reactos/base/applications/rapps/asyncinet.cpp
Joachim Henze a9b1e059f4
[RAPPS] Style-addendum, no functional change (#5091)
* Just rename the 4 new files. Absolutely no other change.
* CMakeLists.txt, adapt the filenames
* Adapt all includes to make it compile
* CApplicationDB->CAppDB
* CApplicationInfo->CAppInfo
* Follow Mark Jansens good example and antipad the headers
2023-02-28 01:00:29 +01:00

453 lines
13 KiB
C++

/*
* PROJECT: ReactOS Applications Manager
* LICENSE: GPL-2.0-or-later (https://spdx.org/licenses/GPL-2.0-or-later)
* PURPOSE: Async Internet operation using WinINet
* COPYRIGHT: Copyright 2020 He Yang (1160386205@qq.com)
*/
#include "rapps.h"
#include <wininet.h>
#include <atlbase.h>
#include "asyncinet.h"
BOOL AsyncInetIsCanceled(pASYNCINET AsyncInet);
BOOL AsyncInetAcquire(pASYNCINET AsyncInet);
VOID AsyncInetRelease(pASYNCINET AsyncInet);
int AsyncInetPerformCallback(pASYNCINET AsyncInet,
ASYNC_EVENT Event,
WPARAM wParam,
LPARAM lParam
);
VOID CALLBACK AsyncInetStatusCallback(
HINTERNET hInternet,
DWORD_PTR dwContext,
DWORD dwInternetStatus,
LPVOID lpvStatusInformation,
DWORD dwStatusInformationLength
);
VOID AsyncInetReadFileLoop(pASYNCINET AsyncInet);
BOOL AsyncInetCleanUp(pASYNCINET AsyncInet);
VOID AsyncInetFree(pASYNCINET AsyncInet);
pASYNCINET AsyncInetDownload(LPCWSTR lpszAgent,
DWORD dwAccessType,
LPCWSTR lpszProxy,
LPCWSTR lpszProxyBypass,
LPCWSTR lpszUrl,
BOOL bAllowCache,
ASYNCINET_CALLBACK Callback,
VOID* Extension
) // allocate memory for AsyncInet and start a download task
{
pASYNCINET AsyncInet = NULL;
BOOL bSuccess = FALSE;
DWORD InetOpenUrlFlag = 0;
INTERNET_STATUS_CALLBACK OldCallbackFunc;
AsyncInet = (pASYNCINET)HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(ASYNCINET));
if (!AsyncInet)
{
OutputDebugStringA("At File: " __FILE__ " HeapAlloc returned 0\n");
return 0;
}
AsyncInet->bCancelled = FALSE;
AsyncInet->hInternet = NULL;
AsyncInet->hInetFile = NULL;
AsyncInet->Callback = Callback;
AsyncInet->Extension = Extension;
AsyncInet->hEventHandleCreated = CreateEvent(NULL, FALSE, FALSE, NULL);
InitializeCriticalSection(&(AsyncInet->CriticalSection));
AsyncInet->ReferenceCnt = 1; // 1 for callee itself
AsyncInet->hEventHandleClose = CreateEvent(NULL, FALSE, FALSE, NULL);
if (AsyncInet->hEventHandleCreated && AsyncInet->hEventHandleClose)
{
AsyncInet->hInternet = InternetOpenW(lpszAgent, dwAccessType, lpszProxy, lpszProxyBypass, INTERNET_FLAG_ASYNC);
if (AsyncInet->hInternet)
{
OldCallbackFunc = InternetSetStatusCallbackW(AsyncInet->hInternet, AsyncInetStatusCallback);
if (OldCallbackFunc != INTERNET_INVALID_STATUS_CALLBACK)
{
InetOpenUrlFlag |= INTERNET_FLAG_PASSIVE | INTERNET_FLAG_RESYNCHRONIZE;
if (!bAllowCache)
{
InetOpenUrlFlag |= INTERNET_FLAG_DONT_CACHE | INTERNET_FLAG_PRAGMA_NOCACHE | INTERNET_FLAG_RELOAD;
}
AsyncInet->hInetFile = InternetOpenUrlW(AsyncInet->hInternet, lpszUrl, 0, 0, InetOpenUrlFlag, (DWORD_PTR)AsyncInet);
if (AsyncInet->hInetFile)
{
// operate complete synchronously
bSuccess = TRUE;
AsyncInetReadFileLoop(AsyncInet);
}
else
{
if (GetLastError() == ERROR_IO_PENDING)
{
// everything fine. waiting for handle created
switch (WaitForSingleObject(AsyncInet->hEventHandleCreated, INFINITE))
{
case WAIT_OBJECT_0:
if (AsyncInet->hInetFile)
{
bSuccess = TRUE;
}
}
}
}
}
}
}
if (!bSuccess)
{
AsyncInetFree(AsyncInet);
AsyncInet = NULL;
}
if (AsyncInet)
{
// add reference count for caller.
// the caller is responsible for call AsyncInetRelease when no longer using it.
AsyncInetAcquire(AsyncInet);
}
return AsyncInet;
}
BOOL AsyncInetCancel(pASYNCINET AsyncInet) // mark as cancelled (this will send a cancel notificaion at last) and do graceful cleanup.
{
if (AsyncInet)
{
HINTERNET hInetFile;
EnterCriticalSection(&(AsyncInet->CriticalSection));
AsyncInet->bCancelled = TRUE;
hInetFile = AsyncInet->hInetFile;
AsyncInet->hInetFile = NULL;
LeaveCriticalSection(&(AsyncInet->CriticalSection));
if (hInetFile)
{
InternetCloseHandle(hInetFile);
return TRUE;
}
}
return FALSE;
}
BOOL AsyncInetIsCanceled(pASYNCINET AsyncInet) // if returned TRUE, no operation should be exectued further
{
if (AsyncInet)
{
EnterCriticalSection(&(AsyncInet->CriticalSection));
if (AsyncInet->bCancelled)
{
LeaveCriticalSection(&(AsyncInet->CriticalSection));
return TRUE;
}
LeaveCriticalSection(&(AsyncInet->CriticalSection));
}
return FALSE;
}
BOOL AsyncInetAcquire(pASYNCINET AsyncInet) // try to increase refcnt by 1. if returned FALSE, AsyncInet should not be used anymore
{
BOOL bResult = FALSE;
if (AsyncInet)
{
EnterCriticalSection(&(AsyncInet->CriticalSection));
ATLASSERT(AsyncInet->ReferenceCnt > 0);
if (!AsyncInetIsCanceled(AsyncInet))
{
AsyncInet->ReferenceCnt++;
bResult = TRUE;
}
// otherwise (AsyncInet->bCleanUp == TRUE)
// AsyncInetAcquire will return FALSE.
// In this case, any thread should no longer use this AsyncInet
LeaveCriticalSection(&(AsyncInet->CriticalSection));
}
return bResult;
}
VOID AsyncInetRelease(pASYNCINET AsyncInet) // try to decrease refcnt by 1
{
BOOL bCleanUp = FALSE;
if (AsyncInet)
{
EnterCriticalSection(&(AsyncInet->CriticalSection));
ATLASSERT(AsyncInet->ReferenceCnt);
AsyncInet->ReferenceCnt--;
if (AsyncInet->ReferenceCnt == 0)
{
bCleanUp = TRUE;
}
LeaveCriticalSection(&(AsyncInet->CriticalSection));
if (bCleanUp)
{
AsyncInetCleanUp(AsyncInet);
}
}
}
int AsyncInetPerformCallback(pASYNCINET AsyncInet,
ASYNC_EVENT Event,
WPARAM wParam,
LPARAM lParam
)
{
if (AsyncInet && AsyncInet->Callback)
{
return AsyncInet->Callback(AsyncInet, Event, wParam, lParam, AsyncInet->Extension);
}
return 0;
}
VOID CALLBACK AsyncInetStatusCallback(
HINTERNET hInternet,
DWORD_PTR dwContext,
DWORD dwInternetStatus,
LPVOID lpvStatusInformation,
DWORD dwStatusInformationLength
)
{
pASYNCINET AsyncInet = (pASYNCINET)dwContext;
switch (dwInternetStatus)
{
case INTERNET_STATUS_HANDLE_CREATED:
{
// retrieve handle created by InternetOpenUrlW
AsyncInet->hInetFile = *((LPHINTERNET)lpvStatusInformation);
SetEvent(AsyncInet->hEventHandleCreated);
break;
}
case INTERNET_STATUS_HANDLE_CLOSING:
{
if (AsyncInetIsCanceled(AsyncInet))
{
AsyncInetPerformCallback(AsyncInet, ASYNCINET_CANCELLED, 0, 0);
}
SetEvent(AsyncInet->hEventHandleClose);
break;
}
case INTERNET_STATUS_REQUEST_COMPLETE:
{
INTERNET_ASYNC_RESULT* AsyncResult = (INTERNET_ASYNC_RESULT*)lpvStatusInformation;
if (!AsyncInet->hInetFile)
{
if (!AsyncInetIsCanceled(AsyncInet))
{
// some error occurs during InternetOpenUrl
// and INTERNET_STATUS_HANDLE_CREATED is skipped
SetEvent(AsyncInet->hEventHandleCreated);
break;
}
}
switch (AsyncResult->dwError)
{
case ERROR_SUCCESS:
{
// there are two possibilities:
// 1: InternetOpenUrlW (async mode) complete. (this should be only for the first time)
// 2: InternetReadFile (async mode) complete.
// so I use bIsOpenUrlComplete field in ASYNCINET to indicate this.
if (!(AsyncInet->bIsOpenUrlComplete)) // InternetOpenUrlW completed
{
AsyncInet->bIsOpenUrlComplete = TRUE;
}
else // asynchronous InternetReadFile complete
{
AsyncInetPerformCallback(AsyncInet, ASYNCINET_DATA, (WPARAM)(AsyncInet->ReadBuffer), (LPARAM)(AsyncInet->BytesRead));
}
AsyncInetReadFileLoop(AsyncInet);
}
break;
case ERROR_INVALID_HANDLE:
case ERROR_INTERNET_OPERATION_CANCELLED:
case ERROR_CANCELLED:
if (AsyncInetIsCanceled(AsyncInet))
{
AsyncInetRelease(AsyncInet);
break;
}
// fall down
default:
// something went wrong
if (AsyncInetIsCanceled(AsyncInet))
{
// sending both ASYNCINET_ERROR and ASYNCINET_CANCELLED may lead to unpredictable behavior
// TODO: log the error
AsyncInetRelease(AsyncInet);
}
else
{
AsyncInetPerformCallback(AsyncInet, ASYNCINET_ERROR, 0, (LPARAM)(AsyncResult->dwError));
AsyncInetRelease(AsyncInet);
}
break;
}
break;
}
}
return;
}
VOID AsyncInetReadFileLoop(pASYNCINET AsyncInet)
{
if ((!AsyncInet) || (!AsyncInet->hInetFile))
{
return;
}
while (1)
{
if (AsyncInetIsCanceled(AsyncInet))
{
// abort now.
AsyncInetRelease(AsyncInet);
break;
}
BOOL bRet = InternetReadFile(AsyncInet->hInetFile,
AsyncInet->ReadBuffer,
_countof(AsyncInet->ReadBuffer),
&(AsyncInet->BytesRead));
if (bRet)
{
if (AsyncInet->BytesRead == 0)
{
// everything read. now complete.
AsyncInetPerformCallback(AsyncInet, ASYNCINET_COMPLETE, 0, 0);
AsyncInetRelease(AsyncInet);
break;
}
else
{
// read completed immediately.
AsyncInetPerformCallback(AsyncInet, ASYNCINET_DATA, (WPARAM)(AsyncInet->ReadBuffer), (LPARAM)(AsyncInet->BytesRead));
}
}
else
{
DWORD dwError;
if ((dwError = GetLastError()) == ERROR_IO_PENDING)
{
// performing asynchronous IO, everything OK.
break;
}
else
{
if (dwError == ERROR_INVALID_HANDLE ||
dwError == ERROR_INTERNET_OPERATION_CANCELLED ||
dwError == ERROR_CANCELLED)
{
if (AsyncInetIsCanceled(AsyncInet))
{
// not an error. just normally cancelling
AsyncInetRelease(AsyncInet);
break;
}
}
if (!AsyncInetIsCanceled(AsyncInet)) // can not send both ASYNCINET_ERROR and ASYNCINET_CANCELLED
{
AsyncInetPerformCallback(AsyncInet, ASYNCINET_ERROR, 0, dwError);
}
else
{
// TODO: log the error
}
AsyncInetRelease(AsyncInet);
break;
}
}
}
return;
}
BOOL AsyncInetCleanUp(pASYNCINET AsyncInet) // close all handle and clean up
{
if (AsyncInet)
{
ATLASSERT(AsyncInet->ReferenceCnt == 0);
// close the handle, waiting for all pending request cancelled.
if (AsyncInet->bCancelled) // already closed
{
AsyncInet->hInetFile = NULL;
}
else if (AsyncInet->hInetFile)
{
InternetCloseHandle(AsyncInet->hInetFile);
AsyncInet->hInetFile = NULL;
}
// only cleanup when handle closed notification received
switch (WaitForSingleObject(AsyncInet->hEventHandleClose, INFINITE))
{
case WAIT_OBJECT_0:
{
AsyncInetFree(AsyncInet); // now safe to free the structure
return TRUE;
}
default:
ATLASSERT(FALSE);
AsyncInetFree(AsyncInet);
return FALSE;
}
}
else
{
return FALSE;
}
}
VOID AsyncInetFree(pASYNCINET AsyncInet) // close all handles, free the memory occupied by AsyncInet
{
if (AsyncInet)
{
DeleteCriticalSection(&(AsyncInet->CriticalSection));
if (AsyncInet->hEventHandleCreated)
{
CloseHandle(AsyncInet->hEventHandleCreated);
AsyncInet->hEventHandleCreated = NULL;
}
if (AsyncInet->hEventHandleClose)
{
CloseHandle(AsyncInet->hEventHandleClose);
AsyncInet->hEventHandleClose = NULL;
}
if (AsyncInet->hInternet)
{
InternetCloseHandle(AsyncInet->hInternet);
AsyncInet->hInternet = NULL;
}
if (AsyncInet->hInetFile)
{
InternetCloseHandle(AsyncInet->hInetFile);
AsyncInet->hInetFile = NULL;
}
HeapFree(GetProcessHeap(), 0, AsyncInet);
}
}