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 */

 */

/** @file

/** @file

 */

 */

#include <arch/debugger.h>

#include <arch/debugger.h>

#include <memstr.h>

#include <memstr.h>

#include <console/kconsole.h>

#include <console/kconsole.h>

#include <console/cmd.h>

#include <console/cmd.h>

#include <symtab.h>

#include <symtab.h>

#include <print.h>

#include <print.h>

#include <func.h>

#include <func.h>

bpinfo_t breakpoints[BKPOINTS_MAX];

bpinfo_t breakpoints[BKPOINTS_MAX];

SPINLOCK_INITIALIZE(bkpoint_lock);

SPINLOCK_INITIALIZE(bkpoint_lock);

static int cmd_print_breakpoints(cmd_arg_t *argv);

static int cmd_print_breakpoints(cmd_arg_t *argv);

static cmd_info_t bkpts_info = {

static cmd_info_t bkpts_info = {

    .name = "bkpts",

    .name = "bkpts",

    .description = "Print breakpoint table.",

    .description = "Print breakpoint table.",

    .func = cmd_print_breakpoints,

    .func = cmd_print_breakpoints,

static cmd_arg_t add_argv = {

static cmd_arg_t add_argv = {

    .type = ARG_TYPE_INT

    .type = ARG_TYPE_INT

};

};

static cmd_info_t addbkpt_info = {

static cmd_info_t addbkpt_info = {

    .name = "addbkpt",

    .name = "addbkpt",

    .func = cmd_add_breakpoint,

    .func = cmd_add_breakpoint,

    .argc = 1,

    .argc = 1,

    .argv = &add_argv

    .argv = &add_argv

};

};

    { .type = ARG_TYPE_INT },

    { .type = ARG_TYPE_INT },

    { .type = ARG_TYPE_INT }

    { .type = ARG_TYPE_INT }

};

};

static cmd_info_t addbkpte_info = {

static cmd_info_t addbkpte_info = {

    .name = "addbkpte",

    .name = "addbkpte",

    .func = cmd_add_breakpoint,

    .func = cmd_add_breakpoint,

    .argc = 2,

    .argc = 2,

    .argv = adde_argv

    .argv = adde_argv

};

};

static struct {

static struct {

    uint32_t andmask;

    uint32_t andmask;

    uint32_t value;

    uint32_t value;

    {0xf3ff0000, 0x41000000}, /* BCzF */

    {0xf3ff0000, 0x41000000}, /* BCzF */

    {0xf3ff0000, 0x41020000}, /* BCzFL */

    {0xf3ff0000, 0x41020000}, /* BCzFL */

    {0xf3ff0000, 0x41010000}, /* BCzT */

    {0xf3ff0000, 0x41010000}, /* BCzT */

    {0xf3ff0000, 0x41030000}, /* BCzTL */

    {0xf3ff0000, 0x41030000}, /* BCzTL */

    {0xfc000000, 0x10000000}, /* BEQ */

    {0xfc000000, 0x10000000}, /* BEQ */

    {0xfc000000, 0x14000000}, /* BNE */

    {0xfc000000, 0x14000000}, /* BNE */

    {0xfc000000, 0x54000000}, /* BNEL */

    {0xfc000000, 0x54000000}, /* BNEL */

    {0xfc000000, 0x08000000}, /* J */

    {0xfc000000, 0x08000000}, /* J */

    {0xfc000000, 0x0c000000}, /* JAL */

    {0xfc000000, 0x0c000000}, /* JAL */

    {0xfc1f07ff, 0x00000009}, /* JALR */

    {0xfc1f07ff, 0x00000009}, /* JALR */

};

};

/** Test, if the given instruction is a jump or branch instruction

/** Test, if the given instruction is a jump or branch instruction

 *

 *

 * @param instr Instruction code

 * @param instr Instruction code

 * @return true - it is jump instruction, false otherwise

 * @return true - it is jump instruction, false otherwise

 */

 */

static bool is_jump(unative_t instr)

static bool is_jump(unative_t instr)

{

{

    int i;

    int i;

        if ((instr & jmpinstr[i].andmask) == jmpinstr[i].value)

        if ((instr & jmpinstr[i].andmask) == jmpinstr[i].value)

            return true;

            return true;

    }

    }

    return false;

    return false;

    }

    }

    ipl = interrupts_disable();

    ipl = interrupts_disable();

    spinlock_lock(&bkpoint_lock);

    spinlock_lock(&bkpoint_lock);

    /* Check, that the breakpoints do not conflict */

    /* Check, that the breakpoints do not conflict */

        if (breakpoints[i].address == (uintptr_t)argv->intval) {

        if (breakpoints[i].address == (uintptr_t)argv->intval) {

            printf("Duplicate breakpoint %d.\n", i);

            printf("Duplicate breakpoint %d.\n", i);

            return 0;

            return 0;

            return 0;

            return 0;

        }

        }

    }

    }

        if (!breakpoints[i].address) {

        if (!breakpoints[i].address) {

            cur = &breakpoints[i];

            cur = &breakpoints[i];

            break;

            break;

        }

        }

    if (!cur) {

    if (!cur) {

    cur->nextinstruction = ((unative_t *)cur->address)[1];

    cur->nextinstruction = ((unative_t *)cur->address)[1];

    if (argv == &add_argv) {

    if (argv == &add_argv) {

        cur->flags = 0;

        cur->flags = 0;

    } else { /* We are add extended */

    } else { /* We are add extended */

        cur->flags = BKPOINT_FUNCCALL;

        cur->flags = BKPOINT_FUNCCALL;

    }

    }

    if (is_jump(cur->instruction))

    if (is_jump(cur->instruction))

        cur->flags |= BKPOINT_ONESHOT;

        cur->flags |= BKPOINT_ONESHOT;

    cur->counter = 0;

    cur->counter = 0;

    /* Set breakpoint */

    /* Set breakpoint */

    *((unative_t *)cur->address) = 0x0d;

    *((unative_t *)cur->address) = 0x0d;

    spinlock_unlock(&bkpoint_lock);

    spinlock_unlock(&bkpoint_lock);

    interrupts_restore(ipl);

    interrupts_restore(ipl);

    return 1;

    return 1;

}

}

/** Remove breakpoint from table */

/** Remove breakpoint from table */

int cmd_del_breakpoint(cmd_arg_t *argv)

int cmd_del_breakpoint(cmd_arg_t *argv)

{

{

    bpinfo_t *cur;

    bpinfo_t *cur;

    ipl_t ipl;

    ipl_t ipl;

        spinlock_unlock(&bkpoint_lock);

        spinlock_unlock(&bkpoint_lock);

        interrupts_restore(ipl);

        interrupts_restore(ipl);

        return 0;

        return 0;

    }

    }

    ((uint32_t *)cur->address)[0] = cur->instruction;

    ((uint32_t *)cur->address)[0] = cur->instruction;

    ((uint32_t *)cur->address)[1] = cur->nextinstruction;

    ((uint32_t *)cur->address)[1] = cur->nextinstruction;

    cur->address = NULL;

    cur->address = NULL;

    spinlock_unlock(&bkpoint_lock);

    spinlock_unlock(&bkpoint_lock);

    interrupts_restore(ipl);

    interrupts_restore(ipl);

    for (i = 0; i < BKPOINTS_MAX; i++)

    for (i = 0; i < BKPOINTS_MAX; i++)

        if (breakpoints[i].address) {

        if (breakpoints[i].address) {

            symbol = get_symtab_entry(breakpoints[i].address);

            symbol = get_symtab_entry(breakpoints[i].address);

            printf("%-2u %-5d %#10zx %-6s %-7s %-8s %s\n", i,

            printf("%-2u %-5d %#10zx %-6s %-7s %-8s %s\n", i,

        }

        }

    return 1;

    return 1;

}

}

/** Initialize debugger */

/** Initialize debugger */

void debugger_init()

void debugger_init()

{

{

    int i;

    int i;

        breakpoints[i].address = NULL;

        breakpoints[i].address = NULL;

    cmd_initialize(&bkpts_info);

    cmd_initialize(&bkpts_info);

    if (!cmd_register(&bkpts_info))

    if (!cmd_register(&bkpts_info))

    cmd_initialize(&delbkpt_info);

    cmd_initialize(&delbkpt_info);

    if (!cmd_register(&delbkpt_info))

    if (!cmd_register(&delbkpt_info))

    cmd_initialize(&addbkpt_info);

    cmd_initialize(&addbkpt_info);

    if (!cmd_register(&addbkpt_info))

    if (!cmd_register(&addbkpt_info))

    cmd_initialize(&addbkpte_info);

    cmd_initialize(&addbkpte_info);

    if (!cmd_register(&addbkpte_info))

    if (!cmd_register(&addbkpte_info))

}

}

/** Handle breakpoint

/** Handle breakpoint

 *

 *

 * Find breakpoint in breakpoint table.

 * Find breakpoint in breakpoint table.

    uintptr_t fireaddr = istate->epc;

    uintptr_t fireaddr = istate->epc;

    int i;

    int i;

    /* test branch delay slot */

    /* test branch delay slot */

    if (cp0_cause_read() & 0x80000000)

    if (cp0_cause_read() & 0x80000000)

    spinlock_lock(&bkpoint_lock);

    spinlock_lock(&bkpoint_lock);

        /* Normal breakpoint */

        /* Normal breakpoint */

            cur = &breakpoints[i];

            cur = &breakpoints[i];

            break;

            break;

        }

        }

        /* Reinst only breakpoint */

        /* Reinst only breakpoint */

            cur = &breakpoints[i];

            cur = &breakpoints[i];

            break;

            break;

        }

        }

    }

    }

    if (cur) {

    if (cur) {

        if (cur->flags & BKPOINT_REINST) {

        if (cur->flags & BKPOINT_REINST) {

            /* Set breakpoint on first instruction */

            /* Set breakpoint on first instruction */

            ((uint32_t *)cur->address)[0] = 0x0d;

            ((uint32_t *)cur->address)[0] = 0x0d;

            /* Return back the second */

            /* Return back the second */

            ((uint32_t *)cur->address)[1] = cur->nextinstruction;

            ((uint32_t *)cur->address)[1] = cur->nextinstruction;

            cur->flags &= ~BKPOINT_REINST;

            cur->flags &= ~BKPOINT_REINST;

            spinlock_unlock(&bkpoint_lock);

            spinlock_unlock(&bkpoint_lock);

            return;

            return;

        }

        }

        if (cur->flags & BKPOINT_INPROG)

        if (cur->flags & BKPOINT_INPROG)

            printf("Warning: breakpoint recursion\n");

            printf("Warning: breakpoint recursion\n");

        if (!(cur->flags & BKPOINT_FUNCCALL))

        if (!(cur->flags & BKPOINT_FUNCCALL))

        /* Return first instruction back */

        /* Return first instruction back */

        ((uint32_t *)cur->address)[0] = cur->instruction;

        ((uint32_t *)cur->address)[0] = cur->instruction;

        if (! (cur->flags & BKPOINT_ONESHOT)) {

        if (! (cur->flags & BKPOINT_ONESHOT)) {

            /* Set Breakpoint on next instruction */

            /* Set Breakpoint on next instruction */

            ((uint32_t *)cur->address)[1] = 0x0d;

            ((uint32_t *)cur->address)[1] = 0x0d;

            cur->flags |= BKPOINT_REINST;

            cur->flags |= BKPOINT_REINST;

    if (cur && (cur->flags & BKPOINT_FUNCCALL)) {

    if (cur && (cur->flags & BKPOINT_FUNCCALL)) {

        /* Allow zero bkfunc, just for counting */

        /* Allow zero bkfunc, just for counting */

        if (cur->bkfunc)

        if (cur->bkfunc)

            cur->bkfunc(cur, istate);

            cur->bkfunc(cur, istate);

    } else {

    } else {

        /* This disables all other processors - we are not SMP,

        /* This disables all other processors - we are not SMP,

         * actually this gets us to cpu_halt, if scheduler() is run

         * actually this gets us to cpu_halt, if scheduler() is run

         * - we generally do not want scheduler to be run from debug,

         * - we generally do not want scheduler to be run from debug,

         *   so this is a good idea

         *   so this is a good idea

         */

         */

        spinlock_unlock(&bkpoint_lock);

        spinlock_unlock(&bkpoint_lock);

        spinlock_lock(&bkpoint_lock);

        spinlock_lock(&bkpoint_lock);

    }

    }

    if (cur && cur->address == fireaddr && (cur->flags & BKPOINT_INPROG)) {

    if (cur && cur->address == fireaddr && (cur->flags & BKPOINT_INPROG)) {

        /* Remove one-shot breakpoint */

        /* Remove one-shot breakpoint */

        if ((cur->flags & BKPOINT_ONESHOT))

        if ((cur->flags & BKPOINT_ONESHOT))

            cur->address = NULL;

            cur->address = NULL;