| // Copyright 2014 The Go Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style |
| // license that can be found in the LICENSE file. |
| |
| // DTLS implementation. |
| // |
| // NOTE: This is a not even a remotely production-quality DTLS |
| // implementation. It is the bare minimum necessary to be able to |
| // achieve coverage on BoringSSL's implementation. Of note is that |
| // this implementation assumes the underlying net.PacketConn is not |
| // only reliable but also ordered. BoringSSL will be expected to deal |
| // with simulated loss, but there is no point in forcing the test |
| // driver to. |
| |
| package runner |
| |
| import ( |
| "bytes" |
| "encoding/binary" |
| "errors" |
| "fmt" |
| "math/rand" |
| "net" |
| ) |
| |
| func (c *Conn) readDTLS13RecordHeader(b []byte) (headerLen int, recordLen int, recTyp recordType, seq []byte, err error) { |
| // The DTLS 1.3 record header starts with the type byte containing |
| // 0b001CSLEE, where C, S, L, and EE are bits with the following |
| // meanings: |
| // |
| // C=1: Connection ID is present (C=0: CID is absent) |
| // S=1: the sequence number is 16 bits (S=0: it is 8 bits) |
| // L=1: 16-bit length field is present (L=0: record goes to end of packet) |
| // EE: low two bits of the epoch. |
| // |
| // A real DTLS implementation would parse these bits and take |
| // appropriate action based on them. However, this is a test |
| // implementation, and the code we are testing only ever sends C=0, S=1, |
| // L=1. This code expects those bits to be set and will error if |
| // anything else is set. This means we expect the type byte to look like |
| // 0b001011EE, or 0x2c-0x2f. |
| recordHeaderLen := 5 |
| if len(b) < recordHeaderLen { |
| return 0, 0, 0, nil, errors.New("dtls: failed to read record header") |
| } |
| typ := b[0] |
| if typ&0xfc != 0x2c { |
| return 0, 0, 0, nil, errors.New("dtls: DTLS 1.3 record header has bad type byte") |
| } |
| // For test purposes, require the epoch received be the same as the |
| // epoch we expect to receive. |
| epoch := typ & 0x03 |
| if epoch != c.in.seq[1]&0x03 { |
| c.sendAlert(alertIllegalParameter) |
| return 0, 0, 0, nil, c.in.setErrorLocked(fmt.Errorf("dtls: bad epoch")) |
| } |
| wireSeq := b[1:3] |
| if !c.config.Bugs.NullAllCiphers { |
| sample := b[recordHeaderLen:] |
| mask := c.in.recordNumberEncrypter.generateMask(sample) |
| xorSlice(wireSeq, mask) |
| } |
| decWireSeq := binary.BigEndian.Uint16(wireSeq) |
| // Reconstruct the sequence number from the low 16 bits on the wire. |
| // A real implementation would compute the full sequence number that is |
| // closest to the highest successfully decrypted record in the |
| // identified epoch. Since this test implementation errors on decryption |
| // failures instead of simply discarding packets, it reconstructs a |
| // sequence number that is not less than c.in.seq. (This matches the |
| // behavior of the check of the sequence number in the old record |
| // header format.) |
| seqInt := binary.BigEndian.Uint64(c.in.seq[:]) |
| // c.in.seq has the epoch in the upper two bytes - clear those. |
| seqInt = seqInt &^ (0xffff << 48) |
| newSeq := seqInt&^0xffff | uint64(decWireSeq) |
| if newSeq < seqInt { |
| newSeq += 0x10000 |
| } |
| |
| seq = make([]byte, 8) |
| binary.BigEndian.PutUint64(seq, newSeq) |
| copy(c.in.seq[2:], seq[2:]) |
| |
| recordLen = int(b[3])<<8 | int(b[4]) |
| return recordHeaderLen, recordLen, 0, seq, nil |
| } |
| |
| // readDTLSRecordHeader reads the record header from the input. Based on the |
| // header it reads, it checks the header's validity and sets appropriate state |
| // as needed. This function returns the record header, the record type indicated |
| // in the header (if it contains the type), and the sequence number to use for |
| // record decryption. |
| func (c *Conn) readDTLSRecordHeader(b []byte) (headerLen int, recordLen int, typ recordType, seq []byte, err error) { |
| if c.in.cipher != nil && c.in.version >= VersionTLS13 { |
| return c.readDTLS13RecordHeader(b) |
| } |
| |
| recordHeaderLen := 13 |
| // Read out one record. |
| // |
| // A real DTLS implementation should be tolerant of errors, |
| // but this is test code. We should not be tolerant of our |
| // peer sending garbage. |
| if len(b) < recordHeaderLen { |
| return 0, 0, 0, nil, errors.New("dtls: failed to read record header") |
| } |
| typ = recordType(b[0]) |
| vers := uint16(b[1])<<8 | uint16(b[2]) |
| // Alerts sent near version negotiation do not have a well-defined |
| // record-layer version prior to TLS 1.3. (In TLS 1.3, the record-layer |
| // version is irrelevant.) |
| if typ != recordTypeAlert { |
| if c.haveVers { |
| wireVersion := c.wireVersion |
| if c.vers >= VersionTLS13 { |
| wireVersion = VersionDTLS12 |
| } |
| if vers != wireVersion { |
| c.sendAlert(alertProtocolVersion) |
| return 0, 0, 0, nil, c.in.setErrorLocked(fmt.Errorf("dtls: received record with version %x when expecting version %x", vers, c.wireVersion)) |
| } |
| } else { |
| // Pre-version-negotiation alerts may be sent with any version. |
| if expect := c.config.Bugs.ExpectInitialRecordVersion; expect != 0 && vers != expect { |
| c.sendAlert(alertProtocolVersion) |
| return 0, 0, 0, nil, c.in.setErrorLocked(fmt.Errorf("dtls: received record with version %x when expecting version %x", vers, expect)) |
| } |
| } |
| } |
| epoch := b[3:5] |
| seq = b[5:11] |
| // For test purposes, require the sequence number be monotonically |
| // increasing, so c.in includes the minimum next sequence number. Gaps |
| // may occur if packets failed to be sent out. A real implementation |
| // would maintain a replay window and such. |
| if !bytes.Equal(epoch, c.in.seq[:2]) { |
| c.sendAlert(alertIllegalParameter) |
| return 0, 0, 0, nil, c.in.setErrorLocked(fmt.Errorf("dtls: bad epoch")) |
| } |
| if bytes.Compare(seq, c.in.seq[2:]) < 0 { |
| c.sendAlert(alertIllegalParameter) |
| return 0, 0, 0, nil, c.in.setErrorLocked(fmt.Errorf("dtls: bad sequence number")) |
| } |
| copy(c.in.seq[2:], seq) |
| recordLen = int(b[11])<<8 | int(b[12]) |
| return recordHeaderLen, recordLen, typ, b[3:11], nil |
| } |
| |
| func (c *Conn) dtlsDoReadRecord(want recordType) (recordType, []byte, error) { |
| // Read a new packet only if the current one is empty. |
| var newPacket bool |
| if c.rawInput.Len() == 0 { |
| // Pick some absurdly large buffer size. |
| c.rawInput.Grow(maxCiphertext + dtlsMaxRecordHeaderLen) |
| buf := c.rawInput.AvailableBuffer() |
| n, err := c.conn.Read(buf[:cap(buf)]) |
| if err != nil { |
| return 0, nil, err |
| } |
| if c.config.Bugs.MaxPacketLength != 0 && n > c.config.Bugs.MaxPacketLength { |
| return 0, nil, fmt.Errorf("dtls: exceeded maximum packet length") |
| } |
| c.rawInput.Write(buf[:n]) |
| newPacket = true |
| } |
| |
| // Consume the next record from the buffer. |
| recordHeaderLen, n, typ, seq, err := c.readDTLSRecordHeader(c.rawInput.Bytes()) |
| if err != nil { |
| return 0, nil, err |
| } |
| if n > maxCiphertext || c.rawInput.Len() < recordHeaderLen+n { |
| c.sendAlert(alertRecordOverflow) |
| return 0, nil, c.in.setErrorLocked(fmt.Errorf("dtls: oversized record received with length %d", n)) |
| } |
| b := c.rawInput.Next(recordHeaderLen + n) |
| |
| // Process message. |
| ok, encTyp, data, alertValue := c.in.decrypt(seq, recordHeaderLen, b) |
| if !ok { |
| // A real DTLS implementation would silently ignore bad records, |
| // but we want to notice errors from the implementation under |
| // test. |
| return 0, nil, c.in.setErrorLocked(c.sendAlert(alertValue)) |
| } |
| |
| if typ == 0 { |
| // readDTLSRecordHeader sets typ=0 when decoding the DTLS 1.3 |
| // record header. When the new record header format is used, the |
| // type is returned by decrypt() in encTyp. |
| typ = encTyp |
| } |
| |
| // Require that ChangeCipherSpec always share a packet with either the |
| // previous or next handshake message. |
| if newPacket && typ == recordTypeChangeCipherSpec && c.rawInput.Len() == 0 { |
| return 0, nil, c.in.setErrorLocked(fmt.Errorf("dtls: ChangeCipherSpec not packed together with Finished")) |
| } |
| |
| return typ, data, nil |
| } |
| |
| func (c *Conn) makeFragment(header, data []byte, fragOffset, fragLen int) []byte { |
| fragment := make([]byte, 0, 12+fragLen) |
| fragment = append(fragment, header...) |
| fragment = append(fragment, byte(c.sendHandshakeSeq>>8), byte(c.sendHandshakeSeq)) |
| fragment = append(fragment, byte(fragOffset>>16), byte(fragOffset>>8), byte(fragOffset)) |
| fragment = append(fragment, byte(fragLen>>16), byte(fragLen>>8), byte(fragLen)) |
| fragment = append(fragment, data[fragOffset:fragOffset+fragLen]...) |
| return fragment |
| } |
| |
| func (c *Conn) dtlsWriteRecord(typ recordType, data []byte) (n int, err error) { |
| // Only handshake messages are fragmented. |
| if typ != recordTypeHandshake { |
| reorder := typ == recordTypeChangeCipherSpec && c.config.Bugs.ReorderChangeCipherSpec |
| |
| // Flush pending handshake messages before encrypting a new record. |
| if !reorder { |
| err = c.dtlsPackHandshake() |
| if err != nil { |
| return |
| } |
| } |
| |
| if typ == recordTypeApplicationData && len(data) > 1 && c.config.Bugs.SplitAndPackAppData { |
| _, err = c.dtlsPackRecord(typ, data[:len(data)/2], false) |
| if err != nil { |
| return |
| } |
| _, err = c.dtlsPackRecord(typ, data[len(data)/2:], true) |
| if err != nil { |
| return |
| } |
| n = len(data) |
| } else { |
| n, err = c.dtlsPackRecord(typ, data, false) |
| if err != nil { |
| return |
| } |
| } |
| |
| if reorder { |
| err = c.dtlsPackHandshake() |
| if err != nil { |
| return |
| } |
| } |
| |
| if typ == recordTypeChangeCipherSpec && c.vers < VersionTLS13 { |
| err = c.out.changeCipherSpec(c.config) |
| if err != nil { |
| return n, c.sendAlertLocked(alertLevelError, err.(alert)) |
| } |
| } else { |
| // ChangeCipherSpec is part of the handshake and not |
| // flushed until dtlsFlushPacket. |
| err = c.dtlsFlushPacket() |
| if err != nil { |
| return |
| } |
| } |
| return |
| } |
| |
| if c.out.cipher == nil && c.config.Bugs.StrayChangeCipherSpec { |
| _, err = c.dtlsPackRecord(recordTypeChangeCipherSpec, []byte{1}, false) |
| if err != nil { |
| return |
| } |
| } |
| |
| maxLen := c.config.Bugs.MaxHandshakeRecordLength |
| if maxLen <= 0 { |
| maxLen = 1024 |
| } |
| |
| // Handshake messages have to be modified to include fragment |
| // offset and length and with the header replicated. Save the |
| // TLS header here. |
| // |
| // TODO(davidben): This assumes that data contains exactly one |
| // handshake message. This is incompatible with |
| // FragmentAcrossChangeCipherSpec. (Which is unfortunate |
| // because OpenSSL's DTLS implementation will probably accept |
| // such fragmentation and could do with a fix + tests.) |
| header := data[:4] |
| data = data[4:] |
| |
| isFinished := header[0] == typeFinished |
| |
| if c.config.Bugs.SendEmptyFragments { |
| c.pendingFragments = append(c.pendingFragments, c.makeFragment(header, data, 0, 0)) |
| c.pendingFragments = append(c.pendingFragments, c.makeFragment(header, data, len(data), 0)) |
| } |
| |
| firstRun := true |
| fragOffset := 0 |
| for firstRun || fragOffset < len(data) { |
| firstRun = false |
| fragLen := len(data) - fragOffset |
| if fragLen > maxLen { |
| fragLen = maxLen |
| } |
| |
| fragment := c.makeFragment(header, data, fragOffset, fragLen) |
| if c.config.Bugs.FragmentMessageTypeMismatch && fragOffset > 0 { |
| fragment[0]++ |
| } |
| if c.config.Bugs.FragmentMessageLengthMismatch && fragOffset > 0 { |
| fragment[3]++ |
| } |
| |
| // Buffer the fragment for later. They will be sent (and |
| // reordered) on flush. |
| c.pendingFragments = append(c.pendingFragments, fragment) |
| if c.config.Bugs.ReorderHandshakeFragments { |
| // Don't duplicate Finished to avoid the peer |
| // interpreting it as a retransmit request. |
| if !isFinished { |
| c.pendingFragments = append(c.pendingFragments, fragment) |
| } |
| |
| if fragLen > (maxLen+1)/2 { |
| // Overlap each fragment by half. |
| fragLen = (maxLen + 1) / 2 |
| } |
| } |
| fragOffset += fragLen |
| n += fragLen |
| } |
| shouldSendTwice := c.config.Bugs.MixCompleteMessageWithFragments |
| if isFinished { |
| shouldSendTwice = c.config.Bugs.RetransmitFinished |
| } |
| if shouldSendTwice { |
| fragment := c.makeFragment(header, data, 0, len(data)) |
| c.pendingFragments = append(c.pendingFragments, fragment) |
| } |
| |
| // Increment the handshake sequence number for the next |
| // handshake message. |
| c.sendHandshakeSeq++ |
| return |
| } |
| |
| // dtlsPackHandshake packs the pending handshake flight into the pending |
| // record. Callers should follow up with dtlsFlushPacket to write the packets. |
| func (c *Conn) dtlsPackHandshake() error { |
| // This is a test-only DTLS implementation, so there is no need to |
| // retain |c.pendingFragments| for a future retransmit. |
| var fragments [][]byte |
| fragments, c.pendingFragments = c.pendingFragments, fragments |
| |
| if c.config.Bugs.ReorderHandshakeFragments { |
| perm := rand.New(rand.NewSource(0)).Perm(len(fragments)) |
| tmp := make([][]byte, len(fragments)) |
| for i := range tmp { |
| tmp[i] = fragments[perm[i]] |
| } |
| fragments = tmp |
| } else if c.config.Bugs.ReverseHandshakeFragments { |
| tmp := make([][]byte, len(fragments)) |
| for i := range tmp { |
| tmp[i] = fragments[len(fragments)-i-1] |
| } |
| fragments = tmp |
| } |
| |
| maxRecordLen := c.config.Bugs.PackHandshakeFragments |
| |
| // Pack handshake fragments into records. |
| var records [][]byte |
| for _, fragment := range fragments { |
| if n := c.config.Bugs.SplitFragments; n > 0 { |
| if len(fragment) > n { |
| records = append(records, fragment[:n]) |
| records = append(records, fragment[n:]) |
| } else { |
| records = append(records, fragment) |
| } |
| } else if i := len(records) - 1; len(records) > 0 && len(records[i])+len(fragment) <= maxRecordLen { |
| records[i] = append(records[i], fragment...) |
| } else { |
| // The fragment will be appended to, so copy it. |
| records = append(records, append([]byte{}, fragment...)) |
| } |
| } |
| |
| // Send the records. |
| for _, record := range records { |
| _, err := c.dtlsPackRecord(recordTypeHandshake, record, false) |
| if err != nil { |
| return err |
| } |
| } |
| |
| return nil |
| } |
| |
| func (c *Conn) dtlsFlushHandshake() error { |
| if err := c.dtlsPackHandshake(); err != nil { |
| return err |
| } |
| if err := c.dtlsFlushPacket(); err != nil { |
| return err |
| } |
| |
| return nil |
| } |
| |
| // appendDTLS13RecordHeader appends to b the record header for a record of length |
| // recordLen. |
| func (c *Conn) appendDTLS13RecordHeader(b, seq []byte, recordLen int) []byte { |
| // Set the top 3 bits on the type byte to indicate the DTLS 1.3 record |
| // header format. |
| typ := byte(0x20) |
| // Set the Connection ID bit |
| if c.config.Bugs.DTLS13RecordHeaderSetCIDBit && c.handshakeComplete { |
| typ |= 0x10 |
| } |
| // Set the sequence number length bit |
| if !c.config.DTLSUseShortSeqNums { |
| typ |= 0x08 |
| } |
| // Set the length presence bit |
| if !c.config.DTLSRecordHeaderOmitLength { |
| typ |= 0x04 |
| } |
| // Set the epoch bits |
| typ |= seq[1] & 0x3 |
| b = append(b, typ) |
| if c.config.DTLSUseShortSeqNums { |
| b = append(b, seq[7]) |
| } else { |
| b = append(b, seq[6], seq[7]) |
| } |
| if !c.config.DTLSRecordHeaderOmitLength { |
| b = append(b, byte(recordLen>>8), byte(recordLen)) |
| } |
| return b |
| } |
| |
| // dtlsPackRecord packs a single record to the pending packet, flushing it |
| // if necessary. The caller should call dtlsFlushPacket to flush the current |
| // pending packet afterwards. |
| func (c *Conn) dtlsPackRecord(typ recordType, data []byte, mustPack bool) (n int, err error) { |
| maxLen := c.config.Bugs.MaxHandshakeRecordLength |
| if maxLen <= 0 { |
| maxLen = 1024 |
| } |
| |
| vers := c.wireVersion |
| if vers == 0 { |
| // Some TLS servers fail if the record version is greater than |
| // TLS 1.0 for the initial ClientHello. |
| if c.isDTLS { |
| vers = VersionDTLS10 |
| } else { |
| vers = VersionTLS10 |
| } |
| } |
| if c.vers >= VersionTLS13 || c.out.version >= VersionTLS13 { |
| vers = VersionDTLS12 |
| } |
| |
| useDTLS13RecordHeader := c.out.version >= VersionTLS13 && c.out.cipher != nil && !c.useDTLSPlaintextHeader() |
| headerHasLength := true |
| record := make([]byte, 0, dtlsMaxRecordHeaderLen+len(data)+c.out.maxEncryptOverhead(len(data))) |
| seq := c.out.sequenceNumberForOutput() |
| if useDTLS13RecordHeader { |
| record = c.appendDTLS13RecordHeader(record, seq, len(data)) |
| headerHasLength = !c.config.DTLSRecordHeaderOmitLength |
| } else { |
| record = append(record, byte(typ)) |
| record = append(record, byte(vers>>8)) |
| record = append(record, byte(vers)) |
| // DTLS records include an explicit sequence number. |
| record = append(record, seq...) |
| record = append(record, byte(len(data)>>8)) |
| record = append(record, byte(len(data))) |
| } |
| |
| recordHeaderLen := len(record) |
| record, err = c.out.encrypt(record, data, typ, recordHeaderLen, headerHasLength, seq) |
| if err != nil { |
| return |
| } |
| |
| // Encrypt the sequence number. |
| if useDTLS13RecordHeader && !c.config.Bugs.NullAllCiphers { |
| sample := record[recordHeaderLen:] |
| mask := c.out.recordNumberEncrypter.generateMask(sample) |
| seqLen := 2 |
| if c.config.DTLSUseShortSeqNums { |
| seqLen = 1 |
| } |
| // The sequence number starts at index 1 in the record header. |
| xorSlice(record[1:1+seqLen], mask) |
| } |
| |
| // Flush the current pending packet if necessary. |
| if !mustPack && len(record)+len(c.pendingPacket) > c.config.Bugs.PackHandshakeRecords { |
| err = c.dtlsFlushPacket() |
| if err != nil { |
| return |
| } |
| } |
| |
| // Add the record to the pending packet. |
| c.pendingPacket = append(c.pendingPacket, record...) |
| if c.config.DTLSRecordHeaderOmitLength { |
| if c.config.Bugs.SplitAndPackAppData { |
| panic("incompatible config") |
| } |
| err = c.dtlsFlushPacket() |
| if err != nil { |
| return |
| } |
| } |
| n = len(data) |
| return |
| } |
| |
| func (c *Conn) dtlsFlushPacket() error { |
| if len(c.pendingPacket) == 0 { |
| return nil |
| } |
| _, err := c.conn.Write(c.pendingPacket) |
| c.pendingPacket = nil |
| return err |
| } |
| |
| func (c *Conn) dtlsDoReadHandshake() ([]byte, error) { |
| // Assemble a full handshake message. For test purposes, this |
| // implementation assumes fragments arrive in order. It may |
| // need to be cleverer if we ever test BoringSSL's retransmit |
| // behavior. |
| for len(c.handMsg) < 4+c.handMsgLen { |
| // Get a new handshake record if the previous has been |
| // exhausted. |
| if c.hand.Len() == 0 { |
| if err := c.in.err; err != nil { |
| return nil, err |
| } |
| if err := c.readRecord(recordTypeHandshake); err != nil { |
| return nil, err |
| } |
| } |
| |
| // Read the next fragment. It must fit entirely within |
| // the record. |
| if c.hand.Len() < 12 { |
| return nil, errors.New("dtls: bad handshake record") |
| } |
| header := c.hand.Next(12) |
| fragN := int(header[1])<<16 | int(header[2])<<8 | int(header[3]) |
| fragSeq := uint16(header[4])<<8 | uint16(header[5]) |
| fragOff := int(header[6])<<16 | int(header[7])<<8 | int(header[8]) |
| fragLen := int(header[9])<<16 | int(header[10])<<8 | int(header[11]) |
| |
| if c.hand.Len() < fragLen { |
| return nil, errors.New("dtls: fragment length too long") |
| } |
| fragment := c.hand.Next(fragLen) |
| |
| // Check it's a fragment for the right message. |
| if fragSeq != c.recvHandshakeSeq { |
| return nil, errors.New("dtls: bad handshake sequence number") |
| } |
| |
| // Check that the length is consistent. |
| if c.handMsg == nil { |
| c.handMsgLen = fragN |
| if c.handMsgLen > maxHandshake { |
| return nil, c.in.setErrorLocked(c.sendAlert(alertInternalError)) |
| } |
| // Start with the TLS handshake header, |
| // without the DTLS bits. |
| c.handMsg = append([]byte{}, header[:4]...) |
| } else if fragN != c.handMsgLen { |
| return nil, errors.New("dtls: bad handshake length") |
| } |
| |
| // Add the fragment to the pending message. |
| if 4+fragOff != len(c.handMsg) { |
| return nil, errors.New("dtls: bad fragment offset") |
| } |
| if fragOff+fragLen > c.handMsgLen { |
| return nil, errors.New("dtls: bad fragment length") |
| } |
| c.handMsg = append(c.handMsg, fragment...) |
| } |
| c.recvHandshakeSeq++ |
| ret := c.handMsg |
| c.handMsg, c.handMsgLen = nil, 0 |
| return ret, nil |
| } |
| |
| // DTLSServer returns a new DTLS server side connection |
| // using conn as the underlying transport. |
| // The configuration config must be non-nil and must have |
| // at least one certificate. |
| func DTLSServer(conn net.Conn, config *Config) *Conn { |
| c := &Conn{config: config, isDTLS: true, conn: conn} |
| c.init() |
| return c |
| } |
| |
| // DTLSClient returns a new DTLS client side connection |
| // using conn as the underlying transport. |
| // The config cannot be nil: users must set either ServerHostname or |
| // InsecureSkipVerify in the config. |
| func DTLSClient(conn net.Conn, config *Config) *Conn { |
| c := &Conn{config: config, isClient: true, isDTLS: true, conn: conn} |
| c.init() |
| return c |
| } |