357 lines
6.9 KiB
C++
357 lines
6.9 KiB
C++
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//+--------------------------------------------------------------------------
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//
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// Microsoft Windows
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// Copyright (C) Microsoft Corporation, 1996 - 1999
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//
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// File: serial.cpp
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//
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// Contents: serial number string encode/decode implementation
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//
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//---------------------------------------------------------------------------
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#include <pch.cpp>
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#pragma hdrstop
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HRESULT
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ObsoleteMultiByteIntegerToWszBuf(
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IN BOOL fOctetString,
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IN DWORD cbIn,
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IN BYTE const *pbIn,
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IN OUT DWORD *pcbOut,
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OPTIONAL OUT WCHAR *pwszOut)
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{
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return MultiByteIntegerToWszBuf(
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fOctetString,
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cbIn,
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pbIn,
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pcbOut,
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pwszOut);
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}
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HRESULT
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ObsoleteMultiByteIntegerToBstr(
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IN BOOL fOctetString,
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IN DWORD cbIn,
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IN BYTE const *pbIn,
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OUT BSTR *pstrOut)
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{
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return MultiByteIntegerToBstr(
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fOctetString,
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cbIn,
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pbIn,
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pstrOut);
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}
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BOOL
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AsciiToNibble(
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IN WCHAR wc,
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BYTE *pb)
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{
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BOOL fOk = TRUE;
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do
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{
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wc -= L'0';
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if (wc <= 9)
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{
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break;
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}
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wc += (WCHAR) (L'0' - L'a' + 10);
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if (wc <= 15)
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{
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break;
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}
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wc += L'a' - L'A';
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if (wc <= 15)
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{
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break;
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}
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fOk = FALSE;
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} while (FALSE);
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*pb = (BYTE) wc;
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return(fOk);
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}
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__inline BOOL
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IsMultiByteSkipChar(
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IN WCHAR wc)
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{
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return(L' ' == wc || L'\t' == wc);
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}
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// WszToMultiByteIntegerBuf - convert a big endian null-terminated ascii-hex
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// encoded WCHAR string of even length to a little-endian integer blob.
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// If fOctetString is TRUE, preserve endian order, as in a hex dump
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HRESULT
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WszToMultiByteIntegerBuf(
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IN BOOL fOctetString,
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IN WCHAR const *pwszIn,
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IN OUT DWORD *pcbOut,
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OPTIONAL OUT BYTE *pbOut)
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{
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HRESULT hr;
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WCHAR const *pwsz;
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DWORD cbOut;
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cbOut = 0;
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hr = E_INVALIDARG;
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if (fOctetString)
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{
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for (pwsz = pwszIn; L'\0' != *pwsz; )
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{
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BYTE blo, bhi;
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while (IsMultiByteSkipChar(*pwsz))
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{
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pwsz++;
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}
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if (!AsciiToNibble(*pwsz, &bhi))
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{
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_JumpError2(
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hr,
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error,
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"WszToMultiByteInteger: bad string",
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E_INVALIDARG);
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}
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pwsz++;
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while (IsMultiByteSkipChar(*pwsz))
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{
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pwsz++;
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}
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if (!AsciiToNibble(*pwsz, &blo))
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{
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_JumpError(hr, error, "WszToMultiByteInteger: bad string");
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}
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pwsz++;
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cbOut++;
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if (NULL != pbOut)
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{
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if (cbOut > *pcbOut)
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{
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hr = TYPE_E_BUFFERTOOSMALL;
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_JumpError(hr, error, "WszToMultiByteInteger: overflow");
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}
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*pbOut++ = blo | (bhi << 4);
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}
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}
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}
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else
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{
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for (pwsz = &pwszIn[wcslen(pwszIn) - 1]; pwsz >= pwszIn; )
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{
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BYTE blo, bhi;
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while (pwsz >= pwszIn && IsMultiByteSkipChar(*pwsz))
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{
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pwsz--;
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}
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if (pwsz < pwszIn)
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{
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break;
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}
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if (!AsciiToNibble(*pwsz, &blo))
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{
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_JumpError(hr, error, "WszToMultiByteInteger: bad string");
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}
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pwsz--;
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while (pwsz >= pwszIn && IsMultiByteSkipChar(*pwsz))
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{
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pwsz--;
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}
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if (pwsz < pwszIn || !AsciiToNibble(*pwsz, &bhi))
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{
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_JumpError(hr, error, "WszToMultiByteInteger: bad string");
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}
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pwsz--;
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cbOut++;
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if (NULL != pbOut)
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{
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if (cbOut > *pcbOut)
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{
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hr = TYPE_E_BUFFERTOOSMALL;
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_JumpError(hr, error, "WszToMultiByteInteger: overflow");
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}
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*pbOut++ = blo | (bhi << 4);
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}
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}
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}
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*pcbOut = cbOut;
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hr = S_OK;
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error:
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return(hr);
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}
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// WszToMultiByteInteger - convert a big endian null-terminated ascii-hex
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// encoded WCHAR string of even length to a little-endian integer blob.
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// If fOctetString is TRUE, preserve endian order, as in a hex dump
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HRESULT
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WszToMultiByteInteger(
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IN BOOL fOctetString,
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IN WCHAR const *pwszIn,
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OUT DWORD *pcbOut,
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OUT BYTE **ppbOut)
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{
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HRESULT hr = S_OK;
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*pcbOut = 0;
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*ppbOut = NULL;
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while (TRUE)
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{
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hr = WszToMultiByteIntegerBuf(fOctetString, pwszIn, pcbOut, *ppbOut);
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if (S_OK != hr)
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{
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if (NULL != *ppbOut)
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{
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LocalFree(*ppbOut);
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*ppbOut = NULL;
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}
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_JumpError2(hr, error, "WszToMultiByteIntegerBuf", E_INVALIDARG);
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}
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if (NULL != *ppbOut)
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{
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break;
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}
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*ppbOut = (BYTE *) LocalAlloc(LMEM_FIXED, *pcbOut);
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if (NULL == *ppbOut)
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{
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hr = E_OUTOFMEMORY;
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_JumpError(hr, error, "LocalAlloc");
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}
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}
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error:
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return(hr);
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}
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HRESULT
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caTranslateFileTimePeriodToPeriodUnits(
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IN FILETIME const *pftGMT,
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IN BOOL fExact,
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OUT DWORD *pcPeriodUnits,
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OUT PERIODUNITS **prgPeriodUnits)
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{
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HRESULT hr;
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LLFILETIME llft;
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LONGLONG llRemain;
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DWORD i;
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DWORD cPeriodUnits;
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PERIODUNITS *rgPeriodUnits;
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#define IC_YEARS 0
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#define IC_MONTHS 1
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#define IC_WEEKS 2
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#define IC_DAYS 3
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#define IC_HOURS 4
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#define IC_MINUTES 5
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#define IC_SECONDS 6
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#define IC_MAX 7
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LONG alCount[IC_MAX];
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static const enum ENUM_PERIOD s_aenumPeriod[] =
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{
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ENUM_PERIOD_YEARS,
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ENUM_PERIOD_MONTHS,
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ENUM_PERIOD_WEEKS,
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ENUM_PERIOD_DAYS,
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ENUM_PERIOD_HOURS,
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ENUM_PERIOD_MINUTES,
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ENUM_PERIOD_SECONDS,
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};
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llft.ft = *pftGMT;
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if (0 <= llft.ll)
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{
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hr = E_INVALIDARG;
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_JumpError(hr, error, "Not a time period");
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}
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llft.ll = -llft.ll;
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llft.ll /= CVT_BASE; // now in seconds
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ZeroMemory(alCount, sizeof(alCount));
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alCount[IC_DAYS] = (LONG) (llft.ll / (60 * 60 * 24));
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llRemain = llft.ll - (LONGLONG) alCount[IC_DAYS] * (60 * 60 * 24);
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if (fExact || 4 > alCount[IC_DAYS]) // if less than 96 hrs
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{
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alCount[IC_HOURS] = (LONG) llRemain / (60 * 60);
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if (fExact || 2 > alCount[IC_HOURS]) // if less than 120 mins
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{
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alCount[IC_MINUTES] = ((LONG) llRemain / 60) % 60;
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if (fExact || 2 > alCount[IC_MINUTES]) // if less than 120 secs
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{
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alCount[IC_SECONDS] = (LONG) llRemain % 60;
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}
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}
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}
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if (0 != alCount[IC_DAYS])
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{
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if (0 == (alCount[IC_DAYS] % 365))
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{
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alCount[IC_YEARS] = alCount[IC_DAYS] / 365;
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alCount[IC_DAYS] = 0;
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}
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else if (0 == (alCount[IC_DAYS] % 30))
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{
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alCount[IC_MONTHS] = alCount[IC_DAYS] / 30;
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alCount[IC_DAYS] = 0;
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}
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else if (0 == (alCount[IC_DAYS] % 7))
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{
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alCount[IC_WEEKS] = alCount[IC_DAYS] / 7;
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alCount[IC_DAYS] = 0;
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}
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}
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cPeriodUnits = 0;
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for (i = 0; i < IC_MAX; i++)
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{
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if (0 != alCount[i])
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{
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cPeriodUnits++;
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}
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}
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if (0 == cPeriodUnits)
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{
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cPeriodUnits++;
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}
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rgPeriodUnits = (PERIODUNITS *) LocalAlloc(
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LMEM_FIXED,
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cPeriodUnits * sizeof(rgPeriodUnits[0]));
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if (NULL == rgPeriodUnits)
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{
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hr = E_OUTOFMEMORY;
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_JumpError(hr, error, "LocalAlloc");
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}
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*pcPeriodUnits = cPeriodUnits;
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*prgPeriodUnits = rgPeriodUnits;
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cPeriodUnits = 0;
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for (i = 0; i < IC_MAX; i++)
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{
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if (0 != alCount[i] || (0 == cPeriodUnits && i + 1 == IC_MAX))
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{
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rgPeriodUnits[cPeriodUnits].lCount = alCount[i];
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rgPeriodUnits[cPeriodUnits].enumPeriod = s_aenumPeriod[i];
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cPeriodUnits++;
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}
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}
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CSASSERT(cPeriodUnits == *pcPeriodUnits);
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hr = S_OK;
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error:
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return(hr);
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}
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