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genode/repos/base-pistachio/run/env
Christian Helmuth dc2961338d Bootable GRUB2 disk image with ext2 partition 
This provides bootable disk images for x86 platforms via

! RUN_OPT="--target disk"

The resulting disk image contains one ext2 partition with binaries from
the GRUB2 boot loader and the run scenario. The default disk size fits
all binaries, but is configurable via

! --disk-size <size in MiB>

in RUN_OPT.

The feature depends on an grub2-head.img, which is part of the commit,
but may also be generated by executing tool/create_grub2. The script
generates a disk image prepared for one partition, which contains files
for GRUB2. All image preparation steps that need superuser privileges
are conducted by this script.

The final step of writing the entire image to a disk must be executed
later by

  sudo dd if=<image file> of=<device> bs=8M conv=fsync

Fixes #1203.
2014-08-18 13:25:21 +02:00

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#
# \brief Pistachio-specific test-environment supplements
# \author Norman Feske
# \date 2010-08-25
#
# This file is meant to be used as '--include' argument for 'tool/run'.
#
##
# Install files needed to boot via PXE
#
proc install_pxe_bootloader_to_run_dir { } {
exec cp [genode_dir]/tool/boot/pulsar [run_dir]/boot/pulsar
exec cp [genode_dir]/tool/boot/bender [run_dir]/boot/bender
}
##
# Read the location of the Pistachio user directory from 'etc/pistachio.conf'
#
proc pistachio_user_dir { } {
global _pistachio_user_dir
if {![info exists _pistachio_user_dir]} {
if {[file exists etc/pistachio.conf]} {
set _pistachio_user_dir [exec sed -n "/^PISTACHIO_USER_BUILD_DIR/s/^.*=\\s*//p" etc/pistachio.conf]
} else {
set _pistachio_user_dir "[pwd]/l4"
}
}
return $_pistachio_user_dir
}
##
# Read the location of the Pistachio kernel directory from 'etc/pistachio.conf'
# or return a good heuristic
#
proc pistachio_kernel { } {
global _pistachio_kernel
if {![info exists _pistachio_kernel]} {
if {[file exists etc/pistachio.conf]} {
set _pistachio_kernel [exec sed -n "/^PISTACHIO_KERNEL/s/^.*=\\s*//p" etc/pistachio.conf]
if {$_pistachio_kernel == ""} {
set _pistachio_kernel [file dirname [file dirname [pistachio_user_dir]]]/kernel/build/x86-kernel
}
} else {
set _pistachio_kernel "[pwd]/bin/kernel"
}
}
return $_pistachio_kernel
}
##
# Return whether the kernel is provided from the outside
#
proc kernel_external { } {
if {[pistachio_kernel] == "[pwd]/bin/kernel"} { return 0 }
return 1
}
##################################
## Test framework API functions ##
##################################
proc create_boot_directory { } {
exec rm -rf [run_dir]
exec mkdir -p [run_dir]/genode
exec mkdir -p [run_dir]/pistachio
}
proc build_boot_image {binaries} {
#
# Collect contents of the ISO image
#
copy_and_strip_genode_binaries_to_run_dir $binaries
if {![kernel_external] && ![file exists [pistachio_kernel]]} { build { kernel } }
exec cp [pistachio_kernel] [run_dir]/pistachio/kernel
exec cp [pistachio_user_dir]/serv/sigma0/sigma0 [run_dir]/pistachio
exec cp [pistachio_user_dir]/util/kickstart/kickstart [run_dir]/pistachio
install_iso_bootloader_to_run_dir
#
# Generate grub config file
#
# The core binary is part of the 'binaries' list but it must
# appear right after 'sigma0' as boot module. Hence the special case.
#
set fh [open "[run_dir]/boot/grub/menu.lst" "WRONLY CREAT TRUNC"]
puts $fh "timeout 0"
puts $fh "default 0"
puts $fh "\ntitle Genode on L4ka::Pistachio"
puts $fh " kernel /pistachio/kickstart"
puts $fh " module /pistachio/kernel"
puts $fh " module /pistachio/sigma0"
puts $fh " module /genode/core"
puts $fh " module /genode/config"
foreach binary $binaries {
if {$binary != "core"} {
puts $fh " module /genode/$binary" } }
close $fh
#
# Install PXE bootloader pulsar
#
install_pxe_bootloader_to_run_dir
create_iso_image_from_run_dir
create_disk_image_from_run_dir
#
# Generate pulsar config file
#
set fh [open "[run_dir]/config-52-54-00-12-34-56" "WRONLY CREAT TRUNC"]
puts $fh " exec /boot/bender"
puts $fh " load /pistachio/kickstart"
puts $fh " load /pistachio/kernel"
puts $fh " load /pistachio/sigma0"
puts $fh " load /genode/core"
puts $fh " load /genode/config"
puts $fh " load /genode/config"
foreach binary $binaries {
if {$binary != "core"} {
puts $fh " load /genode/$binary" } }
close $fh
#
# Generate pulsar config file pointing to the config file above.
#
if {[info exists ::env(PXE_TFTP_DIR_BASE)] && [info exists ::env(PXE_TFTP_DIR_OFFSET)]} {
exec ln -nfs "[pwd]" "$::env(PXE_TFTP_DIR_BASE)$::env(PXE_TFTP_DIR_OFFSET)"
set tftp_base ""
if {[get_cmd_switch --tftp-absolute]} {
set tftp_base $::env(PXE_TFTP_DIR_BASE)
}
set fh [open "$::env(PXE_TFTP_DIR_BASE)$::env(PXE_TFTP_DIR_OFFSET)/config-00-00-00-00-00-00" "WRONLY CREAT TRUNC"]
puts $fh " root $tftp_base$::env(PXE_TFTP_DIR_OFFSET)/[run_dir]"
puts $fh " config config-52-54-00-12-34-56"
close $fh
}
}
proc run_genode_until {{wait_for_re forever} {timeout_value 0} {running_spawn_id -1}} {
#
# If a running_spawn_id is specified, wait for the expected output
#
if {$running_spawn_id != -1} {
wait_for_output $wait_for_re $timeout_value $running_spawn_id
return
}
#
# Try to use one of the supported backends for running the scripts
#
if {[is_amt_available]} {
spawn_amt $wait_for_re $timeout_value
return
}
if {[is_qemu_available]} {
spawn_qemu $wait_for_re $timeout_value
return
}
global run_target
puts stderr "Error: Can't execute automatically on target '$run_target'"
exit -1
}
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