Release 4.11 drivers/iio/common/ssp_sensors/ssp_spi.c
/*
* Copyright (C) 2014, Samsung Electronics Co. Ltd. All Rights Reserved.
*
* 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.
*
*/
#include "ssp.h"
#define SSP_DEV (&data->spi->dev)
#define SSP_GET_MESSAGE_TYPE(data) (data & (3 << SSP_RW))
/*
* SSP -> AP Instruction
* They tell what packet type can be expected. In the future there will
* be less of them. BYPASS means common sensor packets with accel, gyro,
* hrm etc. data. LIBRARY and META are mock-up's for now.
*/
#define SSP_MSG2AP_INST_BYPASS_DATA 0x37
#define SSP_MSG2AP_INST_LIBRARY_DATA 0x01
#define SSP_MSG2AP_INST_DEBUG_DATA 0x03
#define SSP_MSG2AP_INST_BIG_DATA 0x04
#define SSP_MSG2AP_INST_META_DATA 0x05
#define SSP_MSG2AP_INST_TIME_SYNC 0x06
#define SSP_MSG2AP_INST_RESET 0x07
#define SSP_UNIMPLEMENTED -1
struct ssp_msg_header {
u8 cmd;
__le16 length;
__le16 options;
__le32 data;
} __attribute__((__packed__));
struct ssp_msg {
u16 length;
u16 options;
struct list_head list;
struct completion *done;
struct ssp_msg_header *h;
char *buffer;
};
static const int ssp_offset_map[SSP_SENSOR_MAX] = {
[SSP_ACCELEROMETER_SENSOR] = SSP_ACCELEROMETER_SIZE +
SSP_TIME_SIZE,
[SSP_GYROSCOPE_SENSOR] = SSP_GYROSCOPE_SIZE +
SSP_TIME_SIZE,
[SSP_GEOMAGNETIC_UNCALIB_SENSOR] = SSP_UNIMPLEMENTED,
[SSP_GEOMAGNETIC_RAW] = SSP_UNIMPLEMENTED,
[SSP_GEOMAGNETIC_SENSOR] = SSP_UNIMPLEMENTED,
[SSP_PRESSURE_SENSOR] = SSP_UNIMPLEMENTED,
[SSP_GESTURE_SENSOR] = SSP_UNIMPLEMENTED,
[SSP_PROXIMITY_SENSOR] = SSP_UNIMPLEMENTED,
[SSP_TEMPERATURE_HUMIDITY_SENSOR] = SSP_UNIMPLEMENTED,
[SSP_LIGHT_SENSOR] = SSP_UNIMPLEMENTED,
[SSP_PROXIMITY_RAW] = SSP_UNIMPLEMENTED,
[SSP_ORIENTATION_SENSOR] = SSP_UNIMPLEMENTED,
[SSP_STEP_DETECTOR] = SSP_UNIMPLEMENTED,
[SSP_SIG_MOTION_SENSOR] = SSP_UNIMPLEMENTED,
[SSP_GYRO_UNCALIB_SENSOR] = SSP_UNIMPLEMENTED,
[SSP_GAME_ROTATION_VECTOR] = SSP_UNIMPLEMENTED,
[SSP_ROTATION_VECTOR] = SSP_UNIMPLEMENTED,
[SSP_STEP_COUNTER] = SSP_UNIMPLEMENTED,
[SSP_BIO_HRM_RAW] = SSP_BIO_HRM_RAW_SIZE +
SSP_TIME_SIZE,
[SSP_BIO_HRM_RAW_FAC] = SSP_BIO_HRM_RAW_FAC_SIZE +
SSP_TIME_SIZE,
[SSP_BIO_HRM_LIB] = SSP_BIO_HRM_LIB_SIZE +
SSP_TIME_SIZE,
};
#define SSP_HEADER_SIZE (sizeof(struct ssp_msg_header))
#define SSP_HEADER_SIZE_ALIGNED (ALIGN(SSP_HEADER_SIZE, 4))
static struct ssp_msg *ssp_create_msg(u8 cmd, u16 len, u16 opt, u32 data)
{
struct ssp_msg_header h;
struct ssp_msg *msg;
msg = kzalloc(sizeof(*msg), GFP_KERNEL);
if (!msg)
return NULL;
h.cmd = cmd;
h.length = cpu_to_le16(len);
h.options = cpu_to_le16(opt);
h.data = cpu_to_le32(data);
msg->buffer = kzalloc(SSP_HEADER_SIZE_ALIGNED + len,
GFP_KERNEL | GFP_DMA);
if (!msg->buffer) {
kfree(msg);
return NULL;
}
msg->length = len;
msg->options = opt;
memcpy(msg->buffer, &h, SSP_HEADER_SIZE);
return msg;
}
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/*
* It is a bit heavy to do it this way but often the function is used to compose
* the message from smaller chunks which are placed on the stack. Often the
* chunks are small so memcpy should be optimalized.
*/
static inline void ssp_fill_buffer(struct ssp_msg *m, unsigned int offset,
const void *src, unsigned int len)
{
memcpy(&m->buffer[SSP_HEADER_SIZE_ALIGNED + offset], src, len);
}
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static inline void ssp_get_buffer(struct ssp_msg *m, unsigned int offset,
void *dest, unsigned int len)
{
memcpy(dest, &m->buffer[SSP_HEADER_SIZE_ALIGNED + offset], len);
}
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#define SSP_GET_BUFFER_AT_INDEX(m, index) \
(m->buffer[SSP_HEADER_SIZE_ALIGNED + index])
#define SSP_SET_BUFFER_AT_INDEX(m, index, val) \
(m->buffer[SSP_HEADER_SIZE_ALIGNED + index] = val)
static void ssp_clean_msg(struct ssp_msg *m)
{
kfree(m->buffer);
kfree(m);
}
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static int ssp_print_mcu_debug(char *data_frame, int *data_index,
int received_len)
{
int length = data_frame[(*data_index)++];
if (length > received_len - *data_index || length <= 0) {
ssp_dbg("[SSP]: MSG From MCU-invalid debug length(%d/%d)\n",
length, received_len);
return length ? length : -EPROTO;
}
ssp_dbg("[SSP]: MSG From MCU - %s\n", &data_frame[*data_index]);
*data_index += length;
return 0;
}
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/*
* It was designed that way - additional lines to some kind of handshake,
* please do not ask why - only the firmware guy can know it.
*/
static int ssp_check_lines(struct ssp_data *data, bool state)
{
int delay_cnt = 0;
gpio_set_value_cansleep(data->ap_mcu_gpio, state);
while (gpio_get_value_cansleep(data->mcu_ap_gpio) != state) {
usleep_range(3000, 3500);
if (data->shut_down || delay_cnt++ > 500) {
dev_err(SSP_DEV, "%s:timeout, hw ack wait fail %d\n",
__func__, state);
if (!state)
gpio_set_value_cansleep(data->ap_mcu_gpio, 1);
return -ETIMEDOUT;
}
}
return 0;
}
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static int ssp_do_transfer(struct ssp_data *data, struct ssp_msg *msg,
struct completion *done, int timeout)
{
int status;
/*
* check if this is a short one way message or the whole transfer has
* second part after an interrupt
*/
const bool use_no_irq = msg->length == 0;
if (data->shut_down)
return -EPERM;
msg->done = done;
mutex_lock(&data->comm_lock);
status = ssp_check_lines(data, false);
if (status < 0)
goto _error_locked;
status = spi_write(data->spi, msg->buffer, SSP_HEADER_SIZE);
if (status < 0) {
gpio_set_value_cansleep(data->ap_mcu_gpio, 1);
dev_err(SSP_DEV, "%s spi_write fail\n", __func__);
goto _error_locked;
}
if (!use_no_irq) {
mutex_lock(&data->pending_lock);
list_add_tail(&msg->list, &data->pending_list);
mutex_unlock(&data->pending_lock);
}
status = ssp_check_lines(data, true);
if (status < 0) {
if (!use_no_irq) {
mutex_lock(&data->pending_lock);
list_del(&msg->list);
mutex_unlock(&data->pending_lock);
}
goto _error_locked;
}
mutex_unlock(&data->comm_lock);
if (!use_no_irq && done)
if (wait_for_completion_timeout(done,
msecs_to_jiffies(timeout)) ==
0) {
mutex_lock(&data->pending_lock);
list_del(&msg->list);
mutex_unlock(&data->pending_lock);
data->timeout_cnt++;
return -ETIMEDOUT;
}
return 0;
_error_locked:
mutex_unlock(&data->comm_lock);
data->timeout_cnt++;
return status;
}
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static inline int ssp_spi_sync_command(struct ssp_data *data,
struct ssp_msg *msg)
{
return ssp_do_transfer(data, msg, NULL, 0);
}
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static int ssp_spi_sync(struct ssp_data *data, struct ssp_msg *msg,
int timeout)
{
DECLARE_COMPLETION_ONSTACK(done);
if (WARN_ON(!msg->length))
return -EPERM;
return ssp_do_transfer(data, msg, &done, timeout);
}
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static int ssp_handle_big_data(struct ssp_data *data, char *dataframe, int *idx)
{
/* mock-up, it will be changed with adding another sensor types */
*idx += 8;
return 0;
}
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static int ssp_parse_dataframe(struct ssp_data *data, char *dataframe, int len)
{
int idx, sd;
struct timespec ts;
struct ssp_sensor_data *spd;
struct iio_dev **indio_devs = data->sensor_devs;
getnstimeofday(&ts);
for (idx = 0; idx < len;) {
switch (dataframe[idx++]) {
case SSP_MSG2AP_INST_BYPASS_DATA:
sd = dataframe[idx++];
if (sd < 0 || sd >= SSP_SENSOR_MAX) {
dev_err(SSP_DEV,
"Mcu data frame1 error %d\n", sd);
return -EPROTO;
}
if (indio_devs[sd]) {
spd = iio_priv(indio_devs[sd]);
if (spd->process_data)
spd->process_data(indio_devs[sd],
&dataframe[idx],
data->timestamp);
} else {
dev_err(SSP_DEV, "no client for frame\n");
}
idx += ssp_offset_map[sd];
break;
case SSP_MSG2AP_INST_DEBUG_DATA:
sd = ssp_print_mcu_debug(dataframe, &idx, len);
if (sd) {
dev_err(SSP_DEV,
"Mcu data frame3 error %d\n", sd);
return sd;
}
break;
case SSP_MSG2AP_INST_LIBRARY_DATA:
idx += len;
break;
case SSP_MSG2AP_INST_BIG_DATA:
ssp_handle_big_data(data, dataframe, &idx);
break;
case SSP_MSG2AP_INST_TIME_SYNC:
data->time_syncing = true;
break;
case SSP_MSG2AP_INST_RESET:
ssp_queue_ssp_refresh_task(data, 0);
break;
}
}
if (data->time_syncing)
data->timestamp = ts.tv_sec * 1000000000ULL + ts.tv_nsec;
return 0;
}
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/* threaded irq */
int ssp_irq_msg(struct ssp_data *data)
{
bool found = false;
char *buffer;
u8 msg_type;
int ret;
u16 length, msg_options;
struct ssp_msg *msg, *n;
ret = spi_read(data->spi, data->header_buffer, SSP_HEADER_BUFFER_SIZE);
if (ret < 0) {
dev_err(SSP_DEV, "header read fail\n");
return ret;
}
length = le16_to_cpu(data->header_buffer[1]);
msg_options = le16_to_cpu(data->header_buffer[0]);
if (length == 0) {
dev_err(SSP_DEV, "length received from mcu is 0\n");
return -EINVAL;
}
msg_type = SSP_GET_MESSAGE_TYPE(msg_options);
switch (msg_type) {
case SSP_AP2HUB_READ:
case SSP_AP2HUB_WRITE:
/*
* this is a small list, a few elements - the packets can be
* received with no order
*/
mutex_lock(&data->pending_lock);
list_for_each_entry_safe(msg, n, &data->pending_list, list) {
if (msg->options == msg_options) {
list_del(&msg->list);
found = true;
break;
}
}
if (!found) {
/*
* here can be implemented dead messages handling
* but the slave should not send such ones - it is to
* check but let's handle this
*/
buffer = kmalloc(length, GFP_KERNEL | GFP_DMA);
if (!buffer) {
ret = -ENOMEM;
goto _unlock;
}
/* got dead packet so it is always an error */
ret = spi_read(data->spi, buffer, length);
if (ret >= 0)
ret = -EPROTO;
kfree(buffer);
dev_err(SSP_DEV, "No match error %x\n",
msg_options);
goto _unlock;
}
if (msg_type == SSP_AP2HUB_READ)
ret = spi_read(data->spi,
&msg->buffer[SSP_HEADER_SIZE_ALIGNED],
msg->length);
if (msg_type == SSP_AP2HUB_WRITE) {
ret = spi_write(data->spi,
&msg->buffer[SSP_HEADER_SIZE_ALIGNED],
msg->length);
if (msg_options & SSP_AP2HUB_RETURN) {
msg->options =
SSP_AP2HUB_READ | SSP_AP2HUB_RETURN;
msg->length = 1;
list_add_tail(&msg->list, &data->pending_list);
goto _unlock;
}
}
if (msg->done)
if (!completion_done(msg->done))
complete(msg->done);
_unlock:
mutex_unlock(&data->pending_lock);
break;
case SSP_HUB2AP_WRITE:
buffer = kzalloc(length, GFP_KERNEL | GFP_DMA);
if (!buffer)
return -ENOMEM;
ret = spi_read(data->spi, buffer, length);
if (ret < 0) {
dev_err(SSP_DEV, "spi read fail\n");
kfree(buffer);
break;
}
ret = ssp_parse_dataframe(data, buffer, length);
kfree(buffer);
break;
default:
dev_err(SSP_DEV, "unknown msg type\n");
return -EPROTO;
}
return ret;
}
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void ssp_clean_pending_list(struct ssp_data *data)
{
struct ssp_msg *msg, *n;
mutex_lock(&data->pending_lock);
list_for_each_entry_safe(msg, n, &data->pending_list, list) {
list_del(&msg->list);
if (msg->done)
if (!completion_done(msg->done))
complete(msg->done);
}
mutex_unlock(&data->pending_lock);
}
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int ssp_command(struct ssp_data *data, char command, int arg)
{
int ret;
struct ssp_msg *msg;
msg = ssp_create_msg(command, 0, SSP_AP2HUB_WRITE, arg);
if (!msg)
return -ENOMEM;
ssp_dbg("%s - command 0x%x %d\n", __func__, command, arg);
ret = ssp_spi_sync_command(data, msg);
ssp_clean_msg(msg);
return ret;
}
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int ssp_send_instruction(struct ssp_data *data, u8 inst, u8 sensor_type,
u8 *send_buf, u8 length)
{
int ret;
struct ssp_msg *msg;
if (data->fw_dl_state == SSP_FW_DL_STATE_DOWNLOADING) {
dev_err(SSP_DEV, "%s - Skip Inst! DL state = %d\n",
__func__, data->fw_dl_state);
return -EBUSY;
} else if (!(data->available_sensors & BIT(sensor_type)) &&
(inst <= SSP_MSG2SSP_INST_CHANGE_DELAY)) {
dev_err(SSP_DEV, "%s - Bypass Inst Skip! - %u\n",
__func__, sensor_type);
return -EIO; /* just fail */
}
msg = ssp_create_msg(inst, length + 2, SSP_AP2HUB_WRITE, 0);
if (!msg)
return -ENOMEM;
ssp_fill_buffer(msg, 0, &sensor_type, 1);
ssp_fill_buffer(msg, 1, send_buf, length);
ssp_dbg("%s - Inst = 0x%x, Sensor Type = 0x%x, data = %u\n",
__func__, inst, sensor_type, send_buf[1]);
ret = ssp_spi_sync(data, msg, 1000);
ssp_clean_msg(msg);
return ret;
}
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int ssp_get_chipid(struct ssp_data *data)
{
int ret;
char buffer;
struct ssp_msg *msg;
msg = ssp_create_msg(SSP_MSG2SSP_AP_WHOAMI, 1, SSP_AP2HUB_READ, 0);
if (!msg)
return -ENOMEM;
ret = ssp_spi_sync(data, msg, 1000);
buffer = SSP_GET_BUFFER_AT_INDEX(msg, 0);
ssp_clean_msg(msg);
return ret < 0 ? ret : buffer;
}
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int ssp_set_magnetic_matrix(struct ssp_data *data)
{
int ret;
struct ssp_msg *msg;
msg = ssp_create_msg(SSP_MSG2SSP_AP_SET_MAGNETIC_STATIC_MATRIX,
data->sensorhub_info->mag_length, SSP_AP2HUB_WRITE,
0);
if (!msg)
return -ENOMEM;
ssp_fill_buffer(msg, 0, data->sensorhub_info->mag_table,
data->sensorhub_info->mag_length);
ret = ssp_spi_sync(data, msg, 1000);
ssp_clean_msg(msg);
return ret;
}
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unsigned int ssp_get_sensor_scanning_info(struct ssp_data *data)
{
int ret;
__le32 result;
u32 cpu_result = 0;
struct ssp_msg *msg = ssp_create_msg(SSP_MSG2SSP_AP_SENSOR_SCANNING, 4,
SSP_AP2HUB_READ, 0);
if (!msg)
return 0;
ret = ssp_spi_sync(data, msg, 1000);
if (ret < 0) {
dev_err(SSP_DEV, "%s - spi read fail %d\n", __func__, ret);
goto _exit;
}
ssp_get_buffer(msg, 0, &result, 4);
cpu_result = le32_to_cpu(result);
dev_info(SSP_DEV, "%s state: 0x%08x\n", __func__, cpu_result);
_exit:
ssp_clean_msg(msg);
return cpu_result;
}
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unsigned int ssp_get_firmware_rev(struct ssp_data *data)
{
int ret;
__le32 result;
struct ssp_msg *msg = ssp_create_msg(SSP_MSG2SSP_AP_FIRMWARE_REV, 4,
SSP_AP2HUB_READ, 0);
if (!msg)
return SSP_INVALID_REVISION;
ret = ssp_spi_sync(data, msg, 1000);
if (ret < 0) {
dev_err(SSP_DEV, "%s - transfer fail %d\n", __func__, ret);
ret = SSP_INVALID_REVISION;
goto _exit;
}
ssp_get_buffer(msg, 0, &result, 4);
ret = le32_to_cpu(result);
_exit:
ssp_clean_msg(msg);
return ret;
}
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