// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: MPL-2.0 package oidcauth import ( "encoding/json" "fmt" "testing" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" ) func TestExtractStringMetadata(t *testing.T) { emptyMap := make(map[string]string) tests := map[string]struct { allClaims map[string]interface{} claimMappings map[string]string expected map[string]string errExpected bool }{ "empty": {nil, nil, emptyMap, false}, "all": { map[string]interface{}{ "data1": "foo", "data2": "bar", }, map[string]string{ "data1": "val1", "data2": "val2", }, map[string]string{ "val1": "foo", "val2": "bar", }, false, }, "some": { map[string]interface{}{ "data1": "foo", "data2": "bar", }, map[string]string{ "data1": "val1", "data3": "val2", }, map[string]string{ "val1": "foo", }, false, }, "none": { map[string]interface{}{ "data1": "foo", "data2": "bar", }, map[string]string{ "data8": "val1", "data9": "val2", }, emptyMap, false, }, "nested data": { map[string]interface{}{ "data1": "foo", "data2": map[string]interface{}{ "child": "bar", }, "data3": true, "data4": false, "data5": float64(7.9), "data6": json.Number("-12345"), "data7": int(42), }, map[string]string{ "data1": "val1", "/data2/child": "val2", "data3": "val3", "data4": "val4", "data5": "val5", "data6": "val6", "data7": "val7", }, map[string]string{ "val1": "foo", "val2": "bar", "val3": "true", "val4": "false", "val5": "7", "val6": "-12345", "val7": "42", }, false, }, "error: a struct isn't stringifiable": { map[string]interface{}{ "data1": map[string]interface{}{ "child": "bar", }, }, map[string]string{ "data1": "val1", }, nil, true, }, "error: a slice isn't stringifiable": { map[string]interface{}{ "data1": []interface{}{ "child", "bar", }, }, map[string]string{ "data1": "val1", }, nil, true, }, } for name, test := range tests { test := test t.Run(name, func(t *testing.T) { actual, err := extractStringMetadata(nil, test.allClaims, test.claimMappings) if test.errExpected { require.Error(t, err) } else { require.NoError(t, err) require.Equal(t, test.expected, actual) } }) } } func TestExtractListMetadata(t *testing.T) { emptyMap := make(map[string][]string) tests := map[string]struct { allClaims map[string]interface{} claimMappings map[string]string expected map[string][]string errExpected bool }{ "empty": {nil, nil, emptyMap, false}, "all - singular": { map[string]interface{}{ "data1": "foo", "data2": "bar", }, map[string]string{ "data1": "val1", "data2": "val2", }, map[string][]string{ "val1": {"foo"}, "val2": {"bar"}, }, false, }, "some - singular": { map[string]interface{}{ "data1": "foo", "data2": "bar", }, map[string]string{ "data1": "val1", "data3": "val2", }, map[string][]string{ "val1": {"foo"}, }, false, }, "none - singular": { map[string]interface{}{ "data1": "foo", "data2": "bar", }, map[string]string{ "data8": "val1", "data9": "val2", }, emptyMap, false, }, "nested data - singular": { map[string]interface{}{ "data1": "foo", "data2": map[string]interface{}{ "child": "bar", }, "data3": true, "data4": false, "data5": float64(7.9), "data6": json.Number("-12345"), "data7": int(42), "data8": []interface{}{ // mixed "foo", true, float64(7.9), json.Number("-12345"), int(42), }, }, map[string]string{ "data1": "val1", "/data2/child": "val2", "data3": "val3", "data4": "val4", "data5": "val5", "data6": "val6", "data7": "val7", "data8": "val8", }, map[string][]string{ "val1": {"foo"}, "val2": {"bar"}, "val3": {"true"}, "val4": {"false"}, "val5": {"7"}, "val6": {"-12345"}, "val7": {"42"}, "val8": { "foo", "true", "7", "-12345", "42", }, }, false, }, "error: a struct isn't stringifiable (singular)": { map[string]interface{}{ "data1": map[string]interface{}{ "child": map[string]interface{}{ "inner": "bar", }, }, }, map[string]string{ "data1": "val1", }, nil, true, }, "error: a slice isn't stringifiable (singular)": { map[string]interface{}{ "data1": []interface{}{ "child", []interface{}{"bar"}, }, }, map[string]string{ "data1": "val1", }, nil, true, }, "non-string-slice data (string)": { map[string]interface{}{ "data1": "foo", }, map[string]string{ "data1": "val1", }, map[string][]string{ "val1": {"foo"}, // singular values become lists }, false, }, "all - list": { map[string]interface{}{ "data1": []interface{}{"foo", "otherFoo"}, "data2": []interface{}{"bar", "otherBar"}, }, map[string]string{ "data1": "val1", "data2": "val2", }, map[string][]string{ "val1": {"foo", "otherFoo"}, "val2": {"bar", "otherBar"}, }, false, }, "some - list": { map[string]interface{}{ "data1": []interface{}{"foo", "otherFoo"}, "data2": map[string]interface{}{ "child": []interface{}{"bar", "otherBar"}, }, }, map[string]string{ "data1": "val1", "/data2/child": "val2", }, map[string][]string{ "val1": {"foo", "otherFoo"}, "val2": {"bar", "otherBar"}, }, false, }, "none - list": { map[string]interface{}{ "data1": []interface{}{"foo"}, "data2": []interface{}{"bar"}, }, map[string]string{ "data8": "val1", "data9": "val2", }, emptyMap, false, }, "list omits empty strings": { map[string]interface{}{ "data1": []interface{}{"foo", "", "otherFoo", ""}, "data2": "", }, map[string]string{ "data1": "val1", "data2": "val2", }, map[string][]string{ "val1": {"foo", "otherFoo"}, "val2": {}, }, false, }, "nested data - list": { map[string]interface{}{ "data1": []interface{}{"foo"}, "data2": map[string]interface{}{ "child": []interface{}{"bar"}, }, "data3": []interface{}{true}, "data4": []interface{}{false}, "data5": []interface{}{float64(7.9)}, "data6": []interface{}{json.Number("-12345")}, "data7": []interface{}{int(42)}, "data8": []interface{}{ // mixed "foo", true, float64(7.9), json.Number("-12345"), int(42), }, }, map[string]string{ "data1": "val1", "/data2/child": "val2", "data3": "val3", "data4": "val4", "data5": "val5", "data6": "val6", "data7": "val7", "data8": "val8", }, map[string][]string{ "val1": {"foo"}, "val2": {"bar"}, "val3": {"true"}, "val4": {"false"}, "val5": {"7"}, "val6": {"-12345"}, "val7": {"42"}, "val8": { "foo", "true", "7", "-12345", "42", }, }, false, }, "JSONPointer": { map[string]interface{}{ "foo": "a", "bar": map[string]interface{}{ "baz": []string{"x", "y", "z"}, }, }, map[string]string{ "foo": "val1", "/bar/baz/1": "val2", }, map[string][]string{ "val1": {"a"}, "val2": {"y"}, }, false, }, "JSONPointer not found": { map[string]interface{}{ "foo": "a", "bar": map[string]interface{}{ "baz": []string{"x", "y", "z"}, }, }, map[string]string{ "foo": "val1", "/bar/XXX/1243": "val2", }, map[string][]string{ "val1": {"a"}, }, false, }, } for name, test := range tests { test := test t.Run(name, func(t *testing.T) { actual, err := extractListMetadata(nil, test.allClaims, test.claimMappings) if test.errExpected { require.Error(t, err) } else { require.NoError(t, err) require.Equal(t, test.expected, actual) } }) } } func TestGetClaim(t *testing.T) { data := `{ "a": 42, "b": "bar", "c": { "d": 95, "e": [ "dog", "cat", "bird" ], "f": { "g": "zebra" } }, "h": true, "i": false }` var claims map[string]interface{} require.NoError(t, json.Unmarshal([]byte(data), &claims)) tests := []struct { claim string value interface{} }{ {"a", float64(42)}, {"/a", float64(42)}, {"b", "bar"}, {"/c/d", float64(95)}, {"/c/e/1", "cat"}, {"/c/f/g", "zebra"}, {"nope", nil}, {"/c/f/h", nil}, {"", nil}, {"\\", nil}, {"h", true}, {"i", false}, {"/c/e", []interface{}{"dog", "cat", "bird"}}, {"/c/f", map[string]interface{}{"g": "zebra"}}, } for _, test := range tests { t.Run(test.claim, func(t *testing.T) { v := getClaim(nil, claims, test.claim) require.Equal(t, test.value, v) }) } } func TestNormalizeList(t *testing.T) { tests := []struct { raw interface{} normalized []interface{} ok bool }{ { raw: []interface{}{"green", 42}, normalized: []interface{}{"green", 42}, ok: true, }, { raw: []interface{}{"green"}, normalized: []interface{}{"green"}, ok: true, }, { raw: []interface{}{}, normalized: []interface{}{}, ok: true, }, { raw: "green", normalized: []interface{}{"green"}, ok: true, }, { raw: "", normalized: []interface{}{""}, ok: true, }, { raw: 42, normalized: []interface{}{42}, ok: true, }, { raw: struct{ A int }{A: 5}, normalized: nil, ok: false, }, { raw: nil, normalized: nil, ok: false, }, } for _, tc := range tests { tc := tc t.Run(fmt.Sprintf("%#v", tc.raw), func(t *testing.T) { normalized, ok := normalizeList(tc.raw) assert.Equal(t, tc.normalized, normalized) assert.Equal(t, tc.ok, ok) }) } } func TestStringifyMetadataValue(t *testing.T) { cases := map[string]struct { value interface{} expect string expectFailure bool }{ "empty string": {"", "", false}, "string": {"foo", "foo", false}, "true": {true, "true", false}, "false": {false, "false", false}, "json number": {json.Number("-12345"), "-12345", false}, "float64": {float64(7.9), "7", false}, // "float32": {float32(7.9), "7", false}, "int8": {int8(42), "42", false}, "int16": {int16(42), "42", false}, "int32": {int32(42), "42", false}, "int64": {int64(42), "42", false}, "int": {int(42), "42", false}, "uint8": {uint8(42), "42", false}, "uint16": {uint16(42), "42", false}, "uint32": {uint32(42), "42", false}, "uint64": {uint64(42), "42", false}, "uint": {uint(42), "42", false}, // fail "string slice": {[]string{"a"}, "", true}, "int slice": {[]int64{99}, "", true}, "map": {map[string]int{"a": 99}, "", true}, "nil": {nil, "", true}, "struct": {struct{ A int }{A: 5}, "", true}, } for name, tc := range cases { tc := tc t.Run(name, func(t *testing.T) { got, ok := stringifyMetadataValue(tc.value) if tc.expectFailure { require.False(t, ok) } else { require.True(t, ok) require.Equal(t, tc.expect, got) } }) } } func TestValidateAudience(t *testing.T) { tests := []struct { boundAudiences []string audience []string errExpectedLax bool errExpectedStrict bool }{ {[]string{"a"}, []string{"a"}, false, false}, {[]string{"a"}, []string{"b"}, true, true}, {[]string{"a"}, []string{""}, true, true}, {[]string{}, []string{"a"}, false, true}, {[]string{"a", "b"}, []string{"a"}, false, false}, {[]string{"a", "b"}, []string{"b"}, false, false}, {[]string{"a", "b"}, []string{"a", "b", "c"}, false, false}, {[]string{"a", "b"}, []string{"c", "d"}, true, true}, } for _, tc := range tests { tc := tc t.Run(fmt.Sprintf( "boundAudiences=%#v audience=%#v strict=false", tc.boundAudiences, tc.audience, ), func(t *testing.T) { err := validateAudience(tc.boundAudiences, tc.audience, false) if tc.errExpectedLax { require.Error(t, err) } else { require.NoError(t, err) } }) t.Run(fmt.Sprintf( "boundAudiences=%#v audience=%#v strict=true", tc.boundAudiences, tc.audience, ), func(t *testing.T) { err := validateAudience(tc.boundAudiences, tc.audience, true) if tc.errExpectedStrict { require.Error(t, err) } else { require.NoError(t, err) } }) } }