blob: 0677525b3e4a37e647dd46196704a8e10f0ce462 [file] [log] [blame]
/* Copyright (c) 2009-2013, The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include <linux/kernel.h>
#include <linux/init.h>
#include <linux/err.h>
#include <linux/ctype.h>
#include <linux/bitops.h>
#include <linux/io.h>
#include <linux/spinlock.h>
#include <linux/delay.h>
#include <linux/clk.h>
#include <asm/clkdev.h>
#include <asm/mach-types.h>
#include <mach/msm_iomap.h>
#include <mach/rpm-regulator.h>
#include <mach/socinfo.h>
#include "clock.h"
#include "clock-local.h"
#include "clock-rpm.h"
#include "clock-voter.h"
#include "clock-dss-8960.h"
#include "devices.h"
#include "clock-pll.h"
#define REG(off) (MSM_CLK_CTL_BASE + (off))
#define REG_MM(off) (MSM_MMSS_CLK_CTL_BASE + (off))
#define REG_LPA(off) (MSM_LPASS_CLK_CTL_BASE + (off))
#define REG_GCC(off) (MSM_APCS_GCC_BASE + (off))
/* Peripheral clock registers. */
#define ADM0_PBUS_CLK_CTL_REG REG(0x2208)
#define SFAB_SATA_S_HCLK_CTL_REG REG(0x2480)
#define CE1_HCLK_CTL_REG REG(0x2720)
#define CE1_CORE_CLK_CTL_REG REG(0x2724)
#define PRNG_CLK_NS_REG REG(0x2E80)
#define CE3_HCLK_CTL_REG REG(0x36C4)
#define CE3_CORE_CLK_CTL_REG REG(0x36CC)
#define CE3_CLK_SRC_NS_REG REG(0x36C0)
#define DMA_BAM_HCLK_CTL REG(0x25C0)
#define CLK_HALT_AFAB_SFAB_STATEA_REG REG(0x2FC0)
#define CLK_HALT_AFAB_SFAB_STATEB_REG REG(0x2FC4)
#define CLK_HALT_CFPB_STATEA_REG REG(0x2FCC)
#define CLK_HALT_CFPB_STATEB_REG REG(0x2FD0)
#define CLK_HALT_CFPB_STATEC_REG REG(0x2FD4)
#define CLK_HALT_DFAB_STATE_REG REG(0x2FC8)
/* 8064 name CLK_HALT_GSS_KPSS_MISC_STATE_REG */
#define CLK_HALT_MSS_SMPSS_MISC_STATE_REG REG(0x2FDC)
#define CLK_HALT_SFPB_MISC_STATE_REG REG(0x2FD8)
#define CLK_HALT_AFAB_SFAB_STATEB_REG REG(0x2FC4)
#define CLK_TEST_REG REG(0x2FA0)
#define GPn_MD_REG(n) REG(0x2D00+(0x20*(n)))
#define GPn_NS_REG(n) REG(0x2D24+(0x20*(n)))
#define GSBIn_HCLK_CTL_REG(n) REG(0x29C0+(0x20*((n)-1)))
#define GSBIn_QUP_APPS_MD_REG(n) REG(0x29C8+(0x20*((n)-1)))
#define GSBIn_QUP_APPS_NS_REG(n) REG(0x29CC+(0x20*((n)-1)))
#define GSBIn_RESET_REG(n) REG(0x29DC+(0x20*((n)-1)))
#define GSBIn_UART_APPS_MD_REG(n) REG(0x29D0+(0x20*((n)-1)))
#define GSBIn_UART_APPS_NS_REG(n) REG(0x29D4+(0x20*((n)-1)))
#define PDM_CLK_NS_REG REG(0x2CC0)
/* 8064 name BB_PLL_ENA_APCS_REG */
#define BB_PLL_ENA_SC0_REG REG(0x34C0)
#define BB_PLL_ENA_RPM_REG REG(0x34A0)
#define BB_PLL0_STATUS_REG REG(0x30D8)
#define BB_PLL5_STATUS_REG REG(0x30F8)
#define BB_PLL6_STATUS_REG REG(0x3118)
#define BB_PLL7_STATUS_REG REG(0x3138)
#define BB_PLL8_L_VAL_REG REG(0x3144)
#define BB_PLL8_M_VAL_REG REG(0x3148)
#define BB_PLL8_MODE_REG REG(0x3140)
#define BB_PLL8_N_VAL_REG REG(0x314C)
#define BB_PLL8_STATUS_REG REG(0x3158)
#define BB_PLL8_CONFIG_REG REG(0x3154)
#define BB_PLL8_TEST_CTL_REG REG(0x3150)
#define BB_MMCC_PLL2_MODE_REG REG(0x3160)
#define BB_MMCC_PLL2_L_REG REG(0x3164)
#define BB_MMCC_PLL2_M_REG REG(0x3168)
#define BB_MMCC_PLL2_N_REG REG(0x316C)
#define BB_MMCC_PLL2_TEST_CTL_REG REG(0x3170)
#define BB_MMCC_PLL2_CONFIG_REG REG(0x3174)
#define BB_MMCC_PLL2_STATUS_REG REG(0x3178)
#define BB_PLL14_MODE_REG REG(0x31C0)
#define BB_PLL14_L_VAL_REG REG(0x31C4)
#define BB_PLL14_M_VAL_REG REG(0x31C8)
#define BB_PLL14_N_VAL_REG REG(0x31CC)
#define BB_PLL14_TEST_CTL_REG REG(0x31D0)
#define BB_PLL14_CONFIG_REG REG(0x31D4)
#define BB_PLL14_STATUS_REG REG(0x31D8)
#define PLLTEST_PAD_CFG_REG REG(0x2FA4)
#define PMEM_ACLK_CTL_REG REG(0x25A0)
#define RINGOSC_NS_REG REG(0x2DC0)
#define RINGOSC_STATUS_REG REG(0x2DCC)
#define RINGOSC_TCXO_CTL_REG REG(0x2DC4)
#define RPM_MSG_RAM_HCLK_CTL_REG REG(0x27E0)
#define SC0_U_CLK_BRANCH_ENA_VOTE_REG REG(0x3080)
#define SDCn_APPS_CLK_MD_REG(n) REG(0x2828+(0x20*((n)-1)))
#define SDCn_APPS_CLK_NS_REG(n) REG(0x282C+(0x20*((n)-1)))
#define SDCn_HCLK_CTL_REG(n) REG(0x2820+(0x20*((n)-1)))
#define SDCn_RESET_REG(n) REG(0x2830+(0x20*((n)-1)))
#define SLIMBUS_XO_SRC_CLK_CTL_REG REG(0x2628)
#define TSIF_HCLK_CTL_REG REG(0x2700)
#define TSIF_REF_CLK_MD_REG REG(0x270C)
#define TSIF_REF_CLK_NS_REG REG(0x2710)
#define TSSC_CLK_CTL_REG REG(0x2CA0)
#define SATA_HCLK_CTL_REG REG(0x2C00)
#define SATA_CLK_SRC_NS_REG REG(0x2C08)
#define SATA_RXOOB_CLK_CTL_REG REG(0x2C0C)
#define SATA_PMALIVE_CLK_CTL_REG REG(0x2C10)
#define SATA_PHY_REF_CLK_CTL_REG REG(0x2C14)
#define SATA_RESET REG(0x2C1C)
#define SATA_ACLK_CTL_REG REG(0x2C20)
#define SATA_PHY_CFG_CLK_CTL_REG REG(0x2C40)
#define USB_FSn_HCLK_CTL_REG(n) REG(0x2960+(0x20*((n)-1)))
#define USB_FSn_RESET_REG(n) REG(0x2974+(0x20*((n)-1)))
#define USB_FSn_SYSTEM_CLK_CTL_REG(n) REG(0x296C+(0x20*((n)-1)))
#define USB_FSn_XCVR_FS_CLK_MD_REG(n) REG(0x2964+(0x20*((n)-1)))
#define USB_FSn_XCVR_FS_CLK_NS_REG(n) REG(0x2968+(0x20*((n)-1)))
#define USB_HS1_HCLK_CTL_REG REG(0x2900)
#define USB_HS1_HCLK_FS_REG REG(0x2904)
#define USB_HS1_RESET_REG REG(0x2910)
#define USB_HS1_XCVR_FS_CLK_MD_REG REG(0x2908)
#define USB_HS1_XCVR_FS_CLK_NS_REG REG(0x290C)
#define USB_HS3_HCLK_CTL_REG REG(0x3700)
#define USB_HS3_HCLK_FS_REG REG(0x3704)
#define USB_HS3_RESET_REG REG(0x3710)
#define USB_HS3_XCVR_FS_CLK_MD_REG REG(0X3708)
#define USB_HS3_XCVR_FS_CLK_NS_REG REG(0X370C)
#define USB_HS4_HCLK_CTL_REG REG(0x3720)
#define USB_HS4_HCLK_FS_REG REG(0x3724)
#define USB_HS4_RESET_REG REG(0x3730)
#define USB_HS4_XCVR_FS_CLK_MD_REG REG(0X3728)
#define USB_HS4_XCVR_FS_CLK_NS_REG REG(0X372C)
#define USB_HSIC_HCLK_CTL_REG REG(0x2920)
#define USB_HSIC_HSIC_CLK_CTL_REG REG(0x2B44)
#define USB_HSIC_HSIC_CLK_SRC_CTL_REG REG(0x2B40)
#define USB_HSIC_HSIO_CAL_CLK_CTL_REG REG(0x2B48)
#define USB_HSIC_RESET_REG REG(0x2934)
#define USB_HSIC_SYSTEM_CLK_CTL_REG REG(0x292C)
#define USB_HSIC_XCVR_FS_CLK_MD_REG REG(0x2924)
#define USB_HSIC_XCVR_FS_CLK_NS_REG REG(0x2928)
#define USB_PHY0_RESET_REG REG(0x2E20)
#define PCIE_ALT_REF_CLK_NS_REG REG(0x3860)
#define PCIE_ACLK_CTL_REG REG(0x22C0)
#define PCIE_HCLK_CTL_REG REG(0x22CC)
#define PCIE_PCLK_CTL_REG REG(0x22D0)
#define GPLL1_MODE_REG REG(0x3160)
#define GPLL1_L_VAL_REG REG(0x3164)
#define GPLL1_M_VAL_REG REG(0x3168)
#define GPLL1_N_VAL_REG REG(0x316C)
#define GPLL1_CONFIG_REG REG(0x3174)
#define GPLL1_STATUS_REG REG(0x3178)
#define PXO_SRC_CLK_CTL_REG REG(0x2EA0)
/* Multimedia clock registers. */
#define AHB_EN_REG REG_MM(0x0008)
#define AHB_EN2_REG REG_MM(0x0038)
#define AHB_EN3_REG REG_MM(0x0248)
#define AHB_NS_REG REG_MM(0x0004)
#define AXI_NS_REG REG_MM(0x0014)
#define CAMCLK0_NS_REG REG_MM(0x0148)
#define CAMCLK0_CC_REG REG_MM(0x0140)
#define CAMCLK0_MD_REG REG_MM(0x0144)
#define CAMCLK1_NS_REG REG_MM(0x015C)
#define CAMCLK1_CC_REG REG_MM(0x0154)
#define CAMCLK1_MD_REG REG_MM(0x0158)
#define CAMCLK2_NS_REG REG_MM(0x0228)
#define CAMCLK2_CC_REG REG_MM(0x0220)
#define CAMCLK2_MD_REG REG_MM(0x0224)
#define CSI0_NS_REG REG_MM(0x0048)
#define CSI0_CC_REG REG_MM(0x0040)
#define CSI0_MD_REG REG_MM(0x0044)
#define CSI1_NS_REG REG_MM(0x0010)
#define CSI1_CC_REG REG_MM(0x0024)
#define CSI1_MD_REG REG_MM(0x0028)
#define CSI2_NS_REG REG_MM(0x0234)
#define CSI2_CC_REG REG_MM(0x022C)
#define CSI2_MD_REG REG_MM(0x0230)
#define CSIPHYTIMER_CC_REG REG_MM(0x0160)
#define CSIPHYTIMER_MD_REG REG_MM(0x0164)
#define CSIPHYTIMER_NS_REG REG_MM(0x0168)
#define DSI1_BYTE_NS_REG REG_MM(0x00B0)
#define DSI1_BYTE_CC_REG REG_MM(0x0090)
#define DSI2_BYTE_NS_REG REG_MM(0x00BC)
#define DSI2_BYTE_CC_REG REG_MM(0x00B4)
#define DSI1_ESC_NS_REG REG_MM(0x011C)
#define DSI1_ESC_CC_REG REG_MM(0x00CC)
#define DSI2_ESC_NS_REG REG_MM(0x0150)
#define DSI2_ESC_CC_REG REG_MM(0x013C)
#define DSI_PIXEL_CC_REG REG_MM(0x0130)
#define DSI2_PIXEL_CC_REG REG_MM(0x0094)
#define DSI2_PIXEL_CC2_REG REG_MM(0x0264)
#define DBG_BUS_VEC_A_REG REG_MM(0x01C8)
#define DBG_BUS_VEC_B_REG REG_MM(0x01CC)
#define DBG_BUS_VEC_C_REG REG_MM(0x01D0)
#define DBG_BUS_VEC_D_REG REG_MM(0x01D4)
#define DBG_BUS_VEC_E_REG REG_MM(0x01D8)
#define DBG_BUS_VEC_F_REG REG_MM(0x01DC)
#define DBG_BUS_VEC_G_REG REG_MM(0x01E0)
#define DBG_BUS_VEC_H_REG REG_MM(0x01E4)
#define DBG_BUS_VEC_I_REG REG_MM(0x01E8)
#define DBG_BUS_VEC_J_REG REG_MM(0x0240)
#define DBG_CFG_REG_HS_REG REG_MM(0x01B4)
#define DBG_CFG_REG_LS_REG REG_MM(0x01B8)
#define GFX2D0_CC_REG REG_MM(0x0060)
#define GFX2D0_MD0_REG REG_MM(0x0064)
#define GFX2D0_MD1_REG REG_MM(0x0068)
#define GFX2D0_NS_REG REG_MM(0x0070)
#define GFX2D1_CC_REG REG_MM(0x0074)
#define GFX2D1_MD0_REG REG_MM(0x0078)
#define GFX2D1_MD1_REG REG_MM(0x006C)
#define GFX2D1_NS_REG REG_MM(0x007C)
#define GFX3D_CC_REG REG_MM(0x0080)
#define GFX3D_MD0_REG REG_MM(0x0084)
#define GFX3D_MD1_REG REG_MM(0x0088)
#define GFX3D_NS_REG REG_MM(0x008C)
#define IJPEG_CC_REG REG_MM(0x0098)
#define IJPEG_MD_REG REG_MM(0x009C)
#define IJPEG_NS_REG REG_MM(0x00A0)
#define JPEGD_CC_REG REG_MM(0x00A4)
#define JPEGD_NS_REG REG_MM(0x00AC)
#define VCAP_CC_REG REG_MM(0x0178)
#define VCAP_NS_REG REG_MM(0x021C)
#define VCAP_MD0_REG REG_MM(0x01EC)
#define VCAP_MD1_REG REG_MM(0x0218)
#define MAXI_EN_REG REG_MM(0x0018)
#define MAXI_EN2_REG REG_MM(0x0020)
#define MAXI_EN3_REG REG_MM(0x002C)
#define MAXI_EN4_REG REG_MM(0x0114)
#define MAXI_EN5_REG REG_MM(0x0244)
#define MDP_CC_REG REG_MM(0x00C0)
#define MDP_LUT_CC_REG REG_MM(0x016C)
#define MDP_MD0_REG REG_MM(0x00C4)
#define MDP_MD1_REG REG_MM(0x00C8)
#define MDP_NS_REG REG_MM(0x00D0)
#define MISC_CC_REG REG_MM(0x0058)
#define MISC_CC2_REG REG_MM(0x005C)
#define MISC_CC3_REG REG_MM(0x0238)
#define MM_PLL1_MODE_REG REG_MM(0x031C)
#define MM_PLL1_L_VAL_REG REG_MM(0x0320)
#define MM_PLL1_M_VAL_REG REG_MM(0x0324)
#define MM_PLL1_N_VAL_REG REG_MM(0x0328)
#define MM_PLL1_CONFIG_REG REG_MM(0x032C)
#define MM_PLL1_TEST_CTL_REG REG_MM(0x0330)
#define MM_PLL1_STATUS_REG REG_MM(0x0334)
#define MM_PLL3_MODE_REG REG_MM(0x0338)
#define MM_PLL3_L_VAL_REG REG_MM(0x033C)
#define MM_PLL3_M_VAL_REG REG_MM(0x0340)
#define MM_PLL3_N_VAL_REG REG_MM(0x0344)
#define MM_PLL3_CONFIG_REG REG_MM(0x0348)
#define MM_PLL3_TEST_CTL_REG REG_MM(0x034C)
#define MM_PLL3_STATUS_REG REG_MM(0x0350)
#define ROT_CC_REG REG_MM(0x00E0)
#define ROT_NS_REG REG_MM(0x00E8)
#define SAXI_EN_REG REG_MM(0x0030)
#define SW_RESET_AHB_REG REG_MM(0x020C)
#define SW_RESET_AHB2_REG REG_MM(0x0200)
#define SW_RESET_ALL_REG REG_MM(0x0204)
#define SW_RESET_AXI_REG REG_MM(0x0208)
#define SW_RESET_CORE_REG REG_MM(0x0210)
#define SW_RESET_CORE2_REG REG_MM(0x0214)
#define TV_CC_REG REG_MM(0x00EC)
#define TV_CC2_REG REG_MM(0x0124)
#define TV_MD_REG REG_MM(0x00F0)
#define TV_NS_REG REG_MM(0x00F4)
#define VCODEC_CC_REG REG_MM(0x00F8)
#define VCODEC_MD0_REG REG_MM(0x00FC)
#define VCODEC_MD1_REG REG_MM(0x0128)
#define VCODEC_NS_REG REG_MM(0x0100)
#define VFE_CC_REG REG_MM(0x0104)
#define VFE_MD_REG REG_MM(0x0108)
#define VFE_NS_REG REG_MM(0x010C)
#define VFE_CC2_REG REG_MM(0x023C)
#define VPE_CC_REG REG_MM(0x0110)
#define VPE_NS_REG REG_MM(0x0118)
/* Low-power Audio clock registers. */
#define LCC_CLK_HS_DEBUG_CFG_REG REG_LPA(0x00A4)
#define LCC_CLK_LS_DEBUG_CFG_REG REG_LPA(0x00A8)
#define LCC_CODEC_I2S_MIC_MD_REG REG_LPA(0x0064)
#define LCC_CODEC_I2S_MIC_NS_REG REG_LPA(0x0060)
#define LCC_CODEC_I2S_MIC_STATUS_REG REG_LPA(0x0068)
#define LCC_CODEC_I2S_SPKR_MD_REG REG_LPA(0x0070)
#define LCC_CODEC_I2S_SPKR_NS_REG REG_LPA(0x006C)
#define LCC_CODEC_I2S_SPKR_STATUS_REG REG_LPA(0x0074)
#define LCC_MI2S_MD_REG REG_LPA(0x004C)
#define LCC_MI2S_NS_REG REG_LPA(0x0048)
#define LCC_MI2S_STATUS_REG REG_LPA(0x0050)
#define LCC_PCM_MD_REG REG_LPA(0x0058)
#define LCC_PCM_NS_REG REG_LPA(0x0054)
#define LCC_PCM_STATUS_REG REG_LPA(0x005C)
#define LCC_PLL0_MODE_REG REG_LPA(0x0000)
#define LCC_PLL0_L_VAL_REG REG_LPA(0x0004)
#define LCC_PLL0_M_VAL_REG REG_LPA(0x0008)
#define LCC_PLL0_N_VAL_REG REG_LPA(0x000C)
#define LCC_PLL0_CONFIG_REG REG_LPA(0x0014)
#define LCC_PLL0_STATUS_REG REG_LPA(0x0018)
#define LCC_SPARE_I2S_MIC_MD_REG REG_LPA(0x007C)
#define LCC_SPARE_I2S_MIC_NS_REG REG_LPA(0x0078)
#define LCC_SPARE_I2S_MIC_STATUS_REG REG_LPA(0x0080)
#define LCC_SPARE_I2S_SPKR_MD_REG REG_LPA(0x0088)
#define LCC_SPARE_I2S_SPKR_NS_REG REG_LPA(0x0084)
#define LCC_SPARE_I2S_SPKR_STATUS_REG REG_LPA(0x008C)
#define LCC_SLIMBUS_NS_REG REG_LPA(0x00CC)
#define LCC_SLIMBUS_MD_REG REG_LPA(0x00D0)
#define LCC_SLIMBUS_STATUS_REG REG_LPA(0x00D4)
#define LCC_AHBEX_BRANCH_CTL_REG REG_LPA(0x00E4)
#define LCC_PRI_PLL_CLK_CTL_REG REG_LPA(0x00C4)
#define GCC_APCS_CLK_DIAG REG_GCC(0x001C)
/* MUX source input identifiers. */
#define pxo_to_bb_mux 0
#define cxo_to_bb_mux 5
#define pll0_to_bb_mux 2
#define pll8_to_bb_mux 3
#define pll6_to_bb_mux 4
#define gnd_to_bb_mux 5
#define pll3_to_bb_mux 6
#define pxo_to_mm_mux 0
#define pll1_to_mm_mux 1
#define pll2_to_mm_mux 1 /* or MMCC_PLL1 */
#define pll8_to_mm_mux 2 /* or GCC_PERF */
#define pll0_to_mm_mux 3
#define pll15_to_mm_mux 3 /* or MM_PLL3 */
#define gnd_to_mm_mux 4
#define pll3_to_mm_mux 3 /* or MMCC_PLL2 */
#define hdmi_pll_to_mm_mux 3
#define cxo_to_xo_mux 0
#define pxo_to_xo_mux 1
#define gnd_to_xo_mux 3
#define pxo_to_lpa_mux 0
#define cxo_to_lpa_mux 1
#define pll4_to_lpa_mux 2
#define gnd_to_lpa_mux 6
#define pxo_to_pcie_mux 0
#define pll3_to_pcie_mux 1
/* Test Vector Macros */
#define TEST_TYPE_PER_LS 1
#define TEST_TYPE_PER_HS 2
#define TEST_TYPE_MM_LS 3
#define TEST_TYPE_MM_HS 4
#define TEST_TYPE_LPA 5
#define TEST_TYPE_CPUL2 6
#define TEST_TYPE_LPA_HS 7
#define TEST_TYPE_SHIFT 24
#define TEST_CLK_SEL_MASK BM(23, 0)
#define TEST_VECTOR(s, t) (((t) << TEST_TYPE_SHIFT) | BVAL(23, 0, (s)))
#define TEST_PER_LS(s) TEST_VECTOR((s), TEST_TYPE_PER_LS)
#define TEST_PER_HS(s) TEST_VECTOR((s), TEST_TYPE_PER_HS)
#define TEST_MM_LS(s) TEST_VECTOR((s), TEST_TYPE_MM_LS)
#define TEST_MM_HS(s) TEST_VECTOR((s), TEST_TYPE_MM_HS)
#define TEST_LPA(s) TEST_VECTOR((s), TEST_TYPE_LPA)
#define TEST_LPA_HS(s) TEST_VECTOR((s), TEST_TYPE_LPA_HS)
#define TEST_CPUL2(s) TEST_VECTOR((s), TEST_TYPE_CPUL2)
#define MN_MODE_DUAL_EDGE 0x2
struct pll_rate {
const uint32_t l_val;
const uint32_t m_val;
const uint32_t n_val;
const uint32_t vco;
const uint32_t post_div;
const uint32_t i_bits;
};
#define PLL_RATE(l, m, n, v, d, i) { l, m, n, v, (d>>1), i }
enum vdd_dig_levels {
VDD_DIG_NONE,
VDD_DIG_LOW,
VDD_DIG_NOMINAL,
VDD_DIG_HIGH,
VDD_DIG_NUM
};
static int set_vdd_dig_8960(struct clk_vdd_class *vdd_class, int level)
{
static const int vdd_uv[] = {
[VDD_DIG_NONE] = 0,
[VDD_DIG_LOW] = 945000,
[VDD_DIG_NOMINAL] = 1050000,
[VDD_DIG_HIGH] = 1150000
};
return rpm_vreg_set_voltage(RPM_VREG_ID_PM8921_S3, RPM_VREG_VOTER3,
vdd_uv[level], 1150000, 1);
}
static DEFINE_VDD_CLASS(vdd_dig, set_vdd_dig_8960, VDD_DIG_NUM);
static int rpm_vreg_dig_8930 = RPM_VREG_ID_PM8038_VDD_DIG_CORNER;
static int set_vdd_dig_8930(struct clk_vdd_class *vdd_class, int level)
{
static const int vdd_corner[] = {
[VDD_DIG_NONE] = RPM_VREG_CORNER_NONE,
[VDD_DIG_LOW] = RPM_VREG_CORNER_LOW,
[VDD_DIG_NOMINAL] = RPM_VREG_CORNER_NOMINAL,
[VDD_DIG_HIGH] = RPM_VREG_CORNER_HIGH,
};
return rpm_vreg_set_voltage(rpm_vreg_dig_8930,
RPM_VREG_VOTER3,
vdd_corner[level],
RPM_VREG_CORNER_HIGH, 1);
}
#define VDD_DIG_FMAX_MAP1(l1, f1) \
.vdd_class = &vdd_dig, \
.fmax = (unsigned long[VDD_DIG_NUM]) { \
[VDD_DIG_##l1] = (f1), \
}, \
.num_fmax = VDD_DIG_NUM
#define VDD_DIG_FMAX_MAP2(l1, f1, l2, f2) \
.vdd_class = &vdd_dig, \
.fmax = (unsigned long[VDD_DIG_NUM]) { \
[VDD_DIG_##l1] = (f1), \
[VDD_DIG_##l2] = (f2), \
}, \
.num_fmax = VDD_DIG_NUM
#define VDD_DIG_FMAX_MAP3(l1, f1, l2, f2, l3, f3) \
.vdd_class = &vdd_dig, \
.fmax = (unsigned long[VDD_DIG_NUM]) { \
[VDD_DIG_##l1] = (f1), \
[VDD_DIG_##l2] = (f2), \
[VDD_DIG_##l3] = (f3), \
}, \
.num_fmax = VDD_DIG_NUM
enum vdd_sr2_hdmi_pll_levels {
VDD_SR2_HDMI_PLL_OFF,
VDD_SR2_HDMI_PLL_ON,
VDD_SR2_HDMI_PLL_NUM
};
static int set_vdd_sr2_hdmi_pll_8960(struct clk_vdd_class *vdd_class, int level)
{
int rc = 0;
if (level == VDD_SR2_HDMI_PLL_OFF) {
rc = rpm_vreg_set_voltage(RPM_VREG_ID_PM8921_L23,
RPM_VREG_VOTER3, 0, 0, 1);
if (rc)
return rc;
rc = rpm_vreg_set_voltage(RPM_VREG_ID_PM8921_S8,
RPM_VREG_VOTER3, 0, 0, 1);
if (rc)
rpm_vreg_set_voltage(RPM_VREG_ID_PM8921_L23,
RPM_VREG_VOTER3, 1800000, 1800000, 1);
} else {
rc = rpm_vreg_set_voltage(RPM_VREG_ID_PM8921_S8,
RPM_VREG_VOTER3, 2050000, 2100000, 1);
if (rc)
return rc;
rc = rpm_vreg_set_voltage(RPM_VREG_ID_PM8921_L23,
RPM_VREG_VOTER3, 1800000, 1800000, 1);
if (rc)
rpm_vreg_set_voltage(RPM_VREG_ID_PM8921_S8,
RPM_VREG_VOTER3, 0, 0, 1);
}
return rc;
}
static DEFINE_VDD_CLASS(vdd_sr2_hdmi_pll, set_vdd_sr2_hdmi_pll_8960,
VDD_SR2_HDMI_PLL_NUM);
static int sr2_lreg_uv[] = {
[VDD_SR2_HDMI_PLL_OFF] = 0,
[VDD_SR2_HDMI_PLL_ON] = 1800000,
};
static int set_vdd_sr2_hdmi_pll_8064(struct clk_vdd_class *vdd_class, int level)
{
return rpm_vreg_set_voltage(RPM_VREG_ID_PM8921_LVS7, RPM_VREG_VOTER3,
sr2_lreg_uv[level], sr2_lreg_uv[level], 1);
}
static int set_vdd_sr2_hdmi_pll_8930_pm8917(struct clk_vdd_class *vdd_class,
int level)
{
int rc = 0;
if (level == VDD_SR2_HDMI_PLL_OFF) {
rc = rpm_vreg_set_voltage(RPM_VREG_ID_PM8917_L23,
RPM_VREG_VOTER3, 0, 0, 1);
if (rc)
return rc;
rc = rpm_vreg_set_voltage(RPM_VREG_ID_PM8917_S8,
RPM_VREG_VOTER3, 0, 0, 1);
if (rc)
rpm_vreg_set_voltage(RPM_VREG_ID_PM8917_L23,
RPM_VREG_VOTER3, 1800000, 1800000, 1);
} else {
rc = rpm_vreg_set_voltage(RPM_VREG_ID_PM8917_S8,
RPM_VREG_VOTER3, 2050000, 2100000, 1);
if (rc)
return rc;
rc = rpm_vreg_set_voltage(RPM_VREG_ID_PM8917_L23,
RPM_VREG_VOTER3, 1800000, 1800000, 1);
if (rc)
rpm_vreg_set_voltage(RPM_VREG_ID_PM8917_S8,
RPM_VREG_VOTER3, 0, 0, 1);
}
return rc;
}
static int set_vdd_sr2_hdmi_pll_8930(struct clk_vdd_class *vdd_class, int level)
{
return rpm_vreg_set_voltage(RPM_VREG_ID_PM8038_L23, RPM_VREG_VOTER3,
sr2_lreg_uv[level], sr2_lreg_uv[level], 1);
}
/*
* Clock Descriptions
*/
DEFINE_CLK_RPM_BRANCH(pxo_clk, pxo_a_clk, PXO, 27000000);
DEFINE_CLK_RPM_BRANCH(cxo_clk, cxo_a_clk, CXO, 19200000);
static struct pll_clk pll2_clk = {
.mode_reg = MM_PLL1_MODE_REG,
.c = {
.parent = &pxo_clk.c,
.dbg_name = "pll2_clk",
.rate = 800000000,
.ops = &clk_ops_local_pll,
CLK_INIT(pll2_clk.c),
},
};
static struct pll_clk pll3_clk = {
.mode_reg = BB_MMCC_PLL2_MODE_REG,
.c = {
.parent = &pxo_clk.c,
.dbg_name = "pll3_clk",
.rate = 1200000000,
.ops = &clk_ops_local_pll,
.vdd_class = &vdd_sr2_hdmi_pll,
.fmax = (unsigned long[VDD_SR2_HDMI_PLL_NUM]) {
[VDD_SR2_HDMI_PLL_ON] = ULONG_MAX
},
.num_fmax = VDD_SR2_HDMI_PLL_NUM,
CLK_INIT(pll3_clk.c),
},
};
static struct pll_vote_clk pll4_clk = {
.en_reg = BB_PLL_ENA_SC0_REG,
.en_mask = BIT(4),
.status_reg = LCC_PLL0_STATUS_REG,
.status_mask = BIT(16),
.c = {
.parent = &pxo_clk.c,
.dbg_name = "pll4_clk",
.rate = 393216000,
.ops = &clk_ops_pll_vote,
CLK_INIT(pll4_clk.c),
},
};
static struct pll_vote_clk pll8_clk = {
.en_reg = BB_PLL_ENA_SC0_REG,
.en_mask = BIT(8),
.status_reg = BB_PLL8_STATUS_REG,
.status_mask = BIT(16),
.c = {
.parent = &pxo_clk.c,
.dbg_name = "pll8_clk",
.rate = 384000000,
.ops = &clk_ops_pll_vote,
CLK_INIT(pll8_clk.c),
},
};
static struct pll_vote_clk pll14_clk = {
.en_reg = BB_PLL_ENA_SC0_REG,
.en_mask = BIT(14),
.status_reg = BB_PLL14_STATUS_REG,
.status_mask = BIT(16),
.c = {
.parent = &pxo_clk.c,
.dbg_name = "pll14_clk",
.rate = 480000000,
.ops = &clk_ops_pll_vote,
CLK_INIT(pll14_clk.c),
},
};
static struct pll_clk pll15_clk = {
.mode_reg = MM_PLL3_MODE_REG,
.c = {
.parent = &pxo_clk.c,
.dbg_name = "pll15_clk",
.rate = 975000000,
.ops = &clk_ops_local_pll,
CLK_INIT(pll15_clk.c),
},
};
/* AXI Interfaces */
static struct branch_clk gmem_axi_clk = {
.b = {
.ctl_reg = MAXI_EN_REG,
.en_mask = BIT(24),
.halt_reg = DBG_BUS_VEC_E_REG,
.halt_bit = 6,
.retain_reg = MAXI_EN2_REG,
.retain_mask = BIT(21),
},
.c = {
.dbg_name = "gmem_axi_clk",
.ops = &clk_ops_branch,
CLK_INIT(gmem_axi_clk.c),
},
};
static struct branch_clk ijpeg_axi_clk = {
.b = {
.ctl_reg = MAXI_EN_REG,
.en_mask = BIT(21),
.hwcg_reg = MAXI_EN_REG,
.hwcg_mask = BIT(11),
.reset_reg = SW_RESET_AXI_REG,
.reset_mask = BIT(14),
.halt_reg = DBG_BUS_VEC_E_REG,
.halt_bit = 4,
},
.c = {
.dbg_name = "ijpeg_axi_clk",
.ops = &clk_ops_branch,
CLK_INIT(ijpeg_axi_clk.c),
},
};
static struct branch_clk imem_axi_clk = {
.b = {
.ctl_reg = MAXI_EN_REG,
.en_mask = BIT(22),
.hwcg_reg = MAXI_EN_REG,
.hwcg_mask = BIT(15),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(10),
.halt_reg = DBG_BUS_VEC_E_REG,
.halt_bit = 7,
.retain_reg = MAXI_EN2_REG,
.retain_mask = BIT(10),
},
.c = {
.dbg_name = "imem_axi_clk",
.ops = &clk_ops_branch,
CLK_INIT(imem_axi_clk.c),
},
};
static struct branch_clk jpegd_axi_clk = {
.b = {
.ctl_reg = MAXI_EN_REG,
.en_mask = BIT(25),
.halt_reg = DBG_BUS_VEC_E_REG,
.halt_bit = 5,
},
.c = {
.dbg_name = "jpegd_axi_clk",
.ops = &clk_ops_branch,
CLK_INIT(jpegd_axi_clk.c),
},
};
static struct branch_clk vcodec_axi_b_clk = {
.b = {
.ctl_reg = MAXI_EN4_REG,
.en_mask = BIT(23),
.hwcg_reg = MAXI_EN4_REG,
.hwcg_mask = BIT(22),
.halt_reg = DBG_BUS_VEC_I_REG,
.halt_bit = 25,
.retain_reg = MAXI_EN4_REG,
.retain_mask = BIT(21),
},
.c = {
.dbg_name = "vcodec_axi_b_clk",
.ops = &clk_ops_branch,
CLK_INIT(vcodec_axi_b_clk.c),
},
};
static struct branch_clk vcodec_axi_a_clk = {
.b = {
.ctl_reg = MAXI_EN4_REG,
.en_mask = BIT(25),
.hwcg_reg = MAXI_EN4_REG,
.hwcg_mask = BIT(24),
.halt_reg = DBG_BUS_VEC_I_REG,
.halt_bit = 26,
.retain_reg = MAXI_EN4_REG,
.retain_mask = BIT(10),
},
.c = {
.dbg_name = "vcodec_axi_a_clk",
.ops = &clk_ops_branch,
CLK_INIT(vcodec_axi_a_clk.c),
.depends = &vcodec_axi_b_clk.c,
},
};
static struct branch_clk vcodec_axi_clk = {
.b = {
.ctl_reg = MAXI_EN_REG,
.en_mask = BIT(19),
.hwcg_reg = MAXI_EN_REG,
.hwcg_mask = BIT(13),
.reset_reg = SW_RESET_AXI_REG,
.reset_mask = BIT(4)|BIT(5)|BIT(7),
.halt_reg = DBG_BUS_VEC_E_REG,
.halt_bit = 3,
.retain_reg = MAXI_EN2_REG,
.retain_mask = BIT(28),
},
.c = {
.dbg_name = "vcodec_axi_clk",
.ops = &clk_ops_branch,
CLK_INIT(vcodec_axi_clk.c),
.depends = &vcodec_axi_a_clk.c,
},
};
static struct branch_clk vfe_axi_clk = {
.b = {
.ctl_reg = MAXI_EN_REG,
.en_mask = BIT(18),
.reset_reg = SW_RESET_AXI_REG,
.reset_mask = BIT(9),
.halt_reg = DBG_BUS_VEC_E_REG,
.halt_bit = 0,
},
.c = {
.dbg_name = "vfe_axi_clk",
.ops = &clk_ops_branch,
CLK_INIT(vfe_axi_clk.c),
},
};
static struct branch_clk mdp_axi_clk = {
.b = {
.ctl_reg = MAXI_EN_REG,
.en_mask = BIT(23),
.hwcg_reg = MAXI_EN_REG,
.hwcg_mask = BIT(16),
.reset_reg = SW_RESET_AXI_REG,
.reset_mask = BIT(13),
.halt_reg = DBG_BUS_VEC_E_REG,
.halt_bit = 8,
.retain_reg = MAXI_EN_REG,
.retain_mask = BIT(0),
},
.c = {
.dbg_name = "mdp_axi_clk",
.ops = &clk_ops_branch,
CLK_INIT(mdp_axi_clk.c),
},
};
static struct branch_clk rot_axi_clk = {
.b = {
.ctl_reg = MAXI_EN2_REG,
.en_mask = BIT(24),
.hwcg_reg = MAXI_EN2_REG,
.hwcg_mask = BIT(25),
.reset_reg = SW_RESET_AXI_REG,
.reset_mask = BIT(6),
.halt_reg = DBG_BUS_VEC_E_REG,
.halt_bit = 2,
.retain_reg = MAXI_EN3_REG,
.retain_mask = BIT(10),
},
.c = {
.dbg_name = "rot_axi_clk",
.ops = &clk_ops_branch,
CLK_INIT(rot_axi_clk.c),
},
};
static struct branch_clk vpe_axi_clk = {
.b = {
.ctl_reg = MAXI_EN2_REG,
.en_mask = BIT(26),
.hwcg_reg = MAXI_EN2_REG,
.hwcg_mask = BIT(27),
.reset_reg = SW_RESET_AXI_REG,
.reset_mask = BIT(15),
.halt_reg = DBG_BUS_VEC_E_REG,
.halt_bit = 1,
.retain_reg = MAXI_EN3_REG,
.retain_mask = BIT(21),
},
.c = {
.dbg_name = "vpe_axi_clk",
.ops = &clk_ops_branch,
CLK_INIT(vpe_axi_clk.c),
},
};
static struct branch_clk vcap_axi_clk = {
.b = {
.ctl_reg = MAXI_EN5_REG,
.en_mask = BIT(12),
.hwcg_reg = MAXI_EN5_REG,
.hwcg_mask = BIT(11),
.reset_reg = SW_RESET_AXI_REG,
.reset_mask = BIT(16),
.halt_reg = DBG_BUS_VEC_J_REG,
.halt_bit = 20,
},
.c = {
.dbg_name = "vcap_axi_clk",
.ops = &clk_ops_branch,
CLK_INIT(vcap_axi_clk.c),
},
};
/* gfx3d_axi_clk is set as a dependency of gmem_axi_clk at runtime */
static struct branch_clk gfx3d_axi_clk = {
.b = {
.ctl_reg = MAXI_EN5_REG,
.en_mask = BIT(25),
.hwcg_reg = MAXI_EN5_REG,
.hwcg_mask = BIT(24),
.reset_reg = SW_RESET_AXI_REG,
.reset_mask = BIT(17),
.halt_reg = DBG_BUS_VEC_J_REG,
.halt_bit = 30,
},
.c = {
.dbg_name = "gfx3d_axi_clk",
.ops = &clk_ops_branch,
CLK_INIT(gfx3d_axi_clk.c),
},
};
static struct branch_clk gfx3d_axi_clk_8930 = {
.b = {
.ctl_reg = MAXI_EN5_REG,
.en_mask = BIT(12),
.reset_reg = SW_RESET_AXI_REG,
.reset_mask = BIT(16),
.halt_reg = DBG_BUS_VEC_J_REG,
.halt_bit = 12,
},
.c = {
.dbg_name = "gfx3d_axi_clk",
.ops = &clk_ops_branch,
CLK_INIT(gfx3d_axi_clk_8930.c),
},
};
/* AHB Interfaces */
static struct branch_clk amp_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(24),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(20),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 18,
},
.c = {
.dbg_name = "amp_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(amp_p_clk.c),
},
};
static struct branch_clk csi_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(7),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(17),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 16,
},
.c = {
.dbg_name = "csi_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(csi_p_clk.c),
},
};
static struct branch_clk dsi1_m_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(9),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(6),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 19,
},
.c = {
.dbg_name = "dsi1_m_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(dsi1_m_p_clk.c),
},
};
static struct branch_clk dsi1_s_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(18),
.hwcg_reg = AHB_EN2_REG,
.hwcg_mask = BIT(20),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(5),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 21,
},
.c = {
.dbg_name = "dsi1_s_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(dsi1_s_p_clk.c),
},
};
static struct branch_clk dsi2_m_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(17),
.reset_reg = SW_RESET_AHB2_REG,
.reset_mask = BIT(1),
.halt_reg = DBG_BUS_VEC_E_REG,
.halt_bit = 18,
},
.c = {
.dbg_name = "dsi2_m_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(dsi2_m_p_clk.c),
},
};
static struct branch_clk dsi2_s_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(22),
.hwcg_reg = AHB_EN2_REG,
.hwcg_mask = BIT(15),
.reset_reg = SW_RESET_AHB2_REG,
.reset_mask = BIT(0),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 20,
},
.c = {
.dbg_name = "dsi2_s_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(dsi2_s_p_clk.c),
},
};
static struct branch_clk gfx2d0_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(19),
.hwcg_reg = AHB_EN2_REG,
.hwcg_mask = BIT(28),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(12),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 2,
},
.c = {
.dbg_name = "gfx2d0_p_clk",
.ops = &clk_ops_branch,
.flags = CLKFLAG_SKIP_HANDOFF,
CLK_INIT(gfx2d0_p_clk.c),
},
};
static struct branch_clk gfx2d1_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(2),
.hwcg_reg = AHB_EN2_REG,
.hwcg_mask = BIT(29),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(11),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 3,
},
.c = {
.dbg_name = "gfx2d1_p_clk",
.ops = &clk_ops_branch,
.flags = CLKFLAG_SKIP_HANDOFF,
CLK_INIT(gfx2d1_p_clk.c),
},
};
static struct branch_clk gfx3d_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(3),
.hwcg_reg = AHB_EN2_REG,
.hwcg_mask = BIT(27),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(10),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 4,
},
.c = {
.dbg_name = "gfx3d_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(gfx3d_p_clk.c),
},
};
static struct branch_clk hdmi_m_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(14),
.hwcg_reg = AHB_EN2_REG,
.hwcg_mask = BIT(21),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(9),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 5,
},
.c = {
.dbg_name = "hdmi_m_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(hdmi_m_p_clk.c),
},
};
static struct branch_clk hdmi_s_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(4),
.hwcg_reg = AHB_EN2_REG,
.hwcg_mask = BIT(22),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(9),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 6,
},
.c = {
.dbg_name = "hdmi_s_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(hdmi_s_p_clk.c),
},
};
static struct branch_clk ijpeg_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(5),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(7),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 9,
},
.c = {
.dbg_name = "ijpeg_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(ijpeg_p_clk.c),
},
};
static struct branch_clk imem_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(6),
.hwcg_reg = AHB_EN2_REG,
.hwcg_mask = BIT(12),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(8),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 10,
},
.c = {
.dbg_name = "imem_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(imem_p_clk.c),
},
};
static struct branch_clk jpegd_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(21),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(4),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 7,
},
.c = {
.dbg_name = "jpegd_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(jpegd_p_clk.c),
},
};
static struct branch_clk mdp_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(10),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(3),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 11,
},
.c = {
.dbg_name = "mdp_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(mdp_p_clk.c),
},
};
static struct branch_clk rot_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(12),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(2),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 13,
},
.c = {
.dbg_name = "rot_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(rot_p_clk.c),
},
};
static struct branch_clk smmu_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(15),
.hwcg_reg = AHB_EN_REG,
.hwcg_mask = BIT(26),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 22,
},
.c = {
.dbg_name = "smmu_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(smmu_p_clk.c),
},
};
static struct branch_clk tv_enc_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(25),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(15),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 23,
},
.c = {
.dbg_name = "tv_enc_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(tv_enc_p_clk.c),
},
};
static struct branch_clk vcodec_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(11),
.hwcg_reg = AHB_EN2_REG,
.hwcg_mask = BIT(26),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(1),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 12,
},
.c = {
.dbg_name = "vcodec_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(vcodec_p_clk.c),
},
};
static struct branch_clk vfe_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(13),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(0),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 14,
.retain_reg = AHB_EN2_REG,
.retain_mask = BIT(0),
},
.c = {
.dbg_name = "vfe_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(vfe_p_clk.c),
},
};
static struct branch_clk vpe_p_clk = {
.b = {
.ctl_reg = AHB_EN_REG,
.en_mask = BIT(16),
.reset_reg = SW_RESET_AHB_REG,
.reset_mask = BIT(14),
.halt_reg = DBG_BUS_VEC_F_REG,
.halt_bit = 15,
},
.c = {
.dbg_name = "vpe_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(vpe_p_clk.c),
},
};
static struct branch_clk vcap_p_clk = {
.b = {
.ctl_reg = AHB_EN3_REG,
.en_mask = BIT(1),
.reset_reg = SW_RESET_AHB2_REG,
.reset_mask = BIT(2),
.halt_reg = DBG_BUS_VEC_J_REG,
.halt_bit = 23,
},
.c = {
.dbg_name = "vcap_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(vcap_p_clk.c),
},
};
/*
* Peripheral Clocks
*/
#define CLK_GP(i, n, h_r, h_b) \
struct rcg_clk i##_clk = { \
.b = { \
.ctl_reg = GPn_NS_REG(n), \
.en_mask = BIT(9), \
.halt_reg = h_r, \
.halt_bit = h_b, \
}, \
.ns_reg = GPn_NS_REG(n), \
.md_reg = GPn_MD_REG(n), \
.root_en_mask = BIT(11), \
.ns_mask = (BM(23, 16) | BM(6, 0)), \
.mnd_en_mask = BIT(8), \
.set_rate = set_rate_mnd, \
.freq_tbl = clk_tbl_gp, \
.current_freq = &rcg_dummy_freq, \
.c = { \
.dbg_name = #i "_clk", \
.ops = &clk_ops_rcg, \
VDD_DIG_FMAX_MAP2(LOW, 100000000, NOMINAL, 200000000), \
CLK_INIT(i##_clk.c), \
}, \
}
#define F_GP(f, s, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD8(16, m, 0, n), \
.ns_val = NS(23, 16, n, m, 5, 4, 3, d, 2, 0, s##_to_bb_mux), \
}
static struct clk_freq_tbl clk_tbl_gp[] = {
F_GP( 0, gnd, 1, 0, 0),
F_GP( 9600000, cxo, 2, 0, 0),
F_GP( 13500000, pxo, 2, 0, 0),
F_GP( 19200000, cxo, 1, 0, 0),
F_GP( 27000000, pxo, 1, 0, 0),
F_GP( 64000000, pll8, 2, 1, 3),
F_GP( 76800000, pll8, 1, 1, 5),
F_GP( 96000000, pll8, 4, 0, 0),
F_GP(128000000, pll8, 3, 0, 0),
F_GP(192000000, pll8, 2, 0, 0),
F_END
};
static CLK_GP(gp0, 0, CLK_HALT_SFPB_MISC_STATE_REG, 7);
static CLK_GP(gp1, 1, CLK_HALT_SFPB_MISC_STATE_REG, 6);
static CLK_GP(gp2, 2, CLK_HALT_SFPB_MISC_STATE_REG, 5);
#define CLK_GSBI_UART(i, n, h_r, h_b) \
struct rcg_clk i##_clk = { \
.b = { \
.ctl_reg = GSBIn_UART_APPS_NS_REG(n), \
.en_mask = BIT(9), \
.reset_reg = GSBIn_RESET_REG(n), \
.reset_mask = BIT(0), \
.halt_reg = h_r, \
.halt_bit = h_b, \
}, \
.ns_reg = GSBIn_UART_APPS_NS_REG(n), \
.md_reg = GSBIn_UART_APPS_MD_REG(n), \
.root_en_mask = BIT(11), \
.ns_mask = (BM(31, 16) | BM(6, 0)), \
.mnd_en_mask = BIT(8), \
.set_rate = set_rate_mnd, \
.freq_tbl = clk_tbl_gsbi_uart, \
.current_freq = &rcg_dummy_freq, \
.c = { \
.dbg_name = #i "_clk", \
.ops = &clk_ops_rcg, \
VDD_DIG_FMAX_MAP2(LOW, 32000000, NOMINAL, 64000000), \
CLK_INIT(i##_clk.c), \
}, \
}
#define F_GSBI_UART(f, s, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD16(m, n), \
.ns_val = NS(31, 16, n, m, 5, 4, 3, d, 2, 0, s##_to_bb_mux), \
}
static struct clk_freq_tbl clk_tbl_gsbi_uart[] = {
F_GSBI_UART( 0, gnd, 1, 0, 0),
F_GSBI_UART( 1843200, pll8, 2, 6, 625),
F_GSBI_UART( 3686400, pll8, 2, 12, 625),
F_GSBI_UART( 7372800, pll8, 2, 24, 625),
F_GSBI_UART(14745600, pll8, 2, 48, 625),
F_GSBI_UART(16000000, pll8, 4, 1, 6),
F_GSBI_UART(24000000, pll8, 4, 1, 4),
F_GSBI_UART(32000000, pll8, 4, 1, 3),
F_GSBI_UART(40000000, pll8, 1, 5, 48),
F_GSBI_UART(46400000, pll8, 1, 29, 240),
F_GSBI_UART(48000000, pll8, 4, 1, 2),
F_GSBI_UART(51200000, pll8, 1, 2, 15),
F_GSBI_UART(56000000, pll8, 1, 7, 48),
F_GSBI_UART(58982400, pll8, 1, 96, 625),
F_GSBI_UART(64000000, pll8, 2, 1, 3),
F_END
};
static CLK_GSBI_UART(gsbi1_uart, 1, CLK_HALT_CFPB_STATEA_REG, 10);
static CLK_GSBI_UART(gsbi2_uart, 2, CLK_HALT_CFPB_STATEA_REG, 6);
static CLK_GSBI_UART(gsbi3_uart, 3, CLK_HALT_CFPB_STATEA_REG, 2);
static CLK_GSBI_UART(gsbi4_uart, 4, CLK_HALT_CFPB_STATEB_REG, 26);
static CLK_GSBI_UART(gsbi5_uart, 5, CLK_HALT_CFPB_STATEB_REG, 22);
static CLK_GSBI_UART(gsbi6_uart, 6, CLK_HALT_CFPB_STATEB_REG, 18);
static CLK_GSBI_UART(gsbi7_uart, 7, CLK_HALT_CFPB_STATEB_REG, 14);
static CLK_GSBI_UART(gsbi8_uart, 8, CLK_HALT_CFPB_STATEB_REG, 10);
static CLK_GSBI_UART(gsbi9_uart, 9, CLK_HALT_CFPB_STATEB_REG, 6);
static CLK_GSBI_UART(gsbi10_uart, 10, CLK_HALT_CFPB_STATEB_REG, 2);
static CLK_GSBI_UART(gsbi11_uart, 11, CLK_HALT_CFPB_STATEC_REG, 17);
static CLK_GSBI_UART(gsbi12_uart, 12, CLK_HALT_CFPB_STATEC_REG, 13);
#define CLK_GSBI_QUP(i, n, h_r, h_b) \
struct rcg_clk i##_clk = { \
.b = { \
.ctl_reg = GSBIn_QUP_APPS_NS_REG(n), \
.en_mask = BIT(9), \
.reset_reg = GSBIn_RESET_REG(n), \
.reset_mask = BIT(0), \
.halt_reg = h_r, \
.halt_bit = h_b, \
}, \
.ns_reg = GSBIn_QUP_APPS_NS_REG(n), \
.md_reg = GSBIn_QUP_APPS_MD_REG(n), \
.root_en_mask = BIT(11), \
.ns_mask = (BM(23, 16) | BM(6, 0)), \
.mnd_en_mask = BIT(8), \
.set_rate = set_rate_mnd, \
.freq_tbl = clk_tbl_gsbi_qup, \
.current_freq = &rcg_dummy_freq, \
.c = { \
.dbg_name = #i "_clk", \
.ops = &clk_ops_rcg, \
VDD_DIG_FMAX_MAP2(LOW, 24000000, NOMINAL, 52000000), \
CLK_INIT(i##_clk.c), \
}, \
}
#define F_GSBI_QUP(f, s, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD8(16, m, 0, n), \
.ns_val = NS(23, 16, n, m, 5, 4, 3, d, 2, 0, s##_to_bb_mux), \
}
static struct clk_freq_tbl clk_tbl_gsbi_qup[] = {
F_GSBI_QUP( 0, gnd, 1, 0, 0),
F_GSBI_QUP( 1100000, pxo, 1, 2, 49),
F_GSBI_QUP( 5400000, pxo, 1, 1, 5),
F_GSBI_QUP(10800000, pxo, 1, 2, 5),
F_GSBI_QUP(15060000, pll8, 1, 2, 51),
F_GSBI_QUP(24000000, pll8, 4, 1, 4),
F_GSBI_QUP(25600000, pll8, 1, 1, 15),
F_GSBI_QUP(27000000, pxo, 1, 0, 0),
F_GSBI_QUP(48000000, pll8, 4, 1, 2),
F_GSBI_QUP(51200000, pll8, 1, 2, 15),
F_END
};
static CLK_GSBI_QUP(gsbi1_qup, 1, CLK_HALT_CFPB_STATEA_REG, 9);
static CLK_GSBI_QUP(gsbi2_qup, 2, CLK_HALT_CFPB_STATEA_REG, 4);
static CLK_GSBI_QUP(gsbi3_qup, 3, CLK_HALT_CFPB_STATEA_REG, 0);
static CLK_GSBI_QUP(gsbi4_qup, 4, CLK_HALT_CFPB_STATEB_REG, 24);
static CLK_GSBI_QUP(gsbi5_qup, 5, CLK_HALT_CFPB_STATEB_REG, 20);
static CLK_GSBI_QUP(gsbi6_qup, 6, CLK_HALT_CFPB_STATEB_REG, 16);
static CLK_GSBI_QUP(gsbi7_qup, 7, CLK_HALT_CFPB_STATEB_REG, 12);
static CLK_GSBI_QUP(gsbi8_qup, 8, CLK_HALT_CFPB_STATEB_REG, 8);
static CLK_GSBI_QUP(gsbi9_qup, 9, CLK_HALT_CFPB_STATEB_REG, 4);
static CLK_GSBI_QUP(gsbi10_qup, 10, CLK_HALT_CFPB_STATEB_REG, 0);
static CLK_GSBI_QUP(gsbi11_qup, 11, CLK_HALT_CFPB_STATEC_REG, 15);
static CLK_GSBI_QUP(gsbi12_qup, 12, CLK_HALT_CFPB_STATEC_REG, 11);
#define F_PDM(f, s, d) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.ns_val = NS_SRC_SEL(1, 0, s##_to_xo_mux), \
}
static struct clk_freq_tbl clk_tbl_pdm[] = {
F_PDM( 0, gnd, 1),
F_PDM(27000000, pxo, 1),
F_END
};
static struct rcg_clk pdm_clk = {
.b = {
.ctl_reg = PDM_CLK_NS_REG,
.en_mask = BIT(9),
.reset_reg = PDM_CLK_NS_REG,
.reset_mask = BIT(12),
.halt_reg = CLK_HALT_CFPB_STATEC_REG,
.halt_bit = 3,
},
.ns_reg = PDM_CLK_NS_REG,
.root_en_mask = BIT(11),
.ns_mask = BM(1, 0),
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_pdm,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "pdm_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP1(LOW, 27000000),
CLK_INIT(pdm_clk.c),
},
};
static struct branch_clk pmem_clk = {
.b = {
.ctl_reg = PMEM_ACLK_CTL_REG,
.en_mask = BIT(4),
.hwcg_reg = PMEM_ACLK_CTL_REG,
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_DFAB_STATE_REG,
.halt_bit = 20,
},
.c = {
.dbg_name = "pmem_clk",
.ops = &clk_ops_branch,
CLK_INIT(pmem_clk.c),
},
};
#define F_PRNG(f, s) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
}
static struct clk_freq_tbl clk_tbl_prng_32[] = {
F_PRNG(32000000, pll8),
F_END
};
static struct clk_freq_tbl clk_tbl_prng_64[] = {
F_PRNG(64000000, pll8),
F_END
};
static struct rcg_clk prng_clk = {
.b = {
.ctl_reg = SC0_U_CLK_BRANCH_ENA_VOTE_REG,
.en_mask = BIT(10),
.halt_reg = CLK_HALT_SFPB_MISC_STATE_REG,
.halt_check = HALT_VOTED,
.halt_bit = 10,
},
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_prng_32,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "prng_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP2(LOW, 32000000, NOMINAL, 64000000),
CLK_INIT(prng_clk.c),
},
};
#define CLK_SDC(name, n, h_b, fmax_low, fmax_nom) \
struct rcg_clk name = { \
.b = { \
.ctl_reg = SDCn_APPS_CLK_NS_REG(n), \
.en_mask = BIT(9), \
.reset_reg = SDCn_RESET_REG(n), \
.reset_mask = BIT(0), \
.halt_reg = CLK_HALT_DFAB_STATE_REG, \
.halt_bit = h_b, \
}, \
.ns_reg = SDCn_APPS_CLK_NS_REG(n), \
.md_reg = SDCn_APPS_CLK_MD_REG(n), \
.root_en_mask = BIT(11), \
.ns_mask = (BM(23, 16) | BM(6, 0)), \
.mnd_en_mask = BIT(8), \
.set_rate = set_rate_mnd, \
.freq_tbl = clk_tbl_sdc, \
.current_freq = &rcg_dummy_freq, \
.c = { \
.dbg_name = #name, \
.ops = &clk_ops_rcg, \
VDD_DIG_FMAX_MAP2(LOW, fmax_low, NOMINAL, fmax_nom), \
CLK_INIT(name.c), \
}, \
}
#define F_SDC(f, s, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD8(16, m, 0, n), \
.ns_val = NS(23, 16, n, m, 5, 4, 3, d, 2, 0, s##_to_bb_mux), \
}
static struct clk_freq_tbl clk_tbl_sdc[] = {
F_SDC( 0, gnd, 1, 0, 0),
F_SDC( 144000, pxo, 3, 2, 125),
F_SDC( 400000, pll8, 4, 1, 240),
F_SDC( 16000000, pll8, 4, 1, 6),
F_SDC( 17070000, pll8, 1, 2, 45),
F_SDC( 20210000, pll8, 1, 1, 19),
F_SDC( 24000000, pll8, 4, 1, 4),
F_SDC( 48000000, pll8, 4, 1, 2),
F_SDC( 64000000, pll8, 3, 1, 2),
F_SDC( 96000000, pll8, 4, 0, 0),
F_SDC(192000000, pll8, 2, 0, 0),
F_END
};
static CLK_SDC(sdc1_clk, 1, 6, 52000000, 208000000);
static CLK_SDC(sdc2_clk, 2, 5, 52000000, 104000000);
static CLK_SDC(sdc3_clk, 3, 4, 104000000, 208000000);
static CLK_SDC(sdc4_clk, 4, 3, 33000000, 67000000);
static CLK_SDC(sdc5_clk, 5, 2, 33000000, 67000000);
static unsigned long fmax_sdc1_8064v2[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 100000000,
[VDD_DIG_NOMINAL] = 200000000,
};
#define F_TSIF_REF(f, s, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD16(m, n), \
.ns_val = NS(31, 16, n, m, 5, 4, 3, d, 2, 0, s##_to_bb_mux), \
}
static struct clk_freq_tbl clk_tbl_tsif_ref[] = {
F_TSIF_REF( 0, gnd, 1, 0, 0),
F_TSIF_REF(105000, pxo, 1, 1, 256),
F_END
};
static struct rcg_clk tsif_ref_clk = {
.b = {
.ctl_reg = TSIF_REF_CLK_NS_REG,
.en_mask = BIT(9),
.halt_reg = CLK_HALT_CFPB_STATEC_REG,
.halt_bit = 5,
},
.ns_reg = TSIF_REF_CLK_NS_REG,
.md_reg = TSIF_REF_CLK_MD_REG,
.root_en_mask = BIT(11),
.ns_mask = (BM(31, 16) | BM(6, 0)),
.mnd_en_mask = BIT(8),
.set_rate = set_rate_mnd,
.freq_tbl = clk_tbl_tsif_ref,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "tsif_ref_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP2(LOW, 27000000, NOMINAL, 54000000),
CLK_INIT(tsif_ref_clk.c),
},
};
#define F_TSSC(f, s) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.ns_val = NS_SRC_SEL(1, 0, s##_to_xo_mux), \
}
static struct clk_freq_tbl clk_tbl_tssc[] = {
F_TSSC( 0, gnd),
F_TSSC(27000000, pxo),
F_END
};
static struct rcg_clk tssc_clk = {
.b = {
.ctl_reg = TSSC_CLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_CFPB_STATEC_REG,
.halt_bit = 4,
},
.ns_reg = TSSC_CLK_CTL_REG,
.ns_mask = BM(1, 0),
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_tssc,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "tssc_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP1(LOW, 27000000),
CLK_INIT(tssc_clk.c),
},
};
#define CLK_USB_HS(name, n, h_b) \
static struct rcg_clk name = { \
.b = { \
.ctl_reg = USB_HS##n##_XCVR_FS_CLK_NS_REG, \
.en_mask = BIT(9), \
.reset_reg = USB_HS##n##_RESET_REG, \
.reset_mask = BIT(0), \
.halt_reg = CLK_HALT_DFAB_STATE_REG, \
.halt_bit = h_b, \
}, \
.ns_reg = USB_HS##n##_XCVR_FS_CLK_NS_REG, \
.md_reg = USB_HS##n##_XCVR_FS_CLK_MD_REG, \
.root_en_mask = BIT(11), \
.ns_mask = (BM(23, 16) | BM(6, 0)), \
.mnd_en_mask = BIT(8), \
.set_rate = set_rate_mnd, \
.freq_tbl = clk_tbl_usb, \
.current_freq = &rcg_dummy_freq, \
.c = { \
.dbg_name = #name, \
.ops = &clk_ops_rcg, \
VDD_DIG_FMAX_MAP1(NOMINAL, 64000000), \
CLK_INIT(name.c), \
}, \
}
#define F_USB(f, s, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD8(16, m, 0, n), \
.ns_val = NS(23, 16, n, m, 5, 4, 3, d, 2, 0, s##_to_bb_mux), \
}
static struct clk_freq_tbl clk_tbl_usb[] = {
F_USB( 0, gnd, 1, 0, 0),
F_USB(60000000, pll8, 1, 5, 32),
F_END
};
CLK_USB_HS(usb_hs1_xcvr_clk, 1, 0);
CLK_USB_HS(usb_hs3_xcvr_clk, 3, 30);
CLK_USB_HS(usb_hs4_xcvr_clk, 4, 2);
static struct clk_freq_tbl clk_tbl_usb_hsic[] = {
F_USB( 0, gnd, 1, 0, 0),
F_USB(60000000, pll8, 1, 5, 32),
F_END
};
static struct rcg_clk usb_hsic_xcvr_fs_clk = {
.b = {
.ctl_reg = USB_HSIC_XCVR_FS_CLK_NS_REG,
.en_mask = BIT(9),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 26,
},
.ns_reg = USB_HSIC_XCVR_FS_CLK_NS_REG,
.md_reg = USB_HSIC_XCVR_FS_CLK_MD_REG,
.root_en_mask = BIT(11),
.ns_mask = (BM(23, 16) | BM(6, 0)),
.mnd_en_mask = BIT(8),
.set_rate = set_rate_mnd,
.freq_tbl = clk_tbl_usb_hsic,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "usb_hsic_xcvr_fs_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP1(LOW, 60000000),
CLK_INIT(usb_hsic_xcvr_fs_clk.c),
},
};
static struct branch_clk usb_hsic_system_clk = {
.b = {
.ctl_reg = USB_HSIC_SYSTEM_CLK_CTL_REG,
.en_mask = BIT(4),
.reset_reg = USB_HSIC_RESET_REG,
.reset_mask = BIT(0),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 24,
},
.c = {
.parent = &usb_hsic_xcvr_fs_clk.c,
.dbg_name = "usb_hsic_system_clk",
.ops = &clk_ops_branch,
CLK_INIT(usb_hsic_system_clk.c),
},
};
#define F_USB_HSIC(f, s) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
}
static struct clk_freq_tbl clk_tbl_usb2_hsic[] = {
F_USB_HSIC(480000000, pll14),
F_END
};
static struct rcg_clk usb_hsic_hsic_src_clk = {
.b = {
.ctl_reg = USB_HSIC_HSIC_CLK_SRC_CTL_REG,
.halt_check = NOCHECK,
},
.root_en_mask = BIT(0),
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_usb2_hsic,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "usb_hsic_hsic_src_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP1(LOW, 480000000),
CLK_INIT(usb_hsic_hsic_src_clk.c),
},
};
static struct branch_clk usb_hsic_hsic_clk = {
.b = {
.ctl_reg = USB_HSIC_HSIC_CLK_CTL_REG,
.en_mask = BIT(0),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 19,
},
.c = {
.parent = &usb_hsic_hsic_src_clk.c,
.dbg_name = "usb_hsic_hsic_clk",
.ops = &clk_ops_branch,
CLK_INIT(usb_hsic_hsic_clk.c),
},
};
#define F_USB_HSIO_CAL(f, s) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
}
static struct clk_freq_tbl clk_tbl_usb_hsio_cal[] = {
F_USB_HSIO_CAL(9000000, pxo),
F_END
};
static struct rcg_clk usb_hsic_hsio_cal_clk = {
.b = {
.ctl_reg = USB_HSIC_HSIO_CAL_CLK_CTL_REG,
.en_mask = BIT(0),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 23,
},
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_usb_hsio_cal,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "usb_hsic_hsio_cal_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP1(LOW, 10000000),
CLK_INIT(usb_hsic_hsio_cal_clk.c),
},
};
static struct branch_clk usb_phy0_clk = {
.b = {
.reset_reg = USB_PHY0_RESET_REG,
.reset_mask = BIT(0),
},
.c = {
.dbg_name = "usb_phy0_clk",
.ops = &clk_ops_reset,
CLK_INIT(usb_phy0_clk.c),
},
};
#define CLK_USB_FS(i, n, fmax_nom) \
struct rcg_clk i##_clk = { \
.ns_reg = USB_FSn_XCVR_FS_CLK_NS_REG(n), \
.b = { \
.ctl_reg = USB_FSn_XCVR_FS_CLK_NS_REG(n), \
.halt_check = NOCHECK, \
}, \
.md_reg = USB_FSn_XCVR_FS_CLK_MD_REG(n), \
.root_en_mask = BIT(11), \
.ns_mask = (BM(23, 16) | BM(6, 0)), \
.mnd_en_mask = BIT(8), \
.set_rate = set_rate_mnd, \
.freq_tbl = clk_tbl_usb, \
.current_freq = &rcg_dummy_freq, \
.c = { \
.dbg_name = #i "_clk", \
.ops = &clk_ops_rcg, \
VDD_DIG_FMAX_MAP1(NOMINAL, fmax_nom), \
CLK_INIT(i##_clk.c), \
}, \
}
static CLK_USB_FS(usb_fs1_src, 1, 64000000);
static struct branch_clk usb_fs1_xcvr_clk = {
.b = {
.ctl_reg = USB_FSn_XCVR_FS_CLK_NS_REG(1),
.en_mask = BIT(9),
.reset_reg = USB_FSn_RESET_REG(1),
.reset_mask = BIT(1),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 15,
},
.c = {
.parent = &usb_fs1_src_clk.c,
.dbg_name = "usb_fs1_xcvr_clk",
.ops = &clk_ops_branch,
CLK_INIT(usb_fs1_xcvr_clk.c),
},
};
static struct branch_clk usb_fs1_sys_clk = {
.b = {
.ctl_reg = USB_FSn_SYSTEM_CLK_CTL_REG(1),
.en_mask = BIT(4),
.reset_reg = USB_FSn_RESET_REG(1),
.reset_mask = BIT(0),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 16,
},
.c = {
.parent = &usb_fs1_src_clk.c,
.dbg_name = "usb_fs1_sys_clk",
.ops = &clk_ops_branch,
CLK_INIT(usb_fs1_sys_clk.c),
},
};
static CLK_USB_FS(usb_fs2_src, 2, 60000000);
static struct branch_clk usb_fs2_xcvr_clk = {
.b = {
.ctl_reg = USB_FSn_XCVR_FS_CLK_NS_REG(2),
.en_mask = BIT(9),
.reset_reg = USB_FSn_RESET_REG(2),
.reset_mask = BIT(1),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 12,
},
.c = {
.parent = &usb_fs2_src_clk.c,
.dbg_name = "usb_fs2_xcvr_clk",
.ops = &clk_ops_branch,
CLK_INIT(usb_fs2_xcvr_clk.c),
},
};
static struct branch_clk usb_fs2_sys_clk = {
.b = {
.ctl_reg = USB_FSn_SYSTEM_CLK_CTL_REG(2),
.en_mask = BIT(4),
.reset_reg = USB_FSn_RESET_REG(2),
.reset_mask = BIT(0),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 13,
},
.c = {
.parent = &usb_fs2_src_clk.c,
.dbg_name = "usb_fs2_sys_clk",
.ops = &clk_ops_branch,
CLK_INIT(usb_fs2_sys_clk.c),
},
};
/* Fast Peripheral Bus Clocks */
static struct branch_clk ce1_core_clk = {
.b = {
.ctl_reg = CE1_CORE_CLK_CTL_REG,
.en_mask = BIT(4),
.hwcg_reg = CE1_CORE_CLK_CTL_REG,
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEC_REG,
.halt_bit = 27,
},
.c = {
.dbg_name = "ce1_core_clk",
.ops = &clk_ops_branch,
CLK_INIT(ce1_core_clk.c),
},
};
static struct branch_clk ce1_p_clk = {
.b = {
.ctl_reg = CE1_HCLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_CFPB_STATEC_REG,
.halt_bit = 1,
},
.c = {
.dbg_name = "ce1_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(ce1_p_clk.c),
},
};
#define F_CE3(f, s, d) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.ns_val = NS_DIVSRC(6, 3, d, 2, 0, s##_to_bb_mux), \
}
static struct clk_freq_tbl clk_tbl_ce3[] = {
F_CE3( 0, gnd, 1),
F_CE3( 48000000, pll8, 8),
F_CE3(100000000, pll3, 12),
F_CE3(120000000, pll3, 10),
F_END
};
static struct rcg_clk ce3_src_clk = {
.b = {
.ctl_reg = CE3_CLK_SRC_NS_REG,
.halt_check = NOCHECK,
},
.ns_reg = CE3_CLK_SRC_NS_REG,
.root_en_mask = BIT(7),
.ns_mask = BM(6, 0),
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_ce3,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "ce3_src_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP2(LOW, 50000000, NOMINAL, 100000000),
CLK_INIT(ce3_src_clk.c),
},
};
static unsigned long fmax_ce3_8064v2[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 57000000,
[VDD_DIG_NOMINAL] = 120000000,
};
static struct branch_clk ce3_core_clk = {
.b = {
.ctl_reg = CE3_CORE_CLK_CTL_REG,
.en_mask = BIT(4),
.reset_reg = CE3_CORE_CLK_CTL_REG,
.reset_mask = BIT(7),
.halt_reg = CLK_HALT_MSS_SMPSS_MISC_STATE_REG,
.halt_bit = 5,
},
.c = {
.parent = &ce3_src_clk.c,
.dbg_name = "ce3_core_clk",
.ops = &clk_ops_branch,
CLK_INIT(ce3_core_clk.c),
}
};
static struct branch_clk ce3_p_clk = {
.b = {
.ctl_reg = CE3_HCLK_CTL_REG,
.en_mask = BIT(4),
.reset_reg = CE3_HCLK_CTL_REG,
.reset_mask = BIT(7),
.halt_reg = CLK_HALT_AFAB_SFAB_STATEB_REG,
.halt_bit = 16,
},
.c = {
.parent = &ce3_src_clk.c,
.dbg_name = "ce3_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(ce3_p_clk.c),
}
};
#define F_SATA(f, s, d) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.ns_val = NS_DIVSRC(6, 3, d, 2, 0, s##_to_bb_mux), \
}
static struct clk_freq_tbl clk_tbl_sata[] = {
F_SATA( 0, gnd, 1),
F_SATA( 48000000, pll8, 8),
F_SATA(100000000, pll3, 12),
F_END
};
static struct rcg_clk sata_src_clk = {
.b = {
.ctl_reg = SATA_CLK_SRC_NS_REG,
.halt_check = NOCHECK,
},
.ns_reg = SATA_CLK_SRC_NS_REG,
.root_en_mask = BIT(7),
.ns_mask = BM(6, 0),
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_sata,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "sata_src_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP2(LOW, 50000000, NOMINAL, 100000000),
CLK_INIT(sata_src_clk.c),
},
};
static struct branch_clk sata_rxoob_clk = {
.b = {
.ctl_reg = SATA_RXOOB_CLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_MSS_SMPSS_MISC_STATE_REG,
.halt_bit = 26,
},
.c = {
.parent = &sata_src_clk.c,
.dbg_name = "sata_rxoob_clk",
.ops = &clk_ops_branch,
CLK_INIT(sata_rxoob_clk.c),
},
};
static struct branch_clk sata_pmalive_clk = {
.b = {
.ctl_reg = SATA_PMALIVE_CLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_MSS_SMPSS_MISC_STATE_REG,
.halt_bit = 25,
},
.c = {
.parent = &sata_src_clk.c,
.dbg_name = "sata_pmalive_clk",
.ops = &clk_ops_branch,
CLK_INIT(sata_pmalive_clk.c),
},
};
static struct branch_clk sata_phy_ref_clk = {
.b = {
.ctl_reg = SATA_PHY_REF_CLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_MSS_SMPSS_MISC_STATE_REG,
.halt_bit = 24,
},
.c = {
.parent = &pxo_clk.c,
.dbg_name = "sata_phy_ref_clk",
.ops = &clk_ops_branch,
CLK_INIT(sata_phy_ref_clk.c),
},
};
static struct branch_clk sata_a_clk = {
.b = {
.ctl_reg = SATA_ACLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_AFAB_SFAB_STATEA_REG,
.halt_bit = 12,
},
.c = {
.dbg_name = "sata_a_clk",
.ops = &clk_ops_branch,
CLK_INIT(sata_a_clk.c),
},
};
static struct branch_clk sata_p_clk = {
.b = {
.ctl_reg = SATA_HCLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_MSS_SMPSS_MISC_STATE_REG,
.halt_bit = 27,
.reset_reg = SATA_RESET,
.reset_mask = BIT(0),
},
.c = {
.dbg_name = "sata_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(sata_p_clk.c),
},
};
static struct branch_clk sfab_sata_s_p_clk = {
.b = {
.ctl_reg = SFAB_SATA_S_HCLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_AFAB_SFAB_STATEB_REG,
.halt_bit = 14,
},
.c = {
.dbg_name = "sfab_sata_s_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(sfab_sata_s_p_clk.c),
},
};
static struct branch_clk pcie_p_clk = {
.b = {
.ctl_reg = PCIE_HCLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_CFPB_STATEC_REG,
.halt_bit = 8,
},
.c = {
.dbg_name = "pcie_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(pcie_p_clk.c),
},
};
static struct branch_clk pcie_phy_ref_clk = {
.b = {
.ctl_reg = PCIE_PCLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_MSS_SMPSS_MISC_STATE_REG,
.halt_bit = 29,
},
.c = {
.dbg_name = "pcie_phy_ref_clk",
.ops = &clk_ops_branch,
CLK_INIT(pcie_phy_ref_clk.c),
},
};
static struct branch_clk pcie_a_clk = {
.b = {
.ctl_reg = PCIE_ACLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_AFAB_SFAB_STATEA_REG,
.halt_bit = 13,
},
.c = {
.dbg_name = "pcie_a_clk",
.ops = &clk_ops_branch,
CLK_INIT(pcie_a_clk.c),
},
};
static struct branch_clk dma_bam_p_clk = {
.b = {
.ctl_reg = DMA_BAM_HCLK_CTL,
.en_mask = BIT(4),
.hwcg_reg = DMA_BAM_HCLK_CTL,
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_DFAB_STATE_REG,
.halt_bit = 12,
},
.c = {
.dbg_name = "dma_bam_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(dma_bam_p_clk.c),
},
};
static struct branch_clk gsbi1_p_clk = {
.b = {
.ctl_reg = GSBIn_HCLK_CTL_REG(1),
.en_mask = BIT(4),
.hwcg_reg = GSBIn_HCLK_CTL_REG(1),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 11,
},
.c = {
.dbg_name = "gsbi1_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(gsbi1_p_clk.c),
},
};
static struct branch_clk gsbi2_p_clk = {
.b = {
.ctl_reg = GSBIn_HCLK_CTL_REG(2),
.en_mask = BIT(4),
.hwcg_reg = GSBIn_HCLK_CTL_REG(2),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 7,
},
.c = {
.dbg_name = "gsbi2_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(gsbi2_p_clk.c),
},
};
static struct branch_clk gsbi3_p_clk = {
.b = {
.ctl_reg = GSBIn_HCLK_CTL_REG(3),
.en_mask = BIT(4),
.hwcg_reg = GSBIn_HCLK_CTL_REG(3),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 3,
},
.c = {
.dbg_name = "gsbi3_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(gsbi3_p_clk.c),
},
};
static struct branch_clk gsbi4_p_clk = {
.b = {
.ctl_reg = GSBIn_HCLK_CTL_REG(4),
.en_mask = BIT(4),
.hwcg_reg = GSBIn_HCLK_CTL_REG(4),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEB_REG,
.halt_bit = 27,
},
.c = {
.dbg_name = "gsbi4_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(gsbi4_p_clk.c),
},
};
static struct branch_clk gsbi5_p_clk = {
.b = {
.ctl_reg = GSBIn_HCLK_CTL_REG(5),
.en_mask = BIT(4),
.hwcg_reg = GSBIn_HCLK_CTL_REG(5),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEB_REG,
.halt_bit = 23,
},
.c = {
.dbg_name = "gsbi5_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(gsbi5_p_clk.c),
},
};
static struct branch_clk gsbi6_p_clk = {
.b = {
.ctl_reg = GSBIn_HCLK_CTL_REG(6),
.en_mask = BIT(4),
.hwcg_reg = GSBIn_HCLK_CTL_REG(6),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEB_REG,
.halt_bit = 19,
},
.c = {
.dbg_name = "gsbi6_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(gsbi6_p_clk.c),
},
};
static struct branch_clk gsbi7_p_clk = {
.b = {
.ctl_reg = GSBIn_HCLK_CTL_REG(7),
.en_mask = BIT(4),
.hwcg_reg = GSBIn_HCLK_CTL_REG(7),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEB_REG,
.halt_bit = 15,
},
.c = {
.dbg_name = "gsbi7_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(gsbi7_p_clk.c),
},
};
static struct branch_clk gsbi8_p_clk = {
.b = {
.ctl_reg = GSBIn_HCLK_CTL_REG(8),
.en_mask = BIT(4),
.hwcg_reg = GSBIn_HCLK_CTL_REG(8),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEB_REG,
.halt_bit = 11,
},
.c = {
.dbg_name = "gsbi8_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(gsbi8_p_clk.c),
},
};
static struct branch_clk gsbi9_p_clk = {
.b = {
.ctl_reg = GSBIn_HCLK_CTL_REG(9),
.en_mask = BIT(4),
.hwcg_reg = GSBIn_HCLK_CTL_REG(9),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEB_REG,
.halt_bit = 7,
},
.c = {
.dbg_name = "gsbi9_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(gsbi9_p_clk.c),
},
};
static struct branch_clk gsbi10_p_clk = {
.b = {
.ctl_reg = GSBIn_HCLK_CTL_REG(10),
.en_mask = BIT(4),
.hwcg_reg = GSBIn_HCLK_CTL_REG(10),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEB_REG,
.halt_bit = 3,
},
.c = {
.dbg_name = "gsbi10_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(gsbi10_p_clk.c),
},
};
static struct branch_clk gsbi11_p_clk = {
.b = {
.ctl_reg = GSBIn_HCLK_CTL_REG(11),
.en_mask = BIT(4),
.hwcg_reg = GSBIn_HCLK_CTL_REG(11),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEC_REG,
.halt_bit = 18,
},
.c = {
.dbg_name = "gsbi11_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(gsbi11_p_clk.c),
},
};
static struct branch_clk gsbi12_p_clk = {
.b = {
.ctl_reg = GSBIn_HCLK_CTL_REG(12),
.en_mask = BIT(4),
.hwcg_reg = GSBIn_HCLK_CTL_REG(12),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEC_REG,
.halt_bit = 14,
},
.c = {
.dbg_name = "gsbi12_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(gsbi12_p_clk.c),
},
};
static struct branch_clk sata_phy_cfg_clk = {
.b = {
.ctl_reg = SATA_PHY_CFG_CLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 12,
},
.c = {
.dbg_name = "sata_phy_cfg_clk",
.ops = &clk_ops_branch,
CLK_INIT(sata_phy_cfg_clk.c),
},
};
static struct branch_clk tsif_p_clk = {
.b = {
.ctl_reg = TSIF_HCLK_CTL_REG,
.en_mask = BIT(4),
.hwcg_reg = TSIF_HCLK_CTL_REG,
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_CFPB_STATEC_REG,
.halt_bit = 7,
},
.c = {
.dbg_name = "tsif_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(tsif_p_clk.c),
},
};
static struct branch_clk usb_fs1_p_clk = {
.b = {
.ctl_reg = USB_FSn_HCLK_CTL_REG(1),
.en_mask = BIT(4),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 17,
},
.c = {
.dbg_name = "usb_fs1_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(usb_fs1_p_clk.c),
},
};
static struct branch_clk usb_fs2_p_clk = {
.b = {
.ctl_reg = USB_FSn_HCLK_CTL_REG(2),
.en_mask = BIT(4),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 14,
},
.c = {
.dbg_name = "usb_fs2_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(usb_fs2_p_clk.c),
},
};
static struct branch_clk usb_hs1_p_clk = {
.b = {
.ctl_reg = USB_HS1_HCLK_CTL_REG,
.en_mask = BIT(4),
.hwcg_reg = USB_HS1_HCLK_CTL_REG,
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_DFAB_STATE_REG,
.halt_bit = 1,
},
.c = {
.dbg_name = "usb_hs1_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(usb_hs1_p_clk.c),
},
};
static struct branch_clk usb_hs3_p_clk = {
.b = {
.ctl_reg = USB_HS3_HCLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_DFAB_STATE_REG,
.halt_bit = 31,
},
.c = {
.dbg_name = "usb_hs3_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(usb_hs3_p_clk.c),
},
};
static struct branch_clk usb_hs4_p_clk = {
.b = {
.ctl_reg = USB_HS4_HCLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_DFAB_STATE_REG,
.halt_bit = 7,
},
.c = {
.dbg_name = "usb_hs4_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(usb_hs4_p_clk.c),
},
};
static struct branch_clk usb_hsic_p_clk = {
.b = {
.ctl_reg = USB_HSIC_HCLK_CTL_REG,
.en_mask = BIT(4),
.halt_reg = CLK_HALT_CFPB_STATEA_REG,
.halt_bit = 28,
},
.c = {
.dbg_name = "usb_hsic_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(usb_hsic_p_clk.c),
},
};
static struct branch_clk sdc1_p_clk = {
.b = {
.ctl_reg = SDCn_HCLK_CTL_REG(1),
.en_mask = BIT(4),
.hwcg_reg = SDCn_HCLK_CTL_REG(1),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_DFAB_STATE_REG,
.halt_bit = 11,
},
.c = {
.dbg_name = "sdc1_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(sdc1_p_clk.c),
},
};
static struct branch_clk sdc2_p_clk = {
.b = {
.ctl_reg = SDCn_HCLK_CTL_REG(2),
.en_mask = BIT(4),
.hwcg_reg = SDCn_HCLK_CTL_REG(2),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_DFAB_STATE_REG,
.halt_bit = 10,
},
.c = {
.dbg_name = "sdc2_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(sdc2_p_clk.c),
},
};
static struct branch_clk sdc3_p_clk = {
.b = {
.ctl_reg = SDCn_HCLK_CTL_REG(3),
.en_mask = BIT(4),
.hwcg_reg = SDCn_HCLK_CTL_REG(3),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_DFAB_STATE_REG,
.halt_bit = 9,
},
.c = {
.dbg_name = "sdc3_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(sdc3_p_clk.c),
},
};
static struct branch_clk sdc4_p_clk = {
.b = {
.ctl_reg = SDCn_HCLK_CTL_REG(4),
.en_mask = BIT(4),
.hwcg_reg = SDCn_HCLK_CTL_REG(4),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_DFAB_STATE_REG,
.halt_bit = 8,
},
.c = {
.dbg_name = "sdc4_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(sdc4_p_clk.c),
},
};
static struct branch_clk sdc5_p_clk = {
.b = {
.ctl_reg = SDCn_HCLK_CTL_REG(5),
.en_mask = BIT(4),
.hwcg_reg = SDCn_HCLK_CTL_REG(5),
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_DFAB_STATE_REG,
.halt_bit = 7,
},
.c = {
.dbg_name = "sdc5_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(sdc5_p_clk.c),
},
};
/* HW-Voteable Clocks */
static struct branch_clk adm0_clk = {
.b = {
.ctl_reg = SC0_U_CLK_BRANCH_ENA_VOTE_REG,
.en_mask = BIT(2),
.halt_reg = CLK_HALT_MSS_SMPSS_MISC_STATE_REG,
.halt_check = HALT_VOTED,
.halt_bit = 14,
},
.c = {
.dbg_name = "adm0_clk",
.ops = &clk_ops_branch,
CLK_INIT(adm0_clk.c),
},
};
static struct branch_clk adm0_p_clk = {
.b = {
.ctl_reg = SC0_U_CLK_BRANCH_ENA_VOTE_REG,
.en_mask = BIT(3),
.hwcg_reg = ADM0_PBUS_CLK_CTL_REG,
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_MSS_SMPSS_MISC_STATE_REG,
.halt_check = HALT_VOTED,
.halt_bit = 13,
},
.c = {
.dbg_name = "adm0_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(adm0_p_clk.c),
},
};
static struct branch_clk pmic_arb0_p_clk = {
.b = {
.ctl_reg = SC0_U_CLK_BRANCH_ENA_VOTE_REG,
.en_mask = BIT(8),
.halt_reg = CLK_HALT_SFPB_MISC_STATE_REG,
.halt_check = HALT_VOTED,
.halt_bit = 22,
},
.c = {
.dbg_name = "pmic_arb0_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(pmic_arb0_p_clk.c),
},
};
static struct branch_clk pmic_arb1_p_clk = {
.b = {
.ctl_reg = SC0_U_CLK_BRANCH_ENA_VOTE_REG,
.en_mask = BIT(9),
.halt_reg = CLK_HALT_SFPB_MISC_STATE_REG,
.halt_check = HALT_VOTED,
.halt_bit = 21,
},
.c = {
.dbg_name = "pmic_arb1_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(pmic_arb1_p_clk.c),
},
};
static struct branch_clk pmic_ssbi2_clk = {
.b = {
.ctl_reg = SC0_U_CLK_BRANCH_ENA_VOTE_REG,
.en_mask = BIT(7),
.halt_reg = CLK_HALT_SFPB_MISC_STATE_REG,
.halt_check = HALT_VOTED,
.halt_bit = 23,
},
.c = {
.dbg_name = "pmic_ssbi2_clk",
.ops = &clk_ops_branch,
CLK_INIT(pmic_ssbi2_clk.c),
},
};
static struct branch_clk rpm_msg_ram_p_clk = {
.b = {
.ctl_reg = SC0_U_CLK_BRANCH_ENA_VOTE_REG,
.en_mask = BIT(6),
.hwcg_reg = RPM_MSG_RAM_HCLK_CTL_REG,
.hwcg_mask = BIT(6),
.halt_reg = CLK_HALT_SFPB_MISC_STATE_REG,
.halt_check = HALT_VOTED,
.halt_bit = 12,
},
.c = {
.dbg_name = "rpm_msg_ram_p_clk",
.ops = &clk_ops_branch,
CLK_INIT(rpm_msg_ram_p_clk.c),
},
};
/*
* Multimedia Clocks
*/
#define CLK_CAM(name, n, hb) \
struct rcg_clk name = { \
.b = { \
.ctl_reg = CAMCLK##n##_CC_REG, \
.en_mask = BIT(0), \
.halt_reg = DBG_BUS_VEC_I_REG, \
.halt_bit = hb, \
}, \
.ns_reg = CAMCLK##n##_NS_REG, \
.md_reg = CAMCLK##n##_MD_REG, \
.root_en_mask = BIT(2), \
.ns_mask = BM(31, 24) | BM(15, 14) | BM(2, 0), \
.mnd_en_mask = BIT(5), \
.ctl_mask = BM(7, 6), \
.set_rate = set_rate_mnd_8, \
.freq_tbl = clk_tbl_cam, \
.current_freq = &rcg_dummy_freq, \
.c = { \
.dbg_name = #name, \
.ops = &clk_ops_rcg, \
VDD_DIG_FMAX_MAP2(LOW, 64000000, NOMINAL, 128000000), \
CLK_INIT(name.c), \
}, \
}
#define F_CAM(f, s, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD8(8, m, 0, n), \
.ns_val = NS_MM(31, 24, n, m, 15, 14, d, 2, 0, s##_to_mm_mux), \
.ctl_val = CC(6, n), \
}
static struct clk_freq_tbl clk_tbl_cam[] = {
F_CAM( 0, gnd, 1, 0, 0),
F_CAM( 6000000, pll8, 4, 1, 16),
F_CAM( 8000000, pll8, 4, 1, 12),
F_CAM( 12000000, pll8, 4, 1, 8),
F_CAM( 16000000, pll8, 4, 1, 6),
F_CAM( 19200000, pll8, 4, 1, 5),
F_CAM( 24000000, pll8, 4, 1, 4),
F_CAM( 32000000, pll8, 4, 1, 3),
F_CAM( 48000000, pll8, 4, 1, 2),
F_CAM( 64000000, pll8, 3, 1, 2),
F_CAM( 96000000, pll8, 4, 0, 0),
F_CAM(128000000, pll8, 3, 0, 0),
F_END
};
static CLK_CAM(cam0_clk, 0, 15);
static CLK_CAM(cam1_clk, 1, 16);
static CLK_CAM(cam2_clk, 2, 31);
#define F_CSI(f, s, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD8(8, m, 0, n), \
.ns_val = NS_MM(31, 24, n, m, 15, 14, d, 2, 0, s##_to_mm_mux), \
.ctl_val = CC(6, n), \
}
static struct clk_freq_tbl clk_tbl_csi[] = {
F_CSI( 0, gnd, 1, 0, 0),
F_CSI( 27000000, pxo, 1, 0, 0),
F_CSI( 85330000, pll8, 1, 2, 9),
F_CSI(177780000, pll2, 1, 2, 9),
F_END
};
static struct rcg_clk csi0_src_clk = {
.ns_reg = CSI0_NS_REG,
.b = {
.ctl_reg = CSI0_CC_REG,
.halt_check = NOCHECK,
},
.md_reg = CSI0_MD_REG,
.root_en_mask = BIT(2),
.ns_mask = BM(31, 24) | BM(15, 14) | BM(2, 0),
.mnd_en_mask = BIT(5),
.ctl_mask = BM(7, 6),
.set_rate = set_rate_mnd,
.freq_tbl = clk_tbl_csi,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "csi0_src_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP2(LOW, 86000000, NOMINAL, 178000000),
CLK_INIT(csi0_src_clk.c),
},
};
static struct branch_clk csi0_clk = {
.b = {
.ctl_reg = CSI0_CC_REG,
.en_mask = BIT(0),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(8),
.halt_reg = DBG_BUS_VEC_B_REG,
.halt_bit = 13,
},
.c = {
.parent = &csi0_src_clk.c,
.dbg_name = "csi0_clk",
.ops = &clk_ops_branch,
CLK_INIT(csi0_clk.c),
},
};
static struct branch_clk csi0_phy_clk = {
.b = {
.ctl_reg = CSI0_CC_REG,
.en_mask = BIT(8),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(29),
.halt_reg = DBG_BUS_VEC_I_REG,
.halt_bit = 9,
},
.c = {
.parent = &csi0_src_clk.c,
.dbg_name = "csi0_phy_clk",
.ops = &clk_ops_branch,
CLK_INIT(csi0_phy_clk.c),
},
};
static struct rcg_clk csi1_src_clk = {
.ns_reg = CSI1_NS_REG,
.b = {
.ctl_reg = CSI1_CC_REG,
.halt_check = NOCHECK,
},
.md_reg = CSI1_MD_REG,
.root_en_mask = BIT(2),
.ns_mask = BM(31, 24) | BM(15, 14) | BM(2, 0),
.mnd_en_mask = BIT(5),
.ctl_mask = BM(7, 6),
.set_rate = set_rate_mnd,
.freq_tbl = clk_tbl_csi,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "csi1_src_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP2(LOW, 86000000, NOMINAL, 178000000),
CLK_INIT(csi1_src_clk.c),
},
};
static struct branch_clk csi1_clk = {
.b = {
.ctl_reg = CSI1_CC_REG,
.en_mask = BIT(0),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(18),
.halt_reg = DBG_BUS_VEC_B_REG,
.halt_bit = 14,
},
.c = {
.parent = &csi1_src_clk.c,
.dbg_name = "csi1_clk",
.ops = &clk_ops_branch,
CLK_INIT(csi1_clk.c),
},
};
static struct branch_clk csi1_phy_clk = {
.b = {
.ctl_reg = CSI1_CC_REG,
.en_mask = BIT(8),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(28),
.halt_reg = DBG_BUS_VEC_I_REG,
.halt_bit = 10,
},
.c = {
.parent = &csi1_src_clk.c,
.dbg_name = "csi1_phy_clk",
.ops = &clk_ops_branch,
CLK_INIT(csi1_phy_clk.c),
},
};
static struct rcg_clk csi2_src_clk = {
.ns_reg = CSI2_NS_REG,
.b = {
.ctl_reg = CSI2_CC_REG,
.halt_check = NOCHECK,
},
.md_reg = CSI2_MD_REG,
.root_en_mask = BIT(2),
.ns_mask = BM(31, 24) | BM(15, 14) | BM(2, 0),
.mnd_en_mask = BIT(5),
.ctl_mask = BM(7, 6),
.set_rate = set_rate_mnd,
.freq_tbl = clk_tbl_csi,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "csi2_src_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP2(LOW, 86000000, NOMINAL, 178000000),
CLK_INIT(csi2_src_clk.c),
},
};
static struct branch_clk csi2_clk = {
.b = {
.ctl_reg = CSI2_CC_REG,
.en_mask = BIT(0),
.reset_reg = SW_RESET_CORE2_REG,
.reset_mask = BIT(2),
.halt_reg = DBG_BUS_VEC_B_REG,
.halt_bit = 29,
},
.c = {
.parent = &csi2_src_clk.c,
.dbg_name = "csi2_clk",
.ops = &clk_ops_branch,
CLK_INIT(csi2_clk.c),
},
};
static struct branch_clk csi2_phy_clk = {
.b = {
.ctl_reg = CSI2_CC_REG,
.en_mask = BIT(8),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(31),
.halt_reg = DBG_BUS_VEC_I_REG,
.halt_bit = 29,
},
.c = {
.parent = &csi2_src_clk.c,
.dbg_name = "csi2_phy_clk",
.ops = &clk_ops_branch,
CLK_INIT(csi2_phy_clk.c),
},
};
static struct clk *pix_rdi_mux_map[] = {
[0] = &csi0_clk.c,
[1] = &csi1_clk.c,
[2] = &csi2_clk.c,
NULL,
};
struct pix_rdi_clk {
bool prepared;
bool enabled;
unsigned long cur_rate;
void __iomem *const s_reg;
u32 s_mask;
void __iomem *const s2_reg;
u32 s2_mask;
struct branch b;
struct clk c;
};
static inline struct pix_rdi_clk *to_pix_rdi_clk(struct clk *c)
{
return container_of(c, struct pix_rdi_clk, c);
}
static int pix_rdi_clk_set_rate(struct clk *c, unsigned long rate)
{
int ret, i;
u32 reg;
unsigned long flags;
struct pix_rdi_clk *rdi = to_pix_rdi_clk(c);
struct clk **mux_map = pix_rdi_mux_map;
unsigned long old_rate = rdi->cur_rate;
/*
* These clocks select three inputs via two muxes. One mux selects
* between csi0 and csi1 and the second mux selects between that mux's
* output and csi2. The source and destination selections for each
* mux must be clocking for the switch to succeed so just turn on
* all three sources because it's easier than figuring out what source
* needs to be on at what time.
*/
for (i = 0; mux_map[i]; i++) {
ret = clk_prepare_enable(mux_map[i]);
if (ret)
goto err;
}
if (rate >= i) {
ret = -EINVAL;
goto err;
}
/* Keep the new source on when switching inputs of an enabled clock */
if (rdi->prepared) {
ret = clk_prepare(mux_map[rate]);
if (ret)
goto err;
}
spin_lock_irqsave(&c->lock, flags);
if (rdi->enabled) {
ret = clk_enable(mux_map[rate]);
if (ret) {
spin_unlock_irqrestore(&c->lock, flags);
clk_unprepare(mux_map[rate]);
goto err;
}
}
spin_lock(&local_clock_reg_lock);
reg = readl_relaxed(rdi->s2_reg);
reg &= ~rdi->s2_mask;
reg |= rate == 2 ? rdi->s2_mask : 0;
writel_relaxed(reg, rdi->s2_reg);
/*
* Wait at least 6 cycles of slowest clock
* for the glitch-free MUX to fully switch sources.
*/
mb();
udelay(1);
reg = readl_relaxed(rdi->s_reg);
reg &= ~rdi->s_mask;
reg |= rate == 1 ? rdi->s_mask : 0;
writel_relaxed(reg, rdi->s_reg);
/*
* Wait at least 6 cycles of slowest clock
* for the glitch-free MUX to fully switch sources.
*/
mb();
udelay(1);
rdi->cur_rate = rate;
c->parent = mux_map[rate];
spin_unlock(&local_clock_reg_lock);
if (rdi->enabled)
clk_disable(mux_map[old_rate]);
spin_unlock_irqrestore(&c->lock, flags);
if (rdi->prepared)
clk_unprepare(mux_map[old_rate]);
err:
for (i--; i >= 0; i--)
clk_disable_unprepare(mux_map[i]);
return 0;
}
static unsigned long pix_rdi_clk_get_rate(struct clk *c)
{
return to_pix_rdi_clk(c)->cur_rate;
}
static int pix_rdi_clk_prepare(struct clk *c)
{
struct pix_rdi_clk *rdi = to_pix_rdi_clk(c);
rdi->prepared = true;
return 0;
}
static int pix_rdi_clk_enable(struct clk *c)
{
unsigned long flags;
struct pix_rdi_clk *rdi = to_pix_rdi_clk(c);
spin_lock_irqsave(&local_clock_reg_lock, flags);
__branch_enable_reg(&rdi->b, rdi->c.dbg_name);
spin_unlock_irqrestore(&local_clock_reg_lock, flags);
rdi->enabled = true;
return 0;
}
static void pix_rdi_clk_disable(struct clk *c)
{
unsigned long flags;
struct pix_rdi_clk *rdi = to_pix_rdi_clk(c);
spin_lock_irqsave(&local_clock_reg_lock, flags);
__branch_disable_reg(&rdi->b, rdi->c.dbg_name);
spin_unlock_irqrestore(&local_clock_reg_lock, flags);
rdi->enabled = false;
}
static void pix_rdi_clk_unprepare(struct clk *c)
{
struct pix_rdi_clk *rdi = to_pix_rdi_clk(c);
rdi->prepared = false;
}
static int pix_rdi_clk_reset(struct clk *c, enum clk_reset_action action)
{
return branch_reset(&to_pix_rdi_clk(c)->b, action);
}
static long pix_rdi_clk_list_rate(struct clk *c, unsigned n)
{
if (pix_rdi_mux_map[n])
return n;
return -ENXIO;
}
static struct clk *pix_rdi_clk_get_parent(struct clk *c)
{
u32 reg;
struct pix_rdi_clk *rdi = to_pix_rdi_clk(c);
reg = readl_relaxed(rdi->s_reg);
rdi->cur_rate = reg & rdi->s_mask ? 1 : 0;
reg = readl_relaxed(rdi->s2_reg);
rdi->cur_rate = reg & rdi->s2_mask ? 2 : rdi->cur_rate;
return pix_rdi_mux_map[rdi->cur_rate];
}
static enum handoff pix_rdi_clk_handoff(struct clk *c)
{
struct pix_rdi_clk *rdi = to_pix_rdi_clk(c);
enum handoff ret;
ret = branch_handoff(&rdi->b, &rdi->c);
if (ret == HANDOFF_DISABLED_CLK)
return ret;
rdi->prepared = true;
rdi->enabled = true;
return HANDOFF_ENABLED_CLK;
}
static struct clk_ops clk_ops_pix_rdi_8960 = {
.prepare = pix_rdi_clk_prepare,
.enable = pix_rdi_clk_enable,
.disable = pix_rdi_clk_disable,
.unprepare = pix_rdi_clk_unprepare,
.handoff = pix_rdi_clk_handoff,
.set_rate = pix_rdi_clk_set_rate,
.get_rate = pix_rdi_clk_get_rate,
.list_rate = pix_rdi_clk_list_rate,
.reset = pix_rdi_clk_reset,
.get_parent = pix_rdi_clk_get_parent,
};
static struct pix_rdi_clk csi_pix_clk = {
.b = {
.ctl_reg = MISC_CC_REG,
.en_mask = BIT(26),
.halt_check = DELAY,
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(26),
},
.s_reg = MISC_CC_REG,
.s_mask = BIT(25),
.s2_reg = MISC_CC3_REG,
.s2_mask = BIT(13),
.c = {
.dbg_name = "csi_pix_clk",
.ops = &clk_ops_pix_rdi_8960,
CLK_INIT(csi_pix_clk.c),
},
};
static struct pix_rdi_clk csi_pix1_clk = {
.b = {
.ctl_reg = MISC_CC3_REG,
.en_mask = BIT(10),
.halt_check = DELAY,
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(30),
},
.s_reg = MISC_CC3_REG,
.s_mask = BIT(8),
.s2_reg = MISC_CC3_REG,
.s2_mask = BIT(9),
.c = {
.dbg_name = "csi_pix1_clk",
.ops = &clk_ops_pix_rdi_8960,
CLK_INIT(csi_pix1_clk.c),
},
};
static struct pix_rdi_clk csi_rdi_clk = {
.b = {
.ctl_reg = MISC_CC_REG,
.en_mask = BIT(13),
.halt_check = DELAY,
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(27),
},
.s_reg = MISC_CC_REG,
.s_mask = BIT(12),
.s2_reg = MISC_CC3_REG,
.s2_mask = BIT(12),
.c = {
.dbg_name = "csi_rdi_clk",
.ops = &clk_ops_pix_rdi_8960,
CLK_INIT(csi_rdi_clk.c),
},
};
static struct pix_rdi_clk csi_rdi1_clk = {
.b = {
.ctl_reg = MISC_CC3_REG,
.en_mask = BIT(2),
.halt_check = DELAY,
.reset_reg = SW_RESET_CORE2_REG,
.reset_mask = BIT(1),
},
.s_reg = MISC_CC3_REG,
.s_mask = BIT(0),
.s2_reg = MISC_CC3_REG,
.s2_mask = BIT(1),
.c = {
.dbg_name = "csi_rdi1_clk",
.ops = &clk_ops_pix_rdi_8960,
CLK_INIT(csi_rdi1_clk.c),
},
};
static struct pix_rdi_clk csi_rdi2_clk = {
.b = {
.ctl_reg = MISC_CC3_REG,
.en_mask = BIT(6),
.halt_check = DELAY,
.reset_reg = SW_RESET_CORE2_REG,
.reset_mask = BIT(0),
},
.s_reg = MISC_CC3_REG,
.s_mask = BIT(4),
.s2_reg = MISC_CC3_REG,
.s2_mask = BIT(5),
.c = {
.dbg_name = "csi_rdi2_clk",
.ops = &clk_ops_pix_rdi_8960,
CLK_INIT(csi_rdi2_clk.c),
},
};
#define F_CSI_PHYTIMER(f, s, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD8(8, m, 0, n), \
.ns_val = NS_MM(31, 24, n, m, 15, 14, d, 2, 0, s##_to_mm_mux), \
.ctl_val = CC(6, n), \
}
static struct clk_freq_tbl clk_tbl_csi_phytimer[] = {
F_CSI_PHYTIMER( 0, gnd, 1, 0, 0),
F_CSI_PHYTIMER( 85330000, pll8, 1, 2, 9),
F_CSI_PHYTIMER(177780000, pll2, 1, 2, 9),
F_END
};
static struct rcg_clk csiphy_timer_src_clk = {
.ns_reg = CSIPHYTIMER_NS_REG,
.b = {
.ctl_reg = CSIPHYTIMER_CC_REG,
.halt_check = NOCHECK,
},
.md_reg = CSIPHYTIMER_MD_REG,
.root_en_mask = BIT(2),
.ns_mask = (BM(31, 24) | BM(15, 14) | BM(2, 0)),
.mnd_en_mask = BIT(5),
.ctl_mask = BM(7, 6),
.set_rate = set_rate_mnd_8,
.freq_tbl = clk_tbl_csi_phytimer,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "csiphy_timer_src_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP2(LOW, 86000000, NOMINAL, 178000000),
CLK_INIT(csiphy_timer_src_clk.c),
},
};
static struct branch_clk csi0phy_timer_clk = {
.b = {
.ctl_reg = CSIPHYTIMER_CC_REG,
.en_mask = BIT(0),
.halt_reg = DBG_BUS_VEC_I_REG,
.halt_bit = 17,
},
.c = {
.parent = &csiphy_timer_src_clk.c,
.dbg_name = "csi0phy_timer_clk",
.ops = &clk_ops_branch,
CLK_INIT(csi0phy_timer_clk.c),
},
};
static struct branch_clk csi1phy_timer_clk = {
.b = {
.ctl_reg = CSIPHYTIMER_CC_REG,
.en_mask = BIT(9),
.halt_reg = DBG_BUS_VEC_I_REG,
.halt_bit = 18,
},
.c = {
.parent = &csiphy_timer_src_clk.c,
.dbg_name = "csi1phy_timer_clk",
.ops = &clk_ops_branch,
CLK_INIT(csi1phy_timer_clk.c),
},
};
static struct branch_clk csi2phy_timer_clk = {
.b = {
.ctl_reg = CSIPHYTIMER_CC_REG,
.en_mask = BIT(11),
.halt_reg = DBG_BUS_VEC_I_REG,
.halt_bit = 30,
},
.c = {
.parent = &csiphy_timer_src_clk.c,
.dbg_name = "csi2phy_timer_clk",
.ops = &clk_ops_branch,
CLK_INIT(csi2phy_timer_clk.c),
},
};
#define F_DSI(d) \
{ \
.freq_hz = d, \
.ns_val = BVAL(15, 12, (d-1)), \
}
/*
* The DSI_BYTE/ESC clock is sourced from the DSI PHY PLL, which may change rate
* without this clock driver knowing. So, overload the clk_set_rate() to set
* the divider (1 to 16) of the clock with respect to the PLL rate.
*/
static struct clk_freq_tbl clk_tbl_dsi_byte[] = {
F_DSI(1), F_DSI(2), F_DSI(3), F_DSI(4),
F_DSI(5), F_DSI(6), F_DSI(7), F_DSI(8),
F_DSI(9), F_DSI(10), F_DSI(11), F_DSI(12),
F_DSI(13), F_DSI(14), F_DSI(15), F_DSI(16),
F_END
};
static struct branch_clk dsi1_reset_clk = {
.b = {
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(7),
.halt_check = NOCHECK,
},
.c = {
.dbg_name = "dsi1_reset_clk",
.ops = &clk_ops_branch,
CLK_INIT(dsi1_reset_clk.c),
},
};
static struct branch_clk dsi2_reset_clk = {
.b = {
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(25),
.halt_check = NOCHECK,
},
.c = {
.dbg_name = "dsi2_reset_clk",
.ops = &clk_ops_branch,
CLK_INIT(dsi2_reset_clk.c),
},
};
static struct rcg_clk dsi1_byte_clk = {
.b = {
.ctl_reg = DSI1_BYTE_CC_REG,
.en_mask = BIT(0),
.halt_reg = DBG_BUS_VEC_B_REG,
.halt_bit = 21,
.retain_reg = DSI1_BYTE_CC_REG,
.retain_mask = BIT(31),
},
.ns_reg = DSI1_BYTE_NS_REG,
.root_en_mask = BIT(2),
.ns_mask = BM(15, 12),
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_dsi_byte,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "dsi1_byte_clk",
.ops = &clk_ops_rcg,
CLK_INIT(dsi1_byte_clk.c),
},
};
static struct rcg_clk dsi2_byte_clk = {
.b = {
.ctl_reg = DSI2_BYTE_CC_REG,
.en_mask = BIT(0),
.halt_reg = DBG_BUS_VEC_B_REG,
.halt_bit = 20,
.retain_reg = DSI2_BYTE_CC_REG,
.retain_mask = BIT(31),
},
.ns_reg = DSI2_BYTE_NS_REG,
.root_en_mask = BIT(2),
.ns_mask = BM(15, 12),
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_dsi_byte,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "dsi2_byte_clk",
.ops = &clk_ops_rcg,
CLK_INIT(dsi2_byte_clk.c),
},
};
static struct rcg_clk dsi1_esc_clk = {
.b = {
.ctl_reg = DSI1_ESC_CC_REG,
.en_mask = BIT(0),
.halt_reg = DBG_BUS_VEC_I_REG,
.halt_bit = 1,
},
.ns_reg = DSI1_ESC_NS_REG,
.root_en_mask = BIT(2),
.ns_mask = BM(15, 12),
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_dsi_byte,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "dsi1_esc_clk",
.ops = &clk_ops_rcg,
CLK_INIT(dsi1_esc_clk.c),
},
};
static struct rcg_clk dsi2_esc_clk = {
.b = {
.ctl_reg = DSI2_ESC_CC_REG,
.en_mask = BIT(0),
.halt_reg = DBG_BUS_VEC_I_REG,
.halt_bit = 3,
},
.ns_reg = DSI2_ESC_NS_REG,
.root_en_mask = BIT(2),
.ns_mask = BM(15, 12),
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_dsi_byte,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "dsi2_esc_clk",
.ops = &clk_ops_rcg,
CLK_INIT(dsi2_esc_clk.c),
},
};
#define F_GFX2D(f, s, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD4(4, m, 0, n), \
.ns_val = NS_MND_BANKED4(20, 16, n, m, 3, 0, s##_to_mm_mux), \
.ctl_val = CC_BANKED(9, 6, n), \
}
static struct clk_freq_tbl clk_tbl_gfx2d[] = {
F_GFX2D( 0, gnd, 0, 0),
F_GFX2D( 27000000, pxo, 0, 0),
F_GFX2D( 48000000, pll8, 1, 8),
F_GFX2D( 54857000, pll8, 1, 7),
F_GFX2D( 64000000, pll8, 1, 6),
F_GFX2D( 76800000, pll8, 1, 5),
F_GFX2D( 96000000, pll8, 1, 4),
F_GFX2D(128000000, pll8, 1, 3),
F_GFX2D(145455000, pll2, 2, 11),
F_GFX2D(160000000, pll2, 1, 5),
F_GFX2D(177778000, pll2, 2, 9),
F_GFX2D(200000000, pll2, 1, 4),
F_GFX2D(228571000, pll2, 2, 7),
F_END
};
static struct bank_masks bmnd_info_gfx2d0 = {
.bank_sel_mask = BIT(11),
.bank0_mask = {
.md_reg = GFX2D0_MD0_REG,
.ns_mask = BM(23, 20) | BM(5, 3),
.rst_mask = BIT(25),
.mnd_en_mask = BIT(8),
.mode_mask = BM(10, 9),
},
.bank1_mask = {
.md_reg = GFX2D0_MD1_REG,
.ns_mask = BM(19, 16) | BM(2, 0),
.rst_mask = BIT(24),
.mnd_en_mask = BIT(5),
.mode_mask = BM(7, 6),
},
};
static struct rcg_clk gfx2d0_clk = {
.b = {
.ctl_reg = GFX2D0_CC_REG,
.en_mask = BIT(0),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(14),
.halt_reg = DBG_BUS_VEC_A_REG,
.halt_bit = 9,
.retain_reg = GFX2D0_CC_REG,
.retain_mask = BIT(31),
},
.ns_reg = GFX2D0_NS_REG,
.root_en_mask = BIT(2),
.set_rate = set_rate_mnd_banked,
.freq_tbl = clk_tbl_gfx2d,
.bank_info = &bmnd_info_gfx2d0,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "gfx2d0_clk",
.ops = &clk_ops_rcg,
.flags = CLKFLAG_SKIP_HANDOFF,
VDD_DIG_FMAX_MAP3(LOW, 100000000, NOMINAL, 200000000,
HIGH, 228571000),
CLK_INIT(gfx2d0_clk.c),
},
};
static struct bank_masks bmnd_info_gfx2d1 = {
.bank_sel_mask = BIT(11),
.bank0_mask = {
.md_reg = GFX2D1_MD0_REG,
.ns_mask = BM(23, 20) | BM(5, 3),
.rst_mask = BIT(25),
.mnd_en_mask = BIT(8),
.mode_mask = BM(10, 9),
},
.bank1_mask = {
.md_reg = GFX2D1_MD1_REG,
.ns_mask = BM(19, 16) | BM(2, 0),
.rst_mask = BIT(24),
.mnd_en_mask = BIT(5),
.mode_mask = BM(7, 6),
},
};
static struct rcg_clk gfx2d1_clk = {
.b = {
.ctl_reg = GFX2D1_CC_REG,
.en_mask = BIT(0),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(13),
.halt_reg = DBG_BUS_VEC_A_REG,
.halt_bit = 14,
.retain_reg = GFX2D1_CC_REG,
.retain_mask = BIT(31),
},
.ns_reg = GFX2D1_NS_REG,
.root_en_mask = BIT(2),
.set_rate = set_rate_mnd_banked,
.freq_tbl = clk_tbl_gfx2d,
.bank_info = &bmnd_info_gfx2d1,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "gfx2d1_clk",
.ops = &clk_ops_rcg,
.flags = CLKFLAG_SKIP_HANDOFF,
VDD_DIG_FMAX_MAP3(LOW, 100000000, NOMINAL, 200000000,
HIGH, 228571000),
CLK_INIT(gfx2d1_clk.c),
},
};
#define F_GFX3D(f, s, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD4(4, m, 0, n), \
.ns_val = NS_MND_BANKED4(18, 14, n, m, 3, 0, s##_to_mm_mux), \
.ctl_val = CC_BANKED(9, 6, n), \
}
/*Shared by 8064, and 8930*/
static struct clk_freq_tbl clk_tbl_gfx3d[] = {
F_GFX3D( 0, gnd, 0, 0),
F_GFX3D( 1800000, pxo, 1, 15),
F_GFX3D( 27000000, pxo, 0, 0),
F_GFX3D( 48000000, pll8, 1, 8),
F_GFX3D( 54857000, pll8, 1, 7),
F_GFX3D( 64000000, pll8, 1, 6),
F_GFX3D( 76800000, pll8, 1, 5),
F_GFX3D( 96000000, pll8, 1, 4),
F_GFX3D(128000000, pll8, 1, 3),
F_GFX3D(145455000, pll2, 2, 11),
F_GFX3D(160000000, pll2, 1, 5),
F_GFX3D(177778000, pll2, 2, 9),
F_GFX3D(192000000, pll8, 1, 2),
F_GFX3D(200000000, pll2, 1, 4),
F_GFX3D(228571000, pll2, 2, 7),
F_GFX3D(266667000, pll2, 1, 3),
F_GFX3D(320000000, pll2, 2, 5),
F_GFX3D(400000000, pll2, 1, 2),
F_GFX3D(450000000, pll15, 1, 2),
F_END
};
static struct clk_freq_tbl clk_tbl_gfx3d_8960ab[] = {
F_GFX3D( 0, gnd, 0, 0),
F_GFX3D( 27000000, pxo, 0, 0),
F_GFX3D( 48000000, pll8, 1, 8),
F_GFX3D( 54857000, pll8, 1, 7),
F_GFX3D( 64000000, pll8, 1, 6),
F_GFX3D( 76800000, pll8, 1, 5),
F_GFX3D( 96000000, pll8, 1, 4),
F_GFX3D(128000000, pll8, 1, 3),
F_GFX3D(145455000, pll2, 2, 11),
F_GFX3D(160000000, pll2, 1, 5),
F_GFX3D(177778000, pll2, 2, 9),
F_GFX3D(192000000, pll8, 1, 2),
F_GFX3D(200000000, pll2, 1, 4),
F_GFX3D(228571000, pll2, 2, 7),
F_GFX3D(266667000, pll2, 1, 3),
F_GFX3D(320000000, pll2, 2, 5),
F_GFX3D(400000000, pll2, 1, 2),
F_GFX3D(440000000, pll3, 1, 2),
F_END
};
static struct clk_freq_tbl clk_tbl_gfx3d_8960[] = {
F_GFX3D( 0, gnd, 0, 0),
F_GFX3D( 27000000, pxo, 0, 0),
F_GFX3D( 48000000, pll8, 1, 8),
F_GFX3D( 54857000, pll8, 1, 7),
F_GFX3D( 64000000, pll8, 1, 6),
F_GFX3D( 76800000, pll8, 1, 5),
F_GFX3D( 96000000, pll8, 1, 4),
F_GFX3D(128000000, pll8, 1, 3),
F_GFX3D(145455000, pll2, 2, 11),
F_GFX3D(160000000, pll2, 1, 5),
F_GFX3D(177778000, pll2, 2, 9),
F_GFX3D(200000000, pll2, 1, 4),
F_GFX3D(228571000, pll2, 2, 7),
F_GFX3D(266667000, pll2, 1, 3),
F_GFX3D(300000000, pll3, 1, 4),
F_GFX3D(320000000, pll2, 2, 5),
F_GFX3D(400000000, pll2, 1, 2),
F_END
};
static struct clk_freq_tbl clk_tbl_gfx3d_8930ab[] = {
F_GFX3D( 0, gnd, 0, 0),
F_GFX3D( 27000000, pxo, 0, 0),
F_GFX3D( 48000000, pll8, 1, 8),
F_GFX3D( 54857000, pll8, 1, 7),
F_GFX3D( 64000000, pll8, 1, 6),
F_GFX3D( 76800000, pll8, 1, 5),
F_GFX3D( 96000000, pll8, 1, 4),
F_GFX3D(128000000, pll8, 1, 3),
F_GFX3D(145455000, pll2, 2, 11),
F_GFX3D(160000000, pll2, 1, 5),
F_GFX3D(177778000, pll2, 2, 9),
F_GFX3D(192000000, pll8, 1, 2),
F_GFX3D(200000000, pll2, 1, 4),
F_GFX3D(228571000, pll2, 2, 7),
F_GFX3D(266667000, pll2, 1, 3),
F_GFX3D(320000000, pll2, 2, 5),
F_GFX3D(400000000, pll2, 1, 2),
F_GFX3D(500000000, pll15, 1, 2),
F_END
};
static unsigned long fmax_gfx3d_8064ab[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 128000000,
[VDD_DIG_NOMINAL] = 325000000,
[VDD_DIG_HIGH] = 450000000
};
static unsigned long fmax_gfx3d_8064[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 128000000,
[VDD_DIG_NOMINAL] = 325000000,
[VDD_DIG_HIGH] = 400000000
};
static unsigned long fmax_gfx3d_8930[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 192000000,
[VDD_DIG_NOMINAL] = 320000000,
[VDD_DIG_HIGH] = 400000000
};
static unsigned long fmax_gfx3d_8930aa[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 192000000,
[VDD_DIG_NOMINAL] = 320000000,
[VDD_DIG_HIGH] = 450000000
};
static unsigned long fmax_gfx3d_8930ab[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 192000000,
[VDD_DIG_NOMINAL] = 320000000,
[VDD_DIG_HIGH] = 500000000
};
static unsigned long fmax_gfx3d_8960ab_400[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 192000000,
[VDD_DIG_NOMINAL] = 325000000,
[VDD_DIG_HIGH] = 400000000
};
static unsigned long fmax_gfx3d_8960ab_440[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 192000000,
[VDD_DIG_NOMINAL] = 325000000,
[VDD_DIG_HIGH] = 440000000
};
static unsigned long *fmax_gfx3d_8960ab[] = {
[0] = fmax_gfx3d_8960ab_400,
[1] = fmax_gfx3d_8960ab_440,
};
static struct bank_masks bmnd_info_gfx3d = {
.bank_sel_mask = BIT(11),
.bank0_mask = {
.md_reg = GFX3D_MD0_REG,
.ns_mask = BM(21, 18) | BM(5, 3),
.rst_mask = BIT(23),
.mnd_en_mask = BIT(8),
.mode_mask = BM(10, 9),
},
.bank1_mask = {
.md_reg = GFX3D_MD1_REG,
.ns_mask = BM(17, 14) | BM(2, 0),
.rst_mask = BIT(22),
.mnd_en_mask = BIT(5),
.mode_mask = BM(7, 6),
},
};
static struct rcg_clk gfx3d_clk = {
.b = {
.ctl_reg = GFX3D_CC_REG,
.en_mask = BIT(0),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(12),
.halt_reg = DBG_BUS_VEC_A_REG,
.halt_bit = 4,
.retain_reg = GFX3D_CC_REG,
.retain_mask = BIT(31),
},
.ns_reg = GFX3D_NS_REG,
.root_en_mask = BIT(2),
.set_rate = set_rate_mnd_banked,
.freq_tbl = clk_tbl_gfx3d,
.bank_info = &bmnd_info_gfx3d,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "gfx3d_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP3(LOW, 128000000, NOMINAL, 300000000,
HIGH, 400000000),
CLK_INIT(gfx3d_clk.c),
.depends = &gmem_axi_clk.c,
},
};
#define F_VCAP(f, s, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD4(4, m, 0, n), \
.ns_val = NS_MND_BANKED4(18, 14, n, m, 3, 0, s##_to_mm_mux), \
.ctl_val = CC_BANKED(9, 6, n), \
}
static struct clk_freq_tbl clk_tbl_vcap[] = {
F_VCAP( 0, gnd, 0, 0),
F_VCAP( 27000000, pxo, 0, 0),
F_VCAP( 54860000, pll8, 1, 7),
F_VCAP( 64000000, pll8, 1, 6),
F_VCAP( 76800000, pll8, 1, 5),
F_VCAP(128000000, pll8, 1, 3),
F_VCAP(160000000, pll2, 1, 5),
F_VCAP(200000000, pll2, 1, 4),
F_END
};
static struct bank_masks bmnd_info_vcap = {
.bank_sel_mask = BIT(11),
.bank0_mask = {
.md_reg = VCAP_MD0_REG,
.ns_mask = BM(21, 18) | BM(5, 3),
.rst_mask = BIT(23),
.mnd_en_mask = BIT(8),
.mode_mask = BM(10, 9),
},
.bank1_mask = {
.md_reg = VCAP_MD1_REG,
.ns_mask = BM(17, 14) | BM(2, 0),
.rst_mask = BIT(22),
.mnd_en_mask = BIT(5),
.mode_mask = BM(7, 6),
},
};
static struct rcg_clk vcap_clk = {
.b = {
.ctl_reg = VCAP_CC_REG,
.en_mask = BIT(0),
.halt_reg = DBG_BUS_VEC_J_REG,
.halt_bit = 15,
},
.ns_reg = VCAP_NS_REG,
.root_en_mask = BIT(2),
.set_rate = set_rate_mnd_banked,
.freq_tbl = clk_tbl_vcap,
.bank_info = &bmnd_info_vcap,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "vcap_clk",
.ops = &clk_ops_rcg,
.depends = &vcap_axi_clk.c,
VDD_DIG_FMAX_MAP2(LOW, 100000000, NOMINAL, 200000000),
CLK_INIT(vcap_clk.c),
},
};
static struct branch_clk vcap_npl_clk = {
.b = {
.ctl_reg = VCAP_CC_REG,
.en_mask = BIT(13),
.halt_reg = DBG_BUS_VEC_J_REG,
.halt_bit = 25,
},
.c = {
.parent = &vcap_clk.c,
.dbg_name = "vcap_npl_clk",
.ops = &clk_ops_branch,
CLK_INIT(vcap_npl_clk.c),
},
};
#define F_IJPEG(f, s, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD8(8, m, 0, n), \
.ns_val = NS_MM(23, 16, n, m, 15, 12, d, 2, 0, s##_to_mm_mux), \
.ctl_val = CC(6, n), \
}
static struct clk_freq_tbl clk_tbl_ijpeg[] = {
F_IJPEG( 0, gnd, 1, 0, 0),
F_IJPEG( 27000000, pxo, 1, 0, 0),
F_IJPEG( 36570000, pll8, 1, 2, 21),
F_IJPEG( 54860000, pll8, 7, 0, 0),
F_IJPEG( 96000000, pll8, 4, 0, 0),
F_IJPEG(109710000, pll8, 1, 2, 7),
F_IJPEG(128000000, pll8, 3, 0, 0),
F_IJPEG(153600000, pll8, 1, 2, 5),
F_IJPEG(200000000, pll2, 4, 0, 0),
F_IJPEG(228571000, pll2, 1, 2, 7),
F_IJPEG(266667000, pll2, 1, 1, 3),
F_IJPEG(320000000, pll2, 1, 2, 5),
F_END
};
static unsigned long fmax_ijpeg_8064[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 128000000,
[VDD_DIG_NOMINAL] = 266667000,
[VDD_DIG_HIGH] = 320000000
};
static struct rcg_clk ijpeg_clk = {
.b = {
.ctl_reg = IJPEG_CC_REG,
.en_mask = BIT(0),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(9),
.halt_reg = DBG_BUS_VEC_A_REG,
.halt_bit = 24,
.retain_reg = IJPEG_CC_REG,
.retain_mask = BIT(31),
},
.ns_reg = IJPEG_NS_REG,
.md_reg = IJPEG_MD_REG,
.root_en_mask = BIT(2),
.ns_mask = (BM(23, 16) | BM(15, 12) | BM(2, 0)),
.mnd_en_mask = BIT(5),
.ctl_mask = BM(7, 6),
.set_rate = set_rate_mnd,
.freq_tbl = clk_tbl_ijpeg,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "ijpeg_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP3(LOW, 110000000, NOMINAL, 266667000,
HIGH, 320000000),
CLK_INIT(ijpeg_clk.c),
.depends = &ijpeg_axi_clk.c,
},
};
#define F_JPEGD(f, s, d) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.ns_val = NS_DIVSRC(15, 12, d, 2, 0, s##_to_mm_mux), \
}
static struct clk_freq_tbl clk_tbl_jpegd[] = {
F_JPEGD( 0, gnd, 1),
F_JPEGD( 64000000, pll8, 6),
F_JPEGD( 76800000, pll8, 5),
F_JPEGD( 96000000, pll8, 4),
F_JPEGD(160000000, pll2, 5),
F_JPEGD(200000000, pll2, 4),
F_END
};
static struct rcg_clk jpegd_clk = {
.b = {
.ctl_reg = JPEGD_CC_REG,
.en_mask = BIT(0),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(19),
.halt_reg = DBG_BUS_VEC_A_REG,
.halt_bit = 19,
.retain_reg = JPEGD_CC_REG,
.retain_mask = BIT(31),
},
.ns_reg = JPEGD_NS_REG,
.root_en_mask = BIT(2),
.ns_mask = (BM(15, 12) | BM(2, 0)),
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_jpegd,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "jpegd_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP2(LOW, 96000000, NOMINAL, 200000000),
CLK_INIT(jpegd_clk.c),
.depends = &jpegd_axi_clk.c,
},
};
#define F_MDP(f, s, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD8(8, m, 0, n), \
.ns_val = NS_MND_BANKED8(22, 14, n, m, 3, 0, s##_to_mm_mux), \
.ctl_val = CC_BANKED(9, 6, n), \
}
static struct clk_freq_tbl clk_tbl_mdp[] = {
F_MDP( 0, gnd, 0, 0),
F_MDP( 9600000, pll8, 1, 40),
F_MDP( 13710000, pll8, 1, 28),
F_MDP( 27000000, pxo, 0, 0),
F_MDP( 29540000, pll8, 1, 13),
F_MDP( 34910000, pll8, 1, 11),
F_MDP( 38400000, pll8, 1, 10),
F_MDP( 59080000, pll8, 2, 13),
F_MDP( 76800000, pll8, 1, 5),
F_MDP( 85330000, pll8, 2, 9),
F_MDP( 96000000, pll8, 1, 4),
F_MDP(128000000, pll8, 1, 3),
F_MDP(160000000, pll2, 1, 5),
F_MDP(177780000, pll2, 2, 9),
F_MDP(200000000, pll2, 1, 4),
F_MDP(228571000, pll2, 2, 7),
F_MDP(266667000, pll2, 1, 3),
F_END
};
static unsigned long fmax_mdp_8064[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 128000000,
[VDD_DIG_NOMINAL] = 266667000
};
static struct bank_masks bmnd_info_mdp = {
.bank_sel_mask = BIT(11),
.bank0_mask = {
.md_reg = MDP_MD0_REG,
.ns_mask = BM(29, 22) | BM(5, 3),
.rst_mask = BIT(31),
.mnd_en_mask = BIT(8),
.mode_mask = BM(10, 9),
},
.bank1_mask = {
.md_reg = MDP_MD1_REG,
.ns_mask = BM(21, 14) | BM(2, 0),
.rst_mask = BIT(30),
.mnd_en_mask = BIT(5),
.mode_mask = BM(7, 6),
},
};
static struct rcg_clk mdp_clk = {
.b = {
.ctl_reg = MDP_CC_REG,
.en_mask = BIT(0),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(21),
.halt_reg = DBG_BUS_VEC_C_REG,
.halt_bit = 10,
.retain_reg = MDP_CC_REG,
.retain_mask = BIT(31),
},
.ns_reg = MDP_NS_REG,
.root_en_mask = BIT(2),
.set_rate = set_rate_mnd_banked,
.freq_tbl = clk_tbl_mdp,
.bank_info = &bmnd_info_mdp,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "mdp_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP2(LOW, 96000000, NOMINAL, 200000000),
CLK_INIT(mdp_clk.c),
.depends = &mdp_axi_clk.c,
},
};
static unsigned long fmax_mdp_8960ab[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 128000000,
[VDD_DIG_NOMINAL] = 266667000
};
static struct branch_clk lut_mdp_clk = {
.b = {
.ctl_reg = MDP_LUT_CC_REG,
.en_mask = BIT(0),
.halt_reg = DBG_BUS_VEC_I_REG,
.halt_bit = 13,
.retain_reg = MDP_LUT_CC_REG,
.retain_mask = BIT(31),
},
.c = {
.parent = &mdp_clk.c,
.dbg_name = "lut_mdp_clk",
.ops = &clk_ops_branch,
CLK_INIT(lut_mdp_clk.c),
},
};
#define F_MDP_VSYNC(f, s) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.ns_val = NS_SRC_SEL(13, 13, s##_to_bb_mux), \
}
static struct clk_freq_tbl clk_tbl_mdp_vsync[] = {
F_MDP_VSYNC(27000000, pxo),
F_END
};
static struct rcg_clk mdp_vsync_clk = {
.b = {
.ctl_reg = MISC_CC_REG,
.en_mask = BIT(6),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(3),
.halt_reg = DBG_BUS_VEC_B_REG,
.halt_bit = 22,
},
.ns_reg = MISC_CC2_REG,
.ns_mask = BIT(13),
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_mdp_vsync,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "mdp_vsync_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP1(LOW, 27000000),
CLK_INIT(mdp_vsync_clk.c),
},
};
#define F_ROT(f, s, d) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.ns_val = NS_DIVSRC_BANKED(29, 26, 25, 22, d, \
21, 19, 18, 16, s##_to_mm_mux), \
}
static struct clk_freq_tbl clk_tbl_rot[] = {
F_ROT( 0, gnd, 1),
F_ROT( 27000000, pxo, 1),
F_ROT( 29540000, pll8, 13),
F_ROT( 32000000, pll8, 12),
F_ROT( 38400000, pll8, 10),
F_ROT( 48000000, pll8, 8),
F_ROT( 54860000, pll8, 7),
F_ROT( 64000000, pll8, 6),
F_ROT( 76800000, pll8, 5),
F_ROT( 96000000, pll8, 4),
F_ROT(100000000, pll2, 8),
F_ROT(114290000, pll2, 7),
F_ROT(133330000, pll2, 6),
F_ROT(160000000, pll2, 5),
F_ROT(200000000, pll2, 4),
F_END
};
static struct bank_masks bdiv_info_rot = {
.bank_sel_mask = BIT(30),
.bank0_mask = {
.ns_mask = BM(25, 22) | BM(18, 16),
},
.bank1_mask = {
.ns_mask = BM(29, 26) | BM(21, 19),
},
};
static struct rcg_clk rot_clk = {
.b = {
.ctl_reg = ROT_CC_REG,
.en_mask = BIT(0),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(2),
.halt_reg = DBG_BUS_VEC_C_REG,
.halt_bit = 15,
.retain_reg = ROT_CC_REG,
.retain_mask = BIT(31),
},
.ns_reg = ROT_NS_REG,
.root_en_mask = BIT(2),
.set_rate = set_rate_div_banked,
.freq_tbl = clk_tbl_rot,
.bank_info = &bdiv_info_rot,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "rot_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP2(LOW, 96000000, NOMINAL, 200000000),
CLK_INIT(rot_clk.c),
.depends = &rot_axi_clk.c,
},
};
static int hdmi_pll_clk_enable(struct clk *c)
{
int ret;
unsigned long flags;
spin_lock_irqsave(&local_clock_reg_lock, flags);
ret = hdmi_pll_enable();
spin_unlock_irqrestore(&local_clock_reg_lock, flags);
return ret;
}
static void hdmi_pll_clk_disable(struct clk *c)
{
unsigned long flags;
spin_lock_irqsave(&local_clock_reg_lock, flags);
hdmi_pll_disable();
spin_unlock_irqrestore(&local_clock_reg_lock, flags);
}
static struct clk_ops clk_ops_hdmi_pll = {
.enable = hdmi_pll_clk_enable,
.disable = hdmi_pll_clk_disable,
};
static struct clk hdmi_pll_clk = {
.parent = &pxo_clk.c,
.dbg_name = "hdmi_pll_clk",
.ops = &clk_ops_hdmi_pll,
.vdd_class = &vdd_sr2_hdmi_pll,
.fmax = (unsigned long [VDD_SR2_HDMI_PLL_NUM]) {
[VDD_SR2_HDMI_PLL_ON] = ULONG_MAX,
},
.num_fmax = VDD_SR2_HDMI_PLL_NUM,
CLK_INIT(hdmi_pll_clk),
};
#define F_TV_GND(f, s, p_r, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD8(8, m, 0, n), \
.ns_val = NS_MM(23, 16, n, m, 15, 14, d, 2, 0, s##_to_mm_mux), \
.ctl_val = CC(6, n), \
}
#define F_TV(f, s, p_r, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk, \
.md_val = MD8(8, m, 0, n), \
.ns_val = NS_MM(23, 16, n, m, 15, 14, d, 2, 0, s##_to_mm_mux), \
.ctl_val = CC(6, n), \
.extra_freq_data = (void *)p_r, \
}
/* Switching TV freqs requires PLL reconfiguration. */
static struct clk_freq_tbl clk_tbl_tv[] = {
F_TV_GND( 0, gnd, 0, 1, 0, 0),
F_TV( 25200000, hdmi_pll, 25200000, 1, 0, 0),
F_TV( 27000000, hdmi_pll, 27000000, 1, 0, 0),
F_TV( 27030000, hdmi_pll, 27030000, 1, 0, 0),
F_TV( 74250000, hdmi_pll, 74250000, 1, 0, 0),
F_TV(108000000, hdmi_pll, 108000000, 1, 0, 0),
F_TV(148500000, hdmi_pll, 148500000, 1, 0, 0),
F_END
};
static unsigned long fmax_tv_src_8064[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 74250000,
[VDD_DIG_NOMINAL] = 149000000
};
/*
* Unlike other clocks, the TV rate is adjusted through PLL
* re-programming. It is also routed through an MND divider.
*/
void set_rate_tv(struct rcg_clk *rcg, struct clk_freq_tbl *nf)
{
unsigned long pll_rate = (unsigned long)nf->extra_freq_data;
if (pll_rate) {
hdmi_pll_set_rate(pll_rate);
hdmi_pll_clk.rate = pll_rate;
}
set_rate_mnd(rcg, nf);
}
static struct rcg_clk tv_src_clk = {
.ns_reg = TV_NS_REG,
.b = {
.ctl_reg = TV_CC_REG,
.halt_check = NOCHECK,
.retain_reg = TV_CC_REG,
.retain_mask = BIT(31),
},
.md_reg = TV_MD_REG,
.root_en_mask = BIT(2),
.ns_mask = (BM(23, 16) | BM(15, 14) | BM(2, 0)),
.mnd_en_mask = BIT(5),
.ctl_mask = BM(7, 6),
.set_rate = set_rate_tv,
.freq_tbl = clk_tbl_tv,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "tv_src_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP2(LOW, 27030000, NOMINAL, 149000000),
CLK_INIT(tv_src_clk.c),
},
};
static struct cdiv_clk tv_src_div_clk = {
.b = {
.ctl_reg = TV_NS_REG,
.halt_check = NOCHECK,
},
.ns_reg = TV_NS_REG,
.div_offset = 6,
.max_div = 2,
.c = {
.dbg_name = "tv_src_div_clk",
.ops = &clk_ops_cdiv,
CLK_INIT(tv_src_div_clk.c),
.rate = ULONG_MAX,
},
};
static struct branch_clk tv_enc_clk = {
.b = {
.ctl_reg = TV_CC_REG,
.en_mask = BIT(8),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(0),
.halt_reg = DBG_BUS_VEC_D_REG,
.halt_bit = 9,
},
.c = {
.parent = &tv_src_clk.c,
.dbg_name = "tv_enc_clk",
.ops = &clk_ops_branch,
CLK_INIT(tv_enc_clk.c),
},
};
static struct branch_clk tv_dac_clk = {
.b = {
.ctl_reg = TV_CC_REG,
.en_mask = BIT(10),
.halt_reg = DBG_BUS_VEC_D_REG,
.halt_bit = 10,
},
.c = {
.parent = &tv_src_clk.c,
.dbg_name = "tv_dac_clk",
.ops = &clk_ops_branch,
CLK_INIT(tv_dac_clk.c),
},
};
static struct branch_clk mdp_tv_clk = {
.b = {
.ctl_reg = TV_CC_REG,
.en_mask = BIT(0),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(4),
.halt_reg = DBG_BUS_VEC_D_REG,
.halt_bit = 12,
.retain_reg = TV_CC2_REG,
.retain_mask = BIT(10),
},
.c = {
.parent = &tv_src_clk.c,
.dbg_name = "mdp_tv_clk",
.ops = &clk_ops_branch,
CLK_INIT(mdp_tv_clk.c),
},
};
static struct branch_clk hdmi_tv_clk = {
.b = {
.ctl_reg = TV_CC_REG,
.en_mask = BIT(12),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(1),
.halt_reg = DBG_BUS_VEC_D_REG,
.halt_bit = 11,
},
.c = {
.parent = &tv_src_clk.c,
.dbg_name = "hdmi_tv_clk",
.ops = &clk_ops_branch,
CLK_INIT(hdmi_tv_clk.c),
},
};
static struct branch_clk rgb_tv_clk = {
.b = {
.ctl_reg = TV_CC2_REG,
.en_mask = BIT(14),
.halt_reg = DBG_BUS_VEC_J_REG,
.halt_bit = 27,
},
.c = {
.parent = &tv_src_clk.c,
.dbg_name = "rgb_tv_clk",
.ops = &clk_ops_branch,
CLK_INIT(rgb_tv_clk.c),
},
};
static struct branch_clk npl_tv_clk = {
.b = {
.ctl_reg = TV_CC2_REG,
.en_mask = BIT(16),
.halt_reg = DBG_BUS_VEC_J_REG,
.halt_bit = 26,
},
.c = {
.parent = &tv_src_clk.c,
.dbg_name = "npl_tv_clk",
.ops = &clk_ops_branch,
CLK_INIT(npl_tv_clk.c),
},
};
static struct branch_clk hdmi_app_clk = {
.b = {
.ctl_reg = MISC_CC2_REG,
.en_mask = BIT(11),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(11),
.halt_reg = DBG_BUS_VEC_B_REG,
.halt_bit = 25,
},
.c = {
.dbg_name = "hdmi_app_clk",
.ops = &clk_ops_branch,
CLK_INIT(hdmi_app_clk.c),
},
};
static struct bank_masks bmnd_info_vcodec = {
.bank_sel_mask = BIT(13),
.bank0_mask = {
.md_reg = VCODEC_MD0_REG,
.ns_mask = BM(18, 11) | BM(2, 0),
.rst_mask = BIT(31),
.mnd_en_mask = BIT(5),
.mode_mask = BM(7, 6),
},
.bank1_mask = {
.md_reg = VCODEC_MD1_REG,
.ns_mask = BM(26, 19) | BM(29, 27),
.rst_mask = BIT(30),
.mnd_en_mask = BIT(10),
.mode_mask = BM(12, 11),
},
};
#define F_VCODEC(f, s, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD8(8, m, 0, n), \
.ns_val = NS_MND_BANKED8(11, 19, n, m, 0, 27, s##_to_mm_mux), \
.ctl_val = CC_BANKED(6, 11, n), \
}
static struct clk_freq_tbl clk_tbl_vcodec[] = {
F_VCODEC( 0, gnd, 0, 0),
F_VCODEC( 27000000, pxo, 0, 0),
F_VCODEC( 32000000, pll8, 1, 12),
F_VCODEC( 48000000, pll8, 1, 8),
F_VCODEC( 54860000, pll8, 1, 7),
F_VCODEC( 96000000, pll8, 1, 4),
F_VCODEC(133330000, pll2, 1, 6),
F_VCODEC(200000000, pll2, 1, 4),
F_VCODEC(228570000, pll2, 2, 7),
F_VCODEC(266670000, pll2, 1, 3),
F_END
};
static struct rcg_clk vcodec_clk = {
.b = {
.ctl_reg = VCODEC_CC_REG,
.en_mask = BIT(0),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(6),
.halt_reg = DBG_BUS_VEC_C_REG,
.halt_bit = 29,
.retain_reg = VCODEC_CC_REG,
.retain_mask = BIT(31),
},
.ns_reg = VCODEC_NS_REG,
.root_en_mask = BIT(2),
.set_rate = set_rate_mnd_banked,
.bank_info = &bmnd_info_vcodec,
.freq_tbl = clk_tbl_vcodec,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "vcodec_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP3(LOW, 100000000, NOMINAL, 200000000,
HIGH, 228571000),
CLK_INIT(vcodec_clk.c),
.depends = &vcodec_axi_clk.c,
},
};
static unsigned long fmax_vcodec_8064v2[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 100000000,
[VDD_DIG_NOMINAL] = 200000000,
[VDD_DIG_HIGH] = 266670000,
};
static unsigned long fmax_vcodec_8930ab[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 100000000,
[VDD_DIG_NOMINAL] = 200000000,
[VDD_DIG_HIGH] = 266670000
};
#define F_VPE(f, s, d) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.ns_val = NS_DIVSRC(15, 12, d, 2, 0, s##_to_mm_mux), \
}
static struct clk_freq_tbl clk_tbl_vpe[] = {
F_VPE( 0, gnd, 1),
F_VPE( 27000000, pxo, 1),
F_VPE( 34909000, pll8, 11),
F_VPE( 38400000, pll8, 10),
F_VPE( 64000000, pll8, 6),
F_VPE( 76800000, pll8, 5),
F_VPE( 96000000, pll8, 4),
F_VPE(100000000, pll2, 8),
F_VPE(160000000, pll2, 5),
F_END
};
static struct rcg_clk vpe_clk = {
.b = {
.ctl_reg = VPE_CC_REG,
.en_mask = BIT(0),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(17),
.halt_reg = DBG_BUS_VEC_A_REG,
.halt_bit = 28,
.retain_reg = VPE_CC_REG,
.retain_mask = BIT(31),
},
.ns_reg = VPE_NS_REG,
.root_en_mask = BIT(2),
.ns_mask = (BM(15, 12) | BM(2, 0)),
.set_rate = set_rate_nop,
.freq_tbl = clk_tbl_vpe,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "vpe_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP2(LOW, 76800000, NOMINAL, 160000000),
CLK_INIT(vpe_clk.c),
.depends = &vpe_axi_clk.c,
},
};
#define F_VFE(f, s, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD8(8, m, 0, n), \
.ns_val = NS_MM(23, 16, n, m, 11, 10, d, 2, 0, s##_to_mm_mux), \
.ctl_val = CC(6, n), \
}
static struct clk_freq_tbl clk_tbl_vfe[] = {
F_VFE( 0, gnd, 1, 0, 0),
F_VFE( 13960000, pll8, 1, 2, 55),
F_VFE( 27000000, pxo, 1, 0, 0),
F_VFE( 36570000, pll8, 1, 2, 21),
F_VFE( 38400000, pll8, 2, 1, 5),
F_VFE( 45180000, pll8, 1, 2, 17),
F_VFE( 48000000, pll8, 2, 1, 4),
F_VFE( 54860000, pll8, 1, 1, 7),
F_VFE( 64000000, pll8, 2, 1, 3),
F_VFE( 76800000, pll8, 1, 1, 5),
F_VFE( 96000000, pll8, 2, 1, 2),
F_VFE(109710000, pll8, 1, 2, 7),
F_VFE(128000000, pll8, 1, 1, 3),
F_VFE(153600000, pll8, 1, 2, 5),
F_VFE(200000000, pll2, 2, 1, 2),
F_VFE(228570000, pll2, 1, 2, 7),
F_VFE(266667000, pll2, 1, 1, 3),
F_VFE(320000000, pll2, 1, 2, 5),
F_END
};
static unsigned long fmax_vfe_8064[VDD_DIG_NUM] = {
[VDD_DIG_LOW] = 128000000,
[VDD_DIG_NOMINAL] = 266667000,
[VDD_DIG_HIGH] = 320000000
};
static struct rcg_clk vfe_clk = {
.b = {
.ctl_reg = VFE_CC_REG,
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(15),
.halt_reg = DBG_BUS_VEC_B_REG,
.halt_bit = 6,
.en_mask = BIT(0),
.retain_reg = VFE_CC2_REG,
.retain_mask = BIT(31),
},
.ns_reg = VFE_NS_REG,
.md_reg = VFE_MD_REG,
.root_en_mask = BIT(2),
.ns_mask = (BM(23, 16) | BM(11, 10) | BM(2, 0)),
.mnd_en_mask = BIT(5),
.ctl_mask = BM(7, 6),
.set_rate = set_rate_mnd,
.freq_tbl = clk_tbl_vfe,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "vfe_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP3(LOW, 110000000, NOMINAL, 266667000,
HIGH, 320000000),
CLK_INIT(vfe_clk.c),
.depends = &vfe_axi_clk.c,
},
};
static struct branch_clk csi_vfe_clk = {
.b = {
.ctl_reg = VFE_CC_REG,
.en_mask = BIT(12),
.reset_reg = SW_RESET_CORE_REG,
.reset_mask = BIT(24),
.halt_reg = DBG_BUS_VEC_B_REG,
.halt_bit = 8,
},
.c = {
.parent = &vfe_clk.c,
.dbg_name = "csi_vfe_clk",
.ops = &clk_ops_branch,
CLK_INIT(csi_vfe_clk.c),
},
};
/*
* Low Power Audio Clocks
*/
#define F_AIF_OSR(f, s, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD8(8, m, 0, n), \
.ns_val = NS(31, 24, n, m, 5, 4, 3, d, 2, 0, s##_to_lpa_mux), \
}
static struct clk_freq_tbl clk_tbl_aif_osr_492[] = {
F_AIF_OSR( 0, gnd, 1, 0, 0),
F_AIF_OSR( 512000, pll4, 4, 1, 240),
F_AIF_OSR( 768000, pll4, 4, 1, 160),
F_AIF_OSR( 1024000, pll4, 4, 1, 120),
F_AIF_OSR( 1536000, pll4, 4, 1, 80),
F_AIF_OSR( 2048000, pll4, 4, 1, 60),
F_AIF_OSR( 3072000, pll4, 4, 1, 40),
F_AIF_OSR( 4096000, pll4, 4, 1, 30),
F_AIF_OSR( 6144000, pll4, 4, 1, 20),
F_AIF_OSR( 8192000, pll4, 4, 1, 15),
F_AIF_OSR(12288000, pll4, 4, 1, 10),
F_AIF_OSR(24576000, pll4, 4, 1, 5),
F_AIF_OSR(27000000, pxo, 1, 0, 0),
F_END
};
static struct clk_freq_tbl clk_tbl_aif_osr_393[] = {
F_AIF_OSR( 0, gnd, 1, 0, 0),
F_AIF_OSR( 512000, pll4, 4, 1, 192),
F_AIF_OSR( 768000, pll4, 4, 1, 128),
F_AIF_OSR( 1024000, pll4, 4, 1, 96),
F_AIF_OSR( 1536000, pll4, 4, 1, 64),
F_AIF_OSR( 2048000, pll4, 4, 1, 48),
F_AIF_OSR( 3072000, pll4, 4, 1, 32),
F_AIF_OSR( 4096000, pll4, 4, 1, 24),
F_AIF_OSR( 6144000, pll4, 4, 1, 16),
F_AIF_OSR( 8192000, pll4, 4, 1, 12),
F_AIF_OSR(12288000, pll4, 4, 1, 8),
F_AIF_OSR(24576000, pll4, 4, 1, 4),
F_AIF_OSR(27000000, pxo, 1, 0, 0),
F_END
};
#define CLK_AIF_OSR(i, ns, md, h_r) \
struct rcg_clk i##_clk = { \
.b = { \
.ctl_reg = ns, \
.en_mask = BIT(17), \
.reset_reg = ns, \
.reset_mask = BIT(19), \
.halt_reg = h_r, \
.halt_check = ENABLE, \
.halt_bit = 1, \
}, \
.ns_reg = ns, \
.md_reg = md, \
.root_en_mask = BIT(9), \
.ns_mask = (BM(31, 24) | BM(6, 0)), \
.mnd_en_mask = BIT(8), \
.set_rate = set_rate_mnd, \
.freq_tbl = clk_tbl_aif_osr_393, \
.current_freq = &rcg_dummy_freq, \
.c = { \
.dbg_name = #i "_clk", \
.ops = &clk_ops_rcg, \
VDD_DIG_FMAX_MAP1(LOW, 27000000), \
CLK_INIT(i##_clk.c), \
}, \
}
#define CLK_AIF_OSR_DIV(i, ns, md, h_r) \
struct rcg_clk i##_clk = { \
.b = { \
.ctl_reg = ns, \
.en_mask = BIT(21), \
.reset_reg = ns, \
.reset_mask = BIT(23), \
.halt_reg = h_r, \
.halt_check = ENABLE, \
.halt_bit = 1, \
}, \
.ns_reg = ns, \
.md_reg = md, \
.root_en_mask = BIT(9), \
.ns_mask = (BM(31, 24) | BM(6, 0)), \
.mnd_en_mask = BIT(8), \
.set_rate = set_rate_mnd, \
.freq_tbl = clk_tbl_aif_osr_393, \
.current_freq = &rcg_dummy_freq, \
.c = { \
.dbg_name = #i "_clk", \
.ops = &clk_ops_rcg, \
VDD_DIG_FMAX_MAP1(LOW, 27000000), \
CLK_INIT(i##_clk.c), \
}, \
}
#define CLK_AIF_BIT(i, ns, h_r) \
struct cdiv_clk i##_clk = { \
.b = { \
.ctl_reg = ns, \
.en_mask = BIT(15), \
.halt_reg = h_r, \
.halt_check = DELAY, \
}, \
.ns_reg = ns, \
.ext_mask = BIT(14), \
.div_offset = 10, \
.max_div = 16, \
.c = { \
.dbg_name = #i "_clk", \
.ops = &clk_ops_cdiv, \
CLK_INIT(i##_clk.c), \
.rate = ULONG_MAX, \
}, \
}
#define CLK_AIF_BIT_DIV(i, ns, h_r) \
struct cdiv_clk i##_clk = { \
.b = { \
.ctl_reg = ns, \
.en_mask = BIT(19), \
.halt_reg = h_r, \
.halt_check = DELAY, \
}, \
.ns_reg = ns, \
.ext_mask = BIT(18), \
.div_offset = 10, \
.max_div = 256, \
.c = { \
.dbg_name = #i "_clk", \
.ops = &clk_ops_cdiv, \
CLK_INIT(i##_clk.c), \
.rate = ULONG_MAX, \
}, \
}
static CLK_AIF_OSR(mi2s_osr, LCC_MI2S_NS_REG, LCC_MI2S_MD_REG,
LCC_MI2S_STATUS_REG);
static CLK_AIF_BIT(mi2s_bit, LCC_MI2S_NS_REG, LCC_MI2S_STATUS_REG);
static CLK_AIF_OSR_DIV(codec_i2s_mic_osr, LCC_CODEC_I2S_MIC_NS_REG,
LCC_CODEC_I2S_MIC_MD_REG, LCC_CODEC_I2S_MIC_STATUS_REG);
static CLK_AIF_BIT_DIV(codec_i2s_mic_bit, LCC_CODEC_I2S_MIC_NS_REG,
LCC_CODEC_I2S_MIC_STATUS_REG);
static CLK_AIF_OSR_DIV(spare_i2s_mic_osr, LCC_SPARE_I2S_MIC_NS_REG,
LCC_SPARE_I2S_MIC_MD_REG, LCC_SPARE_I2S_MIC_STATUS_REG);
static CLK_AIF_BIT_DIV(spare_i2s_mic_bit, LCC_SPARE_I2S_MIC_NS_REG,
LCC_SPARE_I2S_MIC_STATUS_REG);
static CLK_AIF_OSR_DIV(codec_i2s_spkr_osr, LCC_CODEC_I2S_SPKR_NS_REG,
LCC_CODEC_I2S_SPKR_MD_REG, LCC_CODEC_I2S_SPKR_STATUS_REG);
static CLK_AIF_BIT_DIV(codec_i2s_spkr_bit, LCC_CODEC_I2S_SPKR_NS_REG,
LCC_CODEC_I2S_SPKR_STATUS_REG);
static CLK_AIF_OSR_DIV(spare_i2s_spkr_osr, LCC_SPARE_I2S_SPKR_NS_REG,
LCC_SPARE_I2S_SPKR_MD_REG, LCC_SPARE_I2S_SPKR_STATUS_REG);
static CLK_AIF_BIT_DIV(spare_i2s_spkr_bit, LCC_SPARE_I2S_SPKR_NS_REG,
LCC_SPARE_I2S_SPKR_STATUS_REG);
#define F_PCM(f, s, d, m, n) \
{ \
.freq_hz = f, \
.src_clk = &s##_clk.c, \
.md_val = MD16(m, n), \
.ns_val = NS(31, 16, n, m, 5, 4, 3, d, 2, 0, s##_to_lpa_mux), \
}
static struct clk_freq_tbl clk_tbl_pcm_492[] = {
{ .ns_val = BIT(10) /* external input */ },
F_PCM( 256000, pll4, 4, 1, 480),
F_PCM( 512000, pll4, 4, 1, 240),
F_PCM( 768000, pll4, 4, 1, 160),
F_PCM( 1024000, pll4, 4, 1, 120),
F_PCM( 1536000, pll4, 4, 1, 80),
F_PCM( 2048000, pll4, 4, 1, 60),
F_PCM( 3072000, pll4, 4, 1, 40),
F_PCM( 4096000, pll4, 4, 1, 30),
F_PCM( 6144000, pll4, 4, 1, 20),
F_PCM( 8192000, pll4, 4, 1, 15),
F_PCM(12288000, pll4, 4, 1, 10),
F_PCM(24576000, pll4, 4, 1, 5),
F_PCM(27000000, pxo, 1, 0, 0),
F_END
};
static struct clk_freq_tbl clk_tbl_pcm_393[] = {
{ .ns_val = BIT(10) /* external input */ },
F_PCM( 256000, pll4, 4, 1, 384),
F_PCM( 512000, pll4, 4, 1, 192),
F_PCM( 768000, pll4, 4, 1, 128),
F_PCM( 1024000, pll4, 4, 1, 96),
F_PCM( 1536000, pll4, 4, 1, 64),
F_PCM( 2048000, pll4, 4, 1, 48),
F_PCM( 3072000, pll4, 4, 1, 32),
F_PCM( 4096000, pll4, 4, 1, 24),
F_PCM( 6144000, pll4, 4, 1, 16),
F_PCM( 8192000, pll4, 4, 1, 12),
F_PCM(12288000, pll4, 4, 1, 8),
F_PCM(24576000, pll4, 4, 1, 4),
F_PCM(27000000, pxo, 1, 0, 0),
F_END
};
static struct rcg_clk pcm_clk = {
.b = {
.ctl_reg = LCC_PCM_NS_REG,
.en_mask = BIT(11),
.reset_reg = LCC_PCM_NS_REG,
.reset_mask = BIT(13),
.halt_reg = LCC_PCM_STATUS_REG,
.halt_check = ENABLE,
.halt_bit = 0,
},
.ns_reg = LCC_PCM_NS_REG,
.md_reg = LCC_PCM_MD_REG,
.root_en_mask = BIT(9),
.ns_mask = BM(31, 16) | BIT(10) | BM(6, 0),
.mnd_en_mask = BIT(8),
.set_rate = set_rate_mnd,
.freq_tbl = clk_tbl_pcm_393,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "pcm_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP1(LOW, 27000000),
CLK_INIT(pcm_clk.c),
.rate = ULONG_MAX,
},
};
static struct rcg_clk audio_slimbus_clk = {
.b = {
.ctl_reg = LCC_SLIMBUS_NS_REG,
.en_mask = BIT(10),
.reset_reg = LCC_AHBEX_BRANCH_CTL_REG,
.reset_mask = BIT(5),
.halt_reg = LCC_SLIMBUS_STATUS_REG,
.halt_check = ENABLE,
.halt_bit = 0,
},
.ns_reg = LCC_SLIMBUS_NS_REG,
.md_reg = LCC_SLIMBUS_MD_REG,
.root_en_mask = BIT(9),
.ns_mask = (BM(31, 24) | BM(6, 0)),
.mnd_en_mask = BIT(8),
.set_rate = set_rate_mnd,
.freq_tbl = clk_tbl_aif_osr_393,
.current_freq = &rcg_dummy_freq,
.c = {
.dbg_name = "audio_slimbus_clk",
.ops = &clk_ops_rcg,
VDD_DIG_FMAX_MAP1(LOW, 27000000),
CLK_INIT(audio_slimbus_clk.c),
},
};
static struct branch_clk sps_slimbus_clk = {
.b = {
.ctl_reg = LCC_SLIMBUS_NS_REG,
.en_mask = BIT(12),
.halt_reg = LCC_SLIMBUS_STATUS_REG,
.halt_check = ENABLE,
.halt_bit = 1,
},
.c = {
.parent = &audio_slimbus_clk.c,
.dbg_name = "sps_slimbus_clk",
.ops = &clk_ops_branch,
CLK_INIT(sps_slimbus_clk.c),
},
};
static struct branch_clk slimbus_xo_src_clk = {
.b = {
.ctl_reg = SLIMBUS_XO_SRC_CLK_CTL_REG,
.en_mask = BIT(2),
.halt_reg = CLK_HALT_DFAB_STATE_REG,
.halt_bit = 28,
},
.c = {
.parent = &sps_slimbus_clk.c,
.dbg_name = "slimbus_xo_src_clk",
.ops = &clk_ops_branch,
CLK_INIT(slimbus_xo_src_clk.c),
},
};
DEFINE_CLK_RPM(afab_clk, afab_a_clk, APPS_FABRIC, NULL);
DEFINE_CLK_RPM(cfpb_clk, cfpb_a_clk, CFPB, NULL);
DEFINE_CLK_RPM(dfab_clk, dfab_a_clk, DAYTONA_FABRIC, NULL);
DEFINE_CLK_RPM(ebi1_clk, ebi1_a_clk, EBI1, NULL);
DEFINE_CLK_RPM(mmfab_clk, mmfab_a_clk, MM_FABRIC, NULL);
DEFINE_CLK_RPM(mmfpb_clk, mmfpb_a_clk, MMFPB, NULL);
DEFINE_CLK_RPM(sfab_clk, sfab_a_clk, SYSTEM_FABRIC, NULL);
DEFINE_CLK_RPM(sfpb_clk, sfpb_a_clk, SFPB, NULL);
DEFINE_CLK_RPM_QDSS(qdss_clk, qdss_a_clk);
static DEFINE_CLK_VOTER(sfab_msmbus_a_clk, &sfab_a_clk.c, 0);
static DEFINE_CLK_VOTER(sfab_tmr_a_clk, &sfab_a_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_dsps_clk, &dfab_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_usb_hs_clk, &dfab_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_usb_hs3_clk, &dfab_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_usb_hs4_clk, &dfab_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_sdc1_clk, &dfab_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_sdc2_clk, &dfab_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_sdc3_clk, &dfab_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_sdc4_clk, &dfab_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_sdc5_clk, &dfab_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_sps_clk, &dfab_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_bam_dmux_clk, &dfab_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_scm_clk, &dfab_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_msmbus_clk, &dfab_clk.c, 0);
static DEFINE_CLK_VOTER(dfab_msmbus_a_clk, &dfab_a_clk.c, 0);
static DEFINE_CLK_VOTER(ebi1_msmbus_clk, &ebi1_clk.c, LONG_MAX);
static DEFINE_CLK_VOTER(ebi1_adm_clk, &ebi1_clk.c, 0);
static DEFINE_CLK_VOTER(ebi1_acpu_a_clk, &ebi1_a_clk.c, LONG_MAX);
static DEFINE_CLK_VOTER(ebi1_msmbus_a_clk, &ebi1_a_clk.c, LONG_MAX);
static DEFINE_CLK_VOTER(afab_acpu_a_clk, &afab_a_clk.c, LONG_MAX);
static DEFINE_CLK_VOTER(afab_msmbus_a_clk, &afab_a_clk.c, LONG_MAX);
#ifdef CONFIG_DEBUG_FS
struct measure_sel {
u32 test_vector;
struct clk *c;
};
static DEFINE_CLK_MEASURE(l2_m_clk);
static DEFINE_CLK_MEASURE(krait0_m_clk);
static DEFINE_CLK_MEASURE(krait1_m_clk);
static DEFINE_CLK_MEASURE(krait2_m_clk);
static DEFINE_CLK_MEASURE(krait3_m_clk);
static DEFINE_CLK_MEASURE(q6sw_clk);
static DEFINE_CLK_MEASURE(q6fw_clk);
static DEFINE_CLK_MEASURE(q6_func_clk);
static struct measure_sel measure_mux[] = {
{ TEST_PER_LS(0x08), &slimbus_xo_src_clk.c },
{ TEST_PER_LS(0x12), &sdc1_p_clk.c },
{ TEST_PER_LS(0x13), &sdc1_clk.c },
{ TEST_PER_LS(0x14), &sdc2_p_clk.c },
{ TEST_PER_LS(0x15), &sdc2_clk.c },
{ TEST_PER_LS(0x16), &sdc3_p_clk.c },
{ TEST_PER_LS(0x17), &sdc3_clk.c },
{ TEST_PER_LS(0x18), &sdc4_p_clk.c },
{ TEST_PER_LS(0x19), &sdc4_clk.c },
{ TEST_PER_LS(0x1A), &sdc5_p_clk.c },
{ TEST_PER_LS(0x1B), &sdc5_clk.c },
{ TEST_PER_LS(0x1F), &gp0_clk.c },
{ TEST_PER_LS(0x20), &gp1_clk.c },
{ TEST_PER_LS(0x21), &gp2_clk.c },
{ TEST_PER_LS(0x25), &dfab_clk.c },
{ TEST_PER_LS(0x25), &dfab_a_clk.c },
{ TEST_PER_LS(0x26), &pmem_clk.c },
{ TEST_PER_LS(0x32), &dma_bam_p_clk.c },
{ TEST_PER_LS(0x33), &cfpb_clk.c },
{ TEST_PER_LS(0x33), &cfpb_a_clk.c },
{ TEST_PER_LS(0x3D), &gsbi1_p_clk.c },
{ TEST_PER_LS(0x3E), &gsbi1_uart_clk.c },
{ TEST_PER_LS(0x3F), &gsbi1_qup_clk.c },
{ TEST_PER_LS(0x41), &gsbi2_p_clk.c },
{ TEST_PER_LS(0x42), &gsbi2_uart_clk.c },
{ TEST_PER_LS(0x44), &gsbi2_qup_clk.c },
{ TEST_PER_LS(0x45), &gsbi3_p_clk.c },
{ TEST_PER_LS(0x46), &gsbi3_uart_clk.c },
{ TEST_PER_LS(0x48), &gsbi3_qup_clk.c },
{ TEST_PER_LS(0x49), &gsbi4_p_clk.c },
{ TEST_PER_LS(0x4A), &gsbi4_uart_clk.c },
{ TEST_PER_LS(0x4C), &gsbi4_qup_clk.c },
{ TEST_PER_LS(0x4D), &gsbi5_p_clk.c },
{ TEST_PER_LS(0x4E), &gsbi5_uart_clk.c },
{ TEST_PER_LS(0x50), &gsbi5_qup_clk.c },
{ TEST_PER_LS(0x51), &gsbi6_p_clk.c },
{ TEST_PER_LS(0x52), &gsbi6_uart_clk.c },
{ TEST_PER_LS(0x54), &gsbi6_qup_clk.c },
{ TEST_PER_LS(0x55), &gsbi7_p_clk.c },
{ TEST_PER_LS(0x56), &gsbi7_uart_clk.c },
{ TEST_PER_LS(0x58), &gsbi7_qup_clk.c },
{ TEST_PER_LS(0x59), &gsbi8_p_clk.c },
{ TEST_PER_LS(0x59), &sfab_sata_s_p_clk.c },
{ TEST_PER_LS(0x5A), &gsbi8_uart_clk.c },
{ TEST_PER_LS(0x5A), &sata_p_clk.c },
{ TEST_PER_LS(0x5B), &sata_rxoob_clk.c },
{ TEST_PER_LS(0x5C), &sata_pmalive_clk.c },
{ TEST_PER_LS(0x5C), &gsbi8_qup_clk.c },
{ TEST_PER_LS(0x5D), &gsbi9_p_clk.c },
{ TEST_PER_LS(0x5E), &gsbi9_uart_clk.c },
{ TEST_PER_LS(0x60), &gsbi9_qup_clk.c },
{ TEST_PER_LS(0x61), &gsbi10_p_clk.c },
{ TEST_PER_LS(0x62), &gsbi10_uart_clk.c },
{ TEST_PER_LS(0x64), &gsbi10_qup_clk.c },
{ TEST_PER_LS(0x65), &gsbi11_p_clk.c },
{ TEST_PER_LS(0x66), &gsbi11_uart_clk.c },
{ TEST_PER_LS(0x68), &gsbi11_qup_clk.c },
{ TEST_PER_LS(0x69), &gsbi12_p_clk.c },
{ TEST_PER_LS(0x6A), &gsbi12_uart_clk.c },
{ TEST_PER_LS(0x6C), &gsbi12_qup_clk.c },
{ TEST_PER_LS(0x5E), &pcie_p_clk.c },
{ TEST_PER_LS(0x5F), &ce3_p_clk.c },
{ TEST_PER_LS(0x60), &ce3_core_clk.c },
{ TEST_PER_LS(0x63), &usb_hs3_p_clk.c },
{ TEST_PER_LS(0x64), &usb_hs3_xcvr_clk.c },
{ TEST_PER_LS(0x65), &usb_hs4_p_clk.c },
{ TEST_PER_LS(0x66), &usb_hs4_xcvr_clk.c },
{ TEST_PER_LS(0x6B), &sata_phy_ref_clk.c },
{ TEST_PER_LS(0x6C), &sata_phy_cfg_clk.c },
{ TEST_PER_LS(0x78), &sfpb_clk.c },
{ TEST_PER_LS(0x78), &sfpb_a_clk.c },
{ TEST_PER_LS(0x7A), &pmic_ssbi2_clk.c },
{ TEST_PER_LS(0x7B), &pmic_arb0_p_clk.c },
{ TEST_PER_LS(0x7C), &pmic_arb1_p_clk.c },
{ TEST_PER_LS(0x7D), &prng_clk.c },
{ TEST_PER_LS(0x7F), &rpm_msg_ram_p_clk.c },
{ TEST_PER_LS(0x80), &adm0_p_clk.c },
{ TEST_PER_LS(0x84), &usb_hs1_p_clk.c },
{ TEST_PER_LS(0x85), &usb_hs1_xcvr_clk.c },
{ TEST_PER_LS(0x86), &usb_hsic_p_clk.c },
{ TEST_PER_LS(0x87), &usb_hsic_system_clk.c },
{ TEST_PER_LS(0x88), &usb_hsic_xcvr_fs_clk.c },
{ TEST_PER_LS(0x89), &usb_fs1_p_clk.c },
{ TEST_PER_LS(0x8A), &usb_fs1_sys_clk.c },
{ TEST_PER_LS(0x8B), &usb_fs1_xcvr_clk.c },
{ TEST_PER_LS(0x8C), &usb_fs2_p_clk.c },
{ TEST_PER_LS(0x8D), &usb_fs2_sys_clk.c },
{ TEST_PER_LS(0x8E), &usb_fs2_xcvr_clk.c },
{ TEST_PER_LS(0x8F), &tsif_p_clk.c },
{ TEST_PER_LS(0x91), &tsif_ref_clk.c },
{ TEST_PER_LS(0x92), &ce1_p_clk.c },
{ TEST_PER_LS(0x94), &tssc_clk.c },
{ TEST_PER_LS(0x9D), &usb_hsic_hsio_cal_clk.c },
{ TEST_PER_LS(0xA4), &ce1_core_clk.c },
{ TEST_PER_HS(0x07), &afab_clk.c },
{ TEST_PER_HS(0x07), &afab_a_clk.c },
{ TEST_PER_HS(0x18), &sfab_clk.c },
{ TEST_PER_HS(0x18), &sfab_a_clk.c },
{ TEST_PER_HS(0x26), &q6sw_clk },
{ TEST_PER_HS(0x27), &q6fw_clk },
{ TEST_PER_HS(0x2A), &adm0_clk.c },
{ TEST_PER_HS(0x31), &sata_a_clk.c },
{ TEST_PER_HS(0x2D), &pcie_phy_ref_clk.c },
{ TEST_PER_HS(0x32), &pcie_a_clk.c },
{ TEST_PER_HS(0x34), &ebi1_clk.c },
{ TEST_PER_HS(0x34), &ebi1_a_clk.c },
{ TEST_PER_HS(0x50), &usb_hsic_hsic_clk.c },
{ TEST_MM_LS(0x00), &dsi1_byte_clk.c },
{ TEST_MM_LS(0x01), &dsi2_byte_clk.c },
{ TEST_MM_LS(0x02), &cam1_clk.c },
{ TEST_MM_LS(0x06), &amp_p_clk.c },
{ TEST_MM_LS(0x07), &csi_p_clk.c },
{ TEST_MM_LS(0x08), &dsi2_s_p_clk.c },
{ TEST_MM_LS(0x09), &dsi1_m_p_clk.c },
{ TEST_MM_LS(0x0A), &dsi1_s_p_clk.c },
{ TEST_MM_LS(0x0C), &gfx2d0_p_clk.c },
{ TEST_MM_LS(0x0D), &gfx2d1_p_clk.c },
{ TEST_MM_LS(0x0E), &gfx3d_p_clk.c },
{ TEST_MM_LS(0x0F), &hdmi_m_p_clk.c },
{ TEST_MM_LS(0x10), &hdmi_s_p_clk.c },
{ TEST_MM_LS(0x11), &ijpeg_p_clk.c },
{ TEST_MM_LS(0x12), &imem_p_clk.c },
{ TEST_MM_LS(0x13), &jpegd_p_clk.c },
{ TEST_MM_LS(0x14), &mdp_p_clk.c },
{ TEST_MM_LS(0x16), &rot_p_clk.c },
{ TEST_MM_LS(0x17), &dsi1_esc_clk.c },
{ TEST_MM_LS(0x18), &smmu_p_clk.c },
{ TEST_MM_LS(0x19), &tv_enc_p_clk.c },
{ TEST_MM_LS(0x1A), &vcodec_p_clk.c },
{ TEST_MM_LS(0x1B), &vfe_p_clk.c },
{ TEST_MM_LS(0x1C), &vpe_p_clk.c },
{ TEST_MM_LS(0x1D), &cam0_clk.c },
{ TEST_MM_LS(0x1F), &hdmi_app_clk.c },
{ TEST_MM_LS(0x20), &mdp_vsync_clk.c },
{ TEST_MM_LS(0x21), &tv_dac_clk.c },
{ TEST_MM_LS(0x22), &tv_enc_clk.c },
{ TEST_MM_LS(0x23), &dsi2_esc_clk.c },
{ TEST_MM_LS(0x25), &mmfpb_clk.c },
{ TEST_MM_LS(0x25), &mmfpb_a_clk.c },
{ TEST_MM_LS(0x26), &dsi2_m_p_clk.c },
{ TEST_MM_LS(0x27), &cam2_clk.c },
{ TEST_MM_LS(0x28), &vcap_p_clk.c },
{ TEST_MM_HS(0x00), &csi0_clk.c },
{ TEST_MM_HS(0x01), &csi1_clk.c },
{ TEST_MM_HS(0x04), &csi_vfe_clk.c },
{ TEST_MM_HS(0x05), &ijpeg_clk.c },
{ TEST_MM_HS(0x06), &vfe_clk.c },
{ TEST_MM_HS(0x07), &gfx2d0_clk.c },
{ TEST_MM_HS(0x08), &gfx2d1_clk.c },
{ TEST_MM_HS(0x09), &gfx3d_clk.c },
{ TEST_MM_HS(0x0A), &jpegd_clk.c },
{ TEST_MM_HS(0x0B), &vcodec_clk.c },
{ TEST_MM_HS(0x0F), &mmfab_clk.c },
{ TEST_MM_HS(0x0F), &mmfab_a_clk.c },
{ TEST_MM_HS(0x11), &gmem_axi_clk.c },
{ TEST_MM_HS(0x12), &ijpeg_axi_clk.c },
{ TEST_MM_HS(0x13), &imem_axi_clk.c },
{ TEST_MM_HS(0x14), &jpegd_axi_clk.c },
{ TEST_MM_HS(0x15), &mdp_axi_clk.c },
{ TEST_MM_HS(0x16), &rot_axi_clk.c },
{ TEST_MM_HS(0x17), &vcodec_axi_clk.c },
{ TEST_MM_HS(0x18), &vfe_axi_clk.c },
{ TEST_MM_HS(0x19), &vpe_axi_clk.c },
{ TEST_MM_HS(0x1A), &mdp_clk.c },
{ TEST_MM_HS(0x1B), &rot_clk.c },
{ TEST_MM_HS(0x1C), &vpe_clk.c },
{ TEST_MM_HS(0x1E), &hdmi_tv_clk.c },
{ TEST_MM_HS(0x1F), &mdp_tv_clk.c },
{ TEST_MM_HS(0x24), &csi0_phy_clk.c },
{ TEST_MM_HS(0x25), &csi1_phy_clk.c },
{ TEST_MM_HS(0x26), &csi_pix_clk.c },
{ TEST_MM_HS(0x27), &csi_rdi_clk.c },
{ TEST_MM_HS(0x28), &lut_mdp_clk.c },
{ TEST_MM_HS(0x29), &vcodec_axi_a_clk.c },
{ TEST_MM_HS(0x2A), &vcodec_axi_b_clk.c },
{ TEST_MM_HS(0x2B), &csi1phy_timer_clk.c },
{ TEST_MM_HS(0x2C), &csi0phy_timer_clk.c },
{ TEST_MM_HS(0x2D), &csi2_clk.c },
{ TEST_MM_HS(0x2E), &csi2_phy_clk.c },
{ TEST_MM_HS(0x2F), &csi2phy_timer_clk.c },
{ TEST_MM_HS(0x30), &csi_pix1_clk.c },
{ TEST_MM_HS(0x31), &csi_rdi1_clk.c },
{ TEST_MM_HS(0x32), &csi_rdi2_clk.c },
{ TEST_MM_HS(0x33), &vcap_clk.c },
{ TEST_MM_HS(0x34), &vcap_npl_clk.c },
{ TEST_MM_HS(0x34), &gfx3d_axi_clk_8930.c },
{ TEST_MM_HS(0x35), &vcap_axi_clk.c },
{ TEST_MM_HS(0x36), &rgb_tv_clk.c },
{ TEST_MM_HS(0x37), &npl_tv_clk.c },
{ TEST_MM_HS(0x38), &gfx3d_axi_clk.c },
{ TEST_LPA(0x0F), &mi2s_bit_clk.c },
{ TEST_LPA(0x10), &codec_i2s_mic_bit_clk.c },
{ TEST_LPA(0x11), &codec_i2s_spkr_bit_clk.c },
{ TEST_LPA(0x12), &spare_i2s_mic_bit_clk.c },
{ TEST_LPA(0x13), &spare_i2s_spkr_bit_clk.c },
{ TEST_LPA(0x14), &pcm_clk.c },
{ TEST_LPA(0x1D), &audio_slimbus_clk.c },
{ TEST_LPA_HS(0x00), &q6_func_clk },
{ TEST_CPUL2(0x2), &l2_m_clk },
{ TEST_CPUL2(0x0), &krait0_m_clk },
{ TEST_CPUL2(0x1), &krait1_m_clk },
{ TEST_CPUL2(0x4), &krait2_m_clk },
{ TEST_CPUL2(0x5), &krait3_m_clk },
};
static struct measure_sel *find_measure_sel(struct clk *c)
{
int i;
for (i = 0; i < ARRAY_SIZE(measure_mux); i++)
if (measure_mux[i].c == c)
return &measure_mux[i];
return NULL;
}
static int measure_clk_set_parent(struct clk *c, struct clk *parent)
{
int ret = 0;
u32 clk_sel;
struct measure_sel *p;
struct measure_clk *measure = to_measure_clk(c);
unsigned long flags;
if (!parent)
return -EINVAL;
p = find_measure_sel(parent);
if (!p)
return -EINVAL;
spin_lock_irqsave(&local_clock_reg_lock, flags);
/*
* Program the test vector, measurement period (sample_ticks)
* and scaling multiplier.
*/
measure->sample_ticks = 0x10000;
clk_sel = p->test_vector & TEST_CLK_SEL_MASK;
measure->multiplier = 1;
switch (p->test_vector >> TEST_TYPE_SHIFT) {
case TEST_TYPE_PER_LS:
writel_relaxed(0x4030D00|BVAL(7, 0, clk_sel), CLK_TEST_REG);
break;
case TEST_TYPE_PER_HS:
writel_relaxed(0x4020000|BVAL(16, 10, clk_sel), CLK_TEST_REG);
break;
case TEST_TYPE_MM_LS:
writel_relaxed(0x4030D97, CLK_TEST_REG);
writel_relaxed(BVAL(6, 1, clk_sel)|BIT(0), DBG_CFG_REG_LS_REG);
break;
case TEST_TYPE_MM_HS:
writel_relaxed(0x402B800, CLK_TEST_REG);
writel_relaxed(BVAL(6, 1, clk_sel)|BIT(0), DBG_CFG_REG_HS_REG);
break;
case TEST_TYPE_LPA:
writel_relaxed(0x4030D98, CLK_TEST_REG);
writel_relaxed(BVAL(6, 1, clk_sel)|BIT(0),
LCC_CLK_LS_DEBUG_CFG_REG);
break;
case TEST_TYPE_LPA_HS:
writel_relaxed(0x402BC00, CLK_TEST_REG);
writel_relaxed(BVAL(2, 1, clk_sel)|BIT(0),
LCC_CLK_HS_DEBUG_CFG_REG);
break;
case TEST_TYPE_CPUL2:
writel_relaxed(0x4030400, CLK_TEST_REG);
writel_relaxed(0x80|BVAL(5, 3, clk_sel), GCC_APCS_CLK_DIAG);
measure->sample_ticks = 0x4000;
measure->multiplier = 2;
if (cpu_is_krait_v3())
measure->multiplier = 8;
break;
default:
ret = -EPERM;
}
/* Make sure test vector is set before starting measurements. */
mb();
spin_unlock_irqrestore(&local_clock_reg_lock, flags);
return ret;
}
/* Sample clock for 'ticks' reference clock ticks. */
static u32 run_measurement(unsigned ticks)
{
/* Stop counters and set the XO4 counter start value. */
writel_relaxed(ticks, RINGOSC_TCXO_CTL_REG);
/* Wait for timer to become ready. */
while ((readl_relaxed(RINGOSC_STATUS_REG) & BIT(25)) != 0)
cpu_relax();
/* Run measurement and wait for completion. */
writel_relaxed(BIT(20)|ticks, RINGOSC_TCXO_CTL_REG);
while ((readl_relaxed(RINGOSC_STATUS_REG) & BIT(25)) == 0)
cpu_relax();
/* Stop counters. */
writel_relaxed(0x0, RINGOSC_TCXO_CTL_REG);
/* Return measured ticks. */
return readl_relaxed(RINGOSC_STATUS_REG) & BM(24, 0);
}
/* Perform a hardware rate measurement for a given clock.
FOR DEBUG USE ONLY: Measurements take ~15 ms! */
static unsigned long measure_clk_get_rate(struct clk *c)
{
unsigned long flags;
u32 pdm_reg_backup, ringosc_reg_backup;
u64 raw_count_short, raw_count_full;
struct measure_clk *measure = to_measure_clk(c);
unsigned ret;
ret = clk_prepare_enable(&cxo_clk.c);
if (ret) {
pr_warning("CXO clock failed to enable. Can't measure\n");
return 0;
}
spin_lock_irqsave(&local_clock_reg_lock, flags);
/* Enable CXO/4 and RINGOSC branch and root. */
pdm_reg_backup = readl_relaxed(PDM_CLK_NS_REG);
ringosc_reg_backup = readl_relaxed(RINGOSC_NS_REG);
writel_relaxed(0x2898, PDM_CLK_NS_REG);
writel_relaxed(0xA00, RINGOSC_NS_REG);
/*
* The ring oscillator counter will not reset if the measured clock
* is not running. To detect this, run a short measurement before
* the full measurement. If the raw results of the two are the same
* then the clock must be off.
*/
/* Run a short measurement. (~1 ms) */
raw_count_short = run_measurement(0x1000);
/* Run a full measurement. (~14 ms) */
raw_count_full = run_measurement(measure->sample_ticks);
writel_relaxed(ringosc_reg_backup, RINGOSC_NS_REG);
writel_relaxed(pdm_reg_backup, PDM_CLK_NS_REG);
/* Return 0 if the clock is off. */
if (raw_count_full == raw_count_short)
ret = 0;
else {
/* Compute rate in Hz. */
raw_count_full = ((raw_count_full * 10) + 15) * 4800000;
do_div(raw_count_full, ((measure->sample_ticks * 10) + 35));
ret = (raw_count_full * measure->multiplier);
}
/* Route dbg_hs_clk to PLLTEST. 300mV single-ended amplitude. */
writel_relaxed(0x38F8, PLLTEST_PAD_CFG_REG);
spin_unlock_irqrestore(&local_clock_reg_lock, flags);
clk_disable_unprepare(&cxo_clk.c);
return ret;
}
#else /* !CONFIG_DEBUG_FS */
static int measure_clk_set_parent(struct clk *c, struct clk *parent)
{
return -EINVAL;
}
static unsigned long measure_clk_get_rate(struct clk *c)
{
return 0;
}
#endif /* CONFIG_DEBUG_FS */
static struct clk_ops clk_ops_measure = {
.set_parent = measure_clk_set_parent,
.get_rate = measure_clk_get_rate,
};
static struct measure_clk measure_clk = {
.c = {
.dbg_name = "measure_clk",
.ops = &clk_ops_measure,
CLK_INIT(measure_clk.c),
},
.multiplier = 1,
};
static struct clk_lookup msm_clocks_8064[] = {
CLK_LOOKUP("xo", cxo_a_clk.c, ""),
CLK_LOOKUP("xo", pxo_a_clk.c, ""),
CLK_LOOKUP("pwm_clk", cxo_clk.c, "0-0048"),
CLK_LOOKUP("cxo", cxo_clk.c, "wcnss_wlan.0"),
CLK_LOOKUP("cxo", cxo_clk.c, "pil_riva"),
CLK_LOOKUP("xo", pxo_clk.c, "pil-q6v4-lpass"),
CLK_LOOKUP("xo", cxo_clk.c, "pil_gss"),
CLK_LOOKUP("xo", cxo_clk.c, "BAM_RMNT"),
CLK_LOOKUP("xo", cxo_clk.c, "msm_xo"),
CLK_LOOKUP("vref_buff", cxo_clk.c, "rpm-regulator"),
CLK_LOOKUP("pll2", pll2_clk.c, NULL),
CLK_LOOKUP("pll8", pll8_clk.c, NULL),
CLK_LOOKUP("pll4", pll4_clk.c, NULL),
CLK_LOOKUP("measure", measure_clk.c, "debug"),
CLK_LOOKUP("bus_clk", afab_clk.c, ""),
CLK_LOOKUP("bus_clk", afab_a_clk.c, ""),
CLK_LOOKUP("bus_clk", cfpb_clk.c, ""),
CLK_LOOKUP("bus_clk", cfpb_a_clk.c, ""),
CLK_LOOKUP("bus_clk", dfab_clk.c, ""),
CLK_LOOKUP("bus_clk", dfab_a_clk.c, ""),
CLK_LOOKUP("mem_clk", ebi1_clk.c, ""),
CLK_LOOKUP("mem_clk", ebi1_a_clk.c, ""),
CLK_LOOKUP("bus_clk", mmfab_clk.c, ""),
CLK_LOOKUP("bus_clk", mmfab_a_clk.c, ""),
CLK_LOOKUP("bus_clk", mmfpb_clk.c, ""),
CLK_LOOKUP("bus_clk", mmfpb_a_clk.c, ""),
CLK_LOOKUP("bus_clk", sfab_clk.c, ""),
CLK_LOOKUP("bus_clk", sfab_a_clk.c, ""),
CLK_LOOKUP("bus_clk", sfpb_clk.c, ""),
CLK_LOOKUP("bus_clk", sfpb_a_clk.c, ""),
CLK_LOOKUP("bus_clk", afab_clk.c, "msm_apps_fab"),
CLK_LOOKUP("bus_a_clk", afab_msmbus_a_clk.c, "msm_apps_fab"),
CLK_LOOKUP("bus_clk", cfpb_clk.c, "msm_cpss_fpb"),
CLK_LOOKUP("bus_a_clk", cfpb_a_clk.c, "msm_cpss_fpb"),
CLK_LOOKUP("bus_clk", sfab_clk.c, "msm_sys_fab"),
CLK_LOOKUP("bus_a_clk", sfab_msmbus_a_clk.c, "msm_sys_fab"),
CLK_LOOKUP("bus_clk", sfpb_clk.c, "msm_sys_fpb"),
CLK_LOOKUP("bus_a_clk", sfpb_a_clk.c, "msm_sys_fpb"),
CLK_LOOKUP("bus_clk", mmfab_clk.c, "msm_mm_fab"),
CLK_LOOKUP("bus_a_clk", mmfab_a_clk.c, "msm_mm_fab"),
CLK_LOOKUP("mem_clk", ebi1_msmbus_clk.c, "msm_bus"),
CLK_LOOKUP("mem_a_clk", ebi1_msmbus_a_clk.c, "msm_bus"),
CLK_LOOKUP("dfab_clk", dfab_msmbus_clk.c, "msm_bus"),
CLK_LOOKUP("dfab_a_clk", dfab_msmbus_a_clk.c, "msm_bus"),
CLK_LOOKUP("core_a_clk", qdss_a_clk.c, ""),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-tpiu.0"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etb.0"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-funnel.0"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etm.0"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etm.1"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etm.2"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etm.3"),
CLK_LOOKUP("ebi1_clk", ebi1_clk.c, ""),
CLK_LOOKUP("mmfpb_clk", mmfpb_clk.c, ""),
CLK_LOOKUP("mmfpb_a_clk", mmfpb_a_clk.c, "clock-8960"),
CLK_LOOKUP("cfpb_a_clk", cfpb_a_clk.c, "clock-8960"),
CLK_LOOKUP("core_clk", gp0_clk.c, ""),
CLK_LOOKUP("core_clk", gp1_clk.c, ""),
CLK_LOOKUP("core_clk", gp2_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi1_uart_clk.c, "msm_serial_hsl.1"),
CLK_LOOKUP("core_clk", gsbi2_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi2_uart_clk.c, "msm_serial_hsl.3"),
CLK_LOOKUP("core_clk", gsbi3_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi4_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi4_uart_clk.c, "msm_serial_hsl.4"),
CLK_LOOKUP("core_clk", gsbi5_uart_clk.c, "msm_serial_hsl.2"),
CLK_LOOKUP("core_clk", gsbi6_uart_clk.c, "msm_serial_hs.0"),
CLK_LOOKUP("core_clk", gsbi7_uart_clk.c, "msm_serial_hsl.0"),
CLK_LOOKUP("core_clk", gsbi1_qup_clk.c, "qup_i2c.0"),
CLK_LOOKUP("core_clk", gsbi2_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi3_qup_clk.c, "qup_i2c.3"),
CLK_LOOKUP("core_clk", gsbi4_qup_clk.c, "qup_i2c.4"),
CLK_LOOKUP("core_clk", gsbi5_qup_clk.c, "spi_qsd.0"),
CLK_LOOKUP("core_clk", gsbi5_qup_clk.c, "qup_i2c.5"),
CLK_LOOKUP("core_clk", gsbi6_qup_clk.c, "spi_qsd.1"),
CLK_LOOKUP("core_clk", gsbi7_qup_clk.c, ""),
CLK_LOOKUP("core_clk", pdm_clk.c, ""),
CLK_LOOKUP("mem_clk", pmem_clk.c, "msm_sps"),
CLK_LOOKUP("core_clk", prng_clk.c, "msm_rng.0"),
CLK_LOOKUP("core_clk", sdc1_clk.c, "msm_sdcc.1"),
CLK_LOOKUP("core_clk", sdc2_clk.c, "msm_sdcc.2"),
CLK_LOOKUP("core_clk", sdc3_clk.c, "msm_sdcc.3"),
CLK_LOOKUP("core_clk", sdc4_clk.c, "msm_sdcc.4"),
CLK_LOOKUP("ref_clk", tsif_ref_clk.c, "msm_tsif.0"),
CLK_LOOKUP("iface_clk", tsif_p_clk.c, "msm_tsif.0"),
CLK_LOOKUP("ref_clk", tsif_ref_clk.c, "msm_tsif.1"),
CLK_LOOKUP("iface_clk", tsif_p_clk.c, "msm_tsif.1"),
CLK_LOOKUP("core_clk", tssc_clk.c, ""),
CLK_LOOKUP("alt_core_clk", usb_hs1_xcvr_clk.c, "msm_otg"),
CLK_LOOKUP("alt_core_clk", usb_hs3_xcvr_clk.c, "msm_ehci_host.0"),
CLK_LOOKUP("alt_core_clk", usb_hs4_xcvr_clk.c, "msm_ehci_host.1"),
CLK_LOOKUP("src_clk", usb_fs1_src_clk.c, ""),
CLK_LOOKUP("alt_core_clk", usb_fs1_xcvr_clk.c, ""),
CLK_LOOKUP("sys_clk", usb_fs1_sys_clk.c, ""),
CLK_LOOKUP("ref_clk", sata_phy_ref_clk.c, "msm_sata.0"),
CLK_LOOKUP("cfg_clk", sata_phy_cfg_clk.c, "msm_sata.0"),
CLK_LOOKUP("src_clk", sata_src_clk.c, "msm_sata.0"),
CLK_LOOKUP("core_rxoob_clk", sata_rxoob_clk.c, "msm_sata.0"),
CLK_LOOKUP("core_pmalive_clk", sata_pmalive_clk.c, "msm_sata.0"),
CLK_LOOKUP("bus_clk", sata_a_clk.c, "msm_sata.0"),
CLK_LOOKUP("iface_clk", sata_p_clk.c, "msm_sata.0"),
CLK_LOOKUP("slave_iface_clk", sfab_sata_s_p_clk.c, "msm_sata.0"),
CLK_LOOKUP("iface_clk", ce3_p_clk.c, "qce.0"),
CLK_LOOKUP("iface_clk", ce3_p_clk.c, "qcrypto.0"),
CLK_LOOKUP("core_clk", ce3_core_clk.c, "qce.0"),
CLK_LOOKUP("core_clk", ce3_core_clk.c, "qcrypto.0"),
CLK_LOOKUP("ce3_core_src_clk", ce3_src_clk.c, "qce.0"),
CLK_LOOKUP("ce3_core_src_clk", ce3_src_clk.c, "qcrypto.0"),
CLK_LOOKUP("dma_bam_pclk", dma_bam_p_clk.c, NULL),
CLK_LOOKUP("iface_clk", gsbi1_p_clk.c, "msm_serial_hsl.1"),
CLK_LOOKUP("iface_clk", gsbi1_p_clk.c, "qup_i2c.0"),
CLK_LOOKUP("iface_clk", gsbi2_p_clk.c, ""),
CLK_LOOKUP("iface_clk", gsbi2_p_clk.c, "msm_serial_hsl.3"),
CLK_LOOKUP("iface_clk", gsbi3_p_clk.c, "qup_i2c.3"),
CLK_LOOKUP("iface_clk", gsbi4_p_clk.c, "qup_i2c.4"),
CLK_LOOKUP("iface_clk", gsbi5_p_clk.c, "msm_serial_hsl.2"),
CLK_LOOKUP("iface_clk", gsbi5_p_clk.c, "spi_qsd.0"),
CLK_LOOKUP("iface_clk", gsbi5_p_clk.c, "qup_i2c.5"),
CLK_LOOKUP("iface_clk", gsbi6_p_clk.c, "msm_serial_hs.0"),
CLK_LOOKUP("iface_clk", gsbi6_p_clk.c, "spi_qsd.1"),
CLK_LOOKUP("iface_clk", gsbi7_p_clk.c, "msm_serial_hsl.0"),
CLK_LOOKUP("iface_clk", gsbi7_p_clk.c, "msm_serial_hsl.4"),
CLK_LOOKUP("ref_clk", tsif_ref_clk.c, "msm_tspp.0"),
CLK_LOOKUP("iface_clk", tsif_p_clk.c, "msm_tspp.0"),
CLK_LOOKUP("iface_clk", usb_fs1_p_clk.c, ""),
CLK_LOOKUP("iface_clk", usb_hs1_p_clk.c, "msm_otg"),
CLK_LOOKUP("iface_clk", usb_hs3_p_clk.c, "msm_ehci_host.0"),
CLK_LOOKUP("iface_clk", usb_hs4_p_clk.c, "msm_ehci_host.1"),
CLK_LOOKUP("iface_clk", sdc1_p_clk.c, "msm_sdcc.1"),
CLK_LOOKUP("iface_clk", sdc2_p_clk.c, "msm_sdcc.2"),
CLK_LOOKUP("iface_clk", sdc3_p_clk.c, "msm_sdcc.3"),
CLK_LOOKUP("iface_clk", sdc4_p_clk.c, "msm_sdcc.4"),
CLK_LOOKUP("iface_clk", pcie_p_clk.c, "msm_pcie"),
CLK_LOOKUP("ref_clk", pcie_phy_ref_clk.c, "msm_pcie"),
CLK_LOOKUP("bus_clk", pcie_a_clk.c, "msm_pcie"),
CLK_LOOKUP("core_clk", adm0_clk.c, "msm_dmov"),
CLK_LOOKUP("iface_clk", adm0_p_clk.c, "msm_dmov"),
CLK_LOOKUP("iface_clk", pmic_arb0_p_clk.c, ""),
CLK_LOOKUP("iface_clk", pmic_arb1_p_clk.c, ""),
CLK_LOOKUP("core_clk", pmic_ssbi2_clk.c, ""),
CLK_LOOKUP("mem_clk", rpm_msg_ram_p_clk.c, ""),
CLK_LOOKUP("cam_clk", cam0_clk.c, "4-001a"),
CLK_LOOKUP("cam_clk", cam0_clk.c, "4-0010"),
CLK_LOOKUP("cam_clk", cam0_clk.c, "4-0034"),
CLK_LOOKUP("cam_clk", cam0_clk.c, "4-0020"),
CLK_LOOKUP("cam_clk", cam1_clk.c, "4-0048"),
CLK_LOOKUP("cam_clk", cam1_clk.c, "4-006c"),
CLK_LOOKUP("cam_clk", cam2_clk.c, ""),
CLK_LOOKUP("csi_src_clk", csi0_src_clk.c, "msm_csid.0"),
CLK_LOOKUP("csi_src_clk", csi1_src_clk.c, "msm_csid.1"),
CLK_LOOKUP("csi_src_clk", csi2_src_clk.c, "msm_csid.2"),
CLK_LOOKUP("csi_clk", csi0_clk.c, "msm_csid.0"),
CLK_LOOKUP("csi_clk", csi1_clk.c, "msm_csid.1"),
CLK_LOOKUP("csi_clk", csi2_clk.c, "msm_csid.2"),
CLK_LOOKUP("csi_phy_clk", csi0_phy_clk.c, "msm_csid.0"),
CLK_LOOKUP("csi_phy_clk", csi1_phy_clk.c, "msm_csid.1"),
CLK_LOOKUP("csi_phy_clk", csi2_phy_clk.c, "msm_csid.2"),
CLK_LOOKUP("csiphy_timer_src_clk",
csiphy_timer_src_clk.c, "msm_csiphy.0"),
CLK_LOOKUP("csiphy_timer_src_clk",
csiphy_timer_src_clk.c, "msm_csiphy.1"),
CLK_LOOKUP("csiphy_timer_src_clk",
csiphy_timer_src_clk.c, "msm_csiphy.2"),
CLK_LOOKUP("csiphy_timer_clk", csi0phy_timer_clk.c, "msm_csiphy.0"),
CLK_LOOKUP("csiphy_timer_clk", csi1phy_timer_clk.c, "msm_csiphy.1"),
CLK_LOOKUP("csiphy_timer_clk", csi2phy_timer_clk.c, "msm_csiphy.2"),
CLK_LOOKUP("byte_clk", dsi1_byte_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("byte_clk", dsi2_byte_clk.c, "mipi_dsi.2"),
CLK_LOOKUP("esc_clk", dsi1_esc_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("esc_clk", dsi2_esc_clk.c, "mipi_dsi.2"),
CLK_LOOKUP("rgb_clk", rgb_tv_clk.c, ""),
CLK_LOOKUP("npl_clk", npl_tv_clk.c, ""),
CLK_LOOKUP("core_clk", gfx3d_clk.c, "kgsl-3d0.0"),
CLK_LOOKUP("core_clk", gfx3d_clk.c, "footswitch-8x60.11"),
CLK_LOOKUP("bus_clk",
gfx3d_axi_clk.c, "footswitch-8x60.11"),
CLK_LOOKUP("iface_clk", vcap_p_clk.c, ""),
CLK_LOOKUP("iface_clk", vcap_p_clk.c, "msm_vcap.0"),
CLK_LOOKUP("iface_clk", vcap_p_clk.c, "footswitch-8x60.10"),
CLK_LOOKUP("bus_clk", vcap_axi_clk.c, "footswitch-8x60.10"),
CLK_LOOKUP("core_clk", vcap_clk.c, ""),
CLK_LOOKUP("core_clk", vcap_clk.c, "msm_vcap.0"),
CLK_LOOKUP("core_clk", vcap_clk.c, "footswitch-8x60.10"),
CLK_LOOKUP("vcap_npl_clk", vcap_npl_clk.c, ""),
CLK_LOOKUP("vcap_npl_clk", vcap_npl_clk.c, "msm_vcap.0"),
CLK_LOOKUP("bus_clk", ijpeg_axi_clk.c, "footswitch-8x60.3"),
CLK_LOOKUP("mem_clk", imem_axi_clk.c, "msm_gemini.0"),
CLK_LOOKUP("core_clk", ijpeg_clk.c, "msm_gemini.0"),
CLK_LOOKUP("core_clk", ijpeg_clk.c, "footswitch-8x60.3"),
CLK_LOOKUP("core_clk", jpegd_clk.c, ""),
CLK_LOOKUP("core_clk", mdp_clk.c, "mdp.0"),
CLK_LOOKUP("core_clk", mdp_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("vsync_clk", mdp_vsync_clk.c, "mdp.0"),
CLK_LOOKUP("vsync_clk", mdp_vsync_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("lut_clk", lut_mdp_clk.c, "mdp.0"),
CLK_LOOKUP("lut_clk", lut_mdp_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("core_clk", rot_clk.c, "msm_rotator.0"),
CLK_LOOKUP("core_clk", rot_clk.c, "footswitch-8x60.6"),
CLK_LOOKUP("tv_src_clk", tv_src_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("src_clk", tv_src_clk.c, "dtv.0"),
CLK_LOOKUP("div_clk", tv_src_div_clk.c, ""),
CLK_LOOKUP("core_clk", vcodec_clk.c, "msm_vidc.0"),
CLK_LOOKUP("core_clk", vcodec_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("mdp_clk", mdp_tv_clk.c, "dtv.0"),
CLK_LOOKUP("tv_clk", mdp_tv_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("hdmi_clk", hdmi_tv_clk.c, "dtv.0"),
CLK_LOOKUP("core_clk", hdmi_app_clk.c, "hdmi_msm.1"),
CLK_LOOKUP("vpe_clk", vpe_clk.c, "msm_vpe.0"),
CLK_LOOKUP("core_clk", vpe_clk.c, "footswitch-8x60.9"),
CLK_LOOKUP("vfe_clk", vfe_clk.c, "msm_vfe.0"),
CLK_LOOKUP("core_clk", vfe_clk.c, "footswitch-8x60.8"),
CLK_LOOKUP("csi_vfe_clk", csi_vfe_clk.c, "msm_vfe.0"),
CLK_LOOKUP("bus_clk", vfe_axi_clk.c, "footswitch-8x60.8"),
CLK_LOOKUP("bus_clk", mdp_axi_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("bus_clk", rot_axi_clk.c, "footswitch-8x60.6"),
CLK_LOOKUP("bus_clk", vcodec_axi_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("bus_a_clk", vcodec_axi_a_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("bus_b_clk", vcodec_axi_b_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("bus_clk", vpe_axi_clk.c, "footswitch-8x60.9"),
CLK_LOOKUP("arb_clk", amp_p_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("arb_clk", amp_p_clk.c, "mipi_dsi.2"),
CLK_LOOKUP("csi_pclk", csi_p_clk.c, "msm_csid.0"),
CLK_LOOKUP("csi_pclk", csi_p_clk.c, "msm_csid.1"),
CLK_LOOKUP("csi_pclk", csi_p_clk.c, "msm_csid.2"),
CLK_LOOKUP("master_iface_clk", dsi1_m_p_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("slave_iface_clk", dsi1_s_p_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("master_iface_clk", dsi2_m_p_clk.c, "mipi_dsi.2"),
CLK_LOOKUP("slave_iface_clk", dsi2_s_p_clk.c, "mipi_dsi.2"),
CLK_LOOKUP("iface_clk", gfx3d_p_clk.c, "kgsl-3d0.0"),
CLK_LOOKUP("iface_clk", gfx3d_p_clk.c, "footswitch-8x60.11"),
CLK_LOOKUP("master_iface_clk", hdmi_m_p_clk.c, "hdmi_msm.1"),
CLK_LOOKUP("slave_iface_clk", hdmi_s_p_clk.c, "hdmi_msm.1"),
CLK_LOOKUP("iface_clk", ijpeg_p_clk.c, "msm_gemini.0"),
CLK_LOOKUP("iface_clk", ijpeg_p_clk.c, "footswitch-8x60.3"),
CLK_LOOKUP("iface_clk", jpegd_p_clk.c, ""),
CLK_LOOKUP("mem_iface_clk", imem_p_clk.c, "kgsl-3d0.0"),
CLK_LOOKUP("iface_clk", mdp_p_clk.c, "mdp.0"),
CLK_LOOKUP("iface_clk", mdp_p_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.0"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.1"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.2"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.3"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.4"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.5"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.6"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.7"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.8"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.9"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.10"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.11"),
CLK_LOOKUP("iface_clk", rot_p_clk.c, "msm_rotator.0"),
CLK_LOOKUP("iface_clk", rot_p_clk.c, "footswitch-8x60.6"),
CLK_LOOKUP("iface_clk", vcodec_p_clk.c, "msm_vidc.0"),
CLK_LOOKUP("iface_clk", vcodec_p_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("vfe_pclk", vfe_p_clk.c, "msm_vfe.0"),
CLK_LOOKUP("iface_clk", vfe_p_clk.c, "footswitch-8x60.8"),
CLK_LOOKUP("vpe_pclk", vpe_p_clk.c, "msm_vpe.0"),
CLK_LOOKUP("iface_clk", vpe_p_clk.c, "footswitch-8x60.9"),
CLK_LOOKUP("bit_clk", mi2s_bit_clk.c,
"msm-dai-q6-mi2s"),
CLK_LOOKUP("osr_clk", mi2s_osr_clk.c,
"msm-dai-q6-mi2s"),
CLK_LOOKUP("bit_clk", codec_i2s_mic_bit_clk.c,
"msm-dai-q6.1"),
CLK_LOOKUP("osr_clk", codec_i2s_mic_osr_clk.c,
"msm-dai-q6.1"),
CLK_LOOKUP("bit_clk", spare_i2s_mic_bit_clk.c,
"msm-dai-q6.5"),
CLK_LOOKUP("osr_clk", spare_i2s_mic_osr_clk.c,
"msm-dai-q6.5"),
CLK_LOOKUP("bit_clk", codec_i2s_spkr_bit_clk.c,
"msm-dai-q6.0"),
CLK_LOOKUP("osr_clk", codec_i2s_spkr_osr_clk.c,
"msm-dai-q6.0"),
CLK_LOOKUP("bit_clk", codec_i2s_spkr_bit_clk.c,
"msm-dai-q6.16384"),
CLK_LOOKUP("osr_clk", codec_i2s_spkr_osr_clk.c,
"msm-dai-q6.16384"),
CLK_LOOKUP("bit_clk", spare_i2s_spkr_bit_clk.c,
"msm-dai-q6.4"),
CLK_LOOKUP("osr_clk", spare_i2s_spkr_osr_clk.c,
"msm-dai-q6.4"),
CLK_LOOKUP("pcm_clk", pcm_clk.c, "msm-dai-q6.2"),
CLK_LOOKUP("pcm_clk", pcm_clk.c, "msm-dai-q6.3"),
CLK_LOOKUP("sps_slimbus_clk", sps_slimbus_clk.c, ""),
CLK_LOOKUP("core_clk", audio_slimbus_clk.c, "msm_slim_ctrl.1"),
CLK_LOOKUP("core_clk", jpegd_axi_clk.c, ""),
CLK_LOOKUP("core_clk", vpe_axi_clk.c, ""),
CLK_LOOKUP("core_clk", mdp_axi_clk.c, ""),
CLK_LOOKUP("core_clk", vcap_axi_clk.c, ""),
CLK_LOOKUP("core_clk", rot_axi_clk.c, ""),
CLK_LOOKUP("core_clk", ijpeg_axi_clk.c, ""),
CLK_LOOKUP("core_clk", vfe_axi_clk.c, ""),
CLK_LOOKUP("core_clk", vcodec_axi_a_clk.c, ""),
CLK_LOOKUP("core_clk", vcodec_axi_b_clk.c, ""),
CLK_LOOKUP("core_clk", gfx3d_axi_clk.c, ""),
CLK_LOOKUP("dfab_dsps_clk", dfab_dsps_clk.c, NULL),
CLK_LOOKUP("core_clk", dfab_usb_hs_clk.c, "msm_otg"),
CLK_LOOKUP("core_clk", dfab_usb_hs3_clk.c, "msm_ehci_host.0"),
CLK_LOOKUP("core_clk", dfab_usb_hs3_clk.c, "msm_ehci_host.1"),
CLK_LOOKUP("bus_clk", dfab_sdc1_clk.c, "msm_sdcc.1"),
CLK_LOOKUP("bus_clk", dfab_sdc2_clk.c, "msm_sdcc.2"),
CLK_LOOKUP("bus_clk", dfab_sdc3_clk.c, "msm_sdcc.3"),
CLK_LOOKUP("bus_clk", dfab_sdc4_clk.c, "msm_sdcc.4"),
CLK_LOOKUP("dfab_clk", dfab_sps_clk.c, "msm_sps"),
CLK_LOOKUP("bus_clk", dfab_bam_dmux_clk.c, "BAM_RMNT"),
CLK_LOOKUP("bus_clk", dfab_scm_clk.c, "scm"),
CLK_LOOKUP("alt_core_clk", usb_hsic_xcvr_fs_clk.c, "msm_hsic_host"),
CLK_LOOKUP("phy_clk", usb_hsic_hsic_clk.c, "msm_hsic_host"),
CLK_LOOKUP("cal_clk", usb_hsic_hsio_cal_clk.c, "msm_hsic_host"),
CLK_LOOKUP("core_clk", usb_hsic_system_clk.c, "msm_hsic_host"),
CLK_LOOKUP("iface_clk", usb_hsic_p_clk.c, "msm_hsic_host"),
CLK_LOOKUP("core_clk", jpegd_axi_clk.c, "msm_iommu-v0.0"),
CLK_LOOKUP("core_clk", vpe_axi_clk.c, "msm_iommu-v0.1"),
CLK_LOOKUP("core_clk", mdp_axi_clk.c, "msm_iommu-v0.2"),
CLK_LOOKUP("core_clk", mdp_axi_clk.c, "msm_iommu-v0.3"),
CLK_LOOKUP("core_clk", rot_axi_clk.c, "msm_iommu-v0.4"),
CLK_LOOKUP("core_clk", ijpeg_axi_clk.c, "msm_iommu-v0.5"),
CLK_LOOKUP("core_clk", vfe_axi_clk.c, "msm_iommu-v0.6"),
CLK_LOOKUP("core_clk", vcodec_axi_a_clk.c, "msm_iommu-v0.7"),
CLK_LOOKUP("core_clk", vcodec_axi_b_clk.c, "msm_iommu-v0.8"),
CLK_LOOKUP("core_clk", gfx3d_axi_clk.c, "msm_iommu-v0.9"),
CLK_LOOKUP("core_clk", gfx3d_axi_clk.c, "msm_iommu-v0.10"),
CLK_LOOKUP("core_clk", vcap_axi_clk.c, "msm_iommu-v0.11"),
CLK_LOOKUP("mdp_iommu_clk", mdp_axi_clk.c, "msm_vidc.0"),
CLK_LOOKUP("rot_iommu_clk", rot_axi_clk.c, "msm_vidc.0"),
CLK_LOOKUP("vcodec_iommu0_clk", vcodec_axi_a_clk.c, "msm_vidc.0"),
CLK_LOOKUP("vcodec_iommu1_clk", vcodec_axi_b_clk.c, "msm_vidc.0"),
CLK_LOOKUP("smmu_iface_clk", smmu_p_clk.c, "msm_vidc.0"),
CLK_LOOKUP("core_clk", vcodec_axi_clk.c, "pil_vidc"),
CLK_LOOKUP("smmu_iface_clk", smmu_p_clk.c, "pil_vidc"),
CLK_LOOKUP("mem_clk", ebi1_adm_clk.c, "msm_dmov"),
CLK_LOOKUP("mem_clk", ebi1_acpu_a_clk.c, ""),
CLK_LOOKUP("bus_clk", afab_acpu_a_clk.c, ""),
CLK_LOOKUP("reset1_clk", dsi1_reset_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("reset2_clk", dsi2_reset_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("l2_mclk", l2_m_clk, ""),
CLK_LOOKUP("krait0_mclk", krait0_m_clk, ""),
CLK_LOOKUP("krait1_mclk", krait1_m_clk, ""),
CLK_LOOKUP("krait2_mclk", krait2_m_clk, ""),
CLK_LOOKUP("krait3_mclk", krait3_m_clk, ""),
};
static struct clk_lookup msm_clocks_8960_common[] __initdata = {
CLK_LOOKUP("xo", cxo_a_clk.c, ""),
CLK_LOOKUP("xo", pxo_a_clk.c, ""),
CLK_LOOKUP("cxo", cxo_clk.c, "wcnss_wlan.0"),
CLK_LOOKUP("cxo", cxo_clk.c, "pil_riva"),
CLK_LOOKUP("xo", pxo_clk.c, "pil-q6v4-lpass"),
CLK_LOOKUP("xo", cxo_clk.c, "pil-q6v4-modem"),
CLK_LOOKUP("xo", cxo_clk.c, "BAM_RMNT"),
CLK_LOOKUP("xo", cxo_clk.c, "msm_xo"),
CLK_LOOKUP("vref_buff", cxo_clk.c, "rpm-regulator"),
CLK_LOOKUP("pll2", pll2_clk.c, NULL),
CLK_LOOKUP("pll8", pll8_clk.c, NULL),
CLK_LOOKUP("pll4", pll4_clk.c, NULL),
CLK_LOOKUP("measure", measure_clk.c, "debug"),
CLK_LOOKUP("bus_clk", afab_clk.c, ""),
CLK_LOOKUP("bus_clk", afab_a_clk.c, ""),
CLK_LOOKUP("bus_clk", cfpb_clk.c, ""),
CLK_LOOKUP("bus_clk", cfpb_a_clk.c, ""),
CLK_LOOKUP("bus_clk", dfab_clk.c, ""),
CLK_LOOKUP("bus_clk", dfab_a_clk.c, ""),
CLK_LOOKUP("mem_clk", ebi1_clk.c, ""),
CLK_LOOKUP("mem_clk", ebi1_a_clk.c, ""),
CLK_LOOKUP("bus_clk", mmfab_clk.c, ""),
CLK_LOOKUP("bus_clk", mmfab_a_clk.c, ""),
CLK_LOOKUP("bus_clk", mmfpb_clk.c, ""),
CLK_LOOKUP("bus_clk", mmfpb_a_clk.c, ""),
CLK_LOOKUP("bus_clk", sfab_clk.c, ""),
CLK_LOOKUP("bus_clk", sfab_a_clk.c, ""),
CLK_LOOKUP("bus_clk", sfpb_clk.c, ""),
CLK_LOOKUP("bus_clk", sfpb_a_clk.c, ""),
CLK_LOOKUP("bus_clk", afab_clk.c, "msm_apps_fab"),
CLK_LOOKUP("bus_a_clk", afab_msmbus_a_clk.c, "msm_apps_fab"),
CLK_LOOKUP("bus_clk", cfpb_clk.c, "msm_cpss_fpb"),
CLK_LOOKUP("bus_a_clk", cfpb_a_clk.c, "msm_cpss_fpb"),
CLK_LOOKUP("bus_clk", sfab_clk.c, "msm_sys_fab"),
CLK_LOOKUP("bus_a_clk", sfab_msmbus_a_clk.c, "msm_sys_fab"),
CLK_LOOKUP("bus_clk", sfpb_clk.c, "msm_sys_fpb"),
CLK_LOOKUP("bus_a_clk", sfpb_a_clk.c, "msm_sys_fpb"),
CLK_LOOKUP("bus_clk", mmfab_clk.c, "msm_mm_fab"),
CLK_LOOKUP("bus_a_clk", mmfab_a_clk.c, "msm_mm_fab"),
CLK_LOOKUP("mem_clk", ebi1_msmbus_clk.c, "msm_bus"),
CLK_LOOKUP("mem_a_clk", ebi1_msmbus_a_clk.c, "msm_bus"),
CLK_LOOKUP("dfab_clk", dfab_msmbus_clk.c, "msm_bus"),
CLK_LOOKUP("dfab_a_clk", dfab_msmbus_a_clk.c, "msm_bus"),
CLK_LOOKUP("core_a_clk", qdss_a_clk.c, ""),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-tpiu.0"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etb.0"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-funnel.0"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etm.0"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etm.1"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etm.2"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etm.3"),
CLK_LOOKUP("ebi1_clk", ebi1_clk.c, NULL),
CLK_LOOKUP("mmfpb_clk", mmfpb_clk.c, NULL),
CLK_LOOKUP("mmfpb_a_clk", mmfpb_a_clk.c, "clock-8960"),
CLK_LOOKUP("cfpb_a_clk", cfpb_a_clk.c, "clock-8960"),
CLK_LOOKUP("core_clk", gp0_clk.c, ""),
CLK_LOOKUP("core_clk", gp1_clk.c, ""),
CLK_LOOKUP("core_clk", gp2_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi1_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi2_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi3_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi4_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi5_uart_clk.c, "msm_serial_hsl.0"),
CLK_LOOKUP("core_clk", gsbi6_uart_clk.c, "msm_serial_hs.0"),
CLK_LOOKUP("core_clk", gsbi7_uart_clk.c, ""),
/* used on 8960 SGLTE for console */
CLK_LOOKUP("core_clk", gsbi8_uart_clk.c, "msm_serial_hsl.1"),
/* used on 8960 standalone with Atheros Bluetooth */
CLK_LOOKUP("core_clk", gsbi8_uart_clk.c, "msm_serial_hs.2"),
CLK_LOOKUP("core_clk", gsbi9_uart_clk.c, "msm_serial_hs.1"),
CLK_LOOKUP("core_clk", gsbi10_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi11_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi12_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi1_qup_clk.c, "spi_qsd.0"),
CLK_LOOKUP("core_clk", gsbi2_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi3_qup_clk.c, "qup_i2c.3"),
CLK_LOOKUP("core_clk", gsbi4_qup_clk.c, "qup_i2c.4"),
CLK_LOOKUP("core_clk", gsbi5_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi6_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi7_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi8_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi9_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi10_qup_clk.c, "qup_i2c.10"),
CLK_LOOKUP("core_clk", gsbi11_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi12_qup_clk.c, "qup_i2c.12"),
CLK_LOOKUP("core_clk", pdm_clk.c, ""),
CLK_LOOKUP("mem_clk", pmem_clk.c, "msm_sps"),
CLK_LOOKUP("core_clk", prng_clk.c, "msm_rng.0"),
CLK_LOOKUP("core_clk", sdc1_clk.c, "msm_sdcc.1"),
CLK_LOOKUP("core_clk", sdc2_clk.c, "msm_sdcc.2"),
CLK_LOOKUP("core_clk", sdc3_clk.c, "msm_sdcc.3"),
CLK_LOOKUP("core_clk", sdc4_clk.c, "msm_sdcc.4"),
CLK_LOOKUP("core_clk", sdc5_clk.c, "msm_sdcc.5"),
CLK_LOOKUP("slimbus_xo_src_clk", slimbus_xo_src_clk.c, NULL),
CLK_LOOKUP("core_clk", tssc_clk.c, ""),
CLK_LOOKUP("alt_core_clk", usb_hs1_xcvr_clk.c, "msm_otg"),
CLK_LOOKUP("phy_clk", usb_phy0_clk.c, "msm_otg"),
CLK_LOOKUP("alt_core_clk", usb_fs1_xcvr_clk.c, ""),
CLK_LOOKUP("sys_clk", usb_fs1_sys_clk.c, ""),
CLK_LOOKUP("src_clk", usb_fs1_src_clk.c, ""),
CLK_LOOKUP("alt_core_clk", usb_fs2_xcvr_clk.c, ""),
CLK_LOOKUP("sys_clk", usb_fs2_sys_clk.c, ""),
CLK_LOOKUP("src_clk", usb_fs2_src_clk.c, ""),
CLK_LOOKUP("alt_core_clk", usb_hsic_xcvr_fs_clk.c, "msm_hsic_host"),
CLK_LOOKUP("phy_clk", usb_hsic_hsic_clk.c, "msm_hsic_host"),
CLK_LOOKUP("cal_clk", usb_hsic_hsio_cal_clk.c, "msm_hsic_host"),
CLK_LOOKUP("core_clk", usb_hsic_system_clk.c, "msm_hsic_host"),
CLK_LOOKUP("iface_clk", usb_hsic_p_clk.c, "msm_hsic_host"),
CLK_LOOKUP("iface_clk", ce1_p_clk.c, "qce.0"),
CLK_LOOKUP("iface_clk", ce1_p_clk.c, "qcrypto.0"),
CLK_LOOKUP("core_clk", ce1_core_clk.c, "qce.0"),
CLK_LOOKUP("core_clk", ce1_core_clk.c, "qcrypto.0"),
CLK_LOOKUP("dma_bam_pclk", dma_bam_p_clk.c, NULL),
CLK_LOOKUP("iface_clk", gsbi1_p_clk.c, "spi_qsd.0"),
CLK_LOOKUP("iface_clk", gsbi2_p_clk.c, ""),
CLK_LOOKUP("iface_clk", gsbi3_p_clk.c, "qup_i2c.3"),
CLK_LOOKUP("iface_clk", gsbi4_p_clk.c, "qup_i2c.4"),
CLK_LOOKUP("iface_clk", gsbi5_p_clk.c, "msm_serial_hsl.0"),
CLK_LOOKUP("iface_clk", gsbi6_p_clk.c, "msm_serial_hs.0"),
CLK_LOOKUP("iface_clk", gsbi7_p_clk.c, ""),
/* used on 8960 SGLTE for serial console */
CLK_LOOKUP("iface_clk", gsbi8_p_clk.c, "msm_serial_hsl.1"),
/* used on 8960 standalone with Atheros Bluetooth */
CLK_LOOKUP("iface_clk", gsbi8_p_clk.c, "msm_serial_hs.2"),
CLK_LOOKUP("iface_clk", gsbi9_p_clk.c, "msm_serial_hs.1"),
CLK_LOOKUP("iface_clk", gsbi10_p_clk.c, "qup_i2c.10"),
CLK_LOOKUP("iface_clk", gsbi11_p_clk.c, ""),
CLK_LOOKUP("iface_clk", gsbi12_p_clk.c, "qup_i2c.12"),
CLK_LOOKUP("iface_clk", tsif_p_clk.c, ""),
CLK_LOOKUP("ref_clk", tsif_ref_clk.c, "msm_tspp.0"),
CLK_LOOKUP("iface_clk", tsif_p_clk.c, "msm_tspp.0"),
CLK_LOOKUP("iface_clk", usb_fs1_p_clk.c, ""),
CLK_LOOKUP("iface_clk", usb_fs2_p_clk.c, ""),
CLK_LOOKUP("iface_clk", usb_hs1_p_clk.c, "msm_otg"),
CLK_LOOKUP("iface_clk", sdc1_p_clk.c, "msm_sdcc.1"),
CLK_LOOKUP("iface_clk", sdc2_p_clk.c, "msm_sdcc.2"),
CLK_LOOKUP("iface_clk", sdc3_p_clk.c, "msm_sdcc.3"),
CLK_LOOKUP("iface_clk", sdc4_p_clk.c, "msm_sdcc.4"),
CLK_LOOKUP("iface_clk", sdc5_p_clk.c, "msm_sdcc.5"),
CLK_LOOKUP("core_clk", adm0_clk.c, "msm_dmov"),
CLK_LOOKUP("iface_clk", adm0_p_clk.c, "msm_dmov"),
CLK_LOOKUP("iface_clk", pmic_arb0_p_clk.c, ""),
CLK_LOOKUP("iface_clk", pmic_arb1_p_clk.c, ""),
CLK_LOOKUP("core_clk", pmic_ssbi2_clk.c, ""),
CLK_LOOKUP("mem_clk", rpm_msg_ram_p_clk.c, ""),
CLK_LOOKUP("cam_clk", cam0_clk.c, "4-001a"),
CLK_LOOKUP("cam_clk", cam0_clk.c, "4-006c"),
CLK_LOOKUP("cam_clk", cam0_clk.c, "4-0048"),
CLK_LOOKUP("cam_clk", cam2_clk.c, NULL),
CLK_LOOKUP("cam_clk", cam0_clk.c, "4-0020"),
CLK_LOOKUP("cam_clk", cam0_clk.c, "4-0034"),
CLK_LOOKUP("cam_clk", cam0_clk.c, "4-0010"),
CLK_LOOKUP("csi_src_clk", csi0_src_clk.c, "msm_csid.0"),
CLK_LOOKUP("csi_src_clk", csi1_src_clk.c, "msm_csid.1"),
CLK_LOOKUP("csi_src_clk", csi2_src_clk.c, "msm_csid.2"),
CLK_LOOKUP("csi_clk", csi0_clk.c, "msm_csid.0"),
CLK_LOOKUP("csi_clk", csi1_clk.c, "msm_csid.1"),
CLK_LOOKUP("csi_clk", csi2_clk.c, "msm_csid.2"),
CLK_LOOKUP("csi_phy_clk", csi0_phy_clk.c, "msm_csid.0"),
CLK_LOOKUP("csi_phy_clk", csi1_phy_clk.c, "msm_csid.1"),
CLK_LOOKUP("csi_phy_clk", csi2_phy_clk.c, "msm_csid.2"),
CLK_LOOKUP("csi_pix_clk", csi_pix_clk.c, "msm_ispif.0"),
CLK_LOOKUP("csi_rdi_clk", csi_rdi_clk.c, "msm_ispif.0"),
CLK_LOOKUP("csi_src_clk", csi2_src_clk.c, NULL),
CLK_LOOKUP("csi_clk", csi2_clk.c, NULL),
CLK_LOOKUP("csi_pix1_clk", csi_pix1_clk.c, "msm_ispif.0"),
CLK_LOOKUP("csi_rdi1_clk", csi_rdi1_clk.c, "msm_ispif.0"),
CLK_LOOKUP("csi_rdi2_clk", csi_rdi2_clk.c, "msm_ispif.0"),
CLK_LOOKUP("csi_phy_clk", csi2_phy_clk.c, NULL),
CLK_LOOKUP("csi2phy_timer_clk", csi2phy_timer_clk.c, NULL),
CLK_LOOKUP("csiphy_timer_src_clk",
csiphy_timer_src_clk.c, "msm_csiphy.0"),
CLK_LOOKUP("csiphy_timer_src_clk",
csiphy_timer_src_clk.c, "msm_csiphy.1"),
CLK_LOOKUP("csiphy_timer_src_clk",
csiphy_timer_src_clk.c, "msm_csiphy.2"),
CLK_LOOKUP("csiphy_timer_clk", csi0phy_timer_clk.c, "msm_csiphy.0"),
CLK_LOOKUP("csiphy_timer_clk", csi1phy_timer_clk.c, "msm_csiphy.1"),
CLK_LOOKUP("csiphy_timer_clk", csi2phy_timer_clk.c, "msm_csiphy.2"),
CLK_LOOKUP("byte_clk", dsi1_byte_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("byte_clk", dsi2_byte_clk.c, "mipi_dsi.2"),
CLK_LOOKUP("esc_clk", dsi1_esc_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("esc_clk", dsi2_esc_clk.c, "mipi_dsi.2"),
CLK_LOOKUP("core_clk", gfx3d_clk.c, "kgsl-3d0.0"),
CLK_LOOKUP("core_clk", gfx3d_clk.c, "footswitch-8x60.2"),
CLK_LOOKUP("bus_clk", ijpeg_axi_clk.c, "footswitch-8x60.3"),
CLK_LOOKUP("mem_clk", imem_axi_clk.c, "msm_gemini.0"),
CLK_LOOKUP("core_clk", ijpeg_clk.c, "msm_gemini.0"),
CLK_LOOKUP("core_clk", ijpeg_clk.c, "footswitch-8x60.3"),
CLK_LOOKUP("core_clk", jpegd_clk.c, "msm_mercury.0"),
CLK_LOOKUP("iface_clk", jpegd_p_clk.c, "msm_mercury.0"),
CLK_LOOKUP("core_clk", mdp_clk.c, "mdp.0"),
CLK_LOOKUP("core_clk", mdp_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("vsync_clk", mdp_vsync_clk.c, "mdp.0"),
CLK_LOOKUP("vsync_clk", mdp_vsync_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("lut_clk", lut_mdp_clk.c, "mdp.0"),
CLK_LOOKUP("lut_clk", lut_mdp_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("core_clk", rot_clk.c, "msm_rotator.0"),
CLK_LOOKUP("core_clk", rot_clk.c, "footswitch-8x60.6"),
CLK_LOOKUP("src_clk", tv_src_clk.c, "dtv.0"),
CLK_LOOKUP("src_clk", tv_src_clk.c, "tvenc.0"),
CLK_LOOKUP("tv_src_clk", tv_src_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("core_clk", vcodec_clk.c, "msm_vidc.0"),
CLK_LOOKUP("core_clk", vcodec_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("mdp_clk", mdp_tv_clk.c, "dtv.0"),
CLK_LOOKUP("mdp_clk", mdp_tv_clk.c, "tvenc.0"),
CLK_LOOKUP("tv_clk", mdp_tv_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("hdmi_clk", hdmi_tv_clk.c, "dtv.0"),
CLK_LOOKUP("core_clk", hdmi_app_clk.c, "hdmi_msm.1"),
CLK_LOOKUP("vpe_clk", vpe_clk.c, "msm_vpe.0"),
CLK_LOOKUP("core_clk", vpe_clk.c, "footswitch-8x60.9"),
CLK_LOOKUP("vfe_clk", vfe_clk.c, "msm_vfe.0"),
CLK_LOOKUP("core_clk", vfe_clk.c, "footswitch-8x60.8"),
CLK_LOOKUP("csi_vfe_clk", csi_vfe_clk.c, "msm_vfe.0"),
CLK_LOOKUP("bus_clk", vfe_axi_clk.c, "footswitch-8x60.8"),
CLK_LOOKUP("bus_clk", mdp_axi_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("bus_clk", rot_axi_clk.c, "footswitch-8x60.6"),
CLK_LOOKUP("bus_clk", vcodec_axi_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("bus_a_clk", vcodec_axi_a_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("bus_b_clk", vcodec_axi_b_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("bus_clk", vpe_axi_clk.c, "footswitch-8x60.9"),
CLK_LOOKUP("arb_clk", amp_p_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("arb_clk", amp_p_clk.c, "mipi_dsi.2"),
CLK_LOOKUP("csi_pclk", csi_p_clk.c, "msm_csid.0"),
CLK_LOOKUP("csi_pclk", csi_p_clk.c, "msm_csid.1"),
CLK_LOOKUP("csi_pclk", csi_p_clk.c, "msm_csid.2"),
CLK_LOOKUP("master_iface_clk", dsi1_m_p_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("slave_iface_clk", dsi1_s_p_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("master_iface_clk", dsi2_m_p_clk.c, "mipi_dsi.2"),
CLK_LOOKUP("slave_iface_clk", dsi2_s_p_clk.c, "mipi_dsi.2"),
CLK_LOOKUP("iface_clk", gfx3d_p_clk.c, "kgsl-3d0.0"),
CLK_LOOKUP("iface_clk", gfx3d_p_clk.c, "footswitch-8x60.2"),
CLK_LOOKUP("master_iface_clk", hdmi_m_p_clk.c, "hdmi_msm.1"),
CLK_LOOKUP("slave_iface_clk", hdmi_s_p_clk.c, "hdmi_msm.1"),
CLK_LOOKUP("iface_clk", ijpeg_p_clk.c, "msm_gemini.0"),
CLK_LOOKUP("iface_clk", ijpeg_p_clk.c, "footswitch-8x60.3"),
CLK_LOOKUP("iface_clk", jpegd_p_clk.c, ""),
CLK_LOOKUP("mem_iface_clk", imem_p_clk.c, "kgsl-3d0.0"),
CLK_LOOKUP("iface_clk", mdp_p_clk.c, "mdp.0"),
CLK_LOOKUP("iface_clk", mdp_p_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.0"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.1"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.2"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.3"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.4"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.5"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.6"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.7"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.8"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.9"),
CLK_LOOKUP("iface_clk", rot_p_clk.c, "msm_rotator.0"),
CLK_LOOKUP("iface_clk", rot_p_clk.c, "footswitch-8x60.6"),
CLK_LOOKUP("iface_clk", vcodec_p_clk.c, "msm_vidc.0"),
CLK_LOOKUP("iface_clk", vcodec_p_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("vfe_pclk", vfe_p_clk.c, "msm_vfe.0"),
CLK_LOOKUP("iface_clk", vfe_p_clk.c, "footswitch-8x60.8"),
CLK_LOOKUP("vpe_pclk", vpe_p_clk.c, "msm_vpe.0"),
CLK_LOOKUP("iface_clk", vpe_p_clk.c, "footswitch-8x60.9"),
CLK_LOOKUP("bit_clk", mi2s_bit_clk.c,
"msm-dai-q6-mi2s"),
CLK_LOOKUP("osr_clk", mi2s_osr_clk.c,
"msm-dai-q6-mi2s"),
CLK_LOOKUP("bit_clk", codec_i2s_mic_bit_clk.c,
"msm-dai-q6.1"),
CLK_LOOKUP("osr_clk", codec_i2s_mic_osr_clk.c,
"msm-dai-q6.1"),
CLK_LOOKUP("bit_clk", spare_i2s_mic_bit_clk.c,
"msm-dai-q6.5"),
CLK_LOOKUP("osr_clk", spare_i2s_mic_osr_clk.c,
"msm-dai-q6.5"),
CLK_LOOKUP("bit_clk", codec_i2s_spkr_bit_clk.c,
"msm-dai-q6.0"),
CLK_LOOKUP("osr_clk", codec_i2s_spkr_osr_clk.c,
"msm-dai-q6.0"),
CLK_LOOKUP("bit_clk", codec_i2s_spkr_bit_clk.c,
"msm-dai-q6.16384"),
CLK_LOOKUP("osr_clk", codec_i2s_spkr_osr_clk.c,
"msm-dai-q6.16384"),
CLK_LOOKUP("bit_clk", spare_i2s_spkr_bit_clk.c,
"msm-dai-q6.4"),
CLK_LOOKUP("osr_clk", spare_i2s_spkr_osr_clk.c,
"msm-dai-q6.4"),
CLK_LOOKUP("pcm_clk", pcm_clk.c, "msm-dai-q6.2"),
CLK_LOOKUP("pcm_clk", pcm_clk.c, "msm-dai-q6.3"),
CLK_LOOKUP("sps_slimbus_clk", sps_slimbus_clk.c, NULL),
CLK_LOOKUP("core_clk", audio_slimbus_clk.c, "msm_slim_ctrl.1"),
CLK_LOOKUP("core_clk", jpegd_axi_clk.c, "msm_iommu-v0.0"),
CLK_LOOKUP("core_clk", vpe_axi_clk.c, "msm_iommu-v0.1"),
CLK_LOOKUP("core_clk", mdp_axi_clk.c, "msm_iommu-v0.2"),
CLK_LOOKUP("core_clk", mdp_axi_clk.c, "msm_iommu-v0.3"),
CLK_LOOKUP("core_clk", rot_axi_clk.c, "msm_iommu-v0.4"),
CLK_LOOKUP("core_clk", ijpeg_axi_clk.c, "msm_iommu-v0.5"),
CLK_LOOKUP("core_clk", vfe_axi_clk.c, "msm_iommu-v0.6"),
CLK_LOOKUP("core_clk", vcodec_axi_a_clk.c, "msm_iommu-v0.7"),
CLK_LOOKUP("core_clk", vcodec_axi_b_clk.c, "msm_iommu-v0.8"),
CLK_LOOKUP("core_clk", gfx3d_clk.c, "msm_iommu-v0.9"),
CLK_LOOKUP("mdp_iommu_clk", mdp_axi_clk.c, "msm_vidc.0"),
CLK_LOOKUP("rot_iommu_clk", rot_axi_clk.c, "msm_vidc.0"),
CLK_LOOKUP("vcodec_iommu0_clk", vcodec_axi_a_clk.c, "msm_vidc.0"),
CLK_LOOKUP("vcodec_iommu1_clk", vcodec_axi_b_clk.c, "msm_vidc.0"),
CLK_LOOKUP("smmu_iface_clk", smmu_p_clk.c, "msm_vidc.0"),
CLK_LOOKUP("core_clk", vcodec_axi_clk.c, "pil_vidc"),
CLK_LOOKUP("smmu_iface_clk", smmu_p_clk.c, "pil_vidc"),
CLK_LOOKUP("dfab_dsps_clk", dfab_dsps_clk.c, NULL),
CLK_LOOKUP("core_clk", dfab_usb_hs_clk.c, "msm_otg"),
CLK_LOOKUP("bus_clk", dfab_sdc1_clk.c, "msm_sdcc.1"),
CLK_LOOKUP("bus_clk", dfab_sdc2_clk.c, "msm_sdcc.2"),
CLK_LOOKUP("bus_clk", dfab_sdc3_clk.c, "msm_sdcc.3"),
CLK_LOOKUP("bus_clk", dfab_sdc4_clk.c, "msm_sdcc.4"),
CLK_LOOKUP("bus_clk", dfab_sdc5_clk.c, "msm_sdcc.5"),
CLK_LOOKUP("dfab_clk", dfab_sps_clk.c, "msm_sps"),
CLK_LOOKUP("bus_clk", dfab_bam_dmux_clk.c, "BAM_RMNT"),
CLK_LOOKUP("bus_clk", dfab_scm_clk.c, "scm"),
CLK_LOOKUP("mem_clk", ebi1_adm_clk.c, "msm_dmov"),
CLK_LOOKUP("mem_clk", ebi1_acpu_a_clk.c, ""),
CLK_LOOKUP("bus_clk", afab_acpu_a_clk.c, ""),
CLK_LOOKUP("reset1_clk", dsi1_reset_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("reset2_clk", dsi2_reset_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("l2_mclk", l2_m_clk, ""),
CLK_LOOKUP("krait0_mclk", krait0_m_clk, ""),
CLK_LOOKUP("krait1_mclk", krait1_m_clk, ""),
CLK_LOOKUP("q6sw_clk", q6sw_clk, ""),
CLK_LOOKUP("q6fw_clk", q6fw_clk, ""),
CLK_LOOKUP("q6_func_clk", q6_func_clk, ""),
};
static struct clk_lookup msm_clocks_8960_only[] __initdata = {
CLK_LOOKUP("enc_clk", tv_enc_clk.c, "tvenc.0"),
CLK_LOOKUP("dac_clk", tv_dac_clk.c, "tvenc.0"),
CLK_LOOKUP("iface_clk", tv_enc_p_clk.c, "tvenc.0"),
CLK_LOOKUP("core_clk", gfx2d0_clk.c, "kgsl-2d0.0"),
CLK_LOOKUP("core_clk", gfx2d0_clk.c, "footswitch-8x60.0"),
CLK_LOOKUP("core_clk", gfx2d1_clk.c, "kgsl-2d1.1"),
CLK_LOOKUP("core_clk", gfx2d1_clk.c, "footswitch-8x60.1"),
CLK_LOOKUP("iface_clk", gfx2d0_p_clk.c, "kgsl-2d0.0"),
CLK_LOOKUP("iface_clk", gfx2d0_p_clk.c, "footswitch-8x60.0"),
CLK_LOOKUP("iface_clk", gfx2d1_p_clk.c, "kgsl-2d1.1"),
CLK_LOOKUP("iface_clk", gfx2d1_p_clk.c, "footswitch-8x60.1"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.10"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.11"),
CLK_LOOKUP("core_clk", gfx2d0_clk.c, "msm_iommu-v0.10"),
CLK_LOOKUP("core_clk", gfx2d1_clk.c, "msm_iommu-v0.11"),
};
static struct clk_lookup msm_clocks_8960ab_only[] __initdata = {
CLK_LOOKUP("bus_clk", gfx3d_axi_clk.c, "footswitch-8x60.2"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.10"),
CLK_LOOKUP("core_clk", gfx3d_axi_clk.c, "msm_iommu-v0.10"),
CLK_LOOKUP("div_clk", tv_src_div_clk.c, ""),
};
static struct clk_lookup msm_clocks_8960[ARRAY_SIZE(msm_clocks_8960_common)
+ ARRAY_SIZE(msm_clocks_8960_only)
+ ARRAY_SIZE(msm_clocks_8960ab_only)];
static struct clk_lookup msm_clocks_8930[] = {
CLK_LOOKUP("xo", cxo_clk.c, "msm_xo"),
CLK_LOOKUP("cxo", cxo_clk.c, "wcnss_wlan.0"),
CLK_LOOKUP("cxo", cxo_clk.c, "pil_riva"),
CLK_LOOKUP("xo", pxo_clk.c, "pil-q6v4-lpass"),
CLK_LOOKUP("xo", cxo_clk.c, "pil-q6v4-modem"),
CLK_LOOKUP("xo", cxo_clk.c, "BAM_RMNT"),
CLK_LOOKUP("vref_buff", cxo_clk.c, "rpm-regulator"),
CLK_LOOKUP("pll2", pll2_clk.c, NULL),
CLK_LOOKUP("pll8", pll8_clk.c, NULL),
CLK_LOOKUP("pll4", pll4_clk.c, NULL),
CLK_LOOKUP("measure", measure_clk.c, "debug"),
CLK_LOOKUP("bus_clk", afab_clk.c, ""),
CLK_LOOKUP("bus_clk", afab_a_clk.c, ""),
CLK_LOOKUP("bus_clk", cfpb_clk.c, ""),
CLK_LOOKUP("bus_clk", cfpb_a_clk.c, ""),
CLK_LOOKUP("bus_clk", dfab_clk.c, ""),
CLK_LOOKUP("bus_clk", dfab_a_clk.c, ""),
CLK_LOOKUP("mem_clk", ebi1_clk.c, ""),
CLK_LOOKUP("mem_clk", ebi1_a_clk.c, ""),
CLK_LOOKUP("bus_clk", mmfab_clk.c, ""),
CLK_LOOKUP("bus_clk", mmfab_a_clk.c, ""),
CLK_LOOKUP("bus_clk", mmfpb_clk.c, ""),
CLK_LOOKUP("bus_clk", mmfpb_a_clk.c, ""),
CLK_LOOKUP("bus_clk", sfab_clk.c, ""),
CLK_LOOKUP("bus_clk", sfab_a_clk.c, ""),
CLK_LOOKUP("bus_clk", sfpb_clk.c, ""),
CLK_LOOKUP("bus_clk", sfpb_a_clk.c, ""),
CLK_LOOKUP("bus_clk", afab_clk.c, "msm_apps_fab"),
CLK_LOOKUP("bus_a_clk", afab_msmbus_a_clk.c, "msm_apps_fab"),
CLK_LOOKUP("bus_clk", cfpb_clk.c, "msm_cpss_fpb"),
CLK_LOOKUP("bus_a_clk", cfpb_a_clk.c, "msm_cpss_fpb"),
CLK_LOOKUP("bus_clk", sfab_clk.c, "msm_sys_fab"),
CLK_LOOKUP("bus_a_clk", sfab_msmbus_a_clk.c, "msm_sys_fab"),
CLK_LOOKUP("bus_clk", sfpb_clk.c, "msm_sys_fpb"),
CLK_LOOKUP("bus_a_clk", sfpb_a_clk.c, "msm_sys_fpb"),
CLK_LOOKUP("bus_clk", mmfab_clk.c, "msm_mm_fab"),
CLK_LOOKUP("bus_a_clk", mmfab_a_clk.c, "msm_mm_fab"),
CLK_LOOKUP("mem_clk", ebi1_msmbus_clk.c, "msm_bus"),
CLK_LOOKUP("mem_a_clk", ebi1_msmbus_a_clk.c, "msm_bus"),
CLK_LOOKUP("dfab_clk", dfab_msmbus_clk.c, "msm_bus"),
CLK_LOOKUP("dfab_a_clk", dfab_msmbus_a_clk.c, "msm_bus"),
CLK_LOOKUP("core_a_clk", qdss_a_clk.c, ""),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-tpiu.0"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etb.0"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-funnel.0"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etm.0"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etm.1"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etm.2"),
CLK_LOOKUP("core_clk", qdss_clk.c, "coresight-etm.3"),
CLK_LOOKUP("ebi1_clk", ebi1_clk.c, NULL),
CLK_LOOKUP("mmfpb_clk", mmfpb_clk.c, NULL),
CLK_LOOKUP("mmfpb_a_clk", mmfpb_a_clk.c, "clock-8960"),
CLK_LOOKUP("cfpb_a_clk", cfpb_a_clk.c, "clock-8960"),
CLK_LOOKUP("core_clk", gp0_clk.c, ""),
CLK_LOOKUP("core_clk", gp1_clk.c, ""),
CLK_LOOKUP("core_clk", gp2_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi1_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi2_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi3_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi4_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi5_uart_clk.c, "msm_serial_hsl.0"),
CLK_LOOKUP("core_clk", gsbi6_uart_clk.c, "msm_serial_hs.0"),
CLK_LOOKUP("core_clk", gsbi7_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi8_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi9_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi10_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi11_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi12_uart_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi1_qup_clk.c, "spi_qsd.0"),
CLK_LOOKUP("core_clk", gsbi2_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi3_qup_clk.c, "qup_i2c.3"),
CLK_LOOKUP("core_clk", gsbi4_qup_clk.c, "qup_i2c.4"),
CLK_LOOKUP("core_clk", gsbi5_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi6_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi7_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi8_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi9_qup_clk.c, "qup_i2c.0"),
CLK_LOOKUP("core_clk", gsbi10_qup_clk.c, "qup_i2c.10"),
CLK_LOOKUP("core_clk", gsbi11_qup_clk.c, ""),
CLK_LOOKUP("core_clk", gsbi12_qup_clk.c, "qup_i2c.12"),
CLK_LOOKUP("core_clk", pdm_clk.c, ""),
CLK_LOOKUP("mem_clk", pmem_clk.c, "msm_sps"),
CLK_LOOKUP("core_clk", prng_clk.c, "msm_rng.0"),
CLK_LOOKUP("core_clk", sdc1_clk.c, "msm_sdcc.1"),
CLK_LOOKUP("core_clk", sdc2_clk.c, "msm_sdcc.2"),
CLK_LOOKUP("core_clk", sdc3_clk.c, "msm_sdcc.3"),
CLK_LOOKUP("core_clk", sdc4_clk.c, "msm_sdcc.4"),
CLK_LOOKUP("core_clk", sdc5_clk.c, "msm_sdcc.5"),
CLK_LOOKUP("ref_clk", tsif_ref_clk.c, ""),
CLK_LOOKUP("core_clk", tssc_clk.c, ""),
CLK_LOOKUP("alt_core_clk", usb_hs1_xcvr_clk.c, "msm_otg"),
CLK_LOOKUP("phy_clk", usb_phy0_clk.c, "msm_otg"),
CLK_LOOKUP("alt_core_clk", usb_fs1_xcvr_clk.c, ""),
CLK_LOOKUP("sys_clk", usb_fs1_sys_clk.c, ""),
CLK_LOOKUP("src_clk", usb_fs1_src_clk.c, ""),
CLK_LOOKUP("alt_core_clk", usb_fs2_xcvr_clk.c, ""),
CLK_LOOKUP("sys_clk", usb_fs2_sys_clk.c, ""),
CLK_LOOKUP("src_clk", usb_fs2_src_clk.c, ""),
CLK_LOOKUP("alt_core_clk", usb_hsic_xcvr_fs_clk.c, "msm_hsic_host"),
CLK_LOOKUP("phy_clk", usb_hsic_hsic_clk.c, "msm_hsic_host"),
CLK_LOOKUP("cal_clk", usb_hsic_hsio_cal_clk.c, "msm_hsic_host"),
CLK_LOOKUP("core_clk", usb_hsic_system_clk.c, "msm_hsic_host"),
CLK_LOOKUP("iface_clk", usb_hsic_p_clk.c, "msm_hsic_host"),
CLK_LOOKUP("iface_clk", ce1_p_clk.c, "qce.0"),
CLK_LOOKUP("iface_clk", ce1_p_clk.c, "qcrypto.0"),
CLK_LOOKUP("core_clk", ce1_core_clk.c, "qce.0"),
CLK_LOOKUP("core_clk", ce1_core_clk.c, "qcrypto.0"),
CLK_LOOKUP("dma_bam_pclk", dma_bam_p_clk.c, NULL),
CLK_LOOKUP("iface_clk", gsbi1_p_clk.c, "spi_qsd.0"),
CLK_LOOKUP("iface_clk", gsbi2_p_clk.c, ""),
CLK_LOOKUP("iface_clk", gsbi3_p_clk.c, "qup_i2c.3"),
CLK_LOOKUP("iface_clk", gsbi4_p_clk.c, "qup_i2c.4"),
CLK_LOOKUP("iface_clk", gsbi5_p_clk.c, "msm_serial_hsl.0"),
CLK_LOOKUP("iface_clk", gsbi6_p_clk.c, "msm_serial_hs.0"),
CLK_LOOKUP("iface_clk", gsbi7_p_clk.c, ""),
CLK_LOOKUP("iface_clk", gsbi8_p_clk.c, ""),
CLK_LOOKUP("iface_clk", gsbi9_p_clk.c, "qup_i2c.0"),
CLK_LOOKUP("iface_clk", gsbi10_p_clk.c, "qup_i2c.10"),
CLK_LOOKUP("iface_clk", gsbi11_p_clk.c, ""),
CLK_LOOKUP("iface_clk", gsbi12_p_clk.c, "qup_i2c.12"),
CLK_LOOKUP("iface_clk", tsif_p_clk.c, ""),
CLK_LOOKUP("iface_clk", usb_fs1_p_clk.c, ""),
CLK_LOOKUP("iface_clk", usb_fs2_p_clk.c, ""),
CLK_LOOKUP("iface_clk", usb_hs1_p_clk.c, "msm_otg"),
CLK_LOOKUP("iface_clk", sdc1_p_clk.c, "msm_sdcc.1"),
CLK_LOOKUP("iface_clk", sdc2_p_clk.c, "msm_sdcc.2"),
CLK_LOOKUP("iface_clk", sdc3_p_clk.c, "msm_sdcc.3"),
CLK_LOOKUP("iface_clk", sdc4_p_clk.c, "msm_sdcc.4"),
CLK_LOOKUP("iface_clk", sdc5_p_clk.c, "msm_sdcc.5"),
CLK_LOOKUP("core_clk", adm0_clk.c, "msm_dmov"),
CLK_LOOKUP("iface_clk", adm0_p_clk.c, "msm_dmov"),
CLK_LOOKUP("iface_clk", pmic_arb0_p_clk.c, ""),
CLK_LOOKUP("iface_clk", pmic_arb1_p_clk.c, ""),
CLK_LOOKUP("core_clk", pmic_ssbi2_clk.c, ""),
CLK_LOOKUP("mem_clk", rpm_msg_ram_p_clk.c, ""),
CLK_LOOKUP("cam_clk", cam0_clk.c, "4-001a"),
CLK_LOOKUP("cam_clk", cam1_clk.c, "4-006c"),
CLK_LOOKUP("cam_clk", cam1_clk.c, "4-0048"),
CLK_LOOKUP("cam_clk", cam2_clk.c, NULL),
CLK_LOOKUP("cam_clk", cam0_clk.c, "4-0020"),
CLK_LOOKUP("csi_src_clk", csi0_src_clk.c, "msm_csid.0"),
CLK_LOOKUP("csi_src_clk", csi1_src_clk.c, "msm_csid.1"),
CLK_LOOKUP("csi_src_clk", csi2_src_clk.c, "msm_csid.2"),
CLK_LOOKUP("csi_clk", csi0_clk.c, "msm_csid.0"),
CLK_LOOKUP("csi_clk", csi1_clk.c, "msm_csid.1"),
CLK_LOOKUP("csi_clk", csi2_clk.c, "msm_csid.2"),
CLK_LOOKUP("csi_phy_clk", csi0_phy_clk.c, "msm_csid.0"),
CLK_LOOKUP("csi_phy_clk", csi1_phy_clk.c, "msm_csid.1"),
CLK_LOOKUP("csi_phy_clk", csi2_phy_clk.c, "msm_csid.2"),
CLK_LOOKUP("csi_pix_clk", csi_pix_clk.c, "msm_ispif.0"),
CLK_LOOKUP("csi_rdi_clk", csi_rdi_clk.c, "msm_ispif.0"),
CLK_LOOKUP("csi_src_clk", csi2_src_clk.c, NULL),
CLK_LOOKUP("csi_clk", csi2_clk.c, NULL),
CLK_LOOKUP("csi_pix1_clk", csi_pix1_clk.c, "msm_ispif.0"),
CLK_LOOKUP("csi_rdi1_clk", csi_rdi1_clk.c, "msm_ispif.0"),
CLK_LOOKUP("csi_rdi2_clk", csi_rdi2_clk.c, "msm_ispif.0"),
CLK_LOOKUP("csi_phy_clk", csi2_phy_clk.c, NULL),
CLK_LOOKUP("csi2phy_timer_clk", csi2phy_timer_clk.c, NULL),
CLK_LOOKUP("csiphy_timer_src_clk",
csiphy_timer_src_clk.c, "msm_csiphy.0"),
CLK_LOOKUP("csiphy_timer_src_clk",
csiphy_timer_src_clk.c, "msm_csiphy.1"),
CLK_LOOKUP("csiphy_timer_src_clk",
csiphy_timer_src_clk.c, "msm_csiphy.2"),
CLK_LOOKUP("csiphy_timer_clk", csi0phy_timer_clk.c, "msm_csiphy.0"),
CLK_LOOKUP("csiphy_timer_clk", csi1phy_timer_clk.c, "msm_csiphy.1"),
CLK_LOOKUP("csiphy_timer_clk", csi2phy_timer_clk.c, "msm_csiphy.2"),
CLK_LOOKUP("byte_clk", dsi1_byte_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("esc_clk", dsi1_esc_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("core_clk", gfx3d_clk.c, "kgsl-3d0.0"),
CLK_LOOKUP("core_clk", gfx3d_clk.c, "footswitch-8x60.2"),
CLK_LOOKUP("bus_clk",
gfx3d_axi_clk_8930.c, "footswitch-8x60.2"),
CLK_LOOKUP("bus_clk", ijpeg_axi_clk.c, "footswitch-8x60.3"),
CLK_LOOKUP("mem_clk", imem_axi_clk.c, "msm_gemini.0"),
CLK_LOOKUP("core_clk", ijpeg_clk.c, "msm_gemini.0"),
CLK_LOOKUP("core_clk", ijpeg_clk.c, "footswitch-8x60.3"),
CLK_LOOKUP("core_clk", mdp_clk.c, "mdp.0"),
CLK_LOOKUP("core_clk", mdp_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("vsync_clk", mdp_vsync_clk.c, "mdp.0"),
CLK_LOOKUP("vsync_clk", mdp_vsync_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("lut_clk", lut_mdp_clk.c, "mdp.0"),
CLK_LOOKUP("lut_clk", lut_mdp_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("core_clk", rot_clk.c, "msm_rotator.0"),
CLK_LOOKUP("core_clk", rot_clk.c, "footswitch-8x60.6"),
CLK_LOOKUP("src_clk", tv_src_clk.c, "dtv.0"),
CLK_LOOKUP("src_clk", tv_src_clk.c, "tvenc.0"),
CLK_LOOKUP("tv_src_clk", tv_src_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("dac_clk", tv_dac_clk.c, "tvenc.0"),
CLK_LOOKUP("core_clk", vcodec_clk.c, "msm_vidc.0"),
CLK_LOOKUP("core_clk", vcodec_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("mdp_clk", mdp_tv_clk.c, "dtv.0"),
CLK_LOOKUP("mdp_clk", mdp_tv_clk.c, "tvenc.0"),
CLK_LOOKUP("tv_clk", mdp_tv_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("hdmi_clk", hdmi_tv_clk.c, "dtv.0"),
CLK_LOOKUP("core_clk", hdmi_app_clk.c, "hdmi_msm.1"),
CLK_LOOKUP("vpe_clk", vpe_clk.c, "msm_vpe.0"),
CLK_LOOKUP("core_clk", vpe_clk.c, "footswitch-8x60.9"),
CLK_LOOKUP("vfe_clk", vfe_clk.c, "msm_vfe.0"),
CLK_LOOKUP("core_clk", vfe_clk.c, "footswitch-8x60.8"),
CLK_LOOKUP("csi_vfe_clk", csi_vfe_clk.c, "msm_vfe.0"),
CLK_LOOKUP("bus_clk", vfe_axi_clk.c, "footswitch-8x60.8"),
CLK_LOOKUP("bus_clk", mdp_axi_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("bus_clk", rot_axi_clk.c, "footswitch-8x60.6"),
CLK_LOOKUP("bus_clk", vcodec_axi_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("bus_a_clk", vcodec_axi_a_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("bus_b_clk", vcodec_axi_b_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("bus_clk", vpe_axi_clk.c, "footswitch-8x60.9"),
CLK_LOOKUP("arb_clk", amp_p_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("csi_pclk", csi_p_clk.c, "msm_csid.0"),
CLK_LOOKUP("csi_pclk", csi_p_clk.c, "msm_csid.1"),
CLK_LOOKUP("csi_pclk", csi_p_clk.c, "msm_csid.2"),
CLK_LOOKUP("master_iface_clk", dsi1_m_p_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("slave_iface_clk", dsi1_s_p_clk.c, "mipi_dsi.1"),
CLK_LOOKUP("iface_clk", gfx3d_p_clk.c, "kgsl-3d0.0"),
CLK_LOOKUP("iface_clk", gfx3d_p_clk.c, "footswitch-8x60.2"),
CLK_LOOKUP("master_iface_clk", hdmi_m_p_clk.c, "hdmi_msm.1"),
CLK_LOOKUP("slave_iface_clk", hdmi_s_p_clk.c, "hdmi_msm.1"),
CLK_LOOKUP("iface_clk", ijpeg_p_clk.c, "msm_gemini.0"),
CLK_LOOKUP("iface_clk", ijpeg_p_clk.c, "footswitch-8x60.3"),
CLK_LOOKUP("mem_iface_clk", imem_p_clk.c, "kgsl-3d0.0"),
CLK_LOOKUP("iface_clk", mdp_p_clk.c, "mdp.0"),
CLK_LOOKUP("iface_clk", mdp_p_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.0"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.1"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.2"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.3"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.4"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.5"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.6"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.7"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.8"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.9"),
CLK_LOOKUP("iface_clk", smmu_p_clk.c, "msm_iommu-v0.10"),
CLK_LOOKUP("iface_clk", rot_p_clk.c, "msm_rotator.0"),
CLK_LOOKUP("iface_clk", rot_p_clk.c, "footswitch-8x60.6"),
CLK_LOOKUP("iface_clk", vcodec_p_clk.c, "msm_vidc.0"),
CLK_LOOKUP("iface_clk", vcodec_p_clk.c, "footswitch-8x60.7"),
CLK_LOOKUP("vfe_pclk", vfe_p_clk.c, "msm_vfe.0"),
CLK_LOOKUP("iface_clk", vfe_p_clk.c, "footswitch-8x60.8"),
CLK_LOOKUP("vpe_pclk", vpe_p_clk.c, "msm_vpe.0"),
CLK_LOOKUP("iface_clk", vpe_p_clk.c, "footswitch-8x60.9"),
CLK_LOOKUP("bit_clk", mi2s_bit_clk.c, "msm-dai-q6.6"),
CLK_LOOKUP("osr_clk", mi2s_osr_clk.c, "msm-dai-q6.6"),
CLK_LOOKUP("bit_clk", codec_i2s_mic_bit_clk.c,
"msm-dai-q6.1"),
CLK_LOOKUP("osr_clk", codec_i2s_mic_osr_clk.c,
"msm-dai-q6.1"),
CLK_LOOKUP("bit_clk", spare_i2s_mic_bit_clk.c,
"msm-dai-q6.5"),
CLK_LOOKUP("osr_clk", spare_i2s_mic_osr_clk.c,
"msm-dai-q6.5"),
CLK_LOOKUP("bit_clk", codec_i2s_spkr_bit_clk.c,
"msm-dai-q6.0"),
CLK_LOOKUP("osr_clk", codec_i2s_spkr_osr_clk.c,
"msm-dai-q6.0"),
CLK_LOOKUP("bit_clk", codec_i2s_spkr_bit_clk.c,
"msm-dai-q6.16384"),
CLK_LOOKUP("osr_clk", codec_i2s_spkr_osr_clk.c,
"msm-dai-q6.16384"),
CLK_LOOKUP("bit_clk", spare_i2s_spkr_bit_clk.c,
"msm-dai-q6.4"),
CLK_LOOKUP("osr_clk", spare_i2s_spkr_osr_clk.c,
"msm-dai-q6.4"),
CLK_LOOKUP("pcm_clk", pcm_clk.c, "msm-dai-q6.2"),
CLK_LOOKUP("sps_slimbus_clk", sps_slimbus_clk.c, NULL),
CLK_LOOKUP("core_clk", audio_slimbus_clk.c, "msm_slim_ctrl.1"),
CLK_LOOKUP("core_clk", vpe_axi_clk.c, "msm_iommu-v0.1"),
CLK_LOOKUP("core_clk", mdp_axi_clk.c, "msm_iommu-v0.2"),
CLK_LOOKUP("core_clk", mdp_axi_clk.c, "msm_iommu-v0.3"),
CLK_LOOKUP("core_clk", rot_axi_clk.c, "msm_iommu-v0.4"),
CLK_LOOKUP("core_clk", ijpeg_axi_clk.c, "msm_iommu-v0.5"),
CLK_LOOKUP("core_clk", vfe_axi_clk.c, "msm_iommu-v0.6"),
CLK_LOOKUP("core_clk", vcodec_axi_a_clk.c, "msm_iommu-v0.7"),
CLK_LOOKUP("core_clk", vcodec_axi_b_clk.c, "msm_iommu-v0.8"),
CLK_LOOKUP("core_clk", gfx3d_axi_clk_8930.c, "msm_iommu-v0.9"),
CLK_LOOKUP("core_clk", gfx3d_axi_clk_8930.c, "msm_iommu-v0.10"),
CLK_LOOKUP("mdp_iommu_clk", mdp_axi_clk.c, "msm_vidc.0"),
CLK_LOOKUP("rot_iommu_clk", rot_axi_clk.c, "msm_vidc.0"),
CLK_LOOKUP("vcodec_iommu0_clk", vcodec_axi_a_clk.c, "msm_vidc.0"),
CLK_LOOKUP("vcodec_iommu1_clk", vcodec_axi_b_clk.c, "msm_vidc.0"),
CLK_LOOKUP("smmu_iface_clk", smmu_p_clk.c, "msm_vidc.0"),
CLK_LOOKUP("core_clk", vcodec_axi_clk.c, "pil_vidc"),
CLK_LOOKUP("smmu_iface_clk", smmu_p_clk.c, "pil_vidc"),
CLK_LOOKUP("dfab_dsps_clk", dfab_dsps_clk.c, NULL),
CLK_LOOKUP("core_clk", dfab_usb_hs_clk.c, "msm_otg"),
CLK_LOOKUP("bus_clk", dfab_sdc1_clk.c, "msm_sdcc.1"),
CLK_LOOKUP("bus_clk", dfab_sdc2_clk.c, "msm_sdcc.2"),
CLK_LOOKUP("bus_clk", dfab_sdc3_clk.c, "msm_sdcc.3"),
CLK_LOOKUP("bus_clk", dfab_sdc4_clk.c, "msm_sdcc.4"),
CLK_LOOKUP("bus_clk", dfab_sdc5_clk.c, "msm_sdcc.5"),
CLK_LOOKUP("dfab_clk", dfab_sps_clk.c, "msm_sps"),
CLK_LOOKUP("bus_clk", dfab_bam_dmux_clk.c, "BAM_RMNT"),
CLK_LOOKUP("bus_clk", dfab_scm_clk.c, "scm"),
CLK_LOOKUP("mem_clk", ebi1_adm_clk.c, "msm_dmov"),
CLK_LOOKUP("mem_clk", ebi1_acpu_a_clk.c, ""),
CLK_LOOKUP("bus_clk", afab_acpu_a_clk.c, ""),
CLK_LOOKUP("reset1_clk", dsi1_reset_clk.c, "footswitch-8x60.4"),
CLK_LOOKUP("l2_mclk", l2_m_clk, ""),
CLK_LOOKUP("krait0_mclk", krait0_m_clk, ""),
CLK_LOOKUP("krait1_mclk", krait1_m_clk, ""),
CLK_LOOKUP("q6sw_clk", q6sw_clk, ""),
CLK_LOOKUP("q6fw_clk", q6fw_clk, ""),
CLK_LOOKUP("q6_func_clk", q6_func_clk, ""),
};
/*
* Miscellaneous clock register initializations
*/
/* Read, modify, then write-back a register. */
static void __init rmwreg(uint32_t val, void *reg, uint32_t mask)
{
uint32_t regval = readl_relaxed(reg);
regval &= ~mask;
regval |= val;
writel_relaxed(regval, reg);
}
static struct pll_config_regs pll3_regs __initdata = {
.l_reg = BB_MMCC_PLL2_L_REG,
.m_reg = BB_MMCC_PLL2_M_REG,
.n_reg = BB_MMCC_PLL2_N_REG,
.config_reg = BB_MMCC_PLL2_CONFIG_REG,
.mode_reg = BB_MMCC_PLL2_MODE_REG,
};
/* Program PLL3 to 880MHZ */
static struct pll_config pll3_config __initdata = {
.l = (32 | BVAL(31, 7, 0x8)),
.m = 16,
.n = 27,
.vco_val = 0x0,
.vco_mask = BM(8, 7),
.pre_div_val = 0x0,
.pre_div_mask = BIT(15),
.post_div_val = 0x0,
.post_div_mask = BIT(16),
.mn_ena_val = 0,
.mn_ena_mask = 0,
.main_output_val = 0,
.main_output_mask = 0,
};
static struct pll_config_regs pll4_regs __initdata = {
.l_reg = LCC_PLL0_L_VAL_REG,
.m_reg = LCC_PLL0_M_VAL_REG,
.n_reg = LCC_PLL0_N_VAL_REG,
.config_reg = LCC_PLL0_CONFIG_REG,
.mode_reg = LCC_PLL0_MODE_REG,
};
static struct pll_config pll4_config_393 __initdata = {
.l = 0xE,
.m = 0x27A,
.n = 0x465,
.vco_val = 0x0,
.vco_mask = BM(17, 16),
.pre_div_val = 0x0,
.pre_div_mask = BIT(19),
.post_div_val = 0x0,
.post_div_mask = BM(21, 20),
.mn_ena_val = BIT(22),
.mn_ena_mask = BIT(22),
.main_output_val = BIT(23),
.main_output_mask = BIT(23),
};
static struct pll_config_regs pll15_regs __initdata = {
.l_reg = MM_PLL3_L_VAL_REG,
.m_reg = MM_PLL3_M_VAL_REG,
.n_reg = MM_PLL3_N_VAL_REG,
.config_reg = MM_PLL3_CONFIG_REG,
.mode_reg = MM_PLL3_MODE_REG,
};
static struct pll_config pll15_config __initdata = {
.l = (0x24 | BVAL(31, 7, 0x620)),
.m = 0x1,
.n = 0x9,
.vco_val = BVAL(17, 16, 0x2),
.vco_mask = BM(17, 16),
.pre_div_val = 0x0,
.pre_div_mask = BIT(19),
.post_div_val = 0x0,
.post_div_mask = BM(21, 20),
.mn_ena_val = BIT(22),
.mn_ena_mask = BIT(22),
.main_output_val = BIT(23),
.main_output_mask = BIT(23),
};
static struct pll_config_regs pll14_regs __initdata = {
.l_reg = BB_PLL14_L_VAL_REG,
.m_reg = BB_PLL14_M_VAL_REG,
.n_reg = BB_PLL14_N_VAL_REG,
.config_reg = BB_PLL14_CONFIG_REG,
.mode_reg = BB_PLL14_MODE_REG,
};
static struct pll_config pll14_config __initdata = {
.l = (0x11 | BVAL(31, 7, 0x620)),
.m = 0x7,
.n = 0x9,
.vco_val = 0x0,
.vco_mask = BM(17, 16),
.pre_div_val = 0x0,
.pre_div_mask = BIT(19),
.post_div_val = 0x0,
.post_div_mask = BM(21, 20),
.mn_ena_val = BIT(22),
.mn_ena_mask = BIT(22),
.main_output_val = BIT(23),
.main_output_mask = BIT(23),
};
static void __init init_mm_cc(void)
{
/*
* Initialize MM CC registers: Set MM FORCE_CORE_ON bits so that core
* memories retain state even when not clocked. Also, set sleep and
* wake-up delays to safe values.
*/
rmwreg(0x00000000, CSI0_CC_REG, 0x00000410);
rmwreg(0x00000000, CSI1_CC_REG, 0x00000410);
rmwreg(0x80FF0000, DSI1_BYTE_CC_REG, 0xE0FF0010);
rmwreg(0x80FF0000, DSI_PIXEL_CC_REG, 0xE0FF0010);
rmwreg(0xC0FF0000, GFX3D_CC_REG, 0xE0FF0010);
rmwreg(0x80FF0000, IJPEG_CC_REG, 0xE0FF0010);
rmwreg(0x80FF0000, MDP_CC_REG, 0xE1FF0010);
rmwreg(0x80FF0000, MDP_LUT_CC_REG, 0xE0FF0010);
rmwreg(0x80FF0000, ROT_CC_REG, 0xE0FF0010);
rmwreg(0x000004FF, TV_CC2_REG, 0x000007FF);
rmwreg(0xC0FF0000, VCODEC_CC_REG, 0xE0FF0010);
rmwreg(0x80FF0000, VFE_CC_REG, 0xE0FF4010);
rmwreg(0x800000FF, VFE_CC2_REG, 0xE00000FF);
rmwreg(0x80FF0000, VPE_CC_REG, 0xE0FF0010);
}
static void __init enable_imem_clk(unsigned long phys)
{
void __iomem *imem_reg;
/* Enable IMEM's clk_on signal */
imem_reg = ioremap(phys, SZ_4);
if (imem_reg) {
writel_relaxed(0x3, imem_reg);
iounmap(imem_reg);
}
}
static void __init reg_init_8930(void)
{
/* MM-AHB default values */
u32 en_reg = 0x40000000, en2_reg = 0x3C7097F9;
/* MM-AXI default values */
u32 aen_reg = 0x0003AFF9, aen2_reg = 0x3A27FCFF,
saen_reg = 0x00003C38;
/* Deassert MM SW_RESET_ALL signal. */
writel_relaxed(0, SW_RESET_ALL_REG);
/*
* Initialize MM AHB registers: Enable the FPB clock and disable HW
* gating on 8627 and 8930ab for all clocks. Also set VFE_AHB's
* FORCE_CORE_ON bit to prevent its memory from being collapsed when
* the clock is halted. The sleep and wake-up delays are set to safe
* values.
*/
if (cpu_is_msm8627() || cpu_is_msm8930ab()) {
en_reg = 0x00000003;
en2_reg = 0x000007F9;
}
rmwreg(en_reg, AHB_EN_REG, 0x6C000103);
writel_relaxed(en2_reg, AHB_EN2_REG);
/* Deassert all locally-owned MM AHB resets. */
rmwreg(0, SW_RESET_AHB_REG, 0xFFF7DFFF);
rmwreg(0, SW_RESET_AHB2_REG, 0x0000000F);
/*
* Initialize MM AXI registers: Enable HW gating for all clocks that
* support it. Also set FORCE_CORE_ON bits, and any sleep and wake-up
* delays to safe values.
*/
if (cpu_is_msm8627() || cpu_is_msm8930ab()) {
aen_reg = 0x000007F9;
aen2_reg = 0x3027FCFF;
}
rmwreg(aen_reg, MAXI_EN_REG, 0x0803FFFF);
rmwreg(aen2_reg, MAXI_EN2_REG, 0x3A3FFFFF);
rmwreg(0x0027FCFF, MAXI_EN3_REG, 0x003FFFFF);
rmwreg(0x0027FCFF, MAXI_EN4_REG, 0x017FFFFF);
rmwreg(0x000004FF, MAXI_EN5_REG, 0x00000FFF);
if (cpu_is_msm8627() || cpu_is_msm8930ab())
saen_reg = 0x000003C7;
rmwreg(saen_reg, SAXI_EN_REG, 0x00003FFF);
enable_imem_clk(0x04b00040);
init_mm_cc();
rmwreg(0x80FF0000, TV_CC_REG, 0xE1FFC010);
/*
* Initialize USB_HS_HCLK_FS registers: Set FORCE_C_ON bits so that
* core remain active during halt state of the clk. Also, set sleep
* and wake-up value to max.
*/
rmwreg(0x0000004F, USB_HS1_HCLK_FS_REG, 0x0000007F);
/* De-assert MM AXI resets to all hardware blocks. */
writel_relaxed(0, SW_RESET_AXI_REG);
/* Deassert all MM core resets. */
writel_relaxed(0, SW_RESET_CORE_REG);
writel_relaxed(0, SW_RESET_CORE2_REG);
/* Enable TSSC and PDM PXO sources. */
writel_relaxed(BIT(11), TSSC_CLK_CTL_REG);
writel_relaxed(BIT(15), PDM_CLK_NS_REG);
/* Source the dsi1_byte_clks/dsi1_esc_clk from the DSI PHY PLLs */
rmwreg(0x1, DSI1_BYTE_NS_REG, 0x7);
rmwreg(0x1, DSI1_ESC_NS_REG, 0x7);
/*
* Change PLL15 configuration based on the SoC we're running on.
*
* Default pll15 l, m, n values for 8930/8930aa/8627()
*/
pll15_config.l = 0x21 | BVAL(31, 7, 0x600);
pll15_config.m = 0x1;
pll15_config.n = 0x3;
if (cpu_is_msm8930ab()) {
pll15_config.l = 0x25 | BVAL(31, 7, 0x600);
pll15_config.m = 0x25;
pll15_config.n = 0x3E7;
}
configure_sr_pll(&pll15_config, &pll15_regs, 0);
/* Disable AUX and BIST outputs */
writel_relaxed(0, MM_PLL3_TEST_CTL_REG);
}
static void __init reg_init_8064(void)
{
u32 is_pll_enabled;
/* Deassert MM SW_RESET_ALL signal. */
writel_relaxed(0, SW_RESET_ALL_REG);
/*
* Initialize MM AHB registers:
* Also set VFE_AHB's FORCE_CORE_ON bit to prevent its memory
* from being collapsed when the clock is halted. The sleep and
* wake-up delays are set to safe values.
*/
rmwreg(0x40000000, AHB_EN_REG, 0x6C000103);
writel_relaxed(0x3C7097F9, AHB_EN2_REG);
rmwreg(0x00000000, AHB_EN3_REG, 0x00000001);
/* Deassert all locally-owned MM AHB resets. */
rmwreg(0, SW_RESET_AHB_REG, 0xFFF7DFFF);
rmwreg(0, SW_RESET_AHB2_REG, 0x0000000F);
/*
* Initialize MM AXI registers: Enable HW gating for all clocks that
* support it. Also set FORCE_CORE_ON bits, and any sleep and wake-up
* delays to safe values.
*/
rmwreg(0x0003AFF9, MAXI_EN_REG, 0x0803FFFF);
rmwreg(0x3A27FCFF, MAXI_EN2_REG, 0x3A3FFFFF);
rmwreg(0x0027FCFF, MAXI_EN3_REG, 0x003FFFFF);
rmwreg(0x0027FCFF, MAXI_EN4_REG, 0x017FFFFF);
rmwreg(0x019FECFF, MAXI_EN5_REG, 0x01FFEFFF);
rmwreg(0x00003C38, SAXI_EN_REG, 0x00003FFF);
enable_imem_clk(0x04b00040);
init_mm_cc();
rmwreg(0x80FF0000, DSI2_BYTE_CC_REG, 0xE0FF0010);
rmwreg(0x80FF0000, DSI2_PIXEL_CC_REG, 0xE0FF0010);
rmwreg(0x80FF0000, JPEGD_CC_REG, 0xE0FF0010);
rmwreg(0x00000000, TV_CC_REG, 0x00004010);
rmwreg(0x80FF0000, VCAP_CC_REG, 0xE0FF1010);
/*
* Initialize USB_HS_HCLK_FS registers: Set FORCE_C_ON bits so that
* core remain active during halt state of the clk. Also, set sleep
* and wake-up value to max.
*/
rmwreg(0x0000004F, USB_HS1_HCLK_FS_REG, 0x0000007F);
rmwreg(0x0000004F, USB_HS3_HCLK_FS_REG, 0x0000007F);
rmwreg(0x0000004F, USB_HS4_HCLK_FS_REG, 0x0000007F);
/* De-assert MM AXI resets to all hardware blocks. */
writel_relaxed(0, SW_RESET_AXI_REG);
/* Deassert all MM core resets. */
writel_relaxed(0, SW_RESET_CORE_REG);
writel_relaxed(0, SW_RESET_CORE2_REG);
/* Enable TSSC and PDM PXO sources. */
writel_relaxed(BIT(11), TSSC_CLK_CTL_REG);
writel_relaxed(BIT(15), PDM_CLK_NS_REG);
/* Source the dsi1_byte_clks/dsi1_esc_clk from the DSI PHY PLLs */
rmwreg(0x1, DSI1_BYTE_NS_REG, 0x7);
rmwreg(0x1, DSI1_ESC_NS_REG, 0x7);
/* Source the dsi2_byte_clks from the DSI PHY PLLs */
rmwreg(0x2, DSI2_BYTE_NS_REG, 0x7);
/*
* Source the sata_phy_ref_clk from PXO and set predivider of
* sata_pmalive_clk to 1.
*/
rmwreg(0, SATA_PHY_REF_CLK_CTL_REG, 0x1);
rmwreg(0, SATA_PMALIVE_CLK_CTL_REG, 0x3);
/*
* TODO: Programming below PLLs and prng_clk is temporary and
* needs to be removed after bootloaders program them.
*/
/* Program pxo_src_clk to source from PXO */
rmwreg(0x1, PXO_SRC_CLK_CTL_REG, 0x7);
/* Check if PLL14 is active */
is_pll_enabled = readl_relaxed(BB_PLL14_STATUS_REG) & BIT(16);
if (!is_pll_enabled)
/* Ref clk = 27MHz and program pll14 to 480MHz */
configure_sr_pll(&pll14_config, &pll14_regs, 1);
/* Check if PLL4 is active */
is_pll_enabled = readl_relaxed(LCC_PLL0_STATUS_REG) & BIT(16);
if (!is_pll_enabled)
/* Ref clk = 27MHz and program pll4 to 393.2160MHz */
configure_sr_pll(&pll4_config_393, &pll4_regs, 1);
/* Enable PLL4 source on the LPASS Primary PLL Mux */
writel_relaxed(0x1, LCC_PRI_PLL_CLK_CTL_REG);
/* Program prng_clk to 64MHz if it isn't configured */
if (!readl_relaxed(PRNG_CLK_NS_REG))
writel_relaxed(0x2B, PRNG_CLK_NS_REG);
if (cpu_is_apq8064ab()) {
/* Program PLL15 to 900MHZ */
pll15_config.l = 0x21 | BVAL(31, 7, 0x620);
pll15_config.m = 0x1;
pll15_config.n = 0x3;
}
/*
* Default Program PLL15 to 975MHz with ref clk = 27MHz
* In case of apq8064ab PLL15 is set to 900MHZ
*/
configure_sr_pll(&pll15_config, &pll15_regs, 0);
}
static void __init reg_init_8960(void)
{
u32 aen_reg = 0x0003AFF9, aen2_reg = 0x3A27FCFF;
/* Deassert MM SW_RESET_ALL signal. */
writel_relaxed(0, SW_RESET_ALL_REG);
/*
* Initialize MM AHB registers:
* Also set VFE_AHB's FORCE_CORE_ON bit to prevent its memory
* from being collapsed when the clock is halted. The sleep and
* wake-up delays are set to safe values.
*/
rmwreg(0x40000000, AHB_EN_REG, 0x6C000103);
writel_relaxed(0x3C7097F9, AHB_EN2_REG);
/* Deassert all locally-owned MM AHB resets. */
rmwreg(0, SW_RESET_AHB_REG, 0xFFF7DFFF);
rmwreg(0, SW_RESET_AHB2_REG, 0x0000000F);
/*
* Initialize MM AXI registers: Enable HW gating for all clocks that
* support it. Also set FORCE_CORE_ON bits, and any sleep and wake-up
* delays to safe values.
*/
if (cpu_is_msm8960() &&
SOCINFO_VERSION_MAJOR(socinfo_get_version()) < 3) {
aen_reg = 0x000007F9;
aen2_reg = 0x3027FCFF;
}
rmwreg(aen_reg, MAXI_EN_REG, 0x0803FFFF);
rmwreg(aen2_reg, MAXI_EN2_REG, 0x3A3FFFFF);
rmwreg(0x0027FCFF, MAXI_EN3_REG, 0x003FFFFF);
rmwreg(0x0027FCFF, MAXI_EN4_REG, 0x017FFFFF);
if (cpu_is_msm8960ab())
rmwreg(0x009FE000, MAXI_EN5_REG, 0x01FFE000);
rmwreg(0x00003C38, SAXI_EN_REG, 0x00003FFF);
enable_imem_clk(0x04b00040);
init_mm_cc();
rmwreg(0x80FF0000, DSI2_BYTE_CC_REG, 0xE0FF0010);
rmwreg(0x80FF0000, DSI2_PIXEL_CC_REG, 0xE0FF0010);
rmwreg(0x80FF0000, JPEGD_CC_REG, 0xE0FF0010);
if (cpu_is_msm8960ab()) {
rmwreg(0x00000001, DSI2_PIXEL_CC2_REG, 0x00000001);
rmwreg(0x00000000, TV_CC_REG, 0x00004010);
}
if (cpu_is_msm8960()) {
rmwreg(0x80FF0000, TV_CC_REG, 0xE1FFC010);
rmwreg(0x80FF0000, GFX2D0_CC_REG, 0xE0FF0010);
rmwreg(0x80FF0000, GFX2D1_CC_REG, 0xE0FF0010);
}
/*
* Initialize USB_HS_HCLK_FS registers: Set FORCE_C_ON bits so that
* core remain active during halt state of the clk. Also, set sleep
* and wake-up value to max.
*/
rmwreg(0x0000004F, USB_HS1_HCLK_FS_REG, 0x0000007F);
/* De-assert MM AXI resets to all hardware blocks. */
writel_relaxed(0, SW_RESET_AXI_REG);
/* Deassert all MM core resets. */
writel_relaxed(0, SW_RESET_CORE_REG);
writel_relaxed(0, SW_RESET_CORE2_REG);
/* Enable TSSC and PDM PXO sources. */
writel_relaxed(BIT(11), TSSC_CLK_CTL_REG);
writel_relaxed(BIT(15), PDM_CLK_NS_REG);
/* Source the dsi1_byte_clks/dsi1_esc_clk from the DSI PHY PLLs */
rmwreg(0x1, DSI1_BYTE_NS_REG, 0x7);
rmwreg(0x1, DSI1_ESC_NS_REG, 0x7);
/* Source SLIMBus xo src from slimbus reference clock */
writel_relaxed(0x3, SLIMBUS_XO_SRC_CLK_CTL_REG);
/* Source the dsi2_byte_clks from the DSI PHY PLLs */
rmwreg(0x2, DSI2_BYTE_NS_REG, 0x7);
if (cpu_is_msm8960ab()) {
pll3_clk.c.rate = 880000000;
configure_sr_pll(&pll3_config, &pll3_regs, 0);
}
}
#define PTE_EFUSE_GFX_PHYS (0x007000BC)
static unsigned long *select_gfx_fmax_plan(unsigned long **gfx_fmax, int size)
{
void __iomem *pte_efuse;
u32 gfx_speed_bin;
pte_efuse = ioremap(PTE_EFUSE_GFX_PHYS, 4);
gfx_speed_bin = readl_relaxed(pte_efuse);
gfx_speed_bin = (gfx_speed_bin & BM(25, 24)) >> 24;
iounmap(pte_efuse);
if (gfx_speed_bin >= size) {
pr_err("GFX_SPEED_BIN: defaulting to 0\n");
gfx_speed_bin = 0;
}
pr_info("GFX_SPEED_BIN: %d\n", gfx_speed_bin);
return gfx_fmax[gfx_speed_bin];
}
struct clock_init_data msm8960_clock_init_data __initdata;
static void __init msm8960_clock_pre_init(void)
{
struct clk_lookup *clk_lkup;
size_t clk_size;
struct clk_freq_tbl *tbl;
/* Initialize clock registers. */
reg_init_8960();
/* Detect PLL4 programmed for alternate 491.52MHz clock plan. */
if (readl_relaxed(LCC_PLL0_L_VAL_REG) == 0x12) {
pll4_clk.c.rate = 491520000;
audio_slimbus_clk.freq_tbl = clk_tbl_aif_osr_492;
mi2s_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
codec_i2s_mic_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
spare_i2s_mic_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
codec_i2s_spkr_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
spare_i2s_spkr_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
pcm_clk.freq_tbl = clk_tbl_pcm_492;
}
if (cpu_is_msm8960()) {
tbl = clk_tbl_gfx3d_8960;
clk_lkup = msm_clocks_8960_only;
clk_size = sizeof(msm_clocks_8960_only);
msm8960_clock_init_data.size -=
ARRAY_SIZE(msm_clocks_8960ab_only);
}
if (cpu_is_msm8960ab()) {
mdp_clk.c.fmax = fmax_mdp_8960ab;
gmem_axi_clk.c.depends = &gfx3d_axi_clk.c;
tbl = clk_tbl_gfx3d_8960ab;
gfx3d_clk.c.fmax = select_gfx_fmax_plan(fmax_gfx3d_8960ab,
ARRAY_SIZE(fmax_gfx3d_8960ab));
clk_lkup = msm_clocks_8960ab_only;
clk_size = sizeof(msm_clocks_8960ab_only);
msm8960_clock_init_data.size -=
ARRAY_SIZE(msm_clocks_8960_only);
}
gfx3d_clk.freq_tbl = tbl;
memcpy(msm_clocks_8960, msm_clocks_8960_common,
sizeof(msm_clocks_8960_common));
memcpy(msm_clocks_8960 + ARRAY_SIZE(msm_clocks_8960_common),
clk_lkup, clk_size);
if ((readl_relaxed(PRNG_CLK_NS_REG) & 0x7F) == 0x2B)
prng_clk.freq_tbl = clk_tbl_prng_64;
clk_ops_local_pll.enable = sr_pll_clk_enable;
}
static void __init msm8064_clock_pre_init(void)
{
unsigned long *fmax = fmax_gfx3d_8064;
/* Initialize clock registers. */
reg_init_8064();
vdd_sr2_hdmi_pll.set_vdd = set_vdd_sr2_hdmi_pll_8064;
/* Detect PLL4 programmed for alternate 491.52MHz clock plan. */
if (readl_relaxed(LCC_PLL0_L_VAL_REG) == 0x12) {
pll4_clk.c.rate = 491520000;
audio_slimbus_clk.freq_tbl = clk_tbl_aif_osr_492;
mi2s_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
codec_i2s_mic_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
spare_i2s_mic_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
codec_i2s_spkr_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
spare_i2s_spkr_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
pcm_clk.freq_tbl = clk_tbl_pcm_492;
}
if (cpu_is_apq8064ab())
fmax = fmax_gfx3d_8064ab;
if ((cpu_is_apq8064() &&
SOCINFO_VERSION_MAJOR(socinfo_get_version()) == 2) ||
cpu_is_apq8064ab() || cpu_is_apq8064aa()) {
vcodec_clk.c.fmax = fmax_vcodec_8064v2;
ce3_src_clk.c.fmax = fmax_ce3_8064v2;
sdc1_clk.c.fmax = fmax_sdc1_8064v2;
}
gfx3d_clk.c.fmax = fmax;
ijpeg_clk.c.fmax = fmax_ijpeg_8064;
mdp_clk.c.fmax = fmax_mdp_8064;
tv_src_clk.c.fmax = fmax_tv_src_8064;
vfe_clk.c.fmax = fmax_vfe_8064;
gmem_axi_clk.c.depends = &gfx3d_axi_clk.c;
if ((readl_relaxed(PRNG_CLK_NS_REG) & 0x7F) == 0x2B)
prng_clk.freq_tbl = clk_tbl_prng_64;
clk_ops_local_pll.enable = sr_pll_clk_enable;
}
static void __init __msm8930_clock_pre_init(void)
{
unsigned long rate = 900000000;
unsigned long *fmax = fmax_gfx3d_8930;
/* Initialize clock registers. */
reg_init_8930();
/* Detect PLL4 programmed for alternate 491.52MHz clock plan. */
if (readl_relaxed(LCC_PLL0_L_VAL_REG) == 0x12) {
pll4_clk.c.rate = 491520000;
audio_slimbus_clk.freq_tbl = clk_tbl_aif_osr_492;
mi2s_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
codec_i2s_mic_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
spare_i2s_mic_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
codec_i2s_spkr_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
spare_i2s_spkr_osr_clk.freq_tbl = clk_tbl_aif_osr_492;
pcm_clk.freq_tbl = clk_tbl_pcm_492;
}
if (cpu_is_msm8930aa())
fmax = fmax_gfx3d_8930aa;
if (cpu_is_msm8930ab()) {
rate = 1000000000;
fmax = fmax_gfx3d_8930ab;
gfx3d_clk.freq_tbl = clk_tbl_gfx3d_8930ab;
vcodec_clk.c.fmax = fmax_vcodec_8930ab;
}
pll15_clk.c.rate = rate;
gfx3d_clk.c.fmax = fmax;
gmem_axi_clk.c.depends = &gfx3d_axi_clk_8930.c;
if ((readl_relaxed(PRNG_CLK_NS_REG) & 0x7F) == 0x2B)
prng_clk.freq_tbl = clk_tbl_prng_64;
clk_ops_local_pll.enable = sr_pll_clk_enable;
}
static void __init msm8930_pm8917_clock_pre_init(void)
{
/* detect pmic8917 from board file, and call this init function */
vdd_dig.set_vdd = set_vdd_dig_8930;
rpm_vreg_dig_8930 = RPM_VREG_ID_PM8917_VDD_DIG_CORNER;
vdd_sr2_hdmi_pll.set_vdd = set_vdd_sr2_hdmi_pll_8930_pm8917;
__msm8930_clock_pre_init();
}
static void __init msm8930_clock_pre_init(void)
{
vdd_dig.set_vdd = set_vdd_dig_8930;
vdd_sr2_hdmi_pll.set_vdd = set_vdd_sr2_hdmi_pll_8930;
__msm8930_clock_pre_init();
}
static void __init common_clock_post_init(void)
{
/* Keep PXO on whenever APPS cpu is active */
clk_prepare_enable(&pxo_a_clk.c);
/* Reset 3D core while clocked to ensure it resets completely. */
clk_set_rate(&gfx3d_clk.c, 27000000);
clk_prepare_enable(&gfx3d_clk.c);
clk_reset(&gfx3d_clk.c, CLK_RESET_ASSERT);
udelay(5);
clk_reset(&gfx3d_clk.c, CLK_RESET_DEASSERT);
clk_disable_unprepare(&gfx3d_clk.c);
/* Initialize rates for clocks that only support one. */
clk_set_rate(&pdm_clk.c, 27000000);
clk_set_rate(&prng_clk.c, prng_clk.freq_tbl->freq_hz);
clk_set_rate(&mdp_vsync_clk.c, 27000000);
clk_set_rate(&tsif_ref_clk.c, 105000);
clk_set_rate(&tssc_clk.c, 27000000);
clk_set_rate(&usb_hs1_xcvr_clk.c, 60000000);
clk_set_rate(&usb_fs1_src_clk.c, 60000000);
clk_set_rate(&usb_hsic_xcvr_fs_clk.c, 60000000);
clk_set_rate(&usb_hsic_hsic_src_clk.c, 480000000);
clk_set_rate(&usb_hsic_hsio_cal_clk.c, 9000000);
clk_set_rate(&usb_hsic_system_clk.c, 60000000);
/*
* Set the CSI rates to a safe default to avoid warnings when
* switching csi pix and rdi clocks.
*/
clk_set_rate(&csi0_src_clk.c, 27000000);
clk_set_rate(&csi1_src_clk.c, 27000000);
clk_set_rate(&csi2_src_clk.c, 27000000);
/*
* The halt status bits for these clocks may be incorrect at boot.
* Toggle these clocks on and off to refresh them.
*/
clk_prepare_enable(&pdm_clk.c);
clk_disable_unprepare(&pdm_clk.c);
clk_prepare_enable(&tssc_clk.c);
clk_disable_unprepare(&tssc_clk.c);
clk_prepare_enable(&usb_hsic_hsic_clk.c);
clk_disable_unprepare(&usb_hsic_hsic_clk.c);
/*
* Keep sfab floor @ 54MHz so that Krait AHB is at least 27MHz at all
* times when Apps CPU is active. This ensures the timer's requirement
* of Krait AHB running 4 times as fast as the timer itself.
*/
clk_set_rate(&sfab_tmr_a_clk.c, 54000000);
clk_prepare_enable(&sfab_tmr_a_clk.c);
}
static void __init msm8960_clock_post_init(void)
{
common_clock_post_init();
clk_set_rate(&usb_fs2_src_clk.c, 60000000);
}
static void __init msm8064_clock_post_init(void)
{
common_clock_post_init();
clk_set_rate(&usb_hs3_xcvr_clk.c, 60000000);
clk_set_rate(&usb_hs4_xcvr_clk.c, 60000000);
}
static int __init msm8960_clock_late_init(void)
{
int rc;
struct clk *mmfpb_a_clk = clk_get_sys("clock-8960", "mmfpb_a_clk");
struct clk *cfpb_a_clk = clk_get_sys("clock-8960", "cfpb_a_clk");
/* Vote for MMFPB to be on when Apps is active. */
if (WARN(IS_ERR(mmfpb_a_clk), "mmfpb_a_clk not found (%ld)\n",
PTR_ERR(mmfpb_a_clk)))
return PTR_ERR(mmfpb_a_clk);
rc = clk_set_rate(mmfpb_a_clk, 38400000);
if (WARN(rc, "mmfpb_a_clk rate was not set (%d)\n", rc))
return rc;
rc = clk_prepare_enable(mmfpb_a_clk);
if (WARN(rc, "mmfpb_a_clk not enabled (%d)\n", rc))
return rc;
/* Vote for CFPB to be on when Apps is active. */
if (WARN(IS_ERR(cfpb_a_clk), "cfpb_a_clk not found (%ld)\n",
PTR_ERR(cfpb_a_clk)))
return PTR_ERR(cfpb_a_clk);
rc = clk_set_rate(cfpb_a_clk, 32000000);
if (WARN(rc, "cfpb_a_clk rate was not set (%d)\n", rc))
return rc;
rc = clk_prepare_enable(cfpb_a_clk);
if (WARN(rc, "cfpb_a_clk not enabled (%d)\n", rc))
return rc;
return 0;
}
struct clock_init_data msm8960_clock_init_data __initdata = {
.table = msm_clocks_8960,
.size = ARRAY_SIZE(msm_clocks_8960),
.pre_init = msm8960_clock_pre_init,
.post_init = msm8960_clock_post_init,
.late_init = msm8960_clock_late_init,
};
struct clock_init_data apq8064_clock_init_data __initdata = {
.table = msm_clocks_8064,
.size = ARRAY_SIZE(msm_clocks_8064),
.pre_init = msm8064_clock_pre_init,
.post_init = msm8064_clock_post_init,
.late_init = msm8960_clock_late_init,
};
struct clock_init_data msm8930_clock_init_data __initdata = {
.table = msm_clocks_8930,
.size = ARRAY_SIZE(msm_clocks_8930),
.pre_init = msm8930_clock_pre_init,
.post_init = msm8960_clock_post_init,
.late_init = msm8960_clock_late_init,
};
struct clock_init_data msm8930_pm8917_clock_init_data __initdata = {
.table = msm_clocks_8930,
.size = ARRAY_SIZE(msm_clocks_8930),
.pre_init = msm8930_pm8917_clock_pre_init,
.post_init = msm8960_clock_post_init,
.late_init = msm8960_clock_late_init,
};