Apple Apfs Media

Apple Apfs Media

февраля 10 2021

Apple Apfs Media

Apple File System (APFS) is a new file system for macOS, iOS, and Apple devices. If you work on a Windows-based computer and want to read and write files on APFS-formatted HDD, SSD or flash drive, you need APFS for Windows by Paragon Software.

Format: Choose APFS or Mac OS Extended (Journaled). Disk Utility shows a compatible format by default. If you see an Erase Volume Group button, the volume you selected is part of a volume group. In that case, you should erase the volume group. Otherwise, click Erase to erase just the selected volume. You might be asked to enter your Apple ID.

Apple File System (APFS) for macOS was officially released in High Sierra, September 2017, and it still is a popular topic. This article is only meant to provide a short answer to a common question. We highly recommend that forensic examiners attend the Apple Forensic Investigations course to learn in more depth how to acquire and examine APFS. We have released MacDrive 10.5 APFS (Beta), which features beta read support for disks using Apple’s new APFS file system. MacDrive is seamless. Access Mac disks like any other disk. Simple and easy to use, MacDrive is recognized as the leader for. In 2017, Apple changed the default filesystem on their macOS (High Sierra and above) to APFS, he Apple File System. It replaced HFS+. It works on a principle of using containers, rather than partitions. It has good cloning efficiencies, better encrytion, snapshot support as well as a few other benefits. Proprietary prattle As all things. Although Apple has released APFS file sysem several month, but up to now, there are a few software which can support APFS data recovery in market due to technical difficulty, M3 Data Recovery for Mac is such a APFS data recovery software which can undelete files from APFS drive, recover lost data from formatted, corrupted, unreadable.

  • New! Supports APFS volumes created in macOS 10.15 Catalina
  • New! Detects volumes encrypted by FileVault

The license installs on 3 PCs so you can boost your home setup or make a nice gift to family and friends.

Stable Operation

What is apfs

Fail-safe operability across compatible hardware and software systems for both general-purpose and specialized applications

Data Safety

Protection of data integrity and prevention of accidental data corruption and possible loss

Guaranteed Performance

Steady throughput and balanced goodput with effective flow control, reduced overheads, and congestion avoidance

Efficient Use

Thrifty usage of processor, memory, and disk resources

Native look and feel

How it Works

Install

Download and install APFS for Windows by Paragon Software

Use

Your drive will show up in Explorer

  • Useful tray
  • You can view, edit and copy files to another volume

Features

Apple Apfs Media Uninitialized

Supported Operating Systems
  • Windows 10 (32/64-bit)
  • Windows 8/8.1 (32/64-bit)
  • Windows 7 SP1 (32/64-bit)
  • Windows Server 2008 R2 SP1 (64-bit)
  • Windows Server 2012 (64-bit)
  • Windows Server 2016 (64-bit)
Supported File Systems
APFS (read-write)
Read-write access
When volumes are mounted in the Write mode, you get full access to an APFS volume with the options to edit files, create new files or delete existing files. By using the Write functionality, you accept the terms of this Evaluation Agreement.
Automount
Mounts supported volumes automatically at startup, so you don’t need to bother about it each time you restart the operating system or power your computer on. However, this feature can be disabled at any moment in the program interface.
Internationalization
Supports all character sets supported by your operating systems, including those that use non-Roman characters, so you will never face a problem of not getting access to file names on volumes mounted in non-native OS.
Support for APFS cloned files
Our driver provides limited read-only support for APFS cloned files. You can read, copy and rename this type of files, but not write, modify, create or delete. Find more information about APFS cloned files at https://developer.apple.com/.
Support for compressed files
There are several compression methods in APFS. Our driver supports all of them, except for one that is used for compressing specific system files, e.g. those stored in /.DocumentRevisions-V100/. You can open these files in macOS only.
Support for APFS containers
Our driver can only work with APFS containers residing on a single physical store, other configurations are not yet supported.
Support for APFS-snapshot enabled volumes
APFS volumes that contain snapshots are automatically detected and mounted in read-only mode.

Frequently Asked Questions

What operations can I do with files?
You can view, edit and copy data from storages formatted to APFS.
Is HFS+ supported in this product?
No. If you need to read and write files from HFS+ volumes, download HFS+ for Windows by Paragon Software here.
Do you have APFS support in other platforms?
Sure, you can work with APFS-formatted storages in Linux as well after installing APFS for Linux by Paragon Software.
Can I write to APFS-formatted disks?
Yes.
Can I format and verify APFS volumes?
No, these features are not supported in current version.
The product doesn’t run on Windows 7 SP1.
Please install this additional update for Windows 7 (KB3033929): x86 version, x64 version. Make sure that Microsoft Visual C++ 2015 Redistributable Update 3 RC is also installed on your computer. After that open Control Panel -> Uninstall Program and choose Microsoft Visual C++ 2015 Redistributable -> Change -> Repair.
I cannot install the product via CLI.
Please install Microsoft Visual C++ 2015 Redistributable Update 3 RC and try again.
My Internet Explorer displays a blank screen instead of the product registration window.
Please update your web browser.
The product registration window requires me to have JavaScript enabled in my Internet Explorer. How can I do that?
Please follow this link.
Do you support volumes encrypted by T2 Security Chip?
Currently, these volumes aren’t supported.

Resources

Current Version

Download APFS for Windows by Paragon Software

Product Documentation

Download APFS for Windows by Paragon Software One-Pager

Need help?

Contact Support or file a support ticket

Update March 30, 2020: Perhaps this is exacerbated by changes in macOS Catalina, but we have found that APFS performance on the slower 5400RPM HDDs to be unacceptably poor. Stall analysis indicates that APFS gets bogged down when renaming files, especially in folders with many other files. We do not recommend using APFS on the slower 2.5' 'slim' HDDs.

My APFS-formatted rotational disks have always felt slower than when they were HFS+ formatted. The speed of copying files to them felt about the same, but slogging through folders in the Finder was taking a lot longer. At first I shrugged it off to the filesystem being new; 'It just needs some tuning, it will come along.' But that performance hasn't come along, and after running some tests and collecting a lot more data, I'm convinced that Apple made a fundamental design choice in APFS that makes its performance worse than HFS+ on rotational disks. Performance starts out at a significant deficit to HFS+ (OS X Extended) and declines linearly as you add files to the volume.

The rest of this article is fairly technical, here are the key takeaways:

  • Enumerating an APFS filesystem on a traditional HDD (rotational disk) will take 3-20X longer than HFS+ on the same hardware.
  • This performance difference is most noticeable on a macOS startup disk that is (or includes) a rotational disk.
  • If Apple doesn't make some concessions in the APFS filesystem to accommodate the slower seek performance of HDD devices, then a rotational device will never be able to provide acceptable performance as a production macOS startup disk.

Test Setup

Apfs Drive

I wanted to see how an APFS formatted volume performs over time under 'normal' usage conditions and how that compares to an HFS+ formatted volume under the exact same conditions. To do this, I had to set up a simulation that would produce identical changes on two volumes to allow for a consistent, objective analysis of the filesystem performance. When I refer to 'filesystem performance,' I'm specifically referring to how long it takes the filesystem to do transactional tasks. Read and write performance depends almost entirely on the speed of the media, so I wanted to factor that out of my tests. Enumerating the contents of the filesystem is a good exercise of filesystem transactional performance, so I decided to test the enumeration of 1 million files on each an APFS and HFS+ filesystem over a period of simulated modifications to the filesystem.

The destination device in these tests is a 2TB Western Digital MyBook Duo split into two equal partitions. One partition is formatted HFS+, the other APFS. Spotlight was disabled on both volumes. Snapshot support and APFS defragmentation were varied in different tests to determine whether they had any effect on filesystem performance.

The number of files in the file set is constant – 1 million files, 111,000 directories (files nested three directories deep). To make the simulation closer to real-life, the file size distribution roughly follows 1/x2 – it’s weighted more heavily towards smaller files. Each individual file size is determined randomly, but in a pattern that follows that size distribution histogram. Average data set size is ~18GB. Max file size is 20GB. The payload data is randomly generated, non-zero data. At the end of each cycle, a random selection of 5% of the files are replaced with a randomly-selected file size (again, matching the histogram). Average size of the replacement data set is <1GB. Replacement data is randomly generated. Files are replaced atomically.

Carbon Copy Cloner was used to facilitate the file copying, but a separate utility was created for data collection (that tool uses fts*() system calls to perform the filesystem enumeration). There are three backup tasks: Source > HFS+, Source > APFS. A third 'stub' task imposes a 10-second 'quiescence' delay, runs the tool to collect performance metrics, makes the randomized changes to the source, then starts the cycle over again. This cycle was repeated 20 times, simulating the kind of disk usage that might occur over several weeks or months. The duration of the copying tasks was not recorded – we're only interested in the transactional performance of the destination filesystems, so we're only measuring the enumeration performance of the destination volumes after making changes to those filesystems.

Results

Enumeration on HFS+ was very consistent in all five simulations; always between 20 and 27 seconds. APFS enumeration started at about 80 seconds, but increased in a linear manner to about 300 seconds in the first ten cycles, then leveled off around 300-380 seconds after 20 cycles.

Because the tests were repeated over a short time interval, a modified version of CCC was used that would retain all snapshots on the destination APFS volume, thus simulating the result from daily backups. I then repeated the simulation with snapshots disabled on the APFS destination. The results of this test were unexpected, so I repeated that same test again and got the same results. Enumeration performance was consistently worse when snapshots were not retained on the destination. In the fourth simulation only some of the snapshots were retained and I found more erratic results, albeit directly between that of the test with snapshots disabled and all snapshots retained. Finally, for the fifth simulation defragmentation was enabled on the APFS destination volume via diskutil. I found no significant difference in enumeration performance when defragmentation was enabled.

Discussion

After the very first simulation, APFS starts at a deficit — APFS takes three times as long to enumerate a million files on a rotational disk compared to HFS+ enumerating the exact same collection of files on the exact same hardware. This result on its own is staggering. As you add and remove files from the volume, however, the performance continues to decline. After just 20 cycles, APFS enumeration performance is 15-20 times worse than HFS+ performance.

Audibly you can hear a significant difference between enumeration on each filesystem. Enumeration on APFS is very chatty. With HFS+, there’s almost no noise at all. So, why is APFS enumeration performance so much worse than HFS+ on rotational media? The answer lies in how rotational disks retrieve data from the media, and how APFS and HFS+ arrange the file data and filesystem metadata on the media. Consider the graphic below:

HFS+ preallocates space on the disk for filesystem structures (that's the light blue section). As you add files to the volume, the file data (green) goes to the end of the disk, but the filesystem metadata (e.g. the file name and attributes, the folder hierarchy) stays clumped together. When you enumerate the files on that volume, the drive head has very little moving to do to read all of the filesystem structures.

APFS, on the other hand, does not clump filesystem metadata together, rather it's stored alongside the file data. When you enumerate files on an APFS volume, the drive head has to constantly dart back and forth across the platter to fetch each individual file and folder records. This activity generates the 'chatter' that you hear when an APFS-formatted HDD is doing filesystem enumeration, and it's this high-latency seek performance of the HDD that causes enumeration to go so slowly. This only gets worse over time, because you're adding file data and filesystem metadata to the end of the disk, thus always spreading filesystem metadata further out on the disk.

Solid State Drives don't have this seek penalty. SSDs can read the first and last block of the device without any seek penalty at all. Remember when Apple introduced APFS and said that it was 'optimized for Flash/SSD storage'? This randomized placement of data and filesystem metadata may have been what they were referring to, and another way of saying that would have been, 'APFS is not optimized for HDDs.'

Can't APFS defragmentation help with this?

Apple quietly added a defragmentation feature to APFS in macOS Mojave. APFS defragmentation is disabled by default, and only lightly documented in the diskutil man page. Apple gives no indication of what this defragmentation feature actually does, in particular whether it defragments filesystem structures. Based on the results of the tests above, however, I would conclude that APFS defragmentation does not cause filesystem metadata to be physically clumped together on the disk.

How does this performance affect me directly?

Apple Apfs Media

Typically when you're using a filesystem, you're not attempting to enumerate the whole thing. Enumeration occurs when you're looking for something (not via Spotlight, but browsing through folders), and it occurs with gusto when you open up the Get Info panel on a folder. So when you're trying to see how large a folder is or browsing through several folders, that's going to take a lot longer on an APFS volume atop rotational media than it is on an HFS+ volume on the same hardware.

The other time that the performance difference will be starkly noticeable is when you're booting macOS from a rotational HDD. macOS seeks and stats thousands of files during the startup process, and if that's taking 15 times longer on a rotational disk, then your 30-second startup process is going to turn into 8 minutes. When the system does finally boot, the system and apps will still feel sluggish as all of your applications load, and those applications each stat hundreds of files. The system is still usable, especially as a rescue backup device, but it's not the kind of experience you'd want for a production startup disk nor for a high-stress restore scenario.

The bottom line is this — If Apple doesn't make some concessions in the APFS filesystem to accommodate the slower seek performance of HDD devices, then a rotational device will never be able to provide acceptable performance as a production macOS startup disk. If performance of your rescue backup is of paramount importance, then you should consider replacing your HDD backup disk with an SSD. We offer some suggestions here.

Does this mean I should avoid using APFS on my HDDs?

No, let's not throw out the baby with the bath water. APFS has loads of really nice features, like snapshots and volume space sharing. Managing volumes within an APFS container is a dream compared to the older method of preallocating space to specific partitions. It's important to understand why we might expect to see performance differences between the two filesystems and when that might impact your use of the filesystem, but this one performance aspect on its own isn't enough reason to avoid it.

Apple Apfs Media

Leave a Reply

Cancel reply