view Allocator.cpp @ 106:1e18102bd4d0

5.11.12
author Ritor1
date Mon, 05 Nov 2012 09:15:53 +0600
parents a84fb3752681
children
line wrap: on
line source

#include <string.h>
#include <stdio.h>
#include "OSAPI.h"

#include "Allocator.h"

#include "mm7_data.h"



Allocator *pAllocator; // idb





void __fastcall CheckMemoryAccessibility(void *pBase, DWORD uSize);



//----- (00426755) --------------------------------------------------------
void *Allocator::AllocNamedChunk(const void *pPrevPtrValue, unsigned int uSize, const char *pName)
{
  //Allocator *v4; // esi@1
  unsigned int v5; // eax@7
  void *result; // eax@8
  unsigned int *pNumBuffersUsed; // ebx@12
  unsigned int v8; // edi@15
  char v9; // zf@15
  int v10; // eax@16
  void **v11; // ebx@19
  void *v12; // eax@22
  unsigned int Size; // [sp+14h] [bp+Ch]@16

  //v4 = this;
  if ( pPrevPtrValue && !aborting_app )
    AbortWithError();
  if ( !bBigBufferAllocated && !aborting_app )
    AbortWithError();
  v5 = uSize;
  if ( uSize )
  {
    if ( (uSize & 0x80000000u) != 0 && !aborting_app )
    {
      AbortWithError();
      v5 = uSize;
    }
    pNumBuffersUsed = &uNumBuffersUsed;
    if (uNumBuffersUsed == 6000 && !aborting_app)
    {
      AbortWithError();
      v5 = uSize;
    }
    v8 = *pNumBuffersUsed;
    v9 = bUseBigBuffer == 0;
    ++*pNumBuffersUsed;
    if ( v9 )
    {
      v12 = malloc(v5);
      v11 = &pMemoryBuffers[v8];
      *v11 = v12;
      if ( v12 )
      {
        uMemoryBuffersSizes[v8] = uSize;
      }
      else
      {
        if ( !aborting_app )
          AbortWithError();
      }
    }
    else
    {
      LOBYTE(v5) = v5 & 0xFC;
      v10 = v5 + 4;
      Size = v10;
      if ( v10 + uNextFreeOffsetInBigBuffer > uBigBufferSizeAligned )
      {
        printf("Id: %s  Size: %i\n", pName, v10);
        CreateFileDump("Memory");
        if ( !aborting_app )
          AbortWithError();
      }
      v11 = &pMemoryBuffers[v8];
      *v11 = (char *)pBigMemoryBuffer + uNextFreeOffsetInBigBuffer;
      uMemoryBuffersSizes[v8] = Size;
      if (pName)
        strncpy(pMemoryBuffersNames[v8], pName, 11);
      uNextFreeOffsetInBigBuffer += Size;
    }
    result = *v11;
  }
  else
  {
    result = 0;
  }
  return result;
}
// 720018: using guessed type int aborting_app;



//----- (004266CD) --------------------------------------------------------
bool Allocator::Initialize(unsigned int uNumKBytes)
{
  if (bBigBufferAllocated)
    return false;

  if (!uNumKBytes)
    return false;

  pBigMemoryBuffer = malloc(uNumKBytes * 1024);
  if (!pBigMemoryBuffer)
    return false;

  pBigBufferAligned = (char *)pBigMemoryBuffer + -((unsigned __int16)pBigMemoryBuffer & 0xFFF) + 4096;
  uBigBufferSizeAligned = (uNumKBytes * 1024) - 4096;

  uNumBuffersUsed = 0;
  uNextFreeOffsetInBigBuffer = 0;

  bUseBigBuffer = true;
  return bBigBufferAllocated = true;
}


//----- (00426474) --------------------------------------------------------
void Allocator::FreeChunk(void *ptr)
{
  Allocator *v2; // esi@1
  unsigned int v3; // eax@5
  signed int i; // edi@5
  unsigned int v5; // eax@13
  signed int v6; // ecx@16
  signed int j; // edx@16
  char v8; // zf@20

  v2 = this;
  if ( ptr )
  {
    if ( !this->bBigBufferAllocated && !aborting_app )
      AbortWithError();
    v3 = v2->uNumBuffersUsed;
    for ( i = 0; i < (signed int)v3; ++i )
    {
      if ( v2->pMemoryBuffers[i] == ptr )
        break;
    }
    if ( i >= (signed int)v3 && !aborting_app )
      AbortWithError();
    if ( !v2->bUseBigBuffer )
      free(v2->pMemoryBuffers[i]);
    v2->pMemoryBuffers[i] = 0;
    v2->uMemoryBuffersSizes[i] = 0;
    LOBYTE(v2->pMemoryBuffers[3 * i + 12000]) = 0;
    v5 = v2->uNumBuffersUsed;
    if ( i == v5 - 1 )
    {
      if ( i )
      {
        v6 = 0;
        for ( j = 0; j < (signed int)v5; ++j )
        {
          if ( v2->pMemoryBuffers[j] )
            v6 = j;
        }
        v8 = v2->bUseBigBuffer == 0;
        v2->uNumBuffersUsed = v6 + 1;
        if ( !v8 )
          v2->uNextFreeOffsetInBigBuffer = (char *)v2->pMemoryBuffers[v6]
                                         + v2->uMemoryBuffersSizes[v6]
                                         - v2->pBigMemoryBuffer;
      }
      else
      {
        v2->uNextFreeOffsetInBigBuffer = 0;
        v2->uNumBuffersUsed = 0;
      }
    }
  }
}
// 720018: using guessed type int aborting_app;



//----- (00426429) --------------------------------------------------------
Allocator::Allocator()
{
  Allocator *v1; // eax@1
  signed int v2; // ecx@1
  int v3; // edx@1

  v1 = this;
  v2 = 0;
  v1->uBigBufferSizeAligned = 0;
  v1->bBigBufferAllocated = 0;
  v3 = (int)v1->pMemoryBuffersNames;
  do
  {
    v1->pMemoryBuffers[v2] = 0;
    v1->uMemoryBuffersSizes[v2] = 0;
    *(char *)v3 = 0;
    ++v2;
    v3 += 12;
  }
  while ( v2 < 6000 );
  v1->uDumpsCount = 0;
}


//----- (0042654C) --------------------------------------------------------
bool Allocator::CreateFileDump(const char *a1)
{
  Allocator *v2; // esi@1
  unsigned int v3; // ST44_4@1
  FILE *v4; // eax@1
  FILE *v5; // edi@1
  bool result; // eax@2
  unsigned int v7; // ecx@5
  int v8; // edx@5
  int v9; // eax@6
  int v10; // eax@8
  int v11; // ecx@8
  signed int v12; // ebx@8
  signed int v13; // ebx@10
  struct _MEMORYSTATUS memstat; // [sp+8h] [bp-38h]@5
  char Filename[20]; // [sp+28h] [bp-18h]@1
  unsigned int *v16; // [sp+3Ch] [bp-4h]@11
  int a1a; // [sp+48h] [bp+8h]@11

  v2 = this;
  v3 = this->uDumpsCount;
  this->uDumpsCount = v3 + 1;
  sprintf(Filename, "Mem%03i.txt", v3);
  v4 = fopen(Filename, "w");
  v5 = v4;
  if ( v4 )
  {
    if ( a1 )
      fprintf(v4, "%s\n\n", a1);
    fprintf(v5, "Windows Memory Status");
    GlobalMemoryStatus(&memstat);
    fprintf(v5, "dwLength:         %d\n\n", memstat.dwLength);
    fprintf(v5, "dwMemoryLoad:     %d\n", memstat.dwMemoryLoad);
    fprintf(v5, "dwTotalPhys:      %d\n", memstat.dwTotalPhys);
    fprintf(v5, "dwAvailPhys:      %d\n", memstat.dwAvailPhys);
    fprintf(v5, "dwTotalPageFile:  %d\n", memstat.dwTotalPageFile);
    fprintf(v5, "dwAvailPageFile:  %d\n", memstat.dwAvailPageFile);
    fprintf(v5, "dwTotalVirtual:   %d\n", memstat.dwTotalVirtual);
    fprintf(v5, "dwAvailVirtual:   %d\n\n\n", memstat.dwAvailVirtual);
    v7 = v2->uNumBuffersUsed;
    v8 = 0;
    if ( (signed int)v7 > 0 )
    {
      v9 = (int)v2->uMemoryBuffersSizes;
      do
      {
        v8 += *(int *)v9;
        v9 += 4;
        --v7;
      }
      while ( v7 );
    }
    v10 = 0;
    v11 = (int)v2->uMemoryBuffersSizes;
    v12 = 6000;
    do
    {
      v10 += *(int *)v11;
      v11 += 4;
      --v12;
    }
    while ( v12 );
    fprintf(v5, "Size: %i  %i  %i\n\n", v2->uNumBuffersUsed, v8, v10);
    v13 = 0;
    if ( (signed int)v2->uNumBuffersUsed > 0 )
    {
      v16 = v2->uMemoryBuffersSizes;
      a1a = (int)v2->pMemoryBuffersNames;
      do
      {
        fprintf(v5, "%10i %10i %s\n", v13, *v16, a1a);
        a1a += 12;
        ++v16;
        ++v13;
      }
      while ( v13 < (signed int)v2->uNumBuffersUsed );
    }
    fclose(v5);
    result = 0;
  }
  else
  {
    result = 1;
  }
  return result;
}








//----- (00426892) --------------------------------------------------------
static void __fastcall CheckMemoryAccessibility(void *pBase, DWORD uSize)
{
  DWORD v2; // edi@1
  DWORD i; // eax@1
  struct _SYSTEM_INFO SystemInfo; // [sp+8h] [bp-24h]@1

  v2 = uSize;
  GetSystemInfo(&SystemInfo);
  for ( i = 16 * SystemInfo.dwPageSize; i < v2; i += SystemInfo.dwPageSize )
    ;
}