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AsymmetricAlgorithm.LegalKeySizes 屬性

定義

取得非對稱演算法所支援的金鑰大小。

public:
 virtual property cli::array <System::Security::Cryptography::KeySizes ^> ^ LegalKeySizes { cli::array <System::Security::Cryptography::KeySizes ^> ^ get(); };
public virtual System.Security.Cryptography.KeySizes[] LegalKeySizes { get; }
member this.LegalKeySizes : System.Security.Cryptography.KeySizes[]
Public Overridable ReadOnly Property LegalKeySizes As KeySizes()

屬性值

含有非對稱演算法所支援之金鑰大小的陣列。

範例

下列程式代碼範例示範如何呼叫 LegalKeySizes 屬性來擷取 MinSizeMaxSizeSkipSize 屬性。 此程式代碼範例是提供給 類別之較大範例的 AsymmetricAlgorithm 一部分。

array<KeySizes^>^ legalKeySizes = customCryptoAlgorithm->LegalKeySizes;
for (int i = 0; i < legalKeySizes->Length; i++)
{
    Console::WriteLine(
        "Keysize{0} min, max, step: {1}, {2}, {3}, ", i,
        legalKeySizes[i]->MinSize,
        legalKeySizes[i]->MaxSize,
        legalKeySizes[i]->SkipSize);
}
KeySizes[] legalKeySizes = customCrypto.LegalKeySizes;
if (legalKeySizes.Length > 0)
{
    for (int i=0; i < legalKeySizes.Length; i++)
    {
        Console.Write("Keysize" + i + " min, max, step: ");
        Console.Write(legalKeySizes[i].MinSize + ", ");
        Console.Write(legalKeySizes[i].MaxSize + ", ");
        Console.WriteLine(legalKeySizes[i].SkipSize + ", ");
    }
}
Dim legalKeySizes() As KeySizes = customCrypto.LegalKeySizes
If (legalKeySizes.Length > 0) Then
    For i As Integer = 0 To legalKeySizes.Length - 1 Step 1
        Write("Keysize" + i.ToString() + " min, max, step: ")
        Write(legalKeySizes(i).MinSize.ToString() + ", ")
        Write(legalKeySizes(i).MaxSize.ToString() + ", ")
        Write(legalKeySizes(i).SkipSize.ToString() + ", ")
        WriteLine("")
    Next
End If

備註

非對稱演算法僅支援符合此陣列中專案的金鑰大小。

適用於

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