/**************************************************************************** * arch/x86_64/include/intel64/irq.h * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. The * ASF licenses this file to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance with the * License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations * under the License. * ****************************************************************************/ /* This file should never be included directly but, rather, only indirectly * through nuttx/irq.h */ #ifndef __ARCH_X86_64_INCLUDE_INTEL64_IRQ_H #define __ARCH_X86_64_INCLUDE_INTEL64_IRQ_H /**************************************************************************** * Included Files ****************************************************************************/ #include #ifndef __ASSEMBLY__ # include # include # include # include #endif /**************************************************************************** * Pre-processor Definitions ****************************************************************************/ /* ISR and IRQ numbers */ #define ISR0 0 /* Division by zero exception */ #define ISR1 1 /* Debug exception */ #define ISR2 2 /* Non maskable interrupt */ #define ISR3 3 /* Breakpoint exception */ #define ISR4 4 /* 'Into detected overflow' */ #define ISR5 5 /* Out of bounds exception */ #define ISR6 6 /* Invalid opcode exception */ #define ISR7 7 /* No coprocessor exception */ #define ISR8 8 /* Double fault (pushes an error code) */ #define ISR9 9 /* Coprocessor segment overrun */ #define ISR10 10 /* Bad TSS (pushes an error code) */ #define ISR11 11 /* Segment not present (pushes an error code) */ #define ISR12 12 /* Stack fault (pushes an error code) */ #define ISR13 13 /* General protection fault (pushes an error code) */ #define ISR14 14 /* Page fault (pushes an error code) */ #define ISR15 15 /* Unknown interrupt exception */ #define ISR16 16 /* Coprocessor fault */ #define ISR17 17 /* Alignment check exception */ #define ISR18 18 /* Machine check exception */ #define ISR19 19 /* SIMD Float-Point Exception*/ #define ISR20 20 /* Virtualization Exception */ #define ISR21 21 /* Reserved */ #define ISR22 22 /* Reserved */ #define ISR23 23 /* Reserved */ #define ISR24 24 /* Reserved */ #define ISR25 25 /* Reserved */ #define ISR26 26 /* Reserved */ #define ISR27 27 /* Reserved */ #define ISR28 28 /* Reserved */ #define ISR29 29 /* Reserved */ #define ISR30 30 /* Security Exception */ #define ISR31 31 /* Reserved */ #define IRQ0 32 /* System timer (cannot be changed) */ #define IRQ1 33 /* Keyboard controller (cannot be changed) */ #define IRQ2 34 /* Cascaded signals from IRQs 8~15 */ #define IRQ3 35 /* Serial port controller for COM2/4 */ #define IRQ4 36 /* serial port controller for COM1/3 */ #define IRQ5 37 /* LPT port 2 or sound card */ #define IRQ6 38 /* Floppy disk controller */ #define IRQ7 39 /* LPT port 1 or sound card */ #define IRQ8 40 /* Real time clock (RTC) */ #define IRQ9 41 /* Open interrupt/available or SCSI host adapter */ #define IRQ10 42 /* Open interrupt/available or SCSI or NIC */ #define IRQ11 43 /* Open interrupt/available or SCSI or NIC */ #define IRQ12 44 /* Mouse on PS/2 connector */ #define IRQ13 45 /* Math coprocessor */ #define IRQ14 46 /* Primary ATA channel */ #define IRQ15 47 /* Secondary ATA channel */ #define IRQ_ERROR 51 /* APIC Error */ #define IRQ_SPURIOUS 0xff /* Spurious Interrupts */ #define NR_IRQS 48 /* Common register save structure created by up_saveusercontext() and by * ISR/IRQ interrupt processing. */ #define XCPTCONTEXT_XMM_AREA_SIZE 512 #define XMMAREA_OFFSET XCPTCONTEXT_XMM_AREA_SIZE / 8 /* Data segments */ #define REG_ALIGN (0 + XMMAREA_OFFSET) /* " " "" " " "" " " " " */ #define REG_FS (1 + XMMAREA_OFFSET) /* " " "" " " "" " " " " */ #define REG_GS (2 + XMMAREA_OFFSET) /* " " "" " " "" " " " " */ #define REG_ES (3 + XMMAREA_OFFSET) /* " " "" " " "" " " " " */ #define REG_DS (4 + XMMAREA_OFFSET) /* Data segment selector */ /* Remaining regs */ #define REG_RAX (5 + XMMAREA_OFFSET) /* " " "" " " */ #define REG_RBX (6 + XMMAREA_OFFSET) /* " " "" " " */ #define REG_RBP (7 + XMMAREA_OFFSET) /* " " "" " " */ #define REG_R10 (8 + XMMAREA_OFFSET) /* " " "" " " */ #define REG_R11 (9 + XMMAREA_OFFSET) /* " " "" " " */ #define REG_R12 (10 + XMMAREA_OFFSET) /* " " "" " " */ #define REG_R13 (11 + XMMAREA_OFFSET) /* " " "" " " */ #define REG_R14 (12 + XMMAREA_OFFSET) /* " " "" " " */ #define REG_R15 (13 + XMMAREA_OFFSET) /* " " "" " " */ /* ABI calling convention */ #define REG_R9 (14 + XMMAREA_OFFSET) /* " " "" " " */ #define REG_R8 (15 + XMMAREA_OFFSET) /* " " "" " " */ #define REG_RCX (16 + XMMAREA_OFFSET) /* " " "" " " */ #define REG_RDX (17 + XMMAREA_OFFSET) /* " " "" " " */ #define REG_RSI (18 + XMMAREA_OFFSET) /* " " "" " " */ #define REG_RDI (19 + XMMAREA_OFFSET) /* " " "" " " */ /* IRQ saved */ #define REG_ERRCODE (20 + XMMAREA_OFFSET) /* Error code */ #define REG_RIP (21 + XMMAREA_OFFSET) /* Pushed by process on interrupt processing */ #define REG_CS (22 + XMMAREA_OFFSET) /* " " "" " " "" " " " " */ #define REG_RFLAGS (23 + XMMAREA_OFFSET) /* " " "" " " "" " " " " */ #define REG_RSP (24 + XMMAREA_OFFSET) /* " " "" " " "" " " " " */ #define REG_SS (25 + XMMAREA_OFFSET) /* " " "" " " "" " " " " */ /* NOTE 2: This is not really state data. Rather, this is just a convenient * way to pass parameters from the interrupt handler to C code. */ #define XCPTCONTEXT_REGS (26 + XCPTCONTEXT_XMM_AREA_SIZE / 8) #define XCPTCONTEXT_SIZE (8 * XCPTCONTEXT_REGS + XCPTCONTEXT_XMM_AREA_SIZE) /**************************************************************************** * Public Types ****************************************************************************/ #ifndef __ASSEMBLY__ enum ioapic_trigger_mode { TRIGGER_RISING_EDGE = 0, TRIGGER_FALLING_EDGE = (1 << 13), TRIGGER_LEVEL_ACTIVE_HIGH = 1 << 15, TRIGGER_LEVEL_ACTIVE_LOW = (1 << 15) | (1 << 13), }; /* This struct defines the way the registers are stored */ struct xcptcontext { /* The following function pointer is non-zero if there are pending signals * to be processed. */ void *sigdeliver; /* Actual type is sig_deliver_t */ /* These are saved copies of instruction pointer and EFLAGS used during * signal processing. */ uint64_t saved_rip; uint64_t saved_rflags; uint64_t saved_rsp; /* Register save area */ uint64_t regs[XCPTCONTEXT_REGS] aligned_data(16); }; #endif /**************************************************************************** * Inline functions ****************************************************************************/ #ifndef __ASSEMBLY__ static inline void setgdt(void *gdt, int size) { struct gdt_ptr_s gdt_ptr; gdt_ptr.limit = size; gdt_ptr.base = (uintptr_t)gdt; asm volatile ("lgdt %0"::"m"(gdt_ptr):"memory"); } static inline void setidt(void *idt, int size) { struct idt_ptr_s idt_ptr; idt_ptr.limit = size; idt_ptr.base = (uintptr_t)idt; asm volatile ("lidt %0"::"m"(idt_ptr):"memory"); } static inline uint64_t rdtsc(void) { uint32_t lo; uint32_t hi; asm volatile("rdtscp" : "=a" (lo), "=d" (hi)::"memory"); return (uint64_t)lo | (((uint64_t)hi) << 32); } static inline uint64_t _rdtsc(void) { uint32_t lo; uint32_t hi; asm volatile("rdtsc" : "=a" (lo), "=d" (hi)::"memory"); return (uint64_t)lo | (((uint64_t)hi) << 32); } static inline void set_pcid(uint64_t pcid) { if (pcid < 4095) { asm volatile("mov %%cr3, %%rbx; andq $-4096, %%rbx; or %0, " "%%rbx; mov %%rbx, %%cr3;" ::"g"(pcid):"memory", "rbx", "rax"); } } static inline unsigned long read_msr(unsigned int msr) { uint32_t low; uint32_t high; asm volatile("rdmsr" : "=a" (low), "=d" (high) : "c" (msr)); return low | ((unsigned long)high << 32); } static inline void write_msr(unsigned int msr, unsigned long val) { asm volatile("wrmsr" : /* no output */ : "c" (msr), "a" (val), "d" (val >> 32) : "memory"); } static inline uint64_t read_fsbase(void) { uint64_t val; asm volatile("rdfsbase %0" : "=r" (val) : /* no output */ : "memory"); return val; } static inline void write_fsbase(unsigned long val) { asm volatile("wrfsbase %0" : /* no output */ : "r" (val) : "memory"); } static inline uint64_t read_gsbase(void) { uint64_t val; asm volatile("rdgsbase %0" : "=r" (val) : /* no output */ : "memory"); return val; } static inline void write_gsbase(unsigned long val) { asm volatile("wrgsbase %0" : /* no output */ : "r" (val) : "memory"); } /* Return stack pointer */ static inline uint64_t up_getsp(void) { uint64_t regval; asm volatile( "\tmovq %%rsp, %0\n" : "=rm" (regval) : : "memory"); return regval; } /* Get segment registers */ static inline uint32_t up_getds(void) { uint32_t regval; asm volatile( "\tmov %%ds, %0\n" : "=rm" (regval) : : "memory"); return regval; } static inline uint32_t up_getcs(void) { uint32_t regval; asm volatile( "\tmov %%cs, %0\n" : "=rm" (regval) : : "memory"); return regval; } static inline uint32_t up_getss(void) { uint32_t regval; asm volatile( "\tmov %%ss, %0\n" : "=rm" (regval) : : "memory"); return regval; } static inline uint32_t up_getes(void) { uint32_t regval; asm volatile( "\tmov %%es, %0\n" : "=rm" (regval) : : "memory"); return regval; } static inline uint32_t up_getfs(void) { uint32_t regval; asm volatile( "\tmov %%fs, %0\n" : "=rm" (regval) : : "memory"); return regval; } static inline uint32_t up_getgs(void) { uint32_t regval; asm volatile( "\tmov %%gs, %0\n" : "=rm" (regval) : : "memory"); return regval; } /* Name: up_irq_save, up_irq_restore, and friends. * * NOTE: This function should never be called from application code and, * as a general rule unless you really know what you are doing, this * function should not be called directly from operation system code either: * Typically, the wrapper functions, enter_critical_section() and * leave_critical section(), are probably what you really want. */ /* Get the current FLAGS register contents */ static inline irqstate_t irqflags() { irqstate_t flags; asm volatile( "\tpushfq\n" "\tpopq %0\n" : "=rm" (flags) : : "memory"); return flags; } /* Get a sample of the FLAGS register, determine if interrupts are disabled. * If the X86_FLAGS_IF is cleared by cli, then interrupts are disabled. If * if the X86_FLAGS_IF is set by sti, then interrupts are enable. */ static inline bool up_irq_disabled(irqstate_t flags) { return ((flags & X86_64_RFLAGS_IF) == 0); } static inline bool up_irq_enabled(irqstate_t flags) { return ((flags & X86_64_RFLAGS_IF) != 0); } /* Disable interrupts unconditionally */ static inline void up_irq_disable(void) { asm volatile("cli": : :"memory"); } /* Enable interrupts unconditionally */ static inline void up_irq_enable(void) { asm volatile("sti": : :"memory"); } /* Disable interrupts, but return previous interrupt state */ static inline irqstate_t up_irq_save(void) { irqstate_t flags = irqflags(); up_irq_disable(); return flags; } /* Conditionally disable interrupts */ static inline void up_irq_restore(irqstate_t flags) { if (up_irq_enabled(flags)) { up_irq_enable(); } } static inline unsigned int up_apic_cpu_id(void) { return read_msr(MSR_X2APIC_ID); } /**************************************************************************** * Public Data ****************************************************************************/ /**************************************************************************** * Public Function Prototypes ****************************************************************************/ void up_ioapic_pin_set_vector(unsigned int pin, enum ioapic_trigger_mode trigger_mode, unsigned int vector); #ifdef __cplusplus #define EXTERN extern "C" extern "C" { #else #define EXTERN extern #endif #undef EXTERN #ifdef __cplusplus } #endif #endif /* __ASSEMBLY__ */ #endif /* __ARCH_X86_INCLUDE_I486_IRQ_H */