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// <auto-generated/>
#nullable enable
#pragma warning disable
namespace Microsoft.AspNetCore.Certificates.Generation
{
partial class UnixCertificateManager
{
/// <remarks>
/// Pattern:<br/>
/// <code>OPENSSLDIR:\s*"([^"]+)"</code><br/>
/// Explanation:<br/>
/// <code>
/// ○ Match the string "OPENSSLDIR:".<br/>
/// ○ Match a whitespace character atomically any number of times.<br/>
/// ○ Match '"'.<br/>
/// ○ 1st capture group.<br/>
/// ○ Match a character other than '"' atomically at least once.<br/>
/// ○ Match '"'.<br/>
/// </code>
/// </remarks>
[global::System.CodeDom.Compiler.GeneratedCodeAttribute("System.Text.RegularExpressions.Generator", "10.0.13.3001")]
private static partial global::System.Text.RegularExpressions.Regex OpenSslVersionRegex => global::System.Text.RegularExpressions.Generated.OpenSslVersionRegex_0.Instance;
}
}
namespace Microsoft.AspNetCore.Certificates.Generation
{
partial class UnixCertificateManager
{
/// <remarks>
/// Pattern:<br/>
/// <code>^[0-9a-f]+\.[0-9]+$</code><br/>
/// Explanation:<br/>
/// <code>
/// ○ Match if at the beginning of the string.<br/>
/// ○ Match a lowercase hexadecimal digit atomically at least once.<br/>
/// ○ Match '.'.<br/>
/// ○ Match a character in the set [0-9] atomically at least once.<br/>
/// ○ Match if at the end of the string or if before an ending newline.<br/>
/// </code>
/// </remarks>
[global::System.CodeDom.Compiler.GeneratedCodeAttribute("System.Text.RegularExpressions.Generator", "10.0.13.3001")]
private static partial global::System.Text.RegularExpressions.Regex OpenSslHashFilenameRegex => global::System.Text.RegularExpressions.Generated.OpenSslHashFilenameRegex_1.Instance;
}
}
namespace Microsoft.AspNetCore.Certificates.Generation
{
partial class UnixCertificateManager
{
/// <remarks>
/// Pattern:<br/>
/// <code>\.(pem|crt|cer)$</code><br/>
/// Explanation:<br/>
/// <code>
/// ○ Match '.'.<br/>
/// ○ 1st capture group.<br/>
/// ○ Match with 2 alternative expressions.<br/>
/// ○ Match the string "pem".<br/>
/// ○ Match a sequence of expressions.<br/>
/// ○ Match 'c'.<br/>
/// ○ Match with 2 alternative expressions.<br/>
/// ○ Match the string "rt".<br/>
/// ○ Match the string "er".<br/>
/// ○ Match if at the end of the string or if before an ending newline.<br/>
/// </code>
/// </remarks>
[global::System.CodeDom.Compiler.GeneratedCodeAttribute("System.Text.RegularExpressions.Generator", "10.0.13.3001")]
private static partial global::System.Text.RegularExpressions.Regex OpenSslCertificateExtensionRegex => global::System.Text.RegularExpressions.Generated.OpenSslCertificateExtensionRegex_2.Instance;
}
}
namespace System.Text.RegularExpressions.Generated
{
using System;
using System.Buffers;
using System.CodeDom.Compiler;
using System.Collections;
using System.ComponentModel;
using System.Globalization;
using System.Runtime.CompilerServices;
using System.Text.RegularExpressions;
using System.Threading;
/// <summary>Custom <see cref="Regex"/>-derived type for the OpenSslVersionRegex method.</summary>
[GeneratedCodeAttribute("System.Text.RegularExpressions.Generator", "10.0.13.3001")]
file sealed class OpenSslVersionRegex_0 : Regex
{
/// <summary>Cached, thread-safe singleton instance.</summary>
internal static readonly OpenSslVersionRegex_0 Instance = new();
/// <summary>Initializes the instance.</summary>
private OpenSslVersionRegex_0()
{
base.pattern = "OPENSSLDIR:\\s*\"([^\"]+)\"";
base.roptions = RegexOptions.None;
ValidateMatchTimeout(Utilities.s_defaultTimeout);
base.internalMatchTimeout = Utilities.s_defaultTimeout;
base.factory = new RunnerFactory();
base.capsize = 2;
}
/// <summary>Provides a factory for creating <see cref="RegexRunner"/> instances to be used by methods on <see cref="Regex"/>.</summary>
private sealed class RunnerFactory : RegexRunnerFactory
{
/// <summary>Creates an instance of a <see cref="RegexRunner"/> used by methods on <see cref="Regex"/>.</summary>
protected override RegexRunner CreateInstance() => new Runner();
/// <summary>Provides the runner that contains the custom logic implementing the specified regular expression.</summary>
private sealed class Runner : RegexRunner
{
/// <summary>Scan the <paramref name="inputSpan"/> starting from base.runtextstart for the next match.</summary>
/// <param name="inputSpan">The text being scanned by the regular expression.</param>
protected override void Scan(ReadOnlySpan<char> inputSpan)
{
// Search until we can't find a valid starting position, we find a match, or we reach the end of the input.
while (TryFindNextPossibleStartingPosition(inputSpan) &&
!TryMatchAtCurrentPosition(inputSpan) &&
base.runtextpos != inputSpan.Length)
{
base.runtextpos++;
if (Utilities.s_hasTimeout)
{
base.CheckTimeout();
}
}
}
/// <summary>Search <paramref name="inputSpan"/> starting from base.runtextpos for the next location a match could possibly start.</summary>
/// <param name="inputSpan">The text being scanned by the regular expression.</param>
/// <returns>true if a possible match was found; false if no more matches are possible.</returns>
private bool TryFindNextPossibleStartingPosition(ReadOnlySpan<char> inputSpan)
{
int pos = base.runtextpos;
// Any possible match is at least 14 characters.
if (pos <= inputSpan.Length - 14)
{
// The pattern has the literal "OPENSSLDIR:" at the beginning of the pattern. Find the next occurrence.
// If it can't be found, there's no match.
int i = inputSpan.Slice(pos).IndexOfAny(Utilities.s_indexOfString_6561199BCBB8490829F71D3C0AB5A8D82E7C7C1A521E49F6E6880A55FADC7161);
if (i >= 0)
{
base.runtextpos = pos + i;
return true;
}
}
// No match found.
base.runtextpos = inputSpan.Length;
return false;
}
/// <summary>Determine whether <paramref name="inputSpan"/> at base.runtextpos is a match for the regular expression.</summary>
/// <param name="inputSpan">The text being scanned by the regular expression.</param>
/// <returns>true if the regular expression matches at the current position; otherwise, false.</returns>
private bool TryMatchAtCurrentPosition(ReadOnlySpan<char> inputSpan)
{
int pos = base.runtextpos;
int matchStart = pos;
int capture_starting_pos = 0;
ReadOnlySpan<char> slice = inputSpan.Slice(pos);
// Match the string "OPENSSLDIR:".
if (!slice.StartsWith("OPENSSLDIR:"))
{
UncaptureUntil(0);
return false; // The input didn't match.
}
// Match a whitespace character atomically any number of times.
{
int iteration = 11;
while ((uint)iteration < (uint)slice.Length && char.IsWhiteSpace(slice[iteration]))
{
iteration++;
}
slice = slice.Slice(iteration);
pos += iteration;
}
// Match '"'.
if (slice.IsEmpty || slice[0] != '"')
{
UncaptureUntil(0);
return false; // The input didn't match.
}
// 1st capture group.
{
pos++;
slice = inputSpan.Slice(pos);
capture_starting_pos = pos;
// Match a character other than '"' atomically at least once.
{
int iteration1 = slice.IndexOf('"');
if (iteration1 < 0)
{
iteration1 = slice.Length;
}
if (iteration1 == 0)
{
UncaptureUntil(0);
return false; // The input didn't match.
}
slice = slice.Slice(iteration1);
pos += iteration1;
}
base.Capture(1, capture_starting_pos, pos);
}
// Match '"'.
if (slice.IsEmpty || slice[0] != '"')
{
UncaptureUntil(0);
return false; // The input didn't match.
}
// The input matched.
pos++;
base.runtextpos = pos;
base.Capture(0, matchStart, pos);
return true;
// <summary>Undo captures until it reaches the specified capture position.</summary>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
void UncaptureUntil(int capturePosition)
{
while (base.Crawlpos() > capturePosition)
{
base.Uncapture();
}
}
}
}
}
}
/// <summary>Custom <see cref="Regex"/>-derived type for the OpenSslHashFilenameRegex method.</summary>
[GeneratedCodeAttribute("System.Text.RegularExpressions.Generator", "10.0.13.3001")]
file sealed class OpenSslHashFilenameRegex_1 : Regex
{
/// <summary>Cached, thread-safe singleton instance.</summary>
internal static readonly OpenSslHashFilenameRegex_1 Instance = new();
/// <summary>Initializes the instance.</summary>
private OpenSslHashFilenameRegex_1()
{
base.pattern = "^[0-9a-f]+\\.[0-9]+$";
base.roptions = RegexOptions.None;
ValidateMatchTimeout(Utilities.s_defaultTimeout);
base.internalMatchTimeout = Utilities.s_defaultTimeout;
base.factory = new RunnerFactory();
base.capsize = 1;
}
/// <summary>Provides a factory for creating <see cref="RegexRunner"/> instances to be used by methods on <see cref="Regex"/>.</summary>
private sealed class RunnerFactory : RegexRunnerFactory
{
/// <summary>Creates an instance of a <see cref="RegexRunner"/> used by methods on <see cref="Regex"/>.</summary>
protected override RegexRunner CreateInstance() => new Runner();
/// <summary>Provides the runner that contains the custom logic implementing the specified regular expression.</summary>
private sealed class Runner : RegexRunner
{
/// <summary>Scan the <paramref name="inputSpan"/> starting from base.runtextstart for the next match.</summary>
/// <param name="inputSpan">The text being scanned by the regular expression.</param>
protected override void Scan(ReadOnlySpan<char> inputSpan)
{
// The pattern is anchored. Validate the current position and try to match at it only.
if (TryFindNextPossibleStartingPosition(inputSpan) && !TryMatchAtCurrentPosition(inputSpan))
{
base.runtextpos = inputSpan.Length;
}
}
/// <summary>Search <paramref name="inputSpan"/> starting from base.runtextpos for the next location a match could possibly start.</summary>
/// <param name="inputSpan">The text being scanned by the regular expression.</param>
/// <returns>true if a possible match was found; false if no more matches are possible.</returns>
private bool TryFindNextPossibleStartingPosition(ReadOnlySpan<char> inputSpan)
{
int pos = base.runtextpos;
// Any possible match is at least 3 characters.
if (pos <= inputSpan.Length - 3)
{
// The pattern leads with a beginning (\A) anchor.
if (pos == 0)
{
return true;
}
}
// No match found.
base.runtextpos = inputSpan.Length;
return false;
}
/// <summary>Determine whether <paramref name="inputSpan"/> at base.runtextpos is a match for the regular expression.</summary>
/// <param name="inputSpan">The text being scanned by the regular expression.</param>
/// <returns>true if the regular expression matches at the current position; otherwise, false.</returns>
private bool TryMatchAtCurrentPosition(ReadOnlySpan<char> inputSpan)
{
int pos = base.runtextpos;
int matchStart = pos;
ReadOnlySpan<char> slice = inputSpan.Slice(pos);
// Match if at the beginning of the string.
if (pos != 0)
{
return false; // The input didn't match.
}
// Match a lowercase hexadecimal digit atomically at least once.
{
int iteration = slice.IndexOfAnyExcept(Utilities.s_asciiHexDigitsLower);
if (iteration < 0)
{
iteration = slice.Length;
}
if (iteration == 0)
{
return false; // The input didn't match.
}
slice = slice.Slice(iteration);
pos += iteration;
}
// Match '.'.
if (slice.IsEmpty || slice[0] != '.')
{
return false; // The input didn't match.
}
// Match a character in the set [0-9] atomically at least once.
{
int iteration1 = slice.Slice(1).IndexOfAnyExceptInRange('0', '9');
if (iteration1 < 0)
{
iteration1 = slice.Length - 1;
}
if (iteration1 == 0)
{
return false; // The input didn't match.
}
slice = slice.Slice(iteration1);
pos += iteration1;
}
// Match if at the end of the string or if before an ending newline.
if (2 < slice.Length || (1 < slice.Length && slice[1] != '\n'))
{
return false; // The input didn't match.
}
// The input matched.
pos++;
base.runtextpos = pos;
base.Capture(0, matchStart, pos);
return true;
}
}
}
}
/// <summary>Custom <see cref="Regex"/>-derived type for the OpenSslCertificateExtensionRegex method.</summary>
[GeneratedCodeAttribute("System.Text.RegularExpressions.Generator", "10.0.13.3001")]
file sealed class OpenSslCertificateExtensionRegex_2 : Regex
{
/// <summary>Cached, thread-safe singleton instance.</summary>
internal static readonly OpenSslCertificateExtensionRegex_2 Instance = new();
/// <summary>Initializes the instance.</summary>
private OpenSslCertificateExtensionRegex_2()
{
base.pattern = "\\.(pem|crt|cer)$";
base.roptions = RegexOptions.None;
ValidateMatchTimeout(Utilities.s_defaultTimeout);
base.internalMatchTimeout = Utilities.s_defaultTimeout;
base.factory = new RunnerFactory();
base.capsize = 2;
}
/// <summary>Provides a factory for creating <see cref="RegexRunner"/> instances to be used by methods on <see cref="Regex"/>.</summary>
private sealed class RunnerFactory : RegexRunnerFactory
{
/// <summary>Creates an instance of a <see cref="RegexRunner"/> used by methods on <see cref="Regex"/>.</summary>
protected override RegexRunner CreateInstance() => new Runner();
/// <summary>Provides the runner that contains the custom logic implementing the specified regular expression.</summary>
private sealed class Runner : RegexRunner
{
/// <summary>Scan the <paramref name="inputSpan"/> starting from base.runtextstart for the next match.</summary>
/// <param name="inputSpan">The text being scanned by the regular expression.</param>
protected override void Scan(ReadOnlySpan<char> inputSpan)
{
// Search until we can't find a valid starting position, we find a match, or we reach the end of the input.
while (TryFindNextPossibleStartingPosition(inputSpan) &&
!TryMatchAtCurrentPosition(inputSpan) &&
base.runtextpos != inputSpan.Length)
{
base.runtextpos++;
if (Utilities.s_hasTimeout)
{
base.CheckTimeout();
}
}
}
/// <summary>Search <paramref name="inputSpan"/> starting from base.runtextpos for the next location a match could possibly start.</summary>
/// <param name="inputSpan">The text being scanned by the regular expression.</param>
/// <returns>true if a possible match was found; false if no more matches are possible.</returns>
private bool TryFindNextPossibleStartingPosition(ReadOnlySpan<char> inputSpan)
{
int pos = base.runtextpos;
// Any possible match is at least 4 characters.
if (pos <= inputSpan.Length - 4)
{
// The pattern has a trailing end (\Z) anchor, and any possible match is exactly 4 characters.
if (pos < inputSpan.Length - 5)
{
base.runtextpos = inputSpan.Length - 5;
}
return true;
}
// No match found.
base.runtextpos = inputSpan.Length;
return false;
}
/// <summary>Determine whether <paramref name="inputSpan"/> at base.runtextpos is a match for the regular expression.</summary>
/// <param name="inputSpan">The text being scanned by the regular expression.</param>
/// <returns>true if the regular expression matches at the current position; otherwise, false.</returns>
private bool TryMatchAtCurrentPosition(ReadOnlySpan<char> inputSpan)
{
int pos = base.runtextpos;
int matchStart = pos;
int alternation_branch = 0;
int alternation_starting_capturepos = 0;
int alternation_starting_pos = 0;
int capture_starting_pos = 0;
ReadOnlySpan<char> slice = inputSpan.Slice(pos);
// Match '.'.
if (slice.IsEmpty || slice[0] != '.')
{
UncaptureUntil(0);
return false; // The input didn't match.
}
// 1st capture group.
//{
pos++;
slice = inputSpan.Slice(pos);
capture_starting_pos = pos;
// Match with 2 alternative expressions.
//{
alternation_starting_pos = pos;
alternation_starting_capturepos = base.Crawlpos();
// Branch 0
//{
// Match the string "pem".
if (!slice.StartsWith("pem"))
{
goto AlternationBranch;
}
alternation_branch = 0;
pos += 3;
slice = inputSpan.Slice(pos);
goto AlternationMatch;
AlternationBranch:
pos = alternation_starting_pos;
slice = inputSpan.Slice(pos);
UncaptureUntil(alternation_starting_capturepos);
//}
// Branch 1
//{
// Match 'c'.
if (slice.IsEmpty || slice[0] != 'c')
{
UncaptureUntil(0);
return false; // The input didn't match.
}
// Match with 2 alternative expressions.
//{
if ((uint)slice.Length < 2)
{
UncaptureUntil(0);
return false; // The input didn't match.
}
switch (slice[1])
{
case 'r':
// Match 't'.
if ((uint)slice.Length < 3 || slice[2] != 't')
{
UncaptureUntil(0);
return false; // The input didn't match.
}
pos += 3;
slice = inputSpan.Slice(pos);
break;
case 'e':
// Match 'r'.
if ((uint)slice.Length < 3 || slice[2] != 'r')
{
UncaptureUntil(0);
return false; // The input didn't match.
}
pos += 3;
slice = inputSpan.Slice(pos);
break;
default:
UncaptureUntil(0);
return false; // The input didn't match.
}
//}
alternation_branch = 1;
goto AlternationMatch;
//}
AlternationBacktrack:
if (Utilities.s_hasTimeout)
{
base.CheckTimeout();
}
switch (alternation_branch)
{
case 0:
goto AlternationBranch;
case 1:
UncaptureUntil(0);
return false; // The input didn't match.
}
AlternationMatch:;
//}
base.Capture(1, capture_starting_pos, pos);
goto CaptureSkipBacktrack;
CaptureBacktrack:
goto AlternationBacktrack;
CaptureSkipBacktrack:;
//}
// Match if at the end of the string or if before an ending newline.
if (pos < inputSpan.Length - 1 || ((uint)pos < (uint)inputSpan.Length && inputSpan[pos] != '\n'))
{
goto CaptureBacktrack;
}
// The input matched.
base.runtextpos = pos;
base.Capture(0, matchStart, pos);
return true;
// <summary>Undo captures until it reaches the specified capture position.</summary>
[MethodImpl(MethodImplOptions.AggressiveInlining)]
void UncaptureUntil(int capturePosition)
{
while (base.Crawlpos() > capturePosition)
{
base.Uncapture();
}
}
}
}
}
}
/// <summary>Helper methods used by generated <see cref="Regex"/>-derived implementations.</summary>
[GeneratedCodeAttribute("System.Text.RegularExpressions.Generator", "10.0.13.3001")]
file static class Utilities
{
/// <summary>Default timeout value set in <see cref="AppContext"/>, or <see cref="Regex.InfiniteMatchTimeout"/> if none was set.</summary>
internal static readonly TimeSpan s_defaultTimeout = AppContext.GetData("REGEX_DEFAULT_MATCH_TIMEOUT") is TimeSpan timeout ? timeout : Regex.InfiniteMatchTimeout;
/// <summary>Whether <see cref="s_defaultTimeout"/> is non-infinite.</summary>
internal static readonly bool s_hasTimeout = s_defaultTimeout != Regex.InfiniteMatchTimeout;
/// <summary>Supports searching for characters in or not in "0123456789abcdef".</summary>
internal static readonly SearchValues<char> s_asciiHexDigitsLower = SearchValues.Create("0123456789abcdef");
/// <summary>Supports searching for the string "OPENSSLDIR:".</summary>
internal static readonly SearchValues<string> s_indexOfString_6561199BCBB8490829F71D3C0AB5A8D82E7C7C1A521E49F6E6880A55FADC7161 = SearchValues.Create(["OPENSSLDIR:"], StringComparison.Ordinal);
}
}
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