X-Git-Url: https://git.kernelconcepts.de/?p=karo-tx-uboot.git;a=blobdiff_plain;f=arch%2Farm%2Fmach-keystone%2Fclock.c;h=b5b66e4224dd9951ce04c82bdf180a815cec8a73;hp=d13fbc1a4bb99cb4e59bb62663644e7462e58cba;hb=c0f1d684dc6851e3b647637a1fe39c8c4d4f379f;hpb=555d6ede1095b27c3e0fab4b4d853ea7258bf06b diff --git a/arch/arm/mach-keystone/clock.c b/arch/arm/mach-keystone/clock.c index d13fbc1a4b..b5b66e4224 100644 --- a/arch/arm/mach-keystone/clock.c +++ b/arch/arm/mach-keystone/clock.c @@ -18,189 +18,171 @@ static void wait_for_completion(const struct pll_init_data *data) int i; for (i = 0; i < 100; i++) { sdelay(450); - if ((pllctl_reg_read(data->pll, stat) & PLLSTAT_GO) == 0) + if (!(pllctl_reg_read(data->pll, stat) & PLLSTAT_GOSTAT_MASK)) break; } } -void init_pll(const struct pll_init_data *data) +static inline void bypass_main_pll(const struct pll_init_data *data) +{ + pllctl_reg_clrbits(data->pll, ctl, PLLCTL_PLLENSRC_MASK | + PLLCTL_PLLEN_MASK); + + /* 4 cycles of reference clock CLKIN*/ + sdelay(340); +} + +static void configure_mult_div(const struct pll_init_data *data) { - u32 tmp, tmp_ctl, pllm, plld, pllod, bwadj; + u32 pllm, plld, bwadj; pllm = data->pll_m - 1; - plld = (data->pll_d - 1) & PLL_DIV_MASK; - pllod = (data->pll_od - 1) & PLL_CLKOD_MASK; + plld = (data->pll_d - 1) & CFG_PLLCTL0_PLLD_MASK; - if (data->pll == MAIN_PLL) { - /* The requered delay before main PLL configuration */ - sdelay(210000); + /* Program Multiplier */ + if (data->pll == MAIN_PLL) + pllctl_reg_write(data->pll, mult, pllm & PLLM_MULT_LO_MASK); - tmp = pllctl_reg_read(data->pll, secctl); + clrsetbits_le32(keystone_pll_regs[data->pll].reg0, + CFG_PLLCTL0_PLLM_MASK, + pllm << CFG_PLLCTL0_PLLM_SHIFT); + + /* Program BWADJ */ + bwadj = (data->pll_m - 1) >> 1; /* Divide pllm by 2 */ + clrsetbits_le32(keystone_pll_regs[data->pll].reg0, + CFG_PLLCTL0_BWADJ_MASK, + (bwadj << CFG_PLLCTL0_BWADJ_SHIFT) & + CFG_PLLCTL0_BWADJ_MASK); + bwadj = bwadj >> CFG_PLLCTL0_BWADJ_BITS; + clrsetbits_le32(keystone_pll_regs[data->pll].reg1, + CFG_PLLCTL1_BWADJ_MASK, bwadj); + + /* Program Divider */ + clrsetbits_le32(keystone_pll_regs[data->pll].reg0, + CFG_PLLCTL0_PLLD_MASK, plld); +} - if (tmp & (PLLCTL_BYPASS)) { - setbits_le32(keystone_pll_regs[data->pll].reg1, - BIT(MAIN_ENSAT_OFFSET)); +void configure_main_pll(const struct pll_init_data *data) +{ + u32 tmp, pllod, i, alnctl_val = 0; + u32 *offset; - pllctl_reg_clrbits(data->pll, ctl, PLLCTL_PLLEN | - PLLCTL_PLLENSRC); - sdelay(340); + pllod = data->pll_od - 1; - pllctl_reg_setbits(data->pll, secctl, PLLCTL_BYPASS); - pllctl_reg_setbits(data->pll, ctl, PLLCTL_PLLPWRDN); - sdelay(21000); + /* 100 micro sec for stabilization */ + sdelay(210000); - pllctl_reg_clrbits(data->pll, ctl, PLLCTL_PLLPWRDN); - } else { - pllctl_reg_clrbits(data->pll, ctl, PLLCTL_PLLEN | - PLLCTL_PLLENSRC); - sdelay(340); - } + tmp = pllctl_reg_read(data->pll, secctl); - pllctl_reg_write(data->pll, mult, pllm & PLLM_MULT_LO_MASK); + /* Check for Bypass */ + if (tmp & SECCTL_BYPASS_MASK) { + setbits_le32(keystone_pll_regs[data->pll].reg1, + CFG_PLLCTL1_ENSAT_MASK); - clrsetbits_le32(keystone_pll_regs[data->pll].reg0, - PLLM_MULT_HI_SMASK, (pllm << 6)); + bypass_main_pll(data); - /* Set the BWADJ (12 bit field) */ - tmp_ctl = pllm >> 1; /* Divide the pllm by 2 */ - clrsetbits_le32(keystone_pll_regs[data->pll].reg0, - PLL_BWADJ_LO_SMASK, - (tmp_ctl << PLL_BWADJ_LO_SHIFT)); - clrsetbits_le32(keystone_pll_regs[data->pll].reg1, - PLL_BWADJ_HI_MASK, - (tmp_ctl >> 8)); + /* Powerdown and powerup Main Pll */ + pllctl_reg_setbits(data->pll, secctl, SECCTL_BYPASS_MASK); + pllctl_reg_setbits(data->pll, ctl, PLLCTL_PLLPWRDN_MASK); + /* 5 micro sec */ + sdelay(21000); - /* - * Set the pll divider (6 bit field) * - * PLLD[5:0] is located in MAINPLLCTL0 - */ - clrsetbits_le32(keystone_pll_regs[data->pll].reg0, - PLL_DIV_MASK, plld); + pllctl_reg_clrbits(data->pll, ctl, PLLCTL_PLLPWRDN_MASK); + } else { + bypass_main_pll(data); + } - /* Set the OUTPUT DIVIDE (4 bit field) in SECCTL */ - pllctl_reg_rmw(data->pll, secctl, PLL_CLKOD_SMASK, - (pllod << PLL_CLKOD_SHIFT)); - wait_for_completion(data); + configure_mult_div(data); - pllctl_reg_write(data->pll, div1, PLLM_RATIO_DIV1); - pllctl_reg_write(data->pll, div2, PLLM_RATIO_DIV2); - pllctl_reg_write(data->pll, div3, PLLM_RATIO_DIV3); - pllctl_reg_write(data->pll, div4, PLLM_RATIO_DIV4); - pllctl_reg_write(data->pll, div5, PLLM_RATIO_DIV5); + /* Program Output Divider */ + pllctl_reg_rmw(data->pll, secctl, SECCTL_OP_DIV_MASK, + ((pllod << SECCTL_OP_DIV_SHIFT) & SECCTL_OP_DIV_MASK)); - pllctl_reg_setbits(data->pll, alnctl, 0x1f); + /* Program PLLDIVn */ + wait_for_completion(data); + for (i = 0; i < PLLDIV_MAX; i++) { + if (i < 3) + offset = pllctl_reg(data->pll, div1) + i; + else + offset = pllctl_reg(data->pll, div4) + (i - 3); + if (divn_val[i] != -1) { + __raw_writel(divn_val[i] | PLLDIV_ENABLE_MASK, offset); + alnctl_val |= BIT(i); + } + } + + if (alnctl_val) { + pllctl_reg_setbits(data->pll, alnctl, alnctl_val); /* * Set GOSET bit in PLLCMD to initiate the GO operation * to change the divide */ - pllctl_reg_setbits(data->pll, cmd, PLLSTAT_GO); - sdelay(1500); /* wait for the phase adj */ + pllctl_reg_setbits(data->pll, cmd, PLLSTAT_GOSTAT_MASK); wait_for_completion(data); + } - /* Reset PLL */ - pllctl_reg_setbits(data->pll, ctl, PLLCTL_PLLRST); - sdelay(21000); /* Wait for a minimum of 7 us*/ - pllctl_reg_clrbits(data->pll, ctl, PLLCTL_PLLRST); - sdelay(105000); /* Wait for PLL Lock time (min 50 us) */ - - pllctl_reg_clrbits(data->pll, secctl, PLLCTL_BYPASS); - - tmp = pllctl_reg_setbits(data->pll, ctl, PLLCTL_PLLEN); + /* Reset PLL */ + pllctl_reg_setbits(data->pll, ctl, PLLCTL_PLLRST_MASK); + sdelay(21000); /* Wait for a minimum of 7 us*/ + pllctl_reg_clrbits(data->pll, ctl, PLLCTL_PLLRST_MASK); + sdelay(105000); /* Wait for PLL Lock time (min 50 us) */ -#ifndef CONFIG_SOC_K2E - } else if (data->pll == TETRIS_PLL) { - bwadj = pllm >> 1; - /* 1.5 Set PLLCTL0[BYPASS] =1 (enable bypass), */ - setbits_le32(keystone_pll_regs[data->pll].reg0, PLLCTL_BYPASS); - /* - * Set CHIPMISCCTL1[13] = 0 (enable glitchfree bypass) - * only applicable for Kepler - */ - clrbits_le32(KS2_MISC_CTRL, KS2_ARM_PLL_EN); - /* 2 In PLLCTL1, write PLLRST = 1 (PLL is reset) */ - setbits_le32(keystone_pll_regs[data->pll].reg1 , - PLL_PLLRST | PLLCTL_ENSAT); - - /* - * 3 Program PLLM and PLLD in PLLCTL0 register - * 4 Program BWADJ[7:0] in PLLCTL0 and BWADJ[11:8] in - * PLLCTL1 register. BWADJ value must be set - * to ((PLLM + 1) >> 1) – 1) - */ - tmp = ((bwadj & PLL_BWADJ_LO_MASK) << PLL_BWADJ_LO_SHIFT) | - (pllm << 6) | - (plld & PLL_DIV_MASK) | - (pllod << PLL_CLKOD_SHIFT) | PLLCTL_BYPASS; - __raw_writel(tmp, keystone_pll_regs[data->pll].reg0); - - /* Set BWADJ[11:8] bits */ - tmp = __raw_readl(keystone_pll_regs[data->pll].reg1); - tmp &= ~(PLL_BWADJ_HI_MASK); - tmp |= ((bwadj>>8) & PLL_BWADJ_HI_MASK); - __raw_writel(tmp, keystone_pll_regs[data->pll].reg1); - /* - * 5 Wait for at least 5 us based on the reference - * clock (PLL reset time) - */ - sdelay(21000); /* Wait for a minimum of 7 us*/ - - /* 6 In PLLCTL1, write PLLRST = 0 (PLL reset is released) */ - clrbits_le32(keystone_pll_regs[data->pll].reg1, PLL_PLLRST); - /* - * 7 Wait for at least 500 * REFCLK cycles * (PLLD + 1) - * (PLL lock time) - */ - sdelay(105000); - /* 8 disable bypass */ - clrbits_le32(keystone_pll_regs[data->pll].reg0, PLLCTL_BYPASS); - /* - * 9 Set CHIPMISCCTL1[13] = 1 (disable glitchfree bypass) - * only applicable for Kepler - */ - setbits_le32(KS2_MISC_CTRL, KS2_ARM_PLL_EN); -#endif - } else { - setbits_le32(keystone_pll_regs[data->pll].reg1, PLLCTL_ENSAT); - /* - * process keeps state of Bypass bit while programming - * all other DDR PLL settings - */ - tmp = __raw_readl(keystone_pll_regs[data->pll].reg0); - tmp &= PLLCTL_BYPASS; /* clear everything except Bypass */ + /* Enable PLL */ + pllctl_reg_clrbits(data->pll, secctl, SECCTL_BYPASS_MASK); + pllctl_reg_setbits(data->pll, ctl, PLLCTL_PLLEN_MASK); +} - /* - * Set the BWADJ[7:0], PLLD[5:0] and PLLM to PLLCTL0, - * bypass disabled - */ - bwadj = pllm >> 1; - tmp |= ((bwadj & PLL_BWADJ_LO_MASK) << PLL_BWADJ_LO_SHIFT) | - (pllm << PLL_MULT_SHIFT) | - (plld & PLL_DIV_MASK) | - (pllod << PLL_CLKOD_SHIFT); - __raw_writel(tmp, keystone_pll_regs[data->pll].reg0); - - /* Set BWADJ[11:8] bits */ - tmp = __raw_readl(keystone_pll_regs[data->pll].reg1); - tmp &= ~(PLL_BWADJ_HI_MASK); - tmp |= ((bwadj >> 8) & PLL_BWADJ_HI_MASK); - - __raw_writel(tmp, keystone_pll_regs[data->pll].reg1); - - /* Reset bit: bit 14 for both DDR3 & PASS PLL */ - tmp = PLL_PLLRST; - /* Set RESET bit = 1 */ - setbits_le32(keystone_pll_regs[data->pll].reg1, tmp); - /* Wait for a minimum of 7 us*/ - sdelay(21000); - /* Clear RESET bit */ - clrbits_le32(keystone_pll_regs[data->pll].reg1, tmp); - sdelay(105000); +void configure_secondary_pll(const struct pll_init_data *data) +{ + int pllod = data->pll_od - 1; + + /* Enable Bypass mode */ + setbits_le32(keystone_pll_regs[data->pll].reg1, CFG_PLLCTL1_ENSAT_MASK); + setbits_le32(keystone_pll_regs[data->pll].reg0, + CFG_PLLCTL0_BYPASS_MASK); + + /* Enable Glitch free bypass for ARM PLL */ + if (cpu_is_k2hk() && data->pll == TETRIS_PLL) + clrbits_le32(KS2_MISC_CTRL, MISC_CTL1_ARM_PLL_EN); + + configure_mult_div(data); + + /* Program Output Divider */ + clrsetbits_le32(keystone_pll_regs[data->pll].reg0, + CFG_PLLCTL0_CLKOD_MASK, + (pllod << CFG_PLLCTL0_CLKOD_SHIFT) & + CFG_PLLCTL0_CLKOD_MASK); + + /* Reset PLL */ + setbits_le32(keystone_pll_regs[data->pll].reg1, CFG_PLLCTL1_RST_MASK); + /* Wait for 5 micro seconds */ + sdelay(21000); + + /* Select the Output of PASS PLL as input to PASS */ + if (data->pll == PASS_PLL) + setbits_le32(keystone_pll_regs[data->pll].reg1, + CFG_PLLCTL1_PAPLL_MASK); + + /* Select the Output of ARM PLL as input to ARM */ + if (data->pll == TETRIS_PLL) + setbits_le32(KS2_MISC_CTRL, MISC_CTL1_ARM_PLL_EN); + + clrbits_le32(keystone_pll_regs[data->pll].reg1, CFG_PLLCTL1_RST_MASK); + /* Wait for 500 * REFCLK cucles * (PLLD + 1) */ + sdelay(105000); + + /* Switch to PLL mode */ + clrbits_le32(keystone_pll_regs[data->pll].reg0, + CFG_PLLCTL0_BYPASS_MASK); +} - /* clear BYPASS (Enable PLL Mode) */ - clrbits_le32(keystone_pll_regs[data->pll].reg0, PLLCTL_BYPASS); - sdelay(21000); /* Wait for a minimum of 7 us*/ - } +void init_pll(const struct pll_init_data *data) +{ + if (data->pll == MAIN_PLL) + configure_main_pll(data); + else + configure_secondary_pll(data); /* * This is required to provide a delay between multiple @@ -246,27 +228,14 @@ static inline u32 read_efuse_bootrom(void) } #endif -inline int get_max_dev_speed(void) -{ - return get_max_speed(read_efuse_bootrom() & 0xffff, dev_speeds); -} - #ifndef CONFIG_SOC_K2E inline int get_max_arm_speed(void) { - return get_max_speed((read_efuse_bootrom() >> 16) & 0xffff, arm_speeds); + return get_max_speed(read_efuse_bootrom() & 0xffff, arm_speeds); } #endif -void pass_pll_pa_clk_enable(void) +inline int get_max_dev_speed(void) { - u32 reg; - - reg = readl(keystone_pll_regs[PASS_PLL].reg1); - - reg |= PLLCTL_PAPLL; - writel(reg, keystone_pll_regs[PASS_PLL].reg1); - - /* wait till clock is enabled */ - sdelay(15000); + return get_max_speed((read_efuse_bootrom() >> 16) & 0xffff, dev_speeds); }