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HttpCalculatorWithLayeredChannelServiceExample

En este ejemplo se muestra cómo usar el host de servicio para hospedar un servicio de calculadora con un canal personalizado y una implementación del agente de escucha en la parte superior de HTTP.

HttpCalculatorWithLayeredChannelService.cpp

//------------------------------------------------------------
// Copyright (C) Microsoft.  All rights reserved.
//------------------------------------------------------------

#ifndef UNICODE
#define UNICODE
#endif
#include <windows.h>
#include <stdio.h>
#include "WebServices.h"
#include "process.h"
#include "string.h"
#include "CalculatorService.wsdl.h"
//------------------------------------------------------------
// Copyright (C) Microsoft.  All rights reserved.
//------------------------------------------------------------

// A structure containing parameters passed to the custom channel 
// using WS_CHANNEL_PROPERTY_CUSTOM_CHANNEL_PARAMETERS.
struct LayeredChannelParameters
{
    // The type of the underlying channel
    WS_CHANNEL_BINDING channelBinding;

    // Channel properties to pass to the underlying channel
    WS_CHANNEL_PROPERTY* channelProperties;
    ULONG channelPropertyCount;

    // Security settings for the underlying channel
    WS_SECURITY_DESCRIPTION* securityDescription;
};

// The structure containing instance state for the custom channel
struct CustomChannel
{
    // Underlying channel handle
    WS_CHANNEL* channel;
    BOOL disabledTimeouts;
};

// The set of callbacks that make up the custom channel implementation.
extern WS_CUSTOM_CHANNEL_CALLBACKS layeredChannelCallbacks;
//------------------------------------------------------------
// Copyright (C) Microsoft.  All rights reserved.
//------------------------------------------------------------

// A structure containing parameters passed to the custom listener
// using WS_LISTENER_PROPERTY_CUSTOM_LISTENER_PARAMETERS.
struct LayeredListenerParameters
{
    // The type of the underlying channel
    WS_CHANNEL_BINDING channelBinding;

    // Listener properties to pass to the underlying listener
    WS_LISTENER_PROPERTY* listenerProperties;
    ULONG listenerPropertyCount;

    // Security settings for the underlying listener
    WS_SECURITY_DESCRIPTION* securityDescription;
};

// The structure containing instance state for the custom listener
struct CustomListener
{
    // Underlying listener handle
    WS_LISTENER* listener;
};

// The set of callbacks that make up the custom listener implementation.
extern WS_CUSTOM_LISTENER_CALLBACKS layeredListenerCallbacks;


// Print out rich error info
void PrintError(HRESULT errorCode, WS_ERROR* error)
{
    wprintf(L"Failure: errorCode=0x%lx\n", errorCode);

    if (errorCode == E_INVALIDARG || errorCode == WS_E_INVALID_OPERATION)
    {
        // Correct use of the APIs should never generate these errors
        wprintf(L"The error was due to an invalid use of an API.  This is likely due to a bug in the program.\n");
        DebugBreak();
    }

    HRESULT hr = NOERROR;
    if (error != NULL)
    {
        ULONG errorCount;
        hr = WsGetErrorProperty(error, WS_ERROR_PROPERTY_STRING_COUNT, &errorCount, sizeof(errorCount));
        if (FAILED(hr))
        {
            goto Exit;
        }
        for (ULONG i = 0; i < errorCount; i++)
        {
            WS_STRING string;
            hr = WsGetErrorString(error, i, &string);
            if (FAILED(hr))
            {
                goto Exit;
            }
            wprintf(L"%.*s\n", string.length, string.chars);
        }
    }
Exit:
    if (FAILED(hr))
    {
        wprintf(L"Could not get error string (errorCode=0x%lx)\n", hr);
    }
}

HANDLE closeServer = NULL;  


HRESULT CALLBACK Add(
    __in const WS_OPERATION_CONTEXT* context, 
    __in int a, 
    __in int b, 
    __out int* result, 
    __in_opt const WS_ASYNC_CONTEXT* asyncContext, 
    __in_opt WS_ERROR* error)
{
    UNREFERENCED_PARAMETER(context);
    UNREFERENCED_PARAMETER(asyncContext);
    UNREFERENCED_PARAMETER(error);

    *result = a + b;
    printf ("%d + %d = %d\n", a, b, *result);
    fflush(stdout);
    return NOERROR;
}

HRESULT CALLBACK Subtract(
    __in const WS_OPERATION_CONTEXT* context, 
    __in int a, 
    __in int b, 
    __out int* result, 
    __in_opt const WS_ASYNC_CONTEXT* asyncContext, 
    __in_opt WS_ERROR* error)
{
    UNREFERENCED_PARAMETER(context);
    UNREFERENCED_PARAMETER(asyncContext);
    UNREFERENCED_PARAMETER(error);

    *result = a - b;
    printf ("%d - %d = %d\n", a, b, *result);
    fflush(stdout);
    return NOERROR;
}

HRESULT CALLBACK CloseChannelCallback(
    __in const WS_OPERATION_CONTEXT* context, 
    __in_opt const WS_ASYNC_CONTEXT* asyncContext)
{
    UNREFERENCED_PARAMETER(context);
    UNREFERENCED_PARAMETER(asyncContext);

    SetEvent(closeServer);
    return NOERROR;
}

static const DefaultBinding_ICalculatorFunctionTable calculatorFunctions = {Add, Subtract};

// Method contract for the service
static const WS_SERVICE_CONTRACT calculatorContract = 
{
    &CalculatorService_wsdl.contracts.DefaultBinding_ICalculator, // comes from the generated header.
    NULL, // for not specifying the default contract
    &calculatorFunctions // specified by the user
};


// Main entry point
int __cdecl wmain(int argc, __in_ecount(argc) wchar_t **argv)
{
    UNREFERENCED_PARAMETER(argc);
    UNREFERENCED_PARAMETER(argv);
    
    HRESULT hr = NOERROR;
    WS_SERVICE_HOST* host = NULL;
    WS_SERVICE_ENDPOINT serviceEndpoint = {};
    const WS_SERVICE_ENDPOINT* serviceEndpoints[1];
    serviceEndpoints[0] = &serviceEndpoint;
    
    WS_ERROR* error = NULL;
    
    // In order to use the custom channel through Service Model,
    // we need to configure it to disable all timeouts.
    WS_CHANNEL_PROPERTY channelPropertyArray[1];
    BOOL enableTimeouts = FALSE;
    channelPropertyArray[0].id = WS_CHANNEL_PROPERTY_ENABLE_TIMEOUTS;
    channelPropertyArray[0].value = &enableTimeouts;
    channelPropertyArray[0].valueSize = sizeof(enableTimeouts);
    
    // Set up channel properties for the custom channel
    WS_CHANNEL_PROPERTY customChannelPropertyArray[2];
    
    // Set up channel property that specifies the callbacks that implement the custom channel
    customChannelPropertyArray[0].id = WS_CHANNEL_PROPERTY_CUSTOM_CHANNEL_CALLBACKS;
    customChannelPropertyArray[0].value = &layeredChannelCallbacks;
    customChannelPropertyArray[0].valueSize = sizeof(layeredChannelCallbacks);
    
    // Initialize parameters to pass to the layered channel.
    // Note that the parameters structure and it's contents must 
    // remain valid until the service host object has been freed.  In this 
    // example, the parameters are declared on the stack for
    // simplicity, but in other scenarios they may need to be
    // allocated from the heap.
    LayeredChannelParameters layeredChannelParameters;
    layeredChannelParameters.channelBinding = WS_HTTP_CHANNEL_BINDING;
    layeredChannelParameters.channelProperties = channelPropertyArray;
    layeredChannelParameters.channelPropertyCount = WsCountOf(channelPropertyArray);
    layeredChannelParameters.securityDescription = NULL;
    
    // Specify the channel parameters as a channel property
    customChannelPropertyArray[1].id = WS_CHANNEL_PROPERTY_CUSTOM_CHANNEL_PARAMETERS;
    customChannelPropertyArray[1].value = &layeredChannelParameters;
    customChannelPropertyArray[1].valueSize = sizeof(layeredChannelParameters);
    
    // Set up the channel properties value
    WS_CHANNEL_PROPERTIES channelProperties;
    channelProperties.properties = customChannelPropertyArray;
    channelProperties.propertyCount = WsCountOf(customChannelPropertyArray);
    
    // Set up listener properties for the custom listener
    WS_LISTENER_PROPERTY listenerPropertyArray[2];
    
    // Set up listener property that specifies the callbacks that implement the custom listener
    listenerPropertyArray[0].id = WS_LISTENER_PROPERTY_CUSTOM_LISTENER_CALLBACKS;
    listenerPropertyArray[0].value = &layeredListenerCallbacks;
    listenerPropertyArray[0].valueSize = sizeof(layeredListenerCallbacks);
    
    // Initialize parameters to pass to the layered listener.
    // Note that the parameters structure and it's contents must 
    // remain valid until the service host object has been freed.  In this 
    // example, the parameters are declared on the stack for
    // simplicity, but in other scenarios they may need to be
    // allocated from the heap.
    LayeredListenerParameters layeredListenerParameters;
    layeredListenerParameters.channelBinding = WS_HTTP_CHANNEL_BINDING;
    layeredListenerParameters.listenerProperties = NULL;
    layeredListenerParameters.listenerPropertyCount = 0;
    layeredListenerParameters.securityDescription = NULL;
    
    // Specify the listener parameters as a listener property
    listenerPropertyArray[1].id = WS_LISTENER_PROPERTY_CUSTOM_LISTENER_PARAMETERS;
    listenerPropertyArray[1].value = &layeredListenerParameters;
    listenerPropertyArray[1].valueSize = sizeof(layeredListenerParameters);
    
    // Set up the listener properties value
    WS_LISTENER_PROPERTIES listenerProperties;
    listenerProperties.properties = listenerPropertyArray;
    listenerProperties.propertyCount = WsCountOf(listenerPropertyArray);
    
    // Set up service endpoint properties
    WS_SERVICE_ENDPOINT_PROPERTY serviceEndpointProperties[2];
    WS_SERVICE_PROPERTY_CLOSE_CALLBACK closeCallbackProperty = {CloseChannelCallback};
    serviceEndpointProperties[0].id = WS_SERVICE_ENDPOINT_PROPERTY_CLOSE_CHANNEL_CALLBACK;
    serviceEndpointProperties[0].value = &closeCallbackProperty;
    serviceEndpointProperties[0].valueSize = sizeof(closeCallbackProperty);
    serviceEndpointProperties[1].id = WS_SERVICE_ENDPOINT_PROPERTY_LISTENER_PROPERTIES;
    serviceEndpointProperties[1].value = &listenerProperties;
    serviceEndpointProperties[1].valueSize = sizeof(listenerProperties);
    
    
    // Initialize service endpoint
    serviceEndpoint.address.url.chars = L"https://+:80/example"; // address given as uri
    serviceEndpoint.address.url.length = (ULONG)wcslen(serviceEndpoint.address.url.chars);
    serviceEndpoint.channelBinding = WS_CUSTOM_CHANNEL_BINDING; // channel binding for the endpoint
    serviceEndpoint.channelType = WS_CHANNEL_TYPE_REPLY; // the channel type
    serviceEndpoint.securityDescription = NULL; // security description
    serviceEndpoint.contract = &calculatorContract;  // the contract
    serviceEndpoint.properties = serviceEndpointProperties;
    serviceEndpoint.propertyCount = WsCountOf(serviceEndpointProperties);
    serviceEndpoint.channelProperties.properties = customChannelPropertyArray; // Channel properties
    serviceEndpoint.channelProperties.propertyCount = WsCountOf(customChannelPropertyArray); // Channel property Count
    
    // Create an error object for storing rich error information
    hr = WsCreateError(
        NULL, 
        0, 
        &error);
    if (FAILED(hr))
    {
        goto Exit;
    }
    // Create Event object for closing the server
    closeServer = CreateEvent(
        NULL, 
        TRUE, 
        FALSE, 
        NULL);
    if (closeServer == NULL)
    {
        hr = HRESULT_FROM_WIN32(GetLastError());
        goto Exit;
    }   
    // Creating a service host
    hr = WsCreateServiceHost(
        serviceEndpoints, 
        1, 
        NULL, 
        0, 
        &host, 
        error);
    if (FAILED(hr))
    {
        goto Exit;
    }
    // WsOpenServiceHost to start the listeners in the service host 
    hr = WsOpenServiceHost(
            host, 
            NULL, 
            error);
    if (FAILED(hr))
    {
        goto Exit;
    }
    WaitForSingleObject(closeServer, INFINITE);
    // Close the service host
    hr = WsCloseServiceHost(host, NULL, error);
    if (FAILED(hr))
    {
        goto Exit;
    }
    
Exit:
    if (FAILED(hr))
    {
        // Print out the error
        PrintError(hr, error);
    }
    fflush(
        stdout);
    if (host != NULL)
    {
        WsFreeServiceHost(host);
    }
    
    
    if (error != NULL)
    {
        WsFreeError(error);
    }
    if (closeServer != NULL)
    {
        CloseHandle(closeServer);
    }
    fflush(stdout);
    return SUCCEEDED(hr) ? 0 : -1;
}



LayeredChannel.h

// A structure containing parameters passed to the custom channel 
// using WS_CHANNEL_PROPERTY_CUSTOM_CHANNEL_PARAMETERS.
struct LayeredChannelParameters
{
    // The type of the underlying channel
    WS_CHANNEL_BINDING channelBinding;

    // Channel properties to pass to the underlying channel
    WS_CHANNEL_PROPERTY* channelProperties;
    ULONG channelPropertyCount;

    // Security settings for the underlying channel
    WS_SECURITY_DESCRIPTION* securityDescription;
};

// The structure containing instance state for the custom channel
struct CustomChannel
{
    // Underlying channel handle
    WS_CHANNEL* channel;
    BOOL disabledTimeouts;
};

// The set of callbacks that make up the custom channel implementation.
extern WS_CUSTOM_CHANNEL_CALLBACKS layeredChannelCallbacks;

LayeredChannel.cpp

#ifndef UNICODE
#define UNICODE
#endif
#include <windows.h>
#include "WebServices.h"
#include "process.h"
#include <stdio.h>
#include "string.h"
#include "LayeredChannel.h"

HRESULT CustomCreateChannel(
    __in WS_CHANNEL_TYPE channelType, 
    __in_bcount(channelParametersSize) const void* channelParameters, 
    __in ULONG channelParametersSize, 
    __deref_out void** channelInstance, 
    __in_opt WS_ERROR* error)
{
    HRESULT hr;
    CustomChannel* customChannel = NULL;

    // Get the parameters passed via WS_CHANNEL_PROPERTY_CUSTOM_CHANNEL_PARAMETERS
    if (channelParametersSize != sizeof(LayeredChannelParameters))
    {
        return E_INVALIDARG;
    }
    LayeredChannelParameters* layeredChannelParameters = (LayeredChannelParameters*)channelParameters;

    // Allocate the custom channel instance
    customChannel = (CustomChannel*)HeapAlloc(GetProcessHeap(), 0, sizeof(CustomChannel));
    if (customChannel == NULL)
    {
        hr = E_OUTOFMEMORY;
        goto Exit;
    }

    // Create the underlying channel using the passed in parameters
    hr = WsCreateChannel(
        channelType,
        layeredChannelParameters->channelBinding,
        layeredChannelParameters->channelProperties,
        layeredChannelParameters->channelPropertyCount,
        layeredChannelParameters->securityDescription,
        &customChannel->channel,
        error);
    if (FAILED(hr))
    {
        goto Exit;
    }

    // we need to keep track of whether timeouts were disabled to be able to serve
    // the WsGetChannelProperty calls later on.
    for (ULONG i = 0; i < layeredChannelParameters->channelPropertyCount; i ++)
    {
        if (WS_CHANNEL_PROPERTY_ENABLE_TIMEOUTS == layeredChannelParameters->channelProperties[i].id)
        {
            customChannel->disabledTimeouts = *(BOOL*)layeredChannelParameters->channelProperties[i].value;
            break;
        }
    }

    // Return the channel instance.  The instance
    // will be freed by the CustomFreeChannel function.
    *channelInstance = customChannel;
    customChannel = NULL;
    hr = NOERROR;

Exit:
    if (customChannel != NULL)
    {
        HeapFree(GetProcessHeap(), 0, customChannel);
    }

    return hr;  
}

void CustomFreeChannel(
    __in void* channelInstance)
{
    CustomChannel* customChannel = (CustomChannel*)channelInstance;

    // Free the underlying channel
    WsFreeChannel(customChannel->channel);

    // Free the instance that was allocated by CustomCreateChannel
    HeapFree(GetProcessHeap(), 0, channelInstance);
}

HRESULT CustomResetChannel(
    __in void* channelInstance, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying channel
    CustomChannel* customChannel = (CustomChannel*)channelInstance;
    return WsResetChannel(customChannel->channel, error);
}

HRESULT CustomAbortChannel(
    __in void* channelInstance, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying channel
    CustomChannel* customChannel = (CustomChannel*)channelInstance;
    return WsAbortChannel(customChannel->channel, error);
}

HRESULT CustomOpenChannel(
    __in void* channelInstance, 
    __in const WS_ENDPOINT_ADDRESS* endpointAddress, 
    __in_opt const WS_ASYNC_CONTEXT* asyncContext, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying channel
    CustomChannel* customChannel = (CustomChannel*)channelInstance;
    return WsOpenChannel(customChannel->channel, endpointAddress, asyncContext, error);
}

HRESULT CustomCloseChannel(
    __in void* channelInstance, 
    __in_opt const WS_ASYNC_CONTEXT* asyncContext, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying channel
    CustomChannel* customChannel = (CustomChannel*)channelInstance;
    return WsCloseChannel(customChannel->channel, asyncContext, error);
}

HRESULT CustomSetChannelProperty(
    __in void* channelInstance, 
    __in WS_CHANNEL_PROPERTY_ID id, 
    __in_bcount(valueSize) const void* value, 
    __in ULONG valueSize, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying channel
    CustomChannel* customChannel = (CustomChannel*)channelInstance;
    return WsSetChannelProperty(customChannel->channel, id, value, valueSize, error);
}

HRESULT CustomGetChannelProperty(
    __in void* channelInstance, 
    __in WS_CHANNEL_PROPERTY_ID id, 
    __out_bcount(valueSize) void* value, 
    __in ULONG valueSize, 
    __in_opt WS_ERROR* error)
{
    CustomChannel* customChannel = (CustomChannel*)channelInstance;

    // Underlying channels do not support querying WS_CHANNEL_PROPERTY_ENABLE_TIMEOUTS.
    // Custom channel keeps track of whether timeouts were disabled and returns here.
    // Service Model queries this property to ensure the timeouts were disabled in the custom channel.
    if (WS_CHANNEL_PROPERTY_ENABLE_TIMEOUTS == id)
    {
        if (sizeof(BOOL) != valueSize)
        {
            return E_INVALIDARG;
        }

        *(BOOL*)value = customChannel->disabledTimeouts;

        return NOERROR;
    }

    // Delegate the rest of the property queries to the underlying channel
    return WsGetChannelProperty(customChannel->channel, id, value, valueSize, error);
}

HRESULT CustomReadMessageStart(
    __in void* channelInstance, 
    __in WS_MESSAGE* message, 
    __in_opt const WS_ASYNC_CONTEXT* asyncContext, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying channel
    CustomChannel* customChannel = (CustomChannel*)channelInstance;
    return WsReadMessageStart(customChannel->channel, message, asyncContext, error);
}

HRESULT CustomReadMessageEnd(
    __in void* channelInstance, 
    __in WS_MESSAGE* message, 
    __in_opt const WS_ASYNC_CONTEXT* asyncContext, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying channel
    CustomChannel* customChannel = (CustomChannel*)channelInstance;
    return WsReadMessageEnd(customChannel->channel, message, asyncContext, error);
}

HRESULT CustomWriteMessageStart(
    __in void* channelInstance, 
    __in WS_MESSAGE* message, 
    __in_opt const WS_ASYNC_CONTEXT* asyncContext, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying channel
    CustomChannel* customChannel = (CustomChannel*)channelInstance;
    return WsWriteMessageStart(customChannel->channel, message, asyncContext, error);
}

HRESULT CustomWriteMessageEnd(
    __in void* channelInstance, 
    __in WS_MESSAGE* message, 
    __in_opt const WS_ASYNC_CONTEXT* asyncContext, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying channel
    CustomChannel* customChannel = (CustomChannel*)channelInstance;
    return WsWriteMessageEnd(customChannel->channel, message, asyncContext, error);
}

HRESULT CustomAbandonMessage(
    __in void* channelInstance, 
    __in WS_MESSAGE* message, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying channel
    CustomChannel* customChannel = (CustomChannel*)channelInstance;
    return WsAbandonMessage(customChannel->channel, message, error);
}

HRESULT CustomShutdownSessionChannel(
    __in void* channelInstance, 
    __in_opt const WS_ASYNC_CONTEXT* asyncContext, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying channel
    CustomChannel* customChannel = (CustomChannel*)channelInstance;
    return WsShutdownSessionChannel(customChannel->channel, asyncContext, error);
}

// Initialize the callbacks that will implement the custom channel
WS_CUSTOM_CHANNEL_CALLBACKS layeredChannelCallbacks =
{
    (WS_CREATE_CHANNEL_CALLBACK)&CustomCreateChannel, 
    (WS_FREE_CHANNEL_CALLBACK)&CustomFreeChannel, 
    (WS_RESET_CHANNEL_CALLBACK)&CustomResetChannel, 
    (WS_OPEN_CHANNEL_CALLBACK)&CustomOpenChannel, 
    (WS_CLOSE_CHANNEL_CALLBACK)&CustomCloseChannel, 
    (WS_ABORT_CHANNEL_CALLBACK)&CustomAbortChannel, 
    (WS_GET_CHANNEL_PROPERTY_CALLBACK)&CustomGetChannelProperty, 
    (WS_SET_CHANNEL_PROPERTY_CALLBACK)&CustomSetChannelProperty, 
    (WS_WRITE_MESSAGE_START_CALLBACK)&CustomWriteMessageStart, 
    (WS_WRITE_MESSAGE_END_CALLBACK)&CustomWriteMessageEnd, 
    (WS_READ_MESSAGE_START_CALLBACK)&CustomReadMessageStart, 
    (WS_READ_MESSAGE_END_CALLBACK)&CustomReadMessageEnd, 
    (WS_ABANDON_MESSAGE_CALLBACK)&CustomAbandonMessage, 
    (WS_SHUTDOWN_SESSION_CHANNEL_CALLBACK)&CustomShutdownSessionChannel,
};

LayeredListener.h

// A structure containing parameters passed to the custom listener
// using WS_LISTENER_PROPERTY_CUSTOM_LISTENER_PARAMETERS.
struct LayeredListenerParameters
{
    // The type of the underlying channel
    WS_CHANNEL_BINDING channelBinding;

    // Listener properties to pass to the underlying listener
    WS_LISTENER_PROPERTY* listenerProperties;
    ULONG listenerPropertyCount;

    // Security settings for the underlying listener
    WS_SECURITY_DESCRIPTION* securityDescription;
};

// The structure containing instance state for the custom listener
struct CustomListener
{
    // Underlying listener handle
    WS_LISTENER* listener;
};

// The set of callbacks that make up the custom listener implementation.
extern WS_CUSTOM_LISTENER_CALLBACKS layeredListenerCallbacks;

LayeredListener.cpp

#ifndef UNICODE
#define UNICODE
#endif
#include <windows.h>
#include "WebServices.h"
#include "process.h"
#include "stdio.h"
#include "string.h"
#include "LayeredChannel.h"
#include "LayeredListener.h"

HRESULT CustomCreateListener(
    __in WS_CHANNEL_TYPE channelType, 
    __in_bcount(listenerParametersSize) const void* listenerParameters, 
    __in ULONG listenerParametersSize, 
    __deref_out void** listenerInstance, 
    __in_opt WS_ERROR* error)
{
    HRESULT hr;
    CustomListener* customListener = NULL;

    // Get the parameters passed via WS_LISTENER_PROPERTY_CUSTOM_CHANNEL_PARAMETERS
    if (listenerParametersSize != sizeof(LayeredListenerParameters))
    {
        return E_INVALIDARG;
    }
    LayeredListenerParameters* layeredListenerParameters = (LayeredListenerParameters*)listenerParameters;

    // Allocate the custom listener instance
    customListener = (CustomListener*)HeapAlloc(GetProcessHeap(), 0, sizeof(CustomListener));
    if (customListener == NULL)
    {
        hr = E_OUTOFMEMORY;
        goto Exit;
    }

    // Create the underlying listener using the passed in parameters
    hr = WsCreateListener(
        channelType,
        layeredListenerParameters->channelBinding,
        layeredListenerParameters->listenerProperties,
        layeredListenerParameters->listenerPropertyCount,
        layeredListenerParameters->securityDescription,
        &customListener->listener,
        error);
    if (FAILED(hr))
    {
        goto Exit;
    }

    // Return the listener instance.  The instance
    // will be freed by the CustomFreeListener function.
    *listenerInstance = customListener;
    customListener = NULL;
    hr = NOERROR;

Exit:
    if (customListener != NULL)
    {
        HeapFree(GetProcessHeap(), 0, customListener);
    }

    return hr;  
}

void CustomFreeListener(
    __in void* listenerInstance)
{
    CustomListener* customListener = (CustomListener*)listenerInstance;

    // Free the underlying listener
    WsFreeListener(customListener->listener);

    // Free the instance that was allocated by CustomCreateListener
    HeapFree(GetProcessHeap(), 0, listenerInstance);
}

HRESULT CustomResetListener(
    __in void* listenerInstance, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying listener
    CustomListener* customListener = (CustomListener*)listenerInstance;
    return WsResetListener(customListener->listener, error);
}

HRESULT CustomOpenListener(
    __in void* listenerInstance, 
    __in const WS_STRING* url, 
    __in_opt const WS_ASYNC_CONTEXT* asyncContext, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying listener
    CustomListener* customListener = (CustomListener*)listenerInstance;
    return WsOpenListener(customListener->listener, url, asyncContext, error);
}

HRESULT CustomCloseListener(
    __in void* listenerInstance, 
    __in_opt const WS_ASYNC_CONTEXT* asyncContext, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying listener
    CustomListener* customListener = (CustomListener*)listenerInstance;
    return WsCloseListener(customListener->listener, asyncContext, error);
}

HRESULT CustomAbortListener(
    __in void* listenerInstance, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying listener
    CustomListener* customListener = (CustomListener*)listenerInstance;
    return WsAbortListener(customListener->listener, error);
}

HRESULT CustomGetListenerProperty(
    __in void* listenerInstance, 
    __in WS_LISTENER_PROPERTY_ID id, 
    __out_bcount(valueSize) void* value, 
    __in ULONG valueSize, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying listener
    CustomListener* customListener = (CustomListener*)listenerInstance;
    return WsGetListenerProperty(customListener->listener, id, value, valueSize, error);
}

HRESULT CustomSetListenerProperty(
    __in void* listenerInstance, 
    __in WS_LISTENER_PROPERTY_ID id, 
    __in_bcount(valueSize) const void* value, 
    __in ULONG valueSize, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying listener
    CustomListener* customListener = (CustomListener*)listenerInstance;
    return WsSetListenerProperty(customListener->listener, id, value, valueSize, error);
}

HRESULT CustomAcceptChannel(
    __in void* listenerInstance, 
    __in void* channelInstance, 
    __in_opt const WS_ASYNC_CONTEXT* asyncContext, 
    __in_opt WS_ERROR* error)
{
    // Delegate to the underlying listener
    CustomListener* customListener = (CustomListener*)listenerInstance;
    CustomChannel* customChannel = (CustomChannel*)channelInstance;
    return WsAcceptChannel(customListener->listener, customChannel->channel, asyncContext, error);
}

HRESULT CustomCreateChannelForListener(
    __in void* listenerInstance, 
    __in_bcount(channelParametersSize) const void* channelParameters, 
    __in ULONG channelParametersSize, 
    __deref_out void** channelInstance, 
    __in_opt WS_ERROR* error)
{
    HRESULT hr;
    CustomChannel* customChannel = NULL;
    CustomListener* customListener = (CustomListener*)listenerInstance;

    // Get the parameters passed via WS_CHANNEL_PROPERTY_CUSTOM_CHANNEL_PARAMETERS
    if (channelParametersSize != sizeof(LayeredChannelParameters))
    {
        return E_INVALIDARG;
    }
    LayeredChannelParameters* layeredChannelParameters = (LayeredChannelParameters*)channelParameters;

    // Allocate the custom channel instance
    customChannel = (CustomChannel*)HeapAlloc(GetProcessHeap(), 0, sizeof(CustomChannel));
    if (customChannel == NULL)
    {
        hr = E_OUTOFMEMORY;
        goto Exit;
    }

    // Create the underlying channel using the passed in parameters
    hr = WsCreateChannelForListener(
        customListener->listener,
        layeredChannelParameters->channelProperties,
        layeredChannelParameters->channelPropertyCount,
        &customChannel->channel,
        error);
    if (FAILED(hr))
    {
        goto Exit;
    }

    // we need to keep track of whether timeouts were disabled to be able to serve
    // the WsGetChannelProperty calls later on.
    for (ULONG i = 0; i < layeredChannelParameters->channelPropertyCount; i ++)
    {
        if (WS_CHANNEL_PROPERTY_ENABLE_TIMEOUTS == layeredChannelParameters->channelProperties[i].id)
        {
            customChannel->disabledTimeouts = *(BOOL*)layeredChannelParameters->channelProperties[i].value;
            break;
        }
    }

    // Return the channel instance.  The instance
    // will be freed by the CustomFreeChannel function.
    *channelInstance = customChannel;
    customChannel = NULL;
    hr = NOERROR;

Exit:
    if (customChannel != NULL)
    {
        HeapFree(GetProcessHeap(), 0, customChannel);
    }

    return hr;  
}

// Initialize the callbacks that will implement the custom listener
WS_CUSTOM_LISTENER_CALLBACKS layeredListenerCallbacks =
{
    (WS_CREATE_LISTENER_CALLBACK)&CustomCreateListener, 
    (WS_FREE_LISTENER_CALLBACK)&CustomFreeListener, 
    (WS_RESET_LISTENER_CALLBACK)&CustomResetListener, 
    (WS_OPEN_LISTENER_CALLBACK)&CustomOpenListener, 
    (WS_CLOSE_LISTENER_CALLBACK)&CustomCloseListener, 
    (WS_ABORT_LISTENER_CALLBACK)&CustomAbortListener, 
    (WS_GET_LISTENER_PROPERTY_CALLBACK)&CustomGetListenerProperty, 
    (WS_SET_LISTENER_PROPERTY_CALLBACK)&CustomSetListenerProperty, 
    (WS_CREATE_CHANNEL_FOR_LISTENER_CALLBACK)&CustomCreateChannelForListener, 
    (WS_ACCEPT_CHANNEL_CALLBACK)&CustomAcceptChannel, 
};

CalculatorService.wsdl

<wsdl:definitions 
    xmlns:soap="https://schemas.xmlsoap.org/wsdl/soap/" 
    xmlns:tns="https://Example.org" 
    xmlns:xsd="https://www.w3.org/2001/XMLSchema" 
    xmlns:wsaw="https://www.w3.org/2006/05/addressing/wsdl" 
    xmlns:soap12="https://schemas.xmlsoap.org/wsdl/soap12/" 
    targetNamespace="https://Example.org" 
    xmlns:wsdl="https://schemas.xmlsoap.org/wsdl/">
    <wsdl:types>
        <xsd:schema targetNamespace="https://Example.org" elementFormDefault="qualified" >
            <xsd:element name="Add">
                <xsd:complexType>
                    <xsd:sequence>
                        <xsd:element minOccurs="0" name="a" type="xsd:int" />
                        <xsd:element minOccurs="0" name="b" type="xsd:int" />
                    </xsd:sequence>
                </xsd:complexType>
            </xsd:element>
            <xsd:element name="AddResponse">
                <xsd:complexType>
                    <xsd:sequence>
                        <xsd:element minOccurs="0" name="result" type="xsd:int" />
                    </xsd:sequence>
                </xsd:complexType>
            </xsd:element>
            <xsd:element name="Subtract">
                <xsd:complexType>
                    <xsd:sequence>
                        <xsd:element minOccurs="0" name="a" type="xsd:int" />
                        <xsd:element minOccurs="0" name="b" type="xsd:int" />
                    </xsd:sequence>
                </xsd:complexType>
            </xsd:element>
            <xsd:element name="SubtractResponse">
                <xsd:complexType>
                    <xsd:sequence>
                        <xsd:element minOccurs="0" name="result" type="xsd:int" />
                    </xsd:sequence>
                </xsd:complexType>
            </xsd:element>
        </xsd:schema>
    </wsdl:types>
    <wsdl:message name="ICalculator_Add_InputMessage">
        <wsdl:part name="parameters" element="tns:Add" />
    </wsdl:message>
    <wsdl:message name="ICalculator_Add_OutputMessage">
        <wsdl:part name="parameters" element="tns:AddResponse" />
    </wsdl:message>
    <wsdl:message name="ICalculator_Subtract_InputMessage">
        <wsdl:part name="parameters" element="tns:Subtract" />
    </wsdl:message>
    <wsdl:message name="ICalculator_Subtract_OutputMessage">
        <wsdl:part name="parameters" element="tns:SubtractResponse" />
    </wsdl:message>
    <wsdl:portType name="ICalculator">
        <wsdl:operation name="Add">
            <wsdl:input wsaw:Action="https://Example.org/ICalculator/Add" message="tns:ICalculator_Add_InputMessage" />
            <wsdl:output wsaw:Action="https://Example.org/ICalculator/AddResponse" message="tns:ICalculator_Add_OutputMessage" />
        </wsdl:operation>
        <wsdl:operation name="Subtract">
            <wsdl:input wsaw:Action="https://Example.org/ICalculator/Subtract" message="tns:ICalculator_Subtract_InputMessage" />
            <wsdl:output wsaw:Action="https://Example.org/ICalculator/SubtractResponse" message="tns:ICalculator_Subtract_OutputMessage" />
        </wsdl:operation>
    </wsdl:portType>
    <wsdl:binding name="DefaultBinding_ICalculator" type="tns:ICalculator">
        <soap:binding transport="https://schemas.xmlsoap.org/soap/http" />
        <wsdl:operation name="Add">
            <soap:operation soapAction="https://Example.org/ICalculator/Add" style="document" />
            <wsdl:input>
                <soap:body use="literal" />
            </wsdl:input>
            <wsdl:output>
                <soap:body use="literal" />
            </wsdl:output>
        </wsdl:operation>
        <wsdl:operation name="Subtract">
            <soap:operation soapAction="https://Example.org/ICalculator/Subtract" style="document" />
            <wsdl:input>
                <soap:body use="literal" />
            </wsdl:input>
            <wsdl:output>
                <soap:body use="literal" />
            </wsdl:output>
        </wsdl:operation>
    </wsdl:binding>
    <wsdl:service name="CalculatorService">
        <wsdl:port name="ICalculator" binding="tns:DefaultBinding_ICalculator">
            <soap:address location="https://Example.org/ICalculator" />
        </wsdl:port>
    </wsdl:service>

</wsdl:definitions>

Archivo Make

!include <Win32.Mak>

EXTRA_LIBS = WebServices.lib

all: $(OUTDIR) $(OUTDIR)\WsHttpCalculatorWithLayeredChannelService.exe

"$(OUTDIR)" :
    if not exist "$(OUTDIR)/$(NULL)" mkdir "$(OUTDIR)"
    
$(OUTDIR)\CalculatorService.wsdl.c: CalculatorService.wsdl
     Wsutil.exe /wsdl:CalculatorService.wsdl /string:WS_STRING /out:$(OUTDIR)
    
$(OUTDIR)\CalculatorService.wsdl.obj: $(OUTDIR)\CalculatorService.wsdl.c
    $(cc) $(cdebug) $(cflags) $(cvarsmt) /WX -I$(OUTDIR) /Fo"$(OUTDIR)\\" /Fd"$(OUTDIR)\\" $(OUTDIR)\CalculatorService.wsdl.c

$(OUTDIR)\HttpCalculatorWithLayeredChannelService.obj: HttpCalculatorWithLayeredChannelService.cpp $(OUTDIR)\CalculatorService.wsdl.c
    $(cc) $(cdebug) $(cflags) $(cvarsmt) /WX -I$(OUTDIR) /Fo"$(OUTDIR)\\" /Fd"$(OUTDIR)\\" HttpCalculatorWithLayeredChannelService.cpp

$(OUTDIR)\LayeredChannel.obj: LayeredChannel.cpp
    $(cc) $(cdebug) $(cflags) $(cvarsmt) /WX -I$(OUTDIR) /Fo"$(OUTDIR)\\" /Fd"$(OUTDIR)\\" LayeredChannel.cpp

$(OUTDIR)\LayeredListener.obj: LayeredListener.cpp
    $(cc) $(cdebug) $(cflags) $(cvarsmt) /WX -I$(OUTDIR) /Fo"$(OUTDIR)\\" /Fd"$(OUTDIR)\\" LayeredListener.cpp
    
$(OUTDIR)\WsHttpCalculatorWithLayeredChannelService.exe: $(OUTDIR)\HttpCalculatorWithLayeredChannelService.obj $(OUTDIR)\CalculatorService.wsdl.obj $(OUTDIR)\LayeredChannel.obj $(OUTDIR)\LayeredListener.obj
    $(link) $(ldebug) $(conlflags) $(conlibsmt) $(EXTRA_LIBS) -out:$(OUTDIR)\WsHttpCalculatorWithLayeredChannelService.exe $(OUTDIR)\HttpCalculatorWithLayeredChannelService.obj $(OUTDIR)\CalculatorService.wsdl.obj $(OUTDIR)\LayeredChannel.obj $(OUTDIR)\LayeredListener.obj /PDB:$(OUTDIR)\WsHttpCalculatorWithLayeredChannelService.PDB

clean:
    $(CLEANUP)