I work as a consultant from home on the east coast for a company on the west coast. When we do an OTA update mine takes about a minute while their update takes about 5 minutes assuming it doesn't error out on the download. Their wifi is slammed and has lots of congestion being in an office building. My wifi is not, working from home. So my task is figuring out how to handle congested wifi in an uncongested environment.
The device I'm working on has like the wrover a 4MB spiram chip. I'm thinking that wifi/tcp may could use more buffers to handle retransmissions and all that network magic that goes on to make tcp reliable. There are two unchecked options in LWIP section of menuconfig...
[ ] Enable fragment outgoing IP packets
[ ] Enable reassembly incoming fragmented IP packets
I would have thought that fragmented IP packets was something that was going to happen and am wondering why these options aren't checked by default. Am I wrong about this?
In the wifi section of menuconfig there is this....
(10) Max number of WiFi static RX buffers
(32) Max number of WiFi dynamic RX buffers
Type of WiFi TX buffers (Static) --->
(16) Max number of WiFi static TX buffers
If I remove the limit of the number of dynamic RX buffers by setting to zero, will these buffers be allocated from spiram? Same with adding more static RX and TX buffers. I can't afford to lose 8 bit internal ram so more buffers need to come from ext ram.
Looking for sage advice!
John A
Let's talk wifi and TCP
Re: Let's talk wifi and TCP
More on this...
I set (16) Max number of WiFi static TX buffers to 32, and I was failing to allocate some task mem on startup.
After setting that back to 16 my app started up fine.
I also set
(32) Max number of WiFi dynamic RX buffers -> 0 to allow unlimited allocation.
In addition I set both TCP fragment configs to enabled....
[*] Enable fragment outgoing IP packets
[*] Enable reassembly incoming fragmented IP packets
The interesting result of this is that it appears to allocate more of the internal 32 bit mem but less of the 8 bit internal mem, which is a good thing if I'm reading the heap report correctly.
Now to see if it improves congested wifi performance.
****Edit***: my comment above about using more 32 and less 8 bit was wrong. Didn't let the app settle first. The changes of TCP fragmentation and allowing unlimited dynamic RX buffers appears to have no effect on the available heap after startup. Not sure about under heavy wifi load.
John A
I set (16) Max number of WiFi static TX buffers to 32, and I was failing to allocate some task mem on startup.
After setting that back to 16 my app started up fine.
I also set
(32) Max number of WiFi dynamic RX buffers -> 0 to allow unlimited allocation.
In addition I set both TCP fragment configs to enabled....
[*] Enable fragment outgoing IP packets
[*] Enable reassembly incoming fragmented IP packets
The interesting result of this is that it appears to allocate more of the internal 32 bit mem but less of the 8 bit internal mem, which is a good thing if I'm reading the heap report correctly.
Now to see if it improves congested wifi performance.
****Edit***: my comment above about using more 32 and less 8 bit was wrong. Didn't let the app settle first. The changes of TCP fragmentation and allowing unlimited dynamic RX buffers appears to have no effect on the available heap after startup. Not sure about under heavy wifi load.
John A
Re: Let's talk wifi and TCP
try the "ipref" example in both locations, and see your throughput. The default configs in ESP-IDF v3.1 have LWIP running from ram, as well as Tickrate at 1kHz, along with ethernet frame optimizations. you wont get anything better than that.
Re: Let's talk wifi and TCP
I just saw your post. I'll take a look at using that as a test program. I'm less interested in speed and more interested in reliability. OTA downloads are about 1.5MB and my sound file uploads are about 1/4MB. In a congested situation these xfers will stall out and eventually the server will disconnect (usually 5 mins from a stalled xfer).hassan789 wrote:try the "ipref" example in both locations, and see your throughput. The default configs in ESP-IDF v3.1 have LWIP running from ram, as well as Tickrate at 1kHz, along with ethernet frame optimizations. you wont get anything better than that.
Has anyone played with "esp_wifi_set_max_tx_power", although the default is allow max power. Or in the config structure there is tx_ba_win and rx_ba_win, which is the ACK window sizes. I may be beating a dead horse, but wifi performance in a busy office setting appears to be pretty bad.
John A
Re: Let's talk wifi and TCP
Hi,
Are having the same issue, did you manage to solve it?
BR
Patrik
Are having the same issue, did you manage to solve it?
BR
Patrik
Re: Let's talk wifi and TCP
Hi John,
Just to check all the variables: how is 2.4GHz WiFi performance for other devices in the same environment? ie if you connect a PC to the 2.4GHz network (ie same router, same frequency band) and download the same OTA file, how does performance compare?
If I had to guess, TCP fast retransmits are failing so packets are falling back to slow TCP retransmits. This means whole seconds when no data is being sent. You may be able to tune this on the server side as well.
OTA is particularly nasty environment for the TCP connection because the ESP32 can't service the TCP connections during flash erase/write, so timeouts will happen more frequently than for non-OTA TCP throughput.
If you can get packet captures then this can help a lot. The ESP32's TCP connection is probably the most useful, although this can be difficult without changing the "native" environment if you don't have a router that can set up port mirroring or something similar. Maybe more viable to packet capture from the OTA server side, to see what it sees? Although this is only part of the picture.
Re: Let's talk wifi and TCP
Yes, it is OTA's where the problem is most apparent. The company I work for has a bunch of APs that show up and they report a lot of random OTA failures in the office. Unfortunately (or fortunately for me) I work from home on the opposite coast. I never experience OTA failures. I have everything I need to do port mirroring here, but also have good wifi connectivity. The timeout on the OTA server was 5 min. The OTA would get a random percent done, then the ESP32 receive would hang until it timed out. When you guys introduced the ESP_HTTPS_OTA functions I switched to that, but lost granularity in the error reporting. However, it did seem that reliability improved with that.ESP_Angus wrote: ↑Wed May 22, 2019 1:06 amHi John,
Just to check all the variables: how is 2.4GHz WiFi performance for other devices in the same environment? ie if you connect a PC to the 2.4GHz network (ie same router, same frequency band) and download the same OTA file, how does performance compare?
If I had to guess, TCP fast retransmits are failing so packets are falling back to slow TCP retransmits. This means whole seconds when no data is being sent. You may be able to tune this on the server side as well.
OTA is particularly nasty environment for the TCP connection because the ESP32 can't service the TCP connections during flash erase/write, so timeouts will happen more frequently than for non-OTA TCP throughput.
If you can get packet captures then this can help a lot. The ESP32's TCP connection is probably the most useful, although this can be difficult without changing the "native" environment if you don't have a router that can set up port mirroring or something similar. Maybe more viable to packet capture from the OTA server side, to see what it sees? Although this is only part of the picture.
We messed around with testing different antennas, but eventually decided the wrover module with built in antenna was as or more reliable than anything else. I put a retry mechanism in place for OTA's with an exponential backoff (i.e. 5 min, 25 min, 125 min) and nobody seems to be complaining now.
They were comparing wifi reliability with a previous TI based design, which did perform better in their tests using Smokeping.
John A
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