CryptoAPITransform Classe
Définition
Important
Certaines informations portent sur la préversion du produit qui est susceptible d’être en grande partie modifiée avant sa publication. Microsoft exclut toute garantie, expresse ou implicite, concernant les informations fournies ici.
Effectue une transformation par chiffrement de données. Cette classe ne peut pas être héritée.
public ref class CryptoAPITransform sealed : System::Security::Cryptography::ICryptoTransformpublic sealed class CryptoAPITransform : System.Security.Cryptography.ICryptoTransform[System.Runtime.InteropServices.ComVisible(true)]
public sealed class CryptoAPITransform : System.Security.Cryptography.ICryptoTransformtype CryptoAPITransform = class
interface ICryptoTransform
interface IDisposable[<System.Runtime.InteropServices.ComVisible(true)>]
type CryptoAPITransform = class
interface ICryptoTransform
interface IDisposablePublic NotInheritable Class CryptoAPITransform
Implements ICryptoTransform- Héritage
-
CryptoAPITransform
- Attributs
- Implémente
Exemples
L’exemple de code suivant montre comment utiliser les membres de la CryptoAPITransform classe .
using namespace System;
using namespace System::Security::Cryptography;
using namespace System::Collections;
using namespace System::Text;
ref class Members
{
private:
// Use a public service provider for encryption and decryption.
static DESCryptoServiceProvider^ des = gcnew DESCryptoServiceProvider;
public:
[STAThread]
static void Main()
{
String^ message = L"012345678901234567890";
array<Byte>^sourceBytes = Encoding::ASCII->GetBytes( message );
Console::WriteLine( L"** Phrase to be encoded: {0}", message );
array<Byte>^encodedBytes = EncodeBytes( sourceBytes );
Console::WriteLine( L"** Phrase after encoding: {0}",
Encoding::ASCII->GetString( encodedBytes ) );
array<Byte>^decodedBytes = DecodeBytes( encodedBytes );
Console::WriteLine( L"** Phrase after decoding: {0}",
Encoding::ASCII->GetString( decodedBytes ) );
Console::WriteLine( L"Sample ended successfully; "
L"press Enter to continue." );
Console::ReadLine();
}
private:
// Encode the specified byte array by using CryptoAPITranform.
static array<Byte>^ EncodeBytes( array<Byte>^sourceBytes )
{
int currentPosition = 0;
array<Byte>^targetBytes = gcnew array<Byte>(1024);
int sourceByteLength = sourceBytes->Length;
// Create a DES encryptor from this instance to perform encryption.
CryptoAPITransform^ cryptoTransform =
static_cast<CryptoAPITransform^>(des->CreateEncryptor());
// Retrieve the block size to read the bytes.
int inputBlockSize = cryptoTransform->InputBlockSize;
// Retrieve the key handle.
IntPtr keyHandle = cryptoTransform->KeyHandle;
// Retrieve the block size to write the bytes.
int outputBlockSize = cryptoTransform->OutputBlockSize;
try
{
// Determine if multiple blocks can be transformed.
if ( cryptoTransform->CanTransformMultipleBlocks )
{
int numBytesRead = 0;
while ( sourceByteLength - currentPosition >= inputBlockSize )
{
// Transform the bytes from currentPosition in the
// sourceBytes array, writing the bytes to the targetBytes
// array.
numBytesRead = cryptoTransform->TransformBlock(
sourceBytes, currentPosition, inputBlockSize,
targetBytes, currentPosition );
// Advance the current position in the sourceBytes array.
currentPosition += numBytesRead;
}
// Transform the final block of bytes.
array<Byte>^finalBytes = cryptoTransform->TransformFinalBlock(
sourceBytes, currentPosition, sourceByteLength - currentPosition );
// Copy the contents of the finalBytes array to the
// targetBytes array.
finalBytes->CopyTo( targetBytes, currentPosition );
}
}
catch ( Exception^ ex )
{
Console::WriteLine( L"Caught unexpected exception:{0}", ex );
}
// Determine if the current transform can be reused.
if ( !cryptoTransform->CanReuseTransform )
{
// Free up any used resources.
cryptoTransform->Clear();
}
// Trim the extra bytes in the array that were not used.
return TrimArray( targetBytes );
}
// Decode the specified byte array using CryptoAPITranform.
static array<Byte>^ DecodeBytes( array<Byte>^sourceBytes )
{
array<Byte>^targetBytes = gcnew array<Byte>(1024);
int currentPosition = 0;
// Create a DES decryptor from this instance to perform decryption.
CryptoAPITransform^ cryptoTransform =
static_cast<CryptoAPITransform^>(des->CreateDecryptor());
int inputBlockSize = cryptoTransform->InputBlockSize;
int sourceByteLength = sourceBytes->Length;
try
{
int numBytesRead = 0;
while ( sourceByteLength - currentPosition >= inputBlockSize )
{
// Transform the bytes from currentposition in the
// sourceBytes array, writing the bytes to the targetBytes
// array.
numBytesRead = cryptoTransform->TransformBlock(
sourceBytes, currentPosition, inputBlockSize,
targetBytes, currentPosition );
// Advance the current position in the source array.
currentPosition += numBytesRead;
}
// Transform the final block of bytes.
array<Byte>^finalBytes = cryptoTransform->TransformFinalBlock(
sourceBytes, currentPosition, sourceByteLength - currentPosition );
// Copy the contents of the finalBytes array to the targetBytes
// array.
finalBytes->CopyTo( targetBytes, currentPosition );
}
catch ( Exception^ ex )
{
Console::WriteLine( L"Caught unexpected exception:{0}", ex );
}
// Strip out the second block of bytes.
Array::Copy(targetBytes, (inputBlockSize * 2), targetBytes, inputBlockSize, targetBytes->Length - (inputBlockSize * 2));
// Trim the extra bytes in the array that were not used.
return TrimArray( targetBytes );
}
// Resize the dimensions of the array to a size that contains only valid
// bytes.
static array<Byte>^ TrimArray( array<Byte>^targetArray )
{
IEnumerator^ enum1 = targetArray->GetEnumerator();
int i = 0;
while ( enum1->MoveNext() )
{
if ( enum1->Current->ToString()->Equals( L"0" ) )
{
break;
}
i++;
}
// Create a new array with the number of valid bytes.
array<Byte>^returnedArray = gcnew array<Byte>(i);
for ( int j = 0; j < i; j++ )
{
returnedArray[ j ] = targetArray[ j ];
}
return returnedArray;
}
};
int main()
{
Members::Main();
}
//
// This sample produces the following output:
//
// ** Phrase to be encoded: 012345678901234567890
// ** Phrase after encoding: AIGC(+b7X?^djAU?15ve?o
// ** Phrase after decoding: 012345678901234567890
// Sample ended successfully; press Enter to continue.
using System;
using System.Security.Cryptography;
using System.Collections;
using System.Text;
class Members
{
// Use a public service provider for encryption and decryption.
static DESCryptoServiceProvider des = new DESCryptoServiceProvider();
[STAThread]
static void Main(string[] args)
{
string message = "012345678901234567890";
byte[] sourceBytes = Encoding.ASCII.GetBytes(message);
Console.WriteLine("** Phrase to be encoded: " + message);
byte[] encodedBytes = EncodeBytes(sourceBytes);
Console.WriteLine("** Phrase after encoding: " +
Encoding.ASCII.GetString(encodedBytes));
byte[] decodedBytes = DecodeBytes(encodedBytes);
Console.WriteLine("** Phrase after decoding: " +
Encoding.ASCII.GetString(decodedBytes));
Console.WriteLine("Sample ended successfully; " +
"press Enter to continue.");
Console.ReadLine();
}
// Encode the specified byte array by using CryptoAPITranform.
private static byte[] EncodeBytes(byte[] sourceBytes)
{
int currentPosition = 0;
byte[] targetBytes = new byte[1024];
int sourceByteLength = sourceBytes.Length;
// Create a DES encryptor from this instance to perform encryption.
CryptoAPITransform cryptoTransform =
(CryptoAPITransform)des.CreateEncryptor();
// Retrieve the block size to read the bytes.
int inputBlockSize = cryptoTransform.InputBlockSize;
// Retrieve the key handle.
IntPtr keyHandle = cryptoTransform.KeyHandle;
// Retrieve the block size to write the bytes.
int outputBlockSize = cryptoTransform.OutputBlockSize;
try
{
// Determine if multiple blocks can be transformed.
if (cryptoTransform.CanTransformMultipleBlocks)
{
int numBytesRead = 0;
while (sourceByteLength - currentPosition >= inputBlockSize)
{
// Transform the bytes from currentPosition in the
// sourceBytes array, writing the bytes to the targetBytes
// array.
numBytesRead = cryptoTransform.TransformBlock(
sourceBytes,
currentPosition,
inputBlockSize,
targetBytes,
currentPosition);
// Advance the current position in the sourceBytes array.
currentPosition += numBytesRead;
}
// Transform the final block of bytes.
byte[] finalBytes = cryptoTransform.TransformFinalBlock(
sourceBytes,
currentPosition,
sourceByteLength - currentPosition);
// Copy the contents of the finalBytes array to the
// targetBytes array.
finalBytes.CopyTo(targetBytes, currentPosition);
}
}
catch (Exception ex)
{
Console.WriteLine("Caught unexpected exception:" + ex.ToString());
}
// Determine if the current transform can be reused.
if (!cryptoTransform.CanReuseTransform)
{
// Free up any used resources.
cryptoTransform.Clear();
}
// Trim the extra bytes in the array that were not used.
return TrimArray(targetBytes);
}
// Decode the specified byte array using CryptoAPITranform.
private static byte[] DecodeBytes(byte[] sourceBytes)
{
byte[] targetBytes = new byte[1024];
int currentPosition = 0;
// Create a DES decryptor from this instance to perform decryption.
CryptoAPITransform cryptoTransform =
(CryptoAPITransform)des.CreateDecryptor();
int inputBlockSize = cryptoTransform.InputBlockSize;
int sourceByteLength = sourceBytes.Length;
try
{
int numBytesRead = 0;
while (sourceByteLength - currentPosition >= inputBlockSize)
{
// Transform the bytes from current position in the
// sourceBytes array, writing the bytes to the targetBytes
// array.
numBytesRead = cryptoTransform.TransformBlock(
sourceBytes,
currentPosition,
inputBlockSize,
targetBytes,
currentPosition);
// Advance the current position in the source array.
currentPosition += numBytesRead;
}
// Transform the final block of bytes.
byte[] finalBytes = cryptoTransform.TransformFinalBlock(
sourceBytes,
currentPosition,
sourceByteLength - currentPosition);
// Copy the contents of the finalBytes array to the targetBytes
// array.
finalBytes.CopyTo(targetBytes, currentPosition);
}
catch (Exception ex)
{
Console.WriteLine("Caught unexpected exception:" + ex.ToString());
}
// Strip out the second block of bytes.
Array.Copy(targetBytes, (inputBlockSize * 2), targetBytes, inputBlockSize, targetBytes.Length - (inputBlockSize * 2));
// Trim the extra bytes in the array that were not used.
return TrimArray(targetBytes);
}
// Resize the dimensions of the array to a size that contains only valid
// bytes.
private static byte[] TrimArray(byte[] targetArray)
{
IEnumerator enum1 = targetArray.GetEnumerator();
int i = 0;
while (enum1.MoveNext())
{
if (enum1.Current.ToString().Equals("0"))
{
break;
}
i++;
}
// Create a new array with the number of valid bytes.
byte[] returnedArray = new byte[i];
for (int j = 0; j < i; j++)
{
returnedArray[j] = targetArray[j];
}
return returnedArray;
}
}
//
// This sample produces the following output:
//
// ** Phrase to be encoded: 012345678901234567890
// ** Phrase after encoding: AIGC(+b7X?^djAU?15ve?o
// ** Phrase after decoding: 012345678901234567890
// Sample ended successfully; press Enter to continue.
Imports System.Security.Cryptography
Imports System.Collections
Imports System.Text
Public Class Form1
Inherits System.Windows.Forms.Form
' Use a public service provider for encryption and decryption.
Dim desCSP As New DESCryptoServiceProvider
' Event handler for Run button.
Private Sub Button1_Click( _
ByVal sender As System.Object, _
ByVal e As System.EventArgs) Handles Button1.Click
tbxOutput.Cursor = Cursors.WaitCursor
tbxOutput.Text = ""
Dim message As String = "01234567890123456789"
Dim sourceBytes() As Byte = Encoding.ASCII.GetBytes(message)
tbxOutput.AppendText("** Phrase to be encoded: " + message + vbCrLf)
Dim encodedBytes() As Byte = EncodeBytes(sourceBytes)
tbxOutput.AppendText("** Phrase after encoding: " + _
Encoding.ASCII.GetString(encodedBytes) + vbCrLf)
Dim decodedBytes() As Byte = DecodeBytes(encodedBytes)
tbxOutput.AppendText("** Phrase after decoding: " + _
Encoding.ASCII.GetString(decodedBytes) + vbCrLf)
tbxOutput.AppendText(vbCrLf + "Sample ended successfully; " + _
"press Enter to continue.")
tbxOutput.Cursor = Cursors.Default
End Sub
' Encode the specified byte array by using CryptoAPITranform.
Private Function EncodeBytes(ByVal sourceBytes() As Byte) As Byte()
Dim currentPosition As Int16 = 0
Dim targetBytes(1024) As Byte
Dim sourceByteLength As Integer = sourceBytes.Length
' Create a DES encryptor from this instance to perform encryption.
Dim cryptoTransform As CryptoAPITransform
cryptoTransform = CType(desCSP.CreateEncryptor(), CryptoAPITransform)
' Retrieve the block size to read the bytes.
Dim inputBlockSize As Integer = cryptoTransform.InputBlockSize
' Retrieve the key handle.
Dim keyHandle As IntPtr = cryptoTransform.KeyHandle
' Retrieve the block size to write the bytes.
Dim outputBlockSize As Integer = cryptoTransform.OutputBlockSize
Try
' Determine if multiple blocks can be transformed.
If (cryptoTransform.CanTransformMultipleBlocks) Then
Dim numBytesRead As Int16 = 0
While (sourceByteLength - currentPosition >= inputBlockSize)
' Transform the bytes from currentposition in the
' sourceBytes array, writing the bytes to the targetBytes
' array.
numBytesRead = cryptoTransform.TransformBlock( _
sourceBytes, _
currentPosition, _
inputBlockSize, _
targetBytes, _
currentPosition)
' Advance the current position in the sourceBytes array.
currentPosition += numBytesRead
End While
' Transform the final block of bytes.
Dim finalBytes() As Byte
finalBytes = cryptoTransform.TransformFinalBlock( _
sourceBytes, _
currentPosition, _
sourceByteLength - currentPosition)
' Copy the contents of the finalBytes array to the targetBytes
' array.
finalBytes.CopyTo(targetBytes, currentPosition)
End If
Catch ex As Exception
tbxOutput.AppendText("Caught unexpected exception:" + _
ex.ToString() + vbCrLf)
End Try
' Determine if the current transform can be reused.
If (Not cryptoTransform.CanReuseTransform) Then
' Free up any used resources.
cryptoTransform.Clear()
End If
' Trim the extra bytes in the array that were not used.
Return TrimArray(targetBytes)
End Function
' Decode the specified byte array using CryptoAPITranform.
Private Function DecodeBytes(ByVal sourceBytes() As Byte) As Byte()
Dim currentPosition As Int16 = 0
Dim targetBytes(1024) As Byte
Dim sourceByteLength As Integer = sourceBytes.Length
' Create a DES decryptor from this instance to perform decryption.
Dim cryptoTransform As CryptoAPITransform
cryptoTransform = CType(desCSP.CreateDecryptor(), CryptoAPITransform)
Dim inputBlockSize As Integer = cryptoTransform.InputBlockSize
Try
' Determine if multiple blocks can be transformed.
If (cryptoTransform.CanTransformMultipleBlocks) Then
Dim numBytesRead As Int16 = 0
While (sourceByteLength - currentPosition >= inputBlockSize)
' Transform the bytes from currentPosition in the
' sourceBytes array, writing the bytes to the targetBytes
' array.
numBytesRead = cryptoTransform.TransformBlock( _
sourceBytes, _
currentPosition, _
inputBlockSize, _
targetBytes, _
currentPosition)
' Advance the current position in the source array.
currentPosition += numBytesRead
End While
' Transform the final block of bytes.
Dim finalBytes() As Byte
finalBytes = cryptoTransform.TransformFinalBlock( _
sourceBytes, _
currentPosition, _
sourceByteLength - currentPosition)
' Copy the contents of the finalBytes array to the targetBytes
' array.
finalBytes.CopyTo(targetBytes, currentPosition)
End If
Catch ex As Exception
tbxOutput.AppendText("Caught unexpected exception:" + _
ex.ToString() + vbCrLf)
End Try
' Strip out the second block of bytes.
Array.Copy(targetBytes, (inputBlockSize * 2), targetBytes, inputBlockSize, targetBytes.Length - (inputBlockSize * 2))
' Trim the extra bytes in the array that were not used.
Return TrimArray(targetBytes)
End Function
' Resize the dimensions of the array to a size that contains only valid
' bytes.
Private Function TrimArray(ByVal targetArray() As Byte) As Byte()
Dim enum1 As IEnumerator = targetArray.GetEnumerator()
Dim i As Int16 = 0
While (enum1.MoveNext())
If (enum1.Current.ToString().Equals("0")) Then
Exit While
End If
i += 1
End While
' Create a new array with the number of valid bytes.
Dim returnedArray(i - 1) As Byte
For j As Int16 = 0 To i - 1 Step 1
returnedArray(j) = targetArray(j)
Next
Return returnedArray
End Function
' Event handler for Exit button.
Private Sub Button2_Click( _
ByVal sender As System.Object, _
ByVal e As System.EventArgs) Handles Button2.Click
Application.Exit()
End Sub
#Region " Windows Form Designer generated code "
Public Sub New()
MyBase.New()
'This call is required by the Windows Form Designer.
InitializeComponent()
'Add any initialization after the InitializeComponent() call
End Sub
'Form overrides dispose to clean up the component list.
Protected Overloads Overrides Sub Dispose(ByVal disposing As Boolean)
If disposing Then
If Not (components Is Nothing) Then
components.Dispose()
End If
End If
MyBase.Dispose(disposing)
End Sub
'Required by the Windows Form Designer
Private components As System.ComponentModel.IContainer
'NOTE: The following procedure is required by the Windows Form Designer
'It can be modified using the Windows Form Designer.
'Do not modify it using the code editor.
Friend WithEvents Panel2 As System.Windows.Forms.Panel
Friend WithEvents Panel1 As System.Windows.Forms.Panel
Friend WithEvents Button1 As System.Windows.Forms.Button
Friend WithEvents Button2 As System.Windows.Forms.Button
Friend WithEvents tbxOutput As System.Windows.Forms.RichTextBox
<System.Diagnostics.DebuggerStepThrough()> _
Private Sub InitializeComponent()
Me.Panel2 = New System.Windows.Forms.Panel
Me.Button1 = New System.Windows.Forms.Button
Me.Button2 = New System.Windows.Forms.Button
Me.Panel1 = New System.Windows.Forms.Panel
Me.tbxOutput = New System.Windows.Forms.RichTextBox
Me.Panel2.SuspendLayout()
Me.Panel1.SuspendLayout()
Me.SuspendLayout()
'
'Panel2
'
Me.Panel2.Controls.Add(Me.Button1)
Me.Panel2.Controls.Add(Me.Button2)
Me.Panel2.Dock = System.Windows.Forms.DockStyle.Bottom
Me.Panel2.DockPadding.All = 20
Me.Panel2.Location = New System.Drawing.Point(0, 320)
Me.Panel2.Name = "Panel2"
Me.Panel2.Size = New System.Drawing.Size(616, 64)
Me.Panel2.TabIndex = 1
'
'Button1
'
Me.Button1.Dock = System.Windows.Forms.DockStyle.Right
Me.Button1.Font = New System.Drawing.Font( _
"Microsoft Sans Serif", _
9.0!, _
System.Drawing.FontStyle.Regular, _
System.Drawing.GraphicsUnit.Point, _
CType(0, Byte))
Me.Button1.Location = New System.Drawing.Point(446, 20)
Me.Button1.Name = "Button1"
Me.Button1.Size = New System.Drawing.Size(75, 24)
Me.Button1.TabIndex = 2
Me.Button1.Text = "&Run"
'
'Button2
'
Me.Button2.Dock = System.Windows.Forms.DockStyle.Right
Me.Button2.Font = New System.Drawing.Font( _
"Microsoft Sans Serif", _
9.0!, _
System.Drawing.FontStyle.Regular, _
System.Drawing.GraphicsUnit.Point, _
CType(0, Byte))
Me.Button2.Location = New System.Drawing.Point(521, 20)
Me.Button2.Name = "Button2"
Me.Button2.Size = New System.Drawing.Size(75, 24)
Me.Button2.TabIndex = 3
Me.Button2.Text = "E&xit"
'
'Panel1
'
Me.Panel1.Controls.Add(Me.tbxOutput)
Me.Panel1.Dock = System.Windows.Forms.DockStyle.Fill
Me.Panel1.DockPadding.All = 20
Me.Panel1.Location = New System.Drawing.Point(0, 0)
Me.Panel1.Name = "Panel1"
Me.Panel1.Size = New System.Drawing.Size(616, 320)
Me.Panel1.TabIndex = 2
'
'tbxOutput
'
Me.tbxOutput.AccessibleDescription = _
"Displays output from application."
Me.tbxOutput.AccessibleName = "Output textbox."
Me.tbxOutput.Dock = System.Windows.Forms.DockStyle.Fill
Me.tbxOutput.Location = New System.Drawing.Point(20, 20)
Me.tbxOutput.Name = "tbxOutput"
Me.tbxOutput.Size = New System.Drawing.Size(576, 280)
Me.tbxOutput.TabIndex = 1
Me.tbxOutput.Text = "Click the Run button to run the application."
'
'Form1
'
Me.AutoScaleBaseSize = New System.Drawing.Size(6, 15)
Me.ClientSize = New System.Drawing.Size(616, 384)
Me.Controls.Add(Me.Panel1)
Me.Controls.Add(Me.Panel2)
Me.Name = "Form1"
Me.Text = "CryptoAPITransform"
Me.Panel2.ResumeLayout(False)
Me.Panel1.ResumeLayout(False)
Me.ResumeLayout(False)
End Sub
#End Region
End Class
'
' This sample produces the following output:
'
' ** Phrase to be encoded: 01234567890123456789
' ** Phrase after encoding: Eaa0$\iv\oXgS
' ** Phrase after decoding: 01234567890123456789
'
' Sample ended successfully; press Enter to continue.
Propriétés
| CanReuseTransform |
Obtient une valeur indiquant si la transformation actuelle peut être réutilisée. |
| CanTransformMultipleBlocks |
Obtient une valeur indiquant si plusieurs blocs peuvent être transformés. |
| InputBlockSize |
Obtient la taille du bloc d'entrée. |
| KeyHandle |
Obtient le handle de clé. |
| OutputBlockSize |
Obtient la taille du bloc de sortie. |
Méthodes
| Clear() |
Libère toutes les ressources utilisées par la méthode CryptoAPITransform. |
| Dispose() |
Libère toutes les ressources utilisées par l'instance actuelle de la classe CryptoAPITransform. |
| Equals(Object) |
Détermine si l'objet spécifié est égal à l'objet actuel. (Hérité de Object) |
| Finalize() |
Autorise un objet à tenter de libérer des ressources et à exécuter d'autres opérations de nettoyage avant qu'il ne soit récupéré par une opération garbage collection. |
| GetHashCode() |
Fait office de fonction de hachage par défaut. (Hérité de Object) |
| GetType() |
Obtient le Type de l'instance actuelle. (Hérité de Object) |
| MemberwiseClone() |
Crée une copie superficielle du Object actuel. (Hérité de Object) |
| Reset() |
Réinitialise l'état interne de CryptoAPITransform afin qu'il puisse être réutilisé pour faire un chiffrement ou déchiffrement différent. |
| ToString() |
Retourne une chaîne qui représente l'objet actuel. (Hérité de Object) |
| TransformBlock(Byte[], Int32, Int32, Byte[], Int32) |
Calcule la transformation de la zone spécifiée du tableau d'octets d'entrée et copie la transformation qui en résulte dans la zone spécifiée du tableau d'octets de sortie. |
| TransformFinalBlock(Byte[], Int32, Int32) |
Calcule la transformation pour la zone spécifiée du tableau d'octets spécifié. |
Implémentations d’interfaces explicites
| IDisposable.Dispose() |
Cette API prend en charge l'infrastructure du produit et n'est pas destinée à être utilisée directement à partir de votre code. Exécute les tâches définies par l'application associées à la libération ou à la redéfinition des ressources non managées. |
S’applique à
Voir aussi
Collaborer avec nous sur GitHub
La source de ce contenu se trouve sur GitHub, où vous pouvez également créer et examiner les problèmes et les demandes de tirage. Pour plus d’informations, consultez notre guide du contributeur.
