// TestDisableUser test the disabling of a user.
func TestDisableUser(t *testing.T) {
tests.ResetLog()
defer tests.DisplayLog()
db, err := db.NewMGO(tests.Context, tests.TestSession)
if err != nil {
t.Fatalf("\t%s\tShould be able to get a Mongo session : %v", tests.Failed, err)
}
defer db.CloseMGO(tests.Context)
var publicID string
defer func() {
if err := removeUser(db, publicID); err != nil {
t.Fatalf("\t%s\tShould be able to remove the test user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to remove the test user.", tests.Success)
}()
t.Log("Given the need to update a user.")
{
t.Log("\tWhen using an existing user.")
{
u1, err := auth.NewUser(auth.NUser{
Status: auth.StatusActive,
FullName: "Test Kennedy",
Email: "*****@*****.**",
Password: "******",
})
if err != nil {
t.Fatalf("\t%s\tShould be able to build a new user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to build a new user.", tests.Success)
if err := auth.CreateUser(tests.Context, db, u1); err != nil {
t.Fatalf("\t%s\tShould be able to create a user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to create a user.", tests.Success)
// We need to do this so we can clean up after.
publicID = u1.PublicID
u2, err := auth.GetUserByPublicID(tests.Context, db, u1.PublicID, true)
if err != nil {
t.Fatalf("\t%s\tShould be able to retrieve the user by PublicID : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to retrieve the user by PublicID.", tests.Success)
if err := auth.UpdateUserStatus(tests.Context, db, u2.PublicID, auth.StatusDisabled); err != nil {
t.Fatalf("\t%s\tShould be able to disable the user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to disable the user.", tests.Success)
if _, err := auth.GetUserByPublicID(tests.Context, db, u1.PublicID, true); err == nil {
t.Fatalf("\t%s\tShould Not be able to retrieve the user by PublicID.", tests.Failed)
}
t.Logf("\t%s\tShould Not be able to retrieve the user by PublicID.", tests.Success)
}
}
}
// runGet is the code that implements the get command.
func runGet(cmd *cobra.Command, args []string) {
cmd.Printf("Getting User : Pid[%s] Email[%s]\n", get.pid, get.email)
if get.pid == "" && get.email == "" {
cmd.Help()
return
}
db, err := db.NewMGO("", mgoSession)
if err != nil {
cmd.Println("Getting User : "******"")
var u *auth.User
if get.pid != "" {
u, err = auth.GetUserByPublicID("", db, get.pid, false)
} else {
u, err = auth.GetUserByEmail("", db, get.email, false)
}
if err != nil {
cmd.Println("Getting User : "******"", db, u.PublicID)
if err != nil {
cmd.Println("Getting User : Unable to retrieve web token : ", err)
}
data, err := json.MarshalIndent(&u, "", " ")
if err != nil {
cmd.Println("Getting User : "******"\n%s\n\nToken: %s\n\n", string(data), webTok)
return
}
// TestCreateUser tests the creation of a user.
func TestCreateUser(t *testing.T) {
tests.ResetLog()
defer tests.DisplayLog()
db, err := db.NewMGO(tests.Context, tests.TestSession)
if err != nil {
t.Fatalf("\t%s\tShould be able to get a Mongo session : %v", tests.Failed, err)
}
defer db.CloseMGO(tests.Context)
var publicID string
defer func() {
if err := removeUser(db, publicID); err != nil {
t.Fatalf("\t%s\tShould be able to remove the test user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to remove the test user.", tests.Success)
}()
t.Log("Given the need to create users in the DB.")
{
t.Log("\tWhen using a test user.")
{
u1, err := auth.NewUser(auth.NUser{
Status: auth.StatusActive,
FullName: "Test Kennedy",
Email: "*****@*****.**",
Password: "******",
})
if err != nil {
t.Fatalf("\t%s\tShould be able to build a new user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to build a new user.", tests.Success)
if err := auth.CreateUser(tests.Context, db, u1); err != nil {
t.Fatalf("\t%s\tShould be able to create a user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to create a user.", tests.Success)
// We need to do this so we can clean up after.
publicID = u1.PublicID
u2, err := auth.GetUserByPublicID(tests.Context, db, u1.PublicID, true)
if err != nil {
t.Fatalf("\t%s\tShould be able to retrieve the user by PublicID : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to retrieve the user by PublicID.", tests.Success)
// Remove the objectid to be able to compare the values.
u2.ID = ""
// Need to remove the nanoseconds to be able to compare the values.
u1.DateModified = u1.DateModified.Add(-time.Duration(u1.DateModified.Nanosecond()))
u1.DateCreated = u1.DateCreated.Add(-time.Duration(u1.DateCreated.Nanosecond()))
u2.DateModified = u2.DateModified.Add(-time.Duration(u2.DateModified.Nanosecond()))
u2.DateCreated = u2.DateCreated.Add(-time.Duration(u2.DateCreated.Nanosecond()))
if !reflect.DeepEqual(*u1, *u2) {
t.Logf("\t%+v", *u1)
t.Logf("\t%+v", *u2)
t.Fatalf("\t%s\tShould be able to get back the same user.", tests.Failed)
} else {
t.Logf("\t%s\tShould be able to get back the same user.", tests.Success)
}
u3, err := auth.GetUserByEmail(tests.Context, db, u1.Email, true)
if err != nil {
t.Fatalf("\t%s\tShould be able to retrieve the user by Email : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to retrieve the user by Email.", tests.Success)
// Remove the objectid to be able to compare the values.
u3.ID = ""
// Need to remove the nanoseconds to be able to compare the values.
u3.DateModified = u3.DateModified.Add(-time.Duration(u3.DateModified.Nanosecond()))
u3.DateCreated = u3.DateCreated.Add(-time.Duration(u3.DateCreated.Nanosecond()))
if !reflect.DeepEqual(*u1, *u3) {
t.Logf("\t%+v", *u1)
t.Logf("\t%+v", *u3)
t.Fatalf("\t%s\tShould be able to get back the same user.", tests.Failed)
} else {
t.Logf("\t%s\tShould be able to get back the same user.", tests.Success)
}
}
}
}
// TestCreateWebToken tests create a web token and a pairing session.
func TestCreateWebToken(t *testing.T) {
tests.ResetLog()
defer tests.DisplayLog()
db, err := db.NewMGO(tests.Context, tests.TestSession)
if err != nil {
t.Fatalf("\t%s\tShould be able to get a Mongo session : %v", tests.Failed, err)
}
defer db.CloseMGO(tests.Context)
var publicID string
defer func() {
if err := removeUser(db, publicID); err != nil {
t.Fatalf("\t%s\tShould be able to remove the test user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to remove the test user.", tests.Success)
}()
t.Log("Given the need to create a web token.")
{
t.Log("\tWhen using a new user.")
{
u1, err := auth.NewUser(auth.NUser{
Status: auth.StatusActive,
FullName: "Test Kennedy",
Email: "*****@*****.**",
Password: "******",
})
if err != nil {
t.Fatalf("\t%s\tShould be able to build a new user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to build a new user.", tests.Success)
if err := auth.CreateUser(tests.Context, db, u1); err != nil {
t.Fatalf("\t%s\tShould be able to create a user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to create a user.", tests.Success)
// We need to do this so we can clean up after.
publicID = u1.PublicID
webTok, err := auth.CreateWebToken(tests.Context, db, u1, time.Second)
if err != nil {
t.Fatalf("\t%s\tShould be able to create a web token : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to create a web token.", tests.Success)
sId, _, err := auth.DecodeWebToken(tests.Context, webTok)
if err != nil {
t.Fatalf("\t%s\tShould be able to decode the web token : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to decode the web token.", tests.Success)
s2, err := session.GetBySessionID(tests.Context, db, sId)
if err != nil {
t.Fatalf("\t%s\tShould be able to retrieve the session : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to retrieve the session.", tests.Success)
u2, err := auth.GetUserByPublicID(tests.Context, db, u1.PublicID, true)
if err != nil {
t.Fatalf("\t%s\tShould be able to retrieve the user by PublicID : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to retrieve the user by PublicID.", tests.Success)
if u2.PublicID != s2.PublicID {
t.Fatalf("\t%s\tShould have the right session for user.", tests.Failed)
t.Log(u2.PublicID)
t.Log(s2.PublicID)
}
t.Logf("\t%s\tShould have the right session for user.", tests.Success)
webTok2, err := u2.WebToken(sId)
if err != nil {
t.Fatalf("\t%s\tShould be able to create a new web token : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to create a web new token.", tests.Success)
if webTok != webTok2 {
t.Log(webTok)
t.Log(webTok2)
t.Fatalf("\t%s\tShould be able to create the same web token.", tests.Failed)
}
t.Logf("\t%s\tShould be able to create the same web token.", tests.Success)
u3, err := auth.ValidateWebToken(tests.Context, db, webTok2)
if err != nil {
t.Fatalf("\t%s\tShould be able to validate the new web token : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to validate the new web token.", tests.Success)
if u1.PublicID != u3.PublicID {
t.Log(u1.PublicID)
t.Log(u3.PublicID)
t.Fatalf("\t%s\tShould have the right user for the token.", tests.Failed)
}
t.Logf("\t%s\tShould have the right user for the token.", tests.Success)
webTok3, err := auth.GetUserWebToken(tests.Context, db, u2.PublicID)
if err != nil {
t.Fatalf("\t%s\tShould be able to get the web token : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to get the web token.", tests.Success)
if webTok3 != webTok2 {
t.Log(webTok3)
t.Log(webTok2)
t.Fatalf("\t%s\tShould match existing tokens.", tests.Failed)
}
t.Logf("\t%s\tShould match existing tokens.", tests.Success)
}
}
}
// TestUpdateUserPassword tests we can update user password.
func TestUpdateUserPassword(t *testing.T) {
tests.ResetLog()
defer tests.DisplayLog()
db, err := db.NewMGO(tests.Context, tests.TestSession)
if err != nil {
t.Fatalf("\t%s\tShould be able to get a Mongo session : %v", tests.Failed, err)
}
defer db.CloseMGO(tests.Context)
var publicID string
defer func() {
if err := removeUser(db, publicID); err != nil {
t.Fatalf("\t%s\tShould be able to remove the test user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to remove the test user.", tests.Success)
}()
t.Log("Given the need to update a user.")
{
t.Log("\tWhen using an existing user.")
{
u1, err := auth.NewUser(auth.NUser{
Status: auth.StatusActive,
FullName: "Test Kennedy",
Email: "*****@*****.**",
Password: "******",
})
if err != nil {
t.Fatalf("\t%s\tShould be able to build a new user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to build a new user.", tests.Success)
if err := auth.CreateUser(tests.Context, db, u1); err != nil {
t.Fatalf("\t%s\tShould be able to create a user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to create a user.", tests.Success)
// We need to do this so we can clean up after.
publicID = u1.PublicID
webTok, err := auth.CreateWebToken(tests.Context, db, u1, 5*time.Second)
if err != nil {
t.Fatalf("\t%s\tShould be able to create a web token : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to create a web token.", tests.Success)
if err := auth.UpdateUserPassword(tests.Context, db, u1, "_Password567"); err != nil {
t.Fatalf("\t%s\tShould be able to update a user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to update a user.", tests.Success)
if _, err := auth.ValidateWebToken(tests.Context, db, webTok); err == nil {
t.Fatalf("\t%s\tShould Not be able to validate the org web token : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould Not be able to validate the new org token.", tests.Success)
u2, err := auth.GetUserByPublicID(tests.Context, db, u1.PublicID, true)
if err != nil {
t.Fatalf("\t%s\tShould be able to retrieve the user by PublicID : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to retrieve the user by PublicID.", tests.Success)
webTok2, err := auth.CreateWebToken(tests.Context, db, u2, 5*time.Second)
if err != nil {
t.Fatalf("\t%s\tShould be able to create a new web token : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to create a new web token.", tests.Success)
if webTok == webTok2 {
t.Fatalf("\t%s\tShould have different web tokens after the update.", tests.Failed)
}
t.Logf("\t%s\tShould have different web tokens after the update.", tests.Success)
u3, err := auth.ValidateWebToken(tests.Context, db, webTok2)
if err != nil {
t.Fatalf("\t%s\tShould be able to validate the new web token : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to validate the new web token.", tests.Success)
if u1.PublicID != u3.PublicID {
t.Log(u2.PublicID)
t.Log(u3.PublicID)
t.Fatalf("\t%s\tShould have the right user for the new token.", tests.Failed)
}
t.Logf("\t%s\tShould have the right user for the new token.", tests.Success)
}
}
}
// TestNoSession tests when a nil session is used.
func TestNoSession(t *testing.T) {
tests.ResetLog()
defer tests.DisplayLog()
t.Log("Given the need to test calls with a bad session.")
{
t.Log("\tWhen using a nil session")
{
u1, err := auth.NewUser(auth.NUser{
Status: auth.StatusActive,
FullName: "Test Kennedy",
Email: "*****@*****.**",
Password: "******",
})
if err != nil {
t.Fatalf("\t%s\tShould be able to build a new user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to build a new user.", tests.Success)
if err := auth.CreateUser(tests.Context, nil, u1); err == nil {
t.Errorf("\t%s\tShould Not be able to create a user.", tests.Failed)
} else {
t.Logf("\t%s\tShould Not be able to create a user.", tests.Success)
}
if _, err := auth.CreateWebToken(tests.Context, nil, u1, time.Second); err == nil {
t.Errorf("\t%s\tShould Not be able to create a web token.", tests.Failed)
} else {
t.Logf("\t%s\tShould Not be able to create a web token.", tests.Success)
}
webTok := "OGY4OGI3YWQtZjc5Ny00ODI1LWI0MmUtMjIwZTY5ZDQxYjMzOmFKT2U1b0pFZlZ4cWUrR0JONEl0WlhmQTY0K3JsN2VGcmM2MVNQMkV1WVE9"
if _, err := auth.ValidateWebToken(tests.Context, nil, webTok); err == nil {
t.Errorf("\t%s\tShould Not be able to validate a web token.", tests.Failed)
} else {
t.Logf("\t%s\tShould Not be able to validate a web token.", tests.Success)
}
if _, err := auth.GetUserByPublicID(tests.Context, nil, "6dcda2da-92c3-11e5-8994-feff819cdc9f", true); err == nil {
t.Errorf("\t%s\tShould Not be able to get a user by PublicID.", tests.Failed)
} else {
t.Logf("\t%s\tShould Not be able to get a user by PublicID.", tests.Success)
}
if _, err := auth.GetUserByEmail(tests.Context, nil, "*****@*****.**", true); err == nil {
t.Errorf("\t%s\tShould Not be able to get a user by Email.", tests.Failed)
} else {
t.Logf("\t%s\tShould Not be able to get a user by Email.", tests.Success)
}
uu := auth.UpdUser{
PublicID: "6dcda2da-92c3-11e5-8994-feff819cdc9f",
Status: auth.StatusActive,
FullName: "Update Kennedy",
Email: "*****@*****.**",
}
if err := auth.UpdateUser(tests.Context, nil, uu); err == nil {
t.Errorf("\t%s\tShould Not be able to update a user.", tests.Failed)
} else {
t.Logf("\t%s\tShould Not be able to update a user.", tests.Success)
}
if err := auth.UpdateUserPassword(tests.Context, nil, u1, "password890"); err == nil {
t.Errorf("\t%s\tShould Not be able to update a user pasword.", tests.Failed)
} else {
t.Logf("\t%s\tShould Not be able to update a user password.", tests.Success)
}
if err := auth.UpdateUserStatus(tests.Context, nil, "6dcda2da-92c3-11e5-8994-feff819cdc9f", auth.StatusDisabled); err == nil {
t.Errorf("\t%s\tShould Not be able to disable a user.", tests.Failed)
} else {
t.Logf("\t%s\tShould Not be able to disable a user.", tests.Success)
}
if _, err := auth.LoginUser(tests.Context, nil, "*****@*****.**", "_pass"); err == nil {
t.Errorf("\t%s\tShould Not be able to login a user.", tests.Failed)
} else {
t.Logf("\t%s\tShould Not be able to login a user.", tests.Success)
}
if _, err := auth.GetUserWebToken(tests.Context, nil, "6dcda2da-92c3-11e5-8994-feff819cdc9f"); err == nil {
t.Errorf("\t%s\tShould Not be able to get user web token.", tests.Failed)
} else {
t.Logf("\t%s\tShould Not be able to get user web token.", tests.Success)
}
}
}
}
// TestUpdateUser tests we can update user information.
func TestUpdateUser(t *testing.T) {
tests.ResetLog()
defer tests.DisplayLog()
db := db.NewMGO()
defer db.CloseMGO()
var publicID string
defer func() {
if err := removeUser(db, publicID); err != nil {
t.Fatalf("\t%s\tShould be able to remove the test user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to remove the test user.", tests.Success)
}()
t.Log("Given the need to update a user.")
{
t.Log("\tWhen using an existing user.")
{
u1, err := auth.NewUser(auth.NUser{
Status: auth.StatusActive,
FullName: "Test Kennedy",
Email: "*****@*****.**",
Password: "******",
})
if err != nil {
t.Fatalf("\t%s\tShould be able to build a new user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to build a new user.", tests.Success)
if err := auth.CreateUser(tests.Context, db, u1); err != nil {
t.Fatalf("\t%s\tShould be able to create a user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to create a user.", tests.Success)
// We need to do this so we can clean up after.
publicID = u1.PublicID
uu := auth.UpdUser{
PublicID: publicID,
Status: auth.StatusActive,
FullName: "Update Kennedy",
Email: "*****@*****.**",
}
if err := auth.UpdateUser(tests.Context, db, uu); err != nil {
t.Fatalf("\t%s\tShould be able to update a user : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to update a user.", tests.Success)
u2, err := auth.GetUserByPublicID(tests.Context, db, u1.PublicID, true)
if err != nil {
t.Fatalf("\t%s\tShould be able to retrieve the user by PublicID : %v", tests.Failed, err)
}
t.Logf("\t%s\tShould be able to retrieve the user by PublicID.", tests.Success)
// Remove the objectid to be able to compare the values.
u2.ID = ""
// Need to remove the nanoseconds to be able to compare the values.
u1.DateModified = u1.DateModified.Add(-time.Duration(u1.DateModified.Nanosecond()))
u1.DateCreated = u1.DateCreated.Add(-time.Duration(u1.DateCreated.Nanosecond()))
u2.DateModified = u2.DateModified.Add(-time.Duration(u2.DateModified.Nanosecond()))
u2.DateCreated = u2.DateCreated.Add(-time.Duration(u2.DateCreated.Nanosecond()))
// Update the fields that changed
u1.Status = u2.Status
u1.FullName = u2.FullName
u1.Email = u2.Email
if !reflect.DeepEqual(*u1, *u2) {
t.Logf("\t%+v", *u1)
t.Logf("\t%+v", *u2)
t.Errorf("\t%s\tShould be able to get back the same user with changes.", tests.Failed)
} else {
t.Logf("\t%s\tShould be able to get back the same user with changes.", tests.Success)
}
}
}
}