I recently flashed GrapheneOS on a Pixel for a friend. I was very surprised that you can do this entire process from the browser using WebUSB - the only downside being that it required me to launch Chromium.
You can flash GrapheneOS on a Pixel from another pixel, no pc required at all. I've done it several times, this is what sold me on the utility of WebUSB. You can use GOS' own distribution of chromium, Vanadium, if you have a GOS device and you want to avoid Chrome.
Web USB and Web Bluetooth are amazing. I've used the former for the excellent Web MiniDisc [1], and the latter to flash custom firmware [2] on cheap Xiaomi Bluetooth LE thermometer/hygrometer devices that Home Assistant can pick up.
Truly opening new possibilities, since I wouldn't have been comfortable running some sketchy script or local binary.
Comments like this scare me. Things look amazing when people with benevolent intentions are making interesting things, but as soon as someone with malevolent intentions does something that becomes the reason we can't have nice things people will start asking if this is something we should have actually done.
I just have no faith in humanity, and do not understand why we think this is a good idea to give a browser this much access to local system resources.
Sorry to hear that. I thought this was a safe space for hackers to express enthusiasm about pushing their own hardware and software further (and in this case even in a comparatively safe way).
> I just have no faith in humanity, and do not understand why we think this is a good idea to give a browser this much access to local system resources.
The browser already has all that access, it's just further granting it to web apps, and on a page-by-page, device-by-device, explicitly user opt-in basis at that.
And as I've mentioned, the alternative here is to install a potentially untrusted native application that gets the same access and so much more.
If that's what the Github page tells users to do, many of them will just do it without thinking twice. Is that better?
What if we implement them but hide them deep in the settings or as experimental feature inside the hidden developer menu, behind multiple warning messages and password prompts? Only the very determined developers and advanced users would be able to unlock them. Then it safe enough?
I can ship a cross-platform application that accesses a hardware device without having to deal with all the platform specifics, and with decent sandboxing of my driver.
I think one way to make it more "secure" against unwitting users would be to only support WebUSB for devices that have a WebUSB descriptor - would allow "origin" checking.
Yep, I’ve bought a few thermal printers recently and webusb support (marketed as Chromebook support) was a major deciding factor. Thermal printers aren’t well supported by built in printer drivers, so it’s nice to not have to install some questionable driver software with access to my whole computer and instead have a sandboxed chrome extension with enumerated permissions. I’ve also poked around the extensions’ minified js source out of curiosity and as a basic security audit
It was also nice trying out some RTL-SDR apps as soon as I got it without having to figure out how to build and install the Debian packages from source first.
It drives me nuts every time I have to switch from Firefox to Chrome to use webusb or webserial.
Yep. FlipperZero, Android, now some random chinese handheld radio - just some of the things I didn't have to install some crap unsandboxed app to flash in the last 3 months. Absolutely revolutionary.
People are starting to ship even local apps only in the form of some html & js that only works on Chrome because only Chrome has webusb.
Whether we like the idea of the browser having access to usb or not, I at least like even less the idea of being forced to install and use Chrome for the same reasons as the bad old days of being forced to use IE.
Whether we like it or not, the distinction between an app and a web page has already eroded, and is, and only will be, eroding more.
Even for local apps it's starting to become common to ship the app in an interpreted language where the interpreter is a browser instead of say python & qt.
Looks to be a great proof of concept. No, running a standalone executable alongside the browser is not the way you'd want to do WebUSB. But it's great to see someone working on it.
Except the sandbox is a huge target already, and breaking it means any website can now access and mess with your usb devices. If you can develop an exploit for Chrome's WebUSB system, you potentially have millions upon millions of targets available.
Downloading an arbitrary executable can be made safe (via multiple avenues: trust, anti virus software, audits, artifact signing, reproducible builds, etc) and once the software is vetted, it exposes (or it should at least) little to no attack vector during daily use.
I felt that way too, but having used it a few devices as an end user I enjoy being able to close the browser and have the whole stack disappear. Instead of having to install a creepy Logitech tool to pair a mouse with a receiver, as soon as that task is done, goodbye Logitech. I guess a real concern is manufacturers stop offering native drivers, but for the majority of hardware the PnP or the Linux kernel just handle it.
Sounds like something that could have a standalone usb-driver-container or special chromium fork for the 0.00001% of users that need it instead of bloating every browser with yet another niche API and the inevitable security holes it will bring.
People are already doing that in the experimental embedded world, and let me tell you, it's pain. True and utter pain. You're going to fight different versions of libusb's userland being installed, Windows/macOS/Linux kernel occupying the device with a default driver (cough rtl_sdr) and a whole lot of other messes.
Or some things aren't even available made using libusb. Think control applications for RGB lights in keyboard and mice. There's a certain manufacturer all but mandating installation of its slopware. Being able to provide all of this as WebUSB has advantages.
Most device drivers nowadays aint necessary to solely get the device working, but to get it working well. All keyboards will work out of the box without any drivers/webusb-pages, but good luck configuring rapid triggers on your Wooting keyboard or a DPI-switching macro on your Logitech mouse without it.
everyone has a different threshold at which they would consider something 'untrustworthy'
Curious what your floor is for 'trustworthy', a company with a US headquarters? Personally I feel sketched out by any silicon not made in Sweden or Japan, so, pretty much all of it.
I'm not familiar with the Windows platform but although you can have userspace USB drivers on linux, you still need to be able to run code that can talk to the sysfs interface.
Anyway OS 2.0 descriptors are a custom USB descriptor that basically tells the device to use WinUSB as the driver. The burden then is in the application that will have to implement the read/writes to the endpoints instead of using higher level functions provided by the custom driver.
If you ever developed software with libUSB, using WinUSB on the windows side makes things super easy for cross platform development, and you don't have to go through all the pain to have a signed driver. Win-win in my book.
yes, you can always use some nasty protocol over HID for your devices. But really most of what i do is one or multiple bulk endpoints so i can achieve full bandwidth (downloading firmware, streaming data, ...)
OS2.0 made it possible to do it without having to write and sign a driver
How does the security of userspace drivers compare to having drivers within a sandboxed web environment with access to only the devices you’ve explicitly allowlisted?
It's about the same. People will blindly click allow on a webpage in the same way that they blindly run libusb binaries with `sudo` that they copied from some webpage. Security is possible in all of these scenarios, but always undermined by the users.
> What are the security implications this raises that downloading native programs (needed for example to flash my smartphone) doesn't raise?
1. Permission popups fatigue
2. Usually users select the apps they install, most sites are ephemeral. And yes, even with apps, especially on Android, people click through permission dialogs without looking because they are often too broad and confusing. With expected results such as exfiltrating user data.
And I'll just fire up a chrome instance which I specifically keep for when my daily driver firefox decides to spazz out and not implement basics in 2026 :'(
How do you make sure that technically illiterate people don't just click away the requestDevice() popup? IMHO a browser offering device level USB access is a security nightmare and there is no way this can ever be made safe and convenient at the same time.
I do not agree with Google on preventing apk installation. But unknown apk is a different risk profile than letting unknown entities to access local usb devices.
The main issue in the former case is that google is posing itself as a gatekeeper instead of following a repo model like Debian or FreeBSD. That’s wanting control over people’s device.
Allowing USB access is just asking to break the browser sandbox, by equating the browser with the operating system.
You simply don't. This quest of saving idiots from themselves is not gaining anyone anything and meanwhile other people get more and more useless restrictions.
I’d be ok with an about:config switch, but given that many people will install anything, paste arbitrary text into terminals, and share their password/pin code with complete strangers for almost no reason, I think we need to stop making our tools less powerful in pursuit of an impossible goal.
This is not just an isolated incident, it's the whole trend of limiting capabilities in the name of security and that's what I was referring to.
However in this particular case, even the security argument doesn't hold, either I:
a) know that I want to use USB - in that case I'll switch browsers or download a native binary (even more unsafe), it's not that I'd decide that I no longer want to flash my smartphone
b) I don't understand what's happening but I follow arbitrary instructions anyway - WebUSB changes nothing.
A native binary can be verified by anti malware systems, and once installed and working, poses no security risk.
A 0day in a browser for the WebUSB system would allow any website to mess with arbitrary USB devices connected to your computer.
While the browser sandbox is generally safe, it is also a huge target, and with a security risk like that, it wouldn't surprise me if it's a prime target for black hats.
Having WebUSB and WebBle everywhere would allow me to ship my IoT application via web only. That would be a win for my productivity, no more messing about with app store shenanigans.
As much as I understand the ease of deployment this brings people, it puts a massive amount of code between the device and the user. Will webusb software written today work in 5, 10, 15 years? Personally, I think webusb is a giant contraption.
And Web Serial reached mainline Firefox last week.
I hope Mozilla can eventually stop playing their silly role in the security theater of “but what if our users are dumb” and actually deliver those "power-user" features that would allow me to uninstall Chrome for good. Oh, and also, --app= flag please.
> their silly role in the security theater of “but what if our users are dumb”
It's not security theater. If you go to Chromium settings -> Site settings -> permissions, and expand "additional permissions", you will see a total of 26 different permissions, each gated by the same generic "you want to use this" popup.
Permission popup fatigue is quite real, and not a security theater. And that's on top of the usual questions of implementation complexity etc.
Truly opening new possibilities, since I wouldn't have been comfortable running some sketchy script or local binary.
[1] https://web.minidisc.wiki/ [2] https://github.com/pvvx/ATC_MiThermometer
Comments like this scare me. Things look amazing when people with benevolent intentions are making interesting things, but as soon as someone with malevolent intentions does something that becomes the reason we can't have nice things people will start asking if this is something we should have actually done.
I just have no faith in humanity, and do not understand why we think this is a good idea to give a browser this much access to local system resources.
Sorry to hear that. I thought this was a safe space for hackers to express enthusiasm about pushing their own hardware and software further (and in this case even in a comparatively safe way).
> I just have no faith in humanity, and do not understand why we think this is a good idea to give a browser this much access to local system resources.
The browser already has all that access, it's just further granting it to web apps, and on a page-by-page, device-by-device, explicitly user opt-in basis at that.
And as I've mentioned, the alternative here is to install a potentially untrusted native application that gets the same access and so much more.
If that's what the Github page tells users to do, many of them will just do it without thinking twice. Is that better?
I can ship a cross-platform application that accesses a hardware device without having to deal with all the platform specifics, and with decent sandboxing of my driver.
I think one way to make it more "secure" against unwitting users would be to only support WebUSB for devices that have a WebUSB descriptor - would allow "origin" checking.
It was also nice trying out some RTL-SDR apps as soon as I got it without having to figure out how to build and install the Debian packages from source first.
It drives me nuts every time I have to switch from Firefox to Chrome to use webusb or webserial.
Whether we like the idea of the browser having access to usb or not, I at least like even less the idea of being forced to install and use Chrome for the same reasons as the bad old days of being forced to use IE.
Even for local apps it's starting to become common to ship the app in an interpreted language where the interpreter is a browser instead of say python & qt.
Downloading an arbitrary executable can be made safe (via multiple avenues: trust, anti virus software, audits, artifact signing, reproducible builds, etc) and once the software is vetted, it exposes (or it should at least) little to no attack vector during daily use.
Right now that isn't the case and I can't remember last the time I had to uninstall untrustworthy native drivers.
A lot to lose, very little to gain?
Or some things aren't even available made using libusb. Think control applications for RGB lights in keyboard and mice. There's a certain manufacturer all but mandating installation of its slopware. Being able to provide all of this as WebUSB has advantages.
Curious what your floor is for 'trustworthy', a company with a US headquarters? Personally I feel sketched out by any silicon not made in Sweden or Japan, so, pretty much all of it.
(For the rare occurences that our customer is using 7 or earlier, we tell them to use zadig and be done with it.)
Hope every time you want to interface with a USB device.
but really most devices you want to interface to via webusb are CDC and DFU so.. problem solved?
Anyway OS 2.0 descriptors are a custom USB descriptor that basically tells the device to use WinUSB as the driver. The burden then is in the application that will have to implement the read/writes to the endpoints instead of using higher level functions provided by the custom driver.
If you ever developed software with libUSB, using WinUSB on the windows side makes things super easy for cross platform development, and you don't have to go through all the pain to have a signed driver. Win-win in my book.
1. Permission popups fatigue
2. Usually users select the apps they install, most sites are ephemeral. And yes, even with apps, especially on Android, people click through permission dialogs without looking because they are often too broad and confusing. With expected results such as exfiltrating user data.
The main issue in the former case is that google is posing itself as a gatekeeper instead of following a repo model like Debian or FreeBSD. That’s wanting control over people’s device.
Allowing USB access is just asking to break the browser sandbox, by equating the browser with the operating system.
"I know what I'm doing, and giving a random website access to my USB host is the right thing to do."
"I'm an idiot."
Maybe an about:config switch to enable it would be enough to stop casuals from pwning their peripherals.
How is not implementing a Draft spec, which may compromise security badly, breaking computing?
Overreacting much?
However in this particular case, even the security argument doesn't hold, either I:
a) know that I want to use USB - in that case I'll switch browsers or download a native binary (even more unsafe), it's not that I'd decide that I no longer want to flash my smartphone
b) I don't understand what's happening but I follow arbitrary instructions anyway - WebUSB changes nothing.
A 0day in a browser for the WebUSB system would allow any website to mess with arbitrary USB devices connected to your computer.
While the browser sandbox is generally safe, it is also a huge target, and with a security risk like that, it wouldn't surprise me if it's a prime target for black hats.
So maybe don't populate the browser with dozens of features requiring permission popups?
I hope Mozilla can eventually stop playing their silly role in the security theater of “but what if our users are dumb” and actually deliver those "power-user" features that would allow me to uninstall Chrome for good. Oh, and also, --app= flag please.
It's not security theater. If you go to Chromium settings -> Site settings -> permissions, and expand "additional permissions", you will see a total of 26 different permissions, each gated by the same generic "you want to use this" popup.
Permission popup fatigue is quite real, and not a security theater. And that's on top of the usual questions of implementation complexity etc.