// Check that the EnterJIT frame, added by the JIT trampoline and // usable by a native unwinder to resume unwinding after encountering // JIT code, is pushed as expected. function run_test() { if (!AppConstants.MOZ_GECKO_PROFILER) { return; } // This test assumes that it's starting on an empty profiler stack. // (Note that the other profiler tests also assume the profiler // isn't already started.) Assert.ok(!Services.profiler.IsActive()); const ms = 5; Services.profiler.StartProfiler(10000, ms, ["js"]); function has_arbitrary_name_in_stack() { // A frame for |arbitrary_name| has been pushed. Do a sequence of // increasingly long spins until we get a sample. var delayMS = 5; while (1) { info("loop: ms = " + delayMS); const then = Date.now(); do { let n = 10000; // eslint-disable-next-line no-empty while (--n) {} // OSR happens here // Spin in the hope of getting a sample. } while (Date.now() - then < delayMS); let profile = Services.profiler.getProfileData().threads[0]; // Go through all of the stacks, and search for this function name. for (const sample of profile.samples.data) { const stack = getInflatedStackLocations(profile, sample); info(`The following stack was found: ${stack}`); for (var i = 0; i < stack.length; i++) { if (stack[i].match(/arbitrary_name/)) { // This JS sample was correctly found. return true; } } } // Continue running this function with an increasingly long delay. delayMS *= 2; if (delayMS > 30000) { return false; } } } Assert.ok( has_arbitrary_name_in_stack(), "A JS frame was found before the test timeout." ); Services.profiler.StopProfiler(); }