// Copyright (c) .NET Foundation. All rights reserved. // Licensed under the Apache License, Version 2.0. See License.txt in the project root for license information. using System; using System.Globalization; using Microsoft.Extensions.Primitives; using Xunit; namespace Microsoft.Net.Http.Headers { public class HeaderUtilitiesTest { private const string Rfc1123Format = "r"; [Theory] [MemberData(nameof(TestValues))] public void ReturnsSameResultAsRfc1123String(DateTimeOffset dateTime, bool quoted) { var formatted = dateTime.ToString(Rfc1123Format); var expected = quoted ? $"\"{formatted}\"" : formatted; var actual = HeaderUtilities.FormatDate(dateTime, quoted); Assert.Equal(expected, actual); } public static TheoryData TestValues { get { var data = new TheoryData(); var now = DateTimeOffset.Now; foreach (var quoted in new[] { true, false }) { data.Add(now, quoted); for (var i = 1; i < 60; i++) { data.Add(now.AddSeconds(i), quoted); data.Add(now.AddMinutes(i), quoted); } for (var i = 1; i < DateTime.DaysInMonth(now.Year, now.Month); i++) { data.Add(now.AddDays(i), quoted); } for (var i = 1; i < 11; i++) { data.Add(now.AddMonths(i), quoted); } for (var i = 1; i < 5; i++) { data.Add(now.AddYears(i), quoted); } } return data; } } [Theory] [InlineData("h=1", "h", 1)] [InlineData("directive1=3, directive2=10", "directive1", 3)] [InlineData("directive1 =45, directive2=80", "directive1", 45)] [InlineData("directive1= 89 , directive2=22", "directive1", 89)] [InlineData("directive1= 89 , directive2= 42", "directive2", 42)] [InlineData("directive1= 89 , directive= 42", "directive", 42)] [InlineData("directive1,,,,,directive2 = 42 ", "directive2", 42)] [InlineData("directive1=;,directive2 = 42 ", "directive2", 42)] [InlineData("directive1;;,;;,directive2 = 42 ", "directive2", 42)] [InlineData("directive1=value;q=0.6,directive2 = 42 ", "directive2", 42)] public void TryParseSeconds_Succeeds(string headerValues, string targetValue, int expectedValue) { TimeSpan? value; Assert.True(HeaderUtilities.TryParseSeconds(new StringValues(headerValues), targetValue, out value)); Assert.Equal(TimeSpan.FromSeconds(expectedValue), value); } [Theory] [InlineData("", "")] [InlineData(null, null)] [InlineData("h=", "h")] [InlineData("directive1=, directive2=10", "directive1")] [InlineData("directive1 , directive2=80", "directive1")] [InlineData("h=10", "directive")] [InlineData("directive1", "directive")] [InlineData("directive1,,,,,,,", "directive")] [InlineData("h=directive", "directive")] [InlineData("directive1, directive2=80", "directive")] [InlineData("directive1=;, directive2=10", "directive1")] [InlineData("directive1;directive2=10", "directive2")] public void TryParseSeconds_Fails(string headerValues, string targetValue) { TimeSpan? value; Assert.False(HeaderUtilities.TryParseSeconds(new StringValues(headerValues), targetValue, out value)); } [Theory] [InlineData(0)] [InlineData(1)] [InlineData(1234567890)] [InlineData(long.MaxValue)] public void FormatNonNegativeInt64_MatchesToString(long value) { Assert.Equal(value.ToString(CultureInfo.InvariantCulture), HeaderUtilities.FormatNonNegativeInt64(value)); } [Theory] [InlineData(-1)] [InlineData(-1234567890)] [InlineData(long.MinValue)] public void FormatNonNegativeInt64_Throws_ForNegativeValues(long value) { Assert.Throws(() => HeaderUtilities.FormatNonNegativeInt64(value)); } [Theory] [InlineData("h", "h", true)] [InlineData("h=", "h", true)] [InlineData("h=1", "h", true)] [InlineData("H", "h", true)] [InlineData("H=", "h", true)] [InlineData("H=1", "h", true)] [InlineData("h", "H", true)] [InlineData("h=", "H", true)] [InlineData("h=1", "H", true)] [InlineData("directive1, directive=10", "directive1", true)] [InlineData("directive1=, directive=10", "directive1", true)] [InlineData("directive1=3, directive=10", "directive1", true)] [InlineData("directive1 , directive=80", "directive1", true)] [InlineData(" directive1, directive=80", "directive1", true)] [InlineData("directive1 =45, directive=80", "directive1", true)] [InlineData("directive1= 89 , directive=22", "directive1", true)] [InlineData("directive1, directive", "directive", true)] [InlineData("directive1, directive=", "directive", true)] [InlineData("directive1, directive=10", "directive", true)] [InlineData("directive1=3, directive", "directive", true)] [InlineData("directive1=3, directive=", "directive", true)] [InlineData("directive1=3, directive=10", "directive", true)] [InlineData("directive1= 89 , directive= 42", "directive", true)] [InlineData("directive1= 89 , directive = 42", "directive", true)] [InlineData("directive1,,,,,directive2 = 42 ", "directive2", true)] [InlineData("directive1;;,;;,directive2 = 42 ", "directive2", true)] [InlineData("directive1=;,directive2 = 42 ", "directive2", true)] [InlineData("directive1=value;q=0.6,directive2 = 42 ", "directive2", true)] [InlineData(null, null, false)] [InlineData(null, "", false)] [InlineData("", null, false)] [InlineData("", "", false)] [InlineData("h=10", "directive", false)] [InlineData("directive1", "directive", false)] [InlineData("directive1,,,,,,,", "directive", false)] [InlineData("h=directive", "directive", false)] [InlineData("directive1, directive2=80", "directive", false)] [InlineData("directive1;, directive2=80", "directive", false)] [InlineData("directive1=value;q=0.6;directive2 = 42 ", "directive2", false)] public void ContainsCacheDirective_MatchesExactValue(string headerValues, string targetValue, bool contains) { Assert.Equal(contains, HeaderUtilities.ContainsCacheDirective(new StringValues(headerValues), targetValue)); } [Theory] [InlineData("")] [InlineData(null)] [InlineData("-1")] [InlineData("a")] [InlineData("1.1")] [InlineData("9223372036854775808")] // long.MaxValue + 1 public void TryParseNonNegativeInt64_Fails(string valueString) { long value = 1; Assert.False(HeaderUtilities.TryParseNonNegativeInt64(valueString, out value)); Assert.Equal(0, value); } [Theory] [InlineData("0", 0)] [InlineData("9223372036854775807", 9223372036854775807)] // long.MaxValue public void TryParseNonNegativeInt64_Succeeds(string valueString, long expected) { long value = 1; Assert.True(HeaderUtilities.TryParseNonNegativeInt64(valueString, out value)); Assert.Equal(expected, value); } [Theory] [InlineData("")] [InlineData(null)] [InlineData("-1")] [InlineData("a")] [InlineData("1.1")] [InlineData("1,000")] [InlineData("2147483648")] // int.MaxValue + 1 public void TryParseNonNegativeInt32_Fails(string valueString) { int value = 1; Assert.False(HeaderUtilities.TryParseNonNegativeInt32(valueString, out value)); Assert.Equal(0, value); } [Theory] [InlineData("0", 0)] [InlineData("2147483647", 2147483647)] // int.MaxValue public void TryParseNonNegativeInt32_Succeeds(string valueString, long expected) { int value = 1; Assert.True(HeaderUtilities.TryParseNonNegativeInt32(valueString, out value)); Assert.Equal(expected, value); } } }