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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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iio: adc: ti-ads7950: use SPI_CS_WORD to reduce CPU usage
This changes how the SPI message for the triggered buffer is setup in the TI ADS7950 A/DC driver. By using the SPI_CS_WORD flag, we can read multiple samples in a single SPI transfer. If the SPI controller supports DMA transfers, we can see a significant reduction in CPU usage. For example, on an ARM9 system running at 456MHz reading just 4 channels at 100Hz: before this change, top shows the CPU usage of the IRQ thread of this driver to be ~7.7%. After this change, the CPU usage drops to ~3.8%. The use of big-endian for the raw data was cargo culted from another driver when this driver was originally written. It used an SPI word size of 8 bits and big-endian byte ordering to effectively emulate 16 bit words. Now, in order to inject a CS toggle between each word, we need to use the correct word size, otherwise we would get a CS toggle half way through each word 16-bit. The SPI subsystem uses CPU byte ordering for multi-byte words. So, the data we get back from the SPI is going to be CPU endian now no matter what. Converting that to big endian will just add overhead on little endian systems so we opt to change the raw data format from big endian to CPU endian. There is a small risk that this could break some lazy userspace programs that use the raw data without checking the data format. We can address this if/when it actually comes up. Signed-off-by: David Lechner <david@lechnology.com> Signed-off-by: Jonathan Cameron <Jonathan.Cameron@huawei.com>
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@ -51,7 +51,7 @@
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struct ti_ads7950_state {
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struct ti_ads7950_state {
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struct spi_device *spi;
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struct spi_device *spi;
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struct spi_transfer ring_xfer[TI_ADS7950_MAX_CHAN + 2];
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struct spi_transfer ring_xfer;
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struct spi_transfer scan_single_xfer[3];
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struct spi_transfer scan_single_xfer[3];
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struct spi_message ring_msg;
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struct spi_message ring_msg;
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struct spi_message scan_single_msg;
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struct spi_message scan_single_msg;
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@ -65,11 +65,11 @@ struct ti_ads7950_state {
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* DMA (thus cache coherency maintenance) requires the
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* DMA (thus cache coherency maintenance) requires the
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* transfer buffers to live in their own cache lines.
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* transfer buffers to live in their own cache lines.
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*/
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*/
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__be16 rx_buf[TI_ADS7950_MAX_CHAN + TI_ADS7950_TIMESTAMP_SIZE]
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u16 rx_buf[TI_ADS7950_MAX_CHAN + 2 + TI_ADS7950_TIMESTAMP_SIZE]
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____cacheline_aligned;
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____cacheline_aligned;
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__be16 tx_buf[TI_ADS7950_MAX_CHAN];
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u16 tx_buf[TI_ADS7950_MAX_CHAN + 2];
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__be16 single_tx;
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u16 single_tx;
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__be16 single_rx;
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u16 single_rx;
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};
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};
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@ -108,7 +108,7 @@ enum ti_ads7950_id {
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.realbits = bits, \
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.realbits = bits, \
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.storagebits = 16, \
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.storagebits = 16, \
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.shift = 12 - (bits), \
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.shift = 12 - (bits), \
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.endianness = IIO_BE, \
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.endianness = IIO_CPU, \
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}, \
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}, \
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}
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}
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@ -249,23 +249,14 @@ static int ti_ads7950_update_scan_mode(struct iio_dev *indio_dev,
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len = 0;
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len = 0;
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for_each_set_bit(i, active_scan_mask, indio_dev->num_channels) {
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for_each_set_bit(i, active_scan_mask, indio_dev->num_channels) {
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cmd = TI_ADS7950_CR_WRITE | TI_ADS7950_CR_CHAN(i) | st->settings;
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cmd = TI_ADS7950_CR_WRITE | TI_ADS7950_CR_CHAN(i) | st->settings;
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st->tx_buf[len++] = cpu_to_be16(cmd);
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st->tx_buf[len++] = cmd;
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}
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}
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/* Data for the 1st channel is not returned until the 3rd transfer */
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/* Data for the 1st channel is not returned until the 3rd transfer */
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len += 2;
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st->tx_buf[len++] = 0;
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for (i = 0; i < len; i++) {
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st->tx_buf[len++] = 0;
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if ((i + 2) < len)
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st->ring_xfer[i].tx_buf = &st->tx_buf[i];
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if (i >= 2)
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st->ring_xfer[i].rx_buf = &st->rx_buf[i - 2];
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st->ring_xfer[i].len = 2;
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st->ring_xfer[i].cs_change = 1;
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}
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/* make sure last transfer's cs_change is not set */
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st->ring_xfer[len - 1].cs_change = 0;
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spi_message_init_with_transfers(&st->ring_msg, st->ring_xfer, len);
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st->ring_xfer.len = len * 2;
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return 0;
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return 0;
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}
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}
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@ -281,7 +272,7 @@ static irqreturn_t ti_ads7950_trigger_handler(int irq, void *p)
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if (ret < 0)
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if (ret < 0)
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goto out;
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goto out;
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iio_push_to_buffers_with_timestamp(indio_dev, st->rx_buf,
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iio_push_to_buffers_with_timestamp(indio_dev, &st->rx_buf[2],
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iio_get_time_ns(indio_dev));
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iio_get_time_ns(indio_dev));
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out:
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out:
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@ -298,13 +289,13 @@ static int ti_ads7950_scan_direct(struct iio_dev *indio_dev, unsigned int ch)
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mutex_lock(&indio_dev->mlock);
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mutex_lock(&indio_dev->mlock);
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cmd = TI_ADS7950_CR_WRITE | TI_ADS7950_CR_CHAN(ch) | st->settings;
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cmd = TI_ADS7950_CR_WRITE | TI_ADS7950_CR_CHAN(ch) | st->settings;
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st->single_tx = cpu_to_be16(cmd);
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st->single_tx = cmd;
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ret = spi_sync(st->spi, &st->scan_single_msg);
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ret = spi_sync(st->spi, &st->scan_single_msg);
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if (ret)
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if (ret)
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goto out;
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goto out;
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ret = be16_to_cpu(st->single_rx);
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ret = st->single_rx;
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out:
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out:
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mutex_unlock(&indio_dev->mlock);
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mutex_unlock(&indio_dev->mlock);
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@ -378,6 +369,14 @@ static int ti_ads7950_probe(struct spi_device *spi)
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const struct ti_ads7950_chip_info *info;
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const struct ti_ads7950_chip_info *info;
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int ret;
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int ret;
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spi->bits_per_word = 16;
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spi->mode |= SPI_CS_WORD;
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ret = spi_setup(spi);
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if (ret < 0) {
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dev_err(&spi->dev, "Error in spi setup\n");
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return ret;
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}
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indio_dev = devm_iio_device_alloc(&spi->dev, sizeof(*st));
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indio_dev = devm_iio_device_alloc(&spi->dev, sizeof(*st));
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if (!indio_dev)
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if (!indio_dev)
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return -ENOMEM;
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return -ENOMEM;
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@ -398,6 +397,16 @@ static int ti_ads7950_probe(struct spi_device *spi)
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indio_dev->num_channels = info->num_channels;
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indio_dev->num_channels = info->num_channels;
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indio_dev->info = &ti_ads7950_info;
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indio_dev->info = &ti_ads7950_info;
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/* build spi ring message */
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spi_message_init(&st->ring_msg);
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st->ring_xfer.tx_buf = &st->tx_buf[0];
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st->ring_xfer.rx_buf = &st->rx_buf[0];
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/* len will be set later */
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st->ring_xfer.cs_change = true;
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spi_message_add_tail(&st->ring_xfer, &st->ring_msg);
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/*
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/*
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* Setup default message. The sample is read at the end of the first
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* Setup default message. The sample is read at the end of the first
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* transfer, then it takes one full cycle to convert the sample and one
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* transfer, then it takes one full cycle to convert the sample and one
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