WSAEnumProtocols Function
The WSAEnumProtocols function retrieves information about available transport protocols.
Syntax
int WSAEnumProtocols(
__in LPINT lpiProtocols,
__out LPWSAPROTOCOL_INFO lpProtocolBuffer,
__inout LPDWORD lpdwBufferLength
);
Parameter
lpiProtocols [in]
A NULLl-terminated array of iProtocol values. This parameter is optional; if lpiProtocols is NULL, information on all available protocols is returned. Otherwise, information is retrieved only for those protocols listed in the array.lpProtocolBuffer [out]
A pointer to a buffer that is filled with WSAPROTOCOL_INFO structures.lpdwBufferLength [in, out]
On input, number of bytes in the lpProtocolBuffer buffer passed to WSAEnumProtocols. On output, the minimum buffer size that can be passed to WSAEnumProtocols to retrieve all the requested information. This routine has no ability to enumerate over multiple calls; the passed-in buffer must be large enough to hold all entries in order for the routine to succeed. This reduces the complexity of the API and should not pose a problem because the number of protocols loaded on a computer is typically small.
Rückgabewert
If no error occurs, WSAEnumProtocols returns the number of protocols to be reported. Otherwise, a value of SOCKET_ERROR is returned and a specific error code can be retrieved by calling WSAGetLastError.
| Error code | Meaning |
|---|---|
| WSANOTINITIALISED | A successful WSAStartup call must occur before using this function. |
| WSAENETDOWN | The network subsystem has failed. |
| WSAEINPROGRESS | A blocking Windows Sockets 1.1 call is in progress. |
| WSAEINVAL | Indicates that one of the specified parameters was invalid. |
| WSAENOBUFS | The buffer length was too small to receive all the relevant WSAPROTOCOL_INFO structures and associated information. Pass in a buffer at least as large as the value returned in lpdwBufferLength. |
| WSAEFAULT | One or more of the lpiProtocols, lpProtocolBuffer, or lpdwBufferLength parameters are not a valid part of the user address space. |
Hinweise
The WSAEnumProtocols function is used to discover information about the collection of transport protocols and protocol chains installed on the local computer. Since layered protocols are only usable by applications when installed in protocol chains, information on layered protocols is not included in lpProtocolBuffer. The lpiProtocols parameter can be used as a filter to constrain the amount of information provided. Often, lpiProtocols will be specified as a NULL pointer that will cause the function to return information on all available transport protocols and protocol chains.
A WSAPROTOCOL_INFO structure is provided in the buffer pointed to by lpProtocolBuffer for each requested protocol. If the specified buffer is not large enough (as indicated by the input value of lpdwBufferLength ), the value pointed to by lpdwBufferLength will be updated to indicate the required buffer size. The application should then obtain a large enough buffer and call WSAEnumProtocols again.
The order in which the WSAPROTOCOL_INFO structures appear in the buffer coincides with the order in which the protocol entries were registered by the service provider using the WS2_32.DLL, or with any subsequent reordering that occurred through the Windows Sockets application or DLL supplied for establishing default TCP/IP providers.
Beispiele
The following example demonstrates the use of the WSAEnumProtocols function to retrieve an array of WSAPROTOCOL_INFO structures for available transport protocols.
#ifndef UNICODE
#define UNICODE 1
#endif
#include <winsock2.h>
#include <ws2tcpip.h>
#include <objbase.h>
#include <stdio.h>
// Link with ws2_32.lib and ole32.lib
#pragma comment (lib, "Ws2_32.lib")
#pragma comment (lib, "ole32.lib")
#define MALLOC(x) HeapAlloc(GetProcessHeap(), 0, (x))
#define FREE(x) HeapFree(GetProcessHeap(), 0, (x))
// Note: could also use malloc() and free()
int wmain()
{
//-----------------------------------------
// Declare and initialize variables
WSADATA wsaData;
int iResult = 0;
int iError = 0;
INT iNuminfo = 0;
int i;
// Allocate a 16K buffer to retrieve all the protocol providers
DWORD dwBufferLen = 16384;
LPWSAPROTOCOL_INFO lpProtocolInfo = NULL;
// variables needed for converting provider GUID to a string
int iRet = 0;
WCHAR GuidString[40] = { 0 };
// Initialize Winsock
iResult = WSAStartup(MAKEWORD(2, 2), &wsaData);
if (iResult != 0) {
wprintf(L"WSAStartup failed: %d\n", iResult);
return 1;
}
lpProtocolInfo = (LPWSAPROTOCOL_INFO) MALLOC(dwBufferLen);
if (lpProtocolInfo == NULL) {
wprintf(L"Memory allocation for providers buffer failed\n");
WSACleanup();
return 1;
}
iNuminfo = WSAEnumProtocols(NULL, lpProtocolInfo, &dwBufferLen);
if (iNuminfo == SOCKET_ERROR) {
iError = WSAGetLastError();
if (iError != WSAENOBUFS) {
wprintf(L"WSAEnumProtocols failed with error: %d\n", iError);
if (lpProtocolInfo) {
FREE(lpProtocolInfo);
lpProtocolInfo = NULL;
}
WSACleanup();
return 1;
} else {
wprintf(L"WSAEnumProtocols failed with error: WSAENOBUFS (%d)\n",
iError);
wprintf(L" Increasing buffer size to %d\n\n", dwBufferLen);
if (lpProtocolInfo) {
FREE(lpProtocolInfo);
lpProtocolInfo = NULL;
}
lpProtocolInfo = (LPWSAPROTOCOL_INFO) MALLOC(dwBufferLen);
if (lpProtocolInfo == NULL) {
wprintf(L"Memory allocation increase for buffer failed\n");
WSACleanup();
return 1;
}
iNuminfo = WSAEnumProtocols(NULL, lpProtocolInfo, &dwBufferLen);
if (iNuminfo == SOCKET_ERROR) {
iError = WSAGetLastError();
wprintf(L"WSAEnumProtocols failed with error: %d\n", iError);
if (lpProtocolInfo) {
FREE(lpProtocolInfo);
lpProtocolInfo = NULL;
}
WSACleanup();
return 1;
}
}
}
wprintf(L"WSAEnumProtocols succeeded with protocol count = %d\n\n",
iNuminfo);
for (i = 0; i < iNuminfo; i++) {
wprintf(L"Winsock Catalog Provider Entry #%d\n", i);
wprintf
(L"----------------------------------------------------------\n");
wprintf(L"Entry type:\t\t\t ");
if (lpProtocolInfo[i].ProtocolChain.ChainLen = 1)
wprintf(L"Base Service Provider\n");
else
wprintf(L"Layered Chain Entry\n");
wprintf(L"Protocol:\t\t\t %ws\n", lpProtocolInfo[i].szProtocol);
iRet =
StringFromGUID2(lpProtocolInfo[i].ProviderId,
(LPOLESTR) & GuidString, 39);
if (iRet == 0)
wprintf(L"StringFromGUID2 failed\n");
else
wprintf(L"Provider ID:\t\t\t %ws\n", GuidString);
wprintf(L"Catalog Entry ID:\t\t %u\n",
lpProtocolInfo[i].dwCatalogEntryId);
wprintf(L"Version:\t\t\t %d\n", lpProtocolInfo[i].iVersion);
wprintf(L"Address Family:\t\t\t %d\n",
lpProtocolInfo[i].iAddressFamily);
wprintf(L"Max Socket Address Length:\t %d\n",
lpProtocolInfo[i].iMaxSockAddr);
wprintf(L"Min Socket Address Length:\t %d\n",
lpProtocolInfo[i].iMinSockAddr);
wprintf(L"Socket Type:\t\t\t %d\n", lpProtocolInfo[i].iSocketType);
wprintf(L"Socket Protocol:\t\t %d\n", lpProtocolInfo[i].iProtocol);
wprintf(L"Socket Protocol Max Offset:\t %d\n",
lpProtocolInfo[i].iProtocolMaxOffset);
wprintf(L"Network Byte Order:\t\t %d\n",
lpProtocolInfo[i].iNetworkByteOrder);
wprintf(L"Security Scheme:\t\t %d\n",
lpProtocolInfo[i].iSecurityScheme);
wprintf(L"Max Message Size:\t\t %u\n", lpProtocolInfo[i].dwMessageSize);
wprintf(L"ServiceFlags1:\t\t\t 0x%x\n",
lpProtocolInfo[i].dwServiceFlags1);
wprintf(L"ServiceFlags2:\t\t\t 0x%x\n",
lpProtocolInfo[i].dwServiceFlags2);
wprintf(L"ServiceFlags3:\t\t\t 0x%x\n",
lpProtocolInfo[i].dwServiceFlags3);
wprintf(L"ServiceFlags4:\t\t\t 0x%x\n",
lpProtocolInfo[i].dwServiceFlags4);
wprintf(L"ProviderFlags:\t\t\t 0x%x\n",
lpProtocolInfo[i].dwProviderFlags);
wprintf(L"Protocol Chain length:\t\t %d\n",
lpProtocolInfo[i].ProtocolChain.ChainLen);
wprintf(L"\n");
}
if (lpProtocolInfo) {
FREE(lpProtocolInfo);
lpProtocolInfo = NULL;
}
WSACleanup();
return 0;
}
Anforderungen
Mindestens unterstützter Client |
Windows 2000 Professional |
Mindestens unterstützter Server |
Windows 2000 Server |
Header |
Winsock2.h |
Bibliothek |
Ws2_32.lib |
DLL |
Ws2_32.dll |
Unicode- und ANSI-Namen |
WSAEnumProtocolsW (Unicode) and WSAEnumProtocolsA (ANSI) |