// === GLOBALS ===
MODULE_DEFINE(0, 0x100, VM8086, VM8086_Install, NULL, NULL);
-tSpinlock glVM8086_Process;
+tMutex glVM8086_Process;
tPID gVM8086_WorkerPID;
tTID gVM8086_CallingThread;
tVM8086 volatile * volatile gpVM8086_State = (void*)-1; // Set to -1 to avoid race conditions
tPID pid;
// Lock to avoid race conditions
- LOCK( &glVM8086_Process );
+ Mutex_Acquire( &glVM8086_Process );
// Create BIOS Call process
pid = Proc_Clone(NULL, CLONE_VM);
{
if( gpVM8086_State == (void*)-1 ) {
Log_Log("VM8086", "Worker thread ready and waiting");
- RELEASE( &glVM8086_Process ); // Release lock obtained in VM8086_Install
+ Mutex_Release( &glVM8086_Process ); // Release lock obtained in VM8086_Install
gpVM8086_State = NULL;
}
//Log_Log("VM8086", "gpVM8086_State = %p, gVM8086_CallingThread = %i",
State->IP = *(Uint16*)(KERNEL_BASE+4*Interrupt);
State->CS = *(Uint16*)(KERNEL_BASE+4*Interrupt+2);
- LOCK( &glVM8086_Process );
+ Mutex_Acquire( &glVM8086_Process );
gpVM8086_State = State;
gVM8086_CallingThread = Threads_GetTID();
while( gpVM8086_State != NULL )
Threads_Yield();
- RELEASE( &glVM8086_Process );
+ Mutex_Release( &glVM8086_Process );
}