axis2_bool_t AXIS2_CALL sandesha2_msg_ctx_get_server_side( const sandesha2_msg_ctx_t * rm_msg_ctx, const axutil_env_t * env) { return axis2_msg_ctx_get_server_side(rm_msg_ctx->msg_ctx, env); }
AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_engine_resume_receive( axis2_engine_t * engine, const axutil_env_t * env, axis2_msg_ctx_t * msg_ctx) { axis2_status_t status = AXIS2_FAILURE; axis2_conf_ctx_t *conf_ctx = NULL; axis2_conf_t *conf = NULL; axutil_array_list_t *phases = NULL; AXIS2_LOG_TRACE(env->log, AXIS2_LOG_SI, "Start:axis2_engine_resume_receive"); /* Find and invoke the phases */ conf_ctx = axis2_msg_ctx_get_conf_ctx(msg_ctx, env); conf = axis2_conf_ctx_get_conf(conf_ctx, env); phases = axis2_conf_get_in_phases_upto_and_including_post_dispatch(conf, env); axis2_engine_resume_invocation_phases(engine, env, phases, msg_ctx); /* Invoking the message receiver */ if(axis2_msg_ctx_get_server_side(msg_ctx, env) && !axis2_msg_ctx_is_paused(msg_ctx, env)) { /* Invoke the message receivers */ axis2_op_ctx_t *op_ctx = NULL; status = axis2_engine_check_must_understand_headers(env, msg_ctx); if(status != AXIS2_SUCCESS) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Checking for must understand headers failed"); return status; } op_ctx = axis2_msg_ctx_get_op_ctx(msg_ctx, env); if(op_ctx) { axis2_op_t *op = axis2_op_ctx_get_op(op_ctx, env); if(op) { axis2_msg_recv_t *receiver = NULL; receiver = axis2_op_get_msg_recv(op, env); if(!receiver) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Message receiver not set in operation description"); return AXIS2_FAILURE; } status = axis2_msg_recv_receive(receiver, env, msg_ctx, axis2_msg_recv_get_derived( receiver, env)); } } } AXIS2_LOG_TRACE(env->log, AXIS2_LOG_SI, "Exit:axis2_engine_resume_receive"); return status; }
axis2_status_t AXIS2_CALL sandesha2_out_handler_invoke( struct axis2_handler *handler, const axutil_env_t *env, struct axis2_msg_ctx *msg_ctx) { axutil_property_t *temp_prop = NULL; axis2_conf_ctx_t *conf_ctx = NULL; axis2_conf_t *conf = NULL; axis2_char_t *str_done = NULL; axis2_char_t *dummy_msg_str = NULL; axis2_bool_t dummy_msg = AXIS2_FALSE; axis2_svc_t *svc = NULL; axutil_qname_t *module_qname = NULL; sandesha2_msg_ctx_t *rm_msg_ctx = NULL; sandesha2_msg_processor_t *msg_processor = NULL; int msg_type = -1; AXIS2_PARAM_CHECK(env->error, msg_ctx, AXIS2_FAILURE); AXIS2_LOG_TRACE(env->log, AXIS2_LOG_SI, "[sandesha2] Entry:sandesha2_out_handler_invoke"); temp_prop = axis2_msg_ctx_get_property(msg_ctx, env, SANDESHA2_SEQ_PROP_MAKE_CONNECTION_OUT_PATH); if (temp_prop) { AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[sandesha2] In make connection out path. So return here."); return AXIS2_SUCCESS; temp_prop = NULL; } if(sandesha2_util_is_rstr_msg(env, msg_ctx)) { AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[sandesha2] A RSTR message. Sandesha don't process."); return AXIS2_SUCCESS; } conf_ctx = axis2_msg_ctx_get_conf_ctx(msg_ctx, env); if(!conf_ctx) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[sandesha2] Configuration Context is NULL"); AXIS2_ERROR_SET(env->error, SANDESHA2_ERROR_CONF_CTX_NULL, AXIS2_FAILURE); return AXIS2_FAILURE; } svc = axis2_msg_ctx_get_svc(msg_ctx, env); if(!svc) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[sandesha2]Axis2 Service is NULL"); AXIS2_ERROR_SET(env->error, SANDESHA2_ERROR_SVC_NULL, AXIS2_FAILURE); return AXIS2_FAILURE; } module_qname = axutil_qname_create(env, SANDESHA2_MODULE, NULL, NULL); if(!axis2_svc_is_module_engaged(svc, env, module_qname)) { if(module_qname) { axutil_qname_free(module_qname, env); } AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[sandesha2]RM is not engaged. So return here"); return AXIS2_SUCCESS; } if(module_qname) { axutil_qname_free(module_qname, env); } temp_prop = axis2_msg_ctx_get_property(msg_ctx, env, SANDESHA2_APPLICATION_PROCESSING_DONE); if(temp_prop) { str_done = (axis2_char_t *) axutil_property_get_value(temp_prop, env); } if(str_done && 0 == axutil_strcmp(AXIS2_VALUE_TRUE, str_done)) { AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[sandesha2]Application Processing Done. So return here."); return AXIS2_SUCCESS; } temp_prop = axutil_property_create_with_args(env, 0, 0, 0, AXIS2_VALUE_TRUE); axis2_msg_ctx_set_property(msg_ctx, env, SANDESHA2_APPLICATION_PROCESSING_DONE, temp_prop); conf = axis2_conf_ctx_get_conf(conf_ctx, env); if(!sandesha2_permanent_storage_mgr_create_db(env, conf_ctx)) { return AXIS2_FAILURE; } /* Getting rm message */ rm_msg_ctx = sandesha2_msg_init_init_msg(env, msg_ctx); temp_prop = axis2_msg_ctx_get_property(msg_ctx, env, SANDESHA2_CLIENT_DUMMY_MESSAGE); if(NULL != temp_prop) { dummy_msg_str = (axis2_char_t *) axutil_property_get_value(temp_prop, env); } if(dummy_msg_str && 0 == axutil_strcmp(AXIS2_VALUE_TRUE, dummy_msg_str)) { dummy_msg = AXIS2_TRUE; } temp_prop = axis2_msg_ctx_get_property(msg_ctx, env, AXIS2_SVC_CLIENT_CLOSED); if(temp_prop) { axis2_char_t *spec_version = NULL; axis2_endpoint_ref_t *reply_to = axis2_msg_ctx_get_reply_to(msg_ctx, env); if(reply_to) { axis2_char_t *address = axis2_endpoint_ref_get_address(reply_to, env); AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "dam_reply_to_address:%s", address); } spec_version = sandesha2_utils_get_rm_version(env, msg_ctx); if(!axutil_strcmp(SANDESHA2_SPEC_VERSION_1_1, spec_version)) { axis2_char_t *action = NULL; axutil_string_t *str_action = NULL; action = sandesha2_spec_specific_consts_get_terminate_seq_action(env, spec_version); str_action = axutil_string_create(env, action); axis2_msg_ctx_set_soap_action(msg_ctx, env, str_action); axutil_string_free(str_action, env); /*axis2_msg_ctx_set_reply_to(msg_ctx, env, NULL);*/ msg_type = sandesha2_msg_ctx_set_msg_type(rm_msg_ctx, env, SANDESHA2_MSG_TYPE_CLOSE_SEQ); } else if(!axutil_strcmp(SANDESHA2_SPEC_VERSION_1_0, spec_version)) { axutil_property_t *property = NULL; axutil_string_t *str_action = NULL; /*axis2_msg_info_headers_set_action(axis2_msg_ctx_get_msg_info_headers(msg_ctx, env), * env, SANDESHA2_SPEC_2005_02_SOAP_ACTION_LAST_MESSAGE); */ str_action = axutil_string_create(env, SANDESHA2_SPEC_2005_02_SOAP_ACTION_LAST_MESSAGE); axis2_msg_ctx_set_soap_action(msg_ctx, env, str_action); axutil_string_free(str_action, env); property = axutil_property_create_with_args(env, 0, 0, 0, AXIS2_VALUE_TRUE); axis2_msg_ctx_set_property(msg_ctx, env, "Sandesha2LastMessage", property); /*axis2_msg_ctx_set_reply_to(msg_ctx, env, NULL);*/ } } msg_type = sandesha2_msg_ctx_get_msg_type(rm_msg_ctx, env); if(msg_type == SANDESHA2_MSG_TYPE_UNKNOWN) { axis2_msg_ctx_t *req_msg_ctx = NULL; axis2_op_ctx_t *op_ctx = NULL; op_ctx = axis2_msg_ctx_get_op_ctx(msg_ctx, env); req_msg_ctx = axis2_op_ctx_get_msg_ctx(op_ctx, env, AXIS2_WSDL_MESSAGE_LABEL_IN); if(req_msg_ctx) /* For the server side */ { sandesha2_msg_ctx_t *req_rm_msg_ctx = NULL; sandesha2_seq_t *seq_part = NULL; req_rm_msg_ctx = sandesha2_msg_init_init_msg(env, req_msg_ctx); seq_part = sandesha2_msg_ctx_get_sequence(req_rm_msg_ctx, env); if(seq_part) { msg_processor = (sandesha2_msg_processor_t *) sandesha2_app_msg_processor_create(env); /* rm intended msg */ } if(req_rm_msg_ctx) sandesha2_msg_ctx_free(req_rm_msg_ctx, env); } else if(!axis2_msg_ctx_get_server_side(msg_ctx, env)) { msg_processor = (sandesha2_msg_processor_t *) sandesha2_app_msg_processor_create(env); } } else { msg_processor = sandesha2_msg_processor_create_msg_processor(env, rm_msg_ctx); } if(msg_processor) { sandesha2_msg_processor_process_out_msg(msg_processor, env, rm_msg_ctx); sandesha2_msg_processor_free(msg_processor, env); } if(AXIS2_SUCCESS != AXIS2_ERROR_GET_STATUS_CODE(env->error)) { /* Message should not be sent in an exception situation */ AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[sandesha2] Pausing message context"); axis2_msg_ctx_set_paused(msg_ctx, env, AXIS2_TRUE); if(rm_msg_ctx) { sandesha2_msg_ctx_free(rm_msg_ctx, env); } AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[sandesha2] Error in processing the message"); AXIS2_ERROR_SET(env->error, SANDESHA2_ERROR_CANNOT_PROCESS_MSG, AXIS2_FAILURE); return AXIS2_FAILURE; } temp_prop = axis2_msg_ctx_get_property(msg_ctx, env, SANDESHA2_APPLICATION_PROCESSING_DONE); if(temp_prop) { axutil_property_set_value(temp_prop, env, AXIS2_VALUE_FALSE); } if(rm_msg_ctx) { sandesha2_msg_ctx_free(rm_msg_ctx, env); } AXIS2_LOG_TRACE(env->log, AXIS2_LOG_SI, "[sandesha2]Exit:sandesha2_out_handler_invoke"); return AXIS2_SUCCESS; }
static axis2_status_t sandesha2_msg_creator_finalize_creation( const axutil_env_t *env, axis2_msg_ctx_t *related_msg, axis2_msg_ctx_t *new_msg) { /*axis2_op_t *old_op = NULL;*/ /*axis2_op_ctx_t *old_op_ctx = NULL;*/ axis2_bool_t temp_bool = AXIS2_FALSE; /*axutil_hash_t *related_msg_props = NULL; axutil_hash_t *new_msg_props = NULL; axis2_ctx_t *related_ctx = NULL; axis2_ctx_t *new_ctx = NULL;*/ temp_bool = axis2_msg_ctx_get_server_side(related_msg, env); axis2_msg_ctx_set_server_side(new_msg, env, temp_bool); /* Adding all parameters from old message to the new one */ /*old_op = axis2_msg_ctx_get_op(related_msg, env); if(old_op) { axutil_array_list_t *op_params = NULL; op_params = axis2_op_get_all_params(old_op, env); if(op_params) { axis2_op_t *new_op = NULL; int i = 0, size = 0; new_op = axis2_msg_ctx_get_op(new_msg, env); size = axutil_array_list_size(op_params, env); for(i = 0; i < size; i++) { axutil_param_t *next_param = NULL; axutil_param_t *new_param = NULL; axis2_char_t *temp_name = NULL; void *temp_value = NULL; next_param = (axutil_param_t *) axutil_array_list_get(op_params, env, i); temp_name = axutil_param_get_name(next_param, env); temp_value = axutil_param_get_value(next_param, env); new_param = axutil_param_create(env, temp_name, temp_value); axutil_param_set_value_free(new_param, env, axutil_param_dummy_free_fn); axis2_op_add_param(new_op, env, new_param); } } }*/ /* Operation context properties */ /*old_op_ctx = axis2_msg_ctx_get_op_ctx(related_msg, env); if(old_op_ctx) { axutil_hash_t *old_op_ctx_props = NULL; axis2_ctx_t *ctx = NULL; ctx = axis2_op_ctx_get_base(old_op_ctx, env); old_op_ctx_props = axis2_ctx_get_all_properties(ctx, env); if(old_op_ctx_props) { axis2_op_ctx_t *new_op_ctx = NULL; axutil_hash_index_t *hi = NULL; new_op_ctx = axis2_msg_ctx_get_op_ctx(new_msg, env); for (hi = axutil_hash_first (old_op_ctx_props, env); hi; hi = axutil_hash_next (env, hi)) { void *v = NULL; void *k = NULL; axis2_char_t *key = NULL; axutil_property_t *prop = NULL; axutil_property_t *new_prop = NULL; axis2_ctx_t *ctx = NULL; axutil_hash_this (hi, (const void **)&k, NULL, &v); key = (axis2_char_t *) k; prop = (axutil_property_t *) v; ctx = axis2_op_ctx_get_base(new_op_ctx, env); if(prop) new_prop = axutil_property_clone(prop, env); if(new_prop) { if(0 == axutil_strcmp(AXIS2_TRANSPORT_IN, key)) { axutil_property_set_own_value(new_prop, env, AXIS2_FALSE); } axis2_ctx_set_property(ctx, env, key, new_prop); } } } }*/ /* Setting options with properties copied from the old one */ /*if(related_msg && new_msg) { related_ctx = axis2_msg_ctx_get_base(related_msg, env); related_msg_props = axis2_ctx_get_all_properties(related_ctx, env); new_ctx = axis2_msg_ctx_get_base(new_msg, env); new_msg_props = axis2_ctx_get_all_properties(new_ctx, env); if(related_msg_props) { axutil_hash_index_t *i = NULL; for (i = axutil_hash_first (related_msg_props, env); i; i = axutil_hash_next (env, i)) { void *v = NULL; void *k = NULL; axis2_char_t *key = NULL; axutil_property_t *prop = NULL; axutil_property_t *new_prop = NULL; axutil_hash_this (i, (const void **)&k, NULL, &v); key = (axis2_char_t *) k; prop = (axutil_property_t *) v; if(prop) new_prop = axutil_property_clone(prop, env); if(new_prop) { if(0 == axutil_strcmp(AXIS2_TRANSPORT_IN, key)) { axutil_property_set_own_value(new_prop, env, AXIS2_FALSE); } if(0 == axutil_strcmp(AXIS2_HTTP_CLIENT, key)) { axutil_property_set_own_value(new_prop, env, AXIS2_FALSE); } axutil_hash_set(new_msg_props, key, AXIS2_HASH_KEY_STRING, new_prop); } } } }*/ return AXIS2_SUCCESS; }
AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_engine_receive( axis2_engine_t * engine, const axutil_env_t * env, axis2_msg_ctx_t * msg_ctx) { axis2_conf_ctx_t *conf_ctx = NULL; axis2_conf_t *conf = NULL; axis2_op_ctx_t *op_ctx = NULL; axis2_op_t *op = NULL; axutil_array_list_t *pre_calculated_phases = NULL; axutil_array_list_t *op_specific_phases = NULL; axis2_status_t status = AXIS2_FAILURE; AXIS2_LOG_TRACE(env->log, AXIS2_LOG_SI, "Start:axis2_engine_receive"); AXIS2_PARAM_CHECK(env->error, msg_ctx, AXIS2_FAILURE); conf_ctx = axis2_msg_ctx_get_conf_ctx(msg_ctx, env); conf = axis2_conf_ctx_get_conf(conf_ctx, env); pre_calculated_phases = axis2_conf_get_in_phases_upto_and_including_post_dispatch(conf, env); if(axis2_msg_ctx_is_paused(msg_ctx, env)) { /* The message has paused, so re-run them from the position they stopped. */ axis2_engine_resume_invocation_phases(engine, env, pre_calculated_phases, msg_ctx); if(axis2_msg_ctx_is_paused(msg_ctx, env)) { AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "Message context is paused. So return here."); return AXIS2_SUCCESS; } /* Resume op specific phases */ op_ctx = axis2_msg_ctx_get_op_ctx(msg_ctx, env); if(op_ctx) { op = axis2_op_ctx_get_op(op_ctx, env); op_specific_phases = axis2_op_get_in_flow(op, env); axis2_engine_resume_invocation_phases(engine, env, op_specific_phases, msg_ctx); if(axis2_msg_ctx_is_paused(msg_ctx, env)) { AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "Message context is paused. So return here."); return AXIS2_SUCCESS; } } } else { status = axis2_engine_invoke_phases(engine, env, pre_calculated_phases, msg_ctx); if(status != AXIS2_SUCCESS) { if(axis2_msg_ctx_get_server_side(msg_ctx, env)) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Invoking pre-calculated phases failed"); return status; } } if(axis2_msg_ctx_is_paused(msg_ctx, env)) { AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "Message context is paused. So return here."); return AXIS2_SUCCESS; } op_ctx = axis2_msg_ctx_get_op_ctx(msg_ctx, env); if(op_ctx) { op = axis2_op_ctx_get_op(op_ctx, env); op_specific_phases = axis2_op_get_in_flow(op, env); status = axis2_engine_invoke_phases(engine, env, op_specific_phases, msg_ctx); if(status != AXIS2_SUCCESS) { axis2_char_t *op_name = NULL; op_name = axutil_qname_get_localpart(axis2_op_get_qname(op, env), env); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Invoking operation specific phases failed for operation %s", op_name); return status; } if(axis2_msg_ctx_is_paused(msg_ctx, env)) { AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "Message context is paused. So return here."); return AXIS2_SUCCESS; } } } if((axis2_msg_ctx_get_server_side(msg_ctx, env)) && !(axis2_msg_ctx_is_paused(msg_ctx, env))) { axis2_msg_recv_t *receiver = NULL; status = axis2_engine_check_must_understand_headers(env, msg_ctx); if(status != AXIS2_SUCCESS) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Check for must understand headers failed"); return status; } /* Invoke the message receivers */ if(!op) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Operation not found"); return AXIS2_FAILURE; } receiver = axis2_op_get_msg_recv(op, env); if(!receiver) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "Message receiver not set in operation description"); return AXIS2_FAILURE; } status = axis2_msg_recv_receive(receiver, env, msg_ctx, axis2_msg_recv_get_derived( receiver, env)); } AXIS2_LOG_TRACE(env->log, AXIS2_LOG_SI, "Exit:axis2_engine_receive"); return status; }
static axis2_status_t AXIS2_CALL sandesha2_terminate_seq_msg_processor_process_in_msg ( sandesha2_msg_processor_t *msg_processor, const axutil_env_t *env, sandesha2_msg_ctx_t *rm_msg_ctx) { axis2_msg_ctx_t *terminate_msg_ctx = NULL; sandesha2_terminate_seq_t *term_seq = NULL; axis2_char_t *rmd_sequence_id = NULL; axis2_conf_ctx_t *conf_ctx = NULL; sandesha2_storage_mgr_t *storage_mgr = NULL; sandesha2_seq_property_mgr_t *seq_prop_mgr = NULL; sandesha2_create_seq_mgr_t *create_seq_mgr = NULL; sandesha2_sender_mgr_t *sender_mgr = NULL; sandesha2_next_msg_mgr_t *next_msg_mgr = NULL; sandesha2_msg_ctx_t *fault_ctx = NULL; axis2_char_t *spec_version = NULL; axis2_char_t *dbname = NULL; sandesha2_seq_ack_t *seq_ack = NULL; axis2_op_ctx_t *op_ctx = NULL; /*sandesha2_seq_property_bean_t *term_rcvd_bean = NULL;*/ AXIS2_LOG_TRACE(env->log, AXIS2_LOG_SI, "[sandesha2]Entry:sandesha2_terminate_seq_msg_processor_process_in_msg"); AXIS2_PARAM_CHECK(env->error, rm_msg_ctx, AXIS2_FAILURE); terminate_msg_ctx = sandesha2_msg_ctx_get_msg_ctx(rm_msg_ctx, env); if(axis2_msg_ctx_get_server_side(terminate_msg_ctx, env)) { axis2_msg_ctx_t **msg_ctx_map = NULL; op_ctx = axis2_msg_ctx_get_op_ctx(terminate_msg_ctx, env); msg_ctx_map = axis2_op_ctx_get_msg_ctx_map(op_ctx, env); msg_ctx_map[AXIS2_WSDL_MESSAGE_LABEL_IN] = terminate_msg_ctx; } term_seq = sandesha2_msg_ctx_get_terminate_seq(rm_msg_ctx, env); if(!term_seq) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[sandesha2] Terminate Sequence part is not available"); AXIS2_ERROR_SET(env->error, SANDESHA2_ERROR_REQD_MSG_PART_MISSING, AXIS2_FAILURE); return AXIS2_FAILURE; } rmd_sequence_id = sandesha2_identifier_get_identifier(sandesha2_terminate_seq_get_identifier( term_seq, env), env); if(!rmd_sequence_id || 0 == axutil_strlen(rmd_sequence_id)) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[sandesha2] Invalid sequence id"); return AXIS2_FAILURE; } conf_ctx = axis2_msg_ctx_get_conf_ctx(terminate_msg_ctx, env); dbname = sandesha2_util_get_dbname(env, conf_ctx); storage_mgr = sandesha2_utils_get_storage_mgr(env, dbname); if(!storage_mgr) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[sandesha2] Could not create storage manager."); AXIS2_ERROR_SET(env->error, SANDESHA2_ERROR_COULD_NOT_CREATE_STORAGE_MANAGER, AXIS2_FAILURE); return AXIS2_FAILURE; } seq_prop_mgr = sandesha2_permanent_seq_property_mgr_create(env, dbname); create_seq_mgr = sandesha2_permanent_create_seq_mgr_create(env, dbname); sender_mgr = sandesha2_permanent_sender_mgr_create(env, dbname); next_msg_mgr = sandesha2_permanent_next_msg_mgr_create(env, dbname); fault_ctx = sandesha2_fault_mgr_check_for_unknown_seq(env, rm_msg_ctx, rmd_sequence_id, seq_prop_mgr, create_seq_mgr, next_msg_mgr); if(fault_ctx) { axis2_engine_t *engine = NULL; engine = axis2_engine_create(env, conf_ctx); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[sandesha2] Send fault occurred"); axis2_engine_send_fault(engine, env, sandesha2_msg_ctx_get_msg_ctx(fault_ctx, env)); sandesha2_msg_ctx_free(fault_ctx, env); if(engine) { axis2_engine_free(engine, env); } axis2_msg_ctx_set_paused(terminate_msg_ctx, env, AXIS2_TRUE); if(seq_prop_mgr) { sandesha2_seq_property_mgr_free(seq_prop_mgr, env); } if(create_seq_mgr) { sandesha2_create_seq_mgr_free(create_seq_mgr, env); } if(sender_mgr) { sandesha2_sender_mgr_free(sender_mgr, env); } if(next_msg_mgr) { sandesha2_next_msg_mgr_free(next_msg_mgr, env); } if(storage_mgr) { sandesha2_storage_mgr_free(storage_mgr, env); } return AXIS2_SUCCESS; } /*term_rcvd_bean = sandesha2_seq_property_bean_create(env); sandesha2_seq_property_bean_set_seq_id(term_rcvd_bean, env, rmd_sequence_id); sandesha2_seq_property_bean_set_name(term_rcvd_bean, env, SANDESHA2_SEQ_PROP_TERMINATE_RECEIVED); sandesha2_seq_property_bean_set_value(term_rcvd_bean, env, AXIS2_VALUE_TRUE); sandesha2_seq_property_mgr_insert(seq_prop_mgr, env, term_rcvd_bean);*/ spec_version = sandesha2_msg_ctx_get_rm_spec_ver(rm_msg_ctx, env); if(sandesha2_spec_specific_consts_is_term_seq_res_reqd(env, spec_version)) { sandesha2_terminate_seq_msg_processor_add_terminate_seq_res(env, rm_msg_ctx, rmd_sequence_id, seq_prop_mgr); } seq_ack = sandesha2_msg_ctx_get_seq_ack(rm_msg_ctx, env); /* If we have received a sequence acknowldegment with the incoming terminate message then we may * decide to send the terminate sequence message. */ if(seq_ack) { axis2_char_t *internal_sequence_id = NULL; axis2_char_t *rms_sequence_id = NULL; axis2_char_t *last_out_msg_no_str = NULL; long highest_out_msg_no = 0; sandesha2_seq_property_bean_t *terminated_bean = NULL; /* If there is a sequence acknowledgement element present in the sequence we will check * whether the sequence is completed. If so send a terminate sequence message. */ rms_sequence_id = sandesha2_identifier_get_identifier(sandesha2_seq_ack_get_identifier( seq_ack, env), env); internal_sequence_id = sandesha2_utils_get_seq_property(env, rms_sequence_id, SANDESHA2_SEQUENCE_PROPERTY_OUTGOING_INTERNAL_SEQUENCE_ID, seq_prop_mgr); terminated_bean = sandesha2_seq_property_mgr_retrieve(seq_prop_mgr, env, internal_sequence_id, SANDESHA2_SEQ_PROP_TERMINATE_ADDED); if(terminated_bean) { axis2_char_t *value = sandesha2_seq_property_bean_get_value(terminated_bean, env); if(value && !axutil_strcmp(AXIS2_VALUE_TRUE, value)) { AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[sandesha2] Terminate sequence message was added previously"); } sandesha2_seq_property_bean_free(terminated_bean, env); } else { /* Retrieve the message number of the RM 1.0 last message */ last_out_msg_no_str = sandesha2_utils_get_seq_property(env, internal_sequence_id, SANDESHA2_SEQ_PROP_LAST_OUT_MESSAGE_NO, seq_prop_mgr); if(last_out_msg_no_str) { highest_out_msg_no = atol(last_out_msg_no_str); if(last_out_msg_no_str) { AXIS2_FREE(env->allocator, last_out_msg_no_str); } } else { highest_out_msg_no = sandesha2_app_msg_processor_get_prev_msg_no(env, internal_sequence_id, seq_prop_mgr); } if(highest_out_msg_no > 0) { axis2_bool_t completed = AXIS2_FALSE; axutil_array_list_t *ack_range_list = NULL; AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[sandesha2] highest_out_msg_no:%ld", highest_out_msg_no); ack_range_list = sandesha2_seq_ack_get_ack_range_list(seq_ack, env); completed = sandesha2_ack_mgr_verify_seq_completion(env, ack_range_list, highest_out_msg_no); if(completed) { AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[sandesha2] Sequence %s is completed. So adding terminate msg", rms_sequence_id); sandesha2_terminate_mgr_send_terminate_seq_msg(env, rm_msg_ctx, rms_sequence_id, internal_sequence_id, storage_mgr, seq_prop_mgr, create_seq_mgr, sender_mgr); } } if(internal_sequence_id) { AXIS2_FREE(env->allocator, internal_sequence_id); } } } else { sandesha2_terminate_seq_msg_processor_setup_highest_msg_nums(env, conf_ctx, storage_mgr, rmd_sequence_id, rm_msg_ctx, seq_prop_mgr, create_seq_mgr, sender_mgr); } /*sandesha2_terminate_mgr_clean_recv_side_after_terminate_msg(env, conf_ctx, rmd_sequence_id, storage_mgr, seq_prop_mgr, next_msg_mgr);*/ /*transmit_bean = sandesha2_seq_property_bean_create_with_data(env, rmd_sequence_id, SANDESHA2_SEQ_PROP_SEQ_TERMINATED, AXIS2_VALUE_TRUE); sandesha2_seq_property_mgr_insert(seq_prop_mgr, env, transmit_bean); sandesha2_seq_mgr_update_last_activated_time(env, rmd_sequence_id, storage_mgr); */ /* We have no intention to pass this message beyond Sandesha2/C handler. So pause the message * context */ sandesha2_msg_ctx_set_paused(rm_msg_ctx, env, AXIS2_TRUE); if(seq_prop_mgr) { sandesha2_seq_property_mgr_free(seq_prop_mgr, env); } if(create_seq_mgr) { sandesha2_create_seq_mgr_free(create_seq_mgr, env); } if(sender_mgr) { sandesha2_sender_mgr_free(sender_mgr, env); } if(next_msg_mgr) { sandesha2_next_msg_mgr_free(next_msg_mgr, env); } if(storage_mgr) { sandesha2_storage_mgr_free(storage_mgr, env); } AXIS2_LOG_TRACE(env->log, AXIS2_LOG_SI, "[sandesha2]Exit:sandesha2_terminate_seq_msg_processor_process_in_msg"); return AXIS2_SUCCESS; }
AXIS2_EXTERN axis2_status_t AXIS2_CALL rampart_shb_build_message( const axutil_env_t *env, axis2_msg_ctx_t *msg_ctx, rampart_context_t *rampart_context, axiom_soap_envelope_t *soap_envelope) { axis2_status_t status = AXIS2_SUCCESS; axiom_soap_header_t *soap_header = NULL; axiom_node_t *soap_header_node = NULL; axiom_element_t *soap_header_ele = NULL; axiom_soap_header_block_t *sec_header_block = NULL; axiom_namespace_t *sec_ns_obj = NULL; axiom_node_t *sec_node = NULL; axiom_element_t *sec_ele = NULL; axis2_bool_t server_side = AXIS2_FALSE; /* * sign parts list. Moved this up the building process. This was originally * in the rampart_sig_sign_message */ axutil_array_list_t *sign_parts_list = NULL; AXIS2_ENV_CHECK(env,AXIS2_FAILURE); soap_header = axiom_soap_envelope_get_header(soap_envelope, env); soap_header_node = axiom_soap_header_get_base_node(soap_header, env); soap_header_ele = (axiom_element_t *)axiom_node_get_data_element( soap_header_node, env); sec_ns_obj = axiom_namespace_create(env, RAMPART_WSSE_XMLNS, RAMPART_WSSE); sec_header_block = axiom_soap_header_add_header_block(soap_header, env, RAMPART_SECURITY, sec_ns_obj); /* sec_ns_obj is cloned there */ server_side = axis2_msg_ctx_get_server_side(msg_ctx, env); if(!sec_header_block) { AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[rampart][shb] Security header block is NULL"); axiom_namespace_free(sec_ns_obj, env); return AXIS2_SUCCESS; } axiom_soap_header_block_set_must_understand_with_bool(sec_header_block, env, AXIS2_TRUE); sec_node = axiom_soap_header_block_get_base_node(sec_header_block, env); sec_ele = (axiom_element_t *) axiom_node_get_data_element(sec_node, env); sign_parts_list = axutil_array_list_create(env, 4); /*Timestamp Inclusion*/ if(rampart_context_is_include_timestamp(rampart_context,env)) { int ttl = -1; axis2_bool_t need_millisecond = AXIS2_TRUE; AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[rampart][shb] Building Timestamp Token"); AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[rampart][shb] Using default timeToLive value %d", RAMPART_TIMESTAMP_TOKEN_DEFAULT_TIME_TO_LIVE); ttl = rampart_context_get_ttl(rampart_context,env); need_millisecond = rampart_context_get_need_millisecond_precision(rampart_context, env); status = rampart_timestamp_token_build(env, sec_node, ttl, need_millisecond); if (status == AXIS2_FAILURE) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[rampart][shb] Timestamp Token build failed. ERROR"); axiom_namespace_free(sec_ns_obj, env); return AXIS2_FAILURE; } } /*Check whether we need username token*/ /*User name tokens includes in messages sent from client to server*/ if(!axis2_msg_ctx_get_server_side(msg_ctx,env)) { if(rampart_context_is_include_username_token(rampart_context,env)) { /*Now we are passing rampart_context here so inside this method relevant parameters are extracted. */ AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[rampart][shb] Building UsernameToken"); status = rampart_username_token_build( env, rampart_context, sec_node, sec_ns_obj); if (status == AXIS2_FAILURE) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[rampart][shb] UsernameToken build failed. ERROR"); axiom_namespace_free(sec_ns_obj, env); return AXIS2_FAILURE; } } } /*Custom tokens are included if its available in the rampart context*/ if(!axis2_msg_ctx_get_server_side(msg_ctx,env)) { axutil_array_list_t *token_list = NULL; token_list = rampart_context_get_custom_tokens(rampart_context, env); if(token_list){ int size = 0, i = 0; size = axutil_array_list_size(token_list, env); for (i = 0; i < size; i++){ axiom_node_t *token_node = NULL; token_node = (axiom_node_t*)axutil_array_list_get(token_list, env, i); if(token_node){ axis2_status_t status = AXIS2_FAILURE; status = axiom_node_add_child(sec_node, env, token_node); if(status != AXIS2_SUCCESS){ return AXIS2_FAILURE; } } } } } if (rampart_context_is_include_supporting_token(rampart_context, env, server_side, AXIS2_FALSE, RP_PROPERTY_SAML_TOKEN)) { status = rampart_saml_supporting_token_build(env, rampart_context, sec_node, sign_parts_list); if (status == AXIS2_FAILURE) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[rampart][shb] SAML Supporting token build failed. ERROR"); axutil_array_list_free(sign_parts_list, env); axiom_namespace_free(sec_ns_obj, env); return AXIS2_FAILURE; } } if (rampart_context_is_include_supporting_token(rampart_context, env, server_side, AXIS2_FALSE, RP_PROPERTY_ISSUED_TOKEN)) { status = rampart_issued_supporting_token_build(rampart_context, env, sec_node, sign_parts_list); if (status == AXIS2_FAILURE) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[rampart][shb] Issued supporting token build failed. ERROR"); axutil_array_list_free(sign_parts_list, env); axiom_namespace_free(sec_ns_obj, env); return AXIS2_FAILURE; } } /*Signature Confirmation support. Only in the server side*/ if(axis2_msg_ctx_get_server_side(msg_ctx,env)){ axis2_bool_t sign_conf_reqd = AXIS2_FALSE; /*Sign_conf_reqd <- Get from context <- policy*/ sign_conf_reqd = rampart_context_is_sig_confirmation_reqd(rampart_context, env); if(sign_conf_reqd){ status = rampart_sig_confirm_signature(env, msg_ctx, rampart_context, sec_node); } } /*check the binding*/ if((rampart_context_get_binding_type(rampart_context,env)) == RP_PROPERTY_ASYMMETRIC_BINDING) { axis2_status_t status = AXIS2_FAILURE; AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[rampart][shb] Asymmetric Binding. "); status = rampart_shb_do_asymmetric_binding(env, msg_ctx, rampart_context, soap_envelope, sec_node, sec_ns_obj, sign_parts_list); axiom_namespace_free(sec_ns_obj, env); if(AXIS2_FAILURE == status){ AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[rampart][shb] Asymmetric Binding failed"); if(axis2_msg_ctx_get_server_side(msg_ctx,env)){ AXIS2_ERROR_SET(env->error, RAMPART_ERROR_INVALID_SECURITY , AXIS2_FAILURE); AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[rampart][shb] %s", AXIS2_ERROR_GET_MESSAGE(env->error)); rampart_create_fault_envelope(env, RAMPART_FAULT_INVALID_SECURITY, " Asymmetric Binding failed. Check configurations ", RAMPART_FAULT_IN_POLICY, msg_ctx); } axutil_array_list_free(sign_parts_list, env); return AXIS2_FAILURE; }else{ axutil_array_list_free(sign_parts_list, env); return AXIS2_SUCCESS; } } else if((rampart_context_get_binding_type(rampart_context,env)) == RP_PROPERTY_SYMMETRIC_BINDING) { axis2_status_t status = AXIS2_FAILURE; /*Do Symmetric_binding specific things*/ AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[rampart][shb] Symmetric Binding. "); status = rampart_shb_do_symmetric_binding(env, msg_ctx, rampart_context, soap_envelope, sec_node, sec_ns_obj, sign_parts_list); axiom_namespace_free(sec_ns_obj, env); if(AXIS2_FAILURE == status){ AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[rampart][shb] Symmetric Binding failed"); if(axis2_msg_ctx_get_server_side(msg_ctx,env)){ AXIS2_ERROR_SET(env->error, RAMPART_ERROR_INVALID_SECURITY, AXIS2_FAILURE); rampart_create_fault_envelope(env, RAMPART_FAULT_INVALID_SECURITY, " Symmetric Binding failed. Check configurations ", RAMPART_FAULT_IN_POLICY, msg_ctx); } axutil_array_list_free(sign_parts_list, env); return AXIS2_FAILURE; }else{ axutil_array_list_free(sign_parts_list, env); return AXIS2_SUCCESS; } } else if((rampart_context_get_binding_type(rampart_context,env)) == RP_PROPERTY_TRANSPORT_BINDING) { AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "[rampart][shb] Using transport binding"); axiom_namespace_free(sec_ns_obj, env); axutil_array_list_free(sign_parts_list, env); return AXIS2_SUCCESS; }else{ axutil_array_list_free(sign_parts_list, env); axiom_namespace_free(sec_ns_obj, env); return AXIS2_FAILURE; } }
AXIS2_EXTERN axis2_status_t AXIS2_CALL sandesha2_seq_mgr_setup_new_outgoing_sequence( const axutil_env_t *env, axis2_msg_ctx_t *first_app_msg, axis2_char_t *internal_sequence_id, axis2_char_t *spec_version, sandesha2_seq_property_mgr_t *seq_prop_mgr) { axis2_conf_ctx_t *conf_ctx = NULL; axis2_char_t *addr_ns_val = NULL; axutil_property_t *property = NULL; sandesha2_seq_property_bean_t *addr_ns_bean = NULL; axis2_char_t *anon_uri = NULL; axis2_endpoint_ref_t *to_epr = NULL; axis2_char_t *acks_to_str = NULL; sandesha2_seq_property_bean_t *to_bean = NULL; sandesha2_seq_property_bean_t *reply_to_bean = NULL; sandesha2_seq_property_bean_t *acks_to_bean = NULL; sandesha2_seq_property_bean_t *msgs_bean = NULL; axis2_char_t *transport_to = NULL; axis2_endpoint_ref_t *reply_to_epr = NULL; axis2_bool_t is_svr_side = AXIS2_FALSE; AXIS2_LOG_TRACE(env->log, AXIS2_LOG_SI, "Entry:sandesha2_seq_mgr_setup_new_outgoing_sequence"); AXIS2_PARAM_CHECK(env->error, first_app_msg, AXIS2_FAILURE); AXIS2_PARAM_CHECK(env->error, internal_sequence_id, AXIS2_FAILURE); AXIS2_PARAM_CHECK(env->error, spec_version, AXIS2_FAILURE); AXIS2_PARAM_CHECK(env->error, seq_prop_mgr, AXIS2_FAILURE); conf_ctx = axis2_msg_ctx_get_conf_ctx(first_app_msg, env); property = axis2_msg_ctx_get_property(first_app_msg, env, AXIS2_WSA_VERSION); if(property) { addr_ns_val = axutil_property_get_value(property, env); } if(!addr_ns_val) { axis2_op_ctx_t *op_ctx = NULL; axis2_msg_ctx_t *req_msg_ctx = NULL; op_ctx = axis2_msg_ctx_get_op_ctx(first_app_msg, env); req_msg_ctx = axis2_op_ctx_get_msg_ctx(op_ctx, env, AXIS2_WSDL_MESSAGE_LABEL_IN); if(req_msg_ctx) { property = axis2_msg_ctx_get_property(req_msg_ctx, env, AXIS2_WSA_VERSION); if(property) { addr_ns_val = axutil_property_get_value(property, env); } } } if(!addr_ns_val) { addr_ns_val = AXIS2_WSA_NAMESPACE; } addr_ns_bean = sandesha2_seq_property_bean_create_with_data(env, internal_sequence_id, SANDESHA2_SEQ_PROP_ADDRESSING_NAMESPACE_VALUE, addr_ns_val); sandesha2_seq_property_mgr_insert(seq_prop_mgr, env, addr_ns_bean); if(addr_ns_bean) { sandesha2_seq_property_bean_free(addr_ns_bean, env); } anon_uri = sandesha2_spec_specific_consts_get_anon_uri(env, addr_ns_val); to_epr = axis2_msg_ctx_get_to(first_app_msg, env); property = axis2_msg_ctx_get_property(first_app_msg, env, SANDESHA2_CLIENT_ACKS_TO); if(property) { acks_to_str = axutil_property_get_value(property, env); } if (to_epr) { to_bean = sandesha2_seq_property_bean_create_with_data(env, internal_sequence_id, SANDESHA2_SEQ_PROP_TO_EPR, (axis2_char_t*)axis2_endpoint_ref_get_address(to_epr, env)); sandesha2_seq_property_mgr_insert(seq_prop_mgr, env, to_bean); sandesha2_seq_property_bean_free(to_bean, env); } is_svr_side = axis2_msg_ctx_get_server_side(first_app_msg, env); if(is_svr_side) { axis2_op_ctx_t *op_ctx = NULL; axis2_msg_ctx_t *req_msg_ctx = NULL; op_ctx = axis2_msg_ctx_get_op_ctx(first_app_msg, env); req_msg_ctx = axis2_op_ctx_get_msg_ctx(op_ctx, env, AXIS2_WSDL_MESSAGE_LABEL_IN); if(!req_msg_ctx) { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[sandesha2] Cannot find the request message from the operation context"); return AXIS2_FAILURE; } reply_to_epr = axis2_msg_ctx_get_to(req_msg_ctx, env); if(reply_to_epr) { const axis2_char_t *temp_epr_addr = axis2_endpoint_ref_get_address(reply_to_epr, env); if(temp_epr_addr) { AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "temp_epr_address:%s", temp_epr_addr); acks_to_str = (axis2_char_t *) temp_epr_addr; reply_to_bean = sandesha2_seq_property_bean_create_with_data(env, internal_sequence_id, SANDESHA2_SEQ_PROP_REPLY_TO_EPR, (axis2_char_t*) temp_epr_addr); sandesha2_seq_property_mgr_insert(seq_prop_mgr, env, reply_to_bean); sandesha2_seq_property_bean_free(reply_to_bean, env); } } else { AXIS2_LOG_ERROR(env->log, AXIS2_LOG_SI, "[sandesha2] Cannot get request message from the operation context"); return AXIS2_FAILURE; } } else /* Not server side */ { reply_to_epr = axis2_msg_ctx_get_reply_to(first_app_msg, env); if(reply_to_epr) { const axis2_char_t *temp_epr_addr = axis2_endpoint_ref_get_address(reply_to_epr, env); if(temp_epr_addr) { AXIS2_LOG_DEBUG(env->log, AXIS2_LOG_SI, "temp_epr_address:%s", temp_epr_addr); reply_to_bean = sandesha2_seq_property_bean_create_with_data(env, internal_sequence_id, SANDESHA2_SEQ_PROP_REPLY_TO_EPR, (axis2_char_t*) temp_epr_addr); sandesha2_seq_property_mgr_insert(seq_prop_mgr, env, reply_to_bean); sandesha2_seq_property_bean_free(reply_to_bean, env); } } } if(!acks_to_str) { acks_to_str = anon_uri; } acks_to_bean = sandesha2_seq_property_bean_create_with_data(env, internal_sequence_id, SANDESHA2_SEQ_PROP_ACKS_TO_EPR, acks_to_str); msgs_bean = sandesha2_seq_property_bean_create_with_data(env, internal_sequence_id, SANDESHA2_SEQ_PROP_CLIENT_COMPLETED_MESSAGES, ""); if(msgs_bean) { sandesha2_seq_property_mgr_insert(seq_prop_mgr, env, msgs_bean); sandesha2_seq_property_bean_free(msgs_bean, env); } if(acks_to_bean) { sandesha2_seq_property_mgr_insert(seq_prop_mgr, env, acks_to_bean); sandesha2_seq_property_bean_free(acks_to_bean, env); } transport_to = axis2_msg_ctx_get_transport_url(first_app_msg, env); if(transport_to) { sandesha2_seq_property_bean_t *transport_to_bean = NULL; transport_to_bean = sandesha2_seq_property_bean_create_with_data(env, internal_sequence_id, SANDESHA2_SEQ_PROP_TRANSPORT_TO, transport_to); sandesha2_seq_property_mgr_insert(seq_prop_mgr, env, transport_to_bean); } sandesha2_seq_mgr_update_last_activated_time(env, internal_sequence_id, seq_prop_mgr); AXIS2_LOG_TRACE(env->log, AXIS2_LOG_SI, "Exit:sandesha2_seq_mgr_setup_new_outgoing_sequence"); return AXIS2_SUCCESS; }