board/keymile/common/qrio.c - u-boot - Git at Google

 // SPDX-License-Identifier: GPL-2.0+
 /*
  * (C) Copyright 2013 Keymile AG
  * Valentin Longchamp <valentin.longchamp@keymile.com>
  */

 #include <common.h>
 #include <asm/io.h>
 #include <linux/bitops.h>

 #include "common.h"
 #include "qrio.h"

 /* QRIO ID register offset */
 #define ID_REV_OFF		0x00

 /* QRIO GPIO register offsets */
 #define DIRECT_OFF		0x18
 #define GPRT_OFF		0x1c

 void show_qrio(void)
 {
 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;
 	u16 id_rev = in_be16(qrio_base + ID_REV_OFF);

 	printf("QRIO: id = %u, revision = %u\n",
 	       (id_rev >> 8) & 0xff, id_rev & 0xff);
 }

 #define SLFTEST_OFF		0x06

 bool qrio_get_selftest_pin(void)
 {
 	u8 slftest;

 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	slftest = in_8(qrio_base + SLFTEST_OFF);

 	return (slftest & 1) > 0;
 }

 #define BPRTH_OFF		0x04

 bool qrio_get_pgy_pres_pin(void)
 {
 	u8 pgy_pres;

 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	pgy_pres = in_8(qrio_base + BPRTH_OFF);

 	return (pgy_pres & 0x80) > 0;
 }

 int qrio_get_gpio(u8 port_off, u8 gpio_nr)
 {
 	u32 gprt;

 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	gprt = in_be32(qrio_base + port_off + GPRT_OFF);

 	return (gprt >> gpio_nr) & 1U;
 }

 void qrio_set_gpio(u8 port_off, u8 gpio_nr, bool value)
 {
 	u32 gprt, mask;

 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	mask = 1U << gpio_nr;

 	gprt = in_be32(qrio_base + port_off + GPRT_OFF);
 	if (value)
 		gprt |= mask;
 	else
 		gprt &= ~mask;

 	out_be32(qrio_base + port_off + GPRT_OFF, gprt);
 }

 void qrio_gpio_direction_output(u8 port_off, u8 gpio_nr, bool value)
 {
 	u32 direct, mask;

 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	mask = 1U << gpio_nr;

 	direct = in_be32(qrio_base + port_off + DIRECT_OFF);
 	direct |= mask;
 	out_be32(qrio_base + port_off + DIRECT_OFF, direct);

 	qrio_set_gpio(port_off, gpio_nr, value);
 }

 void qrio_gpio_direction_input(u8 port_off, u8 gpio_nr)
 {
 	u32 direct, mask;

 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	mask = 1U << gpio_nr;

 	direct = in_be32(qrio_base + port_off + DIRECT_OFF);
 	direct &= ~mask;
 	out_be32(qrio_base + port_off + DIRECT_OFF, direct);
 }

 void qrio_set_opendrain_gpio(u8 port_off, u8 gpio_nr, u8 val)
 {
 	u32 direct, mask;

 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	mask = 1U << gpio_nr;

 	direct = in_be32(qrio_base + port_off + DIRECT_OFF);
 	if (val == 0)
 		/* set to output -> GPIO drives low */
 		direct |= mask;
 	else
 		/* set to input -> GPIO floating */
 		direct &= ~mask;

 	out_be32(qrio_base + port_off + DIRECT_OFF, direct);
 }

 #define WDMASK_OFF	0x16

 void qrio_wdmask(u8 bit, bool wden)
 {
 	u16 wdmask;
 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	wdmask = in_be16(qrio_base + WDMASK_OFF);

 	if (wden)
 		wdmask |= (1 << bit);
 	else
 		wdmask &= ~(1 << bit);

 	out_be16(qrio_base + WDMASK_OFF, wdmask);
 }

 #define PRST_OFF	0x1a

 void qrio_prst(u8 bit, bool en, bool wden)
 {
 	u16 prst;
 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	qrio_wdmask(bit, wden);

 	prst = in_be16(qrio_base + PRST_OFF);

 	if (en)
 		prst &= ~(1 << bit);
 	else
 		prst |= (1 << bit);

 	out_be16(qrio_base + PRST_OFF, prst);
 }

 #define PRSTCFG_OFF	0x1c

 void qrio_prstcfg(u8 bit, u8 mode)
 {
 	unsigned long prstcfg;
 	u8 i;
 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	prstcfg = in_be32(qrio_base + PRSTCFG_OFF);

 	for (i = 0; i < 2; i++) {
 		if (mode & (1 << i))
 			__set_bit(2 * bit + i, &prstcfg);
 		else
 			__clear_bit(2 * bit + i, &prstcfg);
 	}

 	out_be32(qrio_base + PRSTCFG_OFF, prstcfg);
 }

 #define CTRLH_OFF		0x02
 #define CTRLH_WRL_BOOT		0x01
 #define CTRLH_WRL_UNITRUN	0x02

 void qrio_set_leds(void)
 {
 	u8 ctrlh;
 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	/* set UNIT LED to RED and BOOT LED to ON */
 	ctrlh = in_8(qrio_base + CTRLH_OFF);
 	ctrlh |= (CTRLH_WRL_BOOT | CTRLH_WRL_UNITRUN);
 	out_8(qrio_base + CTRLH_OFF, ctrlh);
 }

 #define CTRLL_OFF		0x03
 #define CTRLL_WRB_BUFENA	0x20

 void qrio_enable_app_buffer(void)
 {
 	u8 ctrll;
 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	/* enable application buffer */
 	ctrll = in_8(qrio_base + CTRLL_OFF);
 	ctrll |= (CTRLL_WRB_BUFENA);
 	out_8(qrio_base + CTRLL_OFF, ctrll);
 }

 #define REASON1_OFF	0x12
 #define REASON1_CPUWD	0x01

 void qrio_cpuwd_flag(bool flag)
 {
 	u8 reason1;
 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	reason1 = in_8(qrio_base + REASON1_OFF);
 	if (flag)
 		reason1 |= REASON1_CPUWD;
 	else
 		reason1 &= ~REASON1_CPUWD;
 	out_8(qrio_base + REASON1_OFF, reason1);
 }

 #define REASON0_OFF	0x13
 #define REASON0_SWURST	0x80
 #define REASON0_CPURST	0x40
 #define REASON0_BPRST	0x20
 #define REASON0_COPRST	0x10
 #define REASON0_SWCRST	0x08
 #define REASON0_WDRST	0x04
 #define REASON0_KBRST	0x02
 #define REASON0_POWUP	0x01
 #define UNIT_RESET\
 	(REASON0_POWUP | REASON0_COPRST | REASON0_KBRST |\
 	 REASON0_BPRST | REASON0_SWURST | REASON0_WDRST)
 #define CORE_RESET      ((REASON1_CPUWD << 8) | REASON0_SWCRST)

 bool qrio_reason_unitrst(void)
 {
 	u16 reason;
 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	reason = in_be16(qrio_base + REASON1_OFF);

 	return (reason & UNIT_RESET) > 0;
 }

 #define RSTCFG_OFF	0x11

 void qrio_uprstreq(u8 mode)
 {
 	u32 rstcfg;
 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;

 	rstcfg = in_8(qrio_base + RSTCFG_OFF);

 	if (mode & UPREQ_CORE_RST)
 		rstcfg |= UPREQ_CORE_RST;
 	else
 		rstcfg &= ~UPREQ_CORE_RST;

 	out_8(qrio_base + RSTCFG_OFF, rstcfg);
 }

 /* Early bootcount memory area is avilable starting from QRIO3 Rev.2 */
 #define QRIO3_ID		0x71
 #define QRIO3_REV		0x02
 #define EBOOTCNT_OFF		0x28

 ulong early_bootcount_load(void)
 {
 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;
 	u16 id_rev = in_be16(qrio_base + ID_REV_OFF);
 	u8 id = (id_rev >> 8) & 0xff;
 	u8 rev = id_rev & 0xff;
 	u32 ebootcount = 0;

 	if (id == QRIO3_ID && rev >= QRIO3_REV) {
 		ebootcount = in_be32(qrio_base + EBOOTCNT_OFF);
 	} else {
 		printf("QRIO: warning: early bootcount not supported, ");
 		printf("id = %u, rev = %u\n", id, rev);
 	}

 	return ebootcount;
 }

 void early_bootcount_store(ulong ebootcount)
 {
 	void __iomem *qrio_base = (void *)CFG_SYS_QRIO_BASE;
 	u16 id_rev = in_be16(qrio_base + ID_REV_OFF);
 	u8 id = (id_rev >> 8) & 0xff;
 	u8 rev = id_rev & 0xff;

 	if (id == QRIO3_ID && rev >= QRIO3_REV) {
 		out_be32(qrio_base + EBOOTCNT_OFF, ebootcount);
 	} else {
 		printf("QRIO: warning: early bootcount not supported, ");
 		printf("id = %u, rev = %u\n", id, rev);
 	}
 }

 /* I2C deblocking uses the algorithm defined in board/keymile/common/common.c
  * 2 dedicated QRIO GPIOs externally pull the SCL and SDA lines
  * For I2C only the low state is activly driven and high state is pulled-up
  * by a resistor. Therefore the deblock GPIOs are used
  *  -> as an active output to drive a low state
  *  -> as an open-drain input to have a pulled-up high state
  */

 /* By default deblock GPIOs are floating */
 void i2c_deblock_gpio_cfg(void)
 {
 	/* set I2C bus 1 deblocking GPIOs input, but 0 value for open drain */
 	qrio_gpio_direction_input(KM_I2C_DEBLOCK_PORT,
 				  KM_I2C_DEBLOCK_SCL);
 	qrio_gpio_direction_input(KM_I2C_DEBLOCK_PORT,
 				  KM_I2C_DEBLOCK_SDA);

 	qrio_set_gpio(KM_I2C_DEBLOCK_PORT,
 		      KM_I2C_DEBLOCK_SCL, 0);
 	qrio_set_gpio(KM_I2C_DEBLOCK_PORT,
 		      KM_I2C_DEBLOCK_SDA, 0);
 }

 void set_sda(int state)
 {
 	qrio_set_opendrain_gpio(KM_I2C_DEBLOCK_PORT,
 				KM_I2C_DEBLOCK_SDA, state);
 }

 void set_scl(int state)
 {
 	qrio_set_opendrain_gpio(KM_I2C_DEBLOCK_PORT,
 				KM_I2C_DEBLOCK_SCL, state);
 }

 int get_sda(void)
 {
 	return qrio_get_gpio(KM_I2C_DEBLOCK_PORT,
 			     KM_I2C_DEBLOCK_SDA);
 }

 int get_scl(void)
 {
 	return qrio_get_gpio(KM_I2C_DEBLOCK_PORT,
 			     KM_I2C_DEBLOCK_SCL);
 }
	// SPDX-License-Identifier: GPL-2.0+
	/*
	* (C) Copyright 2013 Keymile AG
	* Valentin Longchamp <valentin.longchamp@keymile.com>
	*/

	#include <common.h>
	#include <asm/io.h>
	#include <linux/bitops.h>

	#include "common.h"
	#include "qrio.h"

	/* QRIO ID register offset */
	#define ID_REV_OFF 0x00

	/* QRIO GPIO register offsets */
	#define DIRECT_OFF 0x18
	#define GPRT_OFF 0x1c

	void show_qrio(void)
	{
	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;
	u16 id_rev = in_be16(qrio_base + ID_REV_OFF);

	printf("QRIO: id = %u, revision = %u\n",
	(id_rev >> 8) & 0xff, id_rev & 0xff);
	}

	#define SLFTEST_OFF 0x06

	bool qrio_get_selftest_pin(void)
	{
	u8 slftest;

	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	slftest = in_8(qrio_base + SLFTEST_OFF);

	return (slftest & 1) > 0;
	}

	#define BPRTH_OFF 0x04

	bool qrio_get_pgy_pres_pin(void)
	{
	u8 pgy_pres;

	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	pgy_pres = in_8(qrio_base + BPRTH_OFF);

	return (pgy_pres & 0x80) > 0;
	}

	int qrio_get_gpio(u8 port_off, u8 gpio_nr)
	{
	u32 gprt;

	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	gprt = in_be32(qrio_base + port_off + GPRT_OFF);

	return (gprt >> gpio_nr) & 1U;
	}

	void qrio_set_gpio(u8 port_off, u8 gpio_nr, bool value)
	{
	u32 gprt, mask;

	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	mask = 1U << gpio_nr;

	gprt = in_be32(qrio_base + port_off + GPRT_OFF);
	if (value)
	gprt \|= mask;
	else
	gprt &= ~mask;

	out_be32(qrio_base + port_off + GPRT_OFF, gprt);
	}

	void qrio_gpio_direction_output(u8 port_off, u8 gpio_nr, bool value)
	{
	u32 direct, mask;

	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	mask = 1U << gpio_nr;

	direct = in_be32(qrio_base + port_off + DIRECT_OFF);
	direct \|= mask;
	out_be32(qrio_base + port_off + DIRECT_OFF, direct);

	qrio_set_gpio(port_off, gpio_nr, value);
	}

	void qrio_gpio_direction_input(u8 port_off, u8 gpio_nr)
	{
	u32 direct, mask;

	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	mask = 1U << gpio_nr;

	direct = in_be32(qrio_base + port_off + DIRECT_OFF);
	direct &= ~mask;
	out_be32(qrio_base + port_off + DIRECT_OFF, direct);
	}

	void qrio_set_opendrain_gpio(u8 port_off, u8 gpio_nr, u8 val)
	{
	u32 direct, mask;

	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	mask = 1U << gpio_nr;

	direct = in_be32(qrio_base + port_off + DIRECT_OFF);
	if (val == 0)
	/* set to output -> GPIO drives low */
	direct \|= mask;
	else
	/* set to input -> GPIO floating */
	direct &= ~mask;

	out_be32(qrio_base + port_off + DIRECT_OFF, direct);
	}

	#define WDMASK_OFF 0x16

	void qrio_wdmask(u8 bit, bool wden)
	{
	u16 wdmask;
	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	wdmask = in_be16(qrio_base + WDMASK_OFF);

	if (wden)
	wdmask \|= (1 << bit);
	else
	wdmask &= ~(1 << bit);

	out_be16(qrio_base + WDMASK_OFF, wdmask);
	}

	#define PRST_OFF 0x1a

	void qrio_prst(u8 bit, bool en, bool wden)
	{
	u16 prst;
	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	qrio_wdmask(bit, wden);

	prst = in_be16(qrio_base + PRST_OFF);

	if (en)
	prst &= ~(1 << bit);
	else
	prst \|= (1 << bit);

	out_be16(qrio_base + PRST_OFF, prst);
	}

	#define PRSTCFG_OFF 0x1c

	void qrio_prstcfg(u8 bit, u8 mode)
	{
	unsigned long prstcfg;
	u8 i;
	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	prstcfg = in_be32(qrio_base + PRSTCFG_OFF);

	for (i = 0; i < 2; i++) {
	if (mode & (1 << i))
	__set_bit(2 * bit + i, &prstcfg);
	else
	__clear_bit(2 * bit + i, &prstcfg);
	}

	out_be32(qrio_base + PRSTCFG_OFF, prstcfg);
	}

	#define CTRLH_OFF 0x02
	#define CTRLH_WRL_BOOT 0x01
	#define CTRLH_WRL_UNITRUN 0x02

	void qrio_set_leds(void)
	{
	u8 ctrlh;
	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	/* set UNIT LED to RED and BOOT LED to ON */
	ctrlh = in_8(qrio_base + CTRLH_OFF);
	ctrlh \|= (CTRLH_WRL_BOOT \| CTRLH_WRL_UNITRUN);
	out_8(qrio_base + CTRLH_OFF, ctrlh);
	}

	#define CTRLL_OFF 0x03
	#define CTRLL_WRB_BUFENA 0x20

	void qrio_enable_app_buffer(void)
	{
	u8 ctrll;
	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	/* enable application buffer */
	ctrll = in_8(qrio_base + CTRLL_OFF);
	ctrll \|= (CTRLL_WRB_BUFENA);
	out_8(qrio_base + CTRLL_OFF, ctrll);
	}

	#define REASON1_OFF 0x12
	#define REASON1_CPUWD 0x01

	void qrio_cpuwd_flag(bool flag)
	{
	u8 reason1;
	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	reason1 = in_8(qrio_base + REASON1_OFF);
	if (flag)
	reason1 \|= REASON1_CPUWD;
	else
	reason1 &= ~REASON1_CPUWD;
	out_8(qrio_base + REASON1_OFF, reason1);
	}

	#define REASON0_OFF 0x13
	#define REASON0_SWURST 0x80
	#define REASON0_CPURST 0x40
	#define REASON0_BPRST 0x20
	#define REASON0_COPRST 0x10
	#define REASON0_SWCRST 0x08
	#define REASON0_WDRST 0x04
	#define REASON0_KBRST 0x02
	#define REASON0_POWUP 0x01
	#define UNIT_RESET\
	(REASON0_POWUP \| REASON0_COPRST \| REASON0_KBRST \|\
	REASON0_BPRST \| REASON0_SWURST \| REASON0_WDRST)
	#define CORE_RESET ((REASON1_CPUWD << 8) \| REASON0_SWCRST)

	bool qrio_reason_unitrst(void)
	{
	u16 reason;
	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	reason = in_be16(qrio_base + REASON1_OFF);

	return (reason & UNIT_RESET) > 0;
	}

	#define RSTCFG_OFF 0x11

	void qrio_uprstreq(u8 mode)
	{
	u32 rstcfg;
	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;

	rstcfg = in_8(qrio_base + RSTCFG_OFF);

	if (mode & UPREQ_CORE_RST)
	rstcfg \|= UPREQ_CORE_RST;
	else
	rstcfg &= ~UPREQ_CORE_RST;

	out_8(qrio_base + RSTCFG_OFF, rstcfg);
	}

	/* Early bootcount memory area is avilable starting from QRIO3 Rev.2 */
	#define QRIO3_ID 0x71
	#define QRIO3_REV 0x02
	#define EBOOTCNT_OFF 0x28

	ulong early_bootcount_load(void)
	{
	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;
	u16 id_rev = in_be16(qrio_base + ID_REV_OFF);
	u8 id = (id_rev >> 8) & 0xff;
	u8 rev = id_rev & 0xff;
	u32 ebootcount = 0;

	if (id == QRIO3_ID && rev >= QRIO3_REV) {
	ebootcount = in_be32(qrio_base + EBOOTCNT_OFF);
	} else {
	printf("QRIO: warning: early bootcount not supported, ");
	printf("id = %u, rev = %u\n", id, rev);
	}

	return ebootcount;
	}

	void early_bootcount_store(ulong ebootcount)
	{
	void __iomem qrio_base = (void )CFG_SYS_QRIO_BASE;
	u16 id_rev = in_be16(qrio_base + ID_REV_OFF);
	u8 id = (id_rev >> 8) & 0xff;
	u8 rev = id_rev & 0xff;

	if (id == QRIO3_ID && rev >= QRIO3_REV) {
	out_be32(qrio_base + EBOOTCNT_OFF, ebootcount);
	} else {
	printf("QRIO: warning: early bootcount not supported, ");
	printf("id = %u, rev = %u\n", id, rev);
	}
	}

	/* I2C deblocking uses the algorithm defined in board/keymile/common/common.c
	* 2 dedicated QRIO GPIOs externally pull the SCL and SDA lines
	* For I2C only the low state is activly driven and high state is pulled-up
	* by a resistor. Therefore the deblock GPIOs are used
	* -> as an active output to drive a low state
	* -> as an open-drain input to have a pulled-up high state
	*/

	/* By default deblock GPIOs are floating */
	void i2c_deblock_gpio_cfg(void)
	{
	/* set I2C bus 1 deblocking GPIOs input, but 0 value for open drain */
	qrio_gpio_direction_input(KM_I2C_DEBLOCK_PORT,
	KM_I2C_DEBLOCK_SCL);
	qrio_gpio_direction_input(KM_I2C_DEBLOCK_PORT,
	KM_I2C_DEBLOCK_SDA);

	qrio_set_gpio(KM_I2C_DEBLOCK_PORT,
	KM_I2C_DEBLOCK_SCL, 0);
	qrio_set_gpio(KM_I2C_DEBLOCK_PORT,
	KM_I2C_DEBLOCK_SDA, 0);
	}

	void set_sda(int state)
	{
	qrio_set_opendrain_gpio(KM_I2C_DEBLOCK_PORT,
	KM_I2C_DEBLOCK_SDA, state);
	}

	void set_scl(int state)
	{
	qrio_set_opendrain_gpio(KM_I2C_DEBLOCK_PORT,
	KM_I2C_DEBLOCK_SCL, state);
	}

	int get_sda(void)
	{
	return qrio_get_gpio(KM_I2C_DEBLOCK_PORT,
	KM_I2C_DEBLOCK_SDA);
	}

	int get_scl(void)
	{
	return qrio_get_gpio(KM_I2C_DEBLOCK_PORT,
	KM_I2C_DEBLOCK_SCL);
	}