Split command handler

This commit is contained in:
Olaf Rempel 2020-01-09 00:06:29 +01:00
parent 1216082a4f
commit 0dacfd0c7c

224
ispprog.c
View File

@ -263,49 +263,16 @@ static void reset_statemachine_wait(uint8_t events)
} /* reset_statemachine_wait */ } /* reset_statemachine_wait */
static void cmdloop(void) __attribute__ ((noreturn)); static void cmd_handler_isp(uint8_t cmd)
static void cmdloop(void)
{ {
while (1) switch (cmd)
{ {
if (!uart_rx_ready())
{
reset_statemachine(EV_NONE);
continue;
}
#if (USE_DISPLAY)
if (m_state == STATE_RESET_PROGMODE)
{
uint16_t byte_address;
byte_address = (m_address << 1);
display_show_hex(byte_address >> 8, 0);
display_show_hex(byte_address & 0xFF, 1);
display_set_mode(DISPLAY_MODE_STATIC);
}
#endif /* (USE_DISPLAY) */
switch (uart_recv()) {
/* Enter programming mode */ /* Enter programming mode */
case 'P': case 'P':
reset_statemachine_wait(EV_PROG_ENTER); reset_statemachine_wait(EV_PROG_ENTER);
uart_send((m_state == STATE_RESET_PROGMODE) ? '\r' : '!'); uart_send((m_state == STATE_RESET_PROGMODE) ? '\r' : '!');
break; break;
/* Autoincrement address */
case 'a':
uart_send('Y');
break;
/* Set address */
case 'A':
m_address = (uart_recv() << 8);
m_address |= uart_recv();
uart_send('\r');
break;
/* Write program memory, low byte */ /* Write program memory, low byte */
case 'c': case 'c':
m_led_mode = LED_FAST; m_led_mode = LED_FAST;
@ -401,22 +368,6 @@ static void cmdloop(void)
uart_send(isp_mem_read(CMD_READ_FUSE_E_1, CMD_READ_FUSE_E_2 << 8)); uart_send(isp_mem_read(CMD_READ_FUSE_E_1, CMD_READ_FUSE_E_2 << 8));
break; break;
/* Leave programming mode */
case 'L':
/* Exit Bootloader */
case 'E':
reset_statemachine_wait(EV_PROG_LEAVE);
uart_send('\r');
break;
/* Select device type */
case 'T': {
uart_recv(); // ignore
uart_send('\r');
break;
}
/* Read signature bytes */ /* Read signature bytes */
case 's': case 's':
uart_send(m_device.sig[2]); uart_send(m_device.sig[2]);
@ -424,59 +375,6 @@ static void cmdloop(void)
uart_send(m_device.sig[0]); uart_send(m_device.sig[0]);
break; break;
/* Return supported device codes */
case 't':
avrdevice_iterate_devcodes(uart_send);
uart_send(0x00);
break;
/* Return software identifier */
case 'S':
uart_send('A');
uart_send('V');
uart_send('R');
uart_send('-');
uart_send('I');
uart_send('S');
uart_send('P');
break;
/* Return software version */
case 'V':
uart_send('3');
uart_send('8');
break;
/* Return hardware version */
case 'v':
uart_send('1');
uart_send('2');
break;
/* Return programmer type */
case 'p':
uart_send('S');
break;
/* Set LED */
case 'x':
uart_recv();
m_led_mode = LED_ON;
break;
/* Clear LED */
case 'y':
uart_recv();
m_led_mode = LED_OFF;
break;
/* Report Block write Mode */
case 'b':
uart_send('Y');
uart_send(sizeof(m_page_buf) >> 8);
uart_send(sizeof(m_page_buf) & 0xFF);
break;
/* Block Write */ /* Block Write */
case 'B': case 'B':
{ {
@ -589,12 +487,128 @@ static void cmdloop(void)
break; break;
} }
default:
uart_send('?');
break;
}
} /* cmd_handler_isp */
static void cmdloop(void) __attribute__ ((noreturn));
static void cmdloop(void)
{
while (1)
{
uint8_t cmd;
if (!uart_rx_ready())
{
reset_statemachine(EV_NONE);
continue;
}
#if (USE_DISPLAY)
if (m_state == STATE_RESET_PROGMODE)
{
uint16_t byte_address;
byte_address = (m_address << 1);
display_show_hex(byte_address >> 8, 0);
display_show_hex(byte_address & 0xFF, 1);
display_set_mode(DISPLAY_MODE_STATIC);
}
#endif /* (USE_DISPLAY) */
cmd = uart_recv();
switch (cmd)
{
/* Autoincrement address */
case 'a':
uart_send('Y');
break;
/* Set address */
case 'A':
m_address = (uart_recv() << 8);
m_address |= uart_recv();
uart_send('\r');
break;
/* Leave programming mode */
case 'L':
/* Exit Bootloader */
case 'E':
reset_statemachine_wait(EV_PROG_LEAVE);
uart_send('\r');
break;
/* Select device type */
case 'T':
uart_recv(); // ignore
uart_send('\r');
break;
/* Return supported device codes */
case 't':
avrdevice_iterate_devcodes(uart_send);
uart_send(0x00);
break;
/* Return software identifier */
case 'S':
uart_send('A');
uart_send('V');
uart_send('R');
uart_send('-');
uart_send('I');
uart_send('S');
uart_send('P');
break;
/* Return software version */
case 'V':
uart_send('3');
uart_send('8');
break;
/* Return hardware version */
case 'v':
uart_send('1');
uart_send('2');
break;
/* Return programmer type */
case 'p':
uart_send('S');
break;
/* Set LED */
case 'x':
uart_recv();
m_led_mode = LED_ON;
break;
/* Clear LED */
case 'y':
uart_recv();
m_led_mode = LED_OFF;
break;
/* Report Block write Mode */
case 'b':
uart_send('Y');
uart_send(sizeof(m_page_buf) >> 8);
uart_send(sizeof(m_page_buf) & 0xFF);
break;
/* ESC */ /* ESC */
case 0x1B: case 0x1B:
break; break;
default: default:
uart_send('?'); cmd_handler_isp(cmd);
break; break;
} }
} }