HIRS/tpm_module/libhis_clearkey.hpp

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2018-09-06 13:47:33 +00:00
#ifndef libhis_clearkey_hpp
#define libhis_clearkey_hpp
#ifdef WINDOWS
#include "tspi.h"
#include "tss_error.h"
#include "tss_defines.h"
#endif
#ifdef LINUX
#include <tss/tspi.h>
#include <tss/tss_error.h>
#include <tss/tss_defines.h>
#endif
#include "libhis_exception.hpp"
#include "libhis_utils.hpp"
class libhis_clearkey
{
public:
libhis_clearkey()
{
//set default values
init_key_size = TSS_KEY_SIZE_DEFAULT;
init_key_type = TSS_KEY_TYPE_DEFAULT;
init_key_authorized = TSS_KEY_AUTHORIZATION;
init_key_migratable = TSS_KEY_NOT_MIGRATABLE;
init_key_volatile = TSS_KEY_VOLATILE;
//create a context object
result = Tspi_Context_Create(&hcontext);
if(result != TSS_SUCCESS) throw libhis_exception("Create Conntext", result);
//create an SRK object
result = Tspi_Context_CreateObject(hcontext, TSS_OBJECT_TYPE_RSAKEY, TSS_KEY_TSP_SRK, &hkey_srk);
if(result != TSS_SUCCESS) throw libhis_exception("Create SRK", result);
//Create SRK policy
result = Tspi_Context_CreateObject(hcontext, TSS_OBJECT_TYPE_POLICY, TSS_POLICY_USAGE, &hpolicy_srk);
if(result != TSS_SUCCESS) throw libhis_exception("Create SRK Policy", result);
//combine the init flags
init_key = init_key_size | init_key_type | init_key_authorized | init_key_migratable | init_key_volatile;
//Create key object
result = Tspi_Context_CreateObject(hcontext, TSS_OBJECT_TYPE_RSAKEY, init_key, &hkey_key);
if(result != TSS_SUCCESS) throw libhis_exception("Create key", result);
//Create key policy
result = Tspi_Context_CreateObject(hcontext, TSS_OBJECT_TYPE_POLICY, TSS_POLICY_USAGE, &hpolicy_key);
if(result != TSS_SUCCESS) throw libhis_exception("Create key Policy", result);
}
void clearkey(
unsigned char *auth_srk_value,
unsigned long auth_srk_size,
bool auth_srk_sha1,
unsigned char *auth_key_value,
unsigned long auth_key_size,
bool auth_key_sha1,
unsigned char *uuid_key_value)
{
//establish a session
result = Tspi_Context_Connect(hcontext, 0);
if(result != TSS_SUCCESS) throw libhis_exception("Connect Context", result);
//get the TPM object
result = Tspi_Context_GetTpmObject(hcontext, &htpm);
if(result != TSS_SUCCESS) throw libhis_exception("Get TPM Object", result);
//load the SRK
TSS_UUID uuid_srk = TSS_UUID_SRK;
result = Tspi_Context_LoadKeyByUUID(hcontext, TSS_PS_TYPE_SYSTEM, uuid_srk, &hkey_srk);
if(result != TSS_SUCCESS) throw libhis_exception("Load SRK", result);
//set up SRK auth
if(auth_srk_sha1)
{
result = Tspi_Policy_SetSecret(hpolicy_srk, TSS_SECRET_MODE_SHA1, auth_srk_size, auth_srk_value);
if(result != TSS_SUCCESS) throw libhis_exception("Set SRK Secret SHA1", result);
}
else
{
result = Tspi_Policy_SetSecret(hpolicy_srk, TSS_SECRET_MODE_PLAIN, auth_srk_size, auth_srk_value);
if(result != TSS_SUCCESS) throw libhis_exception("Set SRK Secret Plain", result);
}
//assign the SRK auth
result = Tspi_Policy_AssignToObject(hpolicy_srk, hkey_srk);
if(result != TSS_SUCCESS) throw libhis_exception("Assign SRK Secret", result);
//Set up the key UUID
hextouuid(uuid_key_value, uuid_key);
//Get the key by UUID
result = Tspi_Context_GetKeyByUUID(hcontext, TSS_PS_TYPE_SYSTEM, uuid_key, &hkey_key);
if(result != TSS_SUCCESS) throw libhis_exception("Get key by UUID", result);
//set up key auth
if(auth_key_sha1)
{
result = Tspi_Policy_SetSecret(hpolicy_key, TSS_SECRET_MODE_SHA1, auth_key_size, auth_key_value);
if(result != TSS_SUCCESS) throw libhis_exception("Set key Secret SHA1", result);
}
else
{
result = Tspi_Policy_SetSecret(hpolicy_key, TSS_SECRET_MODE_PLAIN, auth_key_size, auth_key_value);
if(result != TSS_SUCCESS) throw libhis_exception("Set key Secret Plain", result);
}
//assign the key auth
result = Tspi_Policy_AssignToObject(hpolicy_key, hkey_key);
if(result != TSS_SUCCESS) throw libhis_exception("Assign key Secret", result);
//Unwrap the key
result = Tspi_Key_LoadKey(hkey_key, hkey_srk);
if(result != TSS_SUCCESS) throw libhis_exception("Unwrap key", result);
//Unregister the existing key
result = Tspi_Context_UnregisterKey(hcontext, TSS_PS_TYPE_SYSTEM, uuid_key, &hkey_key);
if(result != TSS_SUCCESS) throw libhis_exception("Unregister uuid", result);
return;
}
~libhis_clearkey()
{
//clean up key policy
result = Tspi_Context_CloseObject(hcontext, hpolicy_key);
if(result != TSS_SUCCESS) throw libhis_exception("Close key Policy", result);
//clean up key
result = Tspi_Context_CloseObject(hcontext, hkey_key);
if(result != TSS_SUCCESS) throw libhis_exception("Close key", result);
//clean up SRK policy
result = Tspi_Context_CloseObject(hcontext, hpolicy_srk);
if(result != TSS_SUCCESS) throw libhis_exception("Close SRK Policy", result);
//clean up SRK object
result = Tspi_Context_CloseObject(hcontext, hkey_srk);
if(result != TSS_SUCCESS) throw libhis_exception("Close SRK", result);
//close context
result = Tspi_Context_Close(hcontext);
if(result != TSS_SUCCESS) throw libhis_exception("Close Context", result);
}
private:
TSS_RESULT result;
TSS_HCONTEXT hcontext;
TSS_HTPM htpm;
TSS_HKEY hkey_srk,
hkey_key;
TSS_HPOLICY hpolicy_srk,
hpolicy_key;
TSS_UUID uuid_key;
UINT32 init_key,
init_key_size,
init_key_type,
init_key_authorized,
init_key_migratable,
init_key_volatile,
init_key_scheme;
};
#endif