/********************************************************************************/ /* */ /* */ /* Written by Ken Goldman */ /* IBM Thomas J. Watson Research Center */ /* $Id: Simulator_fp.h 1658 2021-01-22 23:14:01Z kgoldman $ */ /* */ /* Licenses and Notices */ /* */ /* 1. Copyright Licenses: */ /* */ /* - Trusted Computing Group (TCG) grants to the user of the source code in */ /* this specification (the "Source Code") a worldwide, irrevocable, */ /* nonexclusive, royalty free, copyright license to reproduce, create */ /* derivative works, distribute, display and perform the Source Code and */ /* derivative works thereof, and to grant others the rights granted herein. */ /* */ /* - The TCG grants to the user of the other parts of the specification */ /* (other than the Source Code) the rights to reproduce, distribute, */ /* display, and perform the specification solely for the purpose of */ /* developing products based on such documents. */ /* */ /* 2. 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From TcpServer.c */ /* D.2.1.1. PlatformServer() */ /* Moved to TpmServer_fp.h because it's different for Windows and Unix */ /* D.2.2. From TPMCmdp.c */ /* D.2.2.1. Signal_PowerOn() */ /* This function processes a power-on indication. Among other things, it calls the _TPM_Init() handler. */ void _rpc__Signal_PowerOn( bool isReset ); /* D.2.2.2. Signal_Restart() */ /* This function processes the clock restart indication. All it does is call the platform function. */ void _rpc__Signal_Restart( void ); /* D.2.2.3. Signal_PowerOff() */ /* This function processes the power off indication. Its primary function is to set a flag indicating that the next power on indication should cause _TPM_Init() to be called. */ void _rpc__Signal_PowerOff( void ); #if 0 /* libtpms added */ /* D.2.2.4. _rpc__ForceFailureMode() */ /* This function is used to debug the Failure Mode logic of the TPM. It will set a flag in the TPM code such that the next call to TPM2_SelfTest() will result in a failure, putting the TPM into Failure Mode. */ void _rpc__ForceFailureMode( void ); /* D.2.2.5. _rpc__Signal_PhysicalPresenceOn() */ /* This function is called to simulate activation of the physical presence pin. */ void _rpc__Signal_PhysicalPresenceOn( void ); /* D.2.2.6. _rpc__Signal_PhysicalPresenceOff() */ /* This function is called to simulate deactivation of the physical presence pin. */ void _rpc__Signal_PhysicalPresenceOff( void ); /* D.2.2.7. _rpc__Signal_Hash_Start() */ /* This function is called to simulate a _TPM_Hash_Start() event. It will call */ void _rpc__Signal_Hash_Start( void ); /* D.2.2.8. _rpc__Signal_Hash_Data() */ /* This function is called to simulate a _TPM_Hash_Data() event. */ void _rpc__Signal_Hash_Data( _IN_BUFFER input ); /* D.2.2.9. _rpc__Signal_HashEnd() */ /* This function is called to simulate a _TPM_Hash_End() event. */ void _rpc__Signal_HashEnd( void ); #endif /* libtpms added */ /* rpc__Send_Command() This is the interface to the TPM code. */ void _rpc__Send_Command( unsigned char locality, _IN_BUFFER request, _OUT_BUFFER *response ); /* D.2.2.10. _rpc__Signal_CancelOn() */ /* This function is used to turn on the indication to cancel a command in process. An executing command is not interrupted. The command code may periodically check this indication to see if it should abort the current command processing and returned TPM_RC_CANCELLED. */ void _rpc__Signal_CancelOn( void ); /* D.2.2.11. _rpc__Signal_CancelOff() */ /* This function is used to turn off the indication to cancel a command in process. */ void _rpc__Signal_CancelOff( void ); /* D.2.2.12. _rpc__Signal_NvOn() */ /* In a system where the NV memory used by the TPM is not within the TPM, the NV may not always be available. This function turns on the indicator that indicates that NV is available. */ void _rpc__Signal_NvOn( void ); #if 0 /* libtpms added */ /* D.2.2.13. _rpc__Signal_NvOff() */ /* This function is used to set the indication that NV memory is no longer available. */ void _rpc__Signal_NvOff( void ); /* D.2.2.14. _rpc__RsaKeyCacheControl() */ /* This function is used to enable/disable the use of the RSA key cache during simulation. */ void _rpc__RsaKeyCacheControl( int state ); /* D.4.2.15. _rpc__ACT_GetSignaled() */ bool _rpc__ACT_GetSignaled( uint32_t actHandle ); /* D.2.3. From TPMCmds.c */ /* D.2.3.1. main() */ /* This is the main entry point for the simulator. */ int main( int argc, char *argv[] ); #endif /* libtpms added */ /* libtpms added begin */ void _rpc__Signal_SetTPMEstablished(void); bool _rpc__Signal_GetTPMEstablished(void); void _rpc__Signal_ResetTPMEstablished(void); bool _rpc__Signal_IsPowerOn(void); /* libtpms added end */ #endif // _SIMULATOR_FP_H_