/* ADC / DAC (GRADCDAC) interface
/*
* COPYRIGHT (c) 2009.
* Cobham Gaisler AB.
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rtems.com/license/LICENSE.
*/
#ifndef __GRADCDAC_H__
#define __GRADCDAC_H__
#ifdef __cplusplus
extern "C" {
#endif
struct gradcdac_regs {
volatile unsigned int config; /* 0x00 Configuration Register */
volatile unsigned int status; /* 0x04 Status Register */
int unused0[2];
volatile unsigned int adc_din; /* 0x10 ADC Data Input Register */
volatile unsigned int dac_dout; /* 0x14 DAC Data Output Register */
int unused1[2];
volatile unsigned int adrin; /* 0x20 Address Input Register */
volatile unsigned int adrout; /* 0x24 Address Output Register */
volatile unsigned int adrdir; /* 0x28 Address Direction Register */
int unused2[1];
volatile unsigned int data_in; /* 0x30 Data Input Register */
volatile unsigned int data_out; /* 0x34 Data Output Register */
volatile unsigned int data_dir; /* 0x38 Data Direction Register */
};
#define GRADCDAC_CFG_DACWS 0x00f80000
#define GRADCDAC_CFG_WRPOL 0x00040000
#define GRADCDAC_CFG_DACDW 0x00030000
#define GRADCDAC_CFG_ADCWS 0x0000f800
#define GRADCDAC_CFG_RCPOL 0x00000400
#define GRADCDAC_CFG_CSMODE 0x00000300
#define GRADCDAC_CFG_CSPOL 0x00000080
#define GRADCDAC_CFG_RDYMODE 0x00000040
#define GRADCDAC_CFG_RDYPOL 0x00000020
#define GRADCDAC_CFG_TRIGPOL 0x00000010
#define GRADCDAC_CFG_TRIGMODE 0x0000000c
#define GRADCDAC_CFG_ADCDW 0x00000003
#define GRADCDAC_CFG_DACWS_BIT 19
#define GRADCDAC_CFG_WRPOL_BIT 18
#define GRADCDAC_CFG_DACDW_BIT 16
#define GRADCDAC_CFG_ADCWS_BIT 11
#define GRADCDAC_CFG_RCPOL_BIT 10
#define GRADCDAC_CFG_CSMODE_BIT 8
#define GRADCDAC_CFG_CSPOL_BIT 7
#define GRADCDAC_CFG_RDYMODE_BIT 6
#define GRADCDAC_CFG_RDYPOL_BIT 5
#define GRADCDAC_CFG_TRIGPOL_BIT 4
#define GRADCDAC_CFG_TRIGMODE_BIT 2
#define GRADCDAC_CFG_ADCDW_BIT 0
#define GRADCDAC_STATUS_DACNO 0x40
#define GRADCDAC_STATUS_DACRDY 0x20
#define GRADCDAC_STATUS_DACON 0x10
#define GRADCDAC_STATUS_ADCTO 0x08
#define GRADCDAC_STATUS_ADCNO 0x04
#define GRADCDAC_STATUS_ADCRDY 0x02
#define GRADCDAC_STATUS_ADCON 0x01
#define GRADCDAC_STATUS_DACNO_BIT 6
#define GRADCDAC_STATUS_DACRDY_BIT 5
#define GRADCDAC_STATUS_DACON_BIT 4
#define GRADCDAC_STATUS_ADCTO_BIT 3
#define GRADCDAC_STATUS_ADCNO_BIT 2
#define GRADCDAC_STATUS_ADCRDY_BIT 1
#define GRADCDAC_STATUS_ADCON_BIT 0
#define GRADCDAC_IRQ_DAC 1
#define GRADCDAC_IRQ_ADC 0
struct gradcdac_config {
unsigned char dac_ws;
char wr_pol;
unsigned char dac_dw;
unsigned char adc_ws;
char rc_pol;
unsigned char cs_mode;
char cs_pol;
char ready_mode;
char ready_pol;
char trigg_pol;
unsigned char trigg_mode;
unsigned char adc_dw;
};
extern void *gradcdac_open(char *devname);
extern void gradcdac_set_config(void *cookie, struct gradcdac_config *cfg);
extern void gradcdac_get_config(void *cookie, struct gradcdac_config *cfg);
extern void gradcdac_set_cfg(void *cookie, unsigned int config);
extern unsigned int gradcdac_get_cfg(void *cookie);
extern unsigned int gradcdac_get_status(void *cookie);
static int __inline__ gradcdac_DAC_ReqRej(unsigned int status)
{
return (status & GRADCDAC_STATUS_DACNO);
}
static int __inline__ gradcdac_DAC_isCompleted(unsigned int status)
{
return (status & GRADCDAC_STATUS_DACRDY);
}
static int __inline__ gradcdac_DAC_isOngoing(unsigned int status)
{
return (status & GRADCDAC_STATUS_DACON);
}
static int __inline__ gradcdac_ADC_isTimeouted(unsigned int status)
{
return (status & GRADCDAC_STATUS_ADCTO);
}
static int __inline__ gradcdac_ADC_ReqRej(unsigned int status)
{
return (status & GRADCDAC_STATUS_ADCNO);
}
static int __inline__ gradcdac_ADC_isCompleted(unsigned int status)
{
return (status & GRADCDAC_STATUS_ADCRDY);
}
static int __inline__ gradcdac_ADC_isOngoing(unsigned int status)
{
return (status & GRADCDAC_STATUS_ADCON);
}
#define GRADCDAC_ISR_BOTH 3
#define GRADCDAC_ISR_DAC 2
#define GRADCDAC_ISR_ADC 1
/* Install IRQ handler for ADC and/or DAC interrupt.
* The installed IRQ handler(ISR) must read the status
* register to clear the pending interrupt avoiding multiple
* entries to the ISR caused by the same IRQ.
*
* \param adc 1=ADC interrupt, 2=ADC interrupt, 3=ADC and DAC interrupt
* \param isr Interrupt service routine called when IRQ is fired
* \param arg custom argument passed to ISR when called.
*/
extern int gradcdac_install_irq_handler
(void *cookie, int adc, void (*isr)(void *cookie, void *arg), void *arg);
extern void gradcdac_uninstall_irq_handler(void *cookie, int adc);
/* Make the ADC circuitry initialize a analogue to digital
* conversion. The result can be read out by gradcdac_adc_convert_try
* or gradcdac_adc_convert.
*/
extern void gradcdac_adc_convert_start(void *cookie);
/* Tries to read the conversion result. If the circuitry is busy
* converting the function return a non-zero value, if the conversion
* has successfully finished the function return zero.
*
* \param digital_value the resulting converted value is placed here
* \return zero = ADC conversion complete, digital_value contain current conversion result
* positive = ADC busy, digital_value contain previous conversion result
* negative = Conversion request failed.
*/
extern int gradcdac_adc_convert_try(void *cookie, unsigned short *digital_value);
/* Waits until the ADC circuity has finished a digital to analogue
* conversion. The Waiting is implemented as a busy loop utilizing
* 100% CPU load.
*
* \return zero = Conversion ok
* negative = Conversion request failed.
*/
extern int gradcdac_adc_convert(void *cookie, unsigned short *digital_value);
/* Try to make the DAC circuitry initialize a digital to analogue
* conversion. If the circuitry is busy by a previous conversion
* the function return a non-zero value, if the conversion is
* successfully initialized the function return zero.
*/
extern int gradcdac_dac_convert_try(void *cookie, unsigned short digital_value);
/* Initializes a digital to analogue conversion by waiting until
* previous conversions is finished before procceding with the
* conversion. The Waiting is implemented as a busy loop utilizing
* 100% CPU load.
*/
extern void gradcdac_dac_convert(void *cookie, unsigned short digital_value);
extern unsigned int gradcdac_get_adrinput(void *cookie);
extern void gradcdac_set_adrinput(void *cookie, unsigned int input);
extern unsigned int gradcdac_get_adroutput(void *cookie);
extern void gradcdac_set_adroutput(void *cookie, unsigned int output);
extern unsigned int gradcdac_get_adrdir(void *cookie);
extern void gradcdac_set_adrdir(void *cookie, unsigned int dir);
extern unsigned int gradcdac_get_datainput(void *cookie);
extern void gradcdac_set_datainput(void *cookie, unsigned int input);
extern unsigned int gradcdac_get_dataoutput(void *cookie);
extern void gradcdac_set_dataoutput(void *cookie, unsigned int output);
extern unsigned int gradcdac_get_datadir(void *cookie);
extern void gradcdac_set_datadir(void *cookie, unsigned int dir);
/* Show one or all GRADCDAC cores. If cookie is NULL all GRADCDAC's are shown */
extern void grAdcDacShow(void *cookie);
/* Register Driver routine */
extern void gradcdac_register_drv (void);
#ifdef __cplusplus
}
#endif
#endif
