/* * Copyright (C) 2006 Atmel Corporation * * See file CREDITS for list of people who contributed to this * project. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of * the License, or (at your option) any later version. * * 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. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA */ #include #ifdef CFG_POWER_MANAGER #include #include #include #include #include "sm.h" /* Sanity checks */ #if (CFG_CLKDIV_CPU > CFG_CLKDIV_HSB) \ || (CFG_CLKDIV_HSB > CFG_CLKDIV_PBA) \ || (CFG_CLKDIV_HSB > CFG_CLKDIV_PBB) # error Constraint fCPU >= fHSB >= fPB{A,B} violated #endif #if defined(CONFIG_PLL) && ((CFG_PLL0_MUL < 1) || (CFG_PLL0_DIV < 1)) # error Invalid PLL multiplier and/or divider #endif DECLARE_GLOBAL_DATA_PTR; struct clock_domain_state { const struct device *bridge; unsigned long freq; u32 mask; }; static struct clock_domain_state ckd_state[NR_CLOCK_DOMAINS]; int pm_enable_clock(enum clock_domain_id id, unsigned int index) { const struct clock_domain *ckd = &chip_clock[id]; struct clock_domain_state *state = &ckd_state[id]; if (ckd->bridge != NO_DEVICE) { state->bridge = get_device(ckd->bridge); if (!state->bridge) return -EBUSY; } state->mask |= 1 << index; if (gd->sm) writel(state->mask, gd->sm->regs + ckd->reg); return 0; } void pm_disable_clock(enum clock_domain_id id, unsigned int index) { const struct clock_domain *ckd = &chip_clock[id]; struct clock_domain_state *state = &ckd_state[id]; state->mask &= ~(1 << index); if (gd->sm) writel(state->mask, gd->sm->regs + ckd->reg); if (ckd->bridge) put_device(state->bridge); } unsigned long pm_get_clock_freq(enum clock_domain_id domain) { return ckd_state[domain].freq; } void pm_init(void) { uint32_t cksel = 0; unsigned long main_clock; /* Make sure we don't disable any device we're already using */ get_device(DEVICE_HRAMC); get_device(DEVICE_HEBI); /* Enable the PICO as well */ ckd_state[CLOCK_CPU].mask |= 1; gd->sm = get_device(DEVICE_SM); if (!gd->sm) panic("Unable to claim system manager device!\n"); /* Disable any devices that haven't been explicitly claimed */ sm_writel(gd->sm, PM_PBB_MASK, ckd_state[CLOCK_PBB].mask); sm_writel(gd->sm, PM_PBA_MASK, ckd_state[CLOCK_PBA].mask); sm_writel(gd->sm, PM_HSB_MASK, ckd_state[CLOCK_HSB].mask); sm_writel(gd->sm, PM_CPU_MASK, ckd_state[CLOCK_CPU].mask); #ifdef CONFIG_PLL /* Initialize the PLL */ main_clock = (CFG_OSC0_HZ / CFG_PLL0_DIV) * CFG_PLL0_MUL; sm_writel(gd->sm, PM_PLL0, (SM_BF(PLLCOUNT, CFG_PLL0_SUPPRESS_CYCLES) | SM_BF(PLLMUL, CFG_PLL0_MUL - 1) | SM_BF(PLLDIV, CFG_PLL0_DIV - 1) | SM_BF(PLLOPT, CFG_PLL0_OPT) | SM_BF(PLLOSC, 0) | SM_BIT(PLLEN))); /* Wait for lock */ while (!(sm_readl(gd->sm, PM_ISR) & SM_BIT(LOCK0))) ; #else main_clock = CFG_OSC0_HZ; #endif /* Set up clocks for the CPU and all peripheral buses */ if (CFG_CLKDIV_CPU) { cksel |= SM_BIT(CPUDIV) | SM_BF(CPUSEL, CFG_CLKDIV_CPU - 1); ckd_state[CLOCK_CPU].freq = main_clock / (1 << CFG_CLKDIV_CPU); } else { ckd_state[CLOCK_CPU].freq = main_clock; } if (CFG_CLKDIV_HSB) { cksel |= SM_BIT(HSBDIV) | SM_BF(HSBSEL, CFG_CLKDIV_HSB - 1); ckd_state[CLOCK_HSB].freq = main_clock / (1 << CFG_CLKDIV_HSB); } else { ckd_state[CLOCK_HSB].freq = main_clock; } if (CFG_CLKDIV_PBA) { cksel |= SM_BIT(PBADIV) | SM_BF(PBASEL, CFG_CLKDIV_PBA - 1); ckd_state[CLOCK_PBA].freq = main_clock / (1 << CFG_CLKDIV_PBA); } else { ckd_state[CLOCK_PBA].freq = main_clock; } if (CFG_CLKDIV_PBB) { cksel |= SM_BIT(PBBDIV) | SM_BF(PBBSEL, CFG_CLKDIV_PBB - 1); ckd_state[CLOCK_PBB].freq = main_clock / (1 << CFG_CLKDIV_PBB); } else { ckd_state[CLOCK_PBB].freq = main_clock; } sm_writel(gd->sm, PM_CKSEL, cksel); /* CFG_HZ currently depends on cpu_hz */ gd->cpu_hz = ckd_state[CLOCK_CPU].freq; #ifdef CONFIG_PLL /* Use PLL0 as main clock */ sm_writel(gd->sm, PM_MCCTRL, SM_BIT(PLLSEL)); #endif } #endif /* CFG_POWER_MANAGER */