authelia/internal/suites/suite_cli_test.go

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package suites
import (
"bytes"
"context"
"fmt"
"os"
"regexp"
"strconv"
"testing"
"github.com/stretchr/testify/suite"
"gopkg.in/yaml.v3"
"github.com/authelia/authelia/v4/internal/model"
"github.com/authelia/authelia/v4/internal/storage"
"github.com/authelia/authelia/v4/internal/utils"
)
type CLISuite struct {
*CommandSuite
}
func NewCLISuite() *CLISuite {
return &CLISuite{CommandSuite: new(CommandSuite)}
}
func (s *CLISuite) SetupSuite() {
dockerEnvironment := NewDockerEnvironment([]string{
"internal/suites/docker-compose.yml",
"internal/suites/CLI/docker-compose.yml",
"internal/suites/example/compose/authelia/docker-compose.backend.{}.yml",
})
s.DockerEnvironment = dockerEnvironment
}
func (s *CLISuite) SetupTest() {
testArg := ""
coverageArg := ""
if os.Getenv("CI") == t {
testArg = "-test.coverprofile=/authelia/coverage-$(cat /proc/sys/kernel/random/uuid).txt"
coverageArg = "COVERAGE"
}
s.testArg = testArg
s.coverageArg = coverageArg
}
func (s *CLISuite) TestShouldPrintBuildInformation() {
if os.Getenv("CI") == "false" {
s.T().Skip("Skipping testing in dev environment")
}
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "build-info"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Last Tag: ")
s.Assert().Contains(output, "State: ")
s.Assert().Contains(output, "Branch: ")
s.Assert().Contains(output, "Build Number: ")
s.Assert().Contains(output, "Build OS: ")
s.Assert().Contains(output, "Build Arch: ")
s.Assert().Contains(output, "Build Date: ")
r := regexp.MustCompile(`^Last Tag: v\d+\.\d+\.\d+\nState: (tagged|untagged) (clean|dirty)\nBranch: [^\s\n]+\nCommit: [0-9a-f]{40}\nBuild Number: \d+\nBuild OS: (linux|darwin|windows|freebsd)\nBuild Arch: (amd64|arm|arm64)\nBuild Date: (Sun|Mon|Tue|Wed|Thu|Fri|Sat), \d{2} (Jan|Feb|Mar|Apr|May|Jun|Jul|Aug|Sep|Oct|Nov|Dec) \d{4} \d{2}:\d{2}:\d{2} [+-]\d{4}\nExtra: \n`)
s.Assert().Regexp(r, output)
}
func (s *CLISuite) TestShouldPrintVersion() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "--version"})
s.Assert().NoError(err)
s.Assert().Contains(output, "authelia version")
}
func (s *CLISuite) TestShouldValidateConfig() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "validate-config", "--config=/config/configuration.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Configuration parsed and loaded successfully without errors.")
}
func (s *CLISuite) TestShouldFailValidateConfig() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "validate-config", "--config=/config/invalid.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "failed to load configuration from yaml file(/config/invalid.yml) source: open /config/invalid.yml: no such file or directory")
}
func (s *CLISuite) TestShouldHashPasswordArgon2id() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "hash-password", "test", "-m", "32", "-s", "test1234"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Password hash: $argon2id$v=19$m=32768,t=3,p=4$")
}
func (s *CLISuite) TestShouldHashPasswordSHA512() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "hash-password", "test", "-z"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Password hash: $6$rounds=50000")
}
func (s *CLISuite) TestShouldGenerateRSACertificateRequest() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "request", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate Request")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tSignature Algorithm: SHA256-RSA, Public Key Algorithm: RSA, Bits: 2048")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate Request: /tmp/request.csr")
}
func (s *CLISuite) TestShouldGenerateECDSACurveP224CertificateRequest() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "ecdsa", "request", "--curve=P224", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate Request")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tSignature Algorithm: ECDSA-SHA256, Public Key Algorithm: ECDSA, Elliptic Curve: P-224")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate Request: /tmp/request.csr")
}
func (s *CLISuite) TestShouldGenerateECDSACurveP256CertificateRequest() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "ecdsa", "request", "--curve=P256", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate Request")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tSignature Algorithm: ECDSA-SHA256, Public Key Algorithm: ECDSA, Elliptic Curve: P-256")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate Request: /tmp/request.csr")
}
func (s *CLISuite) TestShouldGenerateECDSACurveP384CertificateRequest() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "ecdsa", "request", "--curve=P384", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate Request")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tSignature Algorithm: ECDSA-SHA256, Public Key Algorithm: ECDSA, Elliptic Curve: P-384")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate Request: /tmp/request.csr")
}
func (s *CLISuite) TestShouldGenerateECDSACurveP521CertificateRequest() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "ecdsa", "request", "--curve=P521", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate Request")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tSignature Algorithm: ECDSA-SHA256, Public Key Algorithm: ECDSA, Elliptic Curve: P-521")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate Request: /tmp/request.csr")
}
func (s *CLISuite) TestShouldGenerateEd25519CertificateRequest() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "ed25519", "request", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate Request")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tSignature Algorithm: Ed25519, Public Key Algorithm: Ed25519")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate Request: /tmp/request.csr")
}
func (s *CLISuite) TestShouldGenerateCertificateRSA() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, "Signed By:\n\tSelf-Signed")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tCA: false, CSR: false, Signature Algorithm: SHA256-RSA, Public Key Algorithm: RSA, Bits: 2048")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate: /tmp/public.crt")
}
func (s *CLISuite) TestShouldGenerateCertificateRSAWithIPAddress() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--common-name=example.com", "--sans", "*.example.com,127.0.0.1", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, "Signed By:\n\tSelf-Signed")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tCA: false, CSR: false, Signature Algorithm: SHA256-RSA, Public Key Algorithm: RSA, Bits: 2048")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com, IP.1:127.0.0.1")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate: /tmp/public.crt")
}
func (s *CLISuite) TestShouldGenerateCertificateRSAWithNotBefore() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--common-name=example.com", "--sans='*.example.com'", "--not-before", "'Jan 1 15:04:05 2011'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, "Signed By:\n\tSelf-Signed")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tNot Before: 2011-01-01T15:04:05Z, Not After: 2012-01-01T15:04:05Z")
s.Assert().Contains(output, "\tCA: false, CSR: false, Signature Algorithm: SHA256-RSA, Public Key Algorithm: RSA, Bits: 2048")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate: /tmp/public.crt")
}
func (s *CLISuite) TestShouldFailGenerateCertificateRSAWithInvalidNotBefore() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--common-name=example.com", "--sans='*.example.com'", "--not-before", "Jan", "--directory=/tmp/"})
s.Assert().NotNil(err)
s.Assert().Contains(output, "Error: failed to parse not before: parsing time \"Jan\" as \"Jan 2 15:04:05 2006\": cannot parse \"\" as \"2\"")
}
func (s *CLISuite) TestShouldGenerateCertificateRSAWith4096Bits() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--bits=4096", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, "Signed By:\n\tSelf-Signed")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tCA: false, CSR: false, Signature Algorithm: SHA256-RSA, Public Key Algorithm: RSA, Bits: 4096")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate: /tmp/public.crt")
}
func (s *CLISuite) TestShouldGenerateCertificateWithCustomizedSubject() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--common-name=example.com", "--sans='*.example.com'", "--country=Australia", "--organization='Acme Co.'", "--organizational-unit=Tech", "--province=QLD", "--street-address='123 Smith St'", "--postcode=4000", "--locality=Internet", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, "Signed By:\n\tSelf-Signed")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Acme Co.], Organizational Unit: [Tech]")
s.Assert().Contains(output, "\tCountry: [Australia], Province: [QLD], Street Address: [123 Smith St], Postal Code: [4000], Locality: [Internet]")
s.Assert().Contains(output, "\tCA: false, CSR: false, Signature Algorithm: SHA256-RSA, Public Key Algorithm: RSA, Bits: 2048")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate: /tmp/public.crt")
}
func (s *CLISuite) TestShouldGenerateCertificateCA() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--common-name='Authelia Standalone Root Certificate Authority'", "--ca", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, "Signed By:\n\tSelf-Signed")
s.Assert().Contains(output, "\tCommon Name: Authelia Standalone Root Certificate Authority, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tCA: true, CSR: false, Signature Algorithm: SHA256-RSA, Public Key Algorithm: RSA, Bits: 2048")
s.Assert().Contains(output, "\tSubject Alternative Names: ")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/ca.private.pem")
s.Assert().Contains(output, "\tCertificate: /tmp/ca.public.crt")
}
func (s *CLISuite) TestShouldGenerateCertificateCAAndSignCertificate() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--common-name='Authelia Standalone Root Certificate Authority'", "--ca", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, "Signed By:\n\tSelf-Signed")
s.Assert().Contains(output, "\tCommon Name: Authelia Standalone Root Certificate Authority, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tCA: true, CSR: false, Signature Algorithm: SHA256-RSA, Public Key Algorithm: RSA, Bits: 2048")
s.Assert().Contains(output, "\tSubject Alternative Names: ")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/ca.private.pem")
s.Assert().Contains(output, "\tCertificate: /tmp/ca.public.crt")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--common-name=example.com", "--sans='*.example.com'", "--path.ca", "/tmp/", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, "Signed By:\n\tAuthelia Standalone Root Certificate Authority")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, ", Expires: ")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tCA: false, CSR: false, Signature Algorithm: SHA256-RSA, Public Key Algorithm: RSA, Bits: 2048")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate: /tmp/public.crt")
// Check the certificates look fine.
privateKeyData, err := os.ReadFile("/tmp/private.pem")
s.Assert().NoError(err)
certificateData, err := os.ReadFile("/tmp/public.crt")
s.Assert().NoError(err)
privateKeyCAData, err := os.ReadFile("/tmp/ca.private.pem")
s.Assert().NoError(err)
certificateCAData, err := os.ReadFile("/tmp/ca.public.crt")
s.Assert().NoError(err)
s.Assert().False(bytes.Equal(privateKeyData, privateKeyCAData))
s.Assert().False(bytes.Equal(certificateData, certificateCAData))
privateKey, err := utils.ParseX509FromPEM(privateKeyData)
s.Assert().NoError(err)
s.Assert().True(utils.IsX509PrivateKey(privateKey))
privateCAKey, err := utils.ParseX509FromPEM(privateKeyCAData)
s.Assert().NoError(err)
s.Assert().True(utils.IsX509PrivateKey(privateCAKey))
c, err := utils.ParseX509FromPEM(certificateData)
s.Assert().NoError(err)
s.Assert().False(utils.IsX509PrivateKey(c))
cCA, err := utils.ParseX509FromPEM(certificateCAData)
s.Assert().NoError(err)
s.Assert().False(utils.IsX509PrivateKey(cCA))
certificate, ok := utils.CastX509AsCertificate(c)
s.Assert().True(ok)
certificateCA, ok := utils.CastX509AsCertificate(cCA)
s.Assert().True(ok)
s.Require().NotNil(certificate)
s.Require().NotNil(certificateCA)
err = certificate.CheckSignatureFrom(certificateCA)
s.Assert().NoError(err)
}
func (s *CLISuite) TestShouldGenerateCertificateEd25519() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "ed25519", "generate", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, "Signed By:\n\tSelf-Signed")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tCA: false, CSR: false, Signature Algorithm: Ed25519, Public Key Algorithm: Ed25519")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate: /tmp/public.crt")
}
func (s *CLISuite) TestShouldFailGenerateCertificateParseNotBefore() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "ecdsa", "generate", "--not-before=invalid", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NotNil(err)
s.Assert().Contains(output, "Error: failed to parse not before: parsing time \"invalid\" as \"Jan 2 15:04:05 2006\": cannot parse \"invalid\" as \"Jan\"")
}
func (s *CLISuite) TestShouldFailGenerateCertificateECDSA() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "ecdsa", "generate", "--curve=invalid", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NotNil(err)
s.Assert().Contains(output, "Error: invalid curve 'invalid' was specified: curve must be P224, P256, P384, or P521")
}
func (s *CLISuite) TestShouldGenerateCertificateECDSACurveP224() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "ecdsa", "generate", "--curve=P224", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, "Signed By:\n\tSelf-Signed")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tCA: false, CSR: false, Signature Algorithm: ECDSA-SHA256, Public Key Algorithm: ECDSA, Elliptic Curve: P-224")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate: /tmp/public.crt")
}
func (s *CLISuite) TestShouldGenerateCertificateECDSACurveP256() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "ecdsa", "generate", "--curve=P256", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, "Signed By:\n\tSelf-Signed")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tCA: false, CSR: false, Signature Algorithm: ECDSA-SHA256, Public Key Algorithm: ECDSA, Elliptic Curve: P-256")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate: /tmp/public.crt")
}
func (s *CLISuite) TestShouldGenerateCertificateECDSACurveP384() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "ecdsa", "generate", "--curve=P384", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, "Signed By:\n\tSelf-Signed")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tCA: false, CSR: false, Signature Algorithm: ECDSA-SHA256, Public Key Algorithm: ECDSA, Elliptic Curve: P-384")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate: /tmp/public.crt")
}
func (s *CLISuite) TestShouldGenerateCertificateECDSACurveP521() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "ecdsa", "generate", "--curve=P521", "--common-name=example.com", "--sans='*.example.com'", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating Certificate")
s.Assert().Contains(output, "\tSerial: ")
s.Assert().Contains(output, "Signed By:\n\tSelf-Signed")
s.Assert().Contains(output, "\tCommon Name: example.com, Organization: [Authelia], Organizational Unit: []")
s.Assert().Contains(output, "\tCountry: [], Province: [], Street Address: [], Postal Code: [], Locality: []")
s.Assert().Contains(output, "\tCA: false, CSR: false, Signature Algorithm: ECDSA-SHA256, Public Key Algorithm: ECDSA, Elliptic Curve: P-521")
s.Assert().Contains(output, "\tSubject Alternative Names: DNS.1:*.example.com")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tCertificate: /tmp/public.crt")
}
func (s *CLISuite) TestShouldGenerateRSAKeyPair() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "pair", "rsa", "generate", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating key pair")
s.Assert().Contains(output, "Algorithm: RSA-256 2048 bits\n\n")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tPublic Key: /tmp/public.pem")
}
func (s *CLISuite) TestShouldGenerateRSAKeyPairWith4069Bits() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "pair", "rsa", "generate", "--bits=4096", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating key pair")
s.Assert().Contains(output, "Algorithm: RSA-512 4096 bits\n\n")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tPublic Key: /tmp/public.pem")
}
func (s *CLISuite) TestShouldGenerateECDSAKeyPair() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "pair", "ecdsa", "generate", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating key pair")
s.Assert().Contains(output, "Algorithm: ECDSA Curve P-256\n\n")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tPublic Key: /tmp/public.pem")
}
func (s *CLISuite) TestShouldGenerateECDSAKeyPairCurveP224() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "pair", "ecdsa", "generate", "--curve=P224", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating key pair")
s.Assert().Contains(output, "Algorithm: ECDSA Curve P-224\n\n")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tPublic Key: /tmp/public.pem")
}
func (s *CLISuite) TestShouldGenerateECDSAKeyPairCurveP256() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "pair", "ecdsa", "generate", "--curve=P256", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating key pair")
s.Assert().Contains(output, "Algorithm: ECDSA Curve P-256\n\n")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tPublic Key: /tmp/public.pem")
}
func (s *CLISuite) TestShouldGenerateECDSAKeyPairCurveP384() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "pair", "ecdsa", "generate", "--curve=P384", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating key pair")
s.Assert().Contains(output, "Algorithm: ECDSA Curve P-384\n\n")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tPublic Key: /tmp/public.pem")
}
func (s *CLISuite) TestShouldGenerateECDSAKeyPairCurveP521() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "pair", "ecdsa", "generate", "--curve=P521", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating key pair")
s.Assert().Contains(output, "Algorithm: ECDSA Curve P-521\n\n")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tPublic Key: /tmp/public.pem")
}
func (s *CLISuite) TestShouldGenerateEd25519KeyPair() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "pair", "ed25519", "generate", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Generating key pair")
s.Assert().Contains(output, "Algorithm: Ed25519\n\n")
s.Assert().Contains(output, "Output Paths:")
s.Assert().Contains(output, "\tPrivate Key: /tmp/private.pem")
s.Assert().Contains(output, "\tPublic Key: /tmp/public.pem")
}
func (s *CLISuite) TestShouldNotGenerateECDSAKeyPairCurveInvalid() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "pair", "ecdsa", "generate", "--curve=invalid", "--directory=/tmp/"})
s.Assert().NotNil(err)
s.Assert().Contains(output, "Error: invalid curve 'invalid' was specified: curve must be P224, P256, P384, or P521")
}
func (s *CLISuite) TestShouldNotGenerateRSAWithBadCAPath() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--path.ca=/tmp/invalid", "--directory=/tmp/"})
s.Assert().NotNil(err)
s.Assert().Contains(output, "Error: could not read private key file '/tmp/invalid/ca.private.pem': open /tmp/invalid/ca.private.pem: no such file or directory\n")
}
func (s *CLISuite) TestShouldNotGenerateRSAWithBadCAFileNames() {
var (
err error
output string
)
_, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--common-name='Authelia Standalone Root Certificate Authority'", "--ca", "--directory=/tmp/"})
s.Assert().NoError(err)
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--path.ca=/tmp/", "--file.ca-private-key=invalid.pem", "--directory=/tmp/"})
s.Assert().NotNil(err)
s.Assert().Contains(output, "Error: could not read private key file '/tmp/invalid.pem': open /tmp/invalid.pem: no such file or directory\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--path.ca=/tmp/", "--file.ca-certificate=invalid.crt", "--directory=/tmp/"})
s.Assert().NotNil(err)
s.Assert().Contains(output, "Error: could not read certificate file '/tmp/invalid.crt': open /tmp/invalid.crt: no such file or directory\n")
}
func (s *CLISuite) TestShouldNotGenerateRSAWithBadCAFileContent() {
var (
err error
output string
)
_, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--common-name='Authelia Standalone Root Certificate Authority'", "--ca", "--directory=/tmp/"})
s.Assert().NoError(err)
s.Require().NoError(os.WriteFile("/tmp/ca.private.bad.pem", []byte("INVALID"), 0600)) //nolint:gosec
s.Require().NoError(os.WriteFile("/tmp/ca.public.bad.crt", []byte("INVALID"), 0600)) //nolint:gosec
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--path.ca=/tmp/", "--file.ca-private-key=ca.private.bad.pem", "--directory=/tmp/"})
s.Assert().NotNil(err)
s.Assert().Contains(output, "Error: could not parse private key from file '/tmp/ca.private.bad.pem': failed to parse PEM block containing the key\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "crypto", "certificate", "rsa", "generate", "--path.ca=/tmp/", "--file.ca-certificate=ca.public.bad.crt", "--directory=/tmp/"})
s.Assert().NotNil(err)
s.Assert().Contains(output, "Error: could not parse certificate from file '/tmp/ca.public.bad.crt': failed to parse PEM block containing the key\n")
}
func (s *CLISuite) TestStorageShouldShowErrWithoutConfig() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "schema-info"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: storage: configuration for a 'local', 'mysql' or 'postgres' database must be provided, storage: option 'encryption_key' must is required\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "migrate", "history"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: storage: configuration for a 'local', 'mysql' or 'postgres' database must be provided, storage: option 'encryption_key' must is required\n")
}
func (s *CLISuite) TestStorage00ShouldShowCorrectPreInitInformation() {
_ = os.Remove("/tmp/db.sqlite3")
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "schema-info", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
pattern := regexp.MustCompile(`^Schema Version: N/A\nSchema Upgrade Available: yes - version \d+\nSchema Tables: N/A\nSchema Encryption Key: unsupported \(schema version\)`)
s.Assert().Regexp(pattern, output)
patternOutdated := regexp.MustCompile(`Error: schema is version \d+ which is outdated please migrate to version \d+ in order to use this command or use an older binary`)
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "totp", "export", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Regexp(patternOutdated, output)
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "encryption", "change-key", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Regexp(patternOutdated, output)
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "encryption", "check", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Could not check encryption key for validity. The schema version doesn't support encryption.")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "migrate", "down", "--target=0", "--destroy-data", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: schema migration target version 0 is the same current version 0")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "migrate", "up", "--target=2147483640", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: schema up migration target version 2147483640 is greater then the latest version ")
s.Assert().Contains(output, " which indicates it doesn't exist")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "migrate", "history", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "No migration history is available for schemas that not version 1 or above.\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "migrate", "list-up", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Storage Schema Migration List (Up)\n\nVersion\t\tDescription\n1\t\tInitial Schema\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "migrate", "list-down", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Storage Schema Migration List (Down)\n\nNo Migrations Available\n")
}
func (s *CLISuite) TestStorage01ShouldMigrateUp() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "migrate", "up", "--config=/config/configuration.storage.yml"})
s.Require().NoError(err)
pattern0 := regexp.MustCompile(`"Storage schema migration from \d+ to \d+ is being attempted"`)
pattern1 := regexp.MustCompile(`"Storage schema migration from \d+ to \d+ is complete"`)
s.Regexp(pattern0, output)
s.Regexp(pattern1, output)
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "migrate", "up", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: schema already up to date\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "migrate", "history", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Migration History:\n\nID\tDate\t\t\t\tBefore\tAfter\tAuthelia Version\n")
s.Assert().Contains(output, "0\t1")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "migrate", "list-up", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Storage Schema Migration List (Up)\n\nNo Migrations Available")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "migrate", "list-down", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Storage Schema Migration List (Down)\n\nVersion\t\tDescription\n")
s.Assert().Contains(output, "1\t\tInitial Schema")
}
func (s *CLISuite) TestStorage02ShouldShowSchemaInfo() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "schema-info", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Schema Version: ")
s.Assert().Contains(output, "authentication_logs")
s.Assert().Contains(output, "identity_verification")
s.Assert().Contains(output, "duo_devices")
s.Assert().Contains(output, "user_preferences")
s.Assert().Contains(output, "migrations")
s.Assert().Contains(output, "encryption")
s.Assert().Contains(output, "encryption")
s.Assert().Contains(output, "webauthn_devices")
s.Assert().Contains(output, "totp_configurations")
s.Assert().Contains(output, "Schema Encryption Key: valid")
}
func (s *CLISuite) TestStorage03ShouldExportTOTP() {
storageProvider := storage.NewSQLiteProvider(&storageLocalTmpConfig)
ctx := context.Background()
var (
err error
)
var (
expectedLines = make([]string, 0, 3)
expectedLinesCSV = make([]string, 0, 4)
output string
)
expectedLinesCSV = append(expectedLinesCSV, "issuer,username,algorithm,digits,period,secret")
testCases := []struct {
config model.TOTPConfiguration
png bool
}{
{
config: model.TOTPConfiguration{
Username: "john",
Period: 30,
Digits: 6,
Algorithm: "SHA1",
},
},
{
config: model.TOTPConfiguration{
Username: "mary",
Period: 45,
Digits: 6,
Algorithm: "SHA1",
},
},
{
config: model.TOTPConfiguration{
Username: "fred",
Period: 30,
Digits: 8,
Algorithm: "SHA1",
},
},
{
config: model.TOTPConfiguration{
Username: "jone",
Period: 30,
Digits: 6,
Algorithm: "SHA512",
},
png: true,
},
}
var (
config *model.TOTPConfiguration
fileInfo os.FileInfo
)
for _, testCase := range testCases {
if testCase.png {
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "totp", "generate", testCase.config.Username, "--period", strconv.Itoa(int(testCase.config.Period)), "--algorithm", testCase.config.Algorithm, "--digits", strconv.Itoa(int(testCase.config.Digits)), "--path=/tmp/qr.png", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, " and saved it as a PNG image at the path '/tmp/qr.png'")
fileInfo, err = os.Stat("/tmp/qr.png")
s.Assert().NoError(err)
s.Require().NotNil(fileInfo)
s.Assert().False(fileInfo.IsDir())
s.Assert().Greater(fileInfo.Size(), int64(1000))
} else {
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "totp", "generate", testCase.config.Username, "--period", strconv.Itoa(int(testCase.config.Period)), "--algorithm", testCase.config.Algorithm, "--digits", strconv.Itoa(int(testCase.config.Digits)), "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
}
config, err = storageProvider.LoadTOTPConfiguration(ctx, testCase.config.Username)
s.Assert().NoError(err)
s.Assert().Contains(output, config.URI())
expectedLinesCSV = append(expectedLinesCSV, fmt.Sprintf("%s,%s,%s,%d,%d,%s", "Authelia", config.Username, config.Algorithm, config.Digits, config.Period, string(config.Secret)))
expectedLines = append(expectedLines, config.URI())
}
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "totp", "export", "--format=uri", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
for _, expectedLine := range expectedLines {
s.Assert().Contains(output, expectedLine)
}
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "totp", "export", "--format=csv", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
for _, expectedLine := range expectedLinesCSV {
s.Assert().Contains(output, expectedLine)
}
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "totp", "export", "--format=wrong", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: format must be csv, uri, or png")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "totp", "export", "--format=png", "--dir=/tmp/qr", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Exported TOTP QR codes in PNG format in the '/tmp/qr' directory")
for _, testCase := range testCases {
fileInfo, err = os.Stat(fmt.Sprintf("/tmp/qr/%s.png", testCase.config.Username))
s.Assert().NoError(err)
s.Require().NotNil(fileInfo)
s.Assert().False(fileInfo.IsDir())
s.Assert().Greater(fileInfo.Size(), int64(1000))
}
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "totp", "generate", "test", "--period=30", "--algorithm=SHA1", "--digits=6", "--path=/tmp/qr.png", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: image output filepath already exists")
}
func (s *CLISuite) TestStorage04ShouldManageUniqueID() {
_ = os.Mkdir("/tmp/out", 0777)
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "export", "--file=out.yml", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: no data to export")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "add", "john", "--service=webauthn", "--sector=''", "--identifier=1097c8f8-83f2-4506-8138-5f40e83a1285", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: the service name 'webauthn' is invalid, the valid values are: 'openid'")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "add", "john", "--service=openid", "--sector=''", "--identifier=1097c8f8-83f2-4506-8138-5f40e83a1285", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Added User Opaque Identifier:\n\tService: openid\n\tSector: \n\tUsername: john\n\tIdentifier: 1097c8f8-83f2-4506-8138-5f40e83a1285\n\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "export", "--file=/a/no/path/fileout.yml", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: error occurred writing to file '/a/no/path/fileout.yml': open /a/no/path/fileout.yml: no such file or directory")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "export", "--file=out.yml", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: error occurred writing to file 'out.yml': open out.yml: permission denied")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "export", "--file=/tmp/out/1.yml", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Exported 1 User Opaque Identifiers to /tmp/out/1.yml")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "export", "--file=/tmp/out/1.yml", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: must specify a file that doesn't exist but '/tmp/out/1.yml' exists")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "add", "john", "--service=openid", "--sector=''", "--identifier=1097c8f8-83f2-4506-8138-5f40e83a1285", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: error inserting user opaque id for user 'john' with opaque id '1097c8f8-83f2-4506-8138-5f40e83a1285':")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "add", "john", "--service=openid", "--sector=''", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: error inserting user opaque id for user 'john' with opaque id")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "add", "john", "--service=openid", "--sector='openidconnect.com'", "--identifier=1097c8f8-83f2-4506-8138-5f40e83a1285", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: error inserting user opaque id for user 'john' with opaque id '1097c8f8-83f2-4506-8138-5f40e83a1285':")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "add", "john", "--service=openid", "--sector='openidconnect.net'", "--identifier=b0e17f48-933c-4cba-8509-ee9bfadf8ce5", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Added User Opaque Identifier:\n\tService: openid\n\tSector: openidconnect.net\n\tUsername: john\n\tIdentifier: b0e17f48-933c-4cba-8509-ee9bfadf8ce5\n\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "add", "john", "--service=openid", "--sector='bad-uuid.com'", "--identifier=d49564dc-b7a1-11ec-8429-fcaa147128ea", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: the identifier providerd 'd49564dc-b7a1-11ec-8429-fcaa147128ea' is a version 1 UUID but only version 4 UUID's accepted as identifiers")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "add", "john", "--service=openid", "--sector='bad-uuid.com'", "--identifier=asdmklasdm", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: the identifier provided 'asdmklasdm' is invalid as it must be a version 4 UUID but parsing it had an error: invalid UUID length: 10")
data, err := os.ReadFile("/tmp/out/1.yml")
s.Assert().NoError(err)
var export model.UserOpaqueIdentifiersExport
s.Assert().NoError(yaml.Unmarshal(data, &export))
s.Require().Len(export.Identifiers, 1)
s.Assert().Equal(1, export.Identifiers[0].ID)
s.Assert().Equal("1097c8f8-83f2-4506-8138-5f40e83a1285", export.Identifiers[0].Identifier.String())
s.Assert().Equal("john", export.Identifiers[0].Username)
s.Assert().Equal("", export.Identifiers[0].SectorID)
s.Assert().Equal("openid", export.Identifiers[0].Service)
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "user", "identifiers", "export", "--file=/tmp/out/2.yml", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Exported 2 User Opaque Identifiers to /tmp/out/2.yml")
export = model.UserOpaqueIdentifiersExport{}
data, err = os.ReadFile("/tmp/out/2.yml")
s.Assert().NoError(err)
s.Assert().NoError(yaml.Unmarshal(data, &export))
s.Require().Len(export.Identifiers, 2)
s.Assert().Equal(1, export.Identifiers[0].ID)
s.Assert().Equal("1097c8f8-83f2-4506-8138-5f40e83a1285", export.Identifiers[0].Identifier.String())
s.Assert().Equal("john", export.Identifiers[0].Username)
s.Assert().Equal("", export.Identifiers[0].SectorID)
s.Assert().Equal("openid", export.Identifiers[0].Service)
s.Assert().Equal(2, export.Identifiers[1].ID)
s.Assert().Equal("b0e17f48-933c-4cba-8509-ee9bfadf8ce5", export.Identifiers[1].Identifier.String())
s.Assert().Equal("john", export.Identifiers[1].Username)
s.Assert().Equal("openidconnect.net", export.Identifiers[1].SectorID)
s.Assert().Equal("openid", export.Identifiers[1].Service)
}
func (s *CLISuite) TestStorage05ShouldChangeEncryptionKey() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "encryption", "change-key", "--new-encryption-key=apple-apple-apple-apple", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Completed the encryption key change. Please adjust your configuration to use the new key.\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "schema-info", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Schema Version: ")
s.Assert().Contains(output, "authentication_logs")
s.Assert().Contains(output, "identity_verification")
s.Assert().Contains(output, "duo_devices")
s.Assert().Contains(output, "user_preferences")
s.Assert().Contains(output, "migrations")
s.Assert().Contains(output, "encryption")
s.Assert().Contains(output, "encryption")
s.Assert().Contains(output, "webauthn_devices")
s.Assert().Contains(output, "totp_configurations")
s.Assert().Contains(output, "Schema Encryption Key: invalid")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "encryption", "check", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Encryption key validation: failed.\n\nError: the encryption key is not valid against the schema check value.\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "encryption", "check", "--verbose", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Encryption key validation: failed.\n\nError: the encryption key is not valid against the schema check value, 4 of 4 total TOTP secrets were invalid.\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "encryption", "check", "--encryption-key=apple-apple-apple-apple", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Encryption key validation: success.\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "encryption", "check", "--verbose", "--encryption-key=apple-apple-apple-apple", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
s.Assert().Contains(output, "Encryption key validation: success.\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "encryption", "change-key", "--encryption-key=apple-apple-apple-apple", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: you must set the --new-encryption-key flag\n")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "encryption", "change-key", "--encryption-key=apple-apple-apple-apple", "--new-encryption-key=abc", "--config=/config/configuration.storage.yml"})
s.Assert().EqualError(err, "exit status 1")
s.Assert().Contains(output, "Error: the new encryption key must be at least 20 characters\n")
}
func (s *CLISuite) TestStorage06ShouldMigrateDown() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "storage", "migrate", "down", "--target=0", "--destroy-data", "--config=/config/configuration.storage.yml"})
s.Assert().NoError(err)
pattern0 := regexp.MustCompile(`"Storage schema migration from \d+ to \d+ is being attempted"`)
pattern1 := regexp.MustCompile(`"Storage schema migration from \d+ to \d+ is complete"`)
s.Regexp(pattern0, output)
s.Regexp(pattern1, output)
}
func (s *CLISuite) TestACLPolicyCheckVerbose() {
output, err := s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "access-control", "check-policy", "--url=https://public.example.com", "--verbose", "--config=/config/configuration.yml"})
s.Assert().NoError(err)
// This is an example of `authelia access-control check-policy --config .\internal\suites\CLI\configuration.yml --url=https://public.example.com --verbose`.
s.Contains(output, "Performing policy check for request to 'https://public.example.com' method 'GET'.\n\n")
s.Contains(output, " #\tDomain\tResource\tMethod\tNetwork\tSubject\n")
s.Contains(output, "* 1\thit\thit\t\thit\thit\thit\n")
s.Contains(output, " 2\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 3\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 4\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 5\tmiss\tmiss\t\thit\thit\thit\n")
s.Contains(output, " 6\tmiss\thit\t\tmiss\thit\thit\n")
s.Contains(output, " 7\tmiss\thit\t\thit\tmiss\thit\n")
s.Contains(output, " 8\tmiss\thit\t\thit\thit\tmay\n")
s.Contains(output, " 9\tmiss\thit\t\thit\thit\tmay\n")
s.Contains(output, "The policy 'bypass' from rule #1 will be applied to this request.")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "access-control", "check-policy", "--url=https://admin.example.com", "--method=HEAD", "--username=tom", "--groups=basic,test", "--ip=192.168.2.3", "--verbose", "--config=/config/configuration.yml"})
s.Assert().NoError(err)
// This is an example of `authelia access-control check-policy --config .\internal\suites\CLI\configuration.yml --url=https://admin.example.com --method=HEAD --username=tom --groups=basic,test --ip=192.168.2.3 --verbose`.
s.Contains(output, "Performing policy check for request to 'https://admin.example.com' method 'HEAD' username 'tom' groups 'basic,test' from IP '192.168.2.3'.\n\n")
s.Contains(output, " #\tDomain\tResource\tMethod\tNetwork\tSubject\n")
s.Contains(output, " #\tDomain\tResource\tMethod\tNetwork\tSubject\n")
s.Contains(output, " 1\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, "* 2\thit\thit\t\thit\thit\thit\n")
s.Contains(output, " 3\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 4\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 5\tmiss\tmiss\t\thit\thit\thit\n")
s.Contains(output, " 6\tmiss\thit\t\tmiss\thit\thit\n")
s.Contains(output, " 7\tmiss\thit\t\thit\tmiss\thit\n")
s.Contains(output, " 8\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 9\tmiss\thit\t\thit\thit\tmiss\n")
s.Contains(output, "The policy 'two_factor' from rule #2 will be applied to this request.")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "access-control", "check-policy", "--url=https://resources.example.com/resources/test", "--method=POST", "--username=john", "--groups=admin,test", "--ip=192.168.1.3", "--verbose", "--config=/config/configuration.yml"})
s.Assert().NoError(err)
// This is an example of `authelia access-control check-policy --config .\internal\suites\CLI\configuration.yml --url=https://resources.example.com/resources/test --method=POST --username=john --groups=admin,test --ip=192.168.1.3 --verbose`.
s.Contains(output, "Performing policy check for request to 'https://resources.example.com/resources/test' method 'POST' username 'john' groups 'admin,test' from IP '192.168.1.3'.\n\n")
s.Contains(output, " #\tDomain\tResource\tMethod\tNetwork\tSubject\n")
s.Contains(output, " 1\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 2\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 3\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 4\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, "* 5\thit\thit\t\thit\thit\thit\n")
s.Contains(output, " 6\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 7\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 8\tmiss\thit\t\thit\thit\tmiss\n")
s.Contains(output, " 9\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, "The policy 'one_factor' from rule #5 will be applied to this request.")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "access-control", "check-policy", "--url=https://user.example.com/resources/test", "--method=HEAD", "--username=john", "--groups=admin,test", "--ip=192.168.1.3", "--verbose", "--config=/config/configuration.yml"})
s.Assert().NoError(err)
// This is an example of `access-control check-policy --config .\internal\suites\CLI\configuration.yml --url=https://user.example.com --method=HEAD --username=john --groups=admin,test --ip=192.168.1.3 --verbose`.
s.Contains(output, "Performing policy check for request to 'https://user.example.com/resources/test' method 'HEAD' username 'john' groups 'admin,test' from IP '192.168.1.3'.\n\n")
s.Contains(output, " #\tDomain\tResource\tMethod\tNetwork\tSubject\n")
s.Contains(output, " 1\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 2\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 3\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 4\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 5\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 6\tmiss\thit\t\tmiss\thit\thit\n")
s.Contains(output, " 7\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 8\tmiss\thit\t\thit\thit\tmiss\n")
s.Contains(output, "* 9\thit\thit\t\thit\thit\thit\n")
s.Contains(output, "The policy 'one_factor' from rule #9 will be applied to this request.")
output, err = s.Exec("authelia-backend", []string{"authelia", s.testArg, s.coverageArg, "access-control", "check-policy", "--url=https://user.example.com", "--method=HEAD", "--ip=192.168.1.3", "--verbose", "--config=/config/configuration.yml"})
s.Assert().NoError(err)
// This is an example of `authelia access-control check-policy --config .\internal\suites\CLI\configuration.yml --url=https://user.example.com --method=HEAD --ip=192.168.1.3 --verbose`.
s.Contains(output, "Performing policy check for request to 'https://user.example.com' method 'HEAD' from IP '192.168.1.3'.\n\n")
s.Contains(output, " #\tDomain\tResource\tMethod\tNetwork\tSubject\n")
s.Contains(output, " 1\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 2\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 3\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 4\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 5\tmiss\tmiss\t\thit\thit\thit\n")
s.Contains(output, " 6\tmiss\thit\t\tmiss\thit\thit\n")
s.Contains(output, " 7\tmiss\thit\t\thit\thit\thit\n")
s.Contains(output, " 8\tmiss\thit\t\thit\thit\tmay\n")
s.Contains(output, "~ 9\thit\thit\t\thit\thit\tmay\n")
s.Contains(output, "The policy 'one_factor' from rule #9 will potentially be applied to this request. Otherwise the policy 'bypass' from the default policy will be.")
}
func TestCLISuite(t *testing.T) {
if testing.Short() {
t.Skip("skipping suite test in short mode")
}
suite.Run(t, NewCLISuite())
}