/*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright 2020 Michal Meloun * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include __FBSDID("$FreeBSD$"); /* * Pin multiplexer driver for Tegra SoCs. */ #include #include #include #include #include #include #include #include #include #include #include #include #include /* Pin multipexor register. */ #define TEGRA_MUX_FUNCTION_MASK 0x03 #define TEGRA_MUX_FUNCTION_SHIFT 0 #define TEGRA_MUX_PUPD_MASK 0x03 #define TEGRA_MUX_PUPD_SHIFT 2 #define TEGRA_MUX_TRISTATE_SHIFT 4 #define TEGRA_MUX_ENABLE_INPUT_SHIFT 5 #define TEGRA_MUX_OPEN_DRAIN_SHIFT 6 #define TEGRA_MUX_LOCK_SHIFT 7 #define TEGRA_MUX_IORESET_SHIFT 8 #define TEGRA_MUX_RCV_SEL_SHIFT 9 /* Pin goup register. */ #define TEGRA_GRP_HSM_SHIFT 2 #define TEGRA_GRP_SCHMT_SHIFT 3 #define TEGRA_GRP_DRV_TYPE_SHIFT 6 #define TEGRA_GRP_DRV_TYPE_MASK 0x03 #define TEGRA_GRP_DRV_DRVDN_SLWR_SHIFT 28 #define TEGRA_GRP_DRV_DRVDN_SLWR_MASK 0x03 #define TEGRA_GRP_DRV_DRVUP_SLWF_SHIFT 30 #define TEGRA_GRP_DRV_DRVUP_SLWF_MASK 0x03 struct pinmux_softc { device_t dev; struct resource *pad_mem_res; struct resource *mux_mem_res; }; static struct ofw_compat_data compat_data[] = { {"nvidia,tegra210-pinmux", 1}, {NULL, 0}, }; enum prop_id { PROP_ID_PULL, PROP_ID_TRISTATE, PROP_ID_ENABLE_INPUT, PROP_ID_OPEN_DRAIN, PROP_ID_LOCK, PROP_ID_IORESET, PROP_ID_RCV_SEL, PROP_ID_HIGH_SPEED_MODE, PROP_ID_SCHMITT, PROP_ID_LOW_POWER_MODE, PROP_ID_DRIVE_DOWN_STRENGTH, PROP_ID_DRIVE_UP_STRENGTH, PROP_ID_SLEW_RATE_FALLING, PROP_ID_SLEW_RATE_RISING, PROP_ID_DRIVE_TYPE, PROP_ID_MAX_ID }; /* Numeric based parameters. */ static const struct prop_name { const char *name; enum prop_id id; } prop_names[] = { {"nvidia,pull", PROP_ID_PULL}, {"nvidia,tristate", PROP_ID_TRISTATE}, {"nvidia,enable-input", PROP_ID_ENABLE_INPUT}, {"nvidia,open-drain", PROP_ID_OPEN_DRAIN}, {"nvidia,lock", PROP_ID_LOCK}, {"nvidia,io-reset", PROP_ID_IORESET}, {"nvidia,rcv-sel", PROP_ID_RCV_SEL}, {"nvidia,io-hv", PROP_ID_RCV_SEL}, {"nvidia,high-speed-mode", PROP_ID_HIGH_SPEED_MODE}, {"nvidia,schmitt", PROP_ID_SCHMITT}, {"nvidia,low-power-mode", PROP_ID_LOW_POWER_MODE}, {"nvidia,pull-down-strength", PROP_ID_DRIVE_DOWN_STRENGTH}, {"nvidia,pull-up-strength", PROP_ID_DRIVE_UP_STRENGTH}, {"nvidia,slew-rate-falling", PROP_ID_SLEW_RATE_FALLING}, {"nvidia,slew-rate-rising", PROP_ID_SLEW_RATE_RISING}, {"nvidia,drive-type", PROP_ID_DRIVE_TYPE}, }; /* * configuration for one pin group. */ struct pincfg { char *function; int params[PROP_ID_MAX_ID]; }; #define GPIO_BANK_A 0 #define GPIO_BANK_B 1 #define GPIO_BANK_C 2 #define GPIO_BANK_D 3 #define GPIO_BANK_E 4 #define GPIO_BANK_F 5 #define GPIO_BANK_G 6 #define GPIO_BANK_H 7 #define GPIO_BANK_I 8 #define GPIO_BANK_J 9 #define GPIO_BANK_K 10 #define GPIO_BANK_L 11 #define GPIO_BANK_M 12 #define GPIO_BANK_N 13 #define GPIO_BANK_O 14 #define GPIO_BANK_P 15 #define GPIO_BANK_Q 16 #define GPIO_BANK_R 17 #define GPIO_BANK_S 18 #define GPIO_BANK_T 19 #define GPIO_BANK_U 20 #define GPIO_BANK_V 21 #define GPIO_BANK_W 22 #define GPIO_BANK_X 23 #define GPIO_BANK_Y 24 #define GPIO_BANK_Z 25 #define GPIO_BANK_AA 26 #define GPIO_BANK_BB 27 #define GPIO_BANK_CC 28 #define GPIO_BANK_DD 29 #define GPIO_BANK_EE 30 #define GPIO_NUM(b, p) (8 * (b) + (p)) struct tegra_grp { char *name; bus_size_t reg; int drvdn_shift; int drvdn_mask; int drvup_shift; int drvup_mask; }; #define GRP(r, nm, dn_s, dn_w, up_s, up_w) \ { \ .name = #nm, \ .reg = r - 0x8D4, \ .drvdn_shift = dn_s, \ .drvdn_mask = (1 << dn_w) - 1, \ .drvup_shift = up_s, \ .drvup_mask = (1 << up_w) - 1, \ } /* Use register offsets from TRM */ static const struct tegra_grp pin_grp_tbl[] = { GRP(0x9c0, pa6, 12, 5, 20, 5), GRP(0x9c4, pcc7, 12, 5, 20, 5), GRP(0x9c8, pe6, 12, 5, 20, 5), GRP(0x9cc, pe7, 12, 5, 20, 5), GRP(0x9d0, ph6, 12, 5, 20, 5), GRP(0x9d4, pk0, 0, 0, 0, 0), GRP(0x9d8, pk1, 0, 0, 0, 0), GRP(0x9dc, pk2, 0, 0, 0, 0), GRP(0x9e0, pk3, 0, 0, 0, 0), GRP(0x9e4, pk4, 0, 0, 0, 0), GRP(0x9e8, pk5, 0, 0, 0, 0), GRP(0x9ec, pk6, 0, 0, 0, 0), GRP(0x9f0, pk7, 0, 0, 0, 0), GRP(0x9f4, pl0, 0, 0, 0, 0), GRP(0x9f8, pl1, 0, 0, 0, 0), GRP(0x9fc, pz0, 12, 7, 20, 7), GRP(0xa00, pz1, 12, 7, 20, 7), GRP(0xa04, pz2, 12, 7, 20, 7), GRP(0xa08, pz3, 12, 7, 20, 7), GRP(0xa0c, pz4, 12, 7, 20, 7), GRP(0xa10, pz5, 12, 7, 20, 7), GRP(0xa98, sdmmc1, 12, 7, 20, 7), GRP(0xa9c, sdmmc2, 2, 6, 8, 6), GRP(0xab0, sdmmc3, 12, 7, 20, 7), GRP(0xab4, sdmmc4, 2, 6, 8, 6), }; struct tegra_mux { struct tegra_grp grp; char *name; bus_size_t reg; char *functions[4]; int gpio_num; }; #define GMUX(r, gb, gi, nm, f1, f2, f3, f4, gr, dn_s, dn_w, up_s, up_w) \ { \ .name = #nm, \ .reg = r, \ .gpio_num = GPIO_NUM(GPIO_BANK_##gb, gi), \ .functions = {#f1, #f2, #f3, #f4}, \ .grp.name = #nm, \ .grp.reg = gr - 0x8D4, \ .grp.drvdn_shift = dn_s, \ .grp.drvdn_mask = (1 << dn_w) - 1, \ .grp.drvup_shift = up_s, \ .grp.drvup_mask = (1 << up_w) - 1, \ } #define FMUX(r, nm, f1, f2, f3, f4, gr, dn_s, dn_w, up_s, up_w) \ { \ .name = #nm, \ .reg = r, \ .gpio_num = -1, \ .functions = {#f1, #f2, #f3, #f4}, \ .grp.name = #nm, \ .grp.reg = gr - 0x8D4, \ .grp.drvdn_shift = dn_s, \ .grp.drvdn_mask = (1 << dn_w) - 1, \ .grp.drvup_shift = up_s, \ .grp.drvup_mask = (1 << up_w) - 1, \ } static const struct tegra_mux pin_mux_tbl[] = { GMUX(0x000, M, 0, sdmmc1_clk_pm0, sdmmc1, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x004, M, 1, sdmmc1_cmd_pm1, sdmmc1, spi3, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x008, M, 2, sdmmc1_dat3_pm2, sdmmc1, spi3, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x00c, M, 3, sdmmc1_dat2_pm3, sdmmc1, spi3, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x010, M, 4, sdmmc1_dat1_pm4, sdmmc1, spi3, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x014, M, 5, sdmmc1_dat0_pm5, sdmmc1, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x01c, P, 0, sdmmc3_clk_pp0, sdmmc3, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x020, P, 1, sdmmc3_cmd_pp1, sdmmc3, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x024, P, 5, sdmmc3_dat0_pp5, sdmmc3, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x028, P, 4, sdmmc3_dat1_pp4, sdmmc3, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x02c, P, 3, sdmmc3_dat2_pp3, sdmmc3, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x030, P, 2, sdmmc3_dat3_pp2, sdmmc3, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x038, A, 0, pex_l0_rst_n_pa0, pe0, rsvd1, rsvd2, rsvd3, 0xa5c, 12, 5, 20, 5), GMUX(0x03c, A, 1, pex_l0_clkreq_n_pa1, pe0, rsvd1, rsvd2, rsvd3, 0xa58, 12, 5, 20, 5), GMUX(0x040, A, 2, pex_wake_n_pa2, pe, rsvd1, rsvd2, rsvd3, 0xa68, 12, 5, 20, 5), GMUX(0x044, A, 3, pex_l1_rst_n_pa3, pe1, rsvd1, rsvd2, rsvd3, 0xa64, 12, 5, 20, 5), GMUX(0x048, A, 4, pex_l1_clkreq_n_pa4, pe1, rsvd1, rsvd2, rsvd3, 0xa60, 12, 5, 20, 5), GMUX(0x04c, A, 5, sata_led_active_pa5, sata, rsvd1, rsvd2, rsvd3, 0xa94, 12, 5, 20, 5), GMUX(0x050, C, 0, spi1_mosi_pc0, spi1, rsvd1, rsvd2, rsvd3, 0xae0, 0, 0, 0, 0), GMUX(0x054, C, 1, spi1_miso_pc1, spi1, rsvd1, rsvd2, rsvd3, 0xadc, 0, 0, 0, 0), GMUX(0x058, C, 2, spi1_sck_pc2, spi1, rsvd1, rsvd2, rsvd3, 0xae4, 0, 0, 0, 0), GMUX(0x05c, C, 3, spi1_cs0_pc3, spi1, rsvd1, rsvd2, rsvd3, 0xad4, 0, 0, 0, 0), GMUX(0x060, C, 4, spi1_cs1_pc4, spi1, rsvd1, rsvd2, rsvd3, 0xad8, 0, 0, 0, 0), GMUX(0x064, B, 4, spi2_mosi_pb4, spi2, dtv, rsvd2, rsvd3, 0xaf4, 0, 0, 0, 0), GMUX(0x068, B, 5, spi2_miso_pb5, spi2, dtv, rsvd2, rsvd3, 0xaf0, 0, 0, 0, 0), GMUX(0x06c, B, 6, spi2_sck_pb6, spi2, dtv, rsvd2, rsvd3, 0xaf8, 0, 0, 0, 0), GMUX(0x070, B, 7, spi2_cs0_pb7, spi2, dtv, rsvd2, rsvd3, 0xae8, 0, 0, 0, 0), GMUX(0x074, DD, 0, spi2_cs1_pdd0, spi2, rsvd1, rsvd2, rsvd3, 0xaec, 0, 0, 0, 0), GMUX(0x078, C, 7, spi4_mosi_pc7, spi4, rsvd1, rsvd2, rsvd3, 0xb04, 0, 0, 0, 0), GMUX(0x07c, D, 0, spi4_miso_pd0, spi4, rsvd1, rsvd2, rsvd3, 0xb00, 0, 0, 0, 0), GMUX(0x080, C, 5, spi4_sck_pc5, spi4, rsvd1, rsvd2, rsvd3, 0xb08, 0, 0, 0, 0), GMUX(0x084, C, 6, spi4_cs0_pc6, spi4, rsvd1, rsvd2, rsvd3, 0xafc, 0, 0, 0, 0), GMUX(0x088, EE, 0, qspi_sck_pee0, qspi, rsvd1, rsvd2, rsvd3, 0xa90, 0, 0, 0, 0), GMUX(0x08c, EE, 1, qspi_cs_n_pee1, qspi, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x090, EE, 2, qspi_io0_pee2, qspi, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x094, EE, 3, qspi_io1_pee3, qspi, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x098, EE, 4, qspi_io2_pee4, qspi, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x09c, EE, 5, qspi_io3_pee5, qspi, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x0a4, E, 0, dmic1_clk_pe0, dmic1, i2s3, rsvd2, rsvd3, 0x984, 12, 5, 20, 5), GMUX(0x0a8, E, 1, dmic1_dat_pe1, dmic1, i2s3, rsvd2, rsvd3, 0x988, 12, 5, 20, 5), GMUX(0x0ac, E, 2, dmic2_clk_pe2, dmic2, i2s3, rsvd2, rsvd3, 0x98c, 12, 5, 20, 5), GMUX(0x0b0, E, 3, dmic2_dat_pe3, dmic2, i2s3, rsvd2, rsvd3, 0x990, 12, 5, 20, 5), GMUX(0x0b4, E, 4, dmic3_clk_pe4, dmic3, i2s5a, rsvd2, rsvd3, 0x994, 12, 5, 20, 5), GMUX(0x0b8, E, 5, dmic3_dat_pe5, dmic3, i2s5a, rsvd2, rsvd3, 0x998, 12, 5, 20, 5), GMUX(0x0bc, J, 1, gen1_i2c_scl_pj1, i2c1, rsvd1, rsvd2, rsvd3, 0x9a8, 12, 5, 20, 5), GMUX(0x0c0, J, 0, gen1_i2c_sda_pj0, i2c1, rsvd1, rsvd2, rsvd3, 0x9ac, 12, 5, 20, 5), GMUX(0x0c4, J, 2, gen2_i2c_scl_pj2, i2c2, rsvd1, rsvd2, rsvd3, 0x9b0, 12, 5, 20, 5), GMUX(0x0c8, J, 3, gen2_i2c_sda_pj3, i2c2, rsvd1, rsvd2, rsvd3, 0x9b4, 12, 5, 20, 5), GMUX(0x0cc, F, 0, gen3_i2c_scl_pf0, i2c3, rsvd1, rsvd2, rsvd3, 0x9b8, 12, 5, 20, 5), GMUX(0x0d0, F, 1, gen3_i2c_sda_pf1, i2c3, rsvd1, rsvd2, rsvd3, 0x9bc, 12, 5, 20, 5), GMUX(0x0d4, S, 2, cam_i2c_scl_ps2, i2c3, i2cvi, rsvd2, rsvd3, 0x934, 12, 5, 20, 5), GMUX(0x0d8, S, 3, cam_i2c_sda_ps3, i2c3, i2cvi, rsvd2, rsvd3, 0x938, 12, 5, 20, 5), GMUX(0x0dc, Y, 3, pwr_i2c_scl_py3, i2cpmu, rsvd1, rsvd2, rsvd3, 0xa6c, 12, 5, 20, 5), GMUX(0x0e0, Y, 4, pwr_i2c_sda_py4, i2cpmu, rsvd1, rsvd2, rsvd3, 0xa70, 12, 5, 20, 5), GMUX(0x0e4, U, 0, uart1_tx_pu0, uarta, rsvd1, rsvd2, rsvd3, 0xb28, 12, 5, 20, 5), GMUX(0x0e8, U, 1, uart1_rx_pu1, uarta, rsvd1, rsvd2, rsvd3, 0xb24, 12, 5, 20, 5), GMUX(0x0ec, U, 2, uart1_rts_pu2, uarta, rsvd1, rsvd2, rsvd3, 0xb20, 12, 5, 20, 5), GMUX(0x0f0, U, 3, uart1_cts_pu3, uarta, rsvd1, rsvd2, rsvd3, 0xb1c, 12, 5, 20, 5), GMUX(0x0f4, G, 0, uart2_tx_pg0, uartb, i2s4a, spdif, uart, 0xb38, 12, 5, 20, 5), GMUX(0x0f8, G, 1, uart2_rx_pg1, uartb, i2s4a, spdif, uart, 0xb34, 12, 5, 20, 5), GMUX(0x0fc, G, 2, uart2_rts_pg2, uartb, i2s4a, rsvd2, uart, 0xb30, 12, 5, 20, 5), GMUX(0x100, G, 3, uart2_cts_pg3, uartb, i2s4a, rsvd2, uart, 0xb2c, 12, 5, 20, 5), GMUX(0x104, D, 1, uart3_tx_pd1, uartc, spi4, rsvd2, rsvd3, 0xb48, 12, 5, 20, 5), GMUX(0x108, D, 2, uart3_rx_pd2, uartc, spi4, rsvd2, rsvd3, 0xb44, 12, 5, 20, 5), GMUX(0x10c, D, 3, uart3_rts_pd3, uartc, spi4, rsvd2, rsvd3, 0xb40, 12, 5, 20, 5), GMUX(0x110, D, 4, uart3_cts_pd4, uartc, spi4, rsvd2, rsvd3, 0xb3c, 12, 5, 20, 5), GMUX(0x114, I, 4, uart4_tx_pi4, uartd, uart, rsvd2, rsvd3, 0xb58, 12, 5, 20, 5), GMUX(0x118, I, 5, uart4_rx_pi5, uartd, uart, rsvd2, rsvd3, 0xb54, 12, 5, 20, 5), GMUX(0x11c, I, 6, uart4_rts_pi6, uartd, uart, rsvd2, rsvd3, 0xb50, 12, 5, 20, 5), GMUX(0x120, I, 7, uart4_cts_pi7, uartd, uart, rsvd2, rsvd3, 0xb4c, 12, 5, 20, 5), GMUX(0x124, B, 0, dap1_fs_pb0, i2s1, rsvd1, rsvd2, rsvd3, 0x95c, 0, 0, 0, 0), GMUX(0x128, B, 1, dap1_din_pb1, i2s1, rsvd1, rsvd2, rsvd3, 0x954, 0, 0, 0, 0), GMUX(0x12c, B, 2, dap1_dout_pb2, i2s1, rsvd1, rsvd2, rsvd3, 0x958, 0, 0, 0, 0), GMUX(0x130, B, 3, dap1_sclk_pb3, i2s1, rsvd1, rsvd2, rsvd3, 0x960, 0, 0, 0, 0), GMUX(0x134, AA, 0, dap2_fs_paa0, i2s2, rsvd1, rsvd2, rsvd3, 0x96c, 0, 0, 0, 0), GMUX(0x138, AA, 2, dap2_din_paa2, i2s2, rsvd1, rsvd2, rsvd3, 0x964, 0, 0, 0, 0), GMUX(0x13c, AA, 3, dap2_dout_paa3, i2s2, rsvd1, rsvd2, rsvd3, 0x968, 0, 0, 0, 0), GMUX(0x140, AA, 1, dap2_sclk_paa1, i2s2, rsvd1, rsvd2, rsvd3, 0x970, 0, 0, 0, 0), GMUX(0x144, J, 4, dap4_fs_pj4, i2s4b, rsvd1, rsvd2, rsvd3, 0x97c, 12, 5, 20, 5), GMUX(0x148, J, 5, dap4_din_pj5, i2s4b, rsvd1, rsvd2, rsvd3, 0x974, 12, 5, 20, 5), GMUX(0x14c, J, 6, dap4_dout_pj6, i2s4b, rsvd1, rsvd2, rsvd3, 0x978, 12, 5, 20, 5), GMUX(0x150, J, 7, dap4_sclk_pj7, i2s4b, rsvd1, rsvd2, rsvd3, 0x980, 12, 5, 20, 5), GMUX(0x154, S, 0, cam1_mclk_ps0, extperiph3, rsvd1, rsvd2, rsvd3, 0x918, 12, 5, 20, 5), GMUX(0x158, S, 1, cam2_mclk_ps1, extperiph3, rsvd1, rsvd2, rsvd3, 0x924, 12, 5, 20, 5), FMUX(0x15c, jtag_rtck, jtag, rsvd1, rsvd2, rsvd3, 0xa2c, 12, 5, 20, 5), FMUX(0x160, clk_32k_in, clk, rsvd1, rsvd2, rsvd3, 0x940, 12, 5, 20, 5), GMUX(0x164, Y, 5, clk_32k_out_py5, soc, blink, rsvd2, rsvd3, 0x944, 12, 5, 20, 5), FMUX(0x168, batt_bcl, bcl, rsvd1, rsvd2, rsvd3, 0x8f8, 12, 5, 20, 5), FMUX(0x16c, clk_req, sys, rsvd1, rsvd2, rsvd3, 0x948, 12, 5, 20, 5), FMUX(0x170, cpu_pwr_req, cpu, rsvd1, rsvd2, rsvd3, 0x950, 12, 5, 20, 5), FMUX(0x174, pwr_int_n, pmi, rsvd1, rsvd2, rsvd3, 0xa74, 12, 5, 20, 5), FMUX(0x178, shutdown, shutdown, rsvd1, rsvd2, rsvd3, 0xac8, 12, 5, 20, 5), FMUX(0x17c, core_pwr_req, core, rsvd1, rsvd2, rsvd3, 0x94c, 12, 5, 20, 5), GMUX(0x180, BB, 0, aud_mclk_pbb0, aud, rsvd1, rsvd2, rsvd3, 0x8f4, 12, 5, 20, 5), GMUX(0x184, BB, 1, dvfs_pwm_pbb1, rsvd0, cldvfs, spi3, rsvd3, 0x9a4, 12, 5, 20, 5), GMUX(0x188, BB, 2, dvfs_clk_pbb2, rsvd0, cldvfs, spi3, rsvd3, 0x9a0, 12, 5, 20, 5), GMUX(0x18c, BB, 3, gpio_x1_aud_pbb3, rsvd0, rsvd1, spi3, rsvd3, 0xa14, 12, 5, 20, 5), GMUX(0x190, BB, 4, gpio_x3_aud_pbb4, rsvd0, rsvd1, spi3, rsvd3, 0xa18, 12, 5, 20, 5), GMUX(0x194, CC, 7, pcc7, rsvd0, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x198, CC, 0, hdmi_cec_pcc0, cec, rsvd1, rsvd2, rsvd3, 0xa24, 12, 5, 20, 5), GMUX(0x19c, CC, 1, hdmi_int_dp_hpd_pcc1, dp, rsvd1, rsvd2, rsvd3, 0xa28, 12, 5, 20, 5), GMUX(0x1a0, CC, 2, spdif_out_pcc2, spdif, rsvd1, rsvd2, rsvd3, 0xad0, 12, 5, 20, 5), GMUX(0x1a4, CC, 3, spdif_in_pcc3, spdif, rsvd1, rsvd2, rsvd3, 0xacc, 12, 5, 20, 5), GMUX(0x1a8, CC, 4, usb_vbus_en0_pcc4, usb, rsvd1, rsvd2, rsvd3, 0xb5c, 12, 5, 20, 5), GMUX(0x1ac, CC, 5, usb_vbus_en1_pcc5, usb, rsvd1, rsvd2, rsvd3, 0xb60, 12, 5, 20, 5), GMUX(0x1b0, CC, 6, dp_hpd0_pcc6, dp, rsvd1, rsvd2, rsvd3, 0x99c, 12, 5, 20, 5), GMUX(0x1b4, H, 0, wifi_en_ph0, rsvd0, rsvd1, rsvd2, rsvd3, 0xb64, 12, 5, 20, 5), GMUX(0x1b8, H, 1, wifi_rst_ph1, rsvd0, rsvd1, rsvd2, rsvd3, 0xb68, 12, 5, 20, 5), GMUX(0x1bc, H, 2, wifi_wake_ap_ph2, rsvd0, rsvd1, rsvd2, rsvd3, 0xb6c, 12, 5, 20, 5), GMUX(0x1c0, H, 3, ap_wake_bt_ph3, rsvd0, uartb, spdif, rsvd3, 0x8ec, 12, 5, 20, 5), GMUX(0x1c4, H, 4, bt_rst_ph4, rsvd0, uartb, spdif, rsvd3, 0x8fc, 12, 5, 20, 5), GMUX(0x1c8, H, 5, bt_wake_ap_ph5, rsvd0, rsvd1, rsvd2, rsvd3, 0x900, 12, 5, 20, 5), GMUX(0x1cc, H, 7, ap_wake_nfc_ph7, rsvd0, rsvd1, rsvd2, rsvd3, 0x8f0, 12, 5, 20, 5), GMUX(0x1d0, I, 0, nfc_en_pi0, rsvd0, rsvd1, rsvd2, rsvd3, 0xa50, 12, 5, 20, 5), GMUX(0x1d4, I, 1, nfc_int_pi1, rsvd0, rsvd1, rsvd2, rsvd3, 0xa54, 12, 5, 20, 5), GMUX(0x1d8, I, 2, gps_en_pi2, rsvd0, rsvd1, rsvd2, rsvd3, 0xa1c, 12, 5, 20, 5), GMUX(0x1dc, I, 3, gps_rst_pi3, rsvd0, rsvd1, rsvd2, rsvd3, 0xa20, 12, 5, 20, 5), GMUX(0x1e0, S, 4, cam_rst_ps4, vgp1, rsvd1, rsvd2, rsvd3, 0x93c, 12, 5, 20, 5), GMUX(0x1e4, S, 5, cam_af_en_ps5, vimclk, vgp2, rsvd2, rsvd3, 0x92c, 12, 5, 20, 5), GMUX(0x1e8, S, 6, cam_flash_en_ps6, vimclk, vgp3, rsvd2, rsvd3, 0x930, 12, 5, 20, 5), GMUX(0x1ec, S, 7, cam1_pwdn_ps7, vgp4, rsvd1, rsvd2, rsvd3, 0x91c, 12, 5, 20, 5), GMUX(0x1f0, T, 0, cam2_pwdn_pt0, vgp5, rsvd1, rsvd2, rsvd3, 0x928, 12, 5, 20, 5), GMUX(0x1f4, T, 1, cam1_strobe_pt1, vgp6, rsvd1, rsvd2, rsvd3, 0x920, 12, 5, 20, 5), GMUX(0x1f8, Y, 2, lcd_te_py2, displaya, rsvd1, rsvd2, rsvd3, 0xa44, 12, 5, 20, 5), GMUX(0x1fc, V, 0, lcd_bl_pwm_pv0, displaya, pwm0, sor0, rsvd3, 0xa34, 12, 5, 20, 5), GMUX(0x200, V, 1, lcd_bl_en_pv1, rsvd0, rsvd1, rsvd2, rsvd3, 0xa30, 12, 5, 20, 5), GMUX(0x204, V, 2, lcd_rst_pv2, rsvd0, rsvd1, rsvd2, rsvd3, 0xa40, 12, 5, 20, 5), GMUX(0x208, V, 3, lcd_gpio1_pv3, displayb, rsvd1, rsvd2, rsvd3, 0xa38, 12, 5, 20, 5), GMUX(0x20c, V, 4, lcd_gpio2_pv4, displayb, pwm1, rsvd2, sor1, 0xa3c, 12, 5, 20, 5), GMUX(0x210, V, 5, ap_ready_pv5, rsvd0, rsvd1, rsvd2, rsvd3, 0x8e8, 12, 5, 20, 5), GMUX(0x214, V, 6, touch_rst_pv6, rsvd0, rsvd1, rsvd2, rsvd3, 0xb18, 12, 5, 20, 5), GMUX(0x218, V, 7, touch_clk_pv7, touch, rsvd1, rsvd2, rsvd3, 0xb10, 12, 5, 20, 5), GMUX(0x21c, X, 0, modem_wake_ap_px0, rsvd0, rsvd1, rsvd2, rsvd3, 0xa48, 12, 5, 20, 5), GMUX(0x220, X, 1, touch_int_px1, rsvd0, rsvd1, rsvd2, rsvd3, 0xb14, 12, 5, 20, 5), GMUX(0x224, X, 2, motion_int_px2, rsvd0, rsvd1, rsvd2, rsvd3, 0xa4c, 12, 5, 20, 5), GMUX(0x228, X, 3, als_prox_int_px3, rsvd0, rsvd1, rsvd2, rsvd3, 0x8e4, 12, 5, 20, 5), GMUX(0x22c, X, 4, temp_alert_px4, rsvd0, rsvd1, rsvd2, rsvd3, 0xb0c, 12, 5, 20, 5), GMUX(0x230, X, 5, button_power_on_px5, rsvd0, rsvd1, rsvd2, rsvd3, 0x908, 12, 5, 20, 5), GMUX(0x234, X, 6, button_vol_up_px6, rsvd0, rsvd1, rsvd2, rsvd3, 0x914, 12, 5, 20, 5), GMUX(0x238, X, 7, button_vol_down_px7, rsvd0, rsvd1, rsvd2, rsvd3, 0x910, 12, 5, 20, 5), GMUX(0x23c, Y, 0, button_slide_sw_py0, rsvd0, rsvd1, rsvd2, rsvd3, 0x90c, 12, 5, 20, 5), GMUX(0x240, Y, 1, button_home_py1, rsvd0, rsvd1, rsvd2, rsvd3, 0x904, 12, 5, 20, 5), GMUX(0x244, A, 6, pa6, sata, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x248, E, 6, pe6, rsvd0, i2s5a, pwm2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x24c, E, 7, pe7, rsvd0, i2s5a, pwm3, rsvd3, -1, 0, 0, 0, 0), GMUX(0x250, H, 6, ph6, rsvd0, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x254, K, 0, pk0, iqc0, i2s5b, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x258, K, 1, pk1, iqc0, i2s5b, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x25c, K, 2, pk2, iqc0, i2s5b, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x260, K, 3, pk3, iqc0, i2s5b, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x264, K, 4, pk4, iqc1, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x268, K, 5, pk5, iqc1, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x26c, K, 6, pk6, iqc1, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x270, K, 7, pk7, iqc1, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x274, L, 0, pl0, rsvd0, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x278, L, 1, pl1, soc, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x27c, Z, 0, pz0, vimclk2, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x280, Z, 1, pz1, vimclk2, sdmmc1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x284, Z, 2, pz2, sdmmc3, ccla, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x288, Z, 3, pz3, sdmmc3, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x28c, Z, 4, pz4, sdmmc1, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), GMUX(0x290, Z, 5, pz5, soc, rsvd1, rsvd2, rsvd3, -1, 0, 0, 0, 0), }; static const struct tegra_grp * pinmux_search_grp(char *grp_name) { int i; for (i = 0; i < nitems(pin_grp_tbl); i++) { if (strcmp(grp_name, pin_grp_tbl[i].name) == 0) return (&pin_grp_tbl[i]); } return (NULL); } static const struct tegra_mux * pinmux_search_mux(char *pin_name) { int i; for (i = 0; i < nitems(pin_mux_tbl); i++) { if (strcmp(pin_name, pin_mux_tbl[i].name) == 0) return (&pin_mux_tbl[i]); } return (NULL); } static int pinmux_mux_function(const struct tegra_mux *mux, char *fnc_name) { int i; for (i = 0; i < 4; i++) { if (strcmp(fnc_name, mux->functions[i]) == 0) return (i); } return (-1); } static int pinmux_config_mux(struct pinmux_softc *sc, char *pin_name, const struct tegra_mux *mux, struct pincfg *cfg) { int tmp; uint32_t reg; reg = bus_read_4(sc->mux_mem_res, mux->reg); if (cfg->function != NULL) { tmp = pinmux_mux_function(mux, cfg->function); if (tmp == -1) { device_printf(sc->dev, "Unknown function %s for pin %s\n", cfg->function, pin_name); return (ENXIO); } reg &= ~(TEGRA_MUX_FUNCTION_MASK << TEGRA_MUX_FUNCTION_SHIFT); reg |= (tmp & TEGRA_MUX_FUNCTION_MASK) << TEGRA_MUX_FUNCTION_SHIFT; } if (cfg->params[PROP_ID_PULL] != -1) { reg &= ~(TEGRA_MUX_PUPD_MASK << TEGRA_MUX_PUPD_SHIFT); reg |= (cfg->params[PROP_ID_PULL] & TEGRA_MUX_PUPD_MASK) << TEGRA_MUX_PUPD_SHIFT; } if (cfg->params[PROP_ID_TRISTATE] != -1) { reg &= ~(1 << TEGRA_MUX_TRISTATE_SHIFT); reg |= (cfg->params[PROP_ID_TRISTATE] & 1) << TEGRA_MUX_TRISTATE_SHIFT; } if (cfg->params[TEGRA_MUX_ENABLE_INPUT_SHIFT] != -1) { reg &= ~(1 << TEGRA_MUX_ENABLE_INPUT_SHIFT); reg |= (cfg->params[TEGRA_MUX_ENABLE_INPUT_SHIFT] & 1) << TEGRA_MUX_ENABLE_INPUT_SHIFT; } if (cfg->params[PROP_ID_ENABLE_INPUT] != -1) { reg &= ~(1 << TEGRA_MUX_ENABLE_INPUT_SHIFT); reg |= (cfg->params[PROP_ID_ENABLE_INPUT] & 1) << TEGRA_MUX_ENABLE_INPUT_SHIFT; } if (cfg->params[PROP_ID_ENABLE_INPUT] != -1) { reg &= ~(1 << TEGRA_MUX_ENABLE_INPUT_SHIFT); reg |= (cfg->params[PROP_ID_OPEN_DRAIN] & 1) << TEGRA_MUX_ENABLE_INPUT_SHIFT; } if (cfg->params[PROP_ID_LOCK] != -1) { reg &= ~(1 << TEGRA_MUX_LOCK_SHIFT); reg |= (cfg->params[PROP_ID_LOCK] & 1) << TEGRA_MUX_LOCK_SHIFT; } if (cfg->params[PROP_ID_IORESET] != -1) { reg &= ~(1 << TEGRA_MUX_IORESET_SHIFT); reg |= (cfg->params[PROP_ID_IORESET] & 1) << TEGRA_MUX_IORESET_SHIFT; } if (cfg->params[PROP_ID_RCV_SEL] != -1) { reg &= ~(1 << TEGRA_MUX_RCV_SEL_SHIFT); reg |= (cfg->params[PROP_ID_RCV_SEL] & 1) << TEGRA_MUX_RCV_SEL_SHIFT; } bus_write_4(sc->mux_mem_res, mux->reg, reg); return (0); } static int pinmux_config_grp(struct pinmux_softc *sc, char *grp_name, const struct tegra_grp *grp, struct pincfg *cfg) { uint32_t reg; reg = bus_read_4(sc->pad_mem_res, grp->reg); if (cfg->params[PROP_ID_HIGH_SPEED_MODE] != -1) { reg &= ~(1 << TEGRA_GRP_HSM_SHIFT); reg |= (cfg->params[PROP_ID_HIGH_SPEED_MODE] & 1) << TEGRA_GRP_HSM_SHIFT; } if (cfg->params[PROP_ID_SCHMITT] != -1) { reg &= ~(1 << TEGRA_GRP_SCHMT_SHIFT); reg |= (cfg->params[PROP_ID_SCHMITT] & 1) << TEGRA_GRP_SCHMT_SHIFT; } if (cfg->params[PROP_ID_DRIVE_TYPE] != -1) { reg &= ~(TEGRA_GRP_DRV_TYPE_MASK << TEGRA_GRP_DRV_TYPE_SHIFT); reg |= (cfg->params[PROP_ID_DRIVE_TYPE] & TEGRA_GRP_DRV_TYPE_MASK) << TEGRA_GRP_DRV_TYPE_SHIFT; } if (cfg->params[PROP_ID_SLEW_RATE_RISING] != -1) { reg &= ~(TEGRA_GRP_DRV_DRVDN_SLWR_MASK << TEGRA_GRP_DRV_DRVDN_SLWR_SHIFT); reg |= (cfg->params[PROP_ID_SLEW_RATE_RISING] & TEGRA_GRP_DRV_DRVDN_SLWR_MASK) << TEGRA_GRP_DRV_DRVDN_SLWR_SHIFT; } if (cfg->params[PROP_ID_SLEW_RATE_FALLING] != -1) { reg &= ~(TEGRA_GRP_DRV_DRVUP_SLWF_MASK << TEGRA_GRP_DRV_DRVUP_SLWF_SHIFT); reg |= (cfg->params[PROP_ID_SLEW_RATE_FALLING] & TEGRA_GRP_DRV_DRVUP_SLWF_MASK) << TEGRA_GRP_DRV_DRVUP_SLWF_SHIFT; } if ((cfg->params[PROP_ID_DRIVE_DOWN_STRENGTH] != -1) && (grp->drvdn_mask != 0)) { reg &= ~(grp->drvdn_shift << grp->drvdn_mask); reg |= (cfg->params[PROP_ID_DRIVE_DOWN_STRENGTH] & grp->drvdn_mask) << grp->drvdn_shift; } if ((cfg->params[PROP_ID_DRIVE_UP_STRENGTH] != -1) && (grp->drvup_mask != 0)) { reg &= ~(grp->drvup_shift << grp->drvup_mask); reg |= (cfg->params[PROP_ID_DRIVE_UP_STRENGTH] & grp->drvup_mask) << grp->drvup_shift; } bus_write_4(sc->pad_mem_res, grp->reg, reg); return (0); } static int pinmux_config_node(struct pinmux_softc *sc, char *pin_name, struct pincfg *cfg) { const struct tegra_mux *mux; const struct tegra_grp *grp; bool handled; int rv; /* Handle pin muxes */ mux = pinmux_search_mux(pin_name); handled = false; if (mux != NULL) { if (mux->gpio_num != -1) { /* XXXX TODO: Reserve gpio here */ } rv = pinmux_config_mux(sc, pin_name, mux, cfg); if (rv != 0) return (rv); if (mux->grp.reg <= 0) { rv = pinmux_config_grp(sc, pin_name, &mux->grp, cfg); return (rv); } handled = true; } /* And/or handle pin groups */ grp = pinmux_search_grp(pin_name); if (grp != NULL) { rv = pinmux_config_grp(sc, pin_name, grp, cfg); if (rv != 0) return (rv); handled = true; } if (!handled) { device_printf(sc->dev, "Unknown pin: %s\n", pin_name); return (ENXIO); } return (0); } static int pinmux_read_node(struct pinmux_softc *sc, phandle_t node, struct pincfg *cfg, char **pins, int *lpins) { int rv, i; *lpins = OF_getprop_alloc(node, "nvidia,pins", (void **)pins); if (*lpins <= 0) return (ENOENT); /* Read function (mux) settings. */ rv = OF_getprop_alloc(node, "nvidia,function", (void **)&cfg->function); if (rv <= 0) cfg->function = NULL; /* Read numeric properties. */ for (i = 0; i < PROP_ID_MAX_ID; i++) { rv = OF_getencprop(node, prop_names[i].name, &cfg->params[i], sizeof(cfg->params[i])); if (rv <= 0) cfg->params[i] = -1; } return (0); } static int pinmux_process_node(struct pinmux_softc *sc, phandle_t node) { struct pincfg cfg; char *pins, *pname; int i, len, lpins, rv; rv = pinmux_read_node(sc, node, &cfg, &pins, &lpins); if (rv != 0) return (rv); len = 0; pname = pins; do { i = strlen(pname) + 1; rv = pinmux_config_node(sc, pname, &cfg); if (rv != 0) device_printf(sc->dev, "Cannot configure pin: %s: %d\n", pname, rv); len += i; pname += i; } while (len < lpins); if (pins != NULL) OF_prop_free(pins); if (cfg.function != NULL) OF_prop_free(cfg.function); return (rv); } static int pinmux_configure(device_t dev, phandle_t cfgxref) { struct pinmux_softc *sc; phandle_t node, cfgnode; int rv; sc = device_get_softc(dev); cfgnode = OF_node_from_xref(cfgxref); for (node = OF_child(cfgnode); node != 0; node = OF_peer(node)) { if (!ofw_bus_node_status_okay(node)) continue; rv = pinmux_process_node(sc, node); } return (0); } static int pinmux_probe(device_t dev) { if (!ofw_bus_status_okay(dev)) return (ENXIO); if (!ofw_bus_search_compatible(dev, compat_data)->ocd_data) return (ENXIO); device_set_desc(dev, "Tegra pin configuration"); return (BUS_PROBE_DEFAULT); } static int pinmux_detach(device_t dev) { /* This device is always present. */ return (EBUSY); } static int pinmux_attach(device_t dev) { struct pinmux_softc * sc; int rid; sc = device_get_softc(dev); sc->dev = dev; rid = 0; sc->pad_mem_res = bus_alloc_resource_any(dev, SYS_RES_MEMORY, &rid, RF_ACTIVE); if (sc->pad_mem_res == NULL) { device_printf(dev, "Cannot allocate memory resources\n"); return (ENXIO); } rid = 1; sc->mux_mem_res = bus_alloc_resource_any(dev, SYS_RES_MEMORY, &rid, RF_ACTIVE); if (sc->mux_mem_res == NULL) { device_printf(dev, "Cannot allocate memory resources\n"); return (ENXIO); } /* Register as a pinctrl device and process default configuration */ fdt_pinctrl_register(dev, NULL); fdt_pinctrl_configure_by_name(dev, "boot"); return (0); } static device_method_t tegra210_pinmux_methods[] = { /* Device interface */ DEVMETHOD(device_probe, pinmux_probe), DEVMETHOD(device_attach, pinmux_attach), DEVMETHOD(device_detach, pinmux_detach), /* fdt_pinctrl interface */ DEVMETHOD(fdt_pinctrl_configure,pinmux_configure), DEVMETHOD_END }; static devclass_t tegra210_pinmux_devclass; static DEFINE_CLASS_0(pinmux, tegra210_pinmux_driver, tegra210_pinmux_methods, sizeof(struct pinmux_softc)); EARLY_DRIVER_MODULE(tegra210_pinmux, simplebus, tegra210_pinmux_driver, tegra210_pinmux_devclass, NULL, NULL, 71);