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114 lines
5.0 KiB
HTML
114 lines
5.0 KiB
HTML
<HTML>
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<HEAD>
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<TITLE>Using SheepShaver</TITLE>
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</HEAD>
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<BODY BGCOLOR=#FFFFFF>
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<H1>Using SheepShaver</H1>
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<H2>Changing the display mode</H2>
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SheepShaver can display the MacOS user interface in an X11 window or full-screen
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(much faster). You select the display mode as usual under MacOS in the "Monitors"
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control panel (under System 7.x, click on "Options"). The "75Hz" modes are full-screen
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modes, the "60Hz" modes are window modes (this doesn't mean that the video refresh
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rate is 75 or 60Hz in the respective modes; the rate displayed has no meaning; it's
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simply there to distinguish full screen modes from window modes).
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<H2>Full-screen mode</H2>
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The full-screen mode uses the whole X11 screen for displaying the MacOS user interface.
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You can temporarily switch back to the X11 desktop by pressing Ctrl-Tab. The MacOS (and
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all MacOS applications) will now be suspended. You can resume SheepShaver by activating
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the "SheepShaver suspended" window and pressing the space key. Using full-screen mode
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requires a DGA capable X server.
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<H2>Networking</H2>
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There are three approaches to networking with SheepShaver:
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<OL>
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<LI>Direct access to an Ethernet card via the "sheep_net" driver.
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In this case, the "ethernet card description" must be the name
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of a real Ethernet card, e.g. "eth0". It also requires the "sheep_net"
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driver to be installed and accessible. This approach will allow you
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to run all networking protocols under MacOS (TCP/IP, AppleTalk, IPX
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etc.) but there is no connection between Linux networking and MacOS
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networking. MacOS will only be able to talk to other machines on
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the Ethernet, but not to other networks that your Linux box routes
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(e.g. a second Ethernet or a PPP connection to the Internet).
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<LI>Putting SheepShaver on a virtual Ethernet via the "ethertap" device.
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In this case, the "ethernet card description" must be the name
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of an ethertap interface, e.g. "tap0". It also requires that you
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configure your kernel to enable routing and the ethertap device:
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under "Networking options", enable "Kernel/User netlink socket" and
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"Netlink device emulation", under "Network device support", activate
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"Ethertap network tap". You also have to modify <CODE>devices/net/ethertap.c</CODE>
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a bit before compiling the new kernel:
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<UL>
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<LI>insert <CODE>#define CONFIG_ETHERTAP_MC 1</CODE> near the top (after the <CODE>#include</CODE> lines)
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<LI>comment out the line <CODE>dev->flags|=IFF_NOARP;</CODE> in <CODE>ethertap_probe()</CODE>
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</UL>
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<P>
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Next, see <CODE>/usr/src/linux/Documentation/networking/ethertap.txt</CODE> for
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information on how to set up <CODE>/dev/tap*</CODE> device nodes and activate the
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ethertap interface. Under MacOS, select an IP address that is on the
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virtual network and set the default gateway to the IP address of the
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ethertap interface. This approach will let you access all networks
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that your Linux box has access to (especially, if your Linux box has
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a dial-up Internet connection and is configured for IP masquerading,
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you can access the Internet from MacOS). The drawback is that you
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can only use network protocols that Linux can route, so you have to
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install and configure netatalk if you want to use AppleTalk. Here is
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an example <CODE>/etc/atalk/atalkd.conf</CODE> for a LAN:
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<PRE>
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eth0 -seed -phase 2 -net 1 -addr 1.47 -zone "Ethernet"
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tap0 -seed -phase 2 -net 2 -addr 2.47 -zone "Sheepnet"
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</PRE>
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(the "47" is an arbitrary node number). This will set up a zone
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"Ethernet" (net 1) for the Ethernet and a zone "Sheepnet" (net 2)
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for the internal network connection of the ethertap interface.
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MacOS should automatically recognize the nets and zones upon startup.
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If you are in an existing AppleTalk network, you should contact
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your network administrator about the nets and zones you can use
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(instead of the ones given in the example above).
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<LI>Networking protocols for serial connections (PPP and SLIP, for example)
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can be used provided that you have the appropriate MacOS system components
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installed (e.g. Open Transport/PPP).
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</OL>
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<H2>Using floppy disks</H2>
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Floppy disks are not automatically detected when they are inserted. They have to be
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mounted explicitly: after inserting a floppy disk, press Ctrl-F1.
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<H2>Accessing Linux files</H2>
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SheepShaver will display a "Linux" disk icon on the Mac desktop that allows you
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to access any Linux files which are in the directory specified as "Linux Root"
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in the "Volumes" pane of the SheepShaver settings. You can open and save files on the
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"Linux" disk from Mac applications, copy, move or rename files from the Finder etc.
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SheepShaver translates some file name extensions to MacOS types and vice versa,
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so e.g. *.jpg and *.pdf files will show the correct icons in the Finder. MacOS
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resources and Finder attributes are stored in hidden <CODE>.rsrc</CODE> and
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<CODE>.finf</CODE> directories.
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<H2>Copying text via the clipboard</H2>
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SheepShaver tries to keep the Linux and MacOS clipboards synchronized. That means,
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when you copy a piece of text under Linux, you can paste it into a MacOS application
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and vice versa.
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<HR>
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<ADDRESS>
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SheepShaver User's Guide
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</ADDRESS>
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</BODY>
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</HTML>
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