The include/trusted-firmware-a.mk file is based on the
include/u-boot.mk file and should be used to build a Trusted Firmware-A
(TFA) which was previously named Arm trusted firmware.
This is useful for targets where the TFA is board specific like for
Marvell SoCs and probably also NXP Layerscape SoCs.
This also makes use of this abstraction in the
arm-trusted-firmware-mvebu package to build board specific ATF binaries.
The ATF binaries will be automatically activated and build when the
board is selected in the normal build or all boards are selected. This
should also activate the build when build bot creates images.
Signed-off-by: Hauke Mehrtens <hauke@hauke-m.de>
d6bd1047d004 vlandev: dump vlan id in device status
e0c838bd06a6 vlandev: support bridge-vlan aliases in the vid config parameter
574dc4a17105 system-dummy: print configured mac address
14f0e8ff928f system-linux: simplify mask check in system_if_apply_settings
524310276f20 system-linux: move device settings handling to device.c
42c48866f1c1 config: parse default mac address from board.json
Signed-off-by: Felix Fietkau <nbd@nbd.name>
Add code for setting mac addresses inside board.json and rendering
them out to uci. On switches we want to have a unique MAC on each port.
With 48 port switches that would require 48 device sections in
/etc/config/network. Doing so via board.json is easier.
Signed-off-by: John Crispin <john@phrozen.org>
Similar to the previous commit adding a check to the init script of
umdns, do a similar change for sysntpd, just to be on the safe side.
Inspired-by: 520403cd49 ("umdns: add check for seccomp list")
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
This should fix an issue when user have a router with enabled seccomp
and tries to run umdns package which was build with SDK with disabled
seccomp support.
Signed-off-by: Jan Pavlinec <jan.pavlinec@nic.cz>
Add a cell_density option to configure data rates for normal, high and
very high cell density wireless deployments.
The purpose of using a minimum basic/mandatory data rate that is higher
than 6 Mb/s, or 5.5 Mb/s (802.11b compatible), in high cell density
environments is to transmit broadcast/multicast data frames using less
airtime or to reduce management overheads where significant co-channel
interference (CCI) exists and cannot be avoided.
Caution: Without careful design and validation, configuration of a too
high minimum basic/mandatory data rate can sacrifice connection stability
or disrupt the ability to reliably connect and authenticate for little to
no capacity benefit. This is because this configuration affects the
ability of clients to hear and demodulate management, control and
broadcast/multicast data frames.
Deployments that have not been specifically designed and validated are
usually best suited to use 6, 12 and 24 Mb/s as basic/mandatory data
rates.
Only usually seek to configure a 12 Mb/s, or 11 Mb/s (802.11b
compatible), minimum basic/mandatory rate in high cell density
deployments that have been designed and validated for this.
For many deployments, the minimum basic/mandatory data rate should not be
configured above 12 Mb/s to 18 Mb/s, 24 Mb/s or higher. Such a
configuration is only appropriate for use in very high cell density
deployment scenarios.
A cell_density of Very High (3) should only be used where a deployment
has a valid use case and has been designed and validated specifically for
this use, nearly always with highly directional antennas - an example
would be stadium deployments. For example, with a 24 Mb/s OFDM minimum
basic/mandatory data rate, approximately a -73 dBm RSSI is required to
decode frames. Many clients will not have roamed elsewhere by the time
that they experience -73 dBm and, where they do, they frequently may not
hear and be able to demodulate beacon, control or broadcast/multicast
data frames causing connectivity issues.
There is a myth that disabling lower basic/mandatory data rates will
improve roaming and avoid sticky clients. For 802.11n, 802.11ac and
802.11ax clients this is not correct as clients will shift to and use
lower MCS rates and not to the 802.11b or 802.11g/802.11a rates that are
able to be used as basic/mandatory data rates.
There is a myth that disabling lower basic/mandatory data rates will
ensure that clients only use higher data rates and that better
performance is assured. For 802.11n, 802.11ac and 802.11ax clients this
is not correct as clients will shift around and use MCS rates and not the
802.11b or 802.11g/802.11a rates that able to be used as basic/mandatory
data rates.
Cell Density
0 - Disabled (Default)
Setting cell_density to 0 does not configure data rates. This is the
default.
1 - Normal Cell Density
Setting cell_density to 1 configures the basic/mandatory rates to 6, 12
and 24 Mb/s OFDM rates where legacy_rates is 0. Supported rates lower
than the minimum basic/mandatory rate are not offered.
Setting cell_density to 1 configures the basic/mandatory rates to the 5.5
and 11 Mb/s DSSS rates where legacy_rates is 1. Supported rates lower
than the minimum basic/mandatory rate are not offered.
2 - High Cell Density
Setting the cell_density to 2 configures the basic/mandatory rates to the
12 and 24 Mb/s OFDM rates where legacy_rates is 0. Supported rates lower
than the minimum basic/mandatory rate are not offered.
Setting the cell_density to 2 configures the basic/mandatory rates to the
11 Mb/s DSSS rate where legacy_rates is 1. Supported rates lower than the
minimum basic/mandatory rate are not offered.
3 - Very High Cell Density
Setting the cell_density to 3 configures the basic/mandatory rates to the
24 Mb/s OFDM rate where legacy_rates is 0. Supported rates lower than the
minimum basic/mandatory rate are not offered.
Setting the cell_density to 3 only has effect where legacy_rates is 0,
else this has the same effect as being configured with a cell_density of 2.
Where specified, the basic_rate and supported_rates options continue to
override both the cell_density and legacy_rates options.
Signed-off-by: Nick Lowe <nick.lowe@gmail.com>
All firmwares were added to linux-firmware, so there's no need to keep this
package definitions.
Signed-off-by: Álvaro Fernández Rojas <noltari@gmail.com>
Instead of duplicating board firmware binaries, which are exactly the same
as the ones from linux-firmware, add dependencies and remove duplicated
downloads.
Runtime-tested on ath79 (TP-Link Archer C7 v2) and ipq806x (Netgear R7800).
Signed-off-by: Álvaro Fernández Rojas <noltari@gmail.com>
Split ath10k firmwares into board and firmware packages.
This way we can add dependencies to ath10k-ct firmware packages.
Signed-off-by: Álvaro Fernández Rojas <noltari@gmail.com>