kopia lustrzana https://github.com/espressif/esp-idf
252 wiersze
11 KiB
C
252 wiersze
11 KiB
C
/*
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* SPDX-FileCopyrightText: 2023-2024 Espressif Systems (Shanghai) CO LTD
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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#include <stdlib.h>
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#include <sys/param.h>
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#include "hal/mipi_dsi_hal.h"
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#include "hal/mipi_dsi_ll.h"
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#include "hal/assert.h"
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#include "hal/log.h"
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#include "soc/mipi_dsi_periph.h"
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void mipi_dsi_hal_init(mipi_dsi_hal_context_t *hal, const mipi_dsi_hal_config_t *config)
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{
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hal->host = MIPI_DSI_LL_GET_HOST(config->bus_id);
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hal->bridge = MIPI_DSI_LL_GET_BRG(config->bus_id);
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// set the data lane number
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mipi_dsi_phy_ll_set_data_lane_number(hal->host, config->num_data_lanes);
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// power on the host controller and PHY
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mipi_dsi_host_ll_power_on_off(hal->host, true);
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mipi_dsi_phy_ll_power_on_off(hal->host, true);
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// reset the PHY and then enable the clock lane
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mipi_dsi_phy_ll_reset(hal->host);
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mipi_dsi_phy_ll_enable_clock_lane(hal->host, true);
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mipi_dsi_phy_ll_force_pll(hal->host, true);
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}
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void mipi_dsi_hal_deinit(mipi_dsi_hal_context_t *hal)
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{
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// power off the host controller and PHY
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mipi_dsi_phy_ll_power_on_off(hal->host, false);
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mipi_dsi_host_ll_power_on_off(hal->host, false);
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hal->host = NULL;
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hal->bridge = NULL;
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}
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void mipi_dsi_hal_configure_phy_pll(mipi_dsi_hal_context_t *hal, uint32_t phy_clk_src_freq_hz, uint32_t lane_bit_rate_mbps)
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{
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// Formula: f_vco = M/N * f_ref
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// where the M is Feedback Multiplication Ratio, N is Input Frequency Division Ratio
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uint32_t ref_freq_mhz = phy_clk_src_freq_hz / 1000 / 1000;
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uint32_t vco_freq_mhz = lane_bit_rate_mbps;
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uint8_t pll_N = 1;
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uint16_t pll_M = 0;
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// 5MHz <= f_ref/N <= 40MHz
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uint8_t min_N = MAX(1, ref_freq_mhz / 40);
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uint8_t max_N = ref_freq_mhz / 5;
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for (uint8_t n = min_N; n <= max_N; n++) {
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uint16_t m = vco_freq_mhz * n / ref_freq_mhz;
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// M must be even number
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if ((m & 0x01) == 0) {
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pll_M = m;
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pll_N = n;
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break;
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}
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}
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HAL_ASSERT(pll_M && pll_N);
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// search for the best PLL range
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uint8_t hs_freq_sel = 0;
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for (size_t i = 0; i < num_of_soc_mipi_dsi_phy_pll_ranges; i++) {
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if (lane_bit_rate_mbps >= soc_mipi_dsi_phy_pll_ranges[i].start_mbps &&
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lane_bit_rate_mbps <= soc_mipi_dsi_phy_pll_ranges[i].end_mbps) {
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hs_freq_sel = soc_mipi_dsi_phy_pll_ranges[i].hs_freq_range_sel;
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break;
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}
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}
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mipi_dsi_hal_phy_write_register(hal, 0x44, hs_freq_sel << 1);
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// make use of the N and M factors that configured in the 0x17 and 0x18
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mipi_dsi_hal_phy_write_register(hal, 0x19, 0x30);
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mipi_dsi_hal_phy_write_register(hal, 0x17, pll_N - 1);
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mipi_dsi_hal_phy_write_register(hal, 0x18, ((pll_M - 1) & 0x1F));
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mipi_dsi_hal_phy_write_register(hal, 0x18, 0x80 | (((pll_M - 1) >> 5) & 0x0F));
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// update the real lane bit rate
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hal->lane_bit_rate_mbps = ref_freq_mhz * pll_M / pll_N;
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HAL_LOGD("dsi_hal", "phy pll: ref=%" PRIu32 "Hz, lane_bit_rate=%" PRIu32 "Mbps, M=%" PRId16 ", N=%" PRId8 ", hsfreqrange=%" PRId8,
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phy_clk_src_freq_hz, hal->lane_bit_rate_mbps, pll_M, pll_N, hs_freq_sel);
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}
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void mipi_dsi_hal_phy_write_register(mipi_dsi_hal_context_t *hal, uint8_t reg_addr, uint8_t reg_val)
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{
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// disable the test clear pin, enable the interface to write values to the PHY internal registers
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mipi_dsi_phy_ll_write_clock(hal->host, 0, false);
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// load PHY register address
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mipi_dsi_phy_ll_write_reg_addr(hal->host, reg_addr);
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// the address write operation is set on the falling edge of the test clock
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mipi_dsi_phy_ll_write_clock(hal->host, 1, false);
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mipi_dsi_phy_ll_write_clock(hal->host, 0, false);
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// load PHY register value
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mipi_dsi_phy_ll_write_reg_val(hal->host, reg_val);
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// the data write operation is set on the rising edge of the test clock
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mipi_dsi_phy_ll_write_clock(hal->host, 1, false);
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mipi_dsi_phy_ll_write_clock(hal->host, 0, false);
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}
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void mipi_dsi_hal_host_gen_write_dcs_command(mipi_dsi_hal_context_t *hal, uint8_t vc,
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uint32_t command, uint32_t command_bytes, const void *param, uint16_t param_size)
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{
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mipi_dsi_data_type_t dt = 0;
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uint8_t pkt_hdr_msb = 0;
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uint8_t pkt_hdr_lsb = 0;
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const uint8_t *payload = param;
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// the payload size is the command size plus the parameter size
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uint32_t payload_size = command_bytes + param_size;
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// merge the command and some bytes of parameters into one 32-bit word
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uint32_t temp = command & ((1 << (8 * command_bytes)) - 1);
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uint16_t merged_size = MIN(4 - command_bytes, param_size);
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for (int i = 0; i < merged_size; i++) {
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temp |= payload[i] << (8 * (i + command_bytes));
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}
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if (payload_size > 2) {
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// write the first 32-bit word into FIFO
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while (mipi_dsi_host_ll_gen_is_write_fifo_full(hal->host));
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mipi_dsi_host_ll_gen_write_payload_fifo(hal->host, temp);
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// write the remaining parameters into FIFO
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payload += merged_size;
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uint32_t remain_size = param_size - merged_size;
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while (remain_size >= 4) {
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temp = *(uint32_t *)payload;
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while (mipi_dsi_host_ll_gen_is_write_fifo_full(hal->host));
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mipi_dsi_host_ll_gen_write_payload_fifo(hal->host, temp);
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payload += 4;
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remain_size -= 4;
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}
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if (remain_size) {
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temp = *(uint32_t *)payload;
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temp &= (1 << (8 * remain_size)) - 1;
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while (mipi_dsi_host_ll_gen_is_write_fifo_full(hal->host));
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mipi_dsi_host_ll_gen_write_payload_fifo(hal->host, temp);
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}
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dt = MIPI_DSI_DT_DCS_LONG_WRITE;
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pkt_hdr_msb = (payload_size >> 8) & 0xFF;
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pkt_hdr_lsb = payload_size & 0xFF;
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} else if (payload_size == 2) {
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dt = MIPI_DSI_DT_DCS_SHORT_WRITE_1;
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pkt_hdr_msb = (temp >> 8) & 0xFF;
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pkt_hdr_lsb = temp & 0xFF;
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} else if (payload_size == 1) {
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dt = MIPI_DSI_DT_DCS_SHORT_WRITE_0;
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pkt_hdr_msb = (temp >> 8) & 0xFF;
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pkt_hdr_lsb = temp & 0xFF;
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}
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// write the packet header
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while (mipi_dsi_host_ll_gen_is_cmd_fifo_full(hal->host));
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mipi_dsi_host_ll_gen_set_packet_header(hal->host, vc, dt, pkt_hdr_msb, pkt_hdr_lsb);
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}
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void mipi_dsi_hal_host_gen_write_short_packet(mipi_dsi_hal_context_t *hal, uint8_t vc, mipi_dsi_data_type_t dt, uint16_t header_data)
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{
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uint8_t msb = (header_data >> 8) & 0xFF;
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uint8_t lsb = header_data & 0xFF;
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while (mipi_dsi_host_ll_gen_is_cmd_fifo_full(hal->host));
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mipi_dsi_host_ll_gen_set_packet_header(hal->host, vc, dt, msb, lsb);
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}
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void mipi_dsi_hal_host_gen_write_long_packet(mipi_dsi_hal_context_t *hal, uint8_t vc, mipi_dsi_data_type_t dt, const void *buffer, uint16_t buffer_size)
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{
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const uint8_t *payload = buffer;
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uint32_t remain_size = buffer_size;
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uint32_t temp = 0;
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while (remain_size >= 4) {
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temp = *(uint32_t *)payload;
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while (mipi_dsi_host_ll_gen_is_write_fifo_full(hal->host));
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mipi_dsi_host_ll_gen_write_payload_fifo(hal->host, temp);
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payload += 4;
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remain_size -= 4;
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}
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if (remain_size) {
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temp = *(uint32_t *)payload;
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temp &= (1 << (8 * remain_size)) - 1;
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while (mipi_dsi_host_ll_gen_is_write_fifo_full(hal->host));
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mipi_dsi_host_ll_gen_write_payload_fifo(hal->host, temp);
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}
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uint8_t wc_msb = (buffer_size >> 8) & 0xFF;
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uint8_t wc_lsb = buffer_size & 0xFF;
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while (mipi_dsi_host_ll_gen_is_cmd_fifo_full(hal->host));
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mipi_dsi_host_ll_gen_set_packet_header(hal->host, vc, dt, wc_msb, wc_lsb);
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}
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void mipi_dsi_hal_host_gen_read_short_packet(mipi_dsi_hal_context_t *hal, uint8_t vc, mipi_dsi_data_type_t dt, uint16_t header_data, void *ret_buffer, uint16_t buffer_size)
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{
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uint8_t *receive_buffer = (uint8_t *)ret_buffer;
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// set the maximum returned data size, it should equal to the parameter size of the read command
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mipi_dsi_hal_host_gen_write_short_packet(hal, vc, MIPI_DSI_DT_SET_MAXIMUM_RETURN_PKT, buffer_size);
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// make sure command mode is on
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mipi_dsi_host_ll_enable_video_mode(hal->host, false);
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// make sure receiving is enabled
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mipi_dsi_host_ll_enable_bta(hal->host, true);
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// listen to the same virtual channel as the one sent to
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mipi_dsi_host_ll_gen_set_rx_vcid(hal->host, vc);
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mipi_dsi_hal_host_gen_write_short_packet(hal, vc, dt, header_data);
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while (mipi_dsi_host_ll_gen_is_read_cmd_busy(hal->host));
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// wait data to come into the fifo
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while (mipi_dsi_host_ll_gen_is_read_fifo_empty(hal->host));
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uint32_t temp = 0;
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uint32_t counter = 0;
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while (!mipi_dsi_host_ll_gen_is_read_fifo_empty(hal->host)) {
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temp = mipi_dsi_host_ll_gen_read_payload_fifo(hal->host);
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for (int i = 0; i < 4; i++) {
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if ((counter + i) < buffer_size) {
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receive_buffer[counter + i] = (temp >> (8 * i)) & 0xFF;
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}
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counter++;
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}
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}
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}
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void mipi_dsi_hal_host_gen_read_dcs_command(mipi_dsi_hal_context_t *hal, uint8_t vc, uint32_t command, uint32_t command_bytes, void *ret_param, uint16_t param_buf_size)
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{
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uint16_t header_data = command & ((1 << (8 * command_bytes)) - 1);
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mipi_dsi_hal_host_gen_read_short_packet(hal, vc, MIPI_DSI_DT_DCS_READ_0, header_data, ret_param, param_buf_size);
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}
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void mipi_dsi_hal_host_dpi_set_color_coding(mipi_dsi_hal_context_t *hal, lcd_color_rgb_pixel_format_t color_coding, uint32_t sub_config)
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{
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mipi_dsi_host_ll_dpi_set_color_coding(hal->host, color_coding, sub_config);
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mipi_dsi_brg_ll_set_pixel_format(hal->bridge, color_coding, sub_config);
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}
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void mipi_dsi_hal_host_dpi_set_horizontal_timing(mipi_dsi_hal_context_t *hal, uint32_t hsw, uint32_t hbp, uint32_t active_width, uint32_t hfp)
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{
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float dpi2lane_clk_ratio = (float)hal->lane_bit_rate_mbps / hal->dpi_clock_freq_mhz / 8;
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mipi_dsi_host_ll_dpi_set_horizontal_timing(hal->host,
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hsw * dpi2lane_clk_ratio,
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hbp * dpi2lane_clk_ratio,
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active_width * dpi2lane_clk_ratio,
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hfp * dpi2lane_clk_ratio);
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mipi_dsi_brg_ll_set_horizontal_timing(hal->bridge, hsw, hbp, active_width, hfp);
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}
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void mipi_dsi_hal_host_dpi_set_vertical_timing(mipi_dsi_hal_context_t *hal, uint32_t vsw, uint32_t vbp, uint32_t active_height, uint32_t vfp)
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{
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mipi_dsi_host_ll_dpi_set_vertical_timing(hal->host, vsw, vbp, active_height, vfp);
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mipi_dsi_brg_ll_set_vertical_timing(hal->bridge, vsw, vbp, active_height, vfp);
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}
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uint32_t mipi_dsi_hal_host_dpi_calculate_divider(mipi_dsi_hal_context_t *hal, uint32_t clk_src_mhz, uint32_t expect_dpi_clk_mhz)
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{
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uint32_t div = clk_src_mhz / expect_dpi_clk_mhz;
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hal->dpi_clock_freq_mhz = clk_src_mhz / div;
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return div;
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}
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