forked from luck/tmp_suning_uos_patched
916f562fb2
side. The two main highlights in the core framework are the addition of an bulk clk_get API that handles optional clks and an extra debugfs file that tells the developer about the current parent of a clk. The driver updates are dominated by i.MX in the diffstat, but that is mostly because that SoC has started converting to the clk_hw style of clk registration. The next big update is in the Amlogic meson clk driver that gained some support for audio, cpu, and temperature clks while fixing some PLL issues. Finally, the biggest thing that stands out is the conversion of a large part of the Allwinner sunxi-ng driver to the new clk parent scheme that uses less strings and more pointer comparisons to match clk parents and children up. In general, it looks like we have a lot of little fixes and tweaks here and there to clk data along with the normal addition of a handful of new drivers and a couple new core framework features. Core: - Add a 'clk_parent' file in clk debugfs - Add a clk_bulk_get_optional() API (with devm too) New Drivers: - Support gated clk controller on MIPS based BCM63XX SoCs - Support SiLabs Si5341 and Si5340 chips - Support for CPU clks on Raspberry Pi devices - Audsys clock driver for MediaTek MT8516 SoCs Updates: - Convert a large portion of the Allwinner sunxi-ng driver to new clk parent scheme - Small frequency support for SiLabs Si544 chips - Slow clk support for AT91 SAM9X60 SoCs - Remove dead code in various clk drivers (-Wunused) - Support for Marvell 98DX1135 SoCs - Get duty cycle of generic pwm clks - Improvement in mmc phase calculation and cleanup of some rate defintions - Switch i.MX6 and i.MX7 clock drivers to clk_hw based APIs - Add GPIO, SNVS and GIC clocks for i.MX8 drivers - Mark imx6sx/ul/ull/sll MMDC_P1_IPG and imx8mm DRAM_APB as critical clock - Correct imx7ulp nic1_bus_clk and imx8mm audio_pll2_clk clock setting - Add clks for new Exynos5422 Dynamic Memory Controller driver - Clock definition for Exynos4412 Mali - Add CMM (Color Management Module) clocks on Renesas R-Car H3, M3-N, E3, and D3 - Add TPU (Timer Pulse Unit / PWM) clocks on Renesas RZ/G2M - Support for 32 bit clock IDs in TI's sci-clks for J721e SoCs - TI clock probing done from DT by default instead of firmware - Fix Amlogic Meson mpll fractional part and spread sprectrum issues - Add Amlogic meson8 audio clocks - Add Amlogic g12a temperature sensors clocks - Add Amlogic g12a and g12b cpu clocks - Add TPU (Timer Pulse Unit / PWM) clocks on Renesas R-Car H3, M3-W, and M3-N - Add CMM (Color Management Module) clocks on Renesas R-Car M3-W - Add Clock Domain support on Renesas RZ/N1 -----BEGIN PGP SIGNATURE----- iQJFBAABCAAvFiEE9L57QeeUxqYDyoaDrQKIl8bklSUFAl0uBEERHHNib3lkQGtl cm5lbC5vcmcACgkQrQKIl8bklSWucw/9ELKlfvdxrc8mdIuzt+CpKdNiSG88shXY hF+vnuE6Jhv5hmlbA/DbplPTAnHT/FQF65/GPQMAYy2wYO6CjleNxQyepiVv4h8/ tWoXu5vYZXubtQyMnYTffREzjYFPBNAscLUhXNwJKRno7nT0qKCk62WgOMfaW/KN lP5dKmrL7rdJDUvxHEStrwP515Lg5Wkhj3+XzgbgFUKGuGlvHfwUOEZucT++kqhu Z1vMjPv2ksHQf3r15BsbX/6jMIONEt2Xd6jA3Lm7ebDXJl2hjX4Gq0Kkl5pmkj2w F0V7Tw4XYk6DkSl7HQaOBgQ8KV0Mw2L8Vj6eEDhUwx6wPGlQ5YTKkUCJkjs0mUyb UpO3TuPFN2W0hsTNDzwYpjqcfodDn159XJcduv1/ZpIanUvHgx0uVzQ7iwwYwW+l VR4SipY5AEn9hpief30X7TAUSKsE4do58imYeoGBrq78zdsJaEcDAMX7AcYdXVQ9 ahBS8ME/d1JEBNdRsSW7eTAfu8dZdI08uR8/T37GRG59XyZSjsyVmZ6kHCYrBygF AyLNMsXMCbW1rOoIpWkuGMD86XZy40laLg8T7WWTaq28t1VQ0BaBTGM4/eEexs3p FhZ1M7aH+PsDLrI2IGTBt/4xAMv+dhDS7HnxRlOONbWnLWVqmR+tYzF0aCkqJCmd O2zWCGffeYs= =mK0C -----END PGP SIGNATURE----- Merge tag 'clk-for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/clk/linux Pull clk updates from Stephen Boyd: "This round of clk driver and framework updates is heavy on the driver update side. The two main highlights in the core framework are the addition of an bulk clk_get API that handles optional clks and an extra debugfs file that tells the developer about the current parent of a clk. The driver updates are dominated by i.MX in the diffstat, but that is mostly because that SoC has started converting to the clk_hw style of clk registration. The next big update is in the Amlogic meson clk driver that gained some support for audio, cpu, and temperature clks while fixing some PLL issues. Finally, the biggest thing that stands out is the conversion of a large part of the Allwinner sunxi-ng driver to the new clk parent scheme that uses less strings and more pointer comparisons to match clk parents and children up. In general, it looks like we have a lot of little fixes and tweaks here and there to clk data along with the normal addition of a handful of new drivers and a couple new core framework features. Core: - Add a 'clk_parent' file in clk debugfs - Add a clk_bulk_get_optional() API (with devm too) New Drivers: - Support gated clk controller on MIPS based BCM63XX SoCs - Support SiLabs Si5341 and Si5340 chips - Support for CPU clks on Raspberry Pi devices - Audsys clock driver for MediaTek MT8516 SoCs Updates: - Convert a large portion of the Allwinner sunxi-ng driver to new clk parent scheme - Small frequency support for SiLabs Si544 chips - Slow clk support for AT91 SAM9X60 SoCs - Remove dead code in various clk drivers (-Wunused) - Support for Marvell 98DX1135 SoCs - Get duty cycle of generic pwm clks - Improvement in mmc phase calculation and cleanup of some rate defintions - Switch i.MX6 and i.MX7 clock drivers to clk_hw based APIs - Add GPIO, SNVS and GIC clocks for i.MX8 drivers - Mark imx6sx/ul/ull/sll MMDC_P1_IPG and imx8mm DRAM_APB as critical clock - Correct imx7ulp nic1_bus_clk and imx8mm audio_pll2_clk clock setting - Add clks for new Exynos5422 Dynamic Memory Controller driver - Clock definition for Exynos4412 Mali - Add CMM (Color Management Module) clocks on Renesas R-Car H3, M3-N, E3, and D3 - Add TPU (Timer Pulse Unit / PWM) clocks on Renesas RZ/G2M - Support for 32 bit clock IDs in TI's sci-clks for J721e SoCs - TI clock probing done from DT by default instead of firmware - Fix Amlogic Meson mpll fractional part and spread sprectrum issues - Add Amlogic meson8 audio clocks - Add Amlogic g12a temperature sensors clocks - Add Amlogic g12a and g12b cpu clocks - Add TPU (Timer Pulse Unit / PWM) clocks on Renesas R-Car H3, M3-W, and M3-N - Add CMM (Color Management Module) clocks on Renesas R-Car M3-W - Add Clock Domain support on Renesas RZ/N1" * tag 'clk-for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/clk/linux: (190 commits) clk: consoldiate the __clk_get_hw() declarations clk: sprd: Add check for return value of sprd_clk_regmap_init() clk: lochnagar: Update DT binding doc to include the primary SPDIF MCLK clk: Add Si5341/Si5340 driver dt-bindings: clock: Add silabs,si5341 clk: clk-si544: Implement small frequency change support clk: add BCM63XX gated clock controller driver devicetree: document the BCM63XX gated clock bindings clk: at91: sckc: use dedicated functions to unregister clock clk: at91: sckc: improve error path for sama5d4 sck registration clk: at91: sckc: remove unnecessary line clk: at91: sckc: improve error path for sam9x5 sck register clk: at91: sckc: add support to free slow clock osclillator clk: at91: sckc: add support to free slow rc oscillator clk: at91: sckc: add support to free slow oscillator clk: rockchip: export HDMIPHY clock on rk3228 clk: rockchip: add watchdog pclk on rk3328 clk: rockchip: add clock id for hdmi_phy special clock on rk3228 clk: rockchip: add clock id for watchdog pclk on rk3328 clk: at91: sckc: add support for SAM9X60 ...
990 lines
58 KiB
C
990 lines
58 KiB
C
// SPDX-License-Identifier: GPL-2.0-or-later
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/*
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* Copyright 2011-2013 Freescale Semiconductor, Inc.
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* Copyright 2011 Linaro Ltd.
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*/
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#include <linux/init.h>
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#include <linux/types.h>
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#include <linux/clk.h>
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#include <linux/clkdev.h>
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#include <linux/clk-provider.h>
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#include <linux/err.h>
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#include <linux/io.h>
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#include <linux/of.h>
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#include <linux/of_address.h>
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#include <linux/of_irq.h>
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#include <soc/imx/revision.h>
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#include <dt-bindings/clock/imx6qdl-clock.h>
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#include "clk.h"
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static const char *step_sels[] = { "osc", "pll2_pfd2_396m", };
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static const char *pll1_sw_sels[] = { "pll1_sys", "step", };
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static const char *periph_pre_sels[] = { "pll2_bus", "pll2_pfd2_396m", "pll2_pfd0_352m", "pll2_198m", };
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static const char *periph_clk2_sels[] = { "pll3_usb_otg", "osc", "osc", "dummy", };
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static const char *periph2_clk2_sels[] = { "pll3_usb_otg", "pll2_bus", };
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static const char *periph_sels[] = { "periph_pre", "periph_clk2", };
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static const char *periph2_sels[] = { "periph2_pre", "periph2_clk2", };
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static const char *axi_sels[] = { "periph", "pll2_pfd2_396m", "periph", "pll3_pfd1_540m", };
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static const char *audio_sels[] = { "pll4_audio_div", "pll3_pfd2_508m", "pll3_pfd3_454m", "pll3_usb_otg", };
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static const char *gpu_axi_sels[] = { "axi", "ahb", };
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static const char *pre_axi_sels[] = { "axi", "ahb", };
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static const char *gpu2d_core_sels[] = { "axi", "pll3_usb_otg", "pll2_pfd0_352m", "pll2_pfd2_396m", };
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static const char *gpu2d_core_sels_2[] = { "mmdc_ch0_axi", "pll3_usb_otg", "pll2_pfd1_594m", "pll3_pfd0_720m",};
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static const char *gpu3d_core_sels[] = { "mmdc_ch0_axi", "pll3_usb_otg", "pll2_pfd1_594m", "pll2_pfd2_396m", };
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static const char *gpu3d_shader_sels[] = { "mmdc_ch0_axi", "pll3_usb_otg", "pll2_pfd1_594m", "pll3_pfd0_720m", };
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static const char *ipu_sels[] = { "mmdc_ch0_axi", "pll2_pfd2_396m", "pll3_120m", "pll3_pfd1_540m", };
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static const char *ldb_di_sels[] = { "pll5_video_div", "pll2_pfd0_352m", "pll2_pfd2_396m", "mmdc_ch1_axi", "pll3_usb_otg", };
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static const char *ipu_di_pre_sels[] = { "mmdc_ch0_axi", "pll3_usb_otg", "pll5_video_div", "pll2_pfd0_352m", "pll2_pfd2_396m", "pll3_pfd1_540m", };
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static const char *ipu1_di0_sels[] = { "ipu1_di0_pre", "dummy", "dummy", "ldb_di0", "ldb_di1", };
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static const char *ipu1_di1_sels[] = { "ipu1_di1_pre", "dummy", "dummy", "ldb_di0", "ldb_di1", };
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static const char *ipu2_di0_sels[] = { "ipu2_di0_pre", "dummy", "dummy", "ldb_di0", "ldb_di1", };
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static const char *ipu2_di1_sels[] = { "ipu2_di1_pre", "dummy", "dummy", "ldb_di0", "ldb_di1", };
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static const char *ipu1_di0_sels_2[] = { "ipu1_di0_pre", "dummy", "dummy", "ldb_di0_podf", "ldb_di1_podf", };
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static const char *ipu1_di1_sels_2[] = { "ipu1_di1_pre", "dummy", "dummy", "ldb_di0_podf", "ldb_di1_podf", };
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static const char *ipu2_di0_sels_2[] = { "ipu2_di0_pre", "dummy", "dummy", "ldb_di0_podf", "ldb_di1_podf", };
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static const char *ipu2_di1_sels_2[] = { "ipu2_di1_pre", "dummy", "dummy", "ldb_di0_podf", "ldb_di1_podf", };
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static const char *hsi_tx_sels[] = { "pll3_120m", "pll2_pfd2_396m", };
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static const char *pcie_axi_sels[] = { "axi", "ahb", };
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static const char *ssi_sels[] = { "pll3_pfd2_508m", "pll3_pfd3_454m", "pll4_audio_div", };
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static const char *usdhc_sels[] = { "pll2_pfd2_396m", "pll2_pfd0_352m", };
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static const char *enfc_sels[] = { "pll2_pfd0_352m", "pll2_bus", "pll3_usb_otg", "pll2_pfd2_396m", };
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static const char *enfc_sels_2[] = {"pll2_pfd0_352m", "pll2_bus", "pll3_usb_otg", "pll2_pfd2_396m", "pll3_pfd3_454m", "dummy", };
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static const char *eim_sels[] = { "pll2_pfd2_396m", "pll3_usb_otg", "axi", "pll2_pfd0_352m", };
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static const char *eim_slow_sels[] = { "axi", "pll3_usb_otg", "pll2_pfd2_396m", "pll2_pfd0_352m", };
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static const char *vdo_axi_sels[] = { "axi", "ahb", };
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static const char *vpu_axi_sels[] = { "axi", "pll2_pfd2_396m", "pll2_pfd0_352m", };
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static const char *uart_sels[] = { "pll3_80m", "osc", };
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static const char *ipg_per_sels[] = { "ipg", "osc", };
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static const char *ecspi_sels[] = { "pll3_60m", "osc", };
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static const char *can_sels[] = { "pll3_60m", "osc", "pll3_80m", };
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static const char *cko1_sels[] = { "pll3_usb_otg", "pll2_bus", "pll1_sys", "pll5_video_div",
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"video_27m", "axi", "enfc", "ipu1_di0", "ipu1_di1", "ipu2_di0",
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"ipu2_di1", "ahb", "ipg", "ipg_per", "ckil", "pll4_audio_div", };
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static const char *cko2_sels[] = {
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"mmdc_ch0_axi", "mmdc_ch1_axi", "usdhc4", "usdhc1",
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"gpu2d_axi", "dummy", "ecspi_root", "gpu3d_axi",
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"usdhc3", "dummy", "arm", "ipu1",
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"ipu2", "vdo_axi", "osc", "gpu2d_core",
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"gpu3d_core", "usdhc2", "ssi1", "ssi2",
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"ssi3", "gpu3d_shader", "vpu_axi", "can_root",
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"ldb_di0", "ldb_di1", "esai_extal", "eim_slow",
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"uart_serial", "spdif", "asrc", "hsi_tx",
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};
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static const char *cko_sels[] = { "cko1", "cko2", };
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static const char *lvds_sels[] = {
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"dummy", "dummy", "dummy", "dummy", "dummy", "dummy",
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"pll4_audio", "pll5_video", "pll8_mlb", "enet_ref",
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"pcie_ref_125m", "sata_ref_100m", "usbphy1", "usbphy2",
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"dummy", "dummy", "dummy", "dummy", "osc",
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};
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static const char *pll_bypass_src_sels[] = { "osc", "lvds1_in", "lvds2_in", "dummy", };
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static const char *pll1_bypass_sels[] = { "pll1", "pll1_bypass_src", };
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static const char *pll2_bypass_sels[] = { "pll2", "pll2_bypass_src", };
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static const char *pll3_bypass_sels[] = { "pll3", "pll3_bypass_src", };
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static const char *pll4_bypass_sels[] = { "pll4", "pll4_bypass_src", };
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static const char *pll5_bypass_sels[] = { "pll5", "pll5_bypass_src", };
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static const char *pll6_bypass_sels[] = { "pll6", "pll6_bypass_src", };
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static const char *pll7_bypass_sels[] = { "pll7", "pll7_bypass_src", };
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static struct clk_hw **hws;
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static struct clk_hw_onecell_data *clk_hw_data;
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static struct clk_div_table clk_enet_ref_table[] = {
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{ .val = 0, .div = 20, },
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{ .val = 1, .div = 10, },
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{ .val = 2, .div = 5, },
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{ .val = 3, .div = 4, },
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{ /* sentinel */ }
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};
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static struct clk_div_table post_div_table[] = {
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{ .val = 2, .div = 1, },
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{ .val = 1, .div = 2, },
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{ .val = 0, .div = 4, },
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{ /* sentinel */ }
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};
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static struct clk_div_table video_div_table[] = {
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{ .val = 0, .div = 1, },
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{ .val = 1, .div = 2, },
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{ .val = 2, .div = 1, },
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{ .val = 3, .div = 4, },
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{ /* sentinel */ }
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};
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static unsigned int share_count_esai;
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static unsigned int share_count_asrc;
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static unsigned int share_count_ssi1;
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static unsigned int share_count_ssi2;
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static unsigned int share_count_ssi3;
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static unsigned int share_count_mipi_core_cfg;
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static unsigned int share_count_spdif;
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static unsigned int share_count_prg0;
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static unsigned int share_count_prg1;
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static inline int clk_on_imx6q(void)
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{
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return of_machine_is_compatible("fsl,imx6q");
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}
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static inline int clk_on_imx6qp(void)
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{
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return of_machine_is_compatible("fsl,imx6qp");
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}
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static inline int clk_on_imx6dl(void)
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{
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return of_machine_is_compatible("fsl,imx6dl");
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}
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static const int uart_clk_ids[] __initconst = {
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IMX6QDL_CLK_UART_IPG,
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IMX6QDL_CLK_UART_SERIAL,
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};
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static struct clk **uart_clks[ARRAY_SIZE(uart_clk_ids) + 1] __initdata;
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static int ldb_di_sel_by_clock_id(int clock_id)
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{
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switch (clock_id) {
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case IMX6QDL_CLK_PLL5_VIDEO_DIV:
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if (clk_on_imx6q() &&
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imx_get_soc_revision() == IMX_CHIP_REVISION_1_0)
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return -ENOENT;
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return 0;
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case IMX6QDL_CLK_PLL2_PFD0_352M:
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return 1;
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case IMX6QDL_CLK_PLL2_PFD2_396M:
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return 2;
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case IMX6QDL_CLK_MMDC_CH1_AXI:
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return 3;
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case IMX6QDL_CLK_PLL3_USB_OTG:
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return 4;
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default:
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return -ENOENT;
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}
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}
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static void of_assigned_ldb_sels(struct device_node *node,
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unsigned int *ldb_di0_sel,
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unsigned int *ldb_di1_sel)
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{
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struct of_phandle_args clkspec;
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int index, rc, num_parents;
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int parent, child, sel;
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num_parents = of_count_phandle_with_args(node, "assigned-clock-parents",
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"#clock-cells");
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for (index = 0; index < num_parents; index++) {
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rc = of_parse_phandle_with_args(node, "assigned-clock-parents",
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"#clock-cells", index, &clkspec);
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if (rc < 0) {
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/* skip empty (null) phandles */
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if (rc == -ENOENT)
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continue;
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else
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return;
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}
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if (clkspec.np != node || clkspec.args[0] >= IMX6QDL_CLK_END) {
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pr_err("ccm: parent clock %d not in ccm\n", index);
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return;
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}
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parent = clkspec.args[0];
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rc = of_parse_phandle_with_args(node, "assigned-clocks",
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"#clock-cells", index, &clkspec);
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if (rc < 0)
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return;
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if (clkspec.np != node || clkspec.args[0] >= IMX6QDL_CLK_END) {
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pr_err("ccm: child clock %d not in ccm\n", index);
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return;
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}
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child = clkspec.args[0];
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if (child != IMX6QDL_CLK_LDB_DI0_SEL &&
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child != IMX6QDL_CLK_LDB_DI1_SEL)
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continue;
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sel = ldb_di_sel_by_clock_id(parent);
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if (sel < 0) {
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pr_err("ccm: invalid ldb_di%d parent clock: %d\n",
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child == IMX6QDL_CLK_LDB_DI1_SEL, parent);
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continue;
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}
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if (child == IMX6QDL_CLK_LDB_DI0_SEL)
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*ldb_di0_sel = sel;
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if (child == IMX6QDL_CLK_LDB_DI1_SEL)
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*ldb_di1_sel = sel;
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}
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}
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static bool pll6_bypassed(struct device_node *node)
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{
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int index, ret, num_clocks;
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struct of_phandle_args clkspec;
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num_clocks = of_count_phandle_with_args(node, "assigned-clocks",
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"#clock-cells");
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if (num_clocks < 0)
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return false;
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for (index = 0; index < num_clocks; index++) {
|
|
ret = of_parse_phandle_with_args(node, "assigned-clocks",
|
|
"#clock-cells", index,
|
|
&clkspec);
|
|
if (ret < 0)
|
|
return false;
|
|
|
|
if (clkspec.np == node &&
|
|
clkspec.args[0] == IMX6QDL_PLL6_BYPASS)
|
|
break;
|
|
}
|
|
|
|
/* PLL6 bypass is not part of the assigned clock list */
|
|
if (index == num_clocks)
|
|
return false;
|
|
|
|
ret = of_parse_phandle_with_args(node, "assigned-clock-parents",
|
|
"#clock-cells", index, &clkspec);
|
|
|
|
if (clkspec.args[0] != IMX6QDL_CLK_PLL6)
|
|
return true;
|
|
|
|
return false;
|
|
}
|
|
|
|
#define CCM_CCSR 0x0c
|
|
#define CCM_CS2CDR 0x2c
|
|
|
|
#define CCSR_PLL3_SW_CLK_SEL BIT(0)
|
|
|
|
#define CS2CDR_LDB_DI0_CLK_SEL_SHIFT 9
|
|
#define CS2CDR_LDB_DI1_CLK_SEL_SHIFT 12
|
|
|
|
/*
|
|
* The only way to disable the MMDC_CH1 clock is to move it to pll3_sw_clk
|
|
* via periph2_clk2_sel and then to disable pll3_sw_clk by selecting the
|
|
* bypass clock source, since there is no CG bit for mmdc_ch1.
|
|
*/
|
|
static void mmdc_ch1_disable(void __iomem *ccm_base)
|
|
{
|
|
unsigned int reg;
|
|
|
|
clk_set_parent(hws[IMX6QDL_CLK_PERIPH2_CLK2_SEL]->clk,
|
|
hws[IMX6QDL_CLK_PLL3_USB_OTG]->clk);
|
|
|
|
/* Disable pll3_sw_clk by selecting the bypass clock source */
|
|
reg = readl_relaxed(ccm_base + CCM_CCSR);
|
|
reg |= CCSR_PLL3_SW_CLK_SEL;
|
|
writel_relaxed(reg, ccm_base + CCM_CCSR);
|
|
}
|
|
|
|
static void mmdc_ch1_reenable(void __iomem *ccm_base)
|
|
{
|
|
unsigned int reg;
|
|
|
|
/* Enable pll3_sw_clk by disabling the bypass */
|
|
reg = readl_relaxed(ccm_base + CCM_CCSR);
|
|
reg &= ~CCSR_PLL3_SW_CLK_SEL;
|
|
writel_relaxed(reg, ccm_base + CCM_CCSR);
|
|
}
|
|
|
|
/*
|
|
* We have to follow a strict procedure when changing the LDB clock source,
|
|
* otherwise we risk introducing a glitch that can lock up the LDB divider.
|
|
* Things to keep in mind:
|
|
*
|
|
* 1. The current and new parent clock inputs to the mux must be disabled.
|
|
* 2. The default clock input for ldb_di0/1_clk_sel is mmdc_ch1_axi, which
|
|
* has no CG bit.
|
|
* 3. pll2_pfd2_396m can not be gated if it is used as memory clock.
|
|
* 4. In the RTL implementation of the LDB_DI_CLK_SEL muxes the top four
|
|
* options are in one mux and the PLL3 option along with three unused
|
|
* inputs is in a second mux. There is a third mux with two inputs used
|
|
* to decide between the first and second 4-port mux:
|
|
*
|
|
* pll5_video_div 0 --|\
|
|
* pll2_pfd0_352m 1 --| |_
|
|
* pll2_pfd2_396m 2 --| | `-|\
|
|
* mmdc_ch1_axi 3 --|/ | |
|
|
* | |--
|
|
* pll3_usb_otg 4 --|\ | |
|
|
* 5 --| |_,-|/
|
|
* 6 --| |
|
|
* 7 --|/
|
|
*
|
|
* The ldb_di0/1_clk_sel[1:0] bits control both 4-port muxes at the same time.
|
|
* The ldb_di0/1_clk_sel[2] bit controls the 2-port mux. The code below
|
|
* switches the parent to the bottom mux first and then manipulates the top
|
|
* mux to ensure that no glitch will enter the divider.
|
|
*/
|
|
static void init_ldb_clks(struct device_node *np, void __iomem *ccm_base)
|
|
{
|
|
unsigned int reg;
|
|
unsigned int sel[2][4];
|
|
int i;
|
|
|
|
reg = readl_relaxed(ccm_base + CCM_CS2CDR);
|
|
sel[0][0] = (reg >> CS2CDR_LDB_DI0_CLK_SEL_SHIFT) & 7;
|
|
sel[1][0] = (reg >> CS2CDR_LDB_DI1_CLK_SEL_SHIFT) & 7;
|
|
|
|
sel[0][3] = sel[0][2] = sel[0][1] = sel[0][0];
|
|
sel[1][3] = sel[1][2] = sel[1][1] = sel[1][0];
|
|
|
|
of_assigned_ldb_sels(np, &sel[0][3], &sel[1][3]);
|
|
|
|
for (i = 0; i < 2; i++) {
|
|
/* Warn if a glitch might have been introduced already */
|
|
if (sel[i][0] != 3) {
|
|
pr_warn("ccm: ldb_di%d_sel already changed from reset value: %d\n",
|
|
i, sel[i][0]);
|
|
}
|
|
|
|
if (sel[i][0] == sel[i][3])
|
|
continue;
|
|
|
|
/* Only switch to or from pll2_pfd2_396m if it is disabled */
|
|
if ((sel[i][0] == 2 || sel[i][3] == 2) &&
|
|
(clk_get_parent(hws[IMX6QDL_CLK_PERIPH_PRE]->clk) ==
|
|
hws[IMX6QDL_CLK_PLL2_PFD2_396M]->clk)) {
|
|
pr_err("ccm: ldb_di%d_sel: couldn't disable pll2_pfd2_396m\n",
|
|
i);
|
|
sel[i][3] = sel[i][2] = sel[i][1] = sel[i][0];
|
|
continue;
|
|
}
|
|
|
|
/* First switch to the bottom mux */
|
|
sel[i][1] = sel[i][0] | 4;
|
|
|
|
/* Then configure the top mux before switching back to it */
|
|
sel[i][2] = sel[i][3] | 4;
|
|
|
|
pr_debug("ccm: switching ldb_di%d_sel: %d->%d->%d->%d\n", i,
|
|
sel[i][0], sel[i][1], sel[i][2], sel[i][3]);
|
|
}
|
|
|
|
if (sel[0][0] == sel[0][3] && sel[1][0] == sel[1][3])
|
|
return;
|
|
|
|
mmdc_ch1_disable(ccm_base);
|
|
|
|
for (i = 1; i < 4; i++) {
|
|
reg = readl_relaxed(ccm_base + CCM_CS2CDR);
|
|
reg &= ~((7 << CS2CDR_LDB_DI0_CLK_SEL_SHIFT) |
|
|
(7 << CS2CDR_LDB_DI1_CLK_SEL_SHIFT));
|
|
reg |= ((sel[0][i] << CS2CDR_LDB_DI0_CLK_SEL_SHIFT) |
|
|
(sel[1][i] << CS2CDR_LDB_DI1_CLK_SEL_SHIFT));
|
|
writel_relaxed(reg, ccm_base + CCM_CS2CDR);
|
|
}
|
|
|
|
mmdc_ch1_reenable(ccm_base);
|
|
}
|
|
|
|
#define CCM_ANALOG_PLL_VIDEO 0xa0
|
|
#define CCM_ANALOG_PFD_480 0xf0
|
|
#define CCM_ANALOG_PFD_528 0x100
|
|
|
|
#define PLL_ENABLE BIT(13)
|
|
|
|
#define PFD0_CLKGATE BIT(7)
|
|
#define PFD1_CLKGATE BIT(15)
|
|
#define PFD2_CLKGATE BIT(23)
|
|
#define PFD3_CLKGATE BIT(31)
|
|
|
|
static void disable_anatop_clocks(void __iomem *anatop_base)
|
|
{
|
|
unsigned int reg;
|
|
|
|
/* Make sure PLL2 PFDs 0-2 are gated */
|
|
reg = readl_relaxed(anatop_base + CCM_ANALOG_PFD_528);
|
|
/* Cannot gate PFD2 if pll2_pfd2_396m is the parent of MMDC clock */
|
|
if (clk_get_parent(hws[IMX6QDL_CLK_PERIPH_PRE]->clk) ==
|
|
hws[IMX6QDL_CLK_PLL2_PFD2_396M]->clk)
|
|
reg |= PFD0_CLKGATE | PFD1_CLKGATE;
|
|
else
|
|
reg |= PFD0_CLKGATE | PFD1_CLKGATE | PFD2_CLKGATE;
|
|
writel_relaxed(reg, anatop_base + CCM_ANALOG_PFD_528);
|
|
|
|
/* Make sure PLL3 PFDs 0-3 are gated */
|
|
reg = readl_relaxed(anatop_base + CCM_ANALOG_PFD_480);
|
|
reg |= PFD0_CLKGATE | PFD1_CLKGATE | PFD2_CLKGATE | PFD3_CLKGATE;
|
|
writel_relaxed(reg, anatop_base + CCM_ANALOG_PFD_480);
|
|
|
|
/* Make sure PLL5 is disabled */
|
|
reg = readl_relaxed(anatop_base + CCM_ANALOG_PLL_VIDEO);
|
|
reg &= ~PLL_ENABLE;
|
|
writel_relaxed(reg, anatop_base + CCM_ANALOG_PLL_VIDEO);
|
|
}
|
|
|
|
static struct clk_hw * __init imx6q_obtain_fixed_clk_hw(struct device_node *np,
|
|
const char *name,
|
|
unsigned long rate)
|
|
{
|
|
struct clk *clk = of_clk_get_by_name(np, name);
|
|
struct clk_hw *hw;
|
|
|
|
if (IS_ERR(clk))
|
|
hw = imx_obtain_fixed_clock_hw(name, rate);
|
|
else
|
|
hw = __clk_get_hw(clk);
|
|
|
|
return hw;
|
|
}
|
|
|
|
static void __init imx6q_clocks_init(struct device_node *ccm_node)
|
|
{
|
|
struct device_node *np;
|
|
void __iomem *anatop_base, *base;
|
|
int ret;
|
|
int i;
|
|
|
|
clk_hw_data = kzalloc(struct_size(clk_hw_data, hws,
|
|
IMX6QDL_CLK_END), GFP_KERNEL);
|
|
if (WARN_ON(!clk_hw_data))
|
|
return;
|
|
|
|
clk_hw_data->num = IMX6QDL_CLK_END;
|
|
hws = clk_hw_data->hws;
|
|
|
|
hws[IMX6QDL_CLK_DUMMY] = imx_clk_hw_fixed("dummy", 0);
|
|
|
|
hws[IMX6QDL_CLK_CKIL] = imx6q_obtain_fixed_clk_hw(ccm_node, "ckil", 0);
|
|
hws[IMX6QDL_CLK_CKIH] = imx6q_obtain_fixed_clk_hw(ccm_node, "ckih1", 0);
|
|
hws[IMX6QDL_CLK_OSC] = imx6q_obtain_fixed_clk_hw(ccm_node, "osc", 0);
|
|
|
|
/* Clock source from external clock via CLK1/2 PADs */
|
|
hws[IMX6QDL_CLK_ANACLK1] = imx6q_obtain_fixed_clk_hw(ccm_node, "anaclk1", 0);
|
|
hws[IMX6QDL_CLK_ANACLK2] = imx6q_obtain_fixed_clk_hw(ccm_node, "anaclk2", 0);
|
|
|
|
np = of_find_compatible_node(NULL, NULL, "fsl,imx6q-anatop");
|
|
anatop_base = base = of_iomap(np, 0);
|
|
WARN_ON(!base);
|
|
of_node_put(np);
|
|
|
|
/* Audio/video PLL post dividers do not work on i.MX6q revision 1.0 */
|
|
if (clk_on_imx6q() && imx_get_soc_revision() == IMX_CHIP_REVISION_1_0) {
|
|
post_div_table[1].div = 1;
|
|
post_div_table[2].div = 1;
|
|
video_div_table[1].div = 1;
|
|
video_div_table[3].div = 1;
|
|
}
|
|
|
|
hws[IMX6QDL_PLL1_BYPASS_SRC] = imx_clk_hw_mux("pll1_bypass_src", base + 0x00, 14, 2, pll_bypass_src_sels, ARRAY_SIZE(pll_bypass_src_sels));
|
|
hws[IMX6QDL_PLL2_BYPASS_SRC] = imx_clk_hw_mux("pll2_bypass_src", base + 0x30, 14, 2, pll_bypass_src_sels, ARRAY_SIZE(pll_bypass_src_sels));
|
|
hws[IMX6QDL_PLL3_BYPASS_SRC] = imx_clk_hw_mux("pll3_bypass_src", base + 0x10, 14, 2, pll_bypass_src_sels, ARRAY_SIZE(pll_bypass_src_sels));
|
|
hws[IMX6QDL_PLL4_BYPASS_SRC] = imx_clk_hw_mux("pll4_bypass_src", base + 0x70, 14, 2, pll_bypass_src_sels, ARRAY_SIZE(pll_bypass_src_sels));
|
|
hws[IMX6QDL_PLL5_BYPASS_SRC] = imx_clk_hw_mux("pll5_bypass_src", base + 0xa0, 14, 2, pll_bypass_src_sels, ARRAY_SIZE(pll_bypass_src_sels));
|
|
hws[IMX6QDL_PLL6_BYPASS_SRC] = imx_clk_hw_mux("pll6_bypass_src", base + 0xe0, 14, 2, pll_bypass_src_sels, ARRAY_SIZE(pll_bypass_src_sels));
|
|
hws[IMX6QDL_PLL7_BYPASS_SRC] = imx_clk_hw_mux("pll7_bypass_src", base + 0x20, 14, 2, pll_bypass_src_sels, ARRAY_SIZE(pll_bypass_src_sels));
|
|
|
|
/* type name parent_name base div_mask */
|
|
hws[IMX6QDL_CLK_PLL1] = imx_clk_hw_pllv3(IMX_PLLV3_SYS, "pll1", "osc", base + 0x00, 0x7f);
|
|
hws[IMX6QDL_CLK_PLL2] = imx_clk_hw_pllv3(IMX_PLLV3_GENERIC, "pll2", "osc", base + 0x30, 0x1);
|
|
hws[IMX6QDL_CLK_PLL3] = imx_clk_hw_pllv3(IMX_PLLV3_USB, "pll3", "osc", base + 0x10, 0x3);
|
|
hws[IMX6QDL_CLK_PLL4] = imx_clk_hw_pllv3(IMX_PLLV3_AV, "pll4", "osc", base + 0x70, 0x7f);
|
|
hws[IMX6QDL_CLK_PLL5] = imx_clk_hw_pllv3(IMX_PLLV3_AV, "pll5", "osc", base + 0xa0, 0x7f);
|
|
hws[IMX6QDL_CLK_PLL6] = imx_clk_hw_pllv3(IMX_PLLV3_ENET, "pll6", "osc", base + 0xe0, 0x3);
|
|
hws[IMX6QDL_CLK_PLL7] = imx_clk_hw_pllv3(IMX_PLLV3_USB, "pll7", "osc", base + 0x20, 0x3);
|
|
|
|
hws[IMX6QDL_PLL1_BYPASS] = imx_clk_hw_mux_flags("pll1_bypass", base + 0x00, 16, 1, pll1_bypass_sels, ARRAY_SIZE(pll1_bypass_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_PLL2_BYPASS] = imx_clk_hw_mux_flags("pll2_bypass", base + 0x30, 16, 1, pll2_bypass_sels, ARRAY_SIZE(pll2_bypass_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_PLL3_BYPASS] = imx_clk_hw_mux_flags("pll3_bypass", base + 0x10, 16, 1, pll3_bypass_sels, ARRAY_SIZE(pll3_bypass_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_PLL4_BYPASS] = imx_clk_hw_mux_flags("pll4_bypass", base + 0x70, 16, 1, pll4_bypass_sels, ARRAY_SIZE(pll4_bypass_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_PLL5_BYPASS] = imx_clk_hw_mux_flags("pll5_bypass", base + 0xa0, 16, 1, pll5_bypass_sels, ARRAY_SIZE(pll5_bypass_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_PLL6_BYPASS] = imx_clk_hw_mux_flags("pll6_bypass", base + 0xe0, 16, 1, pll6_bypass_sels, ARRAY_SIZE(pll6_bypass_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_PLL7_BYPASS] = imx_clk_hw_mux_flags("pll7_bypass", base + 0x20, 16, 1, pll7_bypass_sels, ARRAY_SIZE(pll7_bypass_sels), CLK_SET_RATE_PARENT);
|
|
|
|
/* Do not bypass PLLs initially */
|
|
clk_set_parent(hws[IMX6QDL_PLL1_BYPASS]->clk, hws[IMX6QDL_CLK_PLL1]->clk);
|
|
clk_set_parent(hws[IMX6QDL_PLL2_BYPASS]->clk, hws[IMX6QDL_CLK_PLL2]->clk);
|
|
clk_set_parent(hws[IMX6QDL_PLL3_BYPASS]->clk, hws[IMX6QDL_CLK_PLL3]->clk);
|
|
clk_set_parent(hws[IMX6QDL_PLL4_BYPASS]->clk, hws[IMX6QDL_CLK_PLL4]->clk);
|
|
clk_set_parent(hws[IMX6QDL_PLL5_BYPASS]->clk, hws[IMX6QDL_CLK_PLL5]->clk);
|
|
clk_set_parent(hws[IMX6QDL_PLL6_BYPASS]->clk, hws[IMX6QDL_CLK_PLL6]->clk);
|
|
clk_set_parent(hws[IMX6QDL_PLL7_BYPASS]->clk, hws[IMX6QDL_CLK_PLL7]->clk);
|
|
|
|
hws[IMX6QDL_CLK_PLL1_SYS] = imx_clk_hw_gate("pll1_sys", "pll1_bypass", base + 0x00, 13);
|
|
hws[IMX6QDL_CLK_PLL2_BUS] = imx_clk_hw_gate("pll2_bus", "pll2_bypass", base + 0x30, 13);
|
|
hws[IMX6QDL_CLK_PLL3_USB_OTG] = imx_clk_hw_gate("pll3_usb_otg", "pll3_bypass", base + 0x10, 13);
|
|
hws[IMX6QDL_CLK_PLL4_AUDIO] = imx_clk_hw_gate("pll4_audio", "pll4_bypass", base + 0x70, 13);
|
|
hws[IMX6QDL_CLK_PLL5_VIDEO] = imx_clk_hw_gate("pll5_video", "pll5_bypass", base + 0xa0, 13);
|
|
hws[IMX6QDL_CLK_PLL6_ENET] = imx_clk_hw_gate("pll6_enet", "pll6_bypass", base + 0xe0, 13);
|
|
hws[IMX6QDL_CLK_PLL7_USB_HOST] = imx_clk_hw_gate("pll7_usb_host", "pll7_bypass", base + 0x20, 13);
|
|
|
|
/*
|
|
* Bit 20 is the reserved and read-only bit, we do this only for:
|
|
* - Do nothing for usbphy clk_enable/disable
|
|
* - Keep refcount when do usbphy clk_enable/disable, in that case,
|
|
* the clk framework may need to enable/disable usbphy's parent
|
|
*/
|
|
hws[IMX6QDL_CLK_USBPHY1] = imx_clk_hw_gate("usbphy1", "pll3_usb_otg", base + 0x10, 20);
|
|
hws[IMX6QDL_CLK_USBPHY2] = imx_clk_hw_gate("usbphy2", "pll7_usb_host", base + 0x20, 20);
|
|
|
|
/*
|
|
* usbphy*_gate needs to be on after system boots up, and software
|
|
* never needs to control it anymore.
|
|
*/
|
|
hws[IMX6QDL_CLK_USBPHY1_GATE] = imx_clk_hw_gate("usbphy1_gate", "dummy", base + 0x10, 6);
|
|
hws[IMX6QDL_CLK_USBPHY2_GATE] = imx_clk_hw_gate("usbphy2_gate", "dummy", base + 0x20, 6);
|
|
|
|
/*
|
|
* The ENET PLL is special in that is has multiple outputs with
|
|
* different post-dividers that are all affected by the single bypass
|
|
* bit, so a single mux bit affects 3 independent branches of the clock
|
|
* tree. There is no good way to model this in the clock framework and
|
|
* dynamically changing the bypass bit, will yield unexpected results.
|
|
* So we treat any configuration that bypasses the ENET PLL as
|
|
* essentially static with the divider ratios reflecting the bypass
|
|
* status.
|
|
*
|
|
*/
|
|
if (!pll6_bypassed(ccm_node)) {
|
|
hws[IMX6QDL_CLK_SATA_REF] = imx_clk_hw_fixed_factor("sata_ref", "pll6_enet", 1, 5);
|
|
hws[IMX6QDL_CLK_PCIE_REF] = imx_clk_hw_fixed_factor("pcie_ref", "pll6_enet", 1, 4);
|
|
hws[IMX6QDL_CLK_ENET_REF] = clk_hw_register_divider_table(NULL, "enet_ref", "pll6_enet", 0,
|
|
base + 0xe0, 0, 2, 0, clk_enet_ref_table,
|
|
&imx_ccm_lock);
|
|
} else {
|
|
hws[IMX6QDL_CLK_SATA_REF] = imx_clk_hw_fixed_factor("sata_ref", "pll6_enet", 1, 1);
|
|
hws[IMX6QDL_CLK_PCIE_REF] = imx_clk_hw_fixed_factor("pcie_ref", "pll6_enet", 1, 1);
|
|
hws[IMX6QDL_CLK_ENET_REF] = imx_clk_hw_fixed_factor("enet_ref", "pll6_enet", 1, 1);
|
|
}
|
|
|
|
hws[IMX6QDL_CLK_SATA_REF_100M] = imx_clk_hw_gate("sata_ref_100m", "sata_ref", base + 0xe0, 20);
|
|
hws[IMX6QDL_CLK_PCIE_REF_125M] = imx_clk_hw_gate("pcie_ref_125m", "pcie_ref", base + 0xe0, 19);
|
|
|
|
hws[IMX6QDL_CLK_LVDS1_SEL] = imx_clk_hw_mux("lvds1_sel", base + 0x160, 0, 5, lvds_sels, ARRAY_SIZE(lvds_sels));
|
|
hws[IMX6QDL_CLK_LVDS2_SEL] = imx_clk_hw_mux("lvds2_sel", base + 0x160, 5, 5, lvds_sels, ARRAY_SIZE(lvds_sels));
|
|
|
|
/*
|
|
* lvds1_gate and lvds2_gate are pseudo-gates. Both can be
|
|
* independently configured as clock inputs or outputs. We treat
|
|
* the "output_enable" bit as a gate, even though it's really just
|
|
* enabling clock output. Initially the gate bits are cleared, as
|
|
* otherwise the exclusive configuration gets locked in the setup done
|
|
* by software running before the clock driver, with no way to change
|
|
* it.
|
|
*/
|
|
writel(readl(base + 0x160) & ~0x3c00, base + 0x160);
|
|
hws[IMX6QDL_CLK_LVDS1_GATE] = imx_clk_hw_gate_exclusive("lvds1_gate", "lvds1_sel", base + 0x160, 10, BIT(12));
|
|
hws[IMX6QDL_CLK_LVDS2_GATE] = imx_clk_hw_gate_exclusive("lvds2_gate", "lvds2_sel", base + 0x160, 11, BIT(13));
|
|
|
|
hws[IMX6QDL_CLK_LVDS1_IN] = imx_clk_hw_gate_exclusive("lvds1_in", "anaclk1", base + 0x160, 12, BIT(10));
|
|
hws[IMX6QDL_CLK_LVDS2_IN] = imx_clk_hw_gate_exclusive("lvds2_in", "anaclk2", base + 0x160, 13, BIT(11));
|
|
|
|
/* name parent_name reg idx */
|
|
hws[IMX6QDL_CLK_PLL2_PFD0_352M] = imx_clk_hw_pfd("pll2_pfd0_352m", "pll2_bus", base + 0x100, 0);
|
|
hws[IMX6QDL_CLK_PLL2_PFD1_594M] = imx_clk_hw_pfd("pll2_pfd1_594m", "pll2_bus", base + 0x100, 1);
|
|
hws[IMX6QDL_CLK_PLL2_PFD2_396M] = imx_clk_hw_pfd("pll2_pfd2_396m", "pll2_bus", base + 0x100, 2);
|
|
hws[IMX6QDL_CLK_PLL3_PFD0_720M] = imx_clk_hw_pfd("pll3_pfd0_720m", "pll3_usb_otg", base + 0xf0, 0);
|
|
hws[IMX6QDL_CLK_PLL3_PFD1_540M] = imx_clk_hw_pfd("pll3_pfd1_540m", "pll3_usb_otg", base + 0xf0, 1);
|
|
hws[IMX6QDL_CLK_PLL3_PFD2_508M] = imx_clk_hw_pfd("pll3_pfd2_508m", "pll3_usb_otg", base + 0xf0, 2);
|
|
hws[IMX6QDL_CLK_PLL3_PFD3_454M] = imx_clk_hw_pfd("pll3_pfd3_454m", "pll3_usb_otg", base + 0xf0, 3);
|
|
|
|
/* name parent_name mult div */
|
|
hws[IMX6QDL_CLK_PLL2_198M] = imx_clk_hw_fixed_factor("pll2_198m", "pll2_pfd2_396m", 1, 2);
|
|
hws[IMX6QDL_CLK_PLL3_120M] = imx_clk_hw_fixed_factor("pll3_120m", "pll3_usb_otg", 1, 4);
|
|
hws[IMX6QDL_CLK_PLL3_80M] = imx_clk_hw_fixed_factor("pll3_80m", "pll3_usb_otg", 1, 6);
|
|
hws[IMX6QDL_CLK_PLL3_60M] = imx_clk_hw_fixed_factor("pll3_60m", "pll3_usb_otg", 1, 8);
|
|
hws[IMX6QDL_CLK_TWD] = imx_clk_hw_fixed_factor("twd", "arm", 1, 2);
|
|
hws[IMX6QDL_CLK_GPT_3M] = imx_clk_hw_fixed_factor("gpt_3m", "osc", 1, 8);
|
|
hws[IMX6QDL_CLK_VIDEO_27M] = imx_clk_hw_fixed_factor("video_27m", "pll3_pfd1_540m", 1, 20);
|
|
if (clk_on_imx6dl() || clk_on_imx6qp()) {
|
|
hws[IMX6QDL_CLK_GPU2D_AXI] = imx_clk_hw_fixed_factor("gpu2d_axi", "mmdc_ch0_axi_podf", 1, 1);
|
|
hws[IMX6QDL_CLK_GPU3D_AXI] = imx_clk_hw_fixed_factor("gpu3d_axi", "mmdc_ch0_axi_podf", 1, 1);
|
|
}
|
|
|
|
hws[IMX6QDL_CLK_PLL4_POST_DIV] = clk_hw_register_divider_table(NULL, "pll4_post_div", "pll4_audio", CLK_SET_RATE_PARENT, base + 0x70, 19, 2, 0, post_div_table, &imx_ccm_lock);
|
|
hws[IMX6QDL_CLK_PLL4_AUDIO_DIV] = clk_hw_register_divider(NULL, "pll4_audio_div", "pll4_post_div", CLK_SET_RATE_PARENT, base + 0x170, 15, 1, 0, &imx_ccm_lock);
|
|
hws[IMX6QDL_CLK_PLL5_POST_DIV] = clk_hw_register_divider_table(NULL, "pll5_post_div", "pll5_video", CLK_SET_RATE_PARENT, base + 0xa0, 19, 2, 0, post_div_table, &imx_ccm_lock);
|
|
hws[IMX6QDL_CLK_PLL5_VIDEO_DIV] = clk_hw_register_divider_table(NULL, "pll5_video_div", "pll5_post_div", CLK_SET_RATE_PARENT, base + 0x170, 30, 2, 0, video_div_table, &imx_ccm_lock);
|
|
|
|
np = ccm_node;
|
|
base = of_iomap(np, 0);
|
|
WARN_ON(!base);
|
|
|
|
/* name reg shift width parent_names num_parents */
|
|
hws[IMX6QDL_CLK_STEP] = imx_clk_hw_mux("step", base + 0xc, 8, 1, step_sels, ARRAY_SIZE(step_sels));
|
|
hws[IMX6QDL_CLK_PLL1_SW] = imx_clk_hw_mux("pll1_sw", base + 0xc, 2, 1, pll1_sw_sels, ARRAY_SIZE(pll1_sw_sels));
|
|
hws[IMX6QDL_CLK_PERIPH_PRE] = imx_clk_hw_mux("periph_pre", base + 0x18, 18, 2, periph_pre_sels, ARRAY_SIZE(periph_pre_sels));
|
|
hws[IMX6QDL_CLK_PERIPH2_PRE] = imx_clk_hw_mux("periph2_pre", base + 0x18, 21, 2, periph_pre_sels, ARRAY_SIZE(periph_pre_sels));
|
|
hws[IMX6QDL_CLK_PERIPH_CLK2_SEL] = imx_clk_hw_mux("periph_clk2_sel", base + 0x18, 12, 2, periph_clk2_sels, ARRAY_SIZE(periph_clk2_sels));
|
|
hws[IMX6QDL_CLK_PERIPH2_CLK2_SEL] = imx_clk_hw_mux("periph2_clk2_sel", base + 0x18, 20, 1, periph2_clk2_sels, ARRAY_SIZE(periph2_clk2_sels));
|
|
hws[IMX6QDL_CLK_AXI_SEL] = imx_clk_hw_mux("axi_sel", base + 0x14, 6, 2, axi_sels, ARRAY_SIZE(axi_sels));
|
|
hws[IMX6QDL_CLK_ESAI_SEL] = imx_clk_hw_mux("esai_sel", base + 0x20, 19, 2, audio_sels, ARRAY_SIZE(audio_sels));
|
|
hws[IMX6QDL_CLK_ASRC_SEL] = imx_clk_hw_mux("asrc_sel", base + 0x30, 7, 2, audio_sels, ARRAY_SIZE(audio_sels));
|
|
hws[IMX6QDL_CLK_SPDIF_SEL] = imx_clk_hw_mux("spdif_sel", base + 0x30, 20, 2, audio_sels, ARRAY_SIZE(audio_sels));
|
|
if (clk_on_imx6q()) {
|
|
hws[IMX6QDL_CLK_GPU2D_AXI] = imx_clk_hw_mux("gpu2d_axi", base + 0x18, 0, 1, gpu_axi_sels, ARRAY_SIZE(gpu_axi_sels));
|
|
hws[IMX6QDL_CLK_GPU3D_AXI] = imx_clk_hw_mux("gpu3d_axi", base + 0x18, 1, 1, gpu_axi_sels, ARRAY_SIZE(gpu_axi_sels));
|
|
}
|
|
if (clk_on_imx6qp()) {
|
|
hws[IMX6QDL_CLK_CAN_SEL] = imx_clk_hw_mux("can_sel", base + 0x20, 8, 2, can_sels, ARRAY_SIZE(can_sels));
|
|
hws[IMX6QDL_CLK_ECSPI_SEL] = imx_clk_hw_mux("ecspi_sel", base + 0x38, 18, 1, ecspi_sels, ARRAY_SIZE(ecspi_sels));
|
|
hws[IMX6QDL_CLK_IPG_PER_SEL] = imx_clk_hw_mux("ipg_per_sel", base + 0x1c, 6, 1, ipg_per_sels, ARRAY_SIZE(ipg_per_sels));
|
|
hws[IMX6QDL_CLK_UART_SEL] = imx_clk_hw_mux("uart_sel", base + 0x24, 6, 1, uart_sels, ARRAY_SIZE(uart_sels));
|
|
hws[IMX6QDL_CLK_GPU2D_CORE_SEL] = imx_clk_hw_mux("gpu2d_core_sel", base + 0x18, 16, 2, gpu2d_core_sels_2, ARRAY_SIZE(gpu2d_core_sels_2));
|
|
} else if (clk_on_imx6dl()) {
|
|
hws[IMX6QDL_CLK_MLB_SEL] = imx_clk_hw_mux("mlb_sel", base + 0x18, 16, 2, gpu2d_core_sels, ARRAY_SIZE(gpu2d_core_sels));
|
|
} else {
|
|
hws[IMX6QDL_CLK_GPU2D_CORE_SEL] = imx_clk_hw_mux("gpu2d_core_sel", base + 0x18, 16, 2, gpu2d_core_sels, ARRAY_SIZE(gpu2d_core_sels));
|
|
}
|
|
hws[IMX6QDL_CLK_GPU3D_CORE_SEL] = imx_clk_hw_mux("gpu3d_core_sel", base + 0x18, 4, 2, gpu3d_core_sels, ARRAY_SIZE(gpu3d_core_sels));
|
|
if (clk_on_imx6dl())
|
|
hws[IMX6QDL_CLK_GPU2D_CORE_SEL] = imx_clk_hw_mux("gpu2d_core_sel", base + 0x18, 8, 2, gpu3d_shader_sels, ARRAY_SIZE(gpu3d_shader_sels));
|
|
else
|
|
hws[IMX6QDL_CLK_GPU3D_SHADER_SEL] = imx_clk_hw_mux("gpu3d_shader_sel", base + 0x18, 8, 2, gpu3d_shader_sels, ARRAY_SIZE(gpu3d_shader_sels));
|
|
hws[IMX6QDL_CLK_IPU1_SEL] = imx_clk_hw_mux("ipu1_sel", base + 0x3c, 9, 2, ipu_sels, ARRAY_SIZE(ipu_sels));
|
|
hws[IMX6QDL_CLK_IPU2_SEL] = imx_clk_hw_mux("ipu2_sel", base + 0x3c, 14, 2, ipu_sels, ARRAY_SIZE(ipu_sels));
|
|
|
|
disable_anatop_clocks(anatop_base);
|
|
|
|
imx_mmdc_mask_handshake(base, 1);
|
|
|
|
if (clk_on_imx6qp()) {
|
|
hws[IMX6QDL_CLK_LDB_DI0_SEL] = imx_clk_hw_mux_flags("ldb_di0_sel", base + 0x2c, 9, 3, ldb_di_sels, ARRAY_SIZE(ldb_di_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_CLK_LDB_DI1_SEL] = imx_clk_hw_mux_flags("ldb_di1_sel", base + 0x2c, 12, 3, ldb_di_sels, ARRAY_SIZE(ldb_di_sels), CLK_SET_RATE_PARENT);
|
|
} else {
|
|
/*
|
|
* The LDB_DI0/1_SEL muxes are registered read-only due to a hardware
|
|
* bug. Set the muxes to the requested values before registering the
|
|
* ldb_di_sel clocks.
|
|
*/
|
|
init_ldb_clks(np, base);
|
|
|
|
hws[IMX6QDL_CLK_LDB_DI0_SEL] = imx_clk_hw_mux_ldb("ldb_di0_sel", base + 0x2c, 9, 3, ldb_di_sels, ARRAY_SIZE(ldb_di_sels));
|
|
hws[IMX6QDL_CLK_LDB_DI1_SEL] = imx_clk_hw_mux_ldb("ldb_di1_sel", base + 0x2c, 12, 3, ldb_di_sels, ARRAY_SIZE(ldb_di_sels));
|
|
}
|
|
|
|
hws[IMX6QDL_CLK_IPU1_DI0_PRE_SEL] = imx_clk_hw_mux_flags("ipu1_di0_pre_sel", base + 0x34, 6, 3, ipu_di_pre_sels, ARRAY_SIZE(ipu_di_pre_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_CLK_IPU1_DI1_PRE_SEL] = imx_clk_hw_mux_flags("ipu1_di1_pre_sel", base + 0x34, 15, 3, ipu_di_pre_sels, ARRAY_SIZE(ipu_di_pre_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_CLK_IPU2_DI0_PRE_SEL] = imx_clk_hw_mux_flags("ipu2_di0_pre_sel", base + 0x38, 6, 3, ipu_di_pre_sels, ARRAY_SIZE(ipu_di_pre_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_CLK_IPU2_DI1_PRE_SEL] = imx_clk_hw_mux_flags("ipu2_di1_pre_sel", base + 0x38, 15, 3, ipu_di_pre_sels, ARRAY_SIZE(ipu_di_pre_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_CLK_HSI_TX_SEL] = imx_clk_hw_mux("hsi_tx_sel", base + 0x30, 28, 1, hsi_tx_sels, ARRAY_SIZE(hsi_tx_sels));
|
|
hws[IMX6QDL_CLK_PCIE_AXI_SEL] = imx_clk_hw_mux("pcie_axi_sel", base + 0x18, 10, 1, pcie_axi_sels, ARRAY_SIZE(pcie_axi_sels));
|
|
|
|
if (clk_on_imx6qp()) {
|
|
hws[IMX6QDL_CLK_IPU1_DI0_SEL] = imx_clk_hw_mux_flags("ipu1_di0_sel", base + 0x34, 0, 3, ipu1_di0_sels_2, ARRAY_SIZE(ipu1_di0_sels_2), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_CLK_IPU1_DI1_SEL] = imx_clk_hw_mux_flags("ipu1_di1_sel", base + 0x34, 9, 3, ipu1_di1_sels_2, ARRAY_SIZE(ipu1_di1_sels_2), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_CLK_IPU2_DI0_SEL] = imx_clk_hw_mux_flags("ipu2_di0_sel", base + 0x38, 0, 3, ipu2_di0_sels_2, ARRAY_SIZE(ipu2_di0_sels_2), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_CLK_IPU2_DI1_SEL] = imx_clk_hw_mux_flags("ipu2_di1_sel", base + 0x38, 9, 3, ipu2_di1_sels_2, ARRAY_SIZE(ipu2_di1_sels_2), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_CLK_SSI1_SEL] = imx_clk_hw_mux("ssi1_sel", base + 0x1c, 10, 2, ssi_sels, ARRAY_SIZE(ssi_sels));
|
|
hws[IMX6QDL_CLK_SSI2_SEL] = imx_clk_hw_mux("ssi2_sel", base + 0x1c, 12, 2, ssi_sels, ARRAY_SIZE(ssi_sels));
|
|
hws[IMX6QDL_CLK_SSI3_SEL] = imx_clk_hw_mux("ssi3_sel", base + 0x1c, 14, 2, ssi_sels, ARRAY_SIZE(ssi_sels));
|
|
hws[IMX6QDL_CLK_USDHC1_SEL] = imx_clk_hw_mux("usdhc1_sel", base + 0x1c, 16, 1, usdhc_sels, ARRAY_SIZE(usdhc_sels));
|
|
hws[IMX6QDL_CLK_USDHC2_SEL] = imx_clk_hw_mux("usdhc2_sel", base + 0x1c, 17, 1, usdhc_sels, ARRAY_SIZE(usdhc_sels));
|
|
hws[IMX6QDL_CLK_USDHC3_SEL] = imx_clk_hw_mux("usdhc3_sel", base + 0x1c, 18, 1, usdhc_sels, ARRAY_SIZE(usdhc_sels));
|
|
hws[IMX6QDL_CLK_USDHC4_SEL] = imx_clk_hw_mux("usdhc4_sel", base + 0x1c, 19, 1, usdhc_sels, ARRAY_SIZE(usdhc_sels));
|
|
hws[IMX6QDL_CLK_ENFC_SEL] = imx_clk_hw_mux("enfc_sel", base + 0x2c, 15, 3, enfc_sels_2, ARRAY_SIZE(enfc_sels_2));
|
|
hws[IMX6QDL_CLK_EIM_SEL] = imx_clk_hw_mux("eim_sel", base + 0x1c, 27, 2, eim_sels, ARRAY_SIZE(eim_sels));
|
|
hws[IMX6QDL_CLK_EIM_SLOW_SEL] = imx_clk_hw_mux("eim_slow_sel", base + 0x1c, 29, 2, eim_slow_sels, ARRAY_SIZE(eim_slow_sels));
|
|
hws[IMX6QDL_CLK_PRE_AXI] = imx_clk_hw_mux("pre_axi", base + 0x18, 1, 1, pre_axi_sels, ARRAY_SIZE(pre_axi_sels));
|
|
} else {
|
|
hws[IMX6QDL_CLK_IPU1_DI0_SEL] = imx_clk_hw_mux_flags("ipu1_di0_sel", base + 0x34, 0, 3, ipu1_di0_sels, ARRAY_SIZE(ipu1_di0_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_CLK_IPU1_DI1_SEL] = imx_clk_hw_mux_flags("ipu1_di1_sel", base + 0x34, 9, 3, ipu1_di1_sels, ARRAY_SIZE(ipu1_di1_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_CLK_IPU2_DI0_SEL] = imx_clk_hw_mux_flags("ipu2_di0_sel", base + 0x38, 0, 3, ipu2_di0_sels, ARRAY_SIZE(ipu2_di0_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_CLK_IPU2_DI1_SEL] = imx_clk_hw_mux_flags("ipu2_di1_sel", base + 0x38, 9, 3, ipu2_di1_sels, ARRAY_SIZE(ipu2_di1_sels), CLK_SET_RATE_PARENT);
|
|
hws[IMX6QDL_CLK_SSI1_SEL] = imx_clk_hw_fixup_mux("ssi1_sel", base + 0x1c, 10, 2, ssi_sels, ARRAY_SIZE(ssi_sels), imx_cscmr1_fixup);
|
|
hws[IMX6QDL_CLK_SSI2_SEL] = imx_clk_hw_fixup_mux("ssi2_sel", base + 0x1c, 12, 2, ssi_sels, ARRAY_SIZE(ssi_sels), imx_cscmr1_fixup);
|
|
hws[IMX6QDL_CLK_SSI3_SEL] = imx_clk_hw_fixup_mux("ssi3_sel", base + 0x1c, 14, 2, ssi_sels, ARRAY_SIZE(ssi_sels), imx_cscmr1_fixup);
|
|
hws[IMX6QDL_CLK_USDHC1_SEL] = imx_clk_hw_fixup_mux("usdhc1_sel", base + 0x1c, 16, 1, usdhc_sels, ARRAY_SIZE(usdhc_sels), imx_cscmr1_fixup);
|
|
hws[IMX6QDL_CLK_USDHC2_SEL] = imx_clk_hw_fixup_mux("usdhc2_sel", base + 0x1c, 17, 1, usdhc_sels, ARRAY_SIZE(usdhc_sels), imx_cscmr1_fixup);
|
|
hws[IMX6QDL_CLK_USDHC3_SEL] = imx_clk_hw_fixup_mux("usdhc3_sel", base + 0x1c, 18, 1, usdhc_sels, ARRAY_SIZE(usdhc_sels), imx_cscmr1_fixup);
|
|
hws[IMX6QDL_CLK_USDHC4_SEL] = imx_clk_hw_fixup_mux("usdhc4_sel", base + 0x1c, 19, 1, usdhc_sels, ARRAY_SIZE(usdhc_sels), imx_cscmr1_fixup);
|
|
hws[IMX6QDL_CLK_ENFC_SEL] = imx_clk_hw_mux("enfc_sel", base + 0x2c, 16, 2, enfc_sels, ARRAY_SIZE(enfc_sels));
|
|
hws[IMX6QDL_CLK_EIM_SEL] = imx_clk_hw_fixup_mux("eim_sel", base + 0x1c, 27, 2, eim_sels, ARRAY_SIZE(eim_sels), imx_cscmr1_fixup);
|
|
hws[IMX6QDL_CLK_EIM_SLOW_SEL] = imx_clk_hw_fixup_mux("eim_slow_sel", base + 0x1c, 29, 2, eim_slow_sels, ARRAY_SIZE(eim_slow_sels), imx_cscmr1_fixup);
|
|
}
|
|
|
|
hws[IMX6QDL_CLK_VDO_AXI_SEL] = imx_clk_hw_mux("vdo_axi_sel", base + 0x18, 11, 1, vdo_axi_sels, ARRAY_SIZE(vdo_axi_sels));
|
|
hws[IMX6QDL_CLK_VPU_AXI_SEL] = imx_clk_hw_mux("vpu_axi_sel", base + 0x18, 14, 2, vpu_axi_sels, ARRAY_SIZE(vpu_axi_sels));
|
|
hws[IMX6QDL_CLK_CKO1_SEL] = imx_clk_hw_mux("cko1_sel", base + 0x60, 0, 4, cko1_sels, ARRAY_SIZE(cko1_sels));
|
|
hws[IMX6QDL_CLK_CKO2_SEL] = imx_clk_hw_mux("cko2_sel", base + 0x60, 16, 5, cko2_sels, ARRAY_SIZE(cko2_sels));
|
|
hws[IMX6QDL_CLK_CKO] = imx_clk_hw_mux("cko", base + 0x60, 8, 1, cko_sels, ARRAY_SIZE(cko_sels));
|
|
|
|
/* name reg shift width busy: reg, shift parent_names num_parents */
|
|
hws[IMX6QDL_CLK_PERIPH] = imx_clk_hw_busy_mux("periph", base + 0x14, 25, 1, base + 0x48, 5, periph_sels, ARRAY_SIZE(periph_sels));
|
|
hws[IMX6QDL_CLK_PERIPH2] = imx_clk_hw_busy_mux("periph2", base + 0x14, 26, 1, base + 0x48, 3, periph2_sels, ARRAY_SIZE(periph2_sels));
|
|
|
|
/* name parent_name reg shift width */
|
|
hws[IMX6QDL_CLK_PERIPH_CLK2] = imx_clk_hw_divider("periph_clk2", "periph_clk2_sel", base + 0x14, 27, 3);
|
|
hws[IMX6QDL_CLK_PERIPH2_CLK2] = imx_clk_hw_divider("periph2_clk2", "periph2_clk2_sel", base + 0x14, 0, 3);
|
|
hws[IMX6QDL_CLK_IPG] = imx_clk_hw_divider("ipg", "ahb", base + 0x14, 8, 2);
|
|
hws[IMX6QDL_CLK_ESAI_PRED] = imx_clk_hw_divider("esai_pred", "esai_sel", base + 0x28, 9, 3);
|
|
hws[IMX6QDL_CLK_ESAI_PODF] = imx_clk_hw_divider("esai_podf", "esai_pred", base + 0x28, 25, 3);
|
|
hws[IMX6QDL_CLK_ASRC_PRED] = imx_clk_hw_divider("asrc_pred", "asrc_sel", base + 0x30, 12, 3);
|
|
hws[IMX6QDL_CLK_ASRC_PODF] = imx_clk_hw_divider("asrc_podf", "asrc_pred", base + 0x30, 9, 3);
|
|
hws[IMX6QDL_CLK_SPDIF_PRED] = imx_clk_hw_divider("spdif_pred", "spdif_sel", base + 0x30, 25, 3);
|
|
hws[IMX6QDL_CLK_SPDIF_PODF] = imx_clk_hw_divider("spdif_podf", "spdif_pred", base + 0x30, 22, 3);
|
|
|
|
if (clk_on_imx6qp()) {
|
|
hws[IMX6QDL_CLK_IPG_PER] = imx_clk_hw_divider("ipg_per", "ipg_per_sel", base + 0x1c, 0, 6);
|
|
hws[IMX6QDL_CLK_ECSPI_ROOT] = imx_clk_hw_divider("ecspi_root", "ecspi_sel", base + 0x38, 19, 6);
|
|
hws[IMX6QDL_CLK_CAN_ROOT] = imx_clk_hw_divider("can_root", "can_sel", base + 0x20, 2, 6);
|
|
hws[IMX6QDL_CLK_UART_SERIAL_PODF] = imx_clk_hw_divider("uart_serial_podf", "uart_sel", base + 0x24, 0, 6);
|
|
hws[IMX6QDL_CLK_LDB_DI0_DIV_3_5] = imx_clk_hw_fixed_factor("ldb_di0_div_3_5", "ldb_di0", 2, 7);
|
|
hws[IMX6QDL_CLK_LDB_DI1_DIV_3_5] = imx_clk_hw_fixed_factor("ldb_di1_div_3_5", "ldb_di1", 2, 7);
|
|
} else {
|
|
hws[IMX6QDL_CLK_ECSPI_ROOT] = imx_clk_hw_divider("ecspi_root", "pll3_60m", base + 0x38, 19, 6);
|
|
hws[IMX6QDL_CLK_CAN_ROOT] = imx_clk_hw_divider("can_root", "pll3_60m", base + 0x20, 2, 6);
|
|
hws[IMX6QDL_CLK_IPG_PER] = imx_clk_hw_fixup_divider("ipg_per", "ipg", base + 0x1c, 0, 6, imx_cscmr1_fixup);
|
|
hws[IMX6QDL_CLK_UART_SERIAL_PODF] = imx_clk_hw_divider("uart_serial_podf", "pll3_80m", base + 0x24, 0, 6);
|
|
hws[IMX6QDL_CLK_LDB_DI0_DIV_3_5] = imx_clk_hw_fixed_factor("ldb_di0_div_3_5", "ldb_di0_sel", 2, 7);
|
|
hws[IMX6QDL_CLK_LDB_DI1_DIV_3_5] = imx_clk_hw_fixed_factor("ldb_di1_div_3_5", "ldb_di1_sel", 2, 7);
|
|
}
|
|
|
|
if (clk_on_imx6dl())
|
|
hws[IMX6QDL_CLK_MLB_PODF] = imx_clk_hw_divider("mlb_podf", "mlb_sel", base + 0x18, 23, 3);
|
|
else
|
|
hws[IMX6QDL_CLK_GPU2D_CORE_PODF] = imx_clk_hw_divider("gpu2d_core_podf", "gpu2d_core_sel", base + 0x18, 23, 3);
|
|
hws[IMX6QDL_CLK_GPU3D_CORE_PODF] = imx_clk_hw_divider("gpu3d_core_podf", "gpu3d_core_sel", base + 0x18, 26, 3);
|
|
if (clk_on_imx6dl())
|
|
hws[IMX6QDL_CLK_GPU2D_CORE_PODF] = imx_clk_hw_divider("gpu2d_core_podf", "gpu2d_core_sel", base + 0x18, 29, 3);
|
|
else
|
|
hws[IMX6QDL_CLK_GPU3D_SHADER] = imx_clk_hw_divider("gpu3d_shader", "gpu3d_shader_sel", base + 0x18, 29, 3);
|
|
hws[IMX6QDL_CLK_IPU1_PODF] = imx_clk_hw_divider("ipu1_podf", "ipu1_sel", base + 0x3c, 11, 3);
|
|
hws[IMX6QDL_CLK_IPU2_PODF] = imx_clk_hw_divider("ipu2_podf", "ipu2_sel", base + 0x3c, 16, 3);
|
|
hws[IMX6QDL_CLK_LDB_DI0_PODF] = imx_clk_hw_divider_flags("ldb_di0_podf", "ldb_di0_div_3_5", base + 0x20, 10, 1, 0);
|
|
hws[IMX6QDL_CLK_LDB_DI1_PODF] = imx_clk_hw_divider_flags("ldb_di1_podf", "ldb_di1_div_3_5", base + 0x20, 11, 1, 0);
|
|
hws[IMX6QDL_CLK_IPU1_DI0_PRE] = imx_clk_hw_divider("ipu1_di0_pre", "ipu1_di0_pre_sel", base + 0x34, 3, 3);
|
|
hws[IMX6QDL_CLK_IPU1_DI1_PRE] = imx_clk_hw_divider("ipu1_di1_pre", "ipu1_di1_pre_sel", base + 0x34, 12, 3);
|
|
hws[IMX6QDL_CLK_IPU2_DI0_PRE] = imx_clk_hw_divider("ipu2_di0_pre", "ipu2_di0_pre_sel", base + 0x38, 3, 3);
|
|
hws[IMX6QDL_CLK_IPU2_DI1_PRE] = imx_clk_hw_divider("ipu2_di1_pre", "ipu2_di1_pre_sel", base + 0x38, 12, 3);
|
|
hws[IMX6QDL_CLK_HSI_TX_PODF] = imx_clk_hw_divider("hsi_tx_podf", "hsi_tx_sel", base + 0x30, 29, 3);
|
|
hws[IMX6QDL_CLK_SSI1_PRED] = imx_clk_hw_divider("ssi1_pred", "ssi1_sel", base + 0x28, 6, 3);
|
|
hws[IMX6QDL_CLK_SSI1_PODF] = imx_clk_hw_divider("ssi1_podf", "ssi1_pred", base + 0x28, 0, 6);
|
|
hws[IMX6QDL_CLK_SSI2_PRED] = imx_clk_hw_divider("ssi2_pred", "ssi2_sel", base + 0x2c, 6, 3);
|
|
hws[IMX6QDL_CLK_SSI2_PODF] = imx_clk_hw_divider("ssi2_podf", "ssi2_pred", base + 0x2c, 0, 6);
|
|
hws[IMX6QDL_CLK_SSI3_PRED] = imx_clk_hw_divider("ssi3_pred", "ssi3_sel", base + 0x28, 22, 3);
|
|
hws[IMX6QDL_CLK_SSI3_PODF] = imx_clk_hw_divider("ssi3_podf", "ssi3_pred", base + 0x28, 16, 6);
|
|
hws[IMX6QDL_CLK_USDHC1_PODF] = imx_clk_hw_divider("usdhc1_podf", "usdhc1_sel", base + 0x24, 11, 3);
|
|
hws[IMX6QDL_CLK_USDHC2_PODF] = imx_clk_hw_divider("usdhc2_podf", "usdhc2_sel", base + 0x24, 16, 3);
|
|
hws[IMX6QDL_CLK_USDHC3_PODF] = imx_clk_hw_divider("usdhc3_podf", "usdhc3_sel", base + 0x24, 19, 3);
|
|
hws[IMX6QDL_CLK_USDHC4_PODF] = imx_clk_hw_divider("usdhc4_podf", "usdhc4_sel", base + 0x24, 22, 3);
|
|
hws[IMX6QDL_CLK_ENFC_PRED] = imx_clk_hw_divider("enfc_pred", "enfc_sel", base + 0x2c, 18, 3);
|
|
hws[IMX6QDL_CLK_ENFC_PODF] = imx_clk_hw_divider("enfc_podf", "enfc_pred", base + 0x2c, 21, 6);
|
|
if (clk_on_imx6qp()) {
|
|
hws[IMX6QDL_CLK_EIM_PODF] = imx_clk_hw_divider("eim_podf", "eim_sel", base + 0x1c, 20, 3);
|
|
hws[IMX6QDL_CLK_EIM_SLOW_PODF] = imx_clk_hw_divider("eim_slow_podf", "eim_slow_sel", base + 0x1c, 23, 3);
|
|
} else {
|
|
hws[IMX6QDL_CLK_EIM_PODF] = imx_clk_hw_fixup_divider("eim_podf", "eim_sel", base + 0x1c, 20, 3, imx_cscmr1_fixup);
|
|
hws[IMX6QDL_CLK_EIM_SLOW_PODF] = imx_clk_hw_fixup_divider("eim_slow_podf", "eim_slow_sel", base + 0x1c, 23, 3, imx_cscmr1_fixup);
|
|
}
|
|
|
|
hws[IMX6QDL_CLK_VPU_AXI_PODF] = imx_clk_hw_divider("vpu_axi_podf", "vpu_axi_sel", base + 0x24, 25, 3);
|
|
hws[IMX6QDL_CLK_CKO1_PODF] = imx_clk_hw_divider("cko1_podf", "cko1_sel", base + 0x60, 4, 3);
|
|
hws[IMX6QDL_CLK_CKO2_PODF] = imx_clk_hw_divider("cko2_podf", "cko2_sel", base + 0x60, 21, 3);
|
|
|
|
/* name parent_name reg shift width busy: reg, shift */
|
|
hws[IMX6QDL_CLK_AXI] = imx_clk_hw_busy_divider("axi", "axi_sel", base + 0x14, 16, 3, base + 0x48, 0);
|
|
hws[IMX6QDL_CLK_MMDC_CH0_AXI_PODF] = imx_clk_hw_busy_divider("mmdc_ch0_axi_podf", "periph", base + 0x14, 19, 3, base + 0x48, 4);
|
|
if (clk_on_imx6qp()) {
|
|
hws[IMX6QDL_CLK_MMDC_CH1_AXI_CG] = imx_clk_hw_gate("mmdc_ch1_axi_cg", "periph2", base + 0x4, 18);
|
|
hws[IMX6QDL_CLK_MMDC_CH1_AXI_PODF] = imx_clk_hw_busy_divider("mmdc_ch1_axi_podf", "mmdc_ch1_axi_cg", base + 0x14, 3, 3, base + 0x48, 2);
|
|
} else {
|
|
hws[IMX6QDL_CLK_MMDC_CH1_AXI_PODF] = imx_clk_hw_busy_divider("mmdc_ch1_axi_podf", "periph2", base + 0x14, 3, 3, base + 0x48, 2);
|
|
}
|
|
hws[IMX6QDL_CLK_ARM] = imx_clk_hw_busy_divider("arm", "pll1_sw", base + 0x10, 0, 3, base + 0x48, 16);
|
|
hws[IMX6QDL_CLK_AHB] = imx_clk_hw_busy_divider("ahb", "periph", base + 0x14, 10, 3, base + 0x48, 1);
|
|
|
|
/* name parent_name reg shift */
|
|
hws[IMX6QDL_CLK_APBH_DMA] = imx_clk_hw_gate2("apbh_dma", "usdhc3", base + 0x68, 4);
|
|
hws[IMX6QDL_CLK_ASRC] = imx_clk_hw_gate2_shared("asrc", "asrc_podf", base + 0x68, 6, &share_count_asrc);
|
|
hws[IMX6QDL_CLK_ASRC_IPG] = imx_clk_hw_gate2_shared("asrc_ipg", "ahb", base + 0x68, 6, &share_count_asrc);
|
|
hws[IMX6QDL_CLK_ASRC_MEM] = imx_clk_hw_gate2_shared("asrc_mem", "ahb", base + 0x68, 6, &share_count_asrc);
|
|
hws[IMX6QDL_CLK_CAAM_MEM] = imx_clk_hw_gate2("caam_mem", "ahb", base + 0x68, 8);
|
|
hws[IMX6QDL_CLK_CAAM_ACLK] = imx_clk_hw_gate2("caam_aclk", "ahb", base + 0x68, 10);
|
|
hws[IMX6QDL_CLK_CAAM_IPG] = imx_clk_hw_gate2("caam_ipg", "ipg", base + 0x68, 12);
|
|
hws[IMX6QDL_CLK_CAN1_IPG] = imx_clk_hw_gate2("can1_ipg", "ipg", base + 0x68, 14);
|
|
hws[IMX6QDL_CLK_CAN1_SERIAL] = imx_clk_hw_gate2("can1_serial", "can_root", base + 0x68, 16);
|
|
hws[IMX6QDL_CLK_CAN2_IPG] = imx_clk_hw_gate2("can2_ipg", "ipg", base + 0x68, 18);
|
|
hws[IMX6QDL_CLK_CAN2_SERIAL] = imx_clk_hw_gate2("can2_serial", "can_root", base + 0x68, 20);
|
|
hws[IMX6QDL_CLK_DCIC1] = imx_clk_hw_gate2("dcic1", "ipu1_podf", base + 0x68, 24);
|
|
hws[IMX6QDL_CLK_DCIC2] = imx_clk_hw_gate2("dcic2", "ipu2_podf", base + 0x68, 26);
|
|
hws[IMX6QDL_CLK_ECSPI1] = imx_clk_hw_gate2("ecspi1", "ecspi_root", base + 0x6c, 0);
|
|
hws[IMX6QDL_CLK_ECSPI2] = imx_clk_hw_gate2("ecspi2", "ecspi_root", base + 0x6c, 2);
|
|
hws[IMX6QDL_CLK_ECSPI3] = imx_clk_hw_gate2("ecspi3", "ecspi_root", base + 0x6c, 4);
|
|
hws[IMX6QDL_CLK_ECSPI4] = imx_clk_hw_gate2("ecspi4", "ecspi_root", base + 0x6c, 6);
|
|
if (clk_on_imx6dl())
|
|
hws[IMX6DL_CLK_I2C4] = imx_clk_hw_gate2("i2c4", "ipg_per", base + 0x6c, 8);
|
|
else
|
|
hws[IMX6Q_CLK_ECSPI5] = imx_clk_hw_gate2("ecspi5", "ecspi_root", base + 0x6c, 8);
|
|
hws[IMX6QDL_CLK_ENET] = imx_clk_hw_gate2("enet", "ipg", base + 0x6c, 10);
|
|
hws[IMX6QDL_CLK_EPIT1] = imx_clk_hw_gate2("epit1", "ipg", base + 0x6c, 12);
|
|
hws[IMX6QDL_CLK_EPIT2] = imx_clk_hw_gate2("epit2", "ipg", base + 0x6c, 14);
|
|
hws[IMX6QDL_CLK_ESAI_EXTAL] = imx_clk_hw_gate2_shared("esai_extal", "esai_podf", base + 0x6c, 16, &share_count_esai);
|
|
hws[IMX6QDL_CLK_ESAI_IPG] = imx_clk_hw_gate2_shared("esai_ipg", "ahb", base + 0x6c, 16, &share_count_esai);
|
|
hws[IMX6QDL_CLK_ESAI_MEM] = imx_clk_hw_gate2_shared("esai_mem", "ahb", base + 0x6c, 16, &share_count_esai);
|
|
hws[IMX6QDL_CLK_GPT_IPG] = imx_clk_hw_gate2("gpt_ipg", "ipg", base + 0x6c, 20);
|
|
hws[IMX6QDL_CLK_GPT_IPG_PER] = imx_clk_hw_gate2("gpt_ipg_per", "ipg_per", base + 0x6c, 22);
|
|
hws[IMX6QDL_CLK_GPU2D_CORE] = imx_clk_hw_gate2("gpu2d_core", "gpu2d_core_podf", base + 0x6c, 24);
|
|
hws[IMX6QDL_CLK_GPU3D_CORE] = imx_clk_hw_gate2("gpu3d_core", "gpu3d_core_podf", base + 0x6c, 26);
|
|
hws[IMX6QDL_CLK_HDMI_IAHB] = imx_clk_hw_gate2("hdmi_iahb", "ahb", base + 0x70, 0);
|
|
hws[IMX6QDL_CLK_HDMI_ISFR] = imx_clk_hw_gate2("hdmi_isfr", "mipi_core_cfg", base + 0x70, 4);
|
|
hws[IMX6QDL_CLK_I2C1] = imx_clk_hw_gate2("i2c1", "ipg_per", base + 0x70, 6);
|
|
hws[IMX6QDL_CLK_I2C2] = imx_clk_hw_gate2("i2c2", "ipg_per", base + 0x70, 8);
|
|
hws[IMX6QDL_CLK_I2C3] = imx_clk_hw_gate2("i2c3", "ipg_per", base + 0x70, 10);
|
|
hws[IMX6QDL_CLK_IIM] = imx_clk_hw_gate2("iim", "ipg", base + 0x70, 12);
|
|
hws[IMX6QDL_CLK_ENFC] = imx_clk_hw_gate2("enfc", "enfc_podf", base + 0x70, 14);
|
|
hws[IMX6QDL_CLK_VDOA] = imx_clk_hw_gate2("vdoa", "vdo_axi", base + 0x70, 26);
|
|
hws[IMX6QDL_CLK_IPU1] = imx_clk_hw_gate2("ipu1", "ipu1_podf", base + 0x74, 0);
|
|
hws[IMX6QDL_CLK_IPU1_DI0] = imx_clk_hw_gate2("ipu1_di0", "ipu1_di0_sel", base + 0x74, 2);
|
|
hws[IMX6QDL_CLK_IPU1_DI1] = imx_clk_hw_gate2("ipu1_di1", "ipu1_di1_sel", base + 0x74, 4);
|
|
hws[IMX6QDL_CLK_IPU2] = imx_clk_hw_gate2("ipu2", "ipu2_podf", base + 0x74, 6);
|
|
hws[IMX6QDL_CLK_IPU2_DI0] = imx_clk_hw_gate2("ipu2_di0", "ipu2_di0_sel", base + 0x74, 8);
|
|
if (clk_on_imx6qp()) {
|
|
hws[IMX6QDL_CLK_LDB_DI0] = imx_clk_hw_gate2("ldb_di0", "ldb_di0_sel", base + 0x74, 12);
|
|
hws[IMX6QDL_CLK_LDB_DI1] = imx_clk_hw_gate2("ldb_di1", "ldb_di1_sel", base + 0x74, 14);
|
|
} else {
|
|
hws[IMX6QDL_CLK_LDB_DI0] = imx_clk_hw_gate2("ldb_di0", "ldb_di0_podf", base + 0x74, 12);
|
|
hws[IMX6QDL_CLK_LDB_DI1] = imx_clk_hw_gate2("ldb_di1", "ldb_di1_podf", base + 0x74, 14);
|
|
}
|
|
hws[IMX6QDL_CLK_IPU2_DI1] = imx_clk_hw_gate2("ipu2_di1", "ipu2_di1_sel", base + 0x74, 10);
|
|
hws[IMX6QDL_CLK_HSI_TX] = imx_clk_hw_gate2_shared("hsi_tx", "hsi_tx_podf", base + 0x74, 16, &share_count_mipi_core_cfg);
|
|
hws[IMX6QDL_CLK_MIPI_CORE_CFG] = imx_clk_hw_gate2_shared("mipi_core_cfg", "video_27m", base + 0x74, 16, &share_count_mipi_core_cfg);
|
|
hws[IMX6QDL_CLK_MIPI_IPG] = imx_clk_hw_gate2_shared("mipi_ipg", "ipg", base + 0x74, 16, &share_count_mipi_core_cfg);
|
|
|
|
if (clk_on_imx6dl())
|
|
/*
|
|
* The multiplexer and divider of the imx6q clock gpu2d get
|
|
* redefined/reused as mlb_sys_sel and mlb_sys_clk_podf on imx6dl.
|
|
*/
|
|
hws[IMX6QDL_CLK_MLB] = imx_clk_hw_gate2("mlb", "mlb_podf", base + 0x74, 18);
|
|
else
|
|
hws[IMX6QDL_CLK_MLB] = imx_clk_hw_gate2("mlb", "axi", base + 0x74, 18);
|
|
hws[IMX6QDL_CLK_MMDC_CH0_AXI] = imx_clk_hw_gate2_flags("mmdc_ch0_axi", "mmdc_ch0_axi_podf", base + 0x74, 20, CLK_IS_CRITICAL);
|
|
hws[IMX6QDL_CLK_MMDC_CH1_AXI] = imx_clk_hw_gate2("mmdc_ch1_axi", "mmdc_ch1_axi_podf", base + 0x74, 22);
|
|
hws[IMX6QDL_CLK_MMDC_P0_IPG] = imx_clk_hw_gate2_flags("mmdc_p0_ipg", "ipg", base + 0x74, 24, CLK_IS_CRITICAL);
|
|
hws[IMX6QDL_CLK_OCRAM] = imx_clk_hw_gate2("ocram", "ahb", base + 0x74, 28);
|
|
hws[IMX6QDL_CLK_OPENVG_AXI] = imx_clk_hw_gate2("openvg_axi", "axi", base + 0x74, 30);
|
|
hws[IMX6QDL_CLK_PCIE_AXI] = imx_clk_hw_gate2("pcie_axi", "pcie_axi_sel", base + 0x78, 0);
|
|
hws[IMX6QDL_CLK_PER1_BCH] = imx_clk_hw_gate2("per1_bch", "usdhc3", base + 0x78, 12);
|
|
hws[IMX6QDL_CLK_PWM1] = imx_clk_hw_gate2("pwm1", "ipg_per", base + 0x78, 16);
|
|
hws[IMX6QDL_CLK_PWM2] = imx_clk_hw_gate2("pwm2", "ipg_per", base + 0x78, 18);
|
|
hws[IMX6QDL_CLK_PWM3] = imx_clk_hw_gate2("pwm3", "ipg_per", base + 0x78, 20);
|
|
hws[IMX6QDL_CLK_PWM4] = imx_clk_hw_gate2("pwm4", "ipg_per", base + 0x78, 22);
|
|
hws[IMX6QDL_CLK_GPMI_BCH_APB] = imx_clk_hw_gate2("gpmi_bch_apb", "usdhc3", base + 0x78, 24);
|
|
hws[IMX6QDL_CLK_GPMI_BCH] = imx_clk_hw_gate2("gpmi_bch", "usdhc4", base + 0x78, 26);
|
|
hws[IMX6QDL_CLK_GPMI_IO] = imx_clk_hw_gate2("gpmi_io", "enfc", base + 0x78, 28);
|
|
hws[IMX6QDL_CLK_GPMI_APB] = imx_clk_hw_gate2("gpmi_apb", "usdhc3", base + 0x78, 30);
|
|
hws[IMX6QDL_CLK_ROM] = imx_clk_hw_gate2_flags("rom", "ahb", base + 0x7c, 0, CLK_IS_CRITICAL);
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hws[IMX6QDL_CLK_SATA] = imx_clk_hw_gate2("sata", "ahb", base + 0x7c, 4);
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hws[IMX6QDL_CLK_SDMA] = imx_clk_hw_gate2("sdma", "ahb", base + 0x7c, 6);
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hws[IMX6QDL_CLK_SPBA] = imx_clk_hw_gate2("spba", "ipg", base + 0x7c, 12);
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hws[IMX6QDL_CLK_SPDIF] = imx_clk_hw_gate2_shared("spdif", "spdif_podf", base + 0x7c, 14, &share_count_spdif);
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hws[IMX6QDL_CLK_SPDIF_GCLK] = imx_clk_hw_gate2_shared("spdif_gclk", "ipg", base + 0x7c, 14, &share_count_spdif);
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hws[IMX6QDL_CLK_SSI1_IPG] = imx_clk_hw_gate2_shared("ssi1_ipg", "ipg", base + 0x7c, 18, &share_count_ssi1);
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hws[IMX6QDL_CLK_SSI2_IPG] = imx_clk_hw_gate2_shared("ssi2_ipg", "ipg", base + 0x7c, 20, &share_count_ssi2);
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hws[IMX6QDL_CLK_SSI3_IPG] = imx_clk_hw_gate2_shared("ssi3_ipg", "ipg", base + 0x7c, 22, &share_count_ssi3);
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hws[IMX6QDL_CLK_SSI1] = imx_clk_hw_gate2_shared("ssi1", "ssi1_podf", base + 0x7c, 18, &share_count_ssi1);
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hws[IMX6QDL_CLK_SSI2] = imx_clk_hw_gate2_shared("ssi2", "ssi2_podf", base + 0x7c, 20, &share_count_ssi2);
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hws[IMX6QDL_CLK_SSI3] = imx_clk_hw_gate2_shared("ssi3", "ssi3_podf", base + 0x7c, 22, &share_count_ssi3);
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hws[IMX6QDL_CLK_UART_IPG] = imx_clk_hw_gate2("uart_ipg", "ipg", base + 0x7c, 24);
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hws[IMX6QDL_CLK_UART_SERIAL] = imx_clk_hw_gate2("uart_serial", "uart_serial_podf", base + 0x7c, 26);
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hws[IMX6QDL_CLK_USBOH3] = imx_clk_hw_gate2("usboh3", "ipg", base + 0x80, 0);
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hws[IMX6QDL_CLK_USDHC1] = imx_clk_hw_gate2("usdhc1", "usdhc1_podf", base + 0x80, 2);
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hws[IMX6QDL_CLK_USDHC2] = imx_clk_hw_gate2("usdhc2", "usdhc2_podf", base + 0x80, 4);
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hws[IMX6QDL_CLK_USDHC3] = imx_clk_hw_gate2("usdhc3", "usdhc3_podf", base + 0x80, 6);
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hws[IMX6QDL_CLK_USDHC4] = imx_clk_hw_gate2("usdhc4", "usdhc4_podf", base + 0x80, 8);
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hws[IMX6QDL_CLK_EIM_SLOW] = imx_clk_hw_gate2("eim_slow", "eim_slow_podf", base + 0x80, 10);
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hws[IMX6QDL_CLK_VDO_AXI] = imx_clk_hw_gate2("vdo_axi", "vdo_axi_sel", base + 0x80, 12);
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hws[IMX6QDL_CLK_VPU_AXI] = imx_clk_hw_gate2("vpu_axi", "vpu_axi_podf", base + 0x80, 14);
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if (clk_on_imx6qp()) {
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hws[IMX6QDL_CLK_PRE0] = imx_clk_hw_gate2("pre0", "pre_axi", base + 0x80, 16);
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hws[IMX6QDL_CLK_PRE1] = imx_clk_hw_gate2("pre1", "pre_axi", base + 0x80, 18);
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hws[IMX6QDL_CLK_PRE2] = imx_clk_hw_gate2("pre2", "pre_axi", base + 0x80, 20);
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hws[IMX6QDL_CLK_PRE3] = imx_clk_hw_gate2("pre3", "pre_axi", base + 0x80, 22);
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hws[IMX6QDL_CLK_PRG0_AXI] = imx_clk_hw_gate2_shared("prg0_axi", "ipu1_podf", base + 0x80, 24, &share_count_prg0);
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hws[IMX6QDL_CLK_PRG1_AXI] = imx_clk_hw_gate2_shared("prg1_axi", "ipu2_podf", base + 0x80, 26, &share_count_prg1);
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hws[IMX6QDL_CLK_PRG0_APB] = imx_clk_hw_gate2_shared("prg0_apb", "ipg", base + 0x80, 24, &share_count_prg0);
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hws[IMX6QDL_CLK_PRG1_APB] = imx_clk_hw_gate2_shared("prg1_apb", "ipg", base + 0x80, 26, &share_count_prg1);
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}
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hws[IMX6QDL_CLK_CKO1] = imx_clk_hw_gate("cko1", "cko1_podf", base + 0x60, 7);
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hws[IMX6QDL_CLK_CKO2] = imx_clk_hw_gate("cko2", "cko2_podf", base + 0x60, 24);
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|
|
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/*
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* The gpt_3m clock is not available on i.MX6Q TO1.0. Let's point it
|
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* to clock gpt_ipg_per to ease the gpt driver code.
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|
*/
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if (clk_on_imx6q() && imx_get_soc_revision() == IMX_CHIP_REVISION_1_0)
|
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hws[IMX6QDL_CLK_GPT_3M] = hws[IMX6QDL_CLK_GPT_IPG_PER];
|
|
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imx_check_clk_hws(hws, IMX6QDL_CLK_END);
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|
|
|
of_clk_add_hw_provider(np, of_clk_hw_onecell_get, clk_hw_data);
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|
|
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clk_hw_register_clkdev(hws[IMX6QDL_CLK_ENET_REF], "enet_ref", NULL);
|
|
|
|
clk_set_rate(hws[IMX6QDL_CLK_PLL3_PFD1_540M]->clk, 540000000);
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if (clk_on_imx6dl())
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clk_set_parent(hws[IMX6QDL_CLK_IPU1_SEL]->clk, hws[IMX6QDL_CLK_PLL3_PFD1_540M]->clk);
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|
|
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clk_set_parent(hws[IMX6QDL_CLK_IPU1_DI0_PRE_SEL]->clk, hws[IMX6QDL_CLK_PLL5_VIDEO_DIV]->clk);
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clk_set_parent(hws[IMX6QDL_CLK_IPU1_DI1_PRE_SEL]->clk, hws[IMX6QDL_CLK_PLL5_VIDEO_DIV]->clk);
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|
clk_set_parent(hws[IMX6QDL_CLK_IPU2_DI0_PRE_SEL]->clk, hws[IMX6QDL_CLK_PLL5_VIDEO_DIV]->clk);
|
|
clk_set_parent(hws[IMX6QDL_CLK_IPU2_DI1_PRE_SEL]->clk, hws[IMX6QDL_CLK_PLL5_VIDEO_DIV]->clk);
|
|
clk_set_parent(hws[IMX6QDL_CLK_IPU1_DI0_SEL]->clk, hws[IMX6QDL_CLK_IPU1_DI0_PRE]->clk);
|
|
clk_set_parent(hws[IMX6QDL_CLK_IPU1_DI1_SEL]->clk, hws[IMX6QDL_CLK_IPU1_DI1_PRE]->clk);
|
|
clk_set_parent(hws[IMX6QDL_CLK_IPU2_DI0_SEL]->clk, hws[IMX6QDL_CLK_IPU2_DI0_PRE]->clk);
|
|
clk_set_parent(hws[IMX6QDL_CLK_IPU2_DI1_SEL]->clk, hws[IMX6QDL_CLK_IPU2_DI1_PRE]->clk);
|
|
|
|
/*
|
|
* The gpmi needs 100MHz frequency in the EDO/Sync mode,
|
|
* We can not get the 100MHz from the pll2_pfd0_352m.
|
|
* So choose pll2_pfd2_396m as enfc_sel's parent.
|
|
*/
|
|
clk_set_parent(hws[IMX6QDL_CLK_ENFC_SEL]->clk, hws[IMX6QDL_CLK_PLL2_PFD2_396M]->clk);
|
|
|
|
if (IS_ENABLED(CONFIG_USB_MXS_PHY)) {
|
|
clk_prepare_enable(hws[IMX6QDL_CLK_USBPHY1_GATE]->clk);
|
|
clk_prepare_enable(hws[IMX6QDL_CLK_USBPHY2_GATE]->clk);
|
|
}
|
|
|
|
/*
|
|
* Let's initially set up CLKO with OSC24M, since this configuration
|
|
* is widely used by imx6q board designs to clock audio codec.
|
|
*/
|
|
ret = clk_set_parent(hws[IMX6QDL_CLK_CKO2_SEL]->clk, hws[IMX6QDL_CLK_OSC]->clk);
|
|
if (!ret)
|
|
ret = clk_set_parent(hws[IMX6QDL_CLK_CKO]->clk, hws[IMX6QDL_CLK_CKO2]->clk);
|
|
if (ret)
|
|
pr_warn("failed to set up CLKO: %d\n", ret);
|
|
|
|
/* Audio-related clocks configuration */
|
|
clk_set_parent(hws[IMX6QDL_CLK_SPDIF_SEL]->clk, hws[IMX6QDL_CLK_PLL3_PFD3_454M]->clk);
|
|
|
|
/* All existing boards with PCIe use LVDS1 */
|
|
if (IS_ENABLED(CONFIG_PCI_IMX6))
|
|
clk_set_parent(hws[IMX6QDL_CLK_LVDS1_SEL]->clk, hws[IMX6QDL_CLK_SATA_REF_100M]->clk);
|
|
|
|
/*
|
|
* Initialize the GPU clock muxes, so that the maximum specified clock
|
|
* rates for the respective SoC are not exceeded.
|
|
*/
|
|
if (clk_on_imx6dl()) {
|
|
clk_set_parent(hws[IMX6QDL_CLK_GPU3D_CORE_SEL]->clk,
|
|
hws[IMX6QDL_CLK_PLL2_PFD1_594M]->clk);
|
|
clk_set_parent(hws[IMX6QDL_CLK_GPU2D_CORE_SEL]->clk,
|
|
hws[IMX6QDL_CLK_PLL2_PFD1_594M]->clk);
|
|
} else if (clk_on_imx6q()) {
|
|
clk_set_parent(hws[IMX6QDL_CLK_GPU3D_CORE_SEL]->clk,
|
|
hws[IMX6QDL_CLK_MMDC_CH0_AXI]->clk);
|
|
clk_set_parent(hws[IMX6QDL_CLK_GPU3D_SHADER_SEL]->clk,
|
|
hws[IMX6QDL_CLK_PLL2_PFD1_594M]->clk);
|
|
clk_set_parent(hws[IMX6QDL_CLK_GPU2D_CORE_SEL]->clk,
|
|
hws[IMX6QDL_CLK_PLL3_USB_OTG]->clk);
|
|
}
|
|
|
|
for (i = 0; i < ARRAY_SIZE(uart_clk_ids); i++) {
|
|
int index = uart_clk_ids[i];
|
|
|
|
uart_clks[i] = &hws[index]->clk;
|
|
}
|
|
|
|
imx_register_uart_clocks(uart_clks);
|
|
}
|
|
CLK_OF_DECLARE(imx6q, "fsl,imx6q-ccm", imx6q_clocks_init);
|