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528 529 530 531 532 533 534 535 536 537 538 539 540 541 542 543 544 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 560 561 562 563 564 565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580 581 582 583 584 585 586 587 588 589 590 591 592 593 594 595 596 597 598 599 600 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618 619 620 621 622 623 624 625 626 627 628 629 630 631 632 633 634 635 636 637 638 639 640 641 642 643 644 645 646 647 648 649 650 651 652 653 654 655 656 657 658 659 660 661 662 663 664 665 666 667 668 669 670 671 672 673 674 675 676 677 678 679 680 681 682 683 684 685 686 687 688 689 690 691 692 693 694 695 696 697 698 699 700 701 702 703 704 705 706 707 708 709 710 711 712 713 714 715 716 717 718 719 720 721 722 723 724 725 726 727 728 729 730 731 732 733 734 735 736 737 738 739 740 741 742 743 744 745 746 747 748 749 750 751 752 753 754 755 756 757 758 759 760 761 762 763 764 765 766 767 768 769 770 771 772 773 774 775 776 777 778 779 780 781 782 783 784 785 786 787 788 789 790 791 792 793 794 795 796 797 798 799 800 801 802 803 804 805 806 807 808 809 810 811 812 813 814 815 816 817 818 819 820 821 822 823 824 825 826 827 828 829 830 831 832 833 834 835 836 837 838 839 840 841 842 843 844 845 846 847 848 849 850 851 852 853 854 855 856 857 858 859 860 861 862 863 864 865 866 867 868 | // SPDX-License-Identifier: GPL-2.0-or-later // Copyright IBM Corp // Copyright ASPEED Technology #define pr_fmt(fmt) "clk-ast2600: " fmt #include <linux/mfd/syscon.h> #include <linux/of_address.h> #include <linux/of_device.h> #include <linux/platform_device.h> #include <linux/regmap.h> #include <linux/slab.h> #include <dt-bindings/clock/ast2600-clock.h> #include "clk-aspeed.h" /* * This includes the gates (configured from aspeed_g6_gates), plus the * explicitly-configured clocks (ASPEED_CLK_HPLL and up). */ #define ASPEED_G6_NUM_CLKS 72 #define ASPEED_G6_SILICON_REV 0x014 #define CHIP_REVISION_ID GENMASK(23, 16) #define ASPEED_G6_RESET_CTRL 0x040 #define ASPEED_G6_RESET_CTRL2 0x050 #define ASPEED_G6_CLK_STOP_CTRL 0x080 #define ASPEED_G6_CLK_STOP_CTRL2 0x090 #define ASPEED_G6_MISC_CTRL 0x0C0 #define UART_DIV13_EN BIT(12) #define ASPEED_G6_CLK_SELECTION1 0x300 #define ASPEED_G6_CLK_SELECTION2 0x304 #define ASPEED_G6_CLK_SELECTION4 0x310 #define ASPEED_G6_CLK_SELECTION5 0x314 #define I3C_CLK_SELECTION_SHIFT 31 #define I3C_CLK_SELECTION BIT(31) #define I3C_CLK_SELECT_HCLK (0 << I3C_CLK_SELECTION_SHIFT) #define I3C_CLK_SELECT_APLL_DIV (1 << I3C_CLK_SELECTION_SHIFT) #define APLL_DIV_SELECTION_SHIFT 28 #define APLL_DIV_SELECTION GENMASK(30, 28) #define APLL_DIV_2 (0b001 << APLL_DIV_SELECTION_SHIFT) #define APLL_DIV_3 (0b010 << APLL_DIV_SELECTION_SHIFT) #define APLL_DIV_4 (0b011 << APLL_DIV_SELECTION_SHIFT) #define APLL_DIV_5 (0b100 << APLL_DIV_SELECTION_SHIFT) #define APLL_DIV_6 (0b101 << APLL_DIV_SELECTION_SHIFT) #define APLL_DIV_7 (0b110 << APLL_DIV_SELECTION_SHIFT) #define APLL_DIV_8 (0b111 << APLL_DIV_SELECTION_SHIFT) #define ASPEED_HPLL_PARAM 0x200 #define ASPEED_APLL_PARAM 0x210 #define ASPEED_MPLL_PARAM 0x220 #define ASPEED_EPLL_PARAM 0x240 #define ASPEED_DPLL_PARAM 0x260 #define ASPEED_G6_STRAP1 0x500 #define ASPEED_MAC12_CLK_DLY 0x340 #define ASPEED_MAC34_CLK_DLY 0x350 /* Globally visible clocks */ static DEFINE_SPINLOCK(aspeed_g6_clk_lock); /* Keeps track of all clocks */ static struct clk_hw_onecell_data *aspeed_g6_clk_data; static void __iomem *scu_g6_base; /* AST2600 revision: A0, A1, A2, etc */ static u8 soc_rev; /* * The majority of the clocks in the system are gates paired with a reset * controller that holds the IP in reset; this is represented by the @reset_idx * member of entries here. * * This borrows from clk_hw_register_gate, but registers two 'gates', one * to control the clock enable register and the other to control the reset * IP. This allows us to enforce the ordering: * * 1. Place IP in reset * 2. Enable clock * 3. Delay * 4. Release reset * * Consequently, if reset_idx is set, reset control is implicit: the clock * consumer does not need its own reset handling, as enabling the clock will * also deassert reset. * * There are some gates that do not have an associated reset; these are * handled by using -1 as the index for the reset, and the consumer must * explictly assert/deassert reset lines as required. * * Clocks marked with CLK_IS_CRITICAL: * * ref0 and ref1 are essential for the SoC to operate * mpll is required if SDRAM is used */ static const struct aspeed_gate_data aspeed_g6_gates[] = { /* clk rst name parent flags */ [ASPEED_CLK_GATE_MCLK] = { 0, -1, "mclk-gate", "mpll", CLK_IS_CRITICAL }, /* SDRAM */ [ASPEED_CLK_GATE_ECLK] = { 1, 6, "eclk-gate", "eclk", 0 }, /* Video Engine */ [ASPEED_CLK_GATE_GCLK] = { 2, 7, "gclk-gate", NULL, 0 }, /* 2D engine */ /* vclk parent - dclk/d1clk/hclk/mclk */ [ASPEED_CLK_GATE_VCLK] = { 3, -1, "vclk-gate", NULL, 0 }, /* Video Capture */ [ASPEED_CLK_GATE_BCLK] = { 4, 8, "bclk-gate", "bclk", 0 }, /* PCIe/PCI */ /* From dpll */ [ASPEED_CLK_GATE_DCLK] = { 5, -1, "dclk-gate", NULL, CLK_IS_CRITICAL }, /* DAC */ [ASPEED_CLK_GATE_REF0CLK] = { 6, -1, "ref0clk-gate", "clkin", CLK_IS_CRITICAL }, [ASPEED_CLK_GATE_USBPORT2CLK] = { 7, 3, "usb-port2-gate", NULL, 0 }, /* USB2.0 Host port 2 */ /* Reserved 8 */ [ASPEED_CLK_GATE_USBUHCICLK] = { 9, 15, "usb-uhci-gate", NULL, 0 }, /* USB1.1 (requires port 2 enabled) */ /* From dpll/epll/40mhz usb p1 phy/gpioc6/dp phy pll */ [ASPEED_CLK_GATE_D1CLK] = { 10, 13, "d1clk-gate", "d1clk", 0 }, /* GFX CRT */ /* Reserved 11/12 */ [ASPEED_CLK_GATE_YCLK] = { 13, 4, "yclk-gate", NULL, 0 }, /* HAC */ [ASPEED_CLK_GATE_USBPORT1CLK] = { 14, 14, "usb-port1-gate", NULL, 0 }, /* USB2 hub/USB2 host port 1/USB1.1 dev */ [ASPEED_CLK_GATE_UART5CLK] = { 15, -1, "uart5clk-gate", "uart", 0 }, /* UART5 */ /* Reserved 16/19 */ [ASPEED_CLK_GATE_MAC1CLK] = { 20, 11, "mac1clk-gate", "mac12", 0 }, /* MAC1 */ [ASPEED_CLK_GATE_MAC2CLK] = { 21, 12, "mac2clk-gate", "mac12", 0 }, /* MAC2 */ /* Reserved 22/23 */ [ASPEED_CLK_GATE_RSACLK] = { 24, 4, "rsaclk-gate", NULL, 0 }, /* HAC */ [ASPEED_CLK_GATE_RVASCLK] = { 25, 9, "rvasclk-gate", NULL, 0 }, /* RVAS */ /* Reserved 26 */ [ASPEED_CLK_GATE_EMMCCLK] = { 27, 16, "emmcclk-gate", NULL, 0 }, /* For card clk */ /* Reserved 28/29/30 */ [ASPEED_CLK_GATE_LCLK] = { 32, 32, "lclk-gate", NULL, 0 }, /* LPC */ [ASPEED_CLK_GATE_ESPICLK] = { 33, -1, "espiclk-gate", NULL, 0 }, /* eSPI */ [ASPEED_CLK_GATE_REF1CLK] = { 34, -1, "ref1clk-gate", "clkin", CLK_IS_CRITICAL }, /* Reserved 35 */ [ASPEED_CLK_GATE_SDCLK] = { 36, 56, "sdclk-gate", NULL, 0 }, /* SDIO/SD */ [ASPEED_CLK_GATE_LHCCLK] = { 37, -1, "lhclk-gate", "lhclk", 0 }, /* LPC master/LPC+ */ /* Reserved 38 RSA: no longer used */ /* Reserved 39 */ [ASPEED_CLK_GATE_I3C0CLK] = { 40, 40, "i3c0clk-gate", "i3cclk", 0 }, /* I3C0 */ [ASPEED_CLK_GATE_I3C1CLK] = { 41, 41, "i3c1clk-gate", "i3cclk", 0 }, /* I3C1 */ [ASPEED_CLK_GATE_I3C2CLK] = { 42, 42, "i3c2clk-gate", "i3cclk", 0 }, /* I3C2 */ [ASPEED_CLK_GATE_I3C3CLK] = { 43, 43, "i3c3clk-gate", "i3cclk", 0 }, /* I3C3 */ [ASPEED_CLK_GATE_I3C4CLK] = { 44, 44, "i3c4clk-gate", "i3cclk", 0 }, /* I3C4 */ [ASPEED_CLK_GATE_I3C5CLK] = { 45, 45, "i3c5clk-gate", "i3cclk", 0 }, /* I3C5 */ /* Reserved: 46 & 47 */ [ASPEED_CLK_GATE_UART1CLK] = { 48, -1, "uart1clk-gate", "uart", 0 }, /* UART1 */ [ASPEED_CLK_GATE_UART2CLK] = { 49, -1, "uart2clk-gate", "uart", 0 }, /* UART2 */ [ASPEED_CLK_GATE_UART3CLK] = { 50, -1, "uart3clk-gate", "uart", 0 }, /* UART3 */ [ASPEED_CLK_GATE_UART4CLK] = { 51, -1, "uart4clk-gate", "uart", 0 }, /* UART4 */ [ASPEED_CLK_GATE_MAC3CLK] = { 52, 52, "mac3clk-gate", "mac34", 0 }, /* MAC3 */ [ASPEED_CLK_GATE_MAC4CLK] = { 53, 53, "mac4clk-gate", "mac34", 0 }, /* MAC4 */ [ASPEED_CLK_GATE_UART6CLK] = { 54, -1, "uart6clk-gate", "uartx", 0 }, /* UART6 */ [ASPEED_CLK_GATE_UART7CLK] = { 55, -1, "uart7clk-gate", "uartx", 0 }, /* UART7 */ [ASPEED_CLK_GATE_UART8CLK] = { 56, -1, "uart8clk-gate", "uartx", 0 }, /* UART8 */ [ASPEED_CLK_GATE_UART9CLK] = { 57, -1, "uart9clk-gate", "uartx", 0 }, /* UART9 */ [ASPEED_CLK_GATE_UART10CLK] = { 58, -1, "uart10clk-gate", "uartx", 0 }, /* UART10 */ [ASPEED_CLK_GATE_UART11CLK] = { 59, -1, "uart11clk-gate", "uartx", 0 }, /* UART11 */ [ASPEED_CLK_GATE_UART12CLK] = { 60, -1, "uart12clk-gate", "uartx", 0 }, /* UART12 */ [ASPEED_CLK_GATE_UART13CLK] = { 61, -1, "uart13clk-gate", "uartx", 0 }, /* UART13 */ [ASPEED_CLK_GATE_FSICLK] = { 62, 59, "fsiclk-gate", NULL, 0 }, /* FSI */ }; static const struct clk_div_table ast2600_eclk_div_table[] = { { 0x0, 2 }, { 0x1, 2 }, { 0x2, 3 }, { 0x3, 4 }, { 0x4, 5 }, { 0x5, 6 }, { 0x6, 7 }, { 0x7, 8 }, { 0 } }; static const struct clk_div_table ast2600_emmc_extclk_div_table[] = { { 0x0, 2 }, { 0x1, 4 }, { 0x2, 6 }, { 0x3, 8 }, { 0x4, 10 }, { 0x5, 12 }, { 0x6, 14 }, { 0x7, 16 }, { 0 } }; static const struct clk_div_table ast2600_mac_div_table[] = { { 0x0, 4 }, { 0x1, 4 }, { 0x2, 6 }, { 0x3, 8 }, { 0x4, 10 }, { 0x5, 12 }, { 0x6, 14 }, { 0x7, 16 }, { 0 } }; static const struct clk_div_table ast2600_div_table[] = { { 0x0, 4 }, { 0x1, 8 }, { 0x2, 12 }, { 0x3, 16 }, { 0x4, 20 }, { 0x5, 24 }, { 0x6, 28 }, { 0x7, 32 }, { 0 } }; /* For hpll/dpll/epll/mpll */ static struct clk_hw *ast2600_calc_pll(const char *name, u32 val) { unsigned int mult, div; if (val & BIT(24)) { /* Pass through mode */ mult = div = 1; } else { /* F = 25Mhz * [(M + 2) / (n + 1)] / (p + 1) */ u32 m = val & 0x1fff; u32 n = (val >> 13) & 0x3f; u32 p = (val >> 19) & 0xf; mult = (m + 1) / (n + 1); div = (p + 1); } return clk_hw_register_fixed_factor(NULL, name, "clkin", 0, mult, div); }; static struct clk_hw *ast2600_calc_apll(const char *name, u32 val) { unsigned int mult, div; if (soc_rev >= 2) { if (val & BIT(24)) { /* Pass through mode */ mult = div = 1; } else { /* F = 25Mhz * [(m + 1) / (n + 1)] / (p + 1) */ u32 m = val & 0x1fff; u32 n = (val >> 13) & 0x3f; u32 p = (val >> 19) & 0xf; mult = (m + 1); div = (n + 1) * (p + 1); } } else { if (val & BIT(20)) { /* Pass through mode */ mult = div = 1; } else { /* F = 25Mhz * (2-od) * [(m + 2) / (n + 1)] */ u32 m = (val >> 5) & 0x3f; u32 od = (val >> 4) & 0x1; u32 n = val & 0xf; mult = (2 - od) * (m + 2); div = n + 1; } } return clk_hw_register_fixed_factor(NULL, name, "clkin", 0, mult, div); }; static u32 get_bit(u8 idx) { return BIT(idx % 32); } static u32 get_reset_reg(struct aspeed_clk_gate *gate) { if (gate->reset_idx < 32) return ASPEED_G6_RESET_CTRL; return ASPEED_G6_RESET_CTRL2; } static u32 get_clock_reg(struct aspeed_clk_gate *gate) { if (gate->clock_idx < 32) return ASPEED_G6_CLK_STOP_CTRL; return ASPEED_G6_CLK_STOP_CTRL2; } static int aspeed_g6_clk_is_enabled(struct clk_hw *hw) { struct aspeed_clk_gate *gate = to_aspeed_clk_gate(hw); u32 clk = get_bit(gate->clock_idx); u32 rst = get_bit(gate->reset_idx); u32 reg; u32 enval; /* * If the IP is in reset, treat the clock as not enabled, * this happens with some clocks such as the USB one when * coming from cold reset. Without this, aspeed_clk_enable() * will fail to lift the reset. */ if (gate->reset_idx >= 0) { regmap_read(gate->map, get_reset_reg(gate), ®); if (reg & rst) return 0; } regmap_read(gate->map, get_clock_reg(gate), ®); enval = (gate->flags & CLK_GATE_SET_TO_DISABLE) ? 0 : clk; return ((reg & clk) == enval) ? 1 : 0; } static int aspeed_g6_clk_enable(struct clk_hw *hw) { struct aspeed_clk_gate *gate = to_aspeed_clk_gate(hw); unsigned long flags; u32 clk = get_bit(gate->clock_idx); u32 rst = get_bit(gate->reset_idx); spin_lock_irqsave(gate->lock, flags); if (aspeed_g6_clk_is_enabled(hw)) { spin_unlock_irqrestore(gate->lock, flags); return 0; } if (gate->reset_idx >= 0) { /* Put IP in reset */ regmap_write(gate->map, get_reset_reg(gate), rst); /* Delay 100us */ udelay(100); } /* Enable clock */ if (gate->flags & CLK_GATE_SET_TO_DISABLE) { /* Clock is clear to enable, so use set to clear register */ regmap_write(gate->map, get_clock_reg(gate) + 0x04, clk); } else { /* Clock is set to enable, so use write to set register */ regmap_write(gate->map, get_clock_reg(gate), clk); } if (gate->reset_idx >= 0) { /* A delay of 10ms is specified by the ASPEED docs */ mdelay(10); /* Take IP out of reset */ regmap_write(gate->map, get_reset_reg(gate) + 0x4, rst); } spin_unlock_irqrestore(gate->lock, flags); return 0; } static void aspeed_g6_clk_disable(struct clk_hw *hw) { struct aspeed_clk_gate *gate = to_aspeed_clk_gate(hw); unsigned long flags; u32 clk = get_bit(gate->clock_idx); spin_lock_irqsave(gate->lock, flags); if (gate->flags & CLK_GATE_SET_TO_DISABLE) { regmap_write(gate->map, get_clock_reg(gate), clk); } else { /* Use set to clear register */ regmap_write(gate->map, get_clock_reg(gate) + 0x4, clk); } spin_unlock_irqrestore(gate->lock, flags); } static const struct clk_ops aspeed_g6_clk_gate_ops = { .enable = aspeed_g6_clk_enable, .disable = aspeed_g6_clk_disable, .is_enabled = aspeed_g6_clk_is_enabled, }; static int aspeed_g6_reset_deassert(struct reset_controller_dev *rcdev, unsigned long id) { struct aspeed_reset *ar = to_aspeed_reset(rcdev); u32 rst = get_bit(id); u32 reg = id >= 32 ? ASPEED_G6_RESET_CTRL2 : ASPEED_G6_RESET_CTRL; /* Use set to clear register */ return regmap_write(ar->map, reg + 0x04, rst); } static int aspeed_g6_reset_assert(struct reset_controller_dev *rcdev, unsigned long id) { struct aspeed_reset *ar = to_aspeed_reset(rcdev); u32 rst = get_bit(id); u32 reg = id >= 32 ? ASPEED_G6_RESET_CTRL2 : ASPEED_G6_RESET_CTRL; return regmap_write(ar->map, reg, rst); } static int aspeed_g6_reset_status(struct reset_controller_dev *rcdev, unsigned long id) { struct aspeed_reset *ar = to_aspeed_reset(rcdev); int ret; u32 val; u32 rst = get_bit(id); u32 reg = id >= 32 ? ASPEED_G6_RESET_CTRL2 : ASPEED_G6_RESET_CTRL; ret = regmap_read(ar->map, reg, &val); if (ret) return ret; return !!(val & rst); } static const struct reset_control_ops aspeed_g6_reset_ops = { .assert = aspeed_g6_reset_assert, .deassert = aspeed_g6_reset_deassert, .status = aspeed_g6_reset_status, }; static struct clk_hw *aspeed_g6_clk_hw_register_gate(struct device *dev, const char *name, const char *parent_name, unsigned long flags, struct regmap *map, u8 clock_idx, u8 reset_idx, u8 clk_gate_flags, spinlock_t *lock) { struct aspeed_clk_gate *gate; struct clk_init_data init; struct clk_hw *hw; int ret; gate = kzalloc(sizeof(*gate), GFP_KERNEL); if (!gate) return ERR_PTR(-ENOMEM); init.name = name; init.ops = &aspeed_g6_clk_gate_ops; init.flags = flags; init.parent_names = parent_name ? &parent_name : NULL; init.num_parents = parent_name ? 1 : 0; gate->map = map; gate->clock_idx = clock_idx; gate->reset_idx = reset_idx; gate->flags = clk_gate_flags; gate->lock = lock; gate->hw.init = &init; hw = &gate->hw; ret = clk_hw_register(dev, hw); if (ret) { kfree(gate); hw = ERR_PTR(ret); } return hw; } static const char *const emmc_extclk_parent_names[] = { "emmc_extclk_hpll_in", "mpll", }; static const char * const vclk_parent_names[] = { "dpll", "d1pll", "hclk", "mclk", }; static const char * const d1clk_parent_names[] = { "dpll", "epll", "usb-phy-40m", "gpioc6_clkin", "dp_phy_pll", }; static int aspeed_g6_clk_probe(struct platform_device *pdev) { struct device *dev = &pdev->dev; struct aspeed_reset *ar; struct regmap *map; struct clk_hw *hw; u32 val, rate; int i, ret; map = syscon_node_to_regmap(dev->of_node); if (IS_ERR(map)) { dev_err(dev, "no syscon regmap\n"); return PTR_ERR(map); } ar = devm_kzalloc(dev, sizeof(*ar), GFP_KERNEL); if (!ar) return -ENOMEM; ar->map = map; ar->rcdev.owner = THIS_MODULE; ar->rcdev.nr_resets = 64; ar->rcdev.ops = &aspeed_g6_reset_ops; ar->rcdev.of_node = dev->of_node; ret = devm_reset_controller_register(dev, &ar->rcdev); if (ret) { dev_err(dev, "could not register reset controller\n"); return ret; } /* UART clock div13 setting */ regmap_read(map, ASPEED_G6_MISC_CTRL, &val); if (val & UART_DIV13_EN) rate = 24000000 / 13; else rate = 24000000; hw = clk_hw_register_fixed_rate(dev, "uart", NULL, 0, rate); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_UART] = hw; /* UART6~13 clock div13 setting */ regmap_read(map, 0x80, &val); if (val & BIT(31)) rate = 24000000 / 13; else rate = 24000000; hw = clk_hw_register_fixed_rate(dev, "uartx", NULL, 0, rate); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_UARTX] = hw; /* EMMC ext clock */ hw = clk_hw_register_fixed_factor(dev, "emmc_extclk_hpll_in", "hpll", 0, 1, 2); if (IS_ERR(hw)) return PTR_ERR(hw); hw = clk_hw_register_mux(dev, "emmc_extclk_mux", emmc_extclk_parent_names, ARRAY_SIZE(emmc_extclk_parent_names), 0, scu_g6_base + ASPEED_G6_CLK_SELECTION1, 11, 1, 0, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); hw = clk_hw_register_gate(dev, "emmc_extclk_gate", "emmc_extclk_mux", 0, scu_g6_base + ASPEED_G6_CLK_SELECTION1, 15, 0, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); hw = clk_hw_register_divider_table(dev, "emmc_extclk", "emmc_extclk_gate", 0, scu_g6_base + ASPEED_G6_CLK_SELECTION1, 12, 3, 0, ast2600_emmc_extclk_div_table, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_EMMC] = hw; /* SD/SDIO clock divider and gate */ hw = clk_hw_register_gate(dev, "sd_extclk_gate", "hpll", 0, scu_g6_base + ASPEED_G6_CLK_SELECTION4, 31, 0, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); hw = clk_hw_register_divider_table(dev, "sd_extclk", "sd_extclk_gate", 0, scu_g6_base + ASPEED_G6_CLK_SELECTION4, 28, 3, 0, ast2600_div_table, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_SDIO] = hw; /* MAC1/2 RMII 50MHz RCLK */ hw = clk_hw_register_fixed_rate(dev, "mac12rclk", "hpll", 0, 50000000); if (IS_ERR(hw)) return PTR_ERR(hw); /* MAC1/2 AHB bus clock divider */ hw = clk_hw_register_divider_table(dev, "mac12", "hpll", 0, scu_g6_base + ASPEED_G6_CLK_SELECTION1, 16, 3, 0, ast2600_mac_div_table, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_MAC12] = hw; /* RMII1 50MHz (RCLK) output enable */ hw = clk_hw_register_gate(dev, "mac1rclk", "mac12rclk", 0, scu_g6_base + ASPEED_MAC12_CLK_DLY, 29, 0, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_MAC1RCLK] = hw; /* RMII2 50MHz (RCLK) output enable */ hw = clk_hw_register_gate(dev, "mac2rclk", "mac12rclk", 0, scu_g6_base + ASPEED_MAC12_CLK_DLY, 30, 0, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_MAC2RCLK] = hw; /* MAC1/2 RMII 50MHz RCLK */ hw = clk_hw_register_fixed_rate(dev, "mac34rclk", "hclk", 0, 50000000); if (IS_ERR(hw)) return PTR_ERR(hw); /* MAC3/4 AHB bus clock divider */ hw = clk_hw_register_divider_table(dev, "mac34", "hpll", 0, scu_g6_base + 0x310, 24, 3, 0, ast2600_mac_div_table, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_MAC34] = hw; /* RMII3 50MHz (RCLK) output enable */ hw = clk_hw_register_gate(dev, "mac3rclk", "mac34rclk", 0, scu_g6_base + ASPEED_MAC34_CLK_DLY, 29, 0, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_MAC3RCLK] = hw; /* RMII4 50MHz (RCLK) output enable */ hw = clk_hw_register_gate(dev, "mac4rclk", "mac34rclk", 0, scu_g6_base + ASPEED_MAC34_CLK_DLY, 30, 0, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_MAC4RCLK] = hw; /* LPC Host (LHCLK) clock divider */ hw = clk_hw_register_divider_table(dev, "lhclk", "hpll", 0, scu_g6_base + ASPEED_G6_CLK_SELECTION1, 20, 3, 0, ast2600_div_table, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_LHCLK] = hw; /* gfx d1clk : use dp clk */ regmap_update_bits(map, ASPEED_G6_CLK_SELECTION1, GENMASK(10, 8), BIT(10)); /* SoC Display clock selection */ hw = clk_hw_register_mux(dev, "d1clk", d1clk_parent_names, ARRAY_SIZE(d1clk_parent_names), 0, scu_g6_base + ASPEED_G6_CLK_SELECTION1, 8, 3, 0, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_D1CLK] = hw; /* d1 clk div 0x308[17:15] x [14:12] - 8,7,6,5,4,3,2,1 */ regmap_write(map, 0x308, 0x12000); /* 3x3 = 9 */ /* P-Bus (BCLK) clock divider */ hw = clk_hw_register_divider_table(dev, "bclk", "epll", 0, scu_g6_base + ASPEED_G6_CLK_SELECTION1, 20, 3, 0, ast2600_div_table, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_BCLK] = hw; /* Video Capture clock selection */ hw = clk_hw_register_mux(dev, "vclk", vclk_parent_names, ARRAY_SIZE(vclk_parent_names), 0, scu_g6_base + ASPEED_G6_CLK_SELECTION2, 12, 3, 0, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_VCLK] = hw; /* Video Engine clock divider */ hw = clk_hw_register_divider_table(dev, "eclk", NULL, 0, scu_g6_base + ASPEED_G6_CLK_SELECTION1, 28, 3, 0, ast2600_eclk_div_table, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[ASPEED_CLK_ECLK] = hw; for (i = 0; i < ARRAY_SIZE(aspeed_g6_gates); i++) { const struct aspeed_gate_data *gd = &aspeed_g6_gates[i]; u32 gate_flags; if (!gd->name) continue; /* * Special case: the USB port 1 clock (bit 14) is always * working the opposite way from the other ones. */ gate_flags = (gd->clock_idx == 14) ? 0 : CLK_GATE_SET_TO_DISABLE; hw = aspeed_g6_clk_hw_register_gate(dev, gd->name, gd->parent_name, gd->flags, map, gd->clock_idx, gd->reset_idx, gate_flags, &aspeed_g6_clk_lock); if (IS_ERR(hw)) return PTR_ERR(hw); aspeed_g6_clk_data->hws[i] = hw; } return 0; }; static const struct of_device_id aspeed_g6_clk_dt_ids[] = { { .compatible = "aspeed,ast2600-scu" }, { } }; static struct platform_driver aspeed_g6_clk_driver = { .probe = aspeed_g6_clk_probe, .driver = { .name = "ast2600-clk", .of_match_table = aspeed_g6_clk_dt_ids, .suppress_bind_attrs = true, }, }; builtin_platform_driver(aspeed_g6_clk_driver); static const u32 ast2600_a0_axi_ahb_div_table[] = { 2, 2, 3, 5, }; static const u32 ast2600_a1_axi_ahb_div0_tbl[] = { 3, 2, 3, 4, }; static const u32 ast2600_a1_axi_ahb_div1_tbl[] = { 3, 4, 6, 8, }; static const u32 ast2600_a1_axi_ahb200_tbl[] = { 3, 4, 3, 4, 2, 2, 2, 2, }; static void __init aspeed_g6_cc(struct regmap *map) { struct clk_hw *hw; u32 val, div, divbits, axi_div, ahb_div; clk_hw_register_fixed_rate(NULL, "clkin", NULL, 0, 25000000); /* * High-speed PLL clock derived from the crystal. This the CPU clock, * and we assume that it is enabled */ regmap_read(map, ASPEED_HPLL_PARAM, &val); aspeed_g6_clk_data->hws[ASPEED_CLK_HPLL] = ast2600_calc_pll("hpll", val); regmap_read(map, ASPEED_MPLL_PARAM, &val); aspeed_g6_clk_data->hws[ASPEED_CLK_MPLL] = ast2600_calc_pll("mpll", val); regmap_read(map, ASPEED_DPLL_PARAM, &val); aspeed_g6_clk_data->hws[ASPEED_CLK_DPLL] = ast2600_calc_pll("dpll", val); regmap_read(map, ASPEED_EPLL_PARAM, &val); aspeed_g6_clk_data->hws[ASPEED_CLK_EPLL] = ast2600_calc_pll("epll", val); regmap_read(map, ASPEED_APLL_PARAM, &val); aspeed_g6_clk_data->hws[ASPEED_CLK_APLL] = ast2600_calc_apll("apll", val); /* Strap bits 12:11 define the AXI/AHB clock frequency ratio (aka HCLK)*/ regmap_read(map, ASPEED_G6_STRAP1, &val); if (val & BIT(16)) axi_div = 1; else axi_div = 2; divbits = (val >> 11) & 0x3; if (soc_rev >= 1) { if (!divbits) { ahb_div = ast2600_a1_axi_ahb200_tbl[(val >> 8) & 0x3]; if (val & BIT(16)) ahb_div *= 2; } else { if (val & BIT(16)) ahb_div = ast2600_a1_axi_ahb_div1_tbl[divbits]; else ahb_div = ast2600_a1_axi_ahb_div0_tbl[divbits]; } } else { ahb_div = ast2600_a0_axi_ahb_div_table[(val >> 11) & 0x3]; } hw = clk_hw_register_fixed_factor(NULL, "ahb", "hpll", 0, 1, axi_div * ahb_div); aspeed_g6_clk_data->hws[ASPEED_CLK_AHB] = hw; regmap_read(map, ASPEED_G6_CLK_SELECTION1, &val); val = (val >> 23) & 0x7; div = 4 * (val + 1); hw = clk_hw_register_fixed_factor(NULL, "apb1", "hpll", 0, 1, div); aspeed_g6_clk_data->hws[ASPEED_CLK_APB1] = hw; regmap_read(map, ASPEED_G6_CLK_SELECTION4, &val); val = (val >> 9) & 0x7; div = 2 * (val + 1); hw = clk_hw_register_fixed_factor(NULL, "apb2", "ahb", 0, 1, div); aspeed_g6_clk_data->hws[ASPEED_CLK_APB2] = hw; /* USB 2.0 port1 phy 40MHz clock */ hw = clk_hw_register_fixed_rate(NULL, "usb-phy-40m", NULL, 0, 40000000); aspeed_g6_clk_data->hws[ASPEED_CLK_USBPHY_40M] = hw; /* i3c clock: source from apll, divide by 8 */ regmap_update_bits(map, ASPEED_G6_CLK_SELECTION5, I3C_CLK_SELECTION | APLL_DIV_SELECTION, I3C_CLK_SELECT_APLL_DIV | APLL_DIV_8); hw = clk_hw_register_fixed_factor(NULL, "i3cclk", "apll", 0, 1, 8); aspeed_g6_clk_data->hws[ASPEED_CLK_I3C] = hw; }; static void __init aspeed_g6_cc_init(struct device_node *np) { struct regmap *map; int ret; int i; scu_g6_base = of_iomap(np, 0); if (!scu_g6_base) return; soc_rev = (readl(scu_g6_base + ASPEED_G6_SILICON_REV) & CHIP_REVISION_ID) >> 16; aspeed_g6_clk_data = kzalloc(struct_size(aspeed_g6_clk_data, hws, ASPEED_G6_NUM_CLKS), GFP_KERNEL); if (!aspeed_g6_clk_data) return; /* * This way all clocks fetched before the platform device probes, * except those we assign here for early use, will be deferred. */ for (i = 0; i < ASPEED_G6_NUM_CLKS; i++) aspeed_g6_clk_data->hws[i] = ERR_PTR(-EPROBE_DEFER); /* * We check that the regmap works on this very first access, * but as this is an MMIO-backed regmap, subsequent regmap * access is not going to fail and we skip error checks from * this point. */ map = syscon_node_to_regmap(np); if (IS_ERR(map)) { pr_err("no syscon regmap\n"); return; } aspeed_g6_cc(map); aspeed_g6_clk_data->num = ASPEED_G6_NUM_CLKS; ret = of_clk_add_hw_provider(np, of_clk_hw_onecell_get, aspeed_g6_clk_data); if (ret) pr_err("failed to add DT provider: %d\n", ret); }; CLK_OF_DECLARE_DRIVER(aspeed_cc_g6, "aspeed,ast2600-scu", aspeed_g6_cc_init); |