The drawback is that Microsoft’s operating system will take a longer time to boot. This is useful if you often need to write on your Windows partitions from Linux. As long as the last time you booted Windows you restarted instead of shutting down, Linux will be able to write on NTFS partitions. In case there’s any confusion, you don’t have to go through all four steps every time. No hibernate data on partitions means it’s safe to write on them, and Linux will recognize that. This means it doesn’t hibernate, snapshot system operating state or save any memory data to disk. When Windows restarts, it won’t use the Fast Startup feature for the next boot.
Finally, boot back into Linux, and you should be able to mount your Windows NTFS partitions in read/write mode. Click on the Start Menu and choose to restart instead of shutting down.Ĥ. However, it’s also the quickest fix for your problem and doesn’t involve changing anything long-term, as the other solution does.ġ. Boot into Windows and Restart Instead of Shutting Down If you rarely need to write on Windows partitions from Linux, try the one mentioned in the next section. There are two workarounds, each with its own drawbacks.
How to Make NTFS Partitions Writable from Linux If you modify the program’s files, when the application resumes, it won’t find the data it was working on, so it will either crash or simply lose all its progress, a situation that may be hard to recover from.
As the system shuts down, program code is saved to disk so that it can be resumed later. It has a few open files with partial contents written to them. Imagine a program is in the middle of doing something. Because a hibernation freezes some memory data and operating system state and saves it to disk, it’s risky to modify any data on that disk. When it boots up after hibernation, it resumes and starts much faster. To recap, when Windows shuts down, it hibernates core operating system data to disk. When you “fast boot,” it’s like taking already prepared food from the fridge and reheating it. If that sounds abstract, think of it this way: when you “normal boot,” it’s like preparing food from scratch, then putting it in the oven. In contrast, in a normal boot files have to be read from disk, and then the CPU has to process a lot of data to initialize everything. This is much faster because it’s almost a simple copy operation, from disk to memory. The next time you boot up, it loads that portion back into memory.
Long story short, when you shut down your computer, Windows saves a portion of the random access memory (RAM) to your disk. Well, that’s because of a feature called Fast Startup. “But why does the partition get mounted in read-only mode?” you may ask. Suppose that the EFI boot partition on your UEFI (non-BIOS) computer was accidentally deleted or formatted (for example, when you tried to remove an OEM recovery partition).As a result Windows 10/8.1/ 7 doesn’t boot correctly, cyclically prompting you to select the boot device (Reboot and select proper boot device or insert boot media in selected boot device and press a key).