/* * This file is part of the MicroPython project, http://micropython.org/ * * The MIT License (MIT) * * Copyright (c) 2018 Noralf Trønnes * * 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. */ #include "shared-bindings/i2cslave/I2CSlave.h" #include "common-hal/busio/I2C.h" #include "lib/utils/interrupt_char.h" #include "py/mperrno.h" #include "py/mphal.h" #include "py/runtime.h" #include "hal/include/hal_gpio.h" #include "peripherals/samd/sercom.h" void common_hal_i2cslave_i2c_slave_construct(i2cslave_i2c_slave_obj_t *self, const mcu_pin_obj_t *scl, const mcu_pin_obj_t *sda, uint8_t *addresses, unsigned int num_addresses, bool smbus) { uint8_t sercom_index; uint32_t sda_pinmux, scl_pinmux; Sercom *sercom = samd_i2c_get_sercom(scl, sda, &sercom_index, &sda_pinmux, &scl_pinmux); if (sercom == NULL) { mp_raise_ValueError(translate("Invalid pins")); } self->sercom = sercom; gpio_set_pin_function(sda->number, GPIO_PIN_FUNCTION_OFF); gpio_set_pin_function(scl->number, GPIO_PIN_FUNCTION_OFF); gpio_set_pin_function(sda->number, sda_pinmux); gpio_set_pin_function(scl->number, scl_pinmux); self->sda_pin = sda->number; self->scl_pin = scl->number; claim_pin(sda); claim_pin(scl); samd_peripherals_sercom_clock_init(sercom, sercom_index); sercom->I2CS.CTRLA.bit.SWRST = 1; while (sercom->I2CS.CTRLA.bit.SWRST || sercom->I2CS.SYNCBUSY.bit.SWRST) {} sercom->I2CS.CTRLB.bit.AACKEN = 0; // Automatic acknowledge is disabled. if (num_addresses == 1) { sercom->I2CS.CTRLB.bit.AMODE = 0x0; // MASK sercom->I2CS.ADDR.bit.ADDR = addresses[0]; sercom->I2CS.ADDR.bit.ADDRMASK = 0x00; // Match exact address } else if (num_addresses == 2) { sercom->I2CS.CTRLB.bit.AMODE = 0x1; // 2_ADDRS sercom->I2CS.ADDR.bit.ADDR = addresses[0]; sercom->I2CS.ADDR.bit.ADDRMASK = addresses[1]; } else { uint32_t combined = 0; // all addresses OR'ed uint32_t differ = 0; // bits that differ between addresses for (unsigned int i = 0; i < num_addresses; i++) { combined |= addresses[i]; differ |= addresses[0] ^ addresses[i]; } sercom->I2CS.CTRLB.bit.AMODE = 0x0; // MASK sercom->I2CS.ADDR.bit.ADDR = combined; sercom->I2CS.ADDR.bit.ADDRMASK = differ; } self->addresses = addresses; self->num_addresses = num_addresses; if (smbus) { sercom->I2CS.CTRLA.bit.LOWTOUTEN = 1; // Errata 12003 sercom->I2CS.CTRLA.bit.SEXTTOEN = 1; // Slave SCL Low Extend/Cumulative Time-Out 25ms } sercom->I2CS.CTRLA.bit.SCLSM = 0; // Clock stretch before ack sercom->I2CS.CTRLA.bit.MODE = 0x04; // Slave mode sercom->I2CS.CTRLA.bit.ENABLE = 1; } bool common_hal_i2cslave_i2c_slave_deinited(i2cslave_i2c_slave_obj_t *self) { return self->sda_pin == NO_PIN; } void common_hal_i2cslave_i2c_slave_deinit(i2cslave_i2c_slave_obj_t *self) { if (common_hal_i2cslave_i2c_slave_deinited(self)) { return; } self->sercom->I2CS.CTRLA.bit.ENABLE = 0; reset_pin(self->sda_pin); reset_pin(self->scl_pin); self->sda_pin = NO_PIN; self->scl_pin = NO_PIN; } static int i2c_slave_check_error(i2cslave_i2c_slave_obj_t *self, bool raise) { if (!self->sercom->I2CS.INTFLAG.bit.ERROR) { return 0; } int err = MP_EIO; if (self->sercom->I2CS.STATUS.bit.LOWTOUT || self->sercom->I2CS.STATUS.bit.SEXTTOUT) { err = MP_ETIMEDOUT; } self->sercom->I2CS.INTFLAG.reg = SERCOM_I2CS_INTFLAG_ERROR; // Clear flag if (raise) { mp_raise_OSError(err); } return -err; } int common_hal_i2cslave_i2c_slave_is_addressed(i2cslave_i2c_slave_obj_t *self, uint8_t *address, bool *is_read, bool *is_restart) { int err = i2c_slave_check_error(self, false); if (err) { return err; } if (!self->sercom->I2CS.INTFLAG.bit.AMATCH) { return 0; } self->writing = false; *address = self->sercom->I2CS.DATA.reg >> 1; *is_read = self->sercom->I2CS.STATUS.bit.DIR; *is_restart = self->sercom->I2CS.STATUS.bit.SR; for (unsigned int i = 0; i < self->num_addresses; i++) { if (*address == self->addresses[i]) { common_hal_i2cslave_i2c_slave_ack(self, true); return 1; } } // This should clear AMATCH, but it doesn't... common_hal_i2cslave_i2c_slave_ack(self, false); return 0; } int common_hal_i2cslave_i2c_slave_read_byte(i2cslave_i2c_slave_obj_t *self, uint8_t *data) { for (int t = 0; t < 100 && !self->sercom->I2CS.INTFLAG.reg; t++) { mp_hal_delay_us(10); } i2c_slave_check_error(self, true); if (!self->sercom->I2CS.INTFLAG.bit.DRDY || self->sercom->I2CS.INTFLAG.bit.PREC || self->sercom->I2CS.INTFLAG.bit.AMATCH) { return 0; } *data = self->sercom->I2CS.DATA.reg; return 1; } int common_hal_i2cslave_i2c_slave_write_byte(i2cslave_i2c_slave_obj_t *self, uint8_t data) { for (int t = 0; !self->sercom->I2CS.INTFLAG.reg && t < 100; t++) { mp_hal_delay_us(10); } i2c_slave_check_error(self, true); if (self->sercom->I2CS.INTFLAG.bit.PREC) { return 0; } // RXNACK can carry over from the previous transfer if (self->writing && self->sercom->I2CS.STATUS.bit.RXNACK) { return 0; } self->writing = true; if (!self->sercom->I2CS.INTFLAG.bit.DRDY) { return 0; } self->sercom->I2CS.DATA.bit.DATA = data; // Send data return 1; } void common_hal_i2cslave_i2c_slave_ack(i2cslave_i2c_slave_obj_t *self, bool ack) { self->sercom->I2CS.CTRLB.bit.ACKACT = !ack; self->sercom->I2CS.CTRLB.bit.CMD = 0x03; } void common_hal_i2cslave_i2c_slave_close(i2cslave_i2c_slave_obj_t *self) { for (int t = 0; !self->sercom->I2CS.INTFLAG.reg && t < 100; t++) { mp_hal_delay_us(10); } if (self->sercom->I2CS.INTFLAG.bit.AMATCH || !self->sercom->I2CS.STATUS.bit.CLKHOLD) { return; } if (!self->sercom->I2CS.STATUS.bit.DIR) { common_hal_i2cslave_i2c_slave_ack(self, false); } else { int i = 0; while (self->sercom->I2CS.INTFLAG.reg == SERCOM_I2CS_INTFLAG_DRDY) { if (mp_hal_is_interrupted()) { return; } self->sercom->I2CS.DATA.bit.DATA = 0xff; // Send dummy byte // Wait for a result (if any). // test_byte_word.py::TestWord::test_write_seq leaves us with no INTFLAGs set in some of the tests for (int t = 0; !self->sercom->I2CS.INTFLAG.reg && t < 100; t++) { mp_hal_delay_us(10); } if (++i > 1000) { // Avoid getting stuck "forever" mp_raise_OSError(MP_EIO); } } } if (self->sercom->I2CS.INTFLAG.bit.AMATCH) { return; } if (self->sercom->I2CS.STATUS.bit.CLKHOLD) { // Unable to release the clock. // The slave might have to be re-initialized to get unstuck. mp_raise_OSError(MP_EIO); } }