/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include "axis2_callback_recv.h" #include #include #include #include #include #include #include struct axis2_op_client { axis2_svc_ctx_t *svc_ctx; axis2_options_t *options; axis2_op_ctx_t *op_ctx; axis2_callback_t *callback; axis2_bool_t completed; /* to hold the locally created async result */ axis2_async_result_t *async_result; axis2_callback_recv_t *callback_recv; /** message exchange pattern */ axis2_char_t *mep; axis2_char_t *soap_version_uri; axutil_string_t *soap_action; axis2_char_t *wsa_action; axis2_bool_t reuse; }; typedef struct axis2_op_client_worker_func_args { const axutil_env_t *env; axis2_op_client_t *op_client; axis2_callback_t *callback; axis2_op_t *op; axis2_msg_ctx_t *msg_ctx; } axis2_op_client_worker_func_args_t; void *AXIS2_THREAD_FUNC axis2_op_client_worker_func( axutil_thread_t * thd, void *data); static axis2_char_t *AXIS2_CALL axis2_op_client_get_transport_from_url( const axis2_char_t * url, const axutil_env_t * env); AXIS2_EXTERN axis2_op_client_t *AXIS2_CALL axis2_op_client_create( const axutil_env_t * env, axis2_op_t * op, axis2_svc_ctx_t * svc_ctx, axis2_options_t * options) { axis2_op_client_t *op_client = NULL; const axis2_char_t *mep_uri = NULL; AXIS2_ENV_CHECK(env, NULL); AXIS2_PARAM_CHECK(env->error, op, NULL); AXIS2_PARAM_CHECK(env->error, svc_ctx, NULL); AXIS2_PARAM_CHECK(env->error, options, NULL); op_client = AXIS2_MALLOC(env->allocator, sizeof(axis2_op_client_t)); if(!op_client) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "No memory. Cannot create op client."); return NULL; } /** initialize data */ op_client->callback = NULL; op_client->completed = AXIS2_FALSE; op_client->reuse = AXIS2_FALSE; op_client->async_result = NULL; op_client->callback_recv = NULL; op_client->options = options; op_client->svc_ctx = svc_ctx; op_client->mep = NULL; op_client->soap_version_uri = NULL; op_client->soap_action = NULL; op_client->wsa_action = NULL; op_client->op_ctx = axis2_op_ctx_create(env, op, op_client->svc_ctx); if(!(op_client->op_ctx)) { axis2_op_client_free(op_client, env); return NULL; } mep_uri = axis2_op_get_msg_exchange_pattern(op, env); if(!mep_uri) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_MEP_CANNOT_DETERMINE_MEP, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Cannot find message exchange pattern uri."); axis2_op_client_free(op_client, env); return NULL; } op_client->mep = axutil_strdup(env, mep_uri); op_client->soap_version_uri = axutil_strdup(env, AXIOM_SOAP12_SOAP_ENVELOPE_NAMESPACE_URI); if(!(op_client->soap_version_uri)) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "No memory. Cannot create soap version uri."); axis2_op_client_free(op_client, env); return NULL; } /** initialize parser for thread safety */ axiom_xml_reader_init(); return op_client; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_set_options( axis2_op_client_t * op_client, const axutil_env_t * env, const axis2_options_t * options) { if(op_client->options) { axis2_options_free(op_client->options, env); } op_client->options = (axis2_options_t *)options; return AXIS2_SUCCESS; } AXIS2_EXTERN const axis2_options_t *AXIS2_CALL axis2_op_client_get_options( const axis2_op_client_t * op_client, const axutil_env_t * env) { return op_client->options; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_add_msg_ctx( axis2_op_client_t * op_client, const axutil_env_t * env, axis2_msg_ctx_t * mc) { axis2_msg_ctx_t *out_msg_ctx = NULL, *in_msg_ctx = NULL; axis2_msg_ctx_t **msg_ctx_map = NULL; /* Don't use AXIS2_PARAM_CHECK to verify op_client, as it clobbers env->error->status_code on no error destroying the information therein that an error has already occurred. */ if(!op_client) { if(axutil_error_get_status_code(env->error) == AXIS2_SUCCESS) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_INVALID_NULL_PARAM, AXIS2_FAILURE); } return AXIS2_FAILURE; } /* mc message context pointer may be NULL, e.g., when no response message is received */ if(op_client->op_ctx) { msg_ctx_map = axis2_op_ctx_get_msg_ctx_map(op_client->op_ctx, env); } else { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "op_ctx is NULL, unable to continue"); return AXIS2_FAILURE; } if(msg_ctx_map) { out_msg_ctx = msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_OUT]; in_msg_ctx = msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_IN]; } else { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "msg_ctx_map is NULL, unable to continue"); return AXIS2_FAILURE; } if(op_client->reuse) { /* This is the second invocation using the same service client, so reset */ if(out_msg_ctx) { axis2_msg_ctx_free(out_msg_ctx, env); out_msg_ctx = NULL; msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_OUT] = NULL; } if(in_msg_ctx) { axis2_msg_ctx_free(in_msg_ctx, env); in_msg_ctx = NULL; msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_IN] = NULL; } axis2_op_ctx_set_complete(op_client->op_ctx, env, AXIS2_FALSE); op_client->reuse = AXIS2_FALSE; } if(out_msg_ctx && in_msg_ctx) { /* may be this is the second invocation using the same service clinet, so reset */ axis2_msg_ctx_free(out_msg_ctx, env); out_msg_ctx = NULL; msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_OUT] = NULL; axis2_msg_ctx_free(in_msg_ctx, env); in_msg_ctx = NULL; msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_IN] = NULL; axis2_op_ctx_set_complete(op_client->op_ctx, env, AXIS2_FALSE); } if(!out_msg_ctx) { msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_OUT] = mc; } else { msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_IN] = mc; axis2_op_ctx_set_complete(op_client->op_ctx, env, AXIS2_TRUE); } if(out_msg_ctx && !mc) { axutil_property_t *dump_property; axis2_char_t *dump_value = NULL; if(!axis2_msg_ctx_get_doing_rest(out_msg_ctx, env)) { dump_property = axis2_msg_ctx_get_property(out_msg_ctx, env, AXIS2_DUMP_INPUT_MSG_TRUE); if(dump_property) { dump_value = (axis2_char_t *)axutil_property_get_value(dump_property, env); } } if(axutil_strcmp(dump_value, AXIS2_VALUE_TRUE)) { axis2_msg_ctx_free(out_msg_ctx, env); out_msg_ctx = NULL; msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_OUT] = NULL; } } return AXIS2_SUCCESS; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_add_out_msg_ctx( axis2_op_client_t * op_client, const axutil_env_t * env, axis2_msg_ctx_t * mc) { axis2_msg_ctx_t **msg_ctx_map = NULL; msg_ctx_map = axis2_op_ctx_get_msg_ctx_map(op_client->op_ctx, env); if(msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_OUT]) { axis2_msg_ctx_free(msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_OUT], env); } msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_OUT] = mc; return AXIS2_SUCCESS; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_add_in_msg_ctx( axis2_op_client_t * op_client, const axutil_env_t * env, axis2_msg_ctx_t * mc) { axis2_msg_ctx_t **msg_ctx_map = NULL; msg_ctx_map = axis2_op_ctx_get_msg_ctx_map(op_client->op_ctx, env); if(msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_IN]) { axis2_msg_ctx_free(msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_IN], env); } msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_IN] = mc; return AXIS2_SUCCESS; } AXIS2_EXTERN const axis2_msg_ctx_t *AXIS2_CALL axis2_op_client_get_msg_ctx( const axis2_op_client_t * op_client, const axutil_env_t * env, const axis2_wsdl_msg_labels_t message_label) { return axis2_op_ctx_get_msg_ctx(op_client->op_ctx, env, message_label); } AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_set_callback( axis2_op_client_t * op_client, const axutil_env_t * env, axis2_callback_t * callback) { if(op_client->callback) { axis2_callback_free(op_client->callback, env); } op_client->callback = callback; return AXIS2_SUCCESS; } AXIS2_EXTERN axis2_callback_t *AXIS2_CALL axis2_op_client_get_callback( axis2_op_client_t * op_client, const axutil_env_t * env) { return op_client->callback; } /* This function is called from service client irrespective of the message exchange pattern * and whether one/two way channel used. */ AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_execute( axis2_op_client_t * op_client, const axutil_env_t * env, const axis2_bool_t block) { axis2_conf_ctx_t *conf_ctx = NULL; axis2_msg_ctx_t *msg_ctx = NULL; axis2_transport_out_desc_t *transport_out = NULL; axis2_transport_in_desc_t *transport_in = NULL; axis2_status_t status = AXIS2_FAILURE; axis2_op_t *op = NULL; axis2_char_t *msg_id = NULL; if(op_client->completed) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Op client execute failed. Already completed."); return AXIS2_FAILURE; } conf_ctx = axis2_svc_ctx_get_conf_ctx(op_client->svc_ctx, env); msg_ctx = (axis2_msg_ctx_t *)axis2_op_client_get_msg_ctx(op_client, env, AXIS2_WSDL_MESSAGE_LABEL_OUT); if(!msg_ctx) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Op client execute failed. Message context is not valid."); return AXIS2_FAILURE; } axis2_msg_ctx_set_options(msg_ctx, env, op_client->options); /** if the transport to use for sending is not specified, try to find it from the URL or the client option. */ transport_out = axis2_options_get_transport_out(op_client->options, env); if(!transport_out) { axis2_endpoint_ref_t *to_epr = NULL; axutil_property_t *property = NULL; property = axis2_options_get_property(op_client->options, env, AXIS2_TARGET_EPR); if(property) { to_epr = axutil_property_get_value(property, env); } if(!to_epr) { to_epr = axis2_options_get_to(op_client->options, env); } if(!to_epr) { to_epr = axis2_msg_ctx_get_to(msg_ctx, env); } transport_out = axis2_op_client_infer_transport(op_client, env, to_epr); } if(!transport_out) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Op client execute failed. Cannot find transport out."); return AXIS2_FAILURE; } if(!(axis2_msg_ctx_get_transport_out_desc(msg_ctx, env))) { axis2_msg_ctx_set_transport_out_desc(msg_ctx, env, transport_out); } transport_in = axis2_options_get_transport_in(op_client->options, env); if(!transport_in) { axis2_conf_ctx_t *conf_ctx = axis2_svc_ctx_get_conf_ctx(op_client->svc_ctx, env); if(conf_ctx) { axis2_conf_t *conf = axis2_conf_ctx_get_conf(conf_ctx, env); if(conf) { transport_in = axis2_conf_get_transport_in(conf, env, axis2_transport_out_desc_get_enum(transport_out, env)); } } } if(!transport_in) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Op client execute failed. Cannot find transport in."); return AXIS2_FAILURE; } if(!(axis2_msg_ctx_get_transport_in_desc(msg_ctx, env))) { axis2_msg_ctx_set_transport_in_desc(msg_ctx, env, transport_in); } op = axis2_op_ctx_get_op(op_client->op_ctx, env); if(!op) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Op client execute failed. Cannot find operation."); return AXIS2_FAILURE; } status = axis2_op_client_prepare_invocation(op_client, env, op, msg_ctx); if(status != AXIS2_SUCCESS) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Op client execute failed. Preparing for invocation failed."); return AXIS2_FAILURE; } msg_id = (axis2_char_t *)axutil_uuid_gen(env); axis2_msg_ctx_set_message_id(msg_ctx, env, msg_id); if(msg_id) { AXIS2_FREE(env->allocator, msg_id); msg_id = NULL; } /* If dual channel. */ if(axis2_options_get_use_separate_listener(op_client->options, env)) { axis2_engine_t *engine = NULL; if(op_client->callback) { AXIS2_CALLBACK_RECV_ADD_CALLBACK(op_client->callback_recv, env, axis2_msg_ctx_get_msg_id(msg_ctx, env), op_client->callback); } axis2_msg_ctx_set_op_ctx(msg_ctx, env, axis2_op_find_op_ctx(op, env, msg_ctx, op_client-> svc_ctx)); axis2_msg_ctx_set_svc_ctx(msg_ctx, env, op_client->svc_ctx); /* send the message */ engine = axis2_engine_create(env, conf_ctx); if(!engine) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Op client execute failed due to engine creation failure."); return AXIS2_FAILURE; } axis2_engine_send(engine, env, msg_ctx); axis2_engine_free(engine, env); } else /* Same channel will be used irrespective of message exchange pattern. */ { if(block) { axis2_msg_ctx_t *response_mc = NULL; axis2_msg_ctx_set_svc_ctx(msg_ctx, env, op_client->svc_ctx); axis2_msg_ctx_set_conf_ctx(msg_ctx, env, axis2_svc_ctx_get_conf_ctx( op_client-> svc_ctx, env)); axis2_msg_ctx_set_op_ctx(msg_ctx, env, op_client->op_ctx); /*Send the SOAP Message and receive a response */ response_mc = axis2_op_client_two_way_send(env, msg_ctx); if(!response_mc) { const axis2_char_t *mep = axis2_op_get_msg_exchange_pattern(op, env); if(!(axutil_strcmp(mep, AXIS2_MEP_URI_OUT_ONLY)) || !(axutil_strcmp(mep, AXIS2_MEP_URI_ROBUST_OUT_ONLY))) { if(env->error) { return env->error->status_code; } else { return AXIS2_FAILURE; } } else { return AXIS2_FAILURE; } } axis2_op_client_add_msg_ctx(op_client, env, response_mc); } else { axis2_op_client_worker_func_args_t *arg_list = NULL; arg_list = AXIS2_MALLOC(env->allocator, sizeof(axis2_op_client_worker_func_args_t)); if(!arg_list) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "No memory. Cannot create op client worker function argument list."); return AXIS2_FAILURE; } arg_list->env = env; arg_list->op_client = op_client; arg_list->callback = op_client->callback; arg_list->op = op; arg_list->msg_ctx = msg_ctx; #ifdef AXIS2_SVR_MULTI_THREADED if (env->thread_pool) { axutil_thread_t *worker_thread = NULL; worker_thread = axutil_thread_pool_get_thread(env->thread_pool, axis2_op_client_worker_func, (void *) arg_list); if (!worker_thread) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Thread creation failed call invoke non blocking"); } else { axutil_thread_pool_thread_detach(env->thread_pool, worker_thread); } } else { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Thread pool not set in environment" "Cannot invoke call non blocking"); } #else axis2_op_client_worker_func(NULL, (void *)arg_list); #endif } } return AXIS2_SUCCESS; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_reset( axis2_op_client_t * op_client, const axutil_env_t * env) { if(!op_client->completed) return AXIS2_FAILURE; op_client->completed = AXIS2_FALSE; op_client->op_ctx = NULL; return AXIS2_SUCCESS; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_complete( axis2_op_client_t * op_client, const axutil_env_t * env, axis2_msg_ctx_t * mc) { axis2_conf_ctx_t *conf_ctx = NULL; axis2_listener_manager_t *listener_manager = NULL; AXIS2_TRANSPORT_ENUMS transport = AXIS2_TRANSPORT_ENUM_HTTP; conf_ctx = axis2_msg_ctx_get_conf_ctx(mc, env); if(!conf_ctx) return AXIS2_FAILURE; if(!listener_manager) return AXIS2_FAILURE; return axis2_listener_manager_stop(listener_manager, env, transport); } AXIS2_EXTERN axis2_op_ctx_t *AXIS2_CALL axis2_op_client_get_operation_context( const axis2_op_client_t * op_client, const axutil_env_t * env) { return op_client->op_ctx; } AXIS2_EXTERN void AXIS2_CALL axis2_op_client_free( axis2_op_client_t * op_client, const axutil_env_t * env) { if(!op_client) return; /*if(op_client->callback) { axis2_callback_free(op_client->callback, env); }*/ if(op_client->op_ctx) { axis2_op_ctx_free(op_client->op_ctx, env); op_client->op_ctx = NULL; } if(op_client->soap_version_uri) { AXIS2_FREE(env->allocator, op_client->soap_version_uri); } if(op_client->mep) { AXIS2_FREE(env->allocator, op_client->mep); } if(axis2_options_get_xml_parser_reset(op_client->options, env)) { axiom_xml_reader_cleanup(); } AXIS2_FREE(env->allocator, op_client); } /* This function is the thread worker function for the single channel non blocking case. Here * being non-blocking implies that message is two way. */ void *AXIS2_THREAD_FUNC axis2_op_client_worker_func( axutil_thread_t * thd, void *data) { axis2_op_client_worker_func_args_t *args_list = NULL; axis2_op_ctx_t *op_ctx = NULL; axis2_msg_ctx_t *response = NULL; axutil_env_t *th_env = NULL; axutil_thread_pool_t *th_pool = NULL; args_list = (axis2_op_client_worker_func_args_t *)data; if(!args_list) { return NULL; } th_env = axutil_init_thread_env(args_list->env); op_ctx = axis2_op_ctx_create(th_env, args_list->op, args_list->op_client->svc_ctx); if(!op_ctx) { return NULL; } axis2_msg_ctx_set_op_ctx(args_list->msg_ctx, th_env, op_ctx); axis2_msg_ctx_set_svc_ctx(args_list->msg_ctx, th_env, args_list->op_client->svc_ctx); /* send the request and wait for response */ response = axis2_op_client_two_way_send(th_env, args_list->msg_ctx); /* We do not need to handle the NULL response here because this thread function is called only * in the single channel non blocking case which, imply this is two way message by design. */ /* Here after the code is a subset of what callback receiver do in dual channel case.*/ axis2_op_client_add_msg_ctx(args_list->op_client, th_env, response); args_list->op_client->async_result = axis2_async_result_create(th_env, response); if(args_list->callback) { axis2_callback_invoke_on_complete(args_list->callback, th_env, args_list->op_client->async_result); axis2_callback_set_complete(args_list->callback, th_env, AXIS2_TRUE); } /* Clean up memory */ axis2_async_result_free(args_list->op_client->async_result, th_env); axis2_op_ctx_free(op_ctx, th_env); th_pool = th_env->thread_pool; AXIS2_FREE(th_env->allocator, args_list); if(th_env) { axutil_free_thread_env(th_env); th_env = NULL; } axutil_thread_pool_exit_thread(th_pool, thd); return NULL; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_set_callback_recv( axis2_op_client_t * op_client, const axutil_env_t * env, axis2_callback_recv_t * callback_recv) { op_client->callback_recv = callback_recv; return AXIS2_SUCCESS; } AXIS2_EXTERN axutil_string_t *AXIS2_CALL axis2_op_client_get_soap_action( const axis2_op_client_t * op_client, const axutil_env_t * env) { return op_client->soap_action; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_prepare_invocation( axis2_op_client_t * op_client, const axutil_env_t * env, axis2_op_t * op, axis2_msg_ctx_t * msg_ctx) { axis2_svc_t *svc = NULL; AXIS2_PARAM_CHECK(env->error, op, AXIS2_FAILURE); AXIS2_PARAM_CHECK(env->error, msg_ctx, AXIS2_FAILURE); /* make sure operation's MEP is the same as given MEP */ if(op_client->mep) { if(axutil_strcmp(op_client->mep, axis2_op_get_msg_exchange_pattern(op, env))) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_MEP_MISMATCH_IN_MEP_CLIENT, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Message exchange pattern of op client and operation are different."); return AXIS2_FAILURE; } } else { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_MEP_CANNOT_BE_NULL_IN_MEP_CLIENT, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Message exchange pattern of op client is not valid."); return AXIS2_FAILURE; } /* If operation has a parent service get it */ svc = axis2_op_get_parent(op, env); if(svc) { axis2_svc_ctx_set_svc(op_client->svc_ctx, env, svc); } else { svc = axis2_svc_ctx_get_svc(op_client->svc_ctx, env); if(svc) { axis2_op_t *temp_op = NULL; const axutil_qname_t *op_qname = axis2_op_get_qname(op, env); temp_op = axis2_svc_get_op_with_qname(svc, env, op_qname); if(!temp_op) { axis2_svc_add_op(svc, env, op); } } } if(op_client->wsa_action) { axis2_msg_ctx_set_wsa_action(msg_ctx, env, op_client->wsa_action); } if(op_client->soap_action) { axis2_msg_ctx_set_soap_action(msg_ctx, env, op_client->soap_action); } return AXIS2_SUCCESS; } AXIS2_EXTERN axis2_msg_ctx_t *AXIS2_CALL axis2_op_client_prepare_soap_envelope( axis2_op_client_t * op_client, const axutil_env_t * env, axiom_node_t * to_send) { axis2_msg_ctx_t *msg_ctx = NULL; axiom_soap_envelope_t *envelope = NULL; int soap_version = AXIOM_SOAP12; if(op_client->svc_ctx) { msg_ctx = axis2_msg_ctx_create(env, axis2_svc_ctx_get_conf_ctx(op_client-> svc_ctx, env), NULL, NULL); } if(!msg_ctx) { return NULL; } if(op_client->soap_version_uri) { if(!(axutil_strcmp(op_client->soap_version_uri, AXIOM_SOAP11_SOAP_ENVELOPE_NAMESPACE_URI))) soap_version = AXIOM_SOAP11; else soap_version = AXIOM_SOAP12; } envelope = axiom_soap_envelope_create_default_soap_envelope(env, soap_version); if(!envelope) { return NULL; } if(to_send) { axiom_soap_body_t *soap_body = NULL; soap_body = axiom_soap_envelope_get_body(envelope, env); if(soap_body) { axiom_node_t *node = NULL; node = axiom_soap_body_get_base_node(soap_body, env); if(node) { axiom_node_add_child(node, env, to_send); } } } axis2_msg_ctx_set_soap_envelope(msg_ctx, env, envelope); return msg_ctx; } AXIS2_EXTERN axis2_transport_out_desc_t *AXIS2_CALL axis2_op_client_infer_transport( axis2_op_client_t * op_client, const axutil_env_t * env, axis2_endpoint_ref_t * epr) { axis2_char_t *transport = NULL; axis2_transport_out_desc_t *transport_out_desc = NULL; axis2_conf_ctx_t *conf_ctx = NULL; axis2_conf_t *conf = NULL; AXIS2_TRANSPORT_ENUMS transport_enum = AXIS2_TRANSPORT_ENUM_MAX; AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "Start:axis2_op_client_infer_transport"); /* We first try the client option */ transport_enum = axis2_options_get_sender_transport_protocol(op_client->options, env); if(transport_enum == AXIS2_TRANSPORT_ENUM_MAX) { /* If we couldn't find the transport we default to HTTP */ transport_enum = AXIS2_TRANSPORT_ENUM_HTTP; /* We try to infer transport from the url */ if(epr) { const axis2_char_t *to_url = axis2_endpoint_ref_get_address(epr, env); transport = axis2_op_client_get_transport_from_url(to_url, env); } if(transport) { if(!axutil_strcmp(transport, AXIS2_TRANSPORT_HTTP)) { transport_enum = AXIS2_TRANSPORT_ENUM_HTTP; } else if(!axutil_strcmp(transport, AXIS2_TRANSPORT_HTTPS)) { transport_enum = AXIS2_TRANSPORT_ENUM_HTTPS; } else if(!axutil_strcmp(transport, AXIS2_TRANSPORT_XMPP)) { transport_enum = AXIS2_TRANSPORT_ENUM_XMPP; } else if(!axutil_strcmp(transport, AXIS2_TRANSPORT_TCP)) { transport_enum = AXIS2_TRANSPORT_ENUM_TCP; } else if(!axutil_strcmp(transport, AXIS2_TRANSPORT_AMQP)) { transport_enum = AXIS2_TRANSPORT_ENUM_AMQP; } else if(!axutil_strcmp(transport, AXIS2_TRANSPORT_UDP)) { transport_enum = AXIS2_TRANSPORT_ENUM_UDP; } AXIS2_FREE(env->allocator, transport); transport = NULL; } } conf_ctx = axis2_svc_ctx_get_conf_ctx(op_client->svc_ctx, env); if(conf_ctx) { conf = axis2_conf_ctx_get_conf(conf_ctx, env); if(conf) { transport_out_desc = axis2_conf_get_transport_out(conf, env, transport_enum); } } if(!transport_out_desc) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Cannot infer transport"); AXIS2_ERROR_SET(env->error, AXIS2_ERROR_CANNOT_INFER_TRANSPORT, AXIS2_FAILURE); } AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "End:axis2_op_client_infer_transport"); return transport_out_desc; } AXIS2_EXTERN axiom_soap_envelope_t *AXIS2_CALL axis2_op_client_create_default_soap_envelope( axis2_op_client_t * op_client, const axutil_env_t * env) { axiom_soap_envelope_t *envelope = NULL; if(!(axutil_strcmp(AXIOM_SOAP12_SOAP_ENVELOPE_NAMESPACE_URI, op_client->soap_version_uri))) { envelope = axiom_soap_envelope_create_with_soap_version_prefix(env, AXIOM_SOAP12, NULL); } if(!(axutil_strcmp(AXIOM_SOAP11_SOAP_ENVELOPE_NAMESPACE_URI, op_client->soap_version_uri))) { envelope = axiom_soap_envelope_create_with_soap_version_prefix(env, AXIOM_SOAP11, NULL); } return envelope; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_engage_module( axis2_op_client_t * op_client, const axutil_env_t * env, const axutil_qname_t * qname) { axis2_conf_ctx_t *conf_ctx = NULL; axis2_conf_t *conf = NULL; if(op_client->svc_ctx) { conf_ctx = axis2_svc_ctx_get_conf_ctx(op_client->svc_ctx, env); if(conf_ctx) { conf = axis2_conf_ctx_get_conf(conf_ctx, env); if(conf) { /*if it is already engaged do not engage it again */ if(!(axis2_conf_is_engaged(conf, env, qname))) { return axis2_conf_engage_module(conf, env, qname); } } } } return AXIS2_SUCCESS; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_set_soap_version_uri( axis2_op_client_t * op_client, const axutil_env_t * env, const axis2_char_t * soap_version_uri) { if(op_client->soap_version_uri) { AXIS2_FREE(env->allocator, op_client->soap_version_uri); op_client->soap_version_uri = NULL; } if(soap_version_uri) { op_client->soap_version_uri = axutil_strdup(env, soap_version_uri); if(!(op_client->soap_version_uri)) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "No memory. Cannot create soap version uri."); return AXIS2_FAILURE; } } return AXIS2_SUCCESS; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_set_soap_action( axis2_op_client_t * op_client, const axutil_env_t * env, axutil_string_t * soap_action) { if(op_client->soap_action) { axutil_string_free(op_client->soap_action, env); op_client->soap_action = NULL; } if(soap_action) { op_client->soap_action = axutil_string_clone(soap_action, env); if(!(op_client->soap_action)) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "No memory. Cannot create soap action."); return AXIS2_FAILURE; } } return AXIS2_SUCCESS; } AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_client_set_wsa_action( axis2_op_client_t * op_client, const axutil_env_t * env, const axis2_char_t * wsa_action) { if(op_client->wsa_action) { AXIS2_FREE(env->allocator, op_client->wsa_action); op_client->wsa_action = NULL; } if(wsa_action) { op_client->wsa_action = axutil_strdup(env, wsa_action); if(!(op_client->wsa_action)) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "No memory. Cannot create wsa action."); return AXIS2_FAILURE; } } return AXIS2_SUCCESS; } static axis2_char_t *AXIS2_CALL axis2_op_client_get_transport_from_url( const axis2_char_t * url, const axutil_env_t * env) { axis2_char_t *transport = NULL; const axis2_char_t *start = NULL; const axis2_char_t *end = NULL; AXIS2_PARAM_CHECK(env->error, url, NULL); start = url; end = url; while((*end) && (*end) != ':') end++; if((*end) == ':') { const axis2_char_t *c = NULL; transport = AXIS2_MALLOC(env->allocator, (end - start + 1) * sizeof(char)); if(!transport) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "No memory. Cannot create transport protocol identifier."); return NULL; } for(c = start; c < end; c++) transport[c - start] = *c; transport[c - start] = '\0'; } else { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "URL is malformed or does not contain a transport protocol"); } return transport; } AXIS2_EXTERN axis2_svc_ctx_t *AXIS2_CALL axis2_op_client_get_svc_ctx( const axis2_op_client_t * op_client, const axutil_env_t * env) { return op_client->svc_ctx; } /* This function is called only for single channel invocations */ AXIS2_EXTERN axis2_msg_ctx_t *AXIS2_CALL axis2_op_client_two_way_send( const axutil_env_t * env, axis2_msg_ctx_t * msg_ctx) { axis2_engine_t *engine = NULL; axis2_status_t status = AXIS2_SUCCESS; axis2_msg_ctx_t *response = NULL; axis2_conf_ctx_t *conf_ctx = NULL; axis2_op_t *op = NULL; axiom_soap_envelope_t *response_envelope = NULL; axutil_property_t *property = NULL; long index = -1; axis2_bool_t wait_indefinitely = AXIS2_FALSE; axis2_char_t *mep = NULL; conf_ctx = axis2_msg_ctx_get_conf_ctx(msg_ctx, env); engine = axis2_engine_create(env, conf_ctx); if(!engine) return NULL; property = axis2_msg_ctx_get_property(msg_ctx, env, AXIS2_TIMEOUT_IN_SECONDS); if(property) { axis2_char_t *value = axutil_property_get_value(property, env); if(value) index = AXIS2_ATOI(value); if(index == -1) { wait_indefinitely = AXIS2_TRUE; index = 1; } } status = axis2_engine_send(engine, env, msg_ctx); axis2_engine_free(engine, env); engine = NULL; if(status != AXIS2_SUCCESS) { if(AXIS2_ERROR_GET_STATUS_CODE(env->error) == AXIS2_SUCCESS) { AXIS2_ERROR_SET_STATUS_CODE(env->error, AXIS2_FAILURE); } return NULL; } op = axis2_msg_ctx_get_op(msg_ctx, env); if(op) { mep = (axis2_char_t *)axis2_op_get_msg_exchange_pattern(op, env); } if(!mep) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_MEP_CANNOT_DETERMINE_MEP, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Cannot determine message exchange pattern."); return NULL; } /* handle one way non robust case */ if(!(axutil_strcmp(mep, AXIS2_MEP_URI_OUT_ONLY))) { return NULL; } /* create the response */ response = axis2_msg_ctx_create(env, conf_ctx, axis2_msg_ctx_get_transport_in_desc(msg_ctx, env), axis2_msg_ctx_get_transport_out_desc( msg_ctx, env)); if(!response) return NULL; axis2_msg_ctx_set_server_side(response, env, AXIS2_FALSE); axis2_msg_ctx_set_conf_ctx(response, env, axis2_msg_ctx_get_conf_ctx(msg_ctx, env)); axis2_msg_ctx_set_svc_grp_ctx(response, env, axis2_msg_ctx_get_svc_grp_ctx(msg_ctx, env)); /* If request is REST we assume the response is REST, so set the variable */ axis2_msg_ctx_set_doing_rest(response, env, axis2_msg_ctx_get_doing_rest(msg_ctx, env)); axis2_msg_ctx_set_status_code(response, env, axis2_msg_ctx_get_status_code(msg_ctx, env)); if(op) { axis2_op_register_op_ctx(op, env, response, axis2_msg_ctx_get_op_ctx(msg_ctx, env)); } /* set response envelope */ if(engine) { axis2_engine_free(engine, env); engine = NULL; } response_envelope = axis2_msg_ctx_get_response_soap_envelope(msg_ctx, env); if(response_envelope) { axiom_soap_body_t * soap_body = NULL; axis2_bool_t has_fault = AXIS2_FALSE; axis2_msg_ctx_set_soap_envelope(response, env, response_envelope); soap_body = axiom_soap_envelope_get_body(response_envelope, env); has_fault = axiom_soap_body_has_fault(soap_body, env); engine = axis2_engine_create(env, conf_ctx); if(engine) { property = axis2_msg_ctx_get_property(msg_ctx, env, AXIS2_HANDLER_ALREADY_VISITED); if(property) { axis2_char_t *value = axutil_property_get_value(property, env); if(!axutil_strcmp(AXIS2_VALUE_TRUE, value)) { if(engine) { axis2_engine_free(engine, env); } return response; } } if(has_fault) { status = axis2_engine_receive_fault(engine, env, msg_ctx); } else { status = axis2_engine_receive(engine, env, response); } if(status != AXIS2_SUCCESS ) return NULL; } } else { while(!response_envelope && index > 0) { /*wait till the response arrives */ AXIS2_SLEEP(1); if(!wait_indefinitely) index--; response_envelope = axis2_msg_ctx_get_response_soap_envelope(msg_ctx, env); } /* if it is a two way message, then the status should be in error, else it is a one way message */ if(response_envelope) { axis2_msg_ctx_set_soap_envelope(response, env, response_envelope); /* There could be a scenariao where the message has already passed * through the incoming phases. eg. Reliable Messaging 1.0 two * way single channel */ property = axis2_msg_ctx_get_property(msg_ctx, env, AXIS2_HANDLER_ALREADY_VISITED); if(property) { axis2_char_t *value = axutil_property_get_value(property, env); if(!axutil_strcmp(AXIS2_VALUE_TRUE, value)) { return response; } } engine = axis2_engine_create(env, conf_ctx); if(engine) { status = axis2_engine_receive(engine, env, response); if(status != AXIS2_SUCCESS) return NULL; } } else { if(AXIS2_ERROR_GET_STATUS_CODE(env->error) != AXIS2_SUCCESS) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_BLOCKING_INVOCATION_EXPECTS_RESPONSE, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Response is not valid. Blocking invocation expects response."); if(engine) { axis2_engine_free(engine, env); engine = NULL; } axis2_msg_ctx_free(response, env); return NULL; } } } /*following is no longer valid. Just keeping for others view*/ /* property is NULL, and we set null for AXIS2_TRANSPORT_IN in msg_ctx to avoid double free of this property */ /*axis2_msg_ctx_set_property(msg_ctx, env, AXIS2_TRANSPORT_IN, property);*/ if(engine) { axis2_engine_free(engine, env); engine = NULL; } if(!(axutil_strcmp(mep, AXIS2_MEP_URI_ROBUST_OUT_ONLY)) && response) { if(axis2_msg_ctx_get_doing_rest(response, env) && axis2_msg_ctx_get_status_code(response, env) >= 400) { /* All HTTP 4xx and 5xx status codes are treated as errors */ AXIS2_ERROR_SET(env->error, AXIS2_ERROR_HTTP_CLIENT_TRANSPORT_ERROR, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "HTTP client transport error."); return NULL; } switch(axis2_msg_ctx_get_status_code(response, env)) { /* In a SOAP request HTTP status code 500 is used for errors */ case 500: AXIS2_ERROR_SET(env->error, AXIS2_ERROR_HTTP_CLIENT_TRANSPORT_ERROR, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "HTTP client transport error."); break; case 0: AXIS2_ERROR_SET(env->error, AXIS2_ERROR_BLOCKING_INVOCATION_EXPECTS_RESPONSE, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Response is not valid. Blocking invocation expects response."); break; case -1: AXIS2_ERROR_SET(env->error, AXIS2_ERROR_BLOCKING_INVOCATION_EXPECTS_RESPONSE, AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Response is not valid. Blocking invocation expects response."); break; } if(response) { axis2_msg_ctx_free(response, env); } return NULL; } return response; } AXIS2_EXTERN axis2_msg_ctx_t *AXIS2_CALL axis2_op_client_receive( const axutil_env_t * env, axis2_msg_ctx_t * msg_ctx) { axis2_engine_t *engine = NULL; axis2_status_t status = AXIS2_SUCCESS; axis2_msg_ctx_t *response = NULL; axis2_conf_ctx_t *conf_ctx = NULL; axis2_op_t *op = NULL; axiom_soap_envelope_t *response_envelope = NULL; axutil_property_t *property = NULL; /* create the response */ response = axis2_msg_ctx_create(env, conf_ctx, axis2_msg_ctx_get_transport_in_desc(msg_ctx, env), axis2_msg_ctx_get_transport_out_desc( msg_ctx, env)); if(!response) return NULL; property = axis2_msg_ctx_get_property(msg_ctx, env, AXIS2_TRANSPORT_IN); if(property) { axis2_msg_ctx_set_property(response, env, AXIS2_TRANSPORT_IN, property); property = NULL; } op = axis2_msg_ctx_get_op(msg_ctx, env); if(op) { axis2_op_register_op_ctx(op, env, response, axis2_msg_ctx_get_op_ctx(msg_ctx, env)); } axis2_msg_ctx_set_server_side(response, env, AXIS2_FALSE); axis2_msg_ctx_set_conf_ctx(response, env, axis2_msg_ctx_get_conf_ctx(msg_ctx, env)); axis2_msg_ctx_set_svc_grp_ctx(response, env, axis2_msg_ctx_get_svc_grp_ctx(msg_ctx, env)); /* If request is REST we assume the response is REST, so set the variable */ axis2_msg_ctx_set_doing_rest(response, env, axis2_msg_ctx_get_doing_rest(msg_ctx, env)); response_envelope = axis2_msg_ctx_get_response_soap_envelope(msg_ctx, env); if(response_envelope) { axis2_msg_ctx_set_soap_envelope(response, env, response_envelope); if(engine) { axis2_engine_free(engine, env); engine = NULL; } engine = axis2_engine_create(env, conf_ctx); if(engine) { status = axis2_engine_receive(engine, env, response); if(status != AXIS2_SUCCESS) { return NULL; } } } else { /* if it is a two way message, then the status should be in error, else it is a one way message */ if(AXIS2_ERROR_GET_STATUS_CODE(env->error) != AXIS2_SUCCESS) { AXIS2_ERROR_SET(env->error, AXIS2_ERROR_BLOCKING_INVOCATION_EXPECTS_RESPONSE, AXIS2_FAILURE); return NULL; } } /* property is NULL, and we set null for AXIS2_TRANSPORT_IN in msg_ctx to avoid double free of this property */ axis2_msg_ctx_set_property(msg_ctx, env, AXIS2_TRANSPORT_IN, property); if(engine) { axis2_engine_free(engine, env); engine = NULL; } return response; } AXIS2_EXTERN void AXIS2_CALL axis2_op_client_set_reuse( axis2_op_client_t * op_client, const axutil_env_t * env, axis2_bool_t reuse) { op_client->reuse = reuse; }