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apache / axis-axis2-c-sandesha / refs/tags/0.90-3 / . / src / wsrm / ack_range.c
blob: 2c94522a79c2cb54cf2ec6e8a6b3bbd29e7f9377 [file] [log] [blame]
/*
* Copyright 2004,2005 The Apache Software Foundation.
*
* Licensed 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 <sandesha2_ack_range.h>
#include <sandesha2_constants.h>
#include <axutil_types.h>
#include <stdio.h>
/**
* @brief AckRange struct impl
* Sandesha2 IOM AckRange
*/
typedef struct sandesha2_ack_range_impl sandesha2_ack_range_impl_t;
struct sandesha2_ack_range_impl
{
sandesha2_ack_range_t ack_range;
long upper_val;
long lower_val;
axis2_char_t *ns_val;
axis2_char_t *prefix;
};
#define SANDESHA2_INTF_TO_IMPL(ack_range) \
((sandesha2_ack_range_impl_t *)(ack_range))
/***************************** Function headers *******************************/
axis2_char_t* AXIS2_CALL
sandesha2_ack_range_get_namespace_value (sandesha2_iom_rm_element_t *ack_range,
const axutil_env_t *env);
void* AXIS2_CALL
sandesha2_ack_range_from_om_node(sandesha2_iom_rm_element_t *ack_range,
const axutil_env_t *env, axiom_node_t *om_node);
axiom_node_t* AXIS2_CALL
sandesha2_ack_range_to_om_node(sandesha2_iom_rm_element_t *ack_range,
const axutil_env_t *env, void *om_node);
axis2_bool_t AXIS2_CALL
sandesha2_ack_range_is_namespace_supported(sandesha2_iom_rm_element_t *ack_range,
const axutil_env_t *env, axis2_char_t *namespace);
axis2_status_t AXIS2_CALL
sandesha2_ack_range_free (sandesha2_iom_rm_element_t *ack_range,
const axutil_env_t *env);
/***************************** End of function headers ************************/
AXIS2_EXTERN sandesha2_ack_range_t* AXIS2_CALL
sandesha2_ack_range_create(
const axutil_env_t *env,
axis2_char_t *ns_val,
axis2_char_t *prefix)
{
sandesha2_ack_range_impl_t *ack_range_impl = NULL;
AXIS2_ENV_CHECK(env, NULL);
AXIS2_PARAM_CHECK(env->error, ns_val, NULL);
if(AXIS2_FAILURE == sandesha2_ack_range_is_namespace_supported(
(sandesha2_iom_rm_element_t*)ack_range_impl,
env, ns_val))
{
AXIS2_ERROR_SET(env->error, SANDESHA2_ERROR_UNSUPPORTED_NS,
AXIS2_FAILURE);
return NULL;
}
ack_range_impl = (sandesha2_ack_range_impl_t *)AXIS2_MALLOC
(env->allocator, sizeof(sandesha2_ack_range_impl_t));
if(NULL == ack_range_impl)
{
AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE);
return NULL;
}
ack_range_impl->ns_val = NULL;
ack_range_impl->prefix = NULL;
ack_range_impl->upper_val = 0;
ack_range_impl->lower_val = 0;
ack_range_impl->ack_range.element.ops = NULL;
ack_range_impl->ack_range.element.ops = AXIS2_MALLOC(env->allocator,
sizeof(sandesha2_iom_rm_element_ops_t));
if(NULL == ack_range_impl->ack_range.element.ops)
{
sandesha2_ack_range_free((sandesha2_iom_rm_element_t*)
ack_range_impl, env);
AXIS2_ERROR_SET(env->error, AXIS2_ERROR_NO_MEMORY, AXIS2_FAILURE);
return NULL;
}
ack_range_impl->ns_val = (axis2_char_t *)axutil_strdup(env ,ns_val);
ack_range_impl->prefix = (axis2_char_t *)axutil_strdup(env, prefix);
ack_range_impl->upper_val = 0;
ack_range_impl->lower_val = 0;
ack_range_impl->ack_range.element.ops->get_namespace_value =
sandesha2_ack_range_get_namespace_value;
ack_range_impl->ack_range.element.ops->from_om_node =
sandesha2_ack_range_from_om_node;
ack_range_impl->ack_range.element.ops->to_om_node =
sandesha2_ack_range_to_om_node;
ack_range_impl->ack_range.element.ops->is_namespace_supported =
sandesha2_ack_range_is_namespace_supported;
ack_range_impl->ack_range.element.ops->free = sandesha2_ack_range_free;
return &(ack_range_impl->ack_range);
}
axis2_status_t AXIS2_CALL
sandesha2_ack_range_free (sandesha2_iom_rm_element_t *ack_range,
const axutil_env_t *env)
{
sandesha2_ack_range_impl_t *ack_range_impl = NULL;
AXIS2_ENV_CHECK(env, AXIS2_FAILURE);
ack_range_impl = SANDESHA2_INTF_TO_IMPL(ack_range);
if(NULL != ack_range_impl->ns_val)
{
AXIS2_FREE(env->allocator, ack_range_impl->ns_val);
ack_range_impl->ns_val = NULL;
}
if(NULL != ack_range_impl->prefix)
{
AXIS2_FREE(env->allocator, ack_range_impl->prefix);
ack_range_impl->prefix = NULL;
}
ack_range_impl->upper_val = 0;
ack_range_impl->lower_val = 0;
if(NULL != ack_range->ops)
{
AXIS2_FREE(env->allocator, ack_range->ops);
ack_range->ops = NULL;
}
if(NULL != ack_range_impl->ack_range.element.ops)
{
AXIS2_FREE(env->allocator, ack_range_impl->ack_range.element.ops);
ack_range_impl->ack_range.element.ops = NULL;
}
AXIS2_FREE(env->allocator, SANDESHA2_INTF_TO_IMPL(ack_range));
return AXIS2_SUCCESS;
}
axis2_char_t* AXIS2_CALL
sandesha2_ack_range_get_namespace_value (sandesha2_iom_rm_element_t *ack_range,
const axutil_env_t *env)
{
sandesha2_ack_range_impl_t *ack_range_impl = NULL;
AXIS2_ENV_CHECK(env, NULL);
ack_range_impl = SANDESHA2_INTF_TO_IMPL(ack_range);
return ack_range_impl->ns_val;
}
void* AXIS2_CALL
sandesha2_ack_range_from_om_node(
sandesha2_iom_rm_element_t *ack_range,
const axutil_env_t *env,
axiom_node_t *om_node)
{
sandesha2_ack_range_impl_t *ack_range_impl = NULL;
axutil_qname_t *low_qname = NULL;
axutil_qname_t *upper_qname = NULL;
axiom_element_t *om_element = NULL;
axis2_char_t *lower_str = NULL;
axis2_char_t *upper_str = NULL;
AXIS2_ENV_CHECK(env, NULL);
AXIS2_PARAM_CHECK(env->error, om_node, NULL);
ack_range_impl = SANDESHA2_INTF_TO_IMPL(ack_range);
low_qname = axutil_qname_create(env, SANDESHA2_WSRM_COMMON_LOWER,
ack_range_impl->ns_val, ack_range_impl->prefix);
if(!low_qname)
{
return NULL;
}
upper_qname = axutil_qname_create(env, SANDESHA2_WSRM_COMMON_UPPER,
ack_range_impl->ns_val, ack_range_impl->prefix);
if(!upper_qname)
{
return NULL;
}
om_element = axiom_node_get_data_element(om_node, env);
if(!om_element)
{
AXIS2_ERROR_SET(env->error, SANDESHA2_ERROR_NULL_OM_ELEMENT,
AXIS2_FAILURE);
return NULL;
}
/*lower_str = axiom_element_get_attribute_value(om_element, env,
low_qname);
upper_str = axiom_element_get_attribute_value(om_element, env,
upper_qname);*/
lower_str = axiom_element_get_attribute_value_by_name(om_element, env,
SANDESHA2_WSRM_COMMON_LOWER);
upper_str = axiom_element_get_attribute_value_by_name(om_element, env,
SANDESHA2_WSRM_COMMON_UPPER);
if(!lower_str || !upper_str)
{
AXIS2_ERROR_SET(env->error, SANDESHA2_ERROR_NULL_OM_ATTRIBUTE,
AXIS2_FAILURE);
return NULL;
}
ack_range_impl->lower_val = AXIS2_ATOI(lower_str);
ack_range_impl->upper_val = AXIS2_ATOI(upper_str);
return ack_range;
}
axiom_node_t* AXIS2_CALL
sandesha2_ack_range_to_om_node(
sandesha2_iom_rm_element_t *ack_range,
const axutil_env_t *env,
void *om_node)
{
sandesha2_ack_range_impl_t *ack_range_impl = NULL;
axiom_namespace_t *rm_ns = NULL;
axiom_element_t *ar_element = NULL;
axiom_node_t *ar_node = NULL;
axiom_attribute_t *lower_attr = NULL;
axiom_attribute_t *upper_attr = NULL;
axis2_char_t *lower_str = NULL;
axis2_char_t *upper_str = NULL;
AXIS2_ENV_CHECK(env, NULL);
AXIS2_PARAM_CHECK(env->error, om_node, NULL);
ack_range_impl = SANDESHA2_INTF_TO_IMPL(ack_range);
lower_str = AXIS2_MALLOC(env->allocator, 32*sizeof(axis2_char_t));
upper_str = AXIS2_MALLOC(env->allocator, 32*sizeof(axis2_char_t));
sprintf(lower_str, "%ld", ack_range_impl->lower_val);
sprintf(upper_str, "%ld", ack_range_impl->upper_val);
rm_ns = axiom_namespace_create(env, ack_range_impl->ns_val,
SANDESHA2_WSRM_COMMON_NS_PREFIX_RM);
if(NULL == rm_ns)
{
return NULL;
}
/*lower_attr = axiom_attribute_create(env, SANDESHA2_WSRM_COMMON_LOWER,
lower_str, rm_ns);*/
lower_attr = axiom_attribute_create(env, SANDESHA2_WSRM_COMMON_LOWER,
lower_str, NULL);
if(NULL == lower_attr)
{
return NULL;
}
/*upper_attr = axiom_attribute_create(env, SANDESHA2_WSRM_COMMON_UPPER,
upper_str, rm_ns);*/
upper_attr = axiom_attribute_create(env, SANDESHA2_WSRM_COMMON_UPPER,
upper_str, NULL);
if(NULL == upper_attr)
{
return NULL;
}
ar_element = axiom_element_create(env, (axiom_node_t*)om_node,
SANDESHA2_WSRM_COMMON_ACK_RANGE, rm_ns, &ar_node);
if(NULL == ar_element)
{
return NULL;
}
axiom_element_add_attribute(ar_element, env, lower_attr, ar_node);
axiom_element_add_attribute(ar_element, env, upper_attr, ar_node);
return (axiom_node_t*)om_node;
}
axis2_bool_t AXIS2_CALL
sandesha2_ack_range_is_namespace_supported(
sandesha2_iom_rm_element_t *ack_range,
const axutil_env_t *env,
axis2_char_t *namespace)
{
sandesha2_ack_range_impl_t *ack_range_impl = NULL;
AXIS2_ENV_CHECK(env, AXIS2_FAILURE);
ack_range_impl = SANDESHA2_INTF_TO_IMPL(ack_range);
if(0 == axutil_strcmp(namespace, SANDESHA2_SPEC_2005_02_NS_URI))
{
return AXIS2_TRUE;
}
if(0 == axutil_strcmp(namespace, SANDESHA2_SPEC_2006_08_NS_URI))
{
return AXIS2_TRUE;
}
return AXIS2_FALSE;
}
long AXIS2_CALL
sandesha2_ack_range_get_lower_value(sandesha2_ack_range_t *ack_range,
const axutil_env_t *env)
{
sandesha2_ack_range_impl_t *ack_range_impl = NULL;
AXIS2_ENV_CHECK(env, AXIS2_FAILURE);
ack_range_impl = SANDESHA2_INTF_TO_IMPL(ack_range);
return ack_range_impl->lower_val;
}
axis2_status_t AXIS2_CALL
sandesha2_ack_range_set_lower_value(sandesha2_ack_range_t *ack_range,
const axutil_env_t *env, long value)
{
sandesha2_ack_range_impl_t *ack_range_impl = NULL;
AXIS2_ENV_CHECK(env, AXIS2_FAILURE);
ack_range_impl = SANDESHA2_INTF_TO_IMPL(ack_range);
ack_range_impl->lower_val = value;
return AXIS2_SUCCESS;
}
long AXIS2_CALL
sandesha2_ack_range_get_upper_value(sandesha2_ack_range_t *ack_range,
const axutil_env_t *env)
{
sandesha2_ack_range_impl_t *ack_range_impl = NULL;
AXIS2_ENV_CHECK(env, AXIS2_FAILURE);
ack_range_impl = SANDESHA2_INTF_TO_IMPL(ack_range);
return ack_range_impl->upper_val;
}
axis2_status_t AXIS2_CALL
sandesha2_ack_range_set_upper_value(sandesha2_ack_range_t *ack_range,
const axutil_env_t *env, long value)
{
sandesha2_ack_range_impl_t *ack_range_impl = NULL;
AXIS2_ENV_CHECK(env, AXIS2_FAILURE);
ack_range_impl = SANDESHA2_INTF_TO_IMPL(ack_range);
ack_range_impl->upper_val = value;
return AXIS2_SUCCESS;
}