/* SPDX-License-Identifier: GPL-2.0-only */ #include #include #include #include #include #include #include struct clk_dev_control { uint32_t *clk_enb_set; uint32_t *rst_dev_clr; }; struct funit_cfg_data { const char *name; void *ctlr_base; uint32_t *clk_src_reg; const struct clk_dev_control * const dev_control; uint32_t clk_enb_val; }; enum { CLK_L_SET = 0, CLK_H_SET = 1, CLK_U_SET = 2, CLK_V_SET = 3, CLK_W_SET = 4, CLK_X_SET = 5, CLK_Y_SET = 6, }; #define CLK_SET_REGS(x) \ { \ CLK_RST_REG(clk_enb_##x##_set), \ CLK_RST_REG(rst_dev_##x##_clr), \ } static const struct clk_dev_control clk_data_arr[] = { [CLK_L_SET] = CLK_SET_REGS(l), [CLK_H_SET] = CLK_SET_REGS(h), [CLK_U_SET] = CLK_SET_REGS(u), [CLK_V_SET] = CLK_SET_REGS(v), [CLK_W_SET] = CLK_SET_REGS(w), [CLK_X_SET] = CLK_SET_REGS(x), [CLK_Y_SET] = CLK_SET_REGS(y), }; #define FUNIT_DATA(funit_, loname_, clk_set_) \ [FUNIT_INDEX(funit_)] = { \ .name = STRINGIFY(loname_), \ .ctlr_base = (void *)(uintptr_t)TEGRA_##funit_##_BASE, \ .clk_src_reg = CLK_RST_REG(clk_src_##loname_), \ .dev_control = &clk_data_arr[CLK_##clk_set_##_SET], \ .clk_enb_val = CLK_##clk_set_##_##funit_, \ } #define FUNIT_DATA_USB(funit_, clk_set_) \ [FUNIT_INDEX(funit_)] = { \ .name = STRINGIFY(funit_), \ .ctlr_base = (void *)(uintptr_t)TEGRA_##funit_##_BASE, \ .dev_control = &clk_data_arr[CLK_##clk_set_##_SET], \ .clk_enb_val = CLK_##clk_set_##_##funit_, \ } static const struct funit_cfg_data funit_data[] = { FUNIT_DATA(I2C1, i2c1, L), FUNIT_DATA(I2C2, i2c2, H), FUNIT_DATA(I2C3, i2c3, U), FUNIT_DATA(I2C5, i2c5, H), FUNIT_DATA(I2C6, i2c6, X), FUNIT_DATA(SDMMC1, sdmmc1, L), FUNIT_DATA(SDMMC4, sdmmc4, L), FUNIT_DATA_USB(USBD, L), FUNIT_DATA_USB(USB2, H), FUNIT_DATA(QSPI, qspi, Y), FUNIT_DATA(I2S1, i2s1, L), }; _Static_assert(ARRAY_SIZE(funit_data) == FUNIT_INDEX_MAX, "funit_cfg_data array not filled out!"); static inline uint32_t get_clk_src_freq(uint32_t clk_src_freq_id) { uint32_t freq = 0; switch (clk_src_freq_id) { case CLK_M: freq = TEGRA_CLK_M_KHZ; break; case PLLP: freq = TEGRA_PLLP_KHZ; break; default: printk(BIOS_SPEW, "%s ERROR: Unknown clk_src %d\n", __func__, clk_src_freq_id); } return freq; } static void configure_clock(const struct funit_cfg * const entry, const struct funit_cfg_data * const funit) { const char *funit_i2c = "i2c"; uint32_t clk_div; uint32_t clk_div_mask; uint32_t clk_src_freq; clk_src_freq = get_clk_src_freq(entry->clk_src_freq_id); if (strncmp(funit->name, funit_i2c, strlen(funit_i2c)) == 0) { /* I2C funit */ clk_div = get_i2c_clk_div(clk_src_freq, entry->clk_dev_freq_khz); clk_div_mask = CLK_DIV_MASK_I2C; } else { /* Non I2C */ clk_div = get_clk_div(clk_src_freq, entry->clk_dev_freq_khz); clk_div_mask = CLK_DIV_MASK; } _clock_set_div(funit->clk_src_reg, funit->name, clk_div, clk_div_mask, entry->clk_src_id); } static inline int is_usb(uint32_t idx) { return (idx == FUNIT_USBD || idx == FUNIT_USB2); } void soc_configure_funits(const struct funit_cfg * const entries, size_t num) { size_t i; for (i = 0; i < num; i++) { const struct funit_cfg * const entry = &entries[i]; const struct funit_cfg_data *funit; const struct clk_dev_control *dev_control; int funit_usb = is_usb(entry->funit_index); if (entry->funit_index >= FUNIT_INDEX_MAX) { printk(BIOS_ERR, "Index out of bounds\n"); continue; } funit = &funit_data[entry->funit_index]; dev_control = funit->dev_control; /* USB controllers have a fixed clock source. */ if (!funit_usb) configure_clock(entry, funit); clock_grp_enable_clear_reset(funit->clk_enb_val, dev_control->clk_enb_set, dev_control->rst_dev_clr); if (funit_usb) usb_setup_utmip(funit->ctlr_base); soc_configure_pads(entry->pad_cfg,entry->pad_cfg_size); } } void __weak usb_setup_utmip(void *usb_base) { /* default empty implementation required if usb.c is not included */ printk(BIOS_ERR, "USB setup is not supported in current stage\n"); }