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dd9e12601e
Thanks to the change "build: support library builds via lib/<libname>", shared libraries can now be built directly by the build system. Issue #4599
389 lines
9.8 KiB
Plaintext
389 lines
9.8 KiB
Plaintext
#
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# Execute a single test defined in a pkg recipe
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#
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# This run script executes a single test case as a static system scenario.
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# It is meant as a handy tool for quickly reproducing, instrumenting, and
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# debugging test cases without the need to create/use any depot archives.
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#
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# The run script combines the information found in the test's runtime
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# definition with the following parameters and heuristics:
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#
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# - The test must be specified via the 'PKG' environment variable.
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# The specified value is used to find the matching pkg recipe within the
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# source tree. Therecipe must feature a 'runtime' definition as normally
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# used by the depot autopilot.
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#
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# - The run script scans the source tree for 'target.mk' files and the target
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# names defined via the 'TARGET = <name>' definition within those files.
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# The information is used to determine the correspondence between the
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# target's binary name and its build path (the location of the 'target.mk'
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# within the src/ directory). Note that ambiguities are not handled, e.g.,
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# multiple 'target.mk' files with the same TARGET name will likely cause
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# problems.
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#
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# - Based on the <content> information found in the test's runtime file,
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# the build targets and boot modules required by the test are determined
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# automatically.
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#
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# - The test's configuration is expected to have the form of a <config>
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# node in the test's runtime file.
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#
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# - The success/failure criterion is taken from the runtime's <events>
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# definition but only a subset of the depot-autopilot's features is
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# supported, namely a timeout (indicating a failure) and an expected log
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# (indicating success). If this information are not present, the test
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# is executed forever.
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#
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# For an example, issue the following command from your build directory:
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#
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# make run/test KERNEL=linux PKG=test-fs_report
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#
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##
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# Obtain name of the test pkg from the 'PKG' environment variable
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#
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proc pkg_name { } {
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global ::env
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if {![info exists ::env(PKG)]} {
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puts stderr "Error: environment variable 'PKG' not defined"
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exit 1
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}
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return $::env(PKG)
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}
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if {[catch {
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set pkg_recipe [glob "[genode_dir]/repos/*/recipes/pkg/[pkg_name]"]
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}]} {
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puts stderr "Error: unable to find 'recipes/pkg/[pkg_name]' in repos"
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exit 1
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}
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##
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# Collect content of the raw archives as used by the test
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#
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# This function returns a list of file paths that must be added as ROM modules
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# to the boot image.
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#
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# Note that it does not evaluate the 'content.mk' file of the raw recipes but
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# relies on the convention that the content of raw archives is hosted at the
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# raw archive's recipe location.
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#
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# The function does not traverse nested pkg archives because no test uses this
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# feature of pkg archives.
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#
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proc _files_from_raw_archives { archives_file } {
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if {![file exists $archives_file]} {
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puts stderr "Warning: $archives_file does not exist"
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return { }
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}
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set fh [open $archives_file "r"]
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set archives [split [read $fh] "\n"]
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close $fh
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set result { }
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foreach archive $archives {
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if {![regexp [_depot_archive_path_pattern] $archive dummy user type name]} {
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continue }
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if {$type != "raw"} {
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continue }
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if {[catch {
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set raw_recipe [glob "[genode_dir]/repos/*/recipes/raw/$name"]
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set files [glob "$raw_recipe/*"]
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foreach file $files {
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if {[string match "*/content.mk" $file]} { continue }
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if {[string match "*/hash" $file]} { continue }
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lappend result $file
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}
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}]} {
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puts stderr "Warning: cannot obtain content of raw archive $name"
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}
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}
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return $result
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}
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set files_from_raw_archives [_files_from_raw_archives $pkg_recipe/archives]
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##
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# Return true if ROM module is provided by a raw archive
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#
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proc rom_module_from_raw_archive { rom } {
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global files_from_raw_archives
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foreach file $files_from_raw_archives {
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if {[string match "*/$rom" $file]} {
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return 1; } }
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return 0;
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}
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#
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# Extract information from the test's runtime file
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#
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set runtime_file $pkg_recipe/runtime
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if {![file exists $runtime_file]} {
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puts stderr "Error: $pkg_recipe lacks 'runtime' definition"
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exit 1
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}
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proc query_attr { node_path attr_name xml_file } {
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set xpath "$node_path/attribute::$attr_name"
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set attr_value [exec xmllint --xpath $xpath $xml_file]
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# in the presence of multiple matching xpaths, return only the first
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regexp {"(.*)"} [lindex $attr_value 0] dummy value
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return $value;
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}
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proc query_node { node_path xml_file } {
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set xpath "$node_path"
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set content [exec xmllint --xpath $xpath $xml_file]
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return $content;
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}
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proc try_query_attr_from_runtime { attr } {
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global runtime_file
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if {[catch {
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set result [query_attr /runtime $attr $runtime_file]
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}]} {
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puts stderr "Error: missing '$attr' attribute in <runtime> at $runtime_file"
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exit 1
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}
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return $result
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}
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set ram [try_query_attr_from_runtime ram]
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set caps [try_query_attr_from_runtime caps]
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set binary [try_query_attr_from_runtime binary]
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if {[catch {
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set config [query_node /runtime/config $runtime_file]
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}]} {
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puts stderr "Error: <config> not present <runtime> sub node at $runtime_file"
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puts stderr " The use of an separate config ROM is not supported."
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exit 1
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}
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proc desanitize_xml_characters { string } {
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regsub -all {>} $string {>} string
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regsub -all {<} $string {<} string
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return $string
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}
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set config [desanitize_xml_characters $config]
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#
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# Gather the source locations of all targets found in the source tree to
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# define the build targets and boot modules required by the test.
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#
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set target_mks [exec sh -c "cd [genode_dir]/repos; \
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grep \"TARGET.*=\" `find -name target.mk`"]
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foreach target_mk [split $target_mks "\n"] {
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regsub {^.*?/src/} $target_mk {} target_mk
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if {[regexp {(.+?)/target.mk.*\s([^\s]+)\s*$} $target_mk dummy target_path target_name]} {
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set src_sub_dir($target_name) $target_path
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}
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}
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proc content_rom_modules { } {
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global runtime_file
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set attributes [query_node "/runtime/content/rom/attribute::label" $runtime_file]
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set rom_names {}
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foreach attr $attributes {
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regexp {"(.*)"} $attr dummy rom_name
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lappend rom_names $rom_name
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}
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return $rom_names
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}
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foreach rom [content_rom_modules] {
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# raw-archive content is installed directly into [run_dir]/genode
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if {![rom_module_from_raw_archive $rom]} {
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lappend boot_modules $rom
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}
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# handle vfs plugin shared-object targets
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if {[regexp "^vfs_(.+).lib.so$" $rom dummy plugin]} {
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lappend build_targets lib/vfs_$plugin
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continue
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}
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if {[info exists src_sub_dir($rom)]} {
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lappend build_targets $src_sub_dir($rom)
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}
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}
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#
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# Build
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#
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lappend build_targets core init timer
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# strip duplications
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set sorted_build_targets [lsort -unique $build_targets]
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build $sorted_build_targets
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#
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# Configure and assemble boot image
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#
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create_boot_directory
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foreach file $files_from_raw_archives {
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copy_file $file [run_dir]/genode/ }
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install_config {
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<config prio_levels="2">
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<parent-provides>
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<service name="ROM"/>
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<service name="IRQ"/>
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<service name="IO_MEM"/>
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<service name="IO_PORT"/>
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<service name="PD"/>
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<service name="RM"/>
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<service name="CPU"/>
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<service name="LOG"/>
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<service name="TRACE"/>
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</parent-provides>
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<start name="timer" caps="100">
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<resource name="RAM" quantum="1M"/>
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<provides><service name="Timer"/></provides>
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<route>
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<service name="PD"> <parent/> </service>
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<service name="CPU"> <parent/> </service>
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<service name="LOG"> <parent/> </service>
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<service name="ROM"> <parent/> </service>
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<service name="IO_MEM"> <parent/> </service>
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<service name="IRQ"> <parent/> </service>
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<service name="IO_PORT"> <parent/> </service>
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</route>
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</start>
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<start name="test" priority="-1" caps="} $caps {">
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<resource name="RAM" quantum="} $ram {"/>
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<binary name="} $binary {"/>
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<route>
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<service name="ROM"> <parent/> </service>
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<service name="PD"> <parent/> </service>
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<service name="RM"> <parent/> </service>
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<service name="CPU"> <parent/> </service>
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<service name="LOG"> <parent/> </service>
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<service name="TRACE"> <parent/> </service>
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<service name="Timer"> <child name="timer"/> </service>
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</route>
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} $config {
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</start>
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</config>
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}
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lappend boot_modules core ld.lib.so init timer
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build_boot_image [lsort -unique $boot_modules]
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##
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# Return failure timeout in seconds
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#
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proc query_failure_timeout { } {
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global runtime_file
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set meaning ""
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catch {
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set meaning [query_attr /runtime/events/timeout meaning $runtime_file]
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set sec [query_attr /runtime/events/timeout sec $runtime_file]
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}
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if {$meaning == "failed"} {
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return $sec }
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return 0
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}
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set failure_timeout [expr [query_failure_timeout] + 10]
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##
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# Return regexp pattern to match the log output for detecting the success
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#
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proc query_expected_log_pattern { } {
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global runtime_file
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set log ""
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catch {
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set log [query_node "/runtime/events/log\[@meaning='succeeded'\]/child::text()" $runtime_file]
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} { return "" }
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# strip leading and trailing whitespace
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regsub {^\s*} $log {} log
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regsub {\s*$} $log {} log
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# filter pattern line by line
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set lines [split $log "\n"]
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set prefixed_lines { }
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foreach line $lines {
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regsub {^\s*\[init} $line {[init -> test} line
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set line [desanitize_xml_characters $line]
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# quote regexp characters
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foreach char [list {[} {]} {(} {)} {.}] {
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regsub -all "\\$char" $line "\\$char" line }
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# replace wildcards by non-greedy regexp wildcards
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regsub -all {\*} $line {.*?} line
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lappend prefixed_lines "$line.*?"
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}
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set joined [join $prefixed_lines "\n"]
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return ".*?$joined.*?"
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}
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set expected_pattern [query_expected_log_pattern]
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if {$expected_pattern == ""} {
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puts stderr "Warning: unable to obtain expected log pattern from $runtime_file"
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run_genode_until {^this-should=never-match$} $failure_timeout
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}
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if {$failure_timeout == 0} {
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puts stderr "Warning: could not determine failure timeout, discharge timeout"
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set failure_timeout 1000
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}
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append qemu_args " -nographic "
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run_genode_until $expected_pattern $failure_timeout
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