Playing with fq_codel in 2.4
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I have not tested AIM in any way you did it, so I can't say why it's working or not.
Also I've never seen packet loss on my igb cards, some chinese, not fake, but Winayo branded Intel NICs.
https://forums.freebsd.org/threads/62406/#post-360467 I see you are already digging deeper.
Did you already read that https://forums.servethehome.com/index.php?threads/comparison-intel-i350-t4-genuine-vs-fake.6917/ ? We must be 100 percent sure which card you have exactly. May be some photos? -
yep read that thread which is why I made that comment about the fake cards. When I can be bothered I will take closer photos of the card both sides.
I also yes have been considering flashing the firmware, but is not much documentation on how to use bootutil, the only guides I found were when using a uefi shell but they do not explain how to boot into a uefi shell.
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Most of the UEFI motherboards will eat the bootmgr.efi placed in EFI\Microsoft\Boot\bootmgr.efi on FAT32 formatted USB flash.
Here you can find how to obtain it https://wiki.archlinux.org/index.php/Unified_Extensible_Firmware_Interface#Obtaining_UEFI_Shell
I've used binaries from https://github.com/tianocore/edk2/tree/master/ShellBinPkg
From what I've learned reading forums the first sign that this is a fake is the price and redrawn "Delta-like" ethernet transformers on it. -
thanks for the help guys I do appreciate it.
I havent really got alternative kit to test on, but I managed to get pfsense running in esxi, after spending a couple of hours looking for a second nic (dual port server class intel nic I put in there both ports dead) and using vmx drivers in 2.4-RC is fine without polling. So I am putting this down to a dodgy hardware setup and I think I am going to replace my unit.
But I am now going to leave this VM running so I can take the photos and play around with the firmware in the meantime without worrying about downtime.
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I also yes have been considering flashing the firmware, but is not much documentation on how to use bootutil, the only guides I found were when using a uefi shell but they do not explain how to boot into a uefi shell.
I described how to flash via EFI here https://forum.pfsense.org/index.php?topic=112968.msg629211#msg629211
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thanks is flashed, will post pics tomorrow but in a different thread as I am derailing this thread too much. I will edit this post with the link after I posted.
thread here https://forum.pfsense.org/index.php?topic=136561.new#new
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Moved to https://forum.pfsense.org/index.php?topic=136561.new#new
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If it's an official Intel NIC, it will have a YottaMark sticker
According to Intel, if your NIC does not have a YottaMark, it is defective and should be returned. Without the YottaMark, you have no access to any warranty claims or support.
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I recently upgraded to 2.4.0-RC so I could give fq_codel a try. Up to now I had been using the ALTQ FAIRQ scheduler together with codel managed queues to sort of emulate fq_codel. I disabled my ALTQ shaping settings and I followed the steps in the original post. After configuring everything I did a:
ipfw sched show
I could see fq_codel enabled but I could not see any traffic passing through. However, I then also tried a speed test over at DSL Reports and could see fq_codel working, i.e. I had a A+ on the bufferbloat score. This left me a little perplexed. I could not see traffic passing through the fq_codel queues but yet it seemed to be working. Is there a step I might have missed to make sure I can also see traffic passing through the queues?
Thanks in advance for your help.
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Did you look at show when you know there was data flowing?
So for example… I did the ipfw sched show. Then I started the dslreport test and looked at it while it was running
[2.4.0-RC][root@pfsense.local.lan]/root: ipfw sched show 00001: 85.000 Mbit/s 0 ms burst 0 q00001 50 sl. 0 flows (256 buckets) sched 1 weight 1 lmax 0 pri 0 droptail mask: 0x00 0x00000000/0x0000 -> 0xffffffff/0x0000 sched 1 type FQ_CODEL flags 0x0 0 buckets 0 active FQ_CODEL target 5ms interval 100ms quantum 1514 limit 10240 flows 1024 ECN Children flowsets: 1 00002: 11.000 Mbit/s 0 ms burst 0 q00002 50 sl. 0 flows (256 buckets) sched 2 weight 1 lmax 0 pri 0 droptail mask: 0x00 0xffffffff/0x0000 -> 0x00000000/0x0000 sched 2 type FQ_CODEL flags 0x0 0 buckets 1 active FQ_CODEL target 5ms interval 100ms quantum 1514 limit 10240 flows 1024 ECN Children flowsets: 2 BKT Prot ___Source IP/port____ ____Dest. IP/port____ Tot_pkt/bytes Pkt/Byte Drp 0 ip 0.0.0.0/0 0.0.0.0/0 1 262 0 0 0 [2.4.0-RC][root@pfsense.local.lan]/root: ipfw sched show 00001: 85.000 Mbit/s 0 ms burst 0 q00001 50 sl. 0 flows (256 buckets) sched 1 weight 1 lmax 0 pri 0 droptail mask: 0x00 0x00000000/0x0000 -> 0xffffffff/0x0000 sched 1 type FQ_CODEL flags 0x0 0 buckets 1 active FQ_CODEL target 5ms interval 100ms quantum 1514 limit 10240 flows 1024 ECN Children flowsets: 1 BKT Prot ___Source IP/port____ ____Dest. IP/port____ Tot_pkt/bytes Pkt/Byte Drp 0 ip 0.0.0.0/0 0.0.0.0/0 16133 24150846 81 121500 50 00002: 11.000 Mbit/s 0 ms burst 0 q00002 50 sl. 0 flows (256 buckets) sched 2 weight 1 lmax 0 pri 0 droptail mask: 0x00 0xffffffff/0x0000 -> 0x00000000/0x0000 sched 2 type FQ_CODEL flags 0x0 0 buckets 1 active FQ_CODEL target 5ms interval 100ms quantum 1514 limit 10240 flows 1024 ECN Children flowsets: 2 0 ip 0.0.0.0/0 0.0.0.0/0 1169 50866 0 0 0 [2.4.0-RC][root@pfsense.local.lan]/root: ipfw sched show 00001: 85.000 Mbit/s 0 ms burst 0 q00001 50 sl. 0 flows (256 buckets) sched 1 weight 1 lmax 0 pri 0 droptail mask: 0x00 0x00000000/0x0000 -> 0xffffffff/0x0000 sched 1 type FQ_CODEL flags 0x0 0 buckets 1 active FQ_CODEL target 5ms interval 100ms quantum 1514 limit 10240 flows 1024 ECN Children flowsets: 1 BKT Prot ___Source IP/port____ ____Dest. IP/port____ Tot_pkt/bytes Pkt/Byte Drp 0 ip 0.0.0.0/0 0.0.0.0/0 77 3563 0 0 0 00002: 11.000 Mbit/s 0 ms burst 0 q00002 50 sl. 0 flows (256 buckets) sched 2 weight 1 lmax 0 pri 0 droptail mask: 0x00 0xffffffff/0x0000 -> 0x00000000/0x0000 sched 2 type FQ_CODEL flags 0x0 0 buckets 1 active FQ_CODEL target 5ms interval 100ms quantum 1514 limit 10240 flows 1024 ECN Children flowsets: 2 0 ip 0.0.0.0/0 0.0.0.0/0 3244 4740145 7 10500 74 [2.4.0-RC][root@pfsense.local.lan]/root:
Got A+ for quality, A for bufferbloat and A+ overall… This really is easy to implement too.. Be nice when can be fully done in the gui though.
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Did you look at show when you know there was data flowing?
So for example… I did the ipfw sched show. Then I started the dslreport test and looked at it while it was running
[2.4.0-RC][root@pfsense.local.lan]/root: ipfw sched show 00001: 85.000 Mbit/s 0 ms burst 0 q00001 50 sl. 0 flows (256 buckets) sched 1 weight 1 lmax 0 pri 0 droptail mask: 0x00 0x00000000/0x0000 -> 0xffffffff/0x0000 sched 1 type FQ_CODEL flags 0x0 0 buckets 0 active FQ_CODEL target 5ms interval 100ms quantum 1514 limit 10240 flows 1024 ECN Children flowsets: 1 00002: 11.000 Mbit/s 0 ms burst 0 q00002 50 sl. 0 flows (256 buckets) sched 2 weight 1 lmax 0 pri 0 droptail mask: 0x00 0xffffffff/0x0000 -> 0x00000000/0x0000 sched 2 type FQ_CODEL flags 0x0 0 buckets 1 active FQ_CODEL target 5ms interval 100ms quantum 1514 limit 10240 flows 1024 ECN Children flowsets: 2 BKT Prot ___Source IP/port____ ____Dest. IP/port____ Tot_pkt/bytes Pkt/Byte Drp 0 ip 0.0.0.0/0 0.0.0.0/0 1 262 0 0 0 [2.4.0-RC][root@pfsense.local.lan]/root: ipfw sched show 00001: 85.000 Mbit/s 0 ms burst 0 q00001 50 sl. 0 flows (256 buckets) sched 1 weight 1 lmax 0 pri 0 droptail mask: 0x00 0x00000000/0x0000 -> 0xffffffff/0x0000 sched 1 type FQ_CODEL flags 0x0 0 buckets 1 active FQ_CODEL target 5ms interval 100ms quantum 1514 limit 10240 flows 1024 ECN Children flowsets: 1 BKT Prot ___Source IP/port____ ____Dest. IP/port____ Tot_pkt/bytes Pkt/Byte Drp 0 ip 0.0.0.0/0 0.0.0.0/0 16133 24150846 81 121500 50 00002: 11.000 Mbit/s 0 ms burst 0 q00002 50 sl. 0 flows (256 buckets) sched 2 weight 1 lmax 0 pri 0 droptail mask: 0x00 0xffffffff/0x0000 -> 0x00000000/0x0000 sched 2 type FQ_CODEL flags 0x0 0 buckets 1 active FQ_CODEL target 5ms interval 100ms quantum 1514 limit 10240 flows 1024 ECN Children flowsets: 2 0 ip 0.0.0.0/0 0.0.0.0/0 1169 50866 0 0 0 [2.4.0-RC][root@pfsense.local.lan]/root: ipfw sched show 00001: 85.000 Mbit/s 0 ms burst 0 q00001 50 sl. 0 flows (256 buckets) sched 1 weight 1 lmax 0 pri 0 droptail mask: 0x00 0x00000000/0x0000 -> 0xffffffff/0x0000 sched 1 type FQ_CODEL flags 0x0 0 buckets 1 active FQ_CODEL target 5ms interval 100ms quantum 1514 limit 10240 flows 1024 ECN Children flowsets: 1 BKT Prot ___Source IP/port____ ____Dest. IP/port____ Tot_pkt/bytes Pkt/Byte Drp 0 ip 0.0.0.0/0 0.0.0.0/0 77 3563 0 0 0 00002: 11.000 Mbit/s 0 ms burst 0 q00002 50 sl. 0 flows (256 buckets) sched 2 weight 1 lmax 0 pri 0 droptail mask: 0x00 0xffffffff/0x0000 -> 0x00000000/0x0000 sched 2 type FQ_CODEL flags 0x0 0 buckets 1 active FQ_CODEL target 5ms interval 100ms quantum 1514 limit 10240 flows 1024 ECN Children flowsets: 2 0 ip 0.0.0.0/0 0.0.0.0/0 3244 4740145 7 10500 74 [2.4.0-RC][root@pfsense.local.lan]/root:
Got A+ for quality, A for bufferbloat and A+ overall… This really is easy to implement too.. Be nice when can be fully done in the gui though.
Thanks John, I really appreciate your help on this. After I setup everything and ran a test at DSL Reports I actually did not continue to refresh ipfw sched show manually. I naively thought that it would update automatically when traffic is passing through the queues. That being said, is this the case though for the "Limiter Information" section under Diagnostics in the Web UI (i.e. does that section refresh automatically and show traffic passing through the queues)?
I think I'm going to try this out again. However, I think my implementation needs to be a little different than was suggested in the original post. I actually have more than 1 LAN interface on my pfSense box and each interface handles a different subnet. In order to not limit the amount of bandwidth between the subnets, I don't think I should put the limiter queues on the default allow all rule on the subnets. Instead, should I just setup a floating firewall rule that matches on WAN traffic? If that makes sense, what other settings do I need configure (besides choosing the limiter queues at the bottom)? For instance, what should be the source and destination?
Thanks again for all your help.
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Limiter info GUI do not show anything just by design of current fq_соdel implementation in both FreeBSD and pfSense, so it's normal that you don't see traffic there.
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So I tried setting up fq_codel again and confirm that it is working just fine (just had to refresh the "ipfw sched show" command as traffic was passing through the queues). I did however, notice a lot of dropped packets while running a speed test. I have symmetric gigabit connection and also had this issue with the ALTQ traffic shappers. The solution was to increase the queue size sufficiently. When using dummynet limiters is the default queue size adjusted under Advanced Options for the queue (that was created under the root limiter) or is it somewhere else?
Also, I'm still not quite sure how to configure my firewall rules so I don't accidentally limit traffic between local subnets, i.e. I only want to shape traffic internet bound traffic. What would be the best way to do this (as using the default allow all rule on the LAN will impact subnet traffic too)?
Thanks again for your help, I really appreciate it.
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You have to pick your poison, dropped packets or large queue size.
Dropped packets are no bueno in networking, and so many manufacturers have opted for large queue sizes, which eliminates dropped packets at the expense of (significantly) increased latency, meet bufferbloat.
fq_codel does an excellent job of eliminating bufferbloat by dropping packets in an intelligent way. For most types of traffic this is preferable to using huge FIFO queues to avoid dropping packets.
Which is better for you will depend on your network traffic.
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I run multiple vlans as well.. What is nice that you apply this in your firewall rule. Just create a rule above the rule that allows your traffic out to the net on whatever interface you want to get to the other segments. Then on the rule on that interface that allows traffic out to the internet apply in out queues..
So for example on my lan top rule allows access to rfc1918 space.. So if going to any of my other vlans/segments does not apply.. Then the any any rule below that does apply them, so if going to the internet the allow rule to rfc1918 would be skipped and then the any any rule at the bottom would apply the queues..
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You have to pick your poison, dropped packets or large queue size.
Dropped packets are no bueno in networking, and so many manufacturers have opted for large queue sizes, which eliminates dropped packets at the expense of (significantly) increased latency, meet bufferbloat.
fq_codel does an excellent job of eliminating bufferbloat by dropping packets in an intelligent way. For most types of traffic this is preferable to using huge FIFO queues to avoid dropping packets.
Which is better for you will depend on your network traffic.
Thanks for this info - you are right. I guess my point was that with very fast (high bandwidth) connections if the queue is too short, packets may drop unnecessarily (irrespective of any AQM such as Codel), which would limit the ability to realize (close to) full bandwidth on the link. That being said, going too large on the queue size does increase the risk of bufflerbloat, but does this also impact the efficacy of AQM? In other words if the queue is too large will Codel no longer work effectively?
I run multiple vlans as well.. What is nice that you apply this in your firewall rule. Just create a rule above the rule that allows your traffic out to the net on whatever interface you want to get to the other segments. Then on the rule on that interface that allows traffic out to the internet apply in out queues..
So for example on my lan top rule allows access to rfc1918 space.. So if going to any of my other vlans/segments does not apply.. Then the any any rule below that does apply them, so if going to the internet the allow rule to rfc1918 would be skipped and then the any any rule at the bottom would apply the queues..
Thanks John, that makes perfect sense and is probably the best way to ensure that RFC 1918 traffic (or traffic on local subnets) does not get pushed into queues. With a symmetric gigabit internet connection this is not necessarily a big deal as there are essentially no slow and fast links in the network topology, but in most other cases this configuration is very important so one does not unnecessarily limit bandwidth on local traffic.
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I have now tried both fq_codel on dummynet and FAIRQ with Codel AQM on ALTQ on 2.4.0-RC and the results so far (at least for me) have been similar. I'm curious if anyone has any ideas for additional testing to better demonstrate the superiority of one traffic shaping solution over the other?
Thanks again for all your help.
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I'm not sure one is better than the other.
It depends on what you're trying to do.
ALTQ gives you a lot of options and control.
Dummynet is much less specific, but is very easy to implement. IMO, fq_codel is the only dummynet algorithm worth messing around with for most home users. But there are reasons to use the other algorithms.
So really it depends on what you are trying to do and why.
As far as testing your specific network under different types of traffic shaping, I would recommend FLENT.
https://flent.org/index.html
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I'm not sure one is better than the other.
It depends on what your trying to do.
ALTQ gives you a lot of options and control.
Dummynet is much less specific, but is very easy to implement. IMO, fq_codel is the only dummynet algorithm worth messing around with for most home users. But there are reasons to use the other algorithms.
So really it depends on what you are trying to do and why.
As far as testing your specific network under different types of traffic shaping, I would recommend FLENT.
https://flent.org/index.html
Thanks again for your help and explanation - I will check out that link.
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I really wish I could find a way to limit a subnet to say 100Mbs and then limit each ip host address in the subnet to 5 Mbs. And then have each IP address dynamically shaped if the overall link was approaching the 100Mbs total.
Take a look at the message in thread: https://forum.pfsense.org/index.php?topic=99503.msg642533#msg642533
You should be able to tweak the config files from that thread to match your networks and do exactly what you want.
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fq_Codel is a zero-config AQM. All it needs is to be hooked up to a shaper of some sort and and works magic. You really need to understand how to traffic shape to do better than it. Eve then, it's great.
I hope they get the kinks worked out of Cake, but they keep trying to add the kitchen sink and has caused some back-and-forth regression.