// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package x509
import (
"bytes"
"crypto/ecdsa"
"crypto/elliptic"
"crypto/rand"
"crypto/x509/pkix"
"encoding/asn1"
"encoding/hex"
"encoding/pem"
"fmt"
"io/ioutil"
"math/big"
"net"
"net/url"
"os"
"os/exec"
"strconv"
"strings"
"sync"
"testing"
"time"
)
const (
// testNameConstraintsAgainstOpenSSL can be set to true to run tests
// against the system OpenSSL. This is disabled by default because Go
// cannot depend on having OpenSSL installed at testing time.
testNameConstraintsAgainstOpenSSL = false
// debugOpenSSLFailure can be set to true, when
// testNameConstraintsAgainstOpenSSL is also true, to cause
// intermediate files to be preserved for debugging.
debugOpenSSLFailure = false
)
type nameConstraintsTest struct {
roots []constraintsSpec
intermediates [][]constraintsSpec
leaf leafSpec
requestedEKUs []ExtKeyUsage
expectedError string
noOpenSSL bool
ignoreCN bool
}
type constraintsSpec struct {
ok []string
bad []string
ekus []string
}
type leafSpec struct {
sans []string
ekus []string
cn string
}
var nameConstraintsTests = []nameConstraintsTest{
// #0: dummy test for the certificate generation process itself.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
},
// #1: dummy test for the certificate generation process itself: single
// level of intermediate.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
},
// #2: dummy test for the certificate generation process itself: two
// levels of intermediates.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
},
// #3: matching DNS constraint in root
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
},
// #4: matching DNS constraint in intermediate.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ok: []string{"dns:example.com"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
},
// #5: .example.com only matches subdomains.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:.example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
expectedError: "\"example.com\" is not permitted",
},
// #6: .example.com matches subdomains.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ok: []string{"dns:.example.com"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:foo.example.com"},
},
},
// #7: .example.com matches multiple levels of subdomains
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:.example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:foo.bar.example.com"},
},
},
// #8: specifying a permitted list of names does not exclude other name
// types
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:.example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"ip:10.1.1.1"},
},
},
// #9: specifying a permitted list of names does not exclude other name
// types
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"ip:10.0.0.0/8"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
},
// #10: intermediates can try to permit other names, which isn't
// forbidden if the leaf doesn't mention them. I.e. name constraints
// apply to names, not constraints themselves.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ok: []string{"dns:example.com", "dns:foo.com"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
},
// #11: intermediates cannot add permitted names that the root doesn't
// grant them.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ok: []string{"dns:example.com", "dns:foo.com"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:foo.com"},
},
expectedError: "\"foo.com\" is not permitted",
},
// #12: intermediates can further limit their scope if they wish.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:.example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ok: []string{"dns:.bar.example.com"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:foo.bar.example.com"},
},
},
// #13: intermediates can further limit their scope and that limitation
// is effective
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:.example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ok: []string{"dns:.bar.example.com"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:foo.notbar.example.com"},
},
expectedError: "\"foo.notbar.example.com\" is not permitted",
},
// #14: roots can exclude subtrees and that doesn't affect other names.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"dns:.example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:foo.com"},
},
},
// #15: roots exclusions are effective.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"dns:.example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:foo.example.com"},
},
expectedError: "\"foo.example.com\" is excluded",
},
// #16: intermediates can also exclude names and that doesn't affect
// other names.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
bad: []string{"dns:.example.com"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:foo.com"},
},
},
// #17: intermediate exclusions are effective.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
bad: []string{"dns:.example.com"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:foo.example.com"},
},
expectedError: "\"foo.example.com\" is excluded",
},
// #18: having an exclusion doesn't prohibit other types of names.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"dns:.example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:foo.com", "ip:10.1.1.1"},
},
},
// #19: IP-based exclusions are permitted and don't affect unrelated IP
// addresses.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"ip:10.0.0.0/8"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"ip:192.168.1.1"},
},
},
// #20: IP-based exclusions are effective
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"ip:10.0.0.0/8"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"ip:10.0.0.1"},
},
expectedError: "\"10.0.0.1\" is excluded",
},
// #21: intermediates can further constrain IP ranges.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"ip:0.0.0.0/1"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
bad: []string{"ip:11.0.0.0/8"},
},
},
},
leaf: leafSpec{
sans: []string{"ip:11.0.0.1"},
},
expectedError: "\"11.0.0.1\" is excluded",
},
// #22: when multiple intermediates are present, chain building can
// avoid intermediates with incompatible constraints.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ok: []string{"dns:.foo.com"},
},
constraintsSpec{
ok: []string{"dns:.example.com"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:foo.example.com"},
},
noOpenSSL: true, // OpenSSL's chain building is not informed by constraints.
},
// #23: (same as the previous test, but in the other order in ensure
// that we don't pass it by luck.)
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ok: []string{"dns:.example.com"},
},
constraintsSpec{
ok: []string{"dns:.foo.com"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:foo.example.com"},
},
noOpenSSL: true, // OpenSSL's chain building is not informed by constraints.
},
// #24: when multiple roots are valid, chain building can avoid roots
// with incompatible constraints.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
constraintsSpec{
ok: []string{"dns:foo.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
noOpenSSL: true, // OpenSSL's chain building is not informed by constraints.
},
// #25: (same as the previous test, but in the other order in ensure
// that we don't pass it by luck.)
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:foo.com"},
},
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
noOpenSSL: true, // OpenSSL's chain building is not informed by constraints.
},
// #26: chain building can find a valid path even with multiple levels
// of alternative intermediates and alternative roots.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:foo.com"},
},
constraintsSpec{
ok: []string{"dns:example.com"},
},
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
constraintsSpec{
ok: []string{"dns:foo.com"},
},
},
[]constraintsSpec{
constraintsSpec{},
constraintsSpec{
ok: []string{"dns:foo.com"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:bar.com"},
},
noOpenSSL: true, // OpenSSL's chain building is not informed by constraints.
},
// #27: chain building doesn't get stuck when there is no valid path.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:foo.com"},
},
constraintsSpec{
ok: []string{"dns:example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
constraintsSpec{
ok: []string{"dns:foo.com"},
},
},
[]constraintsSpec{
constraintsSpec{
ok: []string{"dns:bar.com"},
},
constraintsSpec{
ok: []string{"dns:foo.com"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:bar.com"},
},
expectedError: "\"bar.com\" is not permitted",
},
// #28: unknown name types don't cause a problem without constraints.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"unknown:"},
},
},
// #29: unknown name types are allowed even in constrained chains.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:foo.com", "dns:.foo.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"unknown:"},
},
},
// #30: without SANs, a certificate with a CN is rejected in a constrained chain.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:foo.com", "dns:.foo.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{},
cn: "foo.com",
},
expectedError: "leaf doesn't have a SAN extension",
},
// #31: IPv6 addresses work in constraints: roots can permit them as
// expected.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"ip:2000:abcd::/32"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"ip:2000:abcd:1234::"},
},
},
// #32: IPv6 addresses work in constraints: root restrictions are
// effective.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"ip:2000:abcd::/32"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"ip:2000:1234:abcd::"},
},
expectedError: "\"2000:1234:abcd::\" is not permitted",
},
// #33: An IPv6 permitted subtree doesn't affect DNS names.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"ip:2000:abcd::/32"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"ip:2000:abcd::", "dns:foo.com"},
},
},
// #34: IPv6 exclusions don't affect unrelated addresses.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"ip:2000:abcd::/32"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"ip:2000:1234::"},
},
},
// #35: IPv6 exclusions are effective.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"ip:2000:abcd::/32"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"ip:2000:abcd::"},
},
expectedError: "\"2000:abcd::\" is excluded",
},
// #36: IPv6 constraints do not permit IPv4 addresses.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"ip:2000:abcd::/32"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"ip:10.0.0.1"},
},
expectedError: "\"10.0.0.1\" is not permitted",
},
// #37: IPv4 constraints do not permit IPv6 addresses.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"ip:10.0.0.0/8"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"ip:2000:abcd::"},
},
expectedError: "\"2000:abcd::\" is not permitted",
},
// #38: an exclusion of an unknown type doesn't affect other names.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"unknown:"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
},
// #39: a permitted subtree of an unknown type doesn't affect other
// name types.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"unknown:"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
},
// #40: exact email constraints work
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"email:foo@example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"email:foo@example.com"},
},
},
// #41: exact email constraints are effective
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"email:foo@example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"email:bar@example.com"},
},
expectedError: "\"bar@example.com\" is not permitted",
},
// #42: email canonicalisation works.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"email:foo@example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"email:\"\\f\\o\\o\"@example.com"},
},
noOpenSSL: true, // OpenSSL doesn't canonicalise email addresses before matching
},
// #43: limiting email addresses to a host works.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"email:example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"email:foo@example.com"},
},
},
// #44: a leading dot matches hosts one level deep
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"email:.example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"email:foo@sub.example.com"},
},
},
// #45: a leading dot does not match the host itself
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"email:.example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"email:foo@example.com"},
},
expectedError: "\"foo@example.com\" is not permitted",
},
// #46: a leading dot also matches two (or more) levels deep.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"email:.example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"email:foo@sub.sub.example.com"},
},
},
// #47: the local part of an email is case-sensitive
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"email:foo@example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"email:Foo@example.com"},
},
expectedError: "\"Foo@example.com\" is not permitted",
},
// #48: the domain part of an email is not case-sensitive
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"email:foo@EXAMPLE.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"email:foo@example.com"},
},
},
// #49: the domain part of a DNS constraint is also not case-sensitive.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:EXAMPLE.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
},
// #50: URI constraints only cover the host part of the URI
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"uri:example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{
"uri:http://example.com/bar",
"uri:http://example.com:8080/",
"uri:https://example.com/wibble#bar",
},
},
},
// #51: URIs with IPs are rejected
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"uri:example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"uri:http://1.2.3.4/"},
},
expectedError: "URI with IP",
},
// #52: URIs with IPs and ports are rejected
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"uri:example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"uri:http://1.2.3.4:43/"},
},
expectedError: "URI with IP",
},
// #53: URIs with IPv6 addresses are also rejected
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"uri:example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"uri:http://[2006:abcd::1]/"},
},
expectedError: "URI with IP",
},
// #54: URIs with IPv6 addresses with ports are also rejected
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"uri:example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"uri:http://[2006:abcd::1]:16/"},
},
expectedError: "URI with IP",
},
// #55: URI constraints are effective
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"uri:example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"uri:http://bar.com/"},
},
expectedError: "\"http://bar.com/\" is not permitted",
},
// #56: URI constraints are effective
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"uri:foo.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"uri:http://foo.com/"},
},
expectedError: "\"http://foo.com/\" is excluded",
},
// #57: URI constraints can allow subdomains
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"uri:.foo.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"uri:http://www.foo.com/"},
},
},
// #58: excluding an IPv4-mapped-IPv6 address doesn't affect the IPv4
// version of that address.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"ip:::ffff:1.2.3.4/128"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"ip:1.2.3.4"},
},
},
// #59: a URI constraint isn't matched by a URN.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"uri:example.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"uri:urn:example"},
},
expectedError: "URI with empty host",
},
// #60: excluding all IPv6 addresses doesn't exclude all IPv4 addresses
// too, even though IPv4 is mapped into the IPv6 range.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"ip:1.2.3.0/24"},
bad: []string{"ip:::0/0"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"ip:1.2.3.4"},
},
},
// #61: omitting extended key usage in a CA certificate implies that
// any usage is ok.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
ekus: []string{"serverAuth", "other"},
},
},
// #62: The “any” EKU also means that any usage is ok.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ekus: []string{"any"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
ekus: []string{"serverAuth", "other"},
},
},
// #63: An intermediate with enumerated EKUs causes a failure if we
// test for an EKU not in that set. (ServerAuth is required by
// default.)
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ekus: []string{"email"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
ekus: []string{"serverAuth"},
},
expectedError: "incompatible key usage",
},
// #64: an unknown EKU in the leaf doesn't break anything, even if it's not
// correctly nested.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ekus: []string{"email"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
ekus: []string{"other"},
},
requestedEKUs: []ExtKeyUsage{ExtKeyUsageAny},
},
// #65: trying to add extra permitted key usages in an intermediate
// (after a limitation in the root) is acceptable so long as the leaf
// certificate doesn't use them.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ekus: []string{"serverAuth"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ekus: []string{"serverAuth", "email"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
ekus: []string{"serverAuth"},
},
},
// #66: EKUs in roots are not ignored.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ekus: []string{"email"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ekus: []string{"serverAuth"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
ekus: []string{"serverAuth"},
},
expectedError: "incompatible key usage",
},
// #67: in order to support COMODO chains, SGC key usages permit
// serverAuth and clientAuth.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ekus: []string{"netscapeSGC"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
ekus: []string{"serverAuth", "clientAuth"},
},
},
// #68: in order to support COMODO chains, SGC key usages permit
// serverAuth and clientAuth.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ekus: []string{"msSGC"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
ekus: []string{"serverAuth", "clientAuth"},
},
},
// #69: an empty DNS constraint should allow anything.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
},
// #70: an empty DNS constraint should also reject everything.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"dns:"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
},
expectedError: "\"example.com\" is excluded",
},
// #71: an empty email constraint should allow anything
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"email:"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"email:foo@example.com"},
},
},
// #72: an empty email constraint should also reject everything.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"email:"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"email:foo@example.com"},
},
expectedError: "\"foo@example.com\" is excluded",
},
// #73: an empty URI constraint should allow anything
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"uri:"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"uri:https://example.com/test"},
},
},
// #74: an empty URI constraint should also reject everything.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"uri:"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"uri:https://example.com/test"},
},
expectedError: "\"https://example.com/test\" is excluded",
},
// #75: serverAuth in a leaf shouldn't permit clientAuth when requested in
// VerifyOptions.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
ekus: []string{"serverAuth"},
},
requestedEKUs: []ExtKeyUsage{ExtKeyUsageClientAuth},
expectedError: "incompatible key usage",
},
// #76: However, MSSGC in a leaf should match a request for serverAuth.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
ekus: []string{"msSGC"},
},
requestedEKUs: []ExtKeyUsage{ExtKeyUsageServerAuth},
},
// An invalid DNS SAN should be detected only at validation time so
// that we can process CA certificates in the wild that have invalid SANs.
// See https://github.com/golang/go/issues/23995
// #77: an invalid DNS or mail SAN will not be detected if name constaint
// checking is not triggered.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:this is invalid", "email:this @ is invalid"},
},
},
// #78: an invalid DNS SAN will be detected if any name constraint checking
// is triggered.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"uri:"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:this is invalid"},
},
expectedError: "cannot parse dnsName",
},
// #79: an invalid email SAN will be detected if any name constraint
// checking is triggered.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
bad: []string{"uri:"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"email:this @ is invalid"},
},
expectedError: "cannot parse rfc822Name",
},
// #80: if several EKUs are requested, satisfying any of them is sufficient.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
ekus: []string{"email"},
},
requestedEKUs: []ExtKeyUsage{ExtKeyUsageClientAuth, ExtKeyUsageEmailProtection},
},
// #81: EKUs that are not asserted in VerifyOpts are not required to be
// nested.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{
ekus: []string{"serverAuth"},
},
},
},
leaf: leafSpec{
sans: []string{"dns:example.com"},
// There's no email EKU in the intermediate. This would be rejected if
// full nesting was required.
ekus: []string{"email", "serverAuth"},
},
},
// #82: a certificate without SANs and CN is accepted in a constrained chain.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:foo.com", "dns:.foo.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{},
},
},
// #83: a certificate without SANs and with a CN that does not parse as a
// hostname is accepted in a constrained chain.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:foo.com", "dns:.foo.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{},
cn: "foo,bar",
},
},
// #84: a certificate with SANs and CN is accepted in a constrained chain.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:foo.com", "dns:.foo.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{"dns:foo.com"},
cn: "foo.bar",
},
},
// #85: without SANs, a certificate with a valid CN is accepted in a
// constrained chain if x509ignoreCN is set.
nameConstraintsTest{
roots: []constraintsSpec{
constraintsSpec{
ok: []string{"dns:foo.com", "dns:.foo.com"},
},
},
intermediates: [][]constraintsSpec{
[]constraintsSpec{
constraintsSpec{},
},
},
leaf: leafSpec{
sans: []string{},
cn: "foo.com",
},
ignoreCN: true,
},
}
func makeConstraintsCACert(constraints constraintsSpec, name string, key *ecdsa.PrivateKey, parent *Certificate, parentKey *ecdsa.PrivateKey) (*Certificate, error) {
var serialBytes [16]byte
rand.Read(serialBytes[:])
template := &Certificate{
SerialNumber: new(big.Int).SetBytes(serialBytes[:]),
Subject: pkix.Name{
CommonName: name,
},
NotBefore: time.Unix(1000, 0),
NotAfter: time.Unix(2000, 0),
KeyUsage: KeyUsageCertSign,
BasicConstraintsValid: true,
IsCA: true,
}
if err := addConstraintsToTemplate(constraints, template); err != nil {
return nil, err
}
if parent == nil {
parent = template
}
derBytes, err := CreateCertificate(rand.Reader, template, parent, &key.PublicKey, parentKey)
if err != nil {
return nil, err
}
caCert, err := ParseCertificate(derBytes)
if err != nil {
return nil, err
}
return caCert, nil
}
func makeConstraintsLeafCert(leaf leafSpec, key *ecdsa.PrivateKey, parent *Certificate, parentKey *ecdsa.PrivateKey) (*Certificate, error) {
var serialBytes [16]byte
rand.Read(serialBytes[:])
template := &Certificate{
SerialNumber: new(big.Int).SetBytes(serialBytes[:]),
Subject: pkix.Name{
OrganizationalUnit: []string{"Leaf"},
CommonName: leaf.cn,
},
NotBefore: time.Unix(1000, 0),
NotAfter: time.Unix(2000, 0),
KeyUsage: KeyUsageDigitalSignature,
BasicConstraintsValid: true,
IsCA: false,
}
for _, name := range leaf.sans {
switch {
case strings.HasPrefix(name, "dns:"):
template.DNSNames = append(template.DNSNames, name[4:])
case strings.HasPrefix(name, "ip:"):
ip := net.ParseIP(name[3:])
if ip == nil {
return nil, fmt.Errorf("cannot parse IP %q", name[3:])
}
template.IPAddresses = append(template.IPAddresses, ip)
case strings.HasPrefix(name, "invalidip:"):
ipBytes, err := hex.DecodeString(name[10:])
if err != nil {
return nil, fmt.Errorf("cannot parse invalid IP: %s", err)
}
template.IPAddresses = append(template.IPAddresses, net.IP(ipBytes))
case strings.HasPrefix(name, "email:"):
template.EmailAddresses = append(template.EmailAddresses, name[6:])
case strings.HasPrefix(name, "uri:"):
uri, err := url.Parse(name[4:])
if err != nil {
return nil, fmt.Errorf("cannot parse URI %q: %s", name[4:], err)
}
template.URIs = append(template.URIs, uri)
case strings.HasPrefix(name, "unknown:"):
// This is a special case for testing unknown
// name types. A custom SAN extension is
// injected into the certificate.
if len(leaf.sans) != 1 {
panic("when using unknown name types, it must be the sole name")
}
template.ExtraExtensions = append(template.ExtraExtensions, pkix.Extension{
Id: []int{2, 5, 29, 17},
Value: []byte{
0x30, // SEQUENCE
3, // three bytes
9, // undefined GeneralName type 9
1,
1,
},
})
default:
return nil, fmt.Errorf("unknown name type %q", name)
}
}
var err error
if template.ExtKeyUsage, template.UnknownExtKeyUsage, err = parseEKUs(leaf.ekus); err != nil {
return nil, err
}
if parent == nil {
parent = template
}
derBytes, err := CreateCertificate(rand.Reader, template, parent, &key.PublicKey, parentKey)
if err != nil {
return nil, err
}
return ParseCertificate(derBytes)
}
func customConstraintsExtension(typeNum int, constraint []byte, isExcluded bool) pkix.Extension {
appendConstraint := func(contents []byte, tag uint8) []byte {
contents = append(contents, tag|32 /* constructed */ |0x80 /* context-specific */)
contents = append(contents, byte(4+len(constraint)) /* length */)
contents = append(contents, 0x30 /* SEQUENCE */)
contents = append(contents, byte(2+len(constraint)) /* length */)
contents = append(contents, byte(typeNum) /* GeneralName type */)
contents = append(contents, byte(len(constraint)))
return append(contents, constraint...)
}
var contents []byte
if !isExcluded {
contents = appendConstraint(contents, 0 /* tag 0 for permitted */)
} else {
contents = appendConstraint(contents, 1 /* tag 1 for excluded */)
}
var value []byte
value = append(value, 0x30 /* SEQUENCE */)
value = append(value, byte(len(contents)))
value = append(value, contents...)
return pkix.Extension{
Id: []int{2, 5, 29, 30},
Value: value,
}
}
func addConstraintsToTemplate(constraints constraintsSpec, template *Certificate) error {
parse := func(constraints []string) (dnsNames []string, ips []*net.IPNet, emailAddrs []string, uriDomains []string, err error) {
for _, constraint := range constraints {
switch {
case strings.HasPrefix(constraint, "dns:"):
dnsNames = append(dnsNames, constraint[4:])
case strings.HasPrefix(constraint, "ip:"):
_, ipNet, err := net.ParseCIDR(constraint[3:])
if err != nil {
return nil, nil, nil, nil, err
}
ips = append(ips, ipNet)
case strings.HasPrefix(constraint, "email:"):
emailAddrs = append(emailAddrs, constraint[6:])
case strings.HasPrefix(constraint, "uri:"):
uriDomains = append(uriDomains, constraint[4:])
default:
return nil, nil, nil, nil, fmt.Errorf("unknown constraint %q", constraint)
}
}
return dnsNames, ips, emailAddrs, uriDomains, err
}
handleSpecialConstraint := func(constraint string, isExcluded bool) bool {
switch {
case constraint == "unknown:":
template.ExtraExtensions = append(template.ExtraExtensions, customConstraintsExtension(9 /* undefined GeneralName type */, []byte{1}, isExcluded))
default:
return false
}
return true
}
if len(constraints.ok) == 1 && len(constraints.bad) == 0 {
if handleSpecialConstraint(constraints.ok[0], false) {
return nil
}
}
if len(constraints.bad) == 1 && len(constraints.ok) == 0 {
if handleSpecialConstraint(constraints.bad[0], true) {
return nil
}
}
var err error
template.PermittedDNSDomains, template.PermittedIPRanges, template.PermittedEmailAddresses, template.PermittedURIDomains, err = parse(constraints.ok)
if err != nil {
return err
}
template.ExcludedDNSDomains, template.ExcludedIPRanges, template.ExcludedEmailAddresses, template.ExcludedURIDomains, err = parse(constraints.bad)
if err != nil {
return err
}
if template.ExtKeyUsage, template.UnknownExtKeyUsage, err = parseEKUs(constraints.ekus); err != nil {
return err
}
return nil
}
func parseEKUs(ekuStrs []string) (ekus []ExtKeyUsage, unknowns []asn1.ObjectIdentifier, err error) {
for _, s := range ekuStrs {
switch s {
case "serverAuth":
ekus = append(ekus, ExtKeyUsageServerAuth)
case "clientAuth":
ekus = append(ekus, ExtKeyUsageClientAuth)
case "email":
ekus = append(ekus, ExtKeyUsageEmailProtection)
case "netscapeSGC":
ekus = append(ekus, ExtKeyUsageNetscapeServerGatedCrypto)
case "msSGC":
ekus = append(ekus, ExtKeyUsageMicrosoftServerGatedCrypto)
case "any":
ekus = append(ekus, ExtKeyUsageAny)
case "other":
unknowns = append(unknowns, asn1.ObjectIdentifier{2, 4, 1, 2, 3})
default:
return nil, nil, fmt.Errorf("unknown EKU %q", s)
}
}
return
}
func TestConstraintCases(t *testing.T) {
defer func(savedIgnoreCN bool) {
ignoreCN = savedIgnoreCN
}(ignoreCN)
privateKeys := sync.Pool{
New: func() interface{} {
priv, err := ecdsa.GenerateKey(elliptic.P256(), rand.Reader)
if err != nil {
panic(err)
}
return priv
},
}
for i, test := range nameConstraintsTests {
rootPool := NewCertPool()
rootKey := privateKeys.Get().(*ecdsa.PrivateKey)
rootName := "Root " + strconv.Itoa(i)
// keys keeps track of all the private keys used in a given
// test and puts them back in the privateKeys pool at the end.
keys := []*ecdsa.PrivateKey{rootKey}
// At each level (root, intermediate(s), leaf), parent points to
// an example parent certificate and parentKey the key for the
// parent level. Since all certificates at a given level have
// the same name and public key, any parent certificate is
// sufficient to get the correct issuer name and authority
// key ID.
var parent *Certificate
parentKey := rootKey
for _, root := range test.roots {
rootCert, err := makeConstraintsCACert(root, rootName, rootKey, nil, rootKey)
if err != nil {
t.Fatalf("#%d: failed to create root: %s", i, err)
}
parent = rootCert
rootPool.AddCert(rootCert)
}
intermediatePool := NewCertPool()
for level, intermediates := range test.intermediates {
levelKey := privateKeys.Get().(*ecdsa.PrivateKey)
keys = append(keys, levelKey)
levelName := "Intermediate level " + strconv.Itoa(level)
var last *Certificate
for _, intermediate := range intermediates {
caCert, err := makeConstraintsCACert(intermediate, levelName, levelKey, parent, parentKey)
if err != nil {
t.Fatalf("#%d: failed to create %q: %s", i, levelName, err)
}
last = caCert
intermediatePool.AddCert(caCert)
}
parent = last
parentKey = levelKey
}
leafKey := privateKeys.Get().(*ecdsa.PrivateKey)
keys = append(keys, leafKey)
leafCert, err := makeConstraintsLeafCert(test.leaf, leafKey, parent, parentKey)
if err != nil {
t.Fatalf("#%d: cannot create leaf: %s", i, err)
}
// Skip tests with CommonName set because OpenSSL will try to match it
// against name constraints, while we ignore it when it's not hostname-looking.
if !test.noOpenSSL && testNameConstraintsAgainstOpenSSL && test.leaf.cn == "" {
output, err := testChainAgainstOpenSSL(leafCert, intermediatePool, rootPool)
if err == nil && len(test.expectedError) > 0 {
t.Errorf("#%d: unexpectedly succeeded against OpenSSL", i)
if debugOpenSSLFailure {
return
}
}
if err != nil {
if _, ok := err.(*exec.ExitError); !ok {
t.Errorf("#%d: OpenSSL failed to run: %s", i, err)
} else if len(test.expectedError) == 0 {
t.Errorf("#%d: OpenSSL unexpectedly failed: %v", i, output)
if debugOpenSSLFailure {
return
}
}
}
}
ignoreCN = test.ignoreCN
verifyOpts := VerifyOptions{
Roots: rootPool,
Intermediates: intermediatePool,
CurrentTime: time.Unix(1500, 0),
KeyUsages: test.requestedEKUs,
}
_, err = leafCert.Verify(verifyOpts)
logInfo := true
if len(test.expectedError) == 0 {
if err != nil {
t.Errorf("#%d: unexpected failure: %s", i, err)
} else {
logInfo = false
}
} else {
if err == nil {
t.Errorf("#%d: unexpected success", i)
} else if !strings.Contains(err.Error(), test.expectedError) {
t.Errorf("#%d: expected error containing %q, but got: %s", i, test.expectedError, err)
} else {
logInfo = false
}
}
if logInfo {
certAsPEM := func(cert *Certificate) string {
var buf bytes.Buffer
pem.Encode(&buf, &pem.Block{Type: "CERTIFICATE", Bytes: cert.Raw})
return buf.String()
}
t.Errorf("#%d: root:\n%s", i, certAsPEM(rootPool.certs[0]))
t.Errorf("#%d: leaf:\n%s", i, certAsPEM(leafCert))
}
for _, key := range keys {
privateKeys.Put(key)
}
keys = keys[:0]
}
}
func writePEMsToTempFile(certs []*Certificate) *os.File {
file, err := ioutil.TempFile("", "name_constraints_test")
if err != nil {
panic("cannot create tempfile")
}
pemBlock := &pem.Block{Type: "CERTIFICATE"}
for _, cert := range certs {
pemBlock.Bytes = cert.Raw
pem.Encode(file, pemBlock)
}
return file
}
func testChainAgainstOpenSSL(leaf *Certificate, intermediates, roots *CertPool) (string, error) {
args := []string{"verify", "-no_check_time"}
rootsFile := writePEMsToTempFile(roots.certs)
if debugOpenSSLFailure {
println("roots file:", rootsFile.Name())
} else {
defer os.Remove(rootsFile.Name())
}
args = append(args, "-CAfile", rootsFile.Name())
if len(intermediates.certs) > 0 {
intermediatesFile := writePEMsToTempFile(intermediates.certs)
if debugOpenSSLFailure {
println("intermediates file:", intermediatesFile.Name())
} else {
defer os.Remove(intermediatesFile.Name())
}
args = append(args, "-untrusted", intermediatesFile.Name())
}
leafFile := writePEMsToTempFile([]*Certificate{leaf})
if debugOpenSSLFailure {
println("leaf file:", leafFile.Name())
} else {
defer os.Remove(leafFile.Name())
}
args = append(args, leafFile.Name())
var output bytes.Buffer
cmd := exec.Command("openssl", args...)
cmd.Stdout = &output
cmd.Stderr = &output
err := cmd.Run()
return output.String(), err
}
var rfc2821Tests = []struct {
in string
localPart, domain string
}{
{"foo@example.com", "foo", "example.com"},
{"@example.com", "", ""},
{"\"@example.com", "", ""},
{"\"\"@example.com", "", "example.com"},
{"\"a\"@example.com", "a", "example.com"},
{"\"\\a\"@example.com", "a", "example.com"},
{"a\"@example.com", "", ""},
{"foo..bar@example.com", "", ""},
{".foo.bar@example.com", "", ""},
{"foo.bar.@example.com", "", ""},
{"|{}?'@example.com", "|{}?'", "example.com"},
// Examples from RFC 3696
{"Abc\\@def@example.com", "Abc@def", "example.com"},
{"Fred\\ Bloggs@example.com", "Fred Bloggs", "example.com"},
{"Joe.\\\\Blow@example.com", "Joe.\\Blow", "example.com"},
{"\"Abc@def\"@example.com", "Abc@def", "example.com"},
{"\"Fred Bloggs\"@example.com", "Fred Bloggs", "example.com"},
{"customer/department=shipping@example.com", "customer/department=shipping", "example.com"},
{"$A12345@example.com", "$A12345", "example.com"},
{"!def!xyz%abc@example.com", "!def!xyz%abc", "example.com"},
{"_somename@example.com", "_somename", "example.com"},
}
func TestRFC2821Parsing(t *testing.T) {
for i, test := range rfc2821Tests {
mailbox, ok := parseRFC2821Mailbox(test.in)
expectedFailure := len(test.localPart) == 0 && len(test.domain) == 0
if ok && expectedFailure {
t.Errorf("#%d: %q unexpectedly parsed as (%q, %q)", i, test.in, mailbox.local, mailbox.domain)
continue
}
if !ok && !expectedFailure {
t.Errorf("#%d: unexpected failure for %q", i, test.in)
continue
}
if !ok {
continue
}
if mailbox.local != test.localPart || mailbox.domain != test.domain {
t.Errorf("#%d: %q parsed as (%q, %q), but wanted (%q, %q)", i, test.in, mailbox.local, mailbox.domain, test.localPart, test.domain)
}
}
}
func TestBadNamesInConstraints(t *testing.T) {
constraintParseError := func(err error) bool {
str := err.Error()
return strings.Contains(str, "failed to parse ") && strings.Contains(str, "constraint")
}
encodingError := func(err error) bool {
return strings.Contains(err.Error(), "cannot be encoded as an IA5String")
}
// Bad names in constraints should not parse.
badNames := []struct {
name string
matcher func(error) bool
}{
{"dns:foo.com.", constraintParseError},
{"email:abc@foo.com.", constraintParseError},
{"email:foo.com.", constraintParseError},
{"uri:example.com.", constraintParseError},
{"uri:1.2.3.4", constraintParseError},
{"uri:ffff::1", constraintParseError},
{"dns:not–hyphen.com", encodingError},
{"email:foo@not–hyphen.com", encodingError},
{"uri:not–hyphen.com", encodingError},
}
priv, err := ecdsa.GenerateKey(elliptic.P256(), rand.Reader)
if err != nil {
panic(err)
}
for _, test := range badNames {
_, err := makeConstraintsCACert(constraintsSpec{
ok: []string{test.name},
}, "TestAbsoluteNamesInConstraints", priv, nil, priv)
if err == nil {
t.Errorf("bad name %q unexpectedly accepted in name constraint", test.name)
continue
} else {
if !test.matcher(err) {
t.Errorf("bad name %q triggered unrecognised error: %s", test.name, err)
}
}
}
}
func TestBadNamesInSANs(t *testing.T) {
// Bad names in URI and IP SANs should not parse. Bad DNS and email SANs
// will parse and are tested in name constraint tests at the top of this
// file.
badNames := []string{
"uri:https://example.com./dsf",
"invalidip:0102",
"invalidip:0102030405",
}
priv, err := ecdsa.GenerateKey(elliptic.P256(), rand.Reader)
if err != nil {
panic(err)
}
for _, badName := range badNames {
_, err := makeConstraintsLeafCert(leafSpec{sans: []string{badName}}, priv, nil, priv)
if err == nil {
t.Errorf("bad name %q unexpectedly accepted in SAN", badName)
continue
}
if err != nil {
if str := err.Error(); !strings.Contains(str, "cannot parse ") {
t.Errorf("bad name %q triggered unrecognised error: %s", badName, str)
}
}
}
}