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openssl/demos/guide/quic-client-non-block.c

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/*
* Copyright 2023-2025 The OpenSSL Project Authors. All Rights Reserved.
*
* Licensed under the Apache License 2.0 (the "License"). You may not use
* this file except in compliance with the License. You can obtain a copy
* in the file LICENSE in the source distribution or at
* https://www.openssl.org/source/license.html
*/
/*
* NB: Changes to this file should also be reflected in
* doc/man7/ossl-guide-quic-client-non-block.pod
*/
#include <string.h>
/* Include the appropriate header file for SOCK_DGRAM */
#ifdef _WIN32 /* Windows */
# include <winsock2.h>
#else /* Linux/Unix */
# include <sys/socket.h>
# include <sys/select.h>
#endif
#include <openssl/bio.h>
#include <openssl/ssl.h>
#include <openssl/err.h>
/* Helper function to create a BIO connected to the server */
static BIO *create_socket_bio(const char *hostname, const char *port,
int family, BIO_ADDR **peer_addr)
{
int sock = -1;
BIO_ADDRINFO *res;
const BIO_ADDRINFO *ai = NULL;
BIO *bio;
/*
* Lookup IP address info for the server.
*/
if (!BIO_lookup_ex(hostname, port, BIO_LOOKUP_CLIENT, family, SOCK_DGRAM, 0,
&res))
return NULL;
/*
* Loop through all the possible addresses for the server and find one
* we can connect to.
*/
for (ai = res; ai != NULL; ai = BIO_ADDRINFO_next(ai)) {
/*
* Create a UDP socket. We could equally use non-OpenSSL calls such
* as "socket" here for this and the subsequent connect and close
* functions. But for portability reasons and also so that we get
* errors on the OpenSSL stack in the event of a failure we use
* OpenSSL's versions of these functions.
*/
sock = BIO_socket(BIO_ADDRINFO_family(ai), SOCK_DGRAM, 0, 0);
if (sock == -1)
continue;
/* Connect the socket to the server's address */
if (!BIO_connect(sock, BIO_ADDRINFO_address(ai), 0)) {
BIO_closesocket(sock);
sock = -1;
continue;
}
/* Set to nonblocking mode */
if (!BIO_socket_nbio(sock, 1)) {
BIO_closesocket(sock);
sock = -1;
continue;
}
break;
}
if (sock != -1) {
*peer_addr = BIO_ADDR_dup(BIO_ADDRINFO_address(ai));
if (*peer_addr == NULL) {
BIO_closesocket(sock);
return NULL;
}
}
/* Free the address information resources we allocated earlier */
BIO_ADDRINFO_free(res);
/* If sock is -1 then we've been unable to connect to the server */
if (sock == -1)
return NULL;
/* Create a BIO to wrap the socket */
bio = BIO_new(BIO_s_datagram());
if (bio == NULL) {
BIO_closesocket(sock);
return NULL;
}
/*
* Associate the newly created BIO with the underlying socket. By
* passing BIO_CLOSE here the socket will be automatically closed when
* the BIO is freed. Alternatively you can use BIO_NOCLOSE, in which
* case you must close the socket explicitly when it is no longer
* needed.
*/
BIO_set_fd(bio, sock, BIO_CLOSE);
return bio;
}
static void wait_for_activity(SSL *ssl)
{
fd_set wfds, rfds;
int width, sock, isinfinite;
struct timeval tv;
struct timeval *tvp = NULL;
/* Get hold of the underlying file descriptor for the socket */
sock = SSL_get_fd(ssl);
FD_ZERO(&wfds);
FD_ZERO(&rfds);
/*
* Find out if we would like to write to the socket, or read from it (or
* both)
*/
if (SSL_net_write_desired(ssl))
FD_SET(sock, &wfds);
if (SSL_net_read_desired(ssl))
FD_SET(sock, &rfds);
width = sock + 1;
/*
* Find out when OpenSSL would next like to be called, regardless of
* whether the state of the underlying socket has changed or not.
*/
if (SSL_get_event_timeout(ssl, &tv, &isinfinite) && !isinfinite)
tvp = &tv;
/*
* Wait until the socket is writeable or readable. We use select here
* for the sake of simplicity and portability, but you could equally use
* poll/epoll or similar functions
*
* NOTE: For the purposes of this demonstration code this effectively
* makes this demo block until it has something more useful to do. In a
* real application you probably want to go and do other work here (e.g.
* update a GUI, or service other connections).
*
* Let's say for example that you want to update the progress counter on
* a GUI every 100ms. One way to do that would be to use the timeout in
* the last parameter to "select" below. If the tvp value is greater
* than 100ms then use 100ms instead. Then, when select returns, you
* check if it did so because of activity on the file descriptors or
* because of the timeout. If the 100ms GUI timeout has expired but the
* tvp timeout has not then go and update the GUI and then restart the
* "select" (with updated timeouts).
*/
select(width, &rfds, &wfds, NULL, tvp);
}
static int handle_io_failure(SSL *ssl, int res)
{
switch (SSL_get_error(ssl, res)) {
case SSL_ERROR_WANT_READ:
case SSL_ERROR_WANT_WRITE:
/* Temporary failure. Wait until we can read/write and try again */
wait_for_activity(ssl);
return 1;
case SSL_ERROR_ZERO_RETURN:
/* EOF */
return 0;
case SSL_ERROR_SYSCALL:
return -1;
case SSL_ERROR_SSL:
/*
* Some stream fatal error occurred. This could be because of a
* stream reset - or some failure occurred on the underlying
* connection.
*/
switch (SSL_get_stream_read_state(ssl)) {
case SSL_STREAM_STATE_RESET_REMOTE:
printf("Stream reset occurred\n");
/*
* The stream has been reset but the connection is still
* healthy.
*/
break;
case SSL_STREAM_STATE_CONN_CLOSED:
printf("Connection closed\n");
/* Connection is already closed. */
break;
default:
printf("Unknown stream failure\n");
break;
}
/*
* If the failure is due to a verification error we can get more
* information about it from SSL_get_verify_result().
*/
if (SSL_get_verify_result(ssl) != X509_V_OK)
printf("Verify error: %s\n",
X509_verify_cert_error_string(SSL_get_verify_result(ssl)));
return -1;
default:
return -1;
}
}
/*
* Simple application to send a basic HTTP/1.0 request to a server and
* print the response on the screen. Note that HTTP/1.0 over QUIC is
* non-standard and will not typically be supported by real world servers. This
* is for demonstration purposes only.
*/
int main(int argc, char *argv[])
{
SSL_CTX *ctx = NULL;
SSL *ssl = NULL;
BIO *bio = NULL;
int res = EXIT_FAILURE;
int ret;
unsigned char alpn[] = { 8, 'h', 't', 't', 'p', '/', '1', '.', '0' };
const char *request_start = "GET / HTTP/1.0\r\nConnection: close\r\nHost: ";
const char *request_end = "\r\n\r\n";
size_t written, readbytes = 0;
char buf[160];
BIO_ADDR *peer_addr = NULL;
int eof = 0;
char *hostname, *port;
int ipv6 = 0;
int argnext = 1;
if (argc < 3) {
printf("Usage: quic-client-non-block [-6] hostname port\n");
goto end;
}
if (!strcmp(argv[argnext], "-6")) {
if (argc < 4) {
printf("Usage: quic-client-non-block [-6] hostname port\n");
goto end;
}
ipv6 = 1;
argnext++;
}
hostname = argv[argnext++];
port = argv[argnext];
/*
* Create an SSL_CTX which we can use to create SSL objects from. We
* want an SSL_CTX for creating clients so we use
* OSSL_QUIC_client_method() here.
*/
ctx = SSL_CTX_new(OSSL_QUIC_client_method());
if (ctx == NULL) {
printf("Failed to create the SSL_CTX\n");
goto end;
}
/*
* Configure the client to abort the handshake if certificate
* verification fails. Virtually all clients should do this unless you
* really know what you are doing.
*/
SSL_CTX_set_verify(ctx, SSL_VERIFY_PEER, NULL);
/* Use the default trusted certificate store */
if (!SSL_CTX_set_default_verify_paths(ctx)) {
printf("Failed to set the default trusted certificate store\n");
goto end;
}
/* Create an SSL object to represent the TLS connection */
ssl = SSL_new(ctx);
if (ssl == NULL) {
printf("Failed to create the SSL object\n");
goto end;
}
/*
* Create the underlying transport socket/BIO and associate it with the
* connection.
*/
bio = create_socket_bio(hostname, port, ipv6 ? AF_INET6 : AF_INET,
&peer_addr);
if (bio == NULL) {
printf("Failed to crete the BIO\n");
goto end;
}
SSL_set_bio(ssl, bio, bio);
/*
* Tell the server during the handshake which hostname we are attempting
* to connect to in case the server supports multiple hosts.
*/
if (!SSL_set_tlsext_host_name(ssl, hostname)) {
printf("Failed to set the SNI hostname\n");
goto end;
}
/*
* Ensure we check during certificate verification that the server has
* supplied a certificate for the hostname that we were expecting.
* Virtually all clients should do this unless you really know what you
* are doing.
*/
if (!SSL_set1_host(ssl, hostname)) {
printf("Failed to set the certificate verification hostname");
goto end;
}
/* SSL_set_alpn_protos returns 0 for success! */
if (SSL_set_alpn_protos(ssl, alpn, sizeof(alpn)) != 0) {
printf("Failed to set the ALPN for the connection\n");
goto end;
}
/* Set the IP address of the remote peer */
if (!SSL_set1_initial_peer_addr(ssl, peer_addr)) {
printf("Failed to set the initial peer address\n");
goto end;
}
/*
* The underlying socket is always nonblocking with QUIC, but the default
* behaviour of the SSL object is still to block. We set it for nonblocking
* mode in this demo.
*/
if (!SSL_set_blocking_mode(ssl, 0)) {
printf("Failed to turn off blocking mode\n");
goto end;
}
/* Do the handshake with the server */
while ((ret = SSL_connect(ssl)) != 1) {
if (handle_io_failure(ssl, ret) == 1)
continue; /* Retry */
printf("Failed to connect to server\n");
goto end; /* Cannot retry: error */
}
/* Write an HTTP GET request to the peer */
while (!SSL_write_ex(ssl, request_start, strlen(request_start), &written)) {
if (handle_io_failure(ssl, 0) == 1)
continue; /* Retry */
printf("Failed to write start of HTTP request\n");
goto end; /* Cannot retry: error */
}
while (!SSL_write_ex(ssl, hostname, strlen(hostname), &written)) {
if (handle_io_failure(ssl, 0) == 1)
continue; /* Retry */
printf("Failed to write hostname in HTTP request\n");
goto end; /* Cannot retry: error */
}
while (!SSL_write_ex2(ssl, request_end, strlen(request_end),
SSL_WRITE_FLAG_CONCLUDE, &written)) {
if (handle_io_failure(ssl, 0) == 1)
continue; /* Retry */
printf("Failed to write end of HTTP request\n");
goto end; /* Cannot retry: error */
}
do {
/*
* Get up to sizeof(buf) bytes of the response. We keep reading until
* the server closes the connection.
*/
while (!eof && !SSL_read_ex(ssl, buf, sizeof(buf), &readbytes)) {
switch (handle_io_failure(ssl, 0)) {
case 1:
continue; /* Retry */
case 0:
eof = 1;
continue;
case -1:
default:
printf("Failed reading remaining data\n");
goto end; /* Cannot retry: error */
}
}
/*
* OpenSSL does not guarantee that the returned data is a string or
* that it is NUL terminated so we use fwrite() to write the exact
* number of bytes that we read. The data could be non-printable or
* have NUL characters in the middle of it. For this simple example
* we're going to print it to stdout anyway.
*/
if (!eof)
fwrite(buf, 1, readbytes, stdout);
} while (!eof);
/* In case the response didn't finish with a newline we add one now */
printf("\n");
/*
* Repeatedly call SSL_shutdown() until the connection is fully
* closed.
*/
while ((ret = SSL_shutdown(ssl)) != 1) {
if (ret < 0 && handle_io_failure(ssl, ret) == 1)
continue; /* Retry */
}
/* Success! */
res = EXIT_SUCCESS;
end:
/*
* If something bad happened then we will dump the contents of the
* OpenSSL error stack to stderr. There might be some useful diagnostic
* information there.
*/
if (res == EXIT_FAILURE)
ERR_print_errors_fp(stderr);
/*
* Free the resources we allocated. We do not free the BIO object here
* because ownership of it was immediately transferred to the SSL object
* via SSL_set_bio(). The BIO will be freed when we free the SSL object.
*/
SSL_free(ssl);
SSL_CTX_free(ctx);
BIO_ADDR_free(peer_addr);
return res;
}
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