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-rw-r--r--docs/bsd/freebsd.md16
-rw-r--r--docs/bsd/netbsd.md16
-rw-r--r--docs/bsd/openbsd.md16
-rw-r--r--docs/future/index.md6
-rw-r--r--docs/git/index.md28
-rw-r--r--docs/gnulinux/configuring_parabola.md50
-rw-r--r--docs/gnulinux/encrypted_debian.md10
-rw-r--r--docs/gnulinux/encrypted_parabola.md116
-rw-r--r--docs/gnulinux/grub_boot_installer.md26
-rw-r--r--docs/gnulinux/grub_cbfs.md8
-rw-r--r--docs/grub/index.md4
-rw-r--r--docs/hardware/t60_security.md4
-rw-r--r--docs/hardware/x60_security.md2
-rw-r--r--docs/hcl/gm45_remove_me.md6
-rw-r--r--docs/hcl/index.md2
-rw-r--r--docs/hcl/t500.md2
-rw-r--r--docs/index.md6
-rw-r--r--docs/install/bbb_setup.md12
-rw-r--r--docs/install/c201.md16
-rw-r--r--docs/install/index.md2
-rw-r--r--docs/install/r400_external.md6
-rw-r--r--docs/install/t400_external.md4
-rw-r--r--docs/install/t500_external.md4
-rw-r--r--docs/install/x200_external.md4
-rw-r--r--docs/misc/index.md12
-rw-r--r--docs/misc/patch.md2
26 files changed, 190 insertions, 190 deletions
diff --git a/docs/bsd/freebsd.md b/docs/bsd/freebsd.md
index be607260..b442d49e 100644
--- a/docs/bsd/freebsd.md
+++ b/docs/bsd/freebsd.md
@@ -62,17 +62,17 @@ If you downloaded your ISO on a LibertyBSD or OpenBSD system, here is
how to create the bootable FreeBSD USB drive:
Connect the USB drive. Check dmesg:\
-**$ dmesg | tail**\
+ $ dmesg | tail
Check to confirm which drive it is, for example, if you think its sd3:\
**$ disklabel sd3**
Check that it wasn't automatically mounted. If it was, unmount it. For
example:\
-**$ doas umount /dev/sd3i**\
+ $ doas umount /dev/sd3i
dmesg told you what device it is. Overwrite the drive, writing the
FreeBSD installer to it with dd. For example:\
-**$ doas dd if=freebsd.img of=/dev/rsdXc bs=1M; sync**\
+ $ doas dd if=freebsd.img of=/dev/rsdXc bs=1M; sync
You should now be able to boot the installer from your USB drive.
Continue reading, for information about how to do that.
@@ -85,18 +85,18 @@ If you downloaded your ISO on a GNU+Linux system, here is how to create
the bootable FreeBSD USB drive:
Connect the USB drive. Check dmesg:\
-**$ dmesg**\
+ $ dmesg
Check lsblk to confirm which drive it is:\
**$ lsblk**
Check that it wasn't automatically mounted. If it was, unmount it. For
example:\
-**$ sudo umount /dev/sdX***\
+ $ sudo umount /dev/sdX*
**\# umount /dev/sdX***
dmesg told you what device it is. Overwrite the drive, writing your
distro ISO to it with dd. For example:\
-**$ sudo dd if=freebsd.img of=/dev/sdX bs=8M; sync**\
+ $ sudo dd if=freebsd.img of=/dev/sdX bs=8M; sync
**\# dd if=freebsd.img of=/dev/sdX bs=8M; sync**
You should now be able to boot the installer from your USB drive.
@@ -110,8 +110,8 @@ Installing FreeBSD without full disk encryption
Press C in GRUB to access the command line:
-grub> **kfreebsd (usb0,gpt3)/boot/kernel/kernel**\
-grub> **set FreeBSD.vfs.mountfrom=ufs:/dev/da1p3**\
+grub> kfreebsd (usb0,gpt3)/boot/kernel/kernel
+grub> set FreeBSD.vfs.mountfrom=ufs:/dev/da1p3
grub> **boot**
It will start booting into the FreeBSD installer. Follow the normal
diff --git a/docs/bsd/netbsd.md b/docs/bsd/netbsd.md
index 821d7fb9..92204878 100644
--- a/docs/bsd/netbsd.md
+++ b/docs/bsd/netbsd.md
@@ -58,17 +58,17 @@ If you downloaded your ISO on a LibertyBSD or NetBSD system, here is how
to create the bootable NetBSD USB drive:
Connect the USB drive. Check dmesg:\
-**$ dmesg | tail**\
+ $ dmesg | tail
Check to confirm which drive it is, for example, if you think its sd3:\
**$ disklabel sd3**
Check that it wasn't automatically mounted. If it was, unmount it. For
example:\
-**$ doas umount /dev/sd3i**\
+ $ doas umount /dev/sd3i
dmesg told you what device it is. Overwrite the drive, writing the
NetBSD installer to it with dd. For example:\
-**$ doas netbsd.iso of=/dev/rsdXc bs=1M; sync**\
+ $ doas netbsd.iso of=/dev/rsdXc bs=1M; sync
You should now be able to boot the installer from your USB drive.
Continue reading, for information about how to do that.
@@ -81,18 +81,18 @@ If you downloaded your ISO on a GNU+Linux system, here is how to create
the bootable NetBSD USB drive:
Connect the USB drive. Check dmesg:\
-**$ dmesg**\
+ $ dmesg
Check lsblk to confirm which drive it is:\
**$ lsblk**
Check that it wasn't automatically mounted. If it was, unmount it. For
example:\
-**$ sudo umount /dev/sdX***\
+ $ sudo umount /dev/sdX*
**\# umount /dev/sdX***
dmesg told you what device it is. Overwrite the drive, writing your
distro ISO to it with dd. For example:\
-**$ sudo dd if=install60.fs of=/dev/sdX bs=8M; sync**\
+ $ sudo dd if=install60.fs of=/dev/sdX bs=8M; sync
**\# dd if=netbsd.iso of=/dev/sdX bs=8M; sync**
You should now be able to boot the installer from your USB drive.
@@ -107,7 +107,7 @@ Installing NetBSD without full disk encryption
You might have to use an external USB keyboard during the installation.
Press C to access the GRUB terminal.
-grub> **knetbsd -r sd0a (usb0,netbsd1)/netbsd**\
+grub> knetbsd -r sd0a (usb0,netbsd1)/netbsd
grub> **boot**
It will start booting into the NetBSD installer. Follow the normal
@@ -129,7 +129,7 @@ Booting
Press C in GRUB to access the command line:
-grub> **knetbsd -r wd0a (ahci0,netbsd1)/netbsd**\
+grub> knetbsd -r wd0a (ahci0,netbsd1)/netbsd
grub> **boot**
NetBSD will start booting. Yay!
diff --git a/docs/bsd/openbsd.md b/docs/bsd/openbsd.md
index 92c18128..fdfd99d2 100644
--- a/docs/bsd/openbsd.md
+++ b/docs/bsd/openbsd.md
@@ -40,17 +40,17 @@ If you downloaded your ISO on a LibertyBSD or OpenBSD system, here is
how to create the bootable LibertyBSD/OpenBSD USB drive:
Connect the USB drive. Check dmesg:\
-**$ dmesg | tail**\
+ $ dmesg | tail
Check to confirm which drive it is, for example, if you think its sd3:\
**$ disklabel sd3**
Check that it wasn't automatically mounted. If it was, unmount it. For
example:\
-**$ doas umount /dev/sd3i**\
+ $ doas umount /dev/sd3i
dmesg told you what device it is. Overwrite the drive, writing the
OpenBSD installer to it with dd. For example:\
-**$ doas dd if=install60.fs of=/dev/rsdXc bs=1M; sync**\
+ $ doas dd if=install60.fs of=/dev/rsdXc bs=1M; sync
You should now be able to boot the installer from your USB drive.
Continue reading, for information about how to do that.
@@ -80,18 +80,18 @@ If you downloaded your ISO on a GNU+Linux system, here is how to create
the bootable OpenBSD USB drive:
Connect the USB drive. Check dmesg:\
-**$ dmesg**\
+ $ dmesg
Check lsblk to confirm which drive it is:\
**$ lsblk**
Check that it wasn't automatically mounted. If it was, unmount it. For
example:\
-**$ sudo umount /dev/sdX***\
+ $ sudo umount /dev/sdX*
**\# umount /dev/sdX***
dmesg told you what device it is. Overwrite the drive, writing your
distro ISO to it with dd. For example:\
-**$ sudo dd if=install60.fs of=/dev/sdX bs=8M; sync**\
+ $ sudo dd if=install60.fs of=/dev/sdX bs=8M; sync
**\# dd if=install60.fs of=/dev/sdX bs=8M; sync**
You should now be able to boot the installer from your USB drive.
@@ -105,7 +105,7 @@ Installing OpenBSD without full disk encryption
Press C in GRUB to access the command line:
-grub> **kopenbsd (usb0,openbsd1)/6.0/amd64/bsd.rd**\
+grub> kopenbsd (usb0,openbsd1)/6.0/amd64/bsd.rd
grub> **boot**
It will start booting into the OpenBSD installer. Follow the normal
@@ -150,7 +150,7 @@ Booting
Press C in GRUB to access the command line:
-grub> **kopenbsd -r sd0a (ahci0,openbsd1)/bsd**\
+grub> kopenbsd -r sd0a (ahci0,openbsd1)/bsd
grub> **boot**
OpenBSD will start booting. Yay!
diff --git a/docs/future/index.md b/docs/future/index.md
index 9ecfa870..d4959d81 100644
--- a/docs/future/index.md
+++ b/docs/future/index.md
@@ -160,10 +160,10 @@ working and nonworking panels.
How to dump EDID:
-\# **apt-get install i2c-tools**\
-\# **modprobe i2c-dev**\
+\# apt-get install i2c-tools
+\# modprobe i2c-dev
Find out the correct ID to use:\
-\# **i2cdetect -l**\
+\# i2cdetect -l
Example:\
\# **i2cdump -y 2 0x50**
diff --git a/docs/git/index.md b/docs/git/index.md
index 97dc3a67..2ab88eeb 100644
--- a/docs/git/index.md
+++ b/docs/git/index.md
@@ -33,11 +33,11 @@ statically compiled executables for the utilities are included.**
For Debian Stretch (may also work on Debian Jessie), you can run the
following command:\
-$ **sudo ./oldbuild dependencies debian**\
+$ sudo ./oldbuild dependencies debian
(this will also work in Devuan)
For Parabola, you can run the following command:\
-$ **sudo ./oldbuild dependencies parabola**\
+$ sudo ./oldbuild dependencies parabola
or:\
\# **./oldbuild dependencies parabola**
@@ -63,17 +63,17 @@ First, [install the build dependencies](#build_dependencies).
Since libreboot makes extensive use of git, you need to configure git
properly. If you have not yet configured git, then the minimum
requirement is:\
-$ **git config \--global user.name "Your Name"**\
-$ **git config \--global user.email your@emailaddress.com**\
+$ git config \--global user.name "Your Name"
+$ git config \--global user.email your@emailaddress.com
This is what will also appear in git logs if you ever commit your own
changes to a given repository. For more information, see
<http://git-scm.com/doc>.
Another nice config for you (optional, but recommended):\
-$ **git config \--global core.editor nano**\
-$ **git config \--global color.status auto**\
-$ **git config \--global color.branch auto**\
-$ **git config \--global color.interactive auto**\
+$ git config \--global core.editor nano
+$ git config \--global color.status auto
+$ git config \--global color.branch auto
+$ git config \--global color.interactive auto
$ **git config \--global color.diff auto**
After that, run the script:\
@@ -221,12 +221,12 @@ modulename*. To see the possible values for *modulename*, use:\
$ **./oldbuild module list**
After that, build the ROM images (for all boards):\
-$ **./oldbuild roms withgrub**\
+$ ./oldbuild roms withgrub
Alternatively, you can build for a specific board or set of boards. For
example:\
-$ **./oldbuild roms withgrub x60**\
-$ **./oldbuild roms withgrub x200\_8mb**\
-$ **./oldbuild roms withgrub x60 x200\_8mb**\
+$ ./oldbuild roms withgrub x60
+$ ./oldbuild roms withgrub x200\_8mb
+$ ./oldbuild roms withgrub x60 x200\_8mb
The list of board options can be found by looking at the directory names
in **resources/libreboot/config/grub/**.
@@ -304,7 +304,7 @@ libreboot\_util, for:
If you are building binaries on a live system or chroot (for
flashrom/bucts), you can use the following to statically link them:\
-$ **./oldbuild module flashrom static**\
+$ ./oldbuild module flashrom static
$ **./oldbuild module bucts static**
The same conditions as above apply for ARM (except, building bucts on
@@ -315,7 +315,7 @@ restrictions).
The command that you used for generating the release archives will also
run the following command:\
-$ **./oldbuild release tobuild**\
+$ ./oldbuild release tobuild
The archive **tobuild.tar.xz** will have been created under
**release/oldbuildsystem/**, containing bucts, flashrom and all other
required resources for building them.
diff --git a/docs/gnulinux/configuring_parabola.md b/docs/gnulinux/configuring_parabola.md
index 1742ecf3..76870bda 100644
--- a/docs/gnulinux/configuring_parabola.md
+++ b/docs/gnulinux/configuring_parabola.md
@@ -97,9 +97,9 @@ careful about this when reading anything on the Arch wiki.
Some of these steps require internet access. I'll go into networking
later but for now, I just connected my system to a switch and did:\
-\# **systemctl start dhcpcd.service**\
+\# systemctl start dhcpcd.service
You can stop it later by running:\
-\# **systemctl stop dhcpcd.service**\
+\# systemctl stop dhcpcd.service
For most people this should be enough, but if you don't have DHCP on
your network then you should setup your network connection first:\
[Setup network connection in Parabola](#network)
@@ -129,7 +129,7 @@ Updating Parabola {#pacman_update}
In the end, I didn't change my configuration for pacman. When you are
updating, resync with the latest package names/versions:\
-\# **pacman -Syy**\
+\# pacman -Syy
(according to the wiki, -Syy is better than Sy because it refreshes the
package list even if it appears to be up to date, which can be useful
when switching to another mirror).\
@@ -208,7 +208,7 @@ caches available. Only do this if you are sure that you won't need it.
The wiki also mentions this method for removing everything from the
cache, including currently installed packages that are cached:\
-\# **pacman -Scc**\
+\# pacman -Scc
This is inadvisable, since it means re-downloading the package again if
you wanted to quickly re-install it. This should only be used when disk
space is at a premium.
@@ -254,7 +254,7 @@ access to the entire operating system.
Read the entire document linked to above, and then continue.
Add your user:\
-\# **useradd -m -G wheel -s /bin/bash *yourusername***\
+\# useradd -m -G wheel -s /bin/bash *yourusername*
Set a password:\
\# **passwd *yourusername***
@@ -282,7 +282,7 @@ the background behind the decision by Arch (Parabola's upstream
supplier) to use systemd.
The manpage should also help:\
-\# **man systemd**\
+\# man systemd
The section on 'unit types' is especially useful.
According to the wiki, systemd 'journal' keeps logs of a size up to
@@ -313,9 +313,9 @@ delete older records when the journal size reaches it's limit
Finally, the wiki mentions 'temporary' files and the utility for
managing them.\
-\# **man systemd-tmpfiles**\
+\# man systemd-tmpfiles
The command for 'clean' is:\
-\# **systemd-tmpfiles \--clean**\
+\# systemd-tmpfiles \--clean
According to the manpage, this *"cleans all files and directories with
an age parameter"*. According to the Arch wiki, this reads information
in /etc/tmpfiles.d/ and /usr/lib/tmpfiles.d/ to know what actions to
@@ -325,7 +325,7 @@ locations to get a better understanding.
I looked in /etc/tmpfiles.d/ and found that it was empty on my system.
However, /usr/lib/tmpfiles.d/ contained some files. The first one was
etc.conf, containing information and a reference to this manpage:\
-\# **man tmpfiles.d**\
+\# man tmpfiles.d
Read that manpage, and then continue studying all the files.
The systemd developers tell me that it isn't usually necessary to touch
@@ -373,11 +373,11 @@ Read <https://wiki.archlinux.org/index.php/Configuring_Network>.
This should be the same as the hostname that you set in /etc/hostname
when installing Parabola. You can also do it with systemd (do so now, if
you like):\
-\# **hostnamectl set-hostname *yourhostname***\
+\# hostnamectl set-hostname *yourhostname*
This writes the specified hostname to /etc/hostname. More information
can be found in these manpages:\
-\# **man hostname**\
-\# **info hostname**\
+\# man hostname
+\# info hostname
\# **man hostnamectl**
Add the same hostname to /etc/hosts, on each line. Example:\
@@ -463,7 +463,7 @@ is important, so make sure to read them!**
Install smartmontools (it can be used to check smart data. HDDs use
non-free firmware inside, but it's transparent to you but the smart
data comes from it. Therefore, don't rely on it too much):\
-\# **pacman -S smartmontools**\
+\# pacman -S smartmontools
Read <https://wiki.archlinux.org/index.php/S.M.A.R.T.> to learn how to
use it.
@@ -488,23 +488,23 @@ provide LXDE by default.
Based on <https://wiki.archlinux.org/index.php/Xorg>.
Firstly, install it!\
-\# **pacman -S xorg-server**\
+\# pacman -S xorg-server
I also recommend installing this (contains lots of useful tools,
including *xrandr*):\
\# **pacman -S xorg-server-utils**
Install the driver. For me this was *xf86-video-intel* on the ThinkPad
X60. T60 and macbook11/21 should be the same.\
-\# **pacman -S xf86-video-intel**\
+\# pacman -S xf86-video-intel
For other systems you can try:\
-\# **pacman -Ss xf86-video- | less**\
+\# pacman -Ss xf86-video- | less
Combined with looking at your *lspci* output, you can determine which
driver is needed. By default, Xorg will revert to xf86-video-vesa which
is a generic driver and doesn't provide true hardware acceleration.
Other drivers (not just video) can be found by looking at the
*xorg-drivers* group:\
-\# **pacman -Sg xorg-drivers**\
+\# pacman -Sg xorg-drivers
Mostly you will rely on a display manager, but in case you ever want to
start X without one:\
@@ -512,9 +512,9 @@ start X without one:\
<optional>\
   Arch wiki recommends installing these, for testing that X works:\
-   \# **pacman -S xorg-twm xorg-xclock xterm**\
+   \# pacman -S xorg-twm xorg-xclock xterm
   Refer to <https://wiki.archlinux.org/index.php/Xinitrc>. and test X:\
-   \# **startx**\
+   \# startx
   When you are satisfied, type ***exit*** in xterm, inside the X
session.\
   Uninstall them (clutter. eww): \# **pacman -S xorg-xinit xorg-twm
@@ -601,7 +601,7 @@ I also like to install these:\
\# **pacman -S xsensors stress htop**
Enable LXDM (the default display manager, providing a graphical login):\
-\# **systemctl enable lxdm.service**\
+\# systemctl enable lxdm.service
It will start when you boot up the system. To start it now, do:\
\# **systemctl start lxdm.service**
@@ -611,7 +611,7 @@ start lxde without lxdm. Read
<https://wiki.archlinux.org/index.php/Xinitrc>.
Open LXterminal:\
-$ **cp /etc/skel/.xinitrc \~**\
+$ cp /etc/skel/.xinitrc \~
Open .xinitrc and add the following plus a line break at the bottom of
the file.\
*\# Probably not needed. The same locale info that we set before\
@@ -702,7 +702,7 @@ Install Network Manager:\
\# **pacman -S networkmanager**
You will also want the graphical applet:\
-\# **pacman -S network-manager-applet**\
+\# pacman -S network-manager-applet
Arch wiki says that an autostart rule will be written at
*/etc/xdg/autostart/nm-applet.desktop*
@@ -714,13 +714,13 @@ LXDE uses openbox, so I refer to:\
<https://wiki.archlinux.org/index.php/NetworkManager#Openbox>.
It tells me for the applet I need:\
-\# **pacman -S xfce4-notifyd gnome-icon-theme**\
+\# pacman -S xfce4-notifyd gnome-icon-theme
Also, for storing authentication details (wifi) I need:\
\# **pacman -S gnome-keyring**
I wanted to quickly enable networkmanager:\
-\# **systemctl stop dhcpcd**\
-\# **systemctl start NetworkManager**\
+\# systemctl stop dhcpcd
+\# systemctl start NetworkManager
Enable NetworkManager at boot time:\
\# **systemctl enable NetworkManager**
diff --git a/docs/gnulinux/encrypted_debian.md b/docs/gnulinux/encrypted_debian.md
index 58644179..dd8e44da 100644
--- a/docs/gnulinux/encrypted_debian.md
+++ b/docs/gnulinux/encrypted_debian.md
@@ -187,11 +187,11 @@ At this point, you will have finished the installation. At your GRUB
payload, press C to get to the command line.
Do that:\
-grub> **cryptomount -a**\
-grub> **set root='lvm/matrix-rootvol'**\
+grub> cryptomount -a
+grub> set root='lvm/matrix-rootvol'
grub> **linux /vmlinuz root=/dev/mapper/matrix-rootvol
cryptdevice=/dev/mapper/matrix-rootvol:root**\
-grub> **initrd /initrd.img**\
+grub> initrd /initrd.img
grub> **boot**
@@ -222,8 +222,8 @@ Modify your grub.cfg (in the firmware) [using this
tutorial](grub_cbfs.html); just change the default menu entry 'Load
Operating System' to say this inside:
-**cryptomount -a**\
-**set root='lvm/matrix-rootvol'**\
+ cryptomount -a
+ set root='lvm/matrix-rootvol'
**linux /vmlinuz root=/dev/mapper/matrix-rootvol
cryptdevice=/dev/mapper/matrix-rootvol:root**\
**initrd /initrd.img**
diff --git a/docs/gnulinux/encrypted_parabola.md b/docs/gnulinux/encrypted_parabola.md
index 0c4bfca7..f04b969a 100644
--- a/docs/gnulinux/encrypted_parabola.md
+++ b/docs/gnulinux/encrypted_parabola.md
@@ -71,7 +71,7 @@ article](https://wiki.archlinux.org/index.php/Solid_State_Drives). Edit
whole article and keep all points in mind, adapting them for this guide.
Securely wipe the drive:\
-\# **dd if=/dev/urandom of=/dev/sda; sync**\
+\# dd if=/dev/urandom of=/dev/sda; sync
NOTE: If you have an SSD, only do this the first time. If it was already
LUKS-encrypted before, use the info below to wipe the LUKS header. Also,
check online for your SSD what the recommended erase block size is. For
@@ -85,7 +85,7 @@ header.
showed me how to do this. It recommends doing the first 3MiB. Now, that
guide is recommending putting zero there. I'm going to use urandom. Do
this:\
-\# **head -c 3145728 /dev/urandom > /dev/sda; sync**\
+\# head -c 3145728 /dev/urandom > /dev/sda; sync
(Wiping the LUKS header is important, since it has hashed passphrases
and so on. It's 'secure', but 'potentially' a risk).
@@ -96,8 +96,8 @@ Change keyboard layout
Parabola live shell assumes US Qwerty. If you have something different,
list the available keymaps and use yours:\
-\# **localectl list-keymaps**\
-\# **loadkeys LAYOUT**\
+\# localectl list-keymaps
+\# loadkeys LAYOUT
For me, LAYOUT would have been dvorak-uk.
@@ -155,7 +155,7 @@ It tells me to run:\
\# **cryptsetup benchmark** (for making sure the list below is
populated)\
Then:\
-\# **cat /proc/crypto**\
+\# cat /proc/crypto
This gives me crypto options that I can use. It also provides a
representation of the best way to set up LUKS (in this case, security is
a priority; speed, a distant second). To gain a better understanding, I
@@ -187,17 +187,17 @@ Create LVM
Now I refer to <https://wiki.archlinux.org/index.php/LVM>.
Open the LUKS partition:\
-\# **cryptsetup luksOpen /dev/sda1 lvm**\
+\# cryptsetup luksOpen /dev/sda1 lvm
(it will be available at /dev/mapper/lvm)
Create LVM partition:\
-\# **pvcreate /dev/mapper/lvm**\
+\# pvcreate /dev/mapper/lvm
Show that you just created it:\
\# **pvdisplay**
Now I create the volume group, inside of which the logical volumes will
be created:\
-\# **vgcreate matrix /dev/mapper/lvm**\
+\# vgcreate matrix /dev/mapper/lvm
(volume group name is 'matrix' - choose your own name, if you like)
Show that you created it:\
\# **vgdisplay**
@@ -227,7 +227,7 @@ Create / and swap partitions, and mount
---------------------------------------
For the swapvol LV I use:\
-\# **mkswap /dev/mapper/matrix-swapvol**\
+\# mkswap /dev/mapper/matrix-swapvol
Activate swap:\
\# **swapon /dev/matrix/swapvol**
@@ -250,7 +250,7 @@ Now I am following the rest of
referenced <https://wiki.archlinux.org/index.php/Installation_guide>.
Create /home and /boot on root mountpoint:\
-\# **mkdir -p /mnt/home**\
+\# mkdir -p /mnt/home
\# **mkdir -p /mnt/boot**
Once all the remaining partitions, if any, have been mounted, the
@@ -259,8 +259,8 @@ devices are ready to install Parabola.
In **/etc/pacman.d/mirrorlist**, comment out all lines except the Server
line closest to where you are (I chose the UK Parabola server (main
server)) and then did:\
-\# **pacman -Syy**\
-\# **pacman -Syu**\
+\# pacman -Syy
+\# pacman -Syu
\# **pacman -Sy pacman** (and then I did the other 2 steps above,
again)\
In my case I did the steps in the next paragraph, and followed the steps
@@ -272,23 +272,23 @@ the Parabola install guide.\
   Check there first to see if steps differ by now.\
   Now you have to update the default Parabola keyring. This is used for
signing and verifying packages:\
-   \# **pacman -Sy parabola-keyring**\
+   \# pacman -Sy parabola-keyring
   It says that if you get GPG errors, then it's probably an expired
key and, therefore, you should do:\
-   \# **pacman-key \--populate parabola**\
-   \# **pacman-key \--refresh-keys**\
-   \# **pacman -Sy parabola-keyring**\
+   \# pacman-key \--populate parabola
+   \# pacman-key \--refresh-keys
+   \# pacman -Sy parabola-keyring
   To be honest, you should do the above anyway. Parabola has a lot of
maintainers, and a lot of keys. Really!\
   If you get an error mentioning dirmngr, do:\
-   \# **dirmngr </dev/null**\
+   \# dirmngr </dev/null
   Also, it says that if the clock is set incorrectly then you have to
manually set the correct time\
   (if keys are listed as expired because of it):\
-   \# **date MMDDhhmm\[\[CC\]YY\]\[.ss\]**\
+   \# date MMDDhhmm\[\[CC\]YY\]\[.ss\]
   I also had to install:\
-   \# **pacman -S archlinux-keyring**\
-   \# **pacman-key \--populate archlinux**\
+   \# pacman -S archlinux-keyring
+   \# pacman-key \--populate archlinux
   In my case I saw some conflicting files reported in pacman, stopping
me from using it.\
   I deleted the files that it mentioned and then it worked.
@@ -296,7 +296,7 @@ Specifically, I had this error:\
   *licenses: /usr/share/licenses/common/MPS exists in filesystem*\
   I rm -Rf'd the file and then pacman worked. I'm told that the
following would have also made it work:\
-   \# **pacman -Sf licenses**\
+   \# pacman -Sf licenses
</troubleshooting>\
I also like to install other packages (base-devel, compilers and so on)
@@ -313,9 +313,9 @@ Configure the system
Generate an fstab - UUIDs are used because they have certain advantages
(see <https://wiki.parabola.nu/Fstab#Identifying_filesystems>. If you
prefer labels instead, replace the -U option with -L):\
-\# **genfstab -U -p /mnt >> /mnt/etc/fstab**\
+\# genfstab -U -p /mnt >> /mnt/etc/fstab
Check the created file:\
-\# **cat /mnt/etc/fstab**\
+\# cat /mnt/etc/fstab
(If there are any errors, edit the file. Do **NOT** run the genfstab
command again!)
@@ -338,22 +338,22 @@ Parabola does not have wget. This is sinister. Install it:\
\# **pacman -S wget**
Locale:\
-\# **vi /etc/locale.gen**\
+\# vi /etc/locale.gen
Uncomment your needed localisations. For example en\_GB.UTF-8 (UTF-8 is
highly recommended over other options).\
-\# **locale-gen**\
-\# **echo LANG=en\_GB.UTF-8 > /etc/locale.conf**\
+\# locale-gen
+\# echo LANG=en\_GB.UTF-8 > /etc/locale.conf
\# **export LANG=en\_GB.UTF-8**
Console font and keymap:\
-\# **vi /etc/vconsole.conf**\
+\# vi /etc/vconsole.conf
In my case:
KEYMAP=dvorak-uk
FONT=lat9w-16
Time zone:\
-\# **ln -s /usr/share/zoneinfo/Europe/London /etc/localtime**\
+\# ln -s /usr/share/zoneinfo/Europe/London /etc/localtime
(Replace Zone and Subzone to your liking. See /usr/share/zoneinfo)
Hardware clock:\
@@ -361,9 +361,9 @@ Hardware clock:\
Hostname: Write your hostname to /etc/hostname. For example, if your
hostname is parabola:\
-\# **echo parabola > /etc/hostname**\
+\# echo parabola > /etc/hostname
Add the same hostname to /etc/hosts:\
-\# **vi /etc/hosts**\
+\# vi /etc/hosts
#<ip-address> <hostname.domain.org> <hostname>
127.0.0.1 localhost.localdomain localhost parabola
@@ -377,7 +377,7 @@ Mkinitcpio: Configure /etc/mkinitcpio.conf as needed (see
/usr/lib/initcpio/hooks, and build hooks can be found in
/usr/lib/initcpio/install. (\# **mkinitcpio -H hookname** gives
information about each hook.) Specifically, for this use case:\
-\# **vi /etc/mkinitcpio.conf**\
+\# vi /etc/mkinitcpio.conf
Then modify the file like so:
- MODULES="i915"
@@ -402,18 +402,18 @@ Then modify the file like so:
Now using mkinitcpio, you can create the kernel and ramdisk for booting
with (this is different from Arch, specifying linux-libre instead of
linux):\
-\# **mkinitcpio -p linux-libre**\
+\# mkinitcpio -p linux-libre
Also do it for linux-libre-lts:\
-\# **mkinitcpio -p linux-libre-lts**\
+\# mkinitcpio -p linux-libre-lts
Also do it for linux-libre-grsec:\
\# **mkinitcpio -p linux-libre-grsec**
Set the root password: At the time of writing, Parabola used SHA512 by
default for its password hashing. I referred to
<https://wiki.archlinux.org/index.php/SHA_password_hashes>.\
-\# **vi /etc/pam.d/passwd**\
+\# vi /etc/pam.d/passwd
Add rounds=65536 at the end of the uncommented 'password' line.\
-\# **passwd root**\
+\# passwd root
Make sure to set a secure password! Also, it must never be the same as
your LUKS password.
@@ -455,17 +455,17 @@ Exit from chroot:\
\# **exit**
unmount:\
-\# **umount -R /mnt**\
+\# umount -R /mnt
\# **swapoff -a**
deactivate the lvm lv's:\
-\# **lvchange -an /dev/matrix/root**\
-\# **lvchange -an /dev/matrix/swapvol**\
+\# lvchange -an /dev/matrix/root
+\# lvchange -an /dev/matrix/swapvol
Lock the encrypted partition (close it):\
\# **cryptsetup luksClose lvm**
-\# **shutdown -h now**\
+\# shutdown -h now
Remove the installation media, then boot up again.
@@ -477,12 +477,12 @@ Initially you will have to boot manually. Press C to get to the GRUB
command line. The underlined parts are optional (using those 2
underlines will boot lts kernel instead of normal).
-grub> **cryptomount -a**\
-grub> **set root='lvm/matrix-root'**\
+grub> cryptomount -a
+grub> set root='lvm/matrix-root'
grub> **linux /boot/vmlinuz-linux-libre-lts root=/dev/matrix/root
cryptdevice=/dev/sda1:root**\
-grub> **initrd /boot/initramfs-linux-libre-lts.img**\
-grub> **boot**\
+grub> initrd /boot/initramfs-linux-libre-lts.img
+grub> boot
You could also make it load /boot/vmlinuz-linux-libre-grsec and
/boot/initramfs-linux-libre-grsec.img
@@ -521,14 +521,14 @@ I will go for the re-flash option here. Firstly, cd to the
libreboot\_util/cbfstool/{armv7l i686 x86\_64} directory. Dump the
current firmware - where *libreboot.rom* is an example: make sure to
adapt:\
-\# **flashrom -p internal -r libreboot.rom**\
+\# flashrom -p internal -r libreboot.rom
If flashrom complains about multiple flash chips detected, add a *-c*
option at the end, with the name of your chosen chip is quotes.\
You can check if everything is in there (*grub.cfg* and *grubtest.cfg*
would be really nice):\
-$ **./cbfstool libreboot.rom print**\
+$ ./cbfstool libreboot.rom print
Extract grubtest.cfg:\
-$ **./cbfstool libreboot.rom extract -n grubtest.cfg -f grubtest.cfg**\
+$ ./cbfstool libreboot.rom extract -n grubtest.cfg -f grubtest.cfg
And modify:\
$ **vi grubtest.cfg**
@@ -559,18 +559,18 @@ hardening your GRUB configuration, for security purposes.
Save your changes in grubtest.cfg, then delete the unmodified config
from the ROM image:\
-$ **./cbfstool libreboot.rom remove -n grubtest.cfg**\
+$ ./cbfstool libreboot.rom remove -n grubtest.cfg
and insert the modified grubtest.cfg:\
$ **./cbfstool libreboot.rom add -n grubtest.cfg -f grubtest.cfg -t
raw**\
Now refer to <http://libreboot.org/docs/install/#flashrom>. Cd (up) to
the libreboot\_util directory and update the flash chip contents:\
-\# **./flash update libreboot.rom**\
+\# ./flash update libreboot.rom
Ocassionally, coreboot changes the name of a given board. If flashrom
complains about a board mismatch, but you are sure that you chose the
correct ROM image, then run this alternative command:\
-\# **./flash forceupdate libreboot.rom**\
+\# ./flash forceupdate libreboot.rom
You should see "Verifying flash\... VERIFIED." written at the end of
the flashrom output.
@@ -601,14 +601,14 @@ $ **sed -e 's:(cbfsdisk)/grub.cfg:(cbfsdisk)/grubtest.cfg:g' -e
's:Switch to grub.cfg:Switch to grubtest.cfg:g' < grubtest.cfg >
grub.cfg**\
Delete the grub.cfg that remained inside the ROM:\
-$ **./cbfstool libreboot.rom remove -n grub.cfg**\
+$ ./cbfstool libreboot.rom remove -n grub.cfg
Add the modified version that you just made:\
-$ **./cbfstool libreboot.rom add -n grub.cfg -f grub.cfg -t raw**\
+$ ./cbfstool libreboot.rom add -n grub.cfg -f grub.cfg -t raw
Now you have a modified ROM. Once more, refer to
<http://libreboot.org/docs/install/#flashrom>. Cd to the libreboot\_util
directory and update the flash chip contents:\
-\# **./flash update libreboot.rom**\
+\# ./flash update libreboot.rom
And wait for the "Verifying flash\... VERIFIED." Once you have done
that, shut down and then boot up with your new configuration.
@@ -640,17 +640,17 @@ Boot up and login as root or your user. Then generate the key file:\
\# **dd bs=512 count=4 if=/dev/urandom of=/etc/mykeyfile
iflag=fullblock**\
Insert it into the luks volume:\
-\# **cryptsetup luksAddKey /dev/sdX /etc/mykeyfile**\
+\# cryptsetup luksAddKey /dev/sdX /etc/mykeyfile
and enter your LUKS passphrase when prompted. Add the keyfile to the
initramfs by adding it to FILES in /etc/mkinitcpio.conf. For example:\
-\# **FILES="/etc/mykeyfile"**\
+\# FILES="/etc/mykeyfile"
Create the initramfs image from scratch:\
-\# **mkinitcpio -p linux-libre**\
-\# **mkinitcpio -p linux-libre-lts**\
-\# **mkinitcpio -p linux-libre-grsec**\
+\# mkinitcpio -p linux-libre
+\# mkinitcpio -p linux-libre-lts
+\# mkinitcpio -p linux-libre-grsec
Add the following to your grub.cfg - you are now able to do that, see
above! -, or add it in the kernel command line for GRUB:\
-\# **cryptkey=rootfs:/etc/mykeyfile**\
+\# cryptkey=rootfs:/etc/mykeyfile
\
You can also place this inside the grub.cfg that exists in CBFS:
[grub\_cbfs.html](grub_cbfs.html).
diff --git a/docs/gnulinux/grub_boot_installer.md b/docs/gnulinux/grub_boot_installer.md
index 368bb785..592b20f7 100644
--- a/docs/gnulinux/grub_boot_installer.md
+++ b/docs/gnulinux/grub_boot_installer.md
@@ -31,18 +31,18 @@ If you downloaded your ISO on an existing GNU+Linux system, here is how
to create the bootable GNU+Linux USB drive:
Connect the USB drive. Check dmesg:\
-**$ dmesg**\
+ $ dmesg
Check lsblk to confirm which drive it is:\
**$ lsblk**
Check that it wasn't automatically mounted. If it was, unmount it. For
example:\
-**$ sudo umount /dev/sdX***\
+ $ sudo umount /dev/sdX*
**\# umount /dev/sdX***
dmesg told you what device it is. Overwrite the drive, writing your
distro ISO to it with dd. For example:\
-**$ sudo dd if=gnulinux.iso of=/dev/sdX bs=8M; sync**\
+ $ sudo dd if=gnulinux.iso of=/dev/sdX bs=8M; sync
**\# dd if=gnulinux.iso of=/dev/sdX bs=8M; sync**
You should now be able to boot the installer from your USB drive.
@@ -73,17 +73,17 @@ If you downloaded your ISO on a LibertyBSD or OpenBSD system, here is
how to create the bootable GNU+Linux USB drive:
Connect the USB drive. Check dmesg:\
-**$ dmesg | tail**\
+ $ dmesg | tail
Check to confirm which drive it is, for example, if you think its sd3:\
**$ disklabel sd3**
Check that it wasn't automatically mounted. If it was, unmount it. For
example:\
-**$ doas umount /dev/sd3i**\
+ $ doas umount /dev/sd3i
dmesg told you what device it is. Overwrite the drive, writing the
OpenBSD installer to it with dd. For example:\
-**$ doas dd if=gnulinux.iso of=/dev/rsdXc bs=1M; sync**\
+ $ doas dd if=gnulinux.iso of=/dev/rsdXc bs=1M; sync
You should now be able to boot the installer from your USB drive.
Continue reading, for information about how to do that.
@@ -143,13 +143,13 @@ distribution it is that you are trying to install.*
If the ISOLINUX parser or *Search for GRUB configuration* options won't
work, then press C in GRUB to access the command line.\
-grub> **ls**\
+grub> ls
Get the device from above output, eg (usb0). Example:\
-grub> **cat (usb0)/isolinux/isolinux.cfg**\
+grub> cat (usb0)/isolinux/isolinux.cfg
Either this will show the ISOLINUX menuentries for that ISO, or link to
other .cfg files, for example /isolinux/foo.cfg.\
If it did that, then you do:\
-grub> **cat (usb0)/isolinux/foo.cfg**\
+grub> cat (usb0)/isolinux/foo.cfg
And so on, until you find the correct menuentries for ISOLINUX. **The
file */isolinux/foo.cfg* is a fictional example. Do not actually use
this example, unless you actually have that file, if it is
@@ -170,10 +170,10 @@ Now look at the ISOLINUX menuentry. It'll look like:\
append PARAMETERS initrd=/path/to/initrd MAYBE\_MORE\_PARAMETERS\
** GRUB works the same way, but in it's own way. Example GRUB
commands:\
-grub> **set root='usb0'**\
-grub> **linux /path/to/kernel PARAMETERS MAYBE\_MORE\_PARAMETERS**\
-grub> **initrd /path/to/initrd**\
-grub> **boot**\
+grub> set root='usb0'
+grub> linux /path/to/kernel PARAMETERS MAYBE\_MORE\_PARAMETERS
+grub> initrd /path/to/initrd
+grub> boot
Note: *usb0* may be incorrect. Check the output of the *ls* command in
GRUB, to see a list of USB devices/partitions. Of course this will vary
from distro to distro. If you did all of that correctly, then it should
diff --git a/docs/gnulinux/grub_cbfs.md b/docs/gnulinux/grub_cbfs.md
index 692f89e6..9eb55c27 100644
--- a/docs/gnulinux/grub_cbfs.md
+++ b/docs/gnulinux/grub_cbfs.md
@@ -141,8 +141,8 @@ image file is named *libreboot.rom*, so please make sure to adapt.
ROM images are included pre-compiled in libreboot. You can also dump
your current firmware, using flashrom:\
-$ **sudo flashrom -p internal -r libreboot.rom**\
-\# **flashrom -p internal -r libreboot.rom**\
+$ sudo flashrom -p internal -r libreboot.rom
+\# flashrom -p internal -r libreboot.rom
If you are told to specify the chip, add the option **-c {your chip}**
to the command, for example:\
\# **flashrom -c MX25L6405 -p internal -r libreboot.rom**
@@ -193,11 +193,11 @@ Testing
**Now you have a modified ROM. Refer back to
[../install/\#flashrom](../install/#flashrom) for information on how to
flash it.\
-$ **cd /libreboot\_util** \# **./flash update libreboot.rom**\
+$ cd /libreboot\_util** \# **./flash update libreboot.rom
Ocassionally, coreboot changes the name of a given board. If flashrom
complains about a board mismatch, but you are sure that you chose the
correct ROM image, then run this alternative command:\
-\# **./flash forceupdate libreboot.rom**\
+\# ./flash forceupdate libreboot.rom
You should see **"Verifying flash\... VERIFIED."** written at the end
of the flashrom output. Once you have done that, shut down and then boot
up with your new test configuration.**
diff --git a/docs/grub/index.md b/docs/grub/index.md
index 7aab0789..3f509179 100644
--- a/docs/grub/index.md
+++ b/docs/grub/index.md
@@ -47,7 +47,7 @@ one](http://sourceforge.net/projects/dejavu/files/dejavu/2.34/dejavu-fonts-ttf-2
This is a free font that is also contained in GNU+Linux distributions
like Debian, Devuan or Parabola.
-**$ cd libreboot\_src/grub**\
+ $ cd libreboot\_src/grub
compile grub (the build scripts info on how to do this)\
come back out into libreboot\_src/resources/grub:\
**$ cd ../libreboot\_src/resources/grub/font**
@@ -77,7 +77,7 @@ Custom keyboard layout in GRUB (for reference) {#grub_custom_keyboard}
Keymaps are stored in resources/utilities/grub-assemble/keymap/.
Example (French Azerty):\
-**$ ckbcomp fr > frazerty**\
+ $ ckbcomp fr > frazerty
\
Go in grub directory:\
**cat frazerty | ./grub/grub-mklayout -o frazerty.gkb**
diff --git a/docs/hardware/t60_security.md b/docs/hardware/t60_security.md
index 93000c80..0799403d 100644
--- a/docs/hardware/t60_security.md
+++ b/docs/hardware/t60_security.md
@@ -127,7 +127,7 @@ system:\
Remove microphone (soldering iron not needed. Just wedge it out
gently):\
![](../images/t60_dev/0039.JPG)\
-**Rationale:**\
+ Rationale:
Another reason to remove the microphone: If your computer
gets[\[1\]](#ref1) compromised, it can record what you say, and use it
to receive data from nearby devices if they're compromised too. Also,
@@ -142,7 +142,7 @@ Remove infrared:\
Remove cardbus (it's in a socket, no need to disable. Just remove the
port itself):\
![](../images/t60_dev/0041.JPG)\
-**Rationale:**\
+ Rationale:
It has direct memory access and can be used to extract sensitive details
(such as LUKS keys). See 'GoodBIOS' video linked at the end (speaker
is Peter Stuge, a coreboot hacker). The video covers X60 but the same
diff --git a/docs/hardware/x60_security.md b/docs/hardware/x60_security.md
index 25ae32a6..865b3f8f 100644
--- a/docs/hardware/x60_security.md
+++ b/docs/hardware/x60_security.md
@@ -93,7 +93,7 @@ it wasn't needed). **This is optional**
Remove the microphone (can desolder it, but you can also easily pull it
off with you hands). Already removed here:\
![](../images/x60_security/0001_microphone.jpg)\
-**Rationale:**\
+ Rationale:
Another reason to remove the microphone: If your computer
gets[\[1\]](#ref1) compromised, it can record what you say, and use it
to receive data from nearby devices if they're compromised too. Also,
diff --git a/docs/hcl/gm45_remove_me.md b/docs/hcl/gm45_remove_me.md
index 41288307..19719476 100644
--- a/docs/hcl/gm45_remove_me.md
+++ b/docs/hcl/gm45_remove_me.md
@@ -41,7 +41,7 @@ factory.bin dump.
ich9gen executables can be found under ./ich9deblob/ statically compiled
in libreboot\_util. If you are using src or git, build ich9gen from
source with:\
-$ **./oldbuild module ich9deblob**\
+$ ./oldbuild module ich9deblob
The executable will appear under resources/utilities/ich9deblob/
Run:\
@@ -71,7 +71,7 @@ On GM45 laptops that use flash descriptors, the MAC address or the
onboard ethernet chipset is flashed (inside the ROM image). You should
generate a descriptor+gbe image with your own MAC address inside (with
the Gbe checksum updated to match). Run:\
-$ **./ich9gen \--macaddress XX:XX:XX:XX:XX:XX**\
+$ ./ich9gen \--macaddress XX:XX:XX:XX:XX:XX
(replace the XX chars with the hexadecimal chars in the MAC address that
you want)
@@ -166,7 +166,7 @@ If you are working with libreboot\_src (or git), you can find the source
under resources/utilities/ich9deblob/ and will already be compiled if
you ran **./oldbuild module all** or **./oldbuild module ich9deblob**
from the main directory (./), otherwise you can build it like so:\
-$ **./oldbuild module ich9deblob**\
+$ ./oldbuild module ich9deblob
An executable file named **ich9deblob** will now appear under
resources/utilities/ich9deblob/
diff --git a/docs/hcl/index.md b/docs/hcl/index.md
index d96fdc24..911ae35b 100644
--- a/docs/hcl/index.md
+++ b/docs/hcl/index.md
@@ -435,7 +435,7 @@ the macbook2,1. They are included here in case the main site goes down
for whatever reason, since they include a lot of useful information.
Backups created using wget:\
-**$ wget -m -p -E -k -K -np http://macbook.donderklumpen.de/**\
+ $ wget -m -p -E -k -K -np http://macbook.donderklumpen.de/
**$ wget -m -p -E -k -K -np
http://macbook.donderklumpen.de/coreboot/**\
Use **-e robots=off** if using this trick for other sites and the site
diff --git a/docs/hcl/t500.md b/docs/hcl/t500.md
index d4ceab13..6d814c99 100644
--- a/docs/hcl/t500.md
+++ b/docs/hcl/t500.md
@@ -82,7 +82,7 @@ The patches above are based on the output from ich9deblob on a
factory.rom image dumped from the T500 with a SOIC-8 4MiB flash chip.
The patch re-creates the X200 descriptor/gbe source, so the commands
were something like:\
-$ **diff -u t500gbe x200gbe**\
+$ diff -u t500gbe x200gbe
$ **diff -u t500descriptor x200descriptor**
ME VSCC table is in a different place and a different size on the T500.
diff --git a/docs/index.md b/docs/index.md
index 11588b7f..5608d6da 100644
--- a/docs/index.md
+++ b/docs/index.md
@@ -167,7 +167,7 @@ If you are at least 127 commits after release 20150518 (commit message
**upstream** stable release of libreboot after 20150518), then you can
press C at the GRUB console, and use this command to find out what
version of libreboot you have:\
-**cat (cbfsdisk)/lbversion**\
+ cat (cbfsdisk)/lbversion
This will also work on non-release images (the version string is
automatically generated, using *git describe \--tags HEAD*), built from
the git repository. A file named *version* will also be included in the
@@ -177,7 +177,7 @@ If it exists, you can also extract this *lbversion* file by using the
*cbfstool* utility which libreboot includes, from a ROM image that you
either dumped or haven't flashed yet. In your distribution, run
cbfstool on your ROM image (*libreboot.rom*, in this example):\
-$ **./cbfstool libreboot.rom extract -n lbversion -f lbversion**\
+$ ./cbfstool libreboot.rom extract -n lbversion -f lbversion
You will now have a file, named *lbversion*, which you can read in
whatever program it is that you use for reading/writing text files.
@@ -188,7 +188,7 @@ repository below 127 commits after 20150518, you can find a file named
*commitid* inside the archives. If you are using pre-built ROM images
from the libreboot project, you can press C in GRUB for access to the
terminal, and then run this command:\
-**lscoreboot**\
+ lscoreboot
You may find a date in here, detailing when that ROM image was built.
For pre-built images distributed by the libreboot project, this is a
rough approximation of what version you have, because the version
diff --git a/docs/install/bbb_setup.md b/docs/install/bbb_setup.md
index aa03b85d..244bd8e0 100644
--- a/docs/install/bbb_setup.md
+++ b/docs/install/bbb_setup.md
@@ -158,7 +158,7 @@ Alternatives to SSH (in case SSH fails)
You can also use a serial FTDI debug board with GNU Screen, to access
the serial console.\
-\# **screen /dev/ttyUSB0 115200**\
+\# screen /dev/ttyUSB0 115200
Here are some example photos:\
![](images/x200/ftdi.jpg) ![](images/x200/ftdi_port.jpg)\
@@ -211,14 +211,14 @@ contents of this file with:
Run **apt-get update** and **apt-get upgrade** then reboot the BBB,
before continuing.
Check that the firmware exists:\
-\# **ls /lib/firmware/BB-SPI0-01-00A0.***\
+\# ls /lib/firmware/BB-SPI0-01-00A0.*
Output:
/lib/firmware/BB-SPI0-01-00A0.dtbo
Then:\
-\# **echo BB-SPI0-01 > /sys/devices/bone\_capemgr.*/slots**\
-\# **cat /sys/devices/bone\_capemgr.*/slots**\
+\# echo BB-SPI0-01 > /sys/devices/bone\_capemgr.*/slots
+\# cat /sys/devices/bone\_capemgr.*/slots
Output:
0: 54:PF---
@@ -230,7 +230,7 @@ Output:
7: ff:P-O-L Override Board Name,00A0,Override Manuf,BB-SPI0-01
Verify that the spidev device now exists:\
-\# **ls -al /dev/spid***\
+\# ls -al /dev/spid*
Output:
crw-rw---T 1 root spi 153, 0 Nov 19 21:07 /dev/spidev1.0
@@ -253,7 +253,7 @@ Finally, get the ROM image that you would like to flash and put that on
your BBB.
Now test flashrom:\
-\# **./flashrom -p linux\_spi:dev=/dev/spidev1.0,spispeed=512**\
+\# ./flashrom -p linux\_spi:dev=/dev/spidev1.0,spispeed=512
Output:
Calibrating delay loop... OK.
diff --git a/docs/install/c201.md b/docs/install/c201.md
index d04ba2b0..da6e3499 100644
--- a/docs/install/c201.md
+++ b/docs/install/c201.md
@@ -148,20 +148,20 @@ transferred to the device.
The following operations have to be executed with root privileges on the
device (e.g. using the *root* account). In addition, the
**cros-flash-replace** script has to be made executable:\
-\# **chmod a+x cros-flash-replace**\
+\# chmod a+x cros-flash-replace
The SPI flash has to be read first:\
-\# **flashrom -p host -r flash.img**\
+\# flashrom -p host -r flash.img
**Note: it might be a good idea to copy the produced flash.img file at
this point and store it outside of the device for backup purposes.**
Then, the **cros-flash-replace** script has to be executed as such:\
-\# **./cros-flash-replace flash.img coreboot ro-frid**\
+\# ./cros-flash-replace flash.img coreboot ro-frid
If any error is shown, it is definitely a bad idea to go further than
this point.
The resulting flash image can then be flashed back:\
-\# **flashrom -p host -w flash.img**\
+\# flashrom -p host -w flash.img
You should also see within the output the following:\
**"Verifying flash\... VERIFIED."**
@@ -195,21 +195,21 @@ transferred to the host.
The following operations have to be executed with root privileges on the
host (e.g. using the *root* account). In addition, the
**cros-flash-replace** script has to be made executable:\
-\# **chmod a+x cros-flash-replace**\
+\# chmod a+x cros-flash-replace
The SPI flash has to be read first (using the right spi programmer):\
-\# **flashrom -p *programmer* -r flash.img**\
+\# flashrom -p *programmer* -r flash.img
**Note: it might be a good idea to copy the produced flash.img file at
this point and store it outside of the device for backup purposes.**
Then, the **cros-flash-replace** script has to be executed as such:\
-\# **./cros-flash-replace flash.img coreboot ro-frid**\
+\# ./cros-flash-replace flash.img coreboot ro-frid
If any error is shown, it is definitely a bad idea to go further than
this point.
The resulting flash image can then be flashed back (using the right spi
programmer):\
-\# **flashrom -p *programmer* -w flash.img**\
+\# flashrom -p *programmer* -w flash.img
You should also see within the output the following:\
**"Verifying flash\... VERIFIED."**
diff --git a/docs/install/index.md b/docs/install/index.md
index fd988dfa..ac59f60d 100644
--- a/docs/install/index.md
+++ b/docs/install/index.md
@@ -330,7 +330,7 @@ are swapped"**.
You should also see within the output the following:\
**"Your flash chip is in an unknown state"**, **"FAILED"** and
-**"DO NOT REBOOT OR POWEROFF"**\
+ "DO NOT REBOOT OR POWEROFF"
Seeing this means that the operation was a **resounding** success!
**DON'T PANIC**.
diff --git a/docs/install/r400_external.md b/docs/install/r400_external.md
index 21303e01..19f3a5fd 100644
--- a/docs/install/r400_external.md
+++ b/docs/install/r400_external.md
@@ -73,7 +73,7 @@ Flash chip size {#flashchips}
===============
Use this to find out:\
-\# **flashrom -p internal -V**\
+\# flashrom -p internal -V
[Back to top of page.](#pagetop)
@@ -231,7 +231,7 @@ Log in as root on your BBB, using the instructions in
[bbb\_setup.html\#bbb\_access](bbb_setup.html#bbb_access).
Test that flashrom works:\
-\# **./flashrom -p linux\_spi:dev=/dev/spidev1.0,spispeed=512**\
+\# ./flashrom -p linux\_spi:dev=/dev/spidev1.0,spispeed=512
In this case, the output was:
flashrom v0.9.7-r1854 on Linux 3.8.13-bone47 (armv7l)
@@ -255,7 +255,7 @@ Note: the **-c** option is not required in libreboot's patched
flashrom, because the redundant flash chip definitions in *flashchips.c*
have been removed.\
Now compare the 3 images:\
-\# **sha512sum factory*.rom**\
+\# sha512sum factory*.rom
If the hashes match, then just copy one of them (the factory.rom) to a
safe place (on a drive connected to another system, not the BBB). This
is useful for reverse engineering work, if there is a desirable
diff --git a/docs/install/t400_external.md b/docs/install/t400_external.md
index 014ace48..1d9ea3ed 100644
--- a/docs/install/t400_external.md
+++ b/docs/install/t400_external.md
@@ -237,7 +237,7 @@ Log in as root on your BBB, using the instructions in
[bbb\_setup.html\#bbb\_access](bbb_setup.html#bbb_access).
Test that flashrom works:\
-\# **./flashrom -p linux\_spi:dev=/dev/spidev1.0,spispeed=512**\
+\# ./flashrom -p linux\_spi:dev=/dev/spidev1.0,spispeed=512
In this case, the output was:
flashrom v0.9.7-r1854 on Linux 3.8.13-bone47 (armv7l)
@@ -261,7 +261,7 @@ Note: the **-c** option is not required in libreboot's patched
flashrom, because the redundant flash chip definitions in *flashchips.c*
have been removed.\
Now compare the 3 images:\
-\# **sha512sum factory*.rom**\
+\# sha512sum factory*.rom
If the hashes match, then just copy one of them (the factory.rom) to a
safe place (on a drive connected to another system, not the BBB). This
is useful for reverse engineering work, if there is a desirable
diff --git a/docs/install/t500_external.md b/docs/install/t500_external.md
index 83524252..e49886ec 100644
--- a/docs/install/t500_external.md
+++ b/docs/install/t500_external.md
@@ -242,7 +242,7 @@ Log in as root on your BBB, using the instructions in
[bbb\_setup.html\#bbb\_access](bbb_setup.html#bbb_access).
Test that flashrom works:\
-\# **./flashrom -p linux\_spi:dev=/dev/spidev1.0,spispeed=512**\
+\# ./flashrom -p linux\_spi:dev=/dev/spidev1.0,spispeed=512
In this case, the output was:
flashrom v0.9.7-r1854 on Linux 3.8.13-bone47 (armv7l)
@@ -266,7 +266,7 @@ Note: the **-c** option is not required in libreboot's patched
flashrom, because the redundant flash chip definitions in *flashchips.c*
have been removed.\
Now compare the 3 images:\
-\# **sha512sum factory*.rom**\
+\# sha512sum factory*.rom
If the hashes match, then just copy one of them (the factory.rom) to a
safe place (on a drive connected to another system, not the BBB). This
is useful for reverse engineering work, if there is a desirable
diff --git a/docs/install/x200_external.md b/docs/install/x200_external.md
index 3146c2e7..128f80af 100644
--- a/docs/install/x200_external.md
+++ b/docs/install/x200_external.md
@@ -171,7 +171,7 @@ Log in as root on your BBB, using the instructions in
[bbb\_setup.html\#bbb\_access](bbb_setup.html#bbb_access).
Test that flashrom works:\
-\# **./flashrom -p linux\_spi:dev=/dev/spidev1.0,spispeed=512**\
+\# ./flashrom -p linux\_spi:dev=/dev/spidev1.0,spispeed=512
In this case, the output was:
flashrom v0.9.7-r1854 on Linux 3.8.13-bone47 (armv7l)
@@ -195,7 +195,7 @@ Note: the **-c** option is not required in libreboot's patched
flashrom, because the redundant flash chip definitions in *flashchips.c*
have been removed.\
Now compare the 3 images:\
-\# **sha512sum factory*.rom**\
+\# sha512sum factory*.rom
If the hashes match, then just copy one of them (the factory.rom) to a
safe place (on a drive connected to another system, not the BBB). This
is useful for reverse engineering work, if there is a desirable
diff --git a/docs/misc/index.md b/docs/misc/index.md
index 23c40197..ce4ec4ea 100644
--- a/docs/misc/index.md
+++ b/docs/misc/index.md
@@ -80,7 +80,7 @@ and added the following to /etc/systemd/system/powertop.service :
WantedBy=multi-user.target
Finally, as root do that:\
-**\# systemctl enable powertop**\
+ \# systemctl enable powertop
**\# systemctl start powertop**
The next time you boot the system, the buzz will be gone.
@@ -227,11 +227,11 @@ is included in libreboot, and can be used to enable or disable this
behaviour.
Disable or enable beeps when removing/adding the charger:\
-$ **sudo ./nvramtool -w power\_management\_beeps=Enable**\
+$ sudo ./nvramtool -w power\_management\_beeps=Enable
$ **sudo ./nvramtool -w power\_management\_beeps=Disable**
Disable or enable beeps when battery is low:\
-$ **sudo ./nvramtool -w low\_battery\_beep=Enable**\
+$ sudo ./nvramtool -w low\_battery\_beep=Enable
$ **sudo ./nvramtool -w low\_battery\_beep=Disable**
A reboot is required, for these changes to take effect.
@@ -241,15 +241,15 @@ A reboot is required, for these changes to take effect.
Get EDID: Find out the name (model) of your LCD panel {#get_edid_panelname}
=====================================================
-Get the panel name with **sudo get-edid | strings**\
+Get the panel name with sudo get-edid | strings
Or look in **/sys/class/drm/card0-LVDS-1/edid**
Alternatively you can use i2cdump. In Debian and Devuan, this is in the
package i2c-tools.\
-$ **sudo modprobe i2c-dev**\
+$ sudo modprobe i2c-dev
$ **sudo i2cdump -y 5 0x50** (you might have to change the value for
-y)\
-$ **sudo rmmod i2c-dev**\
+$ sudo rmmod i2c-dev
You'll see the panel name in the output (from the EDID dump).
If neither of these options work (or they are unavailable), physically
diff --git a/docs/misc/patch.md b/docs/misc/patch.md
index ee594a9e..07b53b03 100644
--- a/docs/misc/patch.md
+++ b/docs/misc/patch.md
@@ -76,7 +76,7 @@ Note the git revision that you did this with:\
**$ git log**
Alternatively (better yet), commit your changes and then use:\
-$ **git format-patch -N**\
+$ git format-patch -N
Replace N with the number of commits that you want to show.
[Back to top of page.](#pagetop)