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Two months ago I bought a Thinkpad X1 Yoga Gen3 [1]. I’m still very happy with it, the screen is a great improvement over the FullHD screen on my previous Thinkpad. I have yet to discover what’s the best resolution to have on a laptop if price isn’t an issue, but it’s at least 1440p for a 14″ display, that’s 210DPI. The latest Thinkpad X1 Yoga is the 7th gen and has up to 3840*2400 resolution on the internal display for 323DPI. Apple apparently uses the term “Retina Display” to mean something in the range of 250DPI to 300DPI, so my current laptop is below “Retina” while the most expensive new Thinkpads are above it.
I did some tests on external displays and found that this Thinkpad along with a Dell Latitude of the same form factor and about the same age can only handle one 4K display on a Thunderbolt dock and one on HDMI. On Reddit u/Carlioso1234 pointed out this specs page which says it supports a maximum of 3 displays including the built in TFT [2]. The Thunderbolt/USB-C connection has a maximum resolution of 5120*2880 and the HDMI port has a maximum of 4K. The latest Yoga can support four displays total which means 2*5K over Thunderbolt and one 4K over HDMI. It would be nice if someone made a 8000*2880 ultrawide display that looked like 2*5K displays when connected via Thunderbolt. It would also be nice if someone made a 32″ 5K display, currently they all seem to be 27″ and I’ve found that even for 4K resolution 32″ is better than 27″.
With the typical configuration of Linux and the BIOS the Yoga Gen3 will have it’s touch screen stop working after suspend. I have confirmed this for stylus use but as the finger-touch functionality is broken I couldn’t confirm that. On r/thinkpad u/p9k told me how to fix this problem [3]. I had to set the BIOS to Win 10 Sleep aka Hybrid sleep and then put the following in /etc/systemd/system/thinkpad-wakeup-config.service :
# https://www.reddit.com/r/thinkpad/comments/1blpy20/comment/kw7se2l/?context=3
[Unit]
Description=Workarounds for sleep wakeup source for Thinkpad X1 Yoga 3
After=sysinit.target
After=systemd-modules-load.service
[Service]
Type=oneshot
ExecStart=/bin/sh -c "echo 'enabled' > /sys/devices/platform/i8042/serio0/power/wakeup"
ExecStart=/bin/sh -c "echo 'enabled' > /sys/devices/platform/i8042/serio1/power/wakeup"
ExecStart=/bin/sh -c "echo 'LID' > /proc/acpi/wakeup"
[Install]
WantedBy=multi-user.target
Now it works fine, for stylus at least. I still get kernel error messages like the following which don’t seem to cause problems:
wacom 0003:056A:5146.0005: wacom_idleprox_timeout: tool appears to be hung in-prox. forcing it out.
When it wasn’t working I got the above but also kernel error messages like:
wacom 0003:056A:5146.0005: wacom_wac_queue_insert: kfifo has filled, starting to drop events
This change affected the way suspend etc operate. Now when I connect the laptop to power it will leave suspend mode. I’ve configured KDE to suspend when the lid is closed and there’s no monitor connected.
I previously wrote about the possibility of transferring work between devices as an alternative to “convergence” (using a phone or tablet as a desktop) [1]. This idea has been implemented in some commercial products already.
MrWhosTheBoss made a good YouTube video reviewing recent Huawei products [2]. At 2:50 in that video he shows how you can link a phone and tablet, control one from the other, drag and drop of running apps and files between phone and tablet, mirror the screen between devices, etc. He describes playing a video on one device and having it appear on the other, I hope that it actually launches a new instance of the player app as the Google Chromecast failed in the market due to remote display being laggy. At 7:30 in that video he starts talking about the features that are available when you have multiple Huawei devices, starting with the ability to move a Bluetooth pairing for earphones to a different device.
At 16:25 he shows what Huawei is doing to get apps going including allowing apk files to be downloaded and creating what they call “Quick Apps” which are instances of a web browser configured to just use one web site and make it look like a discrete app, we need something like this for FOSS phone distributions – does anyone know of a browser that’s good for it?
Another thing that we need is to have an easy way of transferring open web pages between systems. Chrome allows sending pages between systems but it’s proprietary, limited to Chrome only, and also takes an unreasonable amount of time. KDEConnect allows sharing clipboard contents which can be used to send URLs that can then be pasted into a browser, but the process of copy URL, send via KDEConnect, and paste into other device is unreasonably slow. The design of Chrome with a “Send to your devices” menu option from the tab bar is OK. But ideally we need a “Send to device” for all tabs of a window as well, we need it to run from free software and support using your own server not someone else’s server (AKA “the cloud”). Some of the KDEConnect functionality but using a server rather than direct connection over the same Wifi network (or LAN if bridged to Wifi) would be good.
What else do we need?
I recently had someone describe a Mac Mini as a “workstation”, which I strongly disagree with. The Wikipedia page for Workstation [1] says that it’s a type of computer designed for scientific or technical use, for a single user, and would commonly run a multi-user OS.
The Mac Mini runs a multi-user OS and is designed for a single user. The issue is whether it is for “scientific or technical use”. A Mac Mini is a nice little graphical system which could be used for CAD and other engineering work. But I believe that the low capabilities of the system and lack of expansion options make it less of a workstation.
The latest versions of the Mac Mini (to be officially launched next week) have up to 64G of RAM and up to 8T of storage. That is quite decent compute power for a small device. For comparison the HP ML 110 Gen9 workstation I’m currently using was released in 2021 and has 256G of RAM and has 4 * 3.5″ SAS bays so I could easily put a few 4TB NVMe devices and some hard drives larger than 10TB. The HP Z640 workstation I have was released in 2014 and has 128G of RAM and 4*2.5″ SATA drive bays and 2*3.5″ SATA drive bays. Previously I had a Dell PowerEdge T320 which was released in 2012 and had 96G of RAM and 8*3.5″ SAS bays.
In CPU and GPU power the recent Mac Minis will compare well to my latest workstations. But they compare poorly to workstations from as much as 12 years ago for RAM and storage. Which is more important depends on the task, if you have to do calculations on 80G of data with lots of scans through the entire data set then a system with 64G of RAM will perform very poorly and a system with 96G and a CPU less than half as fast will perform better. A Dell PowerEdge T320 from 2012 fully loaded with 192G of RAM will outperform a modern Mac Mini on many tasks due to this and the T420 supported up to 384G.
Another issue is generic expansion options. I expect a workstation to have a number of PCIe slots free for GPUs and other devices. The T320 I used to use had a PCIe power cable for a power hungry GPU and I think all the T320 and T420 models with high power PSUs supported that.
I think that a usable definition of a “workstation” is a system having a feature set that is typical of servers (ECC RAM, lots of storage for RAID, maybe hot-swap storage devices, maybe redundant PSUs, and lots of expansion options) while also being suitable for running on a desktop or under a desk. The Mac Mini is nice for running on a desk but that’s the only workstation criteria it fits. I think that ECC RAM should be a mandatory criteria and any system without it isn’t a workstation. That excludes most Apple hardware. The Mac Mini is more of a thin-client than a workstation.
My main workstation with ECC RAM could run 3 VMs that each have more RAM than the largest Mac Mini that will be sold next week.
If 32G of non-ECC RAM is considered enough for a “workstation” then you could get an Android phone that counts as a workstation – and it will probably cost less than a Mac Mini.
Dacid Brin wrote an interesting article about AI ecosystems and how humans might work with machines on creative projects [1]. Also he’s right about “influencers” being like funghi.
Cory Doctorow wrote an interesting post about DRM, coalitions, and cheating [2]. It seems that people like me who want “trusted computing” to secure their own computers don’t fit well in any of the coalitions.
The CHERI capability system for using extra hardware to validate jump addresses is an interesting advance in computer science [3]. The lecture is froim the seL4 Summit, this sort of advance in security goes well with a formally proven microkernel. I hope that this becomes a checkbox when ordering a custom RISC-V design.
Bunnie wrote an insightful blog post about how the Mossad might have gone about implementing the exploding pager attack [4]. I guess we will see a lot more of this in future, it seems easy to do.
Interesting blog post about Control Flow Integrity in the V8 engine of Chrome [5].
Interesting blog post about the new mseal() syscall which can be used by CFI among other things [6].
This is the Linux kernel documentation about the Control-flow Enforcement Technology (CET) Shadow Stack [7]. Unfortunately not enabled in Debian/Unstable yet.
ARM added support for Branch Target Identification in version 8.5 of the architecture [8].
The CEO of Automatic has taken his dispute with WPEngine to an epic level, this video catalogues it, I wonder what is wrong with him [9].
NuShell is an interesting development in shell technology which runs on Linux and Windows [10].
Interesting article about making a computer game without coding using ML [11]. I doubt that it would be a good game, but maybe educational for kids.
Krebs has an insightful article about location tracking by phones which is surprisingly accurate [12]. He has provided information on how to opt out of some of it on Android, but we need legislative action!
Interesting YouTube video about how to make a 20kW microwave oven and what it can do [13]. Don’t do this at home, or anywhere else!
The Void editor is an interesting project, a fork of VSCode that supports DIRECT connections to LLM systems where you don’t have their server acting as a middle-man and potentially snooping [14].
The Announcement
Late last month there was an announcement of a “severity 9.9 vulnerability” allowing remote code execution that affects “all GNU/Linux systems (plus others)” [1]. For something to affect all Linux systems that would have to be either a kernel issue or a sshd issue. The announcement included complaints about the lack of response of vendors and “And YES: I LOVE hyping the sh1t out of this stuff because apparently sensationalism is the only language that forces these people to fix”.
He seems to have a different experience to me of reporting bugs, I have had plenty of success getting bugs fixed without hyping them. I just report the bug, wait a while, and it gets fixed. I have reported potential security bugs without even bothering to try and prove that they were exploitable (any situation where you can make a program crash is potentially exploitable), I just report it and it gets fixed. I was very dubious about his ability to determine how serious a bug is and to accurately report it so this wasn’t a situation where I was waiting for it to be disclosed to discover if it affected me. I was quite confident that my systems wouldn’t be at any risk.
Analysis
Not All Linux Systems Run CUPS
When it was published my opinion was proven to be correct, it turned out to be a series of CUPS bugs [2]. To describe that as “all GNU/Linux systems (plus others)” seems like a vast overstatement, maybe a good thing to say if you want to be a TikTok influencer but not if you want to be known for computer security work.
For the Debian distribution the cups-browsed package (which seems to be the main exploitable one) is recommended by cups-daemon, as I have my Debian systems configured to not install recommended packages by default that means that it wasn’t installed on any of my systems. Also the vast majority of my systems don’t do printing and therefore don’t have any part of CUPS installed.
CUPS vs NAT
The next issue is that in Australia most home ISPs don’t have IPv6 enabled and CUPS doesn’t do the things needed to allow receiving connections from the outside world via NAT with IPv4. If inbound port 631 is blocked on both TCP and USP as is the default on Australian home Internet or if there is a correctly configured firewall in place then the network is safe from attack. There is a feature called uPnP port forwarding [3] to allow server programs to ask a router to send inbound connections to them, this is apparently usually turned off by default in router configuration. If it is enabled then there are Debian packages of software to manage this, the miniupnpc package has the client (which can request NAT changes on the router) [4]. That package is not installed on any of my systems and for my home network I don’t use a router that runs uPnP.
The only program I knowingly run that uses uPnP is Warzone2100 and as I don’t play network games that doesn’t happen. Also as an aside in version 4.4.2-1 of warzone2100 in Debian and Ubuntu I made it use Bubblewrap to run the game in a container. So a Remote Code Execution bug in Warzone 2100 won’t be an immediate win for an attacker (exploits via X11 or Wayland are another issue).
MAC Systems
Debian has had AppArmor enabled by default since Buster was released in 2019 [5]. There are claims that AppArmor will stop this exploit from doing anything bad.
To check SE Linux access I first use the “semanage fcontext” command to check the context of the binary, cupsd_exec_t means that the daemon runs as cupsd_t. Then I checked what file access is granted with the sesearch program, mostly just access to temporary files, cupsd config files, the faillog, the Kerberos cache files (not used on the Kerberos client systems I run), Samba run files (might be a possibility of exploiting something there), and the security_t used for interfacing with kernel security infrastructure. I then checked the access to the security class and found that it is permitted to check contexts and access-vectors – not access that can be harmful.
The next test was to use sesearch to discover what capabilities are granted, which unfortunately includes the sys_admin capability, that is a capability that allows many sysadmin tasks that could be harmful (I just checked the Fedora source and Fedora 42 has the same access). Whether the sys_admin capability can be used to do bad things with the limited access cupsd_t has to device nodes etc is not clear. But this access is undesirable.
So the SE Linux policy in Debian and Fedora will stop cupsd_t from writing SETUID programs that can be used by random users for root access and stop it from writing to /etc/shadow etc. But the sys_admin capability might allow it to do hostile things and I have already uploaded a changed policy to Debian/Unstable to remove that. The sys_rawio capability also looked concerning but it’s apparently needed to probe for USB printers and as the domain has no access to block devices it is otherwise harmless. Below are the commands I used to discover what the policy allows and the output from them.
# semanage fcontext -l|grep bin/cups-browsed
/usr/bin/cups-browsed regular file system_u:object_r:cupsd_exec_t:s0
# sesearch -A -s cupsd_t -c file -p write
allow cupsd_t cupsd_interface_t:file { append create execute execute_no_trans getattr ioctl link lock map open read rename setattr unlink write };
allow cupsd_t cupsd_lock_t:file { append create getattr ioctl link lock open read rename setattr unlink write };
allow cupsd_t cupsd_log_t:file { append create getattr ioctl link lock open read rename setattr unlink write };
allow cupsd_t cupsd_runtime_t:file { append create getattr ioctl link lock open read rename setattr unlink write };
allow cupsd_t cupsd_rw_etc_t:file { append create getattr ioctl link lock open read rename setattr unlink write };
allow cupsd_t cupsd_t:file { append create getattr ioctl link lock open read rename setattr unlink write };
allow cupsd_t cupsd_tmp_t:file { append create getattr ioctl link lock open read rename setattr unlink write };
allow cupsd_t faillog_t:file { append getattr ioctl lock open read write };
allow cupsd_t init_tmpfs_t:file { append getattr ioctl lock read write };
allow cupsd_t krb5_host_rcache_t:file { append create getattr ioctl link lock open read rename setattr unlink write }; [ allow_kerberos ]:True
allow cupsd_t print_spool_t:file { append create getattr ioctl link lock open read relabelfrom relabelto rename setattr unlink write };
allow cupsd_t samba_var_t:file { append getattr ioctl lock open read write };
allow cupsd_t security_t:file { append getattr ioctl lock open read write };
allow cupsd_t security_t:file { append getattr ioctl lock open read write }; [ allow_kerberos ]:True
allow cupsd_t usbfs_t:file { append getattr ioctl lock open read write };
# sesearch -A -s cupsd_t -c security
allow cupsd_t security_t:security check_context; [ allow_kerberos ]:True
allow cupsd_t security_t:security { check_context compute_av };
# sesearch -A -s cupsd_t -c capability
allow cupsd_t cupsd_t:capability net_bind_service; [ allow_ypbind ]:True
allow cupsd_t cupsd_t:capability { audit_write chown dac_override dac_read_search fowner fsetid ipc_lock kill net_bind_service setgid setuid sys_admin sys_rawio sys_resource sys_tty_config };
# sesearch -A -s cupsd_t -c capability2
allow cupsd_t cupsd_t:capability2 { block_suspend wake_alarm };
# sesearch -A -s cupsd_t -c blk_file
Conclusion
This is an example of how not to handle security issues. Some degree of promotion is acceptable but this is very excessive and will result in people not taking security announcements seriously in future. I wonder if this is even a good career move by the researcher in question, will enough people believe that they actually did something good in this that it outweighs the number of people who think it’s misleading at best?
In the past I haven’t had a high opinion of MG cars, decades ago they were small and expensive and didn’t seem to offer anything I wanted. As there’s a conveniently located MG dealer I decided to try out an MG electric car and see if they are any good. I brought two friends along who are also interested in new technology.
I went to the MG dealer without any preconceptions or much prior knowledge of the MG electric cars apart from having vaguely noticed that they were significantly cheaper than Teslas. I told the salesperson that I didn’t have a model in mind and I just wanted to see what MG offers, so they offered me a test driver of a “MG4 64 EXCITE”. The MG web site isn’t very good and doesn’t give an indication of what this model costs, my recollection is that it’s something like $40,000, the base model is advertised at $30,990. I’m not particularly interested in paying for extras above the base model and the only really desirable feature that the “Excite 64” offers over the “Excite 51” is the extra range (the numbers 51 and 64 represent the battery capacity in KWh). The base model has a claimed range of 350KM which is more than I drive in a typical week, generally there are only about 4 days a year when I need to drive more than 300KM in a day and on those rare days I can spend a bit of time at a charging station without much inconvenience.
The experience of driving an MG4 is not much different from other EVs I’ve driven, the difference between that and the Genesis GV60 (which was advertised at $117,000) [1] isn’t significant. The Genesis has some nice camera features giving views from all directions and showing a view of the side on the dash when you put your turn indicator on. Also some models of Genesis (not the one I test drove) have cameras instead of side mirrors. The MG4 lacks most of those cameras but has a very effective reversing camera which estimates the distance to an “obstacle” behind you in cm. Some of the MG electric cars have a sunroof or moonroof (sunroof that just opens to transparent glass not open to the air), the one I tested didn’t have them and I didn’t feel I was missing much. While a moonroof is a nice feature I probably won’t want to pay as much extra as they will demand for it.
The dash of the MG4 doesn’t have any simulation of the old fashioned dash unlike the Genesis GV60 which had a display in the same location as is traditionally used which displays analogue instruments (except when the turn indicators are on). The MG4 has two tablets, a big one in the middle of the front for controlling heating/cooling and probably other things like the radio and a small one visible through the steering wheel which has the instruments. I didn’t have to think about the instruments, they just did the job which is great.
For second hand cars I looked at AutoTrader which seems to be the only Australian site for second hand cars that allows specifying electric as a search criteria [2]. For the EVs advertised on that site the cheapest are around $13,000 for cars about 10 years old and $21,000 for a 5yo LEAF. If you could only afford to spend $21,000 on a car then a 5yo LEAF would definitely be better than nothing, but when comparing a 5yo car for $21,000 and a new car for $31,000 the new car is the obvious choice if you can afford it. There was an Australian company importing used LEAFs and other EVs and selling them over the web for low prices, if they were still around and still selling LEAFs for $15,000 then that would make LEAF vs MG3 a difficult decision for me. But with the current prices for second hand LEAFs the decision is easy.
When I enrolled for the test drive the dealer took my email address and sent me an automated message with details about the test drive and an email address to ask for more information. The email address they used bounced all mail, even from my gmail account. They had a contact form on their web site but that also doesn’t get a response. MG really should periodically test their dealer’s email addresses, they are probably losing sales because of this.
On the same day I visited a Hyundai dealer to see what they had to offer. A salesman there said that the cheapest Hyundai was $60,000 and suggested that I go elsewhere if I am prepared to buy a lesser car to save money. I don’t need to get negged by a car dealer and I really don’t think there’s much scope for a car to be significantly better than the MG3 while also not competing with the Genesis cars. Genesis is a Hyundai brand and their cars are very nice, but the prices are well outside the range I’m prepared to pay.
Next I have to try the BYD. From what I’ve heard they are mostly selling somewhat expensive cars in Australia (a colleague recently got one which was about $60,000 which he is extremely happy with) but hopefully they have some of the cheaper ones available too. I don’t want to flex on my neighbors, I just want a reliable and moderately comfortable car that doesn’t cost too much.
Hardware
I have just setup a PiKVM, here’s the Amazon link for the KVM hardware (case and Pi hat etc) and here’s an Amazon link for a Pi4 to match.
The PiKVM web site has good documentation [1] and they have a YouTube channel with videos showing how to assemble the devices [2]. It’s really convenient being able to change the playback speed from low speeds like 1/4 original speed) to double speed when watching such a video. One thing to note is that there are some revisions to the hardware that aren’t covered in the videos, the device I received had some improvements that made it easier to assemble which weren’t in the video.
When you buy the device and Pi you need to also get a SD card of at least 4G in size, a CR1220 battery for real-time clock, and a USB-2/3 to USB-C cable for keyboard/mouse MUST NOT BE USB-C to USB-C! When I first tried using it I used a USB-C to USB-C cable for keyboard and mouse and it didn’t work for reasons I don’t understand (I welcome comments with theories about this). You also need a micro-HDMI to HDMI cable to get video output if you want to set it up without having to find the IP address and ssh to it.
The system has a bright OLED display to show the IP address and some other information which is very handy.
The hardware is easy enough for a 12yo to setup. The construction of the parts are solid and well engineered with everything fitting together nicely. It has a PCI/PCIe slot adaptor for controlling power and sending LED status over the connection which I didn’t test. I definitely recommend this.
Software
This is the download link for the RaspberryPi images for the PiKVM [3]. The “v3” image matches the hardware from the Amazon link I provided.
The default username/password is root/root. Connect it to a HDMI monitor and USB keyboard to change the password etc. If you control the DHCP server you can find the IP address it’s using and ssh to it to change the password (it is configured to allow ssh as root with password authentication).
If you get the kit to assemble it (as opposed to buying a completed unit already assembled) then you need to run the following commands as root to enable the OLED display. This means that after assembling it you can’t get the IP address without plugging in a monitor with a micro-HDMI to HDMI cable or having access to the DHCP server logs.
rw
systemctl enable --now kvmd-oled kvmd-oled-reboot kvmd-oled-shutdown
systemctl enable --now kvmd-fan
ro
The default webadmin username/password is admin/admin.
To change the passwords run the following commands:
rw
kvmd-htpasswd set admin
passwd root
ro
It is configured to have the root filesystem mounted read-only which is something I thought had gone out of fashion decades ago. I don’t think that modern versions of the Ext3/4 drivers are going to corrupt your filesystem if you have it mounted read-write when you reboot.
By default it uses a self-signed SSL certificate so with a Chrome based browser you get an error when you connect where you have to select “advanced” and then tell it to proceed regardless. I presume you could use the DNS method of Certbot authentication to get a SSL certificate to use on an internal view of your DNS to make it work normally with SSL.
The web based software has all the features you expect from a KVM. It shows the screen in any resolution up to 1920*1080 and proxies keyboard and mouse. Strangely “lsusb” on the machine being managed only reports a single USB device entry for it which covers both keyboard and mouse.
Managing Computers
For a tower PC disconnect any regular monitor(s) and connect a HDMI port to the HDMI input on the KVM. Connect a regular USB port (not USB-C) to the “OTG” port on the KVM, then it should all just work.
For a laptop connect the HDMI port to the HDMI input on the KVM. Connect a regular USB port (not USB-C) to the “OTG” port on the KVM. Then boot it up and press Fn-F8 for Dell, Fn-F7 for Lenovo or whatever the vendor code is to switch display output to HDMI during the BIOS initialisation, then Linux will follow the BIOS and send all output to the HDMI port for the early stages of booting. Apparently Lenovo systems have the Fn key mapped in the BIOS so an external keyboard could be used to switch between display outputs, but the PiKVM software doesn’t appear to support that. For other systems (probably including the Dell laptops that interest me) the Fn key apparently can’t be simulated externally. So for using this to work on laptops in another city I need to have someone local press Fn-F8 at the right time to allow me to change BIOS settings.
It is possible to configure the Linux kernel to mirror display to external HDMI and an internal laptop screen. But this doesn’t seem useful to me as the use cases for this device don’t require that. If you are using it for a server that doesn’t have iDRAC/ILO or other management hardware there will be no other “monitor” and all the output will go through the only connected HDMI device. My main use for it in the near future will be for supporting remote laptops, when Linux has a problem on boot as an easier option than talking someone through Linux commands and for such use it will be a temporary thing and not something that is desired all the time.
For the gdm3 login program you can copy the .config/monitors.xml file from a GNOME user session to the gdm home directory to keep the monitor settings. This configuration option is decent for the case where a fixed set of monitors are used but not so great if your requirement is “display a login screen on anything that’s available”. Is there an xdm type program in Debian/Ubuntu that supports this by default or with easy reconfiguration?
Conclusion
The PiKVM is a well engineered and designed product that does what’s expected at a low price. There are lots of minor issues with using it which aren’t the fault of the developers but are due to historical decisions in the design of BIOS and Linux software. We need to change the Linux software in question and lobby hardware vendors for BIOS improvements.
The feature for connecting to an ATX PSU was unexpected and could be really handy for some people, it’s not something I have an immediate use for but is something I could possibly use in future. I like the way they shipped the hardware for it as part of the package giving the user choices about how they use it, many vendors would make it an optional extra that costs another $100. This gives the PiKVM more functionality than many devices that are much more expensive.
The web UI wasn’t as user friendly as it might have been, but it’s a lot better than iDRAC so I don’t have a serious complaint about it. It would be nice if there was an option for creating macros for keyboard scancodes so I could try and emulate the Fn options and keys for volume control on systems that support it.
I previously blogged about the difficulties in getting a good Wifi mesh network setup [1].
I bought the Kogan AX1800 Wifi6 Mesh with 3 nodes for $140, the price has now dropped to $130. It’s only Wifi 6 (not 6E which has the extra 6GHz frequency) because all the 6E ones were more expensive than I felt like paying.
I’ve got it running and it’s working really well. One of my laptops has a damaged wire connecting to it’s Wifi device which decreased the signal to a degree that I could usually only connect to wifi when in the computer room (and then walk with it to another room once connected). Now I can connect that laptop to wifi in any part of my home. I can now get decent wifi access in my car in front of my home which covers the important corner case of walking to my car and then immediately asking Google maps for directions. Previously my phone would be deciding whether to switch away from wifi due to poor signal and that would delay getting directions, now I get directions quickly on Google Maps.
I’ve done tests with the Speedtest.net Android app and now get speeds of about 52Mbit/17Mbit in all parts of my home which is limited only by the speed of my NBN connection (one of the many reasons for hating conservatives is giving us expensive slow Internet). As my main reason for buying the devices is for Internet access they have clearly met my reason for purchase and probably meet the requirements for most people as well. Getting that speed is not trivial, my neighbours have lots of Wifi APs and bandwidth is congested. My Kogan 4K Android TV now plays 4K Netflix without pausing even though it only supports 2.4GHz wifi, so having a wifi mesh node next to the TV seems to help it.
I did some tests with the Olive Tree FTP server on a Galaxy Note 9 phone running the stock Samsung Android and got over 10MByte (80Mbit) upload and 8Mbyte (64Mbit) download speeds. This might be limited by the Android app or might be limited by the older version of Android. But it still gives higher speeds than my home Internet connection and much higher speeds than I need from an Android device.
Running iperf on Linux laptops talking to a Linux workstation that’s wired to the main mesh node I get speeds of 27.5Mbit from an old laptop on 2.4GHz wifi, 398Mbit from a new Wifi5 laptop when near the main mesh node, and 91Mbit from the same laptop when at the far end of my home. So not as fast as I’d like but still acceptable speeds.
The claims about Wifi 6 vs Wifi 5 speeds are that 6 will be about 3* faster. That would be 20% faster than the Gigabit ethernet ports on the wifi nodes. So while 2.5Gbit ethernet on Wifi 6 APs would be a good feature to have it seems that it might provide a 20% benefit at some future time when I have laptops with Wifi 6. At this time all the devices with 2.5Gbit ethernet cost more than I wanted to pay so I’m happy with this. It will probably be quite a while before laptops with Wifi 6 are in the price range I feel like paying.
For Wifi 6E it seems that anything less than 2.5Gbit ethernet will be a significant bottleneck. But I expect that by the time I buy a Wifi 6E mesh they will all have 2.5Gbit ethernet as standard.
The configuration of this device was quite easy via the built in web pages, everything worked pretty much as I expected and I hardly had to look at the manual. The mesh nodes are supposed to connect to each other when you press hardware buttons but that didn’t work for me so I used the web admin page to tell them to connect which worked perfectly. The admin of this seemed to be about as good as it gets.
Conclusion
The performance of this mesh hardware is quite decent. I can’t know for sure if it’s good or bad because performance really depends on what interference there is. But using this means that for me the Internet connection is now the main bottleneck for all parts of my home and I think it’s quite likely that most people in Australia who buy it will find the same result.
So for everyone in Australia who doesn’t have fiber to their home this seems like an ideal set of mesh hardware. It’s cheap, easy to setup, has no cloud stuff to break your configuration, gives quite adequate speed, and generally just does the job.
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