package management
import (
"encoding/json"
"github.com/caos/logging"
"github.com/golang/protobuf/ptypes"
"golang.org/x/text/language"
"google.golang.org/protobuf/encoding/protojson"
"google.golang.org/protobuf/types/known/structpb"
"github.com/caos/zitadel/internal/eventstore/models"
usr_model "github.com/caos/zitadel/internal/user/model"
"github.com/caos/zitadel/pkg/grpc/management"
"github.com/caos/zitadel/pkg/grpc/message"
)
func userFromModel(user *usr_model.User) *management.UserResponse {
creationDate, err := ptypes.TimestampProto(user.CreationDate)
logging.Log("GRPC-8duwe").OnError(err).Debug("unable to parse timestamp")
changeDate, err := ptypes.TimestampProto(user.ChangeDate)
logging.Log("GRPC-ckoe3d").OnError(err).Debug("unable to parse timestamp")
userResp := &management.UserResponse{
Id: user.AggregateID,
State: userStateFromModel(user.State),
CreationDate: creationDate,
ChangeDate: changeDate,
Sequence: user.Sequence,
UserName: user.UserName,
}
if user.Machine != nil {
userResp.User = &management.UserResponse_Machine{Machine: machineFromModel(user.Machine)}
}
if user.Human != nil {
userResp.User = &management.UserResponse_Human{Human: humanFromModel(user.Human)}
}
return userResp
}
func userCreateToModel(user *management.CreateUserRequest) *usr_model.User {
var human *usr_model.Human
var machine *usr_model.Machine
if h := user.GetHuman(); h != nil {
human = humanCreateToModel(h)
}
if m := user.GetMachine(); m != nil {
machine = machineCreateToModel(m)
}
return &usr_model.User{
UserName: user.UserName,
Human: human,
Machine: machine,
}
}
func passwordRequestToModel(r *management.PasswordRequest) *usr_model.Password {
return &usr_model.Password{
ObjectRoot: models.ObjectRoot{AggregateID: r.Id},
SecretString: r.Password,
}
}
func userSearchRequestsToModel(project *management.UserSearchRequest) *usr_model.UserSearchRequest {
return &usr_model.UserSearchRequest{
Offset: project.Offset,
Limit: project.Limit,
Queries: userSearchQueriesToModel(project.Queries),
}
}
func userSearchQueriesToModel(queries []*management.UserSearchQuery) []*usr_model.UserSearchQuery {
converted := make([]*usr_model.UserSearchQuery, len(queries))
for i, q := range queries {
converted[i] = userSearchQueryToModel(q)
}
return converted
}
func userSearchQueryToModel(query *management.UserSearchQuery) *usr_model.UserSearchQuery {
return &usr_model.UserSearchQuery{
Key: userSearchKeyToModel(query.Key),
Method: searchMethodToModel(query.Method),
Value: query.Value,
}
}
func userSearchKeyToModel(key management.UserSearchKey) usr_model.UserSearchKey {
switch key {
case management.UserSearchKey_USERSEARCHKEY_USER_NAME:
return usr_model.UserSearchKeyUserName
case management.UserSearchKey_USERSEARCHKEY_FIRST_NAME:
return usr_model.UserSearchKeyFirstName
case management.UserSearchKey_USERSEARCHKEY_LAST_NAME:
return usr_model.UserSearchKeyLastName
case management.UserSearchKey_USERSEARCHKEY_NICK_NAME:
return usr_model.UserSearchKeyNickName
case management.UserSearchKey_USERSEARCHKEY_DISPLAY_NAME:
return usr_model.UserSearchKeyDisplayName
case management.UserSearchKey_USERSEARCHKEY_EMAIL:
return usr_model.UserSearchKeyEmail
case management.UserSearchKey_USERSEARCHKEY_STATE:
return usr_model.UserSearchKeyState
case management.UserSearchKey_USERSEARCHKEY_TYPE:
return usr_model.UserSearchKeyType
default:
return usr_model.UserSearchKeyUnspecified
}
}
func userMembershipSearchRequestsToModel(request *management.UserMembershipSearchRequest) *usr_model.UserMembershipSearchRequest {
return &usr_model.UserMembershipSearchRequest{
Offset: request.Offset,
Limit: request.Limit,
Queries: userMembershipSearchQueriesToModel(request.Queries),
}
}
func userMembershipSearchQueriesToModel(queries []*management.UserMembershipSearchQuery) []*usr_model.UserMembershipSearchQuery {
converted := make([]*usr_model.UserMembershipSearchQuery, len(queries))
for i, q := range queries {
converted[i] = userMembershipSearchQueryToModel(q)
}
return converted
}
func userMembershipSearchQueryToModel(query *management.UserMembershipSearchQuery) *usr_model.UserMembershipSearchQuery {
return &usr_model.UserMembershipSearchQuery{
Key: userMembershipSearchKeyToModel(query.Key),
Method: searchMethodToModel(query.Method),
Value: query.Value,
}
}
func userMembershipSearchKeyToModel(key management.UserMembershipSearchKey) usr_model.UserMembershipSearchKey {
switch key {
case management.UserMembershipSearchKey_USERMEMBERSHIPSEARCHKEY_TYPE:
return usr_model.UserMembershipSearchKeyMemberType
case management.UserMembershipSearchKey_USERMEMBERSHIPSEARCHKEY_OBJECT_ID:
return usr_model.UserMembershipSearchKeyObjectID
default:
return usr_model.UserMembershipSearchKeyUnspecified
}
}
func profileFromModel(profile *usr_model.Profile) *management.UserProfile {
creationDate, err := ptypes.TimestampProto(profile.CreationDate)
logging.Log("GRPC-dkso3").OnError(err).Debug("unable to parse timestamp")
changeDate, err := ptypes.TimestampProto(profile.ChangeDate)
logging.Log("GRPC-ski8d").OnError(err).Debug("unable to parse timestamp")
return &management.UserProfile{
Id: profile.AggregateID,
CreationDate: creationDate,
ChangeDate: changeDate,
Sequence: profile.Sequence,
FirstName: profile.FirstName,
LastName: profile.LastName,
DisplayName: profile.DisplayName,
NickName: profile.NickName,
PreferredLanguage: profile.PreferredLanguage.String(),
Gender: genderFromModel(profile.Gender),
}
}
func profileViewFromModel(profile *usr_model.Profile) *management.UserProfileView {
creationDate, err := ptypes.TimestampProto(profile.CreationDate)
logging.Log("GRPC-sk8sk").OnError(err).Debug("unable to parse timestamp")
changeDate, err := ptypes.TimestampProto(profile.ChangeDate)
logging.Log("GRPC-s30Ks'").OnError(err).Debug("unable to parse timestamp")
return &management.UserProfileView{
Id: profile.AggregateID,
CreationDate: creationDate,
ChangeDate: changeDate,
Sequence: profile.Sequence,
FirstName: profile.FirstName,
LastName: profile.LastName,
DisplayName: profile.DisplayName,
NickName: profile.NickName,
PreferredLanguage: profile.PreferredLanguage.String(),
Gender: genderFromModel(profile.Gender),
LoginNames: profile.LoginNames,
PreferredLoginName: profile.PreferredLoginName,
}
}
func updateProfileToModel(u *management.UpdateUserProfileRequest) *usr_model.Profile {
preferredLanguage, err := language.Parse(u.PreferredLanguage)
logging.Log("GRPC-d8k2s").OnError(err).Debug("language malformed")
return &usr_model.Profile{
ObjectRoot: models.ObjectRoot{AggregateID: u.Id},
FirstName: u.FirstName,
LastName: u.LastName,
NickName: u.NickName,
PreferredLanguage: preferredLanguage,
Gender: genderToModel(u.Gender),
}
}
func emailFromModel(email *usr_model.Email) *management.UserEmail {
creationDate, err := ptypes.TimestampProto(email.CreationDate)
logging.Log("GRPC-d9ow2").OnError(err).Debug("unable to parse timestamp")
changeDate, err := ptypes.TimestampProto(email.ChangeDate)
logging.Log("GRPC-s0dkw").OnError(err).Debug("unable to parse timestamp")
return &management.UserEmail{
Id: email.AggregateID,
CreationDate: creationDate,
ChangeDate: changeDate,
Sequence: email.Sequence,
Email: email.EmailAddress,
IsEmailVerified: email.IsEmailVerified,
}
}
func emailViewFromModel(email *usr_model.Email) *management.UserEmailView {
creationDate, err := ptypes.TimestampProto(email.CreationDate)
logging.Log("GRPC-sKefs").OnError(err).Debug("unable to parse timestamp")
changeDate, err := ptypes.TimestampProto(email.ChangeDate)
logging.Log("GRPC-0isjD").OnError(err).Debug("unable to parse timestamp")
return &management.UserEmailView{
Id: email.AggregateID,
CreationDate: creationDate,
ChangeDate: changeDate,
Sequence: email.Sequence,
Email: email.EmailAddress,
IsEmailVerified: email.IsEmailVerified,
}
}
func updateEmailToModel(e *management.UpdateUserEmailRequest) *usr_model.Email {
return &usr_model.Email{
ObjectRoot: models.ObjectRoot{AggregateID: e.Id},
EmailAddress: e.Email,
IsEmailVerified: e.IsEmailVerified,
}
}
func phoneFromModel(phone *usr_model.Phone) *management.UserPhone {
creationDate, err := ptypes.TimestampProto(phone.CreationDate)
logging.Log("GRPC-ps9ws").OnError(err).Debug("unable to parse timestamp")
changeDate, err := ptypes.TimestampProto(phone.ChangeDate)
logging.Log("GRPC-09ewq").OnError(err).Debug("unable to parse timestamp")
return &management.UserPhone{
Id: phone.AggregateID,
CreationDate: creationDate,
ChangeDate: changeDate,
Sequence: phone.Sequence,
Phone: phone.PhoneNumber,
IsPhoneVerified: phone.IsPhoneVerified,
}
}
func phoneViewFromModel(phone *usr_model.Phone) *management.UserPhoneView {
creationDate, err := ptypes.TimestampProto(phone.CreationDate)
logging.Log("GRPC-6gSj").OnError(err).Debug("unable to parse timestamp")
changeDate, err := ptypes.TimestampProto(phone.ChangeDate)
logging.Log("GRPC-lKs8f").OnError(err).Debug("unable to parse timestamp")
return &management.UserPhoneView{
Id: phone.AggregateID,
CreationDate: creationDate,
ChangeDate: changeDate,
Sequence: phone.Sequence,
Phone: phone.PhoneNumber,
IsPhoneVerified: phone.IsPhoneVerified,
}
}
func updatePhoneToModel(e *management.UpdateUserPhoneRequest) *usr_model.Phone {
return &usr_model.Phone{
ObjectRoot: models.ObjectRoot{AggregateID: e.Id},
PhoneNumber: e.Phone,
IsPhoneVerified: e.IsPhoneVerified,
}
}
func addressFromModel(address *usr_model.Address) *management.UserAddress {
creationDate, err := ptypes.TimestampProto(address.CreationDate)
logging.Log("GRPC-ud8w7").OnError(err).Debug("unable to parse timestamp")
changeDate, err := ptypes.TimestampProto(address.ChangeDate)
logging.Log("GRPC-si9ws").OnError(err).Debug("unable to parse timestamp")
return &management.UserAddress{
Id: address.AggregateID,
CreationDate: creationDate,
ChangeDate: changeDate,
Sequence: address.Sequence,
Country: address.Country,
StreetAddress: address.StreetAddress,
Region: address.Region,
PostalCode: address.PostalCode,
Locality: address.Locality,
}
}
func addressViewFromModel(address *usr_model.Address) *management.UserAddressView {
creationDate, err := ptypes.TimestampProto(address.CreationDate)
logging.Log("GRPC-67stC").OnError(err).Debug("unable to parse timestamp")
changeDate, err := ptypes.TimestampProto(address.ChangeDate)
logging.Log("GRPC-0jSfs").OnError(err).Debug("unable to parse timestamp")
return &management.UserAddressView{
Id: address.AggregateID,
CreationDate: creationDate,
ChangeDate: changeDate,
Sequence: address.Sequence,
Country: address.Country,
StreetAddress: address.StreetAddress,
Region: address.Region,
PostalCode: address.PostalCode,
Locality: address.Locality,
}
}
func updateAddressToModel(address *management.UpdateUserAddressRequest) *usr_model.Address {
return &usr_model.Address{
ObjectRoot: models.ObjectRoot{AggregateID: address.Id},
Country: address.Country,
StreetAddress: address.StreetAddress,
Region: address.Region,
PostalCode: address.PostalCode,
Locality: address.Locality,
}
}
func userSearchResponseFromModel(response *usr_model.UserSearchResponse) *management.UserSearchResponse {
timestamp, err := ptypes.TimestampProto(response.Timestamp)
logging.Log("GRPC-aBezr").OnError(err).Debug("unable to parse timestamp")
return &management.UserSearchResponse{
Offset: response.Offset,
Limit: response.Limit,
TotalResult: response.TotalResult,
Result: userViewsFromModel(response.Result),
ProcessedSequence: response.Sequence,
ViewTimestamp: timestamp,
}
}
func userViewsFromModel(users []*usr_model.UserView) []*management.UserView {
converted := make([]*management.UserView, len(users))
for i, user := range users {
converted[i] = userViewFromModel(user)
}
return converted
}
func userViewFromModel(user *usr_model.UserView) *management.UserView {
creationDate, err := ptypes.TimestampProto(user.CreationDate)
logging.Log("GRPC-dl9we").OnError(err).Debug("unable to parse timestamp")
changeDate, err := ptypes.TimestampProto(user.ChangeDate)
logging.Log("GRPC-lpsg5").OnError(err).Debug("unable to parse timestamp")
lastLogin, err := ptypes.TimestampProto(user.LastLogin)
logging.Log("GRPC-dksi3").OnError(err).Debug("unable to parse timestamp")
userView := &management.UserView{
Id: user.ID,
State: userStateFromModel(user.State),
CreationDate: creationDate,
ChangeDate: changeDate,
LastLogin: lastLogin,
Sequence: user.Sequence,
ResourceOwner: user.ResourceOwner,
LoginNames: user.LoginNames,
PreferredLoginName: user.PreferredLoginName,
UserName: user.UserName,
}
if user.HumanView != nil {
userView.User = &management.UserView_Human{Human: humanViewFromModel(user.HumanView)}
}
if user.MachineView != nil {
userView.User = &management.UserView_Machine{Machine: machineViewFromModel(user.MachineView)}
}
return userView
}
func userMembershipSearchResponseFromModel(response *usr_model.UserMembershipSearchResponse) *management.UserMembershipSearchResponse {
timestamp, err := ptypes.TimestampProto(response.Timestamp)
logging.Log("GRPC-Hs8jd").OnError(err).Debug("unable to parse timestamp")
return &management.UserMembershipSearchResponse{
Offset: response.Offset,
Limit: response.Limit,
TotalResult: response.TotalResult,
Result: userMembershipViewsFromModel(response.Result),
ProcessedSequence: response.Sequence,
ViewTimestamp: timestamp,
}
}
func userMembershipViewsFromModel(memberships []*usr_model.UserMembershipView) []*management.UserMembershipView {
converted := make([]*management.UserMembershipView, len(memberships))
for i, membership := range memberships {
converted[i] = userMembershipViewFromModel(membership)
}
return converted
}
func userMembershipViewFromModel(membership *usr_model.UserMembershipView) *management.UserMembershipView {
creationDate, err := ptypes.TimestampProto(membership.CreationDate)
logging.Log("GRPC-Msnu8").OnError(err).Debug("unable to parse timestamp")
changeDate, err := ptypes.TimestampProto(membership.ChangeDate)
logging.Log("GRPC-Slco9").OnError(err).Debug("unable to parse timestamp")
return &management.UserMembershipView{
UserId: membership.UserID,
AggregateId: membership.AggregateID,
ObjectId: membership.ObjectID,
MemberType: memberTypeFromModel(membership.MemberType),
DisplayName: membership.DisplayName,
Roles: membership.Roles,
CreationDate: creationDate,
ChangeDate: changeDate,
Sequence: membership.Sequence,
ResourceOwner: membership.ResourceOwner,
}
}
func mfasFromModel(mfas []*usr_model.MultiFactor) []*management.MultiFactor {
converted := make([]*management.MultiFactor, len(mfas))
for i, mfa := range mfas {
converted[i] = mfaFromModel(mfa)
}
return converted
}
func mfaFromModel(mfa *usr_model.MultiFactor) *management.MultiFactor {
return &management.MultiFactor{
State: mfaStateFromModel(mfa.State),
Type: mfaTypeFromModel(mfa.Type),
}
}
func notifyTypeToModel(state management.NotificationType) usr_model.NotificationType {
switch state {
case management.NotificationType_NOTIFICATIONTYPE_EMAIL:
return usr_model.NotificationTypeEmail
case management.NotificationType_NOTIFICATIONTYPE_SMS:
return usr_model.NotificationTypeSms
default:
return usr_model.NotificationTypeEmail
}
}
func userStateFromModel(state usr_model.UserState) management.UserState {
switch state {
case usr_model.UserStateActive:
return management.UserState_USERSTATE_ACTIVE
case usr_model.UserStateInactive:
return management.UserState_USERSTATE_INACTIVE
case usr_model.UserStateLocked:
return management.UserState_USERSTATE_LOCKED
case usr_model.UserStateInitial:
return management.UserState_USERSTATE_INITIAL
case usr_model.UserStateSuspend:
return management.UserState_USERSTATE_SUSPEND
default:
return management.UserState_USERSTATE_UNSPECIFIED
}
}
func genderFromModel(gender usr_model.Gender) management.Gender {
switch gender {
case usr_model.GenderFemale:
return management.Gender_GENDER_FEMALE
case usr_model.GenderMale:
return management.Gender_GENDER_MALE
case usr_model.GenderDiverse:
return management.Gender_GENDER_DIVERSE
default:
return management.Gender_GENDER_UNSPECIFIED
}
}
func memberTypeFromModel(memberType usr_model.MemberType) management.MemberType {
switch memberType {
case usr_model.MemberTypeOrganisation:
return management.MemberType_MEMBERTYPE_ORGANISATION
case usr_model.MemberTypeProject:
return management.MemberType_MEMBERTYPE_PROJECT
case usr_model.MemberTypeProjectGrant:
return management.MemberType_MEMBERTYPE_PROJECT_GRANT
default:
return management.MemberType_MEMBERTYPE_UNSPECIFIED
}
}
func genderToModel(gender management.Gender) usr_model.Gender {
switch gender {
case management.Gender_GENDER_FEMALE:
return usr_model.GenderFemale
case management.Gender_GENDER_MALE:
return usr_model.GenderMale
case management.Gender_GENDER_DIVERSE:
return usr_model.GenderDiverse
default:
return usr_model.GenderUnspecified
}
}
func mfaTypeFromModel(mfatype usr_model.MfaType) management.MfaType {
switch mfatype {
case usr_model.MfaTypeOTP:
return management.MfaType_MFATYPE_OTP
case usr_model.MfaTypeSMS:
return management.MfaType_MFATYPE_SMS
default:
return management.MfaType_MFATYPE_UNSPECIFIED
}
}
func mfaStateFromModel(state usr_model.MfaState) management.MFAState {
switch state {
case usr_model.MfaStateReady:
return management.MFAState_MFASTATE_READY
case usr_model.MfaStateNotReady:
return management.MFAState_MFASTATE_NOT_READY
default:
return management.MFAState_MFASTATE_UNSPECIFIED
}
}
func userChangesToResponse(response *usr_model.UserChanges, offset uint64, limit uint64) (_ *management.Changes) {
return &management.Changes{
Limit: limit,
Offset: offset,
Changes: userChangesToMgtAPI(response),
}
}
func userChangesToMgtAPI(changes *usr_model.UserChanges) (_ []*management.Change) {
result := make([]*management.Change, len(changes.Changes))
for i, change := range changes.Changes {
var data *structpb.Struct
changedData, err := json.Marshal(change.Data)
if err == nil {
data = new(structpb.Struct)
err = protojson.Unmarshal(changedData, data)
logging.Log("GRPC-a7F54").OnError(err).Debug("unable to marshal changed data to struct")
}
result[i] = &management.Change{
ChangeDate: change.ChangeDate,
EventType: message.NewLocalizedEventType(change.EventType),
Sequence: change.Sequence,
Data: data,
EditorId: change.ModifierID,
Editor: change.ModifierName,
}
}
return result
}