} while (0)
-volatile uint8_t ibmpc_protocol = IBMPC_PROTOCOL_AT;
+volatile uint16_t ibmpc_isr_debug = 0;
+volatile uint8_t ibmpc_protocol = IBMPC_PROTOCOL_NO;
volatile uint8_t ibmpc_error = IBMPC_ERR_NONE;
-/* 2-byte buffer for data received from keyhboard
+/* 2-byte buffer for data received from keyboard
* buffer states:
* FFFF: empty
* FFss: one data
- * sstt: two data(full)
- * 0xFF can not be stored as data in buffer because it means empty or no data.
+ * sstt: two data
+ * eeFF: error
+ * where ss, tt and ee are 0x00-0xFE. 0xFF means empty or no data in buffer.
*/
static volatile uint16_t recv_data = 0xFFFF;
/* internal state of receiving data */
bool parity = true;
ibmpc_error = IBMPC_ERR_NONE;
- if (ibmpc_protocol == IBMPC_PROTOCOL_XT) return -1;
-
dprintf("w%02X ", data);
IBMPC_INT_OFF();
/* terminate a transmission if we have */
inhibit();
- wait_us(100); // 100us [4]p.13, [5]p.50
+ wait_us(100); // [5]p.54
/* 'Request to Send' and Start bit */
data_lo();
- clock_hi();
- WAIT(clock_lo, 10000, 1); // 10ms [5]p.50
+ wait_us(100);
+ clock_hi(); // [5]p.54 [clock low]>100us [5]p.50
+ WAIT(clock_lo, 10000, 1); // [5]p.53, -10ms [5]p.50
/* Data bit[2-9] */
for (uint8_t i = 0; i < 8; i++) {
/* Stop bit */
wait_us(15);
data_hi();
+ WAIT(clock_hi, 50, 6);
+ WAIT(clock_lo, 50, 7);
/* Ack */
- WAIT(data_lo, 50, 6);
- WAIT(clock_lo, 50, 7);
+ WAIT(data_lo, 50, 8);
/* wait for idle state */
- WAIT(clock_hi, 50, 8);
- WAIT(data_hi, 50, 9);
+ WAIT(clock_hi, 50, 9);
+ WAIT(data_hi, 50, 10);
// clear buffer to get response correctly
recv_data = 0xFFFF;
ATOMIC_BLOCK(ATOMIC_RESTORESTATE) {
data = recv_data;
- if ((data&0xFF00) != 0xFF00) { // recv_data:sstt -> recv_data:FFtt, ret:ss
- ret = (data>>8)&0x00FF;
- recv_data = data | 0xFF00;
- } else if (data != 0xFFFF) { // recv_data:FFss -> recv_data:FFFF, ret:ss
- ret = data&0x00FF;
- recv_data = data | 0x00FF;
- }
+
+ // remove data from buffer:
+ // FFFF(empty) -> FFFF
+ // FFss(one data) -> FFFF
+ // sstt(two data) -> FFtt
+ // eeFF(errror) -> FFFF
+ recv_data = data | (((data&0xFF00) == 0xFF00) ? 0x00FF : 0xFF00);
}
- if (ret != 0xFF) dprintf("r%02X ", ret);
- if (recv_data != 0xFFFF) dprintf("b%04X ", recv_data);
- return ((ret != 0xFF) ? ret : -1);
+ if ((data&0x00FF) == 0x00FF) {
+ // error: eeFF
+ switch (data>>8) {
+ case IBMPC_ERR_FF:
+ // 0xFF(Overrun/Error) from keyboard
+ dprintf("!FF! ");
+ ret = 0xFF;
+ break;
+ case IBMPC_ERR_FULL:
+ // buffer full
+ dprintf("!FULL! ");
+ ret = 0xFF;
+ break;
+ case 0xFF:
+ // empty: FFFF
+ return -1;
+ default:
+ // other errors
+ dprintf("e%02X ", data>>8);
+ return -1;
+ }
+ } else {
+ if ((data | 0x00FF) != 0xFFFF) {
+ // two data: sstt
+ dprintf("b:%04X ", data);
+ ret = (data>>8);
+ } else {
+ // one data: FFss
+ ret = (data&0x00FF);
+ }
+ }
+ //dprintf("i%04X ", ibmpc_isr_debug); ibmpc_isr_debug = 0;
+ dprintf("r%02X ", ret);
+ return ret;
}
int16_t ibmpc_host_recv_response(void)
void ibmpc_host_isr_clear(void)
{
+ ibmpc_isr_debug = 0;
+ ibmpc_protocol = 0;
+ ibmpc_error = 0;
isr_state = 0x8000;
recv_data = 0xFFFF;
}
+#define LO8(w) (*((uint8_t *)&(w)))
+#define HI8(w) (*(((uint8_t *)&(w))+1))
// NOTE: With this ISR data line can be read within 2us after clock falling edge.
// To read data line early as possible:
// write naked ISR with asembly code to read the line and call C func to do other job?
if (isr_state == 0x8000) {
timer_start = t;
} else {
- // should not take more than 1ms
- if (timer_start != t && (uint8_t)(timer_start + 1) != t) {
+ // This gives 2.0ms at least before timeout
+ if ((uint8_t)(t - timer_start) >= 3) {
+ ibmpc_isr_debug = isr_state;
ibmpc_error = IBMPC_ERR_TIMEOUT;
- //goto ERROR;
- // timeout error recovery by clearing isr_state?
- timer_start = t;
- isr_state = 0x8000;
+ goto ERROR;
+
+ // timeout error recovery - start receiving new data
+ // it seems to work somehow but may not under unstable situation
+ //timer_start = t;
+ //isr_state = 0x8000;
}
}
// x x x x x x x x | *1 0 0 0 0 0 0 0 midway(8 bits received)
// b6 b5 b4 b3 b2 b1 b0 1 | 0 *1 0 0 0 0 0 0 XT_IBM-midway ^1
// b7 b6 b5 b4 b3 b2 b1 b0 | 0 *1 0 0 0 0 0 0 AT-midway ^1
- // b7 b6 b5 b4 b3 b2 b1 b0 | 1 *1 0 0 0 0 0 0 XT_Clone-done
+ // b7 b6 b5 b4 b3 b2 b1 b0 | 1 *1 0 0 0 0 0 0 XT_Clone-done ^3
+ // b6 b5 b4 b3 b2 b1 b0 1 | 1 *1 0 0 0 0 0 0 XT_IBM-error ^3
// pr b7 b6 b5 b4 b3 b2 b1 | 0 0 *1 0 0 0 0 0 AT-midway[b0=0]
// b7 b6 b5 b4 b3 b2 b1 b0 | 1 0 *1 0 0 0 0 0 XT_IBM-done ^2
// pr b7 b6 b5 b4 b3 b2 b1 | 1 0 *1 0 0 0 0 0 AT-midway[b0=1] ^2
+ // b7 b6 b5 b4 b3 b2 b1 b0 | 1 1 *1 0 0 0 0 0 XT_IBM-error-done
// x x x x x x x x | x 1 1 0 0 0 0 0 illegal
// st pr b7 b6 b5 b4 b3 b2 | b1 b0 0 *1 0 0 0 0 AT-done
// x x x x x x x x | x x 1 *1 0 0 0 0 illegal
// midway
goto NEXT;
break;
- case 0b11000000:
- // XT_Clone-done
+ case 0b11000000: // ^3
+ {
+ uint8_t us = 100;
+ // wait for rising and falling edge of b7 of XT_IBM
+ while (!(IBMPC_CLOCK_PIN&(1<<IBMPC_CLOCK_BIT)) && us) { wait_us(1); us--; }
+ while ( IBMPC_CLOCK_PIN&(1<<IBMPC_CLOCK_BIT) && us) { wait_us(1); us--; }
+
+ if (us) {
+ // XT_IBM-error: read start(0) as 1
+ goto NEXT;
+ } else {
+ // XT_Clone-done
+ ibmpc_isr_debug = isr_state;
+ isr_state = isr_state>>8;
+ ibmpc_protocol = IBMPC_PROTOCOL_XT_CLONE;
+ goto DONE;
+ }
+ }
+ break;
+ case 0b11100000:
+ // XT_IBM-error-done
+ ibmpc_isr_debug = isr_state;
isr_state = isr_state>>8;
+ ibmpc_protocol = IBMPC_PROTOCOL_XT_ERROR;
goto DONE;
break;
case 0b10100000: // ^2
goto NEXT;
} else {
// no stop bit: XT_IBM-done
+ ibmpc_isr_debug = isr_state;
isr_state = isr_state>>8;
+ ibmpc_protocol = IBMPC_PROTOCOL_XT_IBM;
goto DONE;
}
}
case 0b11010000:
// AT-done
// TODO: parity check?
+ ibmpc_isr_debug = isr_state;
+ // stop bit check
+ if (isr_state & 0x8000) {
+ ibmpc_protocol = IBMPC_PROTOCOL_AT;
+ } else {
+ // Zenith Z-150 AT(beige/white lable) asserts stop bit as low
+ // https://github.com/tmk/tmk_keyboard/wiki/IBM-PC-AT-Keyboard-Protocol#zenith-z-150-beige
+ ibmpc_protocol = IBMPC_PROTOCOL_AT_Z150;
+ }
isr_state = isr_state>>6;
goto DONE;
break;
case 0b01100000:
- case 0b11100000:
case 0b00110000:
case 0b10110000:
case 0b01110000:
case 0b11110000:
default: // xxxx_oooo(any 1 in low nibble)
// Illegal
+ ibmpc_isr_debug = isr_state;
ibmpc_error = IBMPC_ERR_ILLEGAL;
goto ERROR;
break;
}
ERROR:
- isr_state = 0x8000;
- recv_data = 0xFF00; // clear data and scancode of error 0x00
- return;
+ // error: eeFF
+ recv_data = (ibmpc_error<<8) | 0x00FF;
+ goto CLEAR;
DONE:
if ((isr_state & 0x00FF) == 0x00FF) {
// receive error code 0xFF
ibmpc_error = IBMPC_ERR_FF;
+ goto ERROR;
}
- if ((recv_data & 0xFF00) != 0xFF00) {
- // buffer full and overwritten
+ if (HI8(recv_data) != 0xFF && LO8(recv_data) != 0xFF) {
+ // buffer full
ibmpc_error = IBMPC_ERR_FULL;
+ goto ERROR;
}
+ // store data
recv_data = recv_data<<8;
recv_data |= isr_state & 0xFF;
- isr_state = 0x8000; // clear to next data
+CLEAR:
+ // clear for next data
+ isr_state = 0x8000;
NEXT:
return;
}
/* send LED state to keyboard */
void ibmpc_host_set_led(uint8_t led)
{
- ibmpc_host_send(0xED);
- ibmpc_host_send(led);
+ if (0xFA == ibmpc_host_send(0xED)) {
+ ibmpc_host_send(led);
+ }
}