// +build !windows package main import ( "bytes" "crypto/rand" "io/ioutil" "os" "testing" "time" "github.com/slackhq/nebula/cert" "github.com/stretchr/testify/assert" "golang.org/x/crypto/ed25519" ) //TODO: test file permissions func Test_signSummary(t *testing.T) { assert.Equal(t, "sign : create and sign a certificate", signSummary()) } func Test_signHelp(t *testing.T) { ob := &bytes.Buffer{} signHelp(ob) assert.Equal( t, "Usage of "+os.Args[0]+" sign : create and sign a certificate\n"+ " -ca-crt string\n"+ " \tOptional: path to the signing CA cert (default \"ca.crt\")\n"+ " -ca-key string\n"+ " \tOptional: path to the signing CA key (default \"ca.key\")\n"+ " -duration duration\n"+ " \tOptional: how long the cert should be valid for. The default is 1 second before the signing cert expires. Valid time units are seconds: \"s\", minutes: \"m\", hours: \"h\"\n"+ " -groups string\n"+ " \tOptional: comma separated list of groups\n"+ " -in-pub string\n"+ " \tOptional (if out-key not set): path to read a previously generated public key\n"+ " -ip string\n"+ " \tRequired: ip and network in CIDR notation to assign the cert\n"+ " -name string\n"+ " \tRequired: name of the cert, usually a hostname\n"+ " -out-crt string\n"+ " \tOptional: path to write the certificate to\n"+ " -out-key string\n"+ " \tOptional (if in-pub not set): path to write the private key to\n"+ " -out-qr string\n"+ " \tOptional: output a qr code image (png) of the certificate\n"+ " -subnets string\n"+ " \tOptional: comma separated list of subnet this cert can serve for\n", ob.String(), ) } func Test_signCert(t *testing.T) { ob := &bytes.Buffer{} eb := &bytes.Buffer{} // required args assertHelpError(t, signCert([]string{"-ca-crt", "./nope", "-ca-key", "./nope", "-ip", "1.1.1.1/24", "-out-key", "nope", "-out-crt", "nope"}, ob, eb), "-name is required") assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) assertHelpError(t, signCert([]string{"-ca-crt", "./nope", "-ca-key", "./nope", "-name", "test", "-out-key", "nope", "-out-crt", "nope"}, ob, eb), "-ip is required") assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // cannot set -in-pub and -out-key assertHelpError(t, signCert([]string{"-ca-crt", "./nope", "-ca-key", "./nope", "-name", "test", "-in-pub", "nope", "-ip", "1.1.1.1/24", "-out-crt", "nope", "-out-key", "nope"}, ob, eb), "cannot set both -in-pub and -out-key") assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // failed to read key ob.Reset() eb.Reset() args := []string{"-ca-crt", "./nope", "-ca-key", "./nope", "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", "nope", "-out-key", "nope", "-duration", "100m"} assert.EqualError(t, signCert(args, ob, eb), "error while reading ca-key: open ./nope: "+NoSuchFileError) // failed to unmarshal key ob.Reset() eb.Reset() caKeyF, err := ioutil.TempFile("", "sign-cert.key") assert.Nil(t, err) defer os.Remove(caKeyF.Name()) args = []string{"-ca-crt", "./nope", "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", "nope", "-out-key", "nope", "-duration", "100m"} assert.EqualError(t, signCert(args, ob, eb), "error while parsing ca-key: input did not contain a valid PEM encoded block") assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // Write a proper ca key for later ob.Reset() eb.Reset() caPub, caPriv, _ := ed25519.GenerateKey(rand.Reader) caKeyF.Write(cert.MarshalEd25519PrivateKey(caPriv)) // failed to read cert args = []string{"-ca-crt", "./nope", "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", "nope", "-out-key", "nope", "-duration", "100m"} assert.EqualError(t, signCert(args, ob, eb), "error while reading ca-crt: open ./nope: "+NoSuchFileError) assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // failed to unmarshal cert ob.Reset() eb.Reset() caCrtF, err := ioutil.TempFile("", "sign-cert.crt") assert.Nil(t, err) defer os.Remove(caCrtF.Name()) args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", "nope", "-out-key", "nope", "-duration", "100m"} assert.EqualError(t, signCert(args, ob, eb), "error while parsing ca-crt: input did not contain a valid PEM encoded block") assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // write a proper ca cert for later ca := cert.NebulaCertificate{ Details: cert.NebulaCertificateDetails{ Name: "ca", NotBefore: time.Now(), NotAfter: time.Now().Add(time.Minute * 200), PublicKey: caPub, IsCA: true, }, } b, _ := ca.MarshalToPEM() caCrtF.Write(b) // failed to read pub args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", "nope", "-in-pub", "./nope", "-duration", "100m"} assert.EqualError(t, signCert(args, ob, eb), "error while reading in-pub: open ./nope: "+NoSuchFileError) assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // failed to unmarshal pub ob.Reset() eb.Reset() inPubF, err := ioutil.TempFile("", "in.pub") assert.Nil(t, err) defer os.Remove(inPubF.Name()) args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", "nope", "-in-pub", inPubF.Name(), "-duration", "100m"} assert.EqualError(t, signCert(args, ob, eb), "error while parsing in-pub: input did not contain a valid PEM encoded block") assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // write a proper pub for later ob.Reset() eb.Reset() inPub, _ := x25519Keypair() inPubF.Write(cert.MarshalX25519PublicKey(inPub)) // bad ip cidr ob.Reset() eb.Reset() args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "a1.1.1.1/24", "-out-crt", "nope", "-out-key", "nope", "-duration", "100m"} assertHelpError(t, signCert(args, ob, eb), "invalid ip definition: invalid CIDR address: a1.1.1.1/24") assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // bad subnet cidr ob.Reset() eb.Reset() args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", "nope", "-out-key", "nope", "-duration", "100m", "-subnets", "a"} assertHelpError(t, signCert(args, ob, eb), "invalid subnet definition: invalid CIDR address: a") assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // failed key write ob.Reset() eb.Reset() args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", "/do/not/write/pleasecrt", "-out-key", "/do/not/write/pleasekey", "-duration", "100m", "-subnets", "10.1.1.1/32"} assert.EqualError(t, signCert(args, ob, eb), "error while writing out-key: open /do/not/write/pleasekey: "+NoSuchDirError) assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // create temp key file keyF, err := ioutil.TempFile("", "test.key") assert.Nil(t, err) os.Remove(keyF.Name()) // failed cert write ob.Reset() eb.Reset() args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", "/do/not/write/pleasecrt", "-out-key", keyF.Name(), "-duration", "100m", "-subnets", "10.1.1.1/32"} assert.EqualError(t, signCert(args, ob, eb), "error while writing out-crt: open /do/not/write/pleasecrt: "+NoSuchDirError) assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) os.Remove(keyF.Name()) // create temp cert file crtF, err := ioutil.TempFile("", "test.crt") assert.Nil(t, err) os.Remove(crtF.Name()) // test proper cert with removed empty groups and subnets ob.Reset() eb.Reset() args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", crtF.Name(), "-out-key", keyF.Name(), "-duration", "100m", "-subnets", "10.1.1.1/32, , 10.2.2.2/32 , , ,, 10.5.5.5/32", "-groups", "1,, 2 , ,,,3,4,5"} assert.Nil(t, signCert(args, ob, eb)) assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // read cert and key files rb, _ := ioutil.ReadFile(keyF.Name()) lKey, b, err := cert.UnmarshalX25519PrivateKey(rb) assert.Len(t, b, 0) assert.Nil(t, err) assert.Len(t, lKey, 32) rb, _ = ioutil.ReadFile(crtF.Name()) lCrt, b, err := cert.UnmarshalNebulaCertificateFromPEM(rb) assert.Len(t, b, 0) assert.Nil(t, err) assert.Equal(t, "test", lCrt.Details.Name) assert.Equal(t, "1.1.1.1/24", lCrt.Details.Ips[0].String()) assert.Len(t, lCrt.Details.Ips, 1) assert.False(t, lCrt.Details.IsCA) assert.Equal(t, []string{"1", "2", "3", "4", "5"}, lCrt.Details.Groups) assert.Len(t, lCrt.Details.Subnets, 3) assert.Len(t, lCrt.Details.PublicKey, 32) assert.Equal(t, time.Duration(time.Minute*100), lCrt.Details.NotAfter.Sub(lCrt.Details.NotBefore)) sns := []string{} for _, sn := range lCrt.Details.Subnets { sns = append(sns, sn.String()) } assert.Equal(t, []string{"10.1.1.1/32", "10.2.2.2/32", "10.5.5.5/32"}, sns) issuer, _ := ca.Sha256Sum() assert.Equal(t, issuer, lCrt.Details.Issuer) assert.True(t, lCrt.CheckSignature(caPub)) // test proper cert with in-pub os.Remove(keyF.Name()) os.Remove(crtF.Name()) ob.Reset() eb.Reset() args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", crtF.Name(), "-in-pub", inPubF.Name(), "-duration", "100m", "-groups", "1"} assert.Nil(t, signCert(args, ob, eb)) assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // read cert file and check pub key matches in-pub rb, _ = ioutil.ReadFile(crtF.Name()) lCrt, b, err = cert.UnmarshalNebulaCertificateFromPEM(rb) assert.Len(t, b, 0) assert.Nil(t, err) assert.Equal(t, lCrt.Details.PublicKey, inPub) // test refuse to sign cert with duration beyond root ob.Reset() eb.Reset() args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", crtF.Name(), "-out-key", keyF.Name(), "-duration", "1000m", "-subnets", "10.1.1.1/32, , 10.2.2.2/32 , , ,, 10.5.5.5/32", "-groups", "1,, 2 , ,,,3,4,5"} assert.EqualError(t, signCert(args, ob, eb), "refusing to sign, root certificate constraints violated: certificate expires after signing certificate") assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // create valid cert/key for overwrite tests os.Remove(keyF.Name()) os.Remove(crtF.Name()) args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", crtF.Name(), "-out-key", keyF.Name(), "-duration", "100m", "-subnets", "10.1.1.1/32, , 10.2.2.2/32 , , ,, 10.5.5.5/32", "-groups", "1,, 2 , ,,,3,4,5"} assert.Nil(t, signCert(args, ob, eb)) // test that we won't overwrite existing key file os.Remove(crtF.Name()) ob.Reset() eb.Reset() args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", crtF.Name(), "-out-key", keyF.Name(), "-duration", "100m", "-subnets", "10.1.1.1/32, , 10.2.2.2/32 , , ,, 10.5.5.5/32", "-groups", "1,, 2 , ,,,3,4,5"} assert.EqualError(t, signCert(args, ob, eb), "refusing to overwrite existing key: "+keyF.Name()) assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) // create valid cert/key for overwrite tests os.Remove(keyF.Name()) os.Remove(crtF.Name()) args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", crtF.Name(), "-out-key", keyF.Name(), "-duration", "100m", "-subnets", "10.1.1.1/32, , 10.2.2.2/32 , , ,, 10.5.5.5/32", "-groups", "1,, 2 , ,,,3,4,5"} assert.Nil(t, signCert(args, ob, eb)) // test that we won't overwrite existing certificate file os.Remove(keyF.Name()) ob.Reset() eb.Reset() args = []string{"-ca-crt", caCrtF.Name(), "-ca-key", caKeyF.Name(), "-name", "test", "-ip", "1.1.1.1/24", "-out-crt", crtF.Name(), "-out-key", keyF.Name(), "-duration", "100m", "-subnets", "10.1.1.1/32, , 10.2.2.2/32 , , ,, 10.5.5.5/32", "-groups", "1,, 2 , ,,,3,4,5"} assert.EqualError(t, signCert(args, ob, eb), "refusing to overwrite existing cert: "+crtF.Name()) assert.Empty(t, ob.String()) assert.Empty(t, eb.String()) }