Avast yanks the latest version of CCleaner following anger over privacy changes

Avast has pulled the latest version of PC optimization software CCleaner due to complaints about the way it handles users’ data.

Avast releases monthly updates for CCleaner, but version 5.45 of the free tool made it impossible to prevent anonymous usage reports being sent back to the company. Although the option still seemed to be present, it turned itself back on whenever the program was restarted.

The update also made it much more difficult to close CCleaner. Rather than stopping completely when users closed the window, the program remained running in the background and could only be terminated using the Task Manager.

Edit, undo

After protests from its users, Avast pledged to reverse some of these changes, but it has now capitulated and rolled back to version 5.44 instead.

“Thank you all for your continued feedback (positive and negative, it all helps),” said a company spokesperson on the software’s forums.

“I wanted to give a quick progress update on what we’re doing. We’re currently working on separating out cleaning functionality from analytics reporting and offering more user control options which will be remembered when CCleaner is closed. We’re also creating a factsheet to share which will outline the data we collect, for which purposes and how it is processed.

“Today we have removed v5.45 and reverted to v5.44 as the main download for CCleaner while we work on a new version with several key improvements.”

It’s not the first time CCleaner has run into trouble since its acquisition by security software giant Avast last year. In September, the optimization software was struck by a nasty malware infection that connected to a remote server, allowing third parties to run code on a compromised PC.

  • Keep your PC running smoothly with the best free PC optimization software

Via IT Pro

Gaming-focused Honor Play launched in India at Rs 19,999

Honor launched their new gaming-centric smartphone, the Honor Play in India. It was first launched in June in China along with Huawei’s GPU Turbo technology. 

The smartphone is Amazon exclusive and is priced at Rs 19,999 for 4GB RAM version and Rs 23,999 for 6GB RAM verspion. 

The key feature of the phone includes the Kirin 970 flagship chipset and an immersive 19.5:9 display. To enhance the gaming experience, Honor has introduced their GPU Turbo technology that is said to increase the performance by 60% while reducing battery consumption by up to 30%. There’s also an AI-based shopping experience called Hi Touch, which lets users take photographs of products to look and buy them via Amazon. 

The Honor Play runs Android 8.1 Oreo with Huawei’s own EMUI 8.2 on top. As mentioned, it has the company’s high-end chipset Kirin 970, with either 4GB or 6GB of RAM. 

The phone has a dual camera setup on the back, consisting of a 16MP primary sensor with f/2.2 aperture and a 2MP secondary camera with f/2.4 aperture. On the front, it has a 16Mp sensor with an f/2.0 aperture. 

The dual-SIM phone also offers support for microSD card for storage expansion up to 256GB via hybrid slot.

In this price range, there’s hardly any competition lying in front. Most phones like Redmi Note 5 Pro, and Asus Zenfone Max Pro M1 are comparatively cheaper than this. The closest in terms of price is its own sibling Huawei P20 Lite and Nova 3i.

It will go on sale from today onwards on Amazon India website and HiHonorStore. It will be available in Midnight Black and Navy Blue colour options. The Honor Play launch offers on Amazon India include a bundled Vodafone offer that will provide 10GB of data additional per month for a year, along with an Amazon Prime subscription, and more.

  • Huawei / Honor GPU Turbo update: what is it, what does it do, when can you get it?

Android through the ages: from Cupcake to P and everything in between

Android was announced more than a decade ago, on November 5, 2007. Since that initial announcement, the mobile platform has come a long, long way.

Android has the largest install base of any operating system, mobile or desktop. And it’s not just in phones and tablets: smart TVs, cars, smartwatches and smart home devices are all powered by the little green man.

From the original beta to Android P through Android Froyo, Lollipop, Marshmallow and more, we track Android’s rise from unlikely start to acquisition by Google and today’s dominance.

  • 10 years of Android: 10 times it wowed the world

In October 2003 Android, Inc was founded by Andy Rubin, Rich Miner, Nick Sears and Chris White. Its aim was to create an advanced operating system for digital cameras, turning them in to “smarter mobile devices that are more aware of its owner’s location and preferences,” according to Rubin.

It soon became apparent that there wasn’t much of a market for that, so Android, Inc. turned its attention to smartphones in a bid to rival mobile operating systems Symbian and Windows mobile.

After a shaky start, where funding became an issue, Android, Inc was acquired by Google on August 17 2005, and a number of Android, Inc. employees stayed on. 

A team led by Rubin began work on a mobile device operating system based on the Linux kernel. The green Android logo was designed by Irina Blok, and the beta version was released on November 5, 2007.

Android 1.0, the first commercial version of Android, was released on September 23, 2008, with the first commercially available Android device being the HTC Dream.

Even though it was the first official release, Android 1.0 brought a number of features that we’ve come to rely on, including a web browser, camera support, Gmail synchronisation with the Gmail app, YouTube video player, Google Maps, Contacts and Calendar synchronisation as well.

Applications could be downloaded through the Android Market and launched from the Home screen. An update, Android 1.1, was released on February 9, 2009, adding a few new features and fixing a range of bugs.

The Android 1.5 update was launched on April 27, 2009, and it is notable for being the first Android release to have a code name based on a dessert – something that has since become a trademark. Each new version since also gets a dessert-inspired statue erected on the lawn of Google’s headquarters in Mountain View, California.

But why the dessert names? According to Randall Sarafa, a Google spokesperson who talked to CNN: “It’s kind of like an internal team thing, and we prefer to be a little bit – how should I say – a bit inscrutable in the matter. The obvious thing is that, yeah, the Android platform releases, they go by dessert names and by alphabetical order for the most part.”

With Android 1.5 Cupcake new features were introduced such as widgets, which were small versions of apps that can be viewed from the home screen. Android 1.5-equipped smartphones could also record video in MPEG-4 format, Bluetooth devices could auto pair and stream stereo audio, and user pictures could be added to favourite contacts.

Android 1.6 Donut was released on September 15, 2009. Android looked better than ever thanks to support for WVGA (780 x 480) resolution screens, and apps such as Gallery and Camera were better integrated, letting you take photos and then view them quickly and easily.

Voice and text search was also improved to include bookmarks, history, contacts and content from the internet, and app developers were able to include their content in the search results. This meant that Android 1.6 Donut felt like the most coherent version of Android so far.

On October 26 we got our third major Android release of 2009 with Android 2.0 Éclair. This important update included Microsoft Exchange email support, along with the ability to browse emails from a number of different accounts in the same inbox.

Text messages were also improved, allowing users to search all of their saved SMS and MMS messages, and typing speed was improved on the virtual keyboard.

The camera app got additional features as well, including flash support, digital zoom scene modes, colour effects and macro focus mode.

Android 2.0.1 was released on December 3, 2009, and Android 2.1 followed on January 12, 2010, both bringing minor improvements and bug fixes.

Android 2.2 Froyo hit devices on May 20, 2010. “Froyo” is frozen yoghurt, in case you were worried Google had confused desserts with annoying children’s toys .

This update included a number of speed and performance optimisations. USB tethering and Wi-Fi hotspot functionality, now commonplace on smartphones, were brought in with Android 2.2. 

You could also prevent your device from downloading data over your mobile network, which was helpful for keeping your phone bill under control, and you could create passwords using both numbers and letters for additional security.

The Market application was also improved to allow batch and automatic updates of the apps you’ve installed, and high PPI (Pixel Per Inch) screens were supported for better image quality.

Android Froyo is now so sparsely used though, Google doesn’t consider it worth supporting anymore. Under 0.1% of people are using Android Froyo anymore.

Android 2.3 Gingerbread was released on December 6, 2010 with an updated user interface that prioritised ease of use and speed. The onscreen keyboard was also overhauled for more intuitive text input and improved accuracy.

Near Field Communication (NFC) was included for the first time, and the new Download Manager made keeping track of files you downloaded from the internet or your emails easier than ever.

Native support for gyroscopes, barometers and other sensors meant your Android device could now feature advanced apps that accurately track your location, movement and activity.

On February 22, 2011 Google launched its first tablet-only Android update: Android 3.0 Honeycomb, and two days later the first device to have the update preinstalled, the Motorola Xoom, was released.

As Android 3.0 Honeycomb was a strictly tablet-focused release, a new “holographic” user interface was ushered in with the update. The System Bar brought notifications and the soft navigation buttons to the bottom of the screen. These navigation buttons, which include the Back, Home and Recent Applications icons, have become a common sight on Android devices, and allowed phone and tablet manufacturers to make completely button-free devices.

The bottom of the screen wasn’t getting all the love, however, with the Action Bar being brought to the top of the screen, offering contextual options, navigation and widgets.

Other improvements to the user interface included multiple browser tabs, an “incognito” mode for anonymous browsing, and advanced views for contacts and emails.

Multicore processors were supported for the first time as well, ushering a new generation of powerful Android devices.

Android 3.1 launched on May 10 2011 and brought USB connectivity for accessories, FLAC audio playback and resizeable Home screen widgets. A further update, Android 3.2, included support for Google TV.

Android 4.0 Ice Cream Sandwich released on October 18 2011 and was promised to be compatible with any device that was running Android 2.3 or later. The Holo interface was given a major revamp, and a brand new typeface, Roboto, was brought in as the default system font for Android.

Folders were overhauled to be easier to create using drag and drop commands, apps could be accessed from the lock screen, the camera app was improved and now supported 1080p video recording, and the web browser could now synchronise with user’s Chrome bookmarks.

Face Unlock, which uses facial recognition to unlock devices, was also included, though even now many of us wonder why Google bothered.

On July 9 2012, Android 4.1 Jelly Bean was released, and the main aim of the update was to improve the user interface in both performance and features. Special attention was lavished on the graphics side of the operating system, including technology that would ensure the interface would run at 60 frames per second to make it feel smooth and responsive.

Sound was also improved with multi channel audio support, USB audio and gapless playback. Third party app launchers were also given better support, allowing users to tailor their Android experience.

Android 4.2 followed on November 13, 2012, which brought widget support to the lock screen and allowed you to swipe to directly launch the camera app. Quick Settings was added to the top power controls menu, Daydream screensavers were included and multiple user accounts were now supported on tablets.

Android 4.3 was released on July 24, 2013, and included a number of new features including Open GL ES 3.0 support for improved graphics in games, Bluetooth low energy features, right-to-left language support and compatibility with 4K screens.

For a while Google was expected to go with the codename Key Lime Pie, however on October 31, 2013, Android 4.4 was released with the more identifiable KitKat moniker, and the first device to run it was the Nexus 5, which was released on the same day.

A number of tweaks were made to give the interface a fresh look, but it wasn’t all about aesthetics. A new “immersive mode” was also included, which allowed apps to hide the onscreen buttons and status bar when they’re not needed, giving the apps use of the full screen. If you needed the buttons at any time you could swipe down from the top of the screen or up from the bottom to bring them back.

NFC host card emulation was another new feature, and although it doesn’t sound particularly exciting, it meant that a device running Android 4.4 could emulate an NFC card and talk to NFC readers, allowing you to use your device to pay for goods, and make use of other contactless features.

You can read our review of Android 4.4 KitKat to see what we made of all the new features.

Announced: March 2014 | Released (on devices): June 2014

On March 18, 2014 Android Wear, a version of Android specifically designed for smartwatches and wearables, was released.

Android Wear uses Google Now and mobile notifications to bring important information to wearable tech, though you need to pair it with a smartphone running Android 4.3 or later to get the full experience.

The first Android Wear devices, the Samsung Gear Live and the LG G Watch, were launched on June 25, 2014, with the Moto 360 coming later on September 5, 2014.

Android Wear has been a big hit, with estimates that over 720,000 Android Wear smartwatches were shipped in the six months after its launch.

On December 10, 2014, an update was released that added the ability to create and install custom watch faces, and updated the software to Android 5.0 Lollipop.

Announced: June 2014 | Released: November 2014

Android 5.0 Lollipop, was first announced on June 25, 2014, during the Google I/O conference, and became officially available on November 12, 2014.

Once again the interface received a major overhaul, this time getting the flat and minimalist “material design” theme. Notifications were also tweaked and could now be seen on the lockscreen – though the ability to view widgets when the handset is locked was removed.

The results of Project Volta were included to help improve battery life for devices running Android 5.0, third party apps were again allowed access to data stored on SD cards, and a new smart lock feature allowed you to easily lock and unlock your device in certain situations and locations.

Version 5.1 followed on March 9, 2015, giving users the ability to make high definition voice calls between Android 5.1-toting devices, multiple SIM card support, Wi-Fi and Bluetooth settings including in the quick settings menu and improved device protection.

  • Android 5.0 Lollipop is currently still being rolled out to devices, so if you’re waiting to upgrade check out our regularly updated article on when you can expect to get the latest version of Android.

Announced: June 2014 | Released: November 2014

Android Auto isn’t strictly an operating system in its own right, rather it relies on a physical connection to an Android smartphone to project a simplified interface onto a car’s internal display.

Providing a car-friendly interface which works with steering wheel mounted controls is nice, plus Android Auto allows you to utilize apps such as Maps for navigation and Spotify for seamless music streaming.

In terms of functionality, Android Auto hasn’t developed at the pace we hoped when it was launched back in 2014, and today the app selection is still rather limited.

  • Android Auto: Google’s head unit for cars explained

Announced: May 2015 | Released: October 2015

Android 6 Marshmallow was officially unveiled in May 2015 at the Google I/O conference, but it became available for a number of devices in October of the same year.

The update brought with it a feature called Now on Tap to provide contextual search results using your search history to make them more relevant. It also had a great power management system update for when you’re not fiddling with the phone.

It allowed for Adoptable Storage for the first time, which means you can use your microSD card but your phone will treat it like internal storage instead.

Marshmallow also allowed for better fingerprint recognition tech and USB Type-C connectors for the very time. It now means most Android manufacturers are now adopting the reversible charging technology.

Announced: March 2016 | Released: August 2016

Android Nougat was released as a beta very early (March 2016) compared to previous software releases, but it officially landed in August 2016.

Differences between Nougat and Marshmallow are quite minimal, but the update does bring with it split-screen mode on Android devices for the very first time.

That’s particularly useful for the Google Pixel C, but also works on phone devices as well for when you want to use two apps side-by-side.

Nougat also allows for inline replies to notifications so you won’t need to open up your Messenger app to be able to send a quick reply back to your friends.

Announced: March 2017 | Released: August 2017

The latest version of Android takes its name from another popular snack, the infamous Oreo.

Originally announced back in March 2017 as Android O (or Android 8, if you prefer the numerical naming regime) it wasn’t until August 21, 2017 when the Android Oreo name was confirmed.

On the same date Google pushed out the final build of its new platform to devices signed up to its Beta program, which included the Pixel, Pixel XL and Nexus 6P.

  • Everything you need to know about Android Oreo

Announced: March 2018 | Launched: TBC

Android P is the next major software upgrade for Google’s expanding operating system, and its beta is already available on a number of handsets.

We’re yet to learn the sweet-treat name Google will apply to this Android 9 update, but rumors online are pointing to the likes of Pistachio, Pecan Pie and Pez.

The Android P update brings with it a number of new features including adaptive battery, adaptive brightness, app actions and app slices.

  • How to download the Android P beta right now
  • Android P: everything you need to know

The Google Camera app is coming to some Chromebooks

The camera app that Google puts on its Pixel phones is one of the best in the business, and now it looks like that same Google camera app is heading to Chrome OS too – it’s appeared in the developer channel of the software for the Pixelbook and may well start showing up on other Chromebooks as well.

That would significantly improve the photo-taking capabilities of supported Chrome OS devices, and maybe even introduce extra features like a slow-motion video mode and the ability to launch the smart Google Lens mode from within the camera app.

Now you probably don’t want to be taking too many photos with your laptop, but as Chrome OS starts showing up on more tablets and 2-in-1 devices, a decent camera app becomes more important. Most new Chromebooks include support for Android apps too, which is another reason to roll out the Google Camera app.

New app, better photos

A shortcut to the new camera app was spotted alongside the old camera app by some users running the dev channel of Chrome OS on their devices. For the time being, the new app only seems to launch properly on the Pixelbook, so there’s still work to do.

Among the features available in the Google Camera app are support for HDR images, a portrait mode, and Motion Photos (where a little snippet of video is taken with each picture). Whether or not some or all of these features will make it over remains to be seen, but better photos should be the end result.

Based on some digging into the Chrome OS code, it looks as though the new camera will eventually show up for all Chromebooks that can run Android apps. At the time of writing though, Google hasn’t said anything officially about the switch.

  • These are the best Chromebooks that money can buy

Via Android Police