// SPDX-License-Identifier: GPL-2.0
// Copyright (C) 2020-2022 Martin Whitaker.
//
// Derived from extract of memtest86+ lib.c:
//
// lib.c - MemTest-86  Version 3.4
//
// Released under version 2 of the Gnu Public License.
// By Chris Brady

#include <stdint.h>

#include "hwctrl.h"
#include "keyboard.h"
#include "screen.h"
#include "smp.h"

#include "error.h"
#include "display.h"

#include "interrupt.h"

//------------------------------------------------------------------------------
// Constants
//------------------------------------------------------------------------------

#define HLT_OPCODE  0xf4

#ifdef __x86_64__
#define REG_PREFIX  "r"
#define REG_DIGITS  "16"
#define ADR_DIGITS  "12"
#else
#define REG_PREFIX  "e"
#define REG_DIGITS  "8"
#define ADR_DIGITS  "8"
#endif

static const char *codes[] = {
    "Divide by 0",
    "Debug",
    "NMI",
    "Breakpoint",
    "Overflow",
    "Bounds",
    "Invalid Op",
    "No FPU",
    "Double fault",
    "Seg overrun",
    "Invalid TSS",
    "Seg fault",
    "Stack fault",
    "Gen prot.",
    "Page fault",
    "Reserved",
    "FPU error",
    "Alignment",
    "Machine chk",
    "SIMD FPE"
};

//------------------------------------------------------------------------------
// Types
//------------------------------------------------------------------------------

#ifdef __x86_64__
typedef uint64_t    reg_t;
#else
typedef uint32_t    reg_t;
#endif

struct trap_regs {
    reg_t   ds;
    reg_t   es;
    reg_t   ss;
    reg_t   ax;
    reg_t   bx;
    reg_t   cx;
    reg_t   dx;
    reg_t   di;
    reg_t   si;
#ifndef __x86_64__
    reg_t   reserved1;
    reg_t   reserved2;
    reg_t   sp;
#endif
    reg_t   bp;
    reg_t   vect;
    reg_t   code;
    reg_t   ip;
    reg_t   cs;
    reg_t   flags;
#ifdef __x86_64__
    reg_t   sp;
#endif
};

//------------------------------------------------------------------------------
// Public Functions
//------------------------------------------------------------------------------

void interrupt(struct trap_regs *trap_regs)
{
    // Get the page fault address.
    uintptr_t address = 0;
    if (trap_regs->vect == 14) {
#ifdef __x86_64__
        __asm__(
            "movq %%cr2, %0"
            :"=r" (address)
        );
#else
        __asm__(
            "movl %%cr2, %0"
            :"=r" (address)
        );
#endif
    }

    if (trap_regs->vect == 2) {
        uint8_t *pc = (uint8_t *)trap_regs->ip;
        if (pc[-1] == HLT_OPCODE) {
            // Assume this is a wakeup signal sent via IPI.
            return;
        }
#if REPORT_PARITY_ERRORS
        parity_error();
        return;
#endif
    }

    spin_lock(error_mutex);

    clear_message_area();

    display_pinned_message(0, 0, "Unexpected interrupt on CPU %i", smp_my_cpu_num());
    if (trap_regs->vect <= 19) {
        display_pinned_message(2, 0, "Type: %s", codes[trap_regs->vect]);
    } else {
        display_pinned_message(2, 0, "Type: %i", trap_regs->vect);
    }
    display_pinned_message(3, 0, "  PC: %0" REG_DIGITS "x", (uintptr_t)trap_regs->ip);
    display_pinned_message(4, 0, "  CS: %0" REG_DIGITS "x", (uintptr_t)trap_regs->cs);
    display_pinned_message(5, 0, "Flag: %0" REG_DIGITS "x", (uintptr_t)trap_regs->flags);
    display_pinned_message(6, 0, "Code: %0" REG_DIGITS "x", (uintptr_t)trap_regs->code);
    display_pinned_message(7, 0, "  DS: %0" REG_DIGITS "x", (uintptr_t)trap_regs->ds);
    display_pinned_message(8, 0, "  ES: %0" REG_DIGITS "x", (uintptr_t)trap_regs->es);
    display_pinned_message(9, 0, "  SS: %0" REG_DIGITS "x", (uintptr_t)trap_regs->ss);
    if (trap_regs->vect == 14) {
        display_pinned_message(9, 0, " Addr: %0" REG_DIGITS "x", address);
    }

    display_pinned_message(2, 25, REG_PREFIX "ax: %0" REG_DIGITS "x", (uintptr_t)trap_regs->ax);
    display_pinned_message(3, 25, REG_PREFIX "bx: %0" REG_DIGITS "x", (uintptr_t)trap_regs->bx);
    display_pinned_message(4, 25, REG_PREFIX "cx: %0" REG_DIGITS "x", (uintptr_t)trap_regs->cx);
    display_pinned_message(5, 25, REG_PREFIX "dx: %0" REG_DIGITS "x", (uintptr_t)trap_regs->dx);
    display_pinned_message(6, 25, REG_PREFIX "di: %0" REG_DIGITS "x", (uintptr_t)trap_regs->di);
    display_pinned_message(7, 25, REG_PREFIX "si: %0" REG_DIGITS "x", (uintptr_t)trap_regs->si);
    display_pinned_message(8, 25, REG_PREFIX "bp: %0" REG_DIGITS "x", (uintptr_t)trap_regs->bp);
    display_pinned_message(9, 25, REG_PREFIX "sp: %0" REG_DIGITS "x", (uintptr_t)trap_regs->sp);

    display_pinned_message(0, 50, "Stack:");
    for (int i = 0; i < 12; i++) {
        uintptr_t addr = trap_regs->sp + sizeof(reg_t)*(11 - i);
        reg_t data = *(reg_t *)addr;
        display_pinned_message(1 + i, 50, "%0" ADR_DIGITS "x %0" REG_DIGITS "x", addr, (uintptr_t)data);
    }

    display_pinned_message(11, 0, "CS:PC:");
    uint8_t *pp = (uint8_t *)((uintptr_t)trap_regs->ip);
    for (int i = 0; i < 12; i++) {
        display_pinned_message(11, 7 + 3*i, "%02x", (uintptr_t)pp[i]);
    }

    clear_screen_region(ROW_FOOTER, 0, ROW_FOOTER, SCREEN_WIDTH - 1);
    prints(ROW_FOOTER, 0, "Press any key to reboot...");
   
    while (get_key() == 0) { }
    reboot();
}