示例#1
0
static HRESULT CreateTempEvent(const wchar_t *name,
    NSynchronization::CManualResetEvent &event, UString &eventName)
{
  CRandom random;
  random.Init(GetTickCount());
  for (;;)
  {
    int number = random.Generate();
    wchar_t temp[32];
    ConvertUInt64ToString((UInt32)number, temp);
    eventName = name;
    eventName += temp;
    RINOK(event.CreateWithName(false, GetSystemString(eventName)));
    if (::GetLastError() != ERROR_ALREADY_EXISTS)
      return S_OK;
    event.Close();
  }
}
示例#2
0
 ~CEventSetEnd()
 {
   NSynchronization::CManualResetEvent event;
   if (event.Open(EVENT_MODIFY_STATE, false, GetSystemString(Name)) == 0)
     event.Set();
 }
static HRESULT CreateMap(const UStringVector &names,
    CFileMapping &fileMapping, NSynchronization::CManualResetEvent &event,
    UString &params)
{
  size_t totalSize = 1;
  {
    FOR_VECTOR (i, names)
      totalSize += (names[i].Len() + 1);
  }
  totalSize *= sizeof(wchar_t);
  
  CRandNameGenerator random;

  UString mappingName;
  for (;;)
  {
    random.GenerateName(mappingName, "7zMap");

    WRes res = fileMapping.Create(PAGE_READWRITE, totalSize, GetSystemString(mappingName));
    if (fileMapping.IsCreated() && res == 0)
      break;
    if (res != ERROR_ALREADY_EXISTS)
      return res;
    fileMapping.Close();
  }
  
  UString eventName;
  for (;;)
  {
    random.GenerateName(eventName, "7zEvent");
    WRes res = event.CreateWithName(false, GetSystemString(eventName));
    if (event.IsCreated() && res == 0)
      break;
    if (res != ERROR_ALREADY_EXISTS)
      return res;
    event.Close();
  }

  params += L'#';
  params += mappingName;
  params += L':';
  char temp[32];
  ConvertUInt64ToString(totalSize, temp);
  params.AddAscii(temp);
  
  params += L':';
  params += eventName;

  LPVOID data = fileMapping.Map(FILE_MAP_WRITE, 0, totalSize);
  if (!data)
    return E_FAIL;
  CFileUnmapper unmapper(data);
  {
    wchar_t *cur = (wchar_t *)data;
    *cur++ = 0; // it means wchar_t strings (UTF-16 in WIN32)
    FOR_VECTOR (i, names)
    {
      const UString &s = names[i];
      unsigned len = s.Len() + 1;
      wmemcpy(cur, (const wchar_t *)s, len);
      cur += len;
    }
  }
  return S_OK;
}
static void ParseMapWithPaths(NWildcard::CCensor &wildcardCensor,
    const UString &switchParam, bool include,
    NRecursedType::EEnum commonRecursedType)
{
  int splitPos = switchParam.Find(L':');
  if (splitPos < 0)
    ThrowUserErrorException();
  UString mappingName = switchParam.Left(splitPos);
  
  UString switchParam2 = switchParam.Mid(splitPos + 1);
  splitPos = switchParam2.Find(L':');
  if (splitPos < 0)
    ThrowUserErrorException();
  
  UString mappingSize = switchParam2.Left(splitPos);
  UString eventName = switchParam2.Mid(splitPos + 1);
  
  UInt64 dataSize64 = ConvertStringToUInt64(mappingSize, NULL);
  UInt32 dataSize = (UInt32)dataSize64;
  {
    CFileMapping fileMapping;
    if (fileMapping.Open(FILE_MAP_READ, GetSystemString(mappingName)) != 0)
      ThrowException("Can not open mapping");
    LPVOID data = fileMapping.Map(FILE_MAP_READ, 0, dataSize);
    if (data == NULL)
      ThrowException("MapViewOfFile error");
    try
    {
      const wchar_t *curData = (const wchar_t *)data;
      if (*curData != 0)
        ThrowException("Incorrect mapping data");
      UInt32 numChars = dataSize / sizeof(wchar_t);
      UString name;
      for (UInt32 i = 1; i < numChars; i++)
      {
        wchar_t c = curData[i];
        if (c == L'\0')
        {
          AddNameToCensor(wildcardCensor, name, include, commonRecursedType);
          name.Empty();
        }
        else
          name += c;
      }
      if (!name.IsEmpty())
        ThrowException("data error");
    }
    catch(...)
    {
      UnmapViewOfFile(data);
      throw;
    }
    UnmapViewOfFile(data);
  }
  
  {
    NSynchronization::CManualResetEvent event;
    if (event.Open(EVENT_MODIFY_STATE, false, GetSystemString(eventName)) == S_OK)
      event.Set();
  }
}