/* Intrinsic definitions of Andes NDS32 cpu for GNU compiler Copyright (C) 2012-2022 Free Software Foundation, Inc. Contributed by Andes Technology Corporation. This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. Under Section 7 of GPL version 3, you are granted additional permissions described in the GCC Runtime Library Exception, version 3.1, as published by the Free Software Foundation. You should have received a copy of the GNU General Public License and a copy of the GCC Runtime Library Exception along with this program; see the files COPYING3 and COPYING.RUNTIME respectively. If not, see . */ #ifndef _NDS32_ISR_H #define _NDS32_ISR_H /* Attribute of a interrupt or exception handler: NDS32_READY_NESTED: This handler is interruptible if user re-enable GIE bit. NDS32_NESTED : This handler is interruptible. This is not suitable exception handler. NDS32_NOT_NESTED : This handler is NOT interruptible. Users have to do some work if nested is wanted NDS32_CRITICAL : This handler is critical ISR, which means it is small and efficient. */ #define NDS32_READY_NESTED 0 #define NDS32_NESTED 1 #define NDS32_NOT_NESTED 2 #define NDS32_CRITICAL 3 /* Attribute of a interrupt or exception handler: NDS32_SAVE_ALL_REGS : Save all registers in a table. NDS32_SAVE_PARTIAL_REGS: Save partial registers. */ #define NDS32_SAVE_CALLER_REGS 0 #define NDS32_SAVE_ALL_REGS 1 /* There are two version of Register table for interrupt and exception handler, one for 16-register CPU the other for 32-register CPU. These structures are used for context switching or system call handling. The address of this data can be get from the input argument of the handler functions. For system call handling, r0 to r5 are used to pass arguments. If more arguments are used they are put into the stack and its starting address is in sp. Return value of system call can be put into r0 and r1 upon exit from system call handler. System call ID is in a system register and it can be fetched via intrinsic function. For more information please read ABI and other related documents. For context switching, at least 2 values need to saved in kernel. One is IPC and the other is the stack address of current task. Use intrinsic function to get IPC and the input argument of the handler functions + 8 to get stack address of current task. To do context switching, you replace new_sp with the stack address of new task and replace IPC system register with IPC of new task, then, just return from handler. The context switching will happen. */ /* Register table for exception handler; 32-register version. */ typedef struct { int r0; int r1; int r2; int r3; int r4; int r5; int r6; int r7; int r8; int r9; int r10; int r11; int r12; int r13; int r14; int r15; int r16; int r17; int r18; int r19; int r20; int r21; int r22; int r23; int r24; int r25; int r26; int r27; int fp; int gp; int lp; int sp; } NDS32_GPR32; /* Register table for exception handler; 16-register version. */ typedef struct { int r0; int r1; int r2; int r3; int r4; int r5; int r6; int r7; int r8; int r9; int r10; int r15; int fp; int gp; int lp; int sp; } NDS32_GPR16; /* Use NDS32_REG32_TAB or NDS32_REG16_TAB in your program to access register table. */ typedef struct { union { int reg_a[32] ; NDS32_GPR32 reg_s ; } u ; } NDS32_REG32_TAB; typedef struct { union { int reg_a[16] ; NDS32_GPR16 reg_s ; } u ; } NDS32_REG16_TAB; typedef struct { int d0lo; int d0hi; int d1lo; int d1hi; } NDS32_DX_TAB; typedef struct { #ifdef __NDS32_EB__ float fsr0; float fsr1; float fsr2; float fsr3; float fsr4; float fsr5; float fsr6; float fsr7; #else float fsr1; float fsr0; float fsr3; float fsr2; float fsr5; float fsr4; float fsr7; float fsr6; #endif } NDS32_FSR8; typedef struct { double dsr0; double dsr1; double dsr2; double dsr3; } NDS32_DSR4; typedef struct { #ifdef __NDS32_EB__ float fsr0; float fsr1; float fsr2; float fsr3; float fsr4; float fsr5; float fsr6; float fsr7; float fsr8; float fsr9; float fsr10; float fsr11; float fsr12; float fsr13; float fsr14; float fsr15; #else float fsr1; float fsr0; float fsr3; float fsr2; float fsr5; float fsr4; float fsr7; float fsr6; float fsr9; float fsr8; float fsr11; float fsr10; float fsr13; float fsr12; float fsr15; float fsr14; #endif } NDS32_FSR16; typedef struct { double dsr0; double dsr1; double dsr2; double dsr3; double dsr4; double dsr5; double dsr6; double dsr7; } NDS32_DSR8; typedef struct { #ifdef __NDS32_EB__ float fsr0; float fsr1; float fsr2; float fsr3; float fsr4; float fsr5; float fsr6; float fsr7; float fsr8; float fsr9; float fsr10; float fsr11; float fsr12; float fsr13; float fsr14; float fsr15; float fsr16; float fsr17; float fsr18; float fsr19; float fsr20; float fsr21; float fsr22; float fsr23; float fsr24; float fsr25; float fsr26; float fsr27; float fsr28; float fsr29; float fsr30; float fsr31; #else float fsr1; float fsr0; float fsr3; float fsr2; float fsr5; float fsr4; float fsr7; float fsr6; float fsr9; float fsr8; float fsr11; float fsr10; float fsr13; float fsr12; float fsr15; float fsr14; float fsr17; float fsr16; float fsr19; float fsr18; float fsr21; float fsr20; float fsr23; float fsr22; float fsr25; float fsr24; float fsr27; float fsr26; float fsr29; float fsr28; float fsr31; float fsr30; #endif } NDS32_FSR32; typedef struct { double dsr0; double dsr1; double dsr2; double dsr3; double dsr4; double dsr5; double dsr6; double dsr7; double dsr8; double dsr9; double dsr10; double dsr11; double dsr12; double dsr13; double dsr14; double dsr15; } NDS32_DSR16; typedef struct { double dsr0; double dsr1; double dsr2; double dsr3; double dsr4; double dsr5; double dsr6; double dsr7; double dsr8; double dsr9; double dsr10; double dsr11; double dsr12; double dsr13; double dsr14; double dsr15; double dsr16; double dsr17; double dsr18; double dsr19; double dsr20; double dsr21; double dsr22; double dsr23; double dsr24; double dsr25; double dsr26; double dsr27; double dsr28; double dsr29; double dsr30; double dsr31; } NDS32_DSR32; typedef struct { union { NDS32_FSR8 fsr_s ; NDS32_DSR4 dsr_s ; } u ; } NDS32_FPU8_TAB; typedef struct { union { NDS32_FSR16 fsr_s ; NDS32_DSR8 dsr_s ; } u ; } NDS32_FPU16_TAB; typedef struct { union { NDS32_FSR32 fsr_s ; NDS32_DSR16 dsr_s ; } u ; } NDS32_FPU32_TAB; typedef struct { union { NDS32_FSR32 fsr_s ; NDS32_DSR32 dsr_s ; } u ; } NDS32_FPU64_TAB; typedef struct { int ipc; int ipsw; #if defined(NDS32_EXT_FPU_CONFIG_0) NDS32_FPU8_TAB fpr; #elif defined(NDS32_EXT_FPU_CONFIG_1) NDS32_FPU16_TAB fpr; #elif defined(NDS32_EXT_FPU_CONFIG_2) NDS32_FPU32_TAB fpr; #elif defined(NDS32_EXT_FPU_CONFIG_3) NDS32_FPU64_TAB fpr; #endif #if __NDS32_DX_REGS__ NDS32_DX_TAB dxr; #endif #if __NDS32_EXT_IFC__ int ifc_lp; int filler; #endif #if __NDS32_REDUCED_REGS__ || __NDS32_REDUCE_REGS NDS32_REG16_TAB gpr; #else NDS32_REG32_TAB gpr; #endif } NDS32_CONTEXT; /* Predefined Vector Definition. For IVIC Mode: 9 to 14 are for hardware interrupt and 15 is for software interrupt. For EVIC Mode: 9 to 72 are for hardware interrupt and software interrupt can be routed to any one of them. You may want to define your hardware interrupts in the following way for easy maintainance. IVIC mode: #define MY_HW_IVIC_TIMER NDS32_VECTOR_INTERRUPT_HW0 + 1 #define MY_HW_IVIC_USB NDS32_VECTOR_INTERRUPT_HW0 + 3 EVIC mode: #define MY_HW_EVIC_DMA NDS32_VECTOR_INTERRUPT_HW0 + 2 #define MY_HW_EVIC_SWI NDS32_VECTOR_INTERRUPT_HW0 + 10 */ #define NDS32_VECTOR_RESET 0 #define NDS32_VECTOR_TLB_FILL 1 #define NDS32_VECTOR_PTE_NOT_PRESENT 2 #define NDS32_VECTOR_TLB_MISC 3 #define NDS32_VECTOR_TLB_VLPT_MISS 4 #define NDS32_VECTOR_MACHINE_ERROR 5 #define NDS32_VECTOR_DEBUG_RELATED 6 #define NDS32_VECTOR_GENERAL_EXCEPTION 7 #define NDS32_VECTOR_SYSCALL 8 #define NDS32_VECTOR_INTERRUPT_HW0 9 #define NDS32_VECTOR_INTERRUPT_HW1 10 #define NDS32_VECTOR_INTERRUPT_HW2 11 #define NDS32_VECTOR_INTERRUPT_HW3 12 #define NDS32_VECTOR_INTERRUPT_HW4 13 #define NDS32_VECTOR_INTERRUPT_HW5 14 #define NDS32_VECTOR_INTERRUPT_HW6 15 #define NDS32_VECTOR_SWI 15 /* THIS IS FOR IVIC MODE ONLY */ #define NDS32_VECTOR_INTERRUPT_HW7 16 #define NDS32_VECTOR_INTERRUPT_HW8 17 #define NDS32_VECTOR_INTERRUPT_HW9 18 #define NDS32_VECTOR_INTERRUPT_HW10 19 #define NDS32_VECTOR_INTERRUPT_HW11 20 #define NDS32_VECTOR_INTERRUPT_HW12 21 #define NDS32_VECTOR_INTERRUPT_HW13 22 #define NDS32_VECTOR_INTERRUPT_HW14 23 #define NDS32_VECTOR_INTERRUPT_HW15 24 #define NDS32_VECTOR_INTERRUPT_HW16 25 #define NDS32_VECTOR_INTERRUPT_HW17 26 #define NDS32_VECTOR_INTERRUPT_HW18 27 #define NDS32_VECTOR_INTERRUPT_HW19 28 #define NDS32_VECTOR_INTERRUPT_HW20 29 #define NDS32_VECTOR_INTERRUPT_HW21 30 #define NDS32_VECTOR_INTERRUPT_HW22 31 #define NDS32_VECTOR_INTERRUPT_HW23 32 #define NDS32_VECTOR_INTERRUPT_HW24 33 #define NDS32_VECTOR_INTERRUPT_HW25 34 #define NDS32_VECTOR_INTERRUPT_HW26 35 #define NDS32_VECTOR_INTERRUPT_HW27 36 #define NDS32_VECTOR_INTERRUPT_HW28 37 #define NDS32_VECTOR_INTERRUPT_HW29 38 #define NDS32_VECTOR_INTERRUPT_HW30 39 #define NDS32_VECTOR_INTERRUPT_HW31 40 #define NDS32_VECTOR_INTERRUPT_HW32 41 #define NDS32_VECTOR_INTERRUPT_HW33 42 #define NDS32_VECTOR_INTERRUPT_HW34 43 #define NDS32_VECTOR_INTERRUPT_HW35 44 #define NDS32_VECTOR_INTERRUPT_HW36 45 #define NDS32_VECTOR_INTERRUPT_HW37 46 #define NDS32_VECTOR_INTERRUPT_HW38 47 #define NDS32_VECTOR_INTERRUPT_HW39 48 #define NDS32_VECTOR_INTERRUPT_HW40 49 #define NDS32_VECTOR_INTERRUPT_HW41 50 #define NDS32_VECTOR_INTERRUPT_HW42 51 #define NDS32_VECTOR_INTERRUPT_HW43 52 #define NDS32_VECTOR_INTERRUPT_HW44 53 #define NDS32_VECTOR_INTERRUPT_HW45 54 #define NDS32_VECTOR_INTERRUPT_HW46 55 #define NDS32_VECTOR_INTERRUPT_HW47 56 #define NDS32_VECTOR_INTERRUPT_HW48 57 #define NDS32_VECTOR_INTERRUPT_HW49 58 #define NDS32_VECTOR_INTERRUPT_HW50 59 #define NDS32_VECTOR_INTERRUPT_HW51 60 #define NDS32_VECTOR_INTERRUPT_HW52 61 #define NDS32_VECTOR_INTERRUPT_HW53 62 #define NDS32_VECTOR_INTERRUPT_HW54 63 #define NDS32_VECTOR_INTERRUPT_HW55 64 #define NDS32_VECTOR_INTERRUPT_HW56 65 #define NDS32_VECTOR_INTERRUPT_HW57 66 #define NDS32_VECTOR_INTERRUPT_HW58 67 #define NDS32_VECTOR_INTERRUPT_HW59 68 #define NDS32_VECTOR_INTERRUPT_HW60 69 #define NDS32_VECTOR_INTERRUPT_HW61 70 #define NDS32_VECTOR_INTERRUPT_HW62 71 #define NDS32_VECTOR_INTERRUPT_HW63 72 #define NDS32ATTR_RESET(option) __attribute__((reset(option))) #define NDS32ATTR_EXCEPT(type) __attribute__((exception(type))) #define NDS32ATTR_EXCEPTION(type) __attribute__((exception(type))) #define NDS32ATTR_INTERRUPT(type) __attribute__((interrupt(type))) #define NDS32ATTR_ISR(type) __attribute__((interrupt(type))) #endif /* nds32_isr.h */