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[84.172.83.39]) by smtp.googlemail.com with ESMTPSA id v3-20020a05600c470300b003f7f475c3bcsm8162344wmo.1.2023.07.15.13.13.09 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Sat, 15 Jul 2023 13:13:10 -0700 (PDT) From: =?utf-8?q?Niklas_S=C3=B6derlund?= To: Sakari Ailus , Hans Verkuil , linux-media@vger.kernel.org Cc: linux-renesas-soc@vger.kernel.org, =?utf-8?q?Niklas_S=C3=B6derlund?= Subject: [PATCH v3] media: rcar-csi2: Add support for C-PHY on R-Car V4H Date: Sat, 15 Jul 2023 22:12:39 +0200 Message-ID: <20230715201239.29014-1-niklas.soderlund+renesas@ragnatech.se> X-Mailer: git-send-email 2.41.0 MIME-Version: 1.0 Precedence: bulk List-ID: X-Mailing-List: linux-renesas-soc@vger.kernel.org Add support for C-PHY on R-Car V4H. While the V4H supports both D-PHY and C-PHY this patch only adds support for the C-PHY mode due to lack of documentation and hardware to test on. The V4H is the first Gen4 device that is enabled in the rcar-csi2 driver. There is much overlap with the Gen3 driver, the primary difference is in how the receiver is started. The V4H have a much larger register space and some addresses overlap with Gen3. Signed-off-by: Niklas Söderlund --- * Changes since v1 - Rebased to latest media-tree. * changes since v2 - Do not attempt to divide by a float, multiply and divided. - Check return value for rcsi2_code_to_fmt(). --- .../platform/renesas/rcar-vin/rcar-csi2.c | 291 ++++++++++++++++++ 1 file changed, 291 insertions(+) diff --git a/drivers/media/platform/renesas/rcar-vin/rcar-csi2.c b/drivers/media/platform/renesas/rcar-vin/rcar-csi2.c index 7a134c0eff57..b3c3958ea652 100644 --- a/drivers/media/platform/renesas/rcar-vin/rcar-csi2.c +++ b/drivers/media/platform/renesas/rcar-vin/rcar-csi2.c @@ -133,6 +133,111 @@ struct rcar_csi2; #define PHYFRX_FORCERX_MODE_1 BIT(1) #define PHYFRX_FORCERX_MODE_0 BIT(0) +/* V4H BASE registers */ +#define V4H_N_LANES_REG 0x0004 +#define V4H_CSI2_RESETN_REG 0x0008 +#define V4H_PHY_MODE_REG 0x001c +#define V4H_PHY_SHUTDOWNZ_REG 0x0040 +#define V4H_DPHY_RSTZ_REG 0x0044 +#define V4H_FLDC_REG 0x0804 +#define V4H_FLDD_REG 0x0808 +#define V4H_IDIC_REG 0x0810 +#define V4H_PHY_EN_REG 0x2000 + +#define V4H_ST_PHYST_REG 0x2814 +#define V4H_ST_PHYST_ST_PHY_READY BIT(31) +#define V4H_ST_PHYST_ST_STOPSTATE_3 BIT(3) +#define V4H_ST_PHYST_ST_STOPSTATE_2 BIT(2) +#define V4H_ST_PHYST_ST_STOPSTATE_1 BIT(1) +#define V4H_ST_PHYST_ST_STOPSTATE_0 BIT(0) + +/* V4H PPI registers */ +#define V4H_PPI_STARTUP_RW_COMMON_DPHY_REG(n) (0x21800 + ((n) * 2)) /* n = 0 - 9 */ +#define V4H_PPI_STARTUP_RW_COMMON_STARTUP_1_1_REG 0x21822 +#define V4H_PPI_CALIBCTRL_RW_COMMON_BG_0_REG 0x2184c +#define V4H_PPI_RW_LPDCOCAL_TIMEBASE_REG 0x21c02 +#define V4H_PPI_RW_LPDCOCAL_NREF_REG 0x21c04 +#define V4H_PPI_RW_LPDCOCAL_NREF_RANGE_REG 0x21c06 +#define V4H_PPI_RW_LPDCOCAL_TWAIT_CONFIG_REG 0x21c0a +#define V4H_PPI_RW_LPDCOCAL_VT_CONFIG_REG 0x21c0c +#define V4H_PPI_RW_LPDCOCAL_COARSE_CFG_REG 0x21c10 +#define V4H_PPI_RW_COMMON_CFG_REG 0x21c6c +#define V4H_PPI_RW_TERMCAL_CFG_0_REG 0x21c80 +#define V4H_PPI_RW_OFFSETCAL_CFG_0_REG 0x21ca0 + +/* V4H CORE registers */ +#define V4H_CORE_DIG_IOCTRL_RW_AFE_LANE0_CTRL_2_REG(n) (0x22040 + ((n) * 2)) /* n = 0 - 15 */ +#define V4H_CORE_DIG_IOCTRL_RW_AFE_LANE1_CTRL_2_REG(n) (0x22440 + ((n) * 2)) /* n = 0 - 15 */ +#define V4H_CORE_DIG_IOCTRL_RW_AFE_LANE2_CTRL_2_REG(n) (0x22840 + ((n) * 2)) /* n = 0 - 15 */ +#define V4H_CORE_DIG_IOCTRL_RW_AFE_LANE3_CTRL_2_REG(n) (0x22c40 + ((n) * 2)) /* n = 0 - 15 */ +#define V4H_CORE_DIG_IOCTRL_RW_AFE_LANE4_CTRL_2_REG(n) (0x23040 + ((n) * 2)) /* n = 0 - 15 */ +#define V4H_CORE_DIG_IOCTRL_RW_AFE_CB_CTRL_2_REG(n) (0x23840 + ((n) * 2)) /* n = 0 - 11 */ +#define V4H_CORE_DIG_RW_COMMON_REG(n) (0x23880 + ((n) * 2)) /* n = 0 - 15 */ +#define V4H_CORE_DIG_ANACTRL_RW_COMMON_ANACTRL_REG(n) (0x239e0 + ((n) * 2)) /* n = 0 - 3 */ +#define V4H_CORE_DIG_CLANE_1_RW_CFG_0_REG 0x2a400 +#define V4H_CORE_DIG_CLANE_1_RW_HS_TX_6_REG 0x2a60c + +/* V4H C-PHY */ +#define V4H_CORE_DIG_RW_TRIO0_REG(n) (0x22100 + ((n) * 2)) /* n = 0 - 3 */ +#define V4H_CORE_DIG_RW_TRIO1_REG(n) (0x22500 + ((n) * 2)) /* n = 0 - 3 */ +#define V4H_CORE_DIG_RW_TRIO2_REG(n) (0x22900 + ((n) * 2)) /* n = 0 - 3 */ +#define V4H_CORE_DIG_CLANE_0_RW_LP_0_REG 0x2a080 +#define V4H_CORE_DIG_CLANE_0_RW_HS_RX_REG(n) (0x2a100 + ((n) * 2)) /* n = 0 - 6 */ +#define V4H_CORE_DIG_CLANE_1_RW_LP_0_REG 0x2a480 +#define V4H_CORE_DIG_CLANE_1_RW_HS_RX_REG(n) (0x2a500 + ((n) * 2)) /* n = 0 - 6 */ +#define V4H_CORE_DIG_CLANE_2_RW_LP_0_REG 0x2a880 +#define V4H_CORE_DIG_CLANE_2_RW_HS_RX_REG(n) (0x2a900 + ((n) * 2)) /* n = 0 - 6 */ + +struct rcsi2_cphy_setting { + u16 msps; + u16 rx2; + u16 trio0; + u16 trio1; + u16 trio2; + u16 lane27; + u16 lane29; +}; + +static const struct rcsi2_cphy_setting cphy_setting_table_r8a779g0[] = { + { .msps = 80, .rx2 = 0x38, .trio0 = 0x024a, .trio1 = 0x0134, .trio2 = 0x6a, .lane27 = 0x0000, .lane29 = 0x0a24 }, + { .msps = 100, .rx2 = 0x38, .trio0 = 0x024a, .trio1 = 0x00f5, .trio2 = 0x55, .lane27 = 0x0000, .lane29 = 0x0a24 }, + { .msps = 200, .rx2 = 0x38, .trio0 = 0x024a, .trio1 = 0x0077, .trio2 = 0x2b, .lane27 = 0x0000, .lane29 = 0x0a44 }, + { .msps = 300, .rx2 = 0x38, .trio0 = 0x024a, .trio1 = 0x004d, .trio2 = 0x1d, .lane27 = 0x0000, .lane29 = 0x0a44 }, + { .msps = 400, .rx2 = 0x38, .trio0 = 0x024a, .trio1 = 0x0038, .trio2 = 0x16, .lane27 = 0x0000, .lane29 = 0x0a64 }, + { .msps = 500, .rx2 = 0x38, .trio0 = 0x024a, .trio1 = 0x002b, .trio2 = 0x12, .lane27 = 0x0000, .lane29 = 0x0a64 }, + { .msps = 600, .rx2 = 0x38, .trio0 = 0x024a, .trio1 = 0x0023, .trio2 = 0x0f, .lane27 = 0x0000, .lane29 = 0x0a64 }, + { .msps = 700, .rx2 = 0x38, .trio0 = 0x024a, .trio1 = 0x001d, .trio2 = 0x0d, .lane27 = 0x0000, .lane29 = 0x0a84 }, + { .msps = 800, .rx2 = 0x38, .trio0 = 0x024a, .trio1 = 0x0018, .trio2 = 0x0c, .lane27 = 0x0000, .lane29 = 0x0a84 }, + { .msps = 900, .rx2 = 0x38, .trio0 = 0x024a, .trio1 = 0x0015, .trio2 = 0x0b, .lane27 = 0x0000, .lane29 = 0x0a84 }, + { .msps = 1000, .rx2 = 0x3e, .trio0 = 0x024a, .trio1 = 0x0012, .trio2 = 0x0a, .lane27 = 0x0400, .lane29 = 0x0a84 }, + { .msps = 1100, .rx2 = 0x44, .trio0 = 0x024a, .trio1 = 0x000f, .trio2 = 0x09, .lane27 = 0x0800, .lane29 = 0x0a84 }, + { .msps = 1200, .rx2 = 0x4a, .trio0 = 0x024a, .trio1 = 0x000e, .trio2 = 0x08, .lane27 = 0x0c00, .lane29 = 0x0a84 }, + { .msps = 1300, .rx2 = 0x51, .trio0 = 0x024a, .trio1 = 0x000c, .trio2 = 0x08, .lane27 = 0x0c00, .lane29 = 0x0aa4 }, + { .msps = 1400, .rx2 = 0x57, .trio0 = 0x024a, .trio1 = 0x000b, .trio2 = 0x07, .lane27 = 0x1000, .lane29 = 0x0aa4 }, + { .msps = 1500, .rx2 = 0x5d, .trio0 = 0x044a, .trio1 = 0x0009, .trio2 = 0x07, .lane27 = 0x1000, .lane29 = 0x0aa4 }, + { .msps = 1600, .rx2 = 0x63, .trio0 = 0x044a, .trio1 = 0x0008, .trio2 = 0x07, .lane27 = 0x1400, .lane29 = 0x0aa4 }, + { .msps = 1700, .rx2 = 0x6a, .trio0 = 0x044a, .trio1 = 0x0007, .trio2 = 0x06, .lane27 = 0x1400, .lane29 = 0x0aa4 }, + { .msps = 1800, .rx2 = 0x70, .trio0 = 0x044a, .trio1 = 0x0007, .trio2 = 0x06, .lane27 = 0x1400, .lane29 = 0x0aa4 }, + { .msps = 1900, .rx2 = 0x76, .trio0 = 0x044a, .trio1 = 0x0006, .trio2 = 0x06, .lane27 = 0x1400, .lane29 = 0x0aa4 }, + { .msps = 2000, .rx2 = 0x7c, .trio0 = 0x044a, .trio1 = 0x0005, .trio2 = 0x06, .lane27 = 0x1800, .lane29 = 0x0aa4 }, + { .msps = 2100, .rx2 = 0x83, .trio0 = 0x044a, .trio1 = 0x0005, .trio2 = 0x05, .lane27 = 0x1800, .lane29 = 0x0aa4 }, + { .msps = 2200, .rx2 = 0x89, .trio0 = 0x064a, .trio1 = 0x0004, .trio2 = 0x05, .lane27 = 0x1800, .lane29 = 0x0aa4 }, + { .msps = 2300, .rx2 = 0x8f, .trio0 = 0x064a, .trio1 = 0x0003, .trio2 = 0x05, .lane27 = 0x1800, .lane29 = 0x0aa4 }, + { .msps = 2400, .rx2 = 0x95, .trio0 = 0x064a, .trio1 = 0x0003, .trio2 = 0x05, .lane27 = 0x1800, .lane29 = 0x0aa4 }, + { .msps = 2500, .rx2 = 0x9c, .trio0 = 0x064a, .trio1 = 0x0003, .trio2 = 0x05, .lane27 = 0x1c00, .lane29 = 0x0aa4 }, + { .msps = 2600, .rx2 = 0xa2, .trio0 = 0x064a, .trio1 = 0x0002, .trio2 = 0x05, .lane27 = 0x1c00, .lane29 = 0x0ad4 }, + { .msps = 2700, .rx2 = 0xa8, .trio0 = 0x064a, .trio1 = 0x0002, .trio2 = 0x05, .lane27 = 0x1c00, .lane29 = 0x0ad4 }, + { .msps = 2800, .rx2 = 0xae, .trio0 = 0x064a, .trio1 = 0x0002, .trio2 = 0x04, .lane27 = 0x1c00, .lane29 = 0x0ad4 }, + { .msps = 2900, .rx2 = 0xb5, .trio0 = 0x084a, .trio1 = 0x0001, .trio2 = 0x04, .lane27 = 0x1c00, .lane29 = 0x0ad4 }, + { .msps = 3000, .rx2 = 0xbb, .trio0 = 0x084a, .trio1 = 0x0001, .trio2 = 0x04, .lane27 = 0x1c00, .lane29 = 0x0ad4 }, + { .msps = 3100, .rx2 = 0xc1, .trio0 = 0x084a, .trio1 = 0x0001, .trio2 = 0x04, .lane27 = 0x1c00, .lane29 = 0x0ad4 }, + { .msps = 3200, .rx2 = 0xc7, .trio0 = 0x084a, .trio1 = 0x0001, .trio2 = 0x04, .lane27 = 0x1c00, .lane29 = 0x0ad4 }, + { .msps = 3300, .rx2 = 0xce, .trio0 = 0x084a, .trio1 = 0x0001, .trio2 = 0x04, .lane27 = 0x1c00, .lane29 = 0x0ad4 }, + { .msps = 3400, .rx2 = 0xd4, .trio0 = 0x084a, .trio1 = 0x0001, .trio2 = 0x04, .lane27 = 0x1c00, .lane29 = 0x0ad4 }, + { .msps = 3500, .rx2 = 0xda, .trio0 = 0x084a, .trio1 = 0x0001, .trio2 = 0x04, .lane27 = 0x1c00, .lane29 = 0x0ad4 }, + { /* sentinel */ }, +}; + struct phtw_value { u16 data; u16 code; @@ -538,6 +643,11 @@ static void rcsi2_write(struct rcar_csi2 *priv, unsigned int reg, u32 data) iowrite32(data, priv->base + reg); } +static void rcsi2_write16(struct rcar_csi2 *priv, unsigned int reg, u16 data) +{ + iowrite16(data, priv->base + reg); +} + static void rcsi2_enter_standby_gen3(struct rcar_csi2 *priv) { rcsi2_write(priv, PHYCNT_REG, 0); @@ -645,6 +755,10 @@ static int rcsi2_calc_mbps(struct rcar_csi2 *priv, unsigned int bpp, mbps = v4l2_ctrl_g_ctrl_int64(ctrl) * bpp; do_div(mbps, lanes * 1000000); + /* Adjust for C-PHY, divide by 2.8. */ + if (priv->cphy) + mbps = (mbps * 5) / 14; + return mbps; } @@ -834,6 +948,173 @@ static int rcsi2_start_receiver_gen3(struct rcar_csi2 *priv) return 0; } +static int rcsi2_wait_phy_start_v4h(struct rcar_csi2 *priv, u32 match) +{ + unsigned int timeout; + u32 status; + + for (timeout = 0; timeout <= 10; timeout++) { + status = rcsi2_read(priv, V4H_ST_PHYST_REG); + if ((status & match) == match) + return 0; + + usleep_range(1000, 2000); + } + + return -ETIMEDOUT; +} + +static int rcsi2_c_phy_setting_v4h(struct rcar_csi2 *priv, int msps) +{ + const struct rcsi2_cphy_setting *conf; + + for (conf = cphy_setting_table_r8a779g0; conf->msps != 0; conf++) { + if (conf->msps > msps) + break; + } + + if (!conf->msps) { + dev_err(priv->dev, "Unsupported PHY speed for msps setting (%u Msps)", msps); + return -ERANGE; + } + + /* C-PHY specific */ + rcsi2_write16(priv, V4H_CORE_DIG_RW_COMMON_REG(7), 0x0155); + rcsi2_write16(priv, V4H_PPI_STARTUP_RW_COMMON_DPHY_REG(7), 0x0068); + rcsi2_write16(priv, V4H_PPI_STARTUP_RW_COMMON_DPHY_REG(8), 0x0010); + + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_0_RW_LP_0_REG, 0x463c); + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_1_RW_LP_0_REG, 0x463c); + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_2_RW_LP_0_REG, 0x463c); + + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_0_RW_HS_RX_REG(0), 0x00d5); + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_1_RW_HS_RX_REG(0), 0x00d5); + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_2_RW_HS_RX_REG(0), 0x00d5); + + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_0_RW_HS_RX_REG(1), 0x0013); + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_1_RW_HS_RX_REG(1), 0x0013); + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_2_RW_HS_RX_REG(1), 0x0013); + + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_0_RW_HS_RX_REG(5), 0x0013); + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_1_RW_HS_RX_REG(5), 0x0013); + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_2_RW_HS_RX_REG(5), 0x0013); + + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_0_RW_HS_RX_REG(6), 0x000a); + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_1_RW_HS_RX_REG(6), 0x000a); + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_2_RW_HS_RX_REG(6), 0x000a); + + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_0_RW_HS_RX_REG(2), conf->rx2); + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_1_RW_HS_RX_REG(2), conf->rx2); + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_2_RW_HS_RX_REG(2), conf->rx2); + + rcsi2_write16(priv, V4H_CORE_DIG_IOCTRL_RW_AFE_LANE0_CTRL_2_REG(2), 0x0001); + rcsi2_write16(priv, V4H_CORE_DIG_IOCTRL_RW_AFE_LANE1_CTRL_2_REG(2), 0); + rcsi2_write16(priv, V4H_CORE_DIG_IOCTRL_RW_AFE_LANE2_CTRL_2_REG(2), 0x0001); + rcsi2_write16(priv, V4H_CORE_DIG_IOCTRL_RW_AFE_LANE3_CTRL_2_REG(2), 0x0001); + rcsi2_write16(priv, V4H_CORE_DIG_IOCTRL_RW_AFE_LANE4_CTRL_2_REG(2), 0); + + rcsi2_write16(priv, V4H_CORE_DIG_RW_TRIO0_REG(0), conf->trio0); + rcsi2_write16(priv, V4H_CORE_DIG_RW_TRIO1_REG(0), conf->trio0); + rcsi2_write16(priv, V4H_CORE_DIG_RW_TRIO2_REG(0), conf->trio0); + + rcsi2_write16(priv, V4H_CORE_DIG_RW_TRIO0_REG(2), conf->trio2); + rcsi2_write16(priv, V4H_CORE_DIG_RW_TRIO1_REG(2), conf->trio2); + rcsi2_write16(priv, V4H_CORE_DIG_RW_TRIO2_REG(2), conf->trio2); + + rcsi2_write16(priv, V4H_CORE_DIG_RW_TRIO0_REG(1), conf->trio1); + rcsi2_write16(priv, V4H_CORE_DIG_RW_TRIO1_REG(1), conf->trio1); + rcsi2_write16(priv, V4H_CORE_DIG_RW_TRIO2_REG(1), conf->trio1); + + /* + * Configure pin-swap. + * TODO: This registers is not documented yet, the values should depend + * on the 'clock-lanes' and 'data-lanes' devicetree properties. + */ + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_1_RW_CFG_0_REG, 0xf5); + rcsi2_write16(priv, V4H_CORE_DIG_CLANE_1_RW_HS_TX_6_REG, 0x5000); + + /* Leave Shutdown mode */ + rcsi2_write(priv, V4H_DPHY_RSTZ_REG, BIT(0)); + rcsi2_write(priv, V4H_PHY_SHUTDOWNZ_REG, BIT(0)); + + /* Wait for calibration */ + if (rcsi2_wait_phy_start_v4h(priv, V4H_ST_PHYST_ST_PHY_READY)) { + dev_err(priv->dev, "PHY calibration failed\n"); + return -ETIMEDOUT; + } + + /* C-PHY setting - analog programing*/ + rcsi2_write16(priv, V4H_CORE_DIG_IOCTRL_RW_AFE_LANE0_CTRL_2_REG(9), conf->lane29); + rcsi2_write16(priv, V4H_CORE_DIG_IOCTRL_RW_AFE_LANE0_CTRL_2_REG(7), conf->lane27); + + return 0; +} + +static int rcsi2_start_receiver_v4h(struct rcar_csi2 *priv) +{ + const struct rcar_csi2_format *format; + unsigned int lanes; + int msps; + int ret; + + /* Calculate parameters */ + format = rcsi2_code_to_fmt(priv->mf.code); + if (!format) + return -EINVAL; + + ret = rcsi2_get_active_lanes(priv, &lanes); + if (ret) + return ret; + + msps = rcsi2_calc_mbps(priv, format->bpp, lanes); + if (msps < 0) + return msps; + + /* Reset LINK and PHY*/ + rcsi2_write(priv, V4H_CSI2_RESETN_REG, 0); + rcsi2_write(priv, V4H_DPHY_RSTZ_REG, 0); + rcsi2_write(priv, V4H_PHY_SHUTDOWNZ_REG, 0); + + /* PHY static setting */ + rcsi2_write(priv, V4H_PHY_EN_REG, BIT(0)); + rcsi2_write(priv, V4H_FLDC_REG, 0); + rcsi2_write(priv, V4H_FLDD_REG, 0); + rcsi2_write(priv, V4H_IDIC_REG, 0); + rcsi2_write(priv, V4H_PHY_MODE_REG, BIT(0)); + rcsi2_write(priv, V4H_N_LANES_REG, lanes - 1); + + /* Reset CSI2 */ + rcsi2_write(priv, V4H_CSI2_RESETN_REG, BIT(0)); + + /* Registers static setting through APB */ + /* Common setting */ + rcsi2_write16(priv, V4H_CORE_DIG_ANACTRL_RW_COMMON_ANACTRL_REG(0), 0x1bfd); + rcsi2_write16(priv, V4H_PPI_STARTUP_RW_COMMON_STARTUP_1_1_REG, 0x0233); + rcsi2_write16(priv, V4H_PPI_STARTUP_RW_COMMON_DPHY_REG(6), 0x0027); + rcsi2_write16(priv, V4H_PPI_CALIBCTRL_RW_COMMON_BG_0_REG, 0x01f4); + rcsi2_write16(priv, V4H_PPI_RW_TERMCAL_CFG_0_REG, 0x0013); + rcsi2_write16(priv, V4H_PPI_RW_OFFSETCAL_CFG_0_REG, 0x0003); + rcsi2_write16(priv, V4H_PPI_RW_LPDCOCAL_TIMEBASE_REG, 0x004f); + rcsi2_write16(priv, V4H_PPI_RW_LPDCOCAL_NREF_REG, 0x0320); + rcsi2_write16(priv, V4H_PPI_RW_LPDCOCAL_NREF_RANGE_REG, 0x000f); + rcsi2_write16(priv, V4H_PPI_RW_LPDCOCAL_TWAIT_CONFIG_REG, 0xfe18); + rcsi2_write16(priv, V4H_PPI_RW_LPDCOCAL_VT_CONFIG_REG, 0x0c3c); + rcsi2_write16(priv, V4H_PPI_RW_LPDCOCAL_COARSE_CFG_REG, 0x0105); + rcsi2_write16(priv, V4H_CORE_DIG_IOCTRL_RW_AFE_CB_CTRL_2_REG(6), 0x1000); + rcsi2_write16(priv, V4H_PPI_RW_COMMON_CFG_REG, 0x0003); + + /* C-PHY settings */ + ret = rcsi2_c_phy_setting_v4h(priv, msps); + if (ret) + return ret; + + rcsi2_wait_phy_start_v4h(priv, V4H_ST_PHYST_ST_STOPSTATE_0 | + V4H_ST_PHYST_ST_STOPSTATE_1 | + V4H_ST_PHYST_ST_STOPSTATE_2); + + return 0; +} + static int rcsi2_start(struct rcar_csi2 *priv) { int ret; @@ -1496,6 +1777,12 @@ static const struct rcar_csi2_info rcar_csi2_info_r8a779a0 = { .support_dphy = true, }; +static const struct rcar_csi2_info rcar_csi2_info_r8a779g0 = { + .start_receiver = rcsi2_start_receiver_v4h, + .use_isp = true, + .support_cphy = true, +}; + static const struct of_device_id rcar_csi2_of_table[] = { { .compatible = "renesas,r8a774a1-csi2", @@ -1545,6 +1832,10 @@ static const struct of_device_id rcar_csi2_of_table[] = { .compatible = "renesas,r8a779a0-csi2", .data = &rcar_csi2_info_r8a779a0, }, + { + .compatible = "renesas,r8a779g0-csi2", + .data = &rcar_csi2_info_r8a779g0, + }, { /* sentinel */ }, }; MODULE_DEVICE_TABLE(of, rcar_csi2_of_table);