1
0
mirror of https://github.com/OpenNebula/one.git synced 2024-12-23 17:33:56 +03:00
one/include/VirtualMachine.h

2161 lines
68 KiB
C
Raw Normal View History

/* -------------------------------------------------------------------------- */
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 VIRTUAL_MACHINE_H_
#define VIRTUAL_MACHINE_H_
#include "VirtualMachineTemplate.h"
#include "VirtualMachineMonitorInfo.h"
#include "PoolSQL.h"
#include "History.h"
#include "Image.h"
#include "Log.h"
2010-05-25 20:19:22 +04:00
#include "NebulaLog.h"
#include "NebulaUtil.h"
#include "Quotas.h"
#include <time.h>
#include <set>
#include <sstream>
using namespace std;
class AuthRequest;
class Snapshots;
/* -------------------------------------------------------------------------- */
/* -------------------------------------------------------------------------- */
/**
* The Virtual Machine class. It represents a VM...
*/
class VirtualMachine : public PoolObjectSQL
{
public:
// -------------------------------------------------------------------------
// VM States
// -------------------------------------------------------------------------
/**
* Global Virtual Machine state
*/
enum VmState
{
INIT = 0,
PENDING = 1,
HOLD = 2,
ACTIVE = 3,
STOPPED = 4,
SUSPENDED = 5,
DONE = 6,
//FAILED = 7,
POWEROFF = 8,
UNDEPLOYED = 9
};
static int vm_state_from_str(string& st, VmState& state)
{
one_util::toupper(st);
if ( st == "INIT" ) { state = INIT; }
else if ( st == "PENDING" ) { state = PENDING; }
else if ( st == "HOLD" ) { state = HOLD; }
else if ( st == "ACTIVE" ) { state = ACTIVE; }
else if ( st == "STOPPED" ) { state = STOPPED; }
else if ( st == "SUSPENDED" ) { state = SUSPENDED; }
else if ( st == "DONE" ) { state = DONE; }
else if ( st == "POWEROFF" ) { state = POWEROFF; }
else if ( st == "UNDEPLOYED" ) { state = UNDEPLOYED; }
else {return -1;}
return 0;
}
static string& vm_state_to_str(string& st, VmState state)
{
switch (state)
{
case INIT : st = "INIT"; break;
case PENDING : st = "PENDING"; break;
case HOLD : st = "HOLD"; break;
case ACTIVE : st = "ACTIVE"; break;
case STOPPED : st = "STOPPED"; break;
case SUSPENDED : st = "SUSPENDED"; break;
case DONE : st = "DONE"; break;
case POWEROFF : st = "POWEROFF"; break;
case UNDEPLOYED: st = "UNDEPLOYED"; break;
}
return st;
}
/**
* Virtual Machine state associated to the Life-cycle Manager
*/
enum LcmState
{
LCM_INIT = 0,
PROLOG = 1,
BOOT = 2,
RUNNING = 3,
MIGRATE = 4,
SAVE_STOP = 5,
SAVE_SUSPEND = 6,
SAVE_MIGRATE = 7,
PROLOG_MIGRATE = 8,
PROLOG_RESUME = 9,
EPILOG_STOP = 10,
EPILOG = 11,
SHUTDOWN = 12,
//CANCEL = 13,
//FAILURE = 14,
CLEANUP_RESUBMIT = 15,
UNKNOWN = 16,
HOTPLUG = 17,
SHUTDOWN_POWEROFF = 18,
BOOT_UNKNOWN = 19,
BOOT_POWEROFF = 20,
BOOT_SUSPENDED = 21,
BOOT_STOPPED = 22,
CLEANUP_DELETE = 23,
HOTPLUG_SNAPSHOT = 24,
HOTPLUG_NIC = 25,
HOTPLUG_SAVEAS = 26,
HOTPLUG_SAVEAS_POWEROFF = 27,
HOTPLUG_SAVEAS_SUSPENDED = 28,
SHUTDOWN_UNDEPLOY = 29,
EPILOG_UNDEPLOY = 30,
PROLOG_UNDEPLOY = 31,
BOOT_UNDEPLOY = 32,
HOTPLUG_PROLOG_POWEROFF = 33,
HOTPLUG_EPILOG_POWEROFF = 34,
BOOT_MIGRATE = 35,
BOOT_FAILURE = 36,
BOOT_MIGRATE_FAILURE = 37,
PROLOG_MIGRATE_FAILURE = 38,
PROLOG_FAILURE = 39,
EPILOG_FAILURE = 40,
EPILOG_STOP_FAILURE = 41,
EPILOG_UNDEPLOY_FAILURE = 42,
PROLOG_MIGRATE_POWEROFF = 43,
PROLOG_MIGRATE_POWEROFF_FAILURE = 44,
PROLOG_MIGRATE_SUSPEND = 45,
PROLOG_MIGRATE_SUSPEND_FAILURE = 46,
BOOT_UNDEPLOY_FAILURE = 47,
BOOT_STOPPED_FAILURE = 48,
PROLOG_RESUME_FAILURE = 49,
PROLOG_UNDEPLOY_FAILURE = 50,
DISK_SNAPSHOT_POWEROFF = 51,
DISK_SNAPSHOT_REVERT_POWEROFF = 52,
DISK_SNAPSHOT_DELETE_POWEROFF = 53,
DISK_SNAPSHOT_SUSPENDED = 54,
DISK_SNAPSHOT_REVERT_SUSPENDED = 55,
DISK_SNAPSHOT_DELETE_SUSPENDED = 56,
DISK_SNAPSHOT = 57,
DISK_SNAPSHOT_REVERT = 58,
DISK_SNAPSHOT_DELETE = 59
};
static int lcm_state_from_str(string& st, LcmState& state)
{
one_util::toupper(st);
if ( st == "LCM_INIT" ){ state = LCM_INIT; }
else if ( st == "PROLOG") { state = PROLOG; }
else if ( st == "BOOT") { state = BOOT; }
else if ( st == "RUNNING") { state = RUNNING; }
else if ( st == "MIGRATE") { state = MIGRATE; }
else if ( st == "SAVE_STOP") { state = SAVE_STOP; }
else if ( st == "SAVE_SUSPEND") { state = SAVE_SUSPEND; }
else if ( st == "SAVE_MIGRATE") { state = SAVE_MIGRATE; }
else if ( st == "PROLOG_MIGRATE") { state = PROLOG_MIGRATE; }
else if ( st == "PROLOG_RESUME") { state = PROLOG_RESUME; }
else if ( st == "EPILOG_STOP") { state = EPILOG_STOP; }
else if ( st == "EPILOG") { state = EPILOG; }
else if ( st == "SHUTDOWN") { state = SHUTDOWN; }
else if ( st == "CLEANUP_RESUBMIT") { state = CLEANUP_RESUBMIT; }
else if ( st == "UNKNOWN") { state = UNKNOWN; }
else if ( st == "HOTPLUG") { state = HOTPLUG; }
else if ( st == "SHUTDOWN_POWEROFF") { state = SHUTDOWN_POWEROFF; }
else if ( st == "BOOT_UNKNOWN") { state = BOOT_UNKNOWN; }
else if ( st == "BOOT_POWEROFF") { state = BOOT_POWEROFF; }
else if ( st == "BOOT_SUSPENDED") { state = BOOT_SUSPENDED; }
else if ( st == "BOOT_STOPPED") { state = BOOT_STOPPED; }
else if ( st == "CLEANUP_DELETE") { state = CLEANUP_DELETE; }
else if ( st == "HOTPLUG_SNAPSHOT") { state = HOTPLUG_SNAPSHOT; }
else if ( st == "HOTPLUG_NIC") { state = HOTPLUG_NIC; }
else if ( st == "HOTPLUG_SAVEAS") { state = HOTPLUG_SAVEAS; }
else if ( st == "HOTPLUG_SAVEAS_POWEROFF") { state = HOTPLUG_SAVEAS_POWEROFF; }
else if ( st == "HOTPLUG_SAVEAS_SUSPENDED") { state = HOTPLUG_SAVEAS_SUSPENDED; }
else if ( st == "SHUTDOWN_UNDEPLOY") { state = SHUTDOWN_UNDEPLOY; }
else if ( st == "EPILOG_UNDEPLOY") { state = EPILOG_UNDEPLOY; }
else if ( st == "PROLOG_UNDEPLOY") { state = PROLOG_UNDEPLOY; }
else if ( st == "BOOT_UNDEPLOY") { state = BOOT_UNDEPLOY; }
else if ( st == "HOTPLUG_PROLOG_POWEROFF") { state = HOTPLUG_PROLOG_POWEROFF; }
else if ( st == "HOTPLUG_EPILOG_POWEROFF") { state = HOTPLUG_EPILOG_POWEROFF; }
else if ( st == "BOOT_MIGRATE") { state = BOOT_MIGRATE; }
else if ( st == "BOOT_FAILURE") { state = BOOT_FAILURE; }
else if ( st == "BOOT_MIGRATE_FAILURE") { state = BOOT_MIGRATE_FAILURE; }
else if ( st == "PROLOG_MIGRATE_FAILURE") { state = PROLOG_MIGRATE_FAILURE; }
else if ( st == "PROLOG_FAILURE") { state = PROLOG_FAILURE; }
else if ( st == "EPILOG_FAILURE") { state = EPILOG_FAILURE; }
else if ( st == "EPILOG_STOP_FAILURE") { state = EPILOG_STOP_FAILURE; }
else if ( st == "EPILOG_UNDEPLOY_FAILURE") { state = EPILOG_UNDEPLOY_FAILURE; }
else if ( st == "PROLOG_MIGRATE_POWEROFF") { state = PROLOG_MIGRATE_POWEROFF;}
else if ( st == "PROLOG_MIGRATE_POWEROFF_FAILURE") { state = PROLOG_MIGRATE_POWEROFF_FAILURE;}
else if ( st == "PROLOG_MIGRATE_SUSPEND") { state = PROLOG_MIGRATE_SUSPEND;}
else if ( st == "PROLOG_MIGRATE_SUSPEND_FAILURE") { state = PROLOG_MIGRATE_SUSPEND_FAILURE;}
else if ( st == "BOOT_STOPPED_FAILURE") { state = BOOT_STOPPED_FAILURE; }
else if ( st == "BOOT_UNDEPLOY_FAILURE") { state = BOOT_UNDEPLOY_FAILURE; }
else if ( st == "PROLOG_RESUME_FAILURE") { state = PROLOG_RESUME_FAILURE; }
else if ( st == "PROLOG_UNDEPLOY_FAILURE") { state = PROLOG_UNDEPLOY_FAILURE; }
else if ( st == "DISK_SNAPSHOT_POWEROFF") { state = DISK_SNAPSHOT_POWEROFF; }
else if ( st == "DISK_SNAPSHOT_REVERT_POWEROFF") { state = DISK_SNAPSHOT_REVERT_POWEROFF; }
else if ( st == "DISK_SNAPSHOT_DELETE_POWEROFF") { state = DISK_SNAPSHOT_DELETE_POWEROFF; }
else if ( st == "DISK_SNAPSHOT_SUSPENDED") { state = DISK_SNAPSHOT_SUSPENDED; }
else if ( st == "DISK_SNAPSHOT_REVERT_SUSPENDED") { state = DISK_SNAPSHOT_REVERT_SUSPENDED; }
else if ( st == "DISK_SNAPSHOT_DELETE_SUSPENDED") { state = DISK_SNAPSHOT_DELETE_SUSPENDED; }
else if ( st == "DISK_SNAPSHOT") { state = DISK_SNAPSHOT; }
else if ( st == "DISK_SNAPSHOT_REVERT") { state = DISK_SNAPSHOT_REVERT; }
else if ( st == "DISK_SNAPSHOT_DELETE") { state = DISK_SNAPSHOT_DELETE; }
else {return -1;}
return 0;
}
static string& lcm_state_to_str(string& st, LcmState state)
{
switch (state)
{
case LCM_INIT: st = "LCM_INIT"; break;
case PROLOG: st = "PROLOG"; break;
case BOOT: st = "BOOT"; break;
case RUNNING: st = "RUNNING"; break;
case MIGRATE: st = "MIGRATE"; break;
case SAVE_STOP: st = "SAVE_STOP"; break;
case SAVE_SUSPEND: st = "SAVE_SUSPEND"; break;
case SAVE_MIGRATE: st = "SAVE_MIGRATE"; break;
case PROLOG_MIGRATE: st = "PROLOG_MIGRATE"; break;
case PROLOG_RESUME: st = "PROLOG_RESUME"; break;
case EPILOG_STOP: st = "EPILOG_STOP"; break;
case EPILOG: st = "EPILOG"; break;
case SHUTDOWN: st = "SHUTDOWN"; break;
case CLEANUP_RESUBMIT: st = "CLEANUP_RESUBMIT"; break;
case UNKNOWN: st = "UNKNOWN"; break;
case HOTPLUG: st = "HOTPLUG"; break;
case SHUTDOWN_POWEROFF: st = "SHUTDOWN_POWEROFF"; break;
case BOOT_UNKNOWN: st = "BOOT_UNKNOWN"; break;
case BOOT_POWEROFF: st = "BOOT_POWEROFF"; break;
case BOOT_SUSPENDED: st = "BOOT_SUSPENDED"; break;
case BOOT_STOPPED: st = "BOOT_STOPPED"; break;
case CLEANUP_DELETE: st = "CLEANUP_DELETE"; break;
case HOTPLUG_SNAPSHOT: st = "HOTPLUG_SNAPSHOT"; break;
case HOTPLUG_NIC: st = "HOTPLUG_NIC"; break;
case HOTPLUG_SAVEAS: st = "HOTPLUG_SAVEAS"; break;
case HOTPLUG_SAVEAS_POWEROFF: st = "HOTPLUG_SAVEAS_POWEROFF"; break;
case HOTPLUG_SAVEAS_SUSPENDED: st = "HOTPLUG_SAVEAS_SUSPENDED"; break;
case SHUTDOWN_UNDEPLOY: st = "SHUTDOWN_UNDEPLOY"; break;
case EPILOG_UNDEPLOY: st = "EPILOG_UNDEPLOY"; break;
case PROLOG_UNDEPLOY: st = "PROLOG_UNDEPLOY"; break;
case BOOT_UNDEPLOY: st = "BOOT_UNDEPLOY"; break;
case HOTPLUG_PROLOG_POWEROFF: st = "HOTPLUG_PROLOG_POWEROFF"; break;
case HOTPLUG_EPILOG_POWEROFF: st = "HOTPLUG_EPILOG_POWEROFF"; break;
case BOOT_MIGRATE: st = "BOOT_MIGRATE"; break;
case BOOT_FAILURE: st = "BOOT_FAILURE"; break;
case BOOT_MIGRATE_FAILURE: st = "BOOT_MIGRATE_FAILURE"; break;
case PROLOG_MIGRATE_FAILURE: st = "PROLOG_MIGRATE_FAILURE"; break;
case PROLOG_FAILURE: st = "PROLOG_FAILURE"; break;
case EPILOG_FAILURE: st = "EPILOG_FAILURE"; break;
case EPILOG_STOP_FAILURE: st = "EPILOG_STOP_FAILURE"; break;
case EPILOG_UNDEPLOY_FAILURE: st = "EPILOG_UNDEPLOY_FAILURE"; break;
case PROLOG_MIGRATE_POWEROFF: st = "PROLOG_MIGRATE_POWEROFF"; break;
case PROLOG_MIGRATE_POWEROFF_FAILURE: st = "PROLOG_MIGRATE_POWEROFF_FAILURE"; break;
case PROLOG_MIGRATE_SUSPEND: st = "PROLOG_MIGRATE_SUSPEND"; break;
case PROLOG_MIGRATE_SUSPEND_FAILURE: st = "PROLOG_MIGRATE_SUSPEND_FAILURE"; break;
case BOOT_STOPPED_FAILURE: st = "BOOT_STOPPED_FAILURE"; break;
case BOOT_UNDEPLOY_FAILURE: st = "BOOT_UNDEPLOY_FAILURE"; break;
case PROLOG_RESUME_FAILURE: st = "PROLOG_RESUME_FAILURE"; break;
case PROLOG_UNDEPLOY_FAILURE: st = "PROLOG_UNDEPLOY_FAILURE"; break;
case DISK_SNAPSHOT_POWEROFF: st = "DISK_SNAPSHOT_POWEROFF"; break;
case DISK_SNAPSHOT_REVERT_POWEROFF: st = "DISK_SNAPSHOT_REVERT_POWEROFF"; break;
case DISK_SNAPSHOT_DELETE_POWEROFF: st = "DISK_SNAPSHOT_DELETE_POWEROFF"; break;
case DISK_SNAPSHOT_SUSPENDED: st = "DISK_SNAPSHOT_SUSPENDED"; break;
case DISK_SNAPSHOT_REVERT_SUSPENDED: st = "DISK_SNAPSHOT_REVERT_SUSPENDED"; break;
case DISK_SNAPSHOT_DELETE_SUSPENDED: st = "DISK_SNAPSHOT_DELETE_SUSPENDED"; break;
case DISK_SNAPSHOT: st = "DISK_SNAPSHOT"; break;
case DISK_SNAPSHOT_REVERT: st = "DISK_SNAPSHOT_REVERT"; break;
case DISK_SNAPSHOT_DELETE: st = "DISK_SNAPSHOT_DELETE"; break;
}
return st;
}
/**
* Returns the VM state to string, using the lcm state if the current state
* is ACTIVE.
* @return the state sting
*/
string state_str()
{
2015-07-01 22:15:40 +03:00
string st;
if (state == ACTIVE)
{
return lcm_state_to_str(st, lcm_state);
}
return vm_state_to_str(st, state);
}
// -------------------------------------------------------------------------
// Log & Print
// -------------------------------------------------------------------------
/**
* writes a log message in vm.log. The class lock should be locked and
* the VM MUST BE obtained through the VirtualMachinePool get() method.
*/
void log(
const char * module,
const Log::MessageType type,
const ostringstream& message) const
{
if (_log != 0)
{
_log->log(module,type,message.str().c_str());
}
};
/**
* writes a log message in vm.log. The class lock should be locked and
* the VM MUST BE obtained through the VirtualMachinePool get() method.
*/
void log(
const char * module,
const Log::MessageType type,
const char * message) const
{
if (_log != 0)
{
_log->log(module,type,message);
}
};
/**
* writes a log message in vm.log. The class lock should be locked and
* the VM MUST BE obtained through the VirtualMachinePool get() method.
*/
void log(
const char * module,
const Log::MessageType type,
const string& message) const
{
log(module, type, message.c_str());
};
/**
* Function to print the VirtualMachine object into a string in
* XML format
* @param xml the resulting XML string
* @return a reference to the generated string
*/
string& to_xml(string& xml) const
{
return to_xml_extended(xml, 1);
}
/**
* Function to print the VirtualMachine object into a string in
* XML format, with extended information (full history records)
* @param xml the resulting XML string
* @return a reference to the generated string
*/
string& to_xml_extended(string& xml) const
{
return to_xml_extended(xml, 2);
}
/**
* Rebuilds the object from an xml formatted string
* @param xml_str The xml-formatted string
*
* @return 0 on success, -1 otherwise
*/
int from_xml(const string &xml_str);
// ------------------------------------------------------------------------
// Dynamic Info
// ------------------------------------------------------------------------
/**
* Updates VM dynamic information (id).
* @param _deploy_id the VMM driver specific id
*/
void set_deploy_id (const string& _deploy_id)
{
deploy_id = _deploy_id;
};
/**
* Updates VM dynamic information (usage counters), and updates last_poll,
* and copies it to history record for acct.
*/
int update_info(const string& monitor_data);
/**
* Clears the VM monitor information usage counters (MEMORY, CPU),
* last_poll, custom attributes, and copies it to the history record
* for acct.
*/
void reset_info()
{
last_poll = time(0);
monitoring.replace("CPU","0.0");
monitoring.replace("MEMORY","0");
set_vm_info();
clear_template_monitor_error();
}
VirtualMachineMonitorInfo& get_info()
{
return monitoring;
}
/**
* Returns the deployment ID
* @return the VMM driver specific ID
*/
const string& get_deploy_id() const
{
return deploy_id;
};
/**
* Sets the VM exit time
* @param _et VM exit time (when it arrived DONE/FAILED states)
*/
void set_exit_time(time_t et)
{
etime = et;
};
/**
* Sets the KERNEL OS attribute (path to the kernel file). Used when
* the template is using a FILE Datastore for it
* @param path to the kernel (in the remote host)
*/
void set_kernel(const string& kernel)
{
vector<Attribute *> os_attr;
VectorAttribute * os;
int num = obj_template->get("OS", os_attr);
if ( num == 0 )
{
return;
}
os = dynamic_cast<VectorAttribute *>(os_attr[0]);
os->replace("KERNEL", kernel);
};
/**
* Sets the INITRD OS attribute (path to the initrd file). Used when
* the template is using a FILE Datastore for it
* @param path to the initrd (in the remote host)
*/
void set_initrd(const string& initrd)
{
vector<Attribute *> os_attr;
VectorAttribute * os;
int num = obj_template->get("OS", os_attr);
if ( num == 0 )
{
return;
}
os = dynamic_cast<VectorAttribute *>(os_attr[0]);
os->replace("INITRD", initrd);
};
// ------------------------------------------------------------------------
// Access to VM locations
// ------------------------------------------------------------------------
/**
* Returns the remote VM directory. The VM remote dir is in the form:
* $DATASTORE_LOCATION/$SYSTEM_DS_ID/$VM_ID. The remote system_dir stores
* disks for a running VM in the target host.
* @return the remote system directory for the VM
*/
const string& get_remote_system_dir() const
{
return history->rsystem_dir;
}
/**
* Returns the remote VM directory for the previous host.
* The hasPreviousHistory() function MUST be called before this one.
* @return the remote system directory for the VM
*/
const string & get_previous_remote_system_dir() const
{
return previous_history->rsystem_dir;
};
/**
* Returns the local VM directory. The VM local dir is in the form:
* $SYSTEM_DS_BASE_PATH/$VM_ID. Temporary stores VM disks.
* @return the system directory for the VM
*/
string get_system_dir() const;
// ------------------------------------------------------------------------
// History
// ------------------------------------------------------------------------
/**
* Adds a new history record an writes it in the database.
*/
void add_history(
int hid,
int cid,
const string& hostname,
const string& vmm_mad,
const string& vnm_mad,
const string& tm_mad,
const string& ds_location,
int ds_id);
/**
* Duplicates the last history record. Only the host related fields are
* affected (i.e. no counter is copied nor initialized).
* @param reason explaining the new addition.
*/
void cp_history();
/**
* Duplicates the previous history record. Only the host related fields are
* affected (i.e. no counter is copied nor initialized).
* @param reason explaining the new addition.
*/
void cp_previous_history();
/**
* Checks if the VM has a valid history record. This function
* MUST be called before using any history related function.
* @return true if the VM has a record
*/
bool hasHistory() const
{
return (history!=0);
};
/**
* Checks if the VM has a valid previous history record. This function
* MUST be called before using any previous_history related function.
* @return true if the VM has a previous record
*/
bool hasPreviousHistory() const
{
return (previous_history!=0);
};
/**
* Returns the VMM driver name for the current host. The hasHistory()
* function MUST be called before this one.
* @return the VMM mad name
*/
const string & get_vmm_mad() const
{
return history->vmm_mad_name;
};
/**
* Returns the VMM driver name for the previous host. The hasPreviousHistory()
* function MUST be called before this one.
* @return the VMM mad name
*/
const string & get_previous_vmm_mad() const
{
return previous_history->vmm_mad_name;
};
/**
* Returns the VNM driver name for the current host. The hasHistory()
* function MUST be called before this one.
2011-11-11 17:55:18 +04:00
* @return the VNM mad name
*/
const string & get_vnm_mad() const
{
return history->vnm_mad_name;
};
/**
* Returns the VNM driver name for the previous host. The hasPreviousHistory()
* function MUST be called before this one.
2011-11-11 17:55:18 +04:00
* @return the VNM mad name
*/
const string & get_previous_vnm_mad() const
{
return previous_history->vnm_mad_name;
};
/**
* Returns the datastore ID of the system DS for the host. The hasHistory()
* function MUST be called before this one.
* @return the ds id
*/
int get_ds_id() const
{
return history->ds_id;
};
/**
* Returns the datastore ID of the system DS for the previous host.
* The hasPreviousHistory() function MUST be called before this one.
* @return the TM mad name
*/
int get_previous_ds_id() const
{
return previous_history->ds_id;
};
/**
* Returns the TM driver name for the current host. The hasHistory()
* function MUST be called before this one.
* @return the TM mad name
*/
const string & get_tm_mad() const
{
return history->tm_mad_name;
};
/**
* Returns the TM driver name for the previous host. The
* hasPreviousHistory() function MUST be called before this one.
* @return the TM mad name
*/
const string & get_previous_tm_mad() const
{
return previous_history->tm_mad_name;
};
/**
* Returns the transfer filename. The transfer file is in the form:
* $ONE_LOCATION/var/vms/$VM_ID/transfer.$SEQ
* or, in case that OpenNebula is installed in root
* /var/lib/one/vms/$VM_ID/transfer.$SEQ
* The hasHistory() function MUST be called before this one.
* @return the transfer filename
*/
const string & get_transfer_file() const
{
return history->transfer_file;
};
/**
* Returns the deployment filename. The deployment file is in the form:
* $ONE_LOCATION/var/vms/$VM_ID/deployment.$SEQ
* or, in case that OpenNebula is installed in root
* /var/lib/one/vms/$VM_ID/deployment.$SEQ
* The hasHistory() function MUST be called before this one.
* @return the deployment file path
*/
const string & get_deployment_file() const
{
return history->deployment_file;
};
/**
* Returns the context filename. The context file is in the form:
* $ONE_LOCATION/var/vms/$VM_ID/context.sh
* or, in case that OpenNebula is installed in root
* /var/lib/one/vms/$VM_ID/context.sh
* The hasHistory() function MUST be called before this one.
* @return the context file path
*/
const string & get_context_file() const
{
return history->context_file;
}
/**
* Returns the token filename. The token file is in the form:
* $ONE_LOCATION/var/vms/$VM_ID/token.txt
* or, in case that OpenNebula is installed in root
* /var/lib/one/vms/$VM_ID/token.txt
* The hasHistory() function MUST be called before this one.
* @return the token file path
*/
const string & get_token_file() const
{
return history->token_file;
}
/**
* Returns the remote deployment filename. The file is in the form:
* $DS_LOCATION/$SYSTEM_DS/$VM_ID/deployment.$SEQ
* The hasHistory() function MUST be called before this one.
* @return the deployment filename
*/
const string & get_remote_deployment_file() const
{
return history->rdeployment_file;
};
/**
* Returns the checkpoint filename for the current host. The checkpoint file
* is in the form:
* $DS_LOCATION/$SYSTEM_DS/$VM_ID/checkpoint
* The hasHistory() function MUST be called before this one.
* @return the checkpoint filename
*/
const string & get_checkpoint_file() const
{
return history->checkpoint_file;
};
/**
* Returns the checkpoint filename for the previous host.
* The hasPreviousHistory() function MUST be called before this one.
* @return the checkpoint filename
*/
const string & get_previous_checkpoint_file() const
{
return previous_history->checkpoint_file;
};
/**
* Returns the hostname for the current host. The hasHistory()
* function MUST be called before this one.
* @return the hostname
*/
const string & get_hostname() const
{
return history->hostname;
};
/**
* Returns if the host is a public cloud based on the system ds and tm_mad.
* The hasHistory() function MUST be called before this one.
* @return the hostname
*/
bool get_host_is_cloud() const
{
return ((history->ds_id == -1) && history->tm_mad_name.empty());
};
/**
* Updates the current hostname. The hasHistory()
* function MUST be called before this one.
* @param hostname New hostname
*/
void set_hostname(const string& hostname)
{
history->hostname = hostname;
};
/**
* Returns the hostname for the previous host. The hasPreviousHistory()
* function MUST be called before this one.
* @return the hostname
*/
const string & get_previous_hostname() const
{
return previous_history->hostname;
};
/**
* Returns the reason that closed the history record in the previous host
* @return the reason to close the history record in the previous host
*/
const History::EndReason get_previous_reason() const
{
return previous_history->reason;
};
/**
* Returns the action that closed the current history record. The hasHistory()
* function MUST be called before this one.
* @return the action that closed the current history record
*/
const History::VMAction get_action() const
{
return history->action;
};
/**
* Returns the action that closed the history record in the previous host
* @return the action that closed the history record in the previous host
*/
2013-04-05 01:17:55 +04:00
const History::VMAction get_previous_action() const
{
return previous_history->action;
};
/**
* Get host id where the VM is or is going to execute. The hasHistory()
* function MUST be called before this one.
*/
int get_hid()
{
return history->hid;
}
/**
* Get host id where the VM was executing. The hasPreviousHistory()
* function MUST be called before this one.
*/
int get_previous_hid()
{
return previous_history->hid;
}
/**
* Get cluster id where the VM is or is going to execute. The hasHistory()
* function MUST be called before this one.
*/
int get_cid()
{
return history->cid;
}
/**
* Get cluster id where the VM was executing. The hasPreviousHistory()
* function MUST be called before this one.
*/
int get_previous_cid()
{
return previous_history->cid;
}
/**
* Sets start time of a VM.
* @param _stime time when the VM started
*/
void set_stime(time_t _stime)
{
history->stime=_stime;
};
/**
* Sets VM info (with monitoring info) in the history record
*/
void set_vm_info()
{
to_xml_extended(history->vm_info, 0);
};
/**
* Sets VM info (with monitoring info) in the previous history record
*/
void set_previous_vm_info()
{
to_xml_extended(previous_history->vm_info, 0);
};
/**
* Sets end time of a VM.
* @param _etime time when the VM finished
*/
void set_etime(time_t _etime)
{
history->etime=_etime;
};
/**
* Sets end time of a VM in the previous Host.
* @param _etime time when the VM finished
*/
void set_previous_etime(time_t _etime)
{
previous_history->etime=_etime;
};
/**
* Sets start time of VM prolog.
* @param _stime time when the prolog started
*/
void set_prolog_stime(time_t _stime)
{
history->prolog_stime=_stime;
};
/**
* Sets end time of VM prolog.
* @param _etime time when the prolog finished
*/
void set_prolog_etime(time_t _etime)
{
history->prolog_etime=_etime;
};
/**
* Sets start time of VM running state.
* @param _stime time when the running state started
*/
void set_running_stime(time_t _stime)
{
history->running_stime=_stime;
};
/**
* Gets the running start time for the VM
*/
time_t get_running_stime()
{
return history->running_stime;
}
/**
* Sets end time of VM running state.
* @param _etime time when the running state finished
*/
void set_running_etime(time_t _etime)
{
history->running_etime=_etime;
};
/**
* Sets end time of VM running state in the previous host.
* @param _etime time when the running state finished
*/
void set_previous_running_etime(time_t _etime)
{
previous_history->running_etime=_etime;
};
/**
* Sets start time of VM epilog.
* @param _stime time when the epilog started
*/
void set_epilog_stime(time_t _stime)
{
history->epilog_stime=_stime;
};
/**
* Sets end time of VM epilog.
* @param _etime time when the epilog finished
*/
void set_epilog_etime(time_t _etime)
{
history->epilog_etime=_etime;
};
/**
* Sets the reason that closed the history record
* @param _reason reason to close the history record
*/
void set_reason(History::EndReason _reason)
{
history->reason=_reason;
};
/**
* Sets the reason that closed the history record in the previous host
* @param _reason reason to close the history record in the previous host
*/
void set_previous_reason(History::EndReason _reason)
{
previous_history->reason=_reason;
};
/**
* Sets the action that closed the history record
* @param action that closed the history record
*/
2013-04-05 01:17:55 +04:00
void set_action(History::VMAction action)
{
history->action = action;
};
/**
* Sets the action that closed the history record in the previous host
* @param action that closed the history record in the previous host
*/
2013-04-05 01:17:55 +04:00
void set_previous_action(History::VMAction action)
{
previous_history->action = action;
};
// ------------------------------------------------------------------------
// Template
// ------------------------------------------------------------------------
/**
* Parse a string and substitute variables (e.g. $NAME) using the VM
* template values:
* @param attribute, the string to be parsed
* @param parsed, the resulting parsed string
* @param error description in case of failure
* @return 0 on success.
*/
int parse_template_attribute(const string& attribute,
string& parsed,
string& error);
/**
* Parse a file string variable (i.e. $FILE) using the FILE_DS datastores.
* It should be used for OS/DS_KERNEL, OS/DS_INITRD, CONTEXT/DS_FILES.
* @param attribute the string to be parsed
* @param img_ids ids of the FILE images in the attribute
* @param error description in case of failure
* @return 0 on success.
*/
int parse_file_attribute(string attribute,
vector<int>& img_ids,
string& error);
/**
* Factory method for virtual machine templates
*/
Template * get_new_template() const
{
return new VirtualMachineTemplate;
}
/**
* Returns a copy of the VirtualMachineTemplate
* @return A copy of the VirtualMachineTemplate
*/
VirtualMachineTemplate * clone_template() const
{
return new VirtualMachineTemplate(
*(static_cast<VirtualMachineTemplate *>(obj_template)));
};
/**
* This function replaces the *user template*.
* @param tmpl_str new contents
* @param keep_restricted If true, the restricted attributes of the
* current template will override the new template
* @param error string describing the error if any
* @return 0 on success
*/
int replace_template(const string& tmpl_str, bool keep_restricted, string& error);
/**
* Append new attributes to the *user template*.
* @param tmpl_str new contents
* @param keep_restricted If true, the restricted attributes of the
* current template will override the new template
* @param error string describing the error if any
* @return 0 on success
*/
int append_template(const string& tmpl_str, bool keep_restricted, string& error);
/**
* This function gets an attribute from the user template
* @param name of the attribute
* @param value of the attribute
*/
void get_user_template_attribute(const char * name, string& value) const
{
user_obj_template->get(name,value);
}
/**
* Sets an error message with timestamp in the template
* @param message Message string
*/
void set_template_error_message(const string& message);
/**
* Sets an error message with timestamp in the template
* @param name of the error attribute
* @param message Message string
*/
void set_template_error_message(const string& name, const string& message);
/**
* Deletes the error message from the template
*/
void clear_template_error_message();
/**
* Sets an error message with timestamp in the template (ERROR_MONITOR)
* @param message Message string
*/
void set_template_monitor_error(const string& message);
/**
* Deletes the error message from the template (ERROR_MONITOR)
* @param message Message string
*/
void clear_template_monitor_error();
// ------------------------------------------------------------------------
// States
// ------------------------------------------------------------------------
/**
* Returns the VM state (Dispatch Manager)
* @return the VM state
*/
VmState get_state() const
{
return state;
};
VmState get_prev_state() const
{
return prev_state;
};
/**
* Returns the VM state (life-cycle Manager)
* @return the VM state
*/
LcmState get_lcm_state() const
{
return lcm_state;
};
LcmState get_prev_lcm_state() const
{
return prev_lcm_state;
};
/**
* Sets VM state
* @param s state
*/
void set_state(VmState s)
{
string st;
state = s;
log("VM", Log::INFO, "New state is " + vm_state_to_str(st, s));
};
/**
* Sets VM LCM state
* @param s state
*/
void set_state(LcmState s)
{
string st;
lcm_state = s;
log("VM", Log::INFO, "New LCM state is " + lcm_state_to_str(st, s));
};
/**
* Sets the previous state to the current one
*/
void set_prev_state()
{
prev_state = state;
prev_lcm_state = lcm_state;
};
/**
* Test if the VM has changed state since last time prev state was set
* @return true if VM changed state
*/
bool has_changed_state()
{
return (prev_lcm_state != lcm_state || prev_state != state);
}
/**
* Sets the re-scheduling flag
* @param set or unset the re-schedule flag
*/
void set_resched(bool do_sched)
{
if ( do_sched == true )
{
resched = 1;
}
else
{
resched = 0;
}
};
// ------------------------------------------------------------------------
// Timers & Requirements
// ------------------------------------------------------------------------
/**
* Gets time from last information polling.
* @return time of last poll (epoch) or 0 if never polled
*/
time_t get_last_poll() const
{
return last_poll;
};
/**
* Sets time of last information polling.
* @param poll time in epoch, normally time(0)
*/
void set_last_poll(time_t poll)
{
last_poll = poll;
};
/**
* Get the VM physical requirements for the host.
* @param cpu
* @param memory
* @param disk
* @param pci_dev
*/
void get_requirements (int& cpu, int& memory, int& disk,
vector<Attribute *>& pci_dev);
/**
* Checks if the resize parameters are valid
* @param cpu New CPU. 0 means unchanged.
* @param memory New MEMORY. 0 means unchanged.
* @param vcpu New VCPU. 0 means unchanged.
* @param error_str Error reason, if any
*
* @return 0 on success
*/
int check_resize (float cpu, int memory, int vcpu, string& error_str);
/**
* Resize the VM capacity
* @param cpu
* @param memory
* @param vcpu
* @param error_str Error reason, if any
*
* @return 0 on success
*/
int resize (float cpu, int memory, int vcpu, string& error_str);
// ------------------------------------------------------------------------
// Network Leases & Disk Images
// ------------------------------------------------------------------------
/**
* Releases all network leases taken by this Virtual Machine
*/
void release_network_leases();
/**
* Releases the network lease taken by this NIC
*
* @param nic NIC to be released
* @param vmid Virtual Machine oid
*
* @return 0 on success, -1 otherwise
*/
static int release_network_leases(VectorAttribute const * nic, int vmid);
/**
* Releases all disk images taken by this Virtual Machine
*/
void release_disk_images();
/**
* Check if the given disk is volatile
*/
static bool is_volatile(const VectorAttribute * disk);
/**
* Check if the template contains a volatile disk
*/
static bool is_volatile(const Template * tmpl);
/**
* Check if the disk is persistent
*/
static bool is_persistent(const VectorAttribute * disk);
2015-03-09 20:14:57 +03:00
/**
* Check if the themplate is for an imported VM
*/
bool is_imported() const;
2015-03-09 20:14:57 +03:00
/**
* Return the total disk SIZE that the VM instance needs in the system DS
*/
static long long get_system_disk_size(Template * tmpl);
/**
* Returns the disk CLONE_TARGET or LN_TARGET
* @param disk
* @return NONE, SYSTEM, SELF. Empty string if it could not be determined
*/
static string disk_tm_target(const VectorAttribute * disk);
/**
* Returns a set of the security group IDs in use in this VM
* @param sgs a set of security group IDs
*/
void get_security_groups(set<int>& sgs) const;
2015-07-01 22:15:40 +03:00
/**
*
*/
const VectorAttribute* get_disk(int disk_id) const;
// ------------------------------------------------------------------------
// Context related functions
// ------------------------------------------------------------------------
/**
* Writes the context file for this VM, and gets the paths to be included
* in the context block device (CBD)
* @param files space separated list of paths to be included in the CBD
* @param disk_id CONTEXT/DISK_ID attribute value
* @param token_password Password to encrypt the token, if it is set
* @return -1 in case of error, 0 if the VM has no context, 1 on success
*/
int generate_context(string &files, int &disk_id, string& token_password);
// -------------------------------------------------------------------------
// "Save as" Disk related functions (save_as hot)
// -------------------------------------------------------------------------
/**
* Mark the disk that is going to be "save as"
* @param disk_id of the VM
* @param snap_id of the disk to save, -1 to select the active snapshot
* @param err_str describing the error
* @return -1 if the image cannot saveas or image_id of current disk
*/
int set_saveas_disk(int disk_id, int snap_id, string& err_str);
/**
* Set save attributes for the disk
* @param disk_id Index of the disk to save
* @param source to save the disk
* @param img_id ID of the image this disk will be saved to
*/
int set_saveas_disk(int disk_id, const string& source, int img_id);
/**
* Sets the corresponding state to save the disk.
* @return 0 if the VM can be saved
*/
int set_saveas_state();
/**
* Clears the save state, moving the VM to the original state.
* @return 0 if the VM was in an saveas state
*/
int clear_saveas_state();
/**
* Clears the SAVE_AS_* attributes of the disk being saved as
* @return the ID of the image this disk will be saved to or -1 if it
* is not found.
*/
int clear_saveas_disk();
2012-03-06 02:49:18 +04:00
/**
* Get the original image id of the disk. It also checks that the disk can
* be saved_as.
* @param disk_id Index of the disk to save
* @param source of the image to save the disk to
* @param image_id of the image to save the disk to
* @param tm_mad in use by the disk
* @param ds_id of the datastore in use by the disk
2012-03-06 02:49:18 +04:00
* @return -1 if failure
*/
int get_saveas_disk(int& disk_id, string& source, int& image_id,
string& snap_id, string& tm_mad, string& ds_id);
// ------------------------------------------------------------------------
// Authorization related functions
// ------------------------------------------------------------------------
/**
* Sets an authorization request for a VirtualMachine template based on
* the images and networks used
* @param uid for template owner
* @param ar the AuthRequest object
* @param tmpl the virtual machine template
*/
static void set_auth_request(int uid,
AuthRequest& ar,
VirtualMachineTemplate *tmpl);
2012-06-13 20:42:42 +04:00
/**
* Adds extra info to the given template:
* DISK/IMAGE_ID and SIZE
* @param uid for template owner
* @param tmpl the virtual machine template
*/
static void disk_extended_info(int uid,
VirtualMachineTemplate *tmpl);
// -------------------------------------------------------------------------
2012-06-13 20:42:42 +04:00
// Hotplug related functions
// -------------------------------------------------------------------------
2012-06-13 20:42:42 +04:00
/**
* Collects information about VM DISKS
* @param max_disk_id of the VM
* @param used_targets by the DISKS of the VM
2012-06-13 20:42:42 +04:00
*/
void get_disk_info(int& max_disk_id, set<string>& used_targets);
2012-06-13 20:42:42 +04:00
/**
* Get the IMAGE_ID of the image that's being saved as hot
* @param disk_id of the DISK
* @param image_id id of the image being saved
* @return IMAGE_ID on success, -1 otherwise
*/
//int get_disk_hot_info(int& image_id, int& disk_id, string& source);
/**
* Generate a DISK attribute to be attached to the VM.
* @param tmpl Template containing a single DISK vector attribute.
* @param used_targets targets in use by current DISKS
* @param max_disk_id Max DISK/DISK_ID of the VM
* @param uid of the VM owner
* @param image_id returns the id of the acquired image
* @param error_str describes the error
*
* @return a new VectorAttribute with the DISK (should be freed if not
* added to the template), 0 in case of error;
*/
static VectorAttribute * set_up_attach_disk(
int vm_id,
VirtualMachineTemplate * tmpl,
set<string>& used_targets,
int max_disk_id,
int uid,
int& image_id,
Snapshots ** snap,
string& error_str);
2012-06-13 20:42:42 +04:00
/**
* Returns the disk that is waiting for an attachment action
*
* @return the disk waiting for an attachment action, or 0
*/
VectorAttribute* get_attach_disk();
/**
* Cleans the ATTACH = YES attribute from the disks
*/
void clear_attach_disk();
/**
* Deletes the DISK that was in the process of being attached
*
* @return the DISK or 0 if no disk was deleted
2012-06-13 20:42:42 +04:00
*/
VectorAttribute * delete_attach_disk(Snapshots **snap);
/**
* Adds a new disk to the virtual machine template. The disk should be
* generated by the build_attach_disk
* @param new_disk must be allocated in the heap
* @param snap list of snapshots associated to the disk
*/
void set_attach_disk(VectorAttribute * new_disk, Snapshots * snap)
{
new_disk->replace("ATTACH", "YES");
obj_template->set(new_disk);
if (snap != 0)
{
int disk_id;
new_disk->vector_value("DISK_ID", disk_id);
snapshots.insert(pair<int, Snapshots *>(disk_id, snap));
}
}
2012-06-13 20:42:42 +04:00
/**
* Sets the attach attribute to the given disk
* @param disk_id of the DISK
* @return 0 if the disk_id was found -1 otherwise
*/
int set_attach_disk(int disk_id);
// ------------------------------------------------------------------------
// NIC Hotplug related functions
// ------------------------------------------------------------------------
2012-06-14 19:45:41 +04:00
/**
* Gets info about the new NIC to attach
*
* @param tmpl Template containing a single NIC vector attribute.
* @param max_nic_id Returns the max NIC_ID of the VM
* @param error_str error reason, if any
* @return a new VectorAttribute with the NIC (should be freed if not
* added to the template), 0 in case of error
*/
VectorAttribute * get_attach_nic_info(
VirtualMachineTemplate * tmpl,
int& max_nic_id,
string& error_str);
/**
* Setups the new NIC attribute to be attached to the VM.
2012-06-14 19:45:41 +04:00
*
* @param vm_id Id of the VM where this nic will be attached
* @param vm_sgs the securty group ids already present in the VM
* @param new_nic New NIC vector attribute, obtained from get_attach_nic_info
* @param rules Security Group rules will be added at the end of this
* vector. If not used, the VectorAttributes must be freed by the calling
* method
* @param max_nic_id Max NIC/NIC_ID of the VM
* @param uid of the VM owner
* @param error_str error reason, if any
* @return 0 on success, -1 otherwise
2012-06-14 19:45:41 +04:00
*/
static int set_up_attach_nic(
int vm_id,
set<int>& vm_sgs,
VectorAttribute * new_nic,
vector<VectorAttribute*> &rules,
int max_nic_id,
int uid,
string& error_str);
2012-06-14 19:45:41 +04:00
/**
* Cleans the ATTACH = YES attribute from the NICs
*/
void clear_attach_nic();
/**
* Deletes the NIC that was in the process of being attached
2012-06-14 19:45:41 +04:00
*
* @return the deleted NIC or 0 if none was deleted
*/
VectorAttribute * delete_attach_nic();
/**
* Adds a new NIC to the virtual machine template. The NIC should be
* generated by the build_attach_nic
* @param new_nic must be allocated in the heap
* @param rules Security Group rules obtained from set_up_attach_nic
*/
void set_attach_nic(VectorAttribute * new_nic, vector<VectorAttribute*> &rules);
/**
* Sets the attach attribute to the given NIC
* @param nic_id of the NIC
* @return 0 if the nic_id was found, -1 otherwise
2012-06-14 19:45:41 +04:00
*/
int set_attach_nic(int nic_id);
2012-06-14 19:45:41 +04:00
// ------------------------------------------------------------------------
// Snapshot related functions
// ------------------------------------------------------------------------
/**
* Return the snapshot list for the disk
* @param disk_id of the disk
* @param error if any
* @return pointer to Snapshots or 0 if not found
*/
const Snapshots * get_disk_snapshots(int did, string& err) const;
/**
* Creates a new snapshot of the given disk
* @param disk_id of the disk
* @param name a description for this snapshot
* @param error if any
* @return the id of the new snapshot or -1 if error
*/
int new_disk_snapshot(int disk_id, const string& name, string& error);
/**
* Sets the snap_id as active, the VM will boot from it next time
* @param disk_id of the disk
* @param snap_id of the snapshot
* @param error if any
* @return -1 if error
*/
int revert_disk_snapshot(int disk_id, int snap_id);
/**
* Deletes the snap_id from the list
* @param disk_id of the disk
* @param snap_id of the snapshot
* @param ds_quotas template with snapshot usage for the DS quotas
* @param vm_quotas template with snapshot usage for the VM quotas
*/
void delete_disk_snapshot(int disk_id, int snap_id, Template **ds_quotas,
Template **vm_quotas);
/**
* Get information about the disk to take the snapshot from
* @param ds_id id of the datastore
* @param tm_mad used by the datastore
* @param disk_id of the disk
* @param snap_id of the snapshot
*/
int get_snapshot_disk(int& ds_id, string& tm_mad, int& disk_id,
int& snap_id);
/**
* Unset the current disk being snapshotted (reverted...)
*/
void clear_snapshot_disk();
/**
* Set the disk as being snapshotted (reverted...)
* @param disk_id of the disk
* @param snap_id of the target snap_id
*/
int set_snapshot_disk(int disk_id, int snap_id);
// ------------------------------------------------------------------------
// Snapshot related functions
// ------------------------------------------------------------------------
/**
* Creates a new Snapshot attribute, and sets it to ACTIVE=YES
*
* @param name for the new Snapshot. If it is empty, the generated name
* will be placed in this param
* @param snap_id Id of the new snapshot
*
* @return 0 on success
*/
int new_snapshot(string& name, int& snap_id);
/**
* Sets the given Snapshot as ACTIVE=YES
*
* @param snap_id the snapshow ID
*
* @return 0 on success
*/
int set_active_snapshot(int snap_id);
/**
* Replaces HYPERVISOR_ID for the active SNAPSHOT
*
* @param hypervisor_id Id returned by the hypervisor for the newly
* created snapshot
*/
void update_snapshot_id(string& hypervisor_id);
/**
* Cleans the ACTIVE = YES attribute from the snapshots
*/
void clear_active_snapshot();
/**
* Deletes the SNAPSHOT that was in the process of being created
*/
void delete_active_snapshot();
/**
* Deletes all SNAPSHOT attributes
2012-06-14 19:45:41 +04:00
*/
void delete_snapshots();
2012-06-14 19:45:41 +04:00
// ------------------------------------------------------------------------
// Public cloud templates related functions
// ------------------------------------------------------------------------
/**
* Gets the list of public cloud hypervisors for which this VM has definitions
* @param list to store the cloud hypervisors in the template
* @return the number of public cloud hypervisors
*/
int get_public_cloud_hypervisors(vector<string> &cloud_hypervisors) const;
private:
// -------------------------------------------------------------------------
// Friends
// -------------------------------------------------------------------------
friend class VirtualMachinePool;
// *************************************************************************
// Virtual Machine Attributes
// *************************************************************************
// -------------------------------------------------------------------------
// VM Scheduling & Managing Information
// -------------------------------------------------------------------------
/**
* Last time (in epoch) that the VM was polled to get its status
*/
time_t last_poll;
// -------------------------------------------------------------------------
// Virtual Machine Description
// -------------------------------------------------------------------------
/**
* The state of the virtual machine.
*/
VmState state;
/**
* Previous state og the virtual machine, to trigger state hooks
*/
VmState prev_state;
/**
* The state of the virtual machine (in the Life-cycle Manager).
*/
LcmState lcm_state;
/**
* Previous state og the virtual machine, to trigger state hooks
*/
LcmState prev_lcm_state;
/**
* Marks the VM as to be re-scheduled
*/
int resched;
/**
* Start time, the VM enter the nebula system (in epoch)
*/
time_t stime;
/**
* Exit time, the VM leave the nebula system (in epoch)
*/
time_t etime;
/**
* Deployment specific identification string, as returned by the VM driver
*/
string deploy_id;
/**
* Memory in Kilobytes used by the VM
*/
int memory;
/**
* CPU usage (percent)
*/
int cpu;
/**
* Network usage, transmitted bytes
*/
long long net_tx;
/**
* Network usage, received bytes
*/
long long net_rx;
/**
* Network usage, received bytes
*/
long long disk_actual;
/**
* Network usage, received bytes
*/
long long disk_virtual;
/**
* History record, for the current host
*/
History * history;
/**
* History record, for the previous host
*/
History * previous_history;
/**
* Complete set of history records for the VM
*/
vector<History *> history_records;
/**
* Snapshots for each disk
*/
map<int, Snapshots *> snapshots;
/**
* User template to store custom metadata. This template can be updated
*/
VirtualMachineTemplate * user_obj_template;
/**
* Monitoring information for the VM
*/
VirtualMachineMonitorInfo monitoring;
/**
* Log class for the virtual machine, it writes log messages in
* $ONE_LOCATION/var/$VID/vm.log
* or, in case that OpenNebula is installed in root
* /var/log/one/$VM_ID.log
* For the syslog it will use the predefined /var/log/ locations
*/
Log * _log;
2012-02-25 02:13:22 +04:00
// *************************************************************************
// DataBase implementation (Private)
// *************************************************************************
/**
* Bootstraps the database table(s) associated to the VirtualMachine
* @return 0 on success
*/
static int bootstrap(SqlDB * db)
{
int rc;
ostringstream oss_vm(VirtualMachine::db_bootstrap);
ostringstream oss_monit(VirtualMachine::monit_db_bootstrap);
ostringstream oss_hist(History::db_bootstrap);
ostringstream oss_showback(VirtualMachine::showback_db_bootstrap);
rc = db->exec(oss_vm);
rc += db->exec(oss_monit);
rc += db->exec(oss_hist);
rc += db->exec(oss_showback);
return rc;
};
/**
* Callback function to unmarshall a VirtualMachine object
* (VirtualMachine::select)
* @param num the number of columns read from the DB
* @param names the column names
* @param vaues the column values
* @return 0 on success
*/
int select_cb(void *nil, int num, char **names, char ** values);
/**
* Execute an INSERT or REPLACE Sql query.
* @param db The SQL DB
* @param replace Execute an INSERT or a REPLACE
* @param error_str Returns the error reason, if any
* @return 0 one success
*/
int insert_replace(SqlDB *db, bool replace, string& error_str);
/**
* Updates the VM history record
* @param db pointer to the db
* @return 0 on success
*/
int update_history(SqlDB * db)
{
if ( history != 0 )
{
return history->update(db);
}
else
return -1;
};
/**
* Updates the previous history record
* @param db pointer to the db
* @return 0 on success
*/
int update_previous_history(SqlDB * db)
{
if ( previous_history != 0 )
{
return previous_history->update(db);
}
else
return -1;
};
/**
* Inserts the last monitoring, and deletes old monitoring entries.
*
* @param db pointer to the db
* @return 0 on success
*/
int update_monitoring(SqlDB * db);
// -------------------------------------------------------------------------
// Attribute Parser
// -------------------------------------------------------------------------
/**
* Mutex to perform just one attribute parse at a time
*/
static pthread_mutex_t lex_mutex;
/**
* Generates image attributes (DS_ID, TM_MAD, SOURCE...) for KERNEL and
* INITRD files.
* @param os attribute of the VM template
* @param base_name of the attribute "KERNEL", or "INITRD"
* @param base_type of the image attribute KERNEL, RAMDISK
* @param error_str Returns the error reason, if any
* @return 0 on success
*/
int set_os_file(VectorAttribute * os,
const string& base_name,
Image::ImageType base_type,
string& error_str);
/**
* Parse the "OS" attribute of the template by substituting
* $FILE variables
* @param error_str Returns the error reason, if any
* @return 0 on success
*/
int parse_os(string& error_str);
/**
* Attributes not allowed in NIC_DEFAULT to avoid authorization bypass and
* inconsistencies for NIC_DEFAULTS
*/
static const char * NO_NIC_DEFAULTS[];
static const int NUM_NO_NIC_DEFAULTS;
/**
* Parse the "NIC_DEFAULT" attribute
* @param error_str Returns the error reason, if any
* @return 0 on success
*/
int parse_defaults(string& error_str);
/**
* Known attributes for network contextualization rendered as:
* ETH_<nicid>_<context[0]> = $NETWORK[context[1], vnet_name]
*
* The context[1] values in the map are searched in the NIC and
* if not found in the AR and VNET. They can be also set in the
* CONTEXT section it self using full name (ETH_).
*
* IPv4 context variables:
* {"IP", "IP"},
* {"MAC", "MAC"},
* {"MASK", "NETWORK_MASK"},
* {"NETWORK", "NETWORK_ADDRESS"},
* {"GATEWAY", "GATEWAY"},
* {"DNS", "DNS"},
* {"SEARCH_DOMAIN", "SEARCH_DOMAIN"}
*
* IPv6 context:
* {"IP6", "IP6_GLOBAL"},
* {"GATEWAY6", "GATEWAY6"},
* {"CONTEXT_FORCE_IPV4", "CONTEXT_FORCE_IPV4"}
*/
static const char* NETWORK_CONTEXT[][2];
static const int NUM_NETWORK_CONTEXT;
static const char* NETWORK6_CONTEXT[][2];
static const int NUM_NETWORK6_CONTEXT;
/**
* Parse the "PCI" attribute of the template and checks mandatory attributes
* @param error_str Returns the error reason, if any
* @return 0 on success
*/
int parse_pci(string& error_str);
/**
* Parse the "CONTEXT" attribute of the template by substituting
* $VARIABLE, $VARIABLE[ATTR] and $VARIABLE[ATTR, ATTR = VALUE]
* @param error_str Returns the error reason, if any
* @return 0 on success
*/
int parse_context(string& error_str);
/**
* Parse the "SCHED_REQUIREMENTS" attribute of the template by substituting
* $VARIABLE, $VARIABLE[ATTR] and $VARIABLE[ATTR, ATTR = VALUE]
* @param error_str Returns the error reason, if any
* @return 0 on success
*/
int parse_requirements(string& error_str);
/**
* Adds automatic placement requirements: Datastore and Cluster
*
* @param error_str Returns the error reason, if any
* @return 0 on success
*/
int automatic_requirements(string& error_str);
/**
* Parse the "GRAPHICS" attribute and generates a default PORT if not
* defined
*/
int parse_graphics(string& error_str);
/**
* Searches the meaningful attributes and moves them from the user template
* to the internal template
*/
void parse_well_known_attributes();
/**
* Function that renders the VM in XML format optinally including
* extended information (all history records)
* @param xml the resulting XML string
* @param n_history Number of history records to include:
* 0: none
* 1: the last one
* 2: all
* @return a reference to the generated string
*/
string& to_xml_extended(string& xml, int n_history) const;
/**
* Merges NIC_DEFAULT with the given NIC
* @param nic NIC to process
*/
void merge_nic_defaults(VectorAttribute* nic);
// -------------------------------------------------------------------------
// NIC & DISK Management Helpers
// -------------------------------------------------------------------------
/**
* Get all network leases for this Virtual Machine
* @return 0 if success
*/
int get_network_leases(string &error_str);
/**
* Acquires the security groups of this NIC
*
* @param vm_id Virtual Machine oid
* @param sgs security group ID set
* @param rules Security Group rules will be added at the end of this vector
*/
static void get_security_group_rules(int vm_id, set<int>& sgs,
vector<VectorAttribute*> &rules);
/**
* Releases the security groups of this NIC
*
* @param vm_id Virtual Machine oid
* @param nic NIC to release the security groups
* @return 0 on success, -1 otherwise
*/
static void release_security_groups(int vm_id, const VectorAttribute * nic);
/**
* Returns a set of the security group IDs of this NIC
* @param nic NIC to get the security groups from
* @param sgs a set of security group IDs
*/
static void get_security_groups(const VectorAttribute * nic, set<int>& sgs)
{
one_util::split_unique(nic->vector_value("SECURITY_GROUPS"), ',', sgs);
}
/**
* Get all disk images for this Virtual Machine
* @param error_str Returns the error reason, if any
* @return 0 if success
*/
int get_disk_images(string &error_str);
/**
* Return the VectorAttribute representation of a disk
* @param disk_id of the disk
* @return pointer to the VectorAttribute
*/
VectorAttribute* get_disk(int disk_id)
{
return const_cast<VectorAttribute *>(
static_cast<const VirtualMachine&>(*this).get_disk(disk_id));
};
protected:
//**************************************************************************
// Constructor
//**************************************************************************
VirtualMachine(int id,
int uid,
int gid,
const string& uname,
const string& gname,
int umask,
VirtualMachineTemplate * _vm_template);
virtual ~VirtualMachine();
// *************************************************************************
// DataBase implementation
// *************************************************************************
static const char * table;
static const char * db_names;
static const char * db_bootstrap;
static const char * monit_table;
static const char * monit_db_names;
static const char * monit_db_bootstrap;
static const char * showback_table;
static const char * showback_db_names;
static const char * showback_db_bootstrap;
/**
* Reads the Virtual Machine (identified with its OID) from the database.
* @param db pointer to the db
* @return 0 on success
*/
int select(SqlDB * db);
/**
* Writes the Virtual Machine and its associated template in the database.
* @param db pointer to the db
* @return 0 on success
*/
int insert(SqlDB * db, string& error_str);
/**
* Writes/updates the Virtual Machine data fields in the database.
* @param db pointer to the db
* @return 0 on success
*/
int update(SqlDB * db)
{
string error_str;
return insert_replace(db, true, error_str);
}
/**
2010-05-25 20:19:22 +04:00
* Deletes a VM from the database and all its associated information
* @param db pointer to the db
2010-05-25 20:19:22 +04:00
* @return -1
*/
int drop(SqlDB * db)
{
2010-05-25 20:19:22 +04:00
NebulaLog::log("ONE",Log::ERROR, "VM Drop not implemented!");
return -1;
}
2013-03-13 20:43:42 +04:00
};
#endif /*VIRTUAL_MACHINE_H_*/