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// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
/*****************************************************************************
* GCDumpNonX86.cpp
*/
#include "gcdump.h"
#define LIMITED_METHOD_CONTRACT ((void)0)
#define WRAPPER_NO_CONTRACT ((void)0)
#define GCINFODECODER_NO_EE
#include "gcinfodecoder.h"
#include "gcinfodumper.h"
PCSTR GetRegName (UINT32 regnum)
{
#ifdef _TARGET_AMD64_
switch (regnum)
{
case 0: return "rax";
case 1: return "rcx";
case 2: return "rdx";
case 3: return "rbx";
case 4: return "rsp";
case 5: return "rbp";
case 6: return "rsi";
case 7: return "rdi";
case 8: return "r8";
case 9: return "r9";
case 10: return "r10";
case 11: return "r11";
case 12: return "r12";
case 13: return "r13";
case 14: return "r14";
case 15: return "r15";
}
return "???";
#elif defined(_TARGET_ARM64_)
static CHAR szRegName[16];
if (regnum < 29)
{
_snprintf_s(szRegName, _countof(szRegName), sizeof(szRegName), "X%u", regnum);
return szRegName;
}
else if(regnum == 29)
{
return "Fp";
}
else if(regnum == 30)
{
return "Lr";
}
else if(regnum == 31)
{
return "Sp";
}
return "???";
#elif defined(_TARGET_ARM_)
if (regnum > 128)
return "???";
static CHAR szRegName[16];
_snprintf_s(szRegName, _countof(szRegName), sizeof(szRegName), "r%u", regnum);
return szRegName;
#endif
}
/*****************************************************************************/
GCDump::GCDump(UINT32 gcInfoVer, bool encBytes, unsigned maxEncBytes, bool dumpCodeOffs)
: gcInfoVersion(gcInfoVer),
fDumpEncBytes (encBytes ),
cMaxEncBytes (maxEncBytes ),
fDumpCodeOffsets(dumpCodeOffs)
{
}
/*****************************************************************************/
struct GcInfoDumpState
{
UINT32 LastCodeOffset;
BOOL fAnythingPrinted;
BOOL fSafePoint;
UINT32 FrameRegister;
GCDump::printfFtn pfnPrintf;
};
BOOL InterruptibleStateChangeCallback (
UINT32 CodeOffset,
BOOL fInterruptible,
PVOID pvData)
{
GcInfoDumpState *pState = (GcInfoDumpState*)pvData;
if (pState->fAnythingPrinted)
{
pState->pfnPrintf("\n");
pState->fAnythingPrinted = FALSE;
pState->fSafePoint = FALSE;
}
pState->pfnPrintf("%08x%s interruptible\n", CodeOffset, fInterruptible ? "" : " not");
pState->LastCodeOffset = -1;
return FALSE;
}
BOOL SafePointCallback (
UINT32 CodeOffset,
PVOID pvData)
{
GcInfoDumpState *pState = (GcInfoDumpState*)pvData;
if (pState->fAnythingPrinted)
{
pState->pfnPrintf("\n");
}
pState->pfnPrintf("%08x is a safepoint: ", CodeOffset);
pState->LastCodeOffset = CodeOffset;
pState->fAnythingPrinted = TRUE;
pState->fSafePoint = TRUE;
return FALSE;
}
VOID PrintFlags (GCDump::printfFtn pfnPrintf, GcSlotFlags Flags)
{
if (Flags & GC_SLOT_PINNED)
pfnPrintf("(pinned)");
if (Flags & GC_SLOT_INTERIOR)
pfnPrintf("(interior)");
if (Flags & GC_SLOT_UNTRACKED)
pfnPrintf("(untracked)");
}
BOOL RegisterStateChangeCallback (
UINT32 CodeOffset,
UINT32 RegisterNumber,
GcSlotFlags Flags,
GcSlotState NewState,
PVOID pvData)
{
GcInfoDumpState *pState = (GcInfoDumpState*)pvData;
if (pState->fSafePoint && (GC_SLOT_LIVE != NewState))
{
// Don't print deaths for safepoints
return FALSE;
}
if (pState->LastCodeOffset != CodeOffset)
{
if (pState->fAnythingPrinted)
pState->pfnPrintf("\n");
pState->pfnPrintf("%08x", CodeOffset);
pState->LastCodeOffset = CodeOffset;
}
char delta = ((GC_SLOT_LIVE == NewState) ? '+' : '-');
pState->pfnPrintf(" %c%s", delta, GetRegName(RegisterNumber));
PrintFlags(pState->pfnPrintf, Flags);
pState->fAnythingPrinted = TRUE;
return FALSE;
}
BOOL StackSlotStateChangeCallback (
UINT32 CodeOffset,
GcSlotFlags flags,
GcStackSlotBase BaseRegister,
SSIZE_T StackOffset,
GcSlotState NewState,
PVOID pvData)
{
GcInfoDumpState *pState = (GcInfoDumpState*)pvData;
if (pState->fSafePoint && (GC_SLOT_LIVE != NewState))
{
// Don't print deaths for safepoints
return FALSE;
}
if (pState->LastCodeOffset != CodeOffset)
{
if (pState->fAnythingPrinted)
pState->pfnPrintf("\n");
if ((CodeOffset == (UINT32)-2) && !pState->fAnythingPrinted)
pState->pfnPrintf("Untracked:");
else
pState->pfnPrintf("%08x", CodeOffset);
pState->LastCodeOffset = CodeOffset;
}
char delta = ((GC_SLOT_LIVE == NewState) ? '+' : '-');
CHAR sign = '+';
// the dumper's call back (in GcInfoDumper.cpp) has to "guess" the base register
// for stack slots it usually guesses it wrong ......
// We try to filter out at least the non-sensical combinations
// - negative offset relative to SP
// - positive offset relative to CALLER_SP
if (StackOffset < 0)
{
StackOffset = -StackOffset;
sign = '-';
#ifndef GCINFODUMPER_IS_FIXED
if (BaseRegister == GC_SP_REL)
{ // negative offset to SP????
BaseRegister = GC_CALLER_SP_REL;
}
#endif // !GCINFODUMPER_IS_FIXED
}
#ifndef GCINFODUMPER_IS_FIXED
else if (BaseRegister == GC_CALLER_SP_REL)
{ // positive offset to Caller_SP????
BaseRegister = GC_SP_REL;
}
#endif // !GCINFODUMPER_IS_FIXED
PCSTR pszBaseReg;
switch (BaseRegister)
{
case GC_CALLER_SP_REL: pszBaseReg = "caller.sp"; break;
case GC_SP_REL: pszBaseReg = "sp"; break;
case GC_FRAMEREG_REL: pszBaseReg = GetRegName(pState->FrameRegister); break;
default: pszBaseReg = "???"; break;
}
pState->pfnPrintf(" %c%s%c%x", delta, pszBaseReg, sign, StackOffset);
PrintFlags(pState->pfnPrintf, flags);
pState->fAnythingPrinted = TRUE;
return FALSE;
}
size_t GCDump::DumpGCTable(PTR_CBYTE gcInfoBlock,
unsigned methodSize,
bool verifyGCTables)
{
GCInfoToken gcInfoToken = { dac_cast<PTR_VOID>(gcInfoBlock), gcInfoVersion };
GcInfoDecoder hdrdecoder(gcInfoToken,
(GcInfoDecoderFlags)( DECODE_SECURITY_OBJECT
| DECODE_GS_COOKIE
| DECODE_CODE_LENGTH
| DECODE_PSP_SYM
| DECODE_VARARG
| DECODE_GENERICS_INST_CONTEXT
| DECODE_GC_LIFETIMES
| DECODE_PROLOG_LENGTH
| DECODE_RETURN_KIND
#if defined(_TARGET_ARM_) || defined(_TARGET_ARM64_)
| DECODE_HAS_TAILCALLS
#endif
),
0);
if (NO_SECURITY_OBJECT != hdrdecoder.GetSecurityObjectStackSlot() ||
NO_GENERICS_INST_CONTEXT != hdrdecoder.GetGenericsInstContextStackSlot() ||
NO_GS_COOKIE == hdrdecoder.GetGSCookieStackSlot())
{
gcPrintf("Prolog size: ");
UINT32 prologSize = hdrdecoder.GetPrologSize();
gcPrintf("%d\n", prologSize);
}
gcPrintf("Security object: ");
if (NO_SECURITY_OBJECT == hdrdecoder.GetSecurityObjectStackSlot())
{
gcPrintf("<none>\n");
}
else
{
INT32 ofs = hdrdecoder.GetSecurityObjectStackSlot();
char sign = '+';
if (ofs < 0)
{
sign = '-';
ofs = -ofs;
}
gcPrintf("caller.sp%c%x\n", sign, ofs);
}
gcPrintf("GS cookie: ");
if (NO_GS_COOKIE == hdrdecoder.GetGSCookieStackSlot())
{
gcPrintf("<none>\n");
}
else
{
INT32 ofs = hdrdecoder.GetGSCookieStackSlot();
char sign = '+';
if (ofs < 0)
{
sign = '-';
ofs = -ofs;
}
gcPrintf("caller.sp%c%x\n", sign, ofs);
UINT32 validRangeStart = hdrdecoder.GetGSCookieValidRangeStart();
UINT32 validRangeEnd = hdrdecoder.GetGSCookieValidRangeEnd();
gcPrintf("GS cookie valid range: [%x;%x)\n", validRangeStart, validRangeEnd);
}
gcPrintf("PSPSym: ");
if (NO_PSP_SYM == hdrdecoder.GetPSPSymStackSlot())
{
gcPrintf("<none>\n");
}
else
{
INT32 ofs = hdrdecoder.GetPSPSymStackSlot();
char sign = '+';
if (ofs < 0)
{
sign = '-';
ofs = -ofs;
}
#ifdef _TARGET_AMD64_
// The PSPSym is relative to InitialSP on X64 and CallerSP on other platforms.
gcPrintf("initial.sp%c%x\n", sign, ofs);
#else
gcPrintf("caller.sp%c%x\n", sign, ofs);
#endif
}
gcPrintf("Generics inst context: ");
if (NO_GENERICS_INST_CONTEXT == hdrdecoder.GetGenericsInstContextStackSlot())
{
gcPrintf("<none>\n");
}
else
{
INT32 ofs = hdrdecoder.GetGenericsInstContextStackSlot();
char sign = '+';
if (ofs < 0)
{
sign = '-';
ofs = -ofs;
}
gcPrintf("caller.sp%c%x\n", sign, ofs);
}
gcPrintf("PSP slot: ");
if (NO_PSP_SYM == hdrdecoder.GetPSPSymStackSlot())
{
gcPrintf("<none>\n");
}
else
{
INT32 ofs = hdrdecoder.GetPSPSymStackSlot();
char sign = '+';
if (ofs < 0)
{
sign = '-';
ofs = -ofs;
}
gcPrintf("caller.sp%c%x\n", sign, ofs);
}
gcPrintf("GenericInst slot: ");
if (NO_GENERICS_INST_CONTEXT == hdrdecoder.GetGenericsInstContextStackSlot())
{
gcPrintf("<none>\n");
}
else
{
INT32 ofs = hdrdecoder.GetGenericsInstContextStackSlot();
char sign = '+';
if (ofs < 0)
{
sign = '-';
ofs = -ofs;
}
gcPrintf("caller.sp%c%x ", sign, ofs);
if (hdrdecoder.HasMethodDescGenericsInstContext())
gcPrintf("(GENERIC_PARAM_CONTEXT_METHODDESC)\n");
else if (hdrdecoder.HasMethodTableGenericsInstContext())
gcPrintf("(GENERIC_PARAM_CONTEXT_METHODHANDLE)\n");
else
gcPrintf("(GENERIC_PARAM_CONTEXT_THIS)\n");
}
gcPrintf("Varargs: %u\n", hdrdecoder.GetIsVarArg());
gcPrintf("Frame pointer: %s\n", NO_STACK_BASE_REGISTER == hdrdecoder.GetStackBaseRegister()
? "<none>"
: GetRegName(hdrdecoder.GetStackBaseRegister()));
#ifdef _TARGET_AMD64_
gcPrintf("Wants Report Only Leaf: %u\n", hdrdecoder.WantsReportOnlyLeaf());
#elif defined(_TARGET_ARM_) || defined(_TARGET_ARM64_)
gcPrintf("Has tailcalls: %u\n", hdrdecoder.HasTailCalls());
#endif // _TARGET_AMD64_
#ifdef FIXED_STACK_PARAMETER_SCRATCH_AREA
gcPrintf("Size of parameter area: %x\n", hdrdecoder.GetSizeOfStackParameterArea());
#endif
ReturnKind returnKind = hdrdecoder.GetReturnKind();
gcPrintf("Return Kind: %s\n", ReturnKindToString(returnKind));
UINT32 cbEncodedMethodSize = hdrdecoder.GetCodeLength();
gcPrintf("Code size: %x\n", cbEncodedMethodSize);
GcInfoDumper dumper(gcInfoToken);
GcInfoDumpState state;
state.LastCodeOffset = -1;
state.fAnythingPrinted = FALSE;
state.fSafePoint = FALSE;
state.FrameRegister = hdrdecoder.GetStackBaseRegister();
state.pfnPrintf = gcPrintf;
GcInfoDumper::EnumerateStateChangesResults result = dumper.EnumerateStateChanges(
&InterruptibleStateChangeCallback,
&RegisterStateChangeCallback,
&StackSlotStateChangeCallback,
&SafePointCallback,
&state);
if (state.fAnythingPrinted)
gcPrintf("\n");
switch (result)
{
case GcInfoDumper::SUCCESS:
// do nothing
break;
case GcInfoDumper::OUT_OF_MEMORY:
gcPrintf("out of memory\n");
break;
case GcInfoDumper::REPORTED_REGISTER_IN_CALLERS_FRAME:
gcPrintf("reported register in caller's frame\n");
break;
case GcInfoDumper::REPORTED_FRAME_POINTER:
gcPrintf("reported frame register\n");
break;
case GcInfoDumper::REPORTED_INVALID_BASE_REGISTER:
gcPrintf("reported pointer relative to wrong base register\n");
break;
case GcInfoDumper::REPORTED_INVALID_POINTER:
gcPrintf("reported invalid pointer\n");
break;
case GcInfoDumper::DECODER_FAILED:
gcPrintf("decoder failed\n");
break;
default:
gcPrintf("invalid GC info\n");
break;
}
return (result == GcInfoDumper::SUCCESS) ? dumper.GetGCInfoSize() : 0;
}
/*****************************************************************************/
void GCDump::DumpPtrsInFrame(PTR_CBYTE gcInfoBlock,
PTR_CBYTE codeBlock,
unsigned offs,
bool verifyGCTables)
{
_ASSERTE(!"NYI");
}
#define _common_h_
#ifndef LOG
#define LOG(x) ((void)0)
#endif
#define GCINFODECODER_CONTRACT ((void)0)
#define GET_CALLER_SP(pREGDISPLAY) ((size_t)GetSP(pREGDISPLAY->pCallerContext))
#define VALIDATE_OBJECTREF(objref, fDeep) ((void)0)
#define VALIDATE_ROOT(isInterior, hCallBack, pObjRef) ((void)0)
#include "../vm/gcinfodecoder.cpp"
#include "../gcinfo/gcinfodumper.cpp"
|