moeller0 72f7138da0 Update README.md | пре 5 година | |
---|---|---|
luci | пре 5 година | |
platform | пре 5 година | |
src | пре 5 година | |
Makefile | пре 5 година | |
README.md | пре 5 година |
This repository contains the sqm-scripts traffic shaper from the CeroWrt project. See: http://www.bufferbloat.net/projects/cerowrt/wiki/Smart_Queue_Management
sudo make install
should install things on a regular Linux box. For
OpenWrt, there are packages available in the ceropackages repository:
https://github.com/dtaht/ceropackages-3.10 and in openwrt nightly
builds as well as in the main packages repository (https://github.com/openwrt/packages/tree/master/net/sqm-scripts).
Run the steps below on your own computer (not on the router) to retrieve the newest script version from this repository, create the scripts, then copy those new scripts to your router.
Make a local clone of the git repository (if you have not already):
git clone https://github.com/tohojo/sqm-scripts
Change into the new directory:
cd ./sqm-scripts
Make sure the source is updated:
git pull
Create the scripts for your platform (PLATFORM is either linux or openwrt) and output them to a local current_sqm_base
directory:
make install PLATFORM=openwrt DESTDIR=./current_sqm_base
Change to ./current_sqm_base
:
cd ./current_sqm_base
Optional for OpenWrt: The final step will overwrite your router's current sqm configuration file (at /etc/config/sqm
). If you want to preserve the current configuration, delete the newly created config file from the local etc/config
:
rm -r etc/config
Now, use scp to copy the new scripts to the router. Change $YOUR.SQM.HOSTNAME
to the address/DNS name for your computer - probably 192.168.1.1
or on cerowrt gw.hom.lan
. If your account on the router is not "root", change "root" to your account:
scp -r ./* root@$YOUR.SQM.HOSTNAME:/
Note this method relies on the presence of the required qdiscs on the router/destination host. On openwrt, you should first install the "normal" sqm-scripts package to take care of all the dependencies, then use this procedure to update to the newest sqm-scripts.
SQM_VERBOSITY_MAX controls the verbosity of sqm's output to the shell and syslog (0: no logging; 8: full debug output).
SQM_DEBUG controls whether sqm will log the output of the last invocation of start-sqm into var/run/sqm/${interface_name}.start-sqm.log
and the ouput of the last invocation of stop-sqm into var/run/sqm/${interface_name}.stop-sqm.log
e.g. for pppoe-wan /var/run/sqm/pppoe-wan.start-sqm.log
and /var/run/sqm/pppoe-wan.stop-sqm.log
.
Log only the binary invocations and their output:
/etc/init.d/sqm stop ; SQM_DEBUG=1 SQM_VERBOSITY_MAX=0 /etc/init.d/sqm start
Log verbose debug output and all the binary invocations and their output:
/etc/init.d/sqm stop ; SQM_DEBUG=1 SQM_VERBOSITY_MAX=8 /etc/init.d/sqm start
Log both start and stop:
SQM_DEBUG=1 SQM_VERBOSITY_MAX=8 /etc/init.d/sqm stop ; SQM_DEBUG=1 SQM_VERBOSITY_MAX=8 /etc/init.d/sqm start
Note: Both the start and stop log are re-written on every sqm instance start and stop, while they will not grow indefintely, they are written repeatedly, on reliable rewritable storage (hard disk, ssd with waer-leveling, ram-disk) SQM_DEBUG
can be set to 1, but on low-write-count media like NOR flash rewriting theses logs might cause undesired wear.