void main() { InitData(); // initialize needed data for kernel InitControl(); SpawnISR(0, IdleProc); // create IdleProc to run if no user processes SpawnISR(1, Init); // create IdleProc to run if no user processes cur_pid = 1; Loader(pcbs[1].tf_p); }
void Kernel(tf_t *tf_p) // kernel begins its control upon/after interrupt { int pid; pcbs[ cur_pid ].tf_p = tf_p; // save for cur_pid which may change switch( tf_p->intr_id ) { case TIMER_INTR: TimerISR(); break; case IRQ7_INTR: IRQ7ISR(); // service parallel printer port event break; case GETPID_INTR: tf_p->eax = cur_pid; break; case SLEEP_INTR: SleepISR(); break; case SPAWN_INTR: pid = DeQ( &avail_q ); // get pid and put in ebx can be in Kernel() pcbs[ cur_pid ].tf_p->ebx = pid; // child PID, could be -1 if( pid == -1 ) break; // no more process SpawnISR(pid, (func_ptr_t) pcbs[ cur_pid ].tf_p->eax); break; case SEMINIT_INTR: SemInitISR(); break; case SEMWAIT_INTR: SemWaitISR(tf_p->eax); break; case SEMPOST_INTR: SemPostISR(tf_p->eax); break; case MSGSND_INTR: MsgSndISR(); break; case MSGRCV_INTR: MsgRcvISR(); break; case IRQ3_INTR: case IRQ4_INTR: IRQ34ISR(); break; case FORK_INTR: pid = DeQ( &avail_q ); ForkISR(pid); pcbs[ cur_pid ].tf_p->ebx = pid; break; case WAIT_INTR: //cons_printf("Wait Intr\n"); WaitISR(); break; case EXIT_INTR: //cons_printf("Exit Intr\n"); ExitISR(); break; } Scheduler(); // find same/new process to run Loader(pcbs[ cur_pid ].tf_p); // load it to run } // Kernel()
void main() { InitData(); // initialize needed data for kernel InitControl(); SpawnISR(0); // create IdleProc for OS to run if no user processes cur_pid = 0; EI(); Loader(pcbs[0].tf_p); }
void Kernel(tf_t *tf_p) // kernel directly enters here when interrupt occurs { // Save "tf_p" to pcbs[cur_pid].tf_p for future resume of process runtime pcbs[cur_pid].tf_p = tf_p; // tf_p->intr_id tells what intr made CPU get here, pushed in entry.S switch(tf_p->intr_id) { case TIMER_INTR: TimerISR(); // this must include dismissal of timer interrupt break; case IRQ7_INTR: IRQ7ISR(); break; case SLEEP_INTR: SleepISR(tf_p->eax); break; case GETPID_INTR: tf_p->eax = cur_pid; break; case SPAWN_INTR: if (EmptyQ(&avail_q)) { cons_printf("No more available PIDs!\n"); tf_p->ebx = -1; } else { tf_p->ebx = DeQ(&avail_q); SpawnISR((int) tf_p->ebx, (func_ptr_t) tf_p->eax); } break; case SEMINIT_INTR: tf_p->ebx = SemInitISR(tf_p->eax); break; case SEMWAIT_INTR: SemWaitISR(tf_p->eax); break; case SEMPOST_INTR: SemPostISR(tf_p->eax); break; case MSGSND_INTR: MsgSndISR(); break; case MSGRCV_INTR: MsgRcvISR(); break; } Scheduler(); // select a process to run Loader(pcbs[cur_pid].tf_p); // run the process selected }
void Kernel(tf_t *tf_p) // kernel begins its control upon/after interrupt { int pid, sid; pcbs[cur_pid].tf_p = tf_p; // save for cur_pid which may change switch(tf_p->intr_id) { case TIMER_INTR: TimerISR(); // service the simulated timer interrupt break; case GETPID_INTR: tf_p->eax = cur_pid; break; case SLEEP_INTR: SleepISR(); break; case SPAWN_INTR: if(EmptyQ(&avail_q)) { cons_printf("No more processes\n"); tf_p->eax = -1; } else { pid = DeQ(&avail_q); pcbs[pid].state = READY; SpawnISR(pid, (func_ptr_t) tf_p->eax); tf_p->eax = pid; } break; case SEMINIT_INTR: sid = SemInitISR(tf_p->eax); tf_p->eax = sid; break; case SEMWAIT_INTR: SemWaitISR(); break; case SEMPOST_INTR: SemPostISR(); break; } Scheduler(); // find same/new process to run Loader(pcbs[cur_pid].tf_p); // load it to run } // Kernel()
void Kernel(tf_t *tf_p) // kernel directly enters here when interrupt occurs { // Save "tf_p" to pcbs[cur_pid].tf_p for future resume of process runtime pcbs[cur_pid].tf_p = tf_p; // tf_p->intr_id tells what intr made CPU get here, pushed in entry.S switch(tf_p->intr_id) { case TIMER_INTR: TimerISR(); // this must include dismissal of timer interrupt break; case SLEEP_INTR: SleepISR(tf_p->eax); break; case GETPID_INTR: tf_p->eax = cur_pid; break; } // still handles other keyboard-generated simulated events if(cons_kbhit()) // check if a key was pressed (returns non zero) { char key = cons_getchar(); // get the pressed key switch(key) // see if it's one of the following for service { case 'n': if(EmptyQ(&avail_q)) cons_printf("No more available PIDs!\n"); else { SpawnISR(DeQ(&avail_q), SimpleProc); } break; case 'k': KillISR(); break; // non-functional in phase 2 case 's': ShowStatusISR(); break; case 'b': breakpoint(); break; // this stops when run in GDB mode case 'q': exit(0); } // switch(key) } // if(cons_kbhit()) Scheduler(); // select a process to run Loader(pcbs[cur_pid].tf_p); // run the process selected }