Zip Drive Mini-HOWTO Kyle Dansie, dansie@ibm.net v2.2, 26 August 1998 This Document provides a quick reference quide on setting up and using the Iomega ZIP drive with Linux. ______________________________________________________________________ Table of Contents 1. Introduction 1.1 Home of this document 2. Quick Start 3. The ZIP drive 3.1 Parallel port version 3.2 SCSI external version 3.2.1 The ZIP ZOOM host adapter 3.3 The SCSI Internal version 3.4 The ZIP Plus - IMM driver 3.5 ATAPI version 3.6 IDE version 4. Configuring a kernel for the ZIP drive 4.1 SCSI version 4.2 PPA driver for 1.2.13 4.3 PPA driver in current kernels 4.4 PPA command line parameters 5. Using the ZIP drive 5.1 Identifying the drive at boot time 5.2 Fdisk, mke2fs, mount, etc. 5.3 An existing DOS formatted disk 5.4 Re-format as a native Linux disk 5.5 The ZIP Tools disk 6. Performance 7. Frequently asked questions 7.1 Can I plug a printer into the parallel ZIP drive ? 7.2 Do you plan to support EPP/ECP ports in PPA ? 7.3 Can I run Linux from a ZIP drive ? 7.4 Can I boot from the ZIP drive ? 7.5 Why does Iomega use partition number 4 ? 7.6 How can I have the disk mounted at boot time ? 7.7 What happens if there is no disk inserted when I boot ? 7.8 Can I use the parallel drive as a real SCSI disk ? 7.9 Can PPA be used with Iomega's parallel port tape drives ? 7.10 Will PPA work with the parallel port SyQuest EZ135 ? 8. Getting more current information ______________________________________________________________________ 1. Introduction The Iomega ZIP drive is a popular, removable media disk drive. It is avaliable in several versions. · Parallel Port · SCSI · IDE - ATAPI · Plus The most popular seems to be the Parallel port version. It has been around a long time and it is low cost. The SCSI version has also been around for a while but it needs a scsi card that many people do not have already, so it it not quite as popular. The ATAPI version now seems to be more available. The Plus is the newer version of the ZIP drive. It has the capability to detect what port its plugged into, scsi or parallel. This document will focus on the Parallel port version, but also offer some tips for other versions. This document incorporates information collected and published by others, in particular: · Grant Guenther, grant@torque.net · Scot Wilcoxon, sewilco@fielday.mn.org · Joe Mack, mack@ncifcrf.gov · Byron Jeff, byron@cc.gatech.edu I thank them for their important contributions, and accept responsibility for any errors that I have introduced. A special thanks to Grant Guenther who wrote the 0.26 version of the ppa program and also wrote the original version of this HOWTO. If you find any mistakes or oversights in this document, please let me know. dansie@ibm.net 1.1. Home of this document The most current version of this document will reside at 2. Quick Start OK so you have purchased a new zip drive and now you want to use it. Some distributions have the modules already built. You can try insmod ppa for starters. (Make sure you have it hooked up and a disk inserted). If the ppa program is not there, then configure the kernel. My machine has 2 parallel ports, one for the zip and one for the printer. This makes things easy, no cable switching. Configure the kernel: · cd /usr/src/linux · make xconfig · scsi support = Y · scsi disk support = Y · Iomega zip support as a module · printer support also as a module · save it and exit · make dep · make clean · make zImage or zlilo or zdisk · make modules · make mdoules_install Now to use the drive: · load the module insmod ppa · build a mounting point. mkdir /zip · insert a preformatted windoze type disk into the drive. · mount the disk. mount -t vfat /dev/sda4 /zip · use any standard file commands as in l /zip, ls /zip, df, cp, · when you are finished umount /zip If you had trouble with any of the previous steps, see the following sections for more detailed instructions. 3. The ZIP drive There are at least five or six versions of the Iomega ZIP 100 drive. They all accept special cartridges resembling a 3.5" floppy disk that hold 100 megabytes of data. The disks actually hold 96 cylinders of 2048 sectors each holding 512 bytes. This would normally be called 96 Megabytes. The external drive comes in these types: · Parallel port · SCSI · Plus The internal drive comes in these types: · SCSI · IDE · ATAPI The internal versions can be mounted in 3.5 or 5.25 drive slots. The external versions are in a small blue plastic case enclosure, powered by an external wall brick. All the drives have a large pushbutton on the front of the drive. This is used to eject the disk. Linux locks the door while using the drive, but if the button is pressed while the door is locked, the ZIP drive will remember and eject the disk as soon as the software unlocks it. 3.1. Parallel port version The parallel port ZIP drive has two DB25 connectors, the male (DB25M) should be connected with the supplied parallel cable to your computer's parallel port. The other (female, DB25F) is intended to support a chained printer. Linux 2.0.x does not currently support simultaneous use of both a ZIP drive and a chained printer. A work- around is possible using loadable modules. There are no configuration switches. This will likely change in future versions. Check the Linux Parallel Port Sharing Project for more information. The Linux driver comes in a couple of different versions. The 0.26 version of the ppa.c program ships standard with the 2.0.x kernels. Check out David Campbell's page for the more current version of this program. At the time of this writing the current version is 1.41. The parallel port ZIP drive is compatible with several types of parallel ports, but currently the 0.26 version of the Linux driver supports only the Standard and bi-directional ports. The newer versions support EPP. If your parallel port has configuration switches (in hardware or on a CMOS setup screen) be sure to set the port into one of those two modes for the 0.26 program. Be sure that all cables are firmly attached. Also see section ``Getting more information'' 3.2. SCSI external version The external SCSI version of the ZIP drive has two DB25F connectors, and two configuration switches. One switch selects the drive's target address. The choice is limited to target 5 or 6. The other enables an internal terminator, in case the drive is the last one on a chain. The 25 pin SCSI connectors use the familiar Macintosh style wiring. The drive is shipped with a Macintosh type cable, but standard cables and converters are easily obtained if you are using a host adapter with a Centronics or high-density connector. I have not seen an internal SCSI drive, but I would expect it to have a standard 50 pin DIP header SCSI connector and the same two switches. Make sure that the target address you choose does not conflict with any other SCSI devices you may have on the same bus. Also be sure that the physically last drive in a chain has termination enabled, or an external terminator installed. If you have an internal SCSI disk or CD-rom, and you connect your ZIP drive to the existing adapter, you should check to see if there are any terminators on the card that must be removed. Only the two extreme ends of the SCSI bus should be terminated. If your bus is partly internal and partly external, there should be one terminator on the last external device and one on the last internal device, but no terminators on the adapter card itself. Be sure that all cables are firmly attached. 3.2.1. The ZIP ZOOM host adapter Iomega markets a SCSI host adapter under the name ZIP Zoom. This is actually based on the design of the Adaptec AHA1520 family of adapters. It has an external Macintosh type DB25F connector, compatible with the cable that comes with the ZIP drive. Linux supports this adapter with the aha152x driver. 3.3. The SCSI Internal version Install hardware as described in the "Installation and Reference Guide" noting which SCSI ID, IRQ and I/O Port Address are being used. (You'll need this info later.) Things will go smother if the drive and adapter card use different SCSI ID's. Recompile the kernel after configuring it to include 'SCSI', 'SCSI disk' and 'AHA152X/2825' support. INSTALL NEW KERNEL :-( Determine what your kernel command line is: aha152x=[I/O Port][,IRQ][,SCSI ID][,RECONNECT][,PARITY] For example : aha152x=0x140,10,7,1 If your using LILO add your kernel command line to your lilo.conf file using the append command. (ie. append = "aha152x=0x140,10,7,1") If your using LOADLIN add your kernel command line to the command you use to initiate loadlin. (ie. loadlin c:\vmlinuz root=/dev/hda3 aha152x=0x140,10,5,1 ro) 3.4. The ZIP Plus - IMM driver This is a newer version of the external Zip drive. The Zip Plus does not use the ppa driver, instead it uses the imm driver. Philippe Andersson sent in this excellent section on the imm driver for the Zip Plus. Thanks Philippe. Warning: the development of this driver is in alpha stage, which means that 1./ you won't find it in the normal linux kernel source tree (nor will you be able to select it from make config and friends, of course) and 2./ it might not work in your specific setup. But don't fear -- just go ahead and test it. First, rebuild your kernel to include the following items: · modules support · SCSI support · SCSI Disk support · lp as a module (if you need it) You'll notice we didn't select any SCSI low-level driver. That's ok -- we'll build it separately later. Then, you need to get the driver source code from Dave Campbell's home page (http://www.torque.net/~campbell/imm.tar.gz ). Version 0.17 is the current one at the time of writing (Aug. 98). Unzip it and untar it somewhere (under /usr/src, for instance). Then just run make. You'll get the module you need (imm.o). Copy it to /lib/modules/$(uname -r)/scsi. If your lp module was loaded (check with lsmod(1)), unload it (rmmod lp), then load imm.o (insmod imm) and you're all set basically. If the ZIP drive was not connected and powered on at the time, you'll get the message "init_module: Device or resource busy", and the module won't load. (By the way, it looks like you don't need to switch your PC off to connect the ZIP -- just make sure the module is not loaded and the drive is turned off, then plug it in, turn the drive on, and load the module.) If the ZIP was connected and powered on, but there was no disk in, the module will load all right, but you'll get the message that it can't read the disk partition table. This is ok, as the partition table will be automatically read when you insert a ZIP disk. If there was a ZIP disk in, you'll get the full information displayed, including a list of partitions defined on the disk and its Write Protect status. Here is a sample load-time message: vger:~# insmod imm imm: Version 0.17 imm: Probing port 03bc imm: Probing port 0378 imm: SPP port present imm: ECP with a 16 byte FIFO present imm: PS/2 bidirectional port present imm: Passed Intel bug check. imm: Probing port 0278 scsi0 : Iomega ZIP Plus drive scsi : 1 host. Vendor: IOMEGA Model: ZIP 100 PLUS Rev: J.66 Type: Direct-Access ANSI SCSI revision: 02 Detected scsi removable disk sda at scsi0, channel 0, id 6, lun 0 SCSI device sda: hdwr sector= 512 bytes. Sectors= 196608 [96 MB] [0.1 GB] sda: Write Protect is off sda: sda1 vger:~# One last remark to mention that this version of the driver also locks the drive door while the disk is mounted. If the eject button is pressed in this situation, nothing happens, but the drive "remembers" and ejects the disk as soon as it is dismounted. 3.5. ATAPI version There was an IDE version of the drive produced for a while. I think that for the most part this has been replaced by the ATAPI version. Donald Stidwell sent in these comments on the ATAPI version. Thanks Don. I use an ATAPI Zip drive and it works with both 2.0.32 and 2.0.33 kernels. I've used it under both RH 5.0 and OpenLinux 1.2 (my current used distribution). To get it to work under OpenLinux, I just enabled ATAPI floppy support in the kernel. OpenLinux does not have this support compiled in by default. No other drivers are needed. It will mount as an extended partition on partition 4. I.E, mine mounts on HDB4. I mount it under /mnt/zip as noauto, although I don't suppose there would be any real problem with automounting. I just wonder about ejecting disks. I always dismount the drive before ejecting a cartridge. There are more detailed instructions for the ATAPI install in the Linux Gazette May 1998 issue. See the 2 cent tip section. 3.6. IDE version I have not used the IDE version. Eric Backus sent in these comments. Thanks Eric. I have one of these. It came with my Gateway 2000 computer a year ago. I think most of these were shipped by large OEM companies like this, before the ATAPI version of the ZIP drive was available. The good news about this drive: no kernel modules or modifications are needed to support it. It looks to the kernel like an IDE hard drive. It worked for me with no effort with kernel 2.0.31 and 2.0.32. The bad news about this drive: because it doesn't use ATAPI, you can't use the SCSI-to-ATAPI translation, which means you can't use mtools to write-protect disks (or to eject them, for that matter). 4. Configuring a kernel for the ZIP drive To use the ZIP drive with Linux, you must have a kernel configured with support for the SCSI system, support for SCSI disks, and support for the host adapter you are using. If you are not familiar with building a kernel, you should read up on the Linux Kernel HOWTO for information. You must begin the process of building a kernel with the configuration step. Here, you identify the specific kernel components that you need. First step cd /usr/src/linux. There are several ways to actually do the configuration. Under X windows I use make xconfig. There is also make menuconfig or make config for command line prompts. The easiest way is with xconfig. In the section SCSI Support set SCSI support = Y. Also set SCSI disk support = Y. In the section SCSI low-level drivers you want to set IOMEGA Parallel Port ZIP drive SCSI support = M. The M stands for modules. In the section Character Devices find and set Parallell Printer support = M If you are a bit unsure about any of this, use zdisk for the make step. This will build and install the kernel to floppy. If you screw it up somehow, you still have a good bootable system on the hard drive. Now build the kernel with these steps: · make dep · make clean · make zImage or zlilo or zdisk · make modules · make mdoules_install hint if you want to create an output log of the make zImage step you can use make zImage 2>&1 | tee zImage.out This is really a good thing to do, if you have compile errors or other conflicts in the configuration, now you have a file with the error messages or compile errors. This makes asking for help much easier. You also need to load the modules somewhere. On my system I just added a couple of lines to the boot.local file. · insmod ppa · insmod lp My system is Suse 5.0 and this file is in /etc/rc.d. The location of this file will vary by distribution, but there will be a file somewhere, for local changes to be made at start up time. You should use the file that is applicable for your distribution. Now shutdown and reboot. You can also build all or part of the SCSI system as modules. If you do this, be sure to load scsi.o, then sd.o and finally the driver for your host adapter, before you try to access the ZIP drive. 4.1. SCSI version If you already have a SCSI disk in your system, and you are connecting the ZIP drive to the same controller, there is no additional kernel configuration required. Otherwise, you will most likely have to build a new kernel. If you are building a kernel to support the SCSI version of the ZIP drive, you should select SCSI support and SCSI disk support. You must also select a driver for the interface card you will use. If you have a ZIP Zoom, select the aha152x driver. Be sure to read the documentation for your adapter in the SCSI HOWTO and any README files in the drivers/scsi subdirectory of the Linux source tree. Pay attention to command line parameters that you might have to use to help the kernel initialise your adapter. For instance, if you are using the ZIP Zoom card, you will have to add something like aha152x=0x340,11,7,1 to the boot command (or include it in your /etc/lilo.conf file in an append clause). This tells the driver the port address and IRQ of your ZIP Zoom card - be sure to use the numbers that correspond to the way your jumpers are set. You should also read Paul Gortmaker's BOOTPROMPT HOWTO for information about configuring your kernel with LILO or LOADLIN. 4.2. PPA driver for 1.2.13 The 2.0.x kernel has been released for a very long time now. If you are still on the 1.2.13 or anything older than the 2.0.x Please Upgrade. I will not answer any questions about these old releases and I doubt that any of the developers will. 4.3. PPA driver in current kernels Since version 1.3.74 the ppa driver has been a standard part of the kernel. There were some changes to other parts of the kernel around 1.3.78 that required an interim workaround, but since 1.3.85 the driver has been quite stable at version 0.26. Since the code-freeze for Linux 2.0 is now in effect, I expect that 0.26 will be in the next stable kernel. To build a kernel with ppa support, include SCSI support, SCSI disk support and select the Iomega ZIP / PPA-3 support from the list of low-level SCSI adapters. You can also build the driver as a loadable module. You can use command line parameters in /etc/lilo.conf or with insmod to adjust the driver. This is all documented in drivers/scsi/README.ppa in the kernel source tree. I've included a summary in the next section. If you want to use both the lp and ppa drivers on the same parallel port, you must build both as loadable modules and load one or the other at any point in time, but not both. Linux's loadable module features are becoming more powerful, and correspondingly more complex, every day. You should read the file Documentation/modules.txt in the kernel source tree, as a starting point. 4.4. PPA command line parameters If you have ppa built into your kernel, you can adjust its parameters from the command line of LILO or LOADLIN with the following syntax: ppa=base[,speed_high[,speed_low[,nybble]]] Where base is the i/o address of your parallel port, speed_high is a timing constant for certain fast loops in the driver, speed_low is a similar timing parameter for some slower loops and nybble is a flag to force the driver to use 4-bit, or nybble mode, even if it wants to do otherwise. For an example, the defaults could be specified as: ppa=0x378,1,6,0 5. Using the ZIP drive If you have built in all the required components, the kernel should recognize your adapter and drive at boot time. If you are using a loadable module for your driver, the following discussion applies once that module is loaded. For the most part, the SCSI and parallel versions of the drive behave identically, except that the parallel version is somewhat slower. 5.1. Identifying the drive at boot time When your system boots it should display several pieces of information about your adapter, your drive, and the disk in the drive. If you do not have a disk in the drive, some of this information will be missing and will only appear when you insert a disk and then touch the drive (make some attempt to access it). Beginning users are advised to boot their system with a disk in the drive - things are less confusing that way ! Exactly where these messages will appear depends on how your system is configured. Often they will be displayed to your system console, but they may be diverted into a log file such as /var/adm/messages. Usually, you can retrieve the last couple of screens of kernel messages with the dmesg command, if you can't find them anywhere else. If you need to get someone to help you with anything, a copy of this log information is critical. Try to send as many of the relevant log messages as you can along with any bug report. Here is a sample of what the kernel's log messages should look like: scsi0 : PPA driver version 0.26 using 8-bit mode on port 0x378. scsi : 1 host. Vendor: IOMEGA Model: ZIP 100 Rev: N*32 Type: Direct-Access ANSI SCSI revision: 02 Detected scsi disk sda at scsi0, channel 0, id 6, lun 0 scsi : detected 1 SCSI disk total. SCSI device sda: hdwr sector= 512 bytes. Sectors= 196608 [96 MB] [0.1 GB] sda: Write Protect is off Partition check: sda: sda1 This output came from a 1.3.87 system with a parallel ZIP drive. The exact output will vary depending on your host adapter and whether you have any other SCSI devices in your system. The first line displays the initialization message from the low-level driver for the host adapter, in this case PPA. Following that comes the drive identification information returned by each device found on the SCSI bus. Line 5 reports the device name assigned to the drive, in this case /dev/sda. And the last line hows the result of the partition check of the disk in the drive. This one has one partition, /dev/sda1. These reports come from different modules in the kernel. If you have more than one SCSI adapter, or several disks, each section will contain more information. If you are using a fresh disk, direct from Iomega, the partition check should show one partition, /dev/sda4. If you have other SCSI devices you will understand that the ZIP drive could appear on some other device name like /dev/sdb - so check these messages. If these lines do not appear, then something is misconfigured in your hardware or in the kernel. Check everything carefully before sending mail. If the scsi0: line does not appear, then you have not configured your host adapter and its driver correctly. Some drivers will give you a hint about what is wrong. If your drive is not detected, you probably have a cable problem. If a drive name is not assigned, you probably forgot to include SCSI disk support when you built the kernel. Check the README files in drivers/scsi and the SCSI HOWTO for other debugging hints. 5.2. Fdisk, mke2fs, mount, etc. Once you know the drive name for your ZIP drive, you are set. You can manipulate the drive with the normal Linux disk management commands. fdisk (or perhaps cfdisk) is used to manipulate the partition tables on the disk. mke2fs can be used to format a partition with the ext2 filesystem - the one most commonly used in Linux. mount is used to connect a formatted partition into your directory hierarchy. You should study the manual pages for these tools if you are not familiar with them. Be warned that there are now several quite different versions of the fdisk program - be careful. I'll describe two common scenarios. 5.3. An existing DOS formatted disk If you have a ZIP disk with a DOS file structure that was originally created by Iomega's tools, the partition scan should say that the disk has one partition, /dev/sda4. You should make a place to mount the disk, lets say /zip, and then mount it as an MS-DOS filesystem: mkdir /zip mount -t vfat /dev/sda4 /zip You could also use msdos instead of vfat. vfat supports long filenames where msdos does not. Now, the files on the disk should appear in /zip. While the disk is mounted, you will not be able to remove it. When you are finished with the disk you can umount it to release it and detach it from your directory hierarchy. umount /zip Once you've made the /zip mount point - you don't need to do it again, so you could come back later and mount something else there. 5.4. Re-format as a native Linux disk If you want to erase a ZIP disk and make a Linux native file system on it. You should use fdisk on the entire disk: fdisk /dev/sda and delete any existing partitions (with the d command). Then create a new partition with the n command, make it primary partition number 1, use w to write the partition table to disk, and quit with q. Format the partition mke2fs /dev/sda1 (The 1 is the number that you gave this partition in fdisk). Now you can mount the disk: mount -t ext2 /dev/sda1 /zip (re-using that mount point we created before). 5.5. The ZIP Tools disk There is some extra work to be done if you want to use the disk that comes with the ZIP drive. As shipped, the software controlled write protection is enabled. Most people have unlocked the disk under DOS before ever trying to use it with Linux. Linux cannot access a locked disk, and it must be unlocked with Iomega's tools. A native Linux program to manage the write protection feature, among other things, is expected to be available soon. 6. Performance With the standard version of the 2.0.x kernels you get the 0.26 version of the ppa.c program. This is a very reliable simple program. It has gotten a lot of use and abuse and held up rather well. The only bad thing about this program is that it's not very fast. On my machine I have version 2.0.30 kernel, and 2 parallel ports. This is also a low-buck machine pentium 133 - 16 meg memory, 5 gig maxtor eide hard drive. The machine cost me 500. U.S. Dollars and the drive was 250. I am cheap but so what. I had the ZIP drive on the second port and the printer on the first port. The second port was an old add in card, no epp mode. This made the driver run in 4 bit mode. To base line the performance I copied the netscape tar file from the hard drive to the zip drive. This file is about 10.6 meg. Time 7 minutes 15 seconds. Going from the zip drive to the hard drive was about 7 minutes even. Not exactly setting the world on fire. I then made 2 changes. First I switched the ZIP drive to the first port and went into the bios and set EPP mode on for the first port. At the same time I hooked up the printer to the 2nd port. Second change I went out and downloaded the new version of the program from David Campbells page Then I installed this program. Check out the readme file that is included. Then I ran the same test again of copying the Netscape tar file to and from the ZiP drive. The copy to the C drive was 1:55 seconds. From the hard drive to the Zip drive was 1 minute flat. This compares to 7:15 and 7:00 with the old program. This was a big improvement over the 0.26 program. This was also using the zip drive as a vfat file type. Next I formated a zip drive in ext2 format. Ran the same test again. The copy going to the hard drive was only 50 seconds. The copy from the hard drive to the Zip drive was only 40 seconds. Performance Summary For this test case of moving a 10.6 meg file, the 4 bit standard port mode and program version 0.26 is the slowest 7:00 and 7:15 The new program (1.41) and EPP mode with ext2 file types is the fastest at 50 seconds and 40 seconds. 7. Frequently asked questions These are some of the questions that we get asked a lot. Please read the answers here before asking them again ! 7.1. Can I plug a printer into the parallel ZIP drive ? Yes, but. Currently, you cannot have both the lp and ppa drivers active on the same parallel port. A resource sharing protocol has been designed and is in the early stages of implementation, but will not be available before Linux 2.0 is released. If you like living on the bleeding edge of things, get the 2.1.x kernel and you can have port sharing. See The easy way to do this with 2.0.x kernel is to have 2 parallel ports. I bought my second one for about 15 dollars and it works great. You can use one for printing and one for your ZIP drive. Just build a kernel with both the lp and ppa drivers as modules. I use the newer (1.41) version of ppa, so I just load ppa first (insmod ppa). It then finds the zip drive on the first port. Then I load lp (insmod lp) and it assigns the printer to the second port. If you use the 0.26 version of the program then include the lp and ppa as part of the kernel, (not as modules). Then put some appropriate configuration commands on your kernel command line. For instance, if you use LILO and you have a printer on 0x378 and a ZIP drive at 0x3bc you could add the following line to your /etc/lilo.conf file. append = "lp=0x378 ppa=0x3bc" 7.2. Do you plan to support EPP/ECP ports in PPA ? Version 0.26 of the program does not support EPP. Version 1.41 does support the EPP. This program is also much faster. See the performance section for more details. 7.3. Can I run Linux from a ZIP drive ? People have done this. It would seem this might make a great rescue disk or a way to test an install. 7.4. Can I boot from the ZIP drive ? This depends on what you are using for a host adapter. If your host adapter has a BIOS ROM with code that can boot from target 5 or 6, then yes, you can boot from the SCSI ZIP drive. You cannot boot from a parallel port drive. If you have DOS on your main disk and want to boot Linux from a ZIP disk, you can do this using the LOADLIN boot loader. Your kernel image must be somewhere on the DOS disk, but the rest of your Linux system could be on the ZIP. Make sure that the kernel you use has the correct drivers built in. As far as I am aware, there are no installation boot floppies for any of the popular distributions that contain the parallel ZIP driver. 7.5. Why does Iomega use partition number 4 ? This is one of the most popular questions, but I don't think anyone has a definite answer to this one. Could be they had their head where the sun don't shine. Maybe there is no reason. 7.6. How can I have the disk mounted at boot time ? All you need to do is to add a line to your /etc/fstab file. For instance, if you will always have a DOS disk in the drive when you boot, you could put /dev/sda4 /zip vfat defaults 0 0 in the fstab. Depending on your distribution, the initialization scripts might try to run fsck on partitions listed in your fstab. Be aware that this could cause problems if you forget to put the disk in the drive when you boot, or have the wrong disk there. 7.7. What happens if there is no disk inserted when I boot ? The kernel will try to read the partition table, but the operation will time out. There is nothing to worry about. Once you have inserted a disk, and try to do something with it the kernel will notice that there is a disk there now and rescan the partition table. HINT: when you change disks, it is a good idea always to use fdisk to check the partition structure on the new disk. The BIOS on some SCSI host adapters will attempt to read the partition table on your disk during the system boot. If you cannot disable this check, you may be forced always to boot with a disk in the drive. 7.8. Can I use the parallel drive as a real SCSI disk ? The PPA-3 parallel-to-SCSI adapter is implemented as a single ASIC chip that Iomega calls a VPI0. It is embedded on the ZIP drive's controller card. There is an actual SCSI bus present, but not in a useful form. Although I haven't tried to compare the two cards, it seems logical that the VPI0 replaces the conventional electrical buffering circuits that would be required if the SCSI bus were extended outside the package. 7.9. Can PPA be used with Iomega's parallel port tape drives ? No. Those drives are floppy-tape drives. There is no SCSI involved. Several people have indicated an interest in applying my methods to try to determine the protocol and develop a driver for these tapes. The first step in that process is to get the DOS driver working under DOSemu. I have not yet heard that anyone has been successful in doing it. 7.10. Will PPA work with the parallel port SyQuest EZ135 ? No. The EZ135 is an IDE drive with a ShuttlePort parallel to IDE converter embedded in it. However there has been some work done on this driver. Check out 8. Getting more current information More current versions of the parallel port zip drive (ppa.c) program and current technical information of the driver can be found at Information of many parallel port external device drivers can be found at Parallel Port sharing or through-port information is found at Installing Linux from a zip drive (for machines without a CD) An X frontend to the ziptool program can be found at Information on configuration of Lilo can be found at Information on using bootprompts can be found at If you want to install the Linux OS onto a Zip Drive and run the OS from the Zip drive Iomega's web pages are at . And if you are looking for general information about parallel port programming for the PC, you might want to visit