mirror of
https://github.com/brain-hackers/u-boot-brain
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cf04d0326b
Updating the Multiplier and Dividers value for all DPLLs. Safest OPP is read from DEV ATTRIBUTE register. Accoring to the value returned the MPU DPLL is locked. At different OPPs follwoing are the MPU locked frequencies. OPP50 300MHz OPP100 600MHz OPP120 720MHz OPPTB 800MHz OPPNT 1000MHz According to the latest DM following is the OPP table dependencies: VDD_CORE VDD_MPU OPP50 OPP50 OPP50 OPP100 OPP100 OPP50 OPP100 OPP100 OPP100 OPP120 So at different OPPs of MPU it is safest to lock CORE at OPP_NOM. Following are the DPLL locking frequencies at OPP NOM: Core locks at 1000MHz Per locks at 960MHz LPDDR2 locks at 266MHz DDR3 locks at 400MHz Touching AM33xx files also to get DPLL values specific to board but no functionality difference. Signed-off-by: Lokesh Vutla <lokeshvutla@ti.com>
178 lines
4.5 KiB
C
178 lines
4.5 KiB
C
/*
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* clock.c
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*
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* Clock initialization for AM33XX boards.
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* Derived from OMAP4 boards
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*
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* Copyright (C) 2013, Texas Instruments, Incorporated - http://www.ti.com/
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*
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* SPDX-License-Identifier: GPL-2.0+
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*/
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#include <common.h>
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#include <asm/arch/cpu.h>
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#include <asm/arch/clock.h>
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#include <asm/arch/hardware.h>
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#include <asm/arch/sys_proto.h>
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#include <asm/io.h>
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static void setup_post_dividers(const struct dpll_regs *dpll_regs,
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const struct dpll_params *params)
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{
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/* Setup post-dividers */
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if (params->m2 >= 0)
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writel(params->m2, dpll_regs->cm_div_m2_dpll);
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if (params->m3 >= 0)
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writel(params->m3, dpll_regs->cm_div_m3_dpll);
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if (params->m4 >= 0)
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writel(params->m4, dpll_regs->cm_div_m4_dpll);
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if (params->m5 >= 0)
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writel(params->m5, dpll_regs->cm_div_m5_dpll);
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if (params->m6 >= 0)
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writel(params->m6, dpll_regs->cm_div_m6_dpll);
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}
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static inline void do_lock_dpll(const struct dpll_regs *dpll_regs)
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{
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clrsetbits_le32(dpll_regs->cm_clkmode_dpll,
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CM_CLKMODE_DPLL_DPLL_EN_MASK,
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DPLL_EN_LOCK << CM_CLKMODE_DPLL_EN_SHIFT);
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}
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static inline void wait_for_lock(const struct dpll_regs *dpll_regs)
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{
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if (!wait_on_value(ST_DPLL_CLK_MASK, ST_DPLL_CLK_MASK,
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(void *)dpll_regs->cm_idlest_dpll, LDELAY)) {
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printf("DPLL locking failed for 0x%x\n",
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dpll_regs->cm_clkmode_dpll);
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hang();
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}
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}
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static inline void do_bypass_dpll(const struct dpll_regs *dpll_regs)
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{
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clrsetbits_le32(dpll_regs->cm_clkmode_dpll,
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CM_CLKMODE_DPLL_DPLL_EN_MASK,
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DPLL_EN_MN_BYPASS << CM_CLKMODE_DPLL_EN_SHIFT);
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}
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static inline void wait_for_bypass(const struct dpll_regs *dpll_regs)
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{
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if (!wait_on_value(ST_DPLL_CLK_MASK, 0,
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(void *)dpll_regs->cm_idlest_dpll, LDELAY)) {
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printf("Bypassing DPLL failed 0x%x\n",
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dpll_regs->cm_clkmode_dpll);
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}
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}
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static void bypass_dpll(const struct dpll_regs *dpll_regs)
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{
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do_bypass_dpll(dpll_regs);
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wait_for_bypass(dpll_regs);
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}
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void do_setup_dpll(const struct dpll_regs *dpll_regs,
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const struct dpll_params *params)
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{
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u32 temp;
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if (!params)
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return;
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temp = readl(dpll_regs->cm_clksel_dpll);
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bypass_dpll(dpll_regs);
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/* Set M & N */
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temp &= ~CM_CLKSEL_DPLL_M_MASK;
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temp |= (params->m << CM_CLKSEL_DPLL_M_SHIFT) & CM_CLKSEL_DPLL_M_MASK;
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temp &= ~CM_CLKSEL_DPLL_N_MASK;
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temp |= (params->n << CM_CLKSEL_DPLL_N_SHIFT) & CM_CLKSEL_DPLL_N_MASK;
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writel(temp, dpll_regs->cm_clksel_dpll);
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setup_post_dividers(dpll_regs, params);
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/* Wait till the DPLL locks */
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do_lock_dpll(dpll_regs);
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wait_for_lock(dpll_regs);
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}
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static void setup_dplls(void)
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{
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const struct dpll_params *params;
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params = get_dpll_core_params();
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do_setup_dpll(&dpll_core_regs, params);
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params = get_dpll_mpu_params();
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do_setup_dpll(&dpll_mpu_regs, params);
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params = get_dpll_per_params();
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do_setup_dpll(&dpll_per_regs, params);
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writel(0x300, &cmwkup->clkdcoldodpllper);
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params = get_dpll_ddr_params();
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do_setup_dpll(&dpll_ddr_regs, params);
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}
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static inline void wait_for_clk_enable(u32 *clkctrl_addr)
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{
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u32 clkctrl, idlest = MODULE_CLKCTRL_IDLEST_DISABLED;
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u32 bound = LDELAY;
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while ((idlest == MODULE_CLKCTRL_IDLEST_DISABLED) ||
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(idlest == MODULE_CLKCTRL_IDLEST_TRANSITIONING)) {
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clkctrl = readl(clkctrl_addr);
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idlest = (clkctrl & MODULE_CLKCTRL_IDLEST_MASK) >>
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MODULE_CLKCTRL_IDLEST_SHIFT;
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if (--bound == 0) {
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printf("Clock enable failed for 0x%p idlest 0x%x\n",
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clkctrl_addr, clkctrl);
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return;
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}
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}
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}
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static inline void enable_clock_module(u32 *const clkctrl_addr, u32 enable_mode,
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u32 wait_for_enable)
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{
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clrsetbits_le32(clkctrl_addr, MODULE_CLKCTRL_MODULEMODE_MASK,
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enable_mode << MODULE_CLKCTRL_MODULEMODE_SHIFT);
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debug("Enable clock module - %p\n", clkctrl_addr);
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if (wait_for_enable)
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wait_for_clk_enable(clkctrl_addr);
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}
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static inline void enable_clock_domain(u32 *const clkctrl_reg, u32 enable_mode)
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{
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clrsetbits_le32(clkctrl_reg, CD_CLKCTRL_CLKTRCTRL_MASK,
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enable_mode << CD_CLKCTRL_CLKTRCTRL_SHIFT);
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debug("Enable clock domain - %p\n", clkctrl_reg);
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}
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void do_enable_clocks(u32 *const *clk_domains,
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u32 *const *clk_modules_explicit_en, u8 wait_for_enable)
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{
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u32 i, max = 100;
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/* Put the clock domains in SW_WKUP mode */
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for (i = 0; (i < max) && clk_domains[i]; i++) {
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enable_clock_domain(clk_domains[i],
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CD_CLKCTRL_CLKTRCTRL_SW_WKUP);
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}
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/* Clock modules that need to be put in SW_EXPLICIT_EN mode */
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for (i = 0; (i < max) && clk_modules_explicit_en[i]; i++) {
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enable_clock_module(clk_modules_explicit_en[i],
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MODULE_CLKCTRL_MODULEMODE_SW_EXPLICIT_EN,
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wait_for_enable);
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};
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}
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void prcm_init()
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{
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enable_basic_clocks();
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setup_dplls();
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}
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