# # \brief Test to start and call RPC entrypoint on all available CPUs # \author Stefan Kalkowski # \author Norman Feske # \author Alexander Boettcher # if { [get_cmd_switch --autopilot] && [have_include "power_on/qemu"] } { puts "Run script does not support autopilot mode on Qemu" exit 0 } build "core init test/smp" create_boot_directory install_config { } build_boot_image "core ld.lib.so init test-smp" if {[have_include "power_on/qemu"]} { # in general we want to have at least 2 CPUs set want_cpus 2 # pbxa9 - foc does only use 1 cpu even if more are configured # pbxa9 - hw does not support multiple CPUs if {[have_spec pbxa9]} { set want_cpus 1 } # kernels only using one CPU even if more are configured if {[have_spec okl4]} { set want_cpus 1 } if {[have_spec pistachio]} { set want_cpus 1 } if {[have_spec fiasco]} { set want_cpus 1 } if {[have_spec zynq]} { set want_cpus 1 } append qemu_args " -nographic -smp $want_cpus,cores=$want_cpus " } # run the test run_genode_until {\[init -\> test-smp\] --- SMP testsuite finished.*\n} 120 set cpus [regexp -inline {Detected [0-9x]+ CPU[s\.]} $output] set cpus [regexp -all -inline {[0-9]+} $cpus] set cpus [expr [lindex $cpus 0] * [lindex $cpus 1]] if {[have_include "power_on/qemu"]} { if {$want_cpus != $cpus} { puts "CPU count is not as expected: $want_cpus != $cpus" exit 1; } } set original_output $output grep_output {\[init -\> test-smp\] RPC:} unify_output {transfer cap [a-f0-9]+} "transfer cap UNIFIED" unify_output {yes - idx [a-f0-9]+} "yes - idx UNIFIED" unify_output {\- received cap [a-f0-9]+} "- received cap UNIFIED" set good_string {[init -> test-smp] RPC: --- test started --- } for {set r 0} {$r < $cpus} {incr r} { append good_string {[init -> test-smp] RPC: call server on CPU } append good_string "$r\n" append good_string {[init -> test-smp] RPC: function test_untyped: got value } append good_string "$r\n" } for {set r 0} {$r < $cpus} {incr r} { append good_string {[init -> test-smp] RPC: call server on CPU } append good_string "$r - transfer cap UNIFIED\n" append good_string {[init -> test-smp] RPC: function test_cap: capability is valid ? yes - idx UNIFIED} append good_string "\n" } for {set r 0} {$r < $cpus} {incr r} { append good_string {[init -> test-smp] RPC: call server on CPU } append good_string "$r - transfer cap UNIFIED\n" append good_string {[init -> test-smp] RPC: function test_cap_reply: capability is valid ? yes - idx UNIFIED} append good_string "\n" append good_string {[init -> test-smp] RPC: got from server on CPU } append good_string "$r - received cap UNIFIED\n" } compare_output_to $good_string puts "RPC test: passed" set output $original_output grep_output {\[init -\> test-smp\] Affinity: Round} set rounds "10" set good_string {} for {set r 0} {$r <= $rounds} {incr r} { append good_string {[init -> test-smp] Affinity: Round } append good_string [format "%02d" $r] append good_string ":" for {set i 0} {$i < $cpus} {incr i} { append good_string " A" } append good_string "\n" } compare_output_to $good_string puts "Affinity test: passed" set output $original_output grep_output {no RM attachment } unify_output {pf_addr=0x[a-f0-9]+} "ADDR" unify_output {pf_ip=0x[a-f0-9]+} "IP" set good_string "" for {set r 1} {$r < $cpus} {incr r} { append good_string {no RM attachment (READ ADDR IP from pager_object: pd='init -> test-smp' thread='tlb_thread')} append good_string "\n" } compare_output_to $good_string puts "TLB test: passed"