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Edit File: phy-mipi-dphy.h
/* SPDX-License-Identifier: GPL-2.0 */ /* * Copyright (C) 2018 Cadence Design Systems Inc. */ #ifndef __PHY_MIPI_DPHY_H_ #define __PHY_MIPI_DPHY_H_ /** * struct phy_configure_opts_mipi_dphy - MIPI D-PHY configuration set * * This structure is used to represent the configuration state of a * MIPI D-PHY phy. */ struct phy_configure_opts_mipi_dphy { /** * @clk_miss: * * Timeout, in picoseconds, for receiver to detect absence of * Clock transitions and disable the Clock Lane HS-RX. * * Maximum value: 60000 ps */ unsigned int clk_miss; /** * @clk_post: * * Time, in picoseconds, that the transmitter continues to * send HS clock after the last associated Data Lane has * transitioned to LP Mode. Interval is defined as the period * from the end of @hs_trail to the beginning of @clk_trail. * * Minimum value: 60000 ps + 52 * @hs_clk_rate period in ps */ unsigned int clk_post; /** * @clk_pre: * * Time, in UI, that the HS clock shall be driven by * the transmitter prior to any associated Data Lane beginning * the transition from LP to HS mode. * * Minimum value: 8 UI */ unsigned int clk_pre; /** * @clk_prepare: * * Time, in picoseconds, that the transmitter drives the Clock * Lane LP-00 Line state immediately before the HS-0 Line * state starting the HS transmission. * * Minimum value: 38000 ps * Maximum value: 95000 ps */ unsigned int clk_prepare; /** * @clk_settle: * * Time interval, in picoseconds, during which the HS receiver * should ignore any Clock Lane HS transitions, starting from * the beginning of @clk_prepare. * * Minimum value: 95000 ps * Maximum value: 300000 ps */ unsigned int clk_settle; /** * @clk_term_en: * * Time, in picoseconds, for the Clock Lane receiver to enable * the HS line termination. * * Maximum value: 38000 ps */ unsigned int clk_term_en; /** * @clk_trail: * * Time, in picoseconds, that the transmitter drives the HS-0 * state after the last payload clock bit of a HS transmission * burst. * * Minimum value: 60000 ps */ unsigned int clk_trail; /** * @clk_zero: * * Time, in picoseconds, that the transmitter drives the HS-0 * state prior to starting the Clock. */ unsigned int clk_zero; /** * @d_term_en: * * Time, in picoseconds, for the Data Lane receiver to enable * the HS line termination. * * Maximum value: 35000 ps + 4 * @hs_clk_rate period in ps */ unsigned int d_term_en; /** * @eot: * * Transmitted time interval, in picoseconds, from the start * of @hs_trail or @clk_trail, to the start of the LP- 11 * state following a HS burst. * * Maximum value: 105000 ps + 12 * @hs_clk_rate period in ps */ unsigned int eot; /** * @hs_exit: * * Time, in picoseconds, that the transmitter drives LP-11 * following a HS burst. * * Minimum value: 100000 ps */ unsigned int hs_exit; /** * @hs_prepare: * * Time, in picoseconds, that the transmitter drives the Data * Lane LP-00 Line state immediately before the HS-0 Line * state starting the HS transmission. * * Minimum value: 40000 ps + 4 * @hs_clk_rate period in ps * Maximum value: 85000 ps + 6 * @hs_clk_rate period in ps */ unsigned int hs_prepare; /** * @hs_settle: * * Time interval, in picoseconds, during which the HS receiver * shall ignore any Data Lane HS transitions, starting from * the beginning of @hs_prepare. * * Minimum value: 85000 ps + 6 * @hs_clk_rate period in ps * Maximum value: 145000 ps + 10 * @hs_clk_rate period in ps */ unsigned int hs_settle; /** * @hs_skip: * * Time interval, in picoseconds, during which the HS-RX * should ignore any transitions on the Data Lane, following a * HS burst. The end point of the interval is defined as the * beginning of the LP-11 state following the HS burst. * * Minimum value: 40000 ps * Maximum value: 55000 ps + 4 * @hs_clk_rate period in ps */ unsigned int hs_skip; /** * @hs_trail: * * Time, in picoseconds, that the transmitter drives the * flipped differential state after last payload data bit of a * HS transmission burst * * Minimum value: max(8 * @hs_clk_rate period in ps, * 60000 ps + 4 * @hs_clk_rate period in ps) */ unsigned int hs_trail; /** * @hs_zero: * * Time, in picoseconds, that the transmitter drives the HS-0 * state prior to transmitting the Sync sequence. */ unsigned int hs_zero; /** * @init: * * Time, in microseconds for the initialization period to * complete. * * Minimum value: 100 us */ unsigned int init; /** * @lpx: * * Transmitted length, in picoseconds, of any Low-Power state * period. * * Minimum value: 50000 ps */ unsigned int lpx; /** * @ta_get: * * Time, in picoseconds, that the new transmitter drives the * Bridge state (LP-00) after accepting control during a Link * Turnaround. * * Value: 5 * @lpx */ unsigned int ta_get; /** * @ta_go: * * Time, in picoseconds, that the transmitter drives the * Bridge state (LP-00) before releasing control during a Link * Turnaround. * * Value: 4 * @lpx */ unsigned int ta_go; /** * @ta_sure: * * Time, in picoseconds, that the new transmitter waits after * the LP-10 state before transmitting the Bridge state * (LP-00) during a Link Turnaround. * * Minimum value: @lpx * Maximum value: 2 * @lpx */ unsigned int ta_sure; /** * @wakeup: * * Time, in microseconds, that a transmitter drives a Mark-1 * state prior to a Stop state in order to initiate an exit * from ULPS. * * Minimum value: 1000 us */ unsigned int wakeup; /** * @hs_clk_rate: * * Clock rate, in Hertz, of the high-speed clock. */ unsigned long hs_clk_rate; /** * @lp_clk_rate: * * Clock rate, in Hertz, of the low-power clock. */ unsigned long lp_clk_rate; /** * @lanes: * * Number of active, consecutive, data lanes, starting from * lane 0, used for the transmissions. */ unsigned char lanes; }; int phy_mipi_dphy_get_default_config(unsigned long pixel_clock, unsigned int bpp, unsigned int lanes, struct phy_configure_opts_mipi_dphy *cfg); int phy_mipi_dphy_config_validate(struct phy_configure_opts_mipi_dphy *cfg); #endif /* __PHY_MIPI_DPHY_H_ */