Image names as well as the calculation of the padded image size did
not work as intended. Fix that.
Signed-off-by: Daniel Golle <daniel@makrotopia.org>
Use upstream of_get_mtd_device_by_node() which should behave pretty much
the same. Implementation differences:
get_mtd_device_by_node() of_get_mtd_device_by_node()
---- ----
np->dev.of_node mtd_get_of_node(np)
-EPROBE_DEFER -ENODEV
Cc: Bernhard Frauendienst <openwrt@nospam.obeliks.de>
Cc: Bernhard Frauendienst <kernel@nospam.obeliks.de>
Signed-off-by: Rafał Miłecki <rafal@milecki.pl>
Use new DT clockdriver syntax for RTL838X/RTL839X targets. To make it work
we need to change some nodes:
- define the external oscillator speed (25MHz)
- define SRAM
- add clock controller
- Add second CPU for RTL839X
- map all devices to new clocks
- Remove dummy LXB clock
- add CPU OPP table
Signed-off-by: Markus Stockhausen <markus.stockhausen@gmx.de>
Make use the new clock driver for RTL838X and RTL839x target devices. Of course
we will enable their primary consumer (cpufreq-dt) too. To be careful just set
the default governor to userspace. As we rely on SRAM activate that module too.
Signed-off-by: Markus Stockhausen <markus.stockhausen@gmx.de>
A new clock driver makes more sense if it can be used from consumers
like cpufreq. Before we enable the driver we must tell the config that
the RTL838X and RTL839X targets allow CPU frequency changing.
Even though these targets currently rely on the CPU's internal R4K
timer, MIPS_EXTERNAL_TIMER is selected to allow for CPU frequency change
testing. The Realtek timers, which are clocked by the Lexra bus, still
need to be supported and used in order to provide correct wall times
when reclocking the CPU.
Signed-off-by: Markus Stockhausen <markus.stockhausen@gmx.de>
[add paragraph about MIPS_EXTERNAL_TIMER to commit message]
Signed-off-by: Sander Vanheule <sander@svanheule.net>
Add a new self-contained combined clock & platform driver that allows to
access the PLL hardware clocks of RTL83XX devices. Currently it provides
info about CPU, MEM and LXB clocks on RTL838X and RTL839X devices and
additionally allows to change the CPU clocks. Changing the clocks
multiple times on a DGS-1210-20 and a DGS-1210-52 already works well and
is multithreading safe on the RTL839X. Even a cpufreq initiated change
of the CPU clock works fine. Loading the driver will add some meaningful
logging.
[0.000000] rtl83xx-clk: initialized, CPU 500 MHz, MEM 300 MHz (8 Bit DDR3), LXB 200 MHz
[0.279456] rtl83xx-clk soc:clock-controller: rate setting enabled, CPU 325-600 MHz,
MEM 300-300 MHz, LXB 200-200 MHz, OVERCLOCK AT OWN RISK
Signed-off-by: Markus Stockhausen <markus.stockhausen@gmx.de>
[remove trailing whitespaces, C-style SPDX comments for ASM and headers]
Signed-off-by: Sander Vanheule <sander@svanheule.net>
35fec487e3 fixed opkg usage,
but when using buildroot we were still defaulting to
ip(6)tables-legacy
Signed-off-by: Etienne Champetier <champetier.etienne@gmail.com>
This package simplifies setting up wireguard networks on OpenWrt by a wireguard
network as a JSON file, which can be shared across all participating nodes.
It can be signed with an authentication key and automatically kept in sync.
unetd also supports deterministically generating ipv6 addresses for each host
based on the public key and storing those in a hosts file that can be used with
dnsmasq. It also supports automatically creating VXLAN tunnels between multiple
endpoints.
Signed-off-by: Felix Fietkau <nbd@nbd.name>
Fixes following build issue found during build testing with 5.15.63
kernel:
LED Support for Broadcom BCM63138 SoC (LEDS_BCM63138) [N/m/y/?] (NEW)
Signed-off-by: Petr Štetiar <ynezz@true.cz>
gcc 10 with -O2 reports following:
In function ‘strncpy’,
inlined from ‘rpc_sys_packagelist’ at /opt/devel/openwrt/c-projects/rpcd/sys.c:244:4:
/usr/include/x86_64-linux-gnu/bits/string_fortified.h:106:10: error: ‘__builtin_strncpy’ specified bound 128 equals destination size [-Werror=stringop-truncation]
106 | return __builtin___strncpy_chk (__dest, __src, __len, __bos (__dest));
| ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
In function ‘strncpy’,
inlined from ‘rpc_sys_packagelist’ at /opt/devel/openwrt/c-projects/rpcd/sys.c:227:4:
/usr/include/x86_64-linux-gnu/bits/string_fortified.h:106:10: error: ‘__builtin_strncpy’ specified bound 128 equals destination size [-Werror=stringop-truncation]
106 | return __builtin___strncpy_chk (__dest, __src, __len, __bos (__dest));
| ^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Since it is not possible to avoid truncation by strncpy, it is necessary
to make sure the result of strncpy is properly NUL-terminated and the
NUL must be inserted explicitly, after strncpy has returned.
References: #10442
Reported-by: Alexey Smirnov <s.alexey@gmail.com>
Signed-off-by: Petr Štetiar <ynezz@true.cz>
a4484d4 fw4: support automatic includes
ca7e3a1 fw4: honour enabled option of include sections
5a02f74 tests: add missing fs.stat) mock data for `nf_conntrack_dummy`
111a7f7 fw4: don't inherit zone family from ct helpers
Signed-off-by: Jo-Philipp Wich <jo@mein.io>
e3395cd ucode: initialize search path before VM init
8cb3f85 ucode: initialize default library search path
188dea2 utils: accept '?' as path terminator in uh_path_match()
c5eac5d file: support using dynamic script handlers as error pages
290ff88 relay: trigger close if in header read state with pending data
f9db538 ucode: ignore exit exceptions
8ba0b64 cmake: use variables and find_library for dependency
Signed-off-by: Jo-Philipp Wich <jo@mein.io>
bcdd2cb examples: add module search path initialization and freeing
ee1946f ubus: fix GCC strncpy() truncation warning
131d99c lib: introduce three new functions call(), loadstring() and loadfile()
8e8dae0 lib: introduce helper function for indenting error messages
476f02b lib: simplify include_path()
d84b53a source: avoid null pointer access in uc_source_runpath_set()
c43a54f types: gracefully handle unpatched upvalues in ucv_free()
e2fb11a README.md: document gc() function
b41cb2d main: introduce -g flag to allow enabling periodic gc from cli
85d7885 lib: implement gc()
47528f0 vm: support automatic periodic GC runs
381cc75 types: treat vm->exports as GC roots
fcc49e6 compiler: add import statement support for dynamic extensions
c9442f1 vm: introduce new I_DYNLOAD opcode
b6fd8a2 lib: internally expose new uc_require_library() helper
a486adc vm: don't treat offset 0 special for exceptions
41ccd19 compiler: don't treat offset 0 special at syntax errors
b4a3f68 compiler: improve formatting of nested syntax error messages
5d5dadc program: remove now unused uc_program_export_lookup()
304995b compiler: rework export index allocation
506cc37 compiler: fix deriving module path from source runpath
54b7fac compiler: enforce stricter module compilation rules
d62e372 vm: don't initialize upvalues for module functions
b856602 program: add serialization and deserialization for module function flag
d7d1bde compiler: add a flag denoting module functions
156d584 treewide: unexport libucode internal functions
10e056d compiler: add support for import/export statements
862e49d compiler: resolve predeclared upvalues
78dfb08 compiler: require a name in function declarations
afd78c1 compiler: fix reported source position in inc/dec operator error
e1c3db0 tests: run_tests.sh: substitute dynamic test directory path in output
3c168b5 vm, cli: move search path into global configuration structure
d85bc71 vm: introduce import and export opcodes
365782e vm: honor constant flag of objects and arrays
6becc64 vm: transparently resolve upvalue references
3418967 vm: gracefully handle unresolved upvalues
50cf572 program: add function to globally lookup exported name
c441f65 program: add infrastructure to handle multiple sources per program
2322468 program: fix reporting source position of first instruction
9c9a9ec program: fix en/decoding debuginfo upvalue slots in precompiled bytecode
41114a0 source: add tracking of exported symbols
70ae304 lib: honor constant flag of arrays
3c104f5 types: resolve upvalue references on stringification
3a6f9cb types: add ability to mark array and object values as constant
b738f3a lexer: recognize module related keywords
03c8e4b lexer: rewrite token scanner
fd433aa lexer: fix parsing with disabled block left stripping
557577a rtnl: fix parsing/creation of IFLA_AF_SPEC RTA for the AF_BRIDGE family
35c6b73 compiler: fix stack mismatch on continue statements nested in switches
f673096 uloop: end uloop on exceptions in managed code
2e5426c ubus: end uloop on exceptions in managed code
c024270 rtnl: expose IFLA_STATS64 contents
d3c58c0 rtnl: expose ifinfomsg.ifi_change member
c4dde50 rtnl: update NETLINK_GET_STRICT_CHK socket flag with every request
7ef0d02 nl80211: fix NL80211_SURVEY_INFO_NOISE datatype
9a2e592 compiler: fix stack mismatch on nonmatching switch statements with locals
03c8ca5 nl80211: recognize further NL80211_STA_INFO_* NLAs
a1ed566 struct: add optional offset argument to `unpack()`
230e595 rtnl: fix segmentation fault on parsing linkinfo RTA without data
523566d rtnl: zero request message headers
56be30d rtnl: fix premature netlink reply receive abort
1347440 rtnl: avoid stray "netlink: %d bytes leftover after parsing attributes."
44b0a3b struct: fix packing `*` format after other repeated formats
Also package uloop binding module which has been introduced by a previous
ucode update and introduce a host build with the basic set of modules.
Signed-off-by: Jo-Philipp Wich <jo@mein.io>
Removed following upstreamed patch:
* bcm53xx: 081-next-ARM_dts_BCM53015-add-mr26.patch
All other patches automagically rebased.
Signed-off-by: Petr Štetiar <ynezz@true.cz>
Add missing scaling_available_frequencies sysfs entry for dedicated
cpufreq driver.
This sysfs entry is not standard and each cpufreq driver needs to
provide it and declare it in the cpufreq driver struct attr.
Fixes: 5dbbefcbcc ("ipq806x: introduce dedicated krait cpufreq")
Signed-off-by: Christian Marangi <ansuelsmth@gmail.com>
Specifications:
* AR9342, 16 MiB Flash, 64 MiB RAM, 802.11n 2T2R, 2.4 GHz
* 1x Gigabit Ethernet (AR8035), 802.3af PoE
Installation:
* OEM Web UI is at 192.168.1.2
login as `admin` with password `1234`
* Flash factory-AASI.bin
The string `AASI` needs to be present within the file name of the uploaded
image to be accepted by the OEM Web-based updater, the factory image is
named accordingly to save the user from the hassle of manual renaming.
TFTP Recovery:
* Open the case, connect to TTL UART port (this is the official method
described by Zyxel, the reset button is useless during power-on)
* Extract factory image (.tar.bz2), serve `vmlinux_mi124_f1e.lzma.uImage`
and `mi124_f1e-jffs2` via tftp at 192.168.1.10
* Interrupt uboot countdown, execute commands
`run lk`
`run lf`
to flash the kernel / filesystem accordingly
MAC addresses as verified by OEM firmware:
use address source
LAN *:cc mib0 0x30 ('eth0mac'), art 0x1002 (label)
2g *:cd mib0 0x4b ('wifi0mac')
Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net>
Specifications:
* AR9342, 16 MiB Flash, 64 MiB RAM, 802.11n 2T2R, 2.4 GHz
* QCA9882 PCIe card, 802.11ac 2T2R
* 1x Gigabit Ethernet (AR8035), 802.3af PoE
Installation:
* OEM Web UI is at 192.168.1.2
login as `admin` with password `1234`
* Flash factory-AAOX.bin
The string `AAOX` needs to be present within the file name of the uploaded
image to be accepted by the OEM Web-based updater, the factory image is
named accordingly to save the user from the hassle of manual renaming.
TFTP Recovery:
* Open the case, connect to TTL UART port (this is the official method
described by Zyxel, the reset button is useless during power-on)
* Extract factory image (.tar.bz2), serve `vmlinux_mi124_f1e.lzma.uImage`
and `mi124_f1e-jffs2` via tftp at 192.168.1.10
* Interrupt uboot countdown, execute commands
`run lk`
`run lf`
to flash the kernel / filesystem accordingly
MAC addresses as verified by OEM firmware:
use address source
LAN *:1c mib0 0x30 ('eth0mac'), art 0x1002 (label)
2g *:1c mib0 0x4b ('wifi0mac')
5g *:1e mib0 0x66 ('wifi1mac')
Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net>
Specifications:
* AR9342, 16 MiB Flash, 64 MiB RAM, 802.11n 2T2R, 2.4 GHz
* AR9382 PCIe card, 802.11n 2T2R, 5 GHz
* 1x Gigabit Ethernet (AR8035), 802.3af PoE
Installation:
* OEM Web UI is at 192.168.1.2
login as `admin` with password `1234`
* Flash factory-AAEO.bin
The string `AAEO` needs to be present within the file name of the uploaded
image to be accepted by the OEM Web-based updater, the factory image is
named accordingly to save the user from the hassle of manual renaming.
TFTP Recovery:
* Open the case, connect to TTL UART port (this is the official method
described by Zyxel, the reset button is useless during power-on)
* Extract factory image (.tar.bz2), serve `vmlinux_mi124_f1e.lzma.uImage`
and `mi124_f1e-jffs2` via tftp at 192.168.1.10
* Interrupt uboot countdown, execute commands
`run lk`
`run lf`
to flash the kernel / filesystem accordingly
MAC addresses as verified by OEM firmware:
use address source
LAN *:fb mib0 0x30 ('eth0mac'), art 0x1002 (label)
2g *:fc mib0 0x4b ('wifi0mac')
5g *:fd mib0 0x66 ('wifi1mac')
Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net>
Specifications:
* AR9342, 16 MiB Flash, 64 MiB RAM, 802.11n 2T2R, 2.4 GHz
* 1x Gigabit Ethernet (AR8035), 802.3af PoE
Installation:
* OEM Web UI is at 192.168.1.2
login as `admin` with password `1234`
* Flash factory-AABJ.bin
The string `AABJ` needs to be present within the file name of the uploaded
image to be accepted by the OEM Web-based updater, the factory image is
named accordingly to save the user from the hassle of manual renaming.
TFTP Recovery:
* Open the case, connect to TTL UART port (this is the official method
described by Zyxel, the reset button is useless during power-on)
* Extract factory image (.tar.bz2), serve `vmlinux_mi124_f1e.lzma.uImage`
and `mi124_f1e-jffs2` via tftp at 192.168.1.10
* Interrupt uboot countdown, execute commands
`run lk`
`run lf`
to flash the kernel / filesystem accordingly
MAC addresses as verified by OEM firmware:
use address source
LAN *:cc mib0 0x30 ('eth0mac'), art 0x1002 (label)
2g *:cd mib0 0x4b ('wifi0mac')
Signed-off-by: Sebastian Schaper <openwrt@sebastianschaper.net>
Mux the MT7530 switch's phy0/4 to the SoC's gmac1 on devices where RGMII2
pins are available. This achieves 2 Gbps total bandwidth to the CPU using
the second RGMII.
The ports called "wan" are muxed where possible. On a minority of devices,
this is not possible. Those cases:
mt7621_ampedwireless_ally-r1900k.dts: lan3
mt7621_ubnt_edgerouter-x.dts: eth0
mt7621_gnubee_gb-pc1.dts: ethblue
mt7621_linksys_re6500.dts: lan1
mt7621_netgear_wac104.dts: lan4
mt7621_tplink_eap235-wall-v1.dts: lan0
mt7621_tplink_eap615-wall-v1.dts: lan0
mt7621_ubnt_usw-flex.dts: lan1
The "wan" port is just what the vendor designated on the board/plastic
chasis of the device. On a technical level, there is no difference between
a lan and wan port on MT7621AT, MT7621DAT and MT7621ST SoCs. Prefer
connecting to WAN via the port described above for these devices to benefit
the feature brought with this patch.
mt7621_d-team_newifi-d2.dts cannot benefit this feature, although it looks
like it should, because the rgmii2 pins are wired to unused components.
Tested on a range of devices documented on the GitHub PR.
Link: https://github.com/openwrt/openwrt/pull/10238
Signed-off-by: Arınç ÜNAL <arinc.unal@arinc9.com>
Remove DTS_LEGACY put for claiming pin groups for the ethernet node from
the ethernet node. It's not an old kernel trait. These bindings need to be
there on the newer kernels as well.
Fixes: a3764ee29d ("ramips: add linux 5.15 support for mt7621")
Signed-off-by: Arınç ÜNAL <arinc.unal@arinc9.com>
These devices do not use rgmii2 as gpio, therefore remove rgmii2 pin group
from state-default. Remove overwriting the ethernet node for these devices.
Move claiming the rgmii2 group from mt7621_zyxel_nwa-ax.dtsi to
mt7621_zyxel_nwa50ax.dts as it's only the latter using rgmii2 pins as gpio.
Remove duplicate ethernet overwrite from mt7621_tplink_archer-x6-v3.dtsi.
Claim rgmii2 group as gpio on mt7621_bolt_arion.dts as it uses an rgmii2
pin, 26, as gpio.
Signed-off-by: Arınç ÜNAL <arinc.unal@arinc9.com>
Change switch port labels to ethblack & ethblue.
Change lan1 & lan2 LEDs to ethblack_act & ethblue_act and fix GPIO pins.
Add the external phy with ethyellow label on the GB-PC2 devicetree.
Do not claim rgmii2 as gpio, it's used for ethernet with rgmii2 function.
Enable ICPlus PHY driver for IP1001 which GB-PC2 has got.
Update interface name and change netdev function.
Enable lzma compression to make up for the increased size of the kernel.
Make spi flash bindings on par with mainline Linux to fix read errors.
Tested on GB-PC2 by Petr.
Tested-by: Petr Louda <petr.louda@outlook.cz>
Signed-off-by: Arınç ÜNAL <arinc.unal@arinc9.com>
WPA3 enterprise requires group_mgmt_cipher=BIP-GMAC-256 and if 802.11r is
active also wpa_key_mgmt FT-EAP-SHA384. This commit also requires
corresponding changes in netifd.
Signed-off-by: Joerg Werner <schreibubi@gmail.com>
Disabling this build tunable breaks build and seems unrealistically
likely to be fixed.
This patch sets the related CONFIG to always true and removes the
config prompt, keeping the change minimal, and, should !CONFIG_IPV6 ever
be fixed, easy to revert.
Signed-off-by: Thibaut VARÈNE <hacks@slashdirt.org>
Acked-by: Stijn Tintel <stijn@linux-ipv6.be>
Acked-by: Paul Spooren <mail@aparcar.org>
Acked-by: Josef.Schlehofer <pepe.schlehofer@gmail.com>
Acked-by: Jo-Philipp Wich <jo@mein.io>
It is common for 802.11ax NICs to support more than just AP mode, which
results in there being a distinct set of HE capabilities for each mode. As
(bad) luck would have it, iw prints out info for each HE mode in sequential
order according to `enum nl80211_iftype`, and AP mode isn't always first.
As a result, the wrong set of HE capabilities can be parsed if an AP NIC
supports station (managed) mode or any other mode preceding AP mode, since
only the first set of HE capabilities printed by iw is parsed from awk's
output.
This has a noticeable impact on beamforming for example, since managed mode
usually doesn't have beamformer capabilities enabled, while AP mode does.
Hostapd won't be set up with the configs to enable beamformer capabilities
in this scenario, causing hostapd to disable beamforming to HE stations
even when it's supported by the AP.
Always parse the correct set of HE capabilities for AP mode to fix this.
This is achieved by trimming all of iw's output prior to the AP mode
capabilities, which ensures that the first set of HE capabilities are
always for AP mode.
Signed-off-by: Sultan Alsawaf <sultan@kerneltoast.com>
Platform startup still "guesses" the CPU clock speed by DT fixed values.
If possible take clock rates from a to be developed driver and align to
MIPS generic platfom initialization code. Pack old behaviour into a
fallback function. We might get rid of that some day.
Signed-off-by: Markus Stockhausen <markus.stockhausen@gmx.de>
General hardware info:
-------------------------------------------------------------------------------
D-Link DGS-1210-10MP is a switch with 8 ethernet ports and 2 SFP ports, all
ports Gbit capable. It is based on a RTL8380 SoC @ 500MHz, DRAM 128MB and
32MB flash. All ethernet ports are 802.3af/at PoE capable
with a total PoE power budget of 130W.
File info:
-------------------------------------------------------------------------------
The dgs-1210-10mp is very similar to dgs-1210-10p so I used that as a start.
rtl838x.mk:
- Removed lua-rs232 package since it was a leftover from the old rtl83xx-poe
package.
- Updated the soc to 8380.
- Specified device variant: F.
- Installed the new realtek-poe package.
rtl8380_d-link_dgs-1210-10mp.dts:
- Moved dgs-1210 family common parts and non PoE related ports on rtl8231
to the new device tree dtsi files.
Serial connection:
-------------------------------------------------------------------------------
The UART for the SoC (115200 8N1) is available close to the front panel next
to the LED/key card connector via unpopulated standard 0.1" pin header
marked j4. Pin1 is marked with arrow and square.
Pin 1: Vcc 3,3V
Pin 2: Tx
Pin 3: Rx
Pin 4: Gnd
Installation with TFTP from u-boot
-------------------------------------------------------------------------------
I originally used the install procedure:
'OpenWrt installation using the TFTP method and serial console access' found
in the device wiki for the dgs-1210-16.
< https://openwrt.org/toh/d-link/dgs-1210-16_g1#openwrt_installation_using
_the_tftp_method_and_serial_console_access >
About the realtek-poe package
-------------------------------------------------------------------------------
The realtek-poe package is installed but there isn't any automatic PoE config
setting at this time so for now the PoE config must be edited manually.
Original OEM hardware/firmware data at first installation
-------------------------------------------------------------------------------
It has been installed, developed, and tested on a device with these OEM
hardware and firmware versions.
- U-boot: 2011.12.(2.1.5.67086)-Candidate1 (Jun 22 2020 - 15:03:58)
- Boot version: 1.01.001
- Firmware version: 6.20.007
- Hardware version: F1
Things to be done when support are developed
-------------------------------------------------------------------------------
- realtek-poe has been included in OpenWrt but the automatic config handling
has not been solved yet so in the future there will probably be some minor
updates for this device to handle the poe config.
- LED link_act and poe are per function supposed to be connected to the PoE
system.
But some software development is also needed to make this LED work and
shift the LED array between act and poe indication and to shift the mode
lights with mode key.
- LED poe_max should probably be used as straight forward error output from
the realtek-poe package error handling. But no code has been written for
this.
- SFP is currently not hot pluggable. Development is under progress to get
working I2C communication with SFP and have them hot pluggable.
When any device in the dgs-1210 family gets this working, I expect it
should be possible to implement the same solution in this device.
Signed-off-by: Daniel Groth <flygarn12@gmail.com>
[Capitalisation of abbreviations, DEVICE_VARIANT and update filenames,
device compatibles on single line]
Signed-off-by: Sander Vanheule <sander@svanheule.net>
I have collected the known information from the dts files we have.
After that I made a new device tree that should work for this whole D-Link
switch family.
This device tree is based on modules where you first select which SoC group
the device belongs to. Then you include the GPIO dtsi file depending on what
hardware your device has, see examples below.
This tree is also expandable for more hardware,
see the part 'Future expansion possibilities' further down.
-------------------------------------------------------------------------------
The device tree now looks like this:
----------------
| rtl838x.dtsi | // Note 1.
----------------
|
|
---------------------------------------
| rtl838x_d-link_dgs-1210_common.dtsi | // Note 2.
---------------------------------------
|
| --------------
|-------| device.dts | // Note 3.
| --------------
|
-------------------------------------
| rtl83xx_d-link_dgs-1210_gpio.dtsi | // Note 4.
-------------------------------------
|
| --------------
|-------| device.dts | // Note 5.
--------------
Note 1; Included in rtl838x_d-link_dgs-1210_common.dtsi.
Note 2; SoC level information and memory mapping. Choose which one to include
in the device dts.
Note 3; At this point dgs-1210-16 will come out here.
Note 4; In this dtsi only common board hardware based on the rtl8231 is found.
No PoE based hardware in this dtsi.
In this dtsi there is no <#include> to above *_common.dtsi.
Note 5; Device dts with only rtl8231 based hardware without PoE will come out
here.
-------------------------------------------------------------------------------
How to set up in dts file:
The device dts will have one of these two <#include> alternatives.
This alternative includes only common features:
<#include "rtl838x_d-link_dgs-1210_common.dtsi">
This alternative includes common and the rtl8231 GPIO (no PoE) features:
<#include "rtl838x_d-link_dgs-1210_common.dtsi">
<#include "rtl83xx_d-link_dgs-1210_gpio.dtsi">
-------------------------------------------------------------------------------
Implementation:
Finally, I also implemented this new family device tree on the current
supported devices:
dgs-1210-10p
dgs-1210-16
dgs-1210-20
dgs-1210-28
The implementation for the dgs-1210-10p is different. I have removed the
information from the rtl8382_d-link_dgs-1210-10p.dts that is already present
in rtl838x_d-link_dgs-1210_common.dtsi.
Since the rest isn't officially probed in the device dts I do not want to
include the rtl83xx_d-link_dgs-1210_gpio.dtsi with dgs-1210-10p.dts.
Since I don't have these devices to test on I have built the original firmware
for each one of these devices before this change and saved the dtb file and
then compared the original dtb file with the dtb file built with this new
device tree.
-------------------------------------------------------------------------------
Future expansion possibilities:
In parallel with the rtl838x_d-link_dgs-1210_common.dtsi in the tree map
we can make a rtl839x_d-link_dgs-1210_common.dtsi to use the rtl839x.dtsi if
the need arises with more devices based on rtl839x soc.
When we have more PoE devices so the hardware map for these gets more clear
we can make a rtl83xx_d-link_dgs-1210_poe.dtsi below
the rtl83xx_d-link_dgs-1210_gpio.dtsi in the tree map.
I looked at the port and switch setup to see if it could be moved to the dtsi.
I decided not to touch this part now. The reason was that there isn't really
any meaningful way this could be shared between the devices.
The only thing in common over the family is the 8+2sfp ports on the
dgs-1210-10xx device.
And then there is the hot plug SFP and I2C ports that aren’t implemented
on any device. So maybe when we see the whole port map for the family
then maybe the ports can be moved to a *_common.dtsi but I don't think it is
the right moment for that now.
Signed-off-by: Daniel Groth <flygarn12@gmail.com>
[Capitalisation of abbreviations and 'D-Link']
Signed-off-by: Sander Vanheule <sander@svanheule.net>
Modify uencrypt to support any cipher provided by ssl library.
Original tool supported only AES-128-CBC to decrypt the config
mtd of Arcadyan WG430223/WG443223.
TP-Link Deco S4 has mtd configuration encrypted with DES-ECB,
so make the cipher generic to support both routers.
Signed-off-by: Nick French <nickfrench@gmail.com>
Reviewed-by: Eneas U de Queiroz >cotequeiroz@gmail.com>
This commit resolves#10062. Adds decryption of the Arcadyan WG4xx223
configuration partition (board_data)to get base MAC address from it.
As a result, after this change the hack with saving MAC addressees to
u-boot-env before installation of OpenWrt is no longer necessary.
This is necessary for the following devices:
- Beeline Smartbox Flash (Arcadyan WG443223)
- MTS WG430223 (Arcadyan WG430223)
Example:
+----------------+-------------------+------------------------+
| | MTS WG430223 | Beeline Smartbox Flash |
+----------------+-------------------+------------------------+
| base mac (mtd) | A4:xx:xx:51:xx:F4 | 30:xx:xx:51:xx:06 |
| label | A4:xx:xx:51:xx:F4 | 30:xx:xx:51:xx:09 |
| LAN | A4:xx:xx:51:xx:F6 | 30:xx:xx:51:xx:09 |
| WAN | A4:xx:xx:51:xx:F4 | 30:xx:xx:51:xx:06 |
| WLAN_2g | A4:xx:xx:51:xx:F5 | 30:xx:xx:51:xx:07 |
| WLAN_5g | A6:xx:xx:21:xx:F5 | 32:xx:xx:41:xx:07 |
+----------------+-------------------+------------------------+
Collected statistic shows that the 2-4th bits of the 7th byte of the
WLAN_5g MAC are the constant (see #10062 for more details):
- Beeline Smartbox Flash - 100
- MTS WG430223 - 010
Signed-off-by: Mikhail Zhilkin <csharper2005@gmail.com>
Some Arcadyan devices (e.g. MTS WG430223) keep their config in encrypted
mtd. This adds mtd_get_mac_encrypted_arcadyan() function to get the MAC
address from the encrypted partition. Function uses uencrypt utility for
decryption (and openssl if the uencrypt wasn't found).
Signed-off-by: Mikhail Zhilkin <csharper2005@gmail.com>