bdab3c4cfb
features (specifically: 4MB pages and TLB global bit). Only enable these features in CR4 if available. 4MB pages to be used in the near future.
380 lines
10 KiB
C
380 lines
10 KiB
C
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#define _SYSTEM 1
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#define VERBOSE 0
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#include <minix/callnr.h>
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#include <minix/com.h>
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#include <minix/config.h>
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#include <minix/const.h>
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#include <minix/ds.h>
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#include <minix/endpoint.h>
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#include <minix/keymap.h>
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#include <minix/minlib.h>
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#include <minix/type.h>
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#include <minix/ipc.h>
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#include <minix/sysutil.h>
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#include <minix/syslib.h>
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#include <minix/const.h>
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#include <errno.h>
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#include <string.h>
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#include <env.h>
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#include <stdio.h>
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#include <memory.h>
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#define _MAIN 1
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#include "glo.h"
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#include "proto.h"
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#include "util.h"
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#include "vm.h"
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#include "sanitycheck.h"
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extern int missing_spares;
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#include <archtypes.h>
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#include "../../kernel/const.h"
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#include "../../kernel/config.h"
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#include "../../kernel/proc.h"
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typedef u32_t mask_t;
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#define MINEPM 0
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#define MAXMASK (sizeof(mask_t)*8)
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#define ANYEPM (MINEPM+MAXMASK-1)
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#define MAXEPM (ANYEPM-1)
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#define EPM(e) ((1L) << ((e)-MINEPM))
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#define EPMOK(mask, ep) (((mask) & EPM(ANYEPM)) || ((ep) >= MINEPM && (ep) <= MAXEPM && (EPM(ep) & (mask))))
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/* Table of calls and a macro to test for being in range. */
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struct {
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mask_t vmc_callers; /* bitmap of endpoint numbers */
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int (*vmc_func)(message *); /* Call handles message. */
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char *vmc_name; /* Human-readable string. */
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} vm_calls[VM_NCALLS];
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/* Macro to verify call range and map 'high' range to 'base' range
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* (starting at 0) in one. Evaluates to zero-based call number if call
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* number is valid, returns -1 otherwise.
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*/
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#define CALLNUMBER(c) (((c) >= VM_RQ_BASE && \
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(c) < VM_RQ_BASE + ELEMENTS(vm_calls)) ? \
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((c) - VM_RQ_BASE) : -1)
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FORWARD _PROTOTYPE(void vm_init, (void));
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#if SANITYCHECKS
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extern int kputc_use_private_grants;
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#endif
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/*===========================================================================*
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* main *
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*===========================================================================*/
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PUBLIC int main(void)
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{
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message msg;
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int result, who_e;
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#if SANITYCHECKS
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nocheck = 0;
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memcpy(data1, CHECKADDR, sizeof(data1));
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#endif
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SANITYCHECK(SCL_TOP);
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vm_paged = 1;
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env_parse("vm_paged", "d", 0, &vm_paged, 0, 1);
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#if SANITYCHECKS
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env_parse("vm_sanitychecklevel", "d", 0, &vm_sanitychecklevel, 0, SCL_MAX);
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#endif
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SANITYCHECK(SCL_TOP);
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vm_init();
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SANITYCHECK(SCL_TOP);
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/* This is VM's main loop. */
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while (TRUE) {
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int r, c;
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SANITYCHECK(SCL_TOP);
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if(missing_spares > 0) {
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pt_cycle(); /* pagetable code wants to be called */
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}
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#if SANITYCHECKS
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slabstats();
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#endif
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SANITYCHECK(SCL_DETAIL);
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if ((r=receive(ANY, &msg)) != OK)
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vm_panic("receive() error", r);
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SANITYCHECK(SCL_DETAIL);
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if(msg.m_type & NOTIFY_MESSAGE) {
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switch(msg.m_source) {
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case SYSTEM:
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/* Kernel wants to have memory ranges
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* verified.
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*/
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do_memory();
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break;
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case PM_PROC_NR:
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/* PM sends a notify() on shutdown, which
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* is OK and we ignore.
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*/
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break;
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case HARDWARE:
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/* This indicates a page fault has happened,
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* which we have to handle.
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*/
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do_pagefaults();
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break;
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default:
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/* No-one else should send us notifies. */
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printf("VM: ignoring notify() from %d\n",
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msg.m_source);
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break;
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}
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continue;
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}
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who_e = msg.m_source;
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c = msg.m_type - VM_RQ_BASE;
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result = ENOSYS; /* Out of range or restricted calls return this. */
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if((c=CALLNUMBER(msg.m_type)) < 0 || !vm_calls[c].vmc_func) {
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printf("VM: out of range or missing callnr %d from %d\n",
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msg.m_type, msg.m_source);
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} else if(!EPMOK(vm_calls[c].vmc_callers, msg.m_source)) {
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printf("VM: restricted call %s from %d instead of 0x%lx\n",
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vm_calls[c].vmc_name, msg.m_source,
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vm_calls[c].vmc_callers);
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} else {
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SANITYCHECK(SCL_FUNCTIONS);
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result = vm_calls[c].vmc_func(&msg);
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SANITYCHECK(SCL_FUNCTIONS);
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}
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/* Send reply message, unless the return code is SUSPEND,
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* which is a pseudo-result suppressing the reply message.
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*/
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if(result != SUSPEND) {
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SANITYCHECK(SCL_DETAIL);
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msg.m_type = result;
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if((r=send(who_e, &msg)) != OK) {
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printf("VM: couldn't send %d to %d (err %d)\n",
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msg.m_type, who_e, r);
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vm_panic("send() error", NO_NUM);
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}
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SANITYCHECK(SCL_DETAIL);
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}
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SANITYCHECK(SCL_DETAIL);
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}
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return(OK);
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}
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/*===========================================================================*
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* vm_init *
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*===========================================================================*/
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PRIVATE void vm_init(void)
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{
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int s, i;
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struct memory mem_chunks[NR_MEMS];
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struct boot_image image[NR_BOOT_PROCS];
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struct boot_image *ip;
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/* Get chunks of available memory. */
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get_mem_chunks(mem_chunks);
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/* Initialize VM's process table. Request a copy of the system
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* image table that is defined at the kernel level to see which
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* slots to fill in.
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*/
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if (OK != (s=sys_getimage(image)))
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vm_panic("couldn't get image table: %d\n", s);
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/* Set table to 0. This invalidates all slots (clear VMF_INUSE). */
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memset(vmproc, 0, sizeof(vmproc));
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for(i = 0; i < ELEMENTS(vmproc); i++) {
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vmproc[i].vm_slot = i;
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}
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/* Walk through boot-time system processes that are alive
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* now and make valid slot entries for them.
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*/
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for (ip = &image[0]; ip < &image[NR_BOOT_PROCS]; ip++) {
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struct vmproc *vmp;
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if(ip->proc_nr >= _NR_PROCS) { vm_panic("proc", ip->proc_nr); }
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if(ip->proc_nr < 0 && ip->proc_nr != SYSTEM) continue;
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#define GETVMP(v, nr) \
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if(nr >= 0) { \
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vmp = &vmproc[ip->proc_nr]; \
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} else if(nr == SYSTEM) { \
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vmp = &vmproc[VMP_SYSTEM]; \
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} else { \
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vm_panic("init: crazy proc_nr", nr); \
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}
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/* Initialize normal process table slot or special SYSTEM
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* table slot. Kernel memory is already reserved.
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*/
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GETVMP(vmp, ip->proc_nr);
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/* reset fields as if exited */
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clear_proc(vmp);
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/* Get memory map for this process from the kernel. */
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if ((s=get_mem_map(ip->proc_nr, vmp->vm_arch.vm_seg)) != OK)
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vm_panic("couldn't get process mem_map",s);
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/* Remove this memory from the free list. */
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reserve_proc_mem(mem_chunks, vmp->vm_arch.vm_seg);
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vmp->vm_flags = VMF_INUSE;
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vmp->vm_endpoint = ip->endpoint;
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vmp->vm_stacktop =
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CLICK2ABS(vmp->vm_arch.vm_seg[S].mem_vir +
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vmp->vm_arch.vm_seg[S].mem_len);
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if (vmp->vm_arch.vm_seg[T].mem_len != 0)
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vmp->vm_flags |= VMF_SEPARATE;
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}
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/* Let architecture-dependent VM initialization use some memory. */
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arch_init_vm(mem_chunks);
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/* Architecture-dependent initialization. */
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pt_init();
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/* Initialize tables to all physical memory. */
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mem_init(mem_chunks);
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/* Bits of code need to know where a process can
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* start in a pagetable.
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*/
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kernel_top_bytes = find_kernel_top();
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/* Can first kernel pages of code and data be (left) mapped out?
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* If so, change the SYSTEM process' memory map to reflect this
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* (future mappings of SYSTEM into other processes will not include
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* first pages), and free the first pages.
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*/
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if(vm_paged && sys_vmctl(SELF, VMCTL_NOPAGEZERO, 0) == OK) {
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struct vmproc *vmp;
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vmp = &vmproc[VMP_SYSTEM];
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if(vmp->vm_arch.vm_seg[T].mem_len > 0) {
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#define DIFF CLICKSPERPAGE
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vmp->vm_arch.vm_seg[T].mem_phys += DIFF;
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vmp->vm_arch.vm_seg[T].mem_len -= DIFF;
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}
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vmp->vm_arch.vm_seg[D].mem_phys += DIFF;
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vmp->vm_arch.vm_seg[D].mem_len -= DIFF;
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}
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/* Give these processes their own page table. */
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for (ip = &image[0]; ip < &image[NR_BOOT_PROCS]; ip++) {
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int s;
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struct vmproc *vmp;
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vir_bytes old_stacktop, old_stack;
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if(ip->proc_nr < 0) continue;
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GETVMP(vmp, ip->proc_nr);
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old_stack =
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vmp->vm_arch.vm_seg[S].mem_vir +
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vmp->vm_arch.vm_seg[S].mem_len -
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vmp->vm_arch.vm_seg[D].mem_len;
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if(!(ip->flags & PROC_FULLVM))
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continue;
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if(pt_new(&vmp->vm_pt) != OK)
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vm_panic("vm_init: no new pagetable", NO_NUM);
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#define BASICSTACK VM_PAGE_SIZE
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old_stacktop = CLICK2ABS(vmp->vm_arch.vm_seg[S].mem_vir +
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vmp->vm_arch.vm_seg[S].mem_len);
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if(sys_vmctl(vmp->vm_endpoint, VMCTL_INCSP,
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VM_STACKTOP - old_stacktop) != OK) {
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vm_panic("VM: vmctl for new stack failed", NO_NUM);
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}
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FREE_MEM(vmp->vm_arch.vm_seg[D].mem_phys +
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vmp->vm_arch.vm_seg[D].mem_len,
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old_stack);
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proc_new(vmp,
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VM_PROCSTART,
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CLICK2ABS(vmp->vm_arch.vm_seg[T].mem_len),
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CLICK2ABS(vmp->vm_arch.vm_seg[D].mem_len),
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BASICSTACK,
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CLICK2ABS(vmp->vm_arch.vm_seg[S].mem_vir +
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vmp->vm_arch.vm_seg[S].mem_len -
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vmp->vm_arch.vm_seg[D].mem_len) - BASICSTACK,
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CLICK2ABS(vmp->vm_arch.vm_seg[T].mem_phys),
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CLICK2ABS(vmp->vm_arch.vm_seg[D].mem_phys),
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VM_STACKTOP);
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}
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/* Set up table of calls. */
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#define CALLMAP(code, func, thecaller) { int i; \
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if((i=CALLNUMBER(code)) < 0) { vm_panic(#code " invalid", (code)); } \
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if(i >= VM_NCALLS) { vm_panic(#code " invalid", (code)); } \
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vm_calls[i].vmc_func = (func); \
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vm_calls[i].vmc_name = #code; \
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if(((thecaller) < MINEPM || (thecaller) > MAXEPM) \
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&& (thecaller) != ANYEPM) { \
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vm_panic(#thecaller " invalid", (code)); \
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} \
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vm_calls[i].vmc_callers |= EPM(thecaller); \
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}
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/* Set call table to 0. This invalidates all calls (clear
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* vmc_func).
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*/
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memset(vm_calls, 0, sizeof(vm_calls));
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/* Requests from PM (restricted to be from PM only). */
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CALLMAP(VM_EXIT, do_exit, PM_PROC_NR);
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CALLMAP(VM_FORK, do_fork, PM_PROC_NR);
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CALLMAP(VM_BRK, do_brk, PM_PROC_NR);
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CALLMAP(VM_EXEC_NEWMEM, do_exec_newmem, PM_PROC_NR);
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CALLMAP(VM_PUSH_SIG, do_push_sig, PM_PROC_NR);
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CALLMAP(VM_WILLEXIT, do_willexit, PM_PROC_NR);
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CALLMAP(VM_ADDDMA, do_adddma, PM_PROC_NR);
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CALLMAP(VM_DELDMA, do_deldma, PM_PROC_NR);
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CALLMAP(VM_GETDMA, do_getdma, PM_PROC_NR);
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CALLMAP(VM_ALLOCMEM, do_allocmem, PM_PROC_NR);
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/* Physical mapping requests.
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* tty (for /dev/video) does this.
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* memory (for /dev/mem) does this.
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*/
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CALLMAP(VM_MAP_PHYS, do_map_phys, TTY_PROC_NR);
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CALLMAP(VM_UNMAP_PHYS, do_unmap_phys, TTY_PROC_NR);
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CALLMAP(VM_MAP_PHYS, do_map_phys, MEM_PROC_NR);
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CALLMAP(VM_UNMAP_PHYS, do_unmap_phys, MEM_PROC_NR);
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/* Requests from userland (source unrestricted). */
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CALLMAP(VM_MMAP, do_mmap, ANYEPM);
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/* Requests (actually replies) from VFS (restricted to VFS only). */
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CALLMAP(VM_VFS_REPLY_OPEN, do_vfs_reply, VFS_PROC_NR);
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CALLMAP(VM_VFS_REPLY_MMAP, do_vfs_reply, VFS_PROC_NR);
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CALLMAP(VM_VFS_REPLY_CLOSE, do_vfs_reply, VFS_PROC_NR);
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/* Sanity checks */
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if(find_kernel_top() >= VM_PROCSTART)
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vm_panic("kernel loaded too high", NO_NUM);
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}
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#if 0
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void kputc(int c)
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{
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if(c == '\n')
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ser_putc('\r');
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ser_putc(c);
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}
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#endif
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