KR101358995B1 - Method and system for managing high availability - Google Patents

Abstract

According to an embodiment of the present invention, a high availability system including a plurality of equipment and a high availability management method of the high availability system are disclosed. The method includes sharing HA state information of a plurality of devices configuring the high availability system by transmitting its HA state information to another device through an HA link and receiving HA state information of the other device from another device. step; Determining a state change of an HA link of each device based on the shared HA state information; Updating the HA link state in the HA state information by designating the HA link state of each device as HA link active or HA link inactive according to the determined state change; And updating the device state in the HA state information by designating an operation state for each device in the HA group including at least one device connected through the HA link in the activated state as a master device or a slave device. have.

Description

High Availability Management Methods and Systems {METHOD AND SYSTEM FOR MANAGING HIGH AVAILABILITY}

The present invention relates to a high availability implementation technology, and more particularly, to a technology for efficiently managing equipment constituting a high availability system.

HA (High Availability) is a function that supports non-disruptive services by grouping a plurality of devices and duplicating them. In general, a network device providing a service provides a non-stop service by establishing a high availability (HA) system by grouping and duplicating a plurality of devices. For example, because the intrusion prevention / prevention system is a gateway device, it may be a single point of failure where all the networks are paralyzed in the event of a failure. Therefore, it is desirable to provide a redundancy scheme for the continuous network environment. A high availability system should be able to provide normal service continuously regardless of any defects in system resources such as hardware, software, or network.

Meanwhile, in a high availability system configured by grouping a plurality of devices, the devices are performing synchronization between devices by transmitting and receiving a synchronization packet including session information and the like through an HA link (or HA interface). If the equipment is not properly synchronized, the high availability system will not be able to provide normal service. Therefore, when some equipments fail to communicate over the HA link, the high availability system must exclude the failed equipment from the high availability configuration. Conversely, in the event of a failure of the HA link, the high availability system must include the failed back equipment in the high availability configuration. Therefore, according to such a change in the state of the HA link, a technique for efficiently managing a plurality of devices constituting the high availability system is required.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a technology that can efficiently manage the equipment according to the state changes of the equipment constituting the high availability system.

According to one embodiment of the present invention, a high availability management method of a high availability system including a plurality of equipment is disclosed. The method includes sharing HA state information of a plurality of devices configuring the high availability system by transmitting its HA state information to another device through an HA link and receiving HA state information of the other device from another device. step; Determining a state change of an HA link of each device based on the shared HA state information; Updating the HA link state in the HA state information by designating the HA link state of each device as HA link active or HA link inactive according to the determined state change; And updating the device state in the HA state information by designating an operation state for each device in the HA group including at least one device connected through the HA link in the activated state as a master device or a slave device. have.

In accordance with one embodiment of the present invention, a high availability system comprising a plurality of equipment is disclosed. The device in the system is an interface for transmitting its HA state information to another device through the HA link, and receives the HA state information of the other device from the other device; An HA database for storing HA state information transmitted and received through the interface; An HA link state determination unit for determining a state change of the HA links of the plurality of devices based on the HA state information in the HA database; HA link for updating the HA link state from the HA state information in the HA database by designating the HA link state of the plurality of devices as HA link active or HA link inactive according to the state change determined by the HA link state determination unit. A status update unit; And designating an operation state of each device in the HA group including at least one device connected through an active HA link as a master device or a slave device, thereby updating the device state in the HA state information in the HA database. It may include an equipment status update unit.

According to the present invention, by changing the configuration of each device in accordance with the change in the HA state of the devices in the high availability system, it is possible to efficiently manage the high availability system.

BRIEF DESCRIPTION OF THE DRAWINGS A brief description of each drawing is provided to more fully understand the drawings recited in the description of the invention.
Figure 1 illustrates an example of a high availability system.
2 illustrates a high availability management method according to an embodiment of the present invention.
3 illustrates equipment constituting a high availability system according to an embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Embodiments of the present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which exemplary embodiments of the present invention are shown. The present invention is not limited to these embodiments. Rather, these embodiments are provided so that this disclosure will be more thorough and complete, and will fully convey the concept of the invention to those skilled in the art to which the present invention pertains.

Hereinafter, the present invention will be described in detail with reference to the embodiments of the present invention with reference to the accompanying drawings.

Figure 1 illustrates an example of a high availability system. Referring to FIG. 1, a high availability system 100 includes equipment 1 110, equipment 2 120, and equipment 3 130. Although three pieces of equipment are shown in FIG. 1, more or fewer devices may constitute a high availability system, according to an embodiment to which the present invention is applied. The equipment 1110 to the equipment 130 may be network equipment such as a server, a storage, a router, an integrated security equipment (UMM), and the like. The high availability system 100 may operate in an active-standby mode or an active-active mode. For example, in the active-standby mode, when a problem occurs in the providing equipment 1 (110), the service being provided to the waiting equipment 2 (120) can be quickly and reliably switched to minimize the service interruption and to the user. Continue to provide services.

Equipment 1 (110), equipment 2 (120) and equipment 3 (130) may be configured to operate as a master, a slave, and a slave, respectively. Here, the master device may drive new member addition and synchronization, deliver commands and settings by the GUI / CLI to the slave device (ie, real-time setting synchronization), and collect logs and generate reports. In addition, the master device may operate in the active mode preferentially in the active-standby mode. The slave device can operate according to the command and setting of the master device, such as transferring logs to the master device, and can operate in standby mode from active-standby mode. In addition, the slave device plays the role of a master when a device failover occurs in the master device, or plays a role of a slave again when the failing master device recovers from the failure. The master device or the slave device may be determined by the priority between the devices 110 to 130. For example, a device with the highest priority may be designated as a master device and a device other than the master device may be designated as a slave device. In addition, the slave device with the highest priority among the slave devices plays the role of a master when a device failover occurs in the master device, or reactivates a slave device when the failed master device recovers from the failure. Can be. Such a slave device may be referred to as a backup master device.

Equipment 1 (110) to equipment 130 is connected to the external network via the switch 1 (140). Switch 1 140 may be an L2 or L3 switch. Equipment 1 (110) to equipment 3 (130) is connected to the internal network via the switch 2 (150). Switch 2 150 may be an L2 or L3 switch.

The equipment 110-130 may be connected to an HA link to support high availability. Where each HA link may be interconnected via switch 3 160 and switch 3 160 may be an L2 or L3 switch. That is, the devices 110 to 130 may be configured to form a session inaccessible outside the system to support high availability, and may be configured to perform synchronization between the devices 110 to 130 through the session. The session may be established through the HA link, and the devices 110 to 130 exchange setting values and data through the session.

In addition, the devices 110 to 130 may check the state change of the devices 110 to 130 using the HA link. For example, some equipment may be removed or turned off in a high availability system, or an HA link may be disconnected, or some equipment may be additionally installed or turned on in a high availability system, or an HA link may be reconnected. It is to provide normal high availability service by grasping state change. To this end, devices 1 110 through 3 130 exchange HA state information (eg, may be referred to as Hello packets or Heartbeat messages) through a session established by the HA link. The exchange may be made by periodic / aperiodic bloatcast. The HA status information may include a HA group name, an HA operation mode, a transmission period of HA status information, a member configuration, and the like. Member configuration holds information about the devices that make up the high availability system. For each device, information on the device name, priority, device status, service status, etc. is set. Equipment constituting the high availability system is preferably all the same equipment to ensure compatibility. In this case, the HA state information of each device is synchronized to have the same format and content.

This configuration of FIG. 1 is illustrative and various configurations can be applied according to the embodiment to which the present invention is applied.

2 illustrates a high availability management method according to an embodiment of the present invention. The method 200 according to FIG. 2 may be performed by each of the plurality of equipment in a high availability system including the plurality of equipment. The method 200 includes sharing 210 HA state information of a plurality of devices; Determining (220) a state change of an HA link of each device; Updating (230) the HA link state; And updating the equipment state (240).

First, in step 210, the HA state of the plurality of devices constituting the high availability system by transmitting its HA state information to another device through the HA link, and receives the HA state information of the other device from the other device. Information can be shared. Each device constituting the high availability system stores HA state information, and the HA state information may be HA state information of all devices constituting the high availability system. Accordingly, by broadcasting the HA state information periodically and aperiodically through step 210 and receiving the HA state information of another device, the HA state information of all the devices connected through the HA link can be shared.

Subsequently, based on the HA state information shared through step 210, the state change of the HA link of each device may be determined (step 220). Specifically, when the HA state information is received through the HA link from the device that was designated as HA link inactive in the HA state information before performing step 210, the HA link state of the device becomes HA link active from the HA link inactive. If the HA status information is not received through the HA link from the device designated as HA link activity in the HA state information before performing step 210, the HA link state of the device becomes the HA link activity. It can be determined from that it has been changed to the HA link inactive. Here, HA link activation means that the HA link connected to the device is operating normally, for example, when some equipment is additionally installed or turned on or the HA link is reconnected, and HA link inactivation is, for example, some equipment. When is removed or turned off or the HA link is disconnected, it means that the HA link connected to the equipment does not operate normally. Meanwhile, its HA link state may always be determined as HA link activity.

According to the change of the state of the HA link determined in step 220, the HA link state may be updated in the HA state information by specifying the HA link state of each device as one of HA link active and HA link inactive (step 230). ). If in step 220 no change in state of the HA link occurs, that is, there is no change between active or inactive of the HA link of the equipment, steps 230 to 240 are not performed. On the contrary, when the state change of the HA link occurs in step 220, that is, when there is a change between active or inactive of the HA link of the equipment, the change may be reflected in the HA state information. Specifically, when it is determined in step 220 that the HA link state of the device is changed from HA link inactivity to HA link activity, the HA link state is designated as the HA link activity in the HA state information, and the HA link state of the device If it is determined that the change from HA link activation to HA link inactivity, the HA link state of the device may be designated as HA link inactivity in the HA state information.

Subsequently, the operation state of each device in the HA group may be updated (step 240). Here, the HA group refers to a group of at least one device connected through an HA link in an activated state, and the determination of the HA group may be made from the viewpoint of each device. For example, in FIG. 2, when HA link 1 is inactive, device 1 may configure one HA group, and device 2 and device 3 may configure another HA group. If only the equipment in the HA link active state exists in step 230, there can be one HA group. That is, in the above example, when the HA link of the equipment 1 is changed from inactive to active, the equipment 1, the equipment 2 and the equipment 3 may configure one HA group. Conversely, if there is equipment in the HA link inactive state in step 230, there may be a plurality of HA groups. For example, in FIG. 2, when HA link 2 and HA link 3 are inactive, from the perspective of equipment 1, one HA group including equipment 1 and the other HA group including equipment 2 and equipment 3 May exist, and in terms of equipment 2, there may be one HA group including equipment 2 and another HA group including equipment 1 and equipment 3, and in terms of equipment 3, including equipment 3 There may be one HA group and another HA group including equipment 1 and equipment 2. Step 240 may designate an operation state of each device by designating a device in each HA group as either a master device or a slave device.

In one embodiment, step 240 may be performed according to priorities between equipment. For example, a device having the highest priority among the devices in the HA group may be designated as a master device, and a device other than the master device may be designated as a slave device. If only one device in the HA group exists, the one device may be designated as the master device and the slave device may not be designated. Also, for example, a device having the highest priority among slave devices in the HA group may be designated as a backup master device. Here, the backup master device functions as a slave device in normal operation, but means a device functioning as a master when the HA link is inactive.

Subsequently, when there are a plurality of HA groups, each device in the HA system may update the service state in the HA state information by designating a service state for the devices in the HA group as service active or service inactive (step). 250). If there are multiple HA groups, this is to designate HA group to perform service. Here, service activation means that the equipment provides a normal service, and service inactivity means that the equipment cannot provide a normal service, for example, due to a failure in an interface for service traffic to flow in and out of some equipment. . When a plurality of devices constitute one HA group, even if an interface of some of the devices in the HA group fails, when the interface of the other device operates normally, the HA group may provide a normal service.

Here, the plurality of HA groups may be divided into a first HA group including a device designated as a master device before step 240 and a second HA group not including the device designated as the master device. Each device may designate an operation state of equipment in the second HA group as service inactive when the first HA group is service active. In addition, each device may designate an operation state of a device in the second HA group as service active when the first HA group is inactive. In FIG. 2, step 250 is shown to be performed after step 240, but according to an embodiment to which the present invention is applied, step 250 may be performed before step 240, in which case, service Step 240 may not be performed for the HA group designated as inactive.

3 illustrates equipment constituting a high availability system according to an embodiment of the present invention. The high availability system may include a plurality of equipment for performing high availability, and each equipment 300 may be configured identically to ensure compatibility. Each device 300 includes an interface 310 for transmitting its HA state information to another device through an HA link, and receiving the HA state information of the other device from the other device; An HA database 320 for storing HA state information sent and received via the interface 310; An HA link state determination unit 330 for determining a state change of the HA links of the plurality of devices based on the HA state information in the HA database 320; According to the HA link state determined by the HA link state determination unit 330, the HA link state in the HA state information in the HA database 320 by designating the HA link state of the plurality of devices as HA link active or HA link inactive. An HA link state updating unit 340 for updating a state; Updating the device state in the HA state information in the HA database 320 by designating an operation state for each device in the HA group including at least one device connected through the HA link in an active state as a master device or a slave device. Equipment status update unit 350 for; And a plurality of HA groups including at least one device connected through an active HA link, by specifying a service state of a device in the HA group as service inactive or service active. The information may include a service status updater 360 for updating the service status of the equipment.

In one embodiment, when the HA link state determination unit 330 receives the HA state information through the HA link from the device that the interface 310 is designated as HA link inactive, the HA link state of the device is the HA link inactive If it is determined from the HA link active from the device that the interface 310 has been designated as HA link active, and the HA state information is not received over the HA link, the HA link state of the device from the HA link activity It can be determined that the HA link has been changed to inactive.

In one embodiment, the device status updater 350 designates the highest priority device as the master device among the HA groups including at least one device connected through the HA link in the activated state, and the remaining devices as slave devices. Can be specified.

In one embodiment, the service status updater 360 includes a plurality of HA groups, the first HA group including the equipment that was designated as the master equipment before the equipment status updater 350 updates the equipment status, and the master equipment. When the first HA group is service active, the operation state of the equipment in the second HA group is set to service inactivity in the HA state information in the HA database 320. Can be specified. In addition, the service status updater 360 may designate a plurality of HA groups as the first HA group including the equipment designated as the master equipment before the equipment status updater 350 updates the equipment status. If the first HA group is service inactive, the operation state of the equipment in the second HA group may be designated as service activation when the first HA group is inactive.

Through the above configuration, the present invention can efficiently manage the high availability system by changing the configuration of each device according to the change in the HA state of the devices in the high availability system.

As described above, an optimal embodiment has been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

Claims (12)

A high availability management method of a high availability system including a plurality of devices,
Sharing HA state information of a plurality of devices constituting the high availability system by transmitting its HA state information to another device through an HA link and receiving HA state information of the other device from another device;
Determining a state change of an HA link of each device based on the shared HA state information;
Updating the HA link state in the HA state information by designating the HA link state of each device as HA link active or HA link inactive according to the determined state change; And
Updating the device state in the HA state information by designating an operating state for each device in the HA group including at least one device connected through the HA link in an active state as a master device or a slave device;
Determining a state change of the HA link,
Determining that the HA link status of the device has changed from HA link inactivity to HA link activation when the HA state information is received from the device that has been designated as the HA link inactive through the HA link; And
Determining that the HA link state of the device has changed from the HA link activity to the HA link inactive, when the HA state information is not received from the device that has been designated as the HA link active through the HA link. How to manage high availability. delete The method of claim 1,
Updating the equipment state,
Performed by designating the highest priority device as a master device among the HA groups including at least one device connected through an active HA link, and designating the remaining devices as slave devices.
How to manage high availability. The method of claim 1,
When there are a plurality of HA groups including at least one device connected through an active HA link, the service state of the device in the HA state information is determined by designating the service state of the device in the HA group as service inactive or service active. Further comprising updating the status
How to manage high availability. 5. The method of claim 4,
The updating of the service state may include:
Dividing the plurality of HA groups into a first HA group including a device designated as a master device and a second HA group not including a device designated as the master device before performing the step of updating the device status; step; And
If the first HA group is service active, including designating an operation state of equipment in the second HA group as service inactive in the HA state information.
How to manage high availability. 5. The method of claim 4,
The updating of the service state may include:
Dividing the plurality of HA groups into a first HA group including a device designated as a master device and a second HA group not including a device designated as the master device before performing the step of updating the device status; step; And
If the first HA group is service inactive, designating an operation state of equipment in the second HA group as service active in the HA state information.
How to manage high availability. A high availability system comprising a plurality of devices,
The equipment,
An interface for transmitting its HA state information to another device through an HA link, and receiving HA state information of the other device from another device;
An HA database for storing HA state information transmitted and received through the interface;
An HA link state determination unit for determining a state change of the HA links of the plurality of devices based on the HA state information in the HA database;
HA link for updating the HA link state from the HA state information in the HA database by designating the HA link state of the plurality of devices as HA link active or HA link inactive according to the state change determined by the HA link state determination unit. A status updater; And
Equipment for updating the device status in the HA status information in the HA database by designating an operation status of each device in the HA group including at least one device connected through the HA link in an active state as a master device or a slave device. Including a status update unit,
The HA link state determination unit,
When the interface receives the HA state information through the HA link from the device that has been designated as the HA link inactive, it is determined that the HA link state of the device has changed from the HA link inactive to HA link active,
Determining that the HA link state of the device has changed from the HA link activity to the HA link inactive, when the HA state information is not received through the HA link from the device that has been designated the interface as the HA link active,
High Availability System. delete The method of claim 7, wherein
The equipment state update unit,
In the HA group including at least one device connected through the active HA link, the highest priority device is designated as the master device, and the remaining devices are designated as slave devices.
High Availability System. The method of claim 7, wherein
When there are a plurality of HA groups including at least one device connected through an active HA link, HA state information in the HA database is determined by designating a service state of a device in the HA group as service inactive or service active. Further comprising a service status updating unit for updating the service status of the equipment in
High Availability System. 11. The method of claim 10,
The service state update unit,
The plurality of HA groups are divided into a first HA group including a device designated as a master device and a second HA group not including the device designated as the master device before the device status updater updates the device state. ,
If the first HA group is service active, designating an operation state of equipment in the second HA group as service inactive in HA state information in the HA database.
High Availability System. 11. The method of claim 10,
The service state update unit,
The plurality of HA groups are divided into a first HA group including a device designated as a master device and a second HA group not including the device designated as the master device before the device status updater updates the device state. ,
If the first HA group is service inactive, in the HA state information in the HA database to specify the operating state of the equipment in the second HA group as the service active,
High Availability System.

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