Added a test for MUIA_Listview_SelectChange.
[AROS.git] / rom / kernel / kernel_scheduler.c
blobf5441d9dbe542ab3ee1d3ae13a54a1baa2d2a5b0
1 /*
2 Copyright © 1995-2015, The AROS Development Team. All rights reserved.
3 $Id$
5 Desc:
6 */
8 #include <exec/alerts.h>
9 #include <exec/execbase.h>
10 #include <proto/exec.h>
12 #include <kernel_base.h>
13 #include <kernel_debug.h>
14 #include <kernel_scheduler.h>
16 #define AROS_NO_ATOMIC_OPERATIONS
17 #include "exec_platform.h"
19 #define D(x)
22 * Schedule the currently running task away. Put it into the TaskReady list
23 * in some smart way. This function is subject of change and it will be probably replaced
24 * by some plugin system in the future
26 BOOL core_Schedule(void)
28 struct Task *task = SysBase->ThisTask;
30 D(bug("[KRN] core_Schedule()\n"));
32 FLAG_SCHEDSWITCH_CLEAR;
34 /* If task has pending exception, reschedule it so that the dispatcher may handle the exception */
35 if (!(task->tc_Flags & TF_EXCEPT))
37 BYTE pri;
39 /* Is the TaskReady empty? If yes, then the running task is the only one. Let it work */
40 if (IsListEmpty(&SysBase->TaskReady))
41 return FALSE;
43 /* Does the TaskReady list contains tasks with priority equal or lower than current task?
44 * If so, then check further... */
45 pri = ((struct Task*)GetHead(&SysBase->TaskReady))->tc_Node.ln_Pri;
46 if (pri <= task->tc_Node.ln_Pri)
48 /* If the running task did not used it's whole quantum yet, let it work */
49 if (!FLAG_SCHEDQUANTUM_ISSET)
50 return FALSE;
54 /*
55 * If we got here, then the rescheduling is necessary.
56 * Put the task into the TaskReady list.
58 D(bug("[KRN] Setting task 0x%p (%s) to READY\n", task, task->tc_Node.ln_Name));
59 task->tc_State = TS_READY;
60 Enqueue(&SysBase->TaskReady, &task->tc_Node);
62 /* Select new task to run */
63 return TRUE;
66 /* Actually switch away from the task */
67 void core_Switch(void)
69 struct Task *task = SysBase->ThisTask;
71 D(bug("[KRN] core_Switch(): Old task = %p (%s)\n", task, task->tc_Node.ln_Name));
73 #ifndef __mc68000
74 if (task->tc_SPReg <= task->tc_SPLower || task->tc_SPReg > task->tc_SPUpper)
76 bug("[KRN] Task %s went out of stack limits\n", task->tc_Node.ln_Name);
77 bug("[KRN] Lower %p, upper %p, SP %p\n", task->tc_SPLower, task->tc_SPUpper, task->tc_SPReg);
79 * Suspend the task to stop it from causing more harm. In some rare cases, if the task is holding
80 * lock on some global/library semaphore it will most likelly mean immenent freeze. In most cases
81 * however, user will be shown an alert.
83 Remove(&task->tc_Node);
84 task->tc_SigWait = 0;
85 task->tc_State = TS_WAIT;
86 Enqueue(&SysBase->TaskWait, &task->tc_Node);
88 Alert(AN_StackProbe);
90 #endif
92 task->tc_IDNestCnt = IDNESTCOUNT_GET;
94 if (task->tc_Flags & TF_SWITCH)
95 AROS_UFC1NR(void, task->tc_Switch, AROS_UFCA(struct ExecBase *, SysBase, A6));
99 * Task dispatcher. Basically it may be the same one no matter
100 * what scheduling algorithm is used (except SysBase->Elapsed reloading)
102 struct Task *core_Dispatch(void)
104 struct Task *task;
106 D(bug("[KRN] core_Dispatch()\n"));
108 task = (struct Task *)REMHEAD(&SysBase->TaskReady);
109 if (!task)
111 /* Is the list of ready tasks empty? Well, go idle. */
112 D(bug("[KRN] No ready tasks, entering sleep mode\n"));
115 * Idle counter is incremented every time when we enter here,
116 * not only once. This is correct.
118 SysBase->IdleCount++;
119 FLAG_SCHEDSWITCH_SET;
121 return NULL;
124 SysBase->DispCount++;
125 IDNESTCOUNT_SET(task->tc_IDNestCnt);
126 SysBase->ThisTask = task;
127 SysBase->Elapsed = SysBase->Quantum;
128 FLAG_SCHEDQUANTUM_CLEAR;
129 task->tc_State = TS_RUN;
131 D(bug("[KRN] New task = %p (%s)\n", task, task->tc_Node.ln_Name));
134 * Check the stack of the task we are about to launch.
135 * Unfortunately original m68k programs can change stack manually without updating SPLower or SPUpper.
136 * For example WB3.1 C:SetPatch adds exec/OpenDevice() patch that swaps stacks manually.
137 * Result is that _all_ programs that call OpenDevice() crash if stack is checked.
139 #ifndef __mc68000
140 if (task->tc_SPReg <= task->tc_SPLower || task->tc_SPReg > task->tc_SPUpper)
142 /* Don't let the task run, switch it away (raising Alert) and dispatch another task */
143 core_Switch();
144 return core_Dispatch();
146 #endif
148 if (task->tc_Flags & TF_LAUNCH)
149 AROS_UFC1NR(void, task->tc_Launch, AROS_UFCA(struct ExecBase *, SysBase, A6));
151 /* Leave interrupt and jump to the new task */
152 return task;