shrooms-vb-core/core/pseudo-halt.c

/* This file is included into vb.c and cannot be compiled on its own. */
#ifdef VBAPI


/********************************* Constants *********************************/

/* Pseudo-halt operations */
#define PH_NEVER    0
#define PH_DPSTTS   1
#define PH_GAME_PAD 2
#define PH_INTPND   3
#define PH_TCR      4
#define PH_TLHR     5
#define PH_XPSTTS   6


/***************************** Module Functions ******************************/

/* Activate pseudo-halt */
static void phActivate(VB *sim, uint32_t address, int type) {
    int range; /* Memory address range by component */

    /* Working variables */
    address &= 0x07FFFFFF;
    range    = address >> 24;

    /* Configure pseudo-halt */
    sim->ph.operation = PH_NEVER;

    /* VIP */
    if (range == 0) {
        address &= 0x0007FFFF;

        /* TODO: Frame buffer */

        /* I/O register */
        switch (address) {
            case 0x5F800: /* INTPND */
                if (
                    sim->vip.dp.step != 0                   ||
                    sim->vip.dp.enabled                     ||
                    (sim->vip.dp.disp && sim->vip.dp.synce) ||
                    sim->vip.xp.enabled                     ||
                    sim->vip.xp.xpen
                ) sim->ph.operation = PH_INTPND;
                break;
            case 0x5F820: /* DPSTTS */
                if (
                    sim->vip.dp.step != 0 ||
                    sim->vip.dp.enabled   ||
                    (sim->vip.dp.disp && sim->vip.dp.synce)
                ) sim->ph.operation = PH_DPSTTS;
                break;
            case 0x5F840: /* XPSTTS */
                if (sim->vip.xp.enabled || sim->vip.xp.xpen)
                    sim->ph.operation = PH_XPSTTS;
                break;
        }

    }

    /* Misc. I/O */
    else if (range == 2 && (type == VB_S8 || type == VB_U8)) {
        address &= 0x0000003F;
        switch (address) {

            /* TODO: Communication port */

            /* Game pad */
            case 0x10: /* SDLR */
            case 0x14: /* SDHR */
            case 0x28: /* SCR */
                if (sim->pad.si_stat != 0)
                    sim->ph.operation = PH_GAME_PAD;
                break;

            /* Timer */
            case 0x18: /* TLR */
            case 0x1C: /* THR */
                if (sim->tmr.t_enb)
                    sim->ph.operation = PH_TLHR;
                break;
            case 0x20: /* TCR */
                if (sim->tmr.t_enb)
                    sim->ph.operation = PH_TCR;
                break;
        }
    }

    /* Configure CPU */
    sim->cpu.clocks    = phUntil(sim);
    sim->cpu.operation = CPU_PHALT;
}

/* Test whether the current memory access matches the monitored access */
static int phMatches(VB *sim, uint32_t address, int type, int32_t value) {
    int match; /* Parameter match */
    int x;     /* Iterator */

    /* New memory access */
    if (sim->ph.step == 0)
        return 0;

    /* Check memory access parameters */
    match =
        address     == sim->ph.address &&
        sim->cpu.pc == sim->ph.pc      &&
        type        == sim->ph.type    &&
        value       == sim->ph.value
    ;
    if (!match || sim->ph.step != 3)
        return match;

    /* Check full CPU state */
    for (x = 1; x < 32; x++) {
        if (sim->ph.program[x - 1] != sim->cpu.program[x])
            return 0;
    }
    return
        sim->ph.adtre == sim->cpu.adtre                     &&
        sim->ph.chcw  == cpuGetSystemRegister(sim, VB_CHCW) &&
        sim->ph.ecr   == cpuGetSystemRegister(sim, VB_ECR)  &&
        sim->ph.eipc  == sim->cpu.eipc                      &&
        sim->ph.eipsw == sim->cpu.eipsw                     &&
        sim->ph.fepc  == sim->cpu.fepc                      &&
        sim->ph.fepsw == sim->cpu.fepsw                     &&
        sim->ph.psw   == cpuGetSystemRegister(sim, VB_PSW )
    ;
}


/****************************** Clock Measurers ******************************/

/* DPSTTS */
static uint32_t phDPSTTS(VB *sim) {
    switch (sim->vip.dp.step) {
        case 0: /* 0ms - FCLK rising edge */
        case 2: /* 3ms-8ms - Display left frame buffer */
        case 3: /* 8ms - L*BSY falling edge */
        case 6: /* 13ms-18ms - Display right frame buffer */
        case 7: /* 18ms - R*BSY falling edge */
            return sim->vip.dp.until;
    }
    /* case 1: 3ms - L*BSY rising edge */
    /* case 4: 10ms - FCLK falling edge */
    /* case 5: 13ms - R*BSY rising edge */
    return sim->vip.dp.clocks;
}

/* INTPND */
static uint32_t phINTPND(VB *sim) {
    if (!(
        sim->vip.dp.step != 0 ||
        sim->vip.dp.enabled   ||
        (sim->vip.dp.disp && sim->vip.dp.synce)
    )) return sim->vip.xp.until;
    if (!(sim->vip.xp.enabled || sim->vip.xp.xpen))
        return sim->vip.dp.until;
    return sim->vip.dp.until < sim->vip.xp.until ?
        sim->vip.dp.until : sim->vip.xp.until;
}

/* XPSTTS */
static uint32_t phXPSTTS(VB *sim) {
    uint32_t  clocks;    /* Return value */
    uint16_t *halfwords; /* Drawing clocks this SBCOUNT */
    uint32_t  x;         /* Iterator */

    /* Drawing is underway */
    if (sim->vip.xp.f0bsy || sim->vip.xp.f1bsy) {
        clocks    = 0;
        halfwords = &sim->vip.halfwords[
            (uint32_t) sim->vip.xp.sbcount * 384 + sim->vip.xp.column];
        for (x = sim->vip.xp.column; x < 384; x++, halfwords++)
            clocks += *halfwords;
        return clocks;
    }

    /* Drawing is idle */
    switch (sim->vip.dp.step) {
        case 0: /* 0ms - FCLK rising edge */
            return sim->vip.dp.until;
        case 1: /* 3ms - L*BSY rising edge */
        case 2: /* 3ms-8ms - Display left frame buffer */
        case 3: /* 8ms - L*BSY falling edge */
            return sim->vip.dp.until + vipClocksMs(12);
    }
    /* case 4: 10ms - FCLK falling edge */
    /* case 5: 13ms - R*BSY rising edge */
    /* case 6: 13ms-18ms - Display right frame buffer */
    /* case 7: 18ms - R*BSY falling edge */
    return sim->vip.dp.until + vipClocksMs(2);
}


/***************************** Library Functions *****************************/

/* Test whether to activate pseudo-halt */
static int phAssess(VB *sim, uint32_t address, int type, int32_t value) {
    int x; /* Iterator */

    /* Memory access does not match last time */
    address &= TYPE_MASKS[type];
    if (!phMatches(sim, address, type, value))
        sim->ph.step = 0;

    /* New memory access */
    if (sim->ph.step == 0) {
        sim->ph.address = address;
        sim->ph.pc      = sim->cpu.pc;
        sim->ph.step    = 1;
        sim->ph.type    = type;
        sim->ph.value   = value;
        return 0;
    }

    /* Repeated memory access, not checking full CPU state */
    if (sim->ph.step < 2) {
        sim->ph.step++;
        return 0;
    }

    /* Take a snapshot of the full CPU state */
    if (sim->ph.step == 2) {
        for (x = 1; x < 32; x++)
            sim->ph.program[x - 1] = sim->cpu.program[x];
        sim->ph.adtre = sim->cpu.adtre;
        sim->ph.chcw  = cpuGetSystemRegister(sim, VB_CHCW);
        sim->ph.ecr   = cpuGetSystemRegister(sim, VB_ECR);
        sim->ph.eipc  = sim->cpu.eipc;
        sim->ph.eipsw = sim->cpu.eipsw;
        sim->ph.fepc  = sim->cpu.fepc;
        sim->ph.fepsw = sim->cpu.fepsw;
        sim->ph.psw   = cpuGetSystemRegister(sim, VB_PSW);
        sim->ph.step  = 3;
        return 0;
    }

    /* Activate pseudo-halt */
    phActivate(sim, address, type);
    return 1;
}

/* Determine how long the CPU should wait before checking the monitor value */
static uint32_t phUntil(VB *sim) {
    switch (sim->ph.operation) {
        case PH_DPSTTS  : return phDPSTTS(sim);
        case PH_GAME_PAD: return sim->pad.si_stat;
        case PH_INTPND  : return phINTPND(sim);
        case PH_TCR     : return sim->tmr.until;
        case PH_TLHR    : return sim->tmr.clocks;
        case PH_XPSTTS  : return phXPSTTS(sim);
    }
    return 0; /* PH_NEVER */
}


#endif /* VBAPI */
Introduce pseudo-halt 2024-10-23 21:29:11 +00:00			`/* This file is included into vb.c and cannot be compiled on its own. */`
			`#ifdef VBAPI`



			`/******************************* Constants *******************************/`

			`/* Pseudo-halt operations */`
Implement additional pseudo-halt addresses 2024-10-24 01:35:40 +00:00			`#define PH_NEVER 0`
			`#define PH_DPSTTS 1`
			`#define PH_GAME_PAD 2`
			`#define PH_INTPND 3`
			`#define PH_TCR 4`
			`#define PH_TLHR 5`
			`#define PH_XPSTTS 6`
Introduce pseudo-halt 2024-10-23 21:29:11 +00:00


			`/*************************** Module Functions ****************************/`

			`/* Activate pseudo-halt */`
			`static void phActivate(VB *sim, uint32_t address, int type) {`
			`int range; /* Memory address range by component */`

			`/* Working variables */`
Implement additional pseudo-halt addresses 2024-10-24 01:35:40 +00:00			`address &= 0x07FFFFFF;`
			`range = address >> 24;`
Introduce pseudo-halt 2024-10-23 21:29:11 +00:00
Implement additional pseudo-halt addresses 2024-10-24 01:35:40 +00:00			`/* Configure pseudo-halt */`
			`sim->ph.operation = PH_NEVER;`
Introduce pseudo-halt 2024-10-23 21:29:11 +00:00
			`/* VIP */`
			`if (range == 0) {`
			`address &= 0x0007FFFF;`

Implement additional pseudo-halt addresses 2024-10-24 01:35:40 +00:00			`/* TODO: Frame buffer */`

Introduce pseudo-halt 2024-10-23 21:29:11 +00:00			`/* I/O register */`
			`switch (address) {`
Implement additional pseudo-halt addresses 2024-10-24 01:35:40 +00:00			`case 0x5F800: /* INTPND */`
			`if (`
			`sim->vip.dp.step != 0 \|\|`
			`sim->vip.dp.enabled \|\|`
			`(sim->vip.dp.disp && sim->vip.dp.synce) \|\|`
			`sim->vip.xp.enabled \|\|`
			`sim->vip.xp.xpen`
			`) sim->ph.operation = PH_INTPND;`
			`break;`
			`case 0x5F820: /* DPSTTS */`
			`if (`
			`sim->vip.dp.step != 0 \|\|`
			`sim->vip.dp.enabled \|\|`
			`(sim->vip.dp.disp && sim->vip.dp.synce)`
			`) sim->ph.operation = PH_DPSTTS;`
			`break;`
Introduce pseudo-halt 2024-10-23 21:29:11 +00:00			`case 0x5F840: /* XPSTTS */`
Implement additional pseudo-halt addresses 2024-10-24 01:35:40 +00:00			`if (sim->vip.xp.enabled \|\| sim->vip.xp.xpen)`
Introduce pseudo-halt 2024-10-23 21:29:11 +00:00			`sim->ph.operation = PH_XPSTTS;`
			`break;`
			`}`

			`}`

Implement additional pseudo-halt addresses 2024-10-24 01:35:40 +00:00			`/* Misc. I/O */`
			`else if (range == 2 && (type == VB_S8 \|\| type == VB_U8)) {`
			`address &= 0x0000003F;`
			`switch (address) {`

			`/* TODO: Communication port */`

			`/* Game pad */`
			`case 0x10: /* SDLR */`
			`case 0x14: /* SDHR */`
			`case 0x28: /* SCR */`
			`if (sim->pad.si_stat != 0)`
			`sim->ph.operation = PH_GAME_PAD;`
			`break;`

			`/* Timer */`
			`case 0x18: /* TLR */`
			`case 0x1C: /* THR */`
			`if (sim->tmr.t_enb)`
			`sim->ph.operation = PH_TLHR;`
			`break;`
			`case 0x20: /* TCR */`
			`if (sim->tmr.t_enb)`
			`sim->ph.operation = PH_TCR;`
			`break;`
			`}`
			`}`

Introduce pseudo-halt 2024-10-23 21:29:11 +00:00			`/* Configure CPU */`
Implement additional pseudo-halt addresses 2024-10-24 01:35:40 +00:00			`sim->cpu.clocks = phUntil(sim);`
			`sim->cpu.operation = CPU_PHALT;`
Introduce pseudo-halt 2024-10-23 21:29:11 +00:00			`}`

			`/* Test whether the current memory access matches the monitored access */`
			`static int phMatches(VB *sim, uint32_t address, int type, int32_t value) {`
			`int match; /* Parameter match */`
			`int x; /* Iterator */`

			`/* New memory access */`
			`if (sim->ph.step == 0)`
			`return 0;`

			`/* Check memory access parameters */`
			`match =`
			`address == sim->ph.address &&`
			`sim->cpu.pc == sim->ph.pc &&`
			`type == sim->ph.type &&`
			`value == sim->ph.value`
			`;`
			`if (!match \|\| sim->ph.step != 3)`
			`return match;`

			`/* Check full CPU state */`
			`for (x = 1; x < 32; x++) {`
			`if (sim->ph.program[x - 1] != sim->cpu.program[x])`
			`return 0;`
			`}`
			`return`
			`sim->ph.adtre == sim->cpu.adtre &&`
			`sim->ph.chcw == cpuGetSystemRegister(sim, VB_CHCW) &&`
Pseudo-halt timing fix 2024-10-24 02:16:35 +00:00			`sim->ph.ecr == cpuGetSystemRegister(sim, VB_ECR) &&`
Introduce pseudo-halt 2024-10-23 21:29:11 +00:00			`sim->ph.eipc == sim->cpu.eipc &&`
			`sim->ph.eipsw == sim->cpu.eipsw &&`
			`sim->ph.fepc == sim->cpu.fepc &&`
			`sim->ph.fepsw == sim->cpu.fepsw &&`
Pseudo-halt timing fix 2024-10-24 02:16:35 +00:00			`sim->ph.psw == cpuGetSystemRegister(sim, VB_PSW )`
Introduce pseudo-halt 2024-10-23 21:29:11 +00:00			`;`
			`}`



			`/**************************** Clock Measurers ****************************/`

Implement additional pseudo-halt addresses 2024-10-24 01:35:40 +00:00			`/* DPSTTS */`
			`static uint32_t phDPSTTS(VB *sim) {`
			`switch (sim->vip.dp.step) {`
			`case 0: /* 0ms - FCLK rising edge */`
			`case 2: /* 3ms-8ms - Display left frame buffer */`
			`case 3: /* 8ms - LBSY falling edge /`
			`case 6: /* 13ms-18ms - Display right frame buffer */`
			`case 7: /* 18ms - RBSY falling edge /`
			`return sim->vip.dp.until;`
			`}`
			`/* case 1: 3ms - LBSY rising edge /`
			`/* case 4: 10ms - FCLK falling edge */`
			`/* case 5: 13ms - RBSY rising edge /`
			`return sim->vip.dp.clocks;`
			`}`

			`/* INTPND */`
			`static uint32_t phINTPND(VB *sim) {`
			`if (!(`
			`sim->vip.dp.step != 0 \|\|`
			`sim->vip.dp.enabled \|\|`
			`(sim->vip.dp.disp && sim->vip.dp.synce)`
			`)) return sim->vip.xp.until;`
			`if (!(sim->vip.xp.enabled \|\| sim->vip.xp.xpen))`
			`return sim->vip.dp.until;`
			`return sim->vip.dp.until < sim->vip.xp.until ?`
			`sim->vip.dp.until : sim->vip.xp.until;`
			`}`

Introduce pseudo-halt 2024-10-23 21:29:11 +00:00			`/* XPSTTS */`
			`static uint32_t phXPSTTS(VB *sim) {`
			`uint32_t clocks; /* Return value */`
			`uint16_t halfwords; / Drawing clocks this SBCOUNT */`
			`uint32_t x; /* Iterator */`

			`/* Drawing is underway */`
			`if (sim->vip.xp.f0bsy \|\| sim->vip.xp.f1bsy) {`
			`clocks = 0;`
			`halfwords = &sim->vip.halfwords[`
			`(uint32_t) sim->vip.xp.sbcount * 384 + sim->vip.xp.column];`
			`for (x = sim->vip.xp.column; x < 384; x++, halfwords++)`
			`clocks += *halfwords;`
			`return clocks;`
			`}`

			`/* Drawing is idle */`
			`switch (sim->vip.dp.step) {`
			`case 0: /* 0ms - FCLK rising edge */`
			`return sim->vip.dp.until;`
			`case 1: /* 3ms - LBSY rising edge /`
			`case 2: /* 3ms-8ms - Display left frame buffer */`
			`case 3: /* 8ms - LBSY falling edge /`
			`return sim->vip.dp.until + vipClocksMs(12);`
			`}`
			`/* case 4: 10ms - FCLK falling edge */`
			`/* case 5: 13ms - RBSY rising edge /`
			`/* case 6: 13ms-18ms - Display right frame buffer */`
			`/* case 7: 18ms - RBSY falling edge /`
			`return sim->vip.dp.until + vipClocksMs(2);`
			`}`



			`/*************************** Library Functions ***************************/`

			`/* Test whether to activate pseudo-halt */`
			`static int phAssess(VB *sim, uint32_t address, int type, int32_t value) {`
			`int x; /* Iterator */`

			`/* Memory access does not match last time */`
Implement additional pseudo-halt addresses 2024-10-24 01:35:40 +00:00			`address &= TYPE_MASKS[type];`
Introduce pseudo-halt 2024-10-23 21:29:11 +00:00			`if (!phMatches(sim, address, type, value))`
			`sim->ph.step = 0;`

			`/* New memory access */`
			`if (sim->ph.step == 0) {`
			`sim->ph.address = address;`
			`sim->ph.pc = sim->cpu.pc;`
			`sim->ph.step = 1;`
			`sim->ph.type = type;`
			`sim->ph.value = value;`
			`return 0;`
			`}`

			`/* Repeated memory access, not checking full CPU state */`
			`if (sim->ph.step < 2) {`
			`sim->ph.step++;`
			`return 0;`
			`}`

			`/* Take a snapshot of the full CPU state */`
			`if (sim->ph.step == 2) {`
			`for (x = 1; x < 32; x++)`
			`sim->ph.program[x - 1] = sim->cpu.program[x];`
			`sim->ph.adtre = sim->cpu.adtre;`
			`sim->ph.chcw = cpuGetSystemRegister(sim, VB_CHCW);`
Pseudo-halt timing fix 2024-10-24 02:16:35 +00:00			`sim->ph.ecr = cpuGetSystemRegister(sim, VB_ECR);`
Introduce pseudo-halt 2024-10-23 21:29:11 +00:00			`sim->ph.eipc = sim->cpu.eipc;`
			`sim->ph.eipsw = sim->cpu.eipsw;`
			`sim->ph.fepc = sim->cpu.fepc;`
			`sim->ph.fepsw = sim->cpu.fepsw;`
			`sim->ph.psw = cpuGetSystemRegister(sim, VB_PSW);`
			`sim->ph.step = 3;`
			`return 0;`
			`}`

			`/* Activate pseudo-halt */`
			`phActivate(sim, address, type);`
			`return 1;`
			`}`

			`/* Determine how long the CPU should wait before checking the monitor value */`
			`static uint32_t phUntil(VB *sim) {`
			`switch (sim->ph.operation) {`
Implement additional pseudo-halt addresses 2024-10-24 01:35:40 +00:00			`case PH_DPSTTS : return phDPSTTS(sim);`
			`case PH_GAME_PAD: return sim->pad.si_stat;`
			`case PH_INTPND : return phINTPND(sim);`
			`case PH_TCR : return sim->tmr.until;`
			`case PH_TLHR : return sim->tmr.clocks;`
			`case PH_XPSTTS : return phXPSTTS(sim);`
Introduce pseudo-halt 2024-10-23 21:29:11 +00:00			`}`
			`return 0; /* PH_NEVER */`
			`}`



			`#endif /* VBAPI */`