/*ident "@(#)C++env:lib/task/task/task.c 1.6" */
/**************************************************************************
Copyright (c) 1984 AT&T
All Rights Reserved
THIS IS UNPUBLISHED PROPRIETARY SOURCE CODE OF AT&T
The copyright notice above does not evidence any
actual or intended publication of such source code.
*****************************************************************************/
// this file now assumes that the stack grows down;
// make another if the stack grows up, or split this
// into pieces such that one piece knows about stack growing
// and the other doesn't.
// DO NOT JUST USE IFDEFS!!!!
#include <task.h>
#include <assert.h>
#include <stdlib.h>
#ifdef uts
enum {SIZE = 2048};
#else
enum {SIZE = 750};
#endif
// align stack if needed
#define ALIGN(stack) ((ulong *)((long)(stack) & ~(sizeof(double) - 1)))
enum { UNTOUCHED = 052525 }; /* value considered never used */
typedef unsigned long ulong;
// a team is a collection of tasks that share one stack
class team
{
friend task;
int no_of_tasks;
task *got_stack;
ulong *stack;
ulong *stackend; // of the stack
team(task*, int); // stacksize == 0 ==> using the main stack
~team() { delete stackend; }
};
int _hwm;
static ulong *stack_base;
static int stackdown; // does the stack grow down or up?
static task *running; // task on the current stack
team::team(task* t, int stacksize) {
no_of_tasks = 1;
got_stack = t;
if (stacksize) {
stack = new ulong[stacksize];
stackend = ALIGN(stack + stacksize - 1);
while (stack == 0)
object::task_error(E_STORE, (object*)0);
if (_hwm)
for (ulong *x = stack; x <= stackend; x++)
*x = UNTOUCHED;
if (stackdown) {
ulong *t = stack;
stack = stackend;
stackend = t;
}
} else {
stackend = 0;
stack = stack_base;
}
}
/* called from _main to set __main__base */
void __task__init()
{
// get args for main
// main => _main => __task__init
Label m;
setlabel(&m);
stack_base = stackbase(m);
stackdown = (ulong)stack_base > m.sp;
new task("main"); // fire up a main task
}
Label
task::copy_task(Label top, ulong *base, ulong *stack)
{
ulong *stop = (ulong *)top.sp;
if (base == stop)
task_error(E_STACK, this);
if (stackdown)
while (base > stop)
*stack-- = *base--;
else
while (base < stop)
*stack++ = *base++;
*stack = *base;
return movelabel(top, (ulong)stack);
}
void
task::swapjmp()
{
if (t_savearea)
delete t_savearea;
t_savearea = 0;
t_size = 0;
t_team->got_stack = this;
gotolabel(1, &t_env);
}
void
task::doswap(task *on, int ischild)
{
// make sure we have enough room to work
// if we are running on the stack we want to swap
if (running == on) {
Label m;
setlabel(&m);
ulong *t = argbase(m);
ulong sz = stackdown
? (ulong)t_team->stack - (ulong)t
: (ulong)t - (ulong)t_team->stack;
// recursive call to increase the size of this stack
if (sz <= t_size) {
doswap(on, ischild);
abort();
}
}
on->t_size += sizeof(double);
on->t_savearea = new char[on->t_size];
on->t_save = stackdown
? on->t_savearea + on->t_size - sizeof(ulong)
: on->t_savearea + sizeof(double) - sizeof(ulong);
on->t_save = (char *)ALIGN(on->t_save);
on->t_env = copy_task(on->t_env, t_team->stack, (ulong *)on->t_save);
if (!ischild)
t_env = copy_task(t_env, (ulong *)t_save, t_team->stack);
swapjmp();
}
void
task::swap(int ischild)
{
task *on = on = t_team->got_stack;
if (this != on) {
if (ischild)
t_size = stackdown
? (ulong)t_team->stack - t_env.sp
: t_env.sp - (ulong)t_team->stack;
on->t_size = stackdown
? (ulong)t_team->stack - on->t_env.sp
: (ulong)on->t_env.sp - (ulong)t_team->stack;
doswap(on, ischild);
}
swapjmp();
}
inline
void
task::settrap()
{
if (t_team->stackend) // Don't set trap for main task
t_trap = *t_team->stackend;
}
inline
void
task::checktrap()
{
// Don't test for main task
if (t_team->stackend && t_trap != *t_team->stackend)
task_error(E_STACK, this);
}
task::task(char* name, modetype mode, int stacksize)
/*
executed in the task creating a new task - thistask.
1: put thistask at head of scheduler queue,
2: create new task
3: transfer execution to new task
derived::derived can never return - its return link is destroyed
if thistask==0 then we are executing on main()'s stack and
should turn it into the "main" task
*/
{
running = thxstxsk;
t_name = name;
t_mode = (mode) ? mode : (modetype) DEFAULT_MODE;
t_stacksize = (stacksize) ? stacksize : SIZE;
t_savearea = 0;
t_size = 0;
t_alert = 0;
s_state = RUNNING;
t_next = txsk_chxin;
txsk_chxin = this;
if (thxstxsk == 0) { // called from __task__init()
// create "main" task
t_team = new team(this, 0); /* don't allocate stack */
t_team->no_of_tasks = 2; /* never deallocate */
thxstxsk = this;
return;
}
// schedule this task to run now
thxstxsk->insert(0, this);
switch (t_mode) {
case DEDICATED:
t_team = new team(this, t_stacksize);
if (setlabel(&thxstxsk->t_env) == 0) {
// child; returns first
Label child = upframe(thxstxsk->t_env);
thxstxsk = this;
child = copy_task(child, argbase(child), t_team->stack);
settrap();
gotolabel((long)this, &child);
}
break;
case SHARED:
thxstxsk->t_mode = SHARED; /* you cannot share on your own */
t_team = thxstxsk->t_team;
t_team->no_of_tasks++;
if (setlabel(&thxstxsk->t_env) == 0) {
// child; return first
if (setlabel(&t_env) == 0)
swap(1);
// ok, now we are really running;
thxstxsk = this;
Label child = upframe(t_env);
settrap();
gotolabel((long)this, &child);
}
break;
default:
task_error(E_TASKMODE, this);
}
// parent
if (team_to_delete) {
delete team_to_delete;
team_to_delete = 0;
}
/* return this to function that called the derived constructor */
Label me = upframe(upframe(thxstxsk->t_env));
gotolabel((long)this, &me);
}
void
task::resume()
{
running = thxstxsk;
thxstxsk = this;
if (running && running->s_state != TERMINATED)
running->checktrap();
// NOTE -- need to do shared here
if (running == 0 || setlabel(&running->t_env) == 0) {
if (t_mode == SHARED)
swap(0);
else
gotolabel(1, &this->t_env);
}
if (team_to_delete) {
delete team_to_delete;
team_to_delete = 0;
}
}
void
task::cancel(int val)
/*
TERMINATE and free stack space
*/
{
if (this->s_state != TERMINATED) {
sched::cancel(val);
if (_hwm) t_size = curr_hwm();
if (t_team && (t_team->no_of_tasks-- == 1)) {
if (this != thxstxsk) {
delete t_team;
} else { // don't delete current stack!
// delete will be called from task::restore
// immediately after task switch
assert(team_to_delete == 0);
team_to_delete = t_team;
}
t_team = 0; // no further access to deleted team
}
}
}
task::~task()
/*
free stack space and remove task from task chain
*/
{
if (s_state != TERMINATED) task_error(E_TASKDEL, this);
if (this == txsk_chxin)
txsk_chxin = t_next;
else {
register task* t;
register task* tt;
for (t=txsk_chxin; tt=t->t_next; t=tt)
if (tt == this) {
t->t_next = t_next;
break;
}
}
if (t_savearea)
delete t_savearea;
if (this == thxstxsk) {
delete (int*) thxstxsk; /* fudge: free(_that) */
thxstxsk = 0;
schedule();
}
}
void
task::resultis(int val)
{
cancel(val);
if (this == thxstxsk) schedule();
}
void
task::sleep(object* t)
{
if (t) t->remember(this);
if (s_state == RUNNING) remove();
if (this == thxstxsk) schedule();
}
void
task::delay(long d)
{
insert(d,this);
if (thxstxsk == this) schedule();
}
long
task::preempt()
{
if (s_state == RUNNING) {
remove();
return s_time - get_clock();
}
else {
task_error(E_TASKPRE, this);
return 0;
}
}
char*
state_string(sched::statetype s)
{
switch (s) {
case sched::IDLE: return "IDLE";
case sched::TERMINATED: return "TERMINATED";
case sched::RUNNING: return "RUNNING";
default: return 0;
}
}
char*
mode_string(task::modetype m)
{
switch(m) {
case task::SHARED: return "SHARED";
case task::DEDICATED: return "DEDICATED";
default: return 0;
}
}
void
task::print(int n, int baseClass)
/*
"n" values: CHAIN, VERBOSE, STACK
*/
{
if (!baseClass)
fprintf(stderr, "task\n");
char* ss = state_string(s_state);
char* ns = (t_name) ? t_name : "";
fprintf(stderr, "task %s ",ns);
if (this == thxstxsk)
fprintf(stderr, "(is thistask, %s) ", ss);
else if (ss)
fprintf(stderr, "(%s) ",ss);
else
fprintf(stderr, "(state==%d CORRUPTED) ",s_state);
fprintf(stderr, "\tthis = %x:\n", this);
if (n&VERBOSE) {
char* ms = mode_string(t_mode);
if (ms == 0) ms = "CORRUPTED";
fprintf(stderr, "\tmode=%s t_alert=%x t_next=%x",
ms, t_alert, t_next);
fprintf(stderr, (s_state==TERMINATED) ? " result=%d\n" : " s_time=%d\n", s_time);
}
if (n&STACK) {
fprintf(stderr, "\tstack: ");
fprintf(stderr, "stack=0x%x, stackend=0x%x, ",
t_team->stack, t_team->stackend);
if (s_state == TERMINATED) {
fprintf(stderr, "deleted. ");
if (_hwm)
fprintf(stderr, "hwm size=%d", t_size);
fprintf(stderr, "\n");
} else {
fprintf(stderr, "\tsizes:\t");
ulong *top;
if (this==thxstxsk) { // figure out real current size
Label m;
setlabel(&m);
top = (ulong *)m.sp;
} else // approximate at last switch
top = (ulong *)t_env.sp;
ulong sz = stackdown ? (ulong)t_team->stack - (ulong)top
: (ulong)top - (ulong)t_team->stack;
if (t_mode == SHARED)
sz = t_size;
fprintf(stderr, "max=%d, current=%d", t_stacksize, sz);
int my_hwm;
if (_hwm) {
my_hwm = curr_hwm();
fprintf(stderr, ", hwm=%d", my_hwm);
}
fprintf(stderr, "\n\t\taddresses:\t");
fprintf(stderr, "top of stack=0x%x", top);
if (_hwm)
fprintf(stderr, ", hwm=0x%x",
stackdown ? t_team->stack - my_hwm
: t_team->stack + my_hwm);
fprintf(stderr, "\n");
}
}
if (n&CHAIN) {
sched::print(n, 1); // call sched::print here to keep
// output for same object together
// Start at beginning of task chain, and print all tasks
task *tp = get_task_chain();
if (tp == this) {
tp = tp->t_next; // just printed, skip it
} else {
fprintf(stderr, "\nChain of all tasks:\n");
}
for (; tp; tp = tp->t_next) {
fprintf(stderr, "Next task on chain of all tasks is:\n");
tp->print(n & ~CHAIN);
}
} else {
sched::print(n, 1);
}
}
int
task::curr_hwm()
{
ulong *b = t_team->stackend;
ulong *e = t_team->stack;
if (stackdown)
while (b < e && *b == UNTOUCHED)
b++;
else
while (b > e && *b == UNTOUCHED)
b--;
return stackdown ? e - b : b - e;
}
void
task::wait(object* ob)
{
if (ob == (object*)this) task_error(E_WAIT, this);
t_alert = ob;
while (ob->pending())
sleep(ob);
}
int
task::waitlist(object* a ...)
{
return waitvec(&a);
}
int
task::waitvec(object** v)
/*
first determine if it is necessary to sleep(),
return hint: who caused return
*/
{
int i;
int j;
register object* ob;
for(;;) {
for (i = 0; ob = v[i]; i++) {
if (!ob->pending()) goto ex;
ob->remember(this);
}
if (i==1 && v[0]==(object*)this) task_error(E_WAIT, this);
sleep();
}
ex:
t_alert = ob;
for (j = 0; ob = v[j]; j++)
ob->forget(this);
return i;
}
// not on plan 9 yet Interrupt_alerter interrupt_alerter;
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