// this file was auto-generated by internal/cmd/gentypes/main.go: DO NOT EDIT package jwa_test import ( "testing" "github.com/lestrrat-go/jwx/jwa" "github.com/stretchr/testify/assert" ) func TestContentEncryptionAlgorithm(t *testing.T) { t.Parallel() t.Run(`accept jwa constant A128CBC_HS256`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept(jwa.A128CBC_HS256), `accept is successful`) { return } if !assert.Equal(t, jwa.A128CBC_HS256, dst, `accepted value should be equal to constant`) { return } }) t.Run(`accept the string A128CBC-HS256`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept("A128CBC-HS256"), `accept is successful`) { return } if !assert.Equal(t, jwa.A128CBC_HS256, dst, `accepted value should be equal to constant`) { return } }) t.Run(`accept fmt.Stringer for A128CBC-HS256`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept(stringer{src: "A128CBC-HS256"}), `accept is successful`) { return } if !assert.Equal(t, jwa.A128CBC_HS256, dst, `accepted value should be equal to constant`) { return } }) t.Run(`stringification for A128CBC-HS256`, func(t *testing.T) { t.Parallel() if !assert.Equal(t, "A128CBC-HS256", jwa.A128CBC_HS256.String(), `stringified value matches`) { return } }) t.Run(`accept jwa constant A128GCM`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept(jwa.A128GCM), `accept is successful`) { return } if !assert.Equal(t, jwa.A128GCM, dst, `accepted value should be equal to constant`) { return } }) t.Run(`accept the string A128GCM`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept("A128GCM"), `accept is successful`) { return } if !assert.Equal(t, jwa.A128GCM, dst, `accepted value should be equal to constant`) { return } }) t.Run(`accept fmt.Stringer for A128GCM`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept(stringer{src: "A128GCM"}), `accept is successful`) { return } if !assert.Equal(t, jwa.A128GCM, dst, `accepted value should be equal to constant`) { return } }) t.Run(`stringification for A128GCM`, func(t *testing.T) { t.Parallel() if !assert.Equal(t, "A128GCM", jwa.A128GCM.String(), `stringified value matches`) { return } }) t.Run(`accept jwa constant A192CBC_HS384`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept(jwa.A192CBC_HS384), `accept is successful`) { return } if !assert.Equal(t, jwa.A192CBC_HS384, dst, `accepted value should be equal to constant`) { return } }) t.Run(`accept the string A192CBC-HS384`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept("A192CBC-HS384"), `accept is successful`) { return } if !assert.Equal(t, jwa.A192CBC_HS384, dst, `accepted value should be equal to constant`) { return } }) t.Run(`accept fmt.Stringer for A192CBC-HS384`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept(stringer{src: "A192CBC-HS384"}), `accept is successful`) { return } if !assert.Equal(t, jwa.A192CBC_HS384, dst, `accepted value should be equal to constant`) { return } }) t.Run(`stringification for A192CBC-HS384`, func(t *testing.T) { t.Parallel() if !assert.Equal(t, "A192CBC-HS384", jwa.A192CBC_HS384.String(), `stringified value matches`) { return } }) t.Run(`accept jwa constant A192GCM`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept(jwa.A192GCM), `accept is successful`) { return } if !assert.Equal(t, jwa.A192GCM, dst, `accepted value should be equal to constant`) { return } }) t.Run(`accept the string A192GCM`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept("A192GCM"), `accept is successful`) { return } if !assert.Equal(t, jwa.A192GCM, dst, `accepted value should be equal to constant`) { return } }) t.Run(`accept fmt.Stringer for A192GCM`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept(stringer{src: "A192GCM"}), `accept is successful`) { return } if !assert.Equal(t, jwa.A192GCM, dst, `accepted value should be equal to constant`) { return } }) t.Run(`stringification for A192GCM`, func(t *testing.T) { t.Parallel() if !assert.Equal(t, "A192GCM", jwa.A192GCM.String(), `stringified value matches`) { return } }) t.Run(`accept jwa constant A256CBC_HS512`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept(jwa.A256CBC_HS512), `accept is successful`) { return } if !assert.Equal(t, jwa.A256CBC_HS512, dst, `accepted value should be equal to constant`) { return } }) t.Run(`accept the string A256CBC-HS512`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept("A256CBC-HS512"), `accept is successful`) { return } if !assert.Equal(t, jwa.A256CBC_HS512, dst, `accepted value should be equal to constant`) { return } }) t.Run(`accept fmt.Stringer for A256CBC-HS512`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept(stringer{src: "A256CBC-HS512"}), `accept is successful`) { return } if !assert.Equal(t, jwa.A256CBC_HS512, dst, `accepted value should be equal to constant`) { return } }) t.Run(`stringification for A256CBC-HS512`, func(t *testing.T) { t.Parallel() if !assert.Equal(t, "A256CBC-HS512", jwa.A256CBC_HS512.String(), `stringified value matches`) { return } }) t.Run(`accept jwa constant A256GCM`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept(jwa.A256GCM), `accept is successful`) { return } if !assert.Equal(t, jwa.A256GCM, dst, `accepted value should be equal to constant`) { return } }) t.Run(`accept the string A256GCM`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept("A256GCM"), `accept is successful`) { return } if !assert.Equal(t, jwa.A256GCM, dst, `accepted value should be equal to constant`) { return } }) t.Run(`accept fmt.Stringer for A256GCM`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.NoError(t, dst.Accept(stringer{src: "A256GCM"}), `accept is successful`) { return } if !assert.Equal(t, jwa.A256GCM, dst, `accepted value should be equal to constant`) { return } }) t.Run(`stringification for A256GCM`, func(t *testing.T) { t.Parallel() if !assert.Equal(t, "A256GCM", jwa.A256GCM.String(), `stringified value matches`) { return } }) t.Run(`bail out on random integer value`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.Error(t, dst.Accept(1), `accept should fail`) { return } }) t.Run(`do not accept invalid (totally made up) string value`, func(t *testing.T) { t.Parallel() var dst jwa.ContentEncryptionAlgorithm if !assert.Error(t, dst.Accept(`totallyInvfalidValue`), `accept should fail`) { return } }) t.Run(`check list of elements`, func(t *testing.T) { t.Parallel() var expected = map[jwa.ContentEncryptionAlgorithm]struct{}{ jwa.A128CBC_HS256: {}, jwa.A128GCM: {}, jwa.A192CBC_HS384: {}, jwa.A192GCM: {}, jwa.A256CBC_HS512: {}, jwa.A256GCM: {}, } for _, v := range jwa.ContentEncryptionAlgorithms() { if _, ok := expected[v]; !assert.True(t, ok, `%s should be in the expected list`, v) { return } delete(expected, v) } if !assert.Len(t, expected, 0) { return } }) }