/
test.go
251 lines (230 loc) · 7.54 KB
/
test.go
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// Package test offers a battery of tests for storage.AllStorage implementations.
package test
import (
"bytes"
"context"
"errors"
"math/rand"
"testing"
"time"
"github.com/micromdm/nanodep/client"
"github.com/micromdm/nanodep/storage"
"github.com/micromdm/nanodep/tokenpki"
)
// TestWithStorages runs multiple tests with different storage provided by storageFn.
func TestWithStorages(t *testing.T, ctx context.Context, store storage.AllStorage) {
depName1, depName2 := genRandName(4), genRandName(4)
t.Run("empty", func(t *testing.T) {
TestEmpty(t, ctx, depName1, store)
})
t.Run("basic-name1", func(t *testing.T) {
TestWitName(t, ctx, depName1, store)
})
t.Run("basic-name2", func(t *testing.T) {
TestWitName(t, ctx, depName2, store)
})
}
// TestEmpty tests retrieval methods on an empty/missing name.
func TestEmpty(t *testing.T, ctx context.Context, name string, s storage.AllStorage) {
if _, _, err := s.RetrieveTokenPKI(ctx, name); !errors.Is(err, storage.ErrNotFound) {
t.Fatalf("unexpected error: %s", err)
}
if _, err := s.RetrieveAuthTokens(ctx, name); !errors.Is(err, storage.ErrNotFound) {
t.Fatalf("unexpected error: %s", err)
}
config, err := s.RetrieveConfig(ctx, name)
checkErr(t, err)
if config != nil {
t.Fatalf("expected non-existent config: %+v", config)
}
// Profile assigner storing and retrieval.
profileUUID, modTime, err := s.RetrieveAssignerProfile(ctx, name)
checkErr(t, err)
if profileUUID != "" {
t.Fatal("expected empty profileUUID")
}
if !modTime.IsZero() {
t.Fatal("expected zero modTime")
}
cursor, err := s.RetrieveCursor(ctx, name)
checkErr(t, err)
if cursor != "" {
t.Fatal("expected empty cursor")
}
}
func TestWitName(t *testing.T, ctx context.Context, name string, s storage.AllStorage) {
// PKI storing and retrieval.
if _, _, err := s.RetrieveTokenPKI(ctx, name); !errors.Is(err, storage.ErrNotFound) {
t.Fatalf("unexpected error: %s", err)
}
pemCert, pemKey := generatePKI(t, "basicdn", 1)
err := s.StoreTokenPKI(ctx, name, pemCert, pemKey)
checkErr(t, err)
pemCert2, pemKey2, err := s.RetrieveTokenPKI(ctx, name)
checkErr(t, err)
if !bytes.Equal(pemCert, pemCert2) {
t.Fatalf("pem cert mismatch: %s vs. %s", pemCert, pemCert2)
}
if !bytes.Equal(pemKey, pemKey2) {
t.Fatalf("pem key mismatch: %s vs. %s", pemKey, pemKey2)
}
// Token storing and retrieval.
if _, err := s.RetrieveAuthTokens(ctx, name); !errors.Is(err, storage.ErrNotFound) {
t.Fatalf("unexpected error: %s", err)
}
tokens := &client.OAuth1Tokens{
ConsumerKey: "CK_9af2f8218b150c351ad802c6f3d66abe",
ConsumerSecret: "CS_9af2f8218b150c351ad802c6f3d66abe",
AccessToken: "AT_9af2f8218b150c351ad802c6f3d66abe",
AccessSecret: "AS_9af2f8218b150c351ad802c6f3d66abe",
AccessTokenExpiry: time.Now().UTC(),
}
err = s.StoreAuthTokens(ctx, name, tokens)
checkErr(t, err)
tokens2, err := s.RetrieveAuthTokens(ctx, name)
checkErr(t, err)
checkTokens(t, tokens, tokens2)
tokens3 := &client.OAuth1Tokens{
ConsumerKey: "foo_CK_9af2f8218b150c351ad802c6f3d66abe",
ConsumerSecret: "foo_CS_9af2f8218b150c351ad802c6f3d66abe",
AccessToken: "foo_AT_9af2f8218b150c351ad802c6f3d66abe",
AccessSecret: "foo_AS_9af2f8218b150c351ad802c6f3d66abe",
AccessTokenExpiry: time.Now().Add(5 * time.Second).UTC(),
}
err = s.StoreAuthTokens(ctx, name, tokens3)
checkErr(t, err)
tokens4, err := s.RetrieveAuthTokens(ctx, name)
checkErr(t, err)
checkTokens(t, tokens3, tokens4)
// Config storing and retrieval.
config, err := s.RetrieveConfig(ctx, name)
checkErr(t, err)
if config != nil {
t.Fatalf("expected not-existing config: %+v", config)
}
config = &client.Config{
BaseURL: "https://config.example.com",
}
err = s.StoreConfig(ctx, name, config)
checkErr(t, err)
config2, err := s.RetrieveConfig(ctx, name)
checkErr(t, err)
if *config != *config2 {
t.Fatalf("config mismatch: %+v vs. %+v", config, config2)
}
config2 = &client.Config{
BaseURL: "https://config2.example.com",
}
err = s.StoreConfig(ctx, name, config2)
checkErr(t, err)
config3, err := s.RetrieveConfig(ctx, name)
checkErr(t, err)
if *config2 != *config3 {
t.Fatalf("config mismatch: %+v vs. %+v", config2, config3)
}
// Profile assigner storing and retrieval.
profileUUID, modTime, err := s.RetrieveAssignerProfile(ctx, name)
checkErr(t, err)
if profileUUID != "" {
t.Fatal("expected empty profileUUID")
}
if !modTime.IsZero() {
t.Fatal("expected zero modTime")
}
profileUUID = "43277A13FBCA0CFC"
err = s.StoreAssignerProfile(ctx, name, profileUUID)
checkErr(t, err)
profileUUID2, modTime, err := s.RetrieveAssignerProfile(ctx, name)
checkErr(t, err)
if profileUUID != profileUUID2 {
t.Fatalf("profileUUID mismatch: %s vs. %s", profileUUID, profileUUID2)
}
now := time.Now()
if modTime.Before(now.Add(-1*time.Minute)) || modTime.After(now.Add(1*time.Minute)) {
t.Fatalf("mismatch modTime, expected: %s (+/- 1m), actual: %s", now, modTime)
}
time.Sleep(1 * time.Second)
profileUUID3 := "foo_43277A13FBCA0CFC"
err = s.StoreAssignerProfile(ctx, name, profileUUID3)
checkErr(t, err)
profileUUID4, modTime2, err := s.RetrieveAssignerProfile(ctx, name)
checkErr(t, err)
if profileUUID3 != profileUUID4 {
t.Fatalf("profileUUID mismatch: %s vs. %s", profileUUID, profileUUID3)
}
if modTime2 == modTime {
t.Fatalf("expected time update: %s", modTime2)
}
now = time.Now()
if modTime2.Before(now.Add(-1*time.Minute)) || modTime2.After(now.Add(1*time.Minute)) {
t.Fatalf("mismatch modTime, expected: %s (+/- 1m), actual: %s", now, modTime)
}
cursor, err := s.RetrieveCursor(ctx, name)
checkErr(t, err)
if cursor != "" {
t.Fatal("expected empty cursor")
}
cursor = "MTY1NzI2ODE5Ny0x"
err = s.StoreCursor(ctx, name, cursor)
checkErr(t, err)
cursor2, err := s.RetrieveCursor(ctx, name)
checkErr(t, err)
if cursor != cursor2 {
t.Fatalf("cursor mismatch: %s vs. %s", cursor, cursor2)
}
cursor2 = "foo_MTY1NzI2ODE5Ny0x"
err = s.StoreCursor(ctx, name, cursor2)
checkErr(t, err)
cursor3, err := s.RetrieveCursor(ctx, name)
checkErr(t, err)
if cursor2 != cursor3 {
t.Fatalf("cursor mismatch: %s vs. %s", cursor2, cursor3)
}
}
func checkTokens(t *testing.T, t1 *client.OAuth1Tokens, t2 *client.OAuth1Tokens) {
if t1 == nil || t2 == nil {
t.Fatalf("check tokens nil")
return
}
if t1.ConsumerKey != t2.ConsumerKey {
t.Fatalf("tokens consumer_key mismatch: %s vs. %s", t1.ConsumerKey, t2.ConsumerKey)
}
if t1.ConsumerSecret != t2.ConsumerSecret {
t.Fatalf("tokens consumer_secret mismatch: %s vs. %s", t1.ConsumerSecret, t2.ConsumerSecret)
}
if t1.AccessToken != t2.AccessToken {
t.Fatalf("tokens access_token mismatch: %s vs. %s", t1.AccessToken, t2.AccessToken)
}
if t1.AccessSecret != t2.AccessSecret {
t.Fatalf("tokens access_secret mismatch: %s vs. %s", t1.AccessSecret, t2.AccessSecret)
}
diff := t1.AccessTokenExpiry.Sub(t2.AccessTokenExpiry)
if diff > 1*time.Second || diff < -1*time.Second {
t.Fatalf("tokens expiry mismatch: %s vs. %s", t1.AccessTokenExpiry, t2.AccessTokenExpiry)
}
}
func checkErr(t *testing.T, err error) {
t.Helper()
if err != nil {
t.Fatal(err)
}
}
func generatePKI(t *testing.T, cn string, days int64) (pemCert []byte, pemKey []byte) {
key, cert, err := tokenpki.SelfSignedRSAKeypair(cn, days)
if err != nil {
t.Fatal(err)
}
pemCert = tokenpki.PEMCertificate(cert.Raw)
pemKey = tokenpki.PEMRSAPrivateKey(key)
return pemCert, pemKey
}
func init() {
rand.Seed(time.Now().UnixNano())
}
func genRandName(length int) string {
result := make([]byte, length)
for i := 0; i < length; i++ {
result[i] = byte(rand.Intn(26) + 'a')
}
return "go_test_dep_name." + string(result)
}