C++ (Cpp) SHIFT_BYTE_ARRAY_TO_LEFT Beispiele

Beispiel #1

Datei: server.c Projekt: leecade/shadowsocks-libuv

static void client_handshake_read_cb(uv_stream_t* stream, ssize_t nread, uv_buf_t buf)
{
	int n;
	server_ctx *ctx = (server_ctx *)stream->data;

	if (nread < 0) {
		if (buf.len) // If buf is set, we need to free it
			free(buf.base);
		HANDLE_CLOSE((uv_handle_t*)stream, handshake_client_close_cb); // Then close the connection
		return;
	} else if (!nread) {
		free(buf.base);
		return;
	}

	memcpy(ctx->handshake_buffer + ctx->buffer_len, buf.base, buf.len);
	shadow_decrypt(ctx->handshake_buffer + ctx->buffer_len, decrypt_table, buf.len);

	ctx->buffer_len += nread;

	if (!ctx->handshake_buffer) {
		FATAL("Should no call this anmore");
	}
	free(buf.base);

	if (!ctx->remote_ip) {
		if (ctx->buffer_len < 2) // Not interpretable
			return;
		uint8_t addrtype = ctx->handshake_buffer[0];
		if (addrtype == ADDRTYPE_IPV4) {
			if (ctx->buffer_len < 5)
				return;
			ctx->remote_ip = *((uint32_t *)(ctx->handshake_buffer + 1));
			SHIFT_BYTE_ARRAY_TO_LEFT(ctx->handshake_buffer, 5, HANDSHAKE_BUFFER_SIZE);
			ctx->buffer_len -= 5;
			// TODO: Print out
		} else if (addrtype == ADDRTYPE_DOMAIN) {
			uint8_t domain_len = ctx->handshake_buffer[1];
			if (!domain_len) { // Domain length is zero
				LOGE("Domain length is zero");
				HANDLE_CLOSE((uv_handle_t*)stream, handshake_client_close_cb);
				return;
			}
			if (ctx->buffer_len < domain_len + 2)
				return;
			char domain[domain_len+1];
			domain[domain_len] = 0;
			memcpy(domain, ctx->handshake_buffer+2, domain_len);
			struct addrinfo hints;
    		hints.ai_family = AF_INET; // IPv4 Only
    		hints.ai_socktype = SOCK_STREAM;
    		hints.ai_protocol = IPPROTO_TCP;
    		hints.ai_flags = 0;
			uv_getaddrinfo_t *resolver = (uv_getaddrinfo_t *)malloc(sizeof(uv_getaddrinfo_t));
			if (!resolver) {
				HANDLE_CLOSE((uv_handle_t*)stream, handshake_client_close_cb);
				FATAL("malloc() failed!");
			}
			resolver->data = ctx; // We need to locate back the stream
			LOGI("Domain is: %s", domain);
			n = uv_getaddrinfo(stream->loop, resolver, client_handshake_domain_resolved, domain, NULL, &hints);
			if (n) {
				SHOW_UV_ERROR(stream->loop);
				HANDLE_CLOSE((uv_handle_t*)stream, handshake_client_close_cb);
				free(resolver);
				return;
			}
			SHIFT_BYTE_ARRAY_TO_LEFT(ctx->handshake_buffer, 2+domain_len, HANDSHAKE_BUFFER_SIZE);
			ctx->buffer_len -= 2 + domain_len;
			uv_read_stop(stream); // Pause the reading process, wait for resolve result
			return;
		} else { // Unsupported addrtype
			LOGI("addrtype unknown, closing");
			HANDLE_CLOSE((uv_handle_t*)stream, handshake_client_close_cb);
			return;
		}
	} // !ctx->remote_ip

	if (!ctx->remote_port) {
		if (ctx->buffer_len < 2) // Not interpretable
			return;
		ctx->remote_port = *((uint16_t *)ctx->handshake_buffer);
		if (!ctx->remote_port) {
			LOGE("Remote port is zero");
			HANDLE_CLOSE((uv_handle_t*)stream, handshake_client_close_cb);
			return;
		}
		SHIFT_BYTE_ARRAY_TO_LEFT(ctx->handshake_buffer, 2, HANDSHAKE_BUFFER_SIZE);
		ctx->buffer_len -= 2;
		// Try connect now
		n = uv_tcp_init(stream->loop, &ctx->remote);
		if (n)
			SHOW_UV_ERROR_AND_EXIT(stream->loop);
		uv_connect_t *req = (uv_connect_t *)malloc(sizeof(uv_connect_t));
		if (!req) {
			HANDLE_CLOSE((uv_handle_t*)stream, handshake_client_close_cb);
			FATAL("malloc() failed!");
		}
		req->data = ctx;
		struct sockaddr_in remote_addr;
		memset(&remote_addr, 0, sizeof(remote_addr));
		remote_addr.sin_family = AF_INET;
		remote_addr.sin_addr.s_addr = ctx->remote_ip;
		remote_addr.sin_port = ctx->remote_port;
		n = uv_tcp_connect(req, &ctx->remote, remote_addr, connect_to_remote_cb);
		if (n) {
			SHOW_UV_ERROR(stream->loop);
			HANDLE_CLOSE((uv_handle_t*)stream, handshake_client_close_cb);
			free(req);
			return;
		}
		uv_read_stop(stream); // We are done handshake
	}
}

Beispiel #2

Datei: server.c Projekt: sqbing/shadowsocks-libuv

static int do_handshake(uv_stream_t *stream)
{
	server_ctx *ctx = (server_ctx *)stream->data;
	int n;

	if (!ctx->remote_ip_type) {
		if (ctx->buffer_len < 2) // Not interpretable
			return 1;
		uint8_t addrtype = ctx->handshake_buffer[0];
		if (addrtype == ADDRTYPE_IPV4) {
			if (ctx->buffer_len < 5)
				return 1;
			memcpy(ctx->remote_ip, ctx->handshake_buffer + 1, 4);
			ctx->remote_ip_type = ADDRTYPE_IPV4;
			SHIFT_BYTE_ARRAY_TO_LEFT(ctx->handshake_buffer, 5, HANDSHAKE_BUFFER_SIZE);
			ctx->buffer_len -= 5;
			// TODO: Print out
		} else if (addrtype == ADDRTYPE_DOMAIN) {
			uint8_t domain_len = ctx->handshake_buffer[1];
			if (!domain_len) { // Domain length is zero
				LOGE("Domain length is zero");
				uv_close((uv_handle_t*)stream, handshake_client_close_cb);
				return -1;
			}
			if (ctx->buffer_len < domain_len + 2)
				return 1;
			char domain[domain_len+1];
			domain[domain_len] = 0;
			memcpy(domain, ctx->handshake_buffer+2, domain_len);

			uv_getaddrinfo_t *resolver = (uv_getaddrinfo_t *)malloc(sizeof(uv_getaddrinfo_t));
			if (!resolver) {
				uv_close((uv_handle_t*)stream, handshake_client_close_cb);
				FATAL("malloc() failed!");
			}
			resolver->data = ctx; // We need to locate back the stream
			LOGI("Domain is: %s", domain);
			n = uv_getaddrinfo(stream->loop, resolver, client_handshake_domain_resolved, domain, NULL, NULL);
			if (n) {
				SHOW_UV_ERROR(stream->loop);
				uv_close((uv_handle_t*)stream, handshake_client_close_cb);
				free(resolver);
				return -1;
			}
			SHIFT_BYTE_ARRAY_TO_LEFT(ctx->handshake_buffer, 2+domain_len, HANDSHAKE_BUFFER_SIZE);
			ctx->buffer_len -= 2 + domain_len;
			uv_read_stop(stream); // Pause the reading process, wait for resolve result
			return 1;
		} else { // Unsupported addrtype
			LOGI("addrtype unknown, closing");
			uv_close((uv_handle_t*)stream, handshake_client_close_cb);
			return -1;
		}
	} // !ctx->remote_ip

	if (!ctx->remote_port) {
		if (ctx->buffer_len < 2) // Not interpretable
			return 1;
		ctx->remote_port = *((uint16_t *)ctx->handshake_buffer);
		if (!ctx->remote_port) {
			LOGE("Remote port is zero");
			uv_close((uv_handle_t*)stream, handshake_client_close_cb);
			return -1;
		}
		SHIFT_BYTE_ARRAY_TO_LEFT(ctx->handshake_buffer, 2, HANDSHAKE_BUFFER_SIZE);
		ctx->buffer_len -= 2;
		// Try connect now
		n = uv_tcp_init(stream->loop, &ctx->remote);
		if (n)
			SHOW_UV_ERROR_AND_EXIT(stream->loop);
		uv_connect_t *req = (uv_connect_t *)malloc(sizeof(uv_connect_t));
		if (!req) {
			uv_close((uv_handle_t*)stream, handshake_client_close_cb);
			FATAL("malloc() failed!");
		}
		req->data = ctx;

		if (ctx->remote_ip_type == ADDRTYPE_IPV4) {
			struct sockaddr_in remote;
			memset(&remote, 0, sizeof(remote));
			remote.sin_family = AF_INET;
			memcpy(&remote.sin_addr.s_addr, ctx->remote_ip, 4);
			remote.sin_port = ctx->remote_port;

			n = uv_tcp_connect(req, &ctx->remote, remote, connect_to_remote_cb);
		} else if (ctx->remote_ip_type == ADDRTYPE_IPV6) {
			struct sockaddr_in6 remote;
			memset(&remote, 0, sizeof(remote));
			remote.sin6_family = AF_INET6;
			memcpy(&remote.sin6_addr.s6_addr, ctx->remote_ip, 16);
			remote.sin6_port = ctx->remote_port;

			n = uv_tcp_connect6(req, &ctx->remote, remote, connect_to_remote_cb);
		} else {
			FATAL("addrtype unknown!");
		}

		if (n) {
			SHOW_UV_ERROR(stream->loop);
			uv_close((uv_handle_t*)stream, handshake_client_close_cb);
			free(req);
			return -1;
		}
	}

	uv_read_stop(stream);
	return 0;
}