apply traiged sending sig alarm to other worker thread for SRSF

runtime/include/runtime.h

@@ -43,6 +43,7 @@ extern pthread_t                    runtime_worker_threads[];
 extern uint32_t                     runtime_worker_threads_count;
 extern int                          runtime_worker_threads_argument[RUNTIME_WORKER_THREAD_CORE_COUNT];
 extern uint64_t                     runtime_worker_threads_deadline[RUNTIME_WORKER_THREAD_CORE_COUNT];
+extern uint64_t                     runtime_worker_threads_remaining_slack[RUNTIME_WORKER_THREAD_CORE_COUNT];
 
 extern void runtime_initialize(void);
 extern void runtime_set_pthread_prio(pthread_t thread, unsigned int nice);

runtime/include/sandbox_set_as_running.h

@@ -29,6 +29,7 @@ sandbox_set_as_running(struct sandbox *sandbox, sandbox_state_t last_state)
 		sandbox->runnable_duration += duration_of_last_state;
 		current_sandbox_set(sandbox);
 		runtime_worker_threads_deadline[worker_thread_idx] = sandbox->absolute_deadline;
+		runtime_worker_threads_remaining_slack[worker_thread_idx] = sandbox->remaining_slack;
                 //mem_log("time %lu sandbox starts running, request id:%d name %s obj=%p remaining slack %lu, last_rs %lu now %lu last %lu \n", start_execution,
                 //         sandbox->id, sandbox->module->name, sandbox, sandbox->remaining_slack, last_rs, now, last);
 		/* Does not handle context switch because the caller knows if we need to use fast or slow switched */

runtime/include/scheduler.h

@@ -357,6 +357,7 @@ scheduler_yield()
 	sandbox_exit(current_sandbox);
 	current_sandbox_set(NULL);
 	runtime_worker_threads_deadline[worker_thread_idx] = UINT64_MAX;
+	runtime_worker_threads_remaining_slack[worker_thread_idx] = UINT64_MAX;
 
 	/* Assumption: Base Worker context should never be preempted */
 	assert(worker_thread_base_context.variant == ARCH_CONTEXT_VARIANT_FAST);

runtime/src/main.c

@@ -197,7 +197,7 @@ runtime_configure()
 	if (strcmp(sigalrm_policy, "BROADCAST") == 0) {
 		runtime_sigalrm_handler = RUNTIME_SIGALRM_HANDLER_BROADCAST;
 	} else if (strcmp(sigalrm_policy, "TRIAGED") == 0) {
-		if (unlikely(scheduler != SCHEDULER_EDF)) panic("triaged sigalrm handlers are only valid with EDF\n");
+		if (unlikely(scheduler != SCHEDULER_EDF && scheduler != SCHEDULER_SRSF)) panic("triaged sigalrm handlers are only valid with EDF and SRSF\n");
 		runtime_sigalrm_handler = RUNTIME_SIGALRM_HANDLER_TRIAGED;
 	} else {
 		panic("Invalid sigalrm policy: %s. Must be {BROADCAST|TRIAGED}\n", sigalrm_policy);

runtime/src/runtime.c

@@ -32,6 +32,7 @@ pthread_t runtime_worker_threads[RUNTIME_WORKER_THREAD_CORE_COUNT];
 int       runtime_worker_threads_argument[RUNTIME_WORKER_THREAD_CORE_COUNT] = { 0 };
 /* The active deadline of the sandbox running on each worker thread */
 uint64_t runtime_worker_threads_deadline[RUNTIME_WORKER_THREAD_CORE_COUNT] = { UINT64_MAX };
+uint64_t runtime_worker_threads_remaining_slack[RUNTIME_WORKER_THREAD_CORE_COUNT] = { UINT64_MAX };
 
 /******************************************
  * Shared Process / Listener Thread Logic *

runtime/src/software_interrupt.c

@@ -83,11 +83,18 @@ sigalrm_propagate_workers(siginfo_t *signal_info)
 			/* If using EDF, conditionally send signals. If not, broadcast */
 			switch (runtime_sigalrm_handler) {
 			case RUNTIME_SIGALRM_HANDLER_TRIAGED: {
-				assert(scheduler == SCHEDULER_EDF);
+				//assert(scheduler == SCHEDULER_EDF);
+				if (scheduler == SCHEDULER_EDF) {
 					uint64_t local_deadline  = runtime_worker_threads_deadline[i];
 					uint64_t global_deadline = global_request_scheduler_peek();
 					if (global_deadline < local_deadline) pthread_kill(runtime_worker_threads[i], SIGALRM);
 					continue;
+				} else if (scheduler == SCHEDULER_SRSF) {
+					uint64_t local_remaining_slack = runtime_worker_threads_remaining_slack[i];
+					uint64_t global_slack = global_request_scheduler_peek();
+					if (global_slack < local_remaining_slack) pthread_kill(runtime_worker_threads[i], SIGALRM);
+                                        continue;
+				}
 			}
 			case RUNTIME_SIGALRM_HANDLER_BROADCAST: {
 				pthread_kill(runtime_worker_threads[i], SIGALRM);
@@ -175,6 +182,9 @@ software_interrupt_handle_signals(int signal_type, siginfo_t *signal_info, void
 		/* record queuelength of the current worker thread */
 		recording_buffer[software_interrupt_SIGALRM_kernel_count + software_interrupt_SIGALRM_thread_count] = local_workload_count;
 		sigalrm_propagate_workers(signal_info);
+		/* if disable preemption, then return directly */
+		if (!runtime_preemption_enabled) return;
+
 		if (current_sandbox == NULL || current_sandbox->ctxt.preemptable == false) {
 			/* Cannot preempt, so defer signal
 			 * TODO: First worker gets tons of kernel sigalrms, should these be treated the same?
@@ -208,7 +218,7 @@ software_interrupt_handle_signals(int signal_type, siginfo_t *signal_info, void
 		software_interrupt_disarm_timer();
 		/* Only the thread that receives SIGINT from the kernel or user space will broadcast SIGINT to other worker threads */
 		sigint_propagate_workers_listener(signal_info);
-		mem_log("thread id %d test buffer:",worker_thread_idx);
+		mem_log("thread id %d kernal sig %u thread sig %u test buffer:",worker_thread_idx, software_interrupt_SIGALRM_kernel_count, software_interrupt_SIGALRM_thread_count);
 		for(int i = 0; i < software_interrupt_SIGALRM_kernel_count + software_interrupt_SIGALRM_thread_count; i++) {
 			mem_log("%d ", recording_buffer[i]);
 		}
@@ -245,6 +255,10 @@ software_interrupt_arm_timer(void)
 {
 	if (!runtime_preemption_enabled) return;
 
+	/* if preemption disabled, broadcast sig alarm to all other threads to record the queuelength info */
+	if (!runtime_preemption_enabled) {
+		runtime_sigalrm_handler = RUNTIME_SIGALRM_HANDLER_BROADCAST; 
+	}
 	struct itimerval interval_timer;
 
 	memset(&interval_timer, 0, sizeof(struct itimerval));