esp-idf/components/bt/hli_vectors.S

264 lines
7.7 KiB
ArmAsm

// Copyright 2020 Espressif Systems (Shanghai) PTE LTD
// All rights reserved.
#include <xtensa/coreasm.h>
#include <xtensa/corebits.h>
#include <xtensa/config/system.h>
#include "freertos/xtensa_context.h"
#include "sdkconfig.h"
#include "soc/soc.h"
/* Interrupt stack size, for C code.
* TODO: reduce and make configurable.
*/
#define L4_INTR_STACK_SIZE 4096
/* Save area for the CPU state:
* - 64 words for the general purpose registers
* - 7 words for some of the special registers:
* - WINDOWBASE, WINDOWSTART only WINDOWSTART is truly needed
* - SAR, LBEG, LEND, LCOUNT since the C code might use these
* - EPC1 since the C code might cause window overflow exceptions
* This is not laid out a standard exception frame structure
* for simplicity of the save/restore code.
*/
#define REG_FILE_SIZE (64 * 4)
#define SPECREG_OFFSET REG_FILE_SIZE
#define SPECREG_SIZE (7 * 4)
#define REG_SAVE_AREA_SIZE (SPECREG_OFFSET + SPECREG_SIZE)
.data
.global _l4_intr_stack
.global _l4_intr_stack_end
_l4_intr_stack:
.space L4_INTR_STACK_SIZE
_l4_intr_stack_end:
_l4_save_ctx:
.space REG_SAVE_AREA_SIZE
.section .iram1,"ax"
.global xt_highint4
.type xt_highint4,@function
.align 4
xt_highint4:
#if CONFIG_ESP32_ECO3_CACHE_LOCK_FIX
/*
Here, Timer2 is used to count a little time(50 us).
The subsequent dram0 write operation is blocked due to live lock, which will
cause timer2 to timeout and trigger a l5 interrupt.
*/
rsr.ccount a0
addmi a0, a0, (CONFIG_ESP32_DEFAULT_CPU_FREQ_MHZ*50)
wsr a0, CCOMPARE2
/* Enable Timer 2 interrupt */
rsr a0, INTENABLE
extui a0, a0, 16, 1
bnez a0, 1f
movi a0, 0
xsr a0, INTENABLE // disable all interrupts
addmi a0, a0, (1<<14)
addmi a0, a0, (1<<14)
addmi a0, a0, (1<<14)
addmi a0, a0, (1<<14)
wsr a0, INTENABLE
rsync
1:
#endif
movi a0, _l4_save_ctx
/* save 4 lower registers */
s32i a1, a0, 4
s32i a2, a0, 8
s32i a3, a0, 12
rsr a2, EXCSAVE_4 /* holds the value of a0 */
s32i a2, a0, 0
/* Save special registers */
addi a0, a0, SPECREG_OFFSET
rsr a2, WINDOWBASE
s32i a2, a0, 0
rsr a2, WINDOWSTART
s32i a2, a0, 4
rsr a2, SAR
s32i a2, a0, 8
rsr a2, LBEG
s32i a2, a0, 12
rsr a2, LEND
s32i a2, a0, 16
rsr a2, LCOUNT
s32i a2, a0, 20
rsr a2, EPC1
s32i a2, a0, 24
#if CONFIG_ESP32_ECO3_CACHE_LOCK_FIX
movi a0, 0
xsr a0, INTENABLE
movi a2, ~(1<<16)
and a0, a2, a0
wsr a0, INTENABLE
rsync
#endif
/* disable exception mode, window overflow */
movi a0, PS_INTLEVEL(5) | PS_EXCM /*TOCHECK*/
wsr a0, PS
rsync
/* Save the remaining physical registers.
* 4 registers are already saved, which leaves 60 registers to save.
* (FIXME: consider the case when the CPU is configured with physical 32 registers)
* These 60 registers are saved in 5 iterations, 12 registers at a time.
*/
movi a1, 5
movi a3, _l4_save_ctx + 4 * 4
/* This is repeated 5 times, each time the window is shifted by 12 registers.
* We come here with a1 = downcounter, a3 = save pointer, a2 and a0 unused.
*/
1:
s32i a4, a3, 0
s32i a5, a3, 4
s32i a6, a3, 8
s32i a7, a3, 12
s32i a8, a3, 16
s32i a9, a3, 20
s32i a10, a3, 24
s32i a11, a3, 28
s32i a12, a3, 32
s32i a13, a3, 36
s32i a14, a3, 40
s32i a15, a3, 44
/* We are about to rotate the window, so that a12-a15 will become the new a0-a3.
* Copy a0-a3 to a12-15 to still have access to these values.
* At the same time we can decrement the counter and adjust the save area pointer
*/
/* a0 is constant (_l4_save_ctx), no need to copy */
addi a13, a1, -1 /* copy and decrement the downcounter */
/* a2 is scratch so no need to copy */
addi a15, a3, 48 /* copy and adjust the save area pointer */
beqz a13, 2f /* have saved all registers ? */
rotw 3 /* rotate the window and go back */
j 1b
/* the loop is complete */
2:
rotw 4 /* this brings us back to the original window */
/* a0 still points to _l4_save_ctx */
/* Can clear WINDOWSTART now, all registers are saved */
rsr a2, WINDOWBASE
/* WINDOWSTART = (1 << WINDOWBASE) */
movi a3, 1
ssl a2
sll a3, a3
wsr a3, WINDOWSTART
_highint4_stack_switch:
movi a0, 0
movi sp, _l4_intr_stack + L4_INTR_STACK_SIZE - 16
s32e a0, sp, -12 /* For GDB: set null SP */
s32e a0, sp, -16 /* For GDB: set null PC */
movi a0, _highint4_stack_switch /* For GDB: cosmetics, for the frame where stack switch happened */
/* Set up PS for C, disable all interrupts except NMI and debug, and clear EXCM. */
movi a6, PS_INTLEVEL(4) | PS_UM | PS_WOE
wsr a6, PS
rsync
/* Call C handler */
mov a6, sp
call4 hli_c_handler
l32e sp, sp, -12 /* switch back to the original stack */
/* Done with C handler; re-enable exception mode, disabling window overflow */
movi a2, PS_INTLEVEL(5) | PS_EXCM /* TOCHECK */
wsr a2, PS
rsync
/* Restore the special registers.
* WINDOWSTART will be restored near the end.
*/
movi a0, _l4_save_ctx + SPECREG_OFFSET
l32i a2, a0, 8
wsr a2, SAR
l32i a2, a0, 12
wsr a2, LBEG
l32i a2, a0, 16
wsr a2, LEND
l32i a2, a0, 20
wsr a2, LCOUNT
l32i a2, a0, 24
wsr a2, EPC1
/* Restoring the physical registers.
* This is the reverse to the saving process above.
*/
/* Rotate back to the final window, then start loading 12 registers at a time,
* in 5 iterations.
* Again, a1 is the downcounter and a3 is the save area pointer.
* After each rotation, a1 and a3 are copied from a13 and a15.
* To simplify the loop, we put the initial values into a13 and a15.
*/
rotw -4
movi a15, _l4_save_ctx + 64 * 4 /* point to the end of the save area */
movi a13, 5
1:
/* Copy a1 and a3 from their previous location,
* at the same time decrementing and adjusting the save area pointer.
*/
addi a1, a13, -1
addi a3, a15, -48
/* Load 12 registers */
l32i a4, a3, 0
l32i a5, a3, 4
l32i a6, a3, 8
l32i a7, a3, 12
l32i a8, a3, 16
l32i a9, a3, 20
l32i a10, a3, 24
l32i a11, a3, 28 /* ensure PS and EPC written */
l32i a12, a3, 32
l32i a13, a3, 36
l32i a14, a3, 40
l32i a15, a3, 44
/* Done with the loop? */
beqz a1, 2f
/* If no, rotate the window and repeat */
rotw -3
j 1b
2:
/* Done with the loop. Only 4 registers (a0-a3 in the original window) remain
* to be restored. Also need to restore WINDOWSTART, since all the general
* registers are now in place.
*/
movi a0, _l4_save_ctx
l32i a2, a0, SPECREG_OFFSET + 4
wsr a2, WINDOWSTART
l32i a1, a0, 4
l32i a2, a0, 8
l32i a3, a0, 12
rsr a0, EXCSAVE_4 /* holds the value of a0 before the interrupt handler */
/* Return from the interrupt, restoring PS from EPS_4 */
rfi 4
/* The linker has no reason to link in this file; all symbols it exports are already defined
(weakly!) in the default int handler. Define a symbol here so we can use it to have the
linker inspect this anyway. */
.global ld_include_hli_vectors_bt
ld_include_hli_vectors_bt: