genode/base-hw/run/env

#!/usr/bin/expect

#
# \brief  Implementation of the 'tool/run' interface
# \author Martin Stein
# \date   2011-12-16
#


###############
## Utilities ##
###############

#
# Ensure that the next Genode build includes no target specific boot modules
#
proc clean_boot_modules { } {
	exec rm -rf boot_modules.s var/libcache/boot_modules/boot_modules.o }


#
# Get target argument
#
proc target { } { return [get_cmd_arg --target "qemu"] }


##########################
## 'tool/run' interface ##
##########################

proc build {targets} {

	# skip targets that shall not be build
	if {[get_cmd_switch --skip-build]} return

	# handle false remnants of previous builds
	clean_boot_modules

	#
	# Build all remaining targets.
	# Core is build with a dummy boot-modules file first.
	#
	regsub -all {\s\s+} $targets " " targets
	set timeout 10000
	set pid [eval "spawn make $targets"]
	expect { eof { } }
	if {[lindex [wait $pid] end] != 0} {
		puts stderr "Error: Genode build failed"
		exit -1
	}
}


proc create_boot_directory { } {

	exec rm -rf [run_dir]
	exec mkdir -p [run_dir]/genode
}


proc build_boot_image {binaries} {

	# strip binaries
	copy_and_strip_genode_binaries_to_run_dir $binaries

	# append init config
	if {[file exists "[run_dir]/genode/config"] == 1} {
		append binaries " config"
	}

	#
	# Compose a platform specific assembly file 'boot_modules.s', that
	# enables the creation of a single boot image. The file rawly includes
	# all binaries given in 'binaries', minus 'core', if given, plus 'config',
	# if available. It also provides a simple file system, that enables Genode
	# to access these BLOBs. To build a single image this file is simply
	# linked against core. To build core stand-alone this file is substituted
	# by a dummy version. 'boot_modules.s' must be composed on demand, because
	# it depends on the individual run scenario.
	#
	set boot_modules "[run_dir]/boot_modules.s"
	if { [have_spec {arm}] } {

		set load_store_align_l2 2
		set min_page_align_l2  12

		# introduce boot module headers
		exec echo -e \
			  "/**" \
			"\n * This file was automatically generated by the procedure" \
			"\n * 'build_boot_image' in 'base-hw/run/env'." \
			"\n */" \
			"\n" \
			"\n.section .data" \
			"\n" \
			"\n.p2align ${load_store_align_l2}" \
			"\n.global _boot_modules_begin" \
			"\n_boot_modules_begin:" \
			"\n.string \"GROM\"" \
			"\n" \
			"\n.p2align ${load_store_align_l2}" \
			"\n.global _boot_module_headers_begin" \
			"\n_boot_module_headers_begin:" > $boot_modules

		# generate header for each boot module except core
		set i 1
		foreach binary $binaries {
			if {$binary == "core"} { continue }
			exec echo -e \
				"\n.long mod${i}_name" \
				"\n.long mod${i}_start" \
				"\n.long mod${i}_end - mod${i}_start" >> $boot_modules
			incr i
		}

		# end boot module headers
		exec echo -e \
			"\n.global _boot_module_headers_end" \
			"\n_boot_module_headers_end:" \
			"\n" >> $boot_modules

		# generate name string for each module except core
		set i 1
		foreach binary $binaries {
			if {$binary == "core"} { continue }
			exec echo -e \
				".p2align ${load_store_align_l2}" \
				"\nmod${i}_name:" \
				"\n.string \"${binary}\"" \
				"\n.byte 0" \
				"\n" >> $boot_modules
			incr i
		}

		# include raw data of modules consecutively but page aligned
		set i 1
		foreach binary $binaries {
			if {$binary == "core"} { continue }
			exec echo -e \
				".p2align ${min_page_align_l2}" \
				"\nmod${i}_start:" \
				"\n.incbin \"[run_dir]/genode/${binary}\"" \
				"\nmod${i}_end:" \
				"\n" >> $boot_modules
			incr i
		}

		# end boot-modules file
		exec echo -e \
			".global _boot_modules_end" \
			"\n_boot_modules_end:" >> $boot_modules

	} else {
		puts stderr "Error: Unknown architecture"
		puts stderr "       SPEC must contain one of: 'arm'"
		exit -1
	}
	clean_boot_modules
	exec ln -s $boot_modules boot_modules.s

	# recompile core with boot modules
	exec cp -L bin/core core/core.standalone
	exec find . -type f -name "core" -delete
	set timeout 10000
	set pid [eval "spawn make core"]
	expect { eof { } }
	if {[lindex [wait $pid] end] != 0} {
		clean_boot_modules
		puts stderr "Error: Genode build failed"
		exit -1
	}
	clean_boot_modules
	exec rm -rf "[run_dir]/genode"

	# offer ELF image
	set elf_img "[run_dir]/image.elf"
	exec cp -L bin/core $elf_img
	exec [cross_dev_prefix]strip $elf_img

	# target specific ops
	if {[target] == "uboot"} {

		# parse ELF entrypoint and load address
		set entrypoint [exec [cross_dev_prefix]readelf -h $elf_img | \
		                grep "Entry point address: " | \
		                sed -e "s/.*Entry point address: *//"]
		set load_addr [exec [cross_dev_prefix]readelf -l $elf_img | \
		               grep -m 1 "LOAD"]
		set load_addr [lindex [regexp -inline -all -- {\S+} $load_addr] 3]

		# compress ELF
		set bin_img "[run_dir]/image.bin"
		exec [cross_dev_prefix]objcopy -O binary $elf_img $bin_img
		exec gzip --best --force $bin_img

		# create compressed uImage
		set uboot_img [run_dir]/uImage
		exec mkimage -A arm -O linux -T kernel -C gzip -a $load_addr \
		             -e $entrypoint -d $bin_img.gz $uboot_img
		exec rm -rf $bin_img.gz
	}
	# retrieve stand-alone core
	exec mv core/core.standalone bin/core
}


proc run_genode_until {{wait_for_re forever} {timeout_value 0}} {

	if {[target] == "qemu"} { spawn_qemu $wait_for_re $timeout_value
	} else {
		puts stderr "Error: Can't execute automatically on target '$target'"
		puts stderr "       Target might be: 'qemu'"
		exit -1
	}
}