PJ_END_DECL
/* Get Symbian phone model info, returning length of model info */
unsigned pj_symbianos_get_model_info(char *buf, unsigned buf_size)
{
pj_str_t model_name;
/* Get machine UID */
TInt hal_val;
HAL::Get(HAL::EMachineUid, hal_val);
pj_ansi_snprintf(buf, buf_size, "0x%08X", hal_val);
pj_strset2(&model_name, buf);
/* Get model name */
const pj_str_t st_copyright = {"(C)", 3};
const pj_str_t st_nokia = {"Nokia", 5};
char tmp_buf[64];
pj_str_t tmp_str;
_LIT(KModelFilename,"Z:\\resource\\versions\\model.txt");
RFile file;
RFs fs;
TInt err;
fs.Connect(1);
err = file.Open(fs, KModelFilename, EFileRead);
if (err == KErrNone) {
TFileText text;
text.Set(file);
TBuf16<64> ModelName16;
err = text.Read(ModelName16);
if (err == KErrNone) {
TPtr8 ptr8((TUint8*)tmp_buf, sizeof(tmp_buf));
ptr8.Copy(ModelName16);
pj_strset(&tmp_str, tmp_buf, ptr8.Length());
pj_strtrim(&tmp_str);
}
file.Close();
}
fs.Close();
if (err != KErrNone)
goto on_return;
/* The retrieved model name is usually in long format, e.g:
* "© Nokia N95 (01.01)", "(C) Nokia E52". As we need only
* the short version, let's clean it up.
*/
/* Remove preceding non-ASCII chars, e.g: "©" */
char *p = tmp_str.ptr;
while (!pj_isascii(*p)) { p++; }
pj_strset(&tmp_str, p, tmp_str.slen - (p - tmp_str.ptr));
/* Remove "(C)" */
p = pj_stristr(&tmp_str, &st_copyright);
if (p) {
p += st_copyright.slen;
pj_strset(&tmp_str, p, tmp_str.slen - (p - tmp_str.ptr));
}
/* Remove "Nokia" */
p = pj_stristr(&tmp_str, &st_nokia);
if (p) {
p += st_nokia.slen;
pj_strset(&tmp_str, p, tmp_str.slen - (p - tmp_str.ptr));
}
/* Remove language version, e.g: "(01.01)" */
p = pj_strchr(&tmp_str, '(');
if (p) {
tmp_str.slen = p - tmp_str.ptr;
}
pj_strtrim(&tmp_str);
if (tmp_str.slen == 0)
goto on_return;
if ((unsigned)tmp_str.slen > buf_size - model_name.slen - 3)
tmp_str.slen = buf_size - model_name.slen - 3;
pj_strcat2(&model_name, "(");
pj_strcat(&model_name, &tmp_str);
pj_strcat2(&model_name, ")");
/* Zero terminate */
buf[model_name.slen] = '\0';
on_return:
return model_name.slen;
}
/* SSL socket try to connect to raw TCP socket server, once
* connection established, SSL socket will try to perform SSL
* handshake. SSL client socket should be able to close the
* connection after specified timeout period (set ms_timeout to
* 0 to disable timer).
*/
static int server_non_ssl(unsigned ms_timeout)
{
pj_pool_t *pool = NULL;
pj_ioqueue_t *ioqueue = NULL;
pj_timer_heap_t *timer = NULL;
pj_activesock_t *asock_serv = NULL;
pj_ssl_sock_t *ssock_cli = NULL;
pj_activesock_cb asock_cb = { 0 };
pj_sock_t sock = PJ_INVALID_SOCKET;
pj_ssl_sock_param param;
struct test_state state_serv = { 0 };
struct test_state state_cli = { 0 };
pj_sockaddr addr, listen_addr;
pj_status_t status;
pool = pj_pool_create(mem, "ssl_connect_raw_tcp", 256, 256, NULL);
status = pj_ioqueue_create(pool, 4, &ioqueue);
if (status != PJ_SUCCESS) {
goto on_return;
}
status = pj_timer_heap_create(pool, 4, &timer);
if (status != PJ_SUCCESS) {
goto on_return;
}
/* SERVER */
state_serv.pool = pool;
state_serv.ioqueue = ioqueue;
status = pj_sock_socket(pj_AF_INET(), pj_SOCK_STREAM(), 0, &sock);
if (status != PJ_SUCCESS) {
goto on_return;
}
/* Init bind address */
{
pj_str_t tmp_st;
pj_sockaddr_init(PJ_AF_INET, &listen_addr, pj_strset2(&tmp_st, "127.0.0.1"), 0);
}
status = pj_sock_bind(sock, (pj_sockaddr_t*)&listen_addr,
pj_sockaddr_get_len((pj_sockaddr_t*)&listen_addr));
if (status != PJ_SUCCESS) {
goto on_return;
}
status = pj_sock_listen(sock, PJ_SOMAXCONN);
if (status != PJ_SUCCESS) {
goto on_return;
}
asock_cb.on_accept_complete = &asock_on_accept_complete;
status = pj_activesock_create(pool, sock, pj_SOCK_STREAM(), NULL,
ioqueue, &asock_cb, &state_serv, &asock_serv);
if (status != PJ_SUCCESS) {
goto on_return;
}
status = pj_activesock_start_accept(asock_serv, pool);
if (status != PJ_SUCCESS)
goto on_return;
/* Update listener address */
{
int addr_len;
addr_len = sizeof(listen_addr);
pj_sock_getsockname(sock, (pj_sockaddr_t*)&listen_addr, &addr_len);
}
/* CLIENT */
pj_ssl_sock_param_default(¶m);
param.cb.on_connect_complete = &ssl_on_connect_complete;
param.cb.on_data_read = &ssl_on_data_read;
param.cb.on_data_sent = &ssl_on_data_sent;
param.ioqueue = ioqueue;
param.timer_heap = timer;
param.timeout.sec = 0;
param.timeout.msec = ms_timeout;
pj_time_val_normalize(¶m.timeout);
param.user_data = &state_cli;
state_cli.pool = pool;
state_cli.is_server = PJ_FALSE;
state_cli.is_verbose = PJ_TRUE;
status = pj_ssl_sock_create(pool, ¶m, &ssock_cli);
if (status != PJ_SUCCESS) {
goto on_return;
}
/* Init default bind address */
{
pj_str_t tmp_st;
pj_sockaddr_init(PJ_AF_INET, &addr, pj_strset2(&tmp_st, "127.0.0.1"), 0);
}
status = pj_ssl_sock_start_connect(ssock_cli, pool,
(pj_sockaddr_t*)&addr,
(pj_sockaddr_t*)&listen_addr,
pj_sockaddr_get_len(&listen_addr));
if (status != PJ_EPENDING) {
goto on_return;
}
/* Wait until everything has been sent/received or error */
while ((!state_serv.err && !state_serv.done) || (!state_cli.err && !state_cli.done))
{
#ifdef PJ_SYMBIAN
pj_symbianos_poll(-1, 1000);
#else
pj_time_val delay = {0, 100};
pj_ioqueue_poll(ioqueue, &delay);
pj_timer_heap_poll(timer, &delay);
#endif
}
if (state_serv.err || state_cli.err) {
if (state_cli.err != PJ_SUCCESS)
status = state_cli.err;
else
status = state_serv.err;
goto on_return;
}
PJ_LOG(3, ("", "...Done!"));
on_return:
if (asock_serv)
pj_activesock_close(asock_serv);
if (ssock_cli && !state_cli.err && !state_cli.done)
pj_ssl_sock_close(ssock_cli);
if (timer)
pj_timer_heap_destroy(timer);
if (ioqueue)
pj_ioqueue_destroy(ioqueue);
if (pool)
pj_pool_release(pool);
return status;
}
/* Raw TCP socket try to connect to SSL socket server, once
* connection established, it will just do nothing, SSL socket
* server should be able to close the connection after specified
* timeout period (set ms_timeout to 0 to disable timer).
*/
static int client_non_ssl(unsigned ms_timeout)
{
pj_pool_t *pool = NULL;
pj_ioqueue_t *ioqueue = NULL;
pj_timer_heap_t *timer = NULL;
pj_ssl_sock_t *ssock_serv = NULL;
pj_activesock_t *asock_cli = NULL;
pj_activesock_cb asock_cb = { 0 };
pj_sock_t sock = PJ_INVALID_SOCKET;
pj_ssl_sock_param param;
struct test_state state_serv = { 0 };
struct test_state state_cli = { 0 };
pj_sockaddr listen_addr;
pj_ssl_cert_t *cert = NULL;
pj_status_t status;
pool = pj_pool_create(mem, "ssl_accept_raw_tcp", 256, 256, NULL);
status = pj_ioqueue_create(pool, 4, &ioqueue);
if (status != PJ_SUCCESS) {
goto on_return;
}
status = pj_timer_heap_create(pool, 4, &timer);
if (status != PJ_SUCCESS) {
goto on_return;
}
/* Set cert */
{
pj_str_t tmp1, tmp2, tmp3, tmp4;
status = pj_ssl_cert_load_from_files(pool,
pj_strset2(&tmp1, (char*)CERT_CA_FILE),
pj_strset2(&tmp2, (char*)CERT_FILE),
pj_strset2(&tmp3, (char*)CERT_PRIVKEY_FILE),
pj_strset2(&tmp4, (char*)CERT_PRIVKEY_PASS),
&cert);
if (status != PJ_SUCCESS) {
goto on_return;
}
}
pj_ssl_sock_param_default(¶m);
param.cb.on_accept_complete = &ssl_on_accept_complete;
param.cb.on_data_read = &ssl_on_data_read;
param.cb.on_data_sent = &ssl_on_data_sent;
param.ioqueue = ioqueue;
param.timer_heap = timer;
param.timeout.sec = 0;
param.timeout.msec = ms_timeout;
pj_time_val_normalize(¶m.timeout);
/* SERVER */
param.user_data = &state_serv;
state_serv.pool = pool;
state_serv.is_server = PJ_TRUE;
state_serv.is_verbose = PJ_TRUE;
status = pj_ssl_sock_create(pool, ¶m, &ssock_serv);
if (status != PJ_SUCCESS) {
goto on_return;
}
status = pj_ssl_sock_set_certificate(ssock_serv, pool, cert);
if (status != PJ_SUCCESS) {
goto on_return;
}
/* Init bind address */
{
pj_str_t tmp_st;
pj_sockaddr_init(PJ_AF_INET, &listen_addr, pj_strset2(&tmp_st, "127.0.0.1"), 0);
}
status = pj_ssl_sock_start_accept(ssock_serv, pool, &listen_addr, pj_sockaddr_get_len(&listen_addr));
if (status != PJ_SUCCESS) {
goto on_return;
}
/* Update listener address */
{
pj_ssl_sock_info info;
pj_ssl_sock_get_info(ssock_serv, &info);
pj_sockaddr_cp(&listen_addr, &info.local_addr);
}
/* CLIENT */
state_cli.pool = pool;
status = pj_sock_socket(pj_AF_INET(), pj_SOCK_STREAM(), 0, &sock);
if (status != PJ_SUCCESS) {
goto on_return;
}
asock_cb.on_connect_complete = &asock_on_connect_complete;
asock_cb.on_data_read = &asock_on_data_read;
status = pj_activesock_create(pool, sock, pj_SOCK_STREAM(), NULL,
ioqueue, &asock_cb, &state_cli, &asock_cli);
if (status != PJ_SUCCESS) {
goto on_return;
}
status = pj_activesock_start_connect(asock_cli, pool, (pj_sockaddr_t*)&listen_addr,
pj_sockaddr_get_len(&listen_addr));
if (status == PJ_SUCCESS) {
asock_on_connect_complete(asock_cli, PJ_SUCCESS);
} else if (status == PJ_EPENDING) {
status = PJ_SUCCESS;
} else {
goto on_return;
}
/* Wait until everything has been sent/received or error */
while (!state_serv.err && !state_cli.err && !state_serv.done && !state_cli.done)
{
#ifdef PJ_SYMBIAN
pj_symbianos_poll(-1, 1000);
#else
pj_time_val delay = {0, 100};
pj_ioqueue_poll(ioqueue, &delay);
pj_timer_heap_poll(timer, &delay);
#endif
}
if (state_serv.err || state_cli.err) {
if (state_serv.err != PJ_SUCCESS)
status = state_serv.err;
else
status = state_cli.err;
goto on_return;
}
PJ_LOG(3, ("", "...Done!"));
on_return:
if (ssock_serv)
pj_ssl_sock_close(ssock_serv);
if (asock_cli && !state_cli.err && !state_cli.done)
pj_activesock_close(asock_cli);
if (timer)
pj_timer_heap_destroy(timer);
if (ioqueue)
pj_ioqueue_destroy(ioqueue);
if (pool)
pj_pool_release(pool);
return status;
}
static int echo_test(pj_ssl_sock_proto srv_proto, pj_ssl_sock_proto cli_proto,
pj_ssl_cipher srv_cipher, pj_ssl_cipher cli_cipher,
pj_bool_t req_client_cert, pj_bool_t client_provide_cert)
{
pj_pool_t *pool = NULL;
pj_ioqueue_t *ioqueue = NULL;
pj_ssl_sock_t *ssock_serv = NULL;
pj_ssl_sock_t *ssock_cli = NULL;
pj_ssl_sock_param param;
struct test_state state_serv = { 0 };
struct test_state state_cli = { 0 };
pj_sockaddr addr, listen_addr;
pj_ssl_cipher ciphers[1];
pj_ssl_cert_t *cert = NULL;
pj_status_t status;
pool = pj_pool_create(mem, "ssl_echo", 256, 256, NULL);
status = pj_ioqueue_create(pool, 4, &ioqueue);
if (status != PJ_SUCCESS) {
goto on_return;
}
pj_ssl_sock_param_default(¶m);
param.cb.on_accept_complete = &ssl_on_accept_complete;
param.cb.on_connect_complete = &ssl_on_connect_complete;
param.cb.on_data_read = &ssl_on_data_read;
param.cb.on_data_sent = &ssl_on_data_sent;
param.ioqueue = ioqueue;
param.ciphers = ciphers;
/* Init default bind address */
{
pj_str_t tmp_st;
pj_sockaddr_init(PJ_AF_INET, &addr, pj_strset2(&tmp_st, "127.0.0.1"), 0);
}
/* === SERVER === */
param.proto = srv_proto;
param.user_data = &state_serv;
param.ciphers_num = (srv_cipher == -1)? 0 : 1;
param.require_client_cert = req_client_cert;
ciphers[0] = srv_cipher;
state_serv.pool = pool;
state_serv.echo = PJ_TRUE;
state_serv.is_server = PJ_TRUE;
state_serv.is_verbose = PJ_TRUE;
status = pj_ssl_sock_create(pool, ¶m, &ssock_serv);
if (status != PJ_SUCCESS) {
goto on_return;
}
/* Set server cert */
{
pj_str_t tmp1, tmp2, tmp3, tmp4;
status = pj_ssl_cert_load_from_files(pool,
pj_strset2(&tmp1, (char*)CERT_CA_FILE),
pj_strset2(&tmp2, (char*)CERT_FILE),
pj_strset2(&tmp3, (char*)CERT_PRIVKEY_FILE),
pj_strset2(&tmp4, (char*)CERT_PRIVKEY_PASS),
&cert);
if (status != PJ_SUCCESS) {
goto on_return;
}
status = pj_ssl_sock_set_certificate(ssock_serv, pool, cert);
if (status != PJ_SUCCESS) {
goto on_return;
}
}
status = pj_ssl_sock_start_accept(ssock_serv, pool, &addr, pj_sockaddr_get_len(&addr));
if (status != PJ_SUCCESS) {
goto on_return;
}
/* Get listener address */
{
pj_ssl_sock_info info;
pj_ssl_sock_get_info(ssock_serv, &info);
pj_sockaddr_cp(&listen_addr, &info.local_addr);
}
/* === CLIENT === */
param.proto = cli_proto;
param.user_data = &state_cli;
param.ciphers_num = (cli_cipher == -1)? 0 : 1;
ciphers[0] = cli_cipher;
state_cli.pool = pool;
state_cli.check_echo = PJ_TRUE;
state_cli.is_verbose = PJ_TRUE;
{
pj_time_val now;
pj_gettimeofday(&now);
pj_srand((unsigned)now.sec);
state_cli.send_str_len = (pj_rand() % 5 + 1) * 1024 + pj_rand() % 1024;
}
state_cli.send_str = (char*)pj_pool_alloc(pool, state_cli.send_str_len);
{
unsigned i;
for (i = 0; i < state_cli.send_str_len; ++i)
state_cli.send_str[i] = (char)(pj_rand() % 256);
}
status = pj_ssl_sock_create(pool, ¶m, &ssock_cli);
if (status != PJ_SUCCESS) {
goto on_return;
}
/* Set cert for client */
{
if (!client_provide_cert) {
pj_str_t tmp1, tmp2;
pj_strset2(&tmp1, (char*)CERT_CA_FILE);
pj_strset2(&tmp2, NULL);
status = pj_ssl_cert_load_from_files(pool,
&tmp1, &tmp2, &tmp2, &tmp2,
&cert);
if (status != PJ_SUCCESS) {
goto on_return;
}
}
status = pj_ssl_sock_set_certificate(ssock_cli, pool, cert);
if (status != PJ_SUCCESS) {
goto on_return;
}
}
status = pj_ssl_sock_start_connect(ssock_cli, pool, &addr, &listen_addr, pj_sockaddr_get_len(&addr));
if (status == PJ_SUCCESS) {
ssl_on_connect_complete(ssock_cli, PJ_SUCCESS);
} else if (status == PJ_EPENDING) {
status = PJ_SUCCESS;
} else {
goto on_return;
}
/* Wait until everything has been sent/received or error */
while (!state_serv.err && !state_cli.err && !state_serv.done && !state_cli.done)
{
#ifdef PJ_SYMBIAN
pj_symbianos_poll(-1, 1000);
#else
pj_time_val delay = {0, 100};
pj_ioqueue_poll(ioqueue, &delay);
#endif
}
/* Clean up sockets */
{
pj_time_val delay = {0, 100};
while (pj_ioqueue_poll(ioqueue, &delay) > 0);
}
if (state_serv.err || state_cli.err) {
if (state_serv.err != PJ_SUCCESS)
status = state_serv.err;
else
status = state_cli.err;
goto on_return;
}
PJ_LOG(3, ("", "...Done!"));
PJ_LOG(3, ("", ".....Sent/recv: %d/%d bytes", state_cli.sent, state_cli.recv));
on_return:
if (ssock_serv)
pj_ssl_sock_close(ssock_serv);
if (ssock_cli && !state_cli.err && !state_cli.done)
pj_ssl_sock_close(ssock_cli);
if (ioqueue)
pj_ioqueue_destroy(ioqueue);
if (pool)
pj_pool_release(pool);
return status;
}
static int https_client_test(unsigned ms_timeout)
{
pj_pool_t *pool = NULL;
pj_ioqueue_t *ioqueue = NULL;
pj_timer_heap_t *timer = NULL;
pj_ssl_sock_t *ssock = NULL;
pj_ssl_sock_param param;
pj_status_t status;
struct test_state state = {0};
pj_sockaddr local_addr, rem_addr;
pj_str_t tmp_st;
pool = pj_pool_create(mem, "https_get", 256, 256, NULL);
status = pj_ioqueue_create(pool, 4, &ioqueue);
if (status != PJ_SUCCESS) {
goto on_return;
}
status = pj_timer_heap_create(pool, 4, &timer);
if (status != PJ_SUCCESS) {
goto on_return;
}
state.pool = pool;
state.send_str = HTTP_REQ;
state.send_str_len = pj_ansi_strlen(state.send_str);
state.is_verbose = PJ_TRUE;
pj_ssl_sock_param_default(¶m);
param.cb.on_connect_complete = &ssl_on_connect_complete;
param.cb.on_data_read = &ssl_on_data_read;
param.cb.on_data_sent = &ssl_on_data_sent;
param.ioqueue = ioqueue;
param.user_data = &state;
param.server_name = pj_str((char*)HTTP_SERVER_ADDR);
param.timer_heap = timer;
param.timeout.sec = 0;
param.timeout.msec = ms_timeout;
param.proto = PJ_SSL_SOCK_PROTO_SSL23;
pj_time_val_normalize(¶m.timeout);
status = pj_ssl_sock_create(pool, ¶m, &ssock);
if (status != PJ_SUCCESS) {
goto on_return;
}
pj_sockaddr_init(PJ_AF_INET, &local_addr, pj_strset2(&tmp_st, "0.0.0.0"), 0);
pj_sockaddr_init(PJ_AF_INET, &rem_addr, pj_strset2(&tmp_st, HTTP_SERVER_ADDR), HTTP_SERVER_PORT);
status = pj_ssl_sock_start_connect(ssock, pool, &local_addr, &rem_addr, sizeof(rem_addr));
if (status == PJ_SUCCESS) {
ssl_on_connect_complete(ssock, PJ_SUCCESS);
} else if (status == PJ_EPENDING) {
status = PJ_SUCCESS;
} else {
goto on_return;
}
/* Wait until everything has been sent/received */
while (state.err == PJ_SUCCESS && !state.done) {
#ifdef PJ_SYMBIAN
pj_symbianos_poll(-1, 1000);
#else
pj_time_val delay = {0, 100};
pj_ioqueue_poll(ioqueue, &delay);
pj_timer_heap_poll(timer, &delay);
#endif
}
if (state.err) {
status = state.err;
goto on_return;
}
PJ_LOG(3, ("", "...Done!"));
PJ_LOG(3, ("", ".....Sent/recv: %d/%d bytes", state.sent, state.recv));
on_return:
if (ssock && !state.err && !state.done)
pj_ssl_sock_close(ssock);
if (ioqueue)
pj_ioqueue_destroy(ioqueue);
if (timer)
pj_timer_heap_destroy(timer);
if (pool)
pj_pool_release(pool);
return status;
}
/* Test will perform multiple clients trying to connect to single server.
* Once SSL connection established, echo test will be performed.
*/
static int perf_test(unsigned clients, unsigned ms_handshake_timeout)
{
pj_pool_t *pool = NULL;
pj_ioqueue_t *ioqueue = NULL;
pj_timer_heap_t *timer = NULL;
pj_ssl_sock_t *ssock_serv = NULL;
pj_ssl_sock_t **ssock_cli = NULL;
pj_ssl_sock_param param;
struct test_state state_serv = { 0 };
struct test_state *state_cli = NULL;
pj_sockaddr addr, listen_addr;
pj_ssl_cert_t *cert = NULL;
pj_status_t status;
unsigned i, cli_err = 0;
pj_size_t tot_sent = 0, tot_recv = 0;
pj_time_val start;
pool = pj_pool_create(mem, "ssl_perf", 256, 256, NULL);
status = pj_ioqueue_create(pool, PJ_IOQUEUE_MAX_HANDLES, &ioqueue);
if (status != PJ_SUCCESS) {
goto on_return;
}
status = pj_timer_heap_create(pool, PJ_IOQUEUE_MAX_HANDLES, &timer);
if (status != PJ_SUCCESS) {
goto on_return;
}
/* Set cert */
{
pj_str_t tmp1, tmp2, tmp3, tmp4;
status = pj_ssl_cert_load_from_files(pool,
pj_strset2(&tmp1, (char*)CERT_CA_FILE),
pj_strset2(&tmp2, (char*)CERT_FILE),
pj_strset2(&tmp3, (char*)CERT_PRIVKEY_FILE),
pj_strset2(&tmp4, (char*)CERT_PRIVKEY_PASS),
&cert);
if (status != PJ_SUCCESS) {
goto on_return;
}
}
pj_ssl_sock_param_default(¶m);
param.cb.on_accept_complete = &ssl_on_accept_complete;
param.cb.on_connect_complete = &ssl_on_connect_complete;
param.cb.on_data_read = &ssl_on_data_read;
param.cb.on_data_sent = &ssl_on_data_sent;
param.ioqueue = ioqueue;
param.timer_heap = timer;
param.timeout.sec = 0;
param.timeout.msec = ms_handshake_timeout;
pj_time_val_normalize(¶m.timeout);
/* Init default bind address */
{
pj_str_t tmp_st;
pj_sockaddr_init(PJ_AF_INET, &addr, pj_strset2(&tmp_st, "127.0.0.1"), 0);
}
/* SERVER */
param.user_data = &state_serv;
state_serv.pool = pool;
state_serv.echo = PJ_TRUE;
state_serv.is_server = PJ_TRUE;
status = pj_ssl_sock_create(pool, ¶m, &ssock_serv);
if (status != PJ_SUCCESS) {
goto on_return;
}
status = pj_ssl_sock_set_certificate(ssock_serv, pool, cert);
if (status != PJ_SUCCESS) {
goto on_return;
}
status = pj_ssl_sock_start_accept(ssock_serv, pool, &addr, pj_sockaddr_get_len(&addr));
if (status != PJ_SUCCESS) {
goto on_return;
}
/* Get listening address for clients to connect to */
{
pj_ssl_sock_info info;
char buf[64];
pj_ssl_sock_get_info(ssock_serv, &info);
pj_sockaddr_cp(&listen_addr, &info.local_addr);
pj_sockaddr_print((pj_sockaddr_t*)&listen_addr, buf, sizeof(buf), 1);
PJ_LOG(3, ("", "...Listener ready at %s", buf));
}
/* CLIENTS */
clients_num = clients;
param.timeout.sec = 0;
param.timeout.msec = 0;
/* Init random seed */
{
pj_time_val now;
pj_gettimeofday(&now);
pj_srand((unsigned)now.sec);
}
/* Allocate SSL socket pointers and test state */
ssock_cli = (pj_ssl_sock_t**)pj_pool_calloc(pool, clients, sizeof(pj_ssl_sock_t*));
state_cli = (struct test_state*)pj_pool_calloc(pool, clients, sizeof(struct test_state));
/* Get start timestamp */
pj_gettimeofday(&start);
/* Setup clients */
for (i = 0; i < clients; ++i) {
param.user_data = &state_cli[i];
state_cli[i].pool = pool;
state_cli[i].check_echo = PJ_TRUE;
state_cli[i].send_str_len = (pj_rand() % 5 + 1) * 1024 + pj_rand() % 1024;
state_cli[i].send_str = (char*)pj_pool_alloc(pool, state_cli[i].send_str_len);
{
unsigned j;
for (j = 0; j < state_cli[i].send_str_len; ++j)
state_cli[i].send_str[j] = (char)(pj_rand() % 256);
}
status = pj_ssl_sock_create(pool, ¶m, &ssock_cli[i]);
if (status != PJ_SUCCESS) {
app_perror("...ERROR pj_ssl_sock_create()", status);
cli_err++;
clients_num--;
continue;
}
status = pj_ssl_sock_start_connect(ssock_cli[i], pool, &addr, &listen_addr, pj_sockaddr_get_len(&addr));
if (status == PJ_SUCCESS) {
ssl_on_connect_complete(ssock_cli[i], PJ_SUCCESS);
} else if (status == PJ_EPENDING) {
status = PJ_SUCCESS;
} else {
app_perror("...ERROR pj_ssl_sock_create()", status);
pj_ssl_sock_close(ssock_cli[i]);
ssock_cli[i] = NULL;
clients_num--;
cli_err++;
continue;
}
/* Give chance to server to accept this client */
{
unsigned n = 5;
#ifdef PJ_SYMBIAN
while(n && pj_symbianos_poll(-1, 1000))
n--;
#else
pj_time_val delay = {0, 100};
while(n && pj_ioqueue_poll(ioqueue, &delay) > 0)
n--;
#endif
}
}
/* Wait until everything has been sent/received or error */
while (clients_num)
{
#ifdef PJ_SYMBIAN
pj_symbianos_poll(-1, 1000);
#else
pj_time_val delay = {0, 100};
pj_ioqueue_poll(ioqueue, &delay);
pj_timer_heap_poll(timer, &delay);
#endif
}
/* Clean up sockets */
{
pj_time_val delay = {0, 500};
while (pj_ioqueue_poll(ioqueue, &delay) > 0);
}
if (state_serv.err != PJ_SUCCESS) {
status = state_serv.err;
goto on_return;
}
PJ_LOG(3, ("", "...Done!"));
/* SSL setup and data transfer duration */
{
pj_time_val stop;
pj_gettimeofday(&stop);
PJ_TIME_VAL_SUB(stop, start);
PJ_LOG(3, ("", ".....Setup & data transfer duration: %d.%03ds", stop.sec, stop.msec));
}
/* Check clients status */
for (i = 0; i < clients; ++i) {
if (state_cli[i].err != PJ_SUCCESS)
cli_err++;
tot_sent += state_cli[1].sent;
tot_recv += state_cli[1].recv;
}
PJ_LOG(3, ("", ".....Clients: %d (%d errors)", clients, cli_err));
PJ_LOG(3, ("", ".....Total sent/recv: %d/%d bytes", tot_sent, tot_recv));
on_return:
if (ssock_serv)
pj_ssl_sock_close(ssock_serv);
for (i = 0; i < clients; ++i) {
if (ssock_cli[i] && !state_cli[i].err && !state_cli[i].done)
pj_ssl_sock_close(ssock_cli[i]);
}
if (ioqueue)
pj_ioqueue_destroy(ioqueue);
if (pool)
pj_pool_release(pool);
return status;
}
