-<p>The biggest drawback to this approach is that you won't be able to edit the rEFInd configuration file or move rEFInd-related binaries from an EFI shell if you install it in this way, since Apple's HFS+ driver for EFI is read-only. (The same is true of rEFInd's HFS+ driver, so it won't help you overcome this limitation.) You may also be limited in making changes to your rEFInd configuration from Linux or other OSes, too, since Linux's HFS+ drivers disable write support by default on volumes with an active journal. You can force write access by using the <tt>force</tt> option to <tt>mount</tt>; however, this procedure is noted as being risky in the Linux HFS+ documentation, so I don't recommend doing this on a regular basis. As a compromise, you might try creating a small non-journaled HFS+ volume that's dedicated to holding rEFInd. You could even mount it as the Linux <tt>/boot</tt> partition, in which case it would also hold the Linux kernel and related files. You'll need to install rEFInd manually if you try this.</p>
+<p>A variant of this solution is to create a small (~100MiB) HFS+ volume to be used exclusively by rEFInd. You can then install rEFInd to that volume with the <tt>--ownhfs</tt> option to <tt>install.sh</tt>, as in <tt class="userinput">./install.sh --ownhfs /dev/disk0s6</tt> if the volume is <tt>/dev/disk0s6</tt>. This approach has the advantage that it can be managed via OS X's own Startup Disk tool in System Preferences.</p>
+
+<p>The biggest drawback to storing rEFInd on an HFS+ volume is that you won't be able to edit the rEFInd configuration file or move rEFInd-related binaries from an EFI shell if you install it in this way, since Apple's HFS+ driver for EFI is read-only. (The same is true of rEFInd's HFS+ driver, so it won't help you overcome this limitation.) You may also be limited in making changes to your rEFInd configuration from Linux or other OSes, too, since Linux's HFS+ drivers disable write support by default on volumes with an active journal. You can force write access by using the <tt>force</tt> option to <tt>mount</tt>; however, this procedure is noted as being risky in the Linux HFS+ documentation, so I don't recommend doing this on a regular basis on the OS X boot volume. This isn't as risky if you use a dedicated HFS+ rEFInd partition, though. You could even mount it as the Linux <tt>/boot</tt> partition, in which case it would also hold the Linux kernel and related files. If you use disk encryption, you can't store rEFInd on the OS X root (<tt>/</tt>) partition, but you could still use an (unencrypted) separate HFS+ partition.</p>