/* * 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. */ #ifndef AXIS2_OP_CTX_H #define AXIS2_OP_CTX_H /** * @defgroup axis2_op_ctx operation context * @ingroup axis2_context * operation context represents a running "instance" of an operation. * operation context allows messages to be grouped into operations as in * WSDL 2.0 specification. operations are essentially arbitrary message exchange * patterns (MEP). So as messages are being exchanged, operation context remembers * the state of message exchange pattern specifics. * The implementation of operation context supports MEPs which have one input * message and/or one output message. In order to support other MEPs one must * extend this struct. * @{ */ /** * @file axis2_op_ctx.h */ #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif /** Type name for struct axis2_op_ctx */ typedef struct axis2_op_ctx axis2_op_ctx_t; struct axis2_svc_ctx; /** * Creates an operation context struct instance. * @param env pointer to environment struct * @param op pointer to operation that is related to operation context. * operation context does not assume the ownership of the struct * @param svc_ctx pointer to parent service context * @return pointer to newly created operation context */ AXIS2_EXTERN axis2_op_ctx_t *AXIS2_CALL axis2_op_ctx_create( const axutil_env_t * env, struct axis2_op *op, struct axis2_svc_ctx *svc_ctx); /** * Gets base which is of context type. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @return pointer to base context */ AXIS2_EXTERN axis2_ctx_t *AXIS2_CALL axis2_op_ctx_get_base( const axis2_op_ctx_t * op_ctx, const axutil_env_t * env); /** * Frees operation context. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @return void */ AXIS2_EXTERN void AXIS2_CALL axis2_op_ctx_free( struct axis2_op_ctx *op_ctx, const axutil_env_t * env); /** * Initializes operation context. This method traverses through all the * message contexts stored within it and initialize them all. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @param conf pointer to conf configuration * @return AXIS2_SUCCESS on success, else AXIS2_FAILURE */ AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_ctx_init( struct axis2_op_ctx *op_ctx, const axutil_env_t * env, struct axis2_conf *conf); /** * Gets operation the operation context is related to. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @return pointer to operation */ AXIS2_EXTERN struct axis2_op *AXIS2_CALL axis2_op_ctx_get_op( const axis2_op_ctx_t * op_ctx, const axutil_env_t * env); /** * Gets parent which is of service context type. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @return pointer to service context within which this operation * context lives */ AXIS2_EXTERN struct axis2_svc_ctx *AXIS2_CALL axis2_op_ctx_get_parent( const axis2_op_ctx_t * op_ctx, const axutil_env_t * env); /** * Adds a message context. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @param msg_ctx pointer to message context * does not assume the ownership of the struct * @return AXIS2_SUCCESS on success, else AXIS2_FAILURE */ AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_ctx_add_msg_ctx( struct axis2_op_ctx *op_ctx, const axutil_env_t * env, axis2_msg_ctx_t * msg_ctx); /** * Gets message context with the given message ID. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @param message_id message label of type axis2_wsdl_msg_labels_t. * This can be one of AXIS2_WSDL_MESSAGE_LABEL_IN or AXIS2_WSDL_MESSAGE_LABEL_OUT * from the axis2_wsdl_msg_labels enum. * @return pointer to message context with given ID */ AXIS2_EXTERN axis2_msg_ctx_t *AXIS2_CALL axis2_op_ctx_get_msg_ctx( const axis2_op_ctx_t * op_ctx, const axutil_env_t * env, const axis2_wsdl_msg_labels_t message_id); /** * Gets the bool value indicating if the MEP is complete. * MEP is considered complete when all the messages that * are associated with the MEP has arrived. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @return AXIS2_TRUE if MEP invocation is complete, else AXIS2_FALSE */ AXIS2_EXTERN axis2_bool_t AXIS2_CALL axis2_op_ctx_get_is_complete( const axis2_op_ctx_t * op_ctx, const axutil_env_t * env); /** * Sets the bool value indicating if the MEP is complete. * MEP is considered complete when all the messages that * are associated with the MEP has arrived. * @param op_ctx pointer to operating context * @param env pointer to environment struct * @param is_complete AXIS2_TRUE if MEP invocation is complete, else * AXIS2_FALSE * @return AXIS2_SUCCESS on success, else AXIS2_FAILURE */ AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_ctx_set_complete( struct axis2_op_ctx *op_ctx, const axutil_env_t * env, axis2_bool_t is_complete); /** * Cleans up the operation context. Clean up includes removing all * message context references recorded in operation context. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @return AXIS2_SUCCESS on success, else AXIS2_FAILURE */ AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_ctx_cleanup( struct axis2_op_ctx *op_ctx, const axutil_env_t * env); /** * Sets parent service context. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @param svc_ctx pointer to service context, message context does not * assume the ownership of the struct * @return AXIS2_SUCCESS on success, else AXIS2_FAILURE */ AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_ctx_set_parent( struct axis2_op_ctx *op_ctx, const axutil_env_t * env, struct axis2_svc_ctx *svc_ctx); /** * Gets the message context map. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @return pointer to hash table containing message contexts */ AXIS2_EXTERN axis2_msg_ctx_t **AXIS2_CALL axis2_op_ctx_get_msg_ctx_map( const axis2_op_ctx_t * op_ctx, const axutil_env_t * env); /** * Sets the bool value indicating the status of response. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @param response_written AXIS2_TRUE if response is written, else * AXIS2_FALSE * @return AXIS2_SUCCESS on success, else AXIS2_FAILURE */ AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_ctx_set_response_written( axis2_op_ctx_t * op_ctx, const axutil_env_t * env, const axis2_bool_t response_written); /** * Checks the response status, whether it is written or not. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @return AXIS2_TRUE if response is already written, else AXIS2_FALSE */ AXIS2_EXTERN axis2_bool_t AXIS2_CALL axis2_op_ctx_get_response_written( const axis2_op_ctx_t * op_ctx, const axutil_env_t * env); /** * Destroys mutex used to synchronize the read/write operations * @param op_ctx pointer to operation context * @param env pointer to environment struct * @return returns void */ AXIS2_EXTERN void AXIS2_CALL axis2_op_ctx_destroy_mutex( struct axis2_op_ctx *op_ctx, const axutil_env_t * env); /** * Checks whether op_ctx is in use. This is necessary when destroying the * thread mutex at the http_worker to check whether the operation context * is still in use * @param op_ctx pointer to operation context * @param env pointer to environment struct * @return AXIS2_TRUE if still in use, else AXIS2_FALSE */ AXIS2_EXTERN axis2_bool_t AXIS2_CALL axis2_op_ctx_is_in_use( const axis2_op_ctx_t * op_ctx, const axutil_env_t * env); /** * Set operation context's is_in_use attribute. This is necessary when * destroying the thread mutex at the http_worker to check whether the * operation context is still in use * @param op_ctx pointer to operation context * @param env pointer to environment struct * @param is_in_use AXIS2_TRUE if still in use, else AXIS2_FALSE * @return AXIS2_TRUE if still in use, else AXIS2_FALSE */ AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_ctx_set_in_use( struct axis2_op_ctx *op_ctx, const axutil_env_t * env, axis2_bool_t is_in_use); /** * Incrementing the op_ctx ref count. This is necessary when * prevent freeing op_ctx through op_client when it is in use * as in sandesha where the msg_cts is stored. * @param op_ctx pointer to operation context * @param env pointer to environment struct * @return AXIS2_TRUE if still in use, else AXIS2_FALSE */ AXIS2_EXTERN axis2_status_t AXIS2_CALL axis2_op_ctx_increment_ref( axis2_op_ctx_t * op_ctx, const axutil_env_t * env); /** @} */ #ifdef __cplusplus } #endif #endif /* AXIS2_OP_CTX_H */