void
axis2_test_svc_client_blocking(
)
{
axutil_env_t *env = NULL;
axis2_options_t *options = NULL;
const axis2_char_t *client_home = NULL;
axis2_svc_client_t *svc_client = NULL;
axiom_node_t *payload = NULL;
axiom_node_t *ret_node = NULL;
const axis2_char_t *address = NULL;
axis2_endpoint_ref_t *endpoint_ref = NULL;
axutil_allocator_t *allocator = axutil_allocator_init(NULL);
axiom_element_t *result_ele = NULL;
const axis2_char_t *echo_text = "echo_text";
axis2_char_t *result = NULL;
env = axutil_env_create(allocator);
address = "http://localhost:9090/axis2/services/echo/echo";
endpoint_ref = axis2_endpoint_ref_create(env, address);
client_home = AXIS2_GETENV("AXIS2C_HOME");
if (!client_home)
client_home = "../../deploy";
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
printf("axis2_test axis2_svc_client_create FAILURE\n");
printf
("Client repository path not properly set. Please check AXIS2C_HOME setting\n");
return;
}
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
axis2_svc_client_set_options(svc_client, env, options);
payload = build_om_payload_for_echo_svc(env, echo_text);
ret_node = axis2_svc_client_send_receive(svc_client, env, payload);
if (ret_node)
{
if (axiom_node_get_node_type(ret_node, env) == AXIOM_ELEMENT)
{
ret_node = axiom_node_get_first_child(ret_node, env);
result_ele =
(axiom_element_t *) axiom_node_get_data_element(ret_node, env);
result = axiom_element_get_text(result_ele, env, ret_node);
if (!strcmp(result, echo_text))
printf("axis2_test SVC_CLIENT_SEND_RECEIVE SUCCESS\n");
else
printf("axis2_test SVC_CLIENT_SEND_RECEIVE FAILURE\n");
}
}
axis2_svc_client_free(svc_client, env);
}
axis2_svc_client_t* ajSoapAxis2GetClient(const axutil_env_t *env,
const axis2_char_t *address)
{
AjPStr home = NULL;
axis2_endpoint_ref_t* endpoint_ref = NULL;
axis2_options_t* options = NULL;
axis2_svc_client_t* svc_client = NULL;
options = axis2_options_create(env);
endpoint_ref = axis2_endpoint_ref_create(env, address);
axis2_options_set_soap_version(options, env, AXIOM_SOAP11);
axis2_options_set_to(options, env, endpoint_ref);
/* Set up axis2c location.
** This is either from:
** EMBOSS_AXIS2C_HOME: Used by mEMBOSS as axis2c files are
** provided by the setup and there could
** be confusion with an existing axis2c
** installation otherwise.
** axis2C_HOME: The location specified during the
** EMBOSS configuration.
**
** The client uses this information to pick up the
** libraries, modules and axis2.xml file
*/
if(!ajNamGetValueC("AXIS2C_HOME",&home))
home = ajStrNewC(axis2C_HOME);
/* Create service client */
svc_client = axis2_svc_client_create(env, ajStrGetPtr(home));
if (!svc_client)
{
ajErr("Error creating webservice client: %s",
AXIS2_ERROR_GET_MESSAGE(env->error));
return NULL;
}
axis2_svc_client_set_options(svc_client, env, options);
axis2_svc_client_engage_module(svc_client, env, AXIS2_MODULE_ADDRESSING);
ajStrDel(&home);
return svc_client;
}
axis2_bool_t
request(const axutil_env_t* env,
axis2_char_t* wsdl_location, axis2_char_t* wsdl,
axis2_char_t* operation, wsf_wsdl_data_t* params,
axis2_char_t* type_map,
axis2_char_t* xslt_location,
wsf_wsdl_data_t** response)
{
axis2_svc_client_t* svc_client = NULL;
char* home_folder = WSFC_HOME_FOLDER;
axis2_char_t* sample_wsdl = (axis2_char_t*)AXIS2_MALLOC(env->allocator, 256);
sample_wsdl = strcpy(sample_wsdl, wsdl_location);
sample_wsdl = strcat(sample_wsdl, "/");
sample_wsdl = strcat(sample_wsdl, wsdl);
svc_client = axis2_svc_client_create(env, home_folder);
return wsf_wsdl_request(env, sample_wsdl, operation, params, type_map, xslt_location, svc_client, NULL, NULL, NULL, response);
}
AXIS2_EXTERN axis2_stub_t *AXIS2_CALL
axis2_stub_create_with_endpoint_ref_and_client_home(
const axutil_env_t * env,
axis2_endpoint_ref_t * endpoint_ref,
const axis2_char_t * client_home)
{
axis2_stub_t *stub = NULL;
AXIS2_ENV_CHECK(env, NULL);
AXIS2_PARAM_CHECK(env->error, endpoint_ref, NULL);
stub = (axis2_stub_t *) axis2_stub_create(env);
if (!stub)
{
return NULL;
}
stub->svc_client = axis2_svc_client_create(env, client_home);
if (!stub->svc_client)
{
axis2_stub_free(stub, env);
return NULL;
}
stub->options = axis2_options_create(env);
if (!stub->options)
{
axis2_stub_free(stub, env);
return NULL;
}
axis2_svc_client_set_options(stub->svc_client, env, stub->options);
axis2_options_set_to(stub->options, env, endpoint_ref);
return stub;
}
AXIS2_EXTERN void AXIS2_CALL
savan_default_publisher_publish(
savan_publisher_t *publishermod,
const axutil_env_t *env,
void *msg_ctx,
savan_subs_mgr_t *subs_mgr)
{
savan_default_publisher_t *publishermodimpl = NULL;
axutil_array_list_t *subs_store = NULL;
int i = 0, size = 0;
savan_filter_mod_t *filtermod = NULL;
const axis2_char_t *path = NULL;
axiom_node_t *payload = NULL;
axiom_soap_envelope_t *envelope = NULL;
axiom_soap_body_t *body = NULL;
axiom_node_t *body_node = NULL;
const axis2_char_t *filter = NULL;
axis2_conf_ctx_t *conf_ctx = NULL;
axutil_property_t *topic_property = NULL;
publishermodimpl = SAVAN_INTF_TO_IMPL(publishermod);
AXIS2_LOG_TRACE(env->log, AXIS2_LOG_SI, "[savan] Entry:savan_default_publisher_publish");
topic_property = axis2_msg_ctx_get_property(msg_ctx, env, ELEM_NAME_TOPIC);
if(topic_property)
{
filter = axutil_property_get_value(topic_property, env);
}
axutil_allocator_switch_to_global_pool(env->allocator);
if(subs_mgr)
{
subs_store = savan_subs_mgr_retrieve_all_subscribers(subs_mgr, env, filter);
}
if (!subs_store)
{
axutil_allocator_switch_to_local_pool(env->allocator);
AXIS2_LOG_WARNING(env->log, AXIS2_LOG_SI, "[savan] Subscriber store is NULL");
}
conf_ctx = axis2_msg_ctx_get_conf_ctx(msg_ctx, env);
path = axis2_conf_ctx_get_root_dir(conf_ctx, env);
if(!path)
{
path = AXIS2_GETENV("AXIS2C_HOME");
}
envelope = axis2_msg_ctx_get_soap_envelope((axis2_msg_ctx_t *) msg_ctx, env);
if (!envelope)
{
axutil_allocator_switch_to_local_pool(env->allocator);
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[savan] Failed to extract the soap envelop");
}
body = axiom_soap_envelope_get_body(envelope, env);
if (!body)
{
axutil_allocator_switch_to_local_pool(env->allocator);
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[savan] Failed to extract the soap body");
}
body_node = axiom_soap_body_get_base_node(body, env);
payload = axiom_node_get_first_child(body_node, env);
size = axutil_array_list_size(subs_store, env);
for(i = 0; i < size; i++)
{
axis2_svc_client_t *svc_client = NULL;
savan_subscriber_t *sub = NULL;
sub = (savan_subscriber_t *)axutil_array_list_get(subs_store, env, i);
if (sub)
{
axis2_char_t *id = savan_subscriber_get_id(sub, env);
AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[savan] Publishing to:%s", id);
svc_client = axis2_svc_client_create(env, path);
filtermod = savan_util_get_filter_module(env, publishermodimpl->conf);
/* Ideally publishing to each subscriber should happen within a thread for each
* subscriber. However until Axis2/C provide a good thread pool to handle
* such tasks I use this sequential publishing to subscribers.
*/
if(!savan_default_publisher_publish_to_subscriber(publishermod, env, svc_client, sub,
filtermod, payload))
{
axis2_endpoint_ref_t *notifyto = savan_subscriber_get_notify_to(sub, env);
const axis2_char_t *address = NULL;
if(notifyto)
{
address = axis2_endpoint_ref_get_address(notifyto, env);
}
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI,
"Publishing to the Data Sink:%s proviced by subscriber:%s Failed. Check "\
"whether the Data Sink url is correct", address, id);
}
if(svc_client)
{
axis2_svc_client_free(svc_client, env);
}
}
}
axutil_allocator_switch_to_local_pool(env->allocator);
AXIS2_LOG_TRACE(env->log, AXIS2_LOG_SI, "[savan] Exit:savan_default_publisher_publish");
}
int
main(
int argc,
char **argv)
{
const axutil_env_t *env = NULL;
const axis2_char_t *address = NULL;
axis2_endpoint_ref_t *endpoint_ref = NULL;
axis2_options_t *options = NULL;
const axis2_char_t *client_home = NULL;
axis2_svc_client_t *svc_client = NULL;
axiom_node_t *payload = NULL;
axiom_node_t *ret_node = NULL;
const axis2_char_t *image_name = "resources/axis2.jpg";
/* Set up the environment */
env = axutil_env_create_all("mtom_callback.log", AXIS2_LOG_LEVEL_TRACE);
/* Set end point reference of mtom service */
address = "http://localhost:9090/axis2/services/mtom_callback";
if (argc > 1)
address = argv[1];
if (axutil_strcmp(address, "-h") == 0)
{
printf
("Usage : %s [endpoint_url] [image_name] \n",
argv[0]);
printf("use -h for help\n");
return 0;
}
if (argc > 2)
image_name = argv[2];
printf("Using endpoint : %s\n", address);
/* Create EPR with given address */
endpoint_ref = axis2_endpoint_ref_create(env, address);
/* Setup options */
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
axis2_options_set_action(options, env,
"http://ws.apache.org/axis2/c/samples/mtomCallbackSample");
axis2_options_set_soap_version(options, env, AXIOM_SOAP11);
axis2_options_set_enable_mtom(options, env, AXIS2_TRUE);
/* Set up deploy folder. It is from the deploy folder, the configuration is picked up
* using the axis2.xml file.
* In this sample client_home points to the Axis2/C default deploy folder. The client_home can
* be different from this folder on your system. For example, you may have a different folder
* (say, my_client_folder) with its own axis2.xml file. my_client_folder/modules will have the
* modules that the client uses
*/
client_home = AXIS2_GETENV("WSFC_HOME");
if (!client_home || !strcmp(client_home, ""))
client_home = "../..";
/* Create service client */
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
printf
("Error creating service client, Please check WSFC_HOME again\n");
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI,
"Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number,
AXIS2_ERROR_GET_MESSAGE(env->error));
return -1;
}
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
/* Engage addressing module */
axis2_svc_client_engage_module(svc_client, env, AXIS2_MODULE_ADDRESSING);
/* Build the SOAP request message payload using OM API. */
payload =
build_om_programatically(env, image_name);
/* Send request */
ret_node = axis2_svc_client_send_receive(svc_client, env, payload);
if (ret_node)
{
axis2_char_t *om_str = NULL;
om_str = axiom_node_to_string(ret_node, env);
if (om_str)
{
if (axis2_svc_client_get_last_response_has_fault(svc_client, env) == AXIS2_TRUE)
{
printf("\nRecieved Fault : %s\n", om_str);
AXIS2_FREE(env->allocator, om_str);
}
else
{
printf("\nReceived OM : %s\n", om_str);
AXIS2_FREE(env->allocator, om_str);
printf("\nmtom client invoke SUCCESSFUL!\n");
process_response_node(env, ret_node);
}
}
}
else
{
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI,
"Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number,
AXIS2_ERROR_GET_MESSAGE(env->error));
printf("\nmtom client invoke FAILED!\n");
printf("\nSending callback may not be set. Check the log for more details.\n");
}
if (svc_client)
{
axis2_svc_client_free(svc_client, env);
svc_client = NULL;
}
if (env)
{
axutil_env_free((axutil_env_t *) env);
env = NULL;
}
return 0;
}
int
main(
int argc,
char **argv)
{
axutil_env_t *env = NULL;
const axis2_char_t *address = NULL;
axis2_endpoint_ref_t *endpoint_ref = NULL;
axis2_options_t *options = NULL;
const axis2_char_t *client_home = NULL;
axis2_svc_client_t *svc_client = NULL;
axiom_node_t *payload = NULL;
axiom_node_t *ret_node = NULL;
axiom_element_t *ret_ele = NULL;
axis2_char_t *om_str = NULL;
axis2_char_t *result = NULL;
const axis2_char_t *echo_operation = NULL;
const axis2_char_t *word_to_echo = NULL;
const axis2_char_t *echo_type = NULL;
axis2_char_t operation[32];
axis2_char_t echo_response_buff[32];
echo_operation = "String";
word_to_echo = "helloworld";
echo_type = "string";
if ((argc > 1) && (axutil_strcmp("-h", argv[1]) == 0))
{
printf("\nUsage : %s [echo_operation] [echo_value] [XSD_type]\n",
argv[0]);
printf("use -h for help\n");
return 0;
}
if (argc > 1)
echo_operation = argv[1];
if (argc > 2)
word_to_echo = argv[2];
if (argc > 3)
echo_type = argv[3];
/* address = "http://localhost:7070/cgi-bin/interopserver"; */
address = "http://easysoap.sourceforge.net/cgi-bin/interopserver";
sprintf(operation, "echo%s", echo_operation);
printf("Using endpoint : %s\n", address);
printf("Invoking %s with param %s\n", operation, word_to_echo);
/* Set up the environment */
env = axutil_env_create_all("echo.log", AXIS2_LOG_LEVEL_TRACE);
/* Create EPR with given address */
endpoint_ref = axis2_endpoint_ref_create(env, address);
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
/* this itest requried soap 1.1 message */
axis2_options_set_soap_version(options, env, AXIOM_SOAP11);
client_home = AXIS2_GETENV("AXIS2C_HOME");
if (!client_home)
client_home = "../../deploy";
/* Create service client */
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
printf("Error creating service client\n");
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI,
"Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number,
axutil_error_get_message(env->error));
}
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
payload = build_soap_body_content(env, echo_operation,
echo_type, word_to_echo);
/* Send request */
ret_node = axis2_svc_client_send_receive(svc_client, env, payload);
if (ret_node)
{
om_str = AXIOM_NODE_TO_STRING(ret_node, env);
if (om_str)
printf("\nRecieving OM : %s\n", om_str);
if (AXIOM_NODE_GET_NODE_TYPE(ret_node, env) == AXIOM_ELEMENT)
{
sprintf(echo_response_buff, "echo%sResponse", echo_operation);
ret_ele =
(axiom_element_t *) AXIOM_NODE_GET_DATA_ELEMENT(ret_node, env);
if (axutil_strcmp
(axiom_element_get_localname(ret_ele, env),
echo_response_buff) != 0)
{
printf("%s != %s\n", axiom_element_get_localname(ret_ele, env),
echo_response_buff);
printf("\nFAIL\n\n");
return AXIS2_FAILURE;
}
ret_node = AXIOM_NODE_GET_FIRST_CHILD(ret_node, env);
ret_ele =
(axiom_element_t *) AXIOM_NODE_GET_DATA_ELEMENT(ret_node, env);
result = axiom_element_get_text(ret_ele, env, ret_node);
if (!strcmp(word_to_echo, result))
{
printf("\nSUCCESS\n\n");
}
else
{
printf("\nFAIL\n\n");
}
}
else
{
printf("\nFAIL\n\n");
return AXIS2_FAILURE;
}
}
else
{
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI,
"Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number,
axutil_error_get_message(env->error));
printf("round1 stub invoke FAILED!\n");
return AXIS2_FAILURE;
}
return AXIS2_SUCCESS;
}
int
main (int argc, char **argv)
{
const axutil_env_t* env = NULL;
const axis2_char_t* address = NULL;
axis2_endpoint_ref_t* endpoint_ref = NULL;
axis2_options_t* options = NULL;
const axis2_char_t* client_home = NULL;
axis2_svc_client_t* svc_client = NULL;
axiom_node_t* payload = NULL;
axiom_node_t* ret_node = NULL;
/* Set up the environment */
env = axutil_env_create_all ("echo_blocking_amqp.log", AXIS2_LOG_LEVEL_TRACE);
/* Set end point reference of echo service */
address = "amqp://localhost:5672/axis2/services/echo";
if (argc > 1)
address = argv[1];
if (axutil_strcmp (address, "-h") == 0)
{
printf ("Usage : %s [endpoint_url]\n", argv[0]);
printf ("use -h for help\n");
return 0;
}
printf ("Using endpoint : %s\n", address);
/* Create EPR with given address */
endpoint_ref = axis2_endpoint_ref_create (env, address);
/* Setup options */
options = axis2_options_create (env);
axis2_options_set_to (options, env, endpoint_ref);
/* Set up deploy folder */
client_home = AXIS2_GETENV ("AXIS2C_HOME");
if (!client_home || !strcmp (client_home, ""))
client_home = "../..";
/* Create service client */
svc_client = axis2_svc_client_create (env, client_home);
if (!svc_client)
{
printf ("Error creating service client, Please check AXIS2C_HOME again\n");
AXIS2_LOG_ERROR (env->log, AXIS2_LOG_SI,
"Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number,
AXIS2_ERROR_GET_MESSAGE (env->error));
return -1;
}
/* Set service client options */
axis2_svc_client_set_options (svc_client, env, options);
/* Build the SOAP request message payload using OM API. */
payload = build_om_payload_for_echo_svc (env);
/* Send request and get response */
ret_node = axis2_svc_client_send_receive (svc_client, env, payload);
if (ret_node)
{
axis2_char_t *om_str = NULL;
om_str = axiom_node_to_string (ret_node, env);
if (om_str)
{
printf ("\nReceived OM : %s\n", om_str);
AXIS2_FREE (env->allocator, om_str);
}
printf ("\necho client invoke SUCCESSFUL!\n");
}
else
{
AXIS2_LOG_ERROR (env->log, AXIS2_LOG_SI,
"Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number,
AXIS2_ERROR_GET_MESSAGE (env->error));
printf ("echo client invoke FAILED!\n");
}
if (svc_client)
{
axis2_svc_client_free (svc_client, env);
svc_client = NULL;
}
if (env)
{
axutil_env_free ((axutil_env_t*)env);
env = NULL;
}
return 0;
}
int main(int argc, char** argv)
{
const axutil_env_t *env = NULL;
const axis2_char_t *address = NULL;
axis2_endpoint_ref_t* endpoint_ref = NULL;
axis2_options_t *options = NULL;
const axis2_char_t *client_home = NULL;
axis2_svc_client_t* svc_client = NULL;
axiom_node_t *payload = NULL;
axis2_status_t status = AXIS2_FAILURE;
axutil_property_t *property = NULL;
axis2_char_t *seq_key = NULL;
neethi_policy_t *policy = NULL;
/* Set up the environment */
env = axutil_env_create_all("rm_ping_1_0_amqp.log", AXIS2_LOG_LEVEL_TRACE);
/* Set end point reference of echo service */
address = "amqp://127.0.0.1:5672/axis2/services/RM10SampleService";
if (argc > 1)
{
if (axutil_strcmp(argv[1], "-h") == 0)
{
printf("Usage : %s [endpoint_url]\n", argv[0]);
printf("use -h for help\n");
return 0;
}
else
{
address = argv[1];
}
}
printf ("Using endpoint : %s\n", address);
/* Create EPR with given address */
endpoint_ref = axis2_endpoint_ref_create(env, address);
/* Setup options */
options = axis2_options_create(env);
axis2_options_set_xml_parser_reset(options, env, AXIS2_FALSE);
if(endpoint_ref)
{
axis2_options_set_to(options, env, endpoint_ref);
}
axis2_options_set_action(options, env, "urn:wsrm:Ping");
/* Set up deploy folder. It is from the deploy folder, the configuration is
* picked up using the axis2.xml file.
* In this sample client_home points to the Axis2/C default deploy folder.
* The client_home can be different from this folder on your system. For
* example, you may have a different folder (say, my_client_folder) with its
* own axis2.xml file. my_client_folder/modules will have the modules that
* the client uses
*/
client_home = AXIS2_GETENV("AXIS2C_HOME");
if (!client_home)
{
client_home = "../../..";
}
/* Create service client */
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
printf("Error creating service client\n");
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Stub invoke FAILED: Error code: %d :: %s",
env->error->error_number, AXIS2_ERROR_GET_MESSAGE(env->error));
}
/*Create the policy, from file*/
policy = neethi_util_create_policy_from_file(env, "../policy/rm10-policy.xml");
if(!policy)
{
printf("\nPolicy creation failed from the file");
return 0;
}
status = axis2_svc_client_set_policy(svc_client, env, policy);
if(status == AXIS2_FAILURE)
{
printf("Policy setting failed\n");
}
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
/* Engage addressing module */
axis2_svc_client_engage_module(svc_client, env, AXIS2_MODULE_ADDRESSING);
axis2_svc_client_engage_module(svc_client, env, "sandesha2");
/* RM Version 1.0 */
property = axutil_property_create_with_args(env, 0, 0, 0, SANDESHA2_SPEC_VERSION_1_0);
if(property)
{
axis2_options_set_property(options, env, SANDESHA2_CLIENT_RM_SPEC_VERSION, property);
}
seq_key = axutil_uuid_gen(env);
property = axutil_property_create_with_args(env, 0, 0, 0, seq_key);
if(property)
{
axis2_options_set_property(options, env, SANDESHA2_CLIENT_SEQ_KEY, property);
}
/* Send request */
payload = build_om_programatically(env, "ping1", seq_key);
status = axis2_svc_client_send_robust(svc_client, env, payload);
if(status)
{
printf("\nping client invoke SUCCESSFUL!\n");
}
payload = NULL;
payload = build_om_programatically(env, "ping2", seq_key);
status = axis2_svc_client_send_robust(svc_client, env, payload);
if(status)
{
printf("\nping client invoke SUCCESSFUL!\n");
}
payload = NULL;
property = axutil_property_create_with_args(env, 0, 0, 0, AXIS2_VALUE_TRUE);
axis2_options_set_property(options, env, "Sandesha2LastMessage", property);
payload = build_om_programatically(env, "ping3", seq_key);
status = axis2_svc_client_send_robust(svc_client, env, payload);
if(status)
{
printf("\nping client invoke SUCCESSFUL!\n");
}
/** Wait till callback is complete. Simply keep the parent thread running
until our on_complete or on_error is invoked */
/*This sleep is for wait the main thread until sandesha sends the terminatesequence
*messages. */
AXIS2_SLEEP(SANDESHA2_SLEEP);
AXIS2_FREE(env->allocator, seq_key);
if (svc_client)
{
axis2_svc_client_free(svc_client, env);
svc_client = NULL;
}
if (env)
{
axutil_env_free((axutil_env_t *) env);
env = NULL;
}
return 0;
}
int
main(
int argc,
char **argv)
{
const axutil_env_t *env = NULL;
const axis2_char_t *address = NULL;
axis2_endpoint_ref_t *endpoint_ref = NULL;
axis2_options_t *options = NULL;
const axis2_char_t *client_home = NULL;
axis2_svc_client_t *svc_client = NULL;
axiom_node_t *payload = NULL;
axiom_node_t *ret_node = NULL;
axis2_bool_t method_get = AXIS2_FALSE;
axis2_bool_t method_head = AXIS2_FALSE;
axis2_bool_t method_put = AXIS2_FALSE;
axis2_bool_t method_delete = AXIS2_FALSE;
/* Set up the environment */
env = axutil_env_create_all("echo_rest.log", AXIS2_LOG_LEVEL_TRACE);
/* Set end point reference of echo service */
address = "http://localhost:9090/axis2/services/echo/echoString";
if (argc > 1)
{
if (0 == strncmp(argv[1], "-mGET", 5))
{
method_get = AXIS2_TRUE;
}
else if (0 == strncmp(argv[1], "-mHEAD", 6))
{
method_head = AXIS2_TRUE;
}
else if (0 == strncmp(argv[1], "-mPUT", 5))
{
method_put = AXIS2_TRUE;
}
else if (0 == strncmp(argv[1], "-mDELETE",8 ))
{
method_delete = AXIS2_TRUE;
}
else if (0 == axutil_strcmp(argv[1], "-h"))
{
printf("Usage : %s [endpoint_url] \n", argv[0]);
printf("\nNOTE: You can test for other HTTP methods by changing the");
printf(" services.xml of the echo service\n and providing the correct REST HTTP method");
printf(" and the location to be used for operation.\n");
printf(" Also note that you have to restart the server after changing the services.xml.\n");
printf(" use %s -mGET for HTTP GET\n", argv[0]);
printf(" use %s -mHEAD for HTTP HEAD\n", argv[0]);
printf(" use %s -mDELETE for HTTP DELETE\n", argv[0]);
printf(" use %s -mPUT for HTTP PUT\n", argv[0]);
printf(" use -h for help\n");
return 0;
}
else
{
address = argv[1];
}
}
if (argc > 2)
{
if (0 == strncmp(argv[2], "-mGET", 5))
{
method_get = AXIS2_TRUE;
}
else if (0 == strncmp(argv[2], "-mHEAD", 6))
{
method_head = AXIS2_TRUE;
}
else if (0 == strncmp(argv[2], "-mPUT", 5))
{
method_put = AXIS2_TRUE;
}
else if (0 == strncmp(argv[2], "-mDELETE",8 ))
{
method_delete = AXIS2_TRUE;
}
else
{
address = argv[2];
}
}
printf("Using endpoint : %s\n", address);
/* Create EPR with given address */
endpoint_ref = axis2_endpoint_ref_create(env, address);
/* Setup options */
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
/* Enable REST at the client side */
axis2_options_set_enable_rest(options, env, AXIS2_TRUE);
if (AXIS2_TRUE == method_get)
{
axis2_options_set_http_method(options, env, AXIS2_HTTP_GET);
}
else if (AXIS2_TRUE == method_head)
{
axis2_options_set_http_method(options, env, AXIS2_HTTP_HEAD);
}
else if (AXIS2_TRUE == method_put)
{
axis2_options_set_http_method(options, env, AXIS2_HTTP_PUT);
}
else if (AXIS2_TRUE == method_delete)
{
axis2_options_set_http_method(options, env, AXIS2_HTTP_DELETE);
}
/* Set up deploy folder. It is from the deploy folder, the configuration is picked up
* using the axis2.xml file.
* In this sample client_home points to the Axis2/C default deploy folder. The client_home can
* be different from this folder on your system. For example, you may have a different folder
* (say, my_client_folder) with its own axis2.xml file. my_client_folder/modules will have the
* modules that the client uses
*/
client_home = AXIS2_GETENV("WSFC_HOME");
if (!client_home || !strcmp(client_home, ""))
client_home = "../..";
/* Create service client */
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
printf
("Error creating service client, Please check WSFC_HOME again\n");
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI,
"Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number,
AXIS2_ERROR_GET_MESSAGE(env->error));
return -1;
}
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
/* Build the SOAP request message payload using OM API. */
payload = build_om_payload_for_echo_svc(env);
/* Send request */
ret_node = axis2_svc_client_send_receive(svc_client, env, payload);
if (ret_node &&
axis2_svc_client_get_last_response_has_fault(svc_client, env))
{
axis2_char_t *om_str = NULL;
om_str = axiom_node_to_string(ret_node, env);
if (om_str)
{
printf("\nReceived OM : %s\n", om_str);
AXIS2_FREE(env->allocator, om_str);
}
printf("\necho client invoke FAILED!\n");
}
else if (ret_node)
{
axis2_char_t *om_str = NULL;
om_str = axiom_node_to_string(ret_node, env);
if (om_str)
{
printf("\nReceived OM : %s\n", om_str);
AXIS2_FREE(env->allocator, om_str);
}
printf("\necho client invoke SUCCESSFUL!\n");
}
else if (method_head &&
axis2_svc_client_get_last_response_has_fault(svc_client, env))
{
/* HEAD request should probably be removed from this file,
* and be relocated to transport unit tests.
*/
printf("\necho client invoke FAILED!\n");
}
else if (method_head)
{
/* HEAD request should probably be removed from this file,
* and be relocated to transport unit tests.
*/
printf("\necho client invoke SUCCESSFUL!\n");
}
else
{
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI,
"Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number,
AXIS2_ERROR_GET_MESSAGE(env->error));
printf("echo client invoke FAILED!\n");
}
if (svc_client)
{
axis2_svc_client_free(svc_client, env);
svc_client = NULL;
}
if (env)
{
axutil_env_free((axutil_env_t *) env);
env = NULL;
}
return 0;
}
rampart_issued_token_t * AXIS2_CALL
get_issued_token(const axutil_env_t *env, rp_property_t *issued_token, rampart_context_t *rampart_context)
{
axis2_endpoint_ref_t *endpoint_ref = NULL;
axis2_options_t *options = NULL;
axis2_svc_client_t *svc_client = NULL;
axiom_node_t *rst_node = NULL;
axiom_node_t *return_rstr_node = NULL;
trust_rstr_t *rstr = NULL;
axiom_node_t *assertion = NULL;
rampart_saml_token_t *saml = NULL;
rampart_issued_token_t *token = NULL;
axis2_op_client_t* op_client = NULL;
axis2_msg_ctx_t *in_msg_ctx = NULL;
axis2_status_t status = AXIS2_SUCCESS;
neethi_policy_t *issuer_policy = NULL;
trust_rst_t *rst = NULL;
rp_issued_token_t *it = (rp_issued_token_t *)rp_property_get_value(issued_token, env);
/*Setting Issuer's EPR*/
endpoint_ref = endpoint_ref = axis2_endpoint_ref_create(env, "http://127.0.0.1:9090/axis2/services/saml_sts");
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
/*Create the policy, from file*/
issuer_policy = neethi_util_create_policy_from_file(env, sts_ploicy);
if(!issuer_policy)
{
printf("\nPolicy creation failed from the file. %s\n", policy_file);
}
/*axis2_options_set_action(options, env, action); WSA Action*/
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number, AXIS2_ERROR_GET_MESSAGE(env->error));
return NULL;
}
axis2_options_set_action(options, env, "http://example.com/ws/2004/09/policy/Test/EchoRequest");
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
rst = trust_rst_create(env);
trust_rst_set_wst_ns_uri(rst, env, "http://schemas.xmlsoap.org/ws/2005/02/trust");
rst_node = trust_rst_build_rst_with_issued_token_assertion(rst, env, it);
if (status == AXIS2_SUCCESS)
{
status = axis2_svc_client_set_policy(svc_client, env, issuer_policy);
if (status == AXIS2_FAILURE)
{
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Policy setting failed.");
}
/*Building the RST */
if(rst_node)
{
return_rstr_node = axis2_svc_client_send_receive(svc_client, env, rst_node);
rstr = trust_rstr_create(env);
trust_rstr_set_wst_ns_uri(rstr, env, "http://schemas.xmlsoap.org/ws/2005/02/trust");
trust_rstr_populate_rstr(rstr, env, return_rstr_node);
assertion = trust_rstr_get_requested_security_token(rstr, env);
}
}
saml = rampart_saml_token_create(env, assertion, RAMPART_ST_CONFIR_TYPE_SENDER_VOUCHES);
rampart_saml_token_set_token_type(saml, env, RAMPART_ST_TYPE_SIGNED_SUPPORTING_TOKEN);
token = rampart_issued_token_create(env);
rampart_issued_token_set_token(token, env, saml, RP_PROPERTY_SAML_TOKEN);
return token;
}
int main(int argc, char** argv)
{
const axutil_env_t *env = NULL;
const axis2_char_t *address = NULL;
axis2_endpoint_ref_t* endpoint_ref = NULL;
axis2_options_t *options = NULL;
axis2_char_t *client_home = NULL;
axis2_svc_client_t* svc_client = NULL;
axutil_hash_t *savan_options = NULL;
axis2_status_t status = AXIS2_FAILURE;
savan_client_t *savan_client = NULL;
/* Set up the environment */
env = axutil_env_create_all("./subscriber.log", AXIS2_LOG_LEVEL_DEBUG);
printf("Starting Savan subscriber...\n");
client_home = AXIS2_GETENV("AXIS2C_HOME");
/* Set end point reference of echo service */
address = "http://localhost:9090/axis2/services/wso2";
if (argc > 1 )
address = argv[1];
printf ("Event source endpoint : %s\n", address);
/* Create EPR with given address */
endpoint_ref = axis2_endpoint_ref_create(env, address);
/* Setup options */
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
/* axis2_options_set_action(options, env,
"http://schemas.xmlsoap.org/ws/2004/08/eventing/Subscribe");
*/
/* Create service client */
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
printf("Error creating service client\n");
exit(1);
}
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
/* Engage addressing module */
axis2_svc_client_engage_module(svc_client, env, AXIS2_MODULE_ADDRESSING);
/* Engage savan module */
axis2_svc_client_engage_module(svc_client, env, "savan");
savan_options = axutil_hash_make(env);
axutil_hash_set(savan_options, SAVAN_OP_KEY_NOTIFY_EPR, AXIS2_HASH_KEY_STRING,
"http://localhost:9090/axis2/services/wsfc");
/**
* Following commented lines show how to use filtering when savan server side is
* built and running with filtering enabled.
*/
/*axutil_hash_set(savan_options, SAVAN_OP_KEY_FILTER, AXIS2_HASH_KEY_STRING,
"//wsfc");
axutil_hash_set(savan_options, SAVAN_OP_KEY_FILTER_DIALECT, AXIS2_HASH_KEY_STRING,
DEFAULT_FILTER_DIALECT);*/
/* Create a savan client */
savan_client = savan_client_create(env);
/* Send request */
status = savan_client_subscribe(savan_client, env, svc_client, savan_options);
if (status == AXIS2_SUCCESS)
{
printf("Subscribe successful\n");
printf("Subscription ID: %s\n", savan_client_get_sub_id(savan_client));
}
else
{
printf("Subscription Failed\n");
exit(0);
}
AXIS2_SLEEP(120);
printf("Unsubscribing...\n");
address = savan_client_get_sub_url(savan_client);
endpoint_ref = axis2_options_get_to(options, env);
axis2_endpoint_ref_set_address(endpoint_ref, env, address);
axis2_svc_client_remove_all_headers(svc_client, env);
status = savan_client_unsubscribe(savan_client, env, svc_client);
if (status == AXIS2_SUCCESS)
{
printf("Unsubscribe successful\n");
}
if (svc_client)
{
axis2_svc_client_free(svc_client, env);
svc_client = NULL;
}
return 0;
}
int
main(
int argc,
char** argv)
{
const axutil_env_t *env = NULL;
const axis2_char_t *address = NULL;
const axis2_char_t *client_home = NULL;
axis2_char_t *file_name = NULL;
axis2_char_t *policy_file = NULL;
axis2_endpoint_ref_t* endpoint_ref = NULL;
axis2_options_t *options = NULL;
axis2_svc_client_t* svc_client = NULL;
axiom_node_t *payload = NULL;
axiom_node_t *ret_node = NULL;
axis2_status_t status = AXIS2_FAILURE;
neethi_policy_t *policy = NULL;
/*axutil_property_t *property = NULL;
int i = 0;*/
/* Set up the environment */
env = axutil_env_create_all("echo.log", AXIS2_LOG_LEVEL_TRACE);
/*if (argc == 4)
AXIS2_SLEEP(10); */
/* Set end-point-reference of echo service */
address = "http://localhost:9090/axis2/services/echo";
if(argc > 2)
{
address = argv[1];
client_home = argv[2];
printf("Using endpoint : %s\n", address);
printf("Using client_home : %s\n", client_home);
}
if((axutil_strcmp(argv[1], "-h") == 0) || (axutil_strcmp(argv[1], "--help") == 0))
{
printf("Usage : %s [endpoint_url] [client_home]\n", argv[0]);
printf("use -h for help\n");
return 0;
}
/* Create end-point-reference with given address */
endpoint_ref = axis2_endpoint_ref_create(env, address);
/* Setup options */
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
axis2_options_set_action(options, env, "http://example.com/ws/2004/09/policy/Test/EchoRequest");
/*axis2_options_set_action(options, env,
"http://xmlsoap.org/Ping");*/
/*axis2_options_set_action(options, env,
"urn:echoString");*/
/*axis2_options_set_soap_action(options, env, axutil_string_create(env, "http://xmlsoap.org/Ping"));
axis2_options_set_soap_version(options, env, AXIOM_SOAP11);*/
axis2_options_set_soap_version(options, env, AXIOM_SOAP12);
/*If the client home is not specified, use the WSFC_HOME*/
if(!client_home)
{
client_home = AXIS2_GETENV("WSFC_HOME");
printf("\nNo client_home specified. Using default %s", client_home);
}
/* Create service client */
printf("client_home= %s", client_home);
svc_client = axis2_svc_client_create(env, client_home);
if(!svc_client)
{
printf("Error creating service client\n");
return -1;
}
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
/*
property = axutil_property_create(env);
axutil_property_set_scope(property, env, AXIS2_SCOPE_APPLICATION);
axutil_property_set_value(property, env, AXIS2_WSA_NAMESPACE_SUBMISSION);
axis2_options_set_property(options, env, AXIS2_WSA_VERSION, property);
*/
/*We need to specify the client's policy file location*/
if(client_home)
{
file_name = axutil_stracat(env, client_home, AXIS2_PATH_SEP_STR);
policy_file = axutil_stracat(env, file_name, "policy.xml");
AXIS2_FREE(env->allocator, file_name);
file_name = NULL;
}
else
{
printf("Client Home not Specified\n");
printf("echo client invoke FAILED!\n");
return 0;
}
/*Create the policy, from file*/
policy = neethi_util_create_policy_from_file(env, policy_file);
if(policy_file)
{
AXIS2_FREE(env->allocator, policy_file);
policy_file = NULL;
}
if(!policy)
{
printf("\nPolicy creation failed from the file. %s\n", policy_file);
}
status = axis2_svc_client_set_policy(svc_client, env, policy);
if(status == AXIS2_FAILURE)
{
printf("Policy setting failed\n");
}
/* Build the SOAP request message payload using OM API.*/
payload = build_om_payload_for_echo_svc(env);
/*axis2_options_set_enable_mtom(options, env, AXIS2_TRUE);*/
/*If not engaged in the client's axis2.xml, uncomment this line*/
axis2_svc_client_engage_module(svc_client, env, "rampart");
/* Send request */
ret_node = axis2_svc_client_send_receive(svc_client, env, payload);
if(axis2_svc_client_get_last_response_has_fault(svc_client, env))
{
axiom_soap_envelope_t *soap_envelope = NULL;
axiom_soap_body_t *soap_body = NULL;
axiom_soap_fault_t *soap_fault = NULL;
printf("\nResponse has a SOAP fault\n");
soap_envelope = axis2_svc_client_get_last_response_soap_envelope(svc_client, env);
if(soap_envelope)
soap_body = axiom_soap_envelope_get_body(soap_envelope, env);
if(soap_body)
soap_fault = axiom_soap_body_get_fault(soap_body, env);
if(soap_fault)
{
printf("\nReturned SOAP fault: %s\n", axiom_node_to_string(
axiom_soap_fault_get_base_node(soap_fault, env), env));
}
printf("echo client invoke FAILED!\n");
return -1;
}
if(ret_node)
{
axis2_char_t *om_str = NULL;
om_str = axiom_node_to_string(ret_node, env);
if(om_str)
{
printf("\nReceived OM : %s\n", om_str);
}
printf("\necho client invoke SUCCESSFUL!\n");
AXIS2_FREE(env->allocator, om_str);
ret_node = NULL;
}
else
{
printf("echo client invoke FAILED!\n");
return -1;
}
if(svc_client)
{
axis2_svc_client_free(svc_client, env);
svc_client = NULL;
}
if(env)
{
axutil_env_free((axutil_env_t *)env);
env = NULL;
}
return 0;
}
int main(int argc, char** argv)
{
const axutil_env_t *env = NULL;
const axis2_char_t *address = NULL;
axis2_endpoint_ref_t* endpoint_ref = NULL;
axis2_endpoint_ref_t* reply_to = NULL;
axis2_options_t *options = NULL;
const axis2_char_t *client_home = NULL;
axis2_svc_client_t* svc_client = NULL;
axiom_node_t *payload = NULL;
axis2_callback_t *callback = NULL;
axis2_callback_t *callback2 = NULL;
axis2_callback_t *callback3 = NULL;
axutil_property_t *property = NULL;
axis2_char_t *offered_seq_id = NULL;
axis2_bool_t offer = AXIS2_TRUE;
neethi_policy_t *policy = NULL;
axis2_status_t status = AXIS2_FAILURE;
/* Set up the environment */
env = axutil_env_create_all("rm_echo_1_1_amqp.log", AXIS2_LOG_LEVEL_TRACE);
/* Set end point reference of echo service */
address = "amqp://127.0.0.1:5672/axis2/services/RM11SampleService";
if (argc > 1)
{
if (axutil_strcmp(argv[1], "-h") == 0)
{
printf("Usage : %s [endpoint_url]\n", argv[0]);
printf("use -h for help\n");
return 0;
}
else
{
address = argv[1];
}
}
printf ("Using endpoint : %s\n", address);
/* Create EPR with given address */
endpoint_ref = axis2_endpoint_ref_create(env, address);
/* Setup options */
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
axis2_options_set_use_separate_listener(options, env, AXIS2_TRUE);
/* Seperate listner needs addressing, hence addressing stuff in options */
/*axis2_options_set_action(options, env,
"http://127.0.0.1:8080/axis2/services/RM11SampleService/anonOutInOp");*/
axis2_options_set_action(options, env, "urn:wsrm:EchoString");
reply_to = axis2_endpoint_ref_create(env,
"amqp://localhost:5672/axis2/services/__ANONYMOUS_SERVICE__");
axis2_options_set_reply_to(options, env, reply_to);
axis2_options_set_transport_in_protocol(options, env, AXIS2_TRANSPORT_ENUM_AMQP);
/* Set up deploy folder. It is from the deploy folder, the configuration is
* picked up using the axis2.xml file.
* In this sample client_home points to the Axis2/C default deploy folder.
* The client_home can be different from this folder on your system. For
* example, you may have a different folder (say, my_client_folder) with its
* own axis2.xml file. my_client_folder/modules will have the modules that
* the client uses
*/
client_home = AXIS2_GETENV("AXIS2C_HOME");
if (!client_home)
{
client_home = "../../..";
}
/* Create service client */
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
printf("Error creating service client\n");
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Stub invoke FAILED: Error code: %d :: %s",
env->error->error_number, AXIS2_ERROR_GET_MESSAGE(env->error));
return -1;
}
/*Create the policy, from file*/
policy = neethi_util_create_policy_from_file(env, "../policy/rm11-policy.xml");
if(!policy)
{
printf("\nPolicy creation failed from the file");
return 0;
}
status = axis2_svc_client_set_policy(svc_client, env, policy);
if(status == AXIS2_FAILURE)
{
printf("Policy setting failed\n");
}
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
axis2_svc_client_engage_module(svc_client, env, AXIS2_MODULE_ADDRESSING);
axis2_svc_client_engage_module(svc_client, env, "sandesha2");
/* Offer sequence */
if(offer)
{
offered_seq_id = axutil_uuid_gen(env);
property = axutil_property_create(env);
if(property)
{
axutil_property_set_value(property, env, axutil_strdup(env, offered_seq_id));
axis2_options_set_property(options, env, SANDESHA2_CLIENT_OFFERED_SEQ_ID, property);
}
}
/* RM Version 1.1 */
property = axutil_property_create_with_args(env, 3, 0, 0, SANDESHA2_SPEC_VERSION_1_1);
if(property)
{
axis2_options_set_property(options, env, SANDESHA2_CLIENT_RM_SPEC_VERSION, property);
}
payload = build_om_payload_for_echo_svc(env, "echo1");
callback = axis2_callback_create(env);
axis2_callback_set_on_complete(callback, rm_echo_callback_on_complete);
axis2_callback_set_on_error(callback, rm_echo_callback_on_error);
axis2_svc_client_send_receive_non_blocking(svc_client, env, payload, callback);
wait_on_callback(env, callback);
payload = build_om_payload_for_echo_svc(env, "echo2");
callback2 = axis2_callback_create(env);
axis2_callback_set_on_complete(callback2, rm_echo_callback_on_complete);
axis2_callback_set_on_error(callback2, rm_echo_callback_on_error);
axis2_svc_client_send_receive_non_blocking(svc_client, env, payload, callback2);
wait_on_callback(env, callback2);
AXIS2_SLEEP(SANDESHA2_MAX_COUNT);
callback3 = axis2_callback_create(env);
axis2_callback_set_on_complete(callback3, rm_echo_callback_on_complete);
axis2_callback_set_on_error(callback3, rm_echo_callback_on_error);
sandesha2_client_terminate_seq_with_svc_client(env, svc_client, callback3);
AXIS2_SLEEP(SANDESHA2_MAX_COUNT);
if (svc_client)
{
axis2_svc_client_free(svc_client, env);
svc_client = NULL;
}
return 0;
}
int
main(
int argc,
char **argv)
{
const axutil_env_t *env = NULL;
const axis2_char_t *address = NULL;
axis2_endpoint_ref_t *endpoint_ref = NULL;
axis2_options_t *options = NULL;
const axis2_char_t *client_home = NULL;
axis2_svc_client_t *svc_client = NULL;
axiom_node_t *payload = NULL;
axiom_node_t *ret_node = NULL;
/* Set up the environment */
env =
axutil_env_create_all("echo_blocking_addr_amqp.log", AXIS2_LOG_LEVEL_TRACE);
/* Set end point reference of echo service */
address = "amqp://localhost:5672/axis2/services/echo";
if (argc > 1)
address = argv[1];
if (axutil_strcmp(address, "-h") == 0)
{
printf("Usage : %s [endpoint_url]\n", argv[0]);
printf("use -h for help\n");
return 0;
}
printf("Using endpoint : %s\n", address);
/* Create EPR with given address */
endpoint_ref = axis2_endpoint_ref_create(env, address);
/* Setup options */
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
axis2_options_set_action(options, env,
"http://ws.apache.org/axis2/c/samples/echoString");
/* Set up deploy folder. It is from the deploy folder, the configuration is picked up
* using the axis2.xml file.
* In this sample client_home points to the Axis2/C default deploy folder. The client_home can
* be different from this folder on your system. For example, you may have a different folder
* (say, my_client_folder) with its own axis2.xml file. my_client_folder/modules will have the
* modules that the client uses
*/
client_home = AXIS2_GETENV("AXIS2C_HOME");
if (!client_home || !strcmp(client_home, ""))
client_home = "../..";
/* Create service client */
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
printf
("Error creating service client, Please check AXIS2C_HOME again\n");
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI,
"Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number,
AXIS2_ERROR_GET_MESSAGE(env->error));
return -1;
}
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
/* Engage addressing module */
axis2_svc_client_engage_module(svc_client, env, AXIS2_MODULE_ADDRESSING);
/* Build the SOAP request message payload using OM API. */
payload = build_om_payload_for_echo_svc(env);
/* Send request */
ret_node = axis2_svc_client_send_receive(svc_client, env, payload);
if (ret_node)
{
axis2_char_t *om_str = NULL;
om_str = axiom_node_to_string(ret_node, env);
if (om_str)
{
printf("\nReceived OM : %s\n", om_str);
AXIS2_FREE(env->allocator, om_str);
}
printf("\necho client invoke SUCCESSFUL!\n");
}
else
{
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI,
"Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number,
AXIS2_ERROR_GET_MESSAGE(env->error));
printf("echo client invoke FAILED!\n");
}
if (svc_client)
{
axis2_svc_client_free(svc_client, env);
svc_client = NULL;
}
if (env)
{
axutil_env_free((axutil_env_t *) env);
env = NULL;
}
return 0;
}
int main(int argc, char** argv)
{
const axutil_env_t *env = NULL;
const axis2_char_t *address = NULL;
axis2_endpoint_ref_t* endpoint_ref = NULL;
axis2_endpoint_ref_t* reply_to = NULL;
axis2_options_t *options = NULL;
const axis2_char_t *client_home = NULL;
axis2_svc_client_t* svc_client = NULL;
axiom_node_t *payload = NULL;
axis2_listener_manager_t *listener_manager = NULL;
int i;
axis2_status_t status = AXIS2_FAILURE;
axiom_node_t *result = NULL;
neethi_policy_t *policy = NULL;
/* Set up the environment */
env = axutil_env_create_all("rm_echo_single_1_1.log", AXIS2_LOG_LEVEL_TRACE);
/* Set end point reference of echo service */
/*address = "http://127.0.0.1:9090/axis2/services/RM11SampleService";*/
address = "http://127.0.0.1:9090/axis2/services/RM11SampleService";
if (argc > 1)
{
if (axutil_strcmp(argv[1], "-h") == 0)
{
printf("Usage : %s [endpoint_url]\n", argv[0]);
printf("use -h for help\n");
return 0;
}
else
{
address = argv[1];
}
}
printf ("Using endpoint : %s\n", address);
/* Create EPR with given address */
endpoint_ref = axis2_endpoint_ref_create(env, address);
/* Setup options */
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
/* Seperate listner needs addressing, hence addressing stuff in options */
axis2_options_set_action(options, env,
"http://127.0.0.1:8080/axis2/services/RM11SampleService/anonOutInOp");
reply_to = axis2_endpoint_ref_create(env, AXIS2_WSA_ANONYMOUS_URL);
axis2_options_set_reply_to(options, env, reply_to);
/* Set up deploy folder. It is from the deploy folder, the configuration is
* picked up using the axis2.xml file.
* In this sample client_home points to the Axis2/C default deploy folder.
* The client_home can be different from this folder on your system. For
* example, you may have a different folder (say, my_client_folder) with its
* own axis2.xml file. my_client_folder/modules will have the modules that
* the client uses
*/
client_home = AXIS2_GETENV("AXIS2C_HOME");
if (!client_home)
{
client_home = "../../deploy";
}
/* Create service client */
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
printf("Error creating service client\n");
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Stub invoke FAILED: Error code:%d :: %s",
env->error->error_number, AXIS2_ERROR_GET_MESSAGE(env->error));
return -1;
}
policy = neethi_util_create_policy_from_file(env, "policy/rm11-policy.xml");
if(!policy)
{
printf("\nPolicy creation failed from the file");
return 0;
}
status = axis2_svc_client_set_policy(svc_client, env, policy);
if(status == AXIS2_FAILURE)
{
printf("Policy setting failed\n");
}
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
axis2_svc_client_engage_module(svc_client, env, AXIS2_MODULE_ADDRESSING);
axis2_svc_client_engage_module(svc_client, env, "sandesha2");
listener_manager = axis2_listener_manager_create(env);
if (!listener_manager)
{
return AXIS2_FAILURE;
}
for(i = 1; i < 4; i++)
{
axis2_char_t echo_str[7];
sprintf(echo_str, "%s%d", "echo", i);
payload = build_om_payload_for_echo_svc(env, echo_str);
result = axis2_svc_client_send_receive(svc_client, env, payload);
if(result)
{
/*axis2_char_t *om_str = NULL;
om_str = axiom_node_to_string(result, env);
if (om_str)
{
printf("\nReceived OM : %s\n", om_str);
AXIS2_FREE(env->allocator, om_str);
}*/
printf("\necho client two way single channel invoke SUCCESSFUL!\n");
result = NULL;
}
else
{
printf("\necho client two way single channel invoke FAILED!\n");
}
}
AXIS2_SLEEP(SANDESHA2_SLEEP);
axis2_svc_client_close(svc_client, env);
AXIS2_SLEEP(6 * SANDESHA2_SLEEP);
if (svc_client)
{
axis2_svc_client_free(svc_client, env);
svc_client = NULL;
}
return 0;
}
int main(int argc, char** argv)
{
const axutil_env_t *env = NULL;
const axis2_char_t *address = NULL;
const axis2_char_t *client_home = NULL;
axis2_char_t *file_name = NULL;
axis2_char_t *policy_file = NULL;
axis2_endpoint_ref_t* endpoint_ref = NULL;
axis2_options_t *options = NULL;
axis2_svc_client_t* svc_client = NULL;
axiom_node_t *payload = NULL;
axiom_node_t *ret_node = NULL;
axis2_status_t status = AXIS2_FAILURE;
neethi_policy_t *policy = NULL;
rampart_config_t* client_config = NULL;
axutil_property_t *property = NULL;
rampart_saml_token_t *saml = NULL;
axiom_node_t *assertion = NULL;
/* Set up the environment */
env = axutil_env_create_all("echo.log", AXIS2_LOG_LEVEL_TRACE);
/* Set end-point-reference of echo service */
address = "http://localhost:9090/axis2/services/echo";
if (argc > 2)
{
address = argv[1];
client_home = argv[2];
printf("Using endpoint : %s\n", address);
printf("Using client_home : %s\n", client_home);
}
if ((axutil_strcmp(argv[1], "-h") == 0) || (axutil_strcmp(argv[1], "--help") == 0))
{
printf("Usage : %s [endpoint_url] [client_home]\n", argv[0]);
printf("use -h for help\n");
return 0;
}
/* Create end-point-reference with given address */
endpoint_ref = axis2_endpoint_ref_create(env, address);
/* Setup options */
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
axis2_options_set_action(options, env,
"http://example.com/ws/2004/09/policy/Test/EchoRequest");
/*axis2_options_set_action(options, env,
"urn:echo");*/
/*If the client home is not specified, use the AXIS2C_HOME*/
if (!client_home)
{
client_home = AXIS2_GETENV("AXIS2C_HOME");
printf("\nNo client_home specified. Using default %s", client_home);
}
/* Create service client */
printf("client_home= %s", client_home);
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
printf("Error creating service client\n");
return -1;
}
client_config = rampart_config_create(env);
if(!client_config)
{
printf("Cannot create rampart config\n");
return 0;
}
assertion = create_saml_assertion(env);
saml = rampart_saml_token_create(env, assertion, RAMPART_ST_CONFIR_TYPE_SENDER_VOUCHES);
rampart_saml_token_set_token_type(saml, env, RAMPART_ST_TYPE_SIGNED_SUPPORTING_TOKEN);
rampart_config_add_saml_token(client_config, env, saml);
property = axutil_property_create_with_args(env, AXIS2_SCOPE_REQUEST ,
AXIS2_TRUE, (void *)rampart_config_free, client_config);
axis2_options_set_property(options, env, RAMPART_CLIENT_CONFIGURATION, property);
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
/*We need to specify the client's policy file location*/
if(client_home)
{
file_name = axutil_stracat(env, client_home, AXIS2_PATH_SEP_STR);
policy_file = axutil_stracat(env, file_name, "policy.xml" );
AXIS2_FREE(env->allocator, file_name);
file_name = NULL;
}else{
printf("Client Home not Specified\n");
printf("echo client invoke FAILED!\n");
return 0;
}
/*Create the policy, from file*/
policy = neethi_util_create_policy_from_file(env, policy_file);
if(!policy)
{
printf("\nPolicy creation failed from the file. %s\n", policy_file);
}
if(policy_file){
AXIS2_FREE(env->allocator, policy_file);
policy_file = NULL;
}
status = axis2_svc_client_set_policy(svc_client, env, policy);
if(status == AXIS2_FAILURE)
{
printf("Policy setting failed\n");
}
/* Build the SOAP request message payload using OM API.*/
payload = build_om_payload_for_echo_svc(env);
/*If not engaged in the client's axis2.xml, uncomment this line*/
axis2_svc_client_engage_module(svc_client, env, "rampart");
/* Send request */
ret_node = axis2_svc_client_send_receive(svc_client, env, payload);
if (axis2_svc_client_get_last_response_has_fault(svc_client, env))
{
axiom_soap_envelope_t *soap_envelope = NULL;
axiom_soap_body_t *soap_body = NULL;
axiom_soap_fault_t *soap_fault = NULL;
printf ("\nResponse has a SOAP fault\n");
soap_envelope =
axis2_svc_client_get_last_response_soap_envelope(svc_client, env);
if (soap_envelope)
soap_body = axiom_soap_envelope_get_body(soap_envelope, env);
if (soap_body)
soap_fault = axiom_soap_body_get_fault(soap_body, env);
if (soap_fault)
{
printf("\nReturned SOAP fault: %s\n",
axiom_node_to_string(axiom_soap_fault_get_base_node(soap_fault,env),
env));
}
printf("echo client invoke FAILED!\n");
return -1;
}
if (ret_node)
{
axis2_char_t *om_str = NULL;
om_str = axiom_node_to_string(ret_node, env);
if (om_str)
{
printf("\nReceived OM : %s\n", om_str);
}
printf("\necho client invoke SUCCESSFUL!\n");
AXIS2_FREE(env->allocator, om_str);
ret_node = NULL;
}
else
{
printf("echo client invoke FAILED!\n");
return -1;
}
if (svc_client)
{
axis2_svc_client_free(svc_client, env);
svc_client = NULL;
}
if (env)
{
axutil_env_free((axutil_env_t *) env);
env = NULL;
}
return 0;
}
int
main(
int argc,
char **argv)
{
const axutil_env_t *env = NULL;
const axis2_char_t *address = NULL;
axis2_endpoint_ref_t *endpoint_ref = NULL;
axis2_endpoint_ref_t *reply_to = NULL;
axis2_options_t *options = NULL;
const axis2_char_t *client_home = NULL;
axis2_svc_client_t *svc_client = NULL;
axiom_node_t *payload = NULL;
axis2_callback_t *callback = NULL;
int count = 0;
/* Set up the environment */
env =
axutil_env_create_all("echo_non_blocking_dual.log",
AXIS2_LOG_LEVEL_TRACE);
/* Set end point reference of echo service */
address = "http://localhost:9090/axis2/services/echo";
if (argc > 1)
address = argv[1];
if (axutil_strcmp(address, "-h") == 0)
{
printf("Usage : %s [endpoint_url]\n", argv[0]);
printf("use -h for help\n");
return 0;
}
printf("Using endpoint : %s\n", address);
/* Create EPR with given address */
endpoint_ref = axis2_endpoint_ref_create(env, address);
/* Setup options */
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
axis2_options_set_use_separate_listener(options, env, AXIS2_TRUE);
/* Seperate listner needs addressing, hence addressing stuff in options */
axis2_options_set_action(options, env,
"http://ws.apache.org/axis2/c/samples/echoString");
reply_to =
axis2_endpoint_ref_create(env,
"http://localhost:6060/axis2/services/__ANONYMOUS_SERVICE__/__OPERATION_OUT_IN__");
axis2_options_set_reply_to(options, env, reply_to);
/* Set up deploy folder. It is from the deploy folder, the configuration is picked up
* using the axis2.xml file.
* In this sample client_home points to the Axis2/C default deploy folder. The client_home can
* be different from this folder on your system. For example, you may have a different folder
* (say, my_client_folder) with its own axis2.xml file. my_client_folder/modules will have the
* modules that the client uses
*/
client_home = AXIS2_GETENV("AXIS2C_HOME");
if (!client_home || !strcmp(client_home, ""))
client_home = "../..";
/* Create service client */
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
printf
("Error creating service client, Please check AXIS2C_HOME again\n");
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI,
"Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number,
AXIS2_ERROR_GET_MESSAGE(env->error));
return -1;
}
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
axis2_svc_client_engage_module(svc_client, env, AXIS2_MODULE_ADDRESSING);
/*axis2_svc_client_engage_module(svc_client, env, "sandesha2"); */
/* Build the SOAP request message payload using OM API. */
payload = build_om_payload_for_echo_svc(env);
/* Create the callback object with default on_complete and on_error
callback functions */
callback = axis2_callback_create(env);
/* Set our on_complete fucntion pointer to the callback object */
axis2_callback_set_on_complete(callback, echo_callback_on_complete);
/* Set our on_error function pointer to the callback object */
axis2_callback_set_on_error(callback, echo_callback_on_error);
/* Send request */
axis2_svc_client_send_receive_non_blocking(svc_client, env,
payload, callback);
/** Wait till callback is complete. Simply keep the parent thread running
until our on_complete or on_error is invoked */
while (count < MAX_COUNT)
{
if (isComplete)
{
/* We are done with the callback */
break;
}
/* AXIS2_SLEEP(1); */
count++;
}
if (!(count < MAX_COUNT))
{
printf("\necho client invoke FAILED. Counter timed out.\n");
}
if (svc_client)
{
AXIS2_SLEEP(1);
axis2_svc_client_free(svc_client, env);
svc_client = NULL;
}
if (env)
{
axutil_env_free((axutil_env_t *) env);
env = NULL;
}
return 0;
}
int
main(
int argc,
char **argv)
{
const axutil_env_t *env = NULL;
const axis2_char_t *address = NULL;
axis2_endpoint_ref_t *endpoint_ref = NULL;
axis2_options_t *options = NULL;
const axis2_char_t *client_home = NULL;
axis2_svc_client_t *svc_client = NULL;
axiom_node_t *payload = NULL;
axiom_node_t *ret_node = NULL;
const axis2_char_t *google_key = NULL;
const axis2_char_t *word_to_spell = NULL;
const axis2_char_t *operation = NULL;
operation = "doSpellingSuggestion";
google_key = "00000000000000000000000000000000";
word_to_spell = "salvasion";
/* Set up the environment */
env = axutil_env_create_all("google_client.log", AXIS2_LOG_LEVEL_TRACE);
/* Set end point reference of google service */
address = "http://api.google.com/search/beta2";
if ((argc > 1) && (axutil_strcmp("-h", argv[1]) == 0))
{
printf("\nUsage : %s [google_key] [word_to_spell] \n", argv[0]);
printf
("\tgoogle_key Your Google license key. Default value won't work. You must use your key here.\n");
printf
("\tword_to_spell Word to be spelled by Google service. Default is %s\n",
word_to_spell);
printf
("NOTE: command line arguments must appear in given order, with trailing ones being optional\n");
printf("\tUse -h for help\n");
return 0;
}
if (argc > 1)
google_key = argv[1];
if (argc > 2)
word_to_spell = argv[2];
if (argc > 3)
address = argv[3];
printf("Using endpoint : %s\n", address);
printf("\nInvoking operation %s with params %s and %s\n", operation,
google_key, word_to_spell);
/* Create EPR with given address */
endpoint_ref = axis2_endpoint_ref_create(env, address);
/* Setup options */
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
axis2_options_set_soap_version(options, env, AXIOM_SOAP11);
/* Set up deploy folder. */
client_home = AXIS2_GETENV("WSFC_HOME");
if (!client_home || !strcmp(client_home, ""))
client_home = "../..";
/* Create service client */
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
printf
("Error creating service client, Please check WSFC_HOME again\n");
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI,
"Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number,
AXIS2_ERROR_GET_MESSAGE(env->error));
return -1;
}
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
/* Build the SOAP request message payload using OM API. */
payload =
build_soap_body_content(env, operation, google_key, word_to_spell);
/* Send request */
ret_node = axis2_svc_client_send_receive(svc_client, env, payload);
if (axis2_svc_client_get_last_response_has_fault(svc_client, env))
{
axiom_soap_envelope_t *soap_envelope = NULL;
axiom_soap_body_t *soap_body = NULL;
axiom_soap_fault_t *soap_fault = NULL;
axis2_char_t *fault_string = NULL;
printf("\nResponse has a SOAP fault\n");
soap_envelope =
axis2_svc_client_get_last_response_soap_envelope(svc_client, env);
if (soap_envelope)
{
soap_body = axiom_soap_envelope_get_body(soap_envelope, env);
}
if (soap_body)
{
soap_fault = axiom_soap_body_get_fault(soap_body, env);
}
if (soap_fault)
{
fault_string = axiom_node_to_string(axiom_soap_fault_get_base_node
(soap_fault, env), env);
printf("\nReturned SOAP fault: %s\n", fault_string);
AXIS2_FREE (env->allocator, fault_string);
}
if (svc_client)
{
axis2_svc_client_free(svc_client, env);
svc_client = NULL;
}
if (env)
{
axutil_env_free((axutil_env_t *) env);
env = NULL;
}
return -1;
}
if (ret_node)
{
if (axiom_node_get_node_type(ret_node, env) == AXIOM_ELEMENT)
{
axis2_char_t *result = NULL;
axiom_element_t *result_ele = NULL;
axiom_node_t *ret_node1 = NULL;
result_ele =
(axiom_element_t *) axiom_node_get_data_element(ret_node, env);
if (axutil_strcmp
(axiom_element_get_localname(result_ele, env),
"doSpellingSuggestionResponse") != 0)
{
print_invalid_om(env, ret_node);
return AXIS2_FAILURE;
}
ret_node1 = axiom_node_get_first_element(ret_node, env); /*return */
if (!ret_node1)
{
print_invalid_om(env, ret_node);
return AXIS2_FAILURE;
}
result_ele =
(axiom_element_t *) axiom_node_get_data_element(ret_node1, env);
result = axiom_element_get_text(result_ele, env, ret_node1);
printf("\nResult = %s\n", result);
}
else
{
print_invalid_om(env, ret_node);
return AXIS2_FAILURE;
}
}
else
{
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI,
"Stub invoke FAILED: Error code:" " %d :: %s",
env->error->error_number,
AXIS2_ERROR_GET_MESSAGE(env->error));
printf("Google client invoke FAILED!\n");
}
if (svc_client)
{
axis2_svc_client_free(svc_client, env);
svc_client = NULL;
}
if (env)
{
axutil_env_free((axutil_env_t *) env);
env = NULL;
}
return 0;
}
int main(int argc, char** argv)
{
const axutil_env_t *env = NULL;
const axis2_char_t *address = NULL;
axis2_endpoint_ref_t* endpoint_ref = NULL;
axis2_endpoint_ref_t* reply_to = NULL;
axis2_options_t *options = NULL;
const axis2_char_t *client_home = NULL;
axis2_svc_client_t* svc_client = NULL;
axiom_node_t *payload = NULL;
axis2_callback_t *callback = NULL;
neethi_policy_t *policy = NULL;
axis2_status_t status = AXIS2_FAILURE;
int i = 0;
/* Set up the environment */
env = axutil_env_create_all("rm_echo_1_1.log", AXIS2_LOG_LEVEL_TRACE);
/* Set end point reference of echo service */
address = "http://127.0.0.1:9090/axis2/services/RM11SampleService";
if (argc > 1)
{
if (axutil_strcmp(argv[1], "-h") == 0)
{
printf("Usage : %s [endpoint_url]\n", argv[0]);
printf("use -h for help\n");
return 0;
}
else
{
address = argv[1];
}
}
printf ("Using endpoint : %s\n", address);
/* Create EPR with given address */
endpoint_ref = axis2_endpoint_ref_create(env, address);
/* Setup options */
options = axis2_options_create(env);
axis2_options_set_to(options, env, endpoint_ref);
axis2_options_set_use_separate_listener(options, env, AXIS2_TRUE);
/* Seperate listner needs addressing, hence addressing stuff in options */
/*axis2_options_set_action(options, env,
"http://127.0.0.1:8080/axis2/services/RM11SampleService/anonOutInOp");*/
axis2_options_set_action(options, env, "urn:wsrm:EchoString");
reply_to = axis2_endpoint_ref_create(env,
"http://localhost:6060/axis2/services/__ANONYMOUS_SERVICE__/"\
"__OPERATION_OUT_IN__");
axis2_options_set_reply_to(options, env, reply_to);
/* Set up deploy folder. It is from the deploy folder, the configuration is
* picked up using the axis2.xml file.
* In this sample client_home points to the Axis2/C default deploy folder.
* The client_home can be different from this folder on your system. For
* example, you may have a different folder (say, my_client_folder) with its
* own axis2.xml file. my_client_folder/modules will have the modules that
* the client uses
*/
client_home = AXIS2_GETENV("AXIS2C_HOME");
if (!client_home)
{
client_home = "../../deploy";
}
/* Create service client */
svc_client = axis2_svc_client_create(env, client_home);
if (!svc_client)
{
printf("Error creating service client\n");
AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Stub invoke FAILED: Error code: %d :: %s",
env->error->error_number, AXIS2_ERROR_GET_MESSAGE(env->error));
return -1;
}
/*Create the policy, from file*/
policy = neethi_util_create_policy_from_file(env, "policy/rm11-policy.xml");
if(!policy)
{
printf("\nPolicy creation failed from the file");
return 0;
}
status = axis2_svc_client_set_policy(svc_client, env, policy);
if(status == AXIS2_FAILURE)
{
printf("Policy setting failed\n");
}
/* Set service client options */
axis2_svc_client_set_options(svc_client, env, options);
axis2_svc_client_engage_module(svc_client, env, AXIS2_MODULE_ADDRESSING);
axis2_svc_client_engage_module(svc_client, env, "sandesha2");
for(i = 1; i < 4; i++)
{
axis2_char_t echo_str[7];
sprintf(echo_str, "%s%d", "echo", i);
payload = build_om_payload_for_echo_svc(env, echo_str);
callback = axis2_callback_create(env);
axis2_callback_set_on_complete(callback, rm_echo_callback_on_complete);
axis2_callback_set_on_error(callback, rm_echo_callback_on_error);
axis2_svc_client_send_receive_non_blocking(svc_client, env, payload, callback);
wait_on_callback(env, callback);
}
axis2_svc_client_close(svc_client, env);
AXIS2_SLEEP(2 * 2 * SANDESHA2_MAX_COUNT);
if (svc_client)
{
axis2_svc_client_free(svc_client, env);
svc_client = NULL;
}
return 0;
}