Add structure-based CRM definitions

This commit is contained in:
Jim Paris 2010-09-25 22:40:40 -04:00
parent ba2792a70b
commit 6c93b8fb0b

View file

@ -39,47 +39,233 @@
#include <types.h> #include <types.h>
#define CRM_BASE (0x80003000) #define CRM_BASE (0x80003000)
#define CRM_SYS_CNTL ((volatile uint32_t *) (CRM_BASE+0x00))
#define CRM_WU_CNTL ((volatile uint32_t *) (CRM_BASE+0x04)) /* Structure-based CRM access */
#define CRM_SLEEP_CNTL ((volatile uint32_t *) (CRM_BASE+0x08)) struct CRM_struct {
#define CRM_BS_CNTL ((volatile uint32_t *) (CRM_BASE+0x0c)) union {
#define CRM_COP_CNTL ((volatile uint32_t *) (CRM_BASE+0x10)) uint32_t SYS_CNTL;
#define CRM_COP_SERVICE ((volatile uint32_t *) (CRM_BASE+0x14)) struct CRM_SYS_CNTL {
#define CRM_STATUS ((volatile uint32_t *) (CRM_BASE+0x18)) uint32_t PWR_SOURCE:2;
#define CRM_MOD_STATUS ((volatile uint32_t *) (CRM_BASE+0x1c)) uint32_t PADS_1P8V_SEL:1;
#define CRM_WU_COUNT ((volatile uint32_t *) (CRM_BASE+0x20)) uint32_t :1;
#define CRM_WU_TIMEOUT ((volatile uint32_t *) (CRM_BASE+0x24)) uint32_t JTAG_SECU_OFF:1;
#define CRM_RTC_COUNT ((volatile uint32_t *) (CRM_BASE+0x28)) uint32_t XTAL32_EXISTS:1;
#define CRM_RTC_TIMEOUT ((volatile uint32_t *) (CRM_BASE+0x2c)) uint32_t :2;
#define CRM_CAL_CNTL ((volatile uint32_t *) (CRM_BASE+0x34)) uint32_t XTAL_CLKDIV:6;
#define CRM_CAL_COUNT ((volatile uint32_t *) (CRM_BASE+0x38)) uint32_t :18;
#define CRM_RINGOSC_CNTL ((volatile uint32_t *) (CRM_BASE+0x3c)) } SYS_CNTLbits;
#define CRM_XTAL_CNTL ((volatile uint32_t *) (CRM_BASE+0x40)) };
#define CRM_XTAL32_CNTL ((volatile uint32_t *) (CRM_BASE+0x44)) union {
#define CRM_VREG_CNTL ((volatile uint32_t *) (CRM_BASE+0x48)) uint32_t WU_CNTL;
#define CRM_SW_RST ((volatile uint32_t *) (CRM_BASE+0x50)) struct CRM_WU_CNTL {
uint32_t TIMER_WU_EN:1;
uint32_t RTC_WU_EN:1;
uint32_t HOST_WAKE:1;
uint32_t AUTO_ADC:1;
uint32_t EXT_WU_EN:4;
uint32_t EXT_WU_EDGE:4;
uint32_t EXT_WU_POL:4;
uint32_t TIMER_WU_IEN:1;
uint32_t RTC_WU_IEN:1;
uint32_t :2;
uint32_t EXT_WU_IEN:4;
uint32_t :4;
uint32_t EXT_OUT_POL:4;
} WU_CNTLbits;
};
union {
uint32_t SLEEP_CNTL;
struct CRM_SLEEP_CNTL {
uint32_t HIB:1;
uint32_t DOZE:1;
uint32_t :2;
uint32_t RAM_RET:2;
uint32_t MCU_RET:1;
uint32_t DIG_PAD_EN:1;
uint32_t :24;
} SLEEP_CNTLbits;
};
union {
uint32_t BS_CNTL;
struct CRM_BS_CNTL {
uint32_t BS_EN:1;
uint32_t WAIT4IRQ:1;
uint32_t BS_MAN_EN:1;
uint32_t :2;
uint32_t ARM_OFF_TIME:6;
uint32_t :18;
} BS_CNTLbits;
};
union {
uint32_t COP_CNTL;
struct CRM_COP_CNTL {
uint32_t COP_EN:1;
uint32_t COP_OUT:1;
uint32_t COP_WP:1;
uint32_t :5;
uint32_t COP_TIMEOUT:7;
uint32_t :1;
uint32_t COP_COUNT:7;
uint32_t :9;
} COP_CNTLbits;
};
uint32_t COP_SERVICE;
union {
uint32_t STATUS;
struct CRM_STATUS {
uint32_t SLEEP_SYNC:1;
uint32_t HIB_WU_EVT:1;
uint32_t DOZE_WU_EVT:1;
uint32_t RTC_WU_EVT:1;
uint32_t EXT_WU_EVT:4;
uint32_t :1;
uint32_t CAL_DONE:1;
uint32_t COP_EVT:1;
uint32_t :6;
uint32_t VREG_BUCK_RDY:1;
uint32_t VREG_1P8V_RDY:1;
uint32_t VREG_1P5V_RDY:1;
uint32_t :12;
} STATUSbits;
};
union {
uint32_t MOD_STATUS;
struct CRM_MOD_STATUS {
uint32_t ARM_EN:1;
uint32_t MACA_EN:1;
uint32_t ASM_EN:1;
uint32_t SPI_EN:1;
uint32_t GPIO_EN:1;
uint32_t UART1_EN:1;
uint32_t UART2_EN:1;
uint32_t TMR_EN:1;
uint32_t RIF_EN:1;
uint32_t I2C_EN:1;
uint32_t SSI_EN:1;
uint32_t SPIF_EN:1;
uint32_t ADC_EN:1;
uint32_t :1;
uint32_t JTA_EN:1;
uint32_t NEX_EN:1;
uint32_t :1;
uint32_t AIM_EN:1;
uint32_t :14;
} MOD_STATUSbits;
};
uint32_t WU_COUNT;
uint32_t WU_TIMEOUT;
uint32_t RTC_COUNT;
uint32_t RTC_TIMEOUT;
uint32_t reserved1;
union {
uint32_t CAL_CNTL;
struct CRM_CAL_CNTL {
uint32_t CAL_TIMEOUT:16;
uint32_t CAL_EN:1;
uint32_t CAL_IEN:1;
uint32_t :14;
} CAL_CNTLbits;
};
uint32_t CAL_COUNT;
union {
uint32_t RINGOSC_CNTL;
struct CRM_RINGOSC_CNTL {
uint32_t ROSC_EN:1;
uint32_t :3;
uint32_t ROSC_FTUNE:5;
uint32_t ROSC_CTUNE:4;
uint32_t :19;
} RINGOSC_CNTLbits;
};
union {
uint32_t XTAL_CNTL;
struct CRM_XTAL_CNTL {
uint32_t :8;
uint32_t XTAL_IBIAS_SEL:4;
uint32_t :4;
uint32_t XTAL_FTUNE:5;
uint32_t XTAL_CTUNE:5;
uint32_t :6;
} XTAL_CNTLbits;
};
union {
uint32_t XTAL32_CNTL;
struct CRM_XTAL32_CNTL {
uint32_t XTAL32_EN:1;
uint32_t :3;
uint32_t XTAL32_GAIN:2;
uint32_t :26;
} XTAL32_CNTLbits;
};
union {
uint32_t VREG_CNTL;
struct CRM_VREG_CNTL {
uint32_t BUCK_EN:1;
uint32_t BUCK_SYNC_REC_EN:1;
uint32_t BUCK_BYPASS_EN:1;
uint32_t VREG_1P5V_EN:2;
uint32_t VREG_1P5V_SEL:2;
uint32_t VREG_1P8V_EN:1;
uint32_t BUCK_CLKDIV:4;
uint32_t :20;
} VREG_CNTLbits;
};
uint32_t reserved2;
uint32_t SW_RST;
uint32_t reserved3;
uint32_t reserved4;
uint32_t reserved5;
uint32_t reserved6;
};
static volatile struct CRM_struct * const _CRM = (void *) (CRM_BASE);
#define CRM (*_CRM)
/* Old register definitions, for compatibility */
#ifndef REG_NO_COMPAT
static volatile uint32_t * const CRM_SYS_CNTL = ((volatile uint32_t *) (CRM_BASE+0x00));
static volatile uint32_t * const CRM_WU_CNTL = ((volatile uint32_t *) (CRM_BASE+0x04));
static volatile uint32_t * const CRM_SLEEP_CNTL = ((volatile uint32_t *) (CRM_BASE+0x08));
static volatile uint32_t * const CRM_BS_CNTL = ((volatile uint32_t *) (CRM_BASE+0x0c));
static volatile uint32_t * const CRM_COP_CNTL = ((volatile uint32_t *) (CRM_BASE+0x10));
static volatile uint32_t * const CRM_COP_SERVICE= ((volatile uint32_t *) (CRM_BASE+0x14));
static volatile uint32_t * const CRM_STATUS = ((volatile uint32_t *) (CRM_BASE+0x18));
static volatile uint32_t * const CRM_MOD_STATUS = ((volatile uint32_t *) (CRM_BASE+0x1c));
static volatile uint32_t * const CRM_WU_COUNT = ((volatile uint32_t *) (CRM_BASE+0x20));
static volatile uint32_t * const CRM_WU_TIMEOUT = ((volatile uint32_t *) (CRM_BASE+0x24));
static volatile uint32_t * const CRM_RTC_COUNT = ((volatile uint32_t *) (CRM_BASE+0x28));
static volatile uint32_t * const CRM_RTC_TIMEOUT= ((volatile uint32_t *) (CRM_BASE+0x2c));
static volatile uint32_t * const CRM_CAL_CNTL = ((volatile uint32_t *) (CRM_BASE+0x34));
static volatile uint32_t * const CRM_CAL_COUNT = ((volatile uint32_t *) (CRM_BASE+0x38));
static volatile uint32_t * const CRM_RINGOSC_CNT= ((volatile uint32_t *) (CRM_BASE+0x3c));
static volatile uint32_t * const CRM_XTAL_CNTL = ((volatile uint32_t *) (CRM_BASE+0x40));
static volatile uint32_t * const CRM_XTAL32_CNTL= ((volatile uint32_t *) (CRM_BASE+0x44));
static volatile uint32_t * const CRM_VREG_CNTL = ((volatile uint32_t *) (CRM_BASE+0x48));
static volatile uint32_t * const CRM_SW_RST = ((volatile uint32_t *) (CRM_BASE+0x50));
/* CRM_SYS_CNTL bit locations */ /* CRM_SYS_CNTL bit locations */
#define XTAL32_EXISTS 5 static const int XTAL32_EXISTS = 5;
/* CRM_WU_CNTL bit locations */ /* CRM_WU_CNTL bit locations */
#define EXT_WU_IEN 20 /* 4 bits */ static const int EXT_WU_IEN = 20; /* 4 bits */
#define EXT_WU_EN 4 /* 4 bits */ static const int EXT_WU_EN = 4; /* 4 bits */
#define EXT_WU_EDGE 8 /* 4 bits */ static const int EXT_WU_EDGE = 8; /* 4 bits */
#define EXT_WU_POL 12 /* 4 bits */ static const int EXT_WU_POL = 12; /* 4 bits */
#define TIMER_WU_EN 0 static const int TIMER_WU_EN = 0;
#define RTC_WU_EN 1 static const int RTC_WU_EN = 1;
#define TIMER_WU_IEN 16 static const int TIMER_WU_IEN = 16;
#define RTC_WU_IEN 17 static const int RTC_WU_IEN = 17;
/* CRM_STATUS bit locations */ /* CRM_STATUS bit locations */
#define EXT_WU_EVT 4 /* 4 bits, rw1c */ static const int EXT_WU_EVT = 4; /* 4 bits, rw1c */
#define RTC_WU_EVT 3 /* rw1c */ static const int RTC_WU_EVT = 3; /* rw1c */
/* RINGOSC_CNTL bit locations */ /* RINGOSC_CNTL bit locations */
#define ROSC_CTUNE 9 /* 4 bits */ static const int ROSC_CTUNE = 9; /* 4 bits */
#define ROSC_FTUNE 4 /* 4 bits */ static const int ROSC_FTUNE = 4; /* 4 bits */
#define ROSC_EN 0 static const int ROSC_EN = 0;
#define ring_osc_on() (set_bit(*CRM_RINGOSC_CNTL,ROSC_EN)) #define ring_osc_on() (set_bit(*CRM_RINGOSC_CNTL,ROSC_EN))
#define ring_osc_off() (clear_bit(*CRM_RINGOSC_CNTL,ROSC_EN)) #define ring_osc_off() (clear_bit(*CRM_RINGOSC_CNTL,ROSC_EN))
@ -89,8 +275,8 @@
//extern uint32_t cal_rtc_secs; /* calibrated 2khz rtc seconds */ //extern uint32_t cal_rtc_secs; /* calibrated 2khz rtc seconds */
/* XTAL32_CNTL bit locations */ /* XTAL32_CNTL bit locations */
#define XTAL32_GAIN 4 /* 2 bits */ static const int XTAL32_GAIN = 4; /* 2 bits */
#define XTAL32_EN 0 static const int XTAL32_EN = 0;
#define xtal32_on() (set_bit(*CRM_XTAL32_CNTL,XTAL32_EN)) #define xtal32_on() (set_bit(*CRM_XTAL32_CNTL,XTAL32_EN))
#define xtal32_off() (clear_bit(*CRM_XTAL32_CNTL,XTAL32_EN)) #define xtal32_off() (clear_bit(*CRM_XTAL32_CNTL,XTAL32_EN))
@ -135,4 +321,6 @@
#define pack_XTAL_CNTL(ctune4pf, ctune, ftune, ibias) \ #define pack_XTAL_CNTL(ctune4pf, ctune, ftune, ibias) \
(*CRM_XTAL_CNTL = ((ctune4pf << 25) | (ctune << 21) | ( ftune << 16) | (ibias << 8) | 0x52)) (*CRM_XTAL_CNTL = ((ctune4pf << 25) | (ctune << 21) | ( ftune << 16) | (ibias << 8) | 0x52))
#endif /* REG_NO_COMPAT */
#endif #endif