mirror of https://github.com/arendst/Tasmota.git
Fix MCP23XXX driver open-drain interrupt
This commit is contained in:
parent
ab5208d216
commit
53e2fab34c
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@ -151,6 +151,20 @@ typedef struct {
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int8_t pin_int;
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int8_t pin_int;
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} tMcp23xDevice;
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} tMcp23xDevice;
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typedef union { // Restricted by MISRA-C Rule 18.4 but so useful...
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uint8_t reg; // Allow bit manipulation using template IOCON
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struct {
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uint8_t spare0 : 1; // 0 Unimplemented
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uint8_t INTPOL : 1; // (0) INT pin active-low. (1) active-high
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uint8_t ODR : 1; // (0) INT pin active driver output. (1) Open-drain output (overrides INTPOL)
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uint8_t HAEN : 1; // (1) Hardware Address enabled (MCS23S17 only)
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uint8_t DISSLW : 1; // (0) SDA output slew rate disabled
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uint8_t SEQOP : 1; // 0 Sequential operation enabled, address pointer increments
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uint8_t MIRROR : 1; // (1) INT pins are internally connected
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uint8_t BANK : 1; // 0 Registers are in the same bank (addresses are sequential) (MCS23x17 only)
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};
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} tIOCON;
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struct MCP230 {
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struct MCP230 {
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tMcp23xDevice device[MCP23XXX_MAX_DEVICES];
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tMcp23xDevice device[MCP23XXX_MAX_DEVICES];
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uint32_t relay_inverted;
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uint32_t relay_inverted;
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@ -162,7 +176,7 @@ struct MCP230 {
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uint8_t relay_offset;
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uint8_t relay_offset;
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uint8_t button_max;
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uint8_t button_max;
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uint8_t switch_max;
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uint8_t switch_max;
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uint8_t iocon;
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tIOCON iocon;
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int8_t button_offset;
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int8_t button_offset;
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int8_t switch_offset;
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int8_t switch_offset;
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bool base;
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bool base;
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@ -464,6 +478,15 @@ uint32_t MCP23xGetPin(uint32_t lpin) {
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/*********************************************************************************************/
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/*********************************************************************************************/
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bool MCP23xAddItem(uint8_t &item) {
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if (item >= MAX_RELAYS_SET) {
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AddLog(LOG_LEVEL_INFO, PSTR("MCP: Max reached"));
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return false;
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}
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item++;
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return true;
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}
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String MCP23xTemplateLoadFile(void) {
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String MCP23xTemplateLoadFile(void) {
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String mcptmplt = "";
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String mcptmplt = "";
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#ifdef USE_UFILESYS
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#ifdef USE_UFILESYS
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@ -514,44 +537,36 @@ bool MCP23xLoadTemplate(void) {
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if (!val) { break; }
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if (!val) { break; }
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uint16_t mpin = val.getUInt();
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uint16_t mpin = val.getUInt();
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if (mpin) { // Above GPIO_NONE
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if (mpin) { // Above GPIO_NONE
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if ((mpin >= AGPIO(GPIO_SWT1)) && (mpin < (AGPIO(GPIO_SWT1) + MAX_SWITCHES_SET))) {
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if ((mpin >= AGPIO(GPIO_SWT1)) && (mpin < (AGPIO(GPIO_SWT1) + MAX_SWITCHES_SET)) && MCP23xAddItem(Mcp23x.switch_max)) {
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Mcp23x.switch_max++;
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MCP23xSetPinModes(pin, INPUT_PULLUP);
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MCP23xSetPinModes(pin, INPUT_PULLUP);
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}
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}
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else if ((mpin >= AGPIO(GPIO_SWT1_NP)) && (mpin < (AGPIO(GPIO_SWT1_NP) + MAX_SWITCHES_SET))) {
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else if ((mpin >= AGPIO(GPIO_SWT1_NP)) && (mpin < (AGPIO(GPIO_SWT1_NP) + MAX_SWITCHES_SET)) && MCP23xAddItem(Mcp23x.switch_max)) {
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mpin -= (AGPIO(GPIO_SWT1_NP) - AGPIO(GPIO_SWT1));
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mpin -= (AGPIO(GPIO_SWT1_NP) - AGPIO(GPIO_SWT1));
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Mcp23x.switch_max++;
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MCP23xSetPinModes(pin, INPUT);
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MCP23xSetPinModes(pin, INPUT);
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}
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}
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else if ((mpin >= AGPIO(GPIO_KEY1)) && (mpin < (AGPIO(GPIO_KEY1) + MAX_KEYS_SET))) {
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else if ((mpin >= AGPIO(GPIO_KEY1)) && (mpin < (AGPIO(GPIO_KEY1) + MAX_KEYS_SET)) && MCP23xAddItem(Mcp23x.button_max)) {
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Mcp23x.button_max++;
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MCP23xSetPinModes(pin, INPUT_PULLUP);
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MCP23xSetPinModes(pin, INPUT_PULLUP);
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}
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}
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else if ((mpin >= AGPIO(GPIO_KEY1_NP)) && (mpin < (AGPIO(GPIO_KEY1_NP) + MAX_KEYS_SET))) {
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else if ((mpin >= AGPIO(GPIO_KEY1_NP)) && (mpin < (AGPIO(GPIO_KEY1_NP) + MAX_KEYS_SET)) && MCP23xAddItem(Mcp23x.button_max)) {
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mpin -= (AGPIO(GPIO_KEY1_NP) - AGPIO(GPIO_KEY1));
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mpin -= (AGPIO(GPIO_KEY1_NP) - AGPIO(GPIO_KEY1));
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Mcp23x.button_max++;
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MCP23xSetPinModes(pin, INPUT);
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MCP23xSetPinModes(pin, INPUT);
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}
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}
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else if ((mpin >= AGPIO(GPIO_KEY1_INV)) && (mpin < (AGPIO(GPIO_KEY1_INV) + MAX_KEYS_SET))) {
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else if ((mpin >= AGPIO(GPIO_KEY1_INV)) && (mpin < (AGPIO(GPIO_KEY1_INV) + MAX_KEYS_SET)) && MCP23xAddItem(Mcp23x.button_max)) {
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bitSet(Mcp23x.button_inverted, mpin - AGPIO(GPIO_KEY1_INV));
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bitSet(Mcp23x.button_inverted, mpin - AGPIO(GPIO_KEY1_INV));
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mpin -= (AGPIO(GPIO_KEY1_INV) - AGPIO(GPIO_KEY1));
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mpin -= (AGPIO(GPIO_KEY1_INV) - AGPIO(GPIO_KEY1));
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Mcp23x.button_max++;
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MCP23xSetPinModes(pin, INPUT_PULLUP);
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MCP23xSetPinModes(pin, INPUT_PULLUP);
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}
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}
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else if ((mpin >= AGPIO(GPIO_KEY1_INV_NP)) && (mpin < (AGPIO(GPIO_KEY1_INV_NP) + MAX_KEYS_SET))) {
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else if ((mpin >= AGPIO(GPIO_KEY1_INV_NP)) && (mpin < (AGPIO(GPIO_KEY1_INV_NP) + MAX_KEYS_SET)) && MCP23xAddItem(Mcp23x.button_max)) {
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bitSet(Mcp23x.button_inverted, mpin - AGPIO(GPIO_KEY1_INV_NP));
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bitSet(Mcp23x.button_inverted, mpin - AGPIO(GPIO_KEY1_INV_NP));
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mpin -= (AGPIO(GPIO_KEY1_INV_NP) - AGPIO(GPIO_KEY1));
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mpin -= (AGPIO(GPIO_KEY1_INV_NP) - AGPIO(GPIO_KEY1));
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Mcp23x.button_max++;
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MCP23xSetPinModes(pin, INPUT);
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MCP23xSetPinModes(pin, INPUT);
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}
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}
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else if ((mpin >= AGPIO(GPIO_REL1)) && (mpin < (AGPIO(GPIO_REL1) + MAX_RELAYS_SET))) {
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else if ((mpin >= AGPIO(GPIO_REL1)) && (mpin < (AGPIO(GPIO_REL1) + MAX_RELAYS_SET)) && MCP23xAddItem(Mcp23x.relay_max)) {
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Mcp23x.relay_max++;
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MCP23xPinMode(pin, OUTPUT);
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MCP23xPinMode(pin, OUTPUT);
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}
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}
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else if ((mpin >= AGPIO(GPIO_REL1_INV)) && (mpin < (AGPIO(GPIO_REL1_INV) + MAX_RELAYS_SET))) {
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else if ((mpin >= AGPIO(GPIO_REL1_INV)) && (mpin < (AGPIO(GPIO_REL1_INV) + MAX_RELAYS_SET)) && MCP23xAddItem(Mcp23x.relay_max)) {
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bitSet(Mcp23x.relay_inverted, mpin - AGPIO(GPIO_REL1_INV));
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bitSet(Mcp23x.relay_inverted, mpin - AGPIO(GPIO_REL1_INV));
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mpin -= (AGPIO(GPIO_REL1_INV) - AGPIO(GPIO_REL1));
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mpin -= (AGPIO(GPIO_REL1_INV) - AGPIO(GPIO_REL1));
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Mcp23x.relay_max++;
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MCP23xPinMode(pin, OUTPUT);
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MCP23xPinMode(pin, OUTPUT);
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}
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}
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else if (mpin == AGPIO(GPIO_OUTPUT_HI)) {
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else if (mpin == AGPIO(GPIO_OUTPUT_HI)) {
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@ -565,14 +580,9 @@ bool MCP23xLoadTemplate(void) {
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else { mpin = 0; }
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else { mpin = 0; }
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Mcp23x_gpio_pin[pin] = mpin;
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Mcp23x_gpio_pin[pin] = mpin;
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}
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}
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if ((Mcp23x.switch_max >= MAX_SWITCHES_SET) ||
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(Mcp23x.button_max >= MAX_KEYS_SET) ||
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(Mcp23x.relay_max >= MAX_RELAYS_SET)) {
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AddLog(LOG_LEVEL_INFO, PSTR("MCP: Max reached (S%d/B%d/R%d)"), Mcp23x.switch_max, Mcp23x.button_max, Mcp23x.relay_max);
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break;
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}
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}
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}
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Mcp23x.max_pins = pin; // Max number of configured pins
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Mcp23x.max_pins = pin; // Max number of configured pins
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AddLog(LOG_LEVEL_INFO, PSTR("MCP: Pins used %d (S%d/B%d/R%d)"), Mcp23x.max_pins, Mcp23x.switch_max, Mcp23x.button_max, Mcp23x.relay_max);
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}
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}
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// AddLog(LOG_LEVEL_DEBUG, PSTR("MCP: Pins %d, Mcp23x_gpio_pin %*_V"), Mcp23x.max_pins, Mcp23x.max_pins, (uint8_t*)Mcp23x_gpio_pin);
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// AddLog(LOG_LEVEL_DEBUG, PSTR("MCP: Pins %d, Mcp23x_gpio_pin %*_V"), Mcp23x.max_pins, Mcp23x.max_pins, (uint8_t*)Mcp23x_gpio_pin);
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@ -591,7 +601,7 @@ uint32_t MCP23xTemplateGpio(void) {
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JsonParserToken val = root[PSTR(D_JSON_IOCON)];
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JsonParserToken val = root[PSTR(D_JSON_IOCON)];
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if (val) {
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if (val) {
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Mcp23x.iocon = val.getUInt() & 0x5E; // Only allow 0 MIRROR 0 DISSLW HAEN ODR INTPOL 0
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Mcp23x.iocon.reg = val.getUInt() & 0x5E; // Only allow 0 MIRROR 0 DISSLW HAEN ODR INTPOL 0
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}
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}
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JsonParserArray arr = root[PSTR(D_JSON_GPIO)];
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JsonParserArray arr = root[PSTR(D_JSON_GPIO)];
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if (arr.isArray()) {
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if (arr.isArray()) {
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@ -601,7 +611,7 @@ uint32_t MCP23xTemplateGpio(void) {
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}
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}
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void MCP23xModuleInit(void) {
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void MCP23xModuleInit(void) {
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Mcp23x.iocon = 0b01011000; // Default 0x58 = Enable INT mirror, Disable Slew rate, HAEN pins for addressing
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Mcp23x.iocon.reg = 0b01011000; // Default 0x58 = Enable INT mirror, Disable Slew rate, HAEN pins for addressing
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int32_t pins_needed = MCP23xTemplateGpio();
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int32_t pins_needed = MCP23xTemplateGpio();
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if (!pins_needed) {
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if (!pins_needed) {
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AddLog(LOG_LEVEL_DEBUG_MORE, PSTR("MCP: Invalid template"));
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AddLog(LOG_LEVEL_DEBUG_MORE, PSTR("MCP: Invalid template"));
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@ -618,7 +628,8 @@ void MCP23xModuleInit(void) {
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#endif
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#endif
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while ((Mcp23x.max_devices < MCP23XXX_MAX_DEVICES) && PinUsed(GPIO_MCP23SXX_CS, Mcp23x.max_devices)) {
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while ((Mcp23x.max_devices < MCP23XXX_MAX_DEVICES) && PinUsed(GPIO_MCP23SXX_CS, Mcp23x.max_devices)) {
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Mcp23x.chip = Mcp23x.max_devices;
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Mcp23x.chip = Mcp23x.max_devices;
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Mcp23x.device[Mcp23x.chip].pin_int = (PinUsed(GPIO_MCP23XXX_INT, Mcp23x.chip)) ? Pin(GPIO_MCP23XXX_INT, Mcp23x.chip) : -1;
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uint32_t pin_int = (Mcp23x.iocon.ODR) ? 0 : Mcp23x.chip; // INT pins are open-drain outputs and supposedly connected together to one GPIO
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Mcp23x.device[Mcp23x.chip].pin_int = (PinUsed(GPIO_MCP23XXX_INT, pin_int)) ? Pin(GPIO_MCP23XXX_INT, pin_int) : -1;
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Mcp23x.device[Mcp23x.chip].pin_cs = Pin(GPIO_MCP23SXX_CS, Mcp23x.max_devices);
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Mcp23x.device[Mcp23x.chip].pin_cs = Pin(GPIO_MCP23SXX_CS, Mcp23x.max_devices);
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digitalWrite(Mcp23x.device[Mcp23x.chip].pin_cs, 1);
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digitalWrite(Mcp23x.device[Mcp23x.chip].pin_cs, 1);
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pinMode(Mcp23x.device[Mcp23x.chip].pin_cs, OUTPUT);
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pinMode(Mcp23x.device[Mcp23x.chip].pin_cs, OUTPUT);
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@ -632,13 +643,13 @@ void MCP23xModuleInit(void) {
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AddLog(LOG_LEVEL_INFO, PSTR("SPI: MCP23S08 found at CS%d"), Mcp23x.chip +1);
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AddLog(LOG_LEVEL_INFO, PSTR("SPI: MCP23S08 found at CS%d"), Mcp23x.chip +1);
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Mcp23x.device[Mcp23x.chip].pins = 8;
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Mcp23x.device[Mcp23x.chip].pins = 8;
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// MCP23xWrite(MCP23X08_IOCON, 0b00011000); // Slew rate disabled, HAEN pins for addressing
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// MCP23xWrite(MCP23X08_IOCON, 0b00011000); // Slew rate disabled, HAEN pins for addressing
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MCP23xWrite(MCP23X08_IOCON, Mcp23x.iocon & 0x3E);
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MCP23xWrite(MCP23X08_IOCON, Mcp23x.iocon.reg & 0x3E);
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Mcp23x.device[Mcp23x.chip].olata = MCP23xRead(MCP23X08_OLAT);
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Mcp23x.device[Mcp23x.chip].olata = MCP23xRead(MCP23X08_OLAT);
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} else if (0x80 == buffer) { // MCP23S17
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} else if (0x80 == buffer) { // MCP23S17
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AddLog(LOG_LEVEL_INFO, PSTR("SPI: MCP23S17 found at CS%d"), Mcp23x.chip +1);
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AddLog(LOG_LEVEL_INFO, PSTR("SPI: MCP23S17 found at CS%d"), Mcp23x.chip +1);
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Mcp23x.device[Mcp23x.chip].pins = 16;
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Mcp23x.device[Mcp23x.chip].pins = 16;
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// MCP23xWrite(MCP23X17_IOCONA, 0b01011000); // Enable INT mirror, Slew rate disabled, HAEN pins for addressing
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// MCP23xWrite(MCP23X17_IOCONA, 0b01011000); // Enable INT mirror, Slew rate disabled, HAEN pins for addressing
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MCP23xWrite(MCP23X17_IOCONA, Mcp23x.iocon);
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MCP23xWrite(MCP23X17_IOCONA, Mcp23x.iocon.reg);
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Mcp23x.device[Mcp23x.chip].olata = MCP23xRead(MCP23X17_OLATA);
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Mcp23x.device[Mcp23x.chip].olata = MCP23xRead(MCP23X17_OLATA);
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Mcp23x.device[Mcp23x.chip].olatb = MCP23xRead(MCP23X17_OLATB);
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Mcp23x.device[Mcp23x.chip].olatb = MCP23xRead(MCP23X17_OLATB);
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}
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}
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@ -655,8 +666,9 @@ void MCP23xModuleInit(void) {
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uint8_t mcp23xxx_address = MCP23XXX_ADDR_START;
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uint8_t mcp23xxx_address = MCP23XXX_ADDR_START;
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while ((Mcp23x.max_devices < MCP23XXX_MAX_DEVICES) && (mcp23xxx_address < MCP23XXX_ADDR_END)) {
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while ((Mcp23x.max_devices < MCP23XXX_MAX_DEVICES) && (mcp23xxx_address < MCP23XXX_ADDR_END)) {
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Mcp23x.chip = Mcp23x.max_devices;
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Mcp23x.chip = Mcp23x.max_devices;
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uint32_t pin_int = (Mcp23x.iocon.ODR) ? 0 : Mcp23x.chip; // INT pins are open-drain outputs and supposedly connected together to one GPIO
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if (I2cSetDevice(mcp23xxx_address)) {
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if (I2cSetDevice(mcp23xxx_address)) {
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Mcp23x.device[Mcp23x.chip].pin_int = (PinUsed(GPIO_MCP23XXX_INT, Mcp23x.chip)) ? Pin(GPIO_MCP23XXX_INT, Mcp23x.chip) : -1;
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Mcp23x.device[Mcp23x.chip].pin_int = (PinUsed(GPIO_MCP23XXX_INT, pin_int)) ? Pin(GPIO_MCP23XXX_INT, pin_int) : -1;
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Mcp23x.device[Mcp23x.chip].interface = MCP23X_I2C;
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Mcp23x.device[Mcp23x.chip].interface = MCP23X_I2C;
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Mcp23x.device[Mcp23x.chip].address = mcp23xxx_address;
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Mcp23x.device[Mcp23x.chip].address = mcp23xxx_address;
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@ -667,7 +679,7 @@ void MCP23xModuleInit(void) {
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I2cSetActiveFound(mcp23xxx_address, "MCP23008");
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I2cSetActiveFound(mcp23xxx_address, "MCP23008");
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Mcp23x.device[Mcp23x.chip].pins = 8;
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Mcp23x.device[Mcp23x.chip].pins = 8;
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// MCP23xWrite(MCP23X08_IOCON, 0b00011000); // Slew rate disabled, HAEN pins for addressing
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// MCP23xWrite(MCP23X08_IOCON, 0b00011000); // Slew rate disabled, HAEN pins for addressing
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MCP23xWrite(MCP23X08_IOCON, Mcp23x.iocon & 0x3E);
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MCP23xWrite(MCP23X08_IOCON, Mcp23x.iocon.reg & 0x3E);
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Mcp23x.device[Mcp23x.chip].olata = MCP23xRead(MCP23X08_OLAT);
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Mcp23x.device[Mcp23x.chip].olata = MCP23xRead(MCP23X08_OLAT);
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Mcp23x.max_devices++;
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Mcp23x.max_devices++;
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}
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}
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@ -676,7 +688,7 @@ void MCP23xModuleInit(void) {
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Mcp23x.device[Mcp23x.chip].pins = 16;
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Mcp23x.device[Mcp23x.chip].pins = 16;
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MCP23xWrite(MCP23X08_IOCON, 0x00); // Reset bank mode to 0 (MCP23X17_GPINTENB)
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MCP23xWrite(MCP23X08_IOCON, 0x00); // Reset bank mode to 0 (MCP23X17_GPINTENB)
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// MCP23xWrite(MCP23X17_IOCONA, 0b01011000); // Enable INT mirror, Slew rate disabled, HAEN pins for addressing
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// MCP23xWrite(MCP23X17_IOCONA, 0b01011000); // Enable INT mirror, Slew rate disabled, HAEN pins for addressing
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MCP23xWrite(MCP23X17_IOCONA, Mcp23x.iocon);
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MCP23xWrite(MCP23X17_IOCONA, Mcp23x.iocon.reg);
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Mcp23x.device[Mcp23x.chip].olata = MCP23xRead(MCP23X17_OLATA);
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Mcp23x.device[Mcp23x.chip].olata = MCP23xRead(MCP23X17_OLATA);
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Mcp23x.device[Mcp23x.chip].olatb = MCP23xRead(MCP23X17_OLATB);
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Mcp23x.device[Mcp23x.chip].olatb = MCP23xRead(MCP23X17_OLATB);
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Mcp23x.max_devices++;
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Mcp23x.max_devices++;
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@ -761,6 +773,7 @@ void MCP23xInit(void) {
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} else {
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} else {
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gpio = MCP23xRead16(MCP23X17_GPIOA); // Clear MCP23x17 interrupt
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gpio = MCP23xRead16(MCP23X17_GPIOA); // Clear MCP23x17 interrupt
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}
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}
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if (Mcp23x.iocon.ODR && Mcp23x.chip) { continue; }
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pinMode(Mcp23x.device[Mcp23x.chip].pin_int, INPUT_PULLUP);
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pinMode(Mcp23x.device[Mcp23x.chip].pin_int, INPUT_PULLUP);
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attachInterrupt(Mcp23x.device[Mcp23x.chip].pin_int, MCP23xInputIsr, CHANGE);
|
attachInterrupt(Mcp23x.device[Mcp23x.chip].pin_int, MCP23xInputIsr, CHANGE);
|
||||||
}
|
}
|
||||||
|
|
Loading…
Reference in New Issue