#include <vmm/vmm.h>
/************************************************************************
Function: void *vmmCreateVirtualSpace(pid_t);
Description: Creates A Virtual Space For A New Task
Notes:
07/30/02 - This Is Going To Create A New VM Space However Its Going To
Share The Same Top 1GB Space With The Kernels VM And Lower
1MB Of VM Space With The Kernel
07/30/02 - Note This Is Going To Get The Top 1Gig And Lower 1MB Region
From The Currently Loaded Page Directory This Is Safe Because
All VM Spaces Will Share These Regions
07/30/02 - Note I Realized A Mistake The First Page Table Will Need To Be
A Copy But The Page Tables For The Top 1GB Will Not Reason For
This Is That We Just Share The First 1MB In The First Page Table
So We Will Just Share Physical Pages.
08/02/02 - Added Passing Of pid_t pid For Better Tracking Of Who Has Which
Set Of Pages
************************************************************************/
void *
vmmCreateVirtualSpace(pid_t pid)
{
void *newPageDirectoryAddress = 0x0;
uInt32 *parentPageDirectory = 0x0, *newPageDirectory = 0x0;
uInt32 *parentPageTable = 0x0, *newPageTable = 0x0;
int x = 0;
/* Set Address Of Parent Page Directory */
parentPageDirectory = (uInt32 *) parentPageDirAddr;
/* Allocate A New Page For The New Page Directory */
newPageDirectory = (uInt32 *) vmmGetFreePage(pid);
/* Set newPageDirectoryAddress To The Newly Created Page Directories Page */
newPageDirectoryAddress = (void *)vmm_getPhysicalAddr((uInt32) newPageDirectory);
/* First Set Up A Flushed Page Directory */
for (x = 0; x < pageEntries; x++) {
(uInt32) newPageDirectory[x] = (uInt32) 0x0;
}
/* Map The Top 1GB Region Of The VM Space */
for (x = 768; x < pageEntries; x++) {
newPageDirectory[x] = parentPageDirectory[x];
}
/*
* Allocate A New Page For The The First Page Table Where We Will Map The
* Lower Region
*/
newPageTable = (uInt32 *) vmmGetFreePage(pid);
/* Flush The Page From Garbage In Memory */
for (x = 0; x < pageEntries; x++) {
(uInt32) newPageTable[x] = (uInt32) 0x0;
}
/* Map This Into The Page Directory */
newPageDirectory[0] = (vmm_getPhysicalAddr((uInt32) newPageTable) | PAGE_DEFAULT);
/* Set Address Of Parents Page Table */
parentPageTable = (uInt32 *) tablesBaseAddress;
/* Map The First 1MB Worth Of Pages */
for (x = 0; x < (pageEntries / 4); x++) {
newPageTable[x] = parentPageTable[x];
}
/* Set Virtual Mapping For Page Directory */
newPageTable[256] = (vmm_getPhysicalAddr((uInt32) newPageDirectory) | PAGE_DEFAULT);
/*
* Now The Fun Stuff Build The Initial Virtual Page Space So We Don't Have
* To Worry About Mapping Them In Later How Ever I'm Concerned This May
* Become A Security Issue
*/
/* First Lets Unmap The Previously Allocated Page Table */
vmmUnmapPage((uInt32) newPageTable, 1);
/* Allocate A New Page Table */
newPageTable = (uInt32 *) vmmGetFreePage(pid);
/* First Set Our Page Directory To Contain This */
newPageDirectory[767] = vmm_getPhysicalAddr((uInt32) newPageTable) | PAGE_DEFAULT;
/* Now Lets Build The Page Table */
for (x = 0; x < pageEntries; x++) {
newPageTable[x] = newPageDirectory[x];
}
/* Now We Are Done So Lets Unmap This Page */
vmmUnmapPage((uInt32) newPageTable, 1);
/* Now We Are Done With The Page Directory So Lets Unmap That Too */
vmmUnmapPage((uInt32) newPageDirectory, 1);
/* Return Physical Address Of Page Directory */
return (newPageDirectoryAddress);
}
