diff options
Diffstat (limited to 'meta-rcar-gen3')
37 files changed, 0 insertions, 6717 deletions
diff --git a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/bsp/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/bsp/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/bsp/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/bsp/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/bsp/local-wayland.conf deleted file mode 100644 index 51d1e75..0000000 --- a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/bsp/local-wayland.conf +++ /dev/null @@ -1,271 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "ebisu" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# for Wayland/Weston weston-laucher -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" - -# Mask the wayland related to GFX -BBMASK .= "|gles-user-module|kernel-module-gles|wayland-kms|libgbm" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Mask the gstreamer recipe for MMP -BBMASK .= "|meta-renesas/meta-rcar-gen3/recipes-multimedia/gstreamer" - -# Add for gstreamer plugins ugly -LICENSE_FLAGS_WHITELIST = "commercial" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Configuration for USB 3.0 -MACHINE_FEATURES_append = " usb3" diff --git a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/bsp/local.conf b/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/bsp/local.conf deleted file mode 100644 index 52a23fe..0000000 --- a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/bsp/local.conf +++ /dev/null @@ -1,264 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "ebisu" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Mask graphic Pkgs -BBMASK .= "|gles-user-module|kernel-module-gles|wayland-kms|libgbm" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Enable pam distro feature -DISTRO_FEATURES_append = " pam" - -# Configuration for USB 3.0 -MACHINE_FEATURES_append = " usb3" diff --git a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/gfx-only/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/gfx-only/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/gfx-only/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/gfx-only/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/gfx-only/local-wayland.conf deleted file mode 100644 index 978550e..0000000 --- a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/gfx-only/local-wayland.conf +++ /dev/null @@ -1,280 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "ebisu" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Enable Gfx Pkgs -MACHINE_FEATURES_append = " gsx" -MULTI_PROVIDER_WHITELIST += "virtual/libgl virtual/egl virtual/libgles1 virtual/libgles2" - -# for Wayland/Weston -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" -PREFERRED_PROVIDER_virtual/libgles1 = "" -PREFERRED_PROVIDER_virtual/libgles2 = "gles-user-module" -PREFERRED_PROVIDER_virtual/egl = "libegl" -PREFERRED_PROVIDER_virtual/libgl = "" -PREFERRED_PROVIDER_virtual/mesa = "" -PREFERRED_PROVIDER_libgbm = "libgbm" -PREFERRED_PROVIDER_libgbm-dev = "libgbm" -BBMASK .= "|mesa-gl" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Add for gstreamer plugins ugly -LICENSE_FLAGS_WHITELIST = "commercial" - -# Fix the Warning of gstreamer plugins -RDEPENDS_gstreamer1.0-plugins-bad = "libwayland-egl" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Configuration for USB 3.0 -MACHINE_FEATURES_append = " usb3" diff --git a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/mmp/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/mmp/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/mmp/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/mmp/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/mmp/local-wayland.conf deleted file mode 100644 index 2ad6044..0000000 --- a/meta-rcar-gen3/docs/sample/conf/ebisu/linaro-gcc/mmp/local-wayland.conf +++ /dev/null @@ -1,383 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "ebisu" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Enable Gfx Pkgs -MACHINE_FEATURES_append = " gsx" -MULTI_PROVIDER_WHITELIST += "virtual/libgl virtual/egl virtual/libgles1 virtual/libgles2" - -# for Wayland/Weston -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" -PREFERRED_PROVIDER_virtual/libgles1 = "" -PREFERRED_PROVIDER_virtual/libgles2 = "gles-user-module" -PREFERRED_PROVIDER_virtual/egl = "libegl" -PREFERRED_PROVIDER_virtual/libgl = "" -PREFERRED_PROVIDER_virtual/mesa = "" -PREFERRED_PROVIDER_libgbm = "libgbm" -PREFERRED_PROVIDER_libgbm-dev = "libgbm" -BBMASK .= "|mesa-gl" - -# Enable Multimedia features -MACHINE_FEATURES_append = " multimedia" - -# for gstreamer omx plugins -LICENSE_FLAGS_WHITELIST = "commercial" -# for mmp test program -DISTRO_FEATURES_append = " mm-test" - -# for weston v4l2 renderer -#DISTRO_FEATURES_append = " v4l2-renderer" - -# OMX H263 decoder library for Linux (RTM0AC0000XV263D30SL41C) -#DISTRO_FEATURES_append = " h263dec_lib" - -# OMX H264 decoder library for Linux (RTM0AC0000XV264D30SL41C) -DISTRO_FEATURES_append = " h264dec_lib" - -# OMX H264 encoder library for Linux (RTM0AC0000XV264E30SL41C) -#DISTRO_FEATURES_append = " h264enc_lib" - -# OMX H265 decoder library for Linux (RTM0AC0000XV265D30SL41C) -#DISTRO_FEATURES_append = " h265dec_lib" - -# OMX MPEG2 decoder library for Linux (RTM0AC0000XVM2VD30SL41C) -#DISTRO_FEATURES_append = " mpeg2dec_lib" - -# OMX Media Component MPEG4 Decoder Library for Linux (RTM0AC0000XVM4VD30SL41C) -#DISTRO_FEATURES_append = " mpeg4dec_lib" - -# OMX Media Component VC-1 Decoder Library for Linux (RTM0AC0000XVVC1D30SL41C) -#DISTRO_FEATURES_append = " vc1dec_lib" - -# OMX Media Component DivXD Decoder Library for Linux (RTM0AC0000XVDVXD30SL41C) -#DISTRO_FEATURES_append = " divxdec_lib" - -# OMX Media Component RealVideo Decoder Library for Linux (RTM0AC0000XVRLVD30SL41C) -#DISTRO_FEATURES_append = " rvdec_lib" - -# OMX Media Component ALAC Decoder Library for Linux (RTM0AC0000XAALAD30SL41C) -#DISTRO_FEATURES_append = " alacdec_lib" - -# OMX Media Component FLAC Decoder Library for Linux (RTM0AC0000XAFLAD30SL41C) -#DISTRO_FEATURES_append = " flacdec_lib" - -# OMX AAC-LC decoder library for Linux (RTM0AC0000XAAACD30SL41C), -# AAC-LC 2ch decoder middleware library for Linux (RTM0AC0000ADAACMZ1SL41C) -DISTRO_FEATURES_append = " aaclcdec_lib" -DISTRO_FEATURES_append = " aaclcdec_mdw" - -# OMX aacPlus V2 decoder library for Linux (RTM0AC0000XAAAPD30SL41C), -# aacPlus V2 decoder middleware library for Linux (RTM0AC0000ADAAPMZ1SL41C) -#DISTRO_FEATURES_append = " aacpv2dec_lib" -#DISTRO_FEATURES_append = " aacpv2dec_mdw" - -# OMX MP3 decoder library for Linux (RTM0AC0000XAMP3D30SL41C), -# MP3 decoder middleware library for Linux (RTM0AC0000ADMP3MZ1SL41C) -#DISTRO_FEATURES_append = " mp3dec_lib" -#DISTRO_FEATURES_append = " mp3dec_mdw" - -# OMX WMA decoder library for Linux (RTM0AC0000XAWMAD30SL41C), -# WMA decoder middleware library for Linux (RTM0AC0000ADWMAMZ1SL41C) -#DISTRO_FEATURES_append = " wmadec_lib" -#DISTRO_FEATURES_append = " wmadec_mdw" - -# OMX AAC-LC encoder library for Linux (RTM0AC0000XAAACE30SL41C) -# AAC-LC encoder middleware library for Linux (RTM0AC0000AEAACMZ1SL41C) -#DISTRO_FEATURES_append = " aaclcenc_lib" -#DISTRO_FEATURES_append = " aaclcenc_mdw" - -# OMX Dolby(R) Digital decoder library for Linux (RTM0AC0000XADD5D30SL41C), -# Dolby(R) Digital decoder middleware library for Linux (RTM0AC0000ADDD5MZ1SL41C) -#DISTRO_FEATURES_append = " dddec_lib" -#DISTRO_FEATURES_append = " dddec_mdw" - -# OMX Media Component VP8 Decoder Library for Linux (RTM0AC0000XVVP8D30SL41C) -#DISTRO_FEATURES_append = " vp8dec_lib" - -# OMX Media Component VP8 Encoder Library for Linux (RTM0AC0000XVVP8E30SL41C) -#DISTRO_FEATURES_append = " vp8enc_lib" - -# OMX Media Component VP9 Decoder Library for Linux (RTM0AC0000XVVP9D30SL41C) -#DISTRO_FEATURES_append = " vp9dec_lib" - -# CMS Basic Color Management Middleware for Linux (RTM0AC0000JRCMBCV0SL41C) -#DISTRO_FEATURES_append = " cmsbcm" - -# CMS CMM3 Backlight Control Middleware for Linux (RTM0AC0000JRCMBLC0SL41C) -#DISTRO_FEATURES_append = " cmsblc" - -# CMS VSP2 Dynamic Gamma Correction Middleware for Linux (RTM0AC0000JRCMDGV0SL41C) -#DISTRO_FEATURES_append = " cmsdgc" - -# DVD Core-Middleware for Linux (RTM0RC0000XDVDC301SL41C) -# DVD Encryption Library for Linux (RTM0RC0000XDVDF301SL41C) -#DISTRO_FEATURES_append = " dvd" -#DISTRO_FEATURES_append = " dvd_encryption_library" - -# ADSP Driver for Linux (RCG3AHPDL4101ZDO) -# ADSP Interface for Linux (RCG3AHIFL4101ZDP) -# ADSP Framework (RCG3AHFWN0201ZDP) -#DISTRO_FEATURES_append = " adsp" - -# AVB Software Package for Linux -#DISTRO_FEATURES_append = " avb" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Evaluation packages -#DISTRO_FEATURES_append = " use_eva_pkg" - -# Configuration for ivi-shell and ivi-extension -#DISTRO_FEATURES_append = " ivi-shell" - -# Configuration for USB 3.0 -MACHINE_FEATURES_append = " usb3" diff --git a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/bsp/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/bsp/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/bsp/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/bsp/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/bsp/local-wayland.conf deleted file mode 100644 index cfc98c0..0000000 --- a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/bsp/local-wayland.conf +++ /dev/null @@ -1,271 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "h3ulcb" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# for Wayland/Weston weston-laucher -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" - -# Mask the wayland related to GFX -BBMASK .= "|gles-user-module|kernel-module-gles|wayland-kms|libgbm" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Mask the gstreamer recipe for MMP -BBMASK .= "|meta-renesas/meta-rcar-gen3/recipes-multimedia/gstreamer" - -# Add for gstreamer plugins ugly -LICENSE_FLAGS_WHITELIST = "commercial" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Add Capacity Aware migration Strategy (CAS) -MACHINE_FEATURES_append = " cas" diff --git a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/bsp/local.conf b/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/bsp/local.conf deleted file mode 100644 index c7b7b53..0000000 --- a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/bsp/local.conf +++ /dev/null @@ -1,264 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "h3ulcb" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Mask graphic Pkgs -BBMASK .= "|gles-user-module|kernel-module-gles|wayland-kms|libgbm" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Enable pam distro feature -DISTRO_FEATURES_append = " pam" - -# Add Capacity Aware migration Strategy (CAS) -MACHINE_FEATURES_append = " cas" diff --git a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/gfx-only/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/gfx-only/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/gfx-only/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/gfx-only/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/gfx-only/local-wayland.conf deleted file mode 100644 index 776ae1f..0000000 --- a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/gfx-only/local-wayland.conf +++ /dev/null @@ -1,280 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "h3ulcb" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Enable Gfx Pkgs -MACHINE_FEATURES_append = " gsx" -MULTI_PROVIDER_WHITELIST += "virtual/libgl virtual/egl virtual/libgles1 virtual/libgles2" - -# for Wayland/Weston -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" -PREFERRED_PROVIDER_virtual/libgles1 = "" -PREFERRED_PROVIDER_virtual/libgles2 = "gles-user-module" -PREFERRED_PROVIDER_virtual/egl = "libegl" -PREFERRED_PROVIDER_virtual/libgl = "" -PREFERRED_PROVIDER_virtual/mesa = "" -PREFERRED_PROVIDER_libgbm = "libgbm" -PREFERRED_PROVIDER_libgbm-dev = "libgbm" -BBMASK .= "|mesa-gl" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Add for gstreamer plugins ugly -LICENSE_FLAGS_WHITELIST = "commercial" - -# Fix the Warning of gstreamer plugins -RDEPENDS_gstreamer1.0-plugins-bad = "libwayland-egl" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Add Capacity Aware migration Strategy (CAS) -MACHINE_FEATURES_append = " cas" diff --git a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/mmp/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/mmp/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/mmp/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/mmp/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/mmp/local-wayland.conf deleted file mode 100644 index 14f4c60..0000000 --- a/meta-rcar-gen3/docs/sample/conf/h3ulcb/linaro-gcc/mmp/local-wayland.conf +++ /dev/null @@ -1,383 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "h3ulcb" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Enable Gfx Pkgs -MACHINE_FEATURES_append = " gsx" -MULTI_PROVIDER_WHITELIST += "virtual/libgl virtual/egl virtual/libgles1 virtual/libgles2" - -# for Wayland/Weston -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" -PREFERRED_PROVIDER_virtual/libgles1 = "" -PREFERRED_PROVIDER_virtual/libgles2 = "gles-user-module" -PREFERRED_PROVIDER_virtual/egl = "libegl" -PREFERRED_PROVIDER_virtual/libgl = "" -PREFERRED_PROVIDER_virtual/mesa = "" -PREFERRED_PROVIDER_libgbm = "libgbm" -PREFERRED_PROVIDER_libgbm-dev = "libgbm" -BBMASK .= "|mesa-gl" - -# Enable Multimedia features -MACHINE_FEATURES_append = " multimedia" - -# for gstreamer omx plugins -LICENSE_FLAGS_WHITELIST = "commercial" -# for mmp test program -DISTRO_FEATURES_append = " mm-test" - -# for weston v4l2 renderer -#DISTRO_FEATURES_append = " v4l2-renderer" - -# OMX H263 decoder library for Linux (RTM0AC0000XV263D30SL41C) -#DISTRO_FEATURES_append = " h263dec_lib" - -# OMX H264 decoder library for Linux (RTM0AC0000XV264D30SL41C) -DISTRO_FEATURES_append = " h264dec_lib" - -# OMX H264 encoder library for Linux (RTM0AC0000XV264E30SL41C) -#DISTRO_FEATURES_append = " h264enc_lib" - -# OMX H265 decoder library for Linux (RTM0AC0000XV265D30SL41C) -#DISTRO_FEATURES_append = " h265dec_lib" - -# OMX MPEG2 decoder library for Linux (RTM0AC0000XVM2VD30SL41C) -#DISTRO_FEATURES_append = " mpeg2dec_lib" - -# OMX Media Component MPEG4 Decoder Library for Linux (RTM0AC0000XVM4VD30SL41C) -#DISTRO_FEATURES_append = " mpeg4dec_lib" - -# OMX Media Component VC-1 Decoder Library for Linux (RTM0AC0000XVVC1D30SL41C) -#DISTRO_FEATURES_append = " vc1dec_lib" - -# OMX Media Component DivXD Decoder Library for Linux (RTM0AC0000XVDVXD30SL41C) -#DISTRO_FEATURES_append = " divxdec_lib" - -# OMX Media Component RealVideo Decoder Library for Linux (RTM0AC0000XVRLVD30SL41C) -#DISTRO_FEATURES_append = " rvdec_lib" - -# OMX Media Component ALAC Decoder Library for Linux (RTM0AC0000XAALAD30SL41C) -#DISTRO_FEATURES_append = " alacdec_lib" - -# OMX Media Component FLAC Decoder Library for Linux (RTM0AC0000XAFLAD30SL41C) -#DISTRO_FEATURES_append = " flacdec_lib" - -# OMX AAC-LC decoder library for Linux (RTM0AC0000XAAACD30SL41C), -# AAC-LC 2ch decoder middleware library for Linux (RTM0AC0000ADAACMZ1SL41C) -DISTRO_FEATURES_append = " aaclcdec_lib" -DISTRO_FEATURES_append = " aaclcdec_mdw" - -# OMX aacPlus V2 decoder library for Linux (RTM0AC0000XAAAPD30SL41C), -# aacPlus V2 decoder middleware library for Linux (RTM0AC0000ADAAPMZ1SL41C) -#DISTRO_FEATURES_append = " aacpv2dec_lib" -#DISTRO_FEATURES_append = " aacpv2dec_mdw" - -# OMX MP3 decoder library for Linux (RTM0AC0000XAMP3D30SL41C), -# MP3 decoder middleware library for Linux (RTM0AC0000ADMP3MZ1SL41C) -#DISTRO_FEATURES_append = " mp3dec_lib" -#DISTRO_FEATURES_append = " mp3dec_mdw" - -# OMX WMA decoder library for Linux (RTM0AC0000XAWMAD30SL41C), -# WMA decoder middleware library for Linux (RTM0AC0000ADWMAMZ1SL41C) -#DISTRO_FEATURES_append = " wmadec_lib" -#DISTRO_FEATURES_append = " wmadec_mdw" - -# OMX AAC-LC encoder library for Linux (RTM0AC0000XAAACE30SL41C) -# AAC-LC encoder middleware library for Linux (RTM0AC0000AEAACMZ1SL41C) -#DISTRO_FEATURES_append = " aaclcenc_lib" -#DISTRO_FEATURES_append = " aaclcenc_mdw" - -# OMX Dolby(R) Digital decoder library for Linux (RTM0AC0000XADD5D30SL41C), -# Dolby(R) Digital decoder middleware library for Linux (RTM0AC0000ADDD5MZ1SL41C) -#DISTRO_FEATURES_append = " dddec_lib" -#DISTRO_FEATURES_append = " dddec_mdw" - -# OMX Media Component VP8 Decoder Library for Linux (RTM0AC0000XVVP8D30SL41C) -#DISTRO_FEATURES_append = " vp8dec_lib" - -# OMX Media Component VP8 Encoder Library for Linux (RTM0AC0000XVVP8E30SL41C) -#DISTRO_FEATURES_append = " vp8enc_lib" - -# CMS Basic Color Management Middleware for Linux (RTM0AC0000JRCMBCV0SL41C) -#DISTRO_FEATURES_append = " cmsbcm" - -# CMS CMM3 Backlight Control Middleware for Linux (RTM0AC0000JRCMBLC0SL41C) -#DISTRO_FEATURES_append = " cmsblc" - -# CMS VSP2 Dynamic Gamma Correction Middleware for Linux (RTM0AC0000JRCMDGV0SL41C) -#DISTRO_FEATURES_append = " cmsdgc" - -# ISDB-T DTV Software Package for Linux (RTM0RC0000TE020000SL41C) -#DISTRO_FEATURES_append = " dtv" - -# DVD Core-Middleware for Linux (RTM0RC0000XDVDC301SL41C) -# DVD Encryption Library for Linux (RTM0RC0000XDVDF301SL41C) -#DISTRO_FEATURES_append = " dvd" -#DISTRO_FEATURES_append = " dvd_encryption_library" - -# ADSP Driver for Linux (RCG3AHPDL4101ZDO) -# ADSP Interface for Linux (RCG3AHIFL4101ZDP) -# ADSP Framework (RCG3AHFWN0201ZDP) -#DISTRO_FEATURES_append = " adsp" - -# AVB Software Package for Linux -#DISTRO_FEATURES_append = " avb" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Evaluation packages -#DISTRO_FEATURES_append = " use_eva_pkg" - -# Configuration for ivi-shell and ivi-extension -#DISTRO_FEATURES_append = " ivi-shell" - -# Add Capacity Aware migration Strategy (CAS) -MACHINE_FEATURES_append = " cas" diff --git a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/bsp/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/bsp/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/bsp/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/bsp/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/bsp/local-wayland.conf deleted file mode 100644 index 7e71ed0..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/bsp/local-wayland.conf +++ /dev/null @@ -1,268 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "m3nulcb" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# for Wayland/Weston weston-laucher -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" - -# Mask the wayland related to GFX -BBMASK .= "|gles-user-module|kernel-module-gles|wayland-kms|libgbm" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Mask the gstreamer recipe for MMP -BBMASK .= "|meta-renesas/meta-rcar-gen3/recipes-multimedia/gstreamer" - -# Add for gstreamer plugins ugly -LICENSE_FLAGS_WHITELIST = "commercial" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" diff --git a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/bsp/local.conf b/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/bsp/local.conf deleted file mode 100644 index 087a3a3..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/bsp/local.conf +++ /dev/null @@ -1,261 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "m3nulcb" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Mask graphic Pkgs -BBMASK .= "|gles-user-module|kernel-module-gles|wayland-kms|libgbm" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Enable pam distro feature -DISTRO_FEATURES_append = " pam" diff --git a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/gfx-only/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/gfx-only/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/gfx-only/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/gfx-only/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/gfx-only/local-wayland.conf deleted file mode 100644 index 68b3f5a..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/gfx-only/local-wayland.conf +++ /dev/null @@ -1,277 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "m3nulcb" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Enable Gfx Pkgs -MACHINE_FEATURES_append = " gsx" -MULTI_PROVIDER_WHITELIST += "virtual/libgl virtual/egl virtual/libgles1 virtual/libgles2" - -# for Wayland/Weston -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" -PREFERRED_PROVIDER_virtual/libgles1 = "" -PREFERRED_PROVIDER_virtual/libgles2 = "gles-user-module" -PREFERRED_PROVIDER_virtual/egl = "libegl" -PREFERRED_PROVIDER_virtual/libgl = "" -PREFERRED_PROVIDER_virtual/mesa = "" -PREFERRED_PROVIDER_libgbm = "libgbm" -PREFERRED_PROVIDER_libgbm-dev = "libgbm" -BBMASK .= "|mesa-gl" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Add for gstreamer plugins ugly -LICENSE_FLAGS_WHITELIST = "commercial" - -# Fix the Warning of gstreamer plugins -RDEPENDS_gstreamer1.0-plugins-bad = "libwayland-egl" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" diff --git a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/mmp/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/mmp/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/mmp/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/mmp/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/mmp/local-wayland.conf deleted file mode 100644 index b0eedb1..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3nulcb/linaro-gcc/mmp/local-wayland.conf +++ /dev/null @@ -1,380 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "m3nulcb" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Enable Gfx Pkgs -MACHINE_FEATURES_append = " gsx" -MULTI_PROVIDER_WHITELIST += "virtual/libgl virtual/egl virtual/libgles1 virtual/libgles2" - -# for Wayland/Weston -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" -PREFERRED_PROVIDER_virtual/libgles1 = "" -PREFERRED_PROVIDER_virtual/libgles2 = "gles-user-module" -PREFERRED_PROVIDER_virtual/egl = "libegl" -PREFERRED_PROVIDER_virtual/libgl = "" -PREFERRED_PROVIDER_virtual/mesa = "" -PREFERRED_PROVIDER_libgbm = "libgbm" -PREFERRED_PROVIDER_libgbm-dev = "libgbm" -BBMASK .= "|mesa-gl" - -# Enable Multimedia features -MACHINE_FEATURES_append = " multimedia" - -# for gstreamer omx plugins -LICENSE_FLAGS_WHITELIST = "commercial" -# for mmp test program -DISTRO_FEATURES_append = " mm-test" - -# for weston v4l2 renderer -#DISTRO_FEATURES_append = " v4l2-renderer" - -# OMX H263 decoder library for Linux (RTM0AC0000XV263D30SL41C) -#DISTRO_FEATURES_append = " h263dec_lib" - -# OMX H264 decoder library for Linux (RTM0AC0000XV264D30SL41C) -DISTRO_FEATURES_append = " h264dec_lib" - -# OMX H264 encoder library for Linux (RTM0AC0000XV264E30SL41C) -#DISTRO_FEATURES_append = " h264enc_lib" - -# OMX H265 decoder library for Linux (RTM0AC0000XV265D30SL41C) -#DISTRO_FEATURES_append = " h265dec_lib" - -# OMX MPEG2 decoder library for Linux (RTM0AC0000XVM2VD30SL41C) -#DISTRO_FEATURES_append = " mpeg2dec_lib" - -# OMX Media Component MPEG4 Decoder Library for Linux (RTM0AC0000XVM4VD30SL41C) -#DISTRO_FEATURES_append = " mpeg4dec_lib" - -# OMX Media Component VC-1 Decoder Library for Linux (RTM0AC0000XVVC1D30SL41C) -#DISTRO_FEATURES_append = " vc1dec_lib" - -# OMX Media Component DivXD Decoder Library for Linux (RTM0AC0000XVDVXD30SL41C) -#DISTRO_FEATURES_append = " divxdec_lib" - -# OMX Media Component RealVideo Decoder Library for Linux (RTM0AC0000XVRLVD30SL41C) -#DISTRO_FEATURES_append = " rvdec_lib" - -# OMX Media Component ALAC Decoder Library for Linux (RTM0AC0000XAALAD30SL41C) -#DISTRO_FEATURES_append = " alacdec_lib" - -# OMX Media Component FLAC Decoder Library for Linux (RTM0AC0000XAFLAD30SL41C) -#DISTRO_FEATURES_append = " flacdec_lib" - -# OMX AAC-LC decoder library for Linux (RTM0AC0000XAAACD30SL41C), -# AAC-LC 2ch decoder middleware library for Linux (RTM0AC0000ADAACMZ1SL41C) -DISTRO_FEATURES_append = " aaclcdec_lib" -DISTRO_FEATURES_append = " aaclcdec_mdw" - -# OMX aacPlus V2 decoder library for Linux (RTM0AC0000XAAAPD30SL41C), -# aacPlus V2 decoder middleware library for Linux (RTM0AC0000ADAAPMZ1SL41C) -#DISTRO_FEATURES_append = " aacpv2dec_lib" -#DISTRO_FEATURES_append = " aacpv2dec_mdw" - -# OMX MP3 decoder library for Linux (RTM0AC0000XAMP3D30SL41C), -# MP3 decoder middleware library for Linux (RTM0AC0000ADMP3MZ1SL41C) -#DISTRO_FEATURES_append = " mp3dec_lib" -#DISTRO_FEATURES_append = " mp3dec_mdw" - -# OMX WMA decoder library for Linux (RTM0AC0000XAWMAD30SL41C), -# WMA decoder middleware library for Linux (RTM0AC0000ADWMAMZ1SL41C) -#DISTRO_FEATURES_append = " wmadec_lib" -#DISTRO_FEATURES_append = " wmadec_mdw" - -# OMX AAC-LC encoder library for Linux (RTM0AC0000XAAACE30SL41C) -# AAC-LC encoder middleware library for Linux (RTM0AC0000AEAACMZ1SL41C) -#DISTRO_FEATURES_append = " aaclcenc_lib" -#DISTRO_FEATURES_append = " aaclcenc_mdw" - -# OMX Dolby(R) Digital decoder library for Linux (RTM0AC0000XADD5D30SL41C), -# Dolby(R) Digital decoder middleware library for Linux (RTM0AC0000ADDD5MZ1SL41C) -#DISTRO_FEATURES_append = " dddec_lib" -#DISTRO_FEATURES_append = " dddec_mdw" - -# OMX Media Component VP8 Decoder Library for Linux (RTM0AC0000XVVP8D30SL41C) -#DISTRO_FEATURES_append = " vp8dec_lib" - -# OMX Media Component VP8 Encoder Library for Linux (RTM0AC0000XVVP8E30SL41C) -#DISTRO_FEATURES_append = " vp8enc_lib" - -# OMX Media Component VP9 Decoder Library for Linux (RTM0AC0000XVVP9D30SL41C) -#DISTRO_FEATURES_append = " vp9dec_lib" - -# CMS Basic Color Management Middleware for Linux (RTM0AC0000JRCMBCV0SL41C) -#DISTRO_FEATURES_append = " cmsbcm" - -# CMS CMM3 Backlight Control Middleware for Linux (RTM0AC0000JRCMBLC0SL41C) -#DISTRO_FEATURES_append = " cmsblc" - -# CMS VSP2 Dynamic Gamma Correction Middleware for Linux (RTM0AC0000JRCMDGV0SL41C) -#DISTRO_FEATURES_append = " cmsdgc" - -# ISDB-T DTV Software Package for Linux (RTM0RC0000TE020000SL41C) -#DISTRO_FEATURES_append = " dtv" - -# DVD Core-Middleware for Linux (RTM0RC0000XDVDC301SL41C) -# DVD Encryption Library for Linux (RTM0RC0000XDVDF301SL41C) -#DISTRO_FEATURES_append = " dvd" -#DISTRO_FEATURES_append = " dvd_encryption_library" - -# ADSP Driver for Linux (RCG3AHPDL4101ZDO) -# ADSP Interface for Linux (RCG3AHIFL4101ZDP) -# ADSP Framework (RCG3AHFWN0201ZDP) -#DISTRO_FEATURES_append = " adsp" - -# AVB Software Package for Linux -#DISTRO_FEATURES_append = " avb" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Configuration for ivi-shell and ivi-extension -#DISTRO_FEATURES_append = " ivi-shell" diff --git a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/bsp/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/bsp/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/bsp/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/bsp/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/bsp/local-wayland.conf deleted file mode 100644 index 0b6f13c..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/bsp/local-wayland.conf +++ /dev/null @@ -1,271 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "m3ulcb" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# for Wayland/Weston weston-laucher -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" - -# Mask the wayland related to GFX -BBMASK .= "|gles-user-module|kernel-module-gles|wayland-kms|libgbm" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Mask the gstreamer recipe for MMP -BBMASK .= "|meta-renesas/meta-rcar-gen3/recipes-multimedia/gstreamer" - -# Add for gstreamer plugins ugly -LICENSE_FLAGS_WHITELIST = "commercial" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Add Capacity Aware migration Strategy (CAS) -MACHINE_FEATURES_append = " cas" diff --git a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/bsp/local.conf b/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/bsp/local.conf deleted file mode 100644 index 3c63eff..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/bsp/local.conf +++ /dev/null @@ -1,264 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "m3ulcb" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Mask graphic Pkgs -BBMASK .= "|gles-user-module|kernel-module-gles|wayland-kms|libgbm" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Enable pam distro feature -DISTRO_FEATURES_append = " pam" - -# Add Capacity Aware migration Strategy (CAS) -MACHINE_FEATURES_append = " cas" diff --git a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/gfx-only/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/gfx-only/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/gfx-only/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/gfx-only/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/gfx-only/local-wayland.conf deleted file mode 100644 index 498c256..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/gfx-only/local-wayland.conf +++ /dev/null @@ -1,280 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "m3ulcb" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Enable Gfx Pkgs -MACHINE_FEATURES_append = " gsx" -MULTI_PROVIDER_WHITELIST += "virtual/libgl virtual/egl virtual/libgles1 virtual/libgles2" - -# for Wayland/Weston -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" -PREFERRED_PROVIDER_virtual/libgles1 = "" -PREFERRED_PROVIDER_virtual/libgles2 = "gles-user-module" -PREFERRED_PROVIDER_virtual/egl = "libegl" -PREFERRED_PROVIDER_virtual/libgl = "" -PREFERRED_PROVIDER_virtual/mesa = "" -PREFERRED_PROVIDER_libgbm = "libgbm" -PREFERRED_PROVIDER_libgbm-dev = "libgbm" -BBMASK .= "|mesa-gl" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Add for gstreamer plugins ugly -LICENSE_FLAGS_WHITELIST = "commercial" - -# Fix the Warning of gstreamer plugins -RDEPENDS_gstreamer1.0-plugins-bad = "libwayland-egl" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Add Capacity Aware migration Strategy (CAS) -MACHINE_FEATURES_append = " cas" diff --git a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/mmp/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/mmp/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/mmp/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/mmp/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/mmp/local-wayland.conf deleted file mode 100644 index a96df78..0000000 --- a/meta-rcar-gen3/docs/sample/conf/m3ulcb/linaro-gcc/mmp/local-wayland.conf +++ /dev/null @@ -1,383 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "m3ulcb" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Enable Gfx Pkgs -MACHINE_FEATURES_append = " gsx" -MULTI_PROVIDER_WHITELIST += "virtual/libgl virtual/egl virtual/libgles1 virtual/libgles2" - -# for Wayland/Weston -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" -PREFERRED_PROVIDER_virtual/libgles1 = "" -PREFERRED_PROVIDER_virtual/libgles2 = "gles-user-module" -PREFERRED_PROVIDER_virtual/egl = "libegl" -PREFERRED_PROVIDER_virtual/libgl = "" -PREFERRED_PROVIDER_virtual/mesa = "" -PREFERRED_PROVIDER_libgbm = "libgbm" -PREFERRED_PROVIDER_libgbm-dev = "libgbm" -BBMASK .= "|mesa-gl" - -# Enable Multimedia features -MACHINE_FEATURES_append = " multimedia" - -# for gstreamer omx plugins -LICENSE_FLAGS_WHITELIST = "commercial" -# for mmp test program -DISTRO_FEATURES_append = " mm-test" - -# for weston v4l2 renderer -#DISTRO_FEATURES_append = " v4l2-renderer" - -# OMX H263 decoder library for Linux (RTM0AC0000XV263D30SL41C) -#DISTRO_FEATURES_append = " h263dec_lib" - -# OMX H264 decoder library for Linux (RTM0AC0000XV264D30SL41C) -DISTRO_FEATURES_append = " h264dec_lib" - -# OMX H264 encoder library for Linux (RTM0AC0000XV264E30SL41C) -#DISTRO_FEATURES_append = " h264enc_lib" - -# OMX H265 decoder library for Linux (RTM0AC0000XV265D30SL41C) -#DISTRO_FEATURES_append = " h265dec_lib" - -# OMX MPEG2 decoder library for Linux (RTM0AC0000XVM2VD30SL41C) -#DISTRO_FEATURES_append = " mpeg2dec_lib" - -# OMX Media Component MPEG4 Decoder Library for Linux (RTM0AC0000XVM4VD30SL41C) -#DISTRO_FEATURES_append = " mpeg4dec_lib" - -# OMX Media Component VC-1 Decoder Library for Linux (RTM0AC0000XVVC1D30SL41C) -#DISTRO_FEATURES_append = " vc1dec_lib" - -# OMX Media Component DivXD Decoder Library for Linux (RTM0AC0000XVDVXD30SL41C) -#DISTRO_FEATURES_append = " divxdec_lib" - -# OMX Media Component RealVideo Decoder Library for Linux (RTM0AC0000XVRLVD30SL41C) -#DISTRO_FEATURES_append = " rvdec_lib" - -# OMX Media Component ALAC Decoder Library for Linux (RTM0AC0000XAALAD30SL41C) -#DISTRO_FEATURES_append = " alacdec_lib" - -# OMX Media Component FLAC Decoder Library for Linux (RTM0AC0000XAFLAD30SL41C) -#DISTRO_FEATURES_append = " flacdec_lib" - -# OMX AAC-LC decoder library for Linux (RTM0AC0000XAAACD30SL41C), -# AAC-LC 2ch decoder middleware library for Linux (RTM0AC0000ADAACMZ1SL41C) -DISTRO_FEATURES_append = " aaclcdec_lib" -DISTRO_FEATURES_append = " aaclcdec_mdw" - -# OMX aacPlus V2 decoder library for Linux (RTM0AC0000XAAAPD30SL41C), -# aacPlus V2 decoder middleware library for Linux (RTM0AC0000ADAAPMZ1SL41C) -#DISTRO_FEATURES_append = " aacpv2dec_lib" -#DISTRO_FEATURES_append = " aacpv2dec_mdw" - -# OMX MP3 decoder library for Linux (RTM0AC0000XAMP3D30SL41C), -# MP3 decoder middleware library for Linux (RTM0AC0000ADMP3MZ1SL41C) -#DISTRO_FEATURES_append = " mp3dec_lib" -#DISTRO_FEATURES_append = " mp3dec_mdw" - -# OMX WMA decoder library for Linux (RTM0AC0000XAWMAD30SL41C), -# WMA decoder middleware library for Linux (RTM0AC0000ADWMAMZ1SL41C) -#DISTRO_FEATURES_append = " wmadec_lib" -#DISTRO_FEATURES_append = " wmadec_mdw" - -# OMX AAC-LC encoder library for Linux (RTM0AC0000XAAACE30SL41C) -# AAC-LC encoder middleware library for Linux (RTM0AC0000AEAACMZ1SL41C) -#DISTRO_FEATURES_append = " aaclcenc_lib" -#DISTRO_FEATURES_append = " aaclcenc_mdw" - -# OMX Dolby(R) Digital decoder library for Linux (RTM0AC0000XADD5D30SL41C), -# Dolby(R) Digital decoder middleware library for Linux (RTM0AC0000ADDD5MZ1SL41C) -#DISTRO_FEATURES_append = " dddec_lib" -#DISTRO_FEATURES_append = " dddec_mdw" - -# OMX Media Component VP8 Decoder Library for Linux (RTM0AC0000XVVP8D30SL41C) -#DISTRO_FEATURES_append = " vp8dec_lib" - -# OMX Media Component VP8 Encoder Library for Linux (RTM0AC0000XVVP8E30SL41C) -#DISTRO_FEATURES_append = " vp8enc_lib" - -# CMS Basic Color Management Middleware for Linux (RTM0AC0000JRCMBCV0SL41C) -#DISTRO_FEATURES_append = " cmsbcm" - -# CMS CMM3 Backlight Control Middleware for Linux (RTM0AC0000JRCMBLC0SL41C) -#DISTRO_FEATURES_append = " cmsblc" - -# CMS VSP2 Dynamic Gamma Correction Middleware for Linux (RTM0AC0000JRCMDGV0SL41C) -#DISTRO_FEATURES_append = " cmsdgc" - -# ISDB-T DTV Software Package for Linux (RTM0RC0000TE020000SL41C) -#DISTRO_FEATURES_append = " dtv" - -# DVD Core-Middleware for Linux (RTM0RC0000XDVDC301SL41C) -# DVD Encryption Library for Linux (RTM0RC0000XDVDF301SL41C) -#DISTRO_FEATURES_append = " dvd" -#DISTRO_FEATURES_append = " dvd_encryption_library" - -# ADSP Driver for Linux (RCG3AHPDL4101ZDO) -# ADSP Interface for Linux (RCG3AHIFL4101ZDP) -# ADSP Framework (RCG3AHFWN0201ZDP) -#DISTRO_FEATURES_append = " adsp" - -# AVB Software Package for Linux -#DISTRO_FEATURES_append = " avb" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Evaluation packages -#DISTRO_FEATURES_append = " use_eva_pkg" - -# Configuration for ivi-shell and ivi-extension -#DISTRO_FEATURES_append = " ivi-shell" - -# Add Capacity Aware migration Strategy (CAS) -MACHINE_FEATURES_append = " cas" diff --git a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/bsp/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/bsp/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/bsp/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/bsp/local-ltp.conf b/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/bsp/local-ltp.conf deleted file mode 100644 index 9dd4d90..0000000 --- a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/bsp/local-ltp.conf +++ /dev/null @@ -1,274 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "salvator-x" - -# This sets the SoC -# H3: r8a7795, M3: r8a7796, M3N: r8a77965 -SOC_FAMILY = "r8a7795" -#SOC_FAMILY = "r8a7796" -#SOC_FAMILY = "r8a77965" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks tools-sdk" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Mask graphic Pkgs -BBMASK .= "|gles-user-module|kernel-module-gles|wayland-kms|libgbm" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Configuration for USB 3.0 -#MACHINE_FEATURES_append = " usb3" - -# Add Capacity Aware migration Strategy (CAS) -MACHINE_FEATURES_append = " cas" - -# Additional packages for LTP -DISTRO_FEATURES_append = " pam" -CORE_IMAGE_EXTRA_INSTALL_append = " ltp" -IMAGE_INSTALL_append = " binutils elfutils file quota tar bzip2 sudo shadow glibc-utils net-tools procps cdrkit kernel-modules" diff --git a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/bsp/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/bsp/local-wayland.conf deleted file mode 100644 index ab2e815..0000000 --- a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/bsp/local-wayland.conf +++ /dev/null @@ -1,280 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "salvator-x" - -# This sets the SoC -# H3: r8a7795, M3: r8a7796, M3N: r8a77965 -SOC_FAMILY = "r8a7795" -#SOC_FAMILY = "r8a7796" -#SOC_FAMILY = "r8a77965" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# for Wayland/Weston weston-laucher -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" - -# Mask the wayland related to GFX -BBMASK .= "|gles-user-module|kernel-module-gles|wayland-kms|libgbm" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Mask the gstreamer recipe for MMP -BBMASK .= "|meta-renesas/meta-rcar-gen3/recipes-multimedia/gstreamer" - -# Add for gstreamer plugins ugly -LICENSE_FLAGS_WHITELIST = "commercial" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Configuration for USB 3.0 -#MACHINE_FEATURES_append = " usb3" - -# Add Capacity Aware migration Strategy (CAS) -MACHINE_FEATURES_append = " cas" diff --git a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/bsp/local.conf b/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/bsp/local.conf deleted file mode 100644 index 29c0f5d..0000000 --- a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/bsp/local.conf +++ /dev/null @@ -1,273 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "salvator-x" - -# This sets the SoC -# H3: r8a7795, M3: r8a7796, M3N: r8a77965 -SOC_FAMILY = "r8a7795" -#SOC_FAMILY = "r8a7796" -#SOC_FAMILY = "r8a77965" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Mask graphic Pkgs -BBMASK .= "|gles-user-module|kernel-module-gles|wayland-kms|libgbm" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Enable pam distro feature -DISTRO_FEATURES_append = " pam" - -# Configuration for USB 3.0 -#MACHINE_FEATURES_append = " usb3" - -# Add Capacity Aware migration Strategy (CAS) -MACHINE_FEATURES_append = " cas" diff --git a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/gfx-only/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/gfx-only/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/gfx-only/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/gfx-only/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/gfx-only/local-wayland.conf deleted file mode 100644 index f25e34c..0000000 --- a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/gfx-only/local-wayland.conf +++ /dev/null @@ -1,289 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "salvator-x" - -# This sets the SoC -# H3: r8a7795, M3: r8a7796, M3N: r8a77965 -SOC_FAMILY = "r8a7795" -#SOC_FAMILY = "r8a7796" -#SOC_FAMILY = "r8a77965" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Enable Gfx Pkgs -MACHINE_FEATURES_append = " gsx" -MULTI_PROVIDER_WHITELIST += "virtual/libgl virtual/egl virtual/libgles1 virtual/libgles2" - -# for Wayland/Weston -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" -PREFERRED_PROVIDER_virtual/libgles1 = "" -PREFERRED_PROVIDER_virtual/libgles2 = "gles-user-module" -PREFERRED_PROVIDER_virtual/egl = "libegl" -PREFERRED_PROVIDER_virtual/libgl = "" -PREFERRED_PROVIDER_virtual/mesa = "" -PREFERRED_PROVIDER_libgbm = "libgbm" -PREFERRED_PROVIDER_libgbm-dev = "libgbm" -BBMASK .= "|mesa-gl" -# Mask MMP recipes -BBMASK .= "|kernel-module-uvcs-drv|omx-user-module" - -# Add for gstreamer plugins ugly -LICENSE_FLAGS_WHITELIST = "commercial" - -# Fix the Warning of gstreamer plugins -RDEPENDS_gstreamer1.0-plugins-bad = "libwayland-egl" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Configuration for USB 3.0 -#MACHINE_FEATURES_append = " usb3" - -# Add Capacity Aware migration Strategy (CAS) -MACHINE_FEATURES_append = " cas" diff --git a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/mmp/bblayers.conf b/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/mmp/bblayers.conf deleted file mode 100644 index 96ff8ad..0000000 --- a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/mmp/bblayers.conf +++ /dev/null @@ -1,16 +0,0 @@ -# POKY_BBLAYERS_CONF_VERSION is increased each time build/conf/bblayers.conf -# changes incompatibly -POKY_BBLAYERS_CONF_VERSION = "2" - -BBPATH = "${TOPDIR}" -BBFILES ?= "" - -BBLAYERS ?= " \ - ${TOPDIR}/../poky/meta \ - ${TOPDIR}/../poky/meta-poky \ - ${TOPDIR}/../poky/meta-yocto-bsp \ - ${TOPDIR}/../meta-renesas/meta-rcar-gen3 \ - ${TOPDIR}/../meta-linaro/meta-linaro-toolchain \ - ${TOPDIR}/../meta-linaro/meta-optee \ - ${TOPDIR}/../meta-openembedded/meta-oe \ - " diff --git a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/mmp/local-wayland.conf b/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/mmp/local-wayland.conf deleted file mode 100644 index 085d911..0000000 --- a/meta-rcar-gen3/docs/sample/conf/salvator-x/linaro-gcc/mmp/local-wayland.conf +++ /dev/null @@ -1,395 +0,0 @@ -# -# This file is your local configuration file and is where all local user settings -# are placed. The comments in this file give some guide to the options a new user -# to the system might want to change but pretty much any configuration option can -# be set in this file. More adventurous users can look at local.conf.extended -# which contains other examples of configuration which can be placed in this file -# but new users likely won't need any of them initially. -# -# Lines starting with the '#' character are commented out and in some cases the -# default values are provided as comments to show people example syntax. Enabling -# the option is a question of removing the # character and making any change to the -# variable as required. - -# -# Machine Selection -# -# You need to select a specific machine to target the build with. There are a selection -# of emulated machines available which can boot and run in the QEMU emulator: -# -#MACHINE ?= "qemuarm" -#MACHINE ?= "qemuarm64" -#MACHINE ?= "qemumips" -#MACHINE ?= "qemumips64" -#MACHINE ?= "qemuppc" -#MACHINE ?= "qemux86" -#MACHINE ?= "qemux86-64" -# -# There are also the following hardware board target machines included for -# demonstration purposes: -# -#MACHINE ?= "beaglebone" -#MACHINE ?= "genericx86" -#MACHINE ?= "genericx86-64" -#MACHINE ?= "mpc8315e-rdb" -#MACHINE ?= "edgerouter" -# -# This sets the default machine to be qemux86 if no other machine is selected: -MACHINE ??= "salvator-x" - -# This sets the SoC -# H3: r8a7795, M3: r8a7796, M3N: r8a77965 -SOC_FAMILY = "r8a7795" -#SOC_FAMILY = "r8a7796" -#SOC_FAMILY = "r8a77965" - -# -# Where to place downloads -# -# During a first build the system will download many different source code tarballs -# from various upstream projects. This can take a while, particularly if your network -# connection is slow. These are all stored in DL_DIR. When wiping and rebuilding you -# can preserve this directory to speed up this part of subsequent builds. This directory -# is safe to share between multiple builds on the same machine too. -# -# The default is a downloads directory under TOPDIR which is the build directory. -# -#DL_DIR ?= "${TOPDIR}/downloads" - -# -# Where to place shared-state files -# -# BitBake has the capability to accelerate builds based on previously built output. -# This is done using "shared state" files which can be thought of as cache objects -# and this option determines where those files are placed. -# -# You can wipe out TMPDIR leaving this directory intact and the build would regenerate -# from these files if no changes were made to the configuration. If changes were made -# to the configuration, only shared state files where the state was still valid would -# be used (done using checksums). -# -# The default is a sstate-cache directory under TOPDIR. -# -#SSTATE_DIR ?= "${TOPDIR}/sstate-cache" - -# -# Where to place the build output -# -# This option specifies where the bulk of the building work should be done and -# where BitBake should place its temporary files and output. Keep in mind that -# this includes the extraction and compilation of many applications and the toolchain -# which can use Gigabytes of hard disk space. -# -# The default is a tmp directory under TOPDIR. -# -#TMPDIR = "${TOPDIR}/tmp" - -# -# Default policy config -# -# The distribution setting controls which policy settings are used as defaults. -# The default value is fine for general Yocto project use, at least initially. -# Ultimately when creating custom policy, people will likely end up subclassing -# these defaults. -# -DISTRO ?= "poky" -# As an example of a subclass there is a "bleeding" edge policy configuration -# where many versions are set to the absolute latest code from the upstream -# source control systems. This is just mentioned here as an example, its not -# useful to most new users. -# DISTRO ?= "poky-bleeding" - -# -# Package Management configuration -# -# This variable lists which packaging formats to enable. Multiple package backends -# can be enabled at once and the first item listed in the variable will be used -# to generate the root filesystems. -# Options are: -# - 'package_deb' for debian style deb files -# - 'package_ipk' for ipk files are used by opkg (a debian style embedded package manager) -# - 'package_rpm' for rpm style packages -# E.g.: PACKAGE_CLASSES ?= "package_rpm package_deb package_ipk" -# We default to rpm: -PACKAGE_CLASSES ?= "package_rpm" - -# -# SDK target architecture -# -# This variable specifies the architecture to build SDK items for and means -# you can build the SDK packages for architectures other than the machine you are -# running the build on (i.e. building i686 packages on an x86_64 host). -# Supported values are i686 and x86_64 -#SDKMACHINE ?= "i686" - -# -# Extra image configuration defaults -# -# The EXTRA_IMAGE_FEATURES variable allows extra packages to be added to the generated -# images. Some of these options are added to certain image types automatically. The -# variable can contain the following options: -# "dbg-pkgs" - add -dbg packages for all installed packages -# (adds symbol information for debugging/profiling) -# "dev-pkgs" - add -dev packages for all installed packages -# (useful if you want to develop against libs in the image) -# "ptest-pkgs" - add -ptest packages for all ptest-enabled packages -# (useful if you want to run the package test suites) -# "tools-sdk" - add development tools (gcc, make, pkgconfig etc.) -# "tools-debug" - add debugging tools (gdb, strace) -# "eclipse-debug" - add Eclipse remote debugging support -# "tools-profile" - add profiling tools (oprofile, lttng, valgrind) -# "tools-testapps" - add useful testing tools (ts_print, aplay, arecord etc.) -# "debug-tweaks" - make an image suitable for development -# e.g. ssh root access has a blank password -# There are other application targets that can be used here too, see -# meta/classes/image.bbclass and meta/classes/core-image.bbclass for more details. -# We default to enabling the debugging tweaks. -EXTRA_IMAGE_FEATURES ?= "debug-tweaks" - -# -# Additional image features -# -# The following is a list of additional classes to use when building images which -# enable extra features. Some available options which can be included in this variable -# are: -# - 'buildstats' collect build statistics -# - 'image-mklibs' to reduce shared library files size for an image -# - 'image-prelink' in order to prelink the filesystem image -# NOTE: if listing mklibs & prelink both, then make sure mklibs is before prelink -# NOTE: mklibs also needs to be explicitly enabled for a given image, see local.conf.extended -USER_CLASSES ?= "buildstats image-mklibs image-prelink" - -# -# Runtime testing of images -# -# The build system can test booting virtual machine images under qemu (an emulator) -# after any root filesystems are created and run tests against those images. To -# enable this uncomment this line. See classes/testimage(-auto).bbclass for -# further details. -#TEST_IMAGE = "1" -# -# Interactive shell configuration -# -# Under certain circumstances the system may need input from you and to do this it -# can launch an interactive shell. It needs to do this since the build is -# multithreaded and needs to be able to handle the case where more than one parallel -# process may require the user's attention. The default is iterate over the available -# terminal types to find one that works. -# -# Examples of the occasions this may happen are when resolving patches which cannot -# be applied, to use the devshell or the kernel menuconfig -# -# Supported values are auto, gnome, xfce, rxvt, screen, konsole (KDE 3.x only), none -# Note: currently, Konsole support only works for KDE 3.x due to the way -# newer Konsole versions behave -#OE_TERMINAL = "auto" -# By default disable interactive patch resolution (tasks will just fail instead): -PATCHRESOLVE = "noop" - -# -# Disk Space Monitoring during the build -# -# Monitor the disk space during the build. If there is less that 1GB of space or less -# than 100K inodes in any key build location (TMPDIR, DL_DIR, SSTATE_DIR), gracefully -# shutdown the build. If there is less that 100MB or 1K inodes, perform a hard abort -# of the build. The reason for this is that running completely out of space can corrupt -# files and damages the build in ways which may not be easily recoverable. -# It's necesary to monitor /tmp, if there is no space left the build will fail -# with very exotic errors. -BB_DISKMON_DIRS ??= "\ - STOPTASKS,${TMPDIR},1G,100K \ - STOPTASKS,${DL_DIR},1G,100K \ - STOPTASKS,${SSTATE_DIR},1G,100K \ - STOPTASKS,/tmp,100M,100K \ - ABORT,${TMPDIR},100M,1K \ - ABORT,${DL_DIR},100M,1K \ - ABORT,${SSTATE_DIR},100M,1K \ - ABORT,/tmp,10M,1K" - -# -# Shared-state files from other locations -# -# As mentioned above, shared state files are prebuilt cache data objects which can -# used to accelerate build time. This variable can be used to configure the system -# to search other mirror locations for these objects before it builds the data itself. -# -# This can be a filesystem directory, or a remote url such as http or ftp. These -# would contain the sstate-cache results from previous builds (possibly from other -# machines). This variable works like fetcher MIRRORS/PREMIRRORS and points to the -# cache locations to check for the shared objects. -# NOTE: if the mirror uses the same structure as SSTATE_DIR, you need to add PATH -# at the end as shown in the examples below. This will be substituted with the -# correct path within the directory structure. -#SSTATE_MIRRORS ?= "\ -#file://.* http://someserver.tld/share/sstate/PATH;downloadfilename=PATH \n \ -#file://.* file:///some/local/dir/sstate/PATH" - - -# -# Qemu configuration -# -# By default qemu will build with a builtin VNC server where graphical output can be -# seen. The two lines below enable the SDL backend too. By default libsdl-native will -# be built, if you want to use your host's libSDL instead of the minimal libsdl built -# by libsdl-native then uncomment the ASSUME_PROVIDED line below. -PACKAGECONFIG_append_pn-qemu-native = " sdl" -PACKAGECONFIG_append_pn-nativesdk-qemu = " sdl" -#ASSUME_PROVIDED += "libsdl-native" - -# CONF_VERSION is increased each time build/conf/ changes incompatibly and is used to -# track the version of this file when it was generated. This can safely be ignored if -# this doesn't mean anything to you. -CONF_VERSION = "1" - -# Add systemd configuration -DISTRO_FEATURES_append = " systemd" -VIRTUAL-RUNTIME_init_manager = "systemd" - -# Linaro GCC -GCCVERSION = "linaro-7.2" - -# add the static lib to SDK toolchain -SDKIMAGE_FEATURES_append = " staticdev-pkgs" - -# Disable optee in meta-linaro layer -BBMASK = "meta-linaro/meta-optee/recipes-security/optee" - -# Enable Gfx Pkgs -MACHINE_FEATURES_append = " gsx" -MULTI_PROVIDER_WHITELIST += "virtual/libgl virtual/egl virtual/libgles1 virtual/libgles2" - -# for Wayland/Weston -DISTRO_FEATURES_NATIVESDK_append = " wayland" -DISTRO_FEATURES_append = " pam" -PREFERRED_PROVIDER_virtual/libgles1 = "" -PREFERRED_PROVIDER_virtual/libgles2 = "gles-user-module" -PREFERRED_PROVIDER_virtual/egl = "libegl" -PREFERRED_PROVIDER_virtual/libgl = "" -PREFERRED_PROVIDER_virtual/mesa = "" -PREFERRED_PROVIDER_libgbm = "libgbm" -PREFERRED_PROVIDER_libgbm-dev = "libgbm" -BBMASK .= "|mesa-gl" - -# Enable Multimedia features -MACHINE_FEATURES_append = " multimedia" - -# for gstreamer omx plugins -LICENSE_FLAGS_WHITELIST = "commercial" -# for mmp test program -DISTRO_FEATURES_append = " mm-test" - -# for weston v4l2 renderer -#DISTRO_FEATURES_append = " v4l2-renderer" - -# OMX H263 decoder library for Linux (RTM0AC0000XV263D30SL41C) -#DISTRO_FEATURES_append = " h263dec_lib" - -# OMX H264 decoder library for Linux (RTM0AC0000XV264D30SL41C) -DISTRO_FEATURES_append = " h264dec_lib" - -# OMX H264 encoder library for Linux (RTM0AC0000XV264E30SL41C) -#DISTRO_FEATURES_append = " h264enc_lib" - -# OMX H265 decoder library for Linux (RTM0AC0000XV265D30SL41C) -#DISTRO_FEATURES_append = " h265dec_lib" - -# OMX MPEG2 decoder library for Linux (RTM0AC0000XVM2VD30SL41C) -#DISTRO_FEATURES_append = " mpeg2dec_lib" - -# OMX Media Component MPEG4 Decoder Library for Linux (RTM0AC0000XVM4VD30SL41C) -#DISTRO_FEATURES_append = " mpeg4dec_lib" - -# OMX Media Component VC-1 Decoder Library for Linux (RTM0AC0000XVVC1D30SL41C) -#DISTRO_FEATURES_append = " vc1dec_lib" - -# OMX Media Component DivXD Decoder Library for Linux (RTM0AC0000XVDVXD30SL41C) -#DISTRO_FEATURES_append = " divxdec_lib" - -# OMX Media Component RealVideo Decoder Library for Linux (RTM0AC0000XVRLVD30SL41C) -#DISTRO_FEATURES_append = " rvdec_lib" - -# OMX Media Component ALAC Decoder Library for Linux (RTM0AC0000XAALAD30SL41C) -#DISTRO_FEATURES_append = " alacdec_lib" - -# OMX Media Component FLAC Decoder Library for Linux (RTM0AC0000XAFLAD30SL41C) -#DISTRO_FEATURES_append = " flacdec_lib" - -# OMX AAC-LC decoder library for Linux (RTM0AC0000XAAACD30SL41C), -# AAC-LC 2ch decoder middleware library for Linux (RTM0AC0000ADAACMZ1SL41C) -DISTRO_FEATURES_append = " aaclcdec_lib" -DISTRO_FEATURES_append = " aaclcdec_mdw" - -# OMX aacPlus V2 decoder library for Linux (RTM0AC0000XAAAPD30SL41C), -# aacPlus V2 decoder middleware library for Linux (RTM0AC0000ADAAPMZ1SL41C) -#DISTRO_FEATURES_append = " aacpv2dec_lib" -#DISTRO_FEATURES_append = " aacpv2dec_mdw" - -# OMX MP3 decoder library for Linux (RTM0AC0000XAMP3D30SL41C), -# MP3 decoder middleware library for Linux (RTM0AC0000ADMP3MZ1SL41C) -#DISTRO_FEATURES_append = " mp3dec_lib" -#DISTRO_FEATURES_append = " mp3dec_mdw" - -# OMX WMA decoder library for Linux (RTM0AC0000XAWMAD30SL41C), -# WMA decoder middleware library for Linux (RTM0AC0000ADWMAMZ1SL41C) -#DISTRO_FEATURES_append = " wmadec_lib" -#DISTRO_FEATURES_append = " wmadec_mdw" - -# OMX AAC-LC encoder library for Linux (RTM0AC0000XAAACE30SL41C) -# AAC-LC encoder middleware library for Linux (RTM0AC0000AEAACMZ1SL41C) -#DISTRO_FEATURES_append = " aaclcenc_lib" -#DISTRO_FEATURES_append = " aaclcenc_mdw" - -# OMX Dolby(R) Digital decoder library for Linux (RTM0AC0000XADD5D30SL41C), -# Dolby(R) Digital decoder middleware library for Linux (RTM0AC0000ADDD5MZ1SL41C) -#DISTRO_FEATURES_append = " dddec_lib" -#DISTRO_FEATURES_append = " dddec_mdw" - -# OMX Media Component VP8 Decoder Library for Linux (RTM0AC0000XVVP8D30SL41C) -#DISTRO_FEATURES_append = " vp8dec_lib" - -# OMX Media Component VP8 Encoder Library for Linux (RTM0AC0000XVVP8E30SL41C) -#DISTRO_FEATURES_append = " vp8enc_lib" - -# OMX Media Component VP9 Decoder Library for Linux (RTM0AC0000XVVP9D30SL41C) -#DISTRO_FEATURES_append = " vp9dec_lib" - -# CMS Basic Color Management Middleware for Linux (RTM0AC0000JRCMBCV0SL41C) -#DISTRO_FEATURES_append = " cmsbcm" - -# CMS CMM3 Backlight Control Middleware for Linux (RTM0AC0000JRCMBLC0SL41C) -#DISTRO_FEATURES_append = " cmsblc" - -# CMS VSP2 Dynamic Gamma Correction Middleware for Linux (RTM0AC0000JRCMDGV0SL41C) -#DISTRO_FEATURES_append = " cmsdgc" - -# ISDB-T DTV Software Package for Linux (RTM0RC0000TE020000SL41C) -#DISTRO_FEATURES_append = " dtv" - -# DVD Core-Middleware for Linux (RTM0RC0000XDVDC301SL41C) -# DVD Encryption Library for Linux (RTM0RC0000XDVDF301SL41C) -#DISTRO_FEATURES_append = " dvd" -#DISTRO_FEATURES_append = " dvd_encryption_library" - -# ADSP Driver for Linux (RCG3AHPDL4101ZDO) -# ADSP Interface for Linux (RCG3AHIFL4101ZDP) -# ADSP Framework (RCG3AHFWN0201ZDP) -#DISTRO_FEATURES_append = " adsp" - -# AVB Software Package for Linux -#DISTRO_FEATURES_append = " avb" - -# Linux ICCOM driver (RCG3ZLIDL4101ZNO) -# Linux ICCOM library (RCG3ZLILL4101ZNO) -#DISTRO_FEATURES_append = " iccom" - -# Evaluation packages -#DISTRO_FEATURES_append = " use_eva_pkg" - -# Configuration for ivi-shell and ivi-extension -#DISTRO_FEATURES_append = " ivi-shell" - -# Configuration for USB 3.0 -#MACHINE_FEATURES_append = " usb3" - -# Add Capacity Aware migration Strategy (CAS) -MACHINE_FEATURES_append = " cas" diff --git a/meta-rcar-gen3/docs/sample/patch/patch-for-linaro-gcc/0001-rcar-gen3-add-readme-for-building-with-Linaro-Gcc.patch b/meta-rcar-gen3/docs/sample/patch/patch-for-linaro-gcc/0001-rcar-gen3-add-readme-for-building-with-Linaro-Gcc.patch deleted file mode 100644 index 0ca1017..0000000 --- a/meta-rcar-gen3/docs/sample/patch/patch-for-linaro-gcc/0001-rcar-gen3-add-readme-for-building-with-Linaro-Gcc.patch +++ /dev/null @@ -1,186 +0,0 @@ -From a217313adcfb331634c99be786b93516d38d943a Mon Sep 17 00:00:00 2001 -From: Thuy Tran <thuy.tran.xh@rvc.renesas.com> -Date: Tue, 24 Oct 2017 14:39:24 +0700 -Subject: [PATCH] rcar-gen3: Add readme for building with Linaro Gcc - -This patch add the dependent layer information, build instructions -for using Linaro Gcc. - -Updated on Dec, 2016: -- Add H3ULCB -- Change supported branch from jethro to krogoth -- Change Maintainer information. - -Updated on Oct, 2017: -- Add M3N -- Add M3ULCB -- Add meta-optee layer - -Updated on Feb, 2018: -- Add E3 -- Add elinux.org reference - -Signed-off-by: Phong Man Tran <phong.tran.wh@rvc.renesas.com> -Signed-off-by: Thao Nguyen <thao.nguyen.yb@rvc.renesas.com> -Signed-off-by: Thuy Tran <thuy.tran.xh@rvc.renesas.com> -Signed-off-by: Takamitsu Honda <takamitsu.honda.pv@renesas.com> ---- - meta-rcar-gen3/README.linaro | 127 +++++++++++++++++++++++++++++++++++++++++++ - 1 file changed, 127 insertions(+) - create mode 100644 meta-rcar-gen3/README.linaro - -diff --git a/meta-rcar-gen3/README.linaro b/meta-rcar-gen3/README.linaro -new file mode 100644 -index 0000000..e1fe40a ---- /dev/null -+++ b/meta-rcar-gen3/README.linaro -@@ -0,0 +1,127 @@ -+meta-rcar-gen3 -+============== -+ -+This layer provides that evaluation board is mounted ARM SoCs of Renesas -+Electronics, called the R-Car Generation 3. Currently, this supports -+board and the SoCs of the following: -+ - Board: Salvator-X / SoC: R8A7795 (R-Car H3), R8A7796 (R-Car M3), R8A77965 (R-Car M3N) -+ - Board: R-Car Starter Kit premier(H3ULCB) / SoC: R8A7795 -+ - Board: R-Car Starter Kit pro(M3ULCB) / SoC: R8A7796 -+ - Board: Ebisu / SoC: R8A77990 (R-Car E3) -+ -+Patches -+======= -+ -+Please submit any patches for this layer to: takamitsu.honda.pv@renesas.com -+Please see the MAINTAINERS file for more details. -+ -+Dependencies -+============ -+ -+This layer depends on: -+ -+ URI: git://git.yoctoproject.org/poky -+ layers: meta, meta-yocto, meta-yocto-bsp -+ branch: rocko -+ -+ URI: https://git.linaro.org/openembedded/meta-linaro.git -+ layers: meta-linaro-toolchain, meta-optee -+ branch: rocko -+ -+ URI: git://git.openembedded.org/meta-openembedded -+ layers: meta-oe -+ branch: rocko -+ -+Build Instructions -+================== -+ -+The following instructions require a Poky installation (or equivalent). -+ -+Initialize a build using the 'oe-init-build-env' script in Poky. e.g.: -+ -+ $ source poky/oe-init-build-env -+ -+After that, initialized configure bblayers.conf by adding meta-rcar-gen3 layer. e.g.: -+ -+ BBLAYERS ?= " \ -+ <path to layer>/poky/meta \ -+ <path to layer>/poky/meta-yocto \ -+ <path to layer>/poky/meta-yocto-bsp \ -+ <path to layer>/meta-renesas/meta-rcar-gen3 \ -+ <path to layer>/meta-linaro/meta-linaro-toolchain \ -+ <path to layer>/meta-linaro/meta-optee \ -+ <path to layer>/meta-openembedded/meta-oe \ -+ " -+ -+To build a specific target BSP, configure the associated machine in local.conf: -+ -+ MACHINE ??= "<supported board name>" -+ -+Select the SOC -+ -+ For H3: r8a7795 -+ SOC_FAMILY = "r8a7795" -+ -+ For M3: r8a7796 -+ SOC_FAMILY = "r8a7796" -+ -+ For M3N: r8a77965 -+ SOC_FAMILY = "r8a77965" -+ -+ For E3: r8a77990 -+ SOC_FAMILY = "r8a77990" -+ Already added in machine config: ebisu.conf -+ -+Must Change the Gcc version in local.conf. -+ -+ GCCVERSION="linaro-7.2" -+ -+Configure for systemd init in local.conf: -+ -+ DISTRO_FEATURES_append = " systemd" -+ VIRTUAL-RUNTIME_init_manager = "systemd" -+Configure for ivi-shell and ivi-extension -+ -+ DISTRO_FEATURES_append = " ivi-shell" -+ -+Configure for USB 3.0 -+ -+ MACHINE_FEATURES_append = " usb3" -+ -+Enable tuning support for Capacity Aware migration Strategy (CAS) -+ -+ MACHINE_FEATURES_append = " cas" -+ -+Build the target file system image using bitbake: -+ -+ $ bitbake core-image-minimal -+ -+After completing the images for the target machine will be available in the output -+directory 'tmp/deploy/images/<supported board name>'. -+ -+Images generated: -+ * Image (generic Linux Kernel binary image file) -+ * Image-<machine name>.dtb (DTB for target machine) -+ * core-image-minimal-<machine name>.tar.bz2 (rootfs tar+bzip2) -+ * core-image-minimal-<machine name>.ext4 (rootfs ext4 format) -+ -+Build Instructions for SDK -+========================== -+This may be changed in the near feature. These instructions are tentative. -+ -+Should define the staticdev in SDK image feature for installing the static libs -+to SDK in local.conf. -+ -+ SDKIMAGE_FEATURES_append = " staticdev-pkgs" -+ -+Use bitbake -c populate_sdk for generating the toolchain SDK: -+For 64-bit target SDK (aarch64): -+ -+ $ bitbake core-image-minimal -c populate_sdk -+ -+The SDK can be found in the output directory 'tmp/deploy/sdk' -+ * poky-glibc-x86_64-core-image-minimal-aarch64-toolchain-x.x.sh -+ -+Usage of toolchain SDK: -+Install the SDK to the default: /opt/poky/x.x -+(x.x is YP version, i.e. 2.1.) -+For 64-bit target SDK: -+ -+ $ sh poky-glibc-x86_64-core-image-minimal-aarch64-toolchain-x.x.sh -+ -+For 64-bit application use environment script in /opt/poky/x.x -+ -+ $ source /opt/poky/x.x/environment-setup-aarch64-poky-linux -+ -+ULCB Information -+================ -+Refer to the following for more information of ULCB: -+ -+ http://elinux.org/R-Car -+ -+The information on building and running Yocto on R-Car Generation 3 -+========================= -+Refer to the following for more information: -+ -+ https://elinux.org/R-Car/Boards/Yocto-Gen3 --- -1.9.1 - |