shaka-packager/tools/measure_page_load_time/ie_bho/MeasurePageLoadTimeBHO.cpp

293 lines
9.3 KiB
C++
Raw Normal View History

// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Implements a Browser Helper Object (BHO) which opens a socket
// and waits to receive URLs over it. Visits those URLs, measuring
// how long it takes between the start of navigation and the
// DocumentComplete event, and returns the time in milliseconds as
// a string to the caller.
#include "stdafx.h"
#include "MeasurePageLoadTimeBHO.h"
#define MAX_URL 1024 // size of URL buffer
#define MAX_PAGELOADTIME (4*60*1000) // assume all pages take < 4 minutes
#define PORT 42492 // port to listen on. Also jhaas's
// old MSFT employee number
// Static function to serve as thread entry point, takes a "this"
// pointer as pParam and calls the method in the object
static DWORD WINAPI ProcessPageTimeRequests(LPVOID pThis) {
reinterpret_cast<CMeasurePageLoadTimeBHO*>(pThis)->ProcessPageTimeRequests();
return 0;
}
STDMETHODIMP CMeasurePageLoadTimeBHO::SetSite(IUnknown* pUnkSite)
{
if (pUnkSite != NULL)
{
// Cache the pointer to IWebBrowser2.
HRESULT hr = pUnkSite->QueryInterface(IID_IWebBrowser2, (void **)&m_spWebBrowser);
if (SUCCEEDED(hr))
{
// Register to sink events from DWebBrowserEvents2.
hr = DispEventAdvise(m_spWebBrowser);
if (SUCCEEDED(hr))
{
m_fAdvised = TRUE;
}
// Stash the interface in the global interface table
CComGITPtr<IWebBrowser2> git(m_spWebBrowser);
m_dwCookie = git.Detach();
// Create the event to be signaled when navigation completes.
// Start it in nonsignaled state, and allow it to be triggered
// when the initial page load is done.
m_hEvent = CreateEvent(NULL, FALSE, FALSE, NULL);
// Create a thread to wait on the socket
HANDLE hThread = CreateThread(NULL, 0, ::ProcessPageTimeRequests, this, 0, NULL);
}
}
else
{
// Unregister event sink.
if (m_fAdvised)
{
DispEventUnadvise(m_spWebBrowser);
m_fAdvised = FALSE;
}
// Release cached pointers and other resources here.
m_spWebBrowser.Release();
}
// Call base class implementation.
return IObjectWithSiteImpl<CMeasurePageLoadTimeBHO>::SetSite(pUnkSite);
}
void STDMETHODCALLTYPE CMeasurePageLoadTimeBHO::OnDocumentComplete(IDispatch *pDisp, VARIANT *pvarURL)
{
if (pDisp == m_spWebBrowser)
{
// Fire the event when the page is done loading
// to unblock the other thread.
SetEvent(m_hEvent);
}
}
void CMeasurePageLoadTimeBHO::ProcessPageTimeRequests()
{
CoInitialize(NULL);
// The event will start in nonsignaled state, meaning that
// the initial page load isn't done yet. Wait for that to
// finish before doing anything.
//
// It seems to be the case that the BHO will get loaded
// and SetSite called always before the initial page load
// even begins, but just to be on the safe side, we won't
// wait indefinitely.
WaitForSingleObject(m_hEvent, MAX_PAGELOADTIME);
// Retrieve the web browser interface from the global table
CComGITPtr<IWebBrowser2> git(m_dwCookie);
IWebBrowser2* browser;
git.CopyTo(&browser);
// Create a listening socket
m_sockListen = socket(AF_INET, SOCK_STREAM, IPPROTO_TCP);
if (m_sockListen == SOCKET_ERROR)
ErrorExit();
BOOL on = TRUE;
if (setsockopt(m_sockListen, SOL_SOCKET, SO_REUSEADDR,
(const char*)&on, sizeof(on)))
ErrorExit();
// Bind the listening socket
SOCKADDR_IN addrBind;
addrBind.sin_family = AF_INET;
addrBind.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
addrBind.sin_port = htons(PORT);
if (bind(m_sockListen, (sockaddr*)&addrBind, sizeof(addrBind)))
ErrorExit();
// Listen for incoming connections
if (listen(m_sockListen, 1))
ErrorExit();
// Ensure the socket is blocking... it should be by default, but
// it can't hurt to make sure
unsigned long nNonblocking = 0;
if (ioctlsocket(m_sockListen, FIONBIO, &nNonblocking))
ErrorExit();
m_sockTransport = 0;
// Loop indefinitely waiting for connections
while(1)
{
SOCKADDR_IN addrConnected;
int sConnected = sizeof(addrConnected);
// Wait for a client to connect and send a URL
m_sockTransport = accept(
m_sockListen, (sockaddr*)&addrConnected, &sConnected);
if (m_sockTransport == SOCKET_ERROR)
ErrorExit();
char pbBuffer[MAX_URL], strURL[MAX_URL];
DWORD cbRead, cbWritten;
bool fDone = false;
// Loop until we're done with this client
while (!fDone)
{
*strURL = '\0';
bool fReceivedCR = false;
do
{
// Only receive up to the first carriage return
cbRead = recv(m_sockTransport, pbBuffer, MAX_URL-1, MSG_PEEK);
// An error on read most likely means that the remote peer
// closed the connection. Go back to waiting
if (cbRead == 0)
{
fDone = true;
break;
}
// Null terminate the received characters so strchr() is safe
pbBuffer[cbRead] = '\0';
if(char* pchFirstCR = strchr(pbBuffer, '\n'))
{
cbRead = (DWORD)(pchFirstCR - pbBuffer + 1);
fReceivedCR = true;
}
// The below call will not block, since we determined with
// MSG_PEEK that at least cbRead bytes are in the TCP receive buffer
recv(m_sockTransport, pbBuffer, cbRead, 0);
pbBuffer[cbRead] = '\0';
strcat_s(strURL, sizeof(strURL), pbBuffer);
} while (!fReceivedCR);
// If an error occurred while reading, exit this loop
if (fDone)
break;
// Strip the trailing CR and/or LF
int i;
for (i = (int)strlen(strURL)-1; i >= 0 && isspace(strURL[i]); i--)
{
strURL[i] = '\0';
}
if (i < 0)
{
// Sending a carriage return on a line by itself means that
// the client is done making requests
fDone = true;
}
else
{
// Send the browser to the requested URL
CComVariant vNavFlags( navNoReadFromCache );
CComVariant vTargetFrame("_self");
CComVariant vPostData("");
CComVariant vHTTPHeaders("");
ResetEvent(m_hEvent);
DWORD dwStartTime = GetTickCount();
HRESULT hr = browser->Navigate(
CComBSTR(strURL),
&vNavFlags,
&vTargetFrame, // TargetFrameName
&vPostData, // PostData
&vHTTPHeaders // Headers
);
// The main browser thread will call OnDocumentComplete() when
// the page is done loading, which will in turn trigger
// m_hEvent. Wait here until then; the event will reset itself
// once this thread is released
if (WaitForSingleObject(m_hEvent, MAX_PAGELOADTIME) == WAIT_TIMEOUT)
{
sprintf_s(pbBuffer, sizeof(pbBuffer), "%s,timeout\n", strURL);
browser->Stop();
}
else
{
// Format the elapsed time as a string
DWORD dwLoadTime = GetTickCount() - dwStartTime;
sprintf_s(
pbBuffer, sizeof(pbBuffer), "%s,%d\n", strURL, dwLoadTime);
}
// Send the result. Just in case the TCP buffer can't handle
// the whole thing, send in parts if necessary
char *chSend = pbBuffer;
while (*chSend)
{
cbWritten = send(
m_sockTransport, chSend, (int)strlen(chSend), 0);
// Error on send probably means connection reset by peer
if (cbWritten == 0)
{
fDone = true;
break;
}
chSend += cbWritten;
}
}
}
// Close the transport socket and wait for another connection
closesocket(m_sockTransport);
m_sockTransport = 0;
}
}
void CMeasurePageLoadTimeBHO::ErrorExit()
{
// Unlink from IE, close the sockets, then terminate this
// thread
SetSite(NULL);
if (m_sockTransport && m_sockTransport != SOCKET_ERROR)
{
closesocket(m_sockTransport);
m_sockTransport = 0;
}
if (m_sockListen && m_sockListen != SOCKET_ERROR)
{
closesocket(m_sockListen);
m_sockListen = 0;
}
TerminateThread(GetCurrentThread(), -1);
}