brl
5789f1b122
git-subtree-dir: meta-intel git-subtree-split: c811c0b33862a2f911fe2afdd2054958b1f28e40
482 lines
19 KiB
Plaintext
482 lines
19 KiB
Plaintext
meta-intel
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==========
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This README file contains information on building and booting
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meta-intel BSP layers. Please see the corresponding sections below
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for details.
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Yocto Project Compatible
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========================
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The BSPs contained in this layer are compatible with the Yocto Project
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as per the requirements listed here:
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https://www.yoctoproject.org/webform/yocto-project-compatible-registration
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Dependencies
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============
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This layer depends on:
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URI: git://git.openembedded.org/bitbake
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branch: 1.34
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URI: git://git.openembedded.org/openembedded-core
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layers: meta
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branch: rocko
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Table of Contents
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=================
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I. Overview
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II. Building and booting meta-intel BSP layers
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a. Building the intel-common and quark BSP layers
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b. Booting the intel-common BSP images
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c. Booting the intel-quark BSP image on a Galileo board
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III. Technical Miscellany
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Benefits of using meta-intel
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The intel-common kernel package architecture
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Intel-specific machine features
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IV. Tested Hardware
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V. Guidelines for submitting patches
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I. Overview
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===========
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This is the location for Intel-maintained BSPs.
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For details on the intel-common and intel-quark BSPs, see the
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information below.
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For all others, please see the README files contained in the
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individual BSP layers for BSP-specific information.
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If you have problems with or questions about a particular BSP, please
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contact the maintainer listed in the MAINTAINERS file directly (cc:ing
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the Yocto mailing list puts it in the archive and helps other people
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who might have the same questions in the future), but please try to do
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the following first:
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- look in the Yocto Project Bugzilla
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(http://bugzilla.yoctoproject.org/) to see if a problem has
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already been reported
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- look through recent entries of the meta-intel
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(https://lists.yoctoproject.org/pipermail/meta-intel/) and Yocto
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(https://lists.yoctoproject.org/pipermail/yocto/) mailing list
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archives to see if other people have run into similar problems or
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had similar questions answered.
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If you believe you have encountered a bug, you can open a new bug and
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enter the details in the Yocto Project Bugzilla
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(http://bugzilla.yoctoproject.org/). If you're relatively certain
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that it's a bug against the BSP itself, please use the 'Yocto Project
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Components: BSPs | meta-intel' category for the bug; otherwise, please
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submit the bug against the most likely category for the problem - if
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you're wrong, it's not a big deal and the bug will be recategorized
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upon triage.
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II. Building and booting meta-intel BSP layers
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==============================================
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The following sections contain information on building and booting the
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BSPs contained in the meta-intel layer.
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Note that these instructions specifically cover the intel-common and
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quark BSPs, which may or may not be applicable to other BSPs contained
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in this layer - if a given BSP contains its own README, that version
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should be used instead, and these instructions can be ignored.
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a. Building the intel-common and quark BSP layers
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-------------------------------------------------
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In order to build an image with BSP support for a given release, you
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need to download the corresponding BSP tarball from the 'Board Support
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Package (BSP) Downloads' page of the Yocto Project website (or
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equivalently, check out the appropriate branch from the meta-intel git
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repository, see below). For the intel-common and quark BSPs, those
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tarballs would correspond to the following choices in the BSP
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downloads section:
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- Intel-core2-32 Intel® Common Core BSP (Intel-core2-32)
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- Intel-core2-32 Intel® Common Core BSP (Intel-quark)
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- Intel-corei7-64 Intel® Common Core BSP (Intel-corei7-64)
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The intel-* BSPs, also known as the intel-common BSPs, provide a few
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carefully selected tune options and generic hardware support to cover
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the majority of current Intel CPUs and devices. The naming follows the
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convention of intel-<TUNE>-<BITS>, where TUNE is the gcc cpu-type
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(used with mtune and march typically) and BITS is either 32 bit or 64
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bit.
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Having done that, and assuming you extracted the BSP tarball contents
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at the top-level of your yocto build tree, you can build a BSP image
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by adding the location of the meta-intel layer to bblayers.conf e.g.:
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yocto/meta-intel \
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To enable a particular machine, you need to add a MACHINE line naming
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the BSP to the local.conf file:
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MACHINE ?= "xxx"
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where 'xxx' is replaced by one of the following BSP names:
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- intel-core2-32
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This BSP is optimized for the Core2 family of CPUs as well as all
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Atom CPUs prior to the Silvermont core.
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- intel-corei7-64
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This BSP is optimized for Nehalem and later Core and Xeon CPUs as
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well as Silvermont and later Atom CPUs, such as the Baytrail SoCs.
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- intel-quark
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This BSP is optimized for Quark-based systems.
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You should then be able to build an image as such:
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$ source oe-init-build-env
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$ bitbake core-image-sato
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At the end of a successful build, you should have an image that
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you can boot from a USB flash drive (see instructions on how to do
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that below, in the section 'Booting the intel-common BSP images').
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As an alternative to downloading the BSP tarball, you can also work
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directly from the meta-intel git repository. For each BSP in the
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'meta-intel' repository, there are multiple branches, one
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corresponding to each major release starting with 'laverne' (0.90), in
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addition to the latest code which tracks the current master (note that
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not all BSPs are present in every release). Instead of extracting
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a BSP tarball at the top level of your yocto build tree, you can
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equivalently check out the appropriate branch from the meta-intel
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repository at the same location.
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b. Booting the intel-common BSP images
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--------------------------------------
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If you downloaded the BSP tarball, you will find bootable images in
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the /binary directory. If you've built your own image, either from
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the downloaded BSP layer or from the meta-intel git repository, you'll
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find the bootable image in the build/tmp/deploy/images/xxx directory,
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where again 'xxx' refers to the machine name used in the build.
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The BSP /binary directory or build contains bootable live images,
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which can be used to directly boot Yocto off of a USB flash drive.
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Under Linux, insert a USB flash drive. Assuming the USB flash drive
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takes device /dev/sdf, use dd to copy the image to it. For example:
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$ dd if=core-image-sato-intel-corei7-64.wic of=/dev/sdf
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$ sync
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$ eject /dev/sdf
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This should give you a bootable USB flash device. Insert the device
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into a bootable USB socket on the target, and power on. This should
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result in a system booted to the Sato graphical desktop.
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If you want a terminal, use the arrows at the top of the UI to move to
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different pages of available applications, one of which is named
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'Terminal'. Clicking that should give you a root terminal.
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If you want to ssh into the system, you can use the root terminal to
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ifconfig the IP address and use that to ssh in. The root password is
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empty, so to log in type 'root' for the user name and hit 'Enter' at
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the Password prompt: and you should be in.
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If you find you're getting corrupt images on the USB (it doesn't show
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the syslinux boot: prompt, or the boot: prompt contains strange
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characters), try doing this first:
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$ dd if=/dev/zero of=/dev/sdf bs=1M count=512
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c. Booting the intel-quark BSP image on a Galileo board
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-------------------------------------------------------
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If you downloaded the BSP tarball, you will find bootable images in
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the /binary directory. If you've built your own image, either from
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the downloaded BSP layer or from the meta-intel git repository, you'll
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find the bootable image in the build/tmp/deploy/images/xxx directory,
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where again 'xxx' refers to the machine name used in the build.
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The Galileo board can boot off of either an SD card or USB storage
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media that has a special disk layout. The 'wic' tool can be used to
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create directly bootable images for either of the two formats via the
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following steps. As of meta-intel 6.0-morty-2.2 or newer, wic images are
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created automatically during build time, and the manual use of wic is
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not necessary. By default, the galileodisk-sd wic kickstart file is used,
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which targets SD cards. This can be changed by setting the WKS_FILE to
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something else in local.conf, such as the following:
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WKS_FILE = “galileodisk-usb”
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If your build is successful, a .wic image will be created in the usual
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deploy directory. Write this image to an SD card:
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$ sudo dd if=/path/to/image/image-name.wic of=/dev/your_sd_dev
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$ sync
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$ sudo eject /dev/your_sd_dev
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Insert the SD card into the Galileo and power on.
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The Galileo board can boot from an hddimg formatted USB drive as well,
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but currently only live-boot, and not installation, is supported.
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An image in hddimg format is generated when you build the quark BSP.
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You can follow the procedure in II.b to use dd command to prepare your USB
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drive, then press F7 key during startup to bring up the boot option menu.
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Choose the UEFI USB boot option for the drive to boot the system. If the board
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already passes this stage and show a grub boot menu, you can press 'c'
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key and then type "quit" in grub shell. The board should come back to
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the UEFI boot menu.
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III. Technical Miscellany
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=========================
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Benefits of using meta-intel
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----------------------------
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Using meta-intel has the following benefits over a generic BSP:
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tune flags
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++++++++++
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intel-* MACHINEs each have different compilation flags appropriate for their
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targeted hardware sets. intel-corei7-64 has tune flags appropriate for modern
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64-bit Intel Core i microarchitecture, and includes instruction sets up to
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SSE4.2. intel-core2-32 has tune flags appropriate for legacy 32-bit Intel Core2
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microarchitecture, and includes instruction sets up to SSE3. intel-quark
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contains a subset of the intel-core2-32 instruction set, as quark does not
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support prefix locking instructions.
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linux-intel kernel
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++++++++++++++++++
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The linux-intel kernel is an initiative to bring better Intel(R) hardware
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support to the current LTS linux kernel. It contains a base LTS kernel with
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additional backports from upstream Intel drivers. In addition, a default kernel
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config containing most features found on Intel boards is supplied via the
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yocto-kernel-cache.
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graphics stack
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++++++++++++++
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Meta-intel provides the latest Intel Graphics Linux Stack drivers to support
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Intel hardware as defined by the https://01.org/linuxgraphics.
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Other software
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++++++++++++++
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* intel ucode - provides the latest microcode updates for Intel processors
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* thermald - which proactively controls thermal, using P-states, T-states, and
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the Intel power clamp driver.
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(https://01.org/linux-thermal-daemon/documentation/introduction-thermal-daemon)
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* RMC - Runtime Machine Configuration, which allows the bootload to determine
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board and CPU information in order to set specific kernel command line
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information at startup.
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The intel-common kernel package architecture
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--------------------------------------------
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These BSPs use what we call the intel-common Linux kernel package
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architecture. This includes core2-32-intel-common and
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corei7-64-intel-common. These kernel packages can also be used by any
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of the BSPs in meta-intel that choose to include the
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intel-common-pkgarch.inc file.
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To minimize the proliferation of vendor trees, reduce the sources we
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must support, and consolidate QA efforts, all BSP maintainers are
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encouraged to make use of the intel-common Linux kernel package
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architecture.
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Intel-specific machine features
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-------------------------------
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The meta-intel layer makes some additional machine features available
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to BSPs. These machine features can be used in a BSP layer in the
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same way that machine features are used in other layers based on
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oe-core, via the MACHINE_FEATURES variable.
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Requirements
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++++++++++++
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The meta-intel-specific machine features are only available to a BSP
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when the meta-intel layer is included in the build configuration, and
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the meta-intel.inc file is included in the machine configuration of
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that BSP.
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To make these features available for your machine, you will need to:
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1. include a configuration line such as the below in bblayers.conf
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BBLAYERS += "<local path>/meta-intel"
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2. include the following line in the machine configuration file
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require conf/machine/include/meta-intel.inc
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Once the above requirements are met, the machine features provided by
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the meta-intel layer will be available for the BSP to use.
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Available machine features
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++++++++++++++++++++++++++
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Currently, the meta-intel layer makes the following set of
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Intel-specific machine features available:
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* intel-ucode
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These machine features can be included by listing them in the
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MACHINE_FEATURES variable in the machine configuration file. For
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example:
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MACHINE_FEATURES += "intel-ucode"
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Machine feature details
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+++++++++++++++++++++++
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* intel-ucode
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This feature provides support for microcode updates to Intel
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processors. The intel-ucode feature runs at early boot and uses
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the microcode data file added by the feature into the BSP's
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initrd. It also puts the userland microcode-updating tool,
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iucode_tool, into the target images along with the microcode data
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file.
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Q. Why might a user want to enable the intel-ucode feature?
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A. Intel releases microcode updates to correct processor behavior
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as documented in the respective processor specification
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updates. While the normal approach to getting such microcode
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updates is via a BIOS upgrade, this can be an administrative
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hassle and not always possible in the field. The intel-ucode
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feature enables the microcode update capability present in the
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Linux kernel. It provides an easy path for upgrading processor
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microcode without the need to change the BIOS. If the feature
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is enabled, it is also possible to update the existing target
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images with a newer microcode update in the future.
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Q. How would a user bundle only target-specific microcode in the
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target image?
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A. The Intel microcode data file released by Intel contains
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microcode updates for multiple processors. If the BSP image is
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meant to run on only a certain subset of processor types, a
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processor-specific subset of microcode can be bundled into the
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target image via the UCODE_FILTER_PARAMETERS variable. This
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works by listing a sequence of iucode-tool parameters in the
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UCODE_FILTER_PARAMETERS variable, which in this case will
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select only the specific microcode relevant to the BSP. For
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more information on the underlying parameters refer to the
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iucode-tool manual page at http://manned.org/iucode-tool
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To define a set of parameters for microcode-filtering via the
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UCODE_FILTER_PARAMETERS variable, one needs to identify the
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cpuid signatures of all the processors the BSP is meant to run
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on. One way to determine the cpuid signature for a specific
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processor is to build and run an intel-ucode-feature-enabled
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image on the target hardware, without first assigning any value
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to the UCODE_FILTER_PARAMETERS variable, and then once the
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image is booted, run the "ucode_tool -S" command to have the
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ucode tool scan the system for processor signatures. These
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signatures can then be used in the UCODE_FILTER_PARAMETERS
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variable in conjunction with -s parameter. For example, for
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the fri2 BSP, the cpuid can be determined as such:
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[root@fri2 ~]# iucode_tool -S
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iucode_tool: system has processor(s) with signature 0x00020661
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Given that output, a suitable UCODE_FILTER_PARAMETERS variable
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definition could be specified in the machine configuration as
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such:
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UCODE_FILTER_PARAMETERS = "-s 0x00020661"
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Q. Are there any reasons a user might want to disable the
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intel-ucode feature?
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A. The microcode data file and associated tools occupy a small
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amount of space (a few KB) on the target image. BSPs which are
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highly sensitive to target image size and which are not
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experiencing microcode-related issues might consider not
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enabling this feature.
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IV. Tested Hardware
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===================
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The following undergo regular basic testing with their respective MACHINE types.
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Note that both 64-bit and 32-bit firmware is available for the MinnowBoard
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Turbot, so it is tested against both intel-corei7-64 and intel-core2-32.
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intel-corei7-64:
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NUC6i5SYH
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MinnowBoard Turbot
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Braswell RVP
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intel-core2-32:
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MinnowBoard Turbot
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Intel-quark:
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Galileo 2
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V. Guidelines for submitting patches
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====================================
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Please submit any patches against meta-intel BSPs to the meta-intel
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mailing list (meta-intel@yoctoproject.org). Also, if your patches are
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available via a public git repository, please also include a URL to
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the repo and branch containing your patches as that makes it easier
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for maintainers to grab and test your patches.
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There are patch submission scripts available that will, among other
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things, automatically include the repo URL and branch as mentioned.
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Please see the Yocto Project Development Manual sections entitled
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'Using Scripts to Push a Change Upstream and Request a Pull' and
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'Using Email to Submit a Patch' for details.
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Regardless of how you submit a patch or patchset, the patches should
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at minimum follow the suggestions outlined in the 'Submitting a Change
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to the Yocto Project' section in the Yocto Project Development Manual.
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Specifically, they should:
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- Include a 'Signed-off-by:' line. A commit can't legally be pulled
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in without this.
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- Provide a single-line, short summary of the change. This short
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description should be prefixed by the BSP or recipe name, as
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appropriate, followed by a colon. Capitalize the first character
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of the summary (following the colon).
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- For the body of the commit message, provide detailed information
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that describes what you changed, why you made the change, and the
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approach you used.
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- If the change addresses a specific bug or issue that is associated
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with a bug-tracking ID, include a reference to that ID in your
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detailed description in the following format: [YOCTO #<bug-id>].
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- Pay attention to line length - please don't allow any particular
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line in the commit message to stretch past 72 characters.
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- For any non-trivial patch, provide information about how you
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tested the patch, and for any non-trivial or non-obvious testing
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setup, provide details of that setup.
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Doing a quick 'git log' in meta-intel will provide you with many
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examples of good example commits if you have questions about any
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aspect of the preferred format.
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The meta-intel maintainers will do their best to review and/or pull in
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a patch or patchset within 24 hours of the time it was posted. For
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larger and/or more involved patches and patchsets, the review process
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may take longer.
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Please see the meta-intel/MAINTAINERS file for the list of maintainers
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and their specific areas; it's also a good idea to cc: the specific
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maintainer, if applicable.
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