AVR32: Resource management rewrite

Rewrite the resource management code (i.e. I/O memory, clock gating,
gpio) so it doesn't depend on any global state. This is necessary
because this code is heavily used before relocation to RAM, so we
can't write to any global variables.

As an added bonus, this makes u-boot's memory footprint a bit smaller,
although some functionality has been left out; all clocks are enabled
all the time, and there's no checking for gpio line conflicts.

Signed-off-by: Haavard Skinnemoen <hskinnemoen@atmel.com>
diff --git a/cpu/at32ap/pm.c b/cpu/at32ap/pm.c
index 01ac325..c78d547 100644
--- a/cpu/at32ap/pm.c
+++ b/cpu/at32ap/pm.c
@@ -26,138 +26,17 @@
 #include <asm/io.h>
 
 #include <asm/arch/memory-map.h>
-#include <asm/arch/platform.h>
 
 #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))) ;
+#define MAIN_CLK_RATE ((CFG_OSC0_HZ / CFG_PLL0_DIV) * CFG_PLL0_MUL)
 #else
-	main_clock = CFG_OSC0_HZ;
+#define MAIN_CLK_RATE (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;
+DECLARE_GLOBAL_DATA_PTR;
 
-#ifdef CONFIG_PLL
-	/* Use PLL0 as main clock */
-	sm_writel(gd->sm, PM_MCCTRL, SM_BIT(PLLSEL));
-#endif
-}
 
 #endif /* CFG_POWER_MANAGER */