This README file contains information on building the meta-crownbay BSP layer, and booting the images contained in the /binary directory. Please see the corresponding sections below for details. The Crown Bay platform consists of the Intel Atom Z6xx processor, plus the Intel EG20T Platform Controller Hub (Tunnel Creek + Topcliff). It also supports the E6xx embedded on-chip graphics via the Intel Embedded Media and Graphics Driver (EMGD) 1.8 Driver. Table of Contents ================= I. Building the meta-crownbay BSP layer II. Special notes for building the meta-crownbay BSP layer III. Booting the images in /binary I. Building the meta-crownbay BSP layer ======================================= In order to build an image with BSP support for a given release, you need to download the corresponding BSP tarball from the 'Board Support Package (BSP) Downloads' page of the Yocto Project website. Having done that, and assuming you extracted the BSP tarball contents at the top-level of your yocto build tree, you can build a crownbay image by adding the location of the meta-crownbay layer to bblayers.conf e.g.: yocto/meta-intel/meta-crownbay \ The meta-crownbay layer contains support for two different machine configurations. These configurations are identical except for the fact that the one prefixed with 'crownbay' makes use of the Intel-proprietary EMGD 1.8 graphics driver, while the one prefixed with 'crownbay-noemgd' does not. If you want to enable the layer that supports EMGD graphics add the following to the local.conf file: MACHINE ?= "crownbay" If you want to enable the layer that does not support EMGD graphics add the following to the local.conf file: MACHINE ?= "crownbay-noemgd" You should then be able to build a crownbay image as such: $ source oe-init-build-env $ bitbake core-image-sato At the end of a successful build, you should have a live image that you can boot from a USB flash drive (see instructions on how to do that below, in the section 'Booting the images from /binary'). As an alternative to downloading the BSP tarball, you can also work directly from the meta-intel git repository. For each BSP in the 'meta-intel' repository, there are multiple branches, one corresponding to each major release starting with 'laverne' (0.90), in addition to the latest code which tracks the current master (note that not all BSPs are present in every release). Instead of extracting a BSP tarball at the top level of your yocto build tree, you can equivalently check out the appropriate branch from the meta-intel repository at the same location. II. Special notes for building the meta-crownbay BSP layer ========================================================== The meta-crownbay layer makes use of the proprietary Intel EMGD userspace drivers when building the "crownbay" machine (but not when building the "crownbay-noemgd" machine). If you got the BSP from the 'BSP Downloads' section of the Yocto website, the EMGD binaries needed to perform the build will already be present in the BSP, located in the meta-intel/common/recipes-graphics/xorg-xserver/emgd-driver-bin-1.8 directory, and you can ignore the rest of this section. If you didn't get the BSP from the 'BSP Downloads' section of the Yocto website, you can download a tarball containing an rpm that contains the binaries and extract the binaries from that, and copy them to the proper location in the meta-crownbay layer. The following subsection describes that process in detail. Downloading and extracting the binaries using the EMGD Linux tarball -------------------------------------------------------------------- The first step of the process is to download the EMGD 1.8 Driver. Here is the current link to the URL from which it can be downloaded: http://edc.intel.com/Software/Downloads/EMGD/ In the Download Now tab, select: IntelĀ® architecture-based product: Linux Tar Ball Operating System: MeeGo* 1.2 IVI Linux* (kernel 2.6.37, X.server 1.9, Mesa 7.9) That will give you a large .tgz file: Lin_EMGD_1_8_RC_2032.tgz Extract the files in the tar file, which will in turn give you a directory named IEMGD_HEAD_Linux. The binaries are contained in an rpm file; you can extract the binaries from the rpm file using rpm2cpio and cpio: $ cd IEMGD_HEAD_Linux/MeeGo1.2 $ rpm2cpio emgd-bin-2032-1.6.i586.rpm > emgd-bin-2032-1.6.i586.cpio $ mkdir extracted; cd extracted $ cpio -idv < ../emgd-bin-2032-1.6.i586.cpio Finally, you can copy the xorg-xserver binaries to the emgd-driver-bin-1.8 directory in meta-intel/common: $ cp -a usr/lib meta-intel/common/recipes-graphics/xorg-xserver/emgd-driver-bin-1.8 You also need to copy the IEMGD License.txt file to the same directory: $ cp IEMGD_HEAD_Linux/License/License.txt meta-intel/common/recipes/xorg-xserver/emgd-driver-bin-1.8 At this point, you should be able to build meta-crownbay images as usual. III. Booting the images in /binary ================================== This BSP contains bootable live images, which can be used to directly boot Yocto off of a USB flash drive. Under Linux, insert a USB flash drive. Assuming the USB flash drive takes device /dev/sdf, use dd to copy the live image to it. For example: # dd if=core-image-sato-crownbay-20101207053738.hddimg of=/dev/sdf # sync # eject /dev/sdf This should give you a bootable USB flash device. Insert the device into a bootable USB socket on the target, and power on. This should result in a system booted to the Sato graphical desktop. If you want a terminal, use the arrows at the top of the UI to move to different pages of available applications, one of which is named 'Terminal'. Clicking that should give you a root terminal. If you want to ssh into the system, you can use the root terminal to ifconfig the IP address and use that to ssh in. The root password is empty, so to log in type 'root' for the user name and hit 'Enter' at the Password prompt: and you should be in. ---- If you find you're getting corrupt images on the USB (it doesn't show the syslinux boot: prompt, or the boot: prompt contains strange characters), try doing this first: # dd if=/dev/zero of=/dev/sdf bs=1M count=512