secure method
Takes an already connected socket
and starts client side TLS
handshake to make the communication secure. When the returned
future completes the SecureSocket has completed the TLS
handshake. Using this function requires that the other end of the
connection is prepared for TLS handshake.
If the socket
already has a subscription, this subscription
will no longer receive and events. In most cases calling
pause
on this subscription before starting TLS handshake is
the right thing to do.
The given socket
is closed and may not be used anymore.
If the host
argument is passed it will be used as the host name
for the TLS handshake. If host
is not passed the host name from
the socket
will be used. The host
can be either a String or
an InternetAddress.
supportedProtocols
is an optional list of protocols (in decreasing
order of preference) to use during the ALPN protocol negotiation with the
server. Example values are "http/1.1" or "h2". The selected protocol
can be obtained via SecureSocket.selectedProtocol.
Calling this function will not cause a DNS host lookup. If the
host
passed is a String the InternetAddress for the
resulting SecureSocket will have the passed in host
as its
host value and the internet address of the already connected
socket as its address value.
See connect for more information on the arguments.
Implementation
static Future<SecureSocket> secure(Socket socket,
{host,
SecurityContext context,
bool onBadCertificate(X509Certificate certificate),
@Since("2.6") List<String> supportedProtocols}) {
return ((socket as dynamic /*_Socket*/)._detachRaw() as Future)
.then<RawSecureSocket>((detachedRaw) {
return RawSecureSocket.secure(detachedRaw[0] as RawSocket,
subscription: detachedRaw[1] as StreamSubscription<RawSocketEvent>,
host: host,
context: context,
onBadCertificate: onBadCertificate,
supportedProtocols: supportedProtocols);
}).then<SecureSocket>((raw) => new SecureSocket._(raw));
}