mirror of
https://git.openwrt.org/openwrt/openwrt.git
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0171157d45
The patches were generated from the RPi repo with the following command: git format-patch v6.6.44..rpi-6.6.y Signed-off-by: Álvaro Fernández Rojas <noltari@gmail.com>
314 lines
12 KiB
Diff
314 lines
12 KiB
Diff
From f5de8d46da4b40f2180be502c1e547fe8c9b2ac2 Mon Sep 17 00:00:00 2001
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From: Nick Hollinghurst <nick.hollinghurst@raspberrypi.com>
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Date: Fri, 10 May 2024 15:48:15 +0100
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Subject: [PATCH 1179/1215] drm: rp1: rp1-dsi: Switch to PLL_SYS source for DPI
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when 8 * lanes > bpp
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To support 4 lanes, re-parent DPI clock source between DSI byteclock
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(using the new "variable sources" defined in clk-rp1) and PLL_SYS.
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This is to cover cases in which byteclock < pixclock <= 200MHz.
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Tidying: All frequencies now in Hz (not kHz), where DSI speed is now
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represented by byteclock to simplify arithmetic. Clamp DPI and byte
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clocks to their legal ranges; fix up HSTX timeout to avoid an unsafe
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assumption that it would return to LP state for every scanline.
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Because of RP1's clock topology, the ratio between DSI and DPI clocks
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may not be exact with 3 or 4 lanes, leading to slightly irregular
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timings each time DSI switches between HS and LP states. Tweak to
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inhibit LP during Horizontal BP when sync pulses were requested.
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Signed-off-by: Nick Hollinghurst <nick.hollinghurst@raspberrypi.com>
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---
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drivers/gpu/drm/rp1/rp1-dsi/rp1_dsi.c | 3 +-
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drivers/gpu/drm/rp1/rp1-dsi/rp1_dsi.h | 3 +-
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drivers/gpu/drm/rp1/rp1-dsi/rp1_dsi_dsi.c | 130 +++++++++++++---------
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3 files changed, 80 insertions(+), 56 deletions(-)
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--- a/drivers/gpu/drm/rp1/rp1-dsi/rp1_dsi.c
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+++ b/drivers/gpu/drm/rp1/rp1-dsi/rp1_dsi.c
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@@ -54,6 +54,7 @@ static void rp1_dsi_bridge_pre_enable(st
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struct rp1_dsi *dsi = bridge_to_rp1_dsi(bridge);
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rp1dsi_dsi_setup(dsi, &dsi->pipe.crtc.state->adjusted_mode);
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+ dsi->dsi_running = true;
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}
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static void rp1_dsi_bridge_enable(struct drm_bridge *bridge,
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@@ -443,7 +444,7 @@ static int rp1dsi_platform_probe(struct
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/* Hardware resources */
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for (i = 0; i < RP1DSI_NUM_CLOCKS; i++) {
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static const char * const myclocknames[RP1DSI_NUM_CLOCKS] = {
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- "cfgclk", "dpiclk", "byteclk", "refclk"
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+ "cfgclk", "dpiclk", "byteclk", "refclk", "pllsys"
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};
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dsi->clocks[i] = devm_clk_get(dev, myclocknames[i]);
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if (IS_ERR(dsi->clocks[i])) {
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--- a/drivers/gpu/drm/rp1/rp1-dsi/rp1_dsi.h
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+++ b/drivers/gpu/drm/rp1/rp1-dsi/rp1_dsi.h
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@@ -30,7 +30,8 @@
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#define RP1DSI_CLOCK_DPI 1
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#define RP1DSI_CLOCK_BYTE 2
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#define RP1DSI_CLOCK_REF 3
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-#define RP1DSI_NUM_CLOCKS 4
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+#define RP1DSI_CLOCK_PLLSYS 4
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+#define RP1DSI_NUM_CLOCKS 5
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/* ---------------------------------------------------------------------- */
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--- a/drivers/gpu/drm/rp1/rp1-dsi/rp1_dsi_dsi.c
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+++ b/drivers/gpu/drm/rp1/rp1-dsi/rp1_dsi_dsi.c
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@@ -7,6 +7,7 @@
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#include <linux/delay.h>
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#include <linux/errno.h>
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+#include <linux/math64.h>
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#include <linux/platform_device.h>
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#include <linux/rp1_platform.h>
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#include "drm/drm_print.h"
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@@ -1111,7 +1112,7 @@ static void dphy_transaction(struct rp1_
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DSI_WRITE(DSI_PHY_TST_CTRL0, DPHY_CTRL0_PHY_TESTCLK_BITS);
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}
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-static uint8_t dphy_get_div(u32 refclk_khz, u32 vco_freq_khz, u32 *ptr_m, u32 *ptr_n)
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+static u64 dphy_get_div(u32 refclk, u64 vco_freq, u32 *ptr_m, u32 *ptr_n)
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{
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/*
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* See pg 77-78 of dphy databook
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@@ -1124,19 +1125,23 @@ static uint8_t dphy_get_div(u32 refclk_k
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* In practice, given a 50MHz reference clock, it can produce any
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* multiple of 10MHz, 11.1111MHz, 12.5MHz, 14.286MHz or 16.667MHz
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* with < 1% error for all frequencies above 495MHz.
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+ *
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+ * vco_freq should be set to the lane bit rate (not the MIPI clock
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+ * which is half of this). These frequencies are now measured in Hz.
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+ * They should fit within u32, but u64 is needed for calculations.
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*/
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- static const u32 REF_DIVN_MAX = 40000u;
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- static const u32 REF_DIVN_MIN = 5000u;
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- u32 best_n, best_m, best_err = 0x7fffffff;
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- unsigned int n;
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+ static const u32 REF_DIVN_MAX = 40000000;
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+ static const u32 REF_DIVN_MIN = 5000000;
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+ u32 n, best_n, best_m;
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+ u64 best_err = vco_freq;
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- for (n = 1 + refclk_khz / REF_DIVN_MAX; n * REF_DIVN_MIN <= refclk_khz && n < 100; ++n) {
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- u32 half_m = (n * vco_freq_khz + refclk_khz) / (2 * refclk_khz);
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+ for (n = 1 + refclk / REF_DIVN_MAX; n * REF_DIVN_MIN <= refclk && n < 100; ++n) {
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+ u32 half_m = DIV_U64_ROUND_CLOSEST(n * vco_freq, 2 * refclk);
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if (half_m < 150) {
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- u32 f = (2 * half_m * refclk_khz) / n;
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- u32 err = (f > vco_freq_khz) ? f - vco_freq_khz : vco_freq_khz - f;
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+ u64 f = div_u64(mul_u32_u32(2 * half_m, refclk), n);
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+ u64 err = (f > vco_freq) ? f - vco_freq : vco_freq - f;
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if (err < best_err) {
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best_n = n;
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@@ -1148,12 +1153,12 @@ static uint8_t dphy_get_div(u32 refclk_k
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}
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}
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- if (64 * best_err < vco_freq_khz) { /* tolerate small error */
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- *ptr_n = best_n;
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- *ptr_m = best_m;
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- return 1;
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- }
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- return 0;
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+ if (64 * best_err >= vco_freq)
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+ return 0;
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+
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+ *ptr_n = best_n;
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+ *ptr_m = best_m;
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+ return div_u64(mul_u32_u32(best_m, refclk), best_n);
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}
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struct hsfreq_range {
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@@ -1226,13 +1231,14 @@ static void dphy_set_hsfreqrange(struct
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hsfreq_table[i].hsfreqrange << 1);
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}
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-static void dphy_configure_pll(struct rp1_dsi *dsi, u32 refclk_khz, u32 vco_freq_khz)
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+static u32 dphy_configure_pll(struct rp1_dsi *dsi, u32 refclk, u32 vco_freq)
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{
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u32 m = 0;
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u32 n = 0;
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+ u32 actual_vco_freq = dphy_get_div(refclk, vco_freq, &m, &n);
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- if (dphy_get_div(refclk_khz, vco_freq_khz, &m, &n)) {
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- dphy_set_hsfreqrange(dsi, vco_freq_khz / 1000);
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+ if (actual_vco_freq) {
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+ dphy_set_hsfreqrange(dsi, actual_vco_freq / 1000000);
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/* Program m,n from registers */
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dphy_transaction(dsi, DPHY_PLL_DIV_CTRL_OFFSET, 0x30);
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/* N (program N-1) */
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@@ -1242,18 +1248,21 @@ static void dphy_configure_pll(struct rp
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/* M[4:0] (program M-1) */
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dphy_transaction(dsi, DPHY_PLL_LOOP_DIV_OFFSET, ((m - 1) & 0x1F));
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drm_dbg_driver(dsi->drm,
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- "DPHY: vco freq want %dkHz got %dkHz = %d * (%dkHz / %d), hsfreqrange = 0x%02x\r\n",
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- vco_freq_khz, refclk_khz * m / n, m, refclk_khz,
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- n, hsfreq_table[dsi->hsfreq_index].hsfreqrange);
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+ "DPHY: vco freq want %uHz got %uHz = %d * (%uHz / %d), hsfreqrange = 0x%02x\n",
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+ vco_freq, actual_vco_freq, m, refclk, n,
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+ hsfreq_table[dsi->hsfreq_index].hsfreqrange);
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} else {
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- drm_info(dsi->drm,
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- "rp1dsi: Error configuring DPHY PLL! %dkHz = %d * (%dkHz / %d)\r\n",
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- vco_freq_khz, m, refclk_khz, n);
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+ drm_warn(dsi->drm,
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+ "rp1dsi: Error configuring DPHY PLL %uHz\n", vco_freq);
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}
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+
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+ return actual_vco_freq;
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}
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-static void dphy_init_khz(struct rp1_dsi *dsi, u32 ref_freq, u32 vco_freq)
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+static u32 dphy_init(struct rp1_dsi *dsi, u32 ref_freq, u32 vco_freq)
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{
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+ u32 actual_vco_freq;
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+
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/* Reset the PHY */
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DSI_WRITE(DSI_PHYRSTZ, 0);
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DSI_WRITE(DSI_PHY_TST_CTRL0, DPHY_CTRL0_PHY_TESTCLK_BITS);
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@@ -1263,13 +1272,15 @@ static void dphy_init_khz(struct rp1_dsi
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DSI_WRITE(DSI_PHY_TST_CTRL0, DPHY_CTRL0_PHY_TESTCLK_BITS);
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udelay(1);
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/* Since we are in DSI (not CSI2) mode here, start the PLL */
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- dphy_configure_pll(dsi, ref_freq, vco_freq);
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+ actual_vco_freq = dphy_configure_pll(dsi, ref_freq, vco_freq);
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udelay(1);
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/* Unreset */
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DSI_WRITE(DSI_PHYRSTZ, DSI_PHYRSTZ_SHUTDOWNZ_BITS);
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udelay(1);
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DSI_WRITE(DSI_PHYRSTZ, (DSI_PHYRSTZ_SHUTDOWNZ_BITS | DSI_PHYRSTZ_RSTZ_BITS));
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udelay(1); /* so we can see PLL coming up? */
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+
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+ return actual_vco_freq;
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}
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void rp1dsi_mipicfg_setup(struct rp1_dsi *dsi)
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@@ -1290,23 +1301,30 @@ static unsigned long rp1dsi_refclk_freq(
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return u;
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}
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-static void rp1dsi_dpiclk_start(struct rp1_dsi *dsi, unsigned int bpp, unsigned int lanes)
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+static void rp1dsi_dpiclk_start(struct rp1_dsi *dsi, u32 byte_clock,
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+ unsigned int bpp, unsigned int lanes)
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{
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- unsigned long u;
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-
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- if (dsi->clocks[RP1DSI_CLOCK_DPI]) {
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- u = (dsi->clocks[RP1DSI_CLOCK_BYTE]) ?
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- clk_get_rate(dsi->clocks[RP1DSI_CLOCK_BYTE]) : 0;
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- drm_info(dsi->drm,
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- "rp1dsi: Nominal byte clock %lu; scale by %u/%u",
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- u, 4 * lanes, (bpp >> 1));
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- if (u < 1 || u >= (1ul << 28))
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- u = 72000000ul; /* default DUMMY frequency for byteclock */
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+ /* Dummy clk_set_rate() to declare the actual DSI byte-clock rate */
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+ clk_set_rate(dsi->clocks[RP1DSI_CLOCK_BYTE], byte_clock);
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+ /*
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+ * Prefer the DSI byte-clock source where possible, so that DSI and DPI
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+ * clocks will be in an exact ratio and downstream devices can recover
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+ * perfect timings. But when DPI clock is faster, fall back on PLL_SYS.
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+ * To defeat rounding errors, specify explicitly which source to use.
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+ */
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+ if (bpp >= 8 * lanes)
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clk_set_parent(dsi->clocks[RP1DSI_CLOCK_DPI], dsi->clocks[RP1DSI_CLOCK_BYTE]);
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- clk_set_rate(dsi->clocks[RP1DSI_CLOCK_DPI], (4 * lanes * u) / (bpp >> 1));
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- clk_prepare_enable(dsi->clocks[RP1DSI_CLOCK_DPI]);
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- }
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+ else if (dsi->clocks[RP1DSI_CLOCK_PLLSYS])
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+ clk_set_parent(dsi->clocks[RP1DSI_CLOCK_DPI], dsi->clocks[RP1DSI_CLOCK_PLLSYS]);
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+
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+ clk_set_rate(dsi->clocks[RP1DSI_CLOCK_DPI], (4 * lanes * byte_clock) / (bpp >> 1));
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+ clk_prepare_enable(dsi->clocks[RP1DSI_CLOCK_DPI]);
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+ drm_info(dsi->drm,
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+ "rp1dsi: Nominal Byte clock %u DPI clock %lu (parent rate %lu)",
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+ byte_clock,
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+ clk_get_rate(dsi->clocks[RP1DSI_CLOCK_DPI]),
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+ clk_get_rate(clk_get_parent(dsi->clocks[RP1DSI_CLOCK_DPI])));
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}
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static void rp1dsi_dpiclk_stop(struct rp1_dsi *dsi)
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@@ -1336,18 +1354,21 @@ static u32 get_colorcode(enum mipi_dsi_p
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return 0x005;
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}
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-/* Maximum frequency for LP escape clock (20MHz), and some magic numbers */
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-#define RP1DSI_ESC_CLK_KHZ 20000
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-#define RP1DSI_TO_CLK_DIV 5
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-#define RP1DSI_HSTX_TO_MIN 0x200
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-#define RP1DSI_LPRX_TO_VAL 0x400
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+/* Frequency limits for DPI, HS and LP clocks, and some magic numbers */
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+#define RP1DSI_DPI_MAX_KHZ 200000
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+#define RP1DSI_BYTE_CLK_MIN 10000000
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+#define RP1DSI_BYTE_CLK_MAX 187500000
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+#define RP1DSI_ESC_CLK_MAX 20000000
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+#define RP1DSI_TO_CLK_DIV 0x50
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+#define RP1DSI_LPRX_TO_VAL 0x40
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#define RP1DSI_BTA_TO_VAL 0xd00
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void rp1dsi_dsi_setup(struct rp1_dsi *dsi, struct drm_display_mode const *mode)
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{
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u32 timeout, mask, vid_mode_cfg;
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- int lane_kbps;
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unsigned int bpp = mipi_dsi_pixel_format_to_bpp(dsi->display_format);
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+ u32 byte_clock = clamp((bpp * 125 * min(mode->clock, RP1DSI_DPI_MAX_KHZ)) / dsi->lanes,
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+ RP1DSI_BYTE_CLK_MIN, RP1DSI_BYTE_CLK_MAX);
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DSI_WRITE(DSI_PHY_IF_CFG, dsi->lanes - 1);
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DSI_WRITE(DSI_DPI_CFG_POL, 0);
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@@ -1360,6 +1381,8 @@ void rp1dsi_dsi_setup(struct rp1_dsi *ds
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vid_mode_cfg = 0xbf00;
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if (!(dsi->display_flags & MIPI_DSI_MODE_VIDEO_SYNC_PULSE))
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vid_mode_cfg |= 0x01;
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+ else if (8 * dsi->lanes > bpp)
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+ vid_mode_cfg &= ~0x400; /* PULSE && inexact DPICLK => fix HBP time */
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if (dsi->display_flags & MIPI_DSI_MODE_VIDEO_BURST)
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vid_mode_cfg |= 0x02;
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DSI_WRITE(DSI_VID_MODE_CFG, vid_mode_cfg);
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@@ -1369,15 +1392,14 @@ void rp1dsi_dsi_setup(struct rp1_dsi *ds
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DSI_WRITE(DSI_MODE_CFG, 1);
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/* Set timeouts and clock dividers */
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- DSI_WRITE(DSI_TO_CNT_CFG,
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- (max((bpp * mode->htotal) / (7 * RP1DSI_TO_CLK_DIV * dsi->lanes),
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- RP1DSI_HSTX_TO_MIN) << 16) |
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- RP1DSI_LPRX_TO_VAL);
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+ timeout = (bpp * mode->htotal * mode->vdisplay) / (7 * RP1DSI_TO_CLK_DIV * dsi->lanes);
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+ if (timeout > 0xFFFFu)
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+ timeout = 0;
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+ DSI_WRITE(DSI_TO_CNT_CFG, (timeout << 16) | RP1DSI_LPRX_TO_VAL);
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DSI_WRITE(DSI_BTA_TO_CNT, RP1DSI_BTA_TO_VAL);
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- lane_kbps = (bpp * mode->clock) / dsi->lanes;
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DSI_WRITE(DSI_CLKMGR_CFG,
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(RP1DSI_TO_CLK_DIV << 8) |
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- max(2, lane_kbps / (8 * RP1DSI_ESC_CLK_KHZ) + 1));
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+ max(2u, 1u + byte_clock / RP1DSI_ESC_CLK_MAX));
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/* Configure video timings */
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DSI_WRITE(DSI_VID_PKT_SIZE, mode->hdisplay);
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@@ -1394,7 +1416,7 @@ void rp1dsi_dsi_setup(struct rp1_dsi *ds
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DSI_WRITE(DSI_VID_VACTIVE_LINES, mode->vdisplay);
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/* Init PHY */
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- dphy_init_khz(dsi, rp1dsi_refclk_freq(dsi) / 1000, lane_kbps);
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+ byte_clock = dphy_init(dsi, rp1dsi_refclk_freq(dsi), 8 * byte_clock) >> 3;
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DSI_WRITE(DSI_PHY_TMR_LPCLK_CFG,
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(hsfreq_table[dsi->hsfreq_index].clk_lp2hs << DSI_PHY_TMR_LP2HS_LSB) |
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@@ -1418,7 +1440,7 @@ void rp1dsi_dsi_setup(struct rp1_dsi *ds
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DSI_WRITE(DSI_PWR_UP, 0x1); /* power up */
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/* Now it should be safe to start the external DPI clock divider */
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- rp1dsi_dpiclk_start(dsi, bpp, dsi->lanes);
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+ rp1dsi_dpiclk_start(dsi, byte_clock, bpp, dsi->lanes);
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/* Wait for all lane(s) to be in Stopstate */
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mask = (1 << 4);
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