CN102231656B - Ntp server clock synchronization keeping method, system and device - Google Patents

Abstract

The invention discloses a kind of ntp server clock synchronization keeping method, system and device, the method includes: the first IPTV NTP NTP I server and the 2nd NTP I server are from communication network time protocol NTP T server sync clock；Oneth NTP I server inquires about the first clock jitter value of self and the 2nd NTP I server at set time intervals, when the first clock jitter value exceedes the time difference threshold value of setting, oneth NTP I server lookup self and the second clock deviation value of NTP T server, if second clock deviation value exceedes the time difference threshold value of setting, then revise local clock.The clock that can be good at keeping ntp server synchronizes, it is to avoid system clock entanglement.

Description

Ntp server clock synchronization keeping method, system and device

Technical field

The present invention relates to Web TV technical field, espespecially a kind of NTP ntp server clock Synchronization keeping method, system and device.

Background technology

Numerous operation flows of IPTV (Interactive Personality TV, IPTV) all depend on Rely in clock, such as time-shift service, review the main business such as business, order business, swift and violent along with IPTV Development, the pressure of NTP (Network Time Protocol, NTP) server is the most increasingly Greatly, responsibility is the most increasing.Ntp server needs the NTP clock providing each server of IPTV to synchronize, The NTP clock also providing for Set Top Box (Set Top Box, STB) synchronizes.Due to STB start shooting after time Between be defaulted as 1970, so, when being configured to of ntp server is not intended to the time difference and still provides NTP Clock synchronous service.

Ntp server (the hereinafter referred to as NTP-I server) configuration of IPTV services from telecommunications NTP Device (hereinafter referred to as NTP-T server) carries out clock synchronization, and NTP-T server configures is if the time difference NTP synchronous service is not the most provided more than 4S.Concrete group-network construction sees Fig. 1, NTP-T server and provides Synchronised clock, NTP-I server is from NTP-T server sync clock signal, it is achieved clock synchronizes, and leads to Cross NTP and synchronize (SYNC) signal each service server of synchronization and the clock of Set Top Box.

If NTP-I server clock transition occurs more than 4S, then due to NTP-T server configures, NTP-I server carries out the operation of clock synchronization from NTP-T server will be failed, NTP-I server Erroneous clock signal can be led by the NTP service synchronization of its offer to all of IPTV service server and STB Cause service server and entanglement occurs in STB clock, produce business service abnormal.

Summary of the invention

The embodiment of the present invention provides a kind of ntp server clock synchronization keeping method, system and device, uses System clock entanglement and the business service that may cause during to solve existing ntp server clock synchronization failure are different Normal problem.

A kind of NTP ntp server clock synchronization keeping method, including:

First IPTV NTP NTP-I server and the 2nd NTP-I server from Communication network time protocol NTP-T server sync clock；

Oneth NTP-I server inquires about self and the 2nd NTP-I server at set time intervals First clock jitter value, when the first clock jitter value exceedes the time difference threshold value of setting, a NTP-I service Device inquiry self and the second clock deviation value of NTP-T server, if second clock deviation value exceedes setting Time difference threshold value, then revise local clock；

2nd NTP-I server inquires about self and a NTP-I server at set time intervals 3rd clock jitter value, when the 3rd clock jitter value exceedes the time difference threshold value of setting, the 2nd NTP-I service Device inquiry self and the 4th clock jitter value of NTP-T server, if the 4th clock jitter value exceedes setting Time difference threshold value, then revise local clock.

A kind of NTP ntp server clock synchronizes holding system, including:

First IPTV NTP NTP-I server, for from the communication network time Agreement NTP-T server sync clock；Inquire about self and the 2nd NTP-I service at set time intervals First clock jitter value of device, when the first clock jitter value exceedes the time difference threshold value of setting, a NTP-I Server lookup self and the second clock deviation value of NTP-T server, if second clock deviation value exceedes set Fixed time difference threshold value, then revise local clock；

2nd NTP-I server, for from communication network time protocol NTP-T server sync clock； Inquire about the 3rd clock jitter value of self and a NTP-I server at set time intervals, when the 3rd When clock jitter value exceedes the time difference threshold value of setting, the 2nd NTP-I server lookup self services with NTP-T 4th clock jitter value of device, if the 4th clock jitter value exceedes the time difference threshold value of setting, then when revising local Clock.

A kind of NTP ntp server, including:

Clock synchronization module, for from communication network time protocol NTP-T server sync clock；

First enquiry module, for inquiring about self and the 2nd NTP-I server at set time intervals The first clock jitter value；

Second enquiry module, for when the first clock jitter value exceedes the time difference threshold value of setting, inquiry is certainly Body and the second clock deviation value of NTP-T server, if second clock deviation value exceedes the time difference limen of setting Value, then revise local clock.

The present invention has the beneficial effect that:

Ntp server clock synchronization keeping method, system and the device that the embodiment of the present invention provides, passes through Oneth NTP-I server and the 2nd NTP-I server inquire about mutually the clock jitter value of self and the other side, when Oneth NTP-I server or the 2nd NTP-I server find that self exceedes setting with the clock jitter of the other side During time difference threshold value, inquire about the clock jitter value of self and NTP-T server, if self services with NTP-T The clock jitter value of device also above the time difference threshold value set, then revises local clock.Thus avoid NTP-I The clock synchronization failure of server and the caused service server of synchronization failure and STB clock occur that entanglement etc. is asked Topic, it is ensured that the synchronization all the time of NTP-I server is normal, thus ensure that the clock of system is correct, make be System can be properly functioning.

Accompanying drawing explanation

Accompanying drawing described herein is used for providing a further understanding of the present invention, constitutes of the present invention Point, the schematic description and description of the present invention is used for explaining the present invention, is not intended that to the present invention not Work as restriction.In the accompanying drawings:

Fig. 1 is IPTV system group-network construction figure in prior art；

Fig. 2 is the structural representation that in the embodiment of the present invention, ntp server clock synchronizes holding system；

Fig. 3 is the flow chart of ntp server clock synchronization keeping method in the embodiment of the present invention；

Fig. 4 is the structural representation of ntp server in the embodiment of the present invention.

Detailed description of the invention

In order to make the technical problem to be solved, technical scheme and beneficial effect clearer, bright In vain, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that herein Described specific embodiment, only in order to explain the present invention, is not intended to limit the present invention.

The embodiment of the present invention provides a kind of NTP ntp server clock synchronization keeping method, logical Crossing ntp server clock as shown in Figure 2 and synchronize the realization of holding system, this system includes: first is interactive Web TV NTP NTP-I server, the 2nd NTP-I server and communication network time protocol NTP-T server.

Oneth NTP-I server, for from communication network time protocol NTP-T server sync clock； Inquire about the first clock jitter value of self and the 2nd NTP-I server at set time intervals, when first When clock jitter value exceedes the time difference threshold value of setting, a NTP-I server lookup self services with NTP-T The second clock deviation value of device, if second clock deviation value exceedes the time difference threshold value of setting, then when revising local Clock.

2nd NTP-I server, for from communication network time protocol NTP-T server sync clock； Inquire about the 3rd clock jitter value of self and a NTP-I server at set time intervals, when the 3rd When clock jitter value exceedes the time difference threshold value of setting, the 2nd NTP-I server lookup self services with NTP-T 4th clock jitter value of device, if the 4th clock jitter value exceedes the time difference threshold value of setting, then when revising local Clock.

Said system also includes some business service and Set Top Box.Wherein, the first ntp server, also use In providing clock synchronous service for service server and Set Top Box；Second ntp server, is additionally operable to as business Server provides clock synchronous service and Set Top Box to provide clock synchronous service.

Concrete when being provided for service server by the first ntp server and/or the second ntp server Clock synchronous service, and provide clock by the first ntp server or the second ntp server for Set Top Box Synchronous service.

The NTP ntp server clock synchronization keeping method that the embodiment of the present invention provides, its stream Journey is as it is shown on figure 3, comprise the steps:

Step S11: a NTP-I server and the 2nd NTP-I server are from communication network time protocol NTP-T server sync clock.

See the step 0.1 shown in Fig. 2 and step 0.2, a NTP-I server and the 2nd NTP-I Server, from NTP-T server sync clock, sends NTP as shown in Figure 2 and synchronizes (NTP SYNC) signal.

The NTP configuring a NTP-I server and the 2nd NTP-I server synchronizes system service, and carries The NTP-T server that ntp server is telecommunications for standard time clock.Configure a NTP-I server and The configuration file of the 2nd NTP-I server is identical.And start NTP process, when NTP-T is carried out Clock synchronizes.

In addition a NTP-I server and the 2nd NTP-I server provide for service server and Set Top Box Clock synchronizes, NTP SYNC as illustrated in the drawing.

Step S12: a NTP-I server inquires about self and the 2nd NTP-I at set time intervals First clock jitter value of server.

Oneth NTP-I server sends the according to the query time interval set to the 2nd NTP-I server One clock jitter inquiry request, after reception the 2nd NTP-I server receives the first clock jitter inquiry request Self the first clock jitter value with a NTP-I server returned.

Seeing Fig. 2, wherein, a NTP-I server and the 2nd NTP-I server are installed from grinding clock guarantor Protect program (hereinafter referred to as NTP-PRO), and configure the IP address of own IP address and the other side, when arranging Difference limen value (is called for short LIMIT), such as, can be defaulted as 4S.Starting NTP-PRO process, this process is Resident Process, performs once, the time interval being setting in 10 seconds for every 10 seconds.

The step 1.1 and the step 1.2 that see Fig. 2 are respectively a NTP-I server and take to the 2nd NTP-I Business device tranmitting data register deviation inquiry request and the 2nd NTP-I server return self and a NTP-I server Clock jitter value.Step S1.1 uses " ntpdate-d{NTP-I-2} " order to carry out clock jitter and looks into Asking, what step S1.2 returned is the first clock jitter value (OFFSET-REMOTE).

Step S13: judge whether the first clock jitter value exceedes the time difference threshold value of setting.If so, step is performed Rapid S14；Otherwise perform step S22.

First clock jitter value (OFFSET-REMOTE) is compared with time difference threshold value (LIMIT) Relatively.After the first clock jitter value (OFFSET-REMOTE) exceedes time difference threshold value (LIMIT) execution Continuous inquiry operation, otherwise it is assumed that clock is normal, does not perform operation.

Step S14: a NTP-I server lookup self and the second clock deviation of NTP-T server Value.

When the first clock jitter value exceedes the time difference threshold value of setting, a NTP-I server lookup self Second clock deviation value with NTP-T server.

Oneth NTP-I server sends second clock deviation inquiry request to NTP-T server；Receive What NTP-T server returned after receiving the second beginning clock jitter inquiry request self services with a NTP-I The second clock deviation value of device and the standard time clock of self；Oneth NTP-I server determines second clock deviation When value exceedes the time difference threshold value of setting, according to the standard time clock correction local clock received.

The step 1.3 and the step 1.4 that see Fig. 2 are respectively a NTP-I server to NTP-T server It is inclined with the clock of a NTP-I server that tranmitting data register deviation inquiry request and NTP-T server return self Difference.Step S1.3 uses " ntpdate-d{NTP-T} " order to carry out clock jitter inquiry, step What S1.4 returned is second clock deviation value (OFFSET-SERVER) and NTP-T server self norms Clock (referred to as SERVER-TIME), i.e. NTP-T server current time.

Step S15: judge whether second clock deviation value exceedes the time difference threshold value of setting.

Whether relatively second clock deviation value (OFFSET-SERVER) exceedes time difference threshold value (LIMIT)。

If so, step S16 is performed；Otherwise perform step S22.

Step S16: revise local clock.

If second clock deviation value exceedes the time difference threshold value of setting, then revise local clock.

If second clock deviation value (OFFSET-SERVER) exceedes time difference threshold value (LIMIT), recognize Abnormal for local clock, revise local clock immediately identical with SERVER-TIME；Otherwise it is assumed that second NTP-I server clock is abnormal, and a NTP-I server does not do any operation.

Step S17: the 2nd NTP-I server inquires about self and a NTP-I at set time intervals 3rd clock jitter value of server.

2nd NTP-I server sends the according to the query time interval set to a NTP-I server Three clock jitter inquiry request, after reception the oneth NTP-I server receives the 3rd clock jitter inquiry request Self the 3rd clock jitter value with the 2nd NTP-I server returned.

Seeing Fig. 2, wherein, a NTP-I server and the 2nd NTP-I server are installed from grinding clock guarantor Protect program (hereinafter referred to as NTP-PRO), and configure the IP address of own IP address and the other side, when arranging Difference limen value (is called for short LIMIT), such as, can be defaulted as 4S.Starting NTP-PRO process, this process is Resident Process, performs once, the time interval being setting in 10 seconds for every 10 seconds.

The step 2.1 and the step 2.2 that see Fig. 2 are respectively the 2nd NTP-I server and take to a NTP-I Business device tranmitting data register deviation inquiry request and a NTP-I server return self and the 2nd NTP-I server Clock jitter value.Step S2.1 uses " ntpdate-d{NTP-I-1} " order to carry out clock jitter and looks into Asking, what step S2.2 returned is the first clock jitter value (OFFSET-REMOTE).

Step S18: judge whether the 3rd clock jitter value exceedes the time difference threshold value of setting.If so, step is performed Rapid S19；Otherwise perform step S22.

3rd clock jitter value (OFFSET-REMOTE) is compared with time difference threshold value (LIMIT) Relatively.After the 3rd clock jitter value (OFFSET-REMOTE) exceedes time difference threshold value (LIMIT) execution Continuous inquiry operation, otherwise it is assumed that clock is normal, does not perform operation.

Step S19: the 2nd NTP-I server lookup self and the 4th clock jitter of NTP-T server Value.

When the 3rd clock jitter value exceedes the time difference threshold value of setting, the 2nd NTP-I server lookup self The 4th clock jitter value with NTP-T server.

Oneth NTP-I server sends second clock deviation inquiry request to NTP-T server；Receive What NTP-T server returned after receiving the second beginning clock jitter inquiry request self services with a NTP-I The second clock deviation value of device and the standard time clock of self；Oneth NTP-I server determines second clock deviation When value exceedes the time difference threshold value of setting, according to the standard time clock correction local clock received.

The step 2.3 and the step 2.4 that see Fig. 2 are respectively the 2nd NTP-I server to NTP-T server It is inclined with the clock of the 2nd NTP-I server that tranmitting data register deviation inquiry request and NTP-T server return self Difference.Step S2.3 uses " ntpdate-d{NTP-T} " order to carry out clock jitter inquiry, step What S2.4 returned is the 4th clock jitter value (OFFSET-SERVER) and NTP-T server self norms Clock (referred to as SERVER-TIME), i.e. NTP-T server current time.

Step S20: judge whether the 4th clock jitter value exceedes the time difference threshold value of setting.

Whether relatively the 4th clock jitter value (OFFSET-SERVER) exceedes time difference threshold value (LIMIT)。

If so, step S21 is performed；Otherwise perform step S22.

Step S21: revise local clock.

If the 4th clock jitter value exceedes the time difference threshold value of setting, then revise local clock.

If the 4th clock jitter value (OFFSET-SERVER) exceedes time difference threshold value (LIMIT), recognize Abnormal for local clock, revise local clock immediately identical with SERVER-TIME；Otherwise it is assumed that first NTP-I server clock is abnormal, and the 2nd NTP-I server does not do any operation.

Step S22: terminate.

Said method sets up a NTP-I server in IPTV system, it is achieved two NTP-I servers Complementary.Clock defence program is all started, it is achieved the giving mutual protection and repairing of clock in two NTP-I servers Just.For service server, two NTP-I servers can be one main one standby, then selects for Set Top Box A wherein server provided as clock.

The above-mentioned NTP ntp server clock provided based on the embodiment of the present invention synchronizes holding side Method and system, the embodiment of the present invention also provides for a kind of NTP ntp server, its structure such as Fig. 4 Shown in, including: clock synchronization module the 101, first enquiry module 102 and the second enquiry module 103.

Clock synchronization module 101, for from communication network time protocol NTP-T server sync clock.

First enquiry module 102, for inquiring about self and the 2nd NTP-I service at set time intervals First clock jitter value of device.

Second enquiry module 103, for when the first clock jitter value exceedes the time difference threshold value of setting, inquires about Self second clock deviation value with NTP-T server, if second clock deviation value exceedes the time difference limen of setting Value, then revise local clock.

Preferably, above-mentioned first enquiry module 102, specifically for: according to set query time interval to 2nd NTP-I server sends the first clock jitter inquiry request；And reception the 2nd NTP-I server connects Receive self the first clock with a NTP-I server returned after described first clock jitter inquiry request Deviation value；

Preferably, above-mentioned second enquiry module 103, specifically for: when the first clock jitter value exceedes setting The time difference threshold value time, to NTP-T server send second clock deviation inquiry request；Receive NTP-T clothes Business device receives self and the second of the NTP-I server returned after the second beginning clock jitter inquiry request Clock jitter value and the standard time clock of self；When determining the time difference threshold value that second clock deviation value exceedes setting, According to the standard time clock correction local clock received.

The embodiment of the present invention provide above-mentioned NTP ntp server clock synchronization keeping method and System is applicable to protection during ntp server exception, it is ensured that be not result in industry when ntp server exception Business service is abnormal, effectively avoids ntp server as abnormal hidden of the clock existing for singlepoint devices Suffer from, it is to avoid owing to NTP clock transition causes business service abnormal and system clock entanglement.

Described above illustrate and describes a preferred embodiment of the present invention, but as previously mentioned, it should reason Solve the present invention and be not limited to form disclosed herein, be not to be taken as the eliminating to other embodiments, and Can be used for other combinations various, amendment and environment, and can pass through in invention contemplated scope described herein Above-mentioned teaching or the technology of association area or knowledge are modified.And the change that those skilled in the art are carried out and change Change without departing from the spirit and scope of the present invention, the most all should be in the protection domain of claims of the present invention.

Claims (11)

1. a NTP ntp server clock synchronization keeping method, it is characterised in that bag Include:

First IPTV NTP NTP-I server and the 2nd NTP-I server from Communication network time protocol NTP-T server sync clock；

Oneth NTP-I server inquires about self and the 2nd NTP-I server at set time intervals First clock jitter value, when the first clock jitter value exceedes the time difference threshold value of setting, a NTP-I service Device inquiry self and the second clock deviation value of NTP-T server, if second clock deviation value exceedes setting Time difference threshold value, then revise local clock；

2nd NTP-I server inquires about self and a NTP-I server at set time intervals 3rd clock jitter value, when the 3rd clock jitter value exceedes the time difference threshold value of setting, the 2nd NTP-I service Device inquiry self and the 4th clock jitter value of NTP-T server, if the 4th clock jitter value exceedes setting Time difference threshold value, then revise local clock.

2. the method for claim 1, it is characterised in that a NTP-I server is according to setting Self the first clock jitter value with the 2nd NTP-I server of time interval inquiry, specifically include:

Oneth NTP-I server sends the according to the query time interval set to the 2nd NTP-I server One clock jitter inquiry request, reception the 2nd NTP-I server receives described first clock jitter inquiry please Self the first clock jitter value with a NTP-I server returned after asking.

3. the method for claim 1, it is characterised in that the 2nd NTP-I server is according to setting Self the 3rd clock jitter value with a NTP-I server of time interval inquiry, specifically include:

2nd NTP-I server sends the according to the query time interval set to a NTP-I server Three clock jitter inquiry request, reception the oneth NTP-I server receives described 3rd clock jitter inquiry please Self the 3rd clock jitter value with the 2nd NTP-I server returned after asking.

4. the method for claim 1, it is characterised in that a NTP-I server lookup self With the second clock deviation value of NTP-T server, if second clock deviation value exceedes the time difference threshold value of setting, Then revise local clock, specifically include:

Oneth NTP-I server sends second clock deviation inquiry request to NTP-T server；

Receive NTP-T server receive return after the second beginning clock jitter inquiry request self with first The second clock deviation value of NTP-I server and the standard time clock of self；

When oneth NTP-I server determines the time difference threshold value that second clock deviation value exceedes setting, according to connecing The standard time clock correction local clock received.

5. the method for claim 1, it is characterised in that the 2nd NTP-I server lookup self With the 4th clock jitter value of NTP-T server, if the 4th clock jitter value exceedes the time difference threshold value of setting, Then revise local clock, specifically include:

Oneth NTP-I server sends second clock deviation inquiry request to NTP-T server；

Receive NTP-T server receive return after the second beginning clock jitter inquiry request self with first The second clock deviation value of NTP-I server and the standard time clock of self；

When oneth NTP-I server determines the time difference threshold value that second clock deviation value exceedes setting, according to connecing The standard time clock correction local clock received.

6. the method as described in claim 1-5 is arbitrary, it is characterised in that serviced by a NTP-I Device and/or the 2nd NTP-I server provide clock synchronous service for service server, and by first NTP-I server or the 2nd NTP-I server provide clock synchronous service for Set Top Box.

7. a NTP ntp server clock synchronizes holding system, it is characterised in that bag Include:

First IPTV NTP NTP-I server, for from the communication network time Agreement NTP-T server sync clock；Inquire about self and the 2nd NTP-I service at set time intervals First clock jitter value of device, when the first clock jitter value exceedes the time difference threshold value of setting, a NTP-I Server lookup self and the second clock deviation value of NTP-T server, if second clock deviation value exceedes set Fixed time difference threshold value, then revise local clock；

2nd NTP-I server, for from communication network time protocol NTP-T server sync clock； Inquire about the 3rd clock jitter value of self and a NTP-I server at set time intervals, when the 3rd When clock jitter value exceedes the time difference threshold value of setting, the 2nd NTP-I server lookup self services with NTP-T 4th clock jitter value of device, if the 4th clock jitter value exceedes the time difference threshold value of setting, then when revising local Clock.

8. system as claimed in claim 7, it is characterised in that a described NTP-I server, also For providing clock synchronous service for service server and Set Top Box；

Described 2nd NTP-I server, is additionally operable to provide clock synchronous service and machine top into service server Box provides clock synchronous service.

9. a NTP ntp server, it is characterised in that including:

Clock synchronization module, for from communication network time protocol NTP-T server sync clock；

First enquiry module, for inquiring about self and the 2nd NTP-I server at set time intervals The first clock jitter value；

Second enquiry module, for when the first clock jitter value exceedes the time difference threshold value of setting, inquiry is certainly Body and the second clock deviation value of NTP-T server, if second clock deviation value exceedes the time difference limen of setting Value, then revise local clock.

10. ntp server as claimed in claim 9, it is characterised in that described first inquiry mould Block, specifically for:

Sending the first clock jitter inquiry according to the query time interval set to the 2nd NTP-I server please Ask；And

Receive the 2nd NTP-I server and receive self that return after described first clock jitter inquiry request The first clock jitter value with a NTP-I server.

11. ntp servers as described in claim 9 or 10, it is characterised in that described second inquiry Module, specifically for:

When the first clock jitter value exceedes the time difference threshold value of setting, when NTP-T server sends second Clock deviation inquiry request；

Receive NTP-T server receive return after the second beginning clock jitter inquiry request self with first The second clock deviation value of NTP-I server and the standard time clock of self；

When determining the time difference threshold value that second clock deviation value exceedes setting, the standard time clock according to receiving is repaiied Positive local clock.