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Queue implementation in MikroTik RouterOS is based on Hierarchical Token Bucket (HTB). HTB allows to the creation of a hierarchical queue structure and determines relations between queues. These hierarchical structures can be attached at two different places, the the Packet Flow diagram illustrate illustrates both input and postrouting chains.
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- /queue simple menu - designed to ease the configuration of simple, every day queuing tasks (such as single client upload/download limitation, p2p traffic limitation, etc.).
- /queue tree menu - for implementing advanced queuing tasks (such as global prioritization policy, and user group limitations). Requires marked packet flows from from /ip firewall mangle facility.
RouterOS provides a possibility to configure queue in 8 levels - the first level is an interface queue from the "/queue interface" menu and the other 7 are lower-level queues that can be created in Queue Simple and/or Queue Tree.
Rate limitation principles
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Rate limiting is used to control the rate of traffic flow sent or received on a network interface. Traffic which with rate that is less than or equal to the specified rate is sent, whereas traffic that exceeds the rate is dropped or delayed.
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- discard all packets that exceed rate limit – rate-limiting (dropper or shaper) (100% rate limiter when queue-size=0)
- delay packets that exceed the specific rate limit in the queue and transmit its them when it is possible – rate equalizing (scheduler) (100% rate equalizing when queue-size=unlimited)
Next The next figure explains the difference between rate limiting and rate equalizing:
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A simple queue is a plain way how to limit traffic fora for a particular target. Also, you can use simple use simple queues to build advanced QoS applications. They have useful integrated features:
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We have a 15 Mbps connection available from ISP in this case. We want to be sure the server receives enough traffic, so we will configure a simple queue with a limit-at parameter to guarantee a server to receive receives 5Mbps:
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/queue simple add limit-at=5M/5M max-limit=15M/15M name=queue1 target=192.168.88.251/32 |
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This sub-menu list by default created queue types and allows to add the addition of new user-specific ones.
By default, RouterOS creates the following pre-defined queue types:
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[admin@MikroTik] > /queue type print Flags: * - default 0 * name="default" kind=pfifo pfifo-limit=50 1 * name="ethernet-default" kind=pfifo pfifo-limit=50 2 * name="wireless-default" kind=sfq sfq-perturb=5 sfq-allot=1514 3 * name="synchronous-default" kind=red red-limit=60 red-min-threshold=10 red-max-threshold=50 red-burst=20 red-avg-packet=1000 4 * name="hotspot-default" kind=sfq sfq-perturb=5 sfq-allot=1514 5 * name="pcq-upload-default" kind=pcq pcq-rate=0 pcq-limit=50KiB pcq-classifier=src-address pcq-total-limit=2000KiB pcq-burst-rate=0 pcq-burst-threshold=0 pcq-burst-time=10s pcq-src-address-mask=32 pcq-dst-address-mask=32 pcq-src-address6-mask=128 pcq-dst-address6-mask=128 6 * name="pcq-download-default" kind=pcq pcq-rate=0 pcq-limit=50KiB pcq-classifier=dst-address pcq-total-limit=2000KiB pcq-burst-rate=0 pcq-burst-threshold=0 pcq-burst-time=10s pcq-src-address-mask=32 pcq-dst-address-mask=32 pcq-src-address6-mask=128 pcq-dst-address6-mask=128 7 * name="only-hardware-queue" kind=none 8 * name="multi-queue-ethernet-default" kind=mq-pfifo mq-pfifo-limit=50 9 * name="default-small" kind=pfifo pfifo-limit=10 |
All RouterBOARDS MikroTik products have the default queue type "only-hardware-queue" with "kind=none". "only-hardware-queue" leaves the interface with only hardware transmit descriptor transmit descriptor ring buffer which acts as a queue in itself. Usually, at least 100 packets can be queued for transmit in the transmit descriptor ring buffer. Transmit descriptor ring buffer size and the number of packets that can be queued in it varies for different types of ethernet MACs. Having Having no software queue is especially beneficial on SMP systems because it removes the requirement to synchronize access to it from different CPUs/cores which is resource-intensive. Having the possibility to set "only-hardware-queue" requires support in an ethernet driver so it is available only for some ethernet interfaces mostly found on RouterBOARDs.
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Random Early Drop is a queuing mechanism that tries to avoid network congestion by controlling the average queue size. The average queue size is compared to two thresholds: a minimum (minth) and a maximum (maxth) threshold. If the average queue size (avgq) is less than the minimum threshold, no packets are dropped. When the average queue size is greater than the maximum threshold, all incoming packets are dropped. But if the average queue size is between the minimum and maximum thresholds packets are randomly dropped with probability Pd where probability is exact a function of the average queue size: Pd = Pmax(avgq – minth)/ (maxth - minth). If the average queue grows, the probability of dropping incoming packets grows too. Pmax - ratio, which can adjust the packet discarding probability abruptness, (the simplest case Pmax can be equal to one. The 8.2 diagram shows the packet drop probability in the RED algorithm.
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- pcq-burst-rate (number): maximal upload/download data rate which can be reached while the burst for substream is allowed
- pcq-burst-threshold (number): this is the value of burst on/off switch
- pcq-burst-time (time): a period of time (in seconds) over which the average data rate is calculated. (This is NOT the time of the actual burst)
PCQ also allows using different size IPv4 and IPv6 networks as sub-stream identifiers. Before it was locked to a single IP address. This is done mainly for IPv6 as customers from an ISP point of view will be represented by /64 network, but devices in customers network will be /128. PCQ can be used for both of these scenarios and more. PCQ parameters:
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Property | Description |
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cake-ack-filter (default: none ) | |
cake-atm (default: ) | Compensates for ATM cell framing, which is normally found on ADSL links. |
cake-autorate-ingress (yes/no, default: ) | Automatic capacity estimation based on traffic arriving at this qdisc. This is most likely to be useful with cellular links, which tend to change quality randomly. The Bandwidth Limit parameter can be used in conjunction to specify an initial estimate. The shaper will periodically be set to a bandwidth slightly below the estimated rate. This estimator cannot estimate the bandwidth of links downstream of itself. |
cake-bandwidth (default: ) | Sets the shaper bandwidth. |
cake-diffserv (default: diffserv3) | CAKE can divide traffic into "tins" based on the Diffserv field:
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cake-flowmode (dsthost/dual-dsthost/dual-srchost/flowblind/flows/hosts/srchost/triple-isolate, default: triple-isolate) |
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cake-memlimit (default: ) | Limit the memory consumed by Cake to LIMIT bytes. By default, the limit is calculated based on the bandwidth and RTT settings. |
cake-mpu ( -64 ... 256, default: ) | Rounds each packet (including overhead) up to a minimum length BYTES. |
cake-nat (default: no) | Instructs Cake to perform a NAT lookup before applying a flow-isolation rule. |
cake-overhead ( -64 ... 256, default: ) | Adds BYTES to the size of each packet. BYTES may be negative. |
cake-overhead-scheme (default: ) | |
cake-rtt (default: 100ms ) | Manually specify an RTT. Default 100ms is suitable for most Internet traffic. |
cake-rtt-scheme (datacentre/internet/interplanetary/lan/metro/none/oceanic/regional/satellite, default: ) |
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cake-wash (default: no ) | Apply the wash option to clear all extra DiffServ (but not ECN bits), after priority queuing has taken place. |
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[admin@MikroTik] > queue interface print Columns: INTERFACE, QUEUE, ACTIVE-QUEUE # INTERFACE QUEUE ACTIVE-QUEUE 0 ether1 only-hardware-queue only-hardware-queue 1 ether2 only-hardware-queue only-hardware-queue 2 ether3 only-hardware-queue only-hardware-queue 3 ether4 only-hardware-queue only-hardware-queue 4 ether5 only-hardware-queue only-hardware-queue 5 ether6 only-hardware-queue only-hardware-queue 6 ether7 only-hardware-queue only-hardware-queue 7 ether8 only-hardware-queue only-hardware-queue 8 ether9 only-hardware-queue only-hardware-queue 9 ether10 only-hardware-queue only-hardware-queue 10 sfp-sfpplus1 only-hardware-queue only-hardware-queue 11 wlan1 wireless-default wireless-default 12 wlan2 wireless-default wireless-default |
Queue load visualization in GUI
In Winbox and Webfig, a green, yellow, or red icon visualizes each Simple and Tree queue usage based on max-limit.
0% - 50% of max-limit used | |
50% - 75% of max-limit used | |
75% - 100% of max-limit used |