c41f1de5d4
pipes
172 lines
4.2 KiB
C
172 lines
4.2 KiB
C
#include "types.h"
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#include "mmu.h"
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#include "x86.h"
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#include "param.h"
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#include "fd.h"
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#include "proc.h"
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#include "defs.h"
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struct proc proc[NPROC];
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struct proc *curproc[NCPU];
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int next_pid = 1;
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/*
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* set up a process's task state and segment descriptors
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* correctly, given its current size and address in memory.
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* this should be called whenever the latter change.
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* doesn't change the cpu's current segmentation setup.
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*/
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void
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setupsegs(struct proc *p)
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{
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memset(&p->ts, 0, sizeof(struct Taskstate));
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p->ts.ts_ss0 = SEG_KDATA << 3;
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p->ts.ts_esp0 = (unsigned)(p->kstack + KSTACKSIZE);
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// XXX it may be wrong to modify the current segment table!
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p->gdt[0] = SEG_NULL;
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p->gdt[SEG_KCODE] = SEG(STA_X|STA_R, 0, 0xffffffff, 0);
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p->gdt[SEG_KDATA] = SEG(STA_W, 0, 0xffffffff, 0);
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p->gdt[SEG_TSS] = SEG16(STS_T32A, (unsigned) &p->ts,
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sizeof(p->ts), 0);
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p->gdt[SEG_TSS].sd_s = 0;
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p->gdt[SEG_UCODE] = SEG(STA_X|STA_R, (unsigned)p->mem, p->sz, 3);
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p->gdt[SEG_UDATA] = SEG(STA_W, (unsigned)p->mem, p->sz, 3);
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p->gdt_pd.pd__garbage = 0;
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p->gdt_pd.pd_lim = sizeof(p->gdt) - 1;
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p->gdt_pd.pd_base = (unsigned) p->gdt;
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}
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extern void trapret();
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/*
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* internal fork(). does not copy kernel stack; instead,
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* sets up the stack to return as if from system call.
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*/
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struct proc *
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newproc()
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{
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struct proc *np;
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struct proc *op = curproc[cpu()];
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unsigned *sp;
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int fd;
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for(np = &proc[1]; np < &proc[NPROC]; np++)
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if(np->state == UNUSED)
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break;
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if(np >= &proc[NPROC])
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return 0;
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np->pid = next_pid++;
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np->ppid = op->pid;
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np->sz = op->sz;
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np->mem = kalloc(op->sz);
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if(np->mem == 0)
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return 0;
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memcpy(np->mem, op->mem, np->sz);
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np->kstack = kalloc(KSTACKSIZE);
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if(np->kstack == 0){
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kfree(np->mem, op->sz);
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return 0;
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}
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setupsegs(np);
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// set up kernel stack to return to user space
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np->tf = (struct Trapframe *) (np->kstack + KSTACKSIZE - sizeof(struct Trapframe));
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*(np->tf) = *(op->tf);
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np->tf->tf_regs.reg_eax = 0; // so fork() returns 0 in child
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sp = (unsigned *) np->tf;
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*(--sp) = (unsigned) &trapret; // for return from swtch()
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*(--sp) = 0; // previous bp for leave in swtch()
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np->esp = (unsigned) sp;
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np->ebp = (unsigned) sp;
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// copy file descriptors
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for(fd = 0; fd < NOFILE; fd++){
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np->fds[fd] = op->fds[fd];
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if(np->fds[fd])
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np->fds[fd]->count += 1;
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}
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np->state = RUNNABLE;
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cprintf("newproc %x\n", np);
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return np;
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}
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/*
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* find a runnable process and switch to it.
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*/
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void
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swtch()
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{
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struct proc *np;
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struct proc *op = curproc[cpu()];
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while(1){
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np = op + 1;
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while(np != op){
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if(np->state == RUNNABLE)
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break;
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np++;
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if(np == &proc[NPROC])
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np = &proc[0];
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}
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if(np->state == RUNNABLE)
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break;
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// cprintf("swtch: nothing to run\n");
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release_spinlock(&kernel_lock);
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acquire_spinlock(&kernel_lock);
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}
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// XXX this may be too late, should probably save on the way
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// in, in case some other CPU decided to run curproc
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// before we got here. in fact setting state=WAITING and
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// setting these variables had better be atomic w.r.t. other CPUs.
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op->ebp = read_ebp();
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op->esp = read_esp();
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cprintf("cpu %d swtch %x -> %x\n", cpu(), op, np);
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curproc[cpu()] = np;
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np->state = RUNNING;
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// XXX callee-saved registers?
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// h/w sets busy bit in TSS descriptor sometimes, and faults
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// if it's set in LTR. so clear tss descriptor busy bit.
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np->gdt[SEG_TSS].sd_type = STS_T32A;
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// XXX probably ought to lgdt on trap return too, in case
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// a system call has moved a program or changed its size.
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asm volatile("lgdt %0" : : "g" (np->gdt_pd.pd_lim));
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ltr(SEG_TSS << 3);
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// this happens to work, but probably isn't safe:
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// it's not clear that np->ebp is guaranteed to evaluate
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// correctly after changing the stack pointer.
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asm volatile("movl %0, %%esp" : : "g" (np->esp));
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asm volatile("movl %0, %%ebp" : : "g" (np->ebp));
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}
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void
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sleep(void *chan)
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{
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curproc[cpu()]->chan = chan;
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curproc[cpu()]->state = WAITING;
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swtch();
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}
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void
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wakeup(void *chan)
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{
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struct proc *p;
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for(p = proc; p < &proc[NPROC]; p++)
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if(p->state == WAITING && p->chan == chan)
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p->state = RUNNABLE;
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}
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