IHttpRequest::GetRemoteAddress Method
Returns the remote address of the client's interface for the current request.
Syntax
virtual PSOCKADDR GetRemoteAddress(
VOID
) const = 0;
Parameters
This method takes no parameters.
Return Value
A pointer to a SOCKADDRstructure.
Remarks
The GetRemoteAddress method retrieves the remote interface address of the client that issued the request and returns a pointer to a SOCKADDR structure.
Example
The following code example demonstrates how to use the GetRemoteAddress method to create an HTTP module that retrieves the remote address of a client. The example then returns this information to a Web client.
#define _WINSOCKAPI_
#include <windows.h>
#include <sal.h>
#include <httpserv.h>
// Create the module class.
class MyHttpModule : public CHttpModule
{
public:
REQUEST_NOTIFICATION_STATUS
OnBeginRequest(
IN IHttpContext * pHttpContext,
IN IHttpEventProvider * pProvider
)
{
UNREFERENCED_PARAMETER( pProvider );
// Create a pointer to a SOCKADDR structure.
PSOCKADDR pSockAddr;
// Retrieve a pointer to the request.
IHttpRequest * pHttpRequest = pHttpContext->GetRequest();
// Test for an error.
if (pHttpRequest != NULL)
{
// Retrieve the remote address.
pSockAddr = pHttpRequest->GetRemoteAddress();
// Test for errors.
if (NULL != pSockAddr)
{
// Clear the existing response.
pHttpContext->GetResponse()->Clear();
// Set the MIME type to plain text.
pHttpContext->GetResponse()->SetHeader(
HttpHeaderContentType,"text/plain",
(USHORT)strlen("text/plain"),TRUE);
// Create a string to hold the hex for the IP address.
char szBuffer[] = "??.??.??.??";
// Create a pointer to a SOCKADDR_IN structure.
PSOCKADDR_IN pSockAddr_in = (PSOCKADDR_IN) pSockAddr;
// Convert the IP address to a hex string.
byteToHexChar(szBuffer+0,pSockAddr_in->sin_addr.S_un.S_un_b.s_b1);
byteToHexChar(szBuffer+3,pSockAddr_in->sin_addr.S_un.S_un_b.s_b2);
byteToHexChar(szBuffer+6,pSockAddr_in->sin_addr.S_un.S_un_b.s_b3);
byteToHexChar(szBuffer+9,pSockAddr_in->sin_addr.S_un.S_un_b.s_b4);
// Return the IP address to the Web client.
WriteResponseMessage(pHttpContext,
"IP Address: ",szBuffer);
// End additional processing.
return RQ_NOTIFICATION_FINISH_REQUEST;
}
}
// Return processing to the pipeline.
return RQ_NOTIFICATION_CONTINUE;
}
private:
// Utility method that converts a byte to hex characters.
void byteToHexChar(PSTR pszBuffer, BYTE bValue)
{
pszBuffer[0]=48+(bValue>>4)+((bValue>>4)>9?7:0);
pszBuffer[1]=48+(bValue&0xF)+((bValue&0xF)>9?7:0);
return;
}
// Create a utility method that inserts a name/value pair into the response.
HRESULT WriteResponseMessage(
IHttpContext * pHttpContext,
PCSTR pszName,
PCSTR pszValue
)
{
// Create an HRESULT to receive return values from methods.
HRESULT hr;
// Create a data chunk.
HTTP_DATA_CHUNK dataChunk;
// Set the chunk to a chunk in memory.
dataChunk.DataChunkType = HttpDataChunkFromMemory;
// Buffer for bytes written of data chunk.
DWORD cbSent;
// Set the chunk to the first buffer.
dataChunk.FromMemory.pBuffer =
(PVOID) pszName;
// Set the chunk size to the first buffer size.
dataChunk.FromMemory.BufferLength =
(USHORT) strlen(pszName);
// Insert the data chunk into the response.
hr = pHttpContext->GetResponse()->WriteEntityChunks(
&dataChunk,1,FALSE,TRUE,&cbSent);
// Test for an error.
if (FAILED(hr))
{
// Return the error status.
return hr;
}
// Set the chunk to the second buffer.
dataChunk.FromMemory.pBuffer =
(PVOID) pszValue;
// Set the chunk size to the second buffer size.
dataChunk.FromMemory.BufferLength =
(USHORT) strlen(pszValue);
// Insert the data chunk into the response.
hr = pHttpContext->GetResponse()->WriteEntityChunks(
&dataChunk,1,FALSE,TRUE,&cbSent);
// Test for an error.
if (FAILED(hr))
{
// Return the error status.
return hr;
}
// Return a success status.
return S_OK;
}
};
// Create the module's class factory.
class MyHttpModuleFactory : public IHttpModuleFactory
{
public:
HRESULT
GetHttpModule(
OUT CHttpModule ** ppModule,
IN IModuleAllocator * pAllocator
)
{
UNREFERENCED_PARAMETER( pAllocator );
// Create a new instance.
MyHttpModule * pModule = new MyHttpModule;
// Test for an error.
if (!pModule)
{
// Return an error if the factory cannot create the instance.
return HRESULT_FROM_WIN32( ERROR_NOT_ENOUGH_MEMORY );
}
else
{
// Return a pointer to the module.
*ppModule = pModule;
pModule = NULL;
// Return a success status.
return S_OK;
}
}
void Terminate()
{
// Remove the class from memory.
delete this;
}
};
// Create the module's exported registration function.
HRESULT
__stdcall
RegisterModule(
DWORD dwServerVersion,
IHttpModuleRegistrationInfo * pModuleInfo,
IHttpServer * pGlobalInfo
)
{
UNREFERENCED_PARAMETER( dwServerVersion );
UNREFERENCED_PARAMETER( pGlobalInfo );
// Set the request notifications and exit.
return pModuleInfo->SetRequestNotifications(
new MyHttpModuleFactory,
RQ_BEGIN_REQUEST,
0
);
}
Your module must export the RegisterModule function. You can export this function by creating a module definition (.def) file for your project, or you can compile the module by using the /EXPORT:RegisterModule switch. For more information, see Walkthrough: Creating a Request-Level HTTP Module By Using Native Code.
You can optionally compile the code by using the __stdcall (/Gz) calling convention instead of explicitly declaring the calling convention for each function.
Requirements
| Type | Description |
|---|---|
| Client | - IIS 7.0 on Windows Vista - IIS 7.5 on Windows 7 - IIS 8.0 on Windows 8 - IIS 10.0 on Windows 10 |
| Server | - IIS 7.0 on Windows Server 2008 - IIS 7.5 on Windows Server 2008 R2 - IIS 8.0 on Windows Server 2012 - IIS 8.5 on Windows Server 2012 R2 - IIS 10.0 on Windows Server 2016 |
| Product | - IIS 7.0, IIS 7.5, IIS 8.0, IIS 8.5, IIS 10.0 - IIS Express 7.5, IIS Express 8.0, IIS Express 10.0 |
| Header | Httpserv.h |