143 lines
4.9 KiB
D
143 lines
4.9 KiB
D
module eventcore.socket;
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import eventcore.core : eventDriver;
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import eventcore.driver;
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import core.time: Duration;
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import std.exception : enforce;
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import std.socket : Address;
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StreamSocket connectStream(alias callback)(scope Address peer_address)
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@safe {
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void cb(StreamSocketFD fd, ConnectStatus status) @safe nothrow {
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if (fd != StreamSocketFD.invalid) eventDriver.sockets.addRef(fd);
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callback(StreamSocket(fd), status);
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if (fd != StreamSocketFD.invalid) eventDriver.sockets.releaseRef(fd);
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}
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auto fd = eventDriver.sockets.connectStream(peer_address, null, &cb);
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enforce(fd != StreamSocketFD.invalid, "Failed to create socket.");
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eventDriver.sockets.addRef(fd);
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return StreamSocket(fd);
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}
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StreamListenSocket listenStream(scope Address bind_address)
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@safe {
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auto fd = eventDriver.sockets.listenStream(bind_address, null);
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enforce(fd != StreamListenSocketFD.invalid, "Failed to create socket.");
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return StreamListenSocket(fd);
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}
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DatagramSocket createDatagramSocket(scope Address bind_address, scope Address target_address = null)
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@safe {
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auto fd = eventDriver.sockets.createDatagramSocket(bind_address, target_address);
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enforce(fd != DatagramSocketFD.invalid, "Failed to create socket.");
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return DatagramSocket(fd);
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}
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struct StreamSocket {
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@safe: nothrow:
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private StreamSocketFD m_fd;
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private this(StreamSocketFD fd)
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{
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m_fd = fd;
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}
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this(this) { if (m_fd != StreamSocketFD.invalid) eventDriver.sockets.addRef(m_fd); }
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~this() { if (m_fd != StreamSocketFD.invalid) eventDriver.sockets.releaseRef(m_fd); }
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@property ConnectionState state() { return eventDriver.sockets.getConnectionState(m_fd); }
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@property void tcpNoDelay(bool enable) { eventDriver.sockets.setTCPNoDelay(m_fd, enable); }
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void setKeepAlive(bool enable) { eventDriver.sockets.setKeepAlive(m_fd, enable); }
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void setKeepAliveParams(Duration idle, Duration interval, int probeCount = 5) {
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eventDriver.sockets.setKeepAliveParams(m_fd, idle, interval, probeCount);
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}
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void setUserTimeout(Duration timeout) { eventDriver.sockets.setUserTimeout(m_fd, timeout); }
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}
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void read(alias callback)(ref StreamSocket socket, ubyte[] buffer, IOMode mode)
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{
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void cb(StreamSocketFD, IOStatus status, size_t nbytes) @safe nothrow {
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callback(status, nbytes);
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}
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eventDriver.sockets.read(socket.m_fd, buffer, mode, &cb);
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}
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void cancelRead(ref StreamSocket socket) @safe nothrow { eventDriver.sockets.cancelRead(socket.m_fd); }
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void waitForData(alias callback)(ref StreamSocket socket)
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{
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void cb(StreamSocketFD, IOStatus status, size_t nbytes) @safe nothrow {
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callback(status, nbytes);
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}
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eventDriver.sockets.waitForData(socket.m_fd, &cb);
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}
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void write(alias callback)(ref StreamSocket socket, const(ubyte)[] buffer, IOMode mode)
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{
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void cb(StreamSocketFD, IOStatus status, size_t nbytes) @safe nothrow {
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callback(status, nbytes);
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}
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eventDriver.sockets.write(socket.m_fd, buffer, mode, &cb);
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}
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void cancelWrite(ref StreamSocket socket) @safe nothrow { eventDriver.sockets.cancelWrite(socket.m_fd); }
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void shutdown(ref StreamSocket socket, bool shut_read = true, bool shut_write = true)
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@safe nothrow {
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eventDriver.sockets.shutdown(socket.m_fd, shut_read, shut_write);
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}
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struct StreamListenSocket {
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@safe: nothrow:
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private StreamListenSocketFD m_fd;
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private this(StreamListenSocketFD fd)
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{
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m_fd = fd;
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}
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this(this) { if (m_fd != StreamListenSocketFD.invalid) eventDriver.sockets.addRef(m_fd); }
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~this() { if (m_fd != StreamListenSocketFD.invalid) eventDriver.sockets.releaseRef(m_fd); }
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}
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void waitForConnections(alias callback)(ref StreamListenSocket socket)
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{
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void cb(StreamListenSocketFD, StreamSocketFD sock, scope RefAddress addr) @safe nothrow {
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auto ss = StreamSocket(sock);
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callback(ss, addr);
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}
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eventDriver.sockets.waitForConnections(socket.m_fd, &cb);
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}
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struct DatagramSocket {
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@safe: nothrow:
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private DatagramSocketFD m_fd;
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private this(DatagramSocketFD fd)
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{
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m_fd = fd;
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}
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this(this) { if (m_fd != DatagramSocketFD.invalid) eventDriver.sockets.addRef(m_fd); }
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~this() { if (m_fd != DatagramSocketFD.invalid) eventDriver.sockets.releaseRef(m_fd); }
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@property void broadcast(bool enable) { eventDriver.sockets.setBroadcast(m_fd, enable); }
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}
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void receive(alias callback)(ref DatagramSocket socket, ubyte[] buffer, IOMode mode) {
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void cb(DatagramSocketFD fd, IOStatus status, size_t bytes_written, scope RefAddress address) @safe nothrow {
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callback(status, bytes_written, address);
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}
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eventDriver.sockets.receive(socket.m_fd, buffer, mode, &cb);
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}
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void cancelReceive(ref DatagramSocket socket) { eventDriver.sockets.cancelReceive(socket.m_fd); }
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void send(alias callback)(ref DatagramSocket socket, const(ubyte)[] buffer, IOMode mode, Address target_address = null) {
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void cb(DatagramSocketFD fd, IOStatus status, size_t bytes_written, scope RefAddress) @safe nothrow {
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callback(status, bytes_written);
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}
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eventDriver.sockets.send(socket.m_fd, buffer, mode, target_address, &cb);
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}
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void cancelSend(ref DatagramSocket socket) { eventDriver.sockets.cancelSend(socket.m_fd); }
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