581072a866
Add support for TLS extensions in general and Next Protocol Negotiation in particular. R=rsc CC=golang-dev https://golang.org/cl/181045
226 lines
5.7 KiB
Go
226 lines
5.7 KiB
Go
// Copyright 2009 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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package tls
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import (
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"crypto/hmac"
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"crypto/rc4"
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"crypto/rsa"
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"crypto/sha1"
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"crypto/subtle"
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"crypto/x509"
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"io"
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)
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// A serverHandshake performs the server side of the TLS 1.1 handshake protocol.
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type clientHandshake struct {
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writeChan chan<- interface{}
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controlChan chan<- interface{}
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msgChan <-chan interface{}
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config *Config
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}
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func (h *clientHandshake) loop(writeChan chan<- interface{}, controlChan chan<- interface{}, msgChan <-chan interface{}, config *Config) {
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h.writeChan = writeChan
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h.controlChan = controlChan
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h.msgChan = msgChan
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h.config = config
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defer close(writeChan)
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defer close(controlChan)
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finishedHash := newFinishedHash()
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hello := &clientHelloMsg{
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major: defaultMajor,
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minor: defaultMinor,
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cipherSuites: []uint16{TLS_RSA_WITH_RC4_128_SHA},
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compressionMethods: []uint8{compressionNone},
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random: make([]byte, 32),
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}
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currentTime := uint32(config.Time())
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hello.random[0] = byte(currentTime >> 24)
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hello.random[1] = byte(currentTime >> 16)
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hello.random[2] = byte(currentTime >> 8)
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hello.random[3] = byte(currentTime)
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_, err := io.ReadFull(config.Rand, hello.random[4:])
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if err != nil {
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h.error(alertInternalError)
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return
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}
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finishedHash.Write(hello.marshal())
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writeChan <- writerSetVersion{defaultMajor, defaultMinor}
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writeChan <- hello
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serverHello, ok := h.readHandshakeMsg().(*serverHelloMsg)
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if !ok {
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h.error(alertUnexpectedMessage)
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return
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}
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finishedHash.Write(serverHello.marshal())
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major, minor, ok := mutualVersion(serverHello.major, serverHello.minor)
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if !ok {
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h.error(alertProtocolVersion)
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return
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}
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writeChan <- writerSetVersion{major, minor}
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if serverHello.cipherSuite != TLS_RSA_WITH_RC4_128_SHA ||
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serverHello.compressionMethod != compressionNone {
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h.error(alertUnexpectedMessage)
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return
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}
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certMsg, ok := h.readHandshakeMsg().(*certificateMsg)
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if !ok || len(certMsg.certificates) == 0 {
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h.error(alertUnexpectedMessage)
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return
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}
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finishedHash.Write(certMsg.marshal())
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certs := make([]*x509.Certificate, len(certMsg.certificates))
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for i, asn1Data := range certMsg.certificates {
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cert, err := x509.ParseCertificate(asn1Data)
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if err != nil {
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h.error(alertBadCertificate)
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return
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}
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certs[i] = cert
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}
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// TODO(agl): do better validation of certs: max path length, name restrictions etc.
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for i := 1; i < len(certs); i++ {
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if certs[i-1].CheckSignatureFrom(certs[i]) != nil {
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h.error(alertBadCertificate)
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return
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}
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}
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if config.RootCAs != nil {
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root := config.RootCAs.FindParent(certs[len(certs)-1])
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if root == nil {
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h.error(alertBadCertificate)
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return
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}
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if certs[len(certs)-1].CheckSignatureFrom(root) != nil {
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h.error(alertBadCertificate)
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return
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}
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}
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pub, ok := certs[0].PublicKey.(*rsa.PublicKey)
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if !ok {
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h.error(alertUnsupportedCertificate)
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return
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}
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shd, ok := h.readHandshakeMsg().(*serverHelloDoneMsg)
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if !ok {
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h.error(alertUnexpectedMessage)
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return
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}
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finishedHash.Write(shd.marshal())
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ckx := new(clientKeyExchangeMsg)
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preMasterSecret := make([]byte, 48)
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// Note that the version number in the preMasterSecret must be the
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// version offered in the ClientHello.
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preMasterSecret[0] = defaultMajor
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preMasterSecret[1] = defaultMinor
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_, err = io.ReadFull(config.Rand, preMasterSecret[2:])
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if err != nil {
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h.error(alertInternalError)
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return
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}
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ckx.ciphertext, err = rsa.EncryptPKCS1v15(config.Rand, pub, preMasterSecret)
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if err != nil {
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h.error(alertInternalError)
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return
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}
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finishedHash.Write(ckx.marshal())
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writeChan <- ckx
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suite := cipherSuites[0]
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masterSecret, clientMAC, serverMAC, clientKey, serverKey :=
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keysFromPreMasterSecret11(preMasterSecret, hello.random, serverHello.random, suite.hashLength, suite.cipherKeyLength)
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cipher, _ := rc4.NewCipher(clientKey)
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writeChan <- writerChangeCipherSpec{cipher, hmac.New(sha1.New(), clientMAC)}
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finished := new(finishedMsg)
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finished.verifyData = finishedHash.clientSum(masterSecret)
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finishedHash.Write(finished.marshal())
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writeChan <- finished
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// TODO(agl): this is cut-through mode which should probably be an option.
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writeChan <- writerEnableApplicationData{}
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_, ok = h.readHandshakeMsg().(changeCipherSpec)
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if !ok {
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h.error(alertUnexpectedMessage)
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return
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}
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cipher2, _ := rc4.NewCipher(serverKey)
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controlChan <- &newCipherSpec{cipher2, hmac.New(sha1.New(), serverMAC)}
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serverFinished, ok := h.readHandshakeMsg().(*finishedMsg)
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if !ok {
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h.error(alertUnexpectedMessage)
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return
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}
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verify := finishedHash.serverSum(masterSecret)
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if len(verify) != len(serverFinished.verifyData) ||
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subtle.ConstantTimeCompare(verify, serverFinished.verifyData) != 1 {
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h.error(alertHandshakeFailure)
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return
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}
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controlChan <- ConnectionState{HandshakeComplete: true, CipherSuite: "TLS_RSA_WITH_RC4_128_SHA"}
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// This should just block forever.
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_ = h.readHandshakeMsg()
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h.error(alertUnexpectedMessage)
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return
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}
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func (h *clientHandshake) readHandshakeMsg() interface{} {
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v := <-h.msgChan
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if closed(h.msgChan) {
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// If the channel closed then the processor received an error
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// from the peer and we don't want to echo it back to them.
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h.msgChan = nil
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return 0
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}
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if _, ok := v.(alert); ok {
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// We got an alert from the processor. We forward to the writer
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// and shutdown.
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h.writeChan <- v
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h.msgChan = nil
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return 0
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}
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return v
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}
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func (h *clientHandshake) error(e alertType) {
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if h.msgChan != nil {
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// If we didn't get an error from the processor, then we need
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// to tell it about the error.
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go func() {
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for _ = range h.msgChan {
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}
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}()
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h.controlChan <- ConnectionState{Error: e}
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close(h.controlChan)
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h.writeChan <- alert{alertLevelError, e}
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}
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}
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