mirror of https://github.com/hashicorp/consul
185 lines
7.4 KiB
Go
185 lines
7.4 KiB
Go
package connect
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import (
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"crypto/rand"
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"encoding/binary"
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"fmt"
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"regexp"
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"strconv"
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"strings"
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)
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var invalidDNSNameChars = regexp.MustCompile(`[^a-z0-9]`)
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const (
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// 64 = max length of a certificate common name
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// 21 = 7 bytes for ".consul", 9 bytes for .<trust domain> and 5 bytes for ".svc."
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// This ends up being 43 bytes
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maxServiceAndNamespaceLen = 64 - 21
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minServiceNameLen = 15
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minNamespaceNameLen = 15
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)
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// trucateServiceAndNamespace will take a service name and namespace name and truncate
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// them appropriately so that they would fit within the space alloted for them in the
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// Common Name field of the x509 certificate. That field is capped at 64 characters
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// in length and there is other data that must be a part of the name too. This function
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// takes all of that into account.
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func truncateServiceAndNamespace(serviceName, namespace string) (string, string) {
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svcLen := len(serviceName)
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nsLen := len(namespace)
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totalLen := svcLen + nsLen
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// quick exit when the entirety of both can fit
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if totalLen <= maxServiceAndNamespaceLen {
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return serviceName, namespace
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}
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toRemove := totalLen - maxServiceAndNamespaceLen
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// now we must figure out how to truncate each one, we need to ensure we don't remove all of either one.
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if svcLen <= minServiceNameLen {
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// only remove bytes from the namespace
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return serviceName, truncateTo(namespace, nsLen-toRemove)
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} else if nsLen <= minNamespaceNameLen {
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// only remove bytes from the service name
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return truncateTo(serviceName, svcLen-toRemove), namespace
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} else {
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// we can remove an "equal" amount from each. If the number of bytes to remove is odd we give it to the namespace
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svcTruncate := svcLen - (toRemove / 2) - (toRemove % 2)
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nsTruncate := nsLen - (toRemove / 2)
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// checks to ensure we don't reduce one side too much when they are not roughly balanced in length.
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if svcTruncate <= minServiceNameLen {
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svcTruncate = minServiceNameLen
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nsTruncate = maxServiceAndNamespaceLen - minServiceNameLen
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} else if nsTruncate <= minNamespaceNameLen {
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svcTruncate = maxServiceAndNamespaceLen - minNamespaceNameLen
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nsTruncate = minNamespaceNameLen
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}
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return truncateTo(serviceName, svcTruncate), truncateTo(namespace, nsTruncate)
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}
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}
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// ServiceCN returns the common name for a service's certificate. We can't use
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// SPIFFE URIs because some CAs require valid FQDN format. We can't use SNI
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// values because they are often too long than the 64 bytes allowed by
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// CommonNames. We could attempt to encode more information into this to make
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// identifying which instance/node it was issued to in a management tool easier
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// but that just introduces more complications around length. It's also strange
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// that the Common Name would encode more information than the actual
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// identifying URI we use to assert anything does and my lead to bad assumptions
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// that the common name is in some way "secure" or verified - there is nothing
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// inherently provable here except that the requestor had ACLs for that service
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// name in that DC.
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//
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// Format is:
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// <sanitized_service_name>.svc.<trust_domain_first_8>.consul
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//
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// service name is sanitized by removing any chars that are not legal in a DNS
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// name and lower casing. It is truncated to the first X chars to keep the
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// total at 64.
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//
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// trust domain is truncated to keep the whole name short
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func ServiceCN(serviceName, namespace, trustDomain string) string {
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svc := invalidDNSNameChars.ReplaceAllString(strings.ToLower(serviceName), "")
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svc, namespace = truncateServiceAndNamespace(svc, namespace)
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return fmt.Sprintf("%s.svc.%s.%s.consul",
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svc, namespace, truncateTo(trustDomain, 8))
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}
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// AgentCN returns the common name for an agent certificate. See ServiceCN for
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// more details on rationale.
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//
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// Format is:
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// <sanitized_node_name>.agnt.<trust_domain_first_8>.consul
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//
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// node name is sanitized by removing any chars that are not legal in a DNS
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// name and lower casing. It is truncated to the first X chars to keep the
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// total at 64.
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//
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// trust domain is truncated to keep the whole name short
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func AgentCN(node, trustDomain string) string {
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nodeSan := invalidDNSNameChars.ReplaceAllString(strings.ToLower(node), "")
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// 21 = 7 bytes for ".consul", 8 bytes for trust domain, 6 bytes for ".agnt."
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return fmt.Sprintf("%s.agnt.%s.consul",
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truncateTo(nodeSan, 64-21), truncateTo(trustDomain, 8))
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}
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// CompactUID returns a crypto random Unique Identifier string consiting of 8
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// characters of base36 encoded random value. This has roughly 41 bits of
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// entropy so is suitable for infrequently occuring events with low probability
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// of collision. It is not suitable for UUIDs for very frequent events. It's
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// main purpose is to assign unique values to CA certificate Common Names which
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// need to be unique in some providers - see CACN - but without using up large
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// amounts of the limited 64 character Common Name. It also makes the values
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// more easily digestable by humans considering there are likely to be few of
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// them ever in use.
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func CompactUID() (string, error) {
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// 48 bits (6 bytes) is enough to fill 8 bytes in base36 but it's simpler to
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// have a whole uint8 to convert from.
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var raw [8]byte
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_, err := rand.Read(raw[:])
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if err != nil {
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return "", err
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}
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i := binary.LittleEndian.Uint64(raw[:])
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return truncateTo(strconv.FormatInt(int64(i), 36), 8), nil
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}
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// CACN returns the common name for a CA certificate. See ServiceCN for more
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// details on rationale. A uniqueID is requires because some providers (e.g.
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// Vault) cache by subject and so produce incorrect results - for example they
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// won't cross-sign an older CA certificate with the same common name since they
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// think they already have a valid cert for that CN and just return the current
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// root.
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//
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// This can be generated by any means but will be truncated to 8 chars and
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// sanitised to DNS-safe chars. CompactUID generates suitable UIDs for this
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// specific purpose.
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//
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// Format is:
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// {provider}-{uniqueID_first8}.{pri|sec}.ca.<trust_domain_first_8>.consul
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//
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// trust domain is truncated to keep the whole name short
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func CACN(provider, uniqueID, trustDomain string, primaryDC bool) string {
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providerSan := invalidDNSNameChars.ReplaceAllString(strings.ToLower(provider), "")
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typ := "pri"
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if !primaryDC {
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typ = "sec"
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}
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// 32 = 7 bytes for ".consul", 8 bytes for trust domain, 8 bytes for
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// ".pri.ca.", 9 bytes for "-{uniqueID-8-b36}"
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uidSAN := invalidDNSNameChars.ReplaceAllString(strings.ToLower(uniqueID), "")
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return fmt.Sprintf("%s-%s.%s.ca.%s.consul", typ, truncateTo(uidSAN, 8),
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truncateTo(providerSan, 64-32), truncateTo(trustDomain, 8))
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}
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func truncateTo(s string, n int) string {
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if len(s) > n {
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return s[:n]
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}
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return s
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}
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// CNForCertURI returns the correct common name for a given cert URI type. It
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// doesn't work for CA Signing IDs since more context is needed and CA Providers
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// always know their CN from their own context.
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func CNForCertURI(uri CertURI) (string, error) {
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// Even though leafs should be from our own CSRs which should have the same CN
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// logic as here, override anyway to account for older version clients that
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// didn't include the Common Name in the CSR.
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switch id := uri.(type) {
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case *SpiffeIDService:
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return ServiceCN(id.Service, id.Namespace, id.Host), nil
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case *SpiffeIDAgent:
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return AgentCN(id.Agent, id.Host), nil
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case *SpiffeIDSigning:
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return "", fmt.Errorf("CertURI is a SpiffeIDSigning, not enough context to generate Common Name")
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default:
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return "", fmt.Errorf("CertURI type not recognized")
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}
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}
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