Playing with fq_codel in 2.4
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@dtaht Unfortunately the NAT+limiter+ICMP bug is still a thing. It appears that any scheduler triggers the bug so it's not specific to FQ-CoDel - we just happened to stumble upon it in our FQ-CoDel tinkering.
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@uptownvagrant said in Playing with fq_codel in 2.4:
It is my understanding that the implementation of FQ-CoDel does not take into account dummynet child queue weight
Is this something that's likely to change in future? or is it a design limitation when trying to forklift FQ_CoDel into pFsense?
If you are looking to prioritize certain flows using dummynet, QFQ would be my first choice currently.
How would I achieve this within a pFsense GUI? I don't want to drop to the CLI if I can help it (and i'm sure the vast majority of pFsense users would agree).
Your example of 105Mbit, I'm assuming this is a symmetric link? I'm assuming your pfSense device is connected to the next WAN hop at GigE? What is your test that shows you are only getting 96Mbit when you set the limiter bandwidth to 100Mbit? I ask because in my experimenting, if I use the default FQ-CoDel scheduler settings, I would be able to get every bit of the 100Mbit you set, and a bit more, If I have enough flows and pps through the CPU. In my experimenting, using the hardware and configuration that I have tested, If I have a circuit that starts buffering at my ISP after 100Mbits, and I'm using a GigE connection to interface, I'll need to set the limiter to 90Mbit, FQ-CoDel default settings, in order to keep utilization under 100Mbit almost all of the time.
The link in question is a Virgin Media cable connection at one of my customer sites - it speed tests from www.speedtest.net at 105Mbit/s without shaping, but when I set it at 100Mbit/s it gives me 96Mbit/s through speedtest.net - I realise that site is not 100% brilliant at giving results, but in this case these results are repeatable, and I was just concerned as to whether the algorithm was robbing me of the other 4Mbit/s in order to perform the 'haircut' within itself or whether I was just seeing an anomaly.
I have a 300Mbit/s / 50Mbit/s FTTP connection here at home and that gives me consistently 305 Mbit/s and 52 Mbit/s with the shaper off, and when I set it at 300 and 50 I get 290 and 45 - these are consistent with what I'm seeing from the Virgin line at the customer, so the question really was whether pFsense/FQ_CoDel was designed so that I can run a speedtest.net, take the raw measurements from that and plug it into the pFsense limiters and it'd perform it's own 'haircut' internally, or whether I was still required to take ~90% of the speed shown and plug that into the limiters instead?I echo your thanks for the support of @dtaht and @Rasool and thanks for your own contribution!
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@pentangle said in Playing with fq_codel in 2.4:
@uptownvagrant said in Playing with fq_codel in 2.4:
It is my understanding that the implementation of FQ-CoDel does not take into account dummynet child queue weight
Is this something that's likely to change in future? or is it a design limitation when trying to forklift FQ_CoDel into pFsense?
I appears to be a limitation of FQ-CoDel currently. If you look at section 6 and 7 of RFC 8290 it is discussed.
If you are looking to prioritize certain flows using dummynet, QFQ would be my first choice currently.
How would I achieve this within a pFsense GUI? I don't want to drop to the CLI if I can help it (and i'm sure the vast majority of pFsense users would agree).
This can be done in the GUI now but is off topic here. If you create a new post in the traffic shaping forum and tag me I will share what I have done a bit of testing on.
Your example of 105Mbit, I'm assuming this is a symmetric link? I'm assuming your pfSense device is connected to the next WAN hop at GigE? What is your test that shows you are only getting 96Mbit when you set the limiter bandwidth to 100Mbit? I ask because in my experimenting, if I use the default FQ-CoDel scheduler settings, I would be able to get every bit of the 100Mbit you set, and a bit more, If I have enough flows and pps through the CPU. In my experimenting, using the hardware and configuration that I have tested, If I have a circuit that starts buffering at my ISP after 100Mbits, and I'm using a GigE connection to interface, I'll need to set the limiter to 90Mbit, FQ-CoDel default settings, in order to keep utilization under 100Mbit almost all of the time.
The link in question is a Virgin Media cable connection at one of my customer sites - it speed tests from www.speedtest.net at 105Mbit/s without shaping, but when I set it at 100Mbit/s it gives me 96Mbit/s through speedtest.net - I realise that site is not 100% brilliant at giving results, but in this case these results are repeatable, and I was just concerned as to whether the algorithm was robbing me of the other 4Mbit/s in order to perform the 'haircut' within itself or whether I was just seeing an anomaly.
I have a 300Mbit/s / 50Mbit/s FTTP connection here at home and that gives me consistently 305 Mbit/s and 52 Mbit/s with the shaper off, and when I set it at 300 and 50 I get 290 and 45 - these are consistent with what I'm seeing from the Virgin line at the customer, so the question really was whether pFsense/FQ_CoDel was designed so that I can run a speedtest.net, take the raw measurements from that and plug it into the pFsense limiters and it'd perform it's own 'haircut' internally, or whether I was still required to take ~90% of the speed shown and plug that into the limiters instead?If you're looking to tune your limiter to give the best speedtest.net result you certainly can set the bandwidth higher but FQ-CoDel won't necessarily behave the way you hope when additional flows are thrown at it during real world usage. You're really not being robbed of 4Mbit/s because your not having to recover from your ISPs buffers. You may be able to burst without the limiter but you're paying for it and chances are you'll notice it in your interactive flows when there is contention.
Here's a note from Dave Taht a while back that illustrates the point. He's responding to a Flent RRUL test I ran against one of his netservers on the US West Coast. Without the limiter enabled, this particular circuit, FiOS aka FTTP, was one that I could squeak out above 50Mbps according to dslreports.com/speedtest but there was buffering and recovery happening...
@dtaht said in Playing with fq_codel in 2.4:going back to the fios example earlier. having fq_codel shaping at 48mbit appears to get more bandwidth than fios with 120ms worth of buffering at 50mbit does. Why? You get a drop, it takes 120ms to start recovery, you get a drop at the end of that recovery and the process repeats. Someone tell FIOS that engineering their fiber network to speedtest only works for 20 seconds.....
It's kind of hard to see at this resolution but the green line's median and whiskers are locked solid at 48mbit while the other... (btw, I should go pull the actual data transferred out of flent, I didn't, but you can't actually trust it due to 120ms worth of occilation, anyway, but improved bandwidth here is real. As is the lowered latency.
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@rasool said in Playing with fq_codel in 2.4:
@uptownvagrant
Thank you for confirming that. So that means if CoDel+FQ_CoDel limiter is selected directly (not the child queue) in floating rules, the traffic will be controlled by CoDel algorithm.Yes, that would be my assumption too, but then I tested and the output is almost identical to DropTail. It appears that the AQM selection for the limiter is not being obeyed in pfSense. This does not appear to be a WebUI issue as the ipfw limiter.rules file looks to show the AQM and scheduler selected properly.
I can say, to avoid any possible problems when configuring fq_codel using current WebUI, the limiter child queue method should be used (with DropTail selected for both the limiter and child queue).
Yes, this is what I have found but again, it does not appear to be an issue with the WebUI. IMO, having the child queue is a functional requirement at this time and I'm not sure if it's related to the pf patch that pfSense is using to direct traffic to dummynet pipes and queues. Maybe kernel?
Now we have to figure out which part(s) causes performing issues. I think we have to compare the results (pps, CPU %utilisation, throughput) when using limiter with DropTail+FIFO (limiter only) and DropTail+FQ_CoDel (using child queue method).
We certainly can do that but there appears to be multiple issues with limiters and pfSense that we've identified in this thread and I'm wondering if the performance limitations may be a result. I've tested with FreeBSD and ipfw dummynet limiters and the performance issues did not surface.
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Here are the two issues I think we've identified. If others can respond that they are able to reproduce the issues I will file bug reports for 2.4.4.
Issue 1:
Using limiters on an interface with outgoing NAT enabled causes all ICMP ping traffic to drop when the limiter is loaded with flows. I can reproduce this issue with the following configuration.- limiters created (any scheduler). One limiter for out and one limiter for in.
- create a single child queue for the out limiter and one for the in limiter.
- floating match IPv4 any rule on WAN Out using the out limiter child queue for in and in limiter child queue for out.
- floating match IPV4 any rule on WAN In using the in limiter child queue for in and out limiter child queue for out.
- load the limiter with traffic (most recently I've been using a netserver v2.6.0 on the WAN side and a Flent client on the LAN side running RRUL test)
- start a constant ping from the client to the server during the RRUL test
Both the flent.gz output and the constant ping will show a high rate of ICMP packets getting dropped. If NAT is disable you will not see ICMP drops.
Issue 2:
If a limiter pipe, not queue, is used in a floating match rule, FQ-CoDel will not be used even if selected and verified in /tmp/rules.limiter. I can reproduce this issue with the following configuration.- limiters created (FQ-CoDel scheduler with default settings). One 90Mbps limiter for out and one 90Mbps limiter for in.
- floating match IPv4 any rule on WAN Out using the out limiter for in and in limiter for out.
- floating match IPV4 any rule on WAN In using the in limiter for in and out limiter for out.
- using a netserver v2.6.0 on the WAN side and a Flent client on the LAN side, run the RRUL test on the client and inspect the output flent.gz. Server and client have GigE connectivity to pfSense.
You will notice that latency under load reflects a default 50 slot DropTail queue size and not what is expected from the default FQ-CoDel configuration. Adding a DropTail child queue to each limiter, updating the floating rules to use the queues instead of pipes, and rerunning the Flent RRUL test will show expected latency under load when FQ-CoDel with the default settings are in play.
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@uptownvagrant said in Playing with fq_codel in 2.4:
Issue 1:
Using limiters on an interface with outgoing NAT enabled causes all ICMP ping traffic to drop when the limiter is loaded with flows.I can confirm this is happening. Using Rasool's steps outlined in post "@rasool said in Playing with fq_codel in 2.4"
I set a continuous ping going to 1.1.1.1, then start up speedtest.net and perform a speed test. All pings while the connection is being tested will time out. Disable the limiters and test again, ping doesn't drop packets.
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@uptownvagrant said in Playing with fq_codel in 2.4:
Issue 1:
Using limiters on an interface with outgoing NAT enabled causes all ICMP ping traffic to drop when the limiter is loaded with flows. I can reproduce this issue with the following configuration.limiters created (any scheduler). One limiter for out and one limiter for in.
create a single child queue for the out limiter and one for the in limiter.
floating match IPv4 any rule on WAN Out using the out limiter child queue for in and in limiter child queue for out.
floating match IPV4 any rule on WAN In using the in limiter child queue for in and out limiter child queue for out.
load the limiter with traffic (most recently I've been using a netserver v2.6.0 on the WAN side and a Flent client on the LAN side running RRUL test)
start a constant ping from the client to the server during the RRUL testBoth the flent.gz output and the constant ping will show a high rate of ICMP packets getting dropped. If NAT is disable you will not see ICMP drops.
I can confirm to a certain extent this. Here's my ping trace:
Reply from 1.1.1.1: bytes=32 time=5ms TTL=58
Reply from 1.1.1.1: bytes=32 time=5ms TTL=58
Reply from 1.1.1.1: bytes=32 time=6ms TTL=58
Request timed out.
Request timed out.
Request timed out.
Reply from 1.1.1.1: bytes=32 time=5ms TTL=58
Request timed out.
Reply from 1.1.1.1: bytes=32 time=7ms TTL=58
Reply from 1.1.1.1: bytes=32 time=14ms TTL=58
Reply from 1.1.1.1: bytes=32 time=12ms TTL=58
Reply from 1.1.1.1: bytes=32 time=8ms TTL=58
Reply from 1.1.1.1: bytes=32 time=6ms TTL=58
Reply from 1.1.1.1: bytes=32 time=11ms TTL=58
Reply from 1.1.1.1: bytes=32 time=8ms TTL=58
Reply from 1.1.1.1: bytes=32 time=11ms TTL=58
Reply from 1.1.1.1: bytes=32 time=14ms TTL=58
Reply from 1.1.1.1: bytes=32 time=7ms TTL=58
Reply from 1.1.1.1: bytes=32 time=5ms TTL=58
Reply from 1.1.1.1: bytes=32 time=5ms TTL=58
Reply from 1.1.1.1: bytes=32 time=5ms TTL=58The first 3 replies are prior to Speedtest. The next 3 timeout replies are whilst Speedtest is testing the Download, and the 1 ping is whilst it finishes and recovers. However, the next 1 timeout ping is whilst it starts the Upload test, but the next 9 pings are whilst it's still within the Upload test, and the final few are once finished.
i.e. it appears to swamp the NAT interface on Download testing but not on Upload testing. -
I've managed to get around the dropped pings problem by creating a floating rule with:
MATCH on WAN, any direction, ICMP (any subtypes), default gateway and no In/Out Pipes.
Then having it as the very first rule in floating.It doesnt fix the cause of the issue, but should at least allow pings to get through normally.
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Another workaround to the ping issue, I have posted twice now, is to not create a floating rule at all. Instead apply the queue to the the default LAN rule out to the internet.
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@askmyteapot Yes! IMHO this is the best workaround option for ICMP and limiters at the moment. One note though is that if you place the rule first you will want to check the quick option in the rule. Otherwise, place the ICMP match rule under your In/Out pipe rules - floating rules are last match wins when quick is not checked.
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@uptownvagrant FYI, I first came to this thread with a similar issue that wasn't just ICMP related. I lost VoIP and Sonos audio streams on our office pFsense...
https://www.reddit.com/r/PFSENSE/comments/9kfo4k/codelq_setup/ -
@pentangle OK. So are you saying VoIP and Sonos don't work when you apply FQ-CoDel limiters on WAN but they do work when you apply the same limiters to LAN? When don't they work - when the limiter is filled with traffic or? The ping issue comes down to pfSense dropping echo replies coming back into WAN/NAT when the limiter is full. What's going on with your traffic?
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@uptownvagrant Sorry I wasn't clear. I'm saying that it's not just ICMP traffic that gets dropped with a speedtest and floating rules on pFsense. I was seeing both streaming Sonos traffic and VoIP call RTP dropping at the same time as the ICMP dropped.
i.e. I think the bug issue for pFsense is a little more than just ICMP, but it might be ALL traffic that's affected when you get to a saturation with floating rules? -
udp is being dropped also. Unless this is yet another badmodems.com bug?
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Perhaps a packet size rather than protocol issue
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I have an APU2C4 and 150/150 FiOS. It looks like I hit about 30 - 40% CPU usage when several clients are downloading from steam using the fq_codel limiter setup mentioned earlier in the thread. I was looking at top and it appears like the load gets spread across all 4 cores of my processor.
Will this always be the case or could the limiters actually cause me to become CPU bound on one core in certain instances? I am moving to 200/200 speed soon. The APU2 runs at 1GHz. I was considering moving to a Celeron J3455 @ 2.3GHz but only if it was needed to handle running fq_codel.
I appreciate any feedback.
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@rasool said in Playing with fq_codel in 2.4:
@strangegopher Excellent work!
I installed pfSense and was able to setup fq_codel correctly (without CoDel) using just the WebUI. Here are the steps:1- Create "out" limiter
- Tick Enable
- Name: pipe_out
- Set the bandwidth
- Queue Management Algorithm: Tail Drop
- Scheduler: FQ_CODEL
2- Add new Queue
- Tick "Enable"
- Name: queue_out
- Queue Management Algorithm: Tail Drop
- Save
3- Create "in" limiter
- Tick Enable
- Name: pipe_in
- Set the bandwidth
- Queue Management Algorithm: Tail Drop
- Scheduler: FQ_CODEL
4- Add new Queue
- Tick "Enable"
- Name: queue_in
- Queue Management Algorithm: Tail Drop
- Save
5- Add limiter in firewall rule
- Configure floating rule (as normal)
- In / Out pipe: queue_in / queue_out
I believe these steps prevent "config_aqm Unable to configure flowset, flowset busy!" error and no need for rebooting pfSense.
Could you please test the above setup?
what's the normal way to configure floating rule? can I have more detail about it? like what direction and interface ? also Quick option should be tick ?
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@knowbe4
I meant by "as normal" as per the youtube video https://youtu.be/o8nL81DzTlU?t=801. Btw, I am not a pfSense expert. I learned how to use the basic features just to help in this forum ;) -
@rasool Thank you very much, I really appreciate it. Keep up the good work
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@pentangle I can't recreate your results with VoIP. I'm using a cloud provider for VoIP and signaling uses (UDP/5060), RTP (media) uses (UDP/10,000-30,000). DTMF Mode RFC 2833 Payload type 101 and G.711 a-law. I can run an rrul test across pfSense, placing all traffic, except for ICMP, in the 90Mbit in/out FQ-CoDel limiter queues and I place a call during the test. Call quality remains excellent during a 5 minute rrul test.
Did you see any "fq_codel_enqueue over limit" messages in syslog during the speedtest where VoIP and Sonos was cutting out?
Are your using the FQ-CoDel defaults of?
target: 5
interval: 100
quantum: 1514
limit: 10240
flows: 1024