--root /mount-point |
This option is intended to help install rEFInd from a "live CD" or other emergency system. To use it, you should mount your regular installation at /mount-point, including your /boot directory (if it's separate) at /mount-point/boot and (on Linux) your ESP at that location or at /mount-point/boot/efi. The install.sh script then installs rEFInd to the appropriate location—on Linux, /mount-point/boot/EFI/refind or /mount-point/boot/efi/EFI/refind, depending on where you've mounted your ESP; or on OS X, to /mount-point/EFI/refind. The script also adds an entry to your NVRAM for rEFInd at this location. You cannot use this option with either --esp or --usedefault, except for implicit use of --esp on Linux. Note that this option is not needed when doing a dual-boot Linux/OS X installation; just install normally in OS X. |
@@ -431,7 +441,7 @@ Filesystem 1K-blocks Used Available Use% Mounted on
Rename the configuration file by typing mv refind.conf-sample refind.conf. Consult the Editing the rEFInd Configuration File page for information on how to adjust your options.
-
+
On a UEFI-based system, type efibootmgr -c -l \\EFI\\refind\\refind_x64.efi -L rEFInd to add rEFInd to your EFI's list of available boot loaders, which it stores in NVRAM. Adjust the path to the binary as required if you install somewhere else. You may also need to include additional options if your ESP isn't on /dev/sda1 or if your configuration is otherwise unusual; consult the efibootmgr man page for details. You may need to install this program on some systems; it's a standard part of most distributions' repositories. Also, if you're installing in Secure Boot mode, you must normally register shim.efi rather than the rEFInd binary, and rename refind_x64.efi to grubx64.efi.
@@ -592,6 +602,8 @@ $ ioreg -l -p IODeviceTree | grep firmware-abi
Installing rEFInd Manually Using an EFI Shell
+
+
If you can't currently boot any OS (say, because a firmware update has wiped your NVRAM entries), you may find it convenient to install rEFInd using an EFI version 2 shell. Unfortunately, the bcfg command described here is not available in the EFI version 1 shell, and the version 2 shell is unusable on many firmware implementations prior to 2.3.1. Thus, this procedure won't work for all systems.
In addition to emergency situations, using bcfg can be desirable if efibootmgr or other OS-hosted tools don't do the job. This happens under VirtualBox, for instance. An alternative in such cases can be to use alternative names for rEFInd.
@@ -691,6 +703,20 @@ $ ioreg -l -p IODeviceTree | grep firmware-abi
With any luck, rEFInd will start up at this point. If not, you can check your settings using a shell or an emergency system for your OS of choice. In an EFI shell, you might type bcfg boot dump -b to view your boot loader entries and verify that rEFInd appears at the top of the list. Be sure to check the pathname for typos. If you continue to have problems, you might look into giving rEFInd a fallback filename that your firmware will recognize.
+
+Using OS X Whole-Disk Encryption
+
+
+If you're using OS X's Whole-Disk Encryption (WDE) feature, you must do two extra things:
+
+
+
+- You must install rEFInd to the ESP. Unfortunately, as described earlier, this can result in a delay (usually of 30 seconds) as the firmware launches rEFInd. See the upcoming section on fixing sluggish Mac boots if you run into this problem.
+
+- You must uncomment the dont_scan_volumes line in refind.conf and ensure that "Recovery HD" is not among its options. (You can use a blank line or provide a dummy value if you want to scan all your volumes.) Alternatively, you can create a manual boot stanza to boot OS X.
+
+
+
Alternative Naming Options
@@ -920,7 +946,9 @@ $ ioreg -l -p IODeviceTree | grep firmware-abi
Most of the reports of sluggish Macintosh boots I've seen note that the user installed rEFInd to the ESP rather than to the OS X root partition. Some users have reported that re-installing rEFInd to the OS X root partition clears up the problem. This is obviously a straightforward solution to the problem, if it works. Note that rEFInd can launch boot loaders that are stored on any partition that the EFI can read no matter where it's installed; therefore, you'll still be able to launch boot loaders stored on the ESP (or elsewhere) if you install it in this way.
-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 force option to mount; 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 /boot 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.
+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 --ownhfs option to install.sh, as in ./install.sh --ownhfs /dev/disk0s6 if the volume is /dev/disk0s6. This approach has the advantage that it can be managed via OS X's own Startup Disk tool in System Preferences.
+
+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 force option to mount; 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 /boot 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 (/) partition, but you could still use an (unencrypted) separate HFS+ partition.
A variant of this solution is suggested in this blog post, which recommends placing rEFInd on an HFS+ volume on the first SATA channel. (In the blogger's case, that channel used to hold an optical drive, but that drive was replaced by a hard disk.)
@@ -928,7 +956,7 @@ $ ioreg -l -p IODeviceTree | grep firmware-abi
Using the Fallback Filename
-I've received one report that installing rEFInd to the ESP using the fallback filename (EFI/BOOT/bootx64.efi on most systems, or EFI/BOOT/bootia32.efi on very old Macs) can work around the problem.
+I've received a few reports that installing rEFInd to the ESP using the fallback filename (EFI/BOOT/bootx64.efi on most systems, or EFI/BOOT/bootia32.efi on very old Macs) can work around the problem.
Clearing the NVRAM Entries
@@ -995,7 +1023,7 @@ Boot0007* CD/DVD Drive
-copyright © 2012–2013 by Roderick W. Smith
+copyright © 2012–2014 by Roderick W. Smith
This document is licensed under the terms of the GNU Free Documentation License (FDL), version 1.3.