There's a game that I'm trying to automate some actions on.

I've used SendInput in the past very successfully. However, with this application I can't get the mouse click to work. I've tested it using other applications and it all works as expected.

Can applications block my use of SendInput? And if so, can I get around it somehow?

Side note: I'm writing code in C# and running on Windows 7 x64. The app I'm trying to interact with is x86. I don't know if this makes a difference? I've testing my code interacting with both x64 and x86 apps.


Short answer: No. (Not the call to SendInput, but the input can be filtered. See update below.)

If you look at the parameters for SendInput there is nothing that identifies a process. The input is sent to the system, not an application. An application has no way of telling the difference between real and synthesized input.

There are a number of reasons why an application will not respond to synthesized input. As explained in the documentation for SendInput this API is subject to UIPI. An application running at a higher integrity level than an application calling SendInput will not receive this input.

Although SendInput injects input at a lower level than DirectInput runs, DirectInput is apparently more susceptible to buggy code. See Simulating Keyboard with SendInput API in DirectInput applications for reference.

Update (2016-05-01):
Besides issues with UIPI, preventing input from reaching an application, it is also possible for a low-level keyboard/mouse hook to identify injected input. Both the KBDLLHOOKSTRUCT (passed to the LowLevelKeyboardProc callback) as well as the MSLLHOOKSTRUCT (passed to the LowLevelMouseProc callback) contain a flags member, that have the LLKHF_INJECTED or LLMHF_INJECTED flag set, in case the input is injected.

An application can thus install a low-level keyboard/mouse hook to filter out messages that are injected. If this is the case, a potential workaround (without writing a keyboard driver) is, to install a low-level keyboard/mouse hook after the application did, and prevent input to reach the application's hook by not calling CallNextHookEx (hooks are called in reverse order they are installed, from last to first).

Note: The workaround is deliberately short-circuiting installed hooks, thereby likely breaking other applications. Besides, if an application decided to implement a low-level hook to filter out injected input, it may just as well guard against competing low-level hooks by frequently re-installing itself to the top of the hook chain, this rendering the workaround useless.

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  • Thanks for the response. I assume if I run as administrator, that would get round any UIPI problem? If that's the case, then I can discount that. – Will Calderwood Oct 15 '13 at 14:35

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