Difference between revisions of "Bootloader"

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(Interrupt Vector)
(Interrupt Vector Table)
Line 20: Line 20:
 
void R_uartInterrupt() __interrupt (4) _naked {
 
void R_uartInterrupt() __interrupt (4) _naked {
 
_asm
 
_asm
mov a, _IrqVector ; compare IrqVector to 0
+
mov a, _IrqVector ; compare IrqVector to 0
 
jnz 00001$
 
jnz 00001$
 
mov a, (_IrqVector+1)
 
mov a, (_IrqVector+1)
 
jz 00002$
 
jz 00002$
00001$: ; if not 0, then we need to jump to it
+
00001$: ; if not 0, then we need to jump to it
 
mov dpl, _IrqVector
 
mov dpl, _IrqVector
 
mov dph, (_IrqVector+1)
 
mov dph, (_IrqVector+1)
mov a, #0x23 ; this is the offset for uart irq
+
mov a, #0x23 ; this is the offset for uart irq
jmp @a+dptr
+
jmp @a+dptr ; call our firmware's interrupt handler
00002$: ; if it's 0, then we'll handle the irq
+
00002$: ; if it's 0, then we'll handle the irq
lcall _uartInterrupt ; call our own interrupt handler
+
lcall _uartInterrupt ; call our own interrupt handler
 
reti
 
reti
 
_endasm;
 
_endasm;
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// ...
 
// ...
 
IrqVector = 0x0800;
 
IrqVector = 0x0800;
EA = 1; // Global interrupt enable
+
EA = 1; // Global interrupt enable
 
// ...
 
// ...
 
}
 
}

Revision as of 22:41, 13 December 2006

Overview

DSerial Flash Memory Map

The purpose of DSerial bootloader is to:

The following sections will describe how the bootloader functions.

Interrupt Vector Table

Interrupt vector table on the C8051F320 is always at offset 0 in FLASH. Unfortunately, we cannot re-target it from bootloader interrupt vector table into the program interrupt vector table with a magic register, since no such register exists in the architecture. Instead, we have to re-target each interrupt separately.

The following code shows how it's done in DSerial bootloader.

<cpp> // Redirects UART IRQ either into our (bootloader's) handler or into firmware handler. void R_uartInterrupt() __interrupt (4) _naked { _asm mov a, _IrqVector ; compare IrqVector to 0 jnz 00001$ mov a, (_IrqVector+1) jz 00002$ 00001$: ; if not 0, then we need to jump to it mov dpl, _IrqVector mov dph, (_IrqVector+1) mov a, #0x23 ; this is the offset for uart irq jmp @a+dptr ; call our firmware's interrupt handler 00002$: ; if it's 0, then we'll handle the irq lcall _uartInterrupt ; call our own interrupt handler reti _endasm; }

// repeat for the other irqs </cpp>

IrqVector is a global variable that is set to the location of interrupt vector before enabling interrupts. The bootloader should set IrqVector to 0 while the program should set it to it's location.

<cpp> __data __at (0x7e) unsigned int IrqVector;

void main() { // ... IrqVector = 0x0800; EA = 1; // Global interrupt enable // ... } </cpp>

Note: It would also be possible to use the User Bit in PSW register instead of IrqVector. It would be less flexible, but would result in a smaller overhead in redirection. Should be considered for future bootloader and firmware.