/* Copyright 2021 The Chromium OS Authors. All rights reserved.
 * Use of this source code is governed by a BSD-style license that can be
 * found in the LICENSE file.
 *
 * Register map for Microchip MEC152x family controllers
 */

#ifndef __CROS_EC_REGISTERS_H
#error "This header file should not be included directly."
#endif

/*
 * IRQ Numbers
 * NOTE: GIRQ22 aggregated output and its sources are not connected to
 * the NVIC.
 */
#define MCHP_IRQ_GIRQ8		0
#define MCHP_IRQ_GIRQ9		1
#define MCHP_IRQ_GIRQ10		2
#define MCHP_IRQ_GIRQ11		3
#define MCHP_IRQ_GIRQ12		4
#define MCHP_IRQ_GIRQ13		5
#define MCHP_IRQ_GIRQ14		6
#define MCHP_IRQ_GIRQ15		7
#define MCHP_IRQ_GIRQ16		8
#define MCHP_IRQ_GIRQ17		9
#define MCHP_IRQ_GIRQ18		10
#define MCHP_IRQ_GIRQ19		11
#define MCHP_IRQ_GIRQ20		12
#define MCHP_IRQ_GIRQ21		13
#define MCHP_IRQ_GIRQ23		14
#define MCHP_IRQ_GIRQ24		15
#define MCHP_IRQ_GIRQ25		16
#define MCHP_IRQ_GIRQ26		17
/* GIRQ13 direct sources */
#define MCHP_IRQ_I2C_0		20
#define MCHP_IRQ_I2C_1		21
#define MCHP_IRQ_I2C_2		22
#define MCHP_IRQ_I2C_3		23
#define MCHP_IRQ_I2C_4		158
#define MCHP_IRQ_I2C_5		168
#define MCHP_IRQ_I2C_6		169
#define MCHP_IRQ_I2C_7		170
/* GIRQ14 direct sources */
#define MCHP_IRQ_DMA_0		24
#define MCHP_IRQ_DMA_1		25
#define MCHP_IRQ_DMA_2		26
#define MCHP_IRQ_DMA_3		27
#define MCHP_IRQ_DMA_4		28
#define MCHP_IRQ_DMA_5		29
#define MCHP_IRQ_DMA_6		30
#define MCHP_IRQ_DMA_7		31
#define MCHP_IRQ_DMA_8		32
#define MCHP_IRQ_DMA_9		33
#define MCHP_IRQ_DMA_10		34
#define MCHP_IRQ_DMA_11		35
/* GIRQ15 direct sources */
#define MCHP_IRQ_UART0		40
#define MCHP_IRQ_UART1		41
#define MCHP_IRQ_EMI0		42
#define MCHP_IRQ_EMI1		43
#define MCHP_IRQ_UART2		44
#define MCHP_IRQ_ACPIEC0_IBF	45
#define MCHP_IRQ_ACPIEC0_OBE	46
#define MCHP_IRQ_ACPIEC1_IBF	47
#define MCHP_IRQ_ACPIEC1_OBE	48
#define MCHP_IRQ_ACPIEC2_IBF	49
#define MCHP_IRQ_ACPIEC2_OBE	50
#define MCHP_IRQ_ACPIEC3_IBF	51
#define MCHP_IRQ_ACPIEC3_OBE	52
#define MCHP_IRQ_ACPIPM1_CTL	55
#define MCHP_IRQ_ACPIPM1_EN	56
#define MCHP_IRQ_ACPIPM1_STS	57
#define MCHP_IRQ_8042EM_OBE	58
#define MCHP_IRQ_8042EM_IBF	59
#define MCHP_IRQ_MAILBOX_DATA	60
#define MCHP_IRQ_PORT80DBG0	62
#define MCHP_IRQ_PORT80DBG1	63
#define MCHP_IRQ_LASIC		64
/* GIRQ16 direct sources */
#define MCHP_IRQ_PKE_ERR	65
#define MCHP_IRQ_PKE_END	66
#define MCHP_IRQ_NDRNG		67
#define MCHP_IRQ_AES		68
#define MCHP_IRQ_HASH		69
/* GIRQ17 direct sources */
#define MCHP_IRQ_PECI_HOST	70
#define MCHP_IRQ_TACH_0		71
#define MCHP_IRQ_TACH_1		72
#define MCHP_IRQ_TACH_2		73
#define MCHP_IRQ_TACH_3		159
#define MCHP_IRQ_HDMI_CEC	160
#define MCHP_IRQ_ADC_SNGL	78
#define MCHP_IRQ_ADC_RPT	79
#define MCHP_IRQ_LED0_WDT	83
#define MCHP_IRQ_LED1_WDT	84
#define MCHP_IRQ_LED2_WDT	85
#define MCHP_IRQ_PROCHOT	87
/* GIRQ18 direct sources */
#define MCHP_IRQ_SLAVE_SPI	90
#define MCHP_IRQ_QMSPI0		91
#define MCHP_IRQ_PS2_0		100
#define MCHP_IRQ_PS2_1		101
#define MCHP_IRQ_PSPI		155
#define MCHP_IRQ_SGPIO_0	161
#define MCHP_IRQ_SGPIO_1	162
#define MCHP_IRQ_SGPIO_2	163
#define MCHP_IRQ_SGPIO_3	164
#define MCHP_IRQ_CCT_TMR	146
#define MCHP_IRQ_CCT_CAP0	147
#define MCHP_IRQ_CCT_CAP1	148
#define MCHP_IRQ_CCT_CAP2	149
#define MCHP_IRQ_CCT_CAP3	150
#define MCHP_IRQ_CCT_CAP4	151
#define MCHP_IRQ_CCT_CAP5	152
#define MCHP_IRQ_CCT_CMP0	153
#define MCHP_IRQ_CCT_CMP1	154
/* GIRQ19 direct sources */
#define MCHP_IRQ_ESPI_PC	103
#define MCHP_IRQ_ESPI_BM1	104
#define MCHP_IRQ_ESPI_BM2	105
#define MCHP_IRQ_ESPI_LTR	106
#define MCHP_IRQ_ESPI_OOB_UP	107
#define MCHP_IRQ_ESPI_OOB_DN	108
#define MCHP_IRQ_ESPI_FC	109
#define MCHP_IRQ_ESPI_RESET	110
#define MCHP_IRQ_ESPI_VW_EN	156
/* GIRQ20 direct sources */
#define MCHP_IRQ_OTP		173
/* GIRQ21 direct sources */
#define MCHP_IRQ_WDG		171
#define MCHP_IRQ_WEEK_ALARM	114
#define MCHP_IRQ_SUBWEEK	115
#define MCHP_IRQ_WEEK_SEC	116
#define MCHP_IRQ_WEEK_SUBSEC	117
#define MCHP_IRQ_WEEK_SYSPWR	118
#define MCHP_IRQ_RTC		119
#define MCHP_IRQ_RTC_ALARM	120
#define MCHP_IRQ_VCI_OVRD_IN	121
#define MCHP_IRQ_VCI_IN0	122
#define MCHP_IRQ_VCI_IN1	123
#define MCHP_IRQ_VCI_IN2	124
#define MCHP_IRQ_VCI_IN3	125
#define MCHP_IRQ_PS20A_WAKE	129
#define MCHP_IRQ_PS20B_WAKE	130
#define MCHP_IRQ_PS21B_WAKE	132
#define MCHP_IRQ_KSC_INT	135
/* GIRQ23 direct sources */
#define MCHP_IRQ_TIMER16_0	136
#define MCHP_IRQ_TIMER16_1	137
#define MCHP_IRQ_TIMER32_0	140
#define MCHP_IRQ_TIMER32_1	141
#define MCHP_IRQ_RTOS_TIMER	111
#define MCHP_IRQ_HTIMER0	112
#define MCHP_IRQ_HTIMER1	113
/* Must match CONFIG_IRQ_COUNT in config_chip.h */
#define MCHP_IRQ_MAX		174

/* Block base addresses */
#define MCHP_WDG_BASE		0x40000400
#define MCHP_TMR16_0_BASE	0x40000c00
#define MCHP_TMR32_0_BASE	0x40000c80
#define MCHP_DMA_BASE		0x40002400
#define MCHP_PROCHOT_BASE	0x40003400
#define MCHP_I2C0_BASE		0x40004000
#define MCHP_I2C1_BASE		0x40004400
#define MCHP_I2C2_BASE		0x40004800
#define MCHP_I2C3_BASE		0x40004C00
#define MCHP_I2C4_BASE		0x40005000
#define MCHP_I2C5_BASE		0x40005100
#define MCHP_I2C6_BASE		0x40005200
#define MCHP_I2C7_BASE		0x40005300
#define MCHP_QMSPI0_BASE	0x40070000
#define MCHP_PWM_0_BASE		0x40005800
#define MCHP_TACH_0_BASE	0x40006000
#define MCHP_PECI_BASE		0x40006400
#define MCHP_RTMR_BASE		0x40007400
#define MCHP_ADC_BASE		0x40007c00
#define MCHP_TFDP_BASE		0x40008c00
#define MCHP_HTIMER_BASE	0x40009800
#define MCHP_KEYSCAN_BASE	0x40009c00
#define MCHP_VBAT_BASE		0x4000a400
#define MCHP_VBAT_RAM_BASE	0x4000a800
#define MCHP_WKTIMER_BASE	0x4000ac80
#define MCHP_BBLED_0_BASE	0x4000B800
#define MCHP_INT_BASE		0x4000e000
#define MCHP_EC_BASE		0x4000fc00

#define MCHP_PCR_BASE		0x40080100
#define MCHP_GPIO_BASE		0x40081000

#define MCHP_MBOX_BASE		0x400f0000
#define MCHP_8042_BASE		0x400f0400
#define MCHP_ACPI_EC_0_BASE	0x400f0800
#define MCHP_ACPI_PM1_BASE	0x400f1c00
#define MCHP_UART0_BASE		0x400f2400
#define MCHP_UART1_BASE		0x400f2800
#define MCHP_UART2_BASE		0x400f2c00
#define MCHP_ESPI_IO_BASE	0x400f3400
#define MCHP_ESPI_MEM_BASE	0x400f3800
#define MCHP_EMI_0_BASE		0x400f4000
#define MCHP_EMI_1_BASE		0x400f4400
#define MCHP_P80CAP0_BASE	0x400f8000
#define MCHP_P80CAP1_BASE	0x400f8400
#define MCHP_ESPI_VW_BASE	0x400f9c00
#define MCHP_CHIP_BASE		0x400fff00

#ifndef __ASSEMBLER__

/*
 * Helper function for RAM address aliasing
 * NOTE: MCHP AHB masters do NOT require aliasing.
 * Cortex-M4 bit-banding does require aliasing of the
 * DATA SRAM region.
 */
#define MCHP_RAM_ALIAS(x) \
	((x) >= 0x118000 ? (x) - 0x118000 + 0x20000000 : (x))

/* EC Chip Configuration */
/* 16-bit Device ID */
#define MCHP_CHIP_DEV_ID		REG16(MCHP_CHIP_BASE + 0x1E)
/* 8-bit Device Sub ID */
#define MCHP_CHIP_DEV_SUB_ID		REG8(MCHP_CHIP_BASE + 0x1D)
/* 8-bit Device Revision */
#define MCHP_CHIP_DEV_REV		REG8(MCHP_CHIP_BASE + 0x1C)
/* All in one */
#define MCHP_CHIP_DEVRID32		REG32(MCHP_CHIP_BASE + 0x1C)
#define MCHP_CHIP_DEVID_POS		16
#define MCHP_CHIP_DEVID_MASK		(0xfffful << MCHP_CHIP_DEVID_POS)
#define MCHP_CHIP_SUBID_POS		8
#define MCHP_CHIP_SUBID_MASK		(0xfful << MCHP_CHIP_SUBID_POS)
#define MCHP_CHIP_REV_POS		0
#define MCHP_CHIP_REV_MASK		(0xfful << MCHP_CHIP_REV_POS)
#define MCHP_CHIP_EXTRACT_DEVID(d) \
	(((uint32_t)(d) & MCHP_CHIP_DEVID_MASK) >> MCHP_CHIP_DEVID_POS)
#define MCHP_CHIP_EXTRACT_SUBID(d) \
	(((uint32_t)(d) & MCHP_CHIP_SUBID_MASK) >> MCHP_CHIP_SUBID_POS)
#define MCHP_CHIP_EXTRACT_REV(d) \
	(((uint32_t)(d) & MCHP_CHIP_REV_MASK) >> MCHP_CHIP_REV_POS)

/* PCR clock control dividers */
#define MCHP_PCR_CLK_CTL_FASTEST	1U
#define MCHP_PCR_CLK_CTL_48MHZ		1U
#define MCHP_PCR_CLK_CTL_12MHZ		4U

/*
 * PCR Peripheral Reset Lock register
 * MEC152x PCR Peripheral reset registers do not reset on
 * peripheral sleep. The peripheral is reset immediately.
 * Firmware must write an unlock value to this new lock
 * register, write to PCR reset enable register(s), and
 * write a lock value.
 */
#define MCHP_PCR_RST_LOCK		REG32(MCHP_PCR_BASE + 0x84)
#define MCHP_PCR_RST_LOCK_VAL		0xa6382d4d
#define MCHP_PCR_RST_UNLOCK_VAL		0xa6382d4c

/* Number of PCR Sleep Enable, Clock Required, and Reset registers */
#define MCHP_PCR_SLP_RST_REG_MAX	5

/* MC152x new bit allow sleep entry when PLL is not locked */
#define MCHP_PCR_SYS_SLP_NO_PLL		BIT(8)

/* Sleep 0: Sleep Enable, Clock Required, and Reset bits */
#define MCHP_PCR_JTAG	BIT(0) /* CLKREQ only */
#define MCHP_PCR_OTP	BIT(1)

/* Command all blocks to sleep */
#define MCHP_PCR_SLP_EN0_JTAG	BIT(0)
#define MCHP_PCR_SLP_EN0_OTP	BIT(1)
#define MCHP_PCR_SLP_EN0_SLEEP	0xffffffff

/*
 * Encode register number and bit position
 * b[4:0] = bit number
 * b[10:8] = zero based register number
 */
#define MCHP_PCR_ERB(rnum, bnum) \
	((((rnum) & 0x0f) << 8) | ((bnum) & 0x1f))

/* PCR Sleep 1: Sleep Enable, Clock Required, and Reset bits */
#define MCHP_PCR_BTMR16_1	MCHP_PCR_ERB(1, 31)
#define MCHP_PCR_BTMR16_0	MCHP_PCR_ERB(1, 30)
#define MCHP_PCR_ECS		MCHP_PCR_ERB(1, 29)
#define MCHP_PCR_PWM8		MCHP_PCR_ERB(1, 27)
#define MCHP_PCR_PWM7		MCHP_PCR_ERB(1, 26)
#define MCHP_PCR_PWM6		MCHP_PCR_ERB(1, 25)
#define MCHP_PCR_PWM5		MCHP_PCR_ERB(1, 24)
#define MCHP_PCR_PWM4		MCHP_PCR_ERB(1, 23)
#define MCHP_PCR_PWM3		MCHP_PCR_ERB(1, 22)
#define MCHP_PCR_PWM2		MCHP_PCR_ERB(1, 21)
#define MCHP_PCR_PWM1		MCHP_PCR_ERB(1, 20)
#define MCHP_PCR_TACH3		MCHP_PCR_ERB(1, 13)
#define MCHP_PCR_TACH2		MCHP_PCR_ERB(1, 12)
#define MCHP_PCR_TACH1		MCHP_PCR_ERB(1, 11)
#define MCHP_PCR_I2C0		MCHP_PCR_ERB(1, 10)
#define MCHP_PCR_WDT		MCHP_PCR_ERB(1, 9)
#define MCHP_PCR_CPU		MCHP_PCR_ERB(1, 8)
#define MCHP_PCR_TFDP		MCHP_PCR_ERB(1, 7)
#define MCHP_PCR_DMA		MCHP_PCR_ERB(1, 6)
#define MCHP_PCR_PMC		MCHP_PCR_ERB(1, 5)
#define MCHP_PCR_PWM0		MCHP_PCR_ERB(1, 4)
#define MCHP_PCR_TACH0		MCHP_PCR_ERB(1, 2)
#define MCHP_PCR_PECI		MCHP_PCR_ERB(1, 1)
#define MCHP_PCR_ECIA		MCHP_PCR_ERB(1, 0)

/* Command all blocks to sleep */
#define MCHP_PCR_SLP_EN1_BTMR16_1	BIT(31)
#define MCHP_PCR_SLP_EN1_BTMR16_0	BIT(30)
#define MCHP_PCR_SLP_EN1_ECS		BIT(29)
#define MCHP_PCR_SLP_EN1_PWM_ALL	(BIT(4) + (0xff << 20))
#define MCHP_PCR_SLP_EN1_PWM8		BIT(27)
#define MCHP_PCR_SLP_EN1_PWM7		BIT(26)
#define MCHP_PCR_SLP_EN1_PWM6		BIT(25)
#define MCHP_PCR_SLP_EN1_PWM5		BIT(24)
#define MCHP_PCR_SLP_EN1_PWM4		BIT(23)
#define MCHP_PCR_SLP_EN1_PWM3		BIT(22)
#define MCHP_PCR_SLP_EN1_PWM2		BIT(21)
#define MCHP_PCR_SLP_EN1_PWM1		BIT(20)
#define MCHP_PCR_SLP_EN1_TACH3		BIT(13)
#define MCHP_PCR_SLP_EN1_TACH2		BIT(12)
#define MCHP_PCR_SLP_EN1_TACH1		BIT(11)
#define MCHP_PCR_SLP_EN1_I2C0		BIT(10)
#define MCHP_PCR_SLP_EN1_WDT		BIT(9)
#define MCHP_PCR_SLP_EN1_CPU		BIT(8)
#define MCHP_PCR_SLP_EN1_TFDP		BIT(7)
#define MCHP_PCR_SLP_EN1_DMA		BIT(6)
#define MCHP_PCR_SLP_EN1_PMC		BIT(5)
#define MCHP_PCR_SLP_EN1_PWM0		BIT(4)
#define MCHP_PCR_SLP_EN1_TACH0		BIT(2)
#define MCHP_PCR_SLP_EN1_PECI		BIT(1)
#define MCHP_PCR_SLP_EN1_ECIA		BIT(0)
/* all sleep enable 1 bits */
#define MCHP_PCR_SLP_EN1_SLEEP		0xffffffff
/*
 * block not used by default
 * Do not sleep ECIA, PMC, CPU and ECS
 */
#define MCHP_PCR_SLP_EN1_UNUSED_BLOCKS	0xdffffede

/* PCR Sleep 2: Sleep Enable, Clock Required 2, Reset bits */
#define MCHP_PCR_GLUE		MCHP_PCR_ERB(2, 29)
#define MCHP_PCR_UART2		MCHP_PCR_ERB(2, 28)
#define MCHP_PCR_SAF		MCHP_PCR_ERB(2, 27)
#define MCHP_PCR_P80CAP1	MCHP_PCR_ERB(2, 26)
#define MCHP_PCR_P80CAP0	MCHP_PCR_ERB(2, 25)
#define MCHP_PCR_ASIF		MCHP_PCR_ERB(2, 24)
#define MCHP_PCR_ACPI_EC3	MCHP_PCR_ERB(2, 22)
#define MCHP_PCR_ACPI_EC2	MCHP_PCR_ERB(2, 21)
#define MCHP_PCR_ESPI_SCR	MCHP_PCR_ERB(2, 20)
#define MCHP_PCR_ESPI		MCHP_PCR_ERB(2, 19)
#define MCHP_PCR_RTC		MCHP_PCR_ERB(2, 18)
#define MCHP_PCR_MBOX		MCHP_PCR_ERB(2, 17)
#define MCHP_PCR_8042		MCHP_PCR_ERB(2, 26)
#define MCHP_PCR_ACPI_PM1	MCHP_PCR_ERB(2, 15)
#define MCHP_PCR_ACPI_EC1	MCHP_PCR_ERB(2, 14)
#define MCHP_PCR_ACPI_EC0	MCHP_PCR_ERB(2, 13)
#define MCHP_PCR_GCFG		MCHP_PCR_ERB(2, 12)
#define MCHP_PCR_UART1		MCHP_PCR_ERB(2, 2)
#define MCHP_PCR_UART0		MCHP_PCR_ERB(2, 1)
#define MCHP_PCR_EMI0		MCHP_PCR_ERB(2, 0)

/* Command all blocks to sleep */
#define MCHP_PCR_SLP_EN2_GLUE		BIT(29)
#define MCHP_PCR_SLP_EN2_UART2		BIT(28)
#define MCHP_PCR_SLP_EN2_SAF		BIT(27)
#define MCHP_PCR_SLP_EN2_P80CAP1	BIT(26)
#define MCHP_PCR_SLP_EN2_P80CAP0	BIT(25)
#define MCHP_PCR_SLP_EN2_ASIF		BIT(24)
#define MCHP_PCR_SLP_EN2_ACPI_EC3	BIT(22)
#define MCHP_PCR_SLP_EN2_ACPI_EC2	BIT(21)
#define MCHP_PCR_SLP_EN2_ESPI_SCR	BIT(20)
#define MCHP_PCR_SLP_EN2_ESPI		BIT(19)
#define MCHP_PCR_SLP_EN2_RTC		BIT(18)
#define MCHP_PCR_SLP_EN2_MAILBOX	BIT(17)
#define MCHP_PCR_SLP_EN2_MIF8042	BIT(16)
#define MCHP_PCR_SLP_EN2_ACPI_PM1	BIT(15)
#define MCHP_PCR_SLP_EN2_ACPI_EC1	BIT(14)
#define MCHP_PCR_SLP_EN2_ACPI_EC0	BIT(13)
#define MCHP_PCR_SLP_EN2_GCFG		BIT(12)
#define MCHP_PCR_SLP_EN2_UART1		BIT(2)
#define MCHP_PCR_SLP_EN2_UART0		BIT(1)
#define MCHP_PCR_SLP_EN2_EMI0		BIT(0)
/* all sleep enable 2 bits */
#define MCHP_PCR_SLP_EN2_SLEEP		0xffffffff

/* PCR Sleep 3: Sleep Enable, Clock Required, and Reset */
#define MCHP_PCR_CCT0		MCHP_PCR_ERB(3, 30)
#define MCHP_PCR_HTMR1		MCHP_PCR_ERB(3, 29)
#define MCHP_PCR_AESHASH	MCHP_PCR_ERB(3, 28)
#define MCHP_PCR_RNG		MCHP_PCR_ERB(3, 27)
#define MCHP_PCR_PKE		MCHP_PCR_ERB(3, 26)
#define MCHP_PCR_BTMR32_1	MCHP_PCR_ERB(3, 24)
#define MCHP_PCR_BTMR32_0	MCHP_PCR_ERB(3, 23)
#define MCHP_PCR_I2C4		MCHP_PCR_ERB(3, 20)
#define MCHP_PCR_LED2		MCHP_PCR_ERB(3, 18)
#define MCHP_PCR_LED1		MCHP_PCR_ERB(3, 17)
#define MCHP_PCR_LED0		MCHP_PCR_ERB(3, 16)
#define MCHP_PCR_I2C3		MCHP_PCR_ERB(3, 15)
#define MCHP_PCR_I2C2		MCHP_PCR_ERB(3, 14)
#define MCHP_PCR_I2C1		MCHP_PCR_ERB(3, 13)
#define MCHP_PCR_KEYSCAN	MCHP_PCR_ERB(3, 11)
#define MCHP_PCR_HTMR0		MCHP_PCR_ERB(3, 10)
#define MCHP_PCR_PS2_1		MCHP_PCR_ERB(3, 6)
#define MCHP_PCR_PS2_0		MCHP_PCR_ERB(3, 5)
#define MCHP_PCR_ADC		MCHP_PCR_ERB(3, 3)
#define MCHP_PCR_HDMI_CEC	MCHP_PCR_ERB(3, 1)

/* Command blocks to sleep */
#define MCHP_PCR_SLP_EN3_CCT0		BIT(30)
#define MCHP_PCR_SLP_EN3_HTMR1		BIT(29)
#define MCHP_PCR_SLP_EN3_AESHASH	BIT(28)
#define MCHP_PCR_SLP_EN3_RNG		BIT(27)
#define MCHP_PCR_SLP_EN3_PKE		BIT(26)
#define MCHP_PCR_SLP_EN3_BTMR32_1	BIT(24)
#define MCHP_PCR_SLP_EN3_BTMR32_0	BIT(23)
#define MCHP_PCR_SLP_EN3_I2C4		BIT(20)
#define MCHP_PCR_SLP_EN3_LED2		BIT(18)
#define MCHP_PCR_SLP_EN3_LED1		BIT(17)
#define MCHP_PCR_SLP_EN3_LED0		BIT(16)
#define MCHP_PCR_SLP_EN3_I2C3		BIT(15)
#define MCHP_PCR_SLP_EN3_I2C2		BIT(14)
#define MCHP_PCR_SLP_EN3_I2C1		BIT(13)
#define MCHP_PCR_SLP_EN3_KEYSCAN	BIT(11)
#define MCHP_PCR_SLP_EN3_HTMR0		BIT(10)
#define MCHP_PCR_SLP_EN3_PS2_1		BIT(6)
#define MCHP_PCR_SLP_EN3_PS2_0		BIT(5)
#define MCHP_PCR_SLP_EN3_ADC		BIT(3)
#define MCHP_PCR_SLP_EN3_HDMI_CEC	BIT(1)
#define MCHP_PCR_SLP_EN3_ALL_CRYPTO	(0x07 << 26)
/* all sleep enable 3 bits */
#define MCHP_PCR_SLP_EN3_SLEEP		0xfffffffd
#define MCHP_PCR_SLP_EN3_PWM_ALL	0

/* PCR Sleep 4: Sleep Enable, Clock Required, Reset */
#define MCHP_PCR_SGPIO3		MCHP_PCR_ERB(4, 20)
#define MCHP_PCR_SGPIO2		MCHP_PCR_ERB(4, 19)
#define MCHP_PCR_SGPIO1		MCHP_PCR_ERB(4, 18)
#define MCHP_PCR_SGPIO0		MCHP_PCR_ERB(4, 17)
#define MCHP_PCR_SLV_SPI	MCHP_PCR_ERB(4, 16)
#define MCHP_PCR_PSPI		MCHP_PCR_ERB(4, 14)
#define MCHP_PCR_PROCHOT	MCHP_PCR_ERB(4, 13)
#define MCHP_PCR_I2C7		MCHP_PCR_ERB(4, 12)
#define MCHP_PCR_I2C6		MCHP_PCR_ERB(4, 11)
#define MCHP_PCR_I2C5		MCHP_PCR_ERB(4, 10)
#define MCHP_PCR_QMSPI		MCHP_PCR_ERB(4, 8)
#define MCHP_PCR_RTMR		MCHP_PCR_ERB(4, 6)

/* Command blocks to sleep */
#define MCHP_PCR_SLP_EN4_SGPIO3		BIT(20)
#define MCHP_PCR_SLP_EN4_SGPIO2		BIT(19)
#define MCHP_PCR_SLP_EN4_SGPIO1		BIT(18)
#define MCHP_PCR_SLP_EN4_SGPIO0		BIT(17)
#define MCHP_PCR_SLP_EN4_SLV_SPI	BIT(16)
#define MCHP_PCR_SLP_EN4_PSPI		BIT(14)
#define MCHP_PCR_SLP_EN4_PROCHOT	BIT(13)
#define MCHP_PCR_SLP_EN4_I2C7		BIT(12)
#define MCHP_PCR_SLP_EN4_I2C6		BIT(11)
#define MCHP_PCR_SLP_EN4_I2C5		BIT(10)
#define MCHP_PCR_SLP_EN4_QMSPI		BIT(8)
#define MCHP_PCR_SLP_EN4_RTMR		BIT(6)
/* all sleep enable 4 bits */
#define MCHP_PCR_SLP_EN4_SLEEP		0xffffffff
#define MCHP_PCR_SLP_EN4_PWM_ALL	0

/* Allow all blocks to request clocks */
#define MCHP_PCR_SLP_EN0_WAKE	(~(MCHP_PCR_SLP_EN0_SLEEP))
#define MCHP_PCR_SLP_EN1_WAKE	(~(MCHP_PCR_SLP_EN1_SLEEP))
#define MCHP_PCR_SLP_EN2_WAKE	(~(MCHP_PCR_SLP_EN2_SLEEP))
#define MCHP_PCR_SLP_EN3_WAKE	(~(MCHP_PCR_SLP_EN3_SLEEP))
#define MCHP_PCR_SLP_EN4_WAKE	(~(MCHP_PCR_SLP_EN4_SLEEP))

/* Bit defines for MCHP_PCR_PWR_RST_STS */
#define MCHP_PWR_RST_STS_MASK_RO	0xc8c
#define MCHP_PWR_RST_STS_MASK_RWC	0x170
#define MCHP_PWR_RST_STS_MASK \
	((MCHP_PWR_RST_STS_MASK_RO) | (MCHP_PWR_RST_STS_MASK_RWC))

#define MCHP_PWR_RST_STS_ESPI_CLK_ACT		BIT(11) /* RO */
#define MCHP_PWR_RST_STS_32K_ACT		BIT(10) /* RO */
#define MCHP_PWR_RST_STS_WDT			BIT(8) /* R/WC */
#define MCHP_PWR_RST_STS_JTAG_RSTN		BIT(7) /* RO */
#define MCHP_PWR_RST_STS_SYS			BIT(6) /* R/WC */
#define MCHP_PWR_RST_STS_VBAT			BIT(5) /* R/WC */
#define MCHP_PWR_RST_STS_VTR			BIT(4) /* R/WC */
#define MCHP_PWR_RST_STS_HOST			BIT(3) /* RO */
#define MCHP_PWR_RST_STS_VCC_PWRGD		BIT(2) /* RO */

/* Bit defines for MCHP_PCR_PWR_RST_CTL */
#define MCHP_PCR_PWR_HOST_RST_SEL_BITPOS	8
#define MCHP_PCR_PWR_HOST_RST_PCI_RESET		BIT(8)
#define MCHP_PCR_PWR_HOST_RST_ESPI_PLTRST	(0 << 8)
#define MCHP_PCR_PWR_OK_INV_BITPOS		0

/* Bit defines for MCHP_PCR_SYS_RST */
#define MCHP_PCR_SYS_SOFT_RESET			BIT(8)

/* EC Subsystem */
#define MCHP_EC_AHB_ERR				REG32(MCHP_EC_BASE + 0x04)
#define MCHP_EC_ID_RO				REG32(MCHP_EC_BASE + 0x10)
#define MCHP_EC_AHB_ERR_EN			REG32(MCHP_EC_BASE + 0x14)
#define MCHP_EC_INT_CTRL			REG32(MCHP_EC_BASE + 0x18)
#define MCHP_EC_TRACE_EN			REG32(MCHP_EC_BASE + 0x1c)
#define MCHP_EC_JTAG_EN				REG32(MCHP_EC_BASE + 0x20)
#define MCHP_EC_WDT_CNT				REG32(MCHP_EC_BASE + 0x28)
#define MCHP_EC_AES_SHA_SWAP_CTRL		REG8(MCHP_EC_BASE + 0x2c)
#define MCHP_EC_VCI_FW_OVRD			REG8(MCHP_EC_BASE + 0x50)
#define MCHP_EC_CRYPTO_SRESET			REG8(MCHP_EC_BASE + 0x5c)
#define MCHP_EC_GPIO_BANK_PWR			REG8(MCHP_EC_BASE + 0x64)
#define MCHP_EC_SLP_STS_MIRROR			REG8(MCHP_EC_BASE + 0x114)

/* AHB ERR Enable bit[0]=0(enable), 1(disable) */
#define MCHP_EC_AHB_ERROR_ENABLE	0
#define MCHP_EC_AHB_ERROR_DISABLE	1

/* MCHP_EC_JTAG_EN bit definitions */
#define MCHP_JTAG_ENABLE	0x01
/* bits [2:1] */
#define MCHP_JTAG_MODE_4PIN	0x00
/* ARM 2-pin SWD plus 1-pin Serial Wire Viewer (ITM) */
#define MCHP_JTAG_MODE_SWD_SWV	0x02
/* ARM 2-pin SWD with no SWV */
#define MCHP_JTAG_MODE_SWD	0x04

/* MCHP_EC_CRYPTO_SRESET bit definitions. Bits cleared by HW */
#define MCHP_CRYPTO_NDRNG_SRST		0x01
#define MCHP_CRYPTO_PKE_SRST		0x02
#define MCHP_CRYPTO_AES_SHA_SRST	0x04
#define MCHP_CRYPTO_ALL_SRST		0x07

/* MCHP_GPIO_BANK_PWR bit definitions */
#define MCHP_EC_GPIO_BANK_PWR_MASK	0x86
#define MCHP_EC_GPIO_BANK_PWR_VTR2_18	0x02
#define MCHP_EC_GPIO_BANK_PWR_VTR3_18	0x04
#define MCHP_EC_GPIO_BANK_PWR_LOCK	0x80

/* EC Interrupt aggregator (ECIA) */
#define MCHP_INT_GIRQ_LEN		20 /* 5 32-bit registers */
#define MCHP_INT_GIRQ_FIRST		8
#define MCHP_INT_GIRQ_LAST		26
#define MCHP_INT_GIRQ_NUM		(26-8+1)
/* MCHP_INT_GIRQ_FIRST <= x <= MCHP_INT_GIRQ_LAST */
#define MCHP_INTx_BASE(x) (MCHP_INT_BASE + (((x) - 8) * MCHP_INT_GIRQ_LEN))

/*
 * GPIO GIRQ's are not direct capable
 * GIRQ08 GPIO 0140 - 0176
 * GIRQ09 GPIO 0100 - 0136
 * GIRQ10 GPIO 040 - 076
 * GIRQ11 GPIO 000 - 036
 * GIRQ12 GPIO 0200 - 0236
 * GIRQ26 GPIO 0240 - 0276
 * Other GIRQ's not direct capable:
 * GIRQ22 wake peripheral clock only
 * GIRQ24, GIRQ25 eSPI host to endpoint virtual wires
 */
#define MCHP_INT_AGGR_ONLY_BITMAP	0x07401F00U
#define MCHP_INT_DIRECT_CAPABLE_BITMAP	0x00BFE000U

/* GIRQ13 I2C controllers. Direct capable */
#define MCHP_INT13_I2C(x) (1ul << (x))

/* GIRQ14 DMA channels 0 - 11. Direct capable */
#define MCHP_INT14_DMA(x) (1ul << (x))

/* GIQ15 interrupt sources. Direct capable */
#define MCHP_INT15_UART_0		BIT(0)
#define MCHP_INT15_UART_1		BIT(1)
#define MCHP_INT15_UART_2		BIT(4)
#define MCHP_INT15_EMI_0		BIT(2)
#define MCHP_INT15_EMI_1		BIT(3)
#define MCHP_INT15_ACPI_EC0_IBF		BIT(5)
#define MCHP_INT15_ACPI_EC0_OBE		BIT(6)
#define MCHP_INT15_ACPI_EC1_IBF		BIT(7)
#define MCHP_INT15_ACPI_EC1_OBE		BIT(8)
#define MCHP_INT15_ACPI_EC2_IBF		BIT(9)
#define MCHP_INT15_ACPI_EC2_OBE		BIT(10)
#define MCHP_INT15_ACPI_EC3_IBF		BIT(11)
#define MCHP_INT15_ACPI_EC3_OBE		BIT(12)
#define MCHP_INT15_ACPI_PM1_CTL		BIT(15)
#define MCHP_INT15_ACPI_PM1_EN		BIT(16)
#define MCHP_INT15_ACPI_PM1_STS		BIT(17)
#define MCHP_INT15_8042_OBE		BIT(18)
#define MCHP_INT15_8042_IBF		BIT(19)
#define MCHP_INT15_MAILBOX		BIT(20)
#define MCHP_INT15_P80_0		BIT(22)
#define MCHP_INT15_P80_1		BIT(23)
#define MCHP_INT15_P80(x)		BIT(22 + ((x) & 0x01U))

/* GIRQ16 interrupt sources. Direct capable */
#define MCHP_INT16_PKE_ERR		BIT(0)
#define MCHP_INT16_PKE_DONE		BIT(1)
#define MCHP_INT16_RNG_DONE		BIT(2)
#define MCHP_INT16_AES_DONE		BIT(3)
#define MCHP_INT16_HASH_DONE		BIT(4)

/* GIR17 interrupt sources. Direct capable */
#define MCHP_INT17_PECI			BIT(0)
#define MCHP_INT17_TACH_0		BIT(1)
#define MCHP_INT17_TACH_1		BIT(2)
#define MCHP_INT17_TACH_2		BIT(3)
#define MCHP_INT17_TACH_3		BIT(4)
#define MCHP_INT17_HDMI_CEC		BIT(5)
#define MCHP_INT17_ADC_SINGLE		BIT(8)
#define MCHP_INT17_ADC_REPEAT		BIT(9)
#define MCHP_INT17_LED_WDT_0		BIT(13)
#define MCHP_INT17_LED_WDT_1		BIT(14)
#define MCHP_INT17_LED_WDT_2		BIT(15)
#define MCHP_INT17_PROCHOT		BIT(17)

/* GIRQ18 interrupt sources. Direct capable */
#define MCHP_INT18_SLV_SPI		BIT(0)
#define MCHP_INT18_QMSPI		BIT(1)
#define MCHP_INT18_PS2_0		BIT(10)
#define MCHP_INT18_PS2_1		BIT(11)
#define MCHP_INT18_CCT			BIT(20)
#define MCHP_INT18_CCT_CAP0		BIT(21)
#define MCHP_INT18_CCT_CAP1		BIT(22)
#define MCHP_INT18_CCT_CAP2		BIT(23)
#define MCHP_INT18_CCT_CAP3		BIT(24)
#define MCHP_INT18_CCT_CAP4		BIT(25)
#define MCHP_INT18_CCT_CAP6		BIT(26)
#define MCHP_INT18_CCT_CMP0		BIT(27)
#define MCHP_INT18_CCT_CMP1		BIT(28)

/* GIRQ19 interrupt sources. Direct capable */
#define MCHP_INT19_ESPI_PC		BIT(0)
#define MCHP_INT19_ESPI_BM1		BIT(1)
#define MCHP_INT19_ESPI_BM2		BIT(2)
#define MCHP_INT19_ESPI_LTR		BIT(3)
#define MCHP_INT19_ESPI_OOB_TX		BIT(4)
#define MCHP_INT19_ESPI_OOB_RX		BIT(5)
#define MCHP_INT19_ESPI_FC		BIT(6)
#define MCHP_INT19_ESPI_RESET		BIT(7)
#define MCHP_INT19_ESPI_VW_EN		BIT(8)
#define MCHP_INT19_ESPI_SAF		BIT(9)
#define MCHP_INT19_ESPI_SAF_ERR		BIT(10)

/* GIRQ20 interrupt sources. Direct capable */
#define MCHP_INT20_OPT			BIT(3)

/* GIRQ21 interrupt sources. Direct capable */
#define MCHP_INT21_WDT			BIT(2)
#define MCHP_INT21_WEEK_ALARM		BIT(3)
#define MCHP_INT21_WEEK_SUB		BIT(4)
#define MCHP_INT21_WEEK_1SEC		BIT(5)
#define MCHP_INT21_WEEK_1SEC_SUB	BIT(6)
#define MCHP_INT21_WEEK_PWR_PRES	BIT(7)
#define MCHP_INT21_RTC			BIT(8)
#define MCHP_INT21_RTC_ALARM		BIT(9)
#define MCHP_INT21_VCI_OVRD		BIT(10)
#define MCHP_INT21_VCI_IN0		BIT(11)
#define MCHP_INT21_VCI_IN1		BIT(12)
#define MCHP_INT21_VCI_IN2		BIT(13)
#define MCHP_INT21_VCI_IN3		BIT(14)
#define MCHP_INT21_PS2_0A_WAKE		BIT(18)
#define MCHP_INT21_PS2_0B_WAKE		BIT(19)
#define MCHP_INT21_PS2_1B_WAKE		BIT(21)
#define MCHP_INT21_KEYSCAN		BIT(25)

/* GIRQ22 peripheral wake only. GIRQ22 not connected to NVIC */
#define MCHP_INT22_WAKE_ONLY_SLV_SPI	BIT(0)
#define MCHP_INT22_WAKE_ONLY_I2C0	BIT(1)
#define MCHP_INT22_WAKE_ONLY_I2C1	BIT(2)
#define MCHP_INT22_WAKE_ONLY_I2C2	BIT(3)
#define MCHP_INT22_WAKE_ONLY_I2C3	BIT(4)
#define MCHP_INT22_WAKE_ONLY_I2C4	BIT(5)
#define MCHP_INT22_WAKE_ONLY_I2C5	BIT(6)
#define MCHP_INT22_WAKE_ONLY_I2C6	BIT(7)
#define MCHP_INT22_WAKE_ONLY_I2C7	BIT(8)
#define MCHP_INT22_WAKE_ONLY_ESPI	BIT(9)

/* GIRQ23 sources. Direct capable */
#define MCHP_INT23_BTMR16_0		BIT(0)
#define MCHP_INT23_BTMR16_1		BIT(1)
#define MCHP_INT23_BTMR32_0		BIT(4)
#define MCHP_INT23_BTMR32_1		BIT(5)
#define MCHP_INT23_RTMR			BIT(10)
#define MCHP_INT23_HTMR_0		BIT(16)
#define MCHP_INT23_HTMR_1		BIT(17)

/* GIRQ24 sources. Master-to-Slave v=[0:6], Source=[0:3] */
#define MCHP_INT24_MSVW_SRC(v, s) (1ul << ((4 * (v)) + (s)))

/* GIRQ25 sources Master-to-Slave v=[7:10], Source=[0:3] */
#define MCHP_INT25_MSVW_SRC(v, s) (1ul << ((4 * ((v)-7)) + (s)))

/* UART Peripheral 0 <= x <= 2 */
#define MCHP_UART_INSTANCES		3
#define MCHP_UART_SPACING		0x400
#define MCHP_UART_CFG_OFS		0x300
#define MCHP_UART_CONFIG_BASE(x) \
	(MCHP_UART0_BASE + MCHP_UART_CFG_OFS + ((x) * MCHP_UART_SPACING))
#define MCHP_UART_RUNTIME_BASE(x) \
	(MCHP_UART0_BASE + ((x) * MCHP_UART_SPACING))
#define MCHP_UART_GIRQ			15
#define MCHP_UART0_GIRQ_BIT		(MCHP_INT15_UART_0)
#define MCHP_UART1_GIRQ_BIT		(MCHP_INT15_UART_1)
#define MCHP_UART2_GIRQ_BIT		(MCHP_INT15_UART_2)
#define MCHP_UART_GIRQ_BIT(x)		BIT(x)
/* BIT defines for MCHP_UARTx_LSR */
#define MCHP_LSR_TX_EMPTY		BIT(5)

/*
 * GPIO
 * MCHP each Port contains 32 GPIO's.
 * GPIO Control 1 registers are 32-bit registers starting at
 * MCHP_GPIO_BASE.
 * index = octal GPIO number from MCHP specification.
 * port/bank = index >> 5
 * id = index & 0x1F
 *
 * The port/bank, id pair may also be used to access GPIO's via
 * parallel I/O registers if GPIO control is configured for
 * parallel I/O.
 *
 * From ec/chip/mec1701/config_chip.h
 * #define GPIO_PIN(index) ((index) >> 5), ((index) & 0x1F)
 *
 * GPIO Control 1 Address = 0x40081000 + (((bank << 5) + id) << 2)
 *
 * Example: GPIO043, Control 1 register address = 0x4008108c
 * port/bank = 0x23 >> 5 = 1
 * id        = 0x23 & 0x1F = 0x03
 * Control 1 Address = 0x40081000 + ((BIT(5) + 0x03) << 2) = 0x4008108c
 *
 * Example: GPIO235, Control 1 register address = 0x40081274
 * port/bank = 0x9d >> 5   = 4
 * id        = 0x9d & 0x1f = 0x1d
 * Control 1 Address = 0x40081000 + (((4 << 5) + 0x1d) << 2) = 0x40081274
 */
#define MCHP_GPIO_CTL(port, id) REG32(MCHP_GPIO_BASE + \
	(((port << 5) + id) << 2))

/* MCHP implements 6 GPIO ports */
#define MCHP_GPIO_MAX_PORT 6
#define UNIMPLEMENTED_GPIO_BANK MCHP_GPIO_MAX_PORT

/*
 * In MECxxxx documentation GPIO numbers are octal, each control
 * register is located on a 32-bit boundary.
 */
#define MCHP_GPIO_CTRL(gpio_num) REG32(MCHP_GPIO_BASE + \
	((gpio_num) << 2))

/*
 * GPIO control register bit fields
 */
#define MCHP_GPIO_CTRL_PUD_BITPOS		0
#define MCHP_GPIO_CTRL_PUD_MASK0		0x03
#define MCHP_GPIO_CTRL_PUD_MASK			0x03
#define MCHP_GPIO_CTRL_PUD_NONE			0x00
#define MCHP_GPIO_CTRL_PUD_PU			0x01
#define MCHP_GPIO_CTRL_PUD_PD			0x02
#define MCHP_GPIO_CTRL_PUD_KEEPER		0x03
#define MCHP_GPIO_CTRL_PWR_BITPOS		2
#define MCHP_GPIO_CTRL_PWR_MASK0		0x03
#define MCHP_GPIO_CTRL_PWR_MASK			(0x03 << 2)
#define MCHP_GPIO_CTRL_PWR_VTR			(0x00 << 2)
#define MCHP_GPIO_CTRL_PWR_OFF			(0x02 << 2)
#define MCHP_GPIO_INTDET_MASK			0xF0
#define MCHP_GPIO_INTDET_LVL_LO			0x00
#define MCHP_GPIO_INTDET_LVL_HI			0x10
#define MCHP_GPIO_INTDET_DISABLED		0x40
#define MCHP_GPIO_INTDET_EDGE_RIS		0xD0
#define MCHP_GPIO_INTDET_EDGE_FALL		0xE0
#define MCHP_GPIO_INTDET_EDGE_BOTH		0xF0
#define MCHP_GPIO_INTDET_EDGE_EN		BIT(7)
#define MCHP_GPIO_PUSH_PULL			0u
#define MCHP_GPIO_OPEN_DRAIN			BIT(8)
#define MCHP_GPIO_INPUT				0u
#define MCHP_GPIO_OUTPUT			BIT(9)
#define MCHP_GPIO_OUTSET_CTRL			0u
#define MCHP_GPIO_OUTSEL_PAR			BIT(10)
#define MCHP_GPIO_POLARITY_NINV			0u
#define MCHP_GPIO_POLARITY_INV			BIT(11)
#define MCHP_GPIO_CTRL_ALT_FUNC_BITPOS		12
#define MCHP_GPIO_CTRL_ALT_FUNC_MASK0		0x0F
#define MCHP_GPIO_CTRL_ALT_FUNC_MASK		(0x0F << 12)
#define MCHP_GPIO_CTRL_FUNC_GPIO		(0 << 12)
#define MCHP_GPIO_CTRL_FUNC_1			(1 << 12)
#define MCHP_GPIO_CTRL_FUNC_2			(2 << 12)
#define MCHP_GPIO_CTRL_FUNC_3			(3 << 12)
#define MCHP_GPIO_CTRL_OUT_LVL			BIT(16)
/* MEC15xx only */
#define MCHP_GPIO_CTRL_DIS_INPUT_BITPOS		15
#define MCHP_GPIO_CTRL_DIS_INPUT_BIT		BIT(15)

/*
 * GPIO Parallel Input and Output registers.
 * gpio_bank in [0, 5]
 */
#define MCHP_GPIO_PARIN(bank) \
	REG32(MCHP_GPIO_BASE + 0x0300 + ((bank) << 2))
#define MCHP_GPIO_PAROUT(bank) \
	REG32(MCHP_GPIO_BASE + 0x0380 + ((bank) << 2))

/* Basic timers */
#define MCHP_TMR_SPACING		0x20
#define MCHP_TMR16_INSTANCES		2
#define MCHP_TMR32_INSTANCES		2
#define MCHP_TMR16_MAX			(MCHP_TMR16_INSTANCES)
#define MCHP_TMR32_MAX			(MCHP_TMR32_INSTANCES)
#define MCHP_TMR16_BASE(n)	\
	(MCHP_TMR16_0_BASE + (n) * MCHP_TMR_SPACING)
#define MCHP_TMR32_BASE(n)	\
	(MCHP_TMR32_0_BASE + (n) * MCHP_TMR_SPACING)
#define MCHP_TMR16_GIRQ			23
#define MCHP_TMR16_GIRQ_BIT(n)		BIT(0 + (n))
#define MCHP_TMR32_GIRQ			23
#define MCHP_TMR32_GIRQ_BIT(n)		BIT(4 + (n))

/* RTimer */
#define MCHP_RTMR_GIRQ			23
#define MCHP_RTMR_GIRQ_BIT(x)		BIT(10)

/* Watchdog */
/* MEC152x specific registers */
#define MCHP_WDG_STATUS			REG32(MCHP_WDG_BASE + 0x10)
#define MCHP_WDG_IEN			REG32(MCHP_WDG_BASE + 0x14)
/* Status */
#define MCHP_WDG_STS_IRQ		BIT(0)
/* Interrupt enable */
#define MCHP_WDG_IEN_IRQ_EN		BIT(0)
#define MCHP_WDG_GIRQ			21
#define MCHP_WDG_GIRQ_BIT		BIT(2)
/* Control register has a bit to enable IRQ generation */
#define MCHP_WDG_RESET_IRQ_EN		BIT(9)

/* VBAT */
#define MCHP_VBAT_STS			REG32(MCHP_VBAT_BASE + 0x0)
#define MCHP_VBAT_CE			REG32(MCHP_VBAT_BASE + 0x8)
#define MCHP_VBAT_SHDN_DIS		REG32(MCHP_VBAT_BASE + 0xC)
#define MCHP_VBAT_MONOTONIC_CTR_LO	REG32(MCHP_VBAT_BASE + 0x20)
#define MCHP_VBAT_MONOTONIC_CTR_HI	REG32(MCHP_VBAT_BASE + 0x24)
/* read 32-bit word at 32-bit offset x where 0 <= x <= 16 */
#define MCHP_VBAT_RAM_SIZE		64
#define MCHP_VBAT_RAM(wnum)		REG32(MCHP_VBAT_RAM_BASE + ((wnum) * 4))
#define MCHP_VBAT_RAM8(bnum)		REG8(MCHP_VBAT_RAM_BASE + (bnum))
#define MCHP_VBAT_VWIRE_BACKUP		14
/*
 * Miscellaneous firmware control fields
 * scratch pad index cannot be more than 32 as
 * MEC152x has 64 bytes = 16 words of scratch pad RAM
 */
#define MCHP_IMAGETYPE_IDX	15

/* Bit definition for MCHP_VBAT_STS */
#define MCHP_VBAT_STS_SOFTRESET		BIT(2)
#define MCHP_VBAT_STS_RESETI		BIT(4)
#define MCHP_VBAT_STS_WDT		BIT(5)
#define MCHP_VBAT_STS_SYSRESETREQ	BIT(6)
#define MCHP_VBAT_STS_VBAT_RST		BIT(7)
#define MCHP_VBAT_STS_ANY_RST		0xF4u

/* Bit definitions for MCHP_VBAT_CE */
#define MCHP_VBAT_CE_XOSEL_BITPOS	3
#define MCHP_VBAT_CE_XOSEL_MASK		BIT(3)
#define MCHP_VBAT_CE_XOSEL_PAR		0
#define MCHP_VBAT_CE_XOSEL_SE		BIT(3)

#define MCHP_VBAT_CE_ALWAYS_ON_32K_SRC_BITPOS		2
#define MCHP_VBAT_CE_ALWAYS_ON_32K_SRC_MASK		BIT(2)
#define MCHP_VBAT_CE_ALWAYS_ON_32K_SRC_INT		0
#define MCHP_VBAT_CE_ALWAYS_ON_32K_SRC_CRYSTAL		BIT(2)

#define MCHP_VBAT_CE_32K_DOMAIN_SRC_BITPOS		1
#define MCHP_VBAT_CE_32K_DOMAIN_SRC_MASK		BIT(1)
#define MCHP_VBAT_CE_32K_DOMAIN_ALWAYS_ON		0
#define MCHP_VBAT_CE_32K_DOMAIN_32KHZ_IN_PIN		BIT(1)

/* Blinking-Breathing LED 0 <= n <= 2 */
#define MCHP_BBLEB_INSTANCES	3
#define MCHP_BBLED_BASE(n)	(MCHP_BBLED_0_BASE + (((n) & 0x03) * 256))

/* EMI */
#define MCHP_EMI_INSTANCES	2
#define MCHP_EMI_SPACING	0x400
#define MCHP_EMI_ECREG_OFS	0x100
/* base of EMI registers only accessible by EC */
#define MCHP_EMI_BASE(n) \
	(MCHP_EMI_0_BASE + MCHP_EMI_ECREG_OFS + ((n) * MCHP_EMI_SPACING))
/* base of EMI registers accessible by EC and Host */
#define MCHP_EMI_RT_BASE(n)	(MCHP_EMI_0_BASE + ((n) * MCHP_EMI_SPACING))
#define MCHP_EMI_GIRQ		15
#define MCHP_EMI_GIRQ_BIT(n)	BIT(2 + (n))

/* Mailbox */
#define MCHP_MBX_ECREGS_OFS	0x100
#define MCHP_MBX_RT_BASE	MCHP_MBOX_BASE
#define MCHP_MBX_BASE		(MCHP_MBOX_BASE + MCHP_MBX_ECREGS_OFS)
#define MCHP_MBX_GIRQ		15
#define MCHP_MBX_GIRQ_BIT	BIT(20)

/* Port 80 Capture */
#define MCHP_P80_SPACING	0x400
#define MCHP_P80_BASE(n)	\
	(MCHP_P80CAP0_BASE + ((n) * (MCHP_P80_SPACING)))
#define MCHP_P80_HOST_DATA(n)	REG8(MCHP_P80_BASE(n))
/* Data capture with time stamp register */
#define MCHP_P80_CAP(n)		REG32(MCHP_P80_BASE(n) + 0x100)
#define MCHP_P80_CFG(n)		REG8(MCHP_P80_BASE(n) + 0x104)
#define MCHP_P80_STS(n)		REG8(MCHP_P80_BASE(n) + 0x108)
#define MCHP_P80_CNT(n)		REG32(MCHP_P80_BASE(n) + 0x10c)
#define MCHP_P80_CNT_GET(n)	(REG32(MCHP_P80_BASE(n) + 0x10c) >> 8)
#define MCHP_P80_CNT_SET(n, c)	\
	(REG32(MCHP_P80_BASE(n) + 0x10c) = ((c) << 8))
#define MCHP_P80_ACTIVATE(n)	REG8(MCHP_P80_BASE(n) + 0x330)
#define MCHP_P80_GIRQ		15
#define MCHP_P80_GIRQ_BIT(n)	BIT(22 + (n))
/*
 * Port 80 Data register bits
 * bits[7:0] = data captured on Host write
 * bits[31:8] = optional time stamp
 */
#define MCHP_P80_CAP_DATA_MASK		0xFFul
#define MCHP_P80_CAP_TS_BITPOS		8
#define MCHP_P80_CAP_TS_MASK0		0xfffffful
#define MCHP_P80_CAP_TS_MASK		\
	((MCHP_P80_CAP_TS_MASK0) << (MCHP_P80_CAP_TS_BITPOS))

/* Port 80 Configuration register bits */
#define MCHP_P80_FLUSH_FIFO_WO		BIT(1)
#define MCHP_P80_RESET_TIMESTAMP_WO	BIT(2)
#define MCHP_P80_TIMEBASE_BITPOS	3
#define MCHP_P80_TIMEBASE_MASK0		0x03
#define MCHP_P80_TIMEBASE_MASK		\
	((MCHP_P80_TIMEBASE_MASK0) << (MCHP_P80_TIMEBASE_BITPOS))
#define MCHP_P80_TIMEBASE_750KHZ	\
	(0x03 << (MCHP_P80_TIMEBASE_BITPOS))
#define MCHP_P80_TIMEBASE_1500KHZ	\
	(0x02 << (MCHP_P80_TIMEBASE_BITPOS))
#define MCHP_P80_TIMEBASE_3MHZ		\
	(0x01 << (MCHP_P80_TIMEBASE_BITPOS))
#define MCHP_P80_TIMEBASE_6MHZ		\
	(0x00 << (MCHP_P80_TIMEBASE_BITPOS))
#define MCHP_P80_TIMER_ENABLE		BIT(5)
#define MCHP_P80_FIFO_THRHOLD_MASK	(3u << 6)
#define MCHP_P80_FIFO_THRHOLD_1		0u
#define MCHP_P80_FIFO_THRHOLD_4		(1u << 6)
#define MCHP_P80_FIFO_THRHOLD_8		(2u << 6)
#define MCHP_P80_FIFO_THRHOLD_14	(3u << 6)
#define MCHP_P80_FIFO_LEN		16
/* Port 80 Status register bits, read-only */
#define MCHP_P80_STS_NOT_EMPTY		BIT(0)
#define MCHP_P80_STS_OVERRUN		BIT(1)
/* Port 80 Count register bits */
#define MCHP_P80_CNT_BITPOS		8
#define MCHP_P80_CNT_MASK0		0xfffffful
#define MCHP_P80_CNT_MASK	\
	((MCHP_P80_CNT_MASK0) << (MCHP_P80_CNT_BITPOS))

/* PWM */
#define MCHP_PWM_INSTANCES	9
#define MCHP_PWM_ID_MAX		(MCHP_PWM_INSTANCES)
#define MCHP_PWM_SPACING	16
#define MCHP_PWM_BASE(x)	(MCHP_PWM_0_BASE + ((x) * MCHP_PWM_SPACING))

/* TACH */
#define MCHP_TACH_INSTANCES	4
#define MCHP_TACH_SPACING	16
#define MCHP_TACH_BASE(x)	\
	(MCHP_TACH_0_BASE + ((x) * MCHP_TACH_SPACING))
#define MCHP_TACH_GIRQ		17
#define MCHP_TACH_GIRQ_BIT(x)	BIT(1 + (x))

/* ACPI EC */
#define MCHP_ACPI_EC_INSTANCES	4
#define MCHP_ACPI_EC_MAX	(ACPI_EC_INSTANCES)
#define MCHP_ACPI_EC_SPACING	0x400
#define MCHP_ACPI_EC_BASE(x) \
	(MCHP_ACPI_EC_0_BASE + ((x) * MCHP_ACPI_EC_SPACING))
#define MCHP_ACPI_EC_GIRQ		15
#define MCHP_ACPI_EC_IBF_GIRQ_BIT(x)	BIT(5 + ((x) * 2))
#define MCHP_ACPI_EC_OBE_GIRQ_BIT(x)	BIT(6 + ((x) * 2))

/* ACPI PM1 */
#define MCHP_ACPI_PM1_ECREGS_OFS	0x100
#define MCHP_ACPI_PM_RT_BASE		MCHP_ACPI_PM1_BASE
#define MCHP_ACPI_PM_EC_BASE		\
	(MCHP_ACPI_PM1_BASE + MCHP_ACPI_PM1_ECREGS_OFS)
#define MCHP_ACPI_PM1_CTL_GIRQ_BIT	BIT(15)
#define MCHP_ACPI_PM1_EN_GIRQ_BIT	BIT(16)
#define MCHP_ACPI_PM1_STS_GIRQ_BIT	BIT(17)

/* 8042 */
#define MCHP_8042_ECREGS_OFS		0x100
#define MCHP_8042_GIRQ			15
#define MCHP_8042_OBE_GIRQ_BIT		BIT(18)
#define MCHP_8042_IBF_GIRQ_BIT		BIT(19)

/*
 * I2C controllers 0 - 4 include SMBus network layer functionality.
 * I2C controllers 5 - 7 are I2C only and include slave mode
 * promiscuous functionality.
 */
#define MCHP_I2C_CTRL0		0
#define MCHP_I2C_CTRL1		1
#define MCHP_I2C_CTRL2		2
#define MCHP_I2C_CTRL3		3
#define MCHP_I2C_CTRL4		4
#define MCHP_I2C_CTRL5		5
#define MCHP_I2C_CTRL6		6
#define MCHP_I2C_CTRL7		7
#define MCHP_I2C_CTRL_MAX	8

#define MCHP_I2C_SEP0		0x400
#define MCHP_I2C_SEP1		0x100

/*
 * MEC152xH 144-pin package has eight I2C controllers and sixteen ports.
 * Any port can be mapped to any I2C controller.
 *
 * I2C port values must be zero based consecutive whole numbers due to
 * port number used as an index for I2C mutex array, etc.
 *
 * Refer to chip i2c_port_to_controller function for mapping
 * of port to controller.
 *
 * Locking must occur by-controller (not by-port).
 * I2C00_SCL/SDA on GPIO004 F1, GPIO003 F1
 * I2C01_SCL/SDA on GPIO0131 F1, GPIO130 F1
 *	Alternate pins: GPIO073 F2, GPIO072 F2
 * I2C02_SCL/SDA on GPIO0155 F1, GPIO0154 F1
 * I2C03_SCL/SDA on GPIO010 F1, GPIO007 F1
 * I2C04_SCL/SDA on GPIO0144 F1, GPIO0143 F1
 * I2C05_SCL/SDA on GPIO0142 F1, GPIO0141 F1
 * I2C06_SCL/SDA on GPIO0140 F1, GPIO0132 F1
 * I2C07_SCL/SDA on GPIO013 F1, GPIO012 F1
 *	Alternate pins: GPIO0024 F3, GPIO0152 F3
 * I2C08_SCL/SDA on GPIO012 F1, GPIO0211 F1
 * I2C09_SCL/SDA on GPIO0146 F1, GPIO0145 F1
 * I2C10_SCL/SDA on GPIO0107 F3, GPIO030 F2
 * I2C11_SCL/SDA on GPIO062 F2, GPIO000 F3
 * I2C12_SCL/SDA on GPIO027 F3, GPIO026 F3
 * I2C13_SCL/SDA on GPIO065 F2, GPIO066 F2
 * I2C14_SCL/SDA on GPIO071 F2, GPIO070 F2
 * I2C15_SCL/SDA on GPIO0150 F1, GPIO0147 F1
 */

#define MCHP_MEC1521SZ_I2C_PORT_MASK	0xFEFFul
#define MCHP_MEC1523SZ_I2C_PORT_MASK	0xFFFFul

#define MCHP_I2C_PORT_MASK	MCHP_MEC1521SZ_I2C_PORT_MASK

enum MCHP_i2c_port {
	MCHP_I2C_PORT0 = 0,
	MCHP_I2C_PORT1,
	MCHP_I2C_PORT2,
	MCHP_I2C_PORT3,
	MCHP_I2C_PORT4,
	MCHP_I2C_PORT5,
	MCHP_I2C_PORT6,
	MCHP_I2C_PORT7,
	MCHP_I2C_PORT8,
	MCHP_I2C_PORT9,
	MCHP_I2C_PORT10,
	MCHP_I2C_PORT11,
	MCHP_I2C_PORT12,
	MCHP_I2C_PORT13,
	MCHP_I2C_PORT14,
	MCHP_I2C_PORT15,
	MCHP_I2C_PORT_COUNT,
};

/* I2C ports & Configs */
#define I2C_CONTROLLER_COUNT	MCHP_I2C_CTRL_MAX
#define I2C_PORT_COUNT		MCHP_I2C_PORT_COUNT

/*
 * I2C controllers 0-4 implement network layer hardware.
 * I2C controllers 5-7 do include network layer hardware.
 * MEC152x has I2C promiscuous mode feature in the following
 * additional registers.
 */
#define MCHP_I2C_SLAVE_ADDR(ctrl)	REG32(MCHP_I2C_ADDR(ctrl, 0x6c))
#define MCHP_I2C_PROM_INTR(ctrl)	REG32(MCHP_I2C_ADDR(ctrl, 0x70))
#define MCHP_I2C_PROM_INTR_EN(ctrl)	REG32(MCHP_I2C_ADDR(ctrl, 0x74))
#define MCHP_I2C_PROM_CTRL(ctrl)	REG32(MCHP_I2C_ADDR(ctrl, 0x78))

/* All I2C controllers connected to GIRQ13 */
#define MCHP_I2C_GIRQ		13
/* I2C[0:7] -> GIRQ13 bits[0:7] */
#define MCHP_I2C_GIRQ_BIT(n)	BIT((n))

/* Keyboard scan matrix */
#define MCHP_KS_GIRQ			21
#define MCHP_KS_GIRQ_BIT		BIT(25)
#define MCHP_KS_DIRECT_NVIC		135

/* ADC */
#define MCHP_ADC_GIRQ				17
#define MCHP_ADC_GIRQ_SINGLE_BIT		BIT(8)
#define MCHP_ADC_GIRQ_REPEAT_BIT		BIT(9)
#define MCHP_ADC_SINGLE_DIRECT_NVIC		78
#define MCHP_ADC_REPEAT_DIRECT_NVIC		79

/* Hibernation timer */
#define MCHP_HTIMER_SPACING			0x20
#define MCHP_HTIMER_ADDR(n)		\
	(MCHP_HTIMER_BASE + ((n) * MCHP_HTIMER_SPACING))
#define MCHP_HTIMER_GIRQ			23
/* HTIMER[0:1] -> GIRQ23 bits[16:17] */
#define MCHP_HTIMER_GIRQ_BIT(n)			BIT(16 + (n))
#define MCHP_HTIMER_DIRECT_NVIC(n)		(112 + (n))

/*
 * Quad Master SPI (QMSPI)
 * MEC152x implements 16 descriptors, support for two chip selects,
 * and additional SPI signal timing registers.
 */
#define MCHP_QMSPI_MAX_DESCR	16
/*
 * Chip select implemented in bit[13:12] of the Mode register.
 * These bits are reserved in earlier chips.
 */
#define MCHP_QMSPI_M_CS_POS	12
#define MCHP_QMSPI_M_CS_MASK0	0x03
#define MCHP_QMSPI_M_CS_MASK	(0x03 << MCHP_QMSPI_M_CS_POS)
#define MCHP_QMSPI_M_CS0	(0x00 << MCHP_QMSPI_M_CS_POS)
#define MCHP_QMSPI_M_CS1	(0x01 << MCHP_QMSPI_M_CS_POS)

/* New QMSPI chip select timing register */
#define MCHP_QMSPI_CS_TIMING			\
	REG32(MCHP_QMSPI0_BASE + 0x28)
#define MCHP_QMSPI_CST_DFLT_VAL			0x06060406
#define MCHP_QMSPI_CST_ON2CLK_MASK		0x0f
#define MCHP_QMSPI_CST_ON2CLK_DFLT		0x06
#define MCHP_QMSPI_CST_DLY_CLK2OFF_POS		8
#define MCHP_QMSPI_CST_DLY_CLK2OFF_MASK0	0x0f
#define MCHP_QMSPI_CST_DLY_CLK2OFF_MASK		0x0f00
#define MCHP_QMSPI_CST_DLY_CLK2OFF_DFLT		0x0400
#define MCHP_QMSPI_CST_DLY_LDH_POS		16
#define MCHP_QMSPI_CST_DLY_LDH_MASK0		0x0f
#define MCHP_QMSPI_CST_DLY_LDH_MASK		0xf0000
#define MCHP_QMSPI_CST_DLY_LDH_DFLT		0x60000
#define MCHP_QMSPI_CST_DLY_OFF2ON_POS		24
#define MCHP_QMSPI_CST_DLY_OFF2ON_DFLT		0x06000000
#define MCHP_QMSPI_CST_DLY_OFF2ON_MASK0		0xff
#define MCHP_QMSPI_CST_DLY_OFF2ON_MASK		0xff000000

#define MCHP_QMSPI_GIRQ		18
#define MCHP_QMSPI_GIRQ_BIT	BIT(1)
#define MCHP_QMSPI_DIRECT_NVIC	91

/* eSPI */

/* IO BAR defines. Use with MCHP_ESPI_IO_BAR_xxxx macros */
#define MCHP_ESPI_IO_BAR_ID_CFG_PORT	0
#define MCHP_ESPI_IO_BAR_ID_MEM_CMPNT	1
#define MCHP_ESPI_IO_BAR_ID_MAILBOX	2
#define MCHP_ESPI_IO_BAR_ID_8042	3
#define MCHP_ESPI_IO_BAR_ID_ACPI_EC0	4
#define MCHP_ESPI_IO_BAR_ID_ACPI_EC1	5
#define MCHP_ESPI_IO_BAR_ID_ACPI_EC2	6
#define MCHP_ESPI_IO_BAR_ID_ACPI_EC3	7
#define MCHP_ESPI_IO_BAR_ID_ACPI_PM1	9
#define MCHP_ESPI_IO_BAR_ID_P92		0xA
#define MCHP_ESPI_IO_BAR_ID_UART0	0xB
#define MCHP_ESPI_IO_BAR_ID_UART1	0xC
#define MCHP_ESPI_IO_BAR_ID_EMI0	0xD
#define MCHP_ESPI_IO_BAR_ID_EMI1	0xE
#define MCHP_ESPI_IO_BAR_P80_0		0x10
#define MCHP_ESPI_IO_BAR_P80_1		0x11
#define MCHP_ESPI_IO_BAR_RTC		0x12
#define MCHP_ESPI_IO_BAR_ID_UART2	0x15

/* Use with MCHP_ESPI_MBAR_EC_xxxx(x) macros */
#define MCHP_ESPI_MBAR_ID_MBOX		0
#define MCHP_ESPI_MBAR_ID_ACPI_EC_0	1
#define MCHP_ESPI_MBAR_ID_ACPI_EC_1	2
#define MCHP_ESPI_MBAR_ID_ACPI_EC_2	3
#define MCHP_ESPI_MBAR_ID_ACPI_EC_3	4
#define MCHP_ESPI_MBAR_ID_EMI_0		6
#define MCHP_ESPI_MBAR_ID_EMI_1		7

/* Use with MCHP_ESPI_IO_SERIRQ_REG(x) */
#define MCHP_ESPI_SIRQ_MBOX		0 /* Host SIRQ */
#define MCHP_ESPI_SIRQ_MBOX_SMI		1 /* Host SMI */
#define MCHP_ESPI_SIRQ_8042_KB		2 /* KIRQ */
#define MCHP_ESPI_SIRQ_8042_MS		3 /* MIRQ */
#define MCHP_ESPI_SIRQ_ACPI_EC0_OBF	4
#define MCHP_ESPI_SIRQ_ACPI_EC1_OBF	5
#define MCHP_ESPI_SIRQ_ACPI_EC2_OBF	6
#define MCHP_ESPI_SIRQ_ACPI_EC3_OBF	7
#define MCHP_ESPI_SIRQ_UART0		9
#define MCHP_ESPI_SIRQ_UART1		10
#define MCHP_ESPI_SIRQ_EMI0_HEV		11 /* Host Event */
#define MCHP_ESPI_SIRQ_EMI0_EC2H	12 /* EC to Host */
#define MCHP_ESPI_SIRQ_EMI1_HEV		13
#define MCHP_ESPI_SIRQ_EMI1_EC2H	14
#define MCHP_ESPI_SIRQ_RTC		17
#define MCHP_ESPI_SIRQ_EC		18
#define MCHP_ESPI_SIRQ_UART2		19

#define MCHP_ESPI_MSVW_BASE	(MCHP_ESPI_VW_BASE)
#define MCHP_ESPI_SMVW_BASE	((MCHP_ESPI_VW_BASE) + 0x200ul)

/*
 * eSPI RESET, channel enables and operations except Master-to-Slave
 * WWires are all on GIRQ19
 */
#define MCHP_ESPI_GIRQ			19
#define MCHP_ESPI_PC_GIRQ_BIT		BIT(0)
#define MCHP_ESPI_BM1_GIRQ_BIT		BIT(1)
#define MCHP_ESPI_BM2_GIRQ_BIT		BIT(2)
#define MCHP_ESPI_LTR_GIRQ_BIT		BIT(3)
#define MCHP_ESPI_OOB_TX_GIRQ_BIT	BIT(4)
#define MCHP_ESPI_OOB_RX_GIRQ_BIT	BIT(5)
#define MCHP_ESPI_FC_GIRQ_BIT		BIT(6)
#define MCHP_ESPI_RESET_GIRQ_BIT	BIT(7)
#define MCHP_ESPI_VW_EN_GIRQ_BIT	BIT(8)
#define MCHP_ESPI_SAF_DONE_GIRQ_BIT	BIT(9)
#define MCHP_ESPI_SAF_ERR_GIRQ_BIT	BIT(10)

/*
 * eSPI Master-to-Slave WWire interrupts are on GIRQ24 and GIRQ25
 */
#define MCHP_ESPI_MSVW_0_6_GIRQ		24
#define MCHP_ESPI_MSVW_7_10_GIRQ	25
/*
 * Four source bits, SRC[0:3] per Master-to-Slave register
 * v = MSVW [0:10]
 * n = VWire SRC bit = [0:3]
 */
#define MCHP_ESPI_MSVW_GIRQ(v)		(24 + ((v) > 6 ? 1 : 0))

#define MCHP_ESPI_MSVW_SRC_GIRQ_BIT(v, n) \
	(((v) > 6) ? (1ul << (((v)-7)+(n))) : (1ul << ((v)+(n))))


/* DMA */
#define MCHP_DMA_MAX_CHAN	12
#define MCHP_DMA_CH_OFS		0x40
#define MCHP_DMA_CH_OFS_BITPOS	6
#define MCHP_DMA_CH_BASE	(MCHP_DMA_BASE + MCHP_DMA_CH_OFS)

/*
 * Available DMA channels.
 * On MCHP, any DMA channel may serve any device. Since we have
 * 12 channels and 12 devices request signals, we make each channel
 * dedicated to the device of the same number.
 */
enum dma_channel {
	/* Channel numbers */
	MCHP_DMAC_I2C0_SLAVE = 0,
	MCHP_DMAC_I2C0_MASTER,
	MCHP_DMAC_I2C1_SLAVE,
	MCHP_DMAC_I2C1_MASTER,
	MCHP_DMAC_I2C2_SLAVE,
	MCHP_DMAC_I2C2_MASTER,
	MCHP_DMAC_I2C3_SLAVE,
	MCHP_DMAC_I2C3_MASTER,
	MCHP_DMAC_I2C4_SLAVE,
	MCHP_DMAC_I2C4_MASTER,
	MCHP_DMAC_QMSPI0_TX,
	MCHP_DMAC_QMSPI0_RX,
	/* Channel count */
	MCHP_DMAC_COUNT,
};

/*
 * Peripheral device DMA Device ID's for bits [15:9]
 * in DMA channel control register.
 */
#define MCHP_DMA_I2C0_SLV_REQ_ID	0
#define MCHP_DMA_I2C0_MTR_REQ_ID	1
#define MCHP_DMA_I2C1_SLV_REQ_ID	2
#define MCHP_DMA_I2C1_MTR_REQ_ID	3
#define MCHP_DMA_I2C2_SLV_REQ_ID	4
#define MCHP_DMA_I2C2_MTR_REQ_ID	5
#define MCHP_DMA_I2C3_SLV_REQ_ID	6
#define MCHP_DMA_I2C3_MTR_REQ_ID	7
#define MCHP_DMA_I2C4_SLV_REQ_ID	8
#define MCHP_DMA_I2C4_MTR_REQ_ID	9
#define MCHP_DMA_QMSPI0_TX_REQ_ID	10
#define MCHP_DMA_QMSPI0_RX_REQ_ID	11

/*
 * Hardware delay register.
 * Write of 0 <= n <= 31 will stall the Cortex-M4
 * for n+1 microseconds. Interrupts will not be
 * serviced during the delay period. Reads have
 * no effect.
 */
#define MCHP_USEC_DELAY_REG_ADDR	0x10000000
#define MCHP_USEC_DELAY(x)		(REG8(MCHP_USEC_DELAY_REG_ADDR) = (x))

#endif /* #ifndef __ASSEMBLER__ */