// Package auth_test 验证 user-service 认证用例的登录、注册、密码、refresh 和靓号登录语义。 package auth_test import ( "context" "encoding/json" "errors" "fmt" "net/http" "net/http/httptest" "os" "strings" "sync" "testing" "time" "hyapp/pkg/xerr" authdomain "hyapp/services/user-service/internal/domain/auth" userdomain "hyapp/services/user-service/internal/domain/user" authservice "hyapp/services/user-service/internal/service/auth" userservice "hyapp/services/user-service/internal/service/user" "hyapp/services/user-service/internal/testutil/mysqltest" jwt "github.com/golang-jwt/jwt/v5" "github.com/redis/go-redis/v9" ) const testAccessTokenTTLSec int64 = 604800 func accessTokenExpUnix(t *testing.T, accessToken string) int64 { t.Helper() parser := jwt.NewParser(jwt.WithValidMethods([]string{"HS256"}), jwt.WithoutClaimsValidation()) parsed, err := parser.Parse(accessToken, func(token *jwt.Token) (any, error) { return []byte("test-secret"), nil }) if err != nil || !parsed.Valid { t.Fatalf("parse access token failed: token=%q err=%v", accessToken, err) } exp, err := parsed.Claims.GetExpirationTime() if err != nil || exp == nil { t.Fatalf("access token missing exp: claims=%+v err=%v", parsed.Claims, err) } return exp.Unix() } type memoryDecisionCache struct { mu sync.Mutex ip map[string]authservice.IPDecision revoked map[string]string revTTL map[string]time.Duration ips map[string][]string users map[string][]int64 userTTL map[string]time.Duration err error } type memoryRefreshMetrics struct { mu sync.Mutex counts map[string]int } type failingRotateAuthRepository struct { // 嵌入真实 repository 让测试只替换 rotation commit,其他查找仍走同一个 MySQL schema。 authservice.AuthRepository } func (r failingRotateAuthRepository) RotateRefreshSession(context.Context, authdomain.RefreshRotationCommand) (authdomain.RefreshRotationResult, error) { return authdomain.RefreshRotationResult{}, errors.New("forced rotation commit failure") } func newMemoryRefreshMetrics() *memoryRefreshMetrics { return &memoryRefreshMetrics{counts: make(map[string]int)} } func (m *memoryRefreshMetrics) Increment(_ context.Context, metric string, appCode string) { m.mu.Lock() defer m.mu.Unlock() m.counts[appCode+":"+metric]++ } func (m *memoryRefreshMetrics) count(appCode string, metric string) int { m.mu.Lock() defer m.mu.Unlock() return m.counts[appCode+":"+metric] } func newMemoryDecisionCache() *memoryDecisionCache { return &memoryDecisionCache{ ip: make(map[string]authservice.IPDecision), revoked: make(map[string]string), revTTL: make(map[string]time.Duration), ips: make(map[string][]string), users: make(map[string][]int64), userTTL: make(map[string]time.Duration), } } func (c *memoryDecisionCache) GetIPDecision(_ context.Context, appCode string, clientIPHash string) (authservice.IPDecision, bool, error) { c.mu.Lock() defer c.mu.Unlock() decision, ok := c.ip[appCode+":"+clientIPHash] return decision, ok, nil } func (c *memoryDecisionCache) SetIPDecision(_ context.Context, appCode string, clientIPHash string, decision authservice.IPDecision, _ time.Duration) error { c.mu.Lock() defer c.mu.Unlock() c.ip[appCode+":"+clientIPHash] = decision return nil } func (c *memoryDecisionCache) SetRevokedSession(_ context.Context, appCode string, sessionID string, reason string, ttl time.Duration) error { c.mu.Lock() defer c.mu.Unlock() if c.err != nil { return c.err } key := appCode + ":" + sessionID c.revoked[key] = reason c.revTTL[key] = ttl return nil } func (c *memoryDecisionCache) GetIPWhitelist(_ context.Context, appCode string) ([]string, bool, error) { c.mu.Lock() defer c.mu.Unlock() ips, ok := c.ips[appCode] return append([]string(nil), ips...), ok, nil } func (c *memoryDecisionCache) SetIPWhitelist(_ context.Context, appCode string, ips []string, _ time.Duration) error { c.mu.Lock() defer c.mu.Unlock() c.ips[appCode] = append([]string(nil), ips...) return nil } func (c *memoryDecisionCache) GetUserWhitelist(_ context.Context, appCode string) ([]int64, bool, error) { c.mu.Lock() defer c.mu.Unlock() userIDs, ok := c.users[appCode] return append([]int64(nil), userIDs...), ok, nil } func (c *memoryDecisionCache) SetUserWhitelist(_ context.Context, appCode string, userIDs []int64, ttl time.Duration) error { c.mu.Lock() defer c.mu.Unlock() c.users[appCode] = append([]int64(nil), userIDs...) c.userTTL[appCode] = ttl return nil } type sequenceIDGenerator struct { // values 是测试预设 user_id 序列。 values []int64 // index 指向当前要返回的 user_id。 index int } func (g *sequenceIDGenerator) NewInt64() int64 { // 到达末尾后保持返回最后一个值,便于测试重试耗尽路径。 value := g.values[g.index] if g.index < len(g.values)-1 { g.index++ } return value } type sequenceDisplayUserIDAllocator struct { // values 是测试预设 display_user_id 候选序列。 values []string } func (a sequenceDisplayUserIDAllocator) NextDisplayUserID(_ int64, attempt int) string { if attempt >= len(a.values) { // 超出候选数量后复用最后一个值,便于构造持续冲突。 return a.values[len(a.values)-1] } return a.values[attempt] } type fakeIMAccountImporter struct { userID int64 nickname string faceURL string } func (f *fakeIMAccountImporter) ImportAccount(_ context.Context, userID int64, nickname string, faceURL string) error { f.userID = userID f.nickname = nickname f.faceURL = faceURL return nil } func newUserService(repository *mysqltest.Repository, options ...userservice.Option) *userservice.Service { base := []userservice.Option{ userservice.WithIdentityRepository(repository), userservice.WithCountryRegionRepository(repository), userservice.WithCountryAdminRepository(repository), userservice.WithRegionAdminRepository(repository), userservice.WithRegionRebuildRepository(repository), userservice.WithDeviceRepository(repository), } return userservice.New(repository, append(base, options...)...) } func newAuthService(repository *mysqltest.Repository, now *time.Time, ids []int64, displayIDs []string, extra ...authservice.Option) *authservice.Service { // 测试服务固定 JWT、发号器、短号候选和时钟,保证 token/session 语义可断言。 options := []authservice.Option{ authservice.WithAuthRepository(repository), authservice.WithUserRepository(repository), authservice.WithIdentityRepository(repository), authservice.WithCountryRegionRepository(repository), authservice.WithIDGenerator(&sequenceIDGenerator{values: ids}), authservice.WithDisplayUserIDAllocator(sequenceDisplayUserIDAllocator{values: displayIDs}), authservice.WithClock(func() time.Time { return *now }), authservice.WithThirdPartyVerifier(authservice.NewStaticThirdPartyVerifier([]string{"wechat"})), authservice.WithIPDecisionCache(newMemoryDecisionCache()), } options = append(options, extra...) return authservice.New(authservice.Config{ Issuer: "hyapp-test", AccessTokenTTLSec: testAccessTokenTTLSec, RefreshTokenTTLSec: 2592000, SigningAlg: "HS256", SigningSecret: "test-secret", }, options...) } func assertSevenDigitDisplayUserID(t *testing.T, displayUserID string) { t.Helper() if len(displayUserID) != 7 || displayUserID[0] < '1' || displayUserID[0] > '9' { t.Fatalf("display_user_id must be 7 digits and start with 1-9, got %q", displayUserID) } for _, digit := range displayUserID { if digit < '0' || digit > '9' { t.Fatalf("display_user_id must contain digits only, got %q", displayUserID) } } } func assertUserRegisteredOutboxCount(t *testing.T, repository *mysqltest.Repository, userID int64, want int) { t.Helper() var count int var status string if err := repository.RawDB().QueryRowContext(context.Background(), ` SELECT COUNT(*), COALESCE(MAX(status), '') FROM user_outbox WHERE app_code = 'lalu' AND event_type = 'UserRegistered' AND aggregate_id = ? `, userID).Scan(&count, &status); err != nil { t.Fatalf("query UserRegistered outbox failed: %v", err) } if count != want { t.Fatalf("UserRegistered outbox count for user %d = %d, want %d", userID, count, want) } if want > 0 && status != "pending" { t.Fatalf("UserRegistered outbox status for user %d = %s, want pending", userID, status) } } func assertUserRegisteredOutboxFact(t *testing.T, repository *mysqltest.Repository, userID int64, countryID int64, regionID int64, occurredAtMS int64) { t.Helper() var raw string var createdAtMS int64 if err := repository.RawDB().QueryRowContext(context.Background(), ` SELECT payload_json, created_at_ms FROM user_outbox WHERE app_code = 'lalu' AND event_type = 'UserRegistered' AND aggregate_id = ? `, userID).Scan(&raw, &createdAtMS); err != nil { t.Fatalf("query UserRegistered payload failed: %v", err) } var payload struct { CountryID int64 `json:"country_id"` RegionID int64 `json:"region_id"` ProfileCompletedAtMS int64 `json:"profile_completed_at_ms"` } if err := json.Unmarshal([]byte(raw), &payload); err != nil { t.Fatalf("decode UserRegistered payload failed: %v raw=%s", err, raw) } if payload.CountryID != countryID || payload.RegionID != regionID { t.Fatalf("UserRegistered dimensions = country:%d region:%d, want country:%d region:%d", payload.CountryID, payload.RegionID, countryID, regionID) } if payload.ProfileCompletedAtMS != occurredAtMS || createdAtMS != occurredAtMS { t.Fatalf("UserRegistered time = payload:%d outbox:%d, want %d", payload.ProfileCompletedAtMS, createdAtMS, occurredAtMS) } } func thirdPartyRegistration(platform string) authdomain.ThirdPartyRegistration { // 部分测试需要覆盖注册快照字段,因此默认提供完整资料;完成态仍必须由 onboarding 流程推进。 return authdomain.ThirdPartyRegistration{ Username: "hy", Avatar: "https://cdn.example/avatar.png", Gender: "male", Country: "SG", DeviceID: "dev-" + platform, Platform: platform, } } func seedCountry(t *testing.T, repository *mysqltest.Repository, code string) userdomain.Country { t.Helper() if country, ok, err := repository.ResolveEnabledCountryByCode(context.Background(), code); err != nil { t.Fatalf("resolve country %s failed: %v", code, err) } else if ok { return country } return repository.PutCountry(userdomain.Country{ CountryName: code + " Name", CountryCode: code, CountryDisplayName: code + " Display", Enabled: true, }) } func seedRegion(t *testing.T, repository *mysqltest.Repository, code string, countries []string) userdomain.Region { t.Helper() return repository.PutRegion(userdomain.Region{ RegionCode: code, Name: code + " Region", Status: userdomain.RegionStatusActive, Countries: countries, CreatedByUserID: 1, UpdatedByUserID: 1, }) } func mustResolveRegionByCountry(t *testing.T, repository *mysqltest.Repository, country string) userdomain.Region { t.Helper() region, ok, err := repository.ResolveActiveRegionByCountry(context.Background(), country) if err != nil { t.Fatalf("resolve region for country %s failed: %v", country, err) } if !ok { t.Fatalf("country %s should have seeded region mapping", country) } return region } func TestThirdPartyUserSetsPasswordThenLogsIn(t *testing.T) { // 覆盖三方注册、设置密码、密码登录、refresh 轮换和 logout 的完整认证生命周期。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() svc := newAuthService(repository, &now, []int64{900001}, []string{"100001"}, authservice.WithIPDecisionCache(cache)) thirdToken, isNewUser, err := svc.LoginThirdParty(ctx, "wechat", "openid-1", thirdPartyRegistration("ios"), authservice.Meta{RequestID: "req-third"}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } displayUserID := thirdToken.DisplayUserID assertSevenDigitDisplayUserID(t, displayUserID) if !isNewUser || thirdToken.UserID != 900001 || displayUserID == "" || thirdToken.RefreshToken == "" || thirdToken.AccessToken == "" { t.Fatalf("unexpected third-party token: token=%+v isNew=%v", thirdToken, isNewUser) } if thirdToken.ExpiresInSec != testAccessTokenTTLSec { t.Fatalf("third-party access token TTL mismatch: %+v", thirdToken) } if got, want := accessTokenExpUnix(t, thirdToken.AccessToken), now.Unix()+testAccessTokenTTLSec; got != want { t.Fatalf("third-party access token exp mismatch: got=%d want=%d", got, want) } if thirdToken.ProfileCompleted || thirdToken.OnboardingStatus != string(userdomain.OnboardingStatusProfileRequired) { t.Fatalf("new third-party user must require onboarding: %+v", thirdToken) } assertUserRegisteredOutboxCount(t, repository, thirdToken.UserID, 0) if _, err := svc.LoginPassword(ctx, displayUserID, "secret-pass", "ios", authservice.Meta{}); !xerr.IsCode(err, xerr.AuthFailed) { // 未设置密码前不能通过短号密码登录,且错误必须统一 AUTH_FAILED。 t.Fatalf("expected AUTH_FAILED before password is set, got %v", err) } if err := svc.SetPassword(ctx, thirdToken.UserID, "secret-pass", authservice.Meta{RequestID: "req-set-password"}); err != nil { t.Fatalf("SetPassword failed: %v", err) } if err := svc.SetPassword(ctx, thirdToken.UserID, "another-pass", authservice.Meta{}); !xerr.IsCode(err, xerr.PasswordAlreadySet) { // v1 只允许首次设置密码,暂不提供重置密码流程。 t.Fatalf("expected PASSWORD_ALREADY_SET, got %v", err) } loginToken, err := svc.LoginPassword(ctx, displayUserID, "secret-pass", "ios", authservice.Meta{ RequestID: "req-login", AppVersion: " 2.4.0 ", BuildNumber: "24001", }) if err != nil { t.Fatalf("LoginPassword failed: %v", err) } if loginToken.UserID != thirdToken.UserID || loginToken.DisplayUserID != displayUserID || loginToken.RefreshToken == thirdToken.RefreshToken { t.Fatalf("unexpected login token: %+v", loginToken) } if loginToken.ExpiresInSec != testAccessTokenTTLSec { t.Fatalf("password login access token TTL mismatch: %+v", loginToken) } if got, want := accessTokenExpUnix(t, loginToken.AccessToken), now.Unix()+testAccessTokenTTLSec; got != want { t.Fatalf("password login access token exp mismatch: got=%d want=%d", got, want) } var auditedAppVersion string var auditedBuildNumber string if err := repository.RawDB().QueryRowContext(ctx, ` SELECT app_version, build_number FROM login_audit WHERE app_code = 'lalu' AND request_id = 'req-login' AND user_id = ? AND login_type = 'password' AND result = 'success' AND blocked = 0 `, loginToken.UserID).Scan(&auditedAppVersion, &auditedBuildNumber); err != nil { t.Fatalf("query password login client version audit failed: %v", err) } if auditedAppVersion != "2.4.0" || auditedBuildNumber != "24001" { t.Fatalf("password login client version audit mismatch: app_version=%q build_number=%q", auditedAppVersion, auditedBuildNumber) } if _, err := svc.LoginPassword(ctx, displayUserID, "wrong", "ios", authservice.Meta{}); !xerr.IsCode(err, xerr.AuthFailed) { t.Fatalf("expected AUTH_FAILED for wrong password, got %v", err) } now = now.Add(time.Second) // refresh 成功后必须返回新的 refresh token,并吊销旧 token。 refreshToken, err := svc.RefreshToken(ctx, loginToken.RefreshToken, "ios", authservice.Meta{ RequestID: "req-refresh", AppVersion: "2.5.0", BuildNumber: "25001", }) if err != nil { t.Fatalf("RefreshToken failed: %v", err) } if refreshToken.RefreshToken == loginToken.RefreshToken || refreshToken.DisplayUserID != displayUserID { t.Fatalf("refresh token must rotate") } if refreshToken.ExpiresInSec != testAccessTokenTTLSec { t.Fatalf("refresh access token TTL mismatch: %+v", refreshToken) } if got, want := accessTokenExpUnix(t, refreshToken.AccessToken), now.Unix()+testAccessTokenTTLSec; got != want { t.Fatalf("refresh access token exp mismatch: got=%d want=%d", got, want) } if got := cache.revoked["lalu:"+loginToken.SessionID]; got != "REFRESH_ROTATED" { t.Fatalf("refresh must denylist rotated access session, got %q", got) } if got, want := cache.revTTL["lalu:"+loginToken.SessionID], time.Duration(testAccessTokenTTLSec+60)*time.Second; got != want { t.Fatalf("refresh denylist TTL mismatch: got=%s want=%s", got, want) } if err := repository.RawDB().QueryRowContext(ctx, ` SELECT app_version, build_number FROM login_audit WHERE app_code = 'lalu' AND request_id = 'req-refresh' AND user_id = ? AND login_type = 'refresh' AND result = 'success' AND blocked = 0 `, loginToken.UserID).Scan(&auditedAppVersion, &auditedBuildNumber); err != nil { t.Fatalf("query refresh client version audit failed: %v", err) } if auditedAppVersion != "2.5.0" || auditedBuildNumber != "25001" { t.Fatalf("refresh client version audit mismatch: app_version=%q build_number=%q", auditedAppVersion, auditedBuildNumber) } graceToken, err := svc.RefreshToken(ctx, loginToken.RefreshToken, "ios", authservice.Meta{}) if err != nil || graceToken.AccessToken != refreshToken.AccessToken || graceToken.RefreshToken != refreshToken.RefreshToken || graceToken.SessionID != refreshToken.SessionID { t.Fatalf("direct parent retry must return the exact first token pair: got=%+v err=%v want=%+v", graceToken, err, refreshToken) } revoked, err := svc.Logout(ctx, refreshToken.SessionID, refreshToken.RefreshToken, authservice.Meta{RequestID: "req-logout"}) if err != nil || !revoked { t.Fatalf("Logout failed: revoked=%v err=%v", revoked, err) } if _, err := svc.RefreshToken(ctx, refreshToken.RefreshToken, "ios", authservice.Meta{}); !xerr.IsCode(err, xerr.SessionRevoked) { t.Fatalf("expected logout refresh token revoked, got %v", err) } if got := cache.revoked["lalu:"+refreshToken.SessionID]; got != "USER_LOGOUT" { t.Fatalf("logout must denylist access session, got %q", got) } if got, want := cache.revTTL["lalu:"+refreshToken.SessionID], time.Duration(testAccessTokenTTLSec+60)*time.Second; got != want { t.Fatalf("logout denylist TTL mismatch: got=%s want=%s", got, want) } } func TestRefreshTokenDenylistFailureRecoversPersistedRotationOnRetry(t *testing.T) { // MySQL 先原子提交 rotation/outcome/job;Redis 短暂失败时首个请求返回 unavailable, // 同一个旧 refresh token 的重试必须从 grace outcome 恢复同一 token pair,不能再建 child 或分叉。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() svc := newAuthService(repository, &now, []int64{900012}, []string{"100012"}, authservice.WithIPDecisionCache(cache)) token, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-denylist-failure", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu", RequestID: "req-login"}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } cache.err = errors.New("redis unavailable") refreshMeta := authservice.Meta{AppCode: "lalu", RequestID: "req-refresh-fail", RefreshRequestID: "refresh-after-redis-outage"} if _, err := svc.RefreshToken(ctx, token.RefreshToken, "dev-ios", refreshMeta); !xerr.IsCode(err, xerr.Unavailable) { t.Fatalf("RefreshToken should surface unavailable when access denylist write fails: %v", err) } var revokedReason string var childCount int var outcomeCount int var pendingJobs int if err := repository.RawDB().QueryRowContext(ctx, `SELECT revoked_reason FROM auth_sessions WHERE session_id = ?`, token.SessionID).Scan(&revokedReason); err != nil { t.Fatalf("query committed parent rotation failed: %v", err) } if err := repository.RawDB().QueryRowContext(ctx, `SELECT COUNT(*) FROM auth_sessions WHERE parent_session_id = ?`, token.SessionID).Scan(&childCount); err != nil { t.Fatalf("query committed child failed: %v", err) } if err := repository.RawDB().QueryRowContext(ctx, `SELECT COUNT(*) FROM auth_refresh_outcomes WHERE parent_session_id = ?`, token.SessionID).Scan(&outcomeCount); err != nil { t.Fatalf("query committed refresh outcome failed: %v", err) } if err := repository.RawDB().QueryRowContext(ctx, `SELECT COUNT(*) FROM auth_session_denylist_jobs WHERE session_id = ? AND status = 'pending'`, token.SessionID).Scan(&pendingJobs); err != nil { t.Fatalf("query committed denylist job failed: %v", err) } if revokedReason != "REFRESH_ROTATED" || childCount != 1 || outcomeCount != 1 || pendingJobs != 1 { t.Fatalf("rotation transaction mismatch: reason=%q children=%d outcomes=%d pending_jobs=%d", revokedReason, childCount, outcomeCount, pendingJobs) } cache.err = nil refreshed, err := svc.RefreshToken(ctx, token.RefreshToken, "dev-ios", refreshMeta) if err != nil { t.Fatalf("RefreshToken retry must recover persisted outcome: %v", err) } if refreshed.SessionID == token.SessionID || refreshed.RefreshToken == token.RefreshToken { t.Fatalf("recovered outcome must contain rotated session and refresh token: old=%+v new=%+v", token, refreshed) } again, err := svc.RefreshToken(ctx, token.RefreshToken, "dev-ios", refreshMeta) if err != nil || again.AccessToken != refreshed.AccessToken || again.RefreshToken != refreshed.RefreshToken || again.SessionID != refreshed.SessionID { t.Fatalf("subsequent grace retry must return exact persisted pair: first=%+v again=%+v err=%v", refreshed, again, err) } if got := cache.revoked["lalu:"+token.SessionID]; got != "REFRESH_ROTATED" { t.Fatalf("retry must denylist original session, got %q", got) } var deliveredJobs int if err := repository.RawDB().QueryRowContext(ctx, `SELECT COUNT(*) FROM auth_session_denylist_jobs WHERE session_id = ? AND status = 'delivered'`, token.SessionID).Scan(&deliveredJobs); err != nil { t.Fatalf("query delivered denylist job failed: %v", err) } if deliveredJobs != 1 { t.Fatalf("successful retry must close the durable denylist job, got %d", deliveredJobs) } } func TestRefreshTokenDatabaseFailureDoesNotDenyActiveSession(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() normal := newAuthService(repository, &now, []int64{900044}, []string{"100044"}, authservice.WithIPDecisionCache(cache)) token, _, err := normal.LoginThirdParty(ctx, "wechat", "openid-refresh-db-failure", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu"}) if err != nil { t.Fatalf("login failed: %v", err) } failing := newAuthService(repository, &now, []int64{900045}, []string{"100045"}, authservice.WithIPDecisionCache(cache), authservice.WithAuthRepository(failingRotateAuthRepository{AuthRepository: repository}), ) if _, err := failing.RefreshToken(ctx, token.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RefreshRequestID: "db-failure"}); err == nil { t.Fatal("refresh must surface the forced MySQL failure") } if got, ok := cache.revoked["lalu:"+token.SessionID]; ok { t.Fatalf("failed DB rotation must not deny the still-active sid, got %q", got) } var revokedAt *int64 var childCount int var jobCount int if err := repository.RawDB().QueryRowContext(ctx, `SELECT revoked_at_ms FROM auth_sessions WHERE session_id = ?`, token.SessionID).Scan(&revokedAt); err != nil { t.Fatalf("query source session failed: %v", err) } if err := repository.RawDB().QueryRowContext(ctx, `SELECT COUNT(*) FROM auth_sessions WHERE parent_session_id = ?`, token.SessionID).Scan(&childCount); err != nil { t.Fatalf("query child sessions failed: %v", err) } if err := repository.RawDB().QueryRowContext(ctx, `SELECT COUNT(*) FROM auth_session_denylist_jobs WHERE session_id = ?`, token.SessionID).Scan(&jobCount); err != nil { t.Fatalf("query denylist jobs failed: %v", err) } if revokedAt != nil || childCount != 0 || jobCount != 0 { t.Fatalf("failed DB rotation changed durable state: revoked_at=%v children=%d jobs=%d", revokedAt, childCount, jobCount) } } func TestRefreshDenylistDeadlineKeepsHistoricalSevenDayFloor(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() loginSvc := newAuthService(repository, &now, []int64{900046}, []string{"100046"}, authservice.WithIPDecisionCache(cache)) token, _, err := loginSvc.LoginThirdParty(ctx, "wechat", "openid-short-access-ttl", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu"}) if err != nil { t.Fatalf("login failed: %v", err) } // 模拟 access TTL 从历史 7 天降到 1 小时;撤销 deadline 仍须覆盖已签发的历史 token。 shortTTLSvc := authservice.New(authservice.Config{ Issuer: "hyapp-test", AccessTokenTTLSec: 3600, RefreshTokenTTLSec: 2592000, SigningAlg: "HS256", SigningSecret: "test-secret", }, authservice.WithAuthRepository(repository), authservice.WithUserRepository(repository), authservice.WithIdentityRepository(repository), authservice.WithCountryRegionRepository(repository), authservice.WithClock(func() time.Time { return now }), authservice.WithIPDecisionCache(cache), ) if _, err := shortTTLSvc.RefreshToken(ctx, token.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RefreshRequestID: "short-ttl-refresh"}); err != nil { t.Fatalf("refresh with shorter current TTL failed: %v", err) } if got, want := cache.revTTL["lalu:"+token.SessionID], 7*24*time.Hour+time.Minute; got != want { t.Fatalf("historical access TTL floor was shortened: got=%s want=%s", got, want) } } func TestSessionDenylistHydrationPaginatesAllStatesAndFailsOnRedisError(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) now := time.UnixMilli(1000) const jobCount = 1001 tx, err := repository.RawDB().BeginTx(ctx, nil) if err != nil { t.Fatalf("begin denylist seed transaction failed: %v", err) } statement, err := tx.PrepareContext(ctx, ` INSERT INTO auth_session_denylist_jobs (app_code, session_id, reason, status, attempts, next_retry_at_ms, locked_by, locked_until_ms, last_error, deny_until_ms, created_at_ms, updated_at_ms) VALUES ('lalu', ?, 'REFRESH_TOKEN_REUSE', ?, 0, ?, ?, ?, '', ?, ?, ?) `) if err != nil { _ = tx.Rollback() t.Fatalf("prepare denylist seed failed: %v", err) } statuses := []string{"delivered", "processing", "retryable"} for index := 0; index < jobCount; index++ { status := statuses[index%len(statuses)] lockedBy := "" lockedUntilMs := int64(0) if status == "processing" { lockedBy = "old-pod" lockedUntilMs = now.Add(time.Hour).UnixMilli() } // retryable 的 next_retry 在未来,证明 hydration 不受 worker 调度状态约束。 if _, err := statement.ExecContext(ctx, fmt.Sprintf("hydrate-%04d", index), status, now.Add(time.Hour).UnixMilli(), lockedBy, lockedUntilMs, now.Add(8*24*time.Hour).UnixMilli(), now.UnixMilli(), now.UnixMilli()); err != nil { _ = statement.Close() _ = tx.Rollback() t.Fatalf("seed denylist job %d failed: %v", index, err) } } if err := statement.Close(); err != nil { _ = tx.Rollback() t.Fatalf("close denylist seed statement failed: %v", err) } if err := tx.Commit(); err != nil { t.Fatalf("commit denylist seeds failed: %v", err) } cache := newMemoryDecisionCache() svc := newAuthService(repository, &now, []int64{900047}, []string{"100047"}, authservice.WithIPDecisionCache(cache)) processed, err := svc.RehydrateAllSessionDenylistJobs(ctx, 100) if err != nil || processed != jobCount { t.Fatalf("hydrate all denylist jobs failed: processed=%d err=%v", processed, err) } if got := len(cache.revoked); got != jobCount { t.Fatalf("hydration cursor skipped jobs: got=%d want=%d", got, jobCount) } for _, index := range []int{0, 500, 1000} { if got := cache.revoked[fmt.Sprintf("lalu:hydrate-%04d", index)]; got != "REFRESH_TOKEN_REUSE" { t.Fatalf("hydrated sid %d missing: %q", index, got) } } failingCache := newMemoryDecisionCache() failingCache.err = errors.New("redis unavailable") failingSvc := newAuthService(repository, &now, []int64{900048}, []string{"100048"}, authservice.WithIPDecisionCache(failingCache)) processed, err = failingSvc.RehydrateAllSessionDenylistJobs(ctx, 100) if err == nil || processed != 0 { t.Fatalf("hydration must fail closed on Redis error: processed=%d err=%v", processed, err) } } func TestSessionDenylistDeliveredCASDoesNotHideExtendedDeadline(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) nowMs := int64(1000) oldDenyUntilMs := nowMs + int64(time.Hour/time.Millisecond) newDenyUntilMs := nowMs + int64((2*time.Hour)/time.Millisecond) result, err := repository.RawDB().ExecContext(ctx, ` INSERT INTO auth_session_denylist_jobs (app_code, session_id, reason, status, attempts, next_retry_at_ms, locked_by, locked_until_ms, last_error, deny_until_ms, created_at_ms, updated_at_ms) VALUES ('lalu', 'cas-extended-sid', 'REFRESH_ROTATED', 'processing', 1, 0, 'old-worker', 5000, '', ?, ?, ?) `, oldDenyUntilMs, nowMs, nowMs) if err != nil { t.Fatalf("seed claimed denylist job failed: %v", err) } jobID, err := result.LastInsertId() if err != nil { t.Fatalf("read denylist job id failed: %v", err) } // 模拟 worker 写 Redis 旧 TTL 的同时,另一事务把同 sid 延长并重新置 pending。 if _, err := repository.RawDB().ExecContext(ctx, ` UPDATE auth_session_denylist_jobs SET deny_until_ms = ?, reason = 'REFRESH_TOKEN_REUSE', status = 'pending', locked_by = '', locked_until_ms = 0 WHERE job_id = ? `, newDenyUntilMs, jobID); err != nil { t.Fatalf("extend denylist deadline failed: %v", err) } if err := repository.MarkSessionDenylistJobDelivered(ctx, jobID, "lalu", "cas-extended-sid", "REFRESH_ROTATED", oldDenyUntilMs, nowMs, nowMs+1000); err != nil { t.Fatalf("stale delivered CAS failed: %v", err) } var status string var denyUntilMs int64 if err := repository.RawDB().QueryRowContext(ctx, `SELECT status, deny_until_ms FROM auth_session_denylist_jobs WHERE job_id = ?`, jobID).Scan(&status, &denyUntilMs); err != nil { t.Fatalf("query extended denylist job failed: %v", err) } if status != "pending" || denyUntilMs != newDenyUntilMs { t.Fatalf("stale worker hid extended deadline: status=%s deny_until=%d want=%d", status, denyUntilMs, newDenyUntilMs) } } func TestRedisSessionDenylistTTLOnlyExtends(t *testing.T) { redisAddr := strings.TrimSpace(os.Getenv("HYAPP_TEST_REDIS_ADDR")) if redisAddr == "" { t.Skip("HYAPP_TEST_REDIS_ADDR is not configured") } ctx := context.Background() client := redis.NewClient(&redis.Options{Addr: redisAddr}) t.Cleanup(func() { _ = client.Close() }) if err := client.Ping(ctx).Err(); err != nil { t.Fatalf("connect test Redis failed: %v", err) } const key = "auth:revoked_session:lalu:ttl-only-extends" t.Cleanup(func() { _ = client.Del(context.Background(), key).Err() }) if err := client.Del(ctx, key).Err(); err != nil { t.Fatalf("clear test denylist key failed: %v", err) } cache := authservice.NewRedisIPDecisionCache(client) if err := cache.SetRevokedSession(ctx, "lalu", "ttl-only-extends", "LONG", 10*time.Second); err != nil { t.Fatalf("write initial denylist TTL failed: %v", err) } if err := cache.SetRevokedSession(ctx, "lalu", "ttl-only-extends", "SHORT", time.Second); err != nil { t.Fatalf("write shorter denylist TTL failed: %v", err) } shortAttemptTTL, err := client.PTTL(ctx, key).Result() if err != nil { t.Fatalf("read denylist TTL after shorter attempt failed: %v", err) } value, err := client.Get(ctx, key).Result() if err != nil { t.Fatalf("read denylist reason after shorter attempt failed: %v", err) } if shortAttemptTTL < 9*time.Second || value != "LONG" { t.Fatalf("shorter stale write reduced protection: ttl=%s value=%q", shortAttemptTTL, value) } if err := cache.SetRevokedSession(ctx, "lalu", "ttl-only-extends", "EXTENDED", 20*time.Second); err != nil { t.Fatalf("extend denylist TTL failed: %v", err) } extendedTTL, err := client.PTTL(ctx, key).Result() if err != nil { t.Fatalf("read extended denylist TTL failed: %v", err) } value, err = client.Get(ctx, key).Result() if err != nil { t.Fatalf("read extended denylist reason failed: %v", err) } if extendedTTL < 19*time.Second || value != "EXTENDED" { t.Fatalf("longer write did not extend protection: ttl=%s value=%q", extendedTTL, value) } if epoch, err := cache.SessionDenylistEpoch(ctx); err != nil || strings.TrimSpace(epoch) == "" { t.Fatalf("Redis epoch must expose run_id for restart detection: epoch=%q err=%v", epoch, err) } } func TestRefreshRotationGraceReplayRevokesFamilyAndDurablyRetriesDenylist(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() metrics := newMemoryRefreshMetrics() svc := newAuthService(repository, &now, []int64{900016}, []string{"100016"}, authservice.WithIPDecisionCache(cache), authservice.WithRefreshMetricRecorder(metrics), ) root, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-refresh-family", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu", RequestID: "req-login"}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } now = now.Add(time.Second) first, err := svc.RefreshToken(ctx, root.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RequestID: "trace-1", RefreshRequestID: "refresh-attempt-1"}) if err != nil { t.Fatalf("first refresh failed: %v", err) } now = now.Add(10 * time.Second) grace, err := svc.RefreshToken(ctx, root.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RequestID: "trace-2", RefreshRequestID: "refresh-attempt-network-retry"}) if err != nil || grace.AccessToken != first.AccessToken || grace.RefreshToken != first.RefreshToken || grace.SessionID != first.SessionID { t.Fatalf("direct predecessor grace must reuse exact token pair: grace=%+v first=%+v err=%v", grace, first, err) } now = now.Add(time.Second) second, err := svc.RefreshToken(ctx, first.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RequestID: "trace-3", RefreshRequestID: "refresh-attempt-2"}) if err != nil { t.Fatalf("second generation refresh failed: %v", err) } var rootFamily string var rootGeneration int64 var firstFamily string var firstGeneration int64 var secondFamily string var secondGeneration int64 if err := repository.RawDB().QueryRowContext(ctx, `SELECT token_family_id, generation FROM auth_sessions WHERE session_id = ?`, root.SessionID).Scan(&rootFamily, &rootGeneration); err != nil { t.Fatalf("query root lineage failed: %v", err) } if err := repository.RawDB().QueryRowContext(ctx, `SELECT token_family_id, generation FROM auth_sessions WHERE session_id = ?`, first.SessionID).Scan(&firstFamily, &firstGeneration); err != nil { t.Fatalf("query first lineage failed: %v", err) } if err := repository.RawDB().QueryRowContext(ctx, `SELECT token_family_id, generation FROM auth_sessions WHERE session_id = ?`, second.SessionID).Scan(&secondFamily, &secondGeneration); err != nil { t.Fatalf("query second lineage failed: %v", err) } if rootFamily != root.SessionID || firstFamily != rootFamily || secondFamily != rootFamily || rootGeneration != 0 || firstGeneration != 1 || secondGeneration != 2 { t.Fatalf("token family lineage mismatch: root=%s/%d first=%s/%d second=%s/%d", rootFamily, rootGeneration, firstFamily, firstGeneration, secondFamily, secondGeneration) } cache.err = errors.New("redis unavailable") now = now.Add(time.Second) if _, err := svc.RefreshToken(ctx, root.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RequestID: "trace-reuse", RefreshRequestID: "refresh-attempt-reuse"}); !xerr.IsCode(err, xerr.Unavailable) { t.Fatalf("second-to-last token must revoke family and surface denylist outage: %v", err) } var activeReason string if err := repository.RawDB().QueryRowContext(ctx, `SELECT revoked_reason FROM auth_sessions WHERE session_id = ?`, second.SessionID).Scan(&activeReason); err != nil { t.Fatalf("query active generation after reuse failed: %v", err) } if activeReason != "REFRESH_TOKEN_REUSE" { t.Fatalf("active generation must be revoked on reuse, got %q", activeReason) } var pendingJobs int if err := repository.RawDB().QueryRowContext(ctx, `SELECT COUNT(*) FROM auth_session_denylist_jobs WHERE app_code = 'lalu' AND reason = 'REFRESH_TOKEN_REUSE' AND status = 'pending'`).Scan(&pendingJobs); err != nil { t.Fatalf("query durable denylist jobs failed: %v", err) } if pendingJobs != 3 { t.Fatalf("family revoke must persist one denylist job per sid, got %d", pendingJobs) } processed, err := svc.ProcessSessionDenylistBatch(ctx, "denylist-test", 10) if err == nil || processed != 3 { t.Fatalf("denylist worker must move failed Redis writes to retryable: processed=%d err=%v", processed, err) } var retryableJobs int if err := repository.RawDB().QueryRowContext(ctx, `SELECT COUNT(*) FROM auth_session_denylist_jobs WHERE app_code = 'lalu' AND reason = 'REFRESH_TOKEN_REUSE' AND status = 'retryable'`).Scan(&retryableJobs); err != nil { t.Fatalf("query retryable denylist jobs failed: %v", err) } if retryableJobs != 3 { t.Fatalf("failed compensation must leave all jobs retryable, got %d", retryableJobs) } cache.err = nil now = now.Add(3 * time.Second) processed, err = svc.ProcessSessionDenylistBatch(ctx, "denylist-test", 10) if err != nil || processed != 3 { t.Fatalf("denylist retry compensation failed: processed=%d err=%v", processed, err) } for _, sessionID := range []string{root.SessionID, first.SessionID, second.SessionID} { if got := cache.revoked["lalu:"+sessionID]; got != "REFRESH_TOKEN_REUSE" { t.Fatalf("family sid %s missing replay denylist, got %q", sessionID, got) } } var deliveredJobs int if err := repository.RawDB().QueryRowContext(ctx, `SELECT COUNT(*) FROM auth_session_denylist_jobs WHERE app_code = 'lalu' AND reason = 'REFRESH_TOKEN_REUSE' AND status = 'delivered'`).Scan(&deliveredJobs); err != nil { t.Fatalf("query delivered denylist jobs failed: %v", err) } if deliveredJobs != 3 { t.Fatalf("all denylist jobs must be delivered, got %d", deliveredJobs) } var outcomeCount int if err := repository.RawDB().QueryRowContext(ctx, `SELECT COUNT(*) FROM auth_refresh_outcomes WHERE app_code = 'lalu'`).Scan(&outcomeCount); err != nil { t.Fatalf("query refresh outcomes failed: %v", err) } if outcomeCount != 0 { t.Fatalf("family revoke must delete encrypted token outcomes, got %d", outcomeCount) } if metrics.count("lalu", "refresh_success") != 2 || metrics.count("lalu", "grace_hit") != 1 || metrics.count("lalu", "token_reuse") != 1 || metrics.count("lalu", "family_revoked") != 1 { t.Fatalf("refresh metrics mismatch: %+v", metrics.counts) } } func TestConcurrentRefreshRetriesReturnOnePersistedTokenPair(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() metrics := newMemoryRefreshMetrics() svc := newAuthService(repository, &now, []int64{900019}, []string{"100019"}, authservice.WithIPDecisionCache(cache), authservice.WithRefreshMetricRecorder(metrics), ) root, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-concurrent-refresh", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu", RequestID: "req-login"}) if err != nil { t.Fatalf("login failed: %v", err) } now = now.Add(time.Second) const parallel = 20 start := make(chan struct{}) results := make(chan authdomain.Token, parallel) errorsCh := make(chan error, parallel) var wg sync.WaitGroup for i := 0; i < parallel; i++ { wg.Add(1) go func() { defer wg.Done() <-start token, refreshErr := svc.RefreshToken(ctx, root.RefreshToken, "dev-ios", authservice.Meta{ AppCode: "lalu", RequestID: "trace-concurrent-refresh", RefreshRequestID: "refresh-request-single-flight", }) if refreshErr != nil { errorsCh <- refreshErr return } results <- token }() } close(start) wg.Wait() close(results) close(errorsCh) for refreshErr := range errorsCh { t.Fatalf("concurrent refresh failed: %v", refreshErr) } var canonical authdomain.Token count := 0 for token := range results { if count == 0 { canonical = token } else if token.AccessToken != canonical.AccessToken || token.RefreshToken != canonical.RefreshToken || token.SessionID != canonical.SessionID { t.Fatalf("concurrent retry forked token pair: canonical=%+v got=%+v", canonical, token) } count++ } if count != parallel { t.Fatalf("concurrent result count mismatch: got=%d want=%d", count, parallel) } var childCount int if err := repository.RawDB().QueryRowContext(ctx, `SELECT COUNT(*) FROM auth_sessions WHERE app_code = 'lalu' AND parent_session_id = ?`, root.SessionID).Scan(&childCount); err != nil { t.Fatalf("query refresh child count failed: %v", err) } if childCount != 1 { t.Fatalf("concurrent refresh must create exactly one child, got %d", childCount) } var outcomeCount int if err := repository.RawDB().QueryRowContext(ctx, `SELECT COUNT(*) FROM auth_refresh_outcomes WHERE app_code = 'lalu' AND parent_session_id = ?`, root.SessionID).Scan(&outcomeCount); err != nil { t.Fatalf("query refresh outcome count failed: %v", err) } if outcomeCount != 1 { t.Fatalf("concurrent refresh must persist exactly one canonical outcome, got %d", outcomeCount) } if metrics.count("lalu", "refresh_success") != 1 || metrics.count("lalu", "grace_hit") != parallel-1 { t.Fatalf("concurrent refresh metrics mismatch: %+v", metrics.counts) } } func TestRefreshGraceUsesPersistedWinnerDeadlineAcrossConfigRollout(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() winner := newAuthService(repository, &now, []int64{900043}, []string{"100043"}, authservice.WithIPDecisionCache(cache)) root, _, err := winner.LoginThirdParty(ctx, "wechat", "openid-refresh-grace-config-rollout", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu"}) if err != nil { t.Fatalf("login failed: %v", err) } now = now.Add(time.Second) first, err := winner.RefreshToken(ctx, root.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RefreshRequestID: "winner-30s-grace"}) if err != nil { t.Fatalf("winner refresh failed: %v", err) } // retry 实例模拟滚动配置从 30s 降到 10s;首次事务固化的 30s deadline 才是这次 token pair 的唯一窗口事实。 retry := authservice.New(authservice.Config{ Issuer: "hyapp-test", AccessTokenTTLSec: testAccessTokenTTLSec, RefreshTokenTTLSec: 2592000, RefreshRotationGraceSec: 10, SigningAlg: "HS256", SigningSecret: "test-secret", }, authservice.WithAuthRepository(repository), authservice.WithClock(func() time.Time { return now }), authservice.WithIPDecisionCache(cache), ) now = now.Add(5 * time.Second) grace, err := retry.RefreshToken(ctx, root.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RefreshRequestID: "retry-on-10s-instance"}) if err != nil || grace.AccessToken != first.AccessToken || grace.RefreshToken != first.RefreshToken || grace.SessionID != first.SessionID { t.Fatalf("retry must trust persisted winner deadline and return exact pair: grace=%+v first=%+v err=%v", grace, first, err) } } func TestLegacyActiveSessionFirstRotationUsesItselfAsFamilyRoot(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() svc := newAuthService(repository, &now, []int64{900040}, []string{"100040"}, authservice.WithIPDecisionCache(cache)) legacy, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-legacy-refresh-family", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu"}) if err != nil { t.Fatalf("login failed: %v", err) } // 模拟 018 上线前已存在的 active 行:新增列默认空值,首次新版轮换必须原地升级 lineage,不能另起错误 family。 if _, err := repository.RawDB().ExecContext(ctx, ` UPDATE auth_sessions SET token_family_id = '', generation = 0, parent_session_id = '', rotated_to_session_id = '', rotation_at_ms = 0, rotation_request_id = '' WHERE app_code = 'lalu' AND session_id = ? `, legacy.SessionID); err != nil { t.Fatalf("downgrade session to legacy lineage failed: %v", err) } now = now.Add(time.Second) child, err := svc.RefreshToken(ctx, legacy.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RefreshRequestID: "legacy-first-refresh"}) if err != nil { t.Fatalf("legacy first rotation failed: %v", err) } var parentFamily string var childFamily string var childGeneration int64 var childParent string if err := repository.RawDB().QueryRowContext(ctx, `SELECT token_family_id FROM auth_sessions WHERE session_id = ?`, legacy.SessionID).Scan(&parentFamily); err != nil { t.Fatalf("query upgraded legacy parent failed: %v", err) } if err := repository.RawDB().QueryRowContext(ctx, `SELECT token_family_id, generation, parent_session_id FROM auth_sessions WHERE session_id = ?`, child.SessionID).Scan(&childFamily, &childGeneration, &childParent); err != nil { t.Fatalf("query legacy child lineage failed: %v", err) } if parentFamily != legacy.SessionID || childFamily != legacy.SessionID || childGeneration != 1 || childParent != legacy.SessionID { t.Fatalf("legacy lineage upgrade mismatch: parent_family=%q child_family=%q generation=%d parent=%q root=%q", parentFamily, childFamily, childGeneration, childParent, legacy.SessionID) } } func TestLegacyBinaryRotationReplayDoesNotRevokeUnprovenNewSessions(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() metrics := newMemoryRefreshMetrics() svc := newAuthService(repository, &now, []int64{900042}, []string{"100042"}, authservice.WithIPDecisionCache(cache), authservice.WithRefreshMetricRecorder(metrics), ) root, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-legacy-binary-rotation", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu"}) if err != nil { t.Fatalf("ios login failed: %v", err) } android, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-legacy-binary-rotation", thirdPartyRegistration("android"), authservice.Meta{AppCode: "lalu"}) if err != nil { t.Fatalf("android login failed: %v", err) } const legacyChildID = "sess_legacy_binary_child" const legacyRotationAtMs = int64(2000) // 精确模拟迁移后仍在滚动运行的旧 ReplaceSession:parent 只写 REFRESH_ROTATED,child 的六个 lineage 列全走 DDL 默认值。 if _, err := repository.RawDB().ExecContext(ctx, ` UPDATE auth_sessions SET token_family_id = '', revoked_at_ms = ?, revoked_reason = 'REFRESH_ROTATED', revoked_by = 'refresh_token', rotated_to_session_id = '', rotation_at_ms = 0, rotation_request_id = '', updated_at_ms = ? WHERE app_code = 'lalu' AND session_id = ? `, legacyRotationAtMs, legacyRotationAtMs, root.SessionID); err != nil { t.Fatalf("simulate legacy parent rotation failed: %v", err) } if _, err := repository.RawDB().ExecContext(ctx, ` INSERT INTO auth_sessions (app_code, session_id, user_id, refresh_token_hash, token_family_id, generation, parent_session_id, rotated_to_session_id, rotation_at_ms, rotation_request_id, device_id, expires_at_ms, last_heartbeat_at_ms, last_heartbeat_request_id, revoked_at_ms, revoked_reason, revoked_request_id, revoked_by, created_at_ms, updated_at_ms) SELECT app_code, ?, user_id, 'legacy_binary_child_refresh_hash', '', 0, '', '', 0, '', device_id, expires_at_ms, 0, '', NULL, '', '', '', ?, ? FROM auth_sessions WHERE app_code = 'lalu' AND session_id = ? `, legacyChildID, legacyRotationAtMs, legacyRotationAtMs, root.SessionID); err != nil { t.Fatalf("simulate legacy child insert failed: %v", err) } now = time.UnixMilli(3000) if _, err := svc.RefreshToken(ctx, root.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RefreshRequestID: "legacy-parent-replay"}); !xerr.IsCode(err, xerr.SessionRevoked) { t.Fatalf("legacy parent replay must reject the old token, got %v", err) } var childRevokedAt *int64 var childReason string if err := repository.RawDB().QueryRowContext(ctx, `SELECT revoked_at_ms, revoked_reason FROM auth_sessions WHERE session_id = ?`, legacyChildID).Scan(&childRevokedAt, &childReason); err != nil { t.Fatalf("query unproven legacy child failed: %v", err) } if childRevokedAt != nil || childReason != "" { t.Fatalf("unproven successor must remain active: revoked_at=%v reason=%q", childRevokedAt, childReason) } for _, sessionID := range []string{root.SessionID, legacyChildID} { if got, ok := cache.revoked["lalu:"+sessionID]; ok { t.Fatalf("legacy replay without provable lineage must not create denylist for sid %s, got %q", sessionID, got) } } if metrics.count("lalu", "token_reuse") != 0 || metrics.count("lalu", "family_revoked") != 0 { t.Fatalf("unproven legacy replay must not emit family-reuse metrics: %+v", metrics.counts) } // 显式 logout 也不能从 legacy root 按 user/device 猜 successor;它只撤销已锁定 source。 if _, err := svc.Logout(ctx, root.SessionID, "", authservice.Meta{AppCode: "lalu", RequestID: "legacy-root-logout"}); err != nil { t.Fatalf("legacy root logout failed: %v", err) } childRevokedAt = nil childReason = "" if err := repository.RawDB().QueryRowContext(ctx, `SELECT revoked_at_ms, revoked_reason FROM auth_sessions WHERE session_id = ?`, legacyChildID).Scan(&childRevokedAt, &childReason); err != nil { t.Fatalf("query unproven child after logout failed: %v", err) } if childRevokedAt != nil || childReason != "" { t.Fatalf("legacy logout must not revoke unproven successor: revoked_at=%v reason=%q", childRevokedAt, childReason) } if _, ok := cache.revoked["lalu:"+legacyChildID]; ok { t.Fatal("legacy logout must not denylist unproven successor") } if _, ok := cache.revoked["lalu:"+android.SessionID]; ok { t.Fatal("legacy replay must not revoke another device") } if _, err := svc.RefreshToken(ctx, android.RefreshToken, "dev-android", authservice.Meta{AppCode: "lalu", RefreshRequestID: "android-after-legacy-replay"}); err != nil { t.Fatalf("other device must remain refreshable after legacy replay: %v", err) } } func TestCorrectRefreshTokenOnWrongDeviceRevokesItsFamilyAsReuse(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() metrics := newMemoryRefreshMetrics() svc := newAuthService(repository, &now, []int64{900041}, []string{"100041"}, authservice.WithIPDecisionCache(cache), authservice.WithRefreshMetricRecorder(metrics), ) root, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-refresh-wrong-device", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu"}) if err != nil { t.Fatalf("login failed: %v", err) } now = now.Add(time.Second) if _, err := svc.RefreshToken(ctx, root.RefreshToken, "dev-android", authservice.Meta{AppCode: "lalu", RefreshRequestID: "wrong-device-replay"}); !xerr.IsCode(err, xerr.SessionRevoked) { t.Fatalf("correct refresh token on another device must be treated as reuse, got %v", err) } var revokedReason string if err := repository.RawDB().QueryRowContext(ctx, `SELECT revoked_reason FROM auth_sessions WHERE session_id = ?`, root.SessionID).Scan(&revokedReason); err != nil { t.Fatalf("query wrong-device family revoke failed: %v", err) } if revokedReason != "REFRESH_TOKEN_REUSE" { t.Fatalf("wrong-device refresh must revoke token family as reuse, got %q", revokedReason) } if got := cache.revoked["lalu:"+root.SessionID]; got != "REFRESH_TOKEN_REUSE" { t.Fatalf("wrong-device reuse must denylist family access sid, got %q", got) } if metrics.count("lalu", "token_reuse") != 1 || metrics.count("lalu", "family_revoked") != 1 { t.Fatalf("wrong-device reuse metrics mismatch: %+v", metrics.counts) } } func TestLogoutUsingRotatedParentRevokesOnlyThatDeviceFamily(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() svc := newAuthService(repository, &now, []int64{900017}, []string{"100017"}, authservice.WithIPDecisionCache(cache)) iosRoot, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-logout-family", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu", RequestID: "req-ios-login"}) if err != nil { t.Fatalf("ios login failed: %v", err) } androidRegistration := thirdPartyRegistration("android") androidRoot, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-logout-family", androidRegistration, authservice.Meta{AppCode: "lalu", RequestID: "req-android-login"}) if err != nil { t.Fatalf("android login failed: %v", err) } now = now.Add(time.Second) iosChild, err := svc.RefreshToken(ctx, iosRoot.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RefreshRequestID: "ios-refresh"}) if err != nil { t.Fatalf("ios refresh failed: %v", err) } revoked, err := svc.Logout(ctx, iosRoot.SessionID, iosRoot.RefreshToken, authservice.Meta{AppCode: "lalu", RequestID: "logout-parent"}) if err != nil || !revoked { t.Fatalf("logout by rotated parent failed: revoked=%v err=%v", revoked, err) } if _, err := svc.RefreshToken(ctx, iosChild.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RefreshRequestID: "ios-after-logout"}); !xerr.IsCode(err, xerr.SessionRevoked) { t.Fatalf("rotated child must be revoked by parent logout, got %v", err) } for _, sessionID := range []string{iosRoot.SessionID, iosChild.SessionID} { if got := cache.revoked["lalu:"+sessionID]; got != "USER_LOGOUT" { t.Fatalf("ios family sid %s missing logout denylist, got %q", sessionID, got) } } if _, ok := cache.revoked["lalu:"+androidRoot.SessionID]; ok { t.Fatal("logout must not revoke a different device token family") } now = now.Add(time.Second) if _, err := svc.RefreshToken(ctx, androidRoot.RefreshToken, "dev-android", authservice.Meta{AppCode: "lalu", RefreshRequestID: "android-refresh"}); err != nil { t.Fatalf("different device family must remain refreshable: %v", err) } } func TestDirectParentRefreshAfterGraceRevokesFamily(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() svc := newAuthService(repository, &now, []int64{900018}, []string{"100018"}, authservice.WithIPDecisionCache(cache)) root, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-refresh-grace-expired", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu"}) if err != nil { t.Fatalf("login failed: %v", err) } now = now.Add(time.Second) child, err := svc.RefreshToken(ctx, root.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RefreshRequestID: "first"}) if err != nil { t.Fatalf("first refresh failed: %v", err) } now = now.Add(31 * time.Second) if _, err := svc.RefreshToken(ctx, root.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RefreshRequestID: "late-retry"}); !xerr.IsCode(err, xerr.SessionRevoked) { t.Fatalf("direct parent after grace must be treated as reuse, got %v", err) } var reason string if err := repository.RawDB().QueryRowContext(ctx, `SELECT revoked_reason FROM auth_sessions WHERE session_id = ?`, child.SessionID).Scan(&reason); err != nil { t.Fatalf("query child revoke reason failed: %v", err) } if reason != "REFRESH_TOKEN_REUSE" { t.Fatalf("late predecessor retry must revoke active child, got %q", reason) } } func TestRefreshAndLogoutRequireSessionDenylistCache(t *testing.T) { // 168 小时 access token 下,缺少 gateway denylist 写入能力时不能假装 refresh/logout 成功。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) svc := newAuthService(repository, &now, []int64{900014}, []string{"100014"}, authservice.WithIPDecisionCache(nil)) token, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-missing-denylist", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu", RequestID: "req-login"}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } if _, err := svc.RefreshToken(ctx, token.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RequestID: "req-refresh"}); !xerr.IsCode(err, xerr.Unavailable) { t.Fatalf("RefreshToken must fail without session denylist cache, got %v", err) } if revoked, err := svc.Logout(ctx, token.SessionID, token.RefreshToken, authservice.Meta{AppCode: "lalu", RequestID: "req-logout"}); err == nil || !xerr.IsCode(err, xerr.Unavailable) || revoked { t.Fatalf("Logout must fail without session denylist cache, revoked=%v err=%v", revoked, err) } } func TestLogoutByRefreshTokenUsesSessionAppCodeForDenylist(t *testing.T) { // logout 是公开接口,旧客户端可能只带 refresh_token;denylist 分区必须来自持久化 session,而不是依赖请求头。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() svc := newAuthService(repository, &now, []int64{900015}, []string{"100015"}, authservice.WithIPDecisionCache(cache)) token, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-refresh-only-logout", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu", RequestID: "req-login"}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } revoked, err := svc.Logout(ctx, "", token.RefreshToken, authservice.Meta{RequestID: "req-logout-refresh-only"}) if err != nil || !revoked { t.Fatalf("Logout by refresh token failed: revoked=%v err=%v", revoked, err) } if got := cache.revoked["lalu:"+token.SessionID]; got != "USER_LOGOUT" { t.Fatalf("logout must use session app_code for denylist, got %q", got) } if _, ok := cache.revoked[":"+token.SessionID]; ok { t.Fatal("logout must not write denylist under empty app_code") } } func TestCompleteOnboardingEmitsUserRegisteredOutboxWithSelectedCountry(t *testing.T) { // UserRegistered 是“注册页资料完成”事实,不是三方登录占位账号创建事实;统计国家必须来自最终提交的国家。 ctx := context.Background() repository := mysqltest.NewRepository(t) country := seedCountry(t, repository, "AE") region := mustResolveRegionByCountry(t, repository, "AE") loginAt := time.UnixMilli(1000) authSvc := newAuthService(repository, &loginAt, []int64{900031}, []string{"100031"}) token, isNewUser, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-onboarding-register", authdomain.ThirdPartyRegistration{ DeviceID: "dev-ios", Platform: "ios", }, authservice.Meta{RequestID: "req-third-create"}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } if !isNewUser || token.ProfileCompleted { t.Fatalf("third-party login should create profile-required user: token=%+v isNew=%v", token, isNewUser) } assertUserRegisteredOutboxCount(t, repository, token.UserID, 0) completedAtMS := int64(2500) userSvc := newUserService(repository, userservice.WithClock(func() time.Time { return time.UnixMilli(completedAtMS).UTC() })) user, err := userSvc.CompleteOnboarding(ctx, token.UserID, "Amina", "https://cdn.example/amina.png", "female", "ae", "", "req-complete-onboarding") if err != nil { t.Fatalf("CompleteOnboarding failed: %v", err) } if !user.ProfileCompleted || user.Country != "AE" || user.RegionID != region.RegionID || user.ProfileCompletedAtMs != completedAtMS { t.Fatalf("completed user snapshot mismatch: %+v", user) } assertUserRegisteredOutboxCount(t, repository, token.UserID, 1) assertUserRegisteredOutboxFact(t, repository, token.UserID, country.CountryID, region.RegionID, completedAtMS) } func TestQuickCreateAccountCreatesCompletedPasswordLogin(t *testing.T) { // 快捷建号必须一次性得到可登录短号、已完成资料快照和密码身份,服务游戏联调直接取 uid/token。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(2000) imImporter := &fakeIMAccountImporter{} svc := newAuthService(repository, &now, []int64{900011}, []string{"100011"}, authservice.WithIMAccountImporter(imImporter)) token, err := svc.QuickCreateAccount(ctx, "secret-pass", authdomain.ThirdPartyRegistration{ Username: "Lingxian Test", Avatar: "https://cdn.example/avatar.png", Gender: "unknown", Country: "SG", DeviceID: "quick-dev", Platform: "ios", Language: "en-US", Timezone: "Asia/Shanghai", AppVersion: "1.0.0", }, authservice.Meta{RequestID: "req-quick-create", AppCode: "lalu", ClientIP: "203.0.113.10", UserAgent: "quick-test/1.0"}) if err != nil { t.Fatalf("QuickCreateAccount failed: %v", err) } assertSevenDigitDisplayUserID(t, token.DisplayUserID) if token.UserID != 900011 || token.DisplayUserID == "" || token.AccessToken == "" || token.RefreshToken == "" { t.Fatalf("unexpected quick token: %+v", token) } if token.ExpiresInSec != testAccessTokenTTLSec { t.Fatalf("quick account access token TTL mismatch: %+v", token) } if !token.ProfileCompleted || token.OnboardingStatus != string(userdomain.OnboardingStatusCompleted) { t.Fatalf("quick account must be completed: %+v", token) } user, err := repository.GetUser(ctx, token.UserID) if err != nil { t.Fatalf("GetUser failed: %v", err) } if user.Username != "Lingxian Test" || user.Country != "SG" || !user.ProfileCompleted { t.Fatalf("quick user profile mismatch: %+v", user) } if imImporter.userID != 900011 || imImporter.nickname != "Lingxian Test" || imImporter.faceURL != "https://cdn.example/avatar.png" { t.Fatalf("quick account must import IM account: %+v", imImporter) } assertUserRegisteredOutboxCount(t, repository, token.UserID, 0) loginToken, err := svc.LoginPassword(ctx, token.DisplayUserID, "secret-pass", "quick-dev", authservice.Meta{RequestID: "req-quick-login", AppCode: "lalu"}) if err != nil { t.Fatalf("LoginPassword for quick account failed: %v", err) } if loginToken.UserID != token.UserID || loginToken.DisplayUserID != token.DisplayUserID || !loginToken.ProfileCompleted { t.Fatalf("quick account login token mismatch: %+v", loginToken) } } func TestQuickCreateGameRobotCannotLoginOrCreateSession(t *testing.T) { // 全站机器人复用用户资料和短号展示,但不是 App 登录主体;创建路径不能返回可用 token,也不能落 refresh session。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SA") now := time.UnixMilli(3000) imImporter := &fakeIMAccountImporter{} svc := newAuthService(repository, &now, []int64{900012}, []string{"100012"}, authservice.WithIMAccountImporter(imImporter)) token, err := svc.QuickCreateAccount(ctx, "secret-pass", authdomain.ThirdPartyRegistration{ Username: "Robot Account", Avatar: "https://cdn.example/robot.png", Gender: "unknown", Country: "SA", DeviceID: "robot-dev", Source: userdomain.RegisterSourceGameRobot, Platform: "android", Language: "ar", Timezone: "UTC", AppVersion: "1.0.0", }, authservice.Meta{RequestID: "req-robot-create", AppCode: "lalu", ClientIP: "203.0.113.20", UserAgent: "robot-test/1.0"}) if err != nil { t.Fatalf("QuickCreateAccount robot failed: %v", err) } assertSevenDigitDisplayUserID(t, token.DisplayUserID) if token.UserID != 900012 || token.DisplayUserID == "" || token.AccessToken != "" || token.RefreshToken != "" || token.SessionID != "" { t.Fatalf("robot token must expose identity without login credentials: %+v", token) } user, err := repository.GetUser(ctx, token.UserID) if err != nil { t.Fatalf("GetUser robot failed: %v", err) } if user.RegisterSource != userdomain.RegisterSourceGameRobot || user.CanLogin() { t.Fatalf("robot user source/login boundary mismatch: %+v", user) } if imImporter.userID != 0 { t.Fatalf("robot account must not import IM login account: %+v", imImporter) } var sessionCount int if err := repository.RawDB().QueryRowContext(ctx, ` SELECT COUNT(*) FROM auth_sessions WHERE app_code = 'lalu' AND user_id = ? `, token.UserID).Scan(&sessionCount); err != nil { t.Fatalf("query robot sessions failed: %v", err) } if sessionCount != 0 { t.Fatalf("robot account must not create auth session, got %d", sessionCount) } assertUserRegisteredOutboxCount(t, repository, token.UserID, 0) if _, err := svc.LoginPassword(ctx, token.DisplayUserID, "secret-pass", "robot-dev", authservice.Meta{RequestID: "req-robot-login", AppCode: "lalu"}); !xerr.IsCode(err, xerr.UserDisabled) { t.Fatalf("robot password login must be blocked, got %v", err) } } func TestGameRobotSourceDoesNotEmitUserRegisteredOutbox(t *testing.T) { // UserRegistered 是新增用户和留存 cohort 的事实来源;source=game_robot 即使走通用用户创建事务也不能写入统计 outbox。 ctx := context.Background() repository := mysqltest.NewRepository(t) now := time.UnixMilli(4000) robot := userdomain.User{ AppCode: "lalu", UserID: 900101, DefaultDisplayUserID: "190101", CurrentDisplayUserID: "190101", CurrentDisplayUserIDKind: userdomain.DisplayUserIDKindDefault, RegisterSource: userdomain.RegisterSourceGameRobot, Status: userdomain.StatusActive, CreatedAtMs: now.UnixMilli(), UpdatedAtMs: now.UnixMilli(), } normal := userdomain.User{ AppCode: "lalu", UserID: 900102, DefaultDisplayUserID: "190102", CurrentDisplayUserID: "190102", CurrentDisplayUserIDKind: userdomain.DisplayUserIDKindDefault, Status: userdomain.StatusActive, CreatedAtMs: now.Add(time.Millisecond).UnixMilli(), UpdatedAtMs: now.Add(time.Millisecond).UnixMilli(), } if err := repository.CreateUserWithIdentity(ctx, robot, userdomain.Identity{ AppCode: "lalu", UserID: robot.UserID, DisplayUserID: robot.DefaultDisplayUserID, DefaultDisplayUserID: robot.DefaultDisplayUserID, DisplayUserIDKind: userdomain.DisplayUserIDKindDefault, Status: userdomain.DisplayUserIDStatusActive, }); err != nil { t.Fatalf("create robot user failed: %v", err) } if err := repository.CreateUserWithIdentity(ctx, normal, userdomain.Identity{ AppCode: "lalu", UserID: normal.UserID, DisplayUserID: normal.DefaultDisplayUserID, DefaultDisplayUserID: normal.DefaultDisplayUserID, DisplayUserIDKind: userdomain.DisplayUserIDKindDefault, Status: userdomain.DisplayUserIDStatusActive, }); err != nil { t.Fatalf("create normal user failed: %v", err) } var outboxCount int var aggregateID int64 if err := repository.RawDB().QueryRowContext(ctx, ` SELECT COUNT(*), COALESCE(MAX(aggregate_id), 0) FROM user_outbox WHERE app_code = 'lalu' AND event_type = 'UserRegistered' `).Scan(&outboxCount, &aggregateID); err != nil { t.Fatalf("query user registered outbox failed: %v", err) } if outboxCount != 1 || aggregateID != normal.UserID { t.Fatalf("robot source must be excluded from UserRegistered outbox, count=%d aggregate=%d", outboxCount, aggregateID) } } func TestRefreshTokenCarriesProfileRequiredOnboardingStatus(t *testing.T) { // gateway profile gate 依赖 access token 快照;未完成 onboarding 的新用户刷新后仍必须保持资料待补态。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) authSvc := newAuthService(repository, &now, []int64{900009}, []string{"100009"}) token, _, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-onboarding", thirdPartyRegistration("ios"), authservice.Meta{RequestID: "req-login"}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } if token.ProfileCompleted || token.OnboardingStatus != string(userdomain.OnboardingStatusProfileRequired) { t.Fatalf("new token should require onboarding: %+v", token) } now = time.UnixMilli(3000) refreshed, err := authSvc.RefreshToken(ctx, token.RefreshToken, "dev-ios", authservice.Meta{RequestID: "req-refresh"}) if err != nil { t.Fatalf("RefreshToken failed: %v", err) } if refreshed.ProfileCompleted || refreshed.OnboardingStatus != string(userdomain.OnboardingStatusProfileRequired) { t.Fatalf("refreshed token must carry profile-required onboarding: %+v", refreshed) } } func TestLoginIPRiskWorkerRevokesBlockedCountrySession(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "CN") seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() authSvc := newAuthService(repository, &now, []int64{900020}, []string{"100020"}, authservice.WithLoginRiskPolicy(authservice.LoginRiskPolicy{ Enabled: true, UnsupportedCountries: []string{"CN"}, BlockedTTL: time.Hour, AllowedTTL: time.Hour, UnknownTTL: time.Minute, ProviderTimeout: 50 * time.Millisecond, ProviderNames: []string{"edge_country"}, DenylistTTL: time.Hour, }), authservice.WithIPDecisionCache(cache), authservice.WithIPGeoProviders(authservice.BuildIPGeoProviders([]string{"edge_country"})), ) token, _, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-risk-blocked", thirdPartyRegistration("ios"), authservice.Meta{ AppCode: "lalu", RequestID: "req-risk-blocked", ClientIP: "203.0.113.77", CountryByIP: "CN", Platform: "ios", Language: "en-US", Timezone: "America/Los_Angeles", }) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } now = time.UnixMilli(2000) processed, err := authSvc.ProcessLoginIPRiskBatch(ctx, authservice.LoginIPRiskWorkerOptions{ WorkerID: "risk-test", LockTTL: time.Second, BatchSize: 10, }) if err != nil || processed != 1 { t.Fatalf("risk worker mismatch: processed=%d err=%v", processed, err) } if _, err := authSvc.RefreshToken(ctx, token.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RequestID: "req-refresh-revoked"}); !xerr.IsCode(err, xerr.SessionRevoked) { t.Fatalf("expected revoked refresh session, got %v", err) } if got := cache.revoked["lalu:"+token.SessionID]; got != "GEO_POLICY_BLOCKED" { t.Fatalf("revoked denylist mismatch: %q", got) } decision, ok := cache.ip["lalu:"+authservice.HashLoginRiskIP("203.0.113.77")] if !ok || decision.Decision != "blocked" || decision.Country != "CN" { t.Fatalf("blocked IP cache mismatch: ok=%v decision=%+v", ok, decision) } var result string var blocked bool var blockReason string err = repository.RawDB().QueryRowContext(ctx, ` SELECT result, blocked, block_reason FROM login_audit WHERE app_code = 'lalu' AND request_id = 'req-risk-blocked' AND user_id = ? `, token.UserID).Scan(&result, &blocked, &blockReason) if err != nil { t.Fatalf("query login audit failed: %v", err) } if result != "revoked" || !blocked || blockReason != "ip_async" { t.Fatalf("login audit risk mark mismatch: result=%s blocked=%v reason=%s", result, blocked, blockReason) } } func TestLoginIPRiskIPWhitelistBypassesBlockedCountry(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "CN") now := time.UnixMilli(1000) if _, err := repository.RawDB().ExecContext(ctx, ` INSERT INTO login_risk_ip_whitelist ( app_code, ip_address, enabled, created_at_ms, updated_at_ms ) VALUES ('lalu', '203.0.113.80', 1, 1000, 1000) `); err != nil { t.Fatalf("seed ip whitelist failed: %v", err) } cache := newMemoryDecisionCache() authSvc := newAuthService(repository, &now, []int64{900024}, []string{"100024"}, authservice.WithLoginRiskPolicy(authservice.LoginRiskPolicy{ Enabled: true, UnsupportedCountries: []string{"CN"}, BlockedTTL: time.Hour, AllowedTTL: time.Hour, UnknownTTL: time.Minute, ProviderTimeout: 50 * time.Millisecond, ProviderNames: []string{"edge_country"}, DenylistTTL: time.Hour, }), authservice.WithIPDecisionCache(cache), authservice.WithIPGeoProviders(authservice.BuildIPGeoProviders([]string{"edge_country"})), ) token, _, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-risk-whitelist", thirdPartyRegistration("ios"), authservice.Meta{ AppCode: "lalu", RequestID: "req-risk-whitelist", ClientIP: "203.0.113.80", CountryByIP: "CN", Platform: "ios", }) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } now = time.UnixMilli(2000) processed, err := authSvc.ProcessLoginIPRiskBatch(ctx, authservice.LoginIPRiskWorkerOptions{WorkerID: "risk-whitelist-test", LockTTL: time.Second, BatchSize: 10}) if err != nil || processed != 1 { t.Fatalf("risk worker mismatch: processed=%d err=%v", processed, err) } if _, err := authSvc.RefreshToken(ctx, token.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RequestID: "req-refresh-whitelist"}); err != nil { t.Fatalf("whitelisted IP must keep refresh session active: %v", err) } if _, ok := cache.ip["lalu:"+authservice.HashLoginRiskIP("203.0.113.80")]; ok { t.Fatalf("whitelisted IP must not write ordinary IP decision cache") } if got := cache.ips["lalu"]; len(got) != 1 || got[0] != "203.0.113.80" { t.Fatalf("ip whitelist cache mismatch: %+v", got) } var decision string if err := repository.RawDB().QueryRowContext(ctx, ` SELECT decision FROM login_ip_risk_jobs WHERE app_code = 'lalu' AND request_id = 'req-risk-whitelist' `).Scan(&decision); err != nil { t.Fatalf("query risk job failed: %v", err) } if decision != "allowed" { t.Fatalf("whitelisted risk job decision mismatch: %s", decision) } } func TestLoginIPRiskUserWhitelistBypassesBlockedCountryWithFiveMinuteCache(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "CN") now := time.UnixMilli(1000) if _, err := repository.RawDB().ExecContext(ctx, ` INSERT INTO login_risk_user_whitelist ( app_code, user_id, enabled, created_at_ms, updated_at_ms ) VALUES ('lalu', 900025, 1, 1000, 1000) `); err != nil { t.Fatalf("seed user whitelist failed: %v", err) } cache := newMemoryDecisionCache() authSvc := newAuthService(repository, &now, []int64{900025}, []string{"100025"}, authservice.WithLoginRiskPolicy(authservice.LoginRiskPolicy{ Enabled: true, UnsupportedCountries: []string{"CN"}, BlockedTTL: time.Hour, AllowedTTL: time.Hour, UnknownTTL: time.Minute, ProviderTimeout: 50 * time.Millisecond, ProviderNames: []string{"edge_country"}, DenylistTTL: time.Hour, }), authservice.WithIPDecisionCache(cache), authservice.WithIPGeoProviders(authservice.BuildIPGeoProviders([]string{"edge_country"})), ) snapshot, err := authSvc.RefreshLoginRiskWhitelistCache(ctx) if err != nil { t.Fatalf("refresh whitelist cache failed: %v", err) } if !snapshot.Refreshed || snapshot.UserWhitelistCount != 1 || snapshot.UserCacheExpiresAtMs != now.Add(5*time.Minute).UnixMilli() { t.Fatalf("user whitelist refresh snapshot mismatch: %+v", snapshot) } if got := cache.userTTL["lalu"]; got != 5*time.Minute { t.Fatalf("user whitelist cache ttl = %v, want 5m", got) } token, _, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-risk-user-whitelist", thirdPartyRegistration("ios"), authservice.Meta{ AppCode: "lalu", RequestID: "req-risk-user-whitelist", ClientIP: "203.0.113.81", CountryByIP: "CN", Platform: "ios", }) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } now = time.UnixMilli(2000) processed, err := authSvc.ProcessLoginIPRiskBatch(ctx, authservice.LoginIPRiskWorkerOptions{WorkerID: "risk-user-whitelist-test", LockTTL: time.Second, BatchSize: 10}) if err != nil || processed != 1 { t.Fatalf("risk worker mismatch: processed=%d err=%v", processed, err) } if _, err := authSvc.RefreshToken(ctx, token.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RequestID: "req-refresh-user-whitelist"}); err != nil { t.Fatalf("whitelisted user must keep refresh session active: %v", err) } if _, ok := cache.ip["lalu:"+authservice.HashLoginRiskIP("203.0.113.81")]; ok { t.Fatalf("user whitelist must not write ordinary IP decision cache") } var decision string if err := repository.RawDB().QueryRowContext(ctx, ` SELECT decision FROM login_ip_risk_jobs WHERE app_code = 'lalu' AND request_id = 'req-risk-user-whitelist' `).Scan(&decision); err != nil { t.Fatalf("query risk job failed: %v", err) } if decision != "allowed" { t.Fatalf("whitelisted user risk job decision mismatch: %s", decision) } } func TestLoginIPRiskWorkerRevokesRotatedSameDeviceSessions(t *testing.T) { // 复现线上竞态:登录后风控任务尚未完成,客户端连续 refresh 轮换 session。 // blocked 决策落地时必须沿源 session 的同设备登录链路清掉后续 session,否则最新 access/refresh 仍能继续使用。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "CN") seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() authSvc := newAuthService(repository, &now, []int64{900023}, []string{"100023"}, authservice.WithLoginRiskPolicy(authservice.LoginRiskPolicy{ Enabled: true, UnsupportedCountries: []string{"CN"}, BlockedTTL: time.Hour, AllowedTTL: time.Hour, UnknownTTL: time.Minute, ProviderTimeout: 50 * time.Millisecond, ProviderNames: []string{"edge_country"}, DenylistTTL: time.Hour, }), authservice.WithIPDecisionCache(cache), authservice.WithIPGeoProviders(authservice.BuildIPGeoProviders([]string{"edge_country"})), ) token, _, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-risk-rotated", thirdPartyRegistration("ios"), authservice.Meta{ AppCode: "lalu", RequestID: "req-risk-rotated", ClientIP: "203.0.113.79", CountryByIP: "CN", Platform: "ios", }) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } now = time.UnixMilli(1200) refreshedOnce, err := authSvc.RefreshToken(ctx, token.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RequestID: "req-refresh-before-risk-1"}) if err != nil { t.Fatalf("first RefreshToken before risk failed: %v", err) } now = time.UnixMilli(1400) refreshedTwice, err := authSvc.RefreshToken(ctx, refreshedOnce.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RequestID: "req-refresh-before-risk-2"}) if err != nil { t.Fatalf("second RefreshToken before risk failed: %v", err) } now = time.UnixMilli(2000) processed, err := authSvc.ProcessLoginIPRiskBatch(ctx, authservice.LoginIPRiskWorkerOptions{WorkerID: "risk-rotated-test", LockTTL: time.Second, BatchSize: 10}) if err != nil || processed != 1 { t.Fatalf("risk worker mismatch: processed=%d err=%v", processed, err) } if _, err := authSvc.RefreshToken(ctx, refreshedTwice.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RequestID: "req-refresh-after-risk"}); !xerr.IsCode(err, xerr.SessionRevoked) { t.Fatalf("latest rotated refresh session must be revoked by risk, got %v", err) } if _, err := authSvc.IssueAccessTokenForSession(ctx, refreshedTwice.UserID, refreshedTwice.SessionID, authservice.Meta{AppCode: "lalu", RequestID: "req-resign-after-risk"}); !xerr.IsCode(err, xerr.SessionRevoked) { t.Fatalf("latest rotated access session must be revoked by risk, got %v", err) } for _, sessionID := range []string{token.SessionID, refreshedOnce.SessionID, refreshedTwice.SessionID} { if got := cache.revoked["lalu:"+sessionID]; got != "GEO_POLICY_BLOCKED" { t.Fatalf("session %s denylist mismatch: %q", sessionID, got) } } var latestReason string if err := repository.RawDB().QueryRowContext(ctx, ` SELECT revoked_reason FROM auth_sessions WHERE app_code = 'lalu' AND session_id = ? `, refreshedTwice.SessionID).Scan(&latestReason); err != nil { t.Fatalf("query latest session failed: %v", err) } if latestReason != "GEO_POLICY_BLOCKED" { t.Fatalf("latest session revoke reason mismatch: %s", latestReason) } } func TestLoginIPRiskWorkerUsesHTTPGeoProviderFallback(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "CN") seedCountry(t, repository, "SG") now := time.UnixMilli(1000) cache := newMemoryDecisionCache() server := httptest.NewServer(http.HandlerFunc(func(writer http.ResponseWriter, request *http.Request) { if got := request.URL.Query().Get("ip"); got != "203.0.113.78" { t.Errorf("http geo provider received wrong ip query: %q", got) } if got := request.Header.Get("X-Source-IP"); got != "203.0.113.78" { t.Errorf("http geo provider received wrong ip header: %q", got) } writer.Header().Set("Content-Type", "application/json") _, _ = writer.Write([]byte(`{"data":{"country_code":"CN"}}`)) })) defer server.Close() authSvc := newAuthService(repository, &now, []int64{900022}, []string{"100022"}, authservice.WithLoginRiskPolicy(authservice.LoginRiskPolicy{ Enabled: true, UnsupportedCountries: []string{"CN"}, BlockedTTL: time.Hour, AllowedTTL: time.Hour, UnknownTTL: time.Minute, ProviderTimeout: time.Second, ProviderNames: []string{"edge_country", "primary_geo"}, DenylistTTL: time.Hour, }), authservice.WithIPDecisionCache(cache), authservice.WithIPGeoProviders(authservice.BuildIPGeoProvidersWithHTTP([]string{"edge_country", "primary_geo"}, map[string]authservice.HTTPIPGeoProviderConfig{ "primary_geo": { URL: server.URL + "/lookup?ip={ip}", Method: http.MethodGet, CountryJSONPath: "data.country_code", Headers: map[string]string{"X-Source-IP": "{ip}"}, HTTPClient: server.Client(), }, })), ) token, _, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-risk-http-provider", thirdPartyRegistration("ios"), authservice.Meta{ AppCode: "lalu", RequestID: "req-risk-http-provider", ClientIP: "203.0.113.78", Platform: "ios", }) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } now = time.UnixMilli(2000) processed, err := authSvc.ProcessLoginIPRiskBatch(ctx, authservice.LoginIPRiskWorkerOptions{WorkerID: "risk-http-test", LockTTL: time.Second, BatchSize: 10}) if err != nil || processed != 1 { t.Fatalf("risk worker mismatch: processed=%d err=%v", processed, err) } if _, err := authSvc.RefreshToken(ctx, token.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RequestID: "req-refresh-http-provider"}); !xerr.IsCode(err, xerr.SessionRevoked) { t.Fatalf("expected revoked refresh session, got %v", err) } decision, ok := cache.ip["lalu:"+authservice.HashLoginRiskIP("203.0.113.78")] if !ok || decision.Decision != "blocked" || decision.Country != "CN" { t.Fatalf("blocked IP cache mismatch: ok=%v decision=%+v", ok, decision) } var countryCode string var decisionValue string if err := repository.RawDB().QueryRowContext(ctx, ` SELECT country_code, decision FROM login_ip_risk_jobs WHERE app_code = 'lalu' AND request_id = 'req-risk-http-provider' `).Scan(&countryCode, &decisionValue); err != nil { t.Fatalf("query risk job failed: %v", err) } if countryCode != "CN" || decisionValue != "blocked" { t.Fatalf("risk job decision mismatch: country=%s decision=%s", countryCode, decisionValue) } } func TestLoginIPRiskWorkerUsesDynamicCountryBlocks(t *testing.T) { ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "MY") seedCountry(t, repository, "SG") now := time.UnixMilli(1000) if _, err := repository.RawDB().ExecContext(ctx, ` INSERT INTO login_risk_country_blocks ( app_code, keyword, country_code, enabled, created_at_ms, updated_at_ms ) VALUES ('lalu', 'Malaysia', 'MY', 1, 1000, 1000) `); err != nil { t.Fatalf("seed dynamic country block failed: %v", err) } authSvc := newAuthService(repository, &now, []int64{900021}, []string{"100021"}, authservice.WithLoginRiskPolicy(authservice.LoginRiskPolicy{ Enabled: true, UnsupportedCountries: nil, BlockedTTL: time.Hour, AllowedTTL: time.Hour, UnknownTTL: time.Minute, ProviderTimeout: 50 * time.Millisecond, ProviderNames: []string{"edge_country"}, DenylistTTL: time.Hour, }), authservice.WithIPGeoProviders(authservice.BuildIPGeoProviders([]string{"edge_country"})), ) token, _, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-risk-dynamic", thirdPartyRegistration("ios"), authservice.Meta{ AppCode: "lalu", RequestID: "req-risk-dynamic", ClientIP: "203.0.113.88", CountryByIP: "MY", Platform: "ios", }) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } now = time.UnixMilli(2000) processed, err := authSvc.ProcessLoginIPRiskBatch(ctx, authservice.LoginIPRiskWorkerOptions{WorkerID: "risk-test", LockTTL: time.Second, BatchSize: 10}) if err != nil || processed != 1 { t.Fatalf("risk worker mismatch: processed=%d err=%v", processed, err) } if _, err := authSvc.RefreshToken(ctx, token.RefreshToken, "dev-ios", authservice.Meta{AppCode: "lalu", RequestID: "req-refresh-dynamic"}); !xerr.IsCode(err, xerr.SessionRevoked) { t.Fatalf("expected revoked refresh session, got %v", err) } blocks, err := authSvc.ListLoginRiskBlockedCountries(ctx) if err != nil { t.Fatalf("ListLoginRiskBlockedCountries failed: %v", err) } if len(blocks) != 1 || blocks[0].CountryCode != "MY" || blocks[0].Keyword != "Malaysia" { t.Fatalf("dynamic block list mismatch: %+v", blocks) } } func TestIssueAccessTokenForSessionCarriesProfileRequiredOnboardingStatusWithoutRotatingRefresh(t *testing.T) { // 重新签发 access token 只能复用已有 session;refresh token 原文不可从数据库反查,也不应被静默轮换。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) authSvc := newAuthService(repository, &now, []int64{900010}, []string{"100010"}) token, _, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-onboarding-resign", thirdPartyRegistration("ios"), authservice.Meta{RequestID: "req-login"}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } now = time.UnixMilli(3000) reissued, err := authSvc.IssueAccessTokenForSession(ctx, token.UserID, token.SessionID, authservice.Meta{RequestID: "req-resign"}) if err != nil { t.Fatalf("IssueAccessTokenForSession failed: %v", err) } if reissued.ProfileCompleted || reissued.OnboardingStatus != string(userdomain.OnboardingStatusProfileRequired) || reissued.AccessToken == "" { t.Fatalf("reissued token must carry profile-required onboarding: %+v", reissued) } if reissued.ExpiresInSec != testAccessTokenTTLSec { t.Fatalf("reissued access token TTL mismatch: %+v", reissued) } if reissued.SessionID != token.SessionID || reissued.RefreshToken != "" { t.Fatalf("access resign must reuse session and not mint refresh token: %+v", reissued) } } func TestIssueAccessTokenForSessionCapsTTLAtSessionExpiry(t *testing.T) { // access token 不能因为心跳或资料完成重签而越过 refresh session 的服务端硬过期时间。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) authSvc := newAuthService(repository, &now, []int64{900013}, []string{"100013"}) token, _, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-session-expiry-cap", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu", RequestID: "req-login"}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } now = time.UnixMilli(3000) sessionExpiresAt := now.Add(2 * time.Hour) if _, err := repository.RawDB().ExecContext(ctx, ` UPDATE auth_sessions SET expires_at_ms = ? WHERE app_code = 'lalu' AND session_id = ? `, sessionExpiresAt.UnixMilli(), token.SessionID); err != nil { t.Fatalf("shorten session expiry failed: %v", err) } reissued, err := authSvc.IssueAccessTokenForSession(ctx, token.UserID, token.SessionID, authservice.Meta{AppCode: "lalu", RequestID: "req-resign"}) if err != nil { t.Fatalf("IssueAccessTokenForSession failed: %v", err) } if reissued.ExpiresInSec != int64((2 * time.Hour).Seconds()) { t.Fatalf("reissued token must be capped by session expiry: %+v", reissued) } if got, want := accessTokenExpUnix(t, reissued.AccessToken), sessionExpiresAt.Unix(); got != want { t.Fatalf("reissued access token exp mismatch: got=%d want=%d", got, want) } } func TestAppHeartbeatRefreshesCurrentSessionOnly(t *testing.T) { // APP 心跳是登录会话在线状态,不应该创建房间 presence,也不能续住其他用户或其他 session。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) authSvc := newAuthService(repository, &now, []int64{900011}, []string{"100011"}) token, _, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-app-heartbeat", thirdPartyRegistration("ios"), authservice.Meta{AppCode: "lalu", RequestID: "req-login"}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } now = time.UnixMilli(4000) session, err := authSvc.AppHeartbeat(ctx, token.UserID, token.SessionID, authservice.Meta{AppCode: "lalu", RequestID: "req-app-heartbeat"}) if err != nil { t.Fatalf("AppHeartbeat failed: %v", err) } if session.LastHeartbeatAtMs != 4000 || session.LastHeartbeatRequestID != "req-app-heartbeat" { t.Fatalf("session heartbeat mismatch: %+v", session) } var heartbeatAtMS int64 var requestID string if err := repository.RawDB().QueryRowContext(ctx, ` SELECT last_heartbeat_at_ms, last_heartbeat_request_id FROM auth_sessions WHERE app_code = 'lalu' AND session_id = ? `, token.SessionID).Scan(&heartbeatAtMS, &requestID); err != nil { t.Fatalf("query heartbeat failed: %v", err) } if heartbeatAtMS != 4000 || requestID != "req-app-heartbeat" { t.Fatalf("stored heartbeat mismatch: at=%d request=%s", heartbeatAtMS, requestID) } now = time.UnixMilli(5000) if _, err := authSvc.AppHeartbeat(ctx, token.UserID+1, token.SessionID, authservice.Meta{AppCode: "lalu", RequestID: "req-wrong-user"}); !xerr.IsCode(err, xerr.SessionRevoked) { t.Fatalf("wrong user must not refresh session heartbeat, got %v", err) } } func TestDisabledUserCannotLogin(t *testing.T) { // 用户状态被禁用后,即使密码正确也不能继续签发 token。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "CN") seedCountry(t, repository, "SG") now := time.UnixMilli(1000) svc := newAuthService(repository, &now, []int64{900001}, []string{"100001"}) token, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-1", thirdPartyRegistration("ios"), authservice.Meta{}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } if err := svc.SetPassword(ctx, token.UserID, "secret-pass", authservice.Meta{}); err != nil { t.Fatalf("SetPassword failed: %v", err) } user, err := repository.GetUser(ctx, token.UserID) if err != nil { t.Fatalf("GetUser failed: %v", err) } user.Status = userdomain.StatusDisabled // 直接改 MySQL 测试库中的用户状态,模拟运营禁用用户。 repository.PutUser(user) _, err = svc.LoginPassword(ctx, token.DisplayUserID, "secret-pass", "ios", authservice.Meta{}) if !xerr.IsCode(err, xerr.UserDisabled) { t.Fatalf("expected USER_DISABLED, got %v", err) } } func TestThirdPartyLoginOrRegister(t *testing.T) { // 首次三方登录创建用户,再次同 provider subject 登录应复用原用户。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) svc := newAuthService(repository, &now, []int64{900002}, []string{"100002"}) firstToken, isNewUser, err := svc.LoginThirdParty(ctx, "wechat", "openid-1", thirdPartyRegistration("ios"), authservice.Meta{RequestID: "req-third-first"}) if err != nil { t.Fatalf("first LoginThirdParty failed: %v", err) } assertSevenDigitDisplayUserID(t, firstToken.DisplayUserID) if !isNewUser || firstToken.UserID != 900002 || firstToken.DisplayUserID == "" { t.Fatalf("unexpected first third-party result: token=%+v isNew=%v", firstToken, isNewUser) } if firstToken.ProfileCompleted || firstToken.OnboardingStatus != string(userdomain.OnboardingStatusProfileRequired) { t.Fatalf("first third-party registration must require onboarding: %+v", firstToken) } secondToken, isNewUser, err := svc.LoginThirdParty(ctx, "wechat", "openid-1", authdomain.ThirdPartyRegistration{DeviceID: "dev-ios", Platform: "ios"}, authservice.Meta{RequestID: "req-third-second"}) if err != nil { t.Fatalf("second LoginThirdParty failed: %v", err) } if isNewUser || secondToken.UserID != firstToken.UserID { t.Fatalf("expected existing third-party user, token=%+v isNew=%v", secondToken, isNewUser) } if _, _, err := svc.LoginThirdParty(ctx, "unknown", "openid-1", thirdPartyRegistration("ios"), authservice.Meta{}); !xerr.IsCode(err, xerr.AuthFailed) { // 未允许的 provider 统一认证失败。 t.Fatalf("expected AUTH_FAILED for unknown provider, got %v", err) } } func TestRegisterThirdPartyCreatesCompletedUserAndSession(t *testing.T) { // 新注册接口必须一次性完成资料、三方绑定、session 和注册事实,客户端不再拿 profile_required token。 ctx := context.Background() repository := mysqltest.NewRepository(t) country := seedCountry(t, repository, "SG") region := mustResolveRegionByCountry(t, repository, "SG") now := time.UnixMilli(1000) imImporter := &fakeIMAccountImporter{} svc := newAuthService(repository, &now, []int64{900030}, []string{"100030"}, authservice.WithIMAccountImporter(imImporter)) token, isNewUser, err := svc.RegisterThirdParty(ctx, "wechat", "openid-register-complete", thirdPartyRegistration("ios"), authservice.Meta{RequestID: "req-third-register", ClientIP: "203.0.113.10", UserAgent: "hyapp-test/1.0"}) if err != nil { t.Fatalf("RegisterThirdParty failed: %v", err) } if !isNewUser || token.UserID != 900030 || token.ProfileCompleted != true || token.OnboardingStatus != string(userdomain.OnboardingStatusCompleted) || token.AccessToken == "" || token.RefreshToken == "" { t.Fatalf("register must return completed token for new user: token=%+v isNew=%v", token, isNewUser) } user, err := repository.GetUser(ctx, token.UserID) if err != nil { t.Fatalf("GetUser failed: %v", err) } if !user.ProfileCompleted || user.ProfileCompletedAtMs != now.UnixMilli() || user.OnboardingStatus != userdomain.OnboardingStatusCompleted { t.Fatalf("user must be completed immediately: %+v", user) } if user.Country != country.CountryCode || user.RegionID != region.RegionID || user.Username != "hy" || user.Avatar != "https://cdn.example/avatar.png" { t.Fatalf("registration profile mismatch: %+v", user) } if imImporter.userID != token.UserID || imImporter.nickname != "hy" || imImporter.faceURL != "https://cdn.example/avatar.png" { t.Fatalf("completed registration must import final IM profile: %+v", imImporter) } assertUserRegisteredOutboxCount(t, repository, token.UserID, 1) assertUserRegisteredOutboxFact(t, repository, token.UserID, country.CountryID, region.RegionID, now.UnixMilli()) } func TestRegisterThirdPartyCompletesExistingPendingUser(t *testing.T) { // 兼容旧流程:同一 provider subject 已有 pending 用户时,新接口补齐资料并签新 session,不创建第二个账号。 ctx := context.Background() repository := mysqltest.NewRepository(t) country := seedCountry(t, repository, "SG") region := mustResolveRegionByCountry(t, repository, "SG") now := time.UnixMilli(1000) svc := newAuthService(repository, &now, []int64{900031, 900032}, []string{"100031", "100032"}) pendingToken, isNewUser, err := svc.LoginThirdParty(ctx, "wechat", "openid-pending-register", authdomain.ThirdPartyRegistration{DeviceID: "dev-ios", Platform: "ios"}, authservice.Meta{RequestID: "req-third-pending"}) if err != nil { t.Fatalf("LoginThirdParty pending seed failed: %v", err) } if !isNewUser || pendingToken.ProfileCompleted { t.Fatalf("seed login must create pending user: token=%+v isNew=%v", pendingToken, isNewUser) } assertUserRegisteredOutboxCount(t, repository, pendingToken.UserID, 0) now = time.UnixMilli(2000) register := thirdPartyRegistration("ios") register.Username = "finished" register.DeviceID = "dev-ios-finished" completedToken, isNewUser, err := svc.RegisterThirdParty(ctx, "wechat", "openid-pending-register", register, authservice.Meta{RequestID: "req-third-complete"}) if err != nil { t.Fatalf("RegisterThirdParty completion failed: %v", err) } if isNewUser || completedToken.UserID != pendingToken.UserID || !completedToken.ProfileCompleted || completedToken.OnboardingStatus != string(userdomain.OnboardingStatusCompleted) { t.Fatalf("pending subject must complete existing user: token=%+v isNew=%v pending=%+v", completedToken, isNewUser, pendingToken) } user, err := repository.GetUser(ctx, pendingToken.UserID) if err != nil { t.Fatalf("GetUser failed: %v", err) } if user.Username != "finished" || user.Country != country.CountryCode || user.RegionID != region.RegionID || user.ProfileCompletedAtMs != now.UnixMilli() { t.Fatalf("pending user completion mismatch: %+v", user) } assertUserRegisteredOutboxCount(t, repository, pendingToken.UserID, 1) assertUserRegisteredOutboxFact(t, repository, pendingToken.UserID, country.CountryID, region.RegionID, now.UnixMilli()) } func TestCheckThirdPartyRegisteredReturnsOnlyCompletedRegistration(t *testing.T) { // 检查接口只服务前端路由判断,不创建用户、不创建 session;pending 用户仍然要进资料页。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) svc := newAuthService(repository, &now, []int64{900033}, []string{"100033"}) registered, err := svc.CheckThirdPartyRegistered(ctx, "wechat", "openid-check", authservice.Meta{RequestID: "req-check-empty"}) if err != nil { t.Fatalf("CheckThirdPartyRegistered empty failed: %v", err) } if registered { t.Fatalf("unbound third-party subject must not be registered") } pendingToken, isNewUser, err := svc.LoginThirdParty(ctx, "wechat", "openid-check", authdomain.ThirdPartyRegistration{DeviceID: "dev-ios", Platform: "ios"}, authservice.Meta{RequestID: "req-check-pending"}) if err != nil { t.Fatalf("seed pending LoginThirdParty failed: %v", err) } if !isNewUser || pendingToken.ProfileCompleted { t.Fatalf("seed login must create pending user: token=%+v isNew=%v", pendingToken, isNewUser) } registered, err = svc.CheckThirdPartyRegistered(ctx, "wechat", "openid-check", authservice.Meta{RequestID: "req-check-pending"}) if err != nil { t.Fatalf("CheckThirdPartyRegistered pending failed: %v", err) } if registered { t.Fatalf("pending third-party subject must not be treated as registered") } register := thirdPartyRegistration("ios") register.DeviceID = "dev-ios-register" if _, _, err := svc.RegisterThirdParty(ctx, "wechat", "openid-check", register, authservice.Meta{RequestID: "req-check-register"}); err != nil { t.Fatalf("RegisterThirdParty completion failed: %v", err) } registered, err = svc.CheckThirdPartyRegistered(ctx, "wechat", "openid-check", authservice.Meta{RequestID: "req-check-completed"}) if err != nil { t.Fatalf("CheckThirdPartyRegistered completed failed: %v", err) } if !registered { t.Fatalf("completed third-party subject must be registered") } } func TestThirdPartyRegisterRejectsReusedDeviceID(t *testing.T) { // 设备号只限制新账号注册;同一个 provider subject 的再次登录仍然可以创建新 session。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) svc := newAuthService(repository, &now, []int64{900020, 900021}, []string{"100020", "100021"}) registration := thirdPartyRegistration("ios") registration.DeviceID = "device-one-account" firstToken, isNewUser, err := svc.LoginThirdParty(ctx, "wechat", "openid-device-first", registration, authservice.Meta{RequestID: "req-device-first"}) if err != nil { t.Fatalf("first LoginThirdParty failed: %v", err) } if !isNewUser || firstToken.UserID != 900020 { t.Fatalf("unexpected first third-party result: token=%+v isNew=%v", firstToken, isNewUser) } existingToken, isNewUser, err := svc.LoginThirdParty(ctx, "wechat", "openid-device-first", registration, authservice.Meta{RequestID: "req-device-existing"}) if err != nil { t.Fatalf("existing LoginThirdParty should not be blocked by device limit: %v", err) } if isNewUser || existingToken.UserID != firstToken.UserID { t.Fatalf("expected existing third-party login, token=%+v isNew=%v", existingToken, isNewUser) } _, _, err = svc.LoginThirdParty(ctx, "wechat", "openid-device-second", registration, authservice.Meta{RequestID: "req-device-second"}) if !xerr.IsCode(err, xerr.DeviceAlreadyRegistered) { // 第二个 provider subject 会创建新账号,必须被注册设备唯一性拦截。 t.Fatalf("expected DEVICE_ALREADY_REGISTERED for reused device, got %v", err) } } func TestThirdPartyRegisterAllowsMinimalProfileFields(t *testing.T) { // 三方首次登录只需要认证材料、设备和平台;公开资料由后续 onboarding 原子提交。 ctx := context.Background() repository := mysqltest.NewRepository(t) now := time.UnixMilli(1000) svc := newAuthService(repository, &now, []int64{900012}, []string{"100012"}) token, isNewUser, err := svc.LoginThirdParty(ctx, "wechat", "openid-minimal", authdomain.ThirdPartyRegistration{ DeviceID: "dev-ios", Platform: "ios", }, authservice.Meta{}) if err != nil { t.Fatalf("LoginThirdParty with minimal registration failed: %v", err) } if !isNewUser || token.ProfileCompleted || token.OnboardingStatus != string(userdomain.OnboardingStatusProfileRequired) { t.Fatalf("minimal third-party registration must create profile-required user: token=%+v isNew=%v", token, isNewUser) } } func TestThirdPartyRegisterStoresRegistrationProfile(t *testing.T) { // 三方首次注册要把资料字段和注册来源快照随 users 主记录同事务写入。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "CN") now := time.UnixMilli(1000) imImporter := &fakeIMAccountImporter{} svc := newAuthService(repository, &now, []int64{900003}, []string{"100003"}, authservice.WithIMAccountImporter(imImporter)) if err := repository.CreateUserWithIdentity(ctx, userdomain.User{ AppCode: "lalu", UserID: 800001, DefaultDisplayUserID: "188001", CurrentDisplayUserID: "188001", CurrentDisplayUserIDKind: userdomain.DisplayUserIDKindDefault, Status: userdomain.StatusActive, OnboardingStatus: userdomain.OnboardingStatusProfileRequired, CreatedAtMs: now.UnixMilli(), UpdatedAtMs: now.UnixMilli(), }, userdomain.Identity{ AppCode: "lalu", UserID: 800001, DisplayUserID: "188001", DefaultDisplayUserID: "188001", DisplayUserIDKind: userdomain.DisplayUserIDKindDefault, Status: userdomain.DisplayUserIDStatusActive, }); err != nil { t.Fatalf("seed inviter failed: %v", err) } inviter, err := repository.GetUser(ctx, 800001) if err != nil { t.Fatalf("get inviter failed: %v", err) } registration := authdomain.ThirdPartyRegistration{ Username: " hy ", Gender: "male", Country: "CN", InviteCode: inviter.InviteOverview.MyInviteCode, IP: "198.51.100.9", DeviceID: " dev-1 ", Device: "iPhone 15", OSVersion: " iOS 18.1 ", Avatar: "https://cdn.example/avatar.png", BirthDate: "2000-01-02", AppVersion: "1.2.3", BuildNumber: " 123 ", Source: "campaign-a", InstallChannel: " app_store ", Campaign: " spring_launch ", Platform: "IOS", Language: "zh-CN", Timezone: " Asia/Shanghai ", } token, isNewUser, err := svc.LoginThirdParty(ctx, "wechat", "openid-profile", registration, authservice.Meta{ClientIP: "203.0.113.10", UserAgent: "hyapp-test/1.0", CountryByIP: "cn"}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } if !isNewUser { t.Fatalf("first third-party login must create user") } user, err := repository.GetUser(ctx, token.UserID) if err != nil { t.Fatalf("GetUser failed: %v", err) } if user.Username != "hy" || user.Gender != "male" || user.Country != "CN" || user.InviteCode != inviter.InviteOverview.MyInviteCode { t.Fatalf("profile fields mismatch: %+v", user) } if user.RegisterIP != "203.0.113.10" || user.RegisterUserAgent != "hyapp-test/1.0" || user.CountryByIP != "CN" { t.Fatalf("gateway observed source fields mismatch: %+v", user) } if user.RegisterDeviceID != "dev-1" || user.RegisterDevice != "iPhone 15" || user.RegisterOSVersion != "iOS 18.1" || user.RegisterAppVersion != "1.2.3" || user.RegisterBuildNumber != "123" { t.Fatalf("registration source fields mismatch: %+v", user) } if user.Avatar == "" || user.BirthDate != "2000-01-02" || user.RegisterSource != "campaign-a" || user.RegisterInstallChannel != "app_store" || user.RegisterCampaign != "spring_launch" || user.RegisterPlatform != "ios" || user.Language != "zh-CN" || user.Timezone != "Asia/Shanghai" { t.Fatalf("registration profile fields mismatch: %+v", user) } if imImporter.userID != token.UserID || imImporter.nickname != "hy" || imImporter.faceURL != "https://cdn.example/avatar.png" { t.Fatalf("third-party registration must import IM account: %+v", imImporter) } } func TestThirdPartyRegisterAssignsRegionAndExistingLoginKeepsOriginalCountry(t *testing.T) { // 首次注册按国家映射写 users.region_id;已有三方登录不因请求体国家变化改用户资料。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") region := mustResolveRegionByCountry(t, repository, "SG") now := time.UnixMilli(1000) svc := newAuthService(repository, &now, []int64{900006}, []string{"100006"}) firstToken, isNew, err := svc.LoginThirdParty(ctx, "wechat", "openid-region", authdomain.ThirdPartyRegistration{ Username: "hy", Avatar: "https://cdn.example/avatar.png", Gender: "male", DeviceID: "ios", Platform: "ios", Country: " sg ", }, authservice.Meta{RequestID: "req-region-first"}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } if !isNew { t.Fatalf("first third-party login must create user") } user, err := repository.GetUser(ctx, firstToken.UserID) if err != nil { t.Fatalf("GetUser failed: %v", err) } if user.Country != "SG" || user.RegionID != region.RegionID || user.RegionCode != region.RegionCode { t.Fatalf("region assignment mismatch: %+v", user) } _, isNew, err = svc.LoginThirdParty(ctx, "wechat", "openid-region", authdomain.ThirdPartyRegistration{ DeviceID: "ios", Platform: "ios", Country: "ZZ", }, authservice.Meta{RequestID: "req-region-second"}) if err != nil { t.Fatalf("existing LoginThirdParty failed: %v", err) } if isNew { t.Fatalf("existing third-party login must not create user") } user, err = repository.GetUser(ctx, firstToken.UserID) if err != nil { t.Fatalf("GetUser failed: %v", err) } if user.Country != "SG" || user.RegionID != region.RegionID { t.Fatalf("existing login must not rewrite country or region: %+v", user) } } func TestThirdPartyRegisterRejectsUnknownOrDisabledCountry(t *testing.T) { // 国家格式合法但未命中 active countries 时,也必须返回稳定 INVALID_ARGUMENT。 ctx := context.Background() repository := mysqltest.NewRepository(t) country := seedCountry(t, repository, "MY") repository.SetCountryEnabled(country.CountryID, false) now := time.UnixMilli(1000) svc := newAuthService(repository, &now, []int64{900007, 900008}, []string{"100007", "100008"}) for _, tc := range []struct { name string country string }{ {name: "unknown", country: "ZZ"}, {name: "disabled", country: "MY"}, } { _, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-"+tc.name, authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Country: tc.country}, authservice.Meta{}) if !xerr.IsCode(err, xerr.InvalidArgument) { t.Fatalf("expected INVALID_ARGUMENT for %s country, got %v", tc.name, err) } } } func TestThirdPartyRegisterValidatesRegistrationProfile(t *testing.T) { // 格式边界必须在 service 层返回稳定 INVALID_ARGUMENT,不能让 MySQL 报错泄漏为 upstream error。 ctx := context.Background() repository := mysqltest.NewRepository(t) now := time.UnixMilli(1000) svc := newAuthService(repository, &now, []int64{900004}, []string{"100004"}) cases := []struct { name string registration authdomain.ThirdPartyRegistration }{ {name: "birth_format", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", BirthDate: "2000/01/02"}}, {name: "birth_mysql_range", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", BirthDate: "0001-01-01"}}, {name: "platform_missing", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios"}}, {name: "platform_invalid", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "web"}}, {name: "country", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Country: "U1"}}, {name: "avatar", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Avatar: "ftp://cdn.example/avatar.png"}}, {name: "language", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Language: "en_US"}}, {name: "timezone", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Timezone: "Mars/Phobos"}}, } for _, tc := range cases { _, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-"+tc.name, tc.registration, authservice.Meta{}) if !xerr.IsCode(err, xerr.InvalidArgument) { t.Fatalf("expected INVALID_ARGUMENT for %s, got %v", tc.name, err) } } } func TestThirdPartyRegisterValidatesSQLBackedLengths(t *testing.T) { // 每个写入 users VARCHAR 的注册字段都要在 service 层按 schema 长度拒绝,避免数据库错误变成 UPSTREAM_ERROR。 ctx := context.Background() repository := mysqltest.NewRepository(t) now := time.UnixMilli(1000) svc := newAuthService(repository, &now, []int64{900005}, []string{"100005"}) longURL := "https://cdn.example/" + strings.Repeat("a", 513) cases := []struct { name string registration authdomain.ThirdPartyRegistration meta authservice.Meta }{ {name: "username", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Username: strings.Repeat("a", 65)}}, {name: "gender", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Gender: strings.Repeat("a", 33)}}, {name: "country", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Country: strings.Repeat("a", 65)}}, {name: "invite_code", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", InviteCode: strings.Repeat("a", 65)}}, {name: "register_ip", registration: thirdPartyRegistration("ios"), meta: authservice.Meta{ClientIP: strings.Repeat("1", 65)}}, {name: "register_user_agent", registration: thirdPartyRegistration("ios"), meta: authservice.Meta{UserAgent: strings.Repeat("a", 513)}}, {name: "device_id", registration: authdomain.ThirdPartyRegistration{DeviceID: strings.Repeat("a", 129), Platform: "ios"}}, {name: "device", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Device: strings.Repeat("a", 129)}}, {name: "os_version", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", OSVersion: strings.Repeat("a", 65)}}, {name: "avatar", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Avatar: longURL}}, {name: "app_version", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", AppVersion: strings.Repeat("a", 65)}}, {name: "build_number", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", BuildNumber: strings.Repeat("a", 65)}}, {name: "source", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Source: strings.Repeat("a", 65)}}, {name: "install_channel", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", InstallChannel: strings.Repeat("a", 65)}}, {name: "campaign", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Campaign: strings.Repeat("a", 129)}}, {name: "platform", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: strings.Repeat("a", 17)}}, {name: "language", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Language: strings.Repeat("a", 33)}}, {name: "timezone", registration: authdomain.ThirdPartyRegistration{DeviceID: "ios", Platform: "ios", Timezone: strings.Repeat("a", 65)}}, } for _, tc := range cases { _, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-"+tc.name, tc.registration, tc.meta) if !xerr.IsCode(err, xerr.InvalidArgument) { t.Fatalf("expected INVALID_ARGUMENT for overlong %s, got %v", tc.name, err) } } } func TestThirdPartyRegisterAvoidsOccupiedDisplayUserID(t *testing.T) { // 默认短号随机生成前先查历史占用;创建事务仍用唯一索引处理并发撞号。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") repository.PutUser(userdomain.User{UserID: 1, CurrentDisplayUserID: "163000", Status: userdomain.StatusActive}) now := time.UnixMilli(1000) svc := newAuthService(repository, &now, []int64{900001, 900002}, []string{"100001", "100002"}) token, _, err := svc.LoginThirdParty(ctx, "wechat", "openid-1", thirdPartyRegistration("ios"), authservice.Meta{}) if err != nil { t.Fatalf("LoginThirdParty should retry display_user_id conflict: %v", err) } userSvc := newUserService(repository) identity, err := userSvc.GetUserIdentity(ctx, token.UserID) if err != nil { t.Fatalf("GetUserIdentity failed: %v", err) } assertSevenDigitDisplayUserID(t, identity.DisplayUserID) if identity.DisplayUserID == "163000" { t.Fatalf("display_user_id must not reuse occupied value: %+v", identity) } } func TestPasswordLoginUsesCurrentDisplayUserIDWithPrettyLease(t *testing.T) { // 密码登录允许 held 默认短号作为登录别名;签发 token 必须仍使用当前 active 靓号。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) authSvc := newAuthService(repository, &now, []int64{900001}, []string{"100001"}) userSvc := newUserService(repository, userservice.WithClock(func() time.Time { return now })) token, _, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-pretty", thirdPartyRegistration("ios"), authservice.Meta{}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } if err := authSvc.SetPassword(ctx, token.UserID, "secret-pass", authservice.Meta{}); err != nil { t.Fatalf("SetPassword failed: %v", err) } if _, _, err := userSvc.ApplyPrettyDisplayUserID(ctx, token.UserID, "888888", 1000, "receipt-1", "req-pretty"); err != nil { t.Fatalf("ApplyPrettyDisplayUserID failed: %v", err) } defaultAliasToken, err := authSvc.LoginPassword(ctx, token.DefaultDisplayUserID, "secret-pass", "ios", authservice.Meta{}) if err != nil { t.Fatalf("default display_user_id alias login failed while pretty is active: %v", err) } if defaultAliasToken.DisplayUserID != "888888" || defaultAliasToken.DefaultDisplayUserID != token.DefaultDisplayUserID || defaultAliasToken.DisplayUserIDKind != string(userdomain.DisplayUserIDKindPretty) { // 默认短号只是登录入口别名,不能把用户当前展示号回退成默认短号。 t.Fatalf("unexpected default alias login token: %+v", defaultAliasToken) } prettyToken, err := authSvc.LoginPassword(ctx, "888888", "secret-pass", "ios", authservice.Meta{}) if err != nil { t.Fatalf("pretty display_user_id login failed: %v", err) } if prettyToken.DisplayUserID != "888888" || prettyToken.DefaultDisplayUserID != token.DefaultDisplayUserID || prettyToken.DisplayUserIDKind != string(userdomain.DisplayUserIDKindPretty) { t.Fatalf("unexpected pretty login token: %+v", prettyToken) } now = time.UnixMilli(2500) // 靓号过期后,密码登录默认号会触发懒恢复。 defaultToken, err := authSvc.LoginPassword(ctx, token.DefaultDisplayUserID, "secret-pass", "ios", authservice.Meta{}) if err != nil { t.Fatalf("default display_user_id login should recover after pretty expires: %v", err) } if defaultToken.DisplayUserID != token.DefaultDisplayUserID || defaultToken.DisplayUserIDKind != string(userdomain.DisplayUserIDKindDefault) { t.Fatalf("unexpected recovered login token: %+v", defaultToken) } if _, err := authSvc.LoginPassword(ctx, "888888", "secret-pass", "ios", authservice.Meta{}); !xerr.IsCode(err, xerr.AuthFailed) { t.Fatalf("expired pretty display_user_id must not login, got %v", err) } } func TestPasswordLoginAllowsAlphanumericPrettyDisplayID(t *testing.T) { // 后台发放靓号可以包含字母;密码登录既允许 active 靓号,也允许 held 默认短号作为别名。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) authSvc := newAuthService(repository, &now, []int64{900001}, []string{"100001"}) userSvc := newUserService(repository, userservice.WithClock(func() time.Time { return now })) token, _, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-pretty-alpha", thirdPartyRegistration("ios"), authservice.Meta{}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } if err := authSvc.SetPassword(ctx, token.UserID, "secret-pass", authservice.Meta{}); err != nil { t.Fatalf("SetPassword failed: %v", err) } if _, _, err := userSvc.AdminGrantPrettyDisplayID(ctx, userdomain.AdminGrantPrettyDisplayIDCommand{ TargetUserID: token.UserID, DisplayUserID: "1111cc1111", OperatorAdminID: 1, RequestID: "req-admin-pretty-alpha", }); err != nil { t.Fatalf("AdminGrantPrettyDisplayID failed: %v", err) } if _, err := repository.RawDB().ExecContext(ctx, ` UPDATE users SET current_display_user_id = default_display_user_id, current_display_user_id_kind = ?, current_display_user_id_expires_at_ms = NULL WHERE app_code = ? AND user_id = ? `, string(userdomain.DisplayUserIDKindDefault), "lalu", token.UserID); err != nil { t.Fatalf("make users display snapshot stale failed: %v", err) } defaultAliasToken, err := authSvc.LoginPassword(ctx, token.DefaultDisplayUserID, "secret-pass", "ios", authservice.Meta{}) if err != nil { t.Fatalf("default display_user_id alias login failed while admin pretty is active: %v", err) } if defaultAliasToken.UserID != token.UserID || defaultAliasToken.DisplayUserID != "1111cc1111" || defaultAliasToken.DisplayUserIDKind != string(userdomain.DisplayUserIDKindPretty) { // users 快照即使因为历史脚本滞后停在默认号,登录成功后也必须按事实表修回 active 靓号。 t.Fatalf("unexpected default alias login token: %+v", defaultAliasToken) } userAfterAliasLogin, err := repository.GetUser(ctx, token.UserID) if err != nil { t.Fatalf("GetUser after default alias login failed: %v", err) } if userAfterAliasLogin.CurrentDisplayUserID != "1111cc1111" || userAfterAliasLogin.CurrentDisplayUserIDKind != userdomain.DisplayUserIDKindPretty { t.Fatalf("default alias login must repair users current display snapshot: %+v", userAfterAliasLogin) } prettyToken, err := authSvc.LoginPassword(ctx, "1111cc1111", "secret-pass", "ios", authservice.Meta{}) if err != nil { t.Fatalf("alphanumeric pretty display_user_id login failed: %v", err) } if prettyToken.UserID != token.UserID || prettyToken.DisplayUserID != "1111cc1111" || prettyToken.DisplayUserIDKind != string(userdomain.DisplayUserIDKindPretty) { t.Fatalf("unexpected alphanumeric pretty login token: %+v", prettyToken) } } func TestRecycleAdminGrantedPrettyDisplayIDRestoresDefaultDisplayID(t *testing.T) { // 后台回收必须能处理 duration_ms=0 的长期靓号;这类靓号不能复用到期恢复接口,否则会被未到期校验拒绝。 ctx := context.Background() repository := mysqltest.NewRepository(t) seedCountry(t, repository, "SG") now := time.UnixMilli(1000) authSvc := newAuthService(repository, &now, []int64{900001}, []string{"100001"}) userSvc := newUserService(repository, userservice.WithClock(func() time.Time { return now })) token, _, err := authSvc.LoginThirdParty(ctx, "wechat", "openid-pretty-recycle", thirdPartyRegistration("ios"), authservice.Meta{}) if err != nil { t.Fatalf("LoginThirdParty failed: %v", err) } if err := authSvc.SetPassword(ctx, token.UserID, "secret-pass", authservice.Meta{}); err != nil { t.Fatalf("SetPassword failed: %v", err) } identity, _, err := userSvc.AdminGrantPrettyDisplayID(ctx, userdomain.AdminGrantPrettyDisplayIDCommand{ TargetUserID: token.UserID, DisplayUserID: "RECYCLE2026", OperatorAdminID: 1, RequestID: "req-admin-pretty-recycle-grant", }) if err != nil { t.Fatalf("AdminGrantPrettyDisplayID failed: %v", err) } if identity.PrettyID == "" || identity.DisplayUserID != "RECYCLE2026" { t.Fatalf("unexpected grant identity: %+v", identity) } now = time.UnixMilli(2000) recycled, err := userSvc.RecyclePrettyDisplayID(ctx, userdomain.PrettyDisplayIDRecycleCommand{ PrettyID: identity.PrettyID, Reason: "manual test recycle", OperatorAdminID: 2, RequestID: "req-admin-pretty-recycle", }) if err != nil { t.Fatalf("RecyclePrettyDisplayID failed: %v", err) } if recycled.Status != userdomain.PrettyDisplayIDStatusReleased || recycled.AssignedUserID != 0 || recycled.AssignedLeaseID != "" { // 后台自由发放号回收后保留 released 历史态,不回到池内可申请。 t.Fatalf("unexpected recycled pretty item: %+v", recycled) } userAfterRecycle, err := repository.GetUser(ctx, token.UserID) if err != nil { t.Fatalf("GetUser after recycle failed: %v", err) } if userAfterRecycle.CurrentDisplayUserID != token.DefaultDisplayUserID || userAfterRecycle.CurrentDisplayUserIDKind != userdomain.DisplayUserIDKindDefault { t.Fatalf("user must recover default display id after recycle: %+v", userAfterRecycle) } defaultToken, err := authSvc.LoginPassword(ctx, token.DefaultDisplayUserID, "secret-pass", "ios", authservice.Meta{}) if err != nil { t.Fatalf("default display_user_id login after recycle failed: %v", err) } if defaultToken.DisplayUserID != token.DefaultDisplayUserID || defaultToken.DisplayUserIDKind != string(userdomain.DisplayUserIDKindDefault) { t.Fatalf("unexpected default token after recycle: %+v", defaultToken) } if _, err := authSvc.LoginPassword(ctx, "RECYCLE2026", "secret-pass", "ios", authservice.Meta{}); !xerr.IsCode(err, xerr.AuthFailed) { t.Fatalf("recycled pretty display_user_id must not login, got %v", err) } }