zitadel/internal/api/grpc/user/v2/integration_test/query_test.go

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//go:build integration
package user_test
import (
"context"
"fmt"
"testing"
"time"
"github.com/muhlemmer/gu"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"google.golang.org/protobuf/types/known/timestamppb"
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
"github.com/zitadel/zitadel/internal/integration"
"github.com/zitadel/zitadel/pkg/grpc/object/v2"
"github.com/zitadel/zitadel/pkg/grpc/user/v2"
)
func TestServer_GetUserByID(t *testing.T) {
t.Parallel()
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
orgResp := Instance.CreateOrganization(IamCTX, fmt.Sprintf("GetUserByIDOrg%d", time.Now().UnixNano()), fmt.Sprintf("%d@mouse.com", time.Now().UnixNano()))
type args struct {
ctx context.Context
req *user.GetUserByIDRequest
dep func(ctx context.Context, username string, request *user.GetUserByIDRequest) (*userAttr, error)
}
tests := []struct {
name string
args args
want *user.GetUserByIDResponse
wantErr bool
}{
{
name: "user by ID, no id provided",
args: args{
IamCTX,
&user.GetUserByIDRequest{
UserId: "",
},
func(ctx context.Context, username string, request *user.GetUserByIDRequest) (*userAttr, error) {
return nil, nil
},
},
wantErr: true,
},
{
name: "user by ID, not found",
args: args{
IamCTX,
&user.GetUserByIDRequest{
UserId: "unknown",
},
func(ctx context.Context, username string, request *user.GetUserByIDRequest) (*userAttr, error) {
return nil, nil
},
},
wantErr: true,
},
{
name: "user by ID, ok",
args: args{
IamCTX,
&user.GetUserByIDRequest{},
func(ctx context.Context, username string, request *user.GetUserByIDRequest) (*userAttr, error) {
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
resp := Instance.CreateHumanUserVerified(ctx, orgResp.OrganizationId, username)
request.UserId = resp.GetUserId()
return &userAttr{resp.GetUserId(), username, nil, resp.GetDetails()}, nil
},
},
want: &user.GetUserByIDResponse{
User: &user.User{
State: user.UserState_USER_STATE_ACTIVE,
Username: "",
LoginNames: nil,
PreferredLoginName: "",
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
AvatarUrl: "",
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
},
},
},
Details: &object.Details{
ChangeDate: timestamppb.Now(),
ResourceOwner: orgResp.OrganizationId,
},
},
},
{
name: "user by ID, passwordChangeRequired, ok",
args: args{
IamCTX,
&user.GetUserByIDRequest{},
func(ctx context.Context, username string, request *user.GetUserByIDRequest) (*userAttr, error) {
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
resp := Instance.CreateHumanUserVerified(ctx, orgResp.OrganizationId, username)
request.UserId = resp.GetUserId()
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
details := Instance.SetUserPassword(ctx, resp.GetUserId(), integration.UserPassword, true)
return &userAttr{resp.GetUserId(), username, details.GetChangeDate(), resp.GetDetails()}, nil
},
},
want: &user.GetUserByIDResponse{
User: &user.User{
State: user.UserState_USER_STATE_ACTIVE,
Username: "",
LoginNames: nil,
PreferredLoginName: "",
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
AvatarUrl: "",
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
PasswordChangeRequired: true,
PasswordChanged: timestamppb.Now(),
},
},
},
Details: &object.Details{
ChangeDate: timestamppb.Now(),
ResourceOwner: orgResp.OrganizationId,
},
},
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
username := fmt.Sprintf("%d@mouse.com", time.Now().UnixNano())
userAttr, err := tt.args.dep(tt.args.ctx, username, tt.args.req)
require.NoError(t, err)
retryDuration := time.Minute
if ctxDeadline, ok := CTX.Deadline(); ok {
retryDuration = time.Until(ctxDeadline)
}
require.EventuallyWithT(t, func(ttt *assert.CollectT) {
got, getErr := Client.GetUserByID(tt.args.ctx, tt.args.req)
assertErr := assert.NoError
if tt.wantErr {
assertErr = assert.Error
}
assertErr(ttt, getErr)
if getErr != nil {
return
}
tt.want.User.Details = userAttr.Details
tt.want.User.UserId = userAttr.UserID
tt.want.User.Username = userAttr.Username
tt.want.User.PreferredLoginName = userAttr.Username
tt.want.User.LoginNames = []string{userAttr.Username}
if human := tt.want.User.GetHuman(); human != nil {
human.Email.Email = userAttr.Username
if tt.want.User.GetHuman().GetPasswordChanged() != nil {
human.PasswordChanged = userAttr.Changed
}
}
assert.Equal(ttt, tt.want.User, got.User)
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
integration.AssertDetails(ttt, tt.want, got)
}, retryDuration, time.Second)
})
}
}
func TestServer_GetUserByID_Permission(t *testing.T) {
t.Parallel()
timeNow := time.Now().UTC()
newOrgOwnerEmail := fmt.Sprintf("%d@permission.get.com", timeNow.UnixNano())
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
newOrg := Instance.CreateOrganization(IamCTX, fmt.Sprintf("GetHuman%d", time.Now().UnixNano()), newOrgOwnerEmail)
newUserID := newOrg.CreatedAdmins[0].GetUserId()
type args struct {
ctx context.Context
req *user.GetUserByIDRequest
}
tests := []struct {
name string
args args
want *user.GetUserByIDResponse
wantErr bool
}{
{
name: "System, ok",
args: args{
SystemCTX,
&user.GetUserByIDRequest{
UserId: newUserID,
},
},
want: &user.GetUserByIDResponse{
User: &user.User{
State: user.UserState_USER_STATE_ACTIVE,
Username: "",
LoginNames: nil,
PreferredLoginName: "",
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "firstname",
FamilyName: "lastname",
NickName: gu.Ptr(""),
DisplayName: gu.Ptr("firstname lastname"),
PreferredLanguage: gu.Ptr("und"),
Gender: user.Gender_GENDER_UNSPECIFIED.Enum(),
AvatarUrl: "",
},
Email: &user.HumanEmail{
Email: newOrgOwnerEmail,
},
Phone: &user.HumanPhone{},
},
},
},
Details: &object.Details{
ChangeDate: timestamppb.New(timeNow),
ResourceOwner: newOrg.GetOrganizationId(),
},
},
},
{
name: "Instance, ok",
args: args{
IamCTX,
&user.GetUserByIDRequest{
UserId: newUserID,
},
},
want: &user.GetUserByIDResponse{
User: &user.User{
State: user.UserState_USER_STATE_ACTIVE,
Username: "",
LoginNames: nil,
PreferredLoginName: "",
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "firstname",
FamilyName: "lastname",
NickName: gu.Ptr(""),
DisplayName: gu.Ptr("firstname lastname"),
PreferredLanguage: gu.Ptr("und"),
Gender: user.Gender_GENDER_UNSPECIFIED.Enum(),
AvatarUrl: "",
},
Email: &user.HumanEmail{
Email: newOrgOwnerEmail,
},
Phone: &user.HumanPhone{},
},
},
},
Details: &object.Details{
ChangeDate: timestamppb.New(timeNow),
ResourceOwner: newOrg.GetOrganizationId(),
},
},
},
{
name: "Org, error",
args: args{
CTX,
&user.GetUserByIDRequest{
UserId: newUserID,
},
},
wantErr: true,
},
{
name: "User, error",
args: args{
UserCTX,
&user.GetUserByIDRequest{
UserId: newUserID,
},
},
wantErr: true,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
got, err := Client.GetUserByID(tt.args.ctx, tt.args.req)
if tt.wantErr {
require.Error(t, err)
} else {
require.NoError(t, err)
tt.want.User.UserId = tt.args.req.GetUserId()
tt.want.User.Username = newOrgOwnerEmail
tt.want.User.PreferredLoginName = newOrgOwnerEmail
tt.want.User.LoginNames = []string{newOrgOwnerEmail}
if human := tt.want.User.GetHuman(); human != nil {
human.Email.Email = newOrgOwnerEmail
}
// details tested in GetUserByID
tt.want.User.Details = got.User.GetDetails()
assert.Equal(t, tt.want.User, got.User)
}
})
}
}
type userAttr struct {
UserID string
Username string
Changed *timestamppb.Timestamp
Details *object.Details
}
func TestServer_ListUsers(t *testing.T) {
t.Parallel()
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
orgResp := Instance.CreateOrganization(IamCTX, fmt.Sprintf("ListUsersOrg%d", time.Now().UnixNano()), fmt.Sprintf("%d@mouse.com", time.Now().UnixNano()))
userResp := Instance.CreateHumanUserVerified(IamCTX, orgResp.OrganizationId, fmt.Sprintf("%d@listusers.com", time.Now().UnixNano()))
type args struct {
ctx context.Context
count int
req *user.ListUsersRequest
dep func(ctx context.Context, usernames []string, request *user.ListUsersRequest) ([]userAttr, error)
}
tests := []struct {
name string
args args
want *user.ListUsersResponse
wantErr bool
}{
{
name: "list user by id, no permission",
args: args{
UserCTX,
0,
&user.ListUsersRequest{},
func(ctx context.Context, usernames []string, request *user.ListUsersRequest) ([]userAttr, error) {
request.Queries = append(request.Queries, InUserIDsQuery([]string{userResp.UserId}))
return []userAttr{}, nil
},
},
want: &user.ListUsersResponse{
Details: &object.ListDetails{
TotalResult: 0,
Timestamp: timestamppb.Now(),
},
SortingColumn: 0,
Result: []*user.User{},
},
},
{
name: "list user by id, ok",
args: args{
IamCTX,
1,
&user.ListUsersRequest{
Queries: []*user.SearchQuery{
OrganizationIdQuery(orgResp.OrganizationId),
},
},
func(ctx context.Context, usernames []string, request *user.ListUsersRequest) ([]userAttr, error) {
infos := make([]userAttr, len(usernames))
userIDs := make([]string, len(usernames))
for i, username := range usernames {
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
resp := Instance.CreateHumanUserVerified(ctx, orgResp.OrganizationId, username)
userIDs[i] = resp.GetUserId()
infos[i] = userAttr{resp.GetUserId(), username, nil, resp.GetDetails()}
}
request.Queries = append(request.Queries, InUserIDsQuery(userIDs))
return infos, nil
},
},
want: &user.ListUsersResponse{
Details: &object.ListDetails{
TotalResult: 1,
Timestamp: timestamppb.Now(),
},
SortingColumn: 0,
Result: []*user.User{
{
State: user.UserState_USER_STATE_ACTIVE,
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
},
},
},
},
},
},
{
name: "list user by id, passwordChangeRequired, ok",
args: args{
IamCTX,
1,
&user.ListUsersRequest{
Queries: []*user.SearchQuery{
OrganizationIdQuery(orgResp.OrganizationId),
},
},
func(ctx context.Context, usernames []string, request *user.ListUsersRequest) ([]userAttr, error) {
infos := make([]userAttr, len(usernames))
userIDs := make([]string, len(usernames))
for i, username := range usernames {
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
resp := Instance.CreateHumanUserVerified(ctx, orgResp.OrganizationId, username)
userIDs[i] = resp.GetUserId()
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
details := Instance.SetUserPassword(ctx, resp.GetUserId(), integration.UserPassword, true)
infos[i] = userAttr{resp.GetUserId(), username, details.GetChangeDate(), resp.GetDetails()}
}
request.Queries = append(request.Queries, InUserIDsQuery(userIDs))
return infos, nil
},
},
want: &user.ListUsersResponse{
Details: &object.ListDetails{
TotalResult: 1,
Timestamp: timestamppb.Now(),
},
SortingColumn: 0,
Result: []*user.User{
{
State: user.UserState_USER_STATE_ACTIVE,
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
PasswordChangeRequired: true,
PasswordChanged: timestamppb.Now(),
},
},
},
},
},
},
{
name: "list user by id multiple, ok",
args: args{
IamCTX,
3,
&user.ListUsersRequest{
Queries: []*user.SearchQuery{
OrganizationIdQuery(orgResp.OrganizationId),
},
},
func(ctx context.Context, usernames []string, request *user.ListUsersRequest) ([]userAttr, error) {
infos := make([]userAttr, len(usernames))
userIDs := make([]string, len(usernames))
for i, username := range usernames {
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
resp := Instance.CreateHumanUserVerified(ctx, orgResp.OrganizationId, username)
userIDs[i] = resp.GetUserId()
infos[i] = userAttr{resp.GetUserId(), username, nil, resp.GetDetails()}
}
request.Queries = append(request.Queries, InUserIDsQuery(userIDs))
return infos, nil
},
},
want: &user.ListUsersResponse{
Details: &object.ListDetails{
TotalResult: 3,
Timestamp: timestamppb.Now(),
},
SortingColumn: 0,
Result: []*user.User{
{
State: user.UserState_USER_STATE_ACTIVE,
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
},
},
}, {
State: user.UserState_USER_STATE_ACTIVE,
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
},
},
}, {
State: user.UserState_USER_STATE_ACTIVE,
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
},
},
},
},
},
},
{
name: "list user by username, ok",
args: args{
IamCTX,
1,
&user.ListUsersRequest{
Queries: []*user.SearchQuery{
OrganizationIdQuery(orgResp.OrganizationId),
},
},
func(ctx context.Context, usernames []string, request *user.ListUsersRequest) ([]userAttr, error) {
infos := make([]userAttr, len(usernames))
userIDs := make([]string, len(usernames))
for i, username := range usernames {
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
resp := Instance.CreateHumanUserVerified(ctx, orgResp.OrganizationId, username)
userIDs[i] = resp.GetUserId()
infos[i] = userAttr{resp.GetUserId(), username, nil, resp.GetDetails()}
request.Queries = append(request.Queries, UsernameQuery(username))
}
return infos, nil
},
},
want: &user.ListUsersResponse{
Details: &object.ListDetails{
TotalResult: 1,
Timestamp: timestamppb.Now(),
},
SortingColumn: 0,
Result: []*user.User{
{
State: user.UserState_USER_STATE_ACTIVE,
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
},
},
},
},
},
},
{
name: "list user in emails, ok",
args: args{
IamCTX,
1,
&user.ListUsersRequest{
Queries: []*user.SearchQuery{
OrganizationIdQuery(orgResp.OrganizationId),
},
},
func(ctx context.Context, usernames []string, request *user.ListUsersRequest) ([]userAttr, error) {
infos := make([]userAttr, len(usernames))
for i, username := range usernames {
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
resp := Instance.CreateHumanUserVerified(ctx, orgResp.OrganizationId, username)
infos[i] = userAttr{resp.GetUserId(), username, nil, resp.GetDetails()}
}
request.Queries = append(request.Queries, InUserEmailsQuery(usernames))
return infos, nil
},
},
want: &user.ListUsersResponse{
Details: &object.ListDetails{
TotalResult: 1,
Timestamp: timestamppb.Now(),
},
SortingColumn: 0,
Result: []*user.User{
{
State: user.UserState_USER_STATE_ACTIVE,
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
},
},
},
},
},
},
{
name: "list user in emails multiple, ok",
args: args{
IamCTX,
3,
&user.ListUsersRequest{
Queries: []*user.SearchQuery{
OrganizationIdQuery(orgResp.OrganizationId),
},
},
func(ctx context.Context, usernames []string, request *user.ListUsersRequest) ([]userAttr, error) {
infos := make([]userAttr, len(usernames))
for i, username := range usernames {
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
resp := Instance.CreateHumanUserVerified(ctx, orgResp.OrganizationId, username)
infos[i] = userAttr{resp.GetUserId(), username, nil, resp.GetDetails()}
}
request.Queries = append(request.Queries, InUserEmailsQuery(usernames))
return infos, nil
},
},
want: &user.ListUsersResponse{
Details: &object.ListDetails{
TotalResult: 3,
Timestamp: timestamppb.Now(),
},
SortingColumn: 0,
Result: []*user.User{
{
State: user.UserState_USER_STATE_ACTIVE,
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
},
},
}, {
State: user.UserState_USER_STATE_ACTIVE,
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
},
},
}, {
State: user.UserState_USER_STATE_ACTIVE,
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
},
},
},
},
},
},
{
name: "list user in emails no found, ok",
args: args{
IamCTX,
3,
&user.ListUsersRequest{Queries: []*user.SearchQuery{
OrganizationIdQuery(orgResp.OrganizationId),
InUserEmailsQuery([]string{"notfound"}),
},
},
func(ctx context.Context, usernames []string, request *user.ListUsersRequest) ([]userAttr, error) {
return []userAttr{}, nil
},
},
want: &user.ListUsersResponse{
Details: &object.ListDetails{
TotalResult: 0,
Timestamp: timestamppb.Now(),
},
SortingColumn: 0,
Result: []*user.User{},
},
},
{
name: "list user resourceowner multiple, ok",
args: args{
IamCTX,
3,
&user.ListUsersRequest{},
func(ctx context.Context, usernames []string, request *user.ListUsersRequest) ([]userAttr, error) {
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
orgResp := Instance.CreateOrganization(ctx, fmt.Sprintf("ListUsersResourceowner%d", time.Now().UnixNano()), fmt.Sprintf("%d@mouse.com", time.Now().UnixNano()))
infos := make([]userAttr, len(usernames))
for i, username := range usernames {
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
resp := Instance.CreateHumanUserVerified(ctx, orgResp.OrganizationId, username)
infos[i] = userAttr{resp.GetUserId(), username, nil, resp.GetDetails()}
}
request.Queries = append(request.Queries, OrganizationIdQuery(orgResp.OrganizationId))
request.Queries = append(request.Queries, InUserEmailsQuery(usernames))
return infos, nil
},
},
want: &user.ListUsersResponse{
Details: &object.ListDetails{
TotalResult: 3,
Timestamp: timestamppb.Now(),
},
SortingColumn: 0,
Result: []*user.User{
{
State: user.UserState_USER_STATE_ACTIVE,
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
},
},
}, {
State: user.UserState_USER_STATE_ACTIVE,
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
},
},
}, {
State: user.UserState_USER_STATE_ACTIVE,
Type: &user.User_Human{
Human: &user.HumanUser{
Profile: &user.HumanProfile{
GivenName: "Mickey",
FamilyName: "Mouse",
NickName: gu.Ptr("Mickey"),
DisplayName: gu.Ptr("Mickey Mouse"),
PreferredLanguage: gu.Ptr("nl"),
Gender: user.Gender_GENDER_MALE.Enum(),
},
Email: &user.HumanEmail{
IsVerified: true,
},
Phone: &user.HumanPhone{
Phone: "+41791234567",
IsVerified: true,
},
},
},
},
},
},
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
usernames := make([]string, tt.args.count)
for i := 0; i < tt.args.count; i++ {
usernames[i] = fmt.Sprintf("%d%d@mouse.com", time.Now().UnixNano(), i)
}
infos, err := tt.args.dep(tt.args.ctx, usernames, tt.args.req)
require.NoError(t, err)
retryDuration := time.Minute
if ctxDeadline, ok := CTX.Deadline(); ok {
retryDuration = time.Until(ctxDeadline)
}
require.EventuallyWithT(t, func(ttt *assert.CollectT) {
got, listErr := Client.ListUsers(tt.args.ctx, tt.args.req)
assertErr := assert.NoError
if tt.wantErr {
assertErr = assert.Error
}
assertErr(ttt, listErr)
if listErr != nil {
return
}
// always only give back dependency infos which are required for the response
assert.Len(ttt, tt.want.Result, len(infos))
// always first check length, otherwise its failed anyway
assert.Len(ttt, got.Result, len(tt.want.Result))
// totalResult is unrelated to the tests here so gets carried over, can vary from the count of results due to permissions
tt.want.Details.TotalResult = got.Details.TotalResult
// fill in userid and username as it is generated
for i := range infos {
tt.want.Result[i].UserId = infos[i].UserID
tt.want.Result[i].Username = infos[i].Username
tt.want.Result[i].PreferredLoginName = infos[i].Username
tt.want.Result[i].LoginNames = []string{infos[i].Username}
if human := tt.want.Result[i].GetHuman(); human != nil {
human.Email.Email = infos[i].Username
if tt.want.Result[i].GetHuman().GetPasswordChanged() != nil {
human.PasswordChanged = infos[i].Changed
}
}
tt.want.Result[i].Details = infos[i].Details
}
for i := range tt.want.Result {
assert.Contains(ttt, got.Result, tt.want.Result[i])
}
chore(tests): use a coverage server binary (#8407) # Which Problems Are Solved Use a single server instance for API integration tests. This optimizes the time taken for the integration test pipeline, because it allows running tests on multiple packages in parallel. Also, it saves time by not start and stopping a zitadel server for every package. # How the Problems Are Solved - Build a binary with `go build -race -cover ....` - Integration tests only construct clients. The server remains running in the background. - The integration package and tested packages now fully utilize the API. No more direct database access trough `query` and `command` packages. - Use Makefile recipes to setup, start and stop the server in the background. - The binary has the race detector enabled - Init and setup jobs are configured to halt immediately on race condition - Because the server runs in the background, races are only logged. When the server is stopped and race logs exist, the Makefile recipe will throw an error and print the logs. - Makefile recipes include logic to print logs and convert coverage reports after the server is stopped. - Some tests need a downstream HTTP server to make requests, like quota and milestones. A new `integration/sink` package creates an HTTP server and uses websockets to forward HTTP request back to the test packages. The package API uses Go channels for abstraction and easy usage. # Additional Changes - Integration test files already used the `//go:build integration` directive. In order to properly split integration from unit tests, integration test files need to be in a `integration_test` subdirectory of their package. - `UseIsolatedInstance` used to overwrite the `Tester.Client` for each instance. Now a `Instance` object is returned with a gRPC client that is connected to the isolated instance's hostname. - The `Tester` type is now `Instance`. The object is created for the first instance, used by default in any test. Isolated instances are also `Instance` objects and therefore benefit from the same methods and values. The first instance and any other us capable of creating an isolated instance over the system API. - All test packages run in an Isolated instance by calling `NewInstance()` - Individual tests that use an isolated instance use `t.Parallel()` # Additional Context - Closes #6684 - https://go.dev/doc/articles/race_detector - https://go.dev/doc/build-cover --------- Co-authored-by: Stefan Benz <46600784+stebenz@users.noreply.github.com>
2024-09-06 12:47:57 +00:00
integration.AssertListDetails(ttt, tt.want, got)
}, retryDuration, time.Millisecond*100, "timeout waiting for expected user result")
})
}
}
func InUserIDsQuery(ids []string) *user.SearchQuery {
return &user.SearchQuery{Query: &user.SearchQuery_InUserIdsQuery{
InUserIdsQuery: &user.InUserIDQuery{
UserIds: ids,
},
},
}
}
func InUserEmailsQuery(emails []string) *user.SearchQuery {
return &user.SearchQuery{Query: &user.SearchQuery_InUserEmailsQuery{
InUserEmailsQuery: &user.InUserEmailsQuery{
UserEmails: emails,
},
},
}
}
func UsernameQuery(username string) *user.SearchQuery {
return &user.SearchQuery{Query: &user.SearchQuery_UserNameQuery{
UserNameQuery: &user.UserNameQuery{
UserName: username,
},
},
}
}
func OrganizationIdQuery(resourceowner string) *user.SearchQuery {
return &user.SearchQuery{Query: &user.SearchQuery_OrganizationIdQuery{
OrganizationIdQuery: &user.OrganizationIdQuery{
OrganizationId: resourceowner,
},
},
}
}