=================================================================== RCS file: /cvsrepo/anoncvs/cvs/www/macppc.html,v retrieving revision 1.266 retrieving revision 1.267 diff -u -r1.266 -r1.267 --- www/macppc.html 2019/05/27 22:55:20 1.266 +++ www/macppc.html 2019/06/01 23:12:48 1.267 @@ -86,7 +86,7 @@ "New World" systems, the difference being the design of the system ROM. -Only "New World" machines are currently supported. +Only "New World" machines are currently supported. Known compatible systems include the following:
-To help us improve the accuracy of this list, PLEASE +To help us improve the accuracy of this list, PLEASE send your dmesg after installation to dmesg@openbsd.org. @@ -182,7 +182,7 @@
-Having OpenBSD multiboot, or share, a disk with Mac OS X/Mac OS 9
-is possible as long as the disk is first partitioned with the
-Mac OS utility, Drive Setup (Mac OS 9) or System Disk
+Having OpenBSD multiboot, or share, a disk with Mac OS X/Mac OS 9
+is possible as long as the disk is first partitioned with the
+Mac OS utility, Drive Setup (Mac OS 9) or System Disk
Utility (Mac OS X).
-Unallocated space, or a partition not in use, must be left for OpenBSD's use.
+Unallocated space, or a partition not in use, must be left for OpenBSD's use.
Since OpenBSD is only able to boot from an HFS (not Mac OS X UFS) filesystem,
the first partition must be formatted as HFS or HFS+, not UFS, to be able to
boot OpenBSD.
@@ -520,20 +520,20 @@
Boot device considerations:
-Modern MacPPC systems have two IDE interfaces (called Ultra and IDE), each of +Modern MacPPC systems have two IDE interfaces (called Ultra and IDE), each of which can have two devices on them (ultra0, ultra1, ide0, ide1). When multiple drives are present in the system, there are limitations -of which drives can be configured as the OpenBSD root drive. +of which drives can be configured as the OpenBSD root drive. Invalid configurations will not be able to properly detect which drive is the root drive, so any attempt will either prompt for a root drive or fail.
ultra0
is always a valid root drive.
-ultra1
is valid as a root disk, as long as ultra0
+ultra1
is valid as a root disk, as long as ultra0
is a hard drive, not a non-hard disk ATAPI device.
-ide1
(Zip drive bay) is valid as a root disk if no hard drive is
- located at ultra1
,
+ide1
(Zip drive bay) is valid as a root disk if no hard drive is
+ located at ultra1
,
ide0
(cdrom) is valid as a root drive only if no hard
drives are connected to the Ultra bus.