420 lines
12 KiB
C
420 lines
12 KiB
C
//----------------------------------------------------------------------------//
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// GNU GPL OS/K //
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// //
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// Desc: Process scheduler //
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// //
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// //
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// Copyright © 2018-2019 The OS/K Team //
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// //
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// This file is part of OS/K. //
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// //
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// OS/K is free software: you can redistribute it and/or modify //
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// it under the terms of the GNU General Public License as published by //
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// the Free Software Foundation, either version 3 of the License, or //
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// any later version. //
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// //
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// OS/K is distributed in the hope that it will be useful, //
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// but WITHOUT ANY WARRANTY//without even the implied warranty of //
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the //
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// GNU General Public License for more details. //
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// //
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// You should have received a copy of the GNU General Public License //
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// along with OS/K. If not, see <https://www.gnu.org/licenses/>. //
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//----------------------------------------------------------------------------//
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#include <extras/list.h>
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#include <kernel/proc.h>
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#include <kernel/sched.h>
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#include <kernel/iomisc.h>
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//
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// For test purpose only
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//
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int procslen = 10;
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Process_t procs[] = {
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{ 0, 0, 0, 12, 12, STATE_RUNNABLE, DEF_PROC_TSLICE, DEF_PROC_TSLICE, NULL },
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{ 1, 2, 2, 16, 16, STATE_RUNNABLE, DEF_PROC_TSLICE, DEF_PROC_TSLICE, NULL },
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{ 2, 3, 3, 31, 31, STATE_RUNNABLE, DEF_PROC_TSLICE, DEF_PROC_TSLICE, NULL },
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{ 3, 2, 2, 1, 1, STATE_RUNNABLE, DEF_PROC_TSLICE, DEF_PROC_TSLICE, NULL },
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{ 4, 3, 3, 5, 5, STATE_RUNNABLE, DEF_PROC_TSLICE, DEF_PROC_TSLICE, NULL },
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{ 5, 0, 0, 30, 30, STATE_RUNNABLE, DEF_PROC_TSLICE, DEF_PROC_TSLICE, NULL },
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{ 6, 1, 1, 19, 19, STATE_RUNNABLE, DEF_PROC_TSLICE, DEF_PROC_TSLICE, NULL },
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{ 7, 1, 1, 0, 0, STATE_RUNNABLE, DEF_PROC_TSLICE, DEF_PROC_TSLICE, NULL },
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{ 8, 3, 3, 12, 12, STATE_RUNNABLE, DEF_PROC_TSLICE, DEF_PROC_TSLICE, NULL },
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{ 9, 2, 2, 21, 21, STATE_RUNNABLE, DEF_PROC_TSLICE, DEF_PROC_TSLICE, NULL },
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};
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//------------------------------------------//
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#define ReSchedFlag (KeCurCPU->needReSched)
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#define PreemptCount (KeCurCPU->preemptCount)
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#define IdlePrioProcs (KeCurCPU->idlePrioProcs)
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#define ReglPrioProcs (KeCurCPU->reglPrioProcs)
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#define ServPrioProcs (KeCurCPU->servPrioProcs)
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#define TimeCritProcs (KeCurCPU->timeCritProcs)
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//------------------------------------------//
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//
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// Set current process
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//
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static void SetCurProc(Process_t *proc)
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{
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PsCurProc = proc;
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if (PsCurProc) PsCurProc->procState = STATE_RUNNING;
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}
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//
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// (Un)Lock priority class list heads
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//
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static inline
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void PsLockSched(void) {
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KeDisableIRQs();
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}
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static inline
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void PsUnlockSched(void) {
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//KeEnableIRQs();
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}
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//
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// The four priority classes of OS/2
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//
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const char *PsPrioClassesNames[] = {
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"Time-critical class",
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"Server priority class",
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"Regular priority class",
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"Idle priority class",
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};
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//
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// Get priority class list head
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//
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static ListHead_t *GetPrioClassHead(int prioClass)
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{
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switch (prioClass) {
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case TIME_CRIT_PROC: return TimeCritProcs;
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case SERV_PRIO_PROC: return ServPrioProcs;
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case REGL_PRIO_PROC: return ReglPrioProcs;
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case IDLE_PRIO_PROC: return IdlePrioProcs;
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default: KalAssert(FALSE && "Unknown priority class");
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}
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return NULL;
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}
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//
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// Determine which process is going to run first
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// Return NULL for "equal" processes
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//
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static Process_t *CompareProcs(Process_t *proc1, Process_t *proc2)
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{
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KalAssert(proc1 && proc2);
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if (proc1->prioClass < proc2->prioClass) return proc1;
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if (proc1->prioClass > proc2->prioClass) return proc2;
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if (proc1->prioLevel > proc2->prioLevel) return proc1;
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if (proc1->prioLevel < proc2->prioLevel) return proc2;
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return NULL; // same class and level
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}
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//
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// Add process to schedule lists (unlocked)
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//
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static void SchedThisProcUnlocked(Process_t *proc)
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{
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KalAssert(proc && proc->procState == STATE_RUNNABLE && !proc->schedNode);
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bool found = 0;
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ListNode_t *iterNode = NULL;
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ListNode_t *procNode = ExCreateNode(proc);
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ListHead_t *head = GetPrioClassHead(proc->prioClass);
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KalAssert(head);
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KalAssert(procNode);
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proc->schedNode = procNode;
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// Find a process with lesser priority
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for (iterNode = head->first; iterNode; iterNode = iterNode->next) {
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if (proc->prioLevel > ExGetNodeData(iterNode, Process_t *)->prioLevel) {
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// Detect double insertions
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KalAssert(proc->pid != ExGetNodeData(iterNode, Process_t *)->pid);
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// Add process to schedule
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ExAddNodeBefore(head, iterNode, procNode);
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found = true;
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break;
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}
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}
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// Didn't find any process with lesser priority
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if (found == false) {
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ExAppendNode(head, procNode);
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}
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}
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//
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// Add process to schedule lists
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//
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void PsSchedThisProc(Process_t *proc)
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{
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PsLockSched();
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SchedThisProcUnlocked(proc);
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PsUnlockSched();
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}
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//
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// Selects process to schedule next
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//
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static Process_t *SelectSchedNext(void)
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{
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if (TimeCritProcs->length > 0)
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return ExGetNodeData(TimeCritProcs->first, Process_t *);
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if (ServPrioProcs->length > 0)
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return ExGetNodeData(ServPrioProcs->first, Process_t *);
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if (ReglPrioProcs->length > 0)
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return ExGetNodeData(ReglPrioProcs->first, Process_t *);
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if (IdlePrioProcs->length > 0)
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return ExGetNodeData(IdlePrioProcs->first, Process_t *);
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return NULL;
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}
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//
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// Remove running process from schedule lists
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// and schedule next runnable process
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//
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void PsBlockCurProc(void)
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{
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KalAssert(PsCurProc && PsCurProc->procState == STATE_RUNNING);
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ListNode_t *procNode = PsCurProc->schedNode;
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KalAssert(procNode && "Blocking non-scheduled process");
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PsCurProc->procState = STATE_BLOCKED;
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ExRemoveNode(procNode->head, procNode);
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PsCurProc->schedNode = NULL;
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SetCurProc(SelectSchedNext());
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}
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static void ReSchedCurProc(void)
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{
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KalAssert(PsCurProc && PsCurProc->procState == STATE_RUNNING);
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KalAssert(PsCurProc->schedNode);
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// Restore default attributes, cancelling boosts
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PsCurProc->prioClass = PsCurProc->defPrioClass;
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PsCurProc->prioLevel = PsCurProc->defPrioLevel;
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PsCurProc->timeSlice = PsCurProc->defTimeSlice;
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PsCurProc->procState = STATE_RUNNABLE;
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// Remove from list
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ExRemoveNode(PsCurProc->schedNode->head, PsCurProc->schedNode);
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PsCurProc->schedNode = NULL;
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// Schedule again, with default attributes now
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SchedThisProcUnlocked(PsCurProc);
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}
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//
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// Should we schedule another process?
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// Called at each tick
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//
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void PsSchedOnTick(void)
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{
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PsLockSched();
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Process_t *procNext, *winner, *previous = PsCurProc;
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// We're either idle or running something
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KalAssert(PsCurProc == NULL || PsCurProc->procState == STATE_RUNNING);
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// Have the current process spent its timeslice?
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// (To be handled in CPU decisions function)
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if (PsCurProc != NULL) {
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if (PsCurProc->timeSlice <= 1) {
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// Re-schedule
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ReSchedCurProc();
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// See next 'if' statement
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PsCurProc = NULL;
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}
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// Otherwise, make it lose a tick
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else {
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PsCurProc->timeSlice--;
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}
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}
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// Are we idle, or scheduling next process?
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if (PsCurProc == NULL) {
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SetCurProc(SelectSchedNext());
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goto leave;
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}
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// Is preemption on and a re-schedule is needed?
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if (PreemptCount == PREEMPT_ON && ReSchedFlag) {
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// Is there a higher priority process that is runnable?
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procNext = SelectSchedNext();
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winner = CompareProcs(PsCurProc, procNext);
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// Yes, procNext should preempt current process
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if (winner == procNext) {
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// Re-schedule
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ReSchedCurProc();
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// Switch to procNext
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SetCurProc(procNext);
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}
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}
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// Current process won't be preempted and has time remaining
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leave:
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PsUnlockSched();
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if (PsCurProc != NULL && PsCurProc != previous) {
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// dispatch & context switch
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}
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}
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//
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// Initialize scheduler
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//
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void PsInitSched(void)
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{
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int pid;
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PsLockSched();
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TimeCritProcs = ExCreateListHead();
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ServPrioProcs = ExCreateListHead();
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ReglPrioProcs = ExCreateListHead();
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IdlePrioProcs = ExCreateListHead();
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KalAssert(IdlePrioProcs && ReglPrioProcs && ServPrioProcs && TimeCritProcs);
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for (pid = 0; pid < procslen; pid++) {
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if (procs[pid].procState == STATE_RUNNABLE) {
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SchedThisProcUnlocked(&procs[pid]);
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}
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}
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PsUnlockSched();
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}
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//
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// Shutdowns scheduler
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//
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void PsFiniSched(void)
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{
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KalAssert(IdlePrioProcs && ReglPrioProcs && ServPrioProcs && TimeCritProcs);
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PsLockSched();
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while (IdlePrioProcs->length > 0)
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ExRemoveNode(IdlePrioProcs, IdlePrioProcs->first);
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while (ReglPrioProcs->length > 0)
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ExRemoveNode(ReglPrioProcs, ReglPrioProcs->first);
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while (ServPrioProcs->length > 0)
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ExRemoveNode(ServPrioProcs, ServPrioProcs->first);
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while (TimeCritProcs->length > 0)
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ExRemoveNode(TimeCritProcs, TimeCritProcs->first);
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ExDestroyListHead(IdlePrioProcs); IdlePrioProcs = NULL;
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ExDestroyListHead(ReglPrioProcs); ReglPrioProcs = NULL;
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ExDestroyListHead(ServPrioProcs); ServPrioProcs = NULL;
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ExDestroyListHead(TimeCritProcs); TimeCritProcs = NULL;
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PsUnlockSched();
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}
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#define PrintProc(proc) KernLog("{ %d, '%s', %d , %lu}\n", (proc)->pid, \
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PsPrioClassesNames[(proc)->prioClass], (proc)->prioLevel, (proc)->timeSlice);
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//
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// Print out process list
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//
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void PrintList(ListHead_t *head)
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{
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KalAssert(head);
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Process_t *proc;
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ListNode_t *node = head->first;
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KernLog("len: %lu\n", head->length);
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while (node) {
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proc = ExGetNodeData(node, Process_t *);
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PrintProc(proc);
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node = node->next;
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}
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KernLog("");
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}
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void pstest(void)
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{
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KernLog("\nTime Critical: ");
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PrintList(TimeCritProcs);
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KernLog("\nServer: ");
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PrintList(ServPrioProcs);
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KernLog("\nRegular: ");
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PrintList(ReglPrioProcs);
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KernLog("\nIdle: ");
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PrintList(IdlePrioProcs);
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int tick = 0;
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while (tick < 14) {
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//if (tick%25==0)ClearTerm(StdOut);
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if (tick > 0 && tick != 50 && tick % 10 == 0) {
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KernLog("Blocking current process\n");
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PsBlockCurProc();
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}
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if (tick == 50) {
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procs[0].procState = STATE_RUNNABLE;
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PsSchedThisProc(&procs[0]);
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}
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KernLog("Tick %d - Running: ", tick);
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if (PsCurProc == NULL) {
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KernLog("IDLE\n");
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}
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else {
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PrintProc(PsCurProc);
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}
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PsSchedOnTick();
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if (tick == 50) // already done
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KernLog("Re-scheduling process 0\n");
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tick++;
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}
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}
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