C++ (Cpp) CKGA_PLL0HS_DIV_CFG примеры использования

Пример #1

static int stx7111_suspend_core(suspend_state_t state, int suspending)
{
	static unsigned char *clka_pll0_div;
	static unsigned char *clka_pll1_div;
	static unsigned long *clka_switch_cfg;
	int i;
	long pwr = 0x3;		/* PLL_0/PLL_1 both OFF */
	long cfg_0, cfg_1;

	if (suspending)
		goto on_suspending;

	if (!clka_pll0_div) /* there was an error on suspending */
		return 0;
	/* Resuming... */
	iowrite32(0, cga + CKGA_POWER_CFG);
	while (!(ioread32(cga + CKGA_PLL(0)) & CKGA_PLL_LOCK))
		;
	while (!(ioread32(cga + CKGA_PLL(1)) & CKGA_PLL_LOCK))
		;

	/* applay the original parents */
	iowrite32(clka_switch_cfg[0], cga + CKGA_CLKOPSRC_SWITCH_CFG(0));
	iowrite32(clka_switch_cfg[1], cga + CKGA_CLKOPSRC_SWITCH_CFG(1));

	/* restore all the clocks settings */
	for (i = 0; i < 18; ++i) {
		iowrite32(clka_pll0_div[i], cga +
			((i < 4) ? CKGA_PLL0HS_DIV_CFG(i) :
				CKGA_PLL0LS_DIV_CFG(i)));
		iowrite32(clka_pll1_div[i], cga + CKGA_PLL1_DIV_CFG(i));
	}
	mdelay(10);
	pr_devel("[STM][PM] ClockGen A: restored\n");

	kfree(clka_pll0_div);
	kfree(clka_pll1_div);
	kfree(clka_switch_cfg);
	clka_switch_cfg = NULL;
	clka_pll0_div = clka_pll1_div = NULL;

	stx7111_suspend_wake();
	return 0;


on_suspending:
	clka_pll0_div = kmalloc(sizeof(char) * 18, GFP_ATOMIC);
	clka_pll1_div = kmalloc(sizeof(char) * 18, GFP_ATOMIC);
	clka_switch_cfg = kmalloc(sizeof(long) * 2, GFP_ATOMIC);

	if (!clka_pll0_div || !clka_pll1_div || !clka_switch_cfg)
		goto error;

	/* save the original settings */
	clka_switch_cfg[0] = ioread32(cga + CKGA_CLKOPSRC_SWITCH_CFG(0));
	clka_switch_cfg[1] = ioread32(cga + CKGA_CLKOPSRC_SWITCH_CFG(1));

	for (i = 0; i < 18; ++i) {
		clka_pll0_div[i] = ioread32(cga +
			((i < 4) ? CKGA_PLL0HS_DIV_CFG(i) :
				CKGA_PLL0LS_DIV_CFG(i)));
		clka_pll1_div[i] = ioread32(cga + CKGA_PLL1_DIV_CFG(i));
		}
	pr_devel("[STM][PM] ClockGen A: saved\n");
	mdelay(10);

	/* to avoid the system is to much slow all
	 * the clocks are scaled @ 30 MHz
	 * the final setting is done in the tables
	 */
	for (i = 0; i < 18; ++i)
		iowrite32(0, cga + CKGA_OSC_DIV_CFG(i));

	/* almost all the clocks off, except some critical ones */
	cfg_0 = 0xffffffff;
	cfg_0 &= ~(0x3 << (2 * CLKA_ST40_ICK_ID));
	cfg_0 &= ~(0x3 << (2 * CLKA_IC_IF_100_ID));
	cfg_1 = 0xf;
	cfg_1 &= ~(0x3 << (2 * (CLKA_IC_IF_200_ID - 16)));

	if (wkd.stm_mac0_can_wakeup) {
		unsigned long pll_id;

		/* identify the eth_phy_clk */
		pll_id = (clk_get_parent(ca_eth_phy_clk) == ca_pll1_clk) ?
				2 : 1;
		pwr &= ~pll_id;
		cfg_0 &= ~(0x3 << (2 * CLKA_ETH_PHY_ID));
		cfg_0 |= (pll_id << (2 * CLKA_ETH_PHY_ID));
	}

	if (wkd.hdmi_can_wakeup) {
		/* Pll_1 on */
		pwr &= ~2;
		/* ic_if_100 under pll1 */
		cfg_0 &=  ~(0x3 << (2 * CLKA_IC_IF_100_ID));
		cfg_0 |= (0x2 << (2 * CLKA_IC_IF_100_ID));
	} else {
		if (!wkd.lirc_can_wakeup)
			clk_set_rate(ca_ic_if_100_clk,
				    clk_get_rate(ca_ref_clk)/32);
	}

	iowrite32(cfg_0, cga + CKGA_CLKOPSRC_SWITCH_CFG(0));
	iowrite32(cfg_1, cga + CKGA_CLKOPSRC_SWITCH_CFG(1));
	iowrite32(pwr, cga + CKGA_POWER_CFG);
	return 0;

error:
	kfree(clka_pll1_div);
	kfree(clka_pll0_div);
	kfree(clka_switch_cfg);

	clka_switch_cfg = NULL;
	clka_pll0_div = clka_pll1_div = NULL;

	return -ENOMEM;
}

Пример #2

Файл: suspend-fli7510.c Проект: brennwienix/satip-axe

static int fli7510_suspend_core(suspend_state_t state, int suspending)
{
	static unsigned char *clka_pll0_div;
	static unsigned char *clka_pll1_div;
	static unsigned long *clka_switch_cfg;
	int i;
	long pwr = 0x3;		/* PLL_0/PLL_1 both OFF */
	long cfg_0, cfg_1;

	if (state == PM_SUSPEND_STANDBY)
		return 0;

	if (suspending)
		goto on_suspending;

	if (!clka_pll0_div) /* there was an error on suspending */
		return 0;
	/* Resuming... */
	iowrite32(0, cga + CKGA_POWER_CFG);
	while (!(ioread32(cga + CKGA_PLL(0)) & CKGA_PLL_LOCK))
		;
	while (!(ioread32(cga + CKGA_PLL(1)) & CKGA_PLL_LOCK))
		;

	/* applay the original parents */
	iowrite32(clka_switch_cfg[0], cga + CKGA_CLKOPSRC_SWITCH_CFG(0));
	iowrite32(clka_switch_cfg[1], cga + CKGA_CLKOPSRC_SWITCH_CFG(1));

	/* restore all the clocks settings */
	for (i = 0; i < 18; ++i) {
		iowrite32(clka_pll0_div[i], cga +
			((i < 4) ? CKGA_PLL0HS_DIV_CFG(i) :
				CKGA_PLL0LS_DIV_CFG(i)));
		iowrite32(clka_pll1_div[i], cga + CKGA_PLL1_DIV_CFG(i));
	}
	mdelay(10);
	pr_devel("[STM][PM] ClockGen A: restored\n");

	kfree(clka_pll0_div);
	kfree(clka_pll1_div);
	kfree(clka_switch_cfg);
	clka_switch_cfg = NULL;
	clka_pll0_div = clka_pll1_div = NULL;

	/* Restore ic_if_100 to previous rate */
	clk_set_parent(ca_ic_100_clk, ca_pll_clk);
	clk_set_rate(ca_ic_100_clk, ca_ic_100_clk_rate);

	return 0;


on_suspending:
	clka_pll0_div = kmalloc(sizeof(char) * 18, GFP_ATOMIC);
	clka_pll1_div = kmalloc(sizeof(char) * 18, GFP_ATOMIC);
	clka_switch_cfg = kmalloc(sizeof(long) * 2, GFP_ATOMIC);

	if (!clka_pll0_div || !clka_pll1_div || !clka_switch_cfg)
		goto error;

	/* save the original settings */
	clka_switch_cfg[0] = ioread32(cga + CKGA_CLKOPSRC_SWITCH_CFG(0));
	clka_switch_cfg[1] = ioread32(cga + CKGA_CLKOPSRC_SWITCH_CFG(1));

	for (i = 0; i < 18; ++i) {
		clka_pll0_div[i] = ioread32(cga +
			((i < 4) ? CKGA_PLL0HS_DIV_CFG(i) :
				CKGA_PLL0LS_DIV_CFG(i)));
		clka_pll1_div[i] = ioread32(cga + CKGA_PLL1_DIV_CFG(i));
		}
	pr_devel("[STM][PM] ClockGen A: saved\n");
	mdelay(10);

	/* to avoid the system is to much slow all
	 * the clocks are scaled @ 30 MHz
	 * the final setting is done in the tables
	 */
	for (i = 0; i < 18; ++i)
		iowrite32(0, cga + CKGA_OSC_DIV_CFG(i));

	/* almost all the clocks off, except some critical ones */
	cfg_0 = 0xffffff3f;	/*
				 * Not clear why:
				 * -  the Audio Dec. Clock can not disabled
				 */
	cfg_0 &= ~(0x3 << (2 * CLKA_ST40_HOST_ID));
	cfg_0 &= ~(0x3 << (2 * CLKA_IC_100_ID));
	cfg_0 &= ~(0x3 << (2 * CLKA_IC_150_ID));
	cfg_1 = 0xff;
	cfg_1 &= ~(0x3 << (2 * CLKA_IC_200_ID));

#if 0
	if (wkd.eth_phy_can_wakeup) {
		/* Pll_0 on */
		pwr &= ~1;
		/* eth_phy_clk under pll0 */
		cfg_0 &= ~(0x3 << (2 * CLKA_ETH_PHY_ID));
		cfg_0 |= (0x1 << (2 * CLKA_ETH_PHY_ID));
	}

	if (wkd.hdmi_can_wakeup) {
		/* Pll_1 on */
		pwr &= ~2;
		/* ic_if_100 under pll1 */
		cfg_0 &=  ~(0x3 << (2 * CLKA_IC_IF_100_ID));
		cfg_0 |= (0x2 << (2 * CLKA_IC_IF_100_ID));
	} else {
		if (!wkd.lirc_can_wakeup)
			clk_set_rate(ca_ic_100_clk,
				    clk_get_rate(ca_ref_clk)/32);
	}

#endif
	iowrite32(cfg_0, cga + CKGA_CLKOPSRC_SWITCH_CFG(0));
	iowrite32(cfg_1, cga + CKGA_CLKOPSRC_SWITCH_CFG(1));
	iowrite32(pwr, cga + CKGA_POWER_CFG);
	return 0;

error:
	kfree(clka_pll1_div);
	kfree(clka_pll0_div);
	kfree(clka_switch_cfg);

	clka_switch_cfg = NULL;
	clka_pll0_div = clka_pll1_div = NULL;

	return -ENOMEM;
}

Пример #3

Файл: suspend-stx7105.c Проект: brennwienix/satip-axe

static int stx7105_suspend_core(suspend_state_t state, int suspending)
{
	static unsigned char *clka_pll0_div;
	static unsigned char *clka_pll1_div;
	static unsigned long *clka_switch_cfg;
	static unsigned long saved_gplmi_appd;
	int i;

	if (suspending)
		goto on_suspending;

	if (!clka_pll0_div) /* there was an error on suspending */
		return 0;
	/* Resuming... */
	iowrite32(0, cga + CKGA_POWER_CFG);
	while (!(ioread32(cga + CKGA_PLL(0)) & CKGA_PLL_LOCK))
		;
	while (!(ioread32(cga + CKGA_PLL(1)) & CKGA_PLL_LOCK))
		;

	/* applay the original parents */
	iowrite32(clka_switch_cfg[0], cga + CKGA_CLKOPSRC_SWITCH_CFG(0));
	iowrite32(clka_switch_cfg[1], cga + CKGA_CLKOPSRC_SWITCH_CFG(1));

	/* restore all the clocks settings */
	for (i = 0; i < 18; ++i) {
		iowrite32(clka_pll0_div[i], ((i < 4) ?
			cga + CKGA_PLL0HS_DIV_CFG(i) :
			cga + CKGA_PLL0LS_DIV_CFG(i)));
		iowrite32(clka_pll1_div[i], cga + CKGA_PLL1_DIV_CFG(i));
	}
	mdelay(10);
	pr_devel("[STM][PM] ClockGen A: restored\n");

	/* restore the APPD */
	iowrite32(saved_gplmi_appd, LMI_APPD(0));

	kfree(clka_pll0_div);
	kfree(clka_pll1_div);
	kfree(clka_switch_cfg);
	clka_switch_cfg = NULL;
	clka_pll0_div = clka_pll1_div = NULL;

	stx7105_suspend_wake();
	return 0;


on_suspending:
	clka_pll0_div = kmalloc(sizeof(char) * 18, GFP_ATOMIC);
	clka_pll1_div = kmalloc(sizeof(char) * 18, GFP_ATOMIC);
	clka_switch_cfg = kmalloc(sizeof(long) * 2, GFP_ATOMIC);

	if (!clka_pll0_div || !clka_pll1_div || !clka_switch_cfg)
		goto error;

	/* save the current APPD setting*/
	saved_gplmi_appd = ioread32(LMI_APPD(0));
	/* disable the APPD */
	iowrite32(0x0, LMI_APPD(0));

	/* save the original settings */
	clka_switch_cfg[0] = ioread32(cga + CKGA_CLKOPSRC_SWITCH_CFG(0));
	clka_switch_cfg[1] = ioread32(cga + CKGA_CLKOPSRC_SWITCH_CFG(1));

	for (i = 0; i < 18; ++i) {
		clka_pll0_div[i] = ioread32(((i < 4) ?
			cga + CKGA_PLL0HS_DIV_CFG(i) :
			cga + CKGA_PLL0LS_DIV_CFG(i)));
		clka_pll1_div[i] = ioread32(cga + CKGA_PLL1_DIV_CFG(i));
		}
	pr_devel("[STM][PM] ClockGen A: saved\n");
	mdelay(10);

	/* to avoid the system is to much slow all
	 * the clocks are scaled @ 30 MHz
	 * the final setting is done in the tables
	 */
	for (i = 0; i < 18; ++i)
		iowrite32(0, cga + CKGA_OSC_DIV_CFG(i));

	/* almost all the clocks off */
	iowrite32(0xfffff0ff, cga + CKGA_CLKOPSRC_SWITCH_CFG(0));
	iowrite32(0x3, cga + CKGA_CLKOPSRC_SWITCH_CFG(1));

	if (wkd.hdmi_can_wakeup || wkd.eth_phy_can_wakeup) {
		unsigned long pwr = 0x3; /* Plls Off */
		unsigned long cfg = 0xfffff0ff;

#define CLKA_IC_IF_100_ID	5
#define CLKA_ETH0_PHY_ID	13
		if (wkd.hdmi_can_wakeup) {
			/* needs PLL1 on */
			pwr &= ~2;
			cfg &= ~(0x3 << (2 * CLKA_IC_IF_100_ID));
			cfg |= (0x2 << (2 * CLKA_IC_IF_100_ID));
		}
		if (wkd.eth_phy_can_wakeup) {
			/* needs PLL1 on */
			pwr &= ~2;
			cfg &= ~(0x3 << (2 * CLKA_ETH0_PHY_ID));
			cfg |= (0x2 << (2 * CLKA_ETH0_PHY_ID));
		}
		iowrite32(cfg, cga + CKGA_CLKOPSRC_SWITCH_CFG(0));
		iowrite32(pwr, cga + CKGA_POWER_CFG);
	} else {
		iowrite32(3, cga + CKGA_POWER_CFG);
		if (!wkd.lirc_can_wakeup)
			clk_set_rate(ca_ic_if_100_clk,
				    clk_get_rate(ca_ref_clk)/32);
	}

	return 0;

error:
	kfree(clka_pll1_div);
	kfree(clka_pll0_div);
	kfree(clka_switch_cfg);

	clka_switch_cfg = NULL;
	clka_pll0_div = clka_pll1_div = NULL;

	return -ENOMEM;
}