35a108b911
this change - makes panic() variadic, doing full printf() formatting - no more NO_NUM, and no more separate printf() statements needed to print extra info (or something in hex) before panicing - unifies panic() - same panic() name and usage for everyone - vm, kernel and rest have different names/syntax currently in order to implement their own luxuries, but no longer - throws out the 1st argument, to make source less noisy. the panic() in syslib retrieves the server name from the kernel so it should be clear enough who is panicing; e.g. panic("sigaction failed: %d", errno); looks like: at_wini(73130): panic: sigaction failed: 0 syslib:panic.c: stacktrace: 0x74dc 0x2025 0x100a - throws out report() - printf() is more convenient and powerful - harmonizes/fixes the use of panic() - there were a few places that used printf-style formatting (didn't work) and newlines (messes up the formatting) in panic() - throws out a few per-server panic() functions - cleans up a tie-in of tty with panic() merging printf() and panic() statements to be done incrementally.
326 lines
9.2 KiB
C
326 lines
9.2 KiB
C
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#define _SYSTEM 1
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#include <minix/type.h>
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#include <minix/config.h>
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#include <minix/const.h>
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#include <minix/sysutil.h>
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#include <minix/syslib.h>
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#include <limits.h>
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#include <errno.h>
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#include <assert.h>
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#include <stdint.h>
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#include <memory.h>
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#include "vm.h"
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#include "proto.h"
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#include "util.h"
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#include "glo.h"
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#include "region.h"
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#include "sanitycheck.h"
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/*===========================================================================*
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* split_phys *
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*===========================================================================*/
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PRIVATE int split_phys(struct phys_region *pr, vir_bytes point)
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{
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struct phys_region *newpr, *q, *prev;
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struct phys_block *newpb;
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struct phys_block *pb = pr->ph;
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/* Split the phys region into 2 parts by @point. */
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if(pr->offset >= point || pr->offset + pb->length <= point)
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return OK;
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if(!SLABALLOC(newpb))
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return ENOMEM;
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/* Split phys block. */
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*newpb = *pb;
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pb->length = point - pr->offset;
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newpb->length -= pb->length;
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newpb->phys += pb->length;
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/* Split phys regions in a list. */
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for(q = pb->firstregion; q; q = q->next_ph_list) {
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if(!SLABALLOC(newpr))
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return ENOMEM;
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*newpr = *q;
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newpr->ph = newpb;
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newpr->offset += pb->length;
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/* Link to the vir region's phys region list. */
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physr_insert(newpr->parent->phys, newpr);
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/* Link to the next_ph_list. */
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if(q == pb->firstregion) {
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newpb->firstregion = newpr;
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prev = newpr;
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} else {
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prev->next_ph_list = newpr;
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prev = newpr;
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}
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}
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prev->next_ph_list = NULL;
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return OK;
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}
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/*===========================================================================*
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* rm_phys_regions *
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*===========================================================================*/
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PRIVATE void rm_phys_regions(struct vir_region *region,
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vir_bytes begin, vir_bytes length)
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{
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/* Remove all phys regions between @begin and @begin+length.
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*
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* Don't update the page table, because we will update it at map_memory()
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* later.
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*/
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struct phys_region *pr;
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physr_iter iter;
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physr_start_iter(region->phys, &iter, begin, AVL_GREATER_EQUAL);
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while((pr = physr_get_iter(&iter)) && pr->offset < begin + length) {
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pb_unreferenced(region, pr);
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physr_remove(region->phys, pr->offset);
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physr_start_iter(region->phys, &iter, begin,
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AVL_GREATER_EQUAL);
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SLABFREE(pr);
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}
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}
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/*===========================================================================*
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* clean_phys_regions *
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*===========================================================================*/
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PRIVATE void clean_phys_regions(struct vir_region *region,
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vir_bytes offset, vir_bytes length)
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{
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/* Consider @offset as the start address and @offset+length as the end address.
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* If there are phys regions crossing the start address or the end address,
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* split them into 2 parts.
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*
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* We assume that the phys regions are listed in order and don't overlap.
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*/
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struct phys_region *pr;
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physr_iter iter;
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physr_start_iter_least(region->phys, &iter);
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while((pr = physr_get_iter(&iter))) {
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/* If this phys region crosses the start address, split it. */
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if(pr->offset < offset
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&& pr->offset + pr->ph->length > offset) {
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split_phys(pr, offset);
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physr_start_iter_least(region->phys, &iter);
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}
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/* If this phys region crosses the end address, split it. */
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else if(pr->offset < offset + length
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&& pr->offset + pr->ph->length > offset + length) {
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split_phys(pr, offset + length);
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physr_start_iter_least(region->phys, &iter);
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}
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else {
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physr_incr_iter(&iter);
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}
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}
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}
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/*===========================================================================*
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* do_map_memory *
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*===========================================================================*/
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PRIVATE int do_map_memory(struct vmproc *vms, struct vmproc *vmd,
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struct vir_region *vrs, struct vir_region *vrd,
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vir_bytes offset_s, vir_bytes offset_d,
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vir_bytes length, int flag)
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{
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struct phys_region *prs;
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struct phys_region *newphysr;
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struct phys_block *pb;
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physr_iter iter;
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u32_t pt_flag = PTF_PRESENT | PTF_USER;
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vir_bytes end;
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/* Search for the first phys region in the source process. */
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physr_start_iter(vrs->phys, &iter, offset_s, AVL_EQUAL);
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prs = physr_get_iter(&iter);
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if(!prs)
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panic("map_memory: no aligned phys region: %d", 0);
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/* flag: 0 -> read-only
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* 1 -> writable
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* -1 -> share as COW, so read-only
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*/
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if(flag > 0)
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pt_flag |= PTF_WRITE;
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/* Map phys blocks in the source process to the destination process. */
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end = offset_d + length;
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while((prs = physr_get_iter(&iter)) && offset_d < end) {
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/* If a SMAP share was requested but the phys block has already
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* been shared as COW, copy the block for the source phys region
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* first.
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*/
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pb = prs->ph;
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if(flag >= 0 && pb->refcount > 1
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&& pb->share_flag == PBSH_COW) {
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map_copy_ph_block(vms, vrs, prs);
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pb = prs->ph;
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}
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/* Allocate a new phys region. */
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if(!SLABALLOC(newphysr))
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return ENOMEM;
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/* Set and link the new phys region to the block. */
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newphysr->ph = pb;
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newphysr->offset = offset_d;
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newphysr->parent = vrd;
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newphysr->next_ph_list = pb->firstregion;
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pb->firstregion = newphysr;
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physr_insert(newphysr->parent->phys, newphysr);
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pb->refcount++;
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/* If a COW share was requested but the phys block has already
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* been shared as SMAP, give up on COW and copy the block for
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* the destination phys region now.
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*/
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if(flag < 0 && pb->refcount > 1
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&& pb->share_flag == PBSH_SMAP) {
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map_copy_ph_block(vmd, vrd, newphysr);
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}
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else {
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/* See if this is a COW share or SMAP share. */
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if(flag < 0) { /* COW share */
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pb->share_flag = PBSH_COW;
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/* Update the page table for the src process. */
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pt_writemap(&vms->vm_pt, offset_s + vrs->vaddr,
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pb->phys, pb->length,
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pt_flag, WMF_OVERWRITE);
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}
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else { /* SMAP share */
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pb->share_flag = PBSH_SMAP;
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}
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/* Update the page table for the destination process. */
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pt_writemap(&vmd->vm_pt, offset_d + vrd->vaddr,
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pb->phys, pb->length, pt_flag, WMF_OVERWRITE);
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}
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physr_incr_iter(&iter);
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offset_d += pb->length;
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offset_s += pb->length;
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}
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return OK;
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}
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/*===========================================================================*
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* map_memory *
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*===========================================================================*/
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PUBLIC int map_memory(endpoint_t sour, endpoint_t dest,
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vir_bytes virt_s, vir_bytes virt_d, vir_bytes length, int flag)
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{
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/* This is the entry point. This function will be called by handle_memory() when
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* VM recieves a map-memory request.
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*/
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struct vmproc *vms, *vmd;
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struct vir_region *vrs, *vrd;
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physr_iter iterd;
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vir_bytes offset_s, offset_d;
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int p;
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int r;
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if(vm_isokendpt(sour, &p) != OK)
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panic("handle_memory: endpoint wrong: %d", sour);
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vms = &vmproc[p];
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if(vm_isokendpt(dest, &p) != OK)
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panic("handle_memory: endpoint wrong: %d", dest);
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vmd = &vmproc[p];
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vrs = map_lookup(vms, virt_s);
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vm_assert(vrs);
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vrd = map_lookup(vmd, virt_d);
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vm_assert(vrd);
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/* Linear address -> offset from start of vir region. */
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offset_s = virt_s - vrs->vaddr;
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offset_d = virt_d - vrd->vaddr;
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/* Make sure that the range in the source process has been mapped
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* to physical memory.
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*/
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map_handle_memory(vms, vrs, offset_s, length, 0);
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/* Prepare work. */
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#define map_printregion(x, y) (x = x)
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#define printf(x, y, z) (z = z)
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printf("before clean with offset, length: %d, %d\n", offset_s, length);
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map_printregion(vms, vrs);
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clean_phys_regions(vrs, offset_s, length);
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printf("after clean with offset, length: %d, %d\n", offset_s, length);
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map_printregion(vms, vrs);
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printf("before clean with offset, length: %d, %d\n", offset_d, length);
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map_printregion(vmd, vrd);
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clean_phys_regions(vrd, offset_d, length);
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printf("after clean with offset, length: %d, %d\n", offset_d, length);
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map_printregion(vmd, vrd);
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rm_phys_regions(vrd, offset_d, length);
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printf("after rm with offset, length: %d, %d\n", offset_d, length);
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map_printregion(vmd, vrd);
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/* Map memory. */
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r = do_map_memory(vms, vmd, vrs, vrd, offset_s, offset_d, length, flag);
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printf("after map (dst) with offset, length: %d, %d\n", offset_d, length);
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map_printregion(vmd, vrd);
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#undef map_printregion
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#undef printf
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return r;
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}
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/*===========================================================================*
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* unmap_memory *
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*===========================================================================*/
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PUBLIC int unmap_memory(endpoint_t sour, endpoint_t dest,
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vir_bytes virt_s, vir_bytes virt_d, vir_bytes length, int flag)
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{
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struct vmproc *vmd;
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struct vir_region *vrd;
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struct phys_region *pr;
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struct phys_block *pb;
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physr_iter iter;
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vir_bytes off, end;
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int p;
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/* Use information on the destination process to unmap. */
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if(vm_isokendpt(dest, &p) != OK)
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panic("handle_memory: endpoint wrong: %d", dest);
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vmd = &vmproc[p];
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vrd = map_lookup(vmd, virt_d);
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vm_assert(vrd);
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/* Search for the first phys region in the destination process. */
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off = virt_d - vrd->vaddr;
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physr_start_iter(vrd->phys, &iter, off, AVL_EQUAL);
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pr = physr_get_iter(&iter);
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if(!pr)
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panic("map_memory: no aligned phys region: %d", 0);
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/* Copy the phys block now rather than doing COW. */
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end = off + length;
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while((pr = physr_get_iter(&iter)) && off < end) {
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pb = pr->ph;
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vm_assert(pb->refcount > 1);
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vm_assert(pb->share_flag == PBSH_SMAP);
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map_copy_ph_block(vmd, vrd, pr);
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physr_incr_iter(&iter);
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off += pb->length;
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}
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return OK;
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}
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