*/
public class FpslicRawUsb implements FpslicRaw {
- private FtdiUart ftdiuart;
-
- private int dmask =
- (1<<0) |
- (1<<1) |
- (1<<2) |
- //(1<<3) |
- //(1<<4) |
- (1<<5) |
- (1<<6) |
- (1<<7);
+ private FpslicPins pins;
public FpslicRawUsb(FtdiUart ftdiuart) throws IOException {
- this.ftdiuart = ftdiuart;
+ this.pins = new FpslicPinsUsb(ftdiuart);
reset();
}
public void reset() throws IOException {
- dmask =
- (1<<0) |
- (1<<1) |
- (1<<2) |
- //(1<<3) |
- //(1<<4) |
- (1<<5) |
- (1<<6) |
- (1<<7);
- ftdiuart.dbus_mode(dmask);
-
- clearDBusLines();
- flush();
- ftdiuart.dbus_mode(dmask);
-
- resetPin(false);
+ pins.avrrstPin(false);
+ pins.configDataPin(false);
+ pins.resetPin(false);
+ pins.cclkPin(false);
+
+ pins.conPin(false);
+ pins.flush();
+
+ pins.resetPin(false);
try { Thread.sleep(500); } catch (Exception e) { }
- if (initPin()) throw new RuntimeException("INIT was still high after pulling RESET low");
+ if (pins.initPin()) throw new RuntimeException("INIT was still high after pulling RESET low");
- resetPin(true);
+ pins.resetPin(true);
try { Thread.sleep(500); } catch (Exception e) { }
- if (!initPin()) throw new RuntimeException("INIT was still low after releasing RESET");
+ if (!pins.initPin()) throw new RuntimeException("INIT was still low after releasing RESET");
sendConfigBits(0,2);
- flush();
+ pins.flush();
}
public OutputStream getConfigStream() throws IOException {
write(b[i]);
}
public void flush() throws IOException {
- FpslicRawUsb.this.flush();
+ pins.flush();
}
public void close() throws IOException {
- flush();
+ pins.flush();
// turn off the CON pin we've been pulling low...
- dmask &= ~(1<<0);
- ftdiuart.dbus_mode(dmask);
- flush();
+ pins.releaseConPin();
- if (!initPin())
+ if (!pins.initPin())
throw new RuntimeException("initialization failed at " + bytes);
for(int i=0; i<100; i++) {
- flush();
- if (!initPin())
+ pins.flush();
+ if (!pins.initPin())
throw new RuntimeException("initialization failed at " + bytes);
try { Thread.sleep(20); } catch (Exception e) { }
sendConfigBits(0,1);
}
- // switching to uart mode will implicitly release AVRRST
- avrrstPin(false);
- ftdiuart.purge();
- ftdiuart.uart_and_cbus_mode(1<<1, 1<<1);
+ pins.close();
}
};
}
- public OutputStream getOutputStream() { return ftdiuart.getOutputStream(); }
- public InputStream getInputStream() { return ftdiuart.getInputStream(); }
+ public OutputStream getOutputStream() throws IOException { return pins.getUartOutputStream(); }
+ public InputStream getInputStream() throws IOException { return pins.getUartInputStream(); }
public void selfTest() throws Exception {
boolean pin;
sendConfigBits(Integer.parseInt("00000000", 2), 8);
sendConfigBits(Integer.parseInt("10110111", 2), 8);
sendConfigBits(0,1);
- flush();
+ pins.flush();
try { Thread.sleep(100); } catch (Exception e) { }
- pin = initPin();
+ pin = pins.initPin();
System.out.print((pin ? green(" [pass]") : red(" [FAIL]")));
// preamble shifted one bit earlier than it should be
sendConfigBits(Integer.parseInt("0000000", 2), 7);
sendConfigBits(Integer.parseInt("10110111", 2), 8);
sendConfigBits(0, 2);
- flush();
+ pins.flush();
try { Thread.sleep(100); } catch (Exception e) { }
- pin = initPin();
+ pin = pins.initPin();
System.out.print((pin ? red(" [FAIL]") : green(" [pass]")));
// preamble shifted one bit later than it should be
sendConfigBits(Integer.parseInt("000000000", 2), 9);
sendConfigBits(Integer.parseInt("10110111", 2), 8);
//sendConfigBits(0, 1);
- flush();
+ pins.flush();
try { Thread.sleep(100); } catch (Exception e) { }
- pin = initPin();
+ pin = pins.initPin();
System.out.print((pin ? red(" [FAIL]") : green(" [pass]")));
// plain 'ol bogus preamble
sendConfigBits(Integer.parseInt("00000000", 2), 8);
sendConfigBits(Integer.parseInt("11110111", 2), 8);
sendConfigBits(0, 1);
- flush();
+ pins.flush();
try { Thread.sleep(100); } catch (Exception e) { }
- pin = initPin();
+ pin = pins.initPin();
System.out.print((pin ? red(" [FAIL]") : green(" [pass]")));
System.out.println();
// Private //////////////////////////////////////////////////////////////////////////////
- private void flush() throws IOException { ftdiuart.getOutputStream().flush(); }
-
- private int dbits = 0;
- private void setDBusLine() throws IOException {
- ftdiuart.getOutputStream().write((byte)dbits);
- }
- private void clearDBusLines() throws IOException {
- dbits = 0;
- setDBusLine();
- }
- private void setDBusLine(int bit, boolean val) throws IOException {
- dbits = val ? (dbits | (1 << bit)) : (dbits & (~(1 << bit)));
- setDBusLine();
- }
-
private void sendConfigBits(int dat, int numbits) throws IOException {
for(int i=(numbits-1); i>=0; i--) {
boolean bit = (dat & (1<<i)) != 0;
- configDataPin(bit);
- cclkPin(true);
- dbits &= ~(1<<6); // let the clock fall with the next data bit, whenever it goes out
+ pins.configDataPin(bit);
+ pins.cclkPin(true);
+ pins.cclkPin(false);
+ //dbits &= ~(1<<6); // let the clock fall with the next data bit, whenever it goes out
}
}
- // tricky: RESET has a weak pull-up, and is wired to a CBUS line. So,
- // we can pull it down (assert reset) from uart-mode, or we can
- // let it float upward from either mode.
- private void resetPin(boolean on) throws IOException {
- ftdiuart.uart_and_cbus_mode(1<<1, on ? (1<<1) : 0);
- flush();
- if (on) {
- ftdiuart.dbus_mode(dmask);
- flush();
- }
- }
-
- private void avrrstPin(boolean on) throws IOException { setDBusLine(7, on); }
- private void cclkPin(boolean on) throws IOException { setDBusLine(6, on); }
- private void configDataPin(boolean on) throws IOException { setDBusLine(5, on); }
- private boolean initPin() throws IOException { flush(); return (ftdiuart.readPins() & (1<<4))!=0; }
-
private static String red(Object o) { return "\033[31m"+o+"\033[0m"; }
private static String green(Object o) { return "\033[32m"+o+"\033[0m"; }
}