esp-idf/components/hal/spi_hal_iram.c

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// Copyright 2015-2019 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// The HAL layer for SPI (common part, in iram)
// make these functions in a seperate file to make sure all LL functions are in the IRAM.
#include "hal/spi_hal.h"
#include "soc/soc_caps.h"
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//This GDMA related part will be introduced by GDMA dedicated APIs in the future. Here we temporarily use macros.
#if SOC_GDMA_SUPPORTED
#include "soc/gdma_struct.h"
#include "hal/gdma_ll.h"
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#define spi_dma_ll_rx_reset(dev, chan) gdma_ll_rx_reset_channel(&GDMA, chan)
#define spi_dma_ll_tx_reset(dev, chan) gdma_ll_tx_reset_channel(&GDMA, chan);
#define spi_dma_ll_rx_start(dev, chan, addr) do {\
gdma_ll_rx_set_desc_addr(&GDMA, chan, (uint32_t)addr);\
gdma_ll_rx_start(&GDMA, chan);\
} while (0)
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#define spi_dma_ll_tx_start(dev, chan, addr) do {\
gdma_ll_tx_set_desc_addr(&GDMA, chan, (uint32_t)addr);\
gdma_ll_tx_start(&GDMA, chan);\
} while (0)
#endif
void spi_hal_setup_device(spi_hal_context_t *hal, const spi_hal_dev_config_t *dev)
{
//Configure clock settings
spi_dev_t *hw = hal->hw;
#if SOC_SPI_SUPPORT_AS_CS
spi_ll_master_set_cksel(hw, dev->cs_pin_id, dev->as_cs);
#endif
spi_ll_master_set_pos_cs(hw, dev->cs_pin_id, dev->positive_cs);
spi_ll_master_set_clock_by_reg(hw, &dev->timing_conf.clock_reg);
//Configure bit order
spi_ll_set_rx_lsbfirst(hw, dev->rx_lsbfirst);
spi_ll_set_tx_lsbfirst(hw, dev->tx_lsbfirst);
spi_ll_master_set_mode(hw, dev->mode);
//Configure misc stuff
spi_ll_set_half_duplex(hw, dev->half_duplex);
spi_ll_set_sio_mode(hw, dev->sio);
//Configure CS pin and timing
spi_ll_master_set_cs_setup(hw, dev->cs_setup);
spi_ll_master_set_cs_hold(hw, dev->cs_hold);
spi_ll_master_select_cs(hw, dev->cs_pin_id);
}
void spi_hal_setup_trans(spi_hal_context_t *hal, const spi_hal_dev_config_t *dev, const spi_hal_trans_config_t *trans)
{
spi_dev_t *hw = hal->hw;
//clear int bit
spi_ll_clear_int_stat(hal->hw);
//We should be done with the transmission.
assert(spi_ll_get_running_cmd(hw) == 0);
spi_ll_master_set_io_mode(hw, trans->io_mode);
int extra_dummy = 0;
//when no_dummy is not set and in half-duplex mode, sets the dummy bit if RX phase exist
if (trans->rcv_buffer && !dev->no_compensate && dev->half_duplex) {
extra_dummy = dev->timing_conf.timing_dummy;
}
//SPI iface needs to be configured for a delay in some cases.
//configure dummy bits
spi_ll_set_dummy(hw, extra_dummy + trans->dummy_bits);
uint32_t miso_delay_num = 0;
uint32_t miso_delay_mode = 0;
if (dev->timing_conf.timing_miso_delay < 0) {
//if the data comes too late, delay half a SPI clock to improve reading
switch (dev->mode) {
case 0:
miso_delay_mode = 2;
break;
case 1:
miso_delay_mode = 1;
break;
case 2:
miso_delay_mode = 1;
break;
case 3:
miso_delay_mode = 2;
break;
}
miso_delay_num = 0;
} else {
//if the data is so fast that dummy_bit is used, delay some apb clocks to meet the timing
miso_delay_num = extra_dummy ? dev->timing_conf.timing_miso_delay : 0;
miso_delay_mode = 0;
}
spi_ll_set_miso_delay(hw, miso_delay_mode, miso_delay_num);
spi_ll_set_mosi_bitlen(hw, trans->tx_bitlen);
if (dev->half_duplex) {
spi_ll_set_miso_bitlen(hw, trans->rx_bitlen);
} else {
//rxlength is not used in full-duplex mode
spi_ll_set_miso_bitlen(hw, trans->tx_bitlen);
}
//Configure bit sizes, load addr and command
int cmdlen = trans->cmd_bits;
int addrlen = trans->addr_bits;
if (!dev->half_duplex && dev->cs_setup != 0) {
/* The command and address phase is not compatible with cs_ena_pretrans
* in full duplex mode.
*/
cmdlen = 0;
addrlen = 0;
}
spi_ll_set_addr_bitlen(hw, addrlen);
spi_ll_set_command_bitlen(hw, cmdlen);
spi_ll_set_command(hw, trans->cmd, cmdlen, dev->tx_lsbfirst);
spi_ll_set_address(hw, trans->addr, addrlen, dev->tx_lsbfirst);
//Save the transaction attributes for internal usage.
memcpy(&hal->trans_config, trans, sizeof(spi_hal_trans_config_t));
}
void spi_hal_prepare_data(spi_hal_context_t *hal, const spi_hal_dev_config_t *dev, const spi_hal_trans_config_t *trans)
{
spi_dev_t *hw = hal->hw;
//Fill DMA descriptors
if (trans->rcv_buffer) {
if (!hal->dma_enabled) {
//No need to setup anything; we'll copy the result out of the work registers directly later.
} else {
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lldesc_setup_link(hal->dmadesc_rx, trans->rcv_buffer, ((trans->rx_bitlen + 7) / 8), true);
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spi_dma_ll_rx_reset(hal->dma_in, hal->rx_dma_chan);
spi_ll_dma_rx_fifo_reset(hal->hw);
spi_ll_infifo_full_clr(hal->hw);
spi_ll_dma_rx_enable(hal->hw, 1);
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spi_dma_ll_rx_start(hal->dma_in, hal->rx_dma_chan, hal->dmadesc_rx);
}
}
#if CONFIG_IDF_TARGET_ESP32
else {
//DMA temporary workaround: let RX DMA work somehow to avoid the issue in ESP32 v0/v1 silicon
if (hal->dma_enabled && !dev->half_duplex) {
spi_ll_dma_rx_enable(hal->hw, 1);
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spi_dma_ll_rx_start(hal->dma_in, hal->rx_dma_chan, 0);
}
}
#endif
if (trans->send_buffer) {
if (!hal->dma_enabled) {
//Need to copy data to registers manually
spi_ll_write_buffer(hw, trans->send_buffer, trans->tx_bitlen);
} else {
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lldesc_setup_link(hal->dmadesc_tx, trans->send_buffer, (trans->tx_bitlen + 7) / 8, false);
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spi_dma_ll_tx_reset(hal->dma_out, hal->tx_dma_chan);
spi_ll_dma_tx_fifo_reset(hal->hw);
spi_ll_outfifo_empty_clr(hal->hw);
spi_ll_dma_tx_enable(hal->hw, 1);
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spi_dma_ll_tx_start(hal->dma_out, hal->tx_dma_chan, hal->dmadesc_tx);
}
}
//in ESP32 these registers should be configured after the DMA is set
if ((!dev->half_duplex && trans->rcv_buffer) || trans->send_buffer) {
spi_ll_enable_mosi(hw, 1);
} else {
spi_ll_enable_mosi(hw, 0);
}
spi_ll_enable_miso(hw, (trans->rcv_buffer) ? 1 : 0);
}
void spi_hal_user_start(const spi_hal_context_t *hal)
{
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spi_ll_master_user_start(hal->hw);
}
bool spi_hal_usr_is_done(const spi_hal_context_t *hal)
{
return spi_ll_usr_is_done(hal->hw);
}
void spi_hal_fetch_result(const spi_hal_context_t *hal)
{
const spi_hal_trans_config_t *trans = &hal->trans_config;
if (trans->rcv_buffer && !hal->dma_enabled) {
//Need to copy from SPI regs to result buffer.
spi_ll_read_buffer(hal->hw, trans->rcv_buffer, trans->rx_bitlen);
}
}