func doResponses(conn *tao.Conn) {
defer conn.Close()
var peer *string
if conn.Peer() != nil {
peer = proto.String(conn.Peer().String())
verbose.Printf("Processing connection requests for peer %s\n", *peer)
netlog.Log("rendezvous: connection from peer %s", *peer)
} else {
verbose.Printf("Processing connection requests for anonymous peer\n")
netlog.Log("rendezvous: connection from anonymous")
}
for {
var req rendezvous.Request
if err := conn.ReadMessage(&req); err != nil {
if err != io.EOF {
doError(conn, err, rendezvous.ResponseStatus_RENDEZVOUS_BAD_REQUEST, "failed to read request")
}
break
}
doResponse(&req, conn, peer)
}
lock.Lock()
for k, v := range bindings {
if v.expiration.IsZero() && v.conn == conn {
delete(bindings, k)
verbose.Printf("Expired binding upon close: %s\n", k)
}
}
lock.Unlock()
verbose.Println("Done processing connection requests")
if peer == nil {
netlog.Log("rendezvous: connection closed from anonymous")
} else {
netlog.Log("rendezvous: connection closed from peer %s", *peer)
}
}
func doResponse(conn *tao.Conn) bool {
// conn.Trace = tao.NewTrace(6, 1)
T := profiling.NewTrace(10, 1)
T.Start()
defer conn.Close()
var req taoca.Request
if err := conn.ReadMessage(&req); err != nil {
doError(conn, err, taoca.ResponseStatus_TAOCA_BAD_REQUEST, "failed to read request")
return false
}
T.Sample("got msg") // 1
peer := "anonymous"
if conn.Peer() != nil {
peer = conn.Peer().String()
}
T.Sample("got peer") // 2
var errmsg string
// Check whether the CSR is well-formed
name := req.CSR.Name
sanitize(name.Country, "Country", &errmsg)
sanitize(name.State, "State/Province", &errmsg)
sanitize(name.City, "City/Locality", &errmsg)
sanitize(name.Organization, "Organization", &errmsg)
ou := sanitize(name.OrganizationalUnit, "OrganizationalUnit", &errmsg)
cn := sanitize(name.CommonName, "CommonName", &errmsg)
years := *req.CSR.Years
if years <= 0 {
errmsg = "invalid validity period"
}
if errmsg != "" {
doError(conn, nil, taoca.ResponseStatus_TAOCA_BAD_REQUEST, errmsg)
return false
}
T.Sample("sanitized") // 3
var ck tao.CryptoKey
if err := proto.Unmarshal(req.CSR.PublicKey, &ck); err != nil {
doError(conn, err, taoca.ResponseStatus_TAOCA_BAD_REQUEST, "can't unmarshal key")
return false
}
subjectKey, err := tao.UnmarshalVerifierProto(&ck)
if err != nil {
doError(conn, err, taoca.ResponseStatus_TAOCA_BAD_REQUEST, "can't unmarshal key")
return false
}
T.Sample("got subject") // 4
// TODO(kwalsh) more robust generation of serial numbers?
var serial int64
if err := binary.Read(rand.Reader, binary.LittleEndian, &serial); err != nil {
doError(conn, err, taoca.ResponseStatus_TAOCA_ERROR, "could not generate random serial number")
}
if serial < 0 {
serial = ^serial
}
T.Sample("made serial") // 5
if verbose.Enabled {
printRequest(&req, subjectKey, serial, peer)
}
var cps, unotice string
if manualMode {
lock.Lock()
var ok string
for {
ok = options.Confirm("Approve this request?", "no")
if ok == "yes" || ok == "no" {
break
}
fmt.Printf("I don't understand %q. Please type yes or no.\n", ok)
}
lock.Unlock()
if ok != "yes" {
doError(conn, nil, taoca.ResponseStatus_TAOCA_REQUEST_DENIED, "request is denied")
return false
}
fmt.Printf("Issuing certificate.\n")
cps = cpsTemplate + cpsManual
} else {
// Consult guard to enforce policy.
if conn.Peer() == nil {
doError(conn, nil, taoca.ResponseStatus_TAOCA_REQUEST_DENIED, "anonymous request is denied")
return false
}
if learnMode {
prin := *conn.Peer()
if len(prin.Ext) > 0 {
last := prin.Ext[len(prin.Ext)-1]
tail := auth.PrinTail{
Ext: auth.SubPrin([]auth.PrinExt{last}),
}
prinHash := fmt.Sprintf("Known(%v)", tail)
if !knownHashes[prinHash] {
fmt.Printf("Learned: %s\n", prinHash)
knownHashes[prinHash] = true
if err := guard.AddRule(prinHash); err != nil {
fmt.Println("Error adding rule: %s\n", err)
}
}
}
}
if !guard.IsAuthorized(*conn.Peer(), "ClaimCertificate", []string{*name.OrganizationalUnit, *name.CommonName}) &&
!guard.IsAuthorized(*conn.Peer(), "ClaimCertificate", nil) {
fmt.Printf("Policy (as follows) does not allow this request\n")
fmt.Printf("%s\n", guard.String())
doError(conn, nil, taoca.ResponseStatus_TAOCA_REQUEST_DENIED, "request is denied")
return false
}
if _, ok := guard.(*tao.ACLGuard); ok {
cps = cpsTemplate + cpsACL
} else {
cps = cpsTemplate + cpsDatalog
}
cps += "\n" + guard.String()
}
T.Sample("authenticated") // 6
if conn.Peer() != nil {
unotice = fmt.Sprintf(unoticeTemplate+
"* The certificate was requested by the following Tao principal:\n\n %v\n",
*conn.Peer())
} else {
unotice = fmt.Sprintf(unoticeTemplate +
"* The certificate was requested anonymously.\n")
}
cpsUrl, err := publish([]byte(cps))
unoticeUrl, err := publish([]byte(unotice))
// ext, err := taoca.NewUserNotice("Hello user, how are you?")
ext, err := taoca.NewCertficationPolicy(cpsUrl, unoticeUrl)
if err != nil {
doError(conn, err, taoca.ResponseStatus_TAOCA_ERROR, "failed to generate certificate policy extension")
return false
}
T.Sample("made cps") // 7
netlog.Log("https_ca: issuing certificate for ou=%q cn=%q to %s", ou, cn, peer)
template := caKeys.SigningKey.X509Template(NewX509Name(name), ext)
template.IsCA = *req.CSR.IsCa
template.SerialNumber.SetInt64(serial)
cert, err := caKeys.CreateSignedX509(subjectKey, template, "default")
if err != nil {
doError(conn, err, taoca.ResponseStatus_TAOCA_ERROR, "failed to generate certificate")
return false
}
T.Sample("signed cert") // 8
status := taoca.ResponseStatus_TAOCA_OK
resp := &taoca.Response{
Status: &status,
Cert: []*taoca.Cert{&taoca.Cert{X509Cert: cert.Raw}},
}
for _, parent := range caKeys.CertChain("default") {
resp.Cert = append(resp.Cert, &taoca.Cert{X509Cert: parent.Raw})
}
T.Sample("built response") // 9
sendResponse(conn, resp)
T.Sample("sent response") // 10
//fmt.Println(T)
return true
}
func doResponse(conn *tao.Conn) {
defer conn.Close()
if conn.Peer() == nil {
verbose.Printf("netlog: connection from anonymous\n")
} else {
verbose.Printf("netlog: connection from peer %s\n", *conn.Peer())
}
for {
req, err := conn.ReadString()
if err == io.EOF {
fmt.Fprintf(os.Stderr, "netlog: connection closed\n")
break
}
if err != nil {
fmt.Fprintf(os.Stderr, "netlog: can't read: %s\n", err)
break
}
verbose.Printf("netlog: got %s request\n", req)
if req == "POST" {
if conn.Peer() == nil {
conn.WriteString("DENIED")
break
}
verbose.Printf("netlog: peer is %s\n", *conn.Peer())
msg, err := conn.ReadString()
if err != nil {
conn.WriteString("BAD")
break
}
e := &netlog.LogEntry{Prin: *conn.Peer(), Msg: msg}
lock.Lock()
log = append(log, e)
lock.Unlock()
conn.WriteString("OK")
} else if req == "GET" {
lock.RLock()
t := log
lock.RUnlock()
conn.WriteString("OK")
conn.WriteInt(len(t))
for _, e := range t {
conn.WriteString(e.Prin.String())
conn.WriteString(e.Msg)
}
} else {
conn.WriteString("BAD")
break
}
}
if conn.Peer() == nil {
verbose.Printf("netlog: connection closed from anonymous\n")
} else {
verbose.Printf("netlog: connection closed from peer %s\n", *conn.Peer())
}
}
