[ros-diffs] [ros-arm-bringup] 32357: Don't loop the page array list THREE times to set it up, ONCE is plenty enough! Remove the incomprehensible PFN allocation being done for the pages holding the page list array. We now: 1) Find the highest usable RAM page 2) Allocate the PTEs to hold the array from that point on and lower. Don't do expensive divisions for every single page on the system being looped! Precompute the values ONCE. Don't set the reference count for the KPCR and KUSER_SHARED_DATA to 0, these are LIVE pages! Removed the hack which pre-initializes the balancer -- this isn't needed anymore since the initial PTEs are allocated always from RAM now. Add some comments about the assumptions being made in this code regarding all PCs having the same kind of memory maps.
ros-arm-bringup at svn.reactos.org
ros-arm-bringup at svn.reactos.org
Thu Feb 14 17:40:32 CET 2008
Author: ros-arm-bringup
Date: Thu Feb 14 19:40:32 2008
New Revision: 32357
URL: http://svn.reactos.org/svn/reactos?rev=32357&view=rev
Log:
Don't loop the page array list THREE times to set it up, ONCE is plenty enough!
Remove the incomprehensible PFN allocation being done for the pages holding the page list array. We now: 1) Find the highest usable RAM page 2) Allocate the PTEs to hold the array from that point on and lower.
Don't do expensive divisions for every single page on the system being looped! Precompute the values ONCE.
Don't set the reference count for the KPCR and KUSER_SHARED_DATA to 0, these are LIVE pages!
Removed the hack which pre-initializes the balancer -- this isn't needed anymore since the initial PTEs are allocated always from RAM now.
Add some comments about the assumptions being made in this code regarding all PCs having the same kind of memory maps.
Modified:
trunk/reactos/ntoskrnl/mm/freelist.c
trunk/reactos/ntoskrnl/mm/mminit.c
Modified: trunk/reactos/ntoskrnl/mm/freelist.c
URL: http://svn.reactos.org/svn/reactos/trunk/reactos/ntoskrnl/mm/freelist.c?rev=32357&r1=32356&r2=32357&view=diff
==============================================================================
--- trunk/reactos/ntoskrnl/mm/freelist.c (original)
+++ trunk/reactos/ntoskrnl/mm/freelist.c Thu Feb 14 19:40:32 2008
@@ -290,55 +290,40 @@
ULONG i;
ULONG Reserved;
NTSTATUS Status;
- PFN_TYPE LastPage;
- PFN_TYPE FirstUninitializedPage;
+ PFN_TYPE LastPage, Pfn;
ULONG PdeStart = PsGetCurrentProcess()->Pcb.DirectoryTableBase.LowPart;
+ /* Initialize the page lists */
KeInitializeSpinLock(&PageListLock);
InitializeListHead(&UserPageListHead);
InitializeListHead(&FreeUnzeroedPageListHead);
InitializeListHead(&FreeZeroedPageListHead);
- LastKernelAddress = PAGE_ROUND_UP(LastKernelAddress);
- LastPhysKernelAddress = (ULONG_PTR)PAGE_ROUND_UP(LastPhysKernelAddress);
-
+ /* Set the size and start of the PFN Database */
MmPageArraySize = MemorySizeInPages;
MmPageArray = (PHYSICAL_PAGE *)LastKernelAddress;
-
Reserved = PAGE_ROUND_UP((MmPageArraySize * sizeof(PHYSICAL_PAGE))) / PAGE_SIZE;
+
+ /* Update the last kernel address pointers */
LastKernelAddress = ((ULONG_PTR)LastKernelAddress + (Reserved * PAGE_SIZE));
LastPhysKernelAddress = (ULONG_PTR)LastPhysKernelAddress + (Reserved * PAGE_SIZE);
- /* Preinitialize the Balancer because we need some pages for pte's */
- MmInitializeBalancer(MemorySizeInPages, 0);
-
- FirstUninitializedPage = (ULONG_PTR)LastPhysKernelAddress / PAGE_SIZE;
+ /* Find the highest usable page */
LastPage = MmPageArraySize;
+ while (TRUE) if (MiIsPfnRam(BIOSMemoryMap, AddressRangeCount, --LastPage)) break;
+
+ /* Loop every page required to hold the PFN database */
for (i = 0; i < Reserved; i++)
{
PVOID Address = (char*)MmPageArray + (i * PAGE_SIZE);
- ULONG j, start, end;
-
+
+ /* Check if FreeLDR has already allocated it for us */
if (!MmIsPagePresent(NULL, Address))
{
- PFN_TYPE Pfn;
- Pfn = 0;
- while (Pfn == 0 && LastPage > FirstUninitializedPage)
- {
- /* Allocate the page from the upper end of the RAM */
- if (MiIsPfnRam(BIOSMemoryMap, AddressRangeCount, --LastPage))
- {
- Pfn = LastPage;
- }
- }
- if (Pfn == 0)
- {
- Pfn = MmAllocPage(MC_NPPOOL, 0);
- if (Pfn == 0)
- {
- KEBUGCHECK(0);
- }
- }
+ /* Use one of our highest usable pages */
+ Pfn = LastPage--;
+
+ /* Set the PFN */
Status = MmCreateVirtualMappingForKernel(Address,
PAGE_READWRITE,
&Pfn,
@@ -351,24 +336,45 @@
}
else
{
- /* Setting the page protection is necessary to set the global bit on IA32 */
+ /* Setting the page protection is necessary to set the global bit */
MmSetPageProtect(NULL, Address, PAGE_READWRITE);
}
+ }
+
+ /* Now loop every PFN database page again */
+ for (i = 0; i < Reserved; i++)
+ {
+ PVOID Address = (char*)MmPageArray + (i * PAGE_SIZE);
+ ULONG j, start, end;
+ ULONG PdePageStart, PdePageEnd;
+ ULONG VideoPageStart, VideoPageEnd;
+ ULONG KernelPageStart, KernelPageEnd;
+ /* Clear the page array entry */
memset(Address, 0, PAGE_SIZE);
+ /* Do the next page'ss worth of entries */
start = ((ULONG_PTR)Address - (ULONG_PTR)MmPageArray) / sizeof(PHYSICAL_PAGE);
end = ((ULONG_PTR)Address - (ULONG_PTR)MmPageArray + PAGE_SIZE) / sizeof(PHYSICAL_PAGE);
- for (j = start; j < end && j < LastPage; j++)
+ /* We'll be applying a bunch of hacks -- precompute some static values */
+ PdePageStart = PdeStart / PAGE_SIZE;
+ PdePageEnd = MmFreeLdrPageDirectoryEnd / PAGE_SIZE;
+ VideoPageStart = 0xA0000 / PAGE_SIZE;
+ VideoPageEnd = 0x100000 / PAGE_SIZE;
+ KernelPageStart = FirstPhysKernelAddress / PAGE_SIZE;
+ KernelPageEnd = LastPhysKernelAddress / PAGE_SIZE;
+
+ /* Loop each page in this chunk */
+ for (j = start; j < end; j++)
{
+ /* Check if it's part of RAM */
if (MiIsPfnRam(BIOSMemoryMap, AddressRangeCount, j))
{
+ /* Apply assumptions that all computers are built the same way */
if (j == 0)
{
- /*
- * Page zero is reserved for the IVT
- */
+ /* Page 0 is reserved for the IVT */
MmPageArray[0].Flags.Type = MM_PHYSICAL_PAGE_BIOS;
MmPageArray[0].Flags.Consumer = MC_NPPOOL;
MmPageArray[0].Flags.Zero = 0;
@@ -377,58 +383,73 @@
}
else if (j == 1)
{
-
- /*
- * Page one is reserved for the initial KPCR
- */
+ /* Page 1 is reserved for the PCR */
MmPageArray[1].Flags.Type = MM_PHYSICAL_PAGE_BIOS;
MmPageArray[1].Flags.Consumer = MC_NPPOOL;
MmPageArray[1].Flags.Zero = 0;
- MmPageArray[1].ReferenceCount = 0;
+ MmPageArray[1].ReferenceCount = 1;
MmStats.NrReservedPages++;
}
else if (j == 2)
{
- /*
- * Page two is reserved for the KUSER_SHARED_DATA
- */
+ /* Page 2 is reserved for the KUSER_SHARED_DATA */
MmPageArray[2].Flags.Type = MM_PHYSICAL_PAGE_BIOS;
MmPageArray[2].Flags.Consumer = MC_NPPOOL;
MmPageArray[2].Flags.Zero = 0;
- MmPageArray[2].ReferenceCount = 0;
+ MmPageArray[2].ReferenceCount = 1;
MmStats.NrReservedPages++;
}
- /* Protect the Page Directory. This will be changed in r3 */
- else if (j >= (PdeStart / PAGE_SIZE) && j < (MmFreeLdrPageDirectoryEnd / PAGE_SIZE))
+ else if ((j >= PdePageStart) && (j < PdePageEnd))
{
+ /* These pages contain the initial FreeLDR PDEs */
MmPageArray[j].Flags.Type = MM_PHYSICAL_PAGE_BIOS;
MmPageArray[j].Flags.Zero = 0;
MmPageArray[j].Flags.Consumer = MC_NPPOOL;
MmPageArray[j].ReferenceCount = 1;
MmStats.NrReservedPages++;
}
- else if (j >= 0xa0000 / PAGE_SIZE && j < 0x100000 / PAGE_SIZE)
+ else if ((j >= VideoPageStart) && (j < VideoPageEnd))
{
+ /*
+ * These pages are usually for the Video ROM BIOS.
+ * Supposedly anyway. We'll simply ignore the fact that
+ * many systems have this area somewhere else entirely
+ * (which we'll assume to be "free" a couple of lines below)
+ */
MmPageArray[j].Flags.Type = MM_PHYSICAL_PAGE_BIOS;
MmPageArray[j].Flags.Zero = 0;
MmPageArray[j].Flags.Consumer = MC_NPPOOL;
MmPageArray[j].ReferenceCount = 1;
MmStats.NrReservedPages++;
}
- else if (j >= (ULONG)FirstPhysKernelAddress/PAGE_SIZE &&
- j < (ULONG)LastPhysKernelAddress/PAGE_SIZE)
+ else if ((j >= KernelPageStart) && (j < KernelPageEnd))
{
+ /* These are pages beloning to the kernel */
MmPageArray[j].Flags.Type = MM_PHYSICAL_PAGE_USED;
MmPageArray[j].Flags.Zero = 0;
MmPageArray[j].Flags.Consumer = MC_NPPOOL;
- /* Reference count 2, because we're having ReferenceCount track
- MapCount as well. */
+ MmPageArray[j].ReferenceCount = 2;
+ MmPageArray[j].MapCount = 1;
+ MmStats.NrSystemPages++;
+ }
+ else if (j > LastPage)
+ {
+ /* These are pages we allocated above to hold the PFN DB */
+ MmPageArray[j].Flags.Type = MM_PHYSICAL_PAGE_USED;
+ MmPageArray[j].Flags.Zero = 0;
+ MmPageArray[j].Flags.Consumer = MC_NPPOOL;
MmPageArray[j].ReferenceCount = 2;
MmPageArray[j].MapCount = 1;
MmStats.NrSystemPages++;
}
else
{
+ /*
+ * These are supposedly free pages.
+ * By the way, not all of them are, some contain vital
+ * FreeLDR data, but since we choose to ignore the Memory
+ * Descriptor List, why bother, right?
+ */
MmPageArray[j].Flags.Type = MM_PHYSICAL_PAGE_FREE;
MmPageArray[j].Flags.Zero = 0;
MmPageArray[j].ReferenceCount = 0;
@@ -440,36 +461,13 @@
}
else
{
+ /* These are pages reserved by the BIOS/ROMs */
MmPageArray[j].Flags.Type = MM_PHYSICAL_PAGE_BIOS;
MmPageArray[j].Flags.Consumer = MC_NPPOOL;
MmPageArray[j].Flags.Zero = 0;
MmPageArray[j].ReferenceCount = 0;
MmStats.NrReservedPages++;
}
- }
- FirstUninitializedPage = j;
-
- }
-
- /* Add the pages from the upper end to the list */
- for (i = LastPage; i < MmPageArraySize; i++)
- {
- if (MiIsPfnRam(BIOSMemoryMap, AddressRangeCount, i))
- {
- MmPageArray[i].Flags.Type = MM_PHYSICAL_PAGE_USED;
- MmPageArray[i].Flags.Zero = 0;
- MmPageArray[i].Flags.Consumer = MC_NPPOOL;
- MmPageArray[i].ReferenceCount = 2;
- MmPageArray[i].MapCount = 1;
- MmStats.NrSystemPages++;
- }
- else
- {
- MmPageArray[i].Flags.Type = MM_PHYSICAL_PAGE_BIOS;
- MmPageArray[i].Flags.Consumer = MC_NPPOOL;
- MmPageArray[i].Flags.Zero = 0;
- MmPageArray[i].ReferenceCount = 0;
- MmStats.NrReservedPages++;
}
}
Modified: trunk/reactos/ntoskrnl/mm/mminit.c
URL: http://svn.reactos.org/svn/reactos/trunk/reactos/ntoskrnl/mm/mminit.c?rev=32357&r1=32356&r2=32357&view=diff
==============================================================================
--- trunk/reactos/ntoskrnl/mm/mminit.c (original)
+++ trunk/reactos/ntoskrnl/mm/mminit.c Thu Feb 14 19:40:32 2008
@@ -307,7 +307,7 @@
FirstKrnlPhysAddr = (ULONG_PTR)LdrEntry->DllBase - KSEG0_BASE;
/* Get the last kernel address */
- LastKrnlPhysAddr = MiGetLastKernelAddress();
+ LastKrnlPhysAddr = PAGE_ROUND_UP(MiGetLastKernelAddress());
LastKernelAddress = LastKrnlPhysAddr | KSEG0_BASE;
/* Set memory limits */
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