/* * Copyright (C) 2012-2014 Motorola, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * Adds ability to program periodic interrupts from user space that * can wake the phone out of low power modes. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define m4pas_err(format, args...) KDEBUG(M4SH_ERROR, format, ## args) #define M4PAS_IRQ_ENABLED_BIT 0 struct m4pas_driver_data { struct platform_device *pdev; struct m4sensorhub_data *m4; struct mutex mutex; /* controls driver entry points */ struct m4sensorhub_passive_iio_data iiodat[M4PAS_NUM_PASSIVE_BUFFERS]; int16_t samplerate; int16_t latest_samplerate; uint16_t status; }; static void m4pas_isr(enum m4sensorhub_irqs int_event, void *handle) { int err = 0; struct iio_dev *iio = handle; struct m4pas_driver_data *dd = iio_priv(iio); int size = 0; uint32_t passive_timestamp[M4PAS_NUM_PASSIVE_BUFFERS]; uint16_t steps[M4PAS_NUM_PASSIVE_BUFFERS]; uint16_t calories[M4PAS_NUM_PASSIVE_BUFFERS]; uint16_t heartrate[M4PAS_NUM_PASSIVE_BUFFERS]; uint8_t hrconfidence[M4PAS_NUM_PASSIVE_BUFFERS]; uint8_t healthy_minutes[M4PAS_NUM_PASSIVE_BUFFERS]; int i = 0; mutex_lock(&(dd->mutex)); size = m4sensorhub_reg_getsize(dd->m4, M4SH_REG_PASSIVE_TIMESTAMP); err = m4sensorhub_reg_read(dd->m4, M4SH_REG_PASSIVE_TIMESTAMP, (char *)&(passive_timestamp)); if (err < 0) { m4pas_err("%s: Failed to read passive_timestamp data.\n", __func__); goto m4pas_isr_fail; } else if (err != size) { m4pas_err("%s: Read %d bytes instead of %d for %s.\n", __func__, err, size, "passive_timestamp"); err = -EBADE; goto m4pas_isr_fail; } size = m4sensorhub_reg_getsize(dd->m4, M4SH_REG_PASSIVE_STEPS); err = m4sensorhub_reg_read(dd->m4, M4SH_REG_PASSIVE_STEPS, (char *)&(steps)); if (err < 0) { m4pas_err("%s: Failed to read steps data.\n", __func__); goto m4pas_isr_fail; } else if (err != size) { m4pas_err("%s: Read %d bytes instead of %d for %s.\n", __func__, err, size, "steps"); err = -EBADE; goto m4pas_isr_fail; } size = m4sensorhub_reg_getsize(dd->m4, M4SH_REG_PASSIVE_CALORIES); err = m4sensorhub_reg_read(dd->m4, M4SH_REG_PASSIVE_CALORIES, (char *)&(calories)); if (err < 0) { m4pas_err("%s: Failed to read calories data.\n", __func__); goto m4pas_isr_fail; } else if (err != size) { m4pas_err("%s: Read %d bytes instead of %d for %s.\n", __func__, err, size, "calories"); err = -EBADE; goto m4pas_isr_fail; } size = m4sensorhub_reg_getsize(dd->m4, M4SH_REG_PASSIVE_HEARTRATE); err = m4sensorhub_reg_read(dd->m4, M4SH_REG_PASSIVE_HEARTRATE, (char *)&(heartrate)); if (err < 0) { m4pas_err("%s: Failed to read heartrate data.\n", __func__); goto m4pas_isr_fail; } else if (err != size) { m4pas_err("%s: Read %d bytes instead of %d for %s.\n", __func__, err, size, "heartrate"); err = -EBADE; goto m4pas_isr_fail; } size = m4sensorhub_reg_getsize(dd->m4, M4SH_REG_PASSIVE_HRCONFIDENCE); err = m4sensorhub_reg_read(dd->m4, M4SH_REG_PASSIVE_HRCONFIDENCE, (char *)&(hrconfidence)); if (err < 0) { m4pas_err("%s: Failed to read hrconfidence data.\n", __func__); goto m4pas_isr_fail; } else if (err != size) { m4pas_err("%s: Read %d bytes instead of %d for %s.\n", __func__, err, size, "hrconfidence"); err = -EBADE; goto m4pas_isr_fail; } size = m4sensorhub_reg_getsize(dd->m4, M4SH_REG_PASSIVE_HEALTHYMINUTES); err = m4sensorhub_reg_read(dd->m4, M4SH_REG_PASSIVE_HEALTHYMINUTES, (char *)&(healthy_minutes)); if (err < 0) { m4pas_err("%s: Failed to read healthy_minutes data.\n", __func__); goto m4pas_isr_fail; } else if (err != size) { m4pas_err("%s: Read %d bytes instead of %d for %s.\n", __func__, err, size, "healthy_minutes"); err = -EBADE; goto m4pas_isr_fail; } for (i = 0; i < M4PAS_NUM_PASSIVE_BUFFERS; i++) { dd->iiodat[i].passive_timestamp = passive_timestamp[i]; dd->iiodat[i].steps = steps[i]; dd->iiodat[i].calories = calories[i]; dd->iiodat[i].heartrate = heartrate[i]; dd->iiodat[i].hrconfidence = hrconfidence[i]; dd->iiodat[i].healthy_minutes = healthy_minutes[i]; dd->iiodat[i].timestamp = iio_get_time_ns(); } /* * For some reason, IIO knows we are sending an array, * so all M4PAS_NUM_PASSIVE_BUFFERS indicies will be sent * in this one call (it does not need to go in the for-loop). */ iio_push_to_buffers(iio, (unsigned char *)&(dd->iiodat[0])); m4pas_isr_fail: if (err < 0) m4pas_err("%s: Failed with error code %d.\n", __func__, err); mutex_unlock(&(dd->mutex)); return; } static int m4pas_set_samplerate(struct iio_dev *iio, int16_t rate) { int err = 0; struct m4pas_driver_data *dd = iio_priv(iio); /* * Currently, there is no concept of setting a sample rate for this * sensor, so this function only enables/disables interrupt reporting. */ dd->latest_samplerate = rate; if (dd->samplerate == rate) goto m4pas_set_samplerate_fail; if (rate >= 0) { /* Enable passive mode feature */ err = m4sensorhub_reg_write_1byte(dd->m4, M4SH_REG_PASSIVE_ENABLE, 0x01, 0xFF); if (err != 1) { m4pas_err("%s: Failed to enable with %d.\n", __func__, err); goto m4pas_set_samplerate_fail; } /* Enable the IRQ if necessary */ if (!(dd->status & (1 << M4PAS_IRQ_ENABLED_BIT))) { err = m4sensorhub_irq_enable(dd->m4, M4SH_IRQ_PASSIVE_BUFFER_FULL); if (err < 0) { m4pas_err("%s: Failed to enable irq.\n", __func__); goto m4pas_set_samplerate_fail; } dd->status = dd->status | (1 << M4PAS_IRQ_ENABLED_BIT); dd->samplerate = rate; } } else { /* Disable passive mode feature */ err = m4sensorhub_reg_write_1byte(dd->m4, M4SH_REG_PASSIVE_ENABLE, 0x0, 0xFF); if (err != 1) { m4pas_err("%s: Failed to disable with %d.\n", __func__, err); goto m4pas_set_samplerate_fail; } /* Disable the IRQ if necessary */ if (dd->status & (1 << M4PAS_IRQ_ENABLED_BIT)) { err = m4sensorhub_irq_disable(dd->m4, M4SH_IRQ_PASSIVE_BUFFER_FULL); if (err < 0) { m4pas_err("%s: Failed to disable irq.\n", __func__); goto m4pas_set_samplerate_fail; } dd->status = dd->status & ~(1 << M4PAS_IRQ_ENABLED_BIT); dd->samplerate = rate; } } m4pas_set_samplerate_fail: return err; } static ssize_t m4pas_setrate_show(struct device *dev, struct device_attribute *attr, char *buf) { struct platform_device *pdev = to_platform_device(dev); struct iio_dev *iio = platform_get_drvdata(pdev); struct m4pas_driver_data *dd = iio_priv(iio); ssize_t size = 0; mutex_lock(&(dd->mutex)); size = snprintf(buf, PAGE_SIZE, "Current rate: %hd\n", dd->samplerate); mutex_unlock(&(dd->mutex)); return size; } static ssize_t m4pas_setrate_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t size) { int err = 0; struct platform_device *pdev = to_platform_device(dev); struct iio_dev *iio = platform_get_drvdata(pdev); struct m4pas_driver_data *dd = iio_priv(iio); int value = 0; mutex_lock(&(dd->mutex)); err = kstrtoint(buf, 10, &value); if (err < 0) { m4pas_err("%s: Failed to convert value.\n", __func__); goto m4pas_enable_store_exit; } if ((value < -1) || (value > 32767)) { m4pas_err("%s: Invalid samplerate %d passed.\n", __func__, value); err = -EINVAL; goto m4pas_enable_store_exit; } err = m4pas_set_samplerate(iio, value); if (err < 0) { m4pas_err("%s: Failed to set sample rate.\n", __func__); goto m4pas_enable_store_exit; } m4pas_enable_store_exit: if (err < 0) { m4pas_err("%s: Failed with error code %d.\n", __func__, err); size = err; } mutex_unlock(&(dd->mutex)); return size; } static IIO_DEVICE_ATTR(setrate, S_IRUSR | S_IWUSR, m4pas_setrate_show, m4pas_setrate_store, 0); static ssize_t m4pas_iiodata_show(struct device *dev, struct device_attribute *attr, char *buf) { struct platform_device *pdev = to_platform_device(dev); struct iio_dev *iio = platform_get_drvdata(pdev); struct m4pas_driver_data *dd = iio_priv(iio); ssize_t size = 0; int i = 0; mutex_lock(&(dd->mutex)); buf[0] = '\0'; /* Start with NULL terminator for concatenation */; for (i = 0; i < M4PAS_NUM_PASSIVE_BUFFERS; i++) { size = snprintf(buf, PAGE_SIZE, "%s%s%d\n%s%u\n%s%hu\n%s%hu\n%s%hu\n%s%hhu\n%s%hhu\n", buf, "Buffer ", i, "passive_timestamp: ", dd->iiodat[i].passive_timestamp, "steps: ", dd->iiodat[i].steps, "calories: ", dd->iiodat[i].calories, "heartrate: ", dd->iiodat[i].heartrate, "hrconfidence: ", dd->iiodat[i].hrconfidence, "healthy_minutes: ", dd->iiodat[i].healthy_minutes); } mutex_unlock(&(dd->mutex)); return size; } static IIO_DEVICE_ATTR(iiodata, S_IRUGO, m4pas_iiodata_show, NULL, 0); static struct attribute *m4pas_iio_attributes[] = { &iio_dev_attr_setrate.dev_attr.attr, &iio_dev_attr_iiodata.dev_attr.attr, NULL, }; static const struct attribute_group m4pas_iio_attr_group = { .attrs = m4pas_iio_attributes, }; static const struct iio_info m4pas_iio_info = { .driver_module = THIS_MODULE, .attrs = &m4pas_iio_attr_group, }; static const struct iio_chan_spec m4pas_iio_channels[] = { { .type = IIO_PASSIVE, .scan_index = 0, .scan_type = { .sign = 'u', .realbits = M4PAS_DATA_STRUCT_SIZE_BITS, .storagebits = M4PAS_DATA_STRUCT_SIZE_BITS, .shift = 0, }, }, }; static void m4pas_remove_iiodev(struct iio_dev *iio) { struct m4pas_driver_data *dd = iio_priv(iio); /* Remember, only call when dd->mutex is locked */ iio_kfifo_free(iio->buffer); iio_buffer_unregister(iio); iio_device_unregister(iio); mutex_destroy(&(dd->mutex)); iio_device_free(iio); /* dd is freed here */ return; } static int m4pas_create_iiodev(struct iio_dev *iio) { int err = 0; struct m4pas_driver_data *dd = iio_priv(iio); iio->name = M4PAS_DRIVER_NAME; iio->modes = INDIO_DIRECT_MODE | INDIO_BUFFER_HARDWARE; iio->num_channels = 1; iio->info = &m4pas_iio_info; iio->channels = m4pas_iio_channels; iio->buffer = iio_kfifo_allocate(iio); if (iio->buffer == NULL) { m4pas_err("%s: Failed to allocate IIO buffer.\n", __func__); err = -ENOMEM; goto m4pas_create_iiodev_kfifo_fail; } iio->buffer->scan_timestamp = true; iio->buffer->access->set_bytes_per_datum(iio->buffer, sizeof(dd->iiodat)); err = iio_buffer_register(iio, iio->channels, iio->num_channels); if (err < 0) { m4pas_err("%s: Failed to register IIO buffer.\n", __func__); goto m4pas_create_iiodev_buffer_fail; } err = iio_device_register(iio); if (err < 0) { m4pas_err("%s: Failed to register IIO device.\n", __func__); goto m4pas_create_iiodev_iioreg_fail; } goto m4pas_create_iiodev_exit; m4pas_create_iiodev_iioreg_fail: iio_buffer_unregister(iio); m4pas_create_iiodev_buffer_fail: iio_kfifo_free(iio->buffer); m4pas_create_iiodev_kfifo_fail: iio_device_free(iio); /* dd is freed here */ m4pas_create_iiodev_exit: return err; } static void m4pas_panic_restore(struct m4sensorhub_data *m4sensorhub, void *data) { int err; char en; struct m4pas_driver_data *dd = (struct m4pas_driver_data *)data; if (dd == NULL) { m4pas_err("%s: Driver data is null, unable to restore\n", __func__); return; } mutex_lock(&(dd->mutex)); en = (dd->samplerate >= 0) ? 1 : 0; err = m4sensorhub_reg_write_1byte(dd->m4, M4SH_REG_PASSIVE_ENABLE, en, 0xFF); if (err != 1) m4pas_err("%s: Failed to enable with %d.\n", __func__, err); mutex_unlock(&(dd->mutex)); } static int m4pas_driver_init(struct init_calldata *p_arg) { struct iio_dev *iio = p_arg->p_data; struct m4pas_driver_data *dd = iio_priv(iio); int err = 0; mutex_lock(&(dd->mutex)); dd->m4 = p_arg->p_m4sensorhub_data; if (dd->m4 == NULL) { m4pas_err("%s: M4 sensor data is NULL.\n", __func__); err = -ENODATA; goto m4pas_driver_init_fail; } err = m4sensorhub_irq_register(dd->m4, M4SH_IRQ_PASSIVE_BUFFER_FULL, m4pas_isr, iio, 1); if (err < 0) { m4pas_err("%s: Failed to register M4 IRQ.\n", __func__); goto m4pas_driver_init_fail; } err = m4sensorhub_panic_register(dd->m4, PANICHDL_PASSIVE_RESTORE, m4pas_panic_restore, dd); if (err < 0) KDEBUG(M4SH_ERROR, "Passive panic callback register failed\n"); goto m4pas_driver_init_exit; m4pas_driver_init_fail: m4pas_err("%s: Init failed with error code %d.\n", __func__, err); m4pas_driver_init_exit: mutex_unlock(&(dd->mutex)); return err; } static int m4pas_probe(struct platform_device *pdev) { struct m4pas_driver_data *dd = NULL; struct iio_dev *iio = NULL; int err = 0; iio = iio_device_alloc(sizeof(dd)); if (iio == NULL) { m4pas_err("%s: Failed to allocate IIO data.\n", __func__); err = -ENOMEM; goto m4pas_probe_fail_noiio; } dd = iio_priv(iio); dd->pdev = pdev; mutex_init(&(dd->mutex)); platform_set_drvdata(pdev, iio); dd->samplerate = -1; /* We always start disabled */ dd->latest_samplerate = dd->samplerate; err = m4pas_create_iiodev(iio); /* iio and dd are freed on fail */ if (err < 0) { m4pas_err("%s: Failed to create IIO device.\n", __func__); goto m4pas_probe_fail_noiio; } err = m4sensorhub_register_initcall(m4pas_driver_init, iio); if (err < 0) { m4pas_err("%s: Failed to register initcall.\n", __func__); goto m4pas_probe_fail; } return 0; m4pas_probe_fail: m4pas_remove_iiodev(iio); /* iio and dd are freed here */ m4pas_probe_fail_noiio: m4pas_err("%s: Probe failed with error code %d.\n", __func__, err); return err; } static int __exit m4pas_remove(struct platform_device *pdev) { struct iio_dev *iio = platform_get_drvdata(pdev); struct m4pas_driver_data *dd = NULL; if (iio == NULL) goto m4pas_remove_exit; dd = iio_priv(iio); if (dd == NULL) goto m4pas_remove_exit; mutex_lock(&(dd->mutex)); if (dd->status & (1 << M4PAS_IRQ_ENABLED_BIT)) { m4sensorhub_irq_disable(dd->m4, M4SH_IRQ_PASSIVE_BUFFER_FULL); dd->status = dd->status & ~(1 << M4PAS_IRQ_ENABLED_BIT); } m4sensorhub_irq_unregister(dd->m4, M4SH_IRQ_PASSIVE_BUFFER_FULL); m4sensorhub_unregister_initcall(m4pas_driver_init); m4pas_remove_iiodev(iio); /* dd is freed here */ m4pas_remove_exit: return 0; } static int m4pas_suspend(struct platform_device *pdev, pm_message_t state) { struct iio_dev *iio = platform_get_drvdata(pdev); struct m4pas_driver_data *dd = iio_priv(iio); mutex_lock(&(dd->mutex)); if (m4pas_set_samplerate(iio, dd->latest_samplerate) < 0) m4pas_err("%s: setrate retry failed\n", __func__); mutex_unlock(&(dd->mutex)); return 0; } static struct of_device_id m4passive_match_tbl[] = { { .compatible = "mot,m4passive" }, {}, }; static struct platform_driver m4pas_driver = { .probe = m4pas_probe, .remove = __exit_p(m4pas_remove), .shutdown = NULL, .suspend = m4pas_suspend, .resume = NULL, .driver = { .name = M4PAS_DRIVER_NAME, .owner = THIS_MODULE, .of_match_table = of_match_ptr(m4passive_match_tbl), }, }; static int __init m4pas_init(void) { return platform_driver_register(&m4pas_driver); } static void __exit m4pas_exit(void) { platform_driver_unregister(&m4pas_driver); } module_init(m4pas_init); module_exit(m4pas_exit); MODULE_ALIAS("platform:m4pas"); MODULE_DESCRIPTION("M4 Sensor Hub Passive client driver"); MODULE_AUTHOR("Motorola"); MODULE_LICENSE("GPL");