MODULE MemInfo;
IMPORT SYSTEM, KernelLog, Machine;
CONST
SoftInt = Machine.SoftInt;
K = 1024; M = 100000H;
PS = 4096;
RS = 4*M;
PTEs = RS DIV PS;
VAR
kernelPD: SYSTEM.ADDRESS;
msrlow, msrhigh: SET;
PROCEDURE GetCR3(VAR state: Machine.State);
CODE {SYSTEM.i386, SYSTEM.Privileged}
MOV EAX, CR3
MOV kernelPD, EAX
END GetCR3;
PROCEDURE -DoSoftInt(eax: LONGINT);
CODE {SYSTEM.i386}
POP EAX
INT SoftInt
END DoSoftInt;
PROCEDURE DisplayMap*;
VAR i, j: LONGINT; pt: LONGINT; virt, phys, virt0, phys0, size: LONGINT;
PROCEDURE Page;
BEGIN
IF (phys = phys0+size) & (virt = virt0+size) THEN
INC(size, PS)
ELSE
IF size # 0 THEN
KernelLog.Hex(virt0, 9); KernelLog.Hex(phys0, 9);
KernelLog.IntSuffix(size, 8, "B"); KernelLog.Ln
END;
virt0 := virt; phys0 := phys; size := PS
END
END Page;
BEGIN
Machine.InstallHandler(GetCR3, SoftInt);
DoSoftInt(0);
Machine.RemoveHandler(GetCR3, SoftInt);
KernelLog.Enter; KernelLog.Char(0EX); KernelLog.Ln;
KernelLog.String(" Virtual Physical Size"); KernelLog.Ln;
virt := 0; virt0 := 0; phys0 := 0; size := 0;
FOR i := 0 TO PTEs-1 DO
SYSTEM.GET(kernelPD + SYSTEM.SIZEOF(SYSTEM.ADDRESS)*i, pt);
IF ODD(pt) THEN
pt := pt - pt MOD PS;
FOR j := 0 TO PTEs-1 DO
SYSTEM.GET(pt, phys);
IF ODD(phys) THEN
DEC(phys, phys MOD PS);
Page
END;
INC(pt, 4); INC(virt, 4*K)
END
ELSE
INC(virt, 4*M)
END
END;
virt := -1; Page;
KernelLog.Char(0FX); KernelLog.Exit;
END DisplayMap;
PROCEDURE Write64(s: ARRAY OF CHAR; low, high: SET);
BEGIN
KernelLog.String(s); KernelLog.Char("=");
KernelLog.Hex(SYSTEM.VAL(LONGINT, high), 8);
KernelLog.Hex(SYSTEM.VAL(LONGINT, low), 9)
END Write64;
PROCEDURE Bits(s: ARRAY OF CHAR; x: SET; ofs, n: LONGINT);
BEGIN
KernelLog.String(s); KernelLog.Char("="); KernelLog.Bits(x, ofs, n)
END Bits;
PROCEDURE -RealReadMSR(msr: LONGINT; VAR low, high: SET);
CODE {SYSTEM.Pentium, SYSTEM.Privileged}
POP EDI
POP ESI
POP ECX
RDMSR
MOV [ESI], EAX
MOV [EDI], EDX
END RealReadMSR;
PROCEDURE IntReadMSR(VAR state: Machine.State);
BEGIN
RealReadMSR(state.EAX, msrlow, msrhigh)
END IntReadMSR;
PROCEDURE ReadMSR(msr: LONGINT; VAR low, high: SET);
BEGIN
Machine.InstallHandler(IntReadMSR, SoftInt);
DoSoftInt(msr);
Machine.RemoveHandler(IntReadMSR, SoftInt);
low := msrlow; high := msrhigh
END ReadMSR;
PROCEDURE DisplayMTTR*;
VAR version, i, j, k, vcnt: LONGINT; features, low, high, mask: SET; vendor: Machine.Vendor;
BEGIN
KernelLog.Enter;
features := Machine.features;
IF 5 IN features THEN
IF 12 IN features THEN
ReadMSR(0FEH, low, high);
vcnt := SYSTEM.VAL(LONGINT, low) MOD 256;
KernelLog.String("VCNT="); KernelLog.Int(vcnt, 1);
Bits(", FIX", low, 8, 1); Bits(", WC", low, 10, 1);
KernelLog.Ln;
IF 8 IN low THEN
ReadMSR(2FFH, low, high); Write64("DefType", low, high); KernelLog.Ln;
ReadMSR(250H, low, high); Write64("Fix64k", low, high); KernelLog.Ln;
ReadMSR(258H, low, high); Write64("Fix16k", low, high); KernelLog.Ln;
ReadMSR(259H, low, high); Write64("Fix16k", low, high); KernelLog.Ln;
ReadMSR(268H, low, high); Write64("Fix4k", low, high); KernelLog.Ln;
ReadMSR(269H, low, high); Write64("Fix4k", low, high); KernelLog.Ln;
ReadMSR(26AH, low, high); Write64("Fix4k", low, high); KernelLog.Ln;
ReadMSR(26BH, low, high); Write64("Fix4k", low, high); KernelLog.Ln;
ReadMSR(26CH, low, high); Write64("Fix4k", low, high); KernelLog.Ln;
ReadMSR(26DH, low, high); Write64("Fix4k", low, high); KernelLog.Ln;
ReadMSR(26EH, low, high); Write64("Fix4k", low, high); KernelLog.Ln;
ReadMSR(26FH, low, high); Write64("Fix4k", low, high); KernelLog.Ln;
FOR i := 0 TO vcnt-1 DO
KernelLog.Int(i, 1);
ReadMSR(200H+2*i, low, high); Write64(" base", low, high);
ReadMSR(200H+2*i+1, low, high); Write64(", mask", low, high);
IF 11 IN low THEN
mask := SYSTEM.LSH(low, -12);
FOR j := 0 TO 3 DO
IF j IN high THEN INCL(mask, 20+j) END
END;
j := 0; WHILE (j # 32) & ~(j IN mask) DO INC(j) END;
k := 31; WHILE (k # -1) & ~(k IN mask) DO DEC(k) END;
IF (k = 23) & (k >= j) & (mask = {j..k}) THEN
KernelLog.String(", "); KernelLog.IntSuffix(SYSTEM.VAL(LONGINT, {j})*4*1024, 1, "B")
ELSE
KernelLog.String(" discon="); KernelLog.Hex(SYSTEM.VAL(LONGINT, mask), 8)
END
END;
KernelLog.Ln
END
ELSE
KernelLog.String("Fixed range registers not supported"); KernelLog.Ln
END
ELSE
KernelLog.String("MTTR not supported"); KernelLog.Ln
END
ELSE
KernelLog.String("MSR not supported"); KernelLog.Ln
END;
KernelLog.Exit;
END DisplayMTTR;
(*
PROCEDURE IntSetCache(VAR state: Machine.State);
VAR res: LONGINT;
BEGIN
Machine.SetLocalCacheProperties(0FA800000H, 800000H, Machine.WC, res);
KernelLog.Enter; KernelLog.String("SetCache "); KernelLog.Int(res, 1); KernelLog.Exit
END IntSetCache;
PROCEDURE Test*;
BEGIN
Machine.InstallHandler(IntSetCache, SoftInt); (* ignore race *)
DoSoftInt(0);
Machine.RemoveHandler(IntSetCache, SoftInt)
END Test;
PROCEDURE -SetMTTRphysBase(n: LONGINT; high, low: LONGINT);
CODE {SYSTEM.Pentium, SYSTEM.Privileged}
POP EAX
POP EDX
POP ECX
SHL ECX, 1
ADD ECX, 200H ; MTTRphysBase0
WRMSR
END SetMTTRphysBase;
PROCEDURE -SetMTTRphysMask(n: LONGINT; high, low: LONGINT);
CODE {SYSTEM.Pentium, SYSTEM.Privileged}
POP EAX
POP EDX
POP ECX
SHL ECX, 1
ADD ECX, 201H ; MTTRphysMask0
WRMSR
END SetMTTRphysMask;
(*
1 000000000H 4GB WB
0 0F0000000H 128MB UC
4 0F8000000H 64MB UC
- 0FC000000H 32MB WB (implicit)
3 0FE000000H 32MB UC
2 100000000H 256MB WB
WB 0MB-2048MB 2048MB
WB 2048MB-3072MB 1024MB
WB 3072MB-3584MB 512MB
WB 3584MB-3840MB 256MB
WC 4032MB-4064MB 32MB
WB 4096MB-4352MB 256MB
*)
PROCEDURE IntSetCache2(VAR state: Machine.State);
BEGIN
SetMTTRphysBase(3, 0, 0FE000000H);
SetMTTRphysMask(3, 0FH, 0FE000800H);
SetMTTRphysBase(4, 0, 0F8000000H);
SetMTTRphysMask(4, 0FH, 0FC000800H);
SetMTTRphysBase(0, 0, 0F0000000H);
SetMTTRphysMask(0, 0FH, 0F8000800H)
END IntSetCache2;
PROCEDURE Test2*;
BEGIN
Machine.InstallHandler(IntSetCache2, SoftInt); (* ignore race *)
DoSoftInt(0);
Machine.RemoveHandler(IntSetCache2, SoftInt)
END Test2;
PROCEDURE Test3*;
VAR res: LONGINT;
BEGIN
Processors.GlobalSetCacheProperties(0FA800000H, 800000H, Machine.WC, res);
KernelLog.Enter; KernelLog.String("SetCache "); KernelLog.Int(res, 1); KernelLog.Exit
END Test3;
*)
END MemInfo.
System.Free MemInfo ~
MemInfo.DisplayMap
MemInfo.DisplayMTTR
MemInfo.Test
MemInfo.Test2
MemInfo.Test3
DisplayTests.Mod
PCITools.Scan