using System; using System.Net; using System.Security.Principal; using System.Threading.Tasks; using SocketHttpListener.Net.WebSockets; namespace SocketHttpListener.Net { public sealed partial class HttpListenerContext { private HttpListenerResponse _response; private IPrincipal _user; public HttpListenerRequest Request { get; } public IPrincipal User => _user; // This can be used to cache the results of HttpListener.AuthenticationSchemeSelectorDelegate. internal AuthenticationSchemes AuthenticationSchemes { get; set; } public HttpListenerResponse Response => _response; public Task AcceptWebSocketAsync(string subProtocol) { return AcceptWebSocketAsync(subProtocol, HttpWebSocket.DefaultReceiveBufferSize, WebSocket.DefaultKeepAliveInterval); } public Task AcceptWebSocketAsync(string subProtocol, TimeSpan keepAliveInterval) { return AcceptWebSocketAsync(subProtocol, HttpWebSocket.DefaultReceiveBufferSize, keepAliveInterval); } } public class GenericPrincipal : IPrincipal { private IIdentity m_identity; private string[] m_roles; public GenericPrincipal(IIdentity identity, string[] roles) { if (identity == null) throw new ArgumentNullException(nameof(identity)); m_identity = identity; if (roles != null) { m_roles = new string[roles.Length]; for (int i = 0; i < roles.Length; ++i) { m_roles[i] = roles[i]; } } else { m_roles = null; } } public virtual IIdentity Identity => m_identity; public virtual bool IsInRole(string role) { if (role == null || m_roles == null) return false; for (int i = 0; i < m_roles.Length; ++i) { if (m_roles[i] != null && string.Compare(m_roles[i], role, StringComparison.OrdinalIgnoreCase) == 0) return true; } return false; } } }