src/rp2_common/hardware_irq/irq_handler_chain.S - third_party/github/raspberrypi/pico-sdk - Git at Google

 /*
  * Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 #include "hardware/platform_defs.h"
 #include "hardware/irq.h"

 #if !PICO_DISABLE_SHARED_IRQ_HANDLERS
 .syntax unified
 .cpu cortex-m0plus
 .thumb

 .data
 .align 2

 .global irq_handler_chain_slots

 .global irq_handler_chain_first_slot
 .global irq_handler_chain_remove_tail

 //
 // These Slots make up the code and structure of the handler chains; the only external information are the VTABLE entries
 // (obviously one set per core) and a free list head. Each individual handler chain starts with the VTABLE entry I
 // pointing at the address of slot S (with thumb bit set). Thus each slot which is part of a chain is executble.
 //
 // The execution jumps (via branch instruction) from one slot to the other, then jumps to the end of chain handler.
 // The entirety of the state needed to traverse the chain is contained within the slots of the chain, which is why
 // a VTABLE entry is all that is needed per chain (rather than requiring a separarte set of head pointers)
 //

 irq_handler_chain_slots:
 .set next_slot_number, 1
 .rept PICO_MAX_SHARED_IRQ_HANDLERS
     // a slot is executable and is always 3 instructions long.
     .hword 0    // inst1 (either: ldr r0, [pc, #4]    or for the FIRST slot : add r1, pc, #0                 )
     .hword 0    // inst2 (        blx r0                                      b irq_handler_chain_first_slot )

     .hword 0    // inst3 (either: b next_slot         or for the LAST         pop {pc}                       )

     // next is a single byte index of next slot in chain (or -1 to end)
 .if next_slot_number == PICO_MAX_SHARED_IRQ_HANDLERS
     .byte 0xff
 .else
     .byte next_slot_number
 .endif
     // next is the 8 bit unsigned priority
     .byte 0x00
 1:
     // and finally the handler function pointer
     .word 0x00000000
     .set next_slot_number, next_slot_number + 1
 .endr

 irq_handler_chain_first_slot:
     push {lr}
     ldr  r0, [r1, #4]
     adds r1, #1
     mov  lr, r1
     bx   r0
 irq_handler_chain_remove_tail:
     mov  r0, lr
     subs r0, #9
     ldr  r1, =irq_add_tail_to_free_list
     blx  r1
     pop  {pc}


 #endif
	/*
	* Copyright (c) 2020 Raspberry Pi (Trading) Ltd.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	#include "hardware/platform_defs.h"
	#include "hardware/irq.h"

	#if !PICO_DISABLE_SHARED_IRQ_HANDLERS
	.syntax unified
	.cpu cortex-m0plus
	.thumb

	.data
	.align 2

	.global irq_handler_chain_slots

	.global irq_handler_chain_first_slot
	.global irq_handler_chain_remove_tail

	//
	// These Slots make up the code and structure of the handler chains; the only external information are the VTABLE entries
	// (obviously one set per core) and a free list head. Each individual handler chain starts with the VTABLE entry I
	// pointing at the address of slot S (with thumb bit set). Thus each slot which is part of a chain is executble.
	//
	// The execution jumps (via branch instruction) from one slot to the other, then jumps to the end of chain handler.
	// The entirety of the state needed to traverse the chain is contained within the slots of the chain, which is why
	// a VTABLE entry is all that is needed per chain (rather than requiring a separarte set of head pointers)
	//

	irq_handler_chain_slots:
	.set next_slot_number, 1
	.rept PICO_MAX_SHARED_IRQ_HANDLERS
	// a slot is executable and is always 3 instructions long.
	.hword 0 // inst1 (either: ldr r0, [pc, #4] or for the FIRST slot : add r1, pc, #0 )
	.hword 0 // inst2 ( blx r0 b irq_handler_chain_first_slot )

	.hword 0 // inst3 (either: b next_slot or for the LAST pop {pc} )

	// next is a single byte index of next slot in chain (or -1 to end)
	.if next_slot_number == PICO_MAX_SHARED_IRQ_HANDLERS
	.byte 0xff
	.else
	.byte next_slot_number
	.endif
	// next is the 8 bit unsigned priority
	.byte 0x00
	1:
	// and finally the handler function pointer
	.word 0x00000000
	.set next_slot_number, next_slot_number + 1
	.endr

	irq_handler_chain_first_slot:
	push {lr}
	ldr r0, [r1, #4]
	adds r1, #1
	mov lr, r1
	bx r0
	irq_handler_chain_remove_tail:
	mov r0, lr
	subs r0, #9
	ldr r1, =irq_add_tail_to_free_list
	blx r1
	pop {pc}


	#endif