rt-thread/libcpu/ti-dsp/c28x/context.s

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;
; Copyright (c) 2006-2022, RT-Thread Development Team
;
; SPDX-License-Identifier: Apache-2.0
;
; Change Logs:
; Date Author Notes
; 2018-09-01 xuzhuoyi the first version.
; 2019-06-17 zhaoxiaowei fix bugs of old c28x interrupt api.
; 2019-07-03 zhaoxiaowei add _rt_hw_calc_csb function to support __rt_ffs.
; 2019-12-05 xiaolifan add support for hardware fpu32
; 2022-06-21 guyunjie trim pendsv (RTOSINT_Handler)
; 2022-08-24 guyunjie fix bugs in context switching
; 2022-10-15 guyunjie add zero-latency interrupt
.ref rt_interrupt_to_thread
.ref rt_interrupt_from_thread
.ref rt_thread_switch_interrupt_flag
.def rtosint_handler
.def rt_hw_get_st0
.def rt_hw_get_st1
.def rt_hw_calc_csb
.def rt_hw_context_switch_interrupt
.def rt_hw_context_switch
.def rt_hw_context_switch_to
.def rt_hw_interrupt_thread_switch
.def rt_hw_interrupt_disable
.def rt_hw_interrupt_enable
;importing settings from compiler and config
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.cdecls C,NOLIST
%{
#include <rtconfig.h>
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#ifdef __TMS320C28XX_FPU32__
#define __FPU32__ 1
#else
#define __FPU32__ 0
#endif
#ifdef __TMS320C28XX_FPU64__
#define __FPU64__ 1
#else
#define __FPU64__ 0
#endif
#ifdef __TMS320C28XX_VCRC__
#define __VCRC__ 1
#else
#define __VCRC__ 0
#endif
#ifdef RT_USING_ZERO_LATENCY
#define ZERO_LATENCY 1
#ifndef ZERO_LATENCY_INT_MASK
#error ZERO_LATENCY_INT_MASK must be defined for zero latency interrupt
#elif ZERO_LATENCY_INT_MASK & 0x8000
#error RTOS bit (0x8000) must not be set in ZERO_LATENCY_INT_MASK
#endif
#else
#define ZERO_LATENCY 0
#endif
%}
.text
.newblock
;
; rt_base_t rt_hw_interrupt_disable();
;
.asmfunc
rt_hw_interrupt_disable:
.if ZERO_LATENCY
MOV AL, IER
AND IER, #ZERO_LATENCY_INT_MASK
.else
PUSH ST1
SETC INTM
POP AL
.endif
MOV AH, #0
LRETR
.endasmfunc
;
; void rt_hw_interrupt_enable(rt_base_t level);
;
.asmfunc
rt_hw_interrupt_enable:
.if ZERO_LATENCY
MOV IER, AL
.else
PUSH AL
POP ST1
.endif
LRETR
.endasmfunc
;
; void rt_hw_context_switch(rt_uint32 from, rt_uint32 to);
; ACC --> from
; SP[4] --> to
;
.asmfunc
rt_hw_context_switch_interrupt:
; ACC, XAR4-7 are "save on call" following TI C28x C/C++ compiler convention
; and therefore can be used in a function without being saved on stack first
; (the compiler has already saved it before the call).
; Reference: TMS320C28x Optimizing CC++ Compiler
; note this convention is only applicable to normal functions not to isrs
MOVL XAR6, ACC
MOVL XAR4, *-SP[4]
; set rt_thread_switch_interrupt_flag to 1
MOVL XAR5, #rt_thread_switch_interrupt_flag
MOVL ACC, *XAR5
BF reswitch2, NEQ ; ACC!=0
MOVB ACC, #1
MOVL *XAR5, ACC
MOVL XAR5, #rt_interrupt_from_thread ; set rt_interrupt_from_thread
MOVL *XAR5, XAR6
reswitch2:
MOVL XAR5, #rt_interrupt_to_thread ; set rt_interrupt_to_thread
MOVL *XAR5, XAR4
LRETR
.endasmfunc
;
; void rt_hw_context_switch(rt_uint32 from, rt_uint32 to);
; ACC --> from
; SP[4] --> to
;
.asmfunc
rt_hw_context_switch:
MOVL XAR6, ACC
MOVL XAR4, *-SP[4]
; set rt_thread_switch_interrupt_flag to 1
MOVL XAR5, #rt_thread_switch_interrupt_flag
MOVL ACC, *XAR5
BF reswitch1, NEQ ; ACC!=0
MOVB ACC, #1
MOVL *XAR5, ACC
MOVL XAR5, #rt_interrupt_from_thread ; set rt_interrupt_from_thread
MOVL *XAR5, XAR6
reswitch1:
MOVL XAR5, #rt_interrupt_to_thread ; set rt_interrupt_to_thread
MOVL *XAR5, XAR4
OR IFR, #0x8000
LRETR
.endasmfunc
;
; * void rt_hw_context_switch_to(rt_uint32 to);
; * ACC --> to
;
.asmfunc
rt_hw_context_switch_to:
; get to thread
MOVL XAR5, #rt_interrupt_to_thread
MOVL *XAR5, ACC
; set from thread to 0
MOVL XAR5, #rt_interrupt_from_thread
MOVL XAR4, #0
MOVL *XAR5, XAR4
; set interrupt flag to 1
MOVL XAR5, #rt_thread_switch_interrupt_flag
MOVL XAR4, #1
MOVL *XAR5, XAR4
; trigger rtos interrupt
OR IFR, #0x8000
OR IER, #0x8000
CLRC INTM
; never reach here!
.endasmfunc
.asmfunc
rtosint_handler:
.if ZERO_LATENCY
; mask out non-critical interrupts and enable global interrupt
; so rtosint_handler won't block critical interrupts
AND IER, #ZERO_LATENCY_INT_MASK
CLRC INTM
.endif
MOVL ACC, *-SP[4]
MOV AR0, AL ; save original IER
PUSH AR1H:AR0H
PUSH XAR2
; get rt_thread_switch_interrupt_flag
MOVL XAR1, #rt_thread_switch_interrupt_flag
MOVL ACC, *XAR1
BF rtosint_exit, EQ ; rtos_int already handled
; clear rt_thread_switch_interrupt_flag to 0
MOVL XAR2, #0
MOVL *XAR1, XAR2
MOVL XAR1, #rt_interrupt_from_thread
MOVL ACC, *XAR1
BF switch_to_thread, EQ ; skip register save at the first time
PUSH XAR3
PUSH XAR4
PUSH XAR5
PUSH XAR6
PUSH XAR7
PUSH XT
PUSH RPC
.if __FPU32__
PUSH RB
MOV32 *SP++, STF
MOV32 *SP++, R0H
MOV32 *SP++, R1H
MOV32 *SP++, R2H
MOV32 *SP++, R3H
MOV32 *SP++, R4H
MOV32 *SP++, R5H
MOV32 *SP++, R6H
MOV32 *SP++, R7H
.endif
.if __FPU64__
MOV32 *SP++, R0L
MOV32 *SP++, R1L
MOV32 *SP++, R2L
MOV32 *SP++, R3L
MOV32 *SP++, R4L
MOV32 *SP++, R5L
MOV32 *SP++, R6L
MOV32 *SP++, R7L
.endif
.if __VCRC__
VMOV32 *SP++, VCRC
VMOV32 *SP++, VSTATUS
VMOV32 *SP++, VCRCPOLY
VMOV32 *SP++, VCRCSIZE
.endif
MOVL ACC, *XAR1
MOVL XAR1, ACC
MOVZ AR2, @SP ; get from thread stack pointer
MOVL *XAR1, XAR2 ; update from thread stack pointer
switch_to_thread:
MOVL XAR1, #rt_interrupt_to_thread
MOVL ACC, *XAR1
MOVL XAR1, ACC
MOVL ACC, *XAR1
MOV @SP, AL ; load thread stack pointer
.if __VCRC__
VMOV32 VCRCSIZE, *--SP
VMOV32 VCRCPOLY, *--SP
VMOV32 VSTATUS, *--SP
VMOV32 VCRC, *--SP
.endif
.if __FPU64__
MOV32 R7L, *--SP
MOV32 R6L, *--SP
MOV32 R5L, *--SP
MOV32 R4L, *--SP
MOV32 R3L, *--SP
MOV32 R2L, *--SP
MOV32 R1L, *--SP
MOV32 R0L, *--SP
.endif
.if __FPU32__
MOV32 R7H, *--SP
MOV32 R6H, *--SP
MOV32 R5H, *--SP
MOV32 R4H, *--SP
MOV32 R3H, *--SP
MOV32 R2H, *--SP
MOV32 R1H, *--SP
MOV32 R0H, *--SP
MOV32 STF, *--SP
POP RB
.endif
POP RPC
POP XT
POP XAR7
POP XAR6
POP XAR5
POP XAR4
POP XAR3
rtosint_exit:
; do not restore interrupt here: to be restored according to the
; switched-to context during IRET (automaticlly by hardware)
POP XAR2
POP AR1H:AR0H
MOVL ACC , *-SP[4]
MOV AL, AR0
MOVL *-SP[4], ACC
IRET
.endasmfunc
.asmfunc
rt_hw_get_st0:
PUSH ST0
POP AL
LRETR
.endasmfunc
.asmfunc
rt_hw_get_st1:
PUSH ST1
POP AL
LRETR
.endasmfunc
; C28x do not have a build-in "__ffs" func in its C compiler.
; We can use the "Count Sign Bits" (CSB) instruction to make one.
; CSB will return the number of 0's minus 1 above the highest set bit.
; The count is placed in T. For example:
; ACC T maxbit
; 0x00000001 30 0
; 0x00000010 26 4
; 0x000001FF 22 8
; 0x000001F0 22 8
.asmfunc
rt_hw_calc_csb:
MOV AH, #0
CSB ACC ; T = no. of sign bits - 1
MOVU ACC, T ; ACC = no. of sign bits - 1
SUBB ACC, #30 ; ACC = ACC - 30
ABS ACC ; ACC = |ACC|
LRETR
.endasmfunc
; compatible with old version
.asmfunc
rt_hw_interrupt_thread_switch:
LRETR
NOP
.endasmfunc
.end