cloudstack/server/src/com/cloud/network/NetworkManager.java
2010-09-15 18:00:54 -07:00

232 lines
9.5 KiB
Java

/**
* Copyright (C) 2010 Cloud.com, Inc. All rights reserved.
*
* This software is licensed under the GNU General Public License v3 or later.
*
* It is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or any later version.
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
*/
package com.cloud.network;
import java.util.List;
import java.util.Map;
import com.cloud.agent.api.to.NicTO;
import com.cloud.async.executor.AssignToLoadBalancerExecutor;
import com.cloud.async.executor.LoadBalancerParam;
import com.cloud.dc.DataCenterVO;
import com.cloud.dc.HostPodVO;
import com.cloud.dc.VlanVO;
import com.cloud.deploy.DeploymentPlan;
import com.cloud.exception.ConcurrentOperationException;
import com.cloud.exception.InsufficientCapacityException;
import com.cloud.exception.ResourceAllocationException;
import com.cloud.offerings.NetworkOfferingVO;
import com.cloud.service.ServiceOfferingVO;
import com.cloud.user.AccountVO;
import com.cloud.utils.Pair;
import com.cloud.utils.component.Manager;
import com.cloud.vm.DomainRouter;
import com.cloud.vm.DomainRouterVO;
import com.cloud.vm.NicProfile;
import com.cloud.vm.NicVO;
import com.cloud.vm.UserVmVO;
import com.cloud.vm.VMInstanceVO;
/**
* NetworkManager manages the network for the different end users.
*
*/
public interface NetworkManager extends Manager {
public static final int DEFAULT_ROUTER_VM_RAMSIZE = 128; // 128M
public static final boolean USE_POD_VLAN = false;
/**
* Assigns a router to the user.
*
* @param userId user id.
* @param dcId data center id.
* @param podId pod id.
* @param domain domain to use
* @return DomainRouter if one is assigned.
* @throws InsufficientCapacityException if assigning causes any capacity issues.
*/
DomainRouterVO assignRouter(long userId, long accountId, long dcId, long podId, String domain, String instance) throws InsufficientCapacityException;
/**
* create the router.
*
* @param accountId account Id the router belongs to.
* @param ipAddress public ip address the router should use to access the internet.
* @param dcId data center id the router should live in.
* @param domain domain name of this network.
* @param offering service offering associated with this request
* @return DomainRouterVO if created. null if not.
*/
DomainRouterVO createRouter(long accountId, String ipAddress, long dcId, String domain, ServiceOfferingVO offering, long startEventId) throws ConcurrentOperationException;
/**
* create a DHCP server/user data server for directly connected VMs
* @param userId the user id of the user creating the router.
* @param accountId the account id of the user creating the router.
* @param dcId data center id the router should live in.
* @param domain domain name of this network.
* @return DomainRouterVO if created. null if not.
*/
DomainRouterVO createDhcpServerForDirectlyAttachedGuests(long userId, long accountId, DataCenterVO dc, HostPodVO pod, Long candidateHost, VlanVO vlan) throws ConcurrentOperationException;
/**
/*
* Send ssh public/private key pair to specified host
* @param hostId
* @param pubKey
* @param prvKey
*/
boolean sendSshKeysToHost(Long hostId, String pubKey, String prvKey);
/**
* save a vm password on the router.
*
* @param routerId the ID of the router to save the password to
* @param vmIpAddress the IP address of the User VM that will use the password
* @param password the password to save to the router
*/
boolean savePasswordToRouter(long routerId, String vmIpAddress, String password);
DomainRouterVO startRouter(long routerId, long eventId);
boolean releaseRouter(long routerId);
boolean destroyRouter(long routerId);
boolean stopRouter(long routerId, long eventId);
boolean getRouterStatistics(long vmId, Map<String, long[]> netStats, Map<String, long[]> diskStats);
boolean rebootRouter(long routerId, long eventId);
/**
* @param hostId get all of the virtual machine routers on a host.
* @return collection of VirtualMachineRouter
*/
List<? extends DomainRouter> getRouters(long hostId);
/**
* @param routerId id of the router
* @return VirtualMachineRouter
*/
DomainRouterVO getRouter(long routerId);
/**
* Do all of the work of releasing public ip addresses. Note that
* if this method fails, there can be side effects.
* @param userId
* @param ipAddress
* @return true if it did; false if it didn't
*/
public boolean releasePublicIpAddress(long userId, String ipAddress);
/**
* Find or create the source nat ip address a user uses within the
* data center.
*
* @param account account
* @param dc data center
* @param domain domain used for user's network.
* @param so service offering associated with this request
* @return public ip address.
*/
public String assignSourceNatIpAddress(AccountVO account, DataCenterVO dc, String domain, ServiceOfferingVO so, long startEventId) throws ResourceAllocationException;
/**
* @param fwRules list of rules to be updated
* @param router router where the rules have to be updated
* @return list of rules successfully updated
*/
public List<FirewallRuleVO> updatePortForwardingRules(List<FirewallRuleVO> fwRules, DomainRouterVO router, Long hostId);
/**
* @param fwRules list of rules to be updated
* @param router router where the rules have to be updated
* @return success
*/
public boolean updateLoadBalancerRules(List<FirewallRuleVO> fwRules, DomainRouterVO router, Long hostId);
/**
* @param publicIpAddress public ip address associated with the fwRules
* @param fwRules list of rules to be updated
* @param router router where the rules have to be updated
* @return list of rules successfully updated
*/
public List<FirewallRuleVO> updateFirewallRules(String publicIpAddress, List<FirewallRuleVO> fwRules, DomainRouterVO router);
/**
* Associates or disassociates a list of public IP address for a router.
* @param router router object to send the association to
* @param ipAddrList list of public IP addresses
* @param add true if associate, false if disassociate
* @return
*/
boolean associateIP(DomainRouterVO router, List<String> ipAddrList, boolean add) throws ResourceAllocationException;
boolean updateFirewallRule(FirewallRuleVO fwRule, String oldPrivateIP, String oldPrivatePort);
boolean executeAssignToLoadBalancer(AssignToLoadBalancerExecutor executor, LoadBalancerParam param);
/**
* Add a DHCP entry on the domr dhcp server
* @param routerHostId - the host id of the domr
* @param routerIp - the private ip address of the domr
* @param vmName - the name of the VM (e.g., i-10-TEST)
* @param vmMac - the mac address of the eth0 interface of the VM
* @param vmIp - the ip address to hand out.
* @return success or failure
*/
public boolean addDhcpEntry(long routerHostId, String routerIp, String vmName, String vmMac, String vmIp);
/**
* Adds a virtual machine into the guest network.
* 1. Starts the domR
* 2. Sets the dhcp Entry on the domR
* 3. Sets the domR
*
* @param vm user vm to add to the guest network
* @param password password for this vm. Can be null
* @return DomainRouterVO if everything is successful. null if not.
*
* @throws ConcurrentOperationException if multiple starts are being attempted.
*/
public DomainRouterVO addVirtualMachineToGuestNetwork(UserVmVO vm, String password, long startEventId) throws ConcurrentOperationException;
String createZoneVlan(DomainRouterVO router);
/**
* Lists IP addresses that belong to VirtualNetwork VLANs
* @param accountId - account that the IP address should belong to
* @param dcId - zone that the IP address should belong to
* @param sourceNat - (optional) true if the IP address should be a source NAT address
* @return - list of IP addresses
*/
List<IPAddressVO> listPublicIpAddressesInVirtualNetwork(long accountId, long dcId, Boolean sourceNat);
NetworkConfigurationVO setupNetworkProfile(AccountVO account, NetworkOfferingVO offering, DeploymentPlan plan);
NetworkConfigurationVO setupNetworkProfile(AccountVO account, NetworkOfferingVO offering, Map<String, String> params, DeploymentPlan plan);
List<NetworkConfigurationVO> setupNetworkProfiles(AccountVO account, List<NetworkOfferingVO> offerings, DeploymentPlan plan);
List<NetworkOfferingVO> getSystemAccountNetworkOfferings(String... offeringNames);
<K extends VMInstanceVO> List<NicProfile> allocate(K vm, List<Pair<NetworkConfigurationVO, NicProfile>> networks) throws InsufficientCapacityException;
<K extends VMInstanceVO> List<NicTO> prepare(K vm);
<K extends VMInstanceVO> void create(K vm);
<K extends VMInstanceVO> List<NicVO> getNics(K vm);
}