kvisc/vm/in/instrs.h

// The OS/K Team licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.

#include <pc/arch.h>

#include <in/cond.h>
#include <in/flags.h>
#include <in/arch_i.h>

#define DECV(p, v)                                                          \
    ulong v = (p->type == A_REG ? R(p->val) : p->val);                      \
    if (p->mem) {                                                           \
        v = readmem(ctx, v + p->off + R(p->offreg), p1->mlen);              \
    }

#define IMPL_START_0(name)                                                  \
void i_##name(ctx_t *ctx, acc_t *p1, acc_t *p2)                             \
{

#define IMPL_START_1(name)                                                  \
void i_##name(ctx_t *ctx, acc_t *p1, acc_t *p2)                             \
{                                                                           \
    DECV(p1, v1);

#define IMPL_START_2(name)                                                  \
void i_##name(ctx_t *ctx, acc_t *p1, acc_t *p2)                             \
{                                                                           \
    DECV(p1, v1);                                                           \
    DECV(p2, v2);

#define IMPL_START_3(name)                                                  \
void i_##name(ctx_t *ctx, acc_t *p1, acc_t *p2)                             \
{                                                                           \
    DECV(p2, v2);

#define IMPL_OUT_ZSF                                                        \
    SET_ZSF(v1);                                                            \
    IMPL_OUT

#define IMPL_OUT                                                            \
    assert(p1->type == A_REG || p1->mem);                                   \
    if (p1->mem) {                                                          \
        ulong addr = p1->type == A_REG ? R(p1->val) : p1->val;              \
        writemem(ctx, v1, addr + p1->off + R(p1->offreg), p1->mlen);        \
    }                                                                       \
    else R(p1->val) = v1;                                                   \
}

#define IMPL_OUT_2                                                          \
    assert(p1->type == A_REG || p1->mem);                                   \
    if (p1->mem) {                                                          \
        ulong addr = p1->type == A_REG ? R(p1->val) : p1->val;              \
        writemem(ctx, v1, addr + p1->off + R(p1->offreg), p1->mlen);        \
    }                                                                       \
    else R(p1->val) = v1;                                                   \
                                                                            \
    assert(p2->type == A_REG || p2->mem);                                   \
    if (p2->mem) {                                                          \
        ulong addr = p2->type == A_REG ? R(p2->val) : p2->val;              \
        writemem(ctx, v2, addr + p2->off + R(p2->offreg), p2->mlen);        \
    }                                                                       \
    else R(p2->val) = v2;                                                   \
}

#define IMPL_END                                                            \
}

//
// Consistency checks
//

#define CHK_SUPERV()                                                        \
    do {                                                                    \
        if ((cr0 & UF) == 1) {                                              \
            _except(ctx, E_SYS, "Supervisor-only INSTR");                   \
        }                                                                   \
    } while (0)

#define CHK_STACK(op)                                                       \
    if (rsp % 8 > 0 || rbp % 8 > 0) {                                       \
       _except(ctx, E_STA, "Misaligned stack REGS");                        \
    }                                                                       \
    if (rbp op rsp) {                                                       \
        _except(ctx, E_STU, "Stack underflow");                             \
    }

//
// Common operations
//

#define PUSH(v)                                                             \
    rsp -= 8;                                                               \
    writemem64(ctx, v, rsp);

#define POP(v)                                                              \
    v = readmem64(ctx, rsp);                                                \
    rsp += 8;

#define JUMP(v)                                                             \
    rip = v + cr1