run: extend affinity test
* read out supported number of CPUs * start per CPU a thread * monitor by main thread liveness of remote CPU threads * add a round variable * terminate run script after a specific round or after 90s * on qemu wait 5 rounds, on native runs 40 Add run script to autopilot list Issue #814
This commit is contained in:
Alexander Boettcher
Norman Feske
parent
683832f461
commit
fdaeda47bb
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@ -1,3 +1,15 @@
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#
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# \brief Test to start threads on all available CPUs
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# \author Norman Feske
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# \author Alexander Boettcher
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#
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if {![have_spec nova] && ![have_spec foc]} {
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puts "Platform is unsupported."
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exit 0
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}
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build "core init test/affinity"
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create_boot_directory
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@ -20,6 +32,33 @@ install_config {
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build_boot_image "core init test-affinity"
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append qemu_args " -nographic -m 64 -smp 2,cores=2 "
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if {[is_qemu_available]} {
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set want_cpus 4
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set rounds "05"
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append qemu_args "-nographic -m 64 -smp $want_cpus,cores=$want_cpus "
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} else {
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set rounds "10"
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if {[have_spec x86]} { set rounds "40" }
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}
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run_genode_until forever
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run_genode_until "Round $rounds:.*\n" 90
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set cpus [regexp -inline {Detected [0-9]+ CPU[ s].*\n} $output]
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set cpus [regexp -inline {[0-9]+} $cpus]
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if {[is_qemu_available]} {
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if {$want_cpus != $cpus} {
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puts "CPU count is not as expected: $want_cpus != $cpus"
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exit 1;
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}
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}
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set good_string {[init -> test-affinity] Round XX:}
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for {set i 0} {$i < $cpus} {incr i} {
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append good_string " A"
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}
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grep_output {\[init -\> test-affinity\] Round}
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unify_output {[0-9]+} "XX"
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compare_output_to $good_string
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@ -18,35 +18,38 @@
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#include <base/sleep.h>
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enum { STACK_SIZE = sizeof(long)*1024 };
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enum { STACK_SIZE = sizeof(long)*1024, COUNT_VALUE = 10 * 1024 * 1024 };
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struct Spinning_thread : Genode::Thread<STACK_SIZE>
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{
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int const cpu_number;
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unsigned const _cpu_number;
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unsigned long volatile cnt;
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Genode::uint64_t volatile cnt;
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Genode::Lock barrier;
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void entry()
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{
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PINF("thread started on CPU %d, spinning...", cpu_number);
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barrier.unlock();
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PINF("thread started on CPU %u, spinning...", _cpu_number);
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unsigned round = 0;
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for (;;) {
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cnt++;
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/* show a life sign every now and then... */
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if (cnt > 100*1024*1024) {
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PINF("thread on CPU %d keeps counting...\n", cpu_number);
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cnt = 0;
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if (cnt % COUNT_VALUE == 0) {
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PINF("thread on CPU %u keeps counting - round %u...\n",
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_cpu_number, round++);
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}
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}
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}
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Spinning_thread(unsigned cpu_number, char const *name)
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:
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Genode::Thread<STACK_SIZE>(name), cpu_number(cpu_number), cnt(0),
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Genode::Thread<STACK_SIZE>(name), _cpu_number(cpu_number), cnt(0ULL),
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barrier(Genode::Lock::LOCKED)
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{
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Genode::env()->cpu_session()->affinity(Thread_base::cap(), cpu_number);
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@ -60,15 +63,62 @@ int main(int argc, char **argv)
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using namespace Genode;
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printf("--- test-affinity started ---\n");
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static Spinning_thread thread_0(0, "thread_0");
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static Spinning_thread thread_1(1, "thread_1");
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/* wait until both threads are up and running */
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thread_0.barrier.lock();
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thread_1.barrier.lock();
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unsigned cpus = env()->cpu_session()->num_cpus();
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printf("Detected %u CPU%c.\n", cpus, cpus > 1 ? 's' : ' ');
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/* get some memory for the thread objects */
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Spinning_thread ** threads = new (env()->heap()) Spinning_thread*[cpus];
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uint64_t * thread_cnt = new (env()->heap()) uint64_t[cpus];
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/* construct the thread objects */
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for (unsigned i = 0; i < cpus; i++)
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threads[i] = new (env()->heap()) Spinning_thread(i, "thread");
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/* wait until all threads are up and running */
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for (unsigned i = 0; i < cpus; i++)
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threads[i]->barrier.lock();
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printf("Threads started on a different CPU each.\n");
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printf("You may inspect them using the kernel debugger\n");
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printf("You may inspect them using the kernel debugger - if you have one.\n");
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printf("Main thread monitors client threads and prints the status of them.\n");
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printf("Legend : D - DEAD, A - ALIVE\n");
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volatile uint64_t cnt = 0;
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unsigned round = 0;
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char const text_cpu[] = " CPU: ";
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char const text_round[] = "Round %2u: ";
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char * output_buffer = new (env()->heap()) char [sizeof(text_cpu) + 3 * cpus];
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for (;;) {
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cnt++;
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/* try to get a life sign by the main thread from the remote threads */
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if (cnt % COUNT_VALUE == 0) {
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char * output = output_buffer;
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snprintf(output, sizeof(text_cpu), text_cpu);
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output += sizeof(text_cpu) - 1;
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for (unsigned i = 0; i < cpus; i++) {
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snprintf(output, 4, "%2u ", i);
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output += 3;
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}
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printf("%s\n", output_buffer);
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output = output_buffer;
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snprintf(output, sizeof(text_round), text_round, round);
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output += sizeof(text_round) - 2;
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for (unsigned i = 0; i < cpus; i++) {
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snprintf(output, 4, "%s ",
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thread_cnt[i] == threads[i]->cnt ? " D" : " A");
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output += 3;
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thread_cnt[i] = threads[i]->cnt;
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}
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printf("%s\n", output_buffer);
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round ++;
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}
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}
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sleep_forever();
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}
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@ -25,3 +25,4 @@ l4linux_netperf
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l4linux_netperf_usb30
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l4linux_netperf_bridge
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noux_tool_chain_auto
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affinity
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