses to earlier queries that timed out.
if err != nil || r . Id == m . Id {
break
}
}
} else {
r , err = co . ReadMsg ( )
if err == nil && r . Id != m . Id {
err = ErrId
}
}
rtt = time . Since ( t )
return r , rtt , err
}
// ReadMsg reads a message from the connection co.
// If the received message contains a TSIG record the transaction signature
// is verified. This method always tries to return the message, however if an
// error is returned there are no guarantees that the returned message is a
// valid representation of the packet read.
func ( co * Conn ) ReadMsg ( ) ( * Msg , error ) {
p , err := co . ReadMsgHeader ( nil )
if err != nil {
return nil , err
}
m := new ( Msg )
if err := m . Unpack ( p ) ; err != nil {
// If an error was returned, we still want to allow the user to use
// the message, but naively they can just check err if they don't want
// to use an erroneous message
return m , err
}
if t := m . IsTsig ( ) ; t != nil {
// Need to work on the original message p, as that was used to calculate the tsig.
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err = TsigVerifyWithProvider ( p , co . tsigProvider ( ) , co . tsigRequestMAC , false )
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}
return m , err
}
// ReadMsgHeader reads a DNS message, parses and populates hdr (when hdr is not nil).
// Returns message as a byte slice to be parsed with Msg.Unpack later on.
// Note that error handling on the message body is not possible as only the header is parsed.
func ( co * Conn ) ReadMsgHeader ( hdr * Header ) ( [ ] byte , error ) {
var (
p [ ] byte
n int
err error
)
if isPacketConn ( co . Conn ) {
if co . UDPSize > MinMsgSize {
p = make ( [ ] byte , co . UDPSize )
} else {
p = make ( [ ] byte , MinMsgSize )
}
n , err = co . Read ( p )
} else {
var length uint16
if err := binary . Read ( co . Conn , binary . BigEndian , & length ) ; err != nil {
return nil , err
}
p = make ( [ ] byte , length )
n , err = io . ReadFull ( co . Conn , p )
}
if err != nil {
return nil , err
} else if n < headerSize {
return nil , ErrShortRead
}
p = p [ : n ]
if hdr != nil {
dh , _ , err := unpackMsgHdr ( p , 0 )
if err != nil {
return nil , err
}
* hdr = dh
}
return p , err
}
// Read implements the net.Conn read method.
func ( co * Conn ) Read ( p [ ] byte ) ( n int , err error ) {
if co . Conn == nil {
return 0 , ErrConnEmpty
}
if isPacketConn ( co . Conn ) {
// UDP connection
return co . Conn . Read ( p )
}
var length uint16
if err := binary . Read ( co . Conn , binary . BigEndian , & length ) ; err != nil {
return 0 , err
}
if int ( length ) > len ( p ) {
return 0 , io . ErrShortBuffer
}
return io . ReadFull ( co . Conn , p [ : length ] )
}
// WriteMsg sends a message through the connection co.
// If the message m contains a TSIG record the transaction
// signature is calculated.
func ( co * Conn ) WriteMsg ( m * Msg ) ( err error ) {
var out [ ] byte
if t := m . IsTsig ( ) ; t != nil {
// Set tsigRequestMAC for the next read, although only used in zone transfers.
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out , co . tsigRequestMAC , err = TsigGenerateWithProvider ( m , co . tsigProvider ( ) , co . tsigRequestMAC , false )
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} else {
out , err = m . Pack ( )
}
if err != nil {
return err
}
_ , err = co . Write ( out )
return err
}
// Write implements the net.Conn Write method.
func ( co * Conn ) Write ( p [ ] byte ) ( int , error ) {
if len ( p ) > MaxMsgSize {
return 0 , & Error { err : "message too large" }
}
if isPacketConn ( co . Conn ) {
return co . Conn . Write ( p )
}
msg := make ( [ ] byte , 2 + len ( p ) )
binary . BigEndian . PutUint16 ( msg , uint16 ( len ( p ) ) )
copy ( msg [ 2 : ] , p )
return co . Conn . Write ( msg )
}
// Return the appropriate timeout for a specific request
func ( c * Client ) getTimeoutForRequest ( timeout time . Duration ) time . Duration {
var requestTimeout time . Duration
if c . Timeout != 0 {
requestTimeout = c . Timeout
} else {
requestTimeout = timeout
}
// net.Dialer.Timeout has priority if smaller than the timeouts computed so
// far
if c . Dialer != nil && c . Dialer . Timeout != 0 {
if c . Dialer . Timeout < requestTimeout {
requestTimeout = c . Dialer . Timeout
}
}
return requestTimeout
}
// Dial connects to the address on the named network.
func Dial ( network , address string ) ( conn * Conn , err error ) {
conn = new ( Conn )
conn . Conn , err = net . Dial ( network , address )
if err != nil {
return nil , err
}
return conn , nil
}
// ExchangeContext performs a synchronous UDP query, like Exchange. It
// additionally obeys deadlines from the passed Context.
func ExchangeContext ( ctx context . Context , m * Msg , a string ) ( r * Msg , err error ) {
client := Client { Net : "udp" }
r , _ , err = client . ExchangeContext ( ctx , m , a )
// ignoring rtt to leave the original ExchangeContext API unchanged, but
// this function will go away
return r , err
}
// ExchangeConn performs a synchronous query. It sends the message m via the connection
// c and waits for a reply. The connection c is not closed by ExchangeConn.
// Deprecated: This function is going away, but can easily be mimicked:
//
// co := &dns.Conn{Conn: c} // c is your net.Conn
// co.WriteMsg(m)
// in, _ := co.ReadMsg()
// co.Close()
func ExchangeConn ( c net . Conn , m * Msg ) ( r * Msg , err error ) {
println ( "dns: ExchangeConn: this function is deprecated" )
co := new ( Conn )
co . Conn = c
if err = co . WriteMsg ( m ) ; err != nil {
return nil , err
}
r , err = co . ReadMsg ( )
if err == nil && r . Id != m . Id {
err = ErrId
}
return r , err
}
// DialTimeout acts like Dial but takes a timeout.
func DialTimeout ( network , address string , timeout time . Duration ) ( conn * Conn , err error ) {
client := Client { Net : network , Dialer : & net . Dialer { Timeout : timeout } }
return client . Dial ( address )
}
// DialWithTLS connects to the address on the named network with TLS.
func DialWithTLS ( network , address string , tlsConfig * tls . Config ) ( conn * Conn , err error ) {
if ! strings . HasSuffix ( network , "-tls" ) {
network += "-tls"
}
client := Client { Net : network , TLSConfig : tlsConfig }
return client . Dial ( address )
}
// DialTimeoutWithTLS acts like DialWithTLS but takes a timeout.
func DialTimeoutWithTLS ( network , address string , tlsConfig * tls . Config , timeout time . Duration ) ( conn * Conn , err error ) {
if ! strings . HasSuffix ( network , "-tls" ) {
network += "-tls"
}
client := Client { Net : network , Dialer : & net . Dialer { Timeout : timeout } , TLSConfig : tlsConfig }
return client . Dial ( address )
}
// ExchangeContext acts like Exchange, but honors the deadline on the provided
// context, if present. If there is both a context deadline and a configured
// timeout on the client, the earliest of the two takes effect.
func ( c * Client ) ExchangeContext ( ctx context . Context , m * Msg , a string ) ( r * Msg , rtt time . Duration , err error ) {
conn , err := c . DialContext ( ctx , a )
if err != nil {
return nil , 0 , err
}
defer conn . Close ( )
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return c . ExchangeWithConnContext ( ctx , m , conn )
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}