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one/include/Quota.h

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/* -------------------------------------------------------------------------- */
2015-09-23 16:03:22 +03:00
/* Copyright 2002-2015, OpenNebula Project, OpenNebula Systems */
/* */
/* 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. */
/* -------------------------------------------------------------------------- */
#ifndef QUOTA_H_
#define QUOTA_H_
#include "Template.h"
// Forward declaration to avoid include cycle
class Quotas;
/**
* Base class for resource quotas, it provides basic storage and management of
* the quotas. Each resource MUST inherit from it to implement check and
* update methods. Quotas are stored in a template form, each class store the
* limits and usage in a resource specific format.
*/
class Quota: public Template
{
public:
/**
* Set the quotas. If the quota previously exists its limit is updated.
* @param quota_str the quota template in ASCII or XML formats
* @param error describe the error in case of error
*
* @return 0 on success -1 otherwise
*/
int set(vector<Attribute*> * quotas, string& error);
/**
* Check if the resource allocation will exceed the quota limits. If not
* the usage counters are updated
* @param tmpl template for the resource
* @param default_quotas Quotas that contain the default limits
* @param error string
* @return true if the operation can be performed
*/
//virtual bool check(Template* tmpl, Quotas& default_quotas, string& error) = 0;
/**
* Check if a resource update in usage counters will exceed the
* quota limits. If not the usage counters are updated for that resource
* @param tmpl with increments in MEMORY and CPU
* @param default_quotas Quotas that contain the default limits
* @param error string
* @return true if the operation can be performed
*/
virtual bool update(Template * tmpl, Quotas& default_quotas, string& error)
{
error = "Update operation for quotas not supported.";
return false;
};
/**
* Decrement usage counters when deallocating image
* @param tmpl template for the resource
*/
//virtual void del(Template* tmpl) = 0;
/**
* Returns the name that identifies the quota in a template
*/
const char * get_quota_name()
{
return template_name;
}
/**
* Gets a quota identified by its ID.
* @param id of the quota
* @param va The quota, if it is found
* @return 0 on success, -1 if not found
*/
virtual int get_quota(const string& id, VectorAttribute **va)
{
map<string, Attribute *>::iterator it;
return get_quota(id, va, it);
}
/**
* Value for limit default
*/
static const int DEFAULT;
static const string DEFAULT_STR;
/**
* Value for "unlimited" limit
*/
static const int UNLIMITED;
protected:
Quota(const char * quota_name,
const char * _template_name,
const char ** _metrics,
int _num_metrics,
bool _is_default)
: Template(false, '=', quota_name),
template_name(_template_name),
metrics(_metrics),
num_metrics(_num_metrics),
is_default(_is_default){};
virtual ~Quota(){};
/**
* Generic Quota Names
*
* template_name = [
* ID = "ID to identify the resource",
* metrics[0] = "Limit for the first metric"
* metrics[0]_USED = "Usage for metric"
* ]
*
* ID & counter fields are optional
*/
/**
* Name of the quota used in the templates
*/
const char * template_name;
/**
* The name of the quota metrics
*/
const char ** metrics;
/**
* Length
*/
int num_metrics;
/**
* Whether or not this is a default quota. Default quotas do not have usage,
* and can't have a limit of -1
*/
bool is_default;
/**
* Check a given quota for an usage request and update counters if the
* request does not exceed quota limits
* @param qid id that identifies the quota, to be used by get_quota
* @param usage_req usage for each metric
* @param default_quotas Quotas that contain the default limits
* @param error string describing the error
* @return true if the request does not exceed current limits
*/
bool check_quota(const string& qid,
map<string, float>& usage_req,
Quotas& default_quotas,
string& error);
/**
* Reduce usage from a given quota based on the current consumption
* @param qid id that identifies the quota, to be used by get_quota
* @param usage_req usage for each metric
*/
void del_quota(const string& qid,
map<string, float>& usage_req);
/**
* Gets the default quota identified by its ID.
*
* @param id of the quota
* @param default_quotas Quotas that contain the default limits
* @param va The quota, if it is found
*
* @return 0 on success, -1 if not found
*/
virtual int get_default_quota(const string& id,
Quotas& default_quotas,
VectorAttribute **va) = 0;
/**
* Gets a quota identified by its ID.
*
* @param id of the quota
* @param va The quota, if it is found
* @param it The quota iterator, if it is found
*
* @return 0 on success, -1 if not found
*/
virtual int get_quota(
const string& id,
VectorAttribute **va,
map<string, Attribute *>::iterator& it);
/**
* Checks if a quota has 0 limit and usage, and deletes it
*
* @param qid id of the quota
*/
void cleanup_quota(const string& qid);
private:
/**
* Creates an empty quota based on the given attribute. The attribute va
* contains the limits for the quota.
* @param va limits for the new quota if 0 limits will be 0
*
* @return a new attribute representing the quota, 0 on error
*/
VectorAttribute * new_quota(VectorAttribute* va);
/**
* Adds a new quota, it also updates an internal index for fast accessing
* the quotas
* @param quota is the new quota, allocated in the HEAP
*/
void add(VectorAttribute * nq)
{
attributes.insert(make_pair(nq->name(), nq));
}
/**
* Adds a given value to the current quota (vector)
* @param attr the quota;
* @param va_name name of the quota in the vector attribute
* @param num value to add to the current quota;
*/
void add_to_quota(VectorAttribute * attr, const string& va_name, float num);
/**
* Sets new limit values for the quota
* @param quota to be updated
* @param va attribute with the new limits
*
* @return 0 on success or -1 if wrong limits
*/
int update_limits(VectorAttribute* quota,
const VectorAttribute* va);
/**
* Extract the limits for the defined quota metrics from a given attribute
* @param va the attribute with the limits
* @param limits stores the known limits
* @return 0 on success
*/
int get_limits(const VectorAttribute * va, map<string, string>& limits);
};
#endif /*QUOTA_H_*/