irq.c
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00001 /*****************************************************************************
00002  *   irq.c: Interrupt handler C file for Philips LPC214x Family Microprocessors
00003  *
00004  *   Copyright(C) 2006, Philips Semiconductor
00005  *   All rights reserved.
00006  *
00007  *   History
00008  *   2005.10.01  ver 1.00    Prelimnary version, first Release
00009  *
00010 ******************************************************************************/
00011 #include "LPC214x.h"                    /* LPC23XX Peripheral Registers */
00012 #include "irq.h"
00013 
00014 #ifndef NULL
00015 #define NULL    ((void *)0)
00016 #endif
00017 
00018 #ifndef FALSE
00019 #define FALSE   (0)
00020 #endif
00021 
00022 #ifndef TRUE
00023 #define TRUE    (1)
00024 #endif
00025 
00026 
00027 /******************************************************************************
00028 ** Function name:               DefaultVICHandler
00029 **
00030 ** Descriptions:                Default VIC interrupt handler.
00031 **                              This handler is set to deal with spurious 
00032 **                              interrupt.
00033 **                              If the IRQ service routine reads the VIC
00034 **                              address register, and no IRQ slot responses
00035 **                              as described above, this address is returned.
00036 ** parameters:                  None
00037 ** Returned value:              None
00038 ** 
00039 ******************************************************************************/
00040 // mthomas: inserted static to avoid gcc-warning
00041 static void DefaultVICHandler (void) __irq 
00042 {
00043     /* if the IRQ is not installed into the VIC, and interrupt occurs, the
00044     default interrupt VIC address will be used. This could happen in a race 
00045     condition. For debugging, use this endless loop to trace back. */
00046     /* For more details, see Philips appnote AN10414 */
00047     VICVectAddr = 0;            /* Acknowledge Interrupt */ 
00048     while ( 1 );
00049 }
00050 
00051 /* Initialize the interrupt controller */
00052 /******************************************************************************
00053 ** Function name:               init_VIC
00054 **
00055 ** Descriptions:                Initialize VIC interrupt controller.
00056 ** parameters:                  None
00057 ** Returned value:              None
00058 ** 
00059 ******************************************************************************/
00060 void init_VIC(void) 
00061 {
00062     unsigned long i = 0;
00063     unsigned long *vect_addr, *vect_cntl;
00064         
00065     /* initialize VIC*/
00066     VICIntEnClr = 0xffffffff;
00067     VICVectAddr = 0;
00068     VICIntSelect = 0;
00069 
00070     /* set all the vector and vector control register to 0 */
00071     for ( i = 0; i < VIC_SIZE; i++ )
00072     {
00073         vect_addr = (unsigned long *)(VIC_BASE_ADDR + VECT_ADDR_INDEX + i*4);
00074         vect_cntl = (unsigned long *)(VIC_BASE_ADDR + VECT_CNTL_INDEX + i*4);
00075         *vect_addr = 0; 
00076         *vect_cntl = 0;
00077     }
00078 
00079     /* Install the default VIC handler here */
00080     VICDefVectAddr = (unsigned long)DefaultVICHandler;   
00081     return;
00082 }
00083 
00084 /******************************************************************************
00085 ** Function name:               install_irq
00086 **
00087 ** Descriptions:                Install interrupt handler
00088 **                              The max VIC size is 16, but, there are 32 interrupt
00089 **                              request inputs. Not all of them can be installed into
00090 **                              VIC table at the same time.
00091 **                              The order of the interrupt request installation is
00092 **                              first come first serve.
00093 ** parameters:                  Interrupt number and interrupt handler address
00094 ** Returned value:              true or false, when the table is full, return false
00095 ** 
00096 ******************************************************************************/
00097 unsigned long install_irq( unsigned long IntNumber, void *HandlerAddr )
00098 {
00099     unsigned long i;
00100     unsigned long *vect_addr;
00101     unsigned long *vect_cntl;
00102       
00103     VICIntEnClr = 1 << IntNumber;       /* Disable Interrupt */
00104     
00105     for ( i = 0; i < VIC_SIZE; i++ )
00106     {
00107         /* find first un-assigned VIC address for the handler */
00108 
00109         vect_addr = (unsigned long *)(VIC_BASE_ADDR + VECT_ADDR_INDEX + i*4);
00110         vect_cntl = (unsigned long *)(VIC_BASE_ADDR + VECT_CNTL_INDEX + i*4);
00111         if ( *vect_addr == (unsigned long)NULL )
00112         {
00113             *vect_addr = (unsigned long)HandlerAddr;    /* set interrupt vector */
00114             *vect_cntl = (unsigned long)(IRQ_SLOT_EN | IntNumber);
00115             break;
00116         }
00117     }
00118     if ( i == VIC_SIZE )
00119     {
00120         return( FALSE );                /* fatal error, can't find empty vector slot */
00121     }
00122     VICIntEnable = 1 << IntNumber;      /* Enable Interrupt */
00123     return( TRUE );
00124 }
00125 
00126 /******************************************************************************
00127 ** Function name:               uninstall_irq
00128 **
00129 ** Descriptions:                Uninstall interrupt handler
00130 **                              Find the interrupt handler installed in the VIC
00131 **                              based on the interrupt number, set the location
00132 **                              back to NULL to uninstall it.
00133 ** parameters:                  Interrupt number
00134 ** Returned value:              true or false, when the interrupt number is not found, 
00135 **                              return false
00136 ** 
00137 ******************************************************************************/
00138 unsigned long uninstall_irq( unsigned long IntNumber )
00139 {
00140     unsigned long i;
00141     unsigned long *vect_addr;
00142     unsigned long *vect_cntl;
00143       
00144     VICIntEnClr = 1 << IntNumber;       /* Disable Interrupt */
00145     
00146     for ( i = 0; i < VIC_SIZE; i++ )
00147     {
00148         /* find first un-assigned VIC address for the handler */
00149         vect_addr = (unsigned long *)(VIC_BASE_ADDR + VECT_ADDR_INDEX + i*4);
00150         vect_cntl = (unsigned long *)(VIC_BASE_ADDR + VECT_CNTL_INDEX + i*4);
00151         if ( (*vect_cntl & ~IRQ_SLOT_EN ) == IntNumber )
00152         {
00153             *vect_addr = (unsigned long)NULL;   /* clear the VIC entry in the VIC table */
00154             *vect_cntl &= ~IRQ_SLOT_EN; /* disable SLOT_EN bit */       
00155             break;
00156         }
00157     }
00158     if ( i == VIC_SIZE )
00159     {
00160         return( FALSE );                /* fatal error, can't find interrupt number 
00161                                         in vector slot */
00162     }
00163     VICIntEnable = 1 << IntNumber;      /* Enable Interrupt */
00164     return( TRUE );
00165 }
00166 
00167 /******************************************************************************
00168 **                            End Of File
00169 ******************************************************************************/


ccny_asctec_firmware_2
Author(s): Ivan Dryanovski, Roberto G. Valenti
autogenerated on Tue Jan 7 2014 11:04:17