![]() (In other words, restarting is not a reliable workaround.) Update #3: After getting the "Operation not permitted" error, I restarted and got it again. But I may have a workaround.īTW: It says "No" across from "64-but Kernel and Extensions" under "System Software Overview" in the System Profiler (which I opened following Handyman5's directions). So I still don't have an answer to my question. $ sshfs ubuntu:/ /Volumes/ubuntu -oauto_cache,reconnect,volname=ubuntu Update #2: After restarting, I ran: $ cd /Volumes/ I'll try restarting my MacBook Air, just in case. I have no idea why it was working and now isn't. Then I tried running sudo sshfs ubuntu:/ /Volumes/ubuntu -oauto_cache,reconnect,volname=ubuntu and got: warning: ssh nodelay workaround disabled I tried creating the /Volumes/ubuntu directory with sudo, which made no difference. I'm pretty sure I just did a regular mkdir /Volumes/ubuntu (without sudo), followed by sshfs ubuntu:/ /Volumes/ubuntu -oauto_cache,reconnect,volname=ubuntu and it worked.īut today I'm getting the same mount_fusefs: failed to mount Operation not permitted error. Update: On Friday I tried this with an Ubuntu 11.04 VM (running in VMware Fusion 3.1.3). I'm running Mac OS X 10.6.7? Could it be that sshfs-static-leopard.gz doesn't work with Snow Leopard? Or perhaps it only works in 32-bit mode? How do I find out if I'm booting Mac OS X in 64-bit mode? ![]() Mount_fusefs: failed to mount Operation not permitted But when I try sshfs daryls:/ /Volumes/daryls -oauto_cache,reconnect,volname=daryls, I get: warning: ssh nodelay workaround disabled I've configured an Ubuntu machine at work (with the hostname "daryls") so I can ssh into it without a password. The filesystems repository contains source code for several exciting and useful file systems for you to browse, compile, and build upon, such as sshfs, procfs, AccessibilityFS, GrabFS, LoopbackFS, SpotlightFS, and YouTubeFS.I installed MacFUSE (from ), restarted, and then downloaded sshfs-static-leopard.gz, and moved sshfs-static-leopard to /usr/sbin/sshfs (and did a chmod 755 on it). If you prefer another language (say, Python or Java), you should be able to create file systems in those languages after you install the relevant language bindings yourself. It comes with C-based and Objective-C-based SDKs. The macFUSE software consists of a kernel extension and various user space libraries and tools. Therefore, many existing FUSE file systems become readily usable on macOS. It provides multiple APIs, one of which is a superset of the FUSE API (file system in user space) that originated on Linux. In more technical terms, FUSE implements a mechanism that makes it possible to implement a fully functional file system in a user-space program on macOS. Since FUSE file systems are regular applications (as opposed to kernel extensions), you have just as much flexibility and choice in programming tools, debuggers, and libraries as you have if you were developing standard macOS applications. Writing a file system using FUSE is orders of magnitude easier and quicker than the traditional approach of writing in-kernel file systems. The content of these file systems can come from anywhere: from the local disk, from across the network, from memory, or any other combination of sources. Legacy MacFUSE file systems are supported through the optional MacFUSE compatibility layer.Īs a developer, you can use the FUSE SDK to write numerous types of new file systems as regular user space programs. ![]() MacFUSE allows you to extend macOS's native file handling capabilities via third-party file systems.Īs a user, installing the macFUSE software package will let you use any third-party FUSE file system.
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