initproc, usegment, swtch tweaks
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b121486c3f
commit
2c5f7aba38
4 changed files with 45 additions and 59 deletions
5
defs.h
5
defs.h
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@ -52,7 +52,7 @@ int writei(struct inode*, char*, uint, uint);
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// ide.c
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// ide.c
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void ideinit(void);
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void ideinit(void);
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void ideintr(void);
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void ideintr(void);
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void iderw(struct buf *);
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void iderw(struct buf*);
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// ioapic.c
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// ioapic.c
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void ioapicenable(int irq, int cpu);
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void ioapicenable(int irq, int cpu);
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@ -109,7 +109,7 @@ void wakeup(void*);
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void yield(void);
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void yield(void);
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// swtch.S
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// swtch.S
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void swtch(struct context**, struct context**);
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void swtch(struct context**, struct context*);
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// spinlock.c
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// spinlock.c
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void acquire(struct spinlock*);
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void acquire(struct spinlock*);
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@ -151,7 +151,6 @@ void uartinit(void);
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void uartintr(void);
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void uartintr(void);
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void uartputc(int);
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void uartputc(int);
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// number of elements in fixed-size array
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// number of elements in fixed-size array
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#define NELEM(x) (sizeof(x)/sizeof((x)[0]))
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#define NELEM(x) (sizeof(x)/sizeof((x)[0]))
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83
proc.c
83
proc.c
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@ -15,7 +15,7 @@ static struct proc *initproc;
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int nextpid = 1;
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int nextpid = 1;
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extern void forkret(void);
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extern void forkret(void);
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extern void forkret1(struct trapframe*);
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extern void trapret(void);
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void
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void
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pinit(void)
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pinit(void)
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@ -30,19 +30,18 @@ static struct proc*
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allocproc(void)
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allocproc(void)
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{
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{
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struct proc *p;
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struct proc *p;
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char *sp;
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acquire(&ptable.lock);
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acquire(&ptable.lock);
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for(p = ptable.proc; p < &ptable.proc[NPROC]; p++){
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for(p = ptable.proc; p < &ptable.proc[NPROC]; p++)
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if(p->state == UNUSED){
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if(p->state == UNUSED)
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p->state = EMBRYO;
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p->pid = nextpid++;
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goto found;
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goto found;
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}
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}
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release(&ptable.lock);
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release(&ptable.lock);
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return 0;
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return 0;
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found:
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found:
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p->state = EMBRYO;
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p->pid = nextpid++;
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release(&ptable.lock);
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release(&ptable.lock);
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// Allocate kernel stack if necessary.
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// Allocate kernel stack if necessary.
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@ -50,11 +49,20 @@ found:
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p->state = UNUSED;
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p->state = UNUSED;
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return 0;
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return 0;
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}
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}
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p->tf = (struct trapframe*)(p->kstack + KSTACKSIZE) - 1;
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sp = p->kstack + KSTACKSIZE;
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// Leave room for trap frame.
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sp -= sizeof *p->tf;
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p->tf = (struct trapframe*)sp;
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// Set up new context to start executing at forkret,
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// which returns to trapret (see below).
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sp -= 4;
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*(uint*)sp = (uint)trapret;
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// Set up new context to start executing at forkret (see below).
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sp -= sizeof *p->context;
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p->context = (struct context *)p->tf - 1;
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p->context = (struct context*)sp;
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memset(p->context, 0, sizeof(*p->context));
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memset(p->context, 0, sizeof *p->context);
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p->context->eip = (uint)forkret;
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p->context->eip = (uint)forkret;
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return p;
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return p;
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}
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}
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@ -79,19 +87,16 @@ growproc(int n)
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}
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}
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// Set up CPU's kernel segment descriptors.
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// Set up CPU's kernel segment descriptors.
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// Run once at boot time on each CPU.
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void
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void
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ksegment(void)
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ksegment(void)
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{
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{
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struct cpu *c1;
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struct cpu *c1;
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c1 = &cpus[cpu()];
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c1 = &cpus[cpu()];
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c1->gdt[0] = SEG_NULL;
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c1->gdt[SEG_KCODE] = SEG(STA_X|STA_R, 0, 0x100000 + 64*1024-1, 0);
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c1->gdt[SEG_KCODE] = SEG(STA_X|STA_R, 0, 0x100000 + 64*1024-1, 0);
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c1->gdt[SEG_KDATA] = SEG(STA_W, 0, 0xffffffff, 0);
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c1->gdt[SEG_KDATA] = SEG(STA_W, 0, 0xffffffff, 0);
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c1->gdt[SEG_KCPU] = SEG(STA_W, (uint)&c1->tls+sizeof(c1->tls), 0xffffffff, 0);
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c1->gdt[SEG_KCPU] = SEG(STA_W, (uint)(&c1->tls+1), 0xffffffff, 0);
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c1->gdt[SEG_UCODE] = SEG_NULL;
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c1->gdt[SEG_UDATA] = SEG_NULL;
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c1->gdt[SEG_TSS] = SEG_NULL;
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lgdt(c1->gdt, sizeof(c1->gdt));
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lgdt(c1->gdt, sizeof(c1->gdt));
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loadfsgs(SEG_KCPU << 3);
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loadfsgs(SEG_KCPU << 3);
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@ -106,23 +111,12 @@ void
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usegment(void)
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usegment(void)
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{
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{
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pushcli();
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pushcli();
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c->ts.ss0 = SEG_KDATA << 3;
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c->gdt[SEG_UCODE] = SEG(STA_X|STA_R, (uint)cp->mem, cp->sz-1, DPL_USER);
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if(cp)
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c->gdt[SEG_UDATA] = SEG(STA_W, (uint)cp->mem, cp->sz-1, DPL_USER);
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c->ts.esp0 = (uint)(cp->kstack + KSTACKSIZE);
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else
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c->ts.esp0 = 0xffffffff;
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if(cp){
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c->gdt[SEG_UCODE] = SEG(STA_X|STA_R, (uint)cp->mem, cp->sz-1, DPL_USER);
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c->gdt[SEG_UDATA] = SEG(STA_W, (uint)cp->mem, cp->sz-1, DPL_USER);
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} else {
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c->gdt[SEG_UCODE] = SEG_NULL;
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c->gdt[SEG_UDATA] = SEG_NULL;
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}
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c->gdt[SEG_TSS] = SEG16(STS_T32A, (uint)&c->ts, sizeof(c->ts)-1, 0);
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c->gdt[SEG_TSS] = SEG16(STS_T32A, (uint)&c->ts, sizeof(c->ts)-1, 0);
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c->gdt[SEG_TSS].s = 0;
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c->gdt[SEG_TSS].s = 0;
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c->ts.ss0 = SEG_KDATA << 3;
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lgdt(c->gdt, sizeof(c->gdt));
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c->ts.esp0 = (uint)cp->kstack + KSTACKSIZE;
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ltr(SEG_TSS << 3);
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ltr(SEG_TSS << 3);
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popcli();
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popcli();
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}
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}
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@ -171,7 +165,7 @@ void
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userinit(void)
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userinit(void)
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{
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{
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struct proc *p;
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struct proc *p;
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extern uchar _binary_initcode_start[], _binary_initcode_size[];
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extern char _binary_initcode_start[], _binary_initcode_size[];
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p = allocproc();
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p = allocproc();
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initproc = p;
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initproc = p;
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@ -179,6 +173,7 @@ userinit(void)
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// Initialize memory from initcode.S
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// Initialize memory from initcode.S
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p->sz = PAGE;
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p->sz = PAGE;
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p->mem = kalloc(p->sz);
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p->mem = kalloc(p->sz);
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memset(p->mem, 0, p->sz);
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memmove(p->mem, _binary_initcode_start, (int)_binary_initcode_size);
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memmove(p->mem, _binary_initcode_start, (int)_binary_initcode_size);
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memset(p->tf, 0, sizeof(*p->tf));
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memset(p->tf, 0, sizeof(*p->tf));
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@ -210,7 +205,7 @@ scheduler(void)
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struct proc *p;
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struct proc *p;
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for(;;){
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for(;;){
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// Enable interrupts on this processor, in lieu of saving intena.
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// Enable interrupts on this processor.
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sti();
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sti();
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// Loop over process table looking for process to run.
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// Loop over process table looking for process to run.
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@ -225,36 +220,35 @@ scheduler(void)
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cp = p;
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cp = p;
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usegment();
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usegment();
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p->state = RUNNING;
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p->state = RUNNING;
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swtch(&c->context, &p->context);
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swtch(&c->context, p->context);
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// Process is done running for now.
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// Process is done running for now.
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// It should have changed its p->state before coming back.
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// It should have changed its p->state before coming back.
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cp = 0;
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cp = 0;
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usegment();
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}
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}
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release(&ptable.lock);
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release(&ptable.lock);
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}
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}
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}
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}
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// Enter scheduler. Must already hold ptable.lock
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// Enter scheduler. Must hold only ptable.lock
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// and have changed cp->state.
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// and have changed cp->state.
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void
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void
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sched(void)
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sched(void)
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{
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{
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int intena;
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int intena;
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if(readeflags()&FL_IF)
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panic("sched interruptible");
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if(cp->state == RUNNING)
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panic("sched running");
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if(!holding(&ptable.lock))
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if(!holding(&ptable.lock))
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panic("sched ptable.lock");
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panic("sched ptable.lock");
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if(c->ncli != 1)
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if(c->ncli != 1)
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panic("sched locks");
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panic("sched locks");
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if(cp->state == RUNNING)
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panic("sched running");
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if(readeflags()&FL_IF)
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panic("sched interruptible");
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intena = c->intena;
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intena = c->intena;
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swtch(&cp->context, &c->context);
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swtch(&cp->context, c->context);
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c->intena = intena;
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c->intena = intena;
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}
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}
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@ -262,7 +256,7 @@ sched(void)
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void
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void
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yield(void)
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yield(void)
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{
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{
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acquire(&ptable.lock);
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acquire(&ptable.lock); //DOC: yieldlock
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cp->state = RUNNABLE;
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cp->state = RUNNABLE;
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sched();
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sched();
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release(&ptable.lock);
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release(&ptable.lock);
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@ -275,9 +269,8 @@ forkret(void)
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{
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{
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// Still holding ptable.lock from scheduler.
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// Still holding ptable.lock from scheduler.
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release(&ptable.lock);
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release(&ptable.lock);
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// Jump into assembly, never to return.
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// Return to "caller", actually trapret (see allocproc).
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forkret1(cp->tf);
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}
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}
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// Atomically release lock and sleep on chan.
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// Atomically release lock and sleep on chan.
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8
swtch.S
8
swtch.S
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@ -1,5 +1,7 @@
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# void swtch(struct context **old, struct context **new);
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# Context switch
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#
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#
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# void swtch(struct context **old, struct context *new);
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#
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# Save current register context in old
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# Save current register context in old
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# and then load register context from new.
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# and then load register context from new.
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@ -16,7 +18,7 @@ swtch:
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# Switch stacks
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# Switch stacks
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movl %esp, (%eax)
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movl %esp, (%eax)
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movl (%edx), %esp
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movl %edx, %esp
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# Load new callee-save registers
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# Load new callee-save registers
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popl %edi
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popl %edi
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popl %ds
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popl %ds
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addl $0x8, %esp # trapno and errcode
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addl $0x8, %esp # trapno and errcode
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iret
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iret
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# A forked process switches to user mode by calling
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# forkret1(tf), where tf is the trap frame to use.
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.globl forkret1
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forkret1:
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movl 4(%esp), %esp
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jmp trapret
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