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nginx-sso/vendor/go.opencensus.io/trace/tracestate/tracestate_test.go

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// Copyright 2018, OpenCensus Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package tracestate
import (
"fmt"
"testing"
)
func checkFront(t *testing.T, tracestate *Tracestate, wantKey, testname string) {
gotKey := tracestate.entries[0].Key
if gotKey != wantKey {
t.Errorf("test:%s: first entry in the list: got %q want %q", testname, gotKey, wantKey)
}
}
func checkBack(t *testing.T, tracestate *Tracestate, wantKey, testname string) {
gotKey := tracestate.entries[len(tracestate.entries)-1].Key
if gotKey != wantKey {
t.Errorf("test:%s: last entry in the list: got %q want %q", testname, gotKey, wantKey)
}
}
func checkSize(t *testing.T, tracestate *Tracestate, wantSize int, testname string) {
if gotSize := len(tracestate.entries); gotSize != wantSize {
t.Errorf("test:%s: size of the list: got %q want %q", testname, gotSize, wantSize)
}
}
func (ts *Tracestate) get(key string) (string, bool) {
if ts == nil {
return "", false
}
for _, entry := range ts.entries {
if entry.Key == key {
return entry.Value, true
}
}
return "", false
}
func checkKeyValue(t *testing.T, tracestate *Tracestate, key, wantValue, testname string) {
wantOk := true
if wantValue == "" {
wantOk = false
}
gotValue, gotOk := tracestate.get(key)
if wantOk != gotOk || gotValue != wantValue {
t.Errorf("test:%s: get value for key=%s failed: got %q want %q", testname, key, gotValue, wantValue)
}
}
func checkError(t *testing.T, tracestate *Tracestate, err error, testname, msg string) {
if err != nil {
t.Errorf("test:%s: %s: tracestate=%v, error= %v", testname, msg, tracestate, err)
}
}
func wantError(t *testing.T, tracestate *Tracestate, err error, testname, msg string) {
if err == nil {
t.Errorf("test:%s: %s: tracestate=%v, error=%v", testname, msg, tracestate, err)
}
}
func TestCreateWithNullParent(t *testing.T) {
key1, value1 := "hello", "world"
testname := "TestCreateWithNullParent"
entry := Entry{key1, value1}
tracestate, err := New(nil, entry)
checkError(t, tracestate, err, testname, "create failed from null parent")
checkKeyValue(t, tracestate, key1, value1, testname)
}
func TestCreateFromParentWithSingleKey(t *testing.T) {
key1, value1, key2, value2 := "hello", "world", "foo", "bar"
testname := "TestCreateFromParentWithSingleKey"
entry1 := Entry{key1, value1}
entry2 := Entry{key2, value2}
parent, _ := New(nil, entry1)
tracestate, err := New(parent, entry2)
checkError(t, tracestate, err, testname, "create failed from parent with single key")
checkKeyValue(t, tracestate, key2, value2, testname)
checkFront(t, tracestate, key2, testname)
checkBack(t, tracestate, key1, testname)
}
func TestCreateFromParentWithDoubleKeys(t *testing.T) {
key1, value1, key2, value2, key3, value3 := "hello", "world", "foo", "bar", "bar", "baz"
testname := "TestCreateFromParentWithDoubleKeys"
entry1 := Entry{key1, value1}
entry2 := Entry{key2, value2}
entry3 := Entry{key3, value3}
parent, _ := New(nil, entry2, entry1)
tracestate, err := New(parent, entry3)
checkError(t, tracestate, err, testname, "create failed from parent with double keys")
checkKeyValue(t, tracestate, key3, value3, testname)
checkFront(t, tracestate, key3, testname)
checkBack(t, tracestate, key1, testname)
}
func TestCreateFromParentWithExistingKey(t *testing.T) {
key1, value1, key2, value2, key3, value3 := "hello", "world", "foo", "bar", "hello", "baz"
testname := "TestCreateFromParentWithExistingKey"
entry1 := Entry{key1, value1}
entry2 := Entry{key2, value2}
entry3 := Entry{key3, value3}
parent, _ := New(nil, entry2, entry1)
tracestate, err := New(parent, entry3)
checkError(t, tracestate, err, testname, "create failed with an existing key")
checkKeyValue(t, tracestate, key3, value3, testname)
checkFront(t, tracestate, key3, testname)
checkBack(t, tracestate, key2, testname)
checkSize(t, tracestate, 2, testname)
}
func TestImplicitImmutableTracestate(t *testing.T) {
key1, value1, key2, value2, key3, value3 := "hello", "world", "hello", "bar", "foo", "baz"
testname := "TestImplicitImmutableTracestate"
entry1 := Entry{key1, value1}
entry2 := Entry{key2, value2}
parent, _ := New(nil, entry1)
tracestate, err := New(parent, entry2)
checkError(t, tracestate, err, testname, "create failed")
checkKeyValue(t, tracestate, key2, value2, testname)
checkKeyValue(t, parent, key2, value1, testname)
// Get and update entries.
entries := tracestate.Entries()
entry := Entry{key3, value3}
entries = append(entries, entry)
// Check Tracestate does not have key3.
checkKeyValue(t, tracestate, key3, "", testname)
// Check that we added the key3 in the entries
tracestate, err = New(nil, entries...)
checkError(t, tracestate, err, testname, "create failed")
checkKeyValue(t, tracestate, key3, value3, testname)
}
func TestKeyWithValidChar(t *testing.T) {
testname := "TestKeyWithValidChar"
arrayRune := []rune("")
for c := 'a'; c <= 'z'; c++ {
arrayRune = append(arrayRune, c)
}
for c := '0'; c <= '9'; c++ {
arrayRune = append(arrayRune, c)
}
arrayRune = append(arrayRune, '_')
arrayRune = append(arrayRune, '-')
arrayRune = append(arrayRune, '*')
arrayRune = append(arrayRune, '/')
key := string(arrayRune)
entry := Entry{key, "world"}
tracestate, err := New(nil, entry)
checkError(t, tracestate, err, testname, "create failed when the key contains all valid characters")
}
func TestKeyWithInvalidChar(t *testing.T) {
testname := "TestKeyWithInvalidChar"
keys := []string{"1ab", "1ab2", "Abc", " abc", "a=b"}
for _, key := range keys {
entry := Entry{key, "world"}
tracestate, err := New(nil, entry)
wantError(t, tracestate, err, testname, fmt.Sprintf(
"create did not err with invalid key=%q", key))
}
}
func TestNilKey(t *testing.T) {
testname := "TestNilKey"
entry := Entry{"", "world"}
tracestate, err := New(nil, entry)
wantError(t, tracestate, err, testname, "create did not err when the key is nil (\"\")")
}
func TestValueWithInvalidChar(t *testing.T) {
testname := "TestValueWithInvalidChar"
keys := []string{"A=B", "A,B", "AB "}
for _, value := range keys {
entry := Entry{"hello", value}
tracestate, err := New(nil, entry)
wantError(t, tracestate, err, testname,
fmt.Sprintf("create did not err when the value is invalid (%q)", value))
}
}
func TestNilValue(t *testing.T) {
testname := "TestNilValue"
tracestate, err := New(nil, Entry{"hello", ""})
wantError(t, tracestate, err, testname, "create did not err when the value is nil (\"\")")
}
func TestInvalidKeyLen(t *testing.T) {
testname := "TestInvalidKeyLen"
arrayRune := []rune("")
for i := 0; i <= keyMaxSize+1; i++ {
arrayRune = append(arrayRune, 'a')
}
key := string(arrayRune)
tracestate, err := New(nil, Entry{key, "world"})
wantError(t, tracestate, err, testname,
fmt.Sprintf("create did not err when the length (%d) of the key is larger than max (%d)",
len(key), keyMaxSize))
}
func TestInvalidValueLen(t *testing.T) {
testname := "TestInvalidValueLen"
arrayRune := []rune("")
for i := 0; i <= valueMaxSize+1; i++ {
arrayRune = append(arrayRune, 'a')
}
value := string(arrayRune)
tracestate, err := New(nil, Entry{"hello", value})
wantError(t, tracestate, err, testname,
fmt.Sprintf("create did not err when the length (%d) of the value is larger than max (%d)",
len(value), valueMaxSize))
}
func TestCreateFromArrayWithOverLimitKVPairs(t *testing.T) {
testname := "TestCreateFromArrayWithOverLimitKVPairs"
entries := []Entry{}
for i := 0; i <= maxKeyValuePairs; i++ {
key := fmt.Sprintf("a%db", i)
entry := Entry{key, "world"}
entries = append(entries, entry)
}
tracestate, err := New(nil, entries...)
wantError(t, tracestate, err, testname,
fmt.Sprintf("create did not err when the number (%d) of key-value pairs is larger than max (%d)",
len(entries), maxKeyValuePairs))
}
func TestCreateFromEmptyArray(t *testing.T) {
testname := "TestCreateFromEmptyArray"
tracestate, err := New(nil, nil...)
checkError(t, tracestate, err, testname,
"failed to create nil tracestate")
}
func TestCreateFromParentWithOverLimitKVPairs(t *testing.T) {
testname := "TestCreateFromParentWithOverLimitKVPairs"
entries := []Entry{}
for i := 0; i < maxKeyValuePairs; i++ {
key := fmt.Sprintf("a%db", i)
entry := Entry{key, "world"}
entries = append(entries, entry)
}
parent, err := New(nil, entries...)
checkError(t, parent, err, testname, fmt.Sprintf("create failed to add %d key-value pair", maxKeyValuePairs))
// Add one more to go over the limit
key := fmt.Sprintf("a%d", maxKeyValuePairs)
tracestate, err := New(parent, Entry{key, "world"})
wantError(t, tracestate, err, testname,
fmt.Sprintf("create did not err when attempted to exceed the key-value pair limit of %d", maxKeyValuePairs))
}
func TestCreateFromArrayWithDuplicateKeys(t *testing.T) {
key1, value1, key2, value2, key3, value3 := "hello", "world", "foo", "bar", "hello", "baz"
testname := "TestCreateFromArrayWithDuplicateKeys"
entry1 := Entry{key1, value1}
entry2 := Entry{key2, value2}
entry3 := Entry{key3, value3}
tracestate, err := New(nil, entry1, entry2, entry3)
wantError(t, tracestate, err, testname,
"create did not err when entries contained duplicate keys")
}
func TestEntriesWithNil(t *testing.T) {
ts, err := New(nil)
if err != nil {
t.Fatal(err)
}
if got, want := len(ts.Entries()), 0; got != want {
t.Errorf("zero value should have no entries, got %v; want %v", got, want)
}
}