/* -------------------------------------------------------------------------- */ /* Copyright 2002-2014, OpenNebula Project (OpenNebula.org), C12G Labs */ /* */ /* 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 VIRTUAL_MACHINE_POOL_H_ #define VIRTUAL_MACHINE_POOL_H_ #include "PoolSQL.h" #include "VirtualMachine.h" #include using namespace std; /** * The Virtual Machine Pool class. ... */ class VirtualMachinePool : public PoolSQL { public: VirtualMachinePool(SqlDB * db, vector hook_mads, const string& hook_location, const string& remotes_location, vector& restricted_attrs, time_t expire_time, bool on_hold); ~VirtualMachinePool(){}; /** * Function to allocate a new VM object * @param uid user id (the owner of the VM) * @param gid the id of the group this object is assigned to * @param uname user name * @param gname group name * @param umask permissions umask * @param vm_template a VM Template object describing the VM * @param oid the id assigned to the VM (output) * @param error_str Returns the error reason, if any * @param on_hold flag to submit on hold * * @return oid on success, -1 error inserting in DB or -2 error parsing * the template */ int allocate ( int uid, int gid, const string& uname, const string& gname, int umask, VirtualMachineTemplate * vm_template, int * oid, string& error_str, bool on_hold = false); /** * Function to get a VM from the pool, if the object is not in memory * it is loade from the DB * @param oid VM unique id * @param lock locks the VM mutex * @return a pointer to the VM, 0 if the VM could not be loaded */ VirtualMachine * get( int oid, bool lock) { return static_cast(PoolSQL::get(oid,lock)); }; /** * Function to get a VM from the pool, string version for VM ID */ VirtualMachine * get( const string& oid_s, bool lock) { istringstream iss(oid_s); int oid; iss >> oid; if ( iss.fail() ) { return 0; } return static_cast(PoolSQL::get(oid,lock)); }; /** * Function to get the IDs of running VMs * @param oids a vector that contains the IDs * @param vm_limit Max. number of VMs returned * @param last_poll Return only VMs which last_poll is less than or equal * to this value. * @return 0 on success */ int get_running( vector& oids, int vm_limit, time_t last_poll); /** * Function to get the IDs of pending VMs * @param oids a vector that contains the IDs * @return 0 on success */ int get_pending( vector& oids); /** * Gets the IDs of VMs matching the given SQL where string. * @param oids a vector that contains the IDs * @param where SQL clause * @return 0 on success */ int search(vector& oids, const string& where) { return PoolSQL::search(oids, VirtualMachine::table, where); }; //-------------------------------------------------------------------------- // Virtual Machine DB access functions //-------------------------------------------------------------------------- /** * Updates the history record of a VM, the vm's mutex SHOULD be locked * @param vm pointer to the virtual machine object * @return 0 on success */ int update_history( VirtualMachine * vm) { return vm->update_history(db); } /** * Updates the previous history record, the vm's mutex SHOULD be locked * @param vm pointer to the virtual machine object * @return 0 on success */ int update_previous_history( VirtualMachine * vm) { return vm->update_previous_history(db); } /** * Inserts the last monitoring, and deletes old monitoring entries for this * VM * * @param vm pointer to the virtual machine object * @return 0 on success */ int update_monitoring( VirtualMachine * vm) { if ( _monitor_expiration <= 0 ) { return 0; } return vm->update_monitoring(db); }; /** * Deletes the expired monitoring entries for all VMs * * @return 0 on success */ int clean_expired_monitoring(); /** * Deletes all monitoring entries for all VMs * * @return 0 on success */ int clean_all_monitoring(); /** * Bootstraps the database table(s) associated to the VirtualMachine pool * @return 0 on success */ static int bootstrap(SqlDB * _db) { return VirtualMachine::bootstrap(_db); }; /** * Dumps the VM pool in XML format. A filter can be also added to the query * Also the hostname where the VirtualMachine is running is added to the * pool * @param oss the output stream to dump the pool contents * @param where filter for the objects, defaults to all * @param limit parameters used for pagination * * @return 0 on success */ int dump(ostringstream& oss, const string& where, const string& limit) { return PoolSQL::dump(oss, "VM_POOL", VirtualMachine::table, where, limit); }; /** * Dumps the VM accounting information in XML format. A filter can be also * added to the query as well as a time frame. * @param oss the output stream to dump the pool contents * @param where filter for the objects, defaults to all * * @return 0 on success */ int dump_acct(ostringstream& oss, const string& where, int time_start, int time_end); /** * Dumps the VM showback information in XML format. A filter can be also * added to the query as well as a time frame. * @param oss the output stream to dump the pool contents * @param where filter for the objects, defaults to all * @param start_month First month (+year) to include. January is 1. * Use -1 to unset * @param start_year First year (+month) to include. e.g. 2014. * Use -1 to unset * @param end_month Last month (+year) to include. January is 1. * Use -1 to unset * @param end_year Last year (+month) to include. e.g. 2014. * Use -1 to unset * * @return 0 on success */ int dump_showback(ostringstream& oss, const string& where, int start_month, int start_year, int end_month, int end_year); /** * Dumps the VM monitoring information entries in XML format. A filter * can be also added to the query. * * @param oss the output stream to dump the pool contents * @param where filter for the objects, defaults to all * * @return 0 on success */ int dump_monitoring(ostringstream& oss, const string& where); /** * Dumps the VM monitoring information for a single VM * * @param oss the output stream to dump the pool contents * @param vmid id of the target VM * * @return 0 on success */ int dump_monitoring(ostringstream& oss, int vmid) { ostringstream filter; filter << "oid = " << vmid; return dump_monitoring(oss, filter.str()); } /** * Processes all the history records, and stores the monthly cost for each * VM * @param start_month First month (+year) to process. January is 1. * Use -1 to unset * @param start_year First year (+month) to process. e.g. 2014. * Use -1 to unset * @param end_month Last month (+year) to process. January is 1. * Use -1 to unset * @param end_year Last year (+month) to process. e.g. 2014. * Use -1 to unset */ void calculate_showback( int start_month, int start_year, int end_month, int end_year); private: /** * Factory method to produce VM objects * @return a pointer to the new VM */ PoolObjectSQL * create() { return new VirtualMachine(-1,-1,-1,"","",0,0); }; /** * Size, in seconds, of the historical monitoring information */ static time_t _monitor_expiration; /** * True or false whether to submit new VM on HOLD or not */ static bool _submit_on_hold; /** * Callback used in calculate_showback */ int min_stime_cb(void * _min_stime, int num, char **values, char **names); }; #endif /*VIRTUAL_MACHINE_POOL_H_*/