36a0978952
1. add schedulesigaction.c 2. add SYS_save_context handling 3. Skip ECALL instruction when up_swint() Change-Id: Id52c6dd9ee1052441957b73463c00d3fd26555c5 Signed-off-by: ligd <liguiding@fishsemi.com>
479 lines
16 KiB
C
479 lines
16 KiB
C
/****************************************************************************
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* arch/risc-v/include/rv32im/irq.h
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*
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* Licensed to the Apache Software Foundation (ASF) under one or more
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* contributor license agreements. See the NOTICE file distributed with
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* this work for additional information regarding copyright ownership. The
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* ASF licenses this file to you under the Apache License, Version 2.0 (the
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* "License"); you may not use this file except in compliance with the
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* License. You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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* License for the specific language governing permissions and limitations
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* under the License.
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*
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****************************************************************************/
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/* This file should never be included directly but, rather, only indirectly
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* through nuttx/irq.h
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*/
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#ifndef __ARCH_RISCV_INCLUDE_RV32IM_IRQ_H
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#define __ARCH_RISCV_INCLUDE_RV32IM_IRQ_H
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/****************************************************************************
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* Included Files
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****************************************************************************/
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#include <nuttx/config.h>
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#include <arch/types.h>
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/****************************************************************************
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* Pre-processor Definitions
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****************************************************************************/
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/* In mstatus register */
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#define MSTATUS_MIE (0x1 << 3) /* Machine Interrupt Enable */
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#define MSTATUS_MPIE (0x1 << 7) /* Machine Previous Interrupt Enable */
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#define MSTATUS_MPPM (0x3 << 11) /* Machine Previous Privilege (m-mode) */
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/* In mie (machine interrupt enable) register */
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#define MIE_MTIE (0x1 << 7) /* Machine Timer Interrupt Enable */
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#define MIE_MEIE (0x1 << 11) /* Machine External Interrupt Enable */
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/* Configuration ************************************************************/
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/* How many nested system calls should we support? */
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#ifndef CONFIG_SYS_NNEST
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# define CONFIG_SYS_NNEST 2
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#endif
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/* Processor PC */
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#define REG_EPC_NDX 0
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/* General pupose registers */
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/* $0: Zero register does not need to be saved
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* $1: ra (return address)
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*/
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#define REG_X1_NDX 1
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/* $2: Stack POinter
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* $3: Global Pointer
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* $4: Thread Pointer
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*/
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#define REG_X2_NDX 2
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#define REG_X3_NDX 3
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#define REG_X4_NDX 4
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/* $5-$7 = t0-t3: Temporary registers */
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#define REG_X5_NDX 5
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#define REG_X6_NDX 6
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#define REG_X7_NDX 7
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/* $8: s0 / fp Frame pointer */
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#define REG_X8_NDX 8
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/* $89 s1 Saved register */
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#define REG_X9_NDX 9
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/* $10-$17 = a0-a7: Argument registers */
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#define REG_X10_NDX 10
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#define REG_X11_NDX 11
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#define REG_X12_NDX 12
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#define REG_X13_NDX 13
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#define REG_X14_NDX 14
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#define REG_X15_NDX 15
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#define REG_X16_NDX 16
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#define REG_X17_NDX 17
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/* $18-$27 = s2-s11: Saved registers */
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#define REG_X18_NDX 18
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#define REG_X19_NDX 19
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#define REG_X20_NDX 20
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#define REG_X21_NDX 21
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#define REG_X22_NDX 22
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#define REG_X23_NDX 23
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#define REG_X24_NDX 24
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#define REG_X25_NDX 25
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#define REG_X26_NDX 26
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#define REG_X27_NDX 27
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/* $28-31 = t3-t6: Temporary (Volatile) registers */
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#define REG_X28_NDX 28
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#define REG_X29_NDX 29
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#define REG_X30_NDX 30
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#define REG_X31_NDX 31
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/* Interrupt Context register */
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#define REG_INT_CTX_NDX 32
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#ifdef CONFIG_ARCH_CHIP_GAP8
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/* 31 registers, ePC, plus 6 loop registers */
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# define INT_XCPT_REGS (32 + 6)
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#else
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# define INT_XCPT_REGS 33
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#endif
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#define INT_XCPT_SIZE (4 * INT_XCPT_REGS)
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#ifdef CONFIG_ARCH_FPU
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#if defined(CONFIG_ARCH_DPFPU)
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# define FPU_REG_SIZE 2
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#elif defined(CONFIG_ARCH_QPFPU)
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# define FPU_REG_SIZE 4
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#else
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# define FPU_REG_SIZE 1
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#endif
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# define REG_F0_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 0)
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# define REG_F1_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 1)
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# define REG_F2_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 2)
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# define REG_F3_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 3)
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# define REG_F4_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 4)
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# define REG_F5_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 5)
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# define REG_F6_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 6)
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# define REG_F7_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 7)
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# define REG_F8_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 8)
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# define REG_F9_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 9)
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# define REG_F10_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 10)
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# define REG_F11_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 11)
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# define REG_F12_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 12)
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# define REG_F13_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 13)
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# define REG_F14_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 14)
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# define REG_F15_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 15)
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# define REG_F16_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 16)
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# define REG_F17_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 17)
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# define REG_F18_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 18)
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# define REG_F19_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 19)
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# define REG_F20_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 20)
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# define REG_F21_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 21)
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# define REG_F22_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 22)
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# define REG_F23_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 23)
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# define REG_F24_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 24)
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# define REG_F25_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 25)
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# define REG_F26_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 26)
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# define REG_F27_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 27)
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# define REG_F28_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 28)
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# define REG_F29_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 29)
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# define REG_F30_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 30)
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# define REG_F31_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 31)
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# define REG_FCSR_NDX (INT_XCPT_REGS + FPU_REG_SIZE * 32)
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# define FPU_XCPT_REGS (FPU_REG_SIZE * 33)
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#else
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# define FPU_XCPT_REGS 0
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#endif
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#define XCPTCONTEXT_REGS (INT_XCPT_REGS + FPU_XCPT_REGS)
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#define XCPTCONTEXT_SIZE (4 * XCPTCONTEXT_REGS)
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/* In assembly language, values have to be referenced as byte address
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* offsets. But in C, it is more convenient to reference registers as
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* register save table offsets.
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*/
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#ifdef __ASSEMBLY__
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# define REG_EPC (4*REG_EPC_NDX)
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# define REG_X1 (4*REG_X1_NDX)
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# define REG_X2 (4*REG_X2_NDX)
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# define REG_X3 (4*REG_X3_NDX)
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# define REG_X4 (4*REG_X4_NDX)
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# define REG_X5 (4*REG_X5_NDX)
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# define REG_X6 (4*REG_X6_NDX)
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# define REG_X7 (4*REG_X7_NDX)
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# define REG_X8 (4*REG_X8_NDX)
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# define REG_X9 (4*REG_X9_NDX)
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# define REG_X10 (4*REG_X10_NDX)
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# define REG_X11 (4*REG_X11_NDX)
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# define REG_X12 (4*REG_X12_NDX)
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# define REG_X13 (4*REG_X13_NDX)
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# define REG_X14 (4*REG_X14_NDX)
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# define REG_X15 (4*REG_X15_NDX)
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# define REG_X16 (4*REG_X16_NDX)
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# define REG_X17 (4*REG_X17_NDX)
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# define REG_X18 (4*REG_X18_NDX)
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# define REG_X19 (4*REG_X19_NDX)
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# define REG_X20 (4*REG_X20_NDX)
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# define REG_X21 (4*REG_X21_NDX)
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# define REG_X22 (4*REG_X22_NDX)
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# define REG_X23 (4*REG_X23_NDX)
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# define REG_X24 (4*REG_X24_NDX)
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# define REG_X25 (4*REG_X25_NDX)
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# define REG_X26 (4*REG_X26_NDX)
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# define REG_X27 (4*REG_X27_NDX)
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# define REG_X28 (4*REG_X28_NDX)
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# define REG_X29 (4*REG_X29_NDX)
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# define REG_X30 (4*REG_X30_NDX)
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# define REG_X31 (4*REG_X31_NDX)
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# define REG_INT_CTX (4*REG_INT_CTX_NDX)
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#ifdef CONFIG_ARCH_FPU
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# define REG_F0 (4*REG_F0_NDX)
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# define REG_F1 (4*REG_F1_NDX)
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# define REG_F2 (4*REG_F2_NDX)
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# define REG_F3 (4*REG_F3_NDX)
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# define REG_F4 (4*REG_F4_NDX)
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# define REG_F5 (4*REG_F5_NDX)
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# define REG_F6 (4*REG_F6_NDX)
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# define REG_F7 (4*REG_F7_NDX)
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# define REG_F8 (4*REG_F8_NDX)
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# define REG_F9 (4*REG_F9_NDX)
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# define REG_F10 (4*REG_F10_NDX)
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# define REG_F11 (4*REG_F11_NDX)
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# define REG_F12 (4*REG_F12_NDX)
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# define REG_F13 (4*REG_F13_NDX)
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# define REG_F14 (4*REG_F14_NDX)
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# define REG_F15 (4*REG_F15_NDX)
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# define REG_F16 (4*REG_F16_NDX)
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# define REG_F17 (4*REG_F17_NDX)
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# define REG_F18 (4*REG_F18_NDX)
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# define REG_F19 (4*REG_F19_NDX)
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# define REG_F20 (4*REG_F20_NDX)
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# define REG_F21 (4*REG_F21_NDX)
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# define REG_F22 (4*REG_F22_NDX)
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# define REG_F23 (4*REG_F23_NDX)
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# define REG_F24 (4*REG_F24_NDX)
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# define REG_F25 (4*REG_F25_NDX)
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# define REG_F26 (4*REG_F26_NDX)
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# define REG_F27 (4*REG_F27_NDX)
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# define REG_F28 (4*REG_F28_NDX)
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# define REG_F29 (4*REG_F29_NDX)
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# define REG_F30 (4*REG_F30_NDX)
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# define REG_F31 (4*REG_F31_NDX)
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# define REG_FCSR (4*REG_FCSR_NDX)
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#endif
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#else
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# define REG_EPC REG_EPC_NDX
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# define REG_X1 REG_X1_NDX
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# define REG_X2 REG_X2_NDX
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# define REG_X3 REG_X3_NDX
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# define REG_X4 REG_X4_NDX
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# define REG_X5 REG_X5_NDX
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# define REG_X6 REG_X6_NDX
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# define REG_X7 REG_X7_NDX
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# define REG_X8 REG_X8_NDX
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# define REG_X9 REG_X9_NDX
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# define REG_X10 REG_X10_NDX
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# define REG_X11 REG_X11_NDX
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# define REG_X12 REG_X12_NDX
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# define REG_X13 REG_X13_NDX
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# define REG_X14 REG_X14_NDX
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# define REG_X15 REG_X15_NDX
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# define REG_X16 REG_X16_NDX
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# define REG_X17 REG_X17_NDX
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# define REG_X18 REG_X18_NDX
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# define REG_X19 REG_X19_NDX
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# define REG_X20 REG_X20_NDX
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# define REG_X21 REG_X21_NDX
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# define REG_X22 REG_X22_NDX
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# define REG_X23 REG_X23_NDX
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# define REG_X24 REG_X24_NDX
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# define REG_X25 REG_X25_NDX
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# define REG_X26 REG_X26_NDX
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# define REG_X27 REG_X27_NDX
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# define REG_X28 REG_X28_NDX
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# define REG_X29 REG_X29_NDX
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# define REG_X30 REG_X30_NDX
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# define REG_X31 REG_X31_NDX
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# define REG_INT_CTX REG_INT_CTX_NDX
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#ifdef CONFIG_ARCH_FPU
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# define REG_F0 REG_F0_NDX
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# define REG_F1 REG_F1_NDX
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# define REG_F2 REG_F2_NDX
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# define REG_F3 REG_F3_NDX
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# define REG_F4 REG_F4_NDX
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# define REG_F5 REG_F5_NDX
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# define REG_F6 REG_F6_NDX
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# define REG_F7 REG_F7_NDX
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# define REG_F8 REG_F8_NDX
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# define REG_F9 REG_F9_NDX
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# define REG_F10 REG_F10_NDX
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# define REG_F11 REG_F11_NDX
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# define REG_F12 REG_F12_NDX
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# define REG_F13 REG_F13_NDX
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# define REG_F14 REG_F14_NDX
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# define REG_F15 REG_F15_NDX
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# define REG_F16 REG_F16_NDX
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# define REG_F17 REG_F17_NDX
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# define REG_F18 REG_F18_NDX
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# define REG_F19 REG_F19_NDX
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# define REG_F20 REG_F20_NDX
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# define REG_F21 REG_F21_NDX
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# define REG_F22 REG_F22_NDX
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# define REG_F23 REG_F23_NDX
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# define REG_F24 REG_F24_NDX
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# define REG_F25 REG_F25_NDX
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# define REG_F26 REG_F26_NDX
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# define REG_F27 REG_F27_NDX
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# define REG_F28 REG_F28_NDX
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# define REG_F29 REG_F29_NDX
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# define REG_F30 REG_F30_NDX
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# define REG_F31 REG_F31_NDX
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# define REG_FCSR REG_FCSR_NDX
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#endif
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#endif
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/* Now define more user friendly alternative name that can be used either
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* in assembly or C contexts.
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*/
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/* $1 = ra: Return address */
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#define REG_RA REG_X1
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/* $2 = sp: The value of the stack pointer on return from the exception */
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#define REG_SP REG_X2
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/* $3 = gp: Only needs to be saved under conditions where there are
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* multiple, per-thread values for the GP.
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*/
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#define REG_GP REG_X3
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/* $4 = tp: Thread Pointer */
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#define REG_TP REG_X4
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/* $5-$7 = t0-t2: Caller saved temporary registers */
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#define REG_T0 REG_X5
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#define REG_T1 REG_X6
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#define REG_T2 REG_X7
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/* $8 = either s0 or fp: Depends if a frame pointer is used or not */
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#define REG_S0 REG_X8
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#define REG_FP REG_X8
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/* $9 = s1: Caller saved register */
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#define REG_S1 REG_X9
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/* $10-$17 = a0-a7: Argument registers */
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#define REG_A0 REG_X10
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#define REG_A1 REG_X11
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#define REG_A2 REG_X12
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#define REG_A3 REG_X13
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#define REG_A4 REG_X14
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#define REG_A5 REG_X15
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#define REG_A6 REG_X16
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#define REG_A7 REG_X17
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/* $18-$27 = s2-s11: Callee saved registers */
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#define REG_S2 REG_X18
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#define REG_S3 REG_X19
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#define REG_S4 REG_X20
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#define REG_S5 REG_X21
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#define REG_S6 REG_X22
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#define REG_S7 REG_X23
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#define REG_S8 REG_X24
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#define REG_S9 REG_X25
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#define REG_S10 REG_X26
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#define REG_S11 REG_X27
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/* $28-$31 = t3-t6: Caller saved temporary registers */
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#define REG_T3 REG_X28
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#define REG_T4 REG_X29
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#define REG_T5 REG_X30
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#define REG_T6 REG_X31
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/****************************************************************************
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* Public Types
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****************************************************************************/
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#ifndef __ASSEMBLY__
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/* This structure represents the return state from a system call */
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#ifdef CONFIG_BUILD_KERNEL
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struct xcpt_syscall_s
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{
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uint32_t sysreturn; /* The return PC */
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};
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#endif
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/* The following structure is included in the TCB and defines the complete
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* state of the thread.
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*/
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struct xcptcontext
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{
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/* The following function pointer is non-NULL if there are pending signals
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* to be processed.
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*/
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void *sigdeliver; /* Actual type is sig_deliver_t */
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/* These additional register save locations are used to implement the
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* signal delivery trampoline.
|
|
*
|
|
* REVISIT: Because there is only one copy of these save areas,
|
|
* only a single signal handler can be active. This precludes
|
|
* queuing of signal actions. As a result, signals received while
|
|
* another signal handler is executing will be ignored!
|
|
*/
|
|
|
|
uint32_t saved_epc; /* Trampoline PC */
|
|
uint32_t saved_int_ctx; /* Interrupt context with interrupts disabled. */
|
|
|
|
#ifdef CONFIG_BUILD_KERNEL
|
|
/* This is the saved address to use when returning from a user-space
|
|
* signal handler.
|
|
*/
|
|
|
|
uint32_t sigreturn;
|
|
#endif
|
|
|
|
#ifdef CONFIG_BUILD_KERNEL
|
|
/* The following array holds information needed to return from each nested
|
|
* system call.
|
|
*/
|
|
|
|
uint8_t nsyscalls;
|
|
struct xcpt_syscall_s syscall[CONFIG_SYS_NNEST];
|
|
|
|
#endif
|
|
|
|
/* Register save area */
|
|
|
|
uint32_t regs[XCPTCONTEXT_REGS];
|
|
};
|
|
|
|
#endif /* __ASSEMBLY__ */
|
|
|
|
/****************************************************************************
|
|
* Public Variables
|
|
****************************************************************************/
|
|
|
|
/****************************************************************************
|
|
* Public Function Prototypes
|
|
****************************************************************************/
|
|
|
|
#endif /* __ARCH_RISCV_INCLUDE_RV32IM_IRQ_H */
|