mirror of
https://github.com/caddyserver/caddy.git
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253 lines
6.1 KiB
Go
253 lines
6.1 KiB
Go
package mint
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import (
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"fmt"
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"io"
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"net"
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)
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const (
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handshakeHeaderLen = 4 // handshake message header length
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maxHandshakeMessageLen = 1 << 24 // max handshake message length
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)
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// struct {
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// HandshakeType msg_type; /* handshake type */
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// uint24 length; /* bytes in message */
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// select (HandshakeType) {
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// ...
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// } body;
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// } Handshake;
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//
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// We do the select{...} part in a different layer, so we treat the
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// actual message body as opaque:
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//
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// struct {
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// HandshakeType msg_type;
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// opaque msg<0..2^24-1>
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// } Handshake;
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//
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// TODO: File a spec bug
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type HandshakeMessage struct {
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// Omitted: length
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msgType HandshakeType
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body []byte
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}
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// Note: This could be done with the `syntax` module, using the simplified
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// syntax as discussed above. However, since this is so simple, there's not
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// much benefit to doing so.
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func (hm *HandshakeMessage) Marshal() []byte {
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if hm == nil {
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return []byte{}
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}
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msgLen := len(hm.body)
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data := make([]byte, 4+len(hm.body))
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data[0] = byte(hm.msgType)
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data[1] = byte(msgLen >> 16)
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data[2] = byte(msgLen >> 8)
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data[3] = byte(msgLen)
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copy(data[4:], hm.body)
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return data
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}
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func (hm HandshakeMessage) ToBody() (HandshakeMessageBody, error) {
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logf(logTypeHandshake, "HandshakeMessage.toBody [%d] [%x]", hm.msgType, hm.body)
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var body HandshakeMessageBody
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switch hm.msgType {
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case HandshakeTypeClientHello:
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body = new(ClientHelloBody)
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case HandshakeTypeServerHello:
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body = new(ServerHelloBody)
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case HandshakeTypeHelloRetryRequest:
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body = new(HelloRetryRequestBody)
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case HandshakeTypeEncryptedExtensions:
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body = new(EncryptedExtensionsBody)
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case HandshakeTypeCertificate:
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body = new(CertificateBody)
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case HandshakeTypeCertificateRequest:
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body = new(CertificateRequestBody)
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case HandshakeTypeCertificateVerify:
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body = new(CertificateVerifyBody)
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case HandshakeTypeFinished:
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body = &FinishedBody{VerifyDataLen: len(hm.body)}
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case HandshakeTypeNewSessionTicket:
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body = new(NewSessionTicketBody)
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case HandshakeTypeKeyUpdate:
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body = new(KeyUpdateBody)
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case HandshakeTypeEndOfEarlyData:
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body = new(EndOfEarlyDataBody)
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default:
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return body, fmt.Errorf("tls.handshakemessage: Unsupported body type")
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}
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_, err := body.Unmarshal(hm.body)
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return body, err
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}
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func HandshakeMessageFromBody(body HandshakeMessageBody) (*HandshakeMessage, error) {
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data, err := body.Marshal()
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if err != nil {
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return nil, err
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}
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return &HandshakeMessage{
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msgType: body.Type(),
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body: data,
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}, nil
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}
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type HandshakeLayer struct {
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nonblocking bool // Should we operate in nonblocking mode
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conn *RecordLayer // Used for reading/writing records
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frame *frameReader // The buffered frame reader
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}
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type handshakeLayerFrameDetails struct{}
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func (d handshakeLayerFrameDetails) headerLen() int {
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return handshakeHeaderLen
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}
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func (d handshakeLayerFrameDetails) defaultReadLen() int {
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return handshakeHeaderLen + maxFragmentLen
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}
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func (d handshakeLayerFrameDetails) frameLen(hdr []byte) (int, error) {
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logf(logTypeIO, "Header=%x", hdr)
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return (int(hdr[1]) << 16) | (int(hdr[2]) << 8) | int(hdr[3]), nil
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}
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func NewHandshakeLayer(r *RecordLayer) *HandshakeLayer {
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h := HandshakeLayer{}
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h.conn = r
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h.frame = newFrameReader(&handshakeLayerFrameDetails{})
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return &h
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}
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func (h *HandshakeLayer) readRecord() error {
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logf(logTypeIO, "Trying to read record")
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pt, err := h.conn.ReadRecord()
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if err != nil {
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return err
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}
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if pt.contentType != RecordTypeHandshake &&
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pt.contentType != RecordTypeAlert {
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return fmt.Errorf("tls.handshakelayer: Unexpected record type %d", pt.contentType)
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}
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if pt.contentType == RecordTypeAlert {
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logf(logTypeIO, "read alert %v", pt.fragment[1])
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if len(pt.fragment) < 2 {
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h.sendAlert(AlertUnexpectedMessage)
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return io.EOF
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}
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return Alert(pt.fragment[1])
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}
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logf(logTypeIO, "read handshake record of len %v", len(pt.fragment))
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h.frame.addChunk(pt.fragment)
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return nil
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}
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// sendAlert sends a TLS alert message.
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func (h *HandshakeLayer) sendAlert(err Alert) error {
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tmp := make([]byte, 2)
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tmp[0] = AlertLevelError
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tmp[1] = byte(err)
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h.conn.WriteRecord(&TLSPlaintext{
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contentType: RecordTypeAlert,
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fragment: tmp},
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)
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// closeNotify is a special case in that it isn't an error:
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if err != AlertCloseNotify {
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return &net.OpError{Op: "local error", Err: err}
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}
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return nil
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}
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func (h *HandshakeLayer) ReadMessage() (*HandshakeMessage, error) {
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var hdr, body []byte
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var err error
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for {
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logf(logTypeHandshake, "ReadMessage() buffered=%v", len(h.frame.remainder))
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if h.frame.needed() > 0 {
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logf(logTypeHandshake, "Trying to read a new record")
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err = h.readRecord()
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}
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if err != nil && (h.nonblocking || err != WouldBlock) {
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return nil, err
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}
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hdr, body, err = h.frame.process()
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if err == nil {
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break
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}
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if err != nil && (h.nonblocking || err != WouldBlock) {
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return nil, err
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}
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}
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logf(logTypeHandshake, "read handshake message")
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hm := &HandshakeMessage{}
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hm.msgType = HandshakeType(hdr[0])
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hm.body = make([]byte, len(body))
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copy(hm.body, body)
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return hm, nil
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}
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func (h *HandshakeLayer) WriteMessage(hm *HandshakeMessage) error {
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return h.WriteMessages([]*HandshakeMessage{hm})
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}
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func (h *HandshakeLayer) WriteMessages(hms []*HandshakeMessage) error {
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for _, hm := range hms {
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logf(logTypeHandshake, "WriteMessage [%d] %x", hm.msgType, hm.body)
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}
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// Write out headers and bodies
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buffer := []byte{}
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for _, msg := range hms {
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msgLen := len(msg.body)
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if msgLen > maxHandshakeMessageLen {
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return fmt.Errorf("tls.handshakelayer: Message too large to send")
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}
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buffer = append(buffer, msg.Marshal()...)
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}
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// Send full-size fragments
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var start int
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for start = 0; len(buffer)-start >= maxFragmentLen; start += maxFragmentLen {
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err := h.conn.WriteRecord(&TLSPlaintext{
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contentType: RecordTypeHandshake,
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fragment: buffer[start : start+maxFragmentLen],
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})
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if err != nil {
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return err
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}
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}
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// Send a final partial fragment if necessary
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if start < len(buffer) {
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err := h.conn.WriteRecord(&TLSPlaintext{
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contentType: RecordTypeHandshake,
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fragment: buffer[start:],
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})
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if err != nil {
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return err
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}
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}
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return nil
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}
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