Leaked source code of windows server 2003
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//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1998.
//
// File: S M U T I L . C P P
//
// Contents: Utility functions to help out the status monitor
//
// Notes:
//
// Author: CWill 2 Dec 1997
//
//----------------------------------------------------------------------------
#include "pch.h"
#pragma hdrstop
#include "netcon.h"
#include "nsres.h"
#include "sminc.h"
const UINT c_uiKilo = 1000;
const UINT c_cmsSecond = 1;
const UINT c_cmsMinute = (c_cmsSecond * 60);
const UINT c_cmsHour = (c_cmsMinute * 60);
const UINT c_cmsDay = (c_cmsHour * 24);
static const WCHAR c_szZero[] = L"0";
extern const WCHAR c_szSpace[];
struct StatusIconMapEntry
{
NETCON_MEDIATYPE ncm;
BOOL fInbound;
BOOL fTransmitting;
BOOL fReceiving;
INT iStatusIcon;
};
static const StatusIconMapEntry c_SIMEArray[] =
{
// Mediatype
// | Inbound
// | | Transmitting
// | | | Receiving
// | | | | 32x32 Status Icon
// | | | | |
// v v v v v
// Dial-up
NCM_PHONE, FALSE, FALSE, FALSE, IDI_PO_NON_M_16,
NCM_PHONE, FALSE, FALSE, TRUE, IDI_PO_RCV_M_16,
NCM_PHONE, FALSE, TRUE, FALSE, IDI_PO_TRN_M_16,
NCM_PHONE, FALSE, TRUE, TRUE, IDI_PO_CON_M_16,
NCM_PHONE, TRUE, FALSE, FALSE, IDI_PI_NON_M_16,
NCM_PHONE, TRUE, FALSE, TRUE, IDI_PI_RCV_M_16,
NCM_PHONE, TRUE, TRUE, FALSE, IDI_PI_TRN_M_16,
NCM_PHONE, TRUE, TRUE, TRUE, IDI_PI_CON_M_16,
// LAN
NCM_LAN, FALSE, FALSE, FALSE, IDI_LB_NON_M_16,
NCM_LAN, FALSE, FALSE, TRUE, IDI_LB_RCV_M_16,
NCM_LAN, FALSE, TRUE, FALSE, IDI_LB_TRN_M_16,
NCM_LAN, FALSE, TRUE, TRUE, IDI_LB_CON_M_16,
// Direct connect
NCM_DIRECT, FALSE, FALSE, FALSE, IDI_DO_NON_M_16,
NCM_DIRECT, FALSE, FALSE, TRUE, IDI_DO_RCV_M_16,
NCM_DIRECT, FALSE, TRUE, FALSE, IDI_DO_TRN_M_16,
NCM_DIRECT, FALSE, TRUE, TRUE, IDI_DO_CON_M_16,
NCM_DIRECT, TRUE, FALSE, FALSE, IDI_DI_NON_M_16,
NCM_DIRECT, TRUE, FALSE, TRUE, IDI_DI_RCV_M_16,
NCM_DIRECT, TRUE, TRUE, FALSE, IDI_DI_TRN_M_16,
NCM_DIRECT, TRUE, TRUE, TRUE, IDI_DI_CON_M_16,
// Tunnel
NCM_TUNNEL, FALSE, FALSE, FALSE, IDI_TO_NON_M_16,
NCM_TUNNEL, FALSE, FALSE, TRUE, IDI_TO_RCV_M_16,
NCM_TUNNEL, FALSE, TRUE, FALSE, IDI_TO_TRN_M_16,
NCM_TUNNEL, FALSE, TRUE, TRUE, IDI_TO_CON_M_16,
NCM_TUNNEL, TRUE, FALSE, FALSE, IDI_TI_NON_M_16,
NCM_TUNNEL, TRUE, FALSE, TRUE, IDI_TI_RCV_M_16,
NCM_TUNNEL, TRUE, TRUE, FALSE, IDI_TI_TRN_M_16,
NCM_TUNNEL, TRUE, TRUE, TRUE, IDI_TI_CON_M_16,
// ISDN
NCM_ISDN, FALSE, FALSE, FALSE, IDI_PO_NON_M_16,
NCM_ISDN, FALSE, FALSE, TRUE, IDI_PO_RCV_M_16,
NCM_ISDN, FALSE, TRUE, FALSE, IDI_PO_TRN_M_16,
NCM_ISDN, FALSE, TRUE, TRUE, IDI_PO_CON_M_16,
NCM_ISDN, TRUE, FALSE, FALSE, IDI_PI_NON_M_16,
NCM_ISDN, TRUE, FALSE, TRUE, IDI_PI_RCV_M_16,
NCM_ISDN, TRUE, TRUE, FALSE, IDI_PI_TRN_M_16,
NCM_ISDN, TRUE, TRUE, TRUE, IDI_PI_CON_M_16,
// PPPoE
NCM_PPPOE, FALSE, FALSE, FALSE, IDI_BR_NON_M_16,
NCM_PPPOE, FALSE, FALSE, TRUE, IDI_BR_RCV_M_16,
NCM_PPPOE, FALSE, TRUE, FALSE, IDI_BR_TRN_M_16,
NCM_PPPOE, FALSE, TRUE, TRUE, IDI_BR_CON_M_16,
// SHAREDACCESSHOST
NCM_SHAREDACCESSHOST_LAN, FALSE, FALSE, FALSE, IDI_LB_NON_M_16,
NCM_SHAREDACCESSHOST_LAN, FALSE, FALSE, TRUE, IDI_LB_RCV_M_16,
NCM_SHAREDACCESSHOST_LAN, FALSE, TRUE, FALSE, IDI_LB_TRN_M_16,
NCM_SHAREDACCESSHOST_LAN, FALSE, TRUE, TRUE, IDI_LB_CON_M_16,
NCM_SHAREDACCESSHOST_RAS, FALSE, FALSE, FALSE, IDI_LB_NON_M_16,
NCM_SHAREDACCESSHOST_RAS, FALSE, FALSE, TRUE, IDI_LB_RCV_M_16,
NCM_SHAREDACCESSHOST_RAS, FALSE, TRUE, FALSE, IDI_LB_TRN_M_16,
NCM_SHAREDACCESSHOST_RAS, FALSE, TRUE, TRUE, IDI_LB_CON_M_16,
};
const DWORD g_dwStatusIconMapEntryCount = celems(c_SIMEArray);
//+---------------------------------------------------------------------------
//
// Function: HrGetPcpFromPnse
//
// Purpose: Gets the connection point off of an INetStatistics Engine
//
// Arguments: pnseSrc - The interface we want to get the connection
// point off of
// ppcpStatEng - Where to return the connection point
//
// Returns: Error code.
//
HRESULT HrGetPcpFromPnse(
INetStatisticsEngine* pnseSrc,
IConnectionPoint** ppcpStatEng)
{
HRESULT hr = S_OK;
IConnectionPointContainer* pcpcStatEng = NULL;
AssertSz(pnseSrc, "We should have a pnseSrc");
AssertSz(ppcpStatEng, "We should have a ppcpStatEng");
hr = pnseSrc->QueryInterface(IID_IConnectionPointContainer,
reinterpret_cast<VOID**>(&pcpcStatEng));
if (SUCCEEDED(hr))
{
// Find the interface
hr = pcpcStatEng->FindConnectionPoint(
IID_INetConnectionStatisticsNotifySink,
ppcpStatEng);
// Release the connection point
ReleaseObj(pcpcStatEng);
}
TraceError("HrGetPcpFromPnse", hr);
return hr;
}
//+---------------------------------------------------------------------------
//
// Member: IGetCurrentConnectionTrayIconId
//
// Purpose: Get the INetConnection pointer from the persisted data
//
// Arguments: ncmType - Media type
// dwChangeFlags - What states have changed
//
// Returns: The id of the small icon for the connection or -1 on failure
//
// Notes:
//
INT IGetCurrentConnectionTrayIconId(NETCON_MEDIATYPE ncmType, NETCON_STATUS ncsStatus, DWORD dwChangeFlags)
{
INT iBaseIcon = -1;
// Check the trans/recv flags to see what our base icon is.
//
if (ncsStatus == NCS_INVALID_ADDRESS)
{
iBaseIcon = IDI_CFT_INVALID_ADDRESS;
}
else
{
if (SMDCF_TRANSMITTING & dwChangeFlags)
{
if (SMDCF_RECEIVING & dwChangeFlags)
{
// Transmitting and receiving
iBaseIcon = IDI_CFT_XMTRECV;
}
else
{
// Transmitting only
iBaseIcon = IDI_CFT_XMT;
}
}
else
{
if (SMDCF_RECEIVING & dwChangeFlags)
{
// Receiving only
iBaseIcon = IDI_CFT_RECV;
}
else
{
// Neither transmitting nor receiving
iBaseIcon = IDI_CFT_BLANK;
}
}
}
return iBaseIcon;
}
//+---------------------------------------------------------------------------
//
// Member: GetCurrentConnectionStatusIconId
//
// Purpose: Get the INetConnection pointer from the persisted data
//
// Arguments: ncmType - Media type
// ncsmType - SubMedia type
// dwCharacteristics - Connection characteristics
// dwChangeFlags - What states have changed
//
// Returns: The id of the small icon for the connection or -1 on failure
//
// Notes:
//
HICON GetCurrentConnectionStatusIconId(
NETCON_MEDIATYPE ncmType,
NETCON_SUBMEDIATYPE ncsmType,
DWORD dwCharacteristics,
DWORD dwChangeFlags)
{
HICON hMyIcon = NULL;
DWORD dwLoop = 0;
BOOL fValidIcon = FALSE;
BOOL fTransmitting = !!(dwChangeFlags & SMDCF_TRANSMITTING);
BOOL fReceiving = !!(dwChangeFlags & SMDCF_RECEIVING);
INT iStatusIcon = -1;
// Loop through the map and find the appropriate icon
//
DWORD dwConnectionIcon = 0x4;
dwConnectionIcon |= fTransmitting ? 0x2 : 0;
dwConnectionIcon |= fReceiving ? 0x1 : 0;
HRESULT hr = HrGetIconFromMediaType(GetSystemMetrics(SM_CXICON), ncmType, ncsmType, dwConnectionIcon, (dwCharacteristics & NCCF_INCOMING_ONLY), &hMyIcon);
if (FAILED(hr))
{
return NULL;
}
return hMyIcon;
}
//+---------------------------------------------------------------------------
//
// Member: FIsStringInList
//
// Purpose: To see if a string is in a string list
//
// Arguments: plstpstrList - The list in which the string is to be found
// szString - The string being looked for
//
// Returns: TRUE if the string is in the list
// FALSE otherwise (including the case where the list is empty)
//
// Notes: It is an case insensitive search
//
BOOL FIsStringInList(list<tstring*>* plstpstrList, const WCHAR* szString)
{
BOOL fRet = FALSE;
// Only look in non-empty lists
//
if (!plstpstrList->empty())
{
list<tstring*>::iterator iterLstpstr;
iterLstpstr = plstpstrList->begin();
while ((!fRet)
&& (iterLstpstr != plstpstrList->end()))
{
// See if the string in the list matches the string we are
// comparing against
//
if (!lstrcmpiW((*iterLstpstr)->c_str(), szString))
{
fRet = TRUE;
}
iterLstpstr++;
}
}
return fRet;
}
//+---------------------------------------------------------------------------
//
// Function: FormatBytesPerSecond
//
// Purpose: To format nicely BPS into a readable string.
//
// Arguments:
// uiBps []
// pchBuffer []
//
// Returns: Number of characters put into the buffer.
//
INT
FormatBytesPerSecond (
UINT64 uiBps,
WCHAR* pchBuffer)
{
enum {eZero = 0, eKilo, eMega, eGiga, eTera, eMax};
const WCHAR* pszBPSFormat = NULL;
INT iOffset = 0;
UINT uiDecimal = 0;
// Make sure our resources are still in the correct order
//
AssertSz(((((IDS_SM_BPS_ZERO + eKilo) == IDS_SM_BPS_KILO)
&& (IDS_SM_BPS_ZERO + eMega) == IDS_SM_BPS_MEGA)
&& ((IDS_SM_BPS_ZERO + eGiga) == IDS_SM_BPS_GIGA)
&& ((IDS_SM_BPS_ZERO + eTera) == IDS_SM_BPS_TERA)),
"Someone's been messing with the BPS format strings");
for (iOffset = eZero; iOffset < eMax; iOffset++)
{
// If we still have data, increment the counter
//
if (c_uiKilo > uiBps)
{
break;
}
// Divide up the string
//
uiDecimal = (UINT)(uiBps % c_uiKilo);
uiBps /= c_uiKilo;
}
// We only want one digit for the decimal
//
uiDecimal /= (c_uiKilo/10);
// Get the string used to display
//
pszBPSFormat = SzLoadIds(IDS_SM_BPS_ZERO + iOffset);
AssertSz(pszBPSFormat, "We need a format string for BPS");
// Create the string
//
return wsprintfW(pchBuffer, pszBPSFormat, uiBps, uiDecimal);
}
INT
FormatTransmittingReceivingSpeed(
UINT64 nTransmitSpeed,
UINT64 nRecieveSpeed,
WCHAR* pchBuf)
{
WCHAR* pch = pchBuf;
pch += FormatBytesPerSecond(nTransmitSpeed, pch);
if (nTransmitSpeed != nRecieveSpeed)
{
// Separate with a backslash.
//
lstrcatW(pch, L"\\");
pch += 1;
pch += FormatBytesPerSecond(nRecieveSpeed, pch);
}
return lstrlenW(pchBuf);
}
//+---------------------------------------------------------------------------
//
// Function: FormatTimeDuration
//
// Purpose: Takes a millisecond count and formats a string with the
// duration represented by the millisecond count.
//
// Arguments:
// uiMilliseconds []
// pstrOut []
//
// Returns: nothing
//
VOID FormatTimeDuration(UINT uiSeconds, tstring* pstrOut)
{
WCHAR achSep[4];
WCHAR achBuf[64];
UINT uiNumTemp;
AssertSz(pstrOut, "We should have a pstrOut");
// Get the seperator for the locale.
//
SideAssert(GetLocaleInfo(
LOCALE_USER_DEFAULT,
LOCALE_STIME,
achSep,
celems(achSep)));
//
// Concatenate the strings together
//
// Add the days if there are more than zero
//
uiNumTemp = (uiSeconds / c_cmsDay);
if (uiNumTemp > 0)
{
pstrOut->append(_itow(uiNumTemp, achBuf, 10));
uiSeconds %= c_cmsDay;
if (uiNumTemp>1)
pstrOut->append(SzLoadIds(IDS_Days));
else
pstrOut->append(SzLoadIds(IDS_Day));
pstrOut->append(c_szSpace);
}
// Append hours
//
uiNumTemp = (uiSeconds / c_cmsHour);
if (10 > uiNumTemp)
{
pstrOut->append(c_szZero);
}
pstrOut->append(_itow(uiNumTemp, achBuf, 10));
pstrOut->append(achSep);
uiSeconds %= c_cmsHour;
// Append minutes
//
uiNumTemp = (uiSeconds / c_cmsMinute);
if (10 > uiNumTemp)
{
pstrOut->append(c_szZero);
}
pstrOut->append(_itow(uiNumTemp, achBuf, 10));
pstrOut->append(achSep);
uiSeconds %= c_cmsMinute;
// Append seconds
//
uiNumTemp = (uiSeconds / c_cmsSecond);
if (10 > uiNumTemp)
{
pstrOut->append(c_szZero);
}
pstrOut->append(_itow(uiNumTemp, achBuf, 10));
}