/*
- * TeensyTAS, TAS input player for MegaDrive
- * Copyright (c) 2014 notaz
+ * TeensyTP, Team Player/4-Player Adaptor implementation for Teensy3
+ * using a host machine with USB hub
+ * Copyright (c) 2015 notaz
*
* Permission is hereby granted, free of charge, to any person obtaining
* a copy of this software and associated documentation files (the
#define ARRAY_SIZE(x) (sizeof(x) / sizeof(x[0]))
-#define noinline __attribute__((noinline))
-
-// use power of 2
-#define STREAM_BUF_SIZE 512
-#define STREAM_BUF_MASK (512 - 1)
-
-/* ?0SA 00DU, ?1CB RLDU */
-#define STREAM_EL_SZ 2
-
-static struct {
- uint8_t stream_to[2][STREAM_BUF_SIZE][STREAM_EL_SZ];
- uint8_t stream_from[STREAM_BUF_SIZE][STREAM_EL_SZ];
- struct {
- union {
- uint8_t fixed_state[4];
- uint32_t fixed_state32;
- };
- union {
- uint8_t pending_state[4];
- uint32_t pending_state32;
- };
- } pl[2];
- uint32_t stream_enable_to:1;
- uint32_t stream_enable_from:1;
- uint32_t stream_started:1;
- uint32_t stream_ended:1;
- uint32_t inc_mode:2;
- uint32_t use_pending:1;
- uint32_t frame_cnt;
- uint32_t edge_cnt;
- struct {
- uint32_t i;
- uint32_t o;
- } pos_to_p[2], pos_from;
-} g;
+#define noinline __attribute__((noclone,noinline))
ssize_t _write(int fd, const void *buf, size_t nbyte)
{
{
}
-static noinline void choose_isrs_idle(void);
+/*
+ * 00157:231: w 70 @ 007ef2
+ * 00157:231: r 7f @ 007f06
+ * 00157:231: w 30 @ 007efa
+ * 00157:231: r 33 @ 007f06
+ * 00157:232: w 40 @ 007f6a
+ * 00157:232: r 7f @ 007f70
+ */
+
+/* ?0SA 00DU, ?1CB RLDU */
+
+static struct {
+ struct {
+ union {
+ uint8_t b[2];
+ uint8_t b6[4 * 2]; // 6btn
+ uint32_t w; // for more atomic change
+ };
+ uint32_t phase; // 6btn
+ uint32_t time;
+ } btn_state[2];
+
+ uint8_t tp_state[16];
+ uint32_t tp_cnt;
+
+ uint32_t mode;
+ uint32_t pl1th:1;
+} g;
/* player1 TH */
-#define PL1_ISFR PORTD_ISFR
-#define PL1_TH() ((CORE_PIN21_PINREG >> CORE_PIN21_BIT) & 1)
+#define PL1_ISFR PORTD_ISFR
+#define PL1_TH() ((CORE_PIN21_PINREG >> CORE_PIN21_BIT) & 1)
+#define PL1_TR() ((CORE_PIN20_PINREG >> CORE_PIN20_BIT) & 1)
+#define PL1_TH_MASK CORE_PIN21_BITMASK
+#define PL1_TR_MASK CORE_PIN20_BITMASK
-static void pl1th_isr_fixed(void)
+static void pl1_isr_3btn(void)
{
- uint32_t isfr, th;
+ uint32_t isfr;
isfr = PL1_ISFR;
PL1_ISFR = isfr;
- th = PL1_TH();
- GPIOD_PDOR = g.pl[0].fixed_state[th];
- g.edge_cnt++;
+ GPIOD_PDOR = g.btn_state[0].b[PL1_TH()];
}
-static noinline void do_to_step_pl1(void)
+static void pl1_isr_6btn(void)
{
- g.frame_cnt++;
+ uint32_t isfr, th, phase = 0;
- g.pos_to_p[0].o = (g.pos_to_p[0].o + 1) & STREAM_BUF_MASK;
- if (g.pos_to_p[0].o == g.pos_to_p[0].i)
- // done
- choose_isrs_idle();
+ isfr = PL1_ISFR;
+ PL1_ISFR = isfr;
+
+ th = PL1_TH();
+ if (th)
+ g.btn_state[0].phase++;
+ if (g.btn_state[0].phase < 4)
+ phase = g.btn_state[0].phase;
+
+ GPIOD_PDOR = g.btn_state[0].b[(phase << 1) | PL1_TH()];
+ g.btn_state[0].time = millis();
}
-static void pl1th_isr_do_to_inc(void)
+// team player
+static noinline void pl1_isr_tp_do_th(void)
{
- uint32_t isfr, th;
+ uint32_t cnt, th;
- isfr = PL1_ISFR;
- PL1_ISFR = isfr;
th = PL1_TH();
+ cnt = !th;
- GPIOD_PDOR = g.stream_to[0][g.pos_to_p[0].o][th];
- if (th)
- do_to_step_pl1();
+ GPIOD_PDOR = g.tp_state[cnt] | (PL1_TR() << 4);
+ g.tp_cnt = cnt;
+ g.pl1th = th;
}
-static void pl1th_isr_do_to(void)
+static void pl1_isr_tp(void)
{
- uint32_t isfr, th;
+ uint32_t isfr;
isfr = PL1_ISFR;
PL1_ISFR = isfr;
- th = PL1_TH();
- GPIOD_PDOR = g.stream_to[0][g.pos_to_p[0].o][th];
- g.edge_cnt++;
+ if (isfr & PL1_TH_MASK)
+ pl1_isr_tp_do_th();
+ if (!(isfr & PL1_TR_MASK))
+ return;
+ if (g.pl1th)
+ return;
+
+ g.tp_cnt++;
+ GPIOD_PDOR = g.tp_state[g.tp_cnt & 0x0f] | (PL1_TR() << 4);
}
/* player2 TH */
#define PL2_TH() ((CORE_PIN15_PINREG >> CORE_PIN15_BIT) & 1)
#define PL2_ADJ(x) ((x) | ((x) << 12))
-static void pl2th_isr_fixed(void)
+static void pl2_isr_nop(void)
{
- uint32_t isfr, th, v;
+ uint32_t isfr;
isfr = PL2_ISFR;
PL2_ISFR = isfr;
- th = PL2_TH();
- v = g.pl[1].fixed_state[th];
- GPIOB_PDOR = PL2_ADJ(v);
+ GPIOB_PDOR = PL2_ADJ(0x3f);
}
-static noinline void do_to_step_pl2(void)
+static void pl2_isr_3btn(void)
{
- g.pos_to_p[1].o = (g.pos_to_p[1].o + 1) & STREAM_BUF_MASK;
- if (g.pos_to_p[1].o == g.pos_to_p[1].i)
- // done
- choose_isrs_idle();
-}
-
-static void pl2th_isr_do_to_inc(void)
-{
- uint32_t isfr, th, v;
+ uint32_t isfr;
isfr = PL2_ISFR;
PL2_ISFR = isfr;
- th = PL2_TH();
- v = g.stream_to[1][g.pos_to_p[1].o][th];
- GPIOB_PDOR = PL2_ADJ(v);
- if (th)
- do_to_step_pl2();
+ GPIOB_PDOR = PL2_ADJ(g.btn_state[1].b[PL2_TH()]);
}
-static void pl2th_isr_do_to_p1d(void)
+static void pl2_isr_6btn(void)
{
- uint32_t isfr, th, v;
+ uint32_t isfr, th, phase = 0;
isfr = PL2_ISFR;
PL2_ISFR = isfr;
- th = PL2_TH();
-
- v = g.stream_to[1][g.pos_to_p[0].o][th];
- GPIOB_PDOR = PL2_ADJ(v);
- g.pos_to_p[1].o = g.pos_to_p[0].o;
-}
-
-static void pl2th_isr_do_to_inc_pl1(void)
-{
- uint32_t isfr, th, v;
-
- isfr = PL2_ISFR;
- PL2_ISFR = isfr;
th = PL2_TH();
-
- v = g.stream_to[1][g.pos_to_p[1].o][th];
- GPIOB_PDOR = PL2_ADJ(v);
- if (th) {
- do_to_step_pl1();
- g.pos_to_p[1].o = g.pos_to_p[0].o;
- }
-}
-
-/* vsync handler */
-#define VSYNC_ISFR PORTC_ISFR
-
-static void vsync_isr_nop(void)
-{
- uint32_t isfr;
-
- isfr = VSYNC_ISFR;
- VSYNC_ISFR = isfr;
-}
-
-// /vsync starts at line 235/259 (ntsc/pal), just as vcounter jumps back
-// we care when it comes out (/vsync goes high) after 3 lines at 238/262
-static void vsync_isr_frameinc(void)
-{
- uint32_t isfr;
-
- isfr = VSYNC_ISFR;
- VSYNC_ISFR = isfr;
-
- g.pos_to_p[0].o = (g.pos_to_p[0].o + 1) & STREAM_BUF_MASK;
- g.pos_to_p[1].o = g.pos_to_p[0].o;
-
- if (g.pos_to_p[0].o == g.pos_to_p[0].i)
- choose_isrs_idle();
- g.frame_cnt++;
-}
-
-/* "recording" data */
-static noinline void do_from_step(void)
-{
- uint32_t s;
-
- // should hopefully give atomic fixed_state read..
- s = g.pl[0].fixed_state32;
- g.pl[0].fixed_state32 = g.pl[0].pending_state32;
- g.stream_from[g.pos_from.i][0] = s;
- g.stream_from[g.pos_from.i][1] = s >> 8;
- g.pos_from.i = (g.pos_from.i + 1) & STREAM_BUF_MASK;
-}
-
-static void pl1th_isr_fixed_do_from(void)
-{
- uint32_t isfr, th;
-
- isfr = PL1_ISFR;
- PL1_ISFR = isfr;
- th = PL1_TH();
-
- GPIOD_PDOR = g.pl[0].fixed_state[th];
if (th)
- do_from_step();
- g.edge_cnt++;
-}
-
-static void vsync_isr_frameinc_do_from(void)
-{
- uint32_t isfr;
-
- isfr = VSYNC_ISFR;
- VSYNC_ISFR = isfr;
+ g.btn_state[1].phase++;
+ if (g.btn_state[1].phase < 4)
+ phase = g.btn_state[1].phase;
- do_from_step();
- g.frame_cnt++;
+ GPIOB_PDOR = PL2_ADJ(g.btn_state[1].b[(phase << 1) | PL2_TH()]);
+ g.btn_state[1].time = millis();
}
/* * */
-static void choose_isrs(void)
+static void clear_state()
{
- void (*pl1th_handler)(void) = pl1th_isr_fixed;
- void (*pl2th_handler)(void) = pl2th_isr_fixed;
- void (*vsync_handler)(void) = vsync_isr_nop;
-
- if (g.stream_enable_to) {
- switch (g.inc_mode) {
- case INC_MODE_VSYNC:
- pl1th_handler = pl1th_isr_do_to;
- pl2th_handler = pl2th_isr_do_to_p1d;
- vsync_handler = vsync_isr_frameinc;
- break;
- case INC_MODE_SHARED_PL1:
- pl1th_handler = pl1th_isr_do_to_inc;
- pl2th_handler = pl2th_isr_do_to_p1d;
- break;
- case INC_MODE_SHARED_PL2:
- pl1th_handler = pl1th_isr_do_to;
- pl2th_handler = pl2th_isr_do_to_inc_pl1;
- break;
- case INC_MODE_SEPARATE:
- pl1th_handler = pl1th_isr_do_to_inc;
- pl2th_handler = pl2th_isr_do_to_inc;
- break;
- }
- }
- else if (g.stream_enable_from) {
- g.use_pending = 1;
- switch (g.inc_mode) {
- case INC_MODE_VSYNC:
- vsync_handler = vsync_isr_frameinc_do_from;
- break;
- case INC_MODE_SHARED_PL1:
- pl1th_handler = pl1th_isr_fixed_do_from;
- break;
- case INC_MODE_SHARED_PL2:
- case INC_MODE_SEPARATE:
- /* TODO */
- break;
- }
- }
+ int p, i;
- attachInterruptVector(IRQ_PORTD, pl1th_handler);
- attachInterruptVector(IRQ_PORTC, pl2th_handler);
- attachInterruptVector(IRQ_PORTA, vsync_handler);
-}
-
-static noinline void choose_isrs_idle(void)
-{
- attachInterruptVector(IRQ_PORTD, pl1th_isr_fixed);
- attachInterruptVector(IRQ_PORTC, pl2th_isr_fixed);
- attachInterruptVector(IRQ_PORTA, vsync_isr_nop);
-}
-
-static void udelay(uint32_t us)
-{
- uint32_t start = micros();
-
- while ((micros() - start) < us) {
- asm volatile("nop; nop; nop; nop");
- yield();
+ // no hw connected
+ for (p = 0; p < 2; p++) {
+ for (i = 0; i < 4 * 2; i++)
+ g.btn_state[p].b6[i] = 0x3f;
+ g.btn_state[p].phase = 0;
}
+
+ // 4 pads, nothing pressed
+ g.tp_state[0] = 0x03;
+ g.tp_state[1] = 0x0f;
+ g.tp_state[2] = 0x00;
+ g.tp_state[3] = 0x00;
+ for (i = 4; i < 8; i++)
+ g.tp_state[i] = 0x00; // 3btn
+ for (; i < 16; i++)
+ g.tp_state[i] = 0x0f;
+
+ g.tp_cnt = 0;
+ g.pl1th = PL1_TH();
}
-static void do_start_seq(void)
+static void switch_mode(int mode)
{
- uint32_t edge_cnt_last;
- uint32_t edge_cnt;
- uint32_t start, t1, t2;
- int tout;
-
- start = micros();
- edge_cnt = g.edge_cnt;
-
- /* magic value */
- g.pl[0].fixed_state[0] =
- g.pl[0].fixed_state[1] = 0x25;
-
- for (tout = 10000; tout > 0; tout--) {
- edge_cnt_last = edge_cnt;
- udelay(100);
- edge_cnt = g.edge_cnt;
-
- if (edge_cnt != edge_cnt_last)
- continue;
- if (!PL1_TH())
- break;
- }
-
- g.pl[0].fixed_state[0] = 0x33;
- g.pl[0].fixed_state[1] = 0x3f;
- GPIOD_PDOR = 0x33;
+ void (*pl1_handler)(void) = pl1_isr_3btn;
+ void (*pl2_handler)(void) = pl2_isr_3btn;
- t1 = micros();
- if (tout == 0) {
- printf("start_seq timeout1, t=%u\n", t1 - start);
- return;
- }
-
- for (tout = 100000; tout > 0; tout--) {
- udelay(1);
-
- if (PL1_TH())
- break;
- }
-
- t2 = micros();
- if (tout == 0) {
- printf("start_seq timeout2, t1=%u, t2=%u\n",
- t1 - start, t2 - t1);
- return;
- }
-
- //printf(" t1=%u, t2=%u\n", t1 - start, t2 - t1);
-
- if (g.stream_started) {
- printf("got start_seq when already started\n");
- return;
- }
-
- if (!g.stream_enable_to && !g.stream_enable_from) {
- printf("got start_seq, without enable from USB\n");
- return;
- }
+ clear_state();
- if (g.stream_enable_to && g.pos_to_p[0].i == g.pos_to_p[0].o) {
- printf("got start_seq while stream_to is empty\n");
- return;
- }
-
- if (g.stream_enable_from && g.pos_from.i != g.pos_from.o) {
- printf("got start_seq while stream_from is not empty\n");
- return;
+ switch (mode) {
+ default:
+ case OP_MODE_3BTN:
+ pinMode(20, OUTPUT);
+ break;
+ case OP_MODE_6BTN:
+ pinMode(20, OUTPUT);
+ pl1_handler = pl1_isr_6btn;
+ pl2_handler = pl2_isr_6btn;
+ break;
+ case OP_MODE_TEAMPLAYER:
+ pinMode(20, INPUT);
+ attachInterrupt(20, pl1_handler, CHANGE);
+ pl1_handler = pl1_isr_tp;
+ pl2_handler = pl2_isr_nop;
+ GPIOB_PDOR = PL2_ADJ(0x3f);
+ break;
}
- __disable_irq();
- choose_isrs();
- g.stream_started = 1;
- __enable_irq();
+ attachInterruptVector(IRQ_PORTD, pl1_handler);
+ attachInterruptVector(IRQ_PORTC, pl2_handler);
+ g.mode = mode;
}
-// callers must disable IRQs
-static void clear_state(void)
+// btns: MXYZ SACB RLDU
+static void update_btns_btn(const struct tp_pkt *pkt, uint32_t player)
{
- int i;
-
- g.stream_enable_to = 0;
- g.stream_enable_from = 0;
- g.stream_started = 0;
- g.stream_ended = 0;
- g.inc_mode = INC_MODE_VSYNC;
- g.use_pending = 0;
- for (i = 0; i < ARRAY_SIZE(g.pos_to_p); i++)
- g.pos_to_p[i].i = g.pos_to_p[i].o = 0;
- g.pos_from.i = g.pos_from.o = 0;
- g.frame_cnt = 0;
- memset(g.stream_to[1], 0x3f, sizeof(g.stream_to[1]));
- choose_isrs_idle();
+ // ?1CB RLDU ?0SA 00DU
+ uint32_t s_6btn0, s_6btn1;
+ uint32_t s_3btn;
+
+ s_3btn = (~pkt->bnts[player] << 8) & 0x3f00;
+ s_3btn |= (~pkt->bnts[player] >> 2) & 0x0030; // SA
+ s_3btn |= (~pkt->bnts[player] ) & 0x0003; // DU
+ s_3btn |= s_3btn << 16;
+ g.btn_state[player].w = s_3btn;
+
+ // 6btn stuff
+ s_6btn0 = s_3btn & 0x30;
+ s_6btn1 = s_3btn >> 8;
+ g.btn_state[player].b6[4] = s_6btn0; // ?0SA 0000
+ g.btn_state[player].b6[5] = s_6btn1; // ?1CB RLDU
+ g.btn_state[player].b6[6] = s_6btn0 | 0x0f; // ?0SA 1111
+ s_6btn1 &= 0x30;
+ s_6btn1 |= (~pkt->bnts[player] >> 8) & 0x0f;
+ g.btn_state[player].b6[7] = s_6btn1; // ?1CB MXYZ
}
-static int get_space_to(int p)
+static void update_btns_tp(const struct tp_pkt *pkt, uint32_t player)
{
- return STREAM_BUF_SIZE - ((g.pos_to_p[p].i - g.pos_to_p[p].o)
- & STREAM_BUF_MASK);
-}
+ uint8_t b0, b1;
-static int get_used_from(void)
-{
- return (g.pos_from.i - g.pos_from.o) & STREAM_BUF_MASK;
+ b0 = ~pkt->bnts[player] & 0x0f;
+ b1 = (~pkt->bnts[player] >> 4) & 0x0f;
+ g.tp_state[8 + player * 2 ] = b0;
+ g.tp_state[8 + player * 2 + 1] = b1;
}
-static void do_usb(void *buf)
+static void do_usb(const void *buf)
{
- struct tas_pkt *pkt = buf;
- uint32_t pos_to_i, i, p;
- int space;
+ const struct tp_pkt *pkt = buf;
+ uint32_t i;
switch (pkt->type) {
- case PKT_FIXED_STATE:
- memcpy(&i, pkt->data, sizeof(i));
- if (g.use_pending)
- g.pl[0].pending_state32 = i;
- else
- g.pl[0].fixed_state32 = i;
- break;
- case PKT_STREAM_ENABLE:
+ case PKT_UPD_MODE:
__disable_irq();
- clear_state();
- /* wait for start from MD */
- g.stream_enable_to = pkt->enable.stream_to;
- g.stream_enable_from = pkt->enable.stream_from;
- g.inc_mode = pkt->enable.inc_mode;
- if (pkt->enable.no_start_seq) {
- GPIOD_PDOR = 0x3f;
- choose_isrs();
- g.stream_started = 1;
- }
+ switch_mode(pkt->mode);
__enable_irq();
break;
- case PKT_STREAM_ABORT:
- __disable_irq();
- clear_state();
- __enable_irq();
- break;
- case PKT_STREAM_END:
- g.stream_ended = 1;
- printf("end of stream\n");
- break;
- case PKT_STREAM_DATA_TO_P1:
- case PKT_STREAM_DATA_TO_P2:
- p = pkt->type == PKT_STREAM_DATA_TO_P1 ? 0 : 1;
- pos_to_i = g.pos_to_p[p].i;
- space = get_space_to(p);
- if (space <= pkt->size / STREAM_EL_SZ) {
- printf("got data pkt while space=%d\n", space);
- return;
- }
- for (i = 0; i < pkt->size / STREAM_EL_SZ; i++) {
- memcpy(&g.stream_to[p][pos_to_i++],
- pkt->data + i * STREAM_EL_SZ,
- STREAM_EL_SZ);
- pos_to_i &= STREAM_BUF_MASK;
+ case PKT_UPD_BTNS:
+ switch (g.mode) {
+ case OP_MODE_3BTN:
+ case OP_MODE_6BTN:
+ if (pkt->changed_players & 1)
+ update_btns_btn(pkt, 0);
+ if (pkt->changed_players & 2)
+ update_btns_btn(pkt, 1);
+ break;
+ case OP_MODE_TEAMPLAYER:
+ for (i = 0; i < 4; i++) {
+ if (!(pkt->changed_players & (1 << i)))
+ continue;
+ update_btns_tp(pkt, i);
+ }
}
- g.pos_to_p[p].i = pos_to_i;
break;
default:
printf("got unknown pkt type: %04x\n", pkt->type);
}
}
-static void check_get_data(int p)
-{
- struct tas_pkt pkt;
- uint8_t buf[64];
- int ret;
-
- if (get_space_to(p) <= sizeof(pkt.data) / STREAM_EL_SZ)
- return;
-
- if (g.pos_to_p[p].i == g.pos_to_p[p].o && g.frame_cnt != 0) {
- printf("underflow detected\n");
- g.stream_enable_to = 0;
- return;
- }
-
- pkt.type = PKT_STREAM_REQ;
- pkt.req.frame = g.frame_cnt;
- pkt.req.is_p2 = p;
-
- ret = usb_rawhid_send(&pkt, 1000);
- if (ret != sizeof(pkt)) {
- printf("send STREAM_REQ/%d: %d\n", p, ret);
- return;
- }
-
- ret = usb_rawhid_recv(buf, 1000);
- if (ret != 64)
- printf("usb_rawhid_recv/s: %d\n", ret);
- else
- do_usb(buf);
-}
-
int main(void)
{
uint32_t led_time = 0;
- uint32_t scheck_time = 0;
- uint32_t edge_cnt_last;
- uint32_t edge_cnt;
uint8_t buf[64];
- int i, ret;
+ int ret;
delay(1000); // wait for usb..
- /* ?0SA 00DU, ?1CB RLDU */
- for (i = 0; i < 2; i++) {
- g.pl[i].fixed_state[0] = 0x33;
- g.pl[i].fixed_state[1] = 0x3f;
- }
-
printf("starting, rawhid: %d\n", usb_rawhid_available());
- choose_isrs_idle();
+ switch_mode(OP_MODE_3BTN);
// md pin th tr tl r l d u vsync th tr tl r l d u
// 7 9 6 4 3 2 1 7 9 6 4 3 2 1
// player1
pinMode(21, INPUT);
- attachInterrupt(21, pl1th_isr_fixed, CHANGE);
+ // note: func is not used, see attachInterruptVector()
+ attachInterrupt(21, pl1_isr_3btn, CHANGE);
NVIC_SET_PRIORITY(IRQ_PORTD, 0);
pinMode( 2, OUTPUT);
// player2
pinMode(15, INPUT);
- attachInterrupt(15, pl1th_isr_fixed, CHANGE);
+ attachInterrupt(15, pl2_isr_nop, CHANGE);
NVIC_SET_PRIORITY(IRQ_PORTC, 0);
pinMode(16, OUTPUT);
pinMode( 0, OUTPUT);
pinMode( 1, OUTPUT);
- // vsync line
- pinMode(3, INPUT);
- attachInterrupt(3, vsync_isr_nop, RISING);
- NVIC_SET_PRIORITY(IRQ_PORTA, 16);
-
// led
pinMode(13, OUTPUT);
printf("BASEPRI: %d, SHPR: %08x %08x %08x\n",
ret, SCB_SHPR1, SCB_SHPR2, SCB_SHPR3);
- edge_cnt_last = g.edge_cnt;
-
while (1) {
- struct tas_pkt pkt;
- uint32_t now;
-
- if (g.stream_enable_to && !g.stream_ended) {
- check_get_data(0);
- if (g.inc_mode == INC_MODE_SHARED_PL2
- || g.inc_mode == INC_MODE_SEPARATE)
- check_get_data(1);
- }
-
- while (g.stream_enable_from && !g.stream_ended
- && get_used_from() >= sizeof(pkt.data) / STREAM_EL_SZ)
- {
- uint32_t o;
- int i;
-
- o = g.pos_from.o;
- for (i = 0; i < sizeof(pkt.data); i += STREAM_EL_SZ) {
- memcpy(pkt.data + i, &g.stream_from[o++],
- STREAM_EL_SZ);
- o &= STREAM_BUF_MASK;
- }
- g.pos_from.o = o;
-
- pkt.type = PKT_STREAM_DATA_FROM;
- pkt.size = i;
-
- ret = usb_rawhid_send(&pkt, 1000);
- if (ret != sizeof(pkt)) {
- printf("send DATA_FROM: %d\n", ret);
- break;
- }
- }
+ uint32_t i, now;
now = millis();
-
- // start condition check
- if (now - scheck_time > 1000) {
- edge_cnt = g.edge_cnt;
- //printf("e: %d th: %d\n", edge_cnt - edge_cnt_last,
- // PL1_TH());
- if ((g.stream_enable_to || g.stream_enable_from)
- && !g.stream_started
- && edge_cnt - edge_cnt_last > 10000)
- {
- do_start_seq();
- edge_cnt = g.edge_cnt;
- }
- edge_cnt_last = edge_cnt;
- scheck_time = now;
+ for (i = 0; i < 2; i++) {
+ if (g.btn_state[i].phase == 0)
+ continue;
+ if (now - g.btn_state[i].time > 1)
+ g.btn_state[i].phase = 0;
}
// led?