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genode/tool/run/boot_dir/okl4
Christian Prochaska 84ee970e9b run: look for platform boot string at beginning of line 
When running the same kernel in a VM as on the host system and the
kernel boot message from the VM appears on the log output, the run tool
assumes that the host machine has rebooted unexpectedly. With this
commit, an unexpected reboot is assumed only if the kernel boot message
appears at the beginning of a line. On base-hw, we enforce a line feed
at the beginning of the boot message as the SPIKE emulator log starts
with the first message of the kernel lacking a line feed.

Fixes #2041
2016-08-10 11:07:48 +02:00

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##
# Get the base-okl4 repository
#
proc base_okl4_dir {} { return [repository_contains mk/spec-okl4.mk] }
##
# Read the location of the OKL4 directory from 'etc/okl4.conf'
#
proc okl4_dir { } {
global _okl4_dir
if {![info exists _okl4_dir]} {
if {[file exists etc/okl4.conf]} {
set _okl4_dir [exec sed -n "/^OKL4_DIR/s/^.*=\\s*//p" etc/okl4.conf]
if {[file exists $_okl4_dir]} { return $_okl4_dir }
}
set _okl4_dir [base_okl4_dir]/contrib/okl4
}
return $_okl4_dir
}
##
# Return the location of the OKL4 kernel
#
proc okl4 { } {
if {[okl4_external]} { return [okl4_dir]/build/pistachio/bin/kernel }
return bin/kernel
}
##
# Return whether okl4 kernel is provided from the outside
#
proc okl4_external { } {
if {"[okl4_dir]" == "[base_okl4_dir]/contrib/okl4"} { return 0 }
return 1
}
set weaver_xml_template {
<machine>
<word_size size="0x20" />
<virtual_memory name="virtual">
<region base="0x120000" size="0x3fe00000" />
</virtual_memory>
<physical_memory name="system_dram">
<region base="0x0" size="0xa000" type="dedicated" />
</physical_memory>
<physical_memory name="bios">
<region base="0xf0000" size="0x10000" type="dedicated" />
</physical_memory>
<physical_memory name="rom_expansion">
<region base="0x100000" size="0x1800000" type="dedicated" />
</physical_memory>
<physical_memory name="physical">
<region base="0x2000000" size="0x30000000" type="conventional" />
</physical_memory>
<phys_device name="timer_dev">
<interrupt name="int_timer0" number="0" />
</phys_device>
<phys_device name="serial_dev">
<interrupt name="int_serial0" number="4" />
</phys_device>
<phys_device name="rtc_dev">
</phys_device>
<page_size size="0x1000" />
<page_size size="0x400000" />
</machine>
<physical_pool name="system_dram" direct="true">
<memory src="system_dram" />
</physical_pool>
<virtual_pool name="virtual">
<memory src="virtual" />
</virtual_pool>
<physical_pool name="bios" direct="true">
<memory src="bios" />
</physical_pool>
<physical_pool name="rom_expansion" direct="true">
<memory src="rom_expansion" />
</physical_pool>
<physical_pool name="physical" direct="true">
<memory src="physical" />
</physical_pool>
<kernel file="okl4_kernel" xip="false" >
<dynamic max_threads="0x400" />
<config>
<option key="root_caps" value="4096"/>
</config>
</kernel>
<rootprogram file="core" virtpool="virtual" physpool="physical" />
}
proc run_boot_string { } {
return "\n\r\033\\\[1m\033\\\[33mOKL4 -"
}
##
# Populate directory with binaries on OKL4
#
proc run_boot_dir {binaries} {
global weaver_xml_template
#
# Strip binaries
#
copy_and_strip_genode_binaries_to_run_dir $binaries
#
# Build kernel if needed
#
# Once the kernel is exists, it gets never revisited automatically.
# Consequently, when changing the kernel sources, the kernel build must be
# issued explicitly via 'make kernel'. This way, the rare case of changing
# the kernel does not stand in the way of the everyday's work flow of
# executing run scripts as quick as possible.
#
if {![okl4_external] && ![file exists [okl4]]} { build { kernel } }
exec cp [okl4] [run_dir]/kernel
#
# Generate ELF weaver config
#
set fh [open "[run_dir].weaver.xml" "WRONLY CREAT TRUNC"]
puts $fh {<?xml version="1.0"?>}
puts $fh {<!DOCTYPE image SYSTEM "weaver-1.1.dtd">}
puts $fh {<image>}
regsub okl4_kernel $weaver_xml_template "[run_dir]/kernel" weaver_xml_template
regsub core $weaver_xml_template "[run_dir]/genode/core" weaver_xml_template
puts $fh $weaver_xml_template
puts $fh { <pd name="modules">}
puts $fh " <memsection name=\"config\" file=\"[run_dir]/genode/config\" direct=\"true\" />"
foreach binary $binaries {
if {$binary != "core"} {
puts $fh " <memsection name=\"$binary\" file=\"[run_dir]/genode/$binary\" direct=\"true\" />" }
}
puts $fh { </pd>}
puts $fh {</image>}
close $fh
#
# Run ELF Weaver to create a boot image
#
set ret [exec "./tool/okl4/elfweaver" merge --output "[run_dir]/image.elf" "[run_dir].weaver.xml"]
if {[regexp "error" $ret dummy]} {
puts stderr "Elfweaver failed: $ret"
exit -6
}
exec [cross_dev_prefix]strip [run_dir]/image.elf
exec cp [run_dir]/image.elf [run_dir].elf
#
# Keep only the ELF boot image, but remove stripped binaries
#
exec rm -r [run_dir]/genode
if {[have_include "image/iso"] || [have_include "image/disk"]} {
#
# Install GRUB
#
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 "hiddenmenu"
puts $fh "\ntitle Genode on OKL4"
puts $fh " kernel /boot/bender"
puts $fh " module /image.elf"
puts $fh " vbeset 0x117"
close $fh
}
#
# Build image
#
run_image
if {[have_include "load/tftp"]} {
#
# Install PXE bootloader pulsar
#
install_pxe_bootloader_to_run_dir
#
# Generate pulsar config file
#
set fh [open "[run_dir]/config-52-54-00-12-34-56" "WRONLY CREAT TRUNC"]
# load okl4 at 256M to avoid overwritting binary, adjust by need
puts $fh " addr 0x10000000"
puts $fh " exec /boot/bender"
puts $fh " load /image.elf"
close $fh
generate_tftp_config
}
}
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