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Looking for thrills, laughs, and captivating stories this February? Netflix is rolling out a fresh new batch of…

20 Mar 2026 7:00am GMT

Get the latest Dice Dreams free rolls links, updated daily! Complete with a guide on how to redeem the links.

20 Mar 2026 3:29am GMT

Look no further for all the latest Boba Story Lid Recipes. They are all right here!

20 Mar 2026 3:18am GMT

Android proves you don't have to choose between an open ecosystem and a secure one. Since announcing updated verification requirements, we've worked with the community to ensure these protections are robust yet respectful of platform freedom. We've heard from power users that they want to take educated risks to install software from unverified developers. Today, we're sharing details on a new advanced flow that provides this option.

Advanced flow safeguards against coercion

This flow is a one-time process for power users - but it was designed carefully to prevent those in the midst of a scam attempt from being coerced by high pressure tactics to install malicious software. In these scenarios, scammers exploit fear - using threats of financial ruin, legal trouble, or harm to a loved one - to create a sense of extreme urgency. They stay on the phone with victims, coaching them to bypass security warnings and disable security settings before the victim has a chance to think or seek help. According to a 2025 report from the Global Anti-Scam Alliance (GASA), 57% of surveyed adults experienced a scam in the past year, resulting in a global consumer loss of $442 billion. Because the consequences of these scams that use sophisticated social engineering tactics are so severe, we have carefully engineered the advanced flow to provide the critical time and space needed to break the cycle of coercion.

How the advanced flow works for users

• Enable developer mode in system settings: Activating this is simple. This prevents accidental triggers or "one-tap" bypasses often used in high-pressure scams.

• Confirm you aren't being coached: There is a quick check to make sure that no one is talking you into turning off your security. While power users know how to vet apps, scammers often pressure victims into disabling protections.

• Restart your phone and reauthenticate: This cuts off any remote access or active phone calls a scammer might be using to watch what you're doing.

• Come back after the protective waiting period and verify: There is a one-time, one-day wait and then you can confirm that this is really you who's making this change with our biometric authentication (fingerprint or face unlock) or device PIN. Scammers rely on manufactured urgency, so this breaks their spell and gives you time to think.

• Install apps: Once you confirm you understand the risks, you're all set to install apps from unverified developers, with the option of enabling for 7 days or indefinitely. For safety, you'll still see a warning that the app is from an unverified developer, but you can just tap "Install Anyway."

A secure Android for every developer

We know a "one size fits all" approach doesn't work for our diverse ecosystem. We want to ensure that identity verification isn't a barrier to entry, so we're providing different paths to fit your specific needs.

In addition to the advanced flow we're building free, limited distribution accounts for students and hobbyists. This allows you to share apps with a small group (up to 20 devices) without needing to provide a government-issued ID or pay a registration fee. This ensures Android remains an open platform for learning and experimentation while maintaining robust protections for the broader community.

Limited distribution accounts and advanced flow for users will be available in August before the new developer verification requirements take effect.

Visit our website for more details. We look forward to sharing more in the coming days and weeks.

19 Mar 2026 2:00pm GMT

We're thrilled to announce major updates to our design resources, giving you the comprehensive guidance you need to create polished, adaptive Android apps across all form factors! We now have Desktop Experience guidance and a refreshed Android Design Gallery.

New Desktop Experience Design Guidance

Your users are engaging with Android apps on more diverse devices than ever before-from phones and foldables to laptops and external monitors. A "desktop experience" occurs anytime your app is in a desktop-like mode, typically involving a non-touch input device like a keyboard or mouse, or another display such as a monitor (read more in the connected display announcement). This means designing for larger screens and accommodating additional input states. These new design experiences are meant to maximize productivity for your users with higher information density, multi-tasking capabilities.

Dive into desktop experience guidance to help optimize your app with desktop design principles, input interaction guidance, and system UI considerations.

The new guidance includes foundational guides where you can learn design principles that make desktop experiences unique, such as how multitasking is at the core of desktop experiences.

When your app is in a desktop experience, keep in mind crucial interaction experiences, such as how to best design around unique input interactions, like choosing cursors from system provided cursors.

For specialized actions not covered by system icons, consider creating a custom cursor icon, while ensuring it remains easy for users to find on the page.

A desktop experience brings more multitasking features, like windowing, so expect your app to take on a variety of dimensions with a header bar.

Want to get started quickly? Check out the walkthrough to go from mobile to desktop and design along with the updated Adaptive Design lab.

16 Mar 2026 5:00pm GMT

The first alpha of Room 3.0 has been released! Room 3.0 is a major breaking version of the library that focuses on Kotlin Multiplatform (KMP) and adds support for JavaScript and WebAssembly (WASM) on top of the existing Android, iOS and JVM desktop support.

In this blog we outline the breaking changes, the reasoning behind Room 3.0, and the various things you can do to migrate from Room 2.0.

13 Mar 2026 5:00pm GMT

I've mentioned some of my various retronetworking projects in some past blog posts. One of those projects is Osmocom Community TDM over IP (OCTOI). During the past 5 or so months, we have been using a number of GPS-synchronized open source icE1usb interconnected by a new, efficient but strill transparent TDMoIP protocol in order to run a distributed TDM/PDH network. This network is currently only used to provide ISDN services to retronetworking enthusiasts, but other uses like frame relay have also been validated.

So far, the central hub of this OCTOI network has been operating in the basement of my home, behind a consumer-grade DOCSIS cable modem connection. Given that TDMoIP is relatively sensitive to packet loss, this has been sub-optimal.

Luckily some of my old friends at noris.net have agreed to host a new OCTOI hub free of charge in one of their ultra-reliable co-location data centres. I'm already hosting some other machines there for 20+ years, and noris.net is a good fit given that they were - in their early days as an ISP - the driving force in the early 90s behind one of the Linux kernel ISDN stracks called u-isdn. So after many decades, ISDN returns to them in a very different way.

Side note: In case you're curious, a reconstructed partial release history of the u-isdn code can be found on gitea.osmocom.org

But I digress. So today, there was the installation of this new OCTOI hub setup. It has been prepared for several weeks in advance, and the hub contains two circuit boards designed entirely only for this use case. The most difficult challenge was the fact that this data centre has no existing GPS RF distribution, and the roof is ~ 100m of CAT5 cable (no fiber!) away from the roof. So we faced the challenge of passing the 1PPS (1 pulse per second) signal reliably through several steps of lightning/over-voltage protection into the icE1usb whose internal GPS-DO serves as a grandmaster clock for the TDM network.

The equipment deployed in this installation currently contains:

• a rather beefy Supermicro 2U server with EPYC 7113P CPU and 4x PCIe, two of which are populated with Digium TE820 cards resulting in a total of 16 E1 ports

• an icE1usb with RS422 interface board connected via 100m RS422 to an Ericsson GPS03 receiver. There's two layers of of over-voltage protection on the RS422 (each with gas discharge tubes and TVS) and two stages of over-voltage protection in the coaxial cable between antenna and GPS receiver.

• a Livingston Portmaster3 RAS server

• a Cisco AS5400 RAS server

For more details, see this wiki page and this ticket

Now that the physical deployment has been made, the next steps will be to migrate all the TDMoIP links from the existing user base over to the new hub. We hope the reliability and performance will be much better than behind DOCSIS.

In any case, this new setup for sure has a lot of capacity to connect many more more users to this network. At this point we can still only offer E1 PRI interfaces. I expect that at some point during the coming winter the project for remote TDMoIP BRI (S/T, S0-Bus) connectivity will become available.

18 Sep 2022 10:00pm GMT

Almost one year after my post regarding first steps towards a V5 implementation, some friends and I were finally able to visit Wobcom, a small German city carrier and pick up a lot of decommissioned POTS/ISDN/PDH/SDH equipment, primarily V5 access networks.

This means that a number of retronetworking enthusiasts now have a chance to play with Siemens Fastlink, Nokia EKSOS and DeTeWe ALIAN access networks/multiplexers.

My primary interest is in Nokia EKSOS, which looks like an rather easy, low-complexity target. As one of the first steps, I took PCB photographs of the various modules/cards in the shelf, take note of the main chip designations and started to search for the related data sheets.

The results can be found in the Osmocom retronetworking wiki, with https://osmocom.org/projects/retronetworking/wiki/Nokia_EKSOS being the main entry page, and sub-pages about

• Node Control Unit

• 16x BRI Uk0 Line Card

• 32x POTS Line Card

• Line Measurement Unit

• Shelf

In short: Unsurprisingly, a lot of Infineon analog and digital ICs for the POTS and ISDN ports, as well as a number of Motorola M68k based QUICC32 microprocessors and several unknown ASICs.

So with V5 hardware at my disposal, I've slowly re-started my efforts to implement the LE (local exchange) side of the V5 protocol stack, with the goal of eventually being able to interface those V5 AN with the Osmocom Community TDM over IP network. Once that is in place, we should also be able to offer real ISDN Uk0 (BRI) and POTS lines at retrocomputing events or hacker camps in the coming years.

08 Sep 2022 10:00pm GMT

If you have ever worked with Digium (now part of Sangoma) digital telephony interface cards such as the TE110/410/420/820 (single to octal E1/T1/J1 PRI cards), you will probably have seen that they always have a timing connector, where the timing information can be passed from one card to another.

In PDH/ISDN (or even SDH) networks, it is very important to have a synchronized clock across the network. If the clocks are drifting, there will be underruns or overruns, with associated phase jumps that are particularly dangerous when analog modem calls are transported.

In traditional ISDN use cases, the clock is always provided by the network operator, and any customer/user side equipment is expected to synchronize to that clock.

So this Digium timing cable is needed in applications where you have more PRI lines than possible with one card, but only a subset of your lines (spans) are connected to the public operator. The timing cable should make sure that the clock received on one port from the public operator should be used as transmit bit-clock on all of the other ports, no matter on which card.

Unfortunately this decades-old Digium timing cable approach seems to suffer from some problems.

08 Sep 2022 10:00pm GMT