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-rw-r--r--en/install-methods/boot-drive-files.xml6
-rw-r--r--en/install-methods/boot-usb-files.xml24
-rw-r--r--en/install-methods/create-floppy.xml11
-rw-r--r--en/install-methods/install-tftp.xml26
-rw-r--r--en/install-methods/ipl-tape.xml2
-rw-r--r--en/install-methods/tftp/bootp.xml12
-rw-r--r--en/install-methods/usb-setup/i386.xml2
7 files changed, 43 insertions, 40 deletions
diff --git a/en/install-methods/boot-drive-files.xml b/en/install-methods/boot-drive-files.xml
index acde0cb56..39c36d50e 100644
--- a/en/install-methods/boot-drive-files.xml
+++ b/en/install-methods/boot-drive-files.xml
@@ -163,9 +163,9 @@ of your hard drive (this can be accomplished by
Make a note of the partition number of the MacOS partition where you
place these files. If you have the MacOS <command>pdisk</command>
-program, you can use the L command to check for the partition
-number. You will need this partition number for the command you type
-at the Open Firmware prompt when you boot the installer.
+program, you can use the <command>L</command> command to check for the
+partition number. You will need this partition number for the command
+you type at the Open Firmware prompt when you boot the installer.
</para><para>
diff --git a/en/install-methods/boot-usb-files.xml b/en/install-methods/boot-usb-files.xml
index 78615be96..22399fedc 100644
--- a/en/install-methods/boot-usb-files.xml
+++ b/en/install-methods/boot-usb-files.xml
@@ -6,17 +6,17 @@
<para>
-For preparing the USB stick you will need a system where GNU/Linux is
+To prepare the USB stick, you will need a system where GNU/Linux is
already running and where USB is supported. You should ensure that the
usb-storage kernel module is loaded (<userinput>modprobe
usb-storage</userinput>) and try to find out which SCSI device the USB
stick has been mapped to (in this example
<filename>/dev/sda</filename> is used). To write to your stick, you
-will probably have to turn off its write protection switch.
+may have to turn off its write protection switch.
</para><para>
-Note, that the USB stick should be at least 128 MB in size (smaller
+Note that the USB stick should be at least 128 MB in size (smaller
setups are possible if you follow <xref linkend="usb-copy-flexible"/>).
</para>
@@ -81,12 +81,15 @@ should use the following method to put the files on your stick.
&usb-setup-i386.xml;
&usb-setup-powerpc.xml;
- <sect3>
+ </sect2>
+ <sect2>
<title>Adding an ISO image</title>
<para>
-Now you should put any Debian ISO image (businesscard, netinst or even
-a full one) onto your stick (if it fits). The file name of such an
+The installer will look for a Debian ISO image on the stick as its source
+for additional data needed for the installation. So your next step is to
+copy a Debian ISO image (businesscard, netinst or even a full CD image)
+onto your stick (be sure to select one that fits). The file name of the
image must end in <filename>.iso</filename>.
</para><para>
@@ -104,11 +107,11 @@ When you are done, unmount the USB memory stick (<userinput>umount
/mnt</userinput>) and activate its write protection switch.
</para>
- </sect3>
+ </sect2>
- <!-- TODO: doesn't this section belong later? -->
- <sect3 arch="i386">
- <title>Booting the USB stick</title>
+ <!-- TODO: doesn't this section belong later? -->
+ <sect2 arch="i386">
+ <title>Booting the USB stick</title>
<warning><para>
If your system refuses to boot from the memory stick, the stick may
@@ -121,6 +124,5 @@ contain an invalid master boot record (MBR). To fix this, use the
</screen></informalexample>
</para></warning>
- </sect3>
</sect2>
</sect1>
diff --git a/en/install-methods/create-floppy.xml b/en/install-methods/create-floppy.xml
index 433c91697..2b31174e1 100644
--- a/en/install-methods/create-floppy.xml
+++ b/en/install-methods/create-floppy.xml
@@ -10,11 +10,12 @@ installer on hardware that cannot boot from CD or by other means.
</para><para arch="powerpc">
-Floppy disk booting reportedly fails on Mac USB floppy drives.
+Booting the installer from floppy disk reportedly fails on Mac USB
+floppy drives.
</para><para arch="m68k">
-Floppy disk booting is not supported on Amigas or
+Booting the installer from floppy disk is not supported on Amigas or
68k Macs.
</para><para>
@@ -30,9 +31,9 @@ floppy.
</para><para>
-There are different techniques for creating floppies from disk images,
-which depend on your platform. This section describes how to create
-floppies from disk images on different platforms.
+There are different techniques for creating floppies from disk images.
+This section describes how to create floppies from disk images on
+different platforms.
</para><para>
diff --git a/en/install-methods/install-tftp.xml b/en/install-methods/install-tftp.xml
index 0926ed5dc..45ad26d1b 100644
--- a/en/install-methods/install-tftp.xml
+++ b/en/install-methods/install-tftp.xml
@@ -186,7 +186,8 @@ to <command>tftpd</command> as the filename to boot.
For DECstations, there are tftpimage files for each subarchitecture,
which contain both kernel and installer in one file. The naming
-convention is <replaceable>subarchitecture</replaceable>/netboot-boot.img.
+convention is
+<filename><replaceable>subarchitecture</replaceable>/netboot-boot.img</filename>.
Copy the tftpimage file you would like to use to
<userinput>/tftpboot/tftpboot.img</userinput> if you work with the
example BOOTP/DHCP setups described above.
@@ -262,22 +263,21 @@ these methods.
<title>SPARC TFTP Booting</title>
<para>
-SPARC architectures for instance use the subarchitecture names, such
-as <quote>SUN4M</quote> or <quote>SUN4C</quote>; in some cases, the
-architecture is left blank, so the file the client looks for is just
-<filename>client-ip-in-hex</filename>. Thus, if your system
-subarchitecture is a SUN4C, and its IP is 192.168.1.3, the filename
-would be <filename>C0A80103.SUN4C</filename>. An easy way to determine
-this is to enter the following command in a shell (assuming the
-machine's intended IP is 10.0.0.4).
+Some SPARC architectures add the subarchitecture names, such as
+<quote>SUN4M</quote> or <quote>SUN4C</quote>, to the filename. Thus,
+if your system's subarchitecture is a SUN4C, and its IP is 192.168.1.3,
+the filename would be <filename>C0A80103.SUN4C</filename>. However,
+there are also subarchitectures where the file the client looks for is
+just <filename>client-ip-in-hex</filename>. An easy way to determine the
+hexadecimal code for the IP address is to enter the following command
+in a shell (assuming the machine's intended IP is 10.0.0.4).
<informalexample><screen>
$ printf '%.2x%.2x%.2x%.2x\n' 10 0 0 4
</screen></informalexample>
-This will spit out the IP in hexadecimal; to get to the correct
-filename, you will need to change all letters to uppercase and
-if necessary append the subarchitecture name.
+To get to the correct filename, you will need to change all letters to
+uppercase and if necessary append the subarchitecture name.
</para><para>
@@ -325,7 +325,7 @@ the <userinput>filename=</userinput> option in
<para>
You don't have to configure DHCP in a special way because you'll pass the
-full path of the file to the loaded to CFE.
+full path of the file to be loaded to CFE.
</para>
</sect3>
diff --git a/en/install-methods/ipl-tape.xml b/en/install-methods/ipl-tape.xml
index 383a302fc..fe8080e79 100644
--- a/en/install-methods/ipl-tape.xml
+++ b/en/install-methods/ipl-tape.xml
@@ -17,7 +17,7 @@ need to write to the tape are (in this order):
<filename>parmfile.debian</filename> and
<filename>initrd.debian</filename>. The files can be downloaded
from the <filename>tape</filename> sub-directory, see
-<xref linkend="where-files"/>,
+<xref linkend="where-files"/>.
</para>
</sect1>
diff --git a/en/install-methods/tftp/bootp.xml b/en/install-methods/tftp/bootp.xml
index 0f1fb963d..cda0f9c66 100644
--- a/en/install-methods/tftp/bootp.xml
+++ b/en/install-methods/tftp/bootp.xml
@@ -6,11 +6,11 @@
<title>Setting up BOOTP server</title>
<para>
-There are two BOOTP servers available for GNU/Linux, the CMU
-<command>bootpd</command> and the other is actually a DHCP server, ISC
-<command>dhcpd</command>, which are contained in the
+There are two BOOTP servers available for GNU/Linux. The first is CMU
+<command>bootpd</command>. The other is actually a DHCP server: ISC
+<command>dhcpd</command>. In &debian; these are contained in the
<classname>bootp</classname> and <classname>dhcp</classname> packages
-in &debian;.
+respectively.
</para><para>
@@ -18,8 +18,8 @@ To use CMU <command>bootpd</command>, you must first uncomment (or
add) the relevant line in <filename>/etc/inetd.conf</filename>. On
&debian;, you can run <userinput>update-inetd --enable
bootps</userinput>, then <userinput>/etc/init.d/inetd
-reload</userinput> to do so. Elsewhere, the line in question should
-look like:
+reload</userinput> to do so. Just in case your BOOTP server does not
+run Debian, the line in question should look like:
<informalexample><screen>
bootps dgram udp wait root /usr/sbin/bootpd bootpd -i -t 120
diff --git a/en/install-methods/usb-setup/i386.xml b/en/install-methods/usb-setup/i386.xml
index 47c81e4ec..567a5e837 100644
--- a/en/install-methods/usb-setup/i386.xml
+++ b/en/install-methods/usb-setup/i386.xml
@@ -13,7 +13,7 @@ instead of the entire device.
Since most USB sticks come pre-configured with a single FAT16
partition, you probably won't have to repartition or reformat the
stick. If you have to do that anyway, use <command>cfdisk</command>
-or any other partitioning tool for creating a FAT16 partition and then
+or any other partitioning tool to create a FAT16 partition, and then
create the filesystem using:
<informalexample><screen>