Ppc64le: Difference between revisions

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This page is used to describe the ppc64le port.
This page is used to describe the [https://en.wikipedia.org/wiki/Ppc64 ppc64le] port.


== Testing (for developers) ==
= Testing (for developers) =


The hosting sponsor for the ppc64le port operate a miniCloud service which will provide Alpine ppc64le images for testing. For more information, google "openpower minicloud" (I would include a link but our wiki software is too paranoid apparently.  that's cool.)
The hosting sponsor for the '''ppc64le''' port operates a miniCloud service, which provides ppc64le images to Alpine for testing.


== Hardware ==
View [http://openpower.ic.unicamp.br/minicloud/ their] website for more info.


You can buy POWER8 hardware from IBM or other vendors, the IBM S812LC server is reasonably price competitive to similar x86 servers and fully supported by the ppc64le port.
= Hardware =
You can buy [https://en.wikipedia.org/wiki/POWER8 POWER8] hardware from IBM or from other vendors. For example, the '''IBM S812LC''' server is reasonably priced, competitive when compared to similar x86 servers, and is fully supported by the ppc64le port.


These are the IBM machines model that would support Alpine Linux:


* IBM Power System S821LC  
The following are the '''IBM''' machine models that would support Alpine Linux:
* IBM Power System S822LC for Big Data
* IBM Power System S821LC [http://www-03.ibm.com/systems/power/hardware/s821lc/index.html]
* IBM Power System S822LC for Commercial Computing  
* IBM Power System S822LC for Big Data [http://www-03.ibm.com/systems/power/hardware/s822lc-big-data/index.html]
* IBM Power System S822LC for High Performance Computing  
* IBM Power System S822LC for Commercial Computing [http://www-03.ibm.com/systems/power/hardware/s822lc-commercial/index.html]
* IBM Power System S812L and S822L  
* IBM Power System S822LC for High Performance Computing [IBM Power System S822LC for High Performance Computing]
* IBM Power System S824L  
* IBM Power System S812L and S822L [http://www-03.ibm.com/systems/power/hardware/s812l-s822l/index.html]
* IBM Power System S812  
* IBM Power System S824L [http://www-03.ibm.com/systems/power/hardware/s824l/index.html]
* IBM Power System S822
* IBM Power System S812 [http://www-03.ibm.com/systems/power/hardware/s812/index.html]
* IBM Power System S814
* IBM Power System S822 [http://www-03.ibm.com/systems/power/hardware/s822/index.html]
* IBM Power System S824  
* IBM Power System S814 [http://www-03.ibm.com/systems/power/hardware/s814/index.html]
* IBM Power Enterprise Systems for the cloud  
* IBM Power System S824 [http://www-03.ibm.com/systems/power/hardware/s824/index.html]
* IBM Power System E850C  
* IBM Power Enterprise Systems for the cloud [http://www-03.ibm.com/systems/power/hardware/enterprise-cloud/index.html]
* IBM Power System E850
* IBM Power System E850C [http://www-03.ibm.com/systems/power/hardware/e850c/index.html]
* IBM Power System E870  
* IBM Power System E850 [http://www-03.ibm.com/systems/power/hardware/e850/index.html]
* IBM Power System E880  
* IBM Power System E870 [http://www-03.ibm.com/systems/power/hardware/e870/index.html]
* Tyan TN76-BP016
* IBM Power System E880 [http://www-03.ibm.com/systems/power/hardware/e880/index.html]
* Tyan GT75-BP012
* Tyan TN71-BP012


== Installation ==


TODO
'''Tyan''' also has machines:
* Tyan TN76-BP016
* Tyan GT75-BP012
* Tyan TN71-BP012


== Archive status ==


Initial bringup on builders.
'''Open Power''' machines:
* Rackspace Barreleye [https://www.nextplatform.com/2015/10/19/rackspace-forges-first-barreleye-openpower-servers/]
* Google Zaius [https://cloudplatform.googleblog.com/2016/10/introducing-Zaius-Google-and-Rackspaces-open-server-running-IBM-POWER9.html]


Missing packages:
= Installation =


'''main'''
The Alpine 3.7.0 ppc64le ISO is available [http://rsync.alpinelinux.org/alpine/v3.7/releases/ppc64le/alpine-vanilla-3.7.0-ppc64le.iso here].


aiccu
The user login is '''root''' with no password.
apg
cmocka
collectd
compiler-rt
freeswitch
gdb
libgsasl
libquvi-scripts
linux-vanilla
lua-xml
luajit
nagios-plugins
ncftp(*)
opensmtpd
php5
pmacct
py-curl
py-imaging
qemu
ser2net
smokeping(*)
strace
valgrind
weechat
xf86-video-rendition


== Booting Alpine from CDROM using qemu ==


'''Testing''':
To start qemu using the Alpine ISO as cdrom, you can use a command similar to:
$ sudo qemu-system-ppc64 -device spapr-vlan,netdev=net0,mac=4C:45:42:45:79:F7 -netdev bridge,br=br0,id=net0 -enable-kvm -m 8G -smp 16,sockets=16,cores=1,threads=1 -nodefaults -nographic -serial stdio -cdrom alpine-vanilla-3.7.0.ppc64le.iso


afl
== Installing Alpine to hard-disk using qemu ==
aqbanking
audit
captagent
corkscrew
dante
dash
drawterm
dspam
etckeeper
exim
grub
hitch
jpegoptim
libcypher-parser
libgnomecanvas
libmhash
lldb
lxappearance-obconf
mlocate
mxml
ndctl
opensips
ossec-hids
perl-autobox
perl-www-curl
py-flake8-class
py-sphinxcontrib-programoutput
qperf
rapidjson
silc-client
slrn
thermald
timew
w_scan
wmi-client
xbps


Create a disk to install Alpine on it:
$ qemu-img create alpine_disk.img 16G


'''Community''':
Start qemu attaching the created disk and using Alpine ISO as cdrom. Here is an example of the qemu command:
$ sudo qemu-system-ppc64 -hda alpine_disk.img -device spapr-vlan,netdev=net0,mac=4C:45:42:45:79:F7 -netdev bridge,br=br0,id=net0 -enable-kvm -m 8G -smp 16,sockets=16,cores=1,threads=1 -nodefaults -nographic -serial stdio -cdrom alpine-vanilla-3.7.0-ppc64le.iso


cfengine(fixed)
Run the <code>setup-alpine</code> script:
chicken
$ setup-alpine
geany-plugins(*)
 
gns3-server
After running the <code>setup-alpine</code> script, select the disk (in this example, '''sda''') when the following configuration appears:
go-bootstrap
<pre>
irssi-xmpp
Available disks are:
libevhtp
sda  (17.2 GB QEMU    QEMU HARDDISK)
libtermkey
Which disk(s) would you like to use? (or '?' for help or 'none') [none] : sda
makepasswd(fixed)
</pre>
monitoring-plugins
 
mumudvb
When asked how you would like to use the disk, select '''sys''', and select '''yes''' when asked whether to erase the disk.
nodejs-current
 
obnam
The installation will format the disk properly.  After this finishes, type <code>reboot</code>.
ocaml
 
openblas
== Booting Alpine from CDROM using qemu and saving modifications between reboots ==
openjdk7
 
openlibm
When using Alpine in this mode, you need to use Alpine Local Backup (<code>lbu</code>) to save your modifications between reboots.  This requires some writable medium, usually removable.
perl-data-denter
 
perl-log-dispatch-config
Create a disk to save Alpine modifications:
perl-term-progressbar
$ qemu-img create alpine_disk.img 8G
psmisc
 
py-greenlet
Start qemu attaching the created disk and using Alpine ISO as cdrom. Here is the example of the qemu command:
py-pygit2
$ sudo qemu-system-ppc64 -hda alpine_disk.img -device spapr-vlan,netdev=net0,mac=4C:45:42:45:79:F7 -netdev bridge,br=br0,id=net0 -enable-kvm -m 8G -smp 16,sockets=16,cores=1,threads=1 -nodefaults -nographic -serial stdio -cdrom alpine-vanilla-3.7.0-ppc64le.iso 
py-sphinx-autobuild
 
raptor2
Format the attached disk and add it to the {{path|/etc/fstab}} file:
shadow
<pre>
vigra(fixed)
$ apk add e2fsprogs 
$ mkfs.ext4 /dev/sda  <br>
$ echo "/dev/sda        /media/sda      ext4    noauto,rw 0 0" >> /etc/fstab  <br>
$ mkdir /media/sda  <br>
$ mkdir /media/sda/cache <br>
</pre>
 
Set <code>lbu</code> to write to the attached disk, setting <code>LBU_MEDIA=sda</code> in the {{path|/etc/lbu/lbu.conf}} file.
 
Run the <code>setup-alpine</code> command, and select the following configurations when asked:
* Enter where to store configs: <code>('floppy', 'sda', 'usb' or 'none') [none]: sda </code>
* Enter apk cache directory <code>(or '?' or 'none') [/media/sda/cache]: /media/sda/cache</code>
 
The last step is to commit the changes:
$ lbu commit
 
After performing these configurations, you can reboot Alpine and the modifications will be saved. The next time a change happens, you just need to run the <code>lbu commit</code> command, as the configurations are already done.
 
It is important to know that, by default, <code>lbu</code> only cares about modifications in {{path|/etc}} and its subfolders, with the exception of {{path|/etc/init.d}}!
 
= See also =
* [[Alpine_local_backup|Alpine local backup]] - For more information about how to use <code>lbu</code> and how to include a new folder to backup.
 
= Reference =
* ABI - https://openpowerfoundation.org/?resource_lib=64-bit-elf-v2-abi-specification-power-architecture
 
[[Category:Hardware]]

Revision as of 05:58, 7 December 2017

This page is used to describe the ppc64le port.

Testing (for developers)

The hosting sponsor for the ppc64le port operates a miniCloud service, which provides ppc64le images to Alpine for testing.

View their website for more info.

Hardware

You can buy POWER8 hardware from IBM or from other vendors. For example, the IBM S812LC server is reasonably priced, competitive when compared to similar x86 servers, and is fully supported by the ppc64le port.


The following are the IBM machine models that would support Alpine Linux:

  • IBM Power System S821LC [1]
  • IBM Power System S822LC for Big Data [2]
  • IBM Power System S822LC for Commercial Computing [3]
  • IBM Power System S822LC for High Performance Computing [IBM Power System S822LC for High Performance Computing]
  • IBM Power System S812L and S822L [4]
  • IBM Power System S824L [5]
  • IBM Power System S812 [6]
  • IBM Power System S822 [7]
  • IBM Power System S814 [8]
  • IBM Power System S824 [9]
  • IBM Power Enterprise Systems for the cloud [10]
  • IBM Power System E850C [11]
  • IBM Power System E850 [12]
  • IBM Power System E870 [13]
  • IBM Power System E880 [14]


Tyan also has machines:

  • Tyan TN76-BP016
  • Tyan GT75-BP012
  • Tyan TN71-BP012


Open Power machines:

  • Rackspace Barreleye [15]
  • Google Zaius [16]

Installation

The Alpine 3.7.0 ppc64le ISO is available here.

The user login is root with no password.

Booting Alpine from CDROM using qemu

To start qemu using the Alpine ISO as cdrom, you can use a command similar to: 

$ sudo qemu-system-ppc64 -device spapr-vlan,netdev=net0,mac=4C:45:42:45:79:F7 -netdev bridge,br=br0,id=net0 -enable-kvm -m 8G -smp 16,sockets=16,cores=1,threads=1 -nodefaults -nographic -serial stdio -cdrom alpine-vanilla-3.7.0.ppc64le.iso

Installing Alpine to hard-disk using qemu

Create a disk to install Alpine on it: 

$ qemu-img create alpine_disk.img 16G

Start qemu attaching the created disk and using Alpine ISO as cdrom. Here is an example of the qemu command: 

$ sudo qemu-system-ppc64 -hda alpine_disk.img -device spapr-vlan,netdev=net0,mac=4C:45:42:45:79:F7 -netdev bridge,br=br0,id=net0 -enable-kvm -m 8G -smp 16,sockets=16,cores=1,threads=1 -nodefaults -nographic -serial stdio -cdrom alpine-vanilla-3.7.0-ppc64le.iso

Run the setup-alpine script: 

$ setup-alpine

After running the setup-alpine script, select the disk (in this example, sda) when the following configuration appears: 

Available disks are:
sda   (17.2 GB QEMU     QEMU HARDDISK)
Which disk(s) would you like to use? (or '?' for help or 'none') [none] : sda

When asked how you would like to use the disk, select sys, and select yes when asked whether to erase the disk.

The installation will format the disk properly. After this finishes, type reboot.

Booting Alpine from CDROM using qemu and saving modifications between reboots

When using Alpine in this mode, you need to use Alpine Local Backup (lbu) to save your modifications between reboots. This requires some writable medium, usually removable.

Create a disk to save Alpine modifications: 

$ qemu-img create alpine_disk.img 8G

Start qemu attaching the created disk and using Alpine ISO as cdrom. Here is the example of the qemu command: 

$ sudo qemu-system-ppc64 -hda alpine_disk.img -device spapr-vlan,netdev=net0,mac=4C:45:42:45:79:F7 -netdev bridge,br=br0,id=net0 -enable-kvm -m 8G -smp 16,sockets=16,cores=1,threads=1 -nodefaults -nographic -serial stdio -cdrom alpine-vanilla-3.7.0-ppc64le.iso

Format the attached disk and add it to the /etc/fstab file: 

$ apk add e2fsprogs  
$ mkfs.ext4 /dev/sda  <br>
$ echo "/dev/sda        /media/sda      ext4    noauto,rw 0 0" >> /etc/fstab  <br>
$ mkdir /media/sda  <br>
$ mkdir /media/sda/cache <br>

Set lbu to write to the attached disk, setting LBU_MEDIA=sda in the /etc/lbu/lbu.conf file.

Run the setup-alpine command, and select the following configurations when asked:

  • Enter where to store configs: ('floppy', 'sda', 'usb' or 'none') [none]: sda
  • Enter apk cache directory (or '?' or 'none') [/media/sda/cache]: /media/sda/cache

The last step is to commit the changes: 

$ lbu commit

After performing these configurations, you can reboot Alpine and the modifications will be saved. The next time a change happens, you just need to run the lbu commit command, as the configurations are already done.

It is important to know that, by default, lbu only cares about modifications in /etc and its subfolders, with the exception of /etc/init.d!

See also

  • Alpine local backup - For more information about how to use lbu and how to include a new folder to backup.

Reference

* ABI - https://openpowerfoundation.org/?resource_lib=64-bit-elf-v2-abi-specification-power-architecture
Retrieved from "https://wiki.alpinelinux.org/w/index.php?title=Ppc64le&oldid=14181"