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package com.diozero.internal.provider.mcp23xxx;
/*-
* #%L
* Organisation: diozero
* Project: Device I/O Zero - Core
* Filename: MCP23xxx.java
*
* This file is part of the diozero project. More information about this project
* can be found at http://www.diozero.com/
* %%
* Copyright (C) 2016 - 2020 diozero
* %%
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
* #L%
*/
import org.tinylog.Logger;
import com.diozero.api.DeviceMode;
import com.diozero.api.DigitalInputDevice;
import com.diozero.api.DigitalInputEvent;
import com.diozero.api.GpioEventTrigger;
import com.diozero.api.GpioExpander;
import com.diozero.api.GpioPullUpDown;
import com.diozero.api.InputEventListener;
import com.diozero.api.PinInfo;
import com.diozero.internal.SoftwarePwmOutputDevice;
import com.diozero.internal.provider.AbstractDeviceFactory;
import com.diozero.internal.provider.GpioDeviceFactoryInterface;
import com.diozero.internal.provider.GpioDigitalInputDeviceInterface;
import com.diozero.internal.provider.GpioDigitalInputOutputDeviceInterface;
import com.diozero.internal.provider.GpioDigitalOutputDeviceInterface;
import com.diozero.internal.provider.PwmOutputDeviceFactoryInterface;
import com.diozero.internal.provider.PwmOutputDeviceInterface;
import com.diozero.util.BitManipulation;
import com.diozero.util.MutableByte;
import com.diozero.util.RuntimeIOException;
/**
* Support for both MCP23008 and MCP23017 GPIO expansion boards.
*/
public abstract class MCP23xxx extends AbstractDeviceFactory implements GpioDeviceFactoryInterface,
PwmOutputDeviceFactoryInterface, InputEventListener, GpioExpander {
private static enum InterruptMode {
DISABLED, BANK_A_ONLY, BANK_B_ONLY, BANK_A_AND_B, MIRRORED;
}
/** Controls how the registers are addressed
* 1 = The registers associated with each port are separated into different banks
* 0 = The registers are in the same bank (addresses are sequential) */
private static final byte IOCON_BANK_BIT = 7;
/** INT Pins Mirror bit
* 1 = The INT pins are internally connected
* 0 = The INT pins are not connected. INTA is associated with PortA and INTB is associated with PortB */
private static final byte IOCON_MIRROR_BIT = 6;
/** Sequential Operation mode bit
* 1 = Sequential operation disabled, address pointer does not increment.
* 0 = Sequential operation enabled, address pointer increments */
private static final byte IOCON_SEQOP_BIT = 5;
/** Slew Rate control bit for SDA output
* 1 = Slew rate disabled.
* 0 = Slew rate enabled */
private static final byte IOCON_DISSLW_BIT = 4;
/** Hardware Address Enable bit (MCP23S17 only). Address pins are always enabled on MCP23017
* 1 = Enables the MCP23S17 address pins.
* 0 = Disables the MCP23S17 address pins */
private static final byte IOCON_HAEN_BIT = 3;
/** This bit configures the INT pin as an open-drain output
* 1 = Open-drain output (overrides the INTPOL bit).
* 0 = Active driver output (INTPOL bit sets the polarity) */
private static final byte IOCON_ODR_BIT = 2;
/** This bit sets the polarity of the INT output pin.
* 1 = Active-high.
* 0 = Active-low */
private static final byte IOCON_INTPOL_BIT = 1;
private static final int GPIOS_PER_PORT = 8;
public static final int INTERRUPT_GPIO_NOT_SET = -1;
private static final int DEFAULT_PWM_FREQUENCY = 50;
private String deviceName;
private DigitalInputDevice[] interruptGpios;
private MutableByte[] directions = { new MutableByte(), new MutableByte() };
private MutableByte[] pullUps = { new MutableByte(), new MutableByte() };
private MutableByte[] interruptOnChangeFlags = { new MutableByte(), new MutableByte() };
private MutableByte[] defaultValues = { new MutableByte(), new MutableByte() };
private MutableByte[] interruptCompareFlags = { new MutableByte(), new MutableByte() };
private InterruptMode interruptMode = InterruptMode.DISABLED;
private int numPorts;
private int numGpios;
public MCP23xxx(int numPorts, String deviceName) throws RuntimeIOException {
this(numPorts, deviceName, INTERRUPT_GPIO_NOT_SET, INTERRUPT_GPIO_NOT_SET);
}
public MCP23xxx(int numPorts, String deviceName, int interruptGpio) throws RuntimeIOException {
this(numPorts, deviceName, interruptGpio, interruptGpio);
}
public MCP23xxx(int numPorts, String deviceName, int interruptGpioA, int interruptGpioB) throws RuntimeIOException {
super(deviceName);
this.numPorts = numPorts;
numGpios = numPorts*GPIOS_PER_PORT;
this.deviceName = deviceName;
interruptGpios = new DigitalInputDevice[numPorts];
if (interruptGpioA != INTERRUPT_GPIO_NOT_SET) {
interruptGpios[0] = new DigitalInputDevice(interruptGpioA, GpioPullUpDown.NONE, GpioEventTrigger.RISING);
if (interruptGpioA == interruptGpioB) {
interruptMode = InterruptMode.MIRRORED;
} else {
interruptMode = InterruptMode.BANK_A_ONLY;
}
}
// There can only be one interrupt GPIO (A) if there is only one bank of GPIOs
if (numPorts > 1 && interruptMode != InterruptMode.MIRRORED
&& interruptGpioB != INTERRUPT_GPIO_NOT_SET) {
interruptGpios[1] = new DigitalInputDevice(interruptGpioB, GpioPullUpDown.NONE, GpioEventTrigger.RISING);
if (interruptMode == InterruptMode.BANK_A_ONLY) {
interruptMode = InterruptMode.BANK_A_AND_B;
} else {
interruptMode = InterruptMode.BANK_B_ONLY;
}
}
}
@Override
public final String getName() {
return deviceName;
}
protected final void initialise() {
// Initialise
// Read the I/O configuration value
byte start_iocon = readByte(getIOConReg(0));
System.out.println(start_iocon);
Logger.debug("Default power-on values for IOCON: 0x{}", Integer.toHexString(start_iocon));
if (numPorts > 1) {
// Is there an IOCONB value?
Logger.debug("IOCONB: 0x{}", Integer.toHexString(readByte(getIOConReg(1))));
}
// Configure interrupts
MutableByte iocon = new MutableByte(start_iocon);
if (interruptMode == InterruptMode.MIRRORED) {
// Enable interrupt mirroring
iocon.setBit(IOCON_MIRROR_BIT);
iocon.setBit(IOCON_INTPOL_BIT);
} else if (interruptMode != InterruptMode.DISABLED) {
// Disable interrupt mirroring
iocon.unsetBit(IOCON_MIRROR_BIT);
iocon.setBit(IOCON_INTPOL_BIT);
}
iocon.unsetBit(IOCON_BANK_BIT);
iocon.setBit(IOCON_SEQOP_BIT);
iocon.unsetBit(IOCON_DISSLW_BIT);
iocon.setBit(IOCON_HAEN_BIT);
iocon.unsetBit(IOCON_ODR_BIT);
if (! iocon.equals(start_iocon)) {
writeByte(getIOConReg(0), iocon.getValue());
}
for (int port=0; port= numGpios) {
throw new IllegalArgumentException("Invalid GPIO: " + gpio + ". "
+ deviceName + " has " + numGpios + " GPIOs; must be 0.." + (numGpios - 1));
}
byte bit = (byte) (gpio % GPIOS_PER_PORT);
int port = gpio / GPIOS_PER_PORT;
byte states = readByte(getGPIOReg(port));
return BitManipulation.isBitSet(states, bit);
}
public void setValue(int gpio, boolean value) throws RuntimeIOException {
if (gpio < 0 || gpio >= numGpios) {
throw new IllegalArgumentException("Invalid GPIO: " + gpio + ". "
+ deviceName + " has " + numGpios + " GPIOs; must be 0.." + (numGpios - 1));
}
byte bit = (byte)(gpio % GPIOS_PER_PORT);
int port = gpio / GPIOS_PER_PORT;
// Check the direction of the GPIO - can't set the output value for input GPIOs (direction bit is set)
if (directions[port].isBitSet(bit)) {
throw new IllegalStateException("Can't set value for input GPIO: " + gpio);
}
// Read the current state of this bank of GPIOs
byte old_val = readByte(getGPIOReg(port));
byte new_val = BitManipulation.setBitValue(old_val, value, bit);
writeByte(getOLatReg(port), new_val);
}
@Override
public void close() throws RuntimeIOException {
Logger.trace("close()");
// Close the interrupt GPIOs
for (DigitalInputDevice interrupt_gpio : interruptGpios) {
if (interrupt_gpio != null) { interrupt_gpio.close(); }
}
// Close all open GPIOs before closing the I2C device itself
super.close();
}
public void closeGpio(int gpio) throws RuntimeIOException {
Logger.trace("closeGpio({})", Integer.valueOf(gpio));
if (gpio < 0 || gpio >= numGpios) {
throw new IllegalArgumentException("Invalid GPIO: " + gpio + ". "
+ deviceName + " has " + numGpios + " GPIOs; must be 0.." + (numGpios - 1));
}
byte bit = (byte)(gpio % GPIOS_PER_PORT);
int port = gpio / GPIOS_PER_PORT;
// Clean-up this GPIO only
if (interruptOnChangeFlags[port].isBitSet(bit)) {
interruptOnChangeFlags[port].unsetBit(bit);
writeByte(getGPIntEnReg(port), interruptOnChangeFlags[port].getValue());
}
if (defaultValues[port].isBitSet(bit)) {
defaultValues[port].unsetBit(bit);
writeByte(getDefValReg(port), defaultValues[port].getValue());
}
if (interruptCompareFlags[port].isBitSet(bit)) {
interruptCompareFlags[port].unsetBit(bit);
writeByte(getIntConReg(port), interruptCompareFlags[port].getValue());
}
if (pullUps[port].isBitSet(bit)) {
pullUps[port].unsetBit(bit);
writeByte(getGPPullUpReg(port), pullUps[port].getValue());
}
// Default GPIO to input
if (! directions[port].isBitSet(bit)) {
directions[port].setBit(bit);
writeByte(getIODirReg(port), directions[port].getValue());
}
}
@Override
@SuppressWarnings("resource")
public void valueChanged(DigitalInputEvent event) {
Logger.debug("valueChanged({})", event);
if (! event.getValue()) {
Logger.info("valueChanged(): value was false - ignoring");
return;
}
// Check the event is for one of the interrupt gpios
boolean process_event = false;
for (DigitalInputDevice interrupt_gpio : interruptGpios) {
if (interrupt_gpio != null && event.getGpio() == interrupt_gpio.getGpio()) {
process_event = true;
break;
}
}
if (! process_event) {
Logger.error("Unexpected interrupt event on gpio {}", Integer.valueOf(event.getGpio()));
return;
}
synchronized (this) {
try {
byte[] intf = new byte[2];
byte[] intcap = new byte[2];
if (interruptMode == InterruptMode.MIRRORED) {
intf[0] = readByte(getIntFReg(0));
intcap[0] = readByte(getIntCapReg(0));
intf[1] = readByte(getIntFReg(1));
intcap[1] = readByte(getIntCapReg(1));
} else if (interruptMode != InterruptMode.DISABLED) {
if (interruptGpios[0] != null && event.getGpio() == interruptGpios[0].getGpio()) {
intf[0] = readByte(getIntFReg(0));
intcap[0] = readByte(getIntCapReg(0));
} else {
intf[1] = readByte(getIntFReg(1));
intcap[1] = readByte(getIntCapReg(1));
}
}
for (int port=0; port