rt-thread/bsp/lpc824/Libraries/peri_driver/sctimer/sct_8xx.h

459 lines
16 KiB
C

/*
* @brief LPC8xx State Configurable Timer (SCT) Chip driver
*
* @note
* Copyright(C) NXP Semiconductors, 2013
* All rights reserved.
*
* @par
* Software that is described herein is for illustrative purposes only
* which provides customers with programming information regarding the
* LPC products. This software is supplied "AS IS" without any warranties of
* any kind, and NXP Semiconductors and its licenser disclaim any and
* all warranties, express or implied, including all implied warranties of
* merchantability, fitness for a particular purpose and non-infringement of
* intellectual property rights. NXP Semiconductors assumes no responsibility
* or liability for the use of the software, conveys no license or rights under any
* patent, copyright, mask work right, or any other intellectual property rights in
* or to any products. NXP Semiconductors reserves the right to make changes
* in the software without notification. NXP Semiconductors also makes no
* representation or warranty that such application will be suitable for the
* specified use without further testing or modification.
*
* @par
* Permission to use, copy, modify, and distribute this software and its
* documentation is hereby granted, under NXP Semiconductors' and its
* licensor's relevant copyrights in the software, without fee, provided that it
* is used in conjunction with NXP Semiconductors microcontrollers. This
* copyright, permission, and disclaimer notice must appear in all copies of
* this code.
*/
#ifndef __SCT_8XX_H_
#define __SCT_8XX_H_
#ifdef __cplusplus
extern "C" {
#endif
/** @defgroup SCT_8XX CHIP: LPC8xx State Configurable Timer driver
* @ingroup CHIP_8XX_Drivers
* @{
*/
/*
* @brief SCT Module configuration
*/
#define CONFIG_SCT_nEV (8) /*!< Number of events */
#define CONFIG_SCT_nRG (8) /*!< Number of match/compare registers */
#define CONFIG_SCT_nOU (6) /*!< Number of outputs */
/**
* @brief State Configurable Timer register block structure
*/
typedef struct {
__IO uint32_t CONFIG; /*!< configuration Register (offset (0x000) */
union {
__IO uint32_t CTRL_U; /*!< control Register */
struct {
__IO uint16_t CTRL_L; /*!< low control register */
__IO uint16_t CTRL_H; /*!< high control register */
};
};
union {
__IO uint32_t LIMIT_U; /*!< limit Register */
struct {
__IO uint16_t LIMIT_L; /*!< limit register for counter L */
__IO uint16_t LIMIT_H; /*!< limit register for counter H */
};
};
union {
__IO uint32_t HALT_U; /*!< halt Register */
struct {
__IO uint16_t HALT_L; /*!< halt register for counter L */
__IO uint16_t HALT_H; /*!< halt register for counter H */
};
};
union {
__IO uint32_t STOP_U; /*!< stop Register */
struct {
__IO uint16_t STOP_L; /*!< stop register for counter L */
__IO uint16_t STOP_H; /*!< stop register for counter H */
};
};
union {
__IO uint32_t START_U; /*!< start Register */
struct {
__IO uint16_t START_L; /*!< start register for counter L */
__IO uint16_t START_H; /*!< start register for counter H */
};
};
uint32_t RESERVED1[10]; /*!< 0x018 - 0x03C reserved */
union {
__IO uint32_t COUNT_U; /*!< counter register (offset 0x040)*/
struct {
__IO uint16_t COUNT_L; /*!< counter register for counter L */
__IO uint16_t COUNT_H; /*!< counter register for counter H */
};
};
union {
__IO uint32_t STATE_U; /*!< State register */
struct {
__IO uint16_t STATE_L; /*!< state register for counter L */
__IO uint16_t STATE_H; /*!< state register for counter H */
};
};
__I uint32_t INPUT; /*!< input register */
union {
__IO uint32_t REGMODE_U; /*!< RegMode register */
struct {
__IO uint16_t REGMODE_L; /*!< match - capture registers mode register L */
__IO uint16_t REGMODE_H; /*!< match - capture registers mode register H */
};
};
__IO uint32_t OUTPUT; /*!< output register */
__IO uint32_t OUTPUTDIRCTRL; /*!< output counter direction Control Register */
__IO uint32_t RES; /*!< conflict resolution register */
__IO uint32_t DMAREQ0; /*!< DMA0 Request Register */
__IO uint32_t DMAREQ1; /*!< DMA1 Request Register */
uint32_t RESERVED2[35]; /*!< 0x064 - 0x0EC reserved */
__IO uint32_t EVEN; /*!< event enable register (offset 0x0F0)*/
__IO uint32_t EVFLAG; /*!< event flag register */
__IO uint32_t CONEN; /*!< conflict enable register */
__IO uint32_t CONFLAG; /*!< conflict flag register */
union {
__IO union { /*!< ... Match / Capture value */
uint32_t U; /*!< MATCH[i].U Unified 32-bit register */
struct {
uint16_t L; /*!< MATCH[i].L Access to L value */
uint16_t H; /*!< MATCH[i].H Access to H value */
};
} MATCH[CONFIG_SCT_nRG];
__I union {
uint32_t U; /*!< CAP[i].U Unified 32-bit register */
struct {
uint16_t L; /*!< CAP[i].L Access to L value */
uint16_t H; /*!< CAP[i].H Access to H value */
};
} CAP[CONFIG_SCT_nRG];
};
uint32_t RESERVED3[56]; /*!< 0x120 - 0x1FC reserved */
union {
__IO union { /*!< ...Match Reload / Capture Control value (offset 0x200) */
uint32_t U; /*!< MATCHREL[i].U Unified 32-bit register */
struct {
uint16_t L; /*!< MATCHREL[i].L Access to L value */
uint16_t H; /*!< MATCHREL[i].H Access to H value */
};
} MATCHREL[CONFIG_SCT_nRG];
__IO union {
uint32_t U; /*!< CAPCTRL[i].U Unified 32-bit register */
struct {
uint16_t L; /*!< CAPCTRL[i].L Access to L value */
uint16_t H; /*!< CAPCTRL[i].H Access to H value */
};
} CAPCTRL[CONFIG_SCT_nRG];
};
uint32_t RESERVED4[56]; /*!< 0x220 - 0x2FC reserved */
__IO struct { /*!< EV[i].STATE / EV[i].CTRL (offset 0x300) */
uint32_t STATE; /*!< Event State Register */
uint32_t CTRL; /*!< Event Control Register */
} EV[CONFIG_SCT_nEV];
uint32_t RESERVED5[112]; /*!< 0x340 - 0x4FC reserved */
__IO struct { /*!< OUT[i].SET / OUT[i].CLR (offset 0x500) */
uint32_t SET; /*!< Output n Set Register */
uint32_t CLR; /*!< Output n Clear Register */
} OUT[CONFIG_SCT_nOU];
} LPC_SCT_T;
/* Reserved bits masks for registers */
#define SCT_CONFIG_RESERVED 0xfff80000
#define SCT_CTRL_RESERVED ((7<<13)|(7u<<29))
#define SCT_LIMIT_RESERVED (~(0x3f|(0x3f<<16))
#define SCT_HALT_RESERVED (~(0x3f|(0x3f<<16))
#define SCT_STOP_RESERVED (~(0x3f|(0x3f<<16))
#define SCT_START_RESERVED (~(0x3f|(0x3f<<16))
#define SCT_STATE_RESERVED (~(0x1f|(0x1f<<16))
#define SCT_INPUT_RESERVED (~(0xf|(0xf<<16))
#define SCT_REGMODE_RESERVED (~(0x1f|(0x1f<<16))
#define SCT_OUTPUT_RESERVED (~0xf)
#define SCT_OUTPUTDIRCTRL_RESERVED (~0xff)
#define SCT_RES_RESERVED (~0xff)
#define SCT_EVEN_RESERVED (~0x3f)
#define SCT_EVFLAG_RESERVED (~0x3f)
#define SCT_CONEN_RESERVED (~0xf)
#define SCT_CONFLAG_RESERVED (~(0xf|(3u<<30)))
#define SCT_CAPCTRL_RESERVED (~(0x3f|(0x3f<<16)))
#define SCT_EVn_STATE_RESERVED (~3)
#define SCT_EVn_CTRL_RESERVED (0xff800000)
#define SCT_OUTn_SET_RESERVED (~0x3f)
#define SCT_OUTn_CLR_RESERVED (~0x3f)
/*
* @brief Macro defines for SCT configuration register
*/
#define SCT_CONFIG_16BIT_COUNTER 0x00000000 /*!< Operate as 2 16-bit counters */
#define SCT_CONFIG_32BIT_COUNTER 0x00000001 /*!< Operate as 1 32-bit counter */
#define SCT_CONFIG_CLKMODE_BUSCLK (0x0 << 1) /*!< Bus clock */
#define SCT_CONFIG_CLKMODE_SCTCLK (0x1 << 1) /*!< SCT clock */
#define SCT_CONFIG_CLKMODE_INCLK (0x2 << 1) /*!< Input clock selected in CLKSEL field */
#define SCT_CONFIG_CLKMODE_INEDGECLK (0x3 << 1) /*!< Input clock edge selected in CLKSEL field */
#define SCT_CONFIG_NORELOAD_U (0x1 << 7) /*!< Prevent match register reload */
#define SCT_CONFIG_NORELOAD_L (0x1 << 7) /*!< Prevent lower match register reload */
#define SCT_CONFIG_NORELOAD_H (0x1 << 8) /*!< Prevent upper match register reload */
#define SCT_CONFIG_AUTOLIMIT_U (0x1 << 17) /*!< Limits counter(unified) based on MATCH0 */
#define SCT_CONFIG_AUTOLIMIT_L (0x1 << 17) /*!< Limits counter(L) based on MATCH0 */
#define SCT_CONFIG_AUTOLIMIT_H (0x1 << 18) /*!< Limits counter(L) based on MATCH0 */
/*
* @brief Macro defines for SCT control register
*/
#define COUNTUP_TO_LIMIT_THEN_CLEAR_TO_ZERO 0 /*!< Direction for low or unified counter */
#define COUNTUP_TO LIMIT_THEN_COUNTDOWN_TO_ZERO 1
#define SCT_CTRL_STOP_L (1 << 1) /*!< Stop low counter */
#define SCT_CTRL_HALT_L (1 << 2) /*!< Halt low counter */
#define SCT_CTRL_CLRCTR_L (1 << 3) /*!< Clear low or unified counter */
#define SCT_CTRL_BIDIR_L(x) (((x) & 0x01) << 4) /*!< Bidirectional bit */
#define SCT_CTRL_PRE_L(x) (((x) & 0xFF) << 5) /*!< Prescale clock for low or unified counter */
#define COUNTUP_TO_LIMIT_THEN_CLEAR_TO_ZERO 0 /*!< Direction for high counter */
#define COUNTUP_TO LIMIT_THEN_COUNTDOWN_TO_ZERO 1
#define SCT_CTRL_STOP_H (1 << 17) /*!< Stop high counter */
#define SCT_CTRL_HALT_H (1 << 18) /*!< Halt high counter */
#define SCT_CTRL_CLRCTR_H (1 << 19) /*!< Clear high counter */
#define SCT_CTRL_BIDIR_H(x) (((x) & 0x01) << 20)
#define SCT_CTRL_PRE_H(x) (((x) & 0xFF) << 21) /*!< Prescale clock for high counter */
/*
* @brief Macro defines for SCT Conflict resolution register
*/
#define SCT_RES_NOCHANGE (0)
#define SCT_RES_SET_OUTPUT (1)
#define SCT_RES_CLEAR_OUTPUT (2)
#define SCT_RES_TOGGLE_OUTPUT (3)
/**
* SCT Match register values enum
*/
typedef enum CHIP_SCT_MATCH_REG {
SCT_MATCH_0 = 0, /*!< SCT Match register 0 */
SCT_MATCH_1 = 1, /*!< SCT Match register 1 */
SCT_MATCH_2 = 2, /*!< SCT Match register 2 */
SCT_MATCH_3 = 3, /*!< SCT Match register 3 */
SCT_MATCH_4 = 4 /*!< SCT Match register 4 */
} CHIP_SCT_MATCH_REG_T;
/**
* SCT Event values enum
*/
typedef enum CHIP_SCT_EVENT {
SCT_EVT_0 = (1 << 0), /*!< Event 0 */
SCT_EVT_1 = (1 << 1), /*!< Event 1 */
SCT_EVT_2 = (1 << 2), /*!< Event 2 */
SCT_EVT_3 = (1 << 3), /*!< Event 3 */
SCT_EVT_4 = (1 << 4) /*!< Event 4 */
} CHIP_SCT_EVENT_T;
/**
* @brief Configures the State Configurable Timer
* @param pSCT : The base of SCT peripheral on the chip
* @param value : The 32-bit CONFIG register value
* @return Nothing
*/
STATIC INLINE void Chip_SCT_Config(LPC_SCT_T *pSCT, uint32_t value)
{
pSCT->CONFIG = value;
}
/**
* @brief Set or Clear the Control register
* @param pSCT : Pointer to SCT register block
* @param value : SCT Control register value
* @param ena : ENABLE - To set the fields specified by value
* : DISABLE - To clear the field specified by value
* @return Nothing
* Set or clear the control register bits as specified by the \a value
* parameter. If \a ena is set to ENABLE, the mentioned register fields
* will be set. If \a ena is set to DISABLE, the mentioned register
* fields will be cleared
*/
void Chip_SCT_SetClrControl(LPC_SCT_T *pSCT, uint32_t value, FunctionalState ena);
/**
* @brief Set the conflict resolution
* @param pSCT : Pointer to SCT register block
* @param outnum : Output number
* @param value : Output value
* - SCT_RES_NOCHANGE :No change
* - SCT_RES_SET_OUTPUT :Set output
* - SCT_RES_CLEAR_OUTPUT :Clear output
* - SCT_RES_TOGGLE_OUTPUT :Toggle output
* : SCT_RES_NOCHANGE
* : DISABLE - To clear the field specified by value
* @return Nothing
* Set conflict resolution for the output \a outnum
*/
void Chip_SCT_SetConflictResolution(LPC_SCT_T *pSCT, uint8_t outnum, uint8_t value);
/**
* @brief Set unified count value in State Configurable Timer
* @param pSCT : The base of SCT peripheral on the chip
* @param count : The 32-bit count value
* @return Nothing
*/
STATIC INLINE void Chip_SCT_SetCount(LPC_SCT_T *pSCT, uint32_t count)
{
pSCT->COUNT_U = count;
}
/**
* @brief Set lower count value in State Configurable Timer
* @param pSCT : The base of SCT peripheral on the chip
* @param count : The 16-bit count value
* @return Nothing
*/
STATIC INLINE void Chip_SCT_SetCountL(LPC_SCT_T *pSCT, uint16_t count)
{
pSCT->COUNT_L = count;
}
/**
* @brief Set higher count value in State Configurable Timer
* @param pSCT : The base of SCT peripheral on the chip
* @param count : The 16-bit count value
* @return Nothing
*/
STATIC INLINE void Chip_SCT_SetCountH(LPC_SCT_T *pSCT, uint16_t count)
{
pSCT->COUNT_H = count;
}
/**
* @brief Set unified match count value in State Configurable Timer
* @param pSCT : The base of SCT peripheral on the chip
* @param n : Match register value
* @param value : The 32-bit match count value
* @return Nothing
*/
STATIC INLINE void Chip_SCT_SetMatchCount(LPC_SCT_T *pSCT, CHIP_SCT_MATCH_REG_T n, uint32_t value)
{
pSCT->MATCH[n].U = value;
}
/**
* @brief Set unified match reload count value in State Configurable Timer
* @param pSCT : The base of SCT peripheral on the chip
* @param n : Match register value
* @param value : The 32-bit match count reload value
* @return Nothing
*/
STATIC INLINE void Chip_SCT_SetMatchReload(LPC_SCT_T *pSCT, CHIP_SCT_MATCH_REG_T n, uint32_t value)
{
pSCT->MATCHREL[n].U = value;
}
/**
* @brief Enable the interrupt for the specified event in State Configurable Timer
* @param pSCT : The base of SCT peripheral on the chip
* @param evt : Event value
* @return Nothing
*/
STATIC INLINE void Chip_SCT_EnableEventInt(LPC_SCT_T *pSCT, CHIP_SCT_EVENT_T evt)
{
pSCT->EVEN = evt | (pSCT->EVEN & ~SCT_EVEN_RESERVED);
}
/**
* @brief Disable the interrupt for the specified event in State Configurable Timer
* @param pSCT : The base of SCT peripheral on the chip
* @param evt : Event value
* @return Nothing
*/
STATIC INLINE void Chip_SCT_DisableEventInt(LPC_SCT_T *pSCT, CHIP_SCT_EVENT_T evt)
{
pSCT->EVEN &= ~(evt | SCT_EVEN_RESERVED);
}
/**
* @brief Clear the specified event flag in State Configurable Timer
* @param pSCT : The base of SCT peripheral on the chip
* @param evt : Event value
* @return Nothing
*/
STATIC INLINE void Chip_SCT_ClearEventFlag(LPC_SCT_T *pSCT, CHIP_SCT_EVENT_T evt)
{
pSCT->EVFLAG = evt | (pSCT->EVFLAG & ~SCT_EVFLAG_RESERVED);
}
/**
* @brief Set control register in State Configurable Timer
* @param pSCT : The base of SCT peripheral on the chip
* @param value : Value (ORed value of SCT_CTRL_* bits)
* @return Nothing
*/
STATIC INLINE void Chip_SCT_SetControl(LPC_SCT_T *pSCT, uint32_t value)
{
pSCT->CTRL_U = value | (pSCT->CTRL_U & ~SCT_CTRL_RESERVED);
}
/**
* @brief Clear control register in State Configurable Timer
* @param pSCT : The base of SCT peripheral on the chip
* @param value : Value (ORed value of SCT_CTRL_* bits)
* @return Nothing
*/
STATIC INLINE void Chip_SCT_ClearControl(LPC_SCT_T *pSCT, uint32_t value)
{
pSCT->CTRL_U &= ~(value | SCT_CTRL_RESERVED);
}
/**
* @brief Initializes the State Configurable Timer
* @param pSCT : The base of SCT peripheral on the chip
* @return Nothing
*/
void Chip_SCT_Init(LPC_SCT_T *pSCT);
/**
* @brief Deinitializes the State Configurable Timer
* @param pSCT : The base of SCT peripheral on the chip
* @return Nothing
*/
void Chip_SCT_DeInit(LPC_SCT_T *pSCT);
/**
* @}
*/
#ifdef __cplusplus
}
#endif
#endif /* __SCT_8XX_H_ */