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certctl/internal/scep/intune/claim.go
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shankar0123 21aeed4f4e legal: addlicense headers + normalize legacy variants (Phase 0 RED-4) 
Phase 0 closure (Path B2, post-rewrite):

addlicense sweep — adds the canonical certctl LLC copyright + BUSL-1.1
SPDX header to every production Go file. Template:

  // Copyright 2026 certctl LLC. All rights reserved.
  // SPDX-License-Identifier: BUSL-1.1

Coverage: 338 / 338 production Go files (cmd/ + internal/, excluding
*_test.go and **/testdata/**). Pre-sweep coverage was 22 / 338 (6.5%);
post-sweep is 338 / 338 (100%).

Normalized 22 pre-existing legacy headers (`// Copyright (c) certctl`
+ `// SPDX-License-Identifier: BSL-1.1`) and 1 file using a
`Certctl Contributors` attribution. The legacy SPDX ID `BSL-1.1`
is non-standard; the official SPDX identifier for Business Source
License 1.1 is `BUSL-1.1` (capital U). All 338 files now share the
canonical form.

Generated via:
  addlicense -c "certctl LLC" -y 2026 \
    -f cowork/legal/copyright-header.tpl \
    -ignore '**/testdata/**' -ignore '**/*_test.go' \
    cmd/ internal/

Verification:
  find cmd internal -name '*.go' -not -name '*_test.go' \
    -not -path '*/testdata/*' \
    -exec grep -L '^// Copyright 2026 certctl LLC' {} \; | wc -l

  Returns: 0

gofmt clean. Header additions are comments only, no compile impact.

Closes: cowork/certctl-architecture-diligence-audit.html#fix-RED-4
2026-05-13 21:23:35 +00:00

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// Copyright 2026 certctl LLC. All rights reserved.
// SPDX-License-Identifier: BUSL-1.1
package intune
import (
"crypto/x509"
"errors"
"fmt"
"sort"
"strings"
"time"
)
// ChallengeClaim is the parsed payload of an Intune dynamic challenge.
//
// SCEP RFC 8894 + Intune master bundle Phase 7.3.
//
// Fields documented from Microsoft's Connector source traces +
// community implementations (smallstep/step-ca and HashiCorp Vault's
// Intune integrations both reverse-engineered the same format). The
// JSON tags match what the Connector emits today (v1 format); a v2
// format would land alongside via the version-detection dispatcher
// in challenge.go.
//
// Set-equality semantics: the SAN slices are normalised (sorted,
// de-duped) before comparison so Microsoft's Connector emitting in a
// non-deterministic order doesn't break DeviceMatchesCSR.
type ChallengeClaim struct {
Issuer string `json:"iss,omitempty"` // Connector identity (installation GUID typical)
Subject string `json:"sub,omitempty"` // device GUID or user UPN
Audience string `json:"aud,omitempty"` // expected SCEP endpoint URL (replay protection)
IssuedAt time.Time `json:"-"` // populated by claim unmarshaler from "iat" Unix seconds
ExpiresAt time.Time `json:"-"` // populated by claim unmarshaler from "exp" Unix seconds
Nonce string `json:"nonce,omitempty"` // replay-protection token; opaque
DeviceName string `json:"device_name,omitempty"` // expected CSR CommonName
SANDNS []string `json:"san_dns,omitempty"` // expected SAN DNS names
SANRFC822 []string `json:"san_rfc822,omitempty"` // expected SAN email addresses (user certs)
SANUPN []string `json:"san_upn,omitempty"` // expected SAN userPrincipalName
}
// Typed claim-mismatch errors so the caller can audit the specific
// failure dimension without string-matching on error messages.
var (
ErrClaimCNMismatch = errors.New("intune claim: device_name does not match CSR CommonName")
ErrClaimSANDNSMismatch = errors.New("intune claim: SAN DNS set does not match CSR")
ErrClaimSANRFC822Mismatch = errors.New("intune claim: SAN RFC822 (email) set does not match CSR")
ErrClaimSANUPNMismatch = errors.New("intune claim: SAN UPN (userPrincipalName) set does not match CSR")
)
// DeviceMatchesCSR returns nil if the CSR's CN and SANs match the
// claim's expected values. Returns a typed error otherwise so the
// caller can audit the specific mismatch.
//
// Set-equality semantics: if the claim says
// SANDNS=["a.example.com","b.example.com"] and the CSR has only
// "a.example.com", that's a mismatch — the operator's Intune profile
// was misconfigured or the CSR was tampered with. Both are "fail
// closed" cases.
//
// Empty claim slices = no constraint on that dimension. So a claim
// with SANDNS=nil + a CSR with DNS SANs is OK (Intune didn't pin DNS,
// the CSR can carry whatever). A claim with SANDNS=["x"] + a CSR
// with no DNS SANs is a mismatch (Intune pinned x, CSR doesn't have
// it).
func (c *ChallengeClaim) DeviceMatchesCSR(csr *x509.CertificateRequest) error {
if c == nil {
return errors.New("intune claim: nil claim")
}
if csr == nil {
return errors.New("intune claim: nil CSR")
}
// CN is straight equality. Empty claim CN = no constraint.
if c.DeviceName != "" && c.DeviceName != csr.Subject.CommonName {
return fmt.Errorf("%w: claim=%q csr=%q", ErrClaimCNMismatch, c.DeviceName, csr.Subject.CommonName)
}
// SAN sets — set-equality means the SCEP CSR carries EXACTLY the
// claim's elements, no extras and no missing. Normalising via
// sorted lower-case slices makes the compare order-independent.
if len(c.SANDNS) > 0 {
got := normaliseSet(csr.DNSNames)
want := normaliseSet(c.SANDNS)
if !equalSets(got, want) {
return fmt.Errorf("%w: claim=%v csr=%v", ErrClaimSANDNSMismatch, want, got)
}
}
if len(c.SANRFC822) > 0 {
got := normaliseSet(csr.EmailAddresses)
want := normaliseSet(c.SANRFC822)
if !equalSets(got, want) {
return fmt.Errorf("%w: claim=%v csr=%v", ErrClaimSANRFC822Mismatch, want, got)
}
}
if len(c.SANUPN) > 0 {
// UPN SANs ride otherName extensions per RFC 4985 §1.1; Go's
// stdlib doesn't surface them as a typed slice. Walk the raw
// extensions if present. Most Intune deploys use SAN-RFC822
// (email) for user certs rather than SAN-UPN, so this branch is
// uncommon but pinned for correctness.
got := normaliseSet(extractUPNSans(csr))
want := normaliseSet(c.SANUPN)
if !equalSets(got, want) {
return fmt.Errorf("%w: claim=%v csr=%v", ErrClaimSANUPNMismatch, want, got)
}
}
return nil
}
// normaliseSet returns a sorted, lowercased, de-duplicated copy of s.
// Lowercase because DNS / email comparison is case-insensitive (DNS
// per RFC 4343, email local-part is case-sensitive per RFC 5321 but
// Microsoft + most TLS stacks treat it case-insensitively for SAN
// comparison). De-dup so a CSR with ["a","a"] matches a claim with
// ["a"] — the cert's effective SAN set is what we're comparing, not
// the multiset.
func normaliseSet(s []string) []string {
seen := map[string]struct{}{}
out := make([]string, 0, len(s))
for _, v := range s {
v = strings.ToLower(strings.TrimSpace(v))
if v == "" {
continue
}
if _, ok := seen[v]; ok {
continue
}
seen[v] = struct{}{}
out = append(out, v)
}
sort.Strings(out)
return out
}
func equalSets(a, b []string) bool {
if len(a) != len(b) {
return false
}
for i := range a {
if a[i] != b[i] {
return false
}
}
return true
}
// extractUPNSans walks a CSR's raw extensions for SAN entries with the
// otherName form carrying the id-ms-san-upn OID (1.3.6.1.4.1.311.20.2.3).
// Returns the decoded UTF-8 string values. Returns empty slice when no
// UPN SANs are present (the common case).
//
// Implementation note: Go's stdlib doesn't decode UPN SANs; we'd have
// to walk the SubjectAltName extension's raw value as ASN.1 SEQUENCE OF
// GeneralName, find the [0] otherName tags, parse each as
// {OID, [0] EXPLICIT ANY}, match the OID, and decode the EXPLICIT value
// as a UTF8String. That's ~50 LoC of ASN.1 fiddling. For Phase 7 v1 we
// punt on it: returning an empty slice means SANUPN claims with non-
// empty values fail the equalSets check below — which is the correct
// fail-closed behavior for the rare deploy that pins UPN SANs but
// hasn't audited the wire format. If/when an operator actually needs
// SAN-UPN matching, hot-fix this function with the ASN.1 walker.
func extractUPNSans(_ *x509.CertificateRequest) []string {
return nil
}
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