JP2003512799A - On-switch policy rule caching for data communication switches - Google Patents

Abstract

(57) [Summary] On-switch rule caching to facilitate quality of service (QoS) preparation. Policy rules downloaded from the directory server (300) are cached on the switch (340) for a limited period of time, allowing for application in preparing QoS for multiple flows. Active policy rules are aged out in response to the elapse of an active time value associated with the policy rule. When the active time expires, the "old" policy rules are removed from the policy cache (386) and the "fresh" policy rules are downloaded from the directory server (330). The active time value can be incremented in response to each application of a policy rule. On-switch rule caching is applied for out-of-band QoS preparation, ie, QoS preparation performed for a path setup process such as Resource Conservation Protocol (RSVP) (385), or in-band QoS preparation, ie, QoS preparation performed for a data packet forwarding process. it can.

Description

Detailed Description of the Invention

CROSS REFERENCE TO RELATED APPLICATIONS This application contains all 199, the entire contents of which are incorporated herein by reference.
“QUALITY OF SERVICE POLI filed on October 20, 9
US provisional patent application serial number 60 / 160,5 entitled "CY MANAGER"
60 、 「QUALITY OF SERVICE SYSTEM SYSTEM ARCHIT
Claim the benefit of US Provisional Patent Application Serial Number 60 / 160,520 named "ECTURE", and US Provisional Patent Application Serial Number 60 / 160,483 named "QUALITY SERVICE MANAGER".

FIELD OF THE INVENTION The present invention relates generally to data communication switches, and more particularly to on-switch policy rule caching for data communication switches.

BACKGROUND OF THE INVENTION Data communication switches are becoming more intelligent. Legacy data communication switches often provided promiscuous first-in first-out (FIFO) provisioning of packets, while more recent vintage data communication switches have found that FIFO packet ordering in terms of providing different quality of service (QoS) for different flows. Deviate regularly from. Although QoS first became popular in cell switched ATM networks, packet switched networks and protocols, including bridge (Layer 2 or "L2") and routing (Layer 3 or "L3") networks and protocols. Is rapidly transitioning to.

A common QoS system feature is emerging in the L2 / L3 switching environment. One such feature is the provisioning of QoS (pr) for flows seen on the switch.
configuring policy "rules" for the directory server for later applications. Policy rules are generally
Answers the question "which" QoS action should be applied to packets that have a flow condition component and a QoS action component and satisfy the flow condition. For example, in the form of "process all flows in group 2 with priority level 3", the flow condition is "group 2".
And the QoS action is “priority level 3”.

Traditionally, policy rules are “pulled” down from the directory server “on demand”, that is, when they see a new (new) flow on the switch.
Has been applied to the provisioning QoS for flows seen on switches. However, the requirement to reserve a directory server and download a policy rule for each flow is quite inefficient, as the same rule can be applied to different flows found on the switch. It would be desirable to download the rules to the switch once and apply the rules to QoS preparation for some flows while at the same time preventing the application of "stale" rules to new flows.

SUMMARY OF THE INVENTION The present invention provides on-switch policy rule caching to facilitate QoS provisioning on a data communication switch. Policy rules downloaded from the directory server are cached on the switch for a limited period of time, allowing the policy rules to be applied when preparing QoS for multiple flows. Policy rules are held on-switch until age-out. Age-out occurs in response to a time limit associated with a cached policy rule that satisfies a maturity condition. Fresh (
The fresh policy rule can be downloaded from the directory server in response to the age out of the old policy rule. The deadline associated with the cached policy rule can be extended in response to the application of the policy rule to the new flow. The on-switch policy rule caching method uses in-band or out-of-band QoS.
It can be applied in terms of preparation.

These and other aspects of the invention can be better understood by reference to the following detailed description, taken in connection with the accompanying drawings, which are briefly described below.

DETAILED DESCRIPTION FIG. 1 shows a network in which on-switch policy rule caching is operational for in-band QoS preparation. Resource Storage Protocol (RSVP)
The preparations made for the path setup protocol, such as, may include the preparations made for the data packet transfer process. The network supports a switching module 1 that supports external devices including terminal stations 110 and 112.
It includes a switch 140 having 50, 160, and 170, devices in the backbone network 120, and a directory server 130. Switch 140
Includes a management module 180 coupled to switching modules 150, 160, and 170 via a data bus 187 for transmitting data traffic. The management module 180 is also coupled to the switching modules 150, 160, and 170 via the management bus 188 to send management traffic including QoS information for various flows. The management module 180 includes a QoS mapper classifier 181, a QoS manager 182, a policy manager 183, a QoS driver 184, a source learning module 185, and a rule cache 186 to facilitate in-band QoS preparation. The QoS mapper classifier 181, QoS manager 182, policy manager 183, QoS driver 184, and source learning module 185 are preferably software modules. Alternatively, the implementation of the system is a combination of hardware, firmware (such as the application of dedicated integrated circuits (“ASICS”) or other custom circuits), and / or software, or known in the art. It can be achieved by any method.

The switch 140 preferably supports in-band QoS provisioning with on-switch policy rule caching. In operation, according to one embodiment, data packets received on the switch 140 from the terminal 110 and having an unknown source address are obtained by the management module 180 from the data bus 187. The unknown source address data packet is forwarded to the source learning module 185 to learn the association between the source address and the switching module 150 on which the packet arrived. Conventional media access control (MAC) addresses are contemplated. In addition to performing source learning, the source learning module 185 notifies the QoS manager 182 of the arrival of unknown source address data packets, which may constitute new flows and the like. In response to receiving the notification, the QoS manager 182 requests the QoS allocation for the new flow from the policy manager 183. In response to the request for QoS allocation, the policy manager 183 determines that the applicable policy rules are in the rule cache 186.
Is stored in. If an applicable policy rule is found in the rule cache 186, the policy manager 183 sends a policy response for the flow, including the flow identifier and the QoS action, to the QoS manager 1.
Return to 82. In response to receiving the policy response, the QoS manager 182 preferably splits the policy response into a flow identifier portion and a QoS action portion and forwards that portion to the QoS mapper classifier 181. The mapper classifier 181 preferably associates a flow identifier with an output queue that supports QoS actions and notifies the QoS driver 184 of the association. Q
The oS driver 184 sends the switching module 15 via the management bus 188.
It is preferable to create a flow identifier-output queue identifier association on one or more of 0, 160, 170 to implement the QoS action on the switch 140.

If no applicable policy rule is found in the rule cache 186,
The policy manager 183 requests applicable policy rules from the directory server 130. The policy manager 183 is a lightweight directory access protocol (Light weight Directory Access Protocol).
local, LDAP) to send a request to the directory server 130 for applicable policy rules. In response to the request, the directory server 130 sends the applicable policy rules to the policy manager 1
Return to 83. The QoS preparation on the switch 140 then proceeds as described above, but for future reference, such as when the policy manager 183 prepares the QoS for the flow after it has been initiated by the end station 112 subject to the same policy rules. The difference is that the downloaded policy rule is stored in the rule cache 186.

Referring now to FIG. 2, the rules cache 186 is shown in more detail. The rule cache 186 has a flow condition component 210 and a QoS action component 2
It may be preferable to include an entry for each policy rule, including twenty. It may be preferred that the flow condition component comprises a VLAN identifier (Virtual Local Area Network (VLAN) identifier), or other logical group identifier, and the QoS action component comprises a priority level and a maximum bandwidth level. Is preferred. For a new flow, each QoS assignment requested by QoS manager 182 preferably includes a VLAN identifier associated with the flow. In response to receiving the request for QoS allocation, including the VLAN identifier, the policy manager 183 determines whether the entry in the rule cache 186 has the VLAN identifier as a flow condition component. When an entry in the rule cache 186 has a VLAN identifier as a flow condition component, the policy manager 183 determines that the flow identifier and Qo of the corresponding entry.
A policy response for the flow is preferably returned to the QoS manager 182, including the priority level and maximum bandwidth level from the S action field. In response to receiving the policy response, the QoS manager 182 preferably splits the policy response into a flow identifier portion and a QoS action portion and forwards that portion to the QoS mapper classifier 181. The flow identifier is preferably sufficient to distinguish the flow to which it applies from other flows, such as source address, destination address, source port, destination port, day, week, month, or year. It may include one or more of a time and a VLAN identifier. The mapper classifier 181 preferably associates flows with output queues that support QoS actions and forwards the association to the QoS driver 184. This driver is configured to manage flow identifiers on one or more of the switching modules 150, 160, 170 via the management bus 188.
Configure output queue associations.

Referring now to FIG. 3, illustrated is a network in which on-switch policy rule caching is operational for out-of-band QoS provisioning. Out-of-band Q
The oS preparation can include preparations made for path setup protocols such as Resource Preservation Protocol (RSVP), which preparations include preparations made for the data packet transfer process. Network is switch 14
0 includes a switch 340 having elements 350, 360, 370, 380, 387, and 388 corresponding to each element 150, 160, 170, 180, 187, and 188 on 0, but switch 340 includes RSVP module 385. The difference is in the inclusion. The switch 340 supports external devices including the terminal stations 310 and 312, devices of the backbone network 320, and the directory server 130.

More specifically, the management manager 380 uses the QoS mapper classifier 381, QoS manager 382, policy manager 383, to facilitate out-of-band QoS preparation with on-switch policy rule caching, as follows:
QoS driver 384, RSVP module 185, and rule cache 1
Including 86. RSVP save (ReRe received on the switch 340 from the terminal station 310).
sv) The message packet is sent to the data bus 38 by the management module 380.
Obtained from 7. The Resv message packet is sent to the RSVP module 385.
Prompting the QoS manager 382 to be notified of the arrival of the Resv message packet. In response to receiving the Resv message packet notification, Qo
The S manager 382 requests the policy manager 383 for QoS allocation for the flow identified in the Resv message packet according to the QoS action identified in the Resv message packet. The QoS allocation preferably includes a VLAN identifier, a requested priority level, and a requested maximum bandwidth level. In response to receiving the request for QoS allocation, the policy manager 383 determines that the applicable policy rules are VL, preferably as a flow condition component.
It is determined whether the policy rule having the AN identifier is stored in the rule cache 386. If the applicable policy rule is found in the rule cache 386, the policy manager 383 applies the QoS action indicated by the applicable rule, preferably the priority level and the maximum bandwidth level requested in the QoS allocation. It applies as a restriction to the QoS action.
If none of the requested QoS actions exceed the limits of the corresponding QoS action, the policy manager 383 informs the QoS manager 382 that the save was accepted and a policy that includes the flow identifier and the requested QoS action. Provide a response and. In response to receiving the notification and the policy response, the QoS manager 382 splits the policy response into a flow identifier portion and a QoS action portion and forwards that portion to the QoS mapper classifier 381. The mapper classifier 381 preferably associates the flow with an output queue that supports QoS actions and forwards the association to the QoS driver 384. This driver, via the management bus 388, the network interface 350,
Configure a flow ID-queue ID association on one or more of 360, 370.

If the applicable policy rule is found in the rule cache 386, but one or more of the requested QoS actions exceeds the limits of the corresponding QoS action, the QoS manager 382 indicates that the request has been rejected. And the flow ID-queue ID association is not configured on the switch 340.

If no applicable policy rule is found in the rule cache 386,
The policy manager 383 requests the applicable policy rules from the directory server 330. Policy manager 183 uses Lightweight Directory Access Protocol (LDAP) to send to directory server 330 for applicable policy rules. In response to the request, the directory server 330
Returns the applicable policy rules to the policy manager 383. The processing of the QoS allocation request on the switch 340 then proceeds as described above, except that the policy manager 383 is responsible for different flows following the same policy rule.
The difference is that it is preferable to store the downloaded policy rule in the rule cache 386 for future reference, such as when preparing QoS in response to a Resv message packet after being received from the terminal station 312 on the switch 340. .

In addition to the on-switch processing of the Resv message packet received on the switch 340, the Resv message packet is transferred to the “next hop” on the upstream flow path via the backbone network 320 according to the RSVP protocol. Preferably.

The present invention provides on-switch and out-of-band Q for in-band QoS provisioning.
It is preferable to try to ensure that the "old" policy rules are not applied on the switch 340 for oS preparation. To prevent applying "old" policy rules from the directory server 130, 330 to the switches 140, 340.
Each policy rule that you download to the policy associates the policy rule with an activity value that causes the rule to age out after a limited period of time. The policy managers 183, 383 preferably maintain a list of entries that include time-to-live values associated with cache indexes for active policy rules. The policy managers 183, 383 periodically check the list to reduce the time-to-live value and determine if the time-to-live for any active policy rule is over. In response to determining that the active time of the active policy rule has expired, the policy manager 183, 383 preferably takes a series of actions. The policy manager 183, 383 preferably flushes the "old" policy rule from the rule cache 183, 383 using the rule cache index associated with the expired policy rule. In addition, the policy managers 183 and 383
It is preferable to request a "fresh" policy rule from the directory server 130, 330 that has the same flow condition component as the flushed policy rule. The policy managers 183, 383 may also switch the switching modules 150, 160, 170, or 3 according to the application of new "old" policy rules.
It is possible to instruct the QoS manager 182, 382 to disable the flow ID-queue ID association configured on 50, 360, 370.
Alternatively, the policy managers 183, 383 are associated with the switches 140, 3
It is possible to "grandfather" in a previously constructed association, as can continue to be applied on 40.

In addition to reducing activity time on a regular basis, activity time for active policy rules can be increased, if desired, in response to applying the policy rule to new flows. Is. In this way, the "oldness" of the rule
Can be determined in relation to the frequency of application on the switches 140, 340.

Referring now to FIGS. 4A and 4B, first at 4A, a flow diagram describes in-band QoS preparation on switch 140. The data packet transmitted from the terminal station 110 is received by the switching module 150 (405),
The source address is checked to see if it is known or unknown on switch 140 (410). If the source address is known, no QoS preparation action is taken. However, if the source address is unknown, the data packet is transferred to the source learning module 185 via the data bus 187 (415). In response to the data packet arriving at the source learning module 185, the QoS manager 182 is notified of the new flow (420).
. The QoS manager 182 requests the policy manager 183 for QoS allocation for the new flow (425). In response to receiving the request for QoS allocation, the policy manager 183 searches the rule cache 186 for applicable policy rules (430). Applicable policy rules are found in the rules cache 186, or if not found in the rules cache 186, are located on the directory server 130 and downloaded from there (435). In either event, the rules are applied to determine the policy response for the new flow on switch 140 (440). Referring now to FIG. 4B, policy manager 183 sends a policy response for the new flow to QoS manager 182 (445). The QoS manager sends the policy response
Separate the flow ID component and the QoS action component (450), and
It is transmitted to the S mapper classifier 181. Specifically, the QoS action component is sent to the QoS mapper for queue ID determination (455) and the flow ID
The component is sent to the QoS classifier (460). In response to this, Qo
The S driver 184 initiates a control flow on the management bus 188 to
A flow ID-queue ID association is configured (465) on one or more of the switching modules 150, 160, 170 to complete the QoS preparation for the new flow.

Referring now to FIGS. 5A and 5B, first in 5A, a flow diagram describes out-of-band QoS preparation on switch 340 for flows, specifically RSVP-signaled flows. Packets originating on terminal 310 are received at switching module 350 (505) and a check is performed (510) to determine if the packet is an RSVP message packet. If the packet is not an RSVP message packet, no QoS preparatory action is taken. If the packet is an RSVP message packet, the packet is transferred to the RSVP module 385 via the data bus 387 (515).
). A check is performed (520) to determine if the packet is an RSVP Resv message packet. If the packet is not a Resv message packet, the packet is R
It is preferably processed according to the SVP convention. If the packet is a Resv message packet, the QoS manager 382 is notified of the RSVP Resv request (525). The QoS manager 382 requests the QoS allocation for the new flow from the policy manager 383 according to the Resv request (530).
). In response to receiving the request for QoS allocation, the policy manager 383 searches the rule cache 386 for applicable policy rules (5
35). Applicable policy rules can be found in the rule cache 386, or
Or if not found in the rules cache 386, the directory server 330
Located at and downloaded from there (540). In either event, the QoS action component of the rule is applied as a restriction on the requested QoS action (545). Referring now to FIG. 5B, if the requested QoS action exceeds the corresponding limit (550), the QoS manager 382 sends Res
The v request is notified that it was rejected (555) and processing continues according to the RSVP convention. However, if the requested QoS action does not exceed the limit, the policy manager 383 determines the policy response for the flow according to the Resv request and notifies the QoS manager 382 that the Resv request has been accepted (560). The QoS manager 382 sends the policy response to the flow ID component and the QoS.
The S action component is parsed (565) and the component is sent to the QoS mapper classifier 381. Specifically, it is preferable to send the QoS action component to the QoS mapper for queue ID determination (570) and the flow ID component to the QoS classifier (575). In response, the QoS driver 384 causes a flow ID-queue ID association on one or more of the switching modules 350, 360, 370 due to the control flow performed on the management bus 388. Qo for the configured flow (580) and signalized by RSVP
S Preparation is completed.

Finally, referring to FIG. 6, a flow diagram describing the method of on-switch QoS rule caching of the present invention is shown to be operational for in-band and out-of-band QoS provisioning. The time-to-live values associated with a policy rule cannot be addressed locally by referencing the active policy rule in the on-switch rule cache 186,386.
In response to the QoS allocation request initiated above, the directory servers 130, 3
Downloaded from 30. The downloaded QoS rules are cached and the time-to-live value is stored on the switches 140, 340 in association therewith (62).
0). After a fixed time interval has passed (630), the activity time value is decreased (6).
40), a check is performed to determine if activity hours have expired (6)
50). If the activity time has not expired, the algorithm returns to step 630. However, if the activity time has expired, the "old" policy rule is removed from the rule cache 186, 386 (660) and the "fresh" policy rule is due to the same flow conditions as the "old" policy rule. , 670 are downloaded from the directory servers 130 and 330 (670).

Those skilled in the art will appreciate that the present invention can be implemented in other specific forms without departing from its spirit and essential characteristics. Accordingly, the present invention is considered in all respects to be illustrative and not restrictive. The scope of the invention is indicated by the claims, and all modifications that come within the meaning and range of equivalents thereof are intended to be included therein.

[Brief description of drawings]

FIG. 1 is a diagram showing a network in which an on-switch policy rule caching method and apparatus of the present invention is operable in a first embodiment.

[Fig. 2]   2 is a diagram showing the rule cache of FIG. 1 in more detail. FIG.

FIG. 3 is a diagram illustrating a network in which the on-switch policy rule caching method and apparatus of the present invention is operable in the second embodiment.

FIG. 4A   3 is a flow diagram illustrating a QoS preparation method according to the first embodiment.

FIG. 4B   3 is a flow diagram illustrating a QoS preparation method according to the first embodiment.

FIG. 5A   9 is a flow diagram illustrating a QoS preparation method according to the second embodiment.

FIG. 5B   9 is a flow diagram illustrating a QoS preparation method according to the second embodiment.

FIG. 6 is a flow diagram illustrating an on-switch policy rule caching method of the present invention operable for the first and second embodiments.

─────────────────────────────────────────────────── ─── Continued front page    (31) Priority claim number 60/160, 483 (32) Priority date October 20, 1999 (October 20, 1999) (33) Priority claiming countries United States (US) (31) Priority claim number 09 / 660,854 (32) Priority date September 13, 2000 (September 13, 2000) (33) Priority claiming countries United States (US) (81) Designated countries EP (AT, BE, CH, CY, DE, DK, ES, FI, FR, GB, GR, IE, I T, LU, MC, NL, PT, SE), CN, JP (72) Inventor Eddington, Day Bryan             United States, Utah 84084, Wes             Toji Jordan, 2675, West 6865,             South (72) Inventor Guts Dowin, El Michele             California, USA, 91361,             Westlake Village, Oldbury             ー Place ・ 1365 (72) Inventor Martin, Christopher             United States, North Carolina             27502, Apex, Becton Court             4404 (72) Inventor Cee, Michael Yee             United States, North Carolina             27514, Chapel Hill, Burrage Sa             Circle 323 F-term (reference) 5K030 GA11 HD03 LC09

Claims (34)

[Claims] 1. A QoS preparation method for a data communication switch, the method comprising: receiving a packet in a data flow; inspecting a source address in the packet; Establishing a QoS for the data flow on a data communication switch, the establishing step further comprising: if the flow condition associated with the data flow matches the flow condition of the policy rule, A method of QoS preparation for a data communication switch, comprising: determining a QoS action for application to the data flow from a policy rule stored in the data communication switch. 2. A directory server external to the data communication switch if the flow conditions associated with the data flow do not match the flow conditions of any policy rules stored in the data communication switch. The Qo for application to the data flow from a policy rule stored in
The QoS preparation method according to claim 1, comprising a step of determining an S action. 3. The QoS preparation method according to claim 1, wherein the source address is a media access control (MAC) address. 4. The method further comprises downloading the policy rule stored in the directory server for the data communication switch and stored in the data communication switch for a limited period of time. Claim 2
The QoS preparation method described in 1. 5. The QoS preparation method according to claim 4, wherein the limited period of time is determined by a deadline associated with the policy rule. 6. The QoS preparation method according to claim 5, wherein the deadline is stored in the directory server in association with the policy rule. 7. A QoS preparation method for a data communication switch, the method comprising: receiving a control packet, wherein the control packet is a QoS for application to the data flow on the data communication switch. Receiving a control packet requesting establishment and including a requested QoS action, and storing in the data communication switch if a flow condition associated with the data flow matches a flow condition of the policy rule. Determining a restricted QoS action for application to the requested QoS action from the requested policy rules, applying the restricted QoS action to the requested QoS action, and the requested QoS The action must not exceed the above limit QoS action. If the requested Qo for said data flow on the data communication switch
Establishing a S, the method of QoS preparation for a data communication switch. 8. The directory server external to the data communication switch when the flow condition associated with the data flow does not match the flow condition of any policy rule stored in the data communication switch. 8. The QoS preparation method according to claim 7, comprising the step of determining a QoS action for application as a restriction on the requested QoS action from a policy rule stored in. 9. The resource storage protocol (RSVP) is used for the control packet.
The QoS preparation method according to claim 7, which is a save (Resv) message packet. 10. The data communication switch further comprises the steps of downloading the policy rule stored in the directory server and storing the policy rule in the data communication switch for a limited period of time. 8. The QoS preparation method described in 8. 11. The data communication switch of claim 10, wherein the limited time period is determined by a deadline associated with the policy rule. 12. The data communication switch according to claim 11, wherein the deadline is stored in the directory server in association with the policy rule. 13. Q based on a flow identifier associated with the data flow.
A data communication switch including a quality of service (QoS) preparation system, wherein an QoS action is applied to the data flow, wherein the QoS preparation system is configured such that flow conditions associated with the data flow are in accordance with the policy rule. A data communication switch including a quality of service (QoS) preparation system that determines the QoS action for application to the data flow from a policy rule stored in the data communication switch if flow conditions are met. 14. The QoS preparation system is configured to external the data communication switch when the flow condition associated with the data flow does not match the flow condition of any policy rule stored in the data communication switch. 14. The data communications switch of claim 13, wherein the QoS action for application to the data flow is determined from a policy rule stored in a directory server at. 15. The policy rule stored in the directory server is downloaded from the directory server to the data communication switch,
15. The data communication switch of claim 14, wherein the data communication switch is stored in the data communication switch for a limited period of time. 16. The second policy rule stored in the directory server is downloaded from the directory server to the data communication switch in response to the lapse of the limited period of time, and during the limited period of time. 16. The data communication switch of claim 15, wherein the second policy rule stored in the data communication switch and the previously downloaded and stored policy rule have a common flow condition. 17. The data communication switch according to claim 15, wherein the limited time period is determined by a deadline associated with the policy rule. 18. The data communication switch according to claim 17, wherein the deadline is stored in the directory server in association with the policy rule. 19. The QoS action comprises a priority level.
The data communication switch according to item 3. 20. The QoS action comprises a bandwidth level.
The data communication switch according to item 3. 21. The data communication switch according to claim 13, wherein the flow condition includes a virtual network identifier. 22. The data communication switch according to claim 13, wherein the flow identifier includes one or more of a source address, a destination address, and a virtual network identifier. 23. A data communication switch configured using QoS, means for receiving a packet in a data flow, means for checking a source address in the packet, and the source address If not recognized, means for establishing QoS for the data flow on the data communication switch, the establishing means further comprising: from a policy rule stored in the data communication switch to the data flow. Means for determining a QoS action for the application of a QoS rule, wherein the determining means determines the QoS if the flow condition associated with the data flow matches the flow condition of the policy rule. A data communication switch configured as. 24. A directory server external to the data communication switch, if the flow condition associated with the data flow does not match the flow condition of any policy rule stored in the data communication switch. 24. The data communication switch of claim 23, including means for determining the QoS action for application to the data flow from a policy rule stored in. 25. The source address is a media access control (MAC).
24. The data communication switch according to claim 23, which is an address. 26. The data communication switch further includes means for downloading the policy rules stored in the directory server and storing the policy rules on the data communication switch for a limited period of time. Claim 24
Data communication switch described in. 27. The data communication switch of claim 26, wherein the limited time period is determined by a deadline associated with the policy rule. 28. The data communication switch according to claim 27, wherein the deadline is stored in the directory server in association with the policy rule. 29. A data communication switch configured with QoS preparation, the data communication switch being means for receiving a control packet, wherein the control packet is on the data communication switch. Request establishment of QoS for application to data flow,
And a means for receiving a control packet including a requested QoS action, and a policy stored in the data communication switch if the flow condition associated with the data flow matches the flow condition of the policy rule. Means for determining a restricted QoS action for application to said requested QoS action from rules, means for applying said restricted QoS action to said requested QoS action, and said requested If the QoS action does not exceed the restricted QoS action, the requested QoS for the data flow on the data communication switch.
A data communication switch configured with QoS provisions, including means for establishing S. 30. Further, if the flow condition associated with the data flow does not match the flow condition of any policy rule stored in the data communication switch, a directory server external to the data communication switch. 30. The data communication switch of claim 29, including means for determining a QoS action for application as a restriction to the requested QoS action from a policy rule stored in. 31. The control packet is a resource storage protocol (RSVP).
30. The data communication switch of claim 29, which is a Save (Resv) message packet. 32. The data communication switch further includes means for downloading the policy rules stored in the directory server and storing the policy rules on the data communication switch for a limited period of time. Claim 30
Data communication switch described in. 33. The data communication switch according to claim 32, wherein the limited period of time is determined by a deadline associated with the policy rule. 34. The data communication switch according to claim 33, wherein the deadline is stored in the directory server in association with the policy rule.