xref: /drivers/staging/comedi/drivers/ni_stc.h

/*
    module/ni_stc.h
    Register descriptions for NI DAQ-STC chip

    COMEDI - Linux Control and Measurement Device Interface
    Copyright (C) 1998-9 David A. Schleef <ds@schleef.org>

    This program is free software; you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation; either version 2 of the License, or
    (at your option) any later version.

    This program is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program; if not, write to the Free Software
    Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.

*/

/*
	References:
	    DAQ-STC Technical Reference Manual
*/

#ifndef _COMEDI_NI_STC_H
#define _COMEDI_NI_STC_H

#include "ni_tio.h"

#define _bit15		0x8000
#define _bit14		0x4000
#define _bit13		0x2000
#define _bit12		0x1000
#define _bit11		0x0800
#define _bit10		0x0400
#define _bit9		0x0200
#define _bit8		0x0100
#define _bit7		0x0080
#define _bit6		0x0040
#define _bit5		0x0020
#define _bit4		0x0010
#define _bit3		0x0008
#define _bit2		0x0004
#define _bit1		0x0002
#define _bit0		0x0001

#define NUM_PFI_OUTPUT_SELECT_REGS 6

/* Registers in the National Instruments DAQ-STC chip */

#define Interrupt_A_Ack_Register	2
#define G0_Gate_Interrupt_Ack			_bit15
#define G0_TC_Interrupt_Ack			_bit14
#define AI_Error_Interrupt_Ack			_bit13
#define AI_STOP_Interrupt_Ack			_bit12
#define AI_START_Interrupt_Ack			_bit11
#define AI_START2_Interrupt_Ack			_bit10
#define AI_START1_Interrupt_Ack			_bit9
#define AI_SC_TC_Interrupt_Ack			_bit8
#define AI_SC_TC_Error_Confirm			_bit7
#define G0_TC_Error_Confirm			_bit6
#define G0_Gate_Error_Confirm			_bit5

#define AI_Status_1_Register		2
#define Interrupt_A_St				0x8000
#define AI_FIFO_Full_St				0x4000
#define AI_FIFO_Half_Full_St			0x2000
#define AI_FIFO_Empty_St			0x1000
#define AI_Overrun_St				0x0800
#define AI_Overflow_St				0x0400
#define AI_SC_TC_Error_St			0x0200
#define AI_START2_St				0x0100
#define AI_START1_St				0x0080
#define AI_SC_TC_St				0x0040
#define AI_START_St				0x0020
#define AI_STOP_St				0x0010
#define G0_TC_St				0x0008
#define G0_Gate_Interrupt_St			0x0004
#define AI_FIFO_Request_St			0x0002
#define Pass_Thru_0_Interrupt_St		0x0001

#define AI_Status_2_Register		5

#define Interrupt_B_Ack_Register	3
enum Interrupt_B_Ack_Bits {
	G1_Gate_Error_Confirm = _bit1,
	G1_TC_Error_Confirm = _bit2,
	AO_BC_TC_Trigger_Error_Confirm = _bit3,
	AO_BC_TC_Error_Confirm = _bit4,
	AO_UI2_TC_Error_Confrim = _bit5,
	AO_UI2_TC_Interrupt_Ack = _bit6,
	AO_UC_TC_Interrupt_Ack = _bit7,
	AO_BC_TC_Interrupt_Ack = _bit8,
	AO_START1_Interrupt_Ack = _bit9,
	AO_UPDATE_Interrupt_Ack = _bit10,
	AO_START_Interrupt_Ack = _bit11,
	AO_STOP_Interrupt_Ack = _bit12,
	AO_Error_Interrupt_Ack = _bit13,
	G1_TC_Interrupt_Ack = _bit14,
	G1_Gate_Interrupt_Ack = _bit15
};

#define AO_Status_1_Register		3
#define Interrupt_B_St				_bit15
#define AO_FIFO_Full_St				_bit14
#define AO_FIFO_Half_Full_St			_bit13
#define AO_FIFO_Empty_St			_bit12
#define AO_BC_TC_Error_St			_bit11
#define AO_START_St				_bit10
#define AO_Overrun_St				_bit9
#define AO_START1_St				_bit8
#define AO_BC_TC_St				_bit7
#define AO_UC_TC_St				_bit6
#define AO_UPDATE_St				_bit5
#define AO_UI2_TC_St				_bit4
#define G1_TC_St				_bit3
#define G1_Gate_Interrupt_St			_bit2
#define AO_FIFO_Request_St			_bit1
#define Pass_Thru_1_Interrupt_St		_bit0

#define AI_Command_2_Register		4
#define AI_End_On_SC_TC				_bit15
#define AI_End_On_End_Of_Scan			_bit14
#define AI_START1_Disable			_bit11
#define AI_SC_Save_Trace			_bit10
#define AI_SI_Switch_Load_On_SC_TC		_bit9
#define AI_SI_Switch_Load_On_STOP		_bit8
#define AI_SI_Switch_Load_On_TC			_bit7
#define AI_SC_Switch_Load_On_TC			_bit4
#define AI_STOP_Pulse				_bit3
#define AI_START_Pulse				_bit2
#define AI_START2_Pulse				_bit1
#define AI_START1_Pulse				_bit0

#define AO_Command_2_Register		5
#define AO_End_On_BC_TC(x)			(((x) & 0x3) << 14)
#define AO_Start_Stop_Gate_Enable		_bit13
#define AO_UC_Save_Trace			_bit12
#define AO_BC_Gate_Enable			_bit11
#define AO_BC_Save_Trace			_bit10
#define AO_UI_Switch_Load_On_BC_TC		_bit9
#define AO_UI_Switch_Load_On_Stop		_bit8
#define AO_UI_Switch_Load_On_TC			_bit7
#define AO_UC_Switch_Load_On_BC_TC		_bit6
#define AO_UC_Switch_Load_On_TC			_bit5
#define AO_BC_Switch_Load_On_TC			_bit4
#define AO_Mute_B				_bit3
#define AO_Mute_A				_bit2
#define AO_UPDATE2_Pulse			_bit1
#define AO_START1_Pulse				_bit0

#define AO_Status_2_Register		6

#define DIO_Parallel_Input_Register	7

#define AI_Command_1_Register		8
#define AI_Analog_Trigger_Reset			_bit14
#define AI_Disarm				_bit13
#define AI_SI2_Arm				_bit12
#define AI_SI2_Load				_bit11
#define AI_SI_Arm				_bit10
#define AI_SI_Load				_bit9
#define AI_DIV_Arm				_bit8
#define AI_DIV_Load				_bit7
#define AI_SC_Arm				_bit6
#define AI_SC_Load				_bit5
#define AI_SCAN_IN_PROG_Pulse			_bit4
#define AI_EXTMUX_CLK_Pulse			_bit3
#define AI_LOCALMUX_CLK_Pulse			_bit2
#define AI_SC_TC_Pulse			 	_bit1
#define AI_CONVERT_Pulse			_bit0

#define AO_Command_1_Register		9
#define AO_Analog_Trigger_Reset			_bit15
#define AO_START_Pulse				_bit14
#define AO_Disarm				_bit13
#define AO_UI2_Arm_Disarm			_bit12
#define AO_UI2_Load				_bit11
#define AO_UI_Arm				_bit10
#define AO_UI_Load				_bit9
#define AO_UC_Arm				_bit8
#define AO_UC_Load				_bit7
#define AO_BC_Arm				_bit6
#define AO_BC_Load				_bit5
#define AO_DAC1_Update_Mode			_bit4
#define AO_LDAC1_Source_Select			_bit3
#define AO_DAC0_Update_Mode			_bit2
#define AO_LDAC0_Source_Select			_bit1
#define AO_UPDATE_Pulse				_bit0

#define DIO_Output_Register		10
#define DIO_Parallel_Data_Out(a)                ((a)&0xff)
#define DIO_Parallel_Data_Mask                  0xff
#define DIO_SDOUT                               _bit0
#define DIO_SDIN                                _bit4
#define DIO_Serial_Data_Out(a)                  (((a)&0xff)<<8)
#define DIO_Serial_Data_Mask                    0xff00

#define DIO_Control_Register		11
#define DIO_Software_Serial_Control             _bit11
#define DIO_HW_Serial_Timebase                  _bit10
#define DIO_HW_Serial_Enable                    _bit9
#define DIO_HW_Serial_Start                     _bit8
#define DIO_Pins_Dir(a)                         ((a)&0xff)
#define DIO_Pins_Dir_Mask                       0xff

#define AI_Mode_1_Register		12
#define AI_CONVERT_Source_Select(a)		(((a) & 0x1f) << 11)
#define AI_SI_Source_select(a)			(((a) & 0x1f) << 6)
#define AI_CONVERT_Source_Polarity		_bit5
#define AI_SI_Source_Polarity		_bit4
#define AI_Start_Stop				_bit3
#define AI_Mode_1_Reserved			_bit2
#define AI_Continuous				_bit1
#define AI_Trigger_Once				_bit0

#define AI_Mode_2_Register		13
#define AI_SC_Gate_Enable			_bit15
#define AI_Start_Stop_Gate_Enable		_bit14
#define AI_Pre_Trigger				_bit13
#define AI_External_MUX_Present			_bit12
#define AI_SI2_Initial_Load_Source		_bit9
#define AI_SI2_Reload_Mode			_bit8
#define AI_SI_Initial_Load_Source		_bit7
#define AI_SI_Reload_Mode(a)			(((a) & 0x7)<<4)
#define AI_SI_Write_Switch			_bit3
#define AI_SC_Initial_Load_Source		_bit2
#define AI_SC_Reload_Mode			_bit1
#define AI_SC_Write_Switch			_bit0

#define AI_SI_Load_A_Registers		14
#define AI_SI_Load_B_Registers		16
#define AI_SC_Load_A_Registers		18
#define AI_SC_Load_B_Registers		20
#define AI_SI_Save_Registers		64
#define AI_SC_Save_Registers		66

#define AI_SI2_Load_A_Register		23
#define AI_SI2_Load_B_Register		25

#define Joint_Status_1_Register         27
#define DIO_Serial_IO_In_Progress_St            _bit12

#define DIO_Serial_Input_Register       28
#define Joint_Status_2_Register         29
enum Joint_Status_2_Bits {
	AO_TMRDACWRs_In_Progress_St = 0x20,
};

#define AO_Mode_1_Register		38
#define AO_UPDATE_Source_Select(x)		(((x)&0x1f)<<11)
#define AO_UI_Source_Select(x)			(((x)&0x1f)<<6)
#define AO_Multiple_Channels			_bit5
#define AO_UPDATE_Source_Polarity		_bit4
#define AO_UI_Source_Polarity			_bit3
#define AO_UC_Switch_Load_Every_TC		_bit2
#define AO_Continuous				_bit1
#define AO_Trigger_Once				_bit0

#define AO_Mode_2_Register		39
#define AO_FIFO_Mode_Mask (0x3 << 14)
enum AO_FIFO_Mode_Bits {
	AO_FIFO_Mode_HF_to_F = (3 << 14),
	AO_FIFO_Mode_F = (2 << 14),
	AO_FIFO_Mode_HF = (1 << 14),
	AO_FIFO_Mode_E = (0 << 14),
};
#define AO_FIFO_Retransmit_Enable		_bit13
#define AO_START1_Disable			_bit12
#define AO_UC_Initial_Load_Source		_bit11
#define AO_UC_Write_Switch			_bit10
#define AO_UI2_Initial_Load_Source		_bit9
#define AO_UI2_Reload_Mode			_bit8
#define AO_UI_Initial_Load_Source		_bit7
#define AO_UI_Reload_Mode(x)			(((x) & 0x7) << 4)
#define AO_UI_Write_Switch			_bit3
#define AO_BC_Initial_Load_Source		_bit2
#define AO_BC_Reload_Mode			_bit1
#define AO_BC_Write_Switch			_bit0

#define AO_UI_Load_A_Register		40
#define AO_UI_Load_A_Register_High	40
#define AO_UI_Load_A_Register_Low	41
#define AO_UI_Load_B_Register		42
#define AO_UI_Save_Registers		16
#define AO_BC_Load_A_Register		44
#define AO_BC_Load_A_Register_High	44
#define AO_BC_Load_A_Register_Low	45
#define AO_BC_Load_B_Register		46
#define AO_BC_Load_B_Register_High	46
#define AO_BC_Load_B_Register_Low	47
#define AO_BC_Save_Registers		18
#define AO_UC_Load_A_Register		48
#define AO_UC_Load_A_Register_High	48
#define AO_UC_Load_A_Register_Low	49
#define AO_UC_Load_B_Register		50
#define AO_UC_Save_Registers		20

#define Clock_and_FOUT_Register		56
enum Clock_and_FOUT_bits {
	FOUT_Enable = _bit15,
	FOUT_Timebase_Select = _bit14,
	DIO_Serial_Out_Divide_By_2 = _bit13,
	Slow_Internal_Time_Divide_By_2 = _bit12,
	Slow_Internal_Timebase = _bit11,
	G_Source_Divide_By_2 = _bit10,
	Clock_To_Board_Divide_By_2 = _bit9,
	Clock_To_Board = _bit8,
	AI_Output_Divide_By_2 = _bit7,
	AI_Source_Divide_By_2 = _bit6,
	AO_Output_Divide_By_2 = _bit5,
	AO_Source_Divide_By_2 = _bit4,
	FOUT_Divider_mask = 0xf
};
static inline unsigned FOUT_Divider(unsigned divider)
{
	return divider & FOUT_Divider_mask;
}

#define IO_Bidirection_Pin_Register	57
#define	RTSI_Trig_Direction_Register	58
enum RTSI_Trig_Direction_Bits {
	Drive_RTSI_Clock_Bit = 0x1,
	Use_RTSI_Clock_Bit = 0x2,
};
static inline unsigned RTSI_Output_Bit(unsigned channel, int is_mseries)
{
	unsigned max_channel;
	unsigned base_bit_shift;
	if (is_mseries) {
		base_bit_shift = 8;
		max_channel = 7;
	} else {
		base_bit_shift = 9;
		max_channel = 6;
	}
	if (channel > max_channel) {
		printk("%s: bug, invalid RTSI_channel=%i\n", __func__,
			channel);
		return 0;
	}
	return 1 << (base_bit_shift + channel);
}

#define Interrupt_Control_Register	59
#define Interrupt_B_Enable			_bit15
#define Interrupt_B_Output_Select(x)		((x)<<12)
#define Interrupt_A_Enable			_bit11
#define Interrupt_A_Output_Select(x)		((x)<<8)
#define Pass_Thru_0_Interrupt_Polarity		_bit3
#define Pass_Thru_1_Interrupt_Polarity		_bit2
#define Interrupt_Output_On_3_Pins		_bit1
#define Interrupt_Output_Polarity		_bit0

#define AI_Output_Control_Register	60
#define AI_START_Output_Select			_bit10
#define AI_SCAN_IN_PROG_Output_Select(x)	(((x) & 0x3) << 8)
#define AI_EXTMUX_CLK_Output_Select(x)		(((x) & 0x3) << 6)
#define AI_LOCALMUX_CLK_Output_Select(x)	((x)<<4)
#define AI_SC_TC_Output_Select(x)		((x)<<2)
enum ai_convert_output_selection {
	AI_CONVERT_Output_High_Z = 0,
	AI_CONVERT_Output_Ground = 1,
	AI_CONVERT_Output_Enable_Low = 2,
	AI_CONVERT_Output_Enable_High = 3
};
static unsigned AI_CONVERT_Output_Select(enum ai_convert_output_selection
	selection)
{
	return selection & 0x3;
}

#define AI_START_STOP_Select_Register	62
#define AI_START_Polarity			_bit15
#define AI_STOP_Polarity			_bit14
#define AI_STOP_Sync				_bit13
#define AI_STOP_Edge				_bit12
#define AI_STOP_Select(a)			(((a) & 0x1f)<<7)
#define AI_START_Sync				_bit6
#define AI_START_Edge				_bit5
#define AI_START_Select(a)			((a) & 0x1f)

#define AI_Trigger_Select_Register	63
#define AI_START1_Polarity			_bit15
#define AI_START2_Polarity			_bit14
#define AI_START2_Sync				_bit13
#define AI_START2_Edge				_bit12
#define AI_START2_Select(a)			(((a) & 0x1f) << 7)
#define AI_START1_Sync				_bit6
#define AI_START1_Edge				_bit5
#define AI_START1_Select(a)			((a) & 0x1f)

#define AI_DIV_Load_A_Register	64

#define AO_Start_Select_Register	66
#define AO_UI2_Software_Gate			_bit15
#define AO_UI2_External_Gate_Polarity		_bit14
#define AO_START_Polarity			_bit13
#define AO_AOFREQ_Enable			_bit12
#define AO_UI2_External_Gate_Select(a)		(((a) & 0x1f) << 7)
#define AO_START_Sync				_bit6
#define AO_START_Edge				_bit5
#define AO_START_Select(a)			((a) & 0x1f)

#define AO_Trigger_Select_Register	67
#define AO_UI2_External_Gate_Enable		_bit15
#define AO_Delayed_START1			_bit14
#define AO_START1_Polarity			_bit13
#define AO_UI2_Source_Polarity			_bit12
#define AO_UI2_Source_Select(x)			(((x)&0x1f)<<7)
#define AO_START1_Sync				_bit6
#define AO_START1_Edge				_bit5
#define AO_START1_Select(x)			(((x)&0x1f)<<0)

#define AO_Mode_3_Register		70
#define AO_UI2_Switch_Load_Next_TC		_bit13
#define AO_UC_Switch_Load_Every_BC_TC		_bit12
#define AO_Trigger_Length			_bit11
#define AO_Stop_On_Overrun_Error		_bit5
#define AO_Stop_On_BC_TC_Trigger_Error		_bit4
#define AO_Stop_On_BC_TC_Error			_bit3
#define AO_Not_An_UPDATE			_bit2
#define AO_Software_Gate			_bit1
#define AO_Last_Gate_Disable		_bit0	/* M Series only */

#define Joint_Reset_Register		72
#define Software_Reset			_bit11
#define AO_Configuration_End			_bit9
#define AI_Configuration_End			_bit8
#define AO_Configuration_Start			_bit5
#define AI_Configuration_Start			_bit4
#define G1_Reset				_bit3
#define G0_Reset				_bit2
#define AO_Reset				_bit1
#define AI_Reset				_bit0

#define Interrupt_A_Enable_Register	73
#define Pass_Thru_0_Interrupt_Enable		_bit9
#define G0_Gate_Interrupt_Enable		_bit8
#define AI_FIFO_Interrupt_Enable		_bit7
#define G0_TC_Interrupt_Enable			_bit6
#define AI_Error_Interrupt_Enable		_bit5
#define AI_STOP_Interrupt_Enable		_bit4
#define AI_START_Interrupt_Enable		_bit3
#define AI_START2_Interrupt_Enable		_bit2
#define AI_START1_Interrupt_Enable		_bit1
#define AI_SC_TC_Interrupt_Enable		_bit0

#define Interrupt_B_Enable_Register	75
#define Pass_Thru_1_Interrupt_Enable		_bit11
#define G1_Gate_Interrupt_Enable		_bit10
#define G1_TC_Interrupt_Enable			_bit9
#define AO_FIFO_Interrupt_Enable		_bit8
#define AO_UI2_TC_Interrupt_Enable		_bit7
#define AO_UC_TC_Interrupt_Enable		_bit6
#define AO_Error_Interrupt_Enable		_bit5
#define AO_STOP_Interrupt_Enable		_bit4
#define AO_START_Interrupt_Enable		_bit3
#define AO_UPDATE_Interrupt_Enable		_bit2
#define AO_START1_Interrupt_Enable		_bit1
#define AO_BC_TC_Interrupt_Enable		_bit0

#define Second_IRQ_A_Enable_Register	74
enum Second_IRQ_A_Enable_Bits {
	AI_SC_TC_Second_Irq_Enable = _bit0,
	AI_START1_Second_Irq_Enable = _bit1,
	AI_START2_Second_Irq_Enable = _bit2,
	AI_START_Second_Irq_Enable = _bit3,
	AI_STOP_Second_Irq_Enable = _bit4,
	AI_Error_Second_Irq_Enable = _bit5,
	G0_TC_Second_Irq_Enable = _bit6,
	AI_FIFO_Second_Irq_Enable = _bit7,
	G0_Gate_Second_Irq_Enable = _bit8,
	Pass_Thru_0_Second_Irq_Enable = _bit9
};

#define Second_IRQ_B_Enable_Register	76
enum Second_IRQ_B_Enable_Bits {
	AO_BC_TC_Second_Irq_Enable = _bit0,
	AO_START1_Second_Irq_Enable = _bit1,
	AO_UPDATE_Second_Irq_Enable = _bit2,
	AO_START_Second_Irq_Enable = _bit3,
	AO_STOP_Second_Irq_Enable = _bit4,
	AO_Error_Second_Irq_Enable = _bit5,
	AO_UC_TC_Second_Irq_Enable = _bit6,
	AO_UI2_TC_Second_Irq_Enable = _bit7,
	AO_FIFO_Second_Irq_Enable = _bit8,
	G1_TC_Second_Irq_Enable = _bit9,
	G1_Gate_Second_Irq_Enable = _bit10,
	Pass_Thru_1_Second_Irq_Enable = _bit11
};

#define AI_Personal_Register		77
#define AI_SHIFTIN_Pulse_Width			_bit15
#define AI_EOC_Polarity				_bit14
#define AI_SOC_Polarity				_bit13
#define AI_SHIFTIN_Polarity			_bit12
#define AI_CONVERT_Pulse_Timebase		_bit11
#define AI_CONVERT_Pulse_Width			_bit10
#define AI_CONVERT_Original_Pulse		_bit9
#define AI_FIFO_Flags_Polarity			_bit8
#define AI_Overrun_Mode				_bit7
#define AI_EXTMUX_CLK_Pulse_Width		_bit6
#define AI_LOCALMUX_CLK_Pulse_Width		_bit5
#define AI_AIFREQ_Polarity			_bit4

#define AO_Personal_Register		78
enum AO_Personal_Bits {
	AO_Interval_Buffer_Mode = 1 << 3,
	AO_BC_Source_Select = 1 << 4,
	AO_UPDATE_Pulse_Width = 1 << 5,
	AO_UPDATE_Pulse_Timebase = 1 << 6,
	AO_UPDATE_Original_Pulse = 1 << 7,
	AO_DMA_PIO_Control = 1 << 8,	/* M Series: reserved */
	AO_AOFREQ_Polarity = 1 << 9,	/* M Series: reserved */
	AO_FIFO_Enable = 1 << 10,
	AO_FIFO_Flags_Polarity = 1 << 11,	/* M Series: reserved */
	AO_TMRDACWR_Pulse_Width = 1 << 12,
	AO_Fast_CPU = 1 << 13,	/* M Series: reserved */
	AO_Number_Of_DAC_Packages = 1 << 14,	/*  1 for "single" mode, 0 for "dual" */
	AO_Multiple_DACS_Per_Package = 1 << 15	/*  m-series only */
};
#define	RTSI_Trig_A_Output_Register	79
#define	RTSI_Trig_B_Output_Register	80
enum RTSI_Trig_B_Output_Bits {
	RTSI_Sub_Selection_1_Bit = 0x8000	/*  not for m-series */
};
static inline unsigned RTSI_Trig_Output_Bits(unsigned rtsi_channel,
	unsigned source)
{
	return (source & 0xf) << ((rtsi_channel % 4) * 4);
};
static inline unsigned RTSI_Trig_Output_Mask(unsigned rtsi_channel)
{
	return 0xf << ((rtsi_channel % 4) * 4);
};

/* inverse to RTSI_Trig_Output_Bits() */
static inline unsigned RTSI_Trig_Output_Source(unsigned rtsi_channel,
	unsigned bits)
{
	return (bits >> ((rtsi_channel % 4) * 4)) & 0xf;
};

#define	RTSI_Board_Register		81
#define Write_Strobe_0_Register		82
#define Write_Strobe_1_Register		83
#define Write_Strobe_2_Register		84
#define Write_Strobe_3_Register		85

#define AO_Output_Control_Register	86
#define AO_External_Gate_Enable			_bit15
#define AO_External_Gate_Select(x)		(((x)&0x1f)<<10)
#define AO_Number_Of_Channels(x)		(((x)&0xf)<<6)
#define AO_UPDATE2_Output_Select(x)		(((x)&0x3)<<4)
#define AO_External_Gate_Polarity		_bit3
#define AO_UPDATE2_Output_Toggle		_bit2
enum ao_update_output_selection {
	AO_Update_Output_High_Z = 0,
	AO_Update_Output_Ground = 1,
	AO_Update_Output_Enable_Low = 2,
	AO_Update_Output_Enable_High = 3
};
static unsigned AO_UPDATE_Output_Select(enum ao_update_output_selection
	selection)
{
	return selection & 0x3;
}

#define AI_Mode_3_Register		87
#define AI_Trigger_Length			_bit15
#define AI_Delay_START				_bit14
#define AI_Software_Gate			_bit13
#define AI_SI_Special_Trigger_Delay		_bit12
#define AI_SI2_Source_Select			_bit11
#define AI_Delayed_START2			_bit10
#define AI_Delayed_START1			_bit9
#define AI_External_Gate_Mode			_bit8
#define AI_FIFO_Mode_HF_to_E			(3<<6)
#define AI_FIFO_Mode_F				(2<<6)
#define AI_FIFO_Mode_HF				(1<<6)
#define AI_FIFO_Mode_NE				(0<<6)
#define AI_External_Gate_Polarity		_bit5
#define AI_External_Gate_Select(a)		((a) & 0x1f)

#define G_Autoincrement_Register(a)	(68+(a))
#define G_Command_Register(a)		(6+(a))
#define G_HW_Save_Register(a)		(8+(a)*2)
#define G_HW_Save_Register_High(a)	(8+(a)*2)
#define G_HW_Save_Register_Low(a)	(9+(a)*2)
#define G_Input_Select_Register(a)	(36+(a))
#define G_Load_A_Register(a)		(28+(a)*4)
#define G_Load_A_Register_High(a)	(28+(a)*4)
#define G_Load_A_Register_Low(a)	(29+(a)*4)
#define G_Load_B_Register(a)		(30+(a)*4)
#define G_Load_B_Register_High(a)	(30+(a)*4)
#define G_Load_B_Register_Low(a)	(31+(a)*4)
#define G_Mode_Register(a)		(26+(a))
#define G_Save_Register(a)		(12+(a)*2)
#define G_Save_Register_High(a)		(12+(a)*2)
#define G_Save_Register_Low(a)		(13+(a)*2)
#define G_Status_Register		4
#define Analog_Trigger_Etc_Register	61

/* command register */
#define G_Disarm_Copy			_bit15	/* strobe */
#define G_Save_Trace_Copy		_bit14
#define G_Arm_Copy			_bit13	/* strobe */
#define G_Bank_Switch_Start		_bit10	/* strobe */
#define G_Little_Big_Endian		_bit9
#define G_Synchronized_Gate		_bit8
#define G_Write_Switch			_bit7
#define G_Up_Down(a)			(((a)&0x03)<<5)
#define G_Disarm			_bit4	/* strobe */
#define G_Analog_Trigger_Reset		_bit3	/* strobe */
#define G_Save_Trace			_bit1
#define G_Arm				_bit0	/* strobe */

/*channel agnostic names for the command register #defines */
#define G_Bank_Switch_Enable		_bit12
#define G_Bank_Switch_Mode		_bit11
#define G_Load				_bit2	/* strobe */

/* input select register */
#define G_Gate_Select(a)		(((a)&0x1f)<<7)
#define G_Source_Select(a)		(((a)&0x1f)<<2)
#define G_Write_Acknowledges_Irq	_bit1
#define G_Read_Acknowledges_Irq		_bit0

/* same input select register, but with channel agnostic names */
#define G_Source_Polarity		_bit15
#define G_Output_Polarity		_bit14
#define G_OR_Gate			_bit13
#define G_Gate_Select_Load_Source	_bit12

/* mode register */
#define G_Loading_On_TC			_bit12
#define G_Output_Mode(a)		(((a)&0x03)<<8)
#define G_Trigger_Mode_For_Edge_Gate(a)	(((a)&0x03)<<3)
#define G_Gating_Mode(a)		(((a)&0x03)<<0)

/* same input mode register, but with channel agnostic names */
#define G_Load_Source_Select		_bit7
#define G_Reload_Source_Switching	_bit15
#define G_Loading_On_Gate		_bit14
#define G_Gate_Polarity 		_bit13

#define G_Counting_Once(a)		(((a)&0x03)<<10)
#define G_Stop_Mode(a)			(((a)&0x03)<<5)
#define G_Gate_On_Both_Edges		_bit2

/* G_Status_Register */
#define G1_Gate_Error_St		_bit15
#define G0_Gate_Error_St		_bit14
#define G1_TC_Error_St			_bit13
#define G0_TC_Error_St			_bit12
#define G1_No_Load_Between_Gates_St	_bit11
#define G0_No_Load_Between_Gates_St	_bit10
#define G1_Armed_St			_bit9
#define G0_Armed_St			_bit8
#define G1_Stale_Data_St		_bit7
#define G0_Stale_Data_St		_bit6
#define G1_Next_Load_Source_St		_bit5
#define G0_Next_Load_Source_St		_bit4
#define G1_Counting_St			_bit3
#define G0_Counting_St			_bit2
#define G1_Save_St			_bit1
#define G0_Save_St			_bit0

/* general purpose counter timer */
#define G_Autoincrement(a)              ((a)<<0)

/*Analog_Trigger_Etc_Register*/
#define Analog_Trigger_Mode(x) ((x) & 0x7)
#define Analog_Trigger_Enable _bit3
#define Analog_Trigger_Drive _bit4
#define GPFO_1_Output_Select		_bit7
#define GPFO_0_Output_Select(a)		((a)<<11)
#define GPFO_0_Output_Enable		_bit14
#define GPFO_1_Output_Enable		_bit15

/* Additional windowed registers unique to E series */

/* 16 bit registers shadowed from DAQ-STC */
#define Window_Address			0x00
#define Window_Data			0x02

#define Configuration_Memory_Clear	82
#define ADC_FIFO_Clear			83
#define DAC_FIFO_Clear			84

/* i/o port offsets */

/* 8 bit registers */
#define XXX_Status			0x01
enum XXX_Status_Bits {
	PROMOUT = 0x1,
	AI_FIFO_LOWER_NOT_EMPTY = 0x8,
};
#define Serial_Command			0x0d
#define Misc_Command			0x0f
#define Port_A				0x19
#define Port_B				0x1b
#define Port_C				0x1d
#define Configuration			0x1f
#define Strobes				0x01
#define Channel_A_Mode			0x03
#define Channel_B_Mode			0x05
#define Channel_C_Mode			0x07
#define AI_AO_Select			0x09
enum AI_AO_Select_Bits {
	AI_DMA_Select_Shift = 0,
	AI_DMA_Select_Mask = 0xf,
	AO_DMA_Select_Shift = 4,
	AO_DMA_Select_Mask = 0xf << AO_DMA_Select_Shift
};
#define G0_G1_Select			0x0b
static inline unsigned ni_stc_dma_channel_select_bitfield(unsigned channel)
{
	if (channel < 4)
		return 1 << channel;
	if (channel == 4)
		return 0x3;
	if (channel == 5)
		return 0x5;
	BUG();
	return 0;
}
static inline unsigned GPCT_DMA_Select_Bits(unsigned gpct_index,
	unsigned mite_channel)
{
	BUG_ON(gpct_index > 1);
	return ni_stc_dma_channel_select_bitfield(mite_channel) << (4 *
		gpct_index);
}
static inline unsigned GPCT_DMA_Select_Mask(unsigned gpct_index)
{
	BUG_ON(gpct_index > 1);
	return 0xf << (4 * gpct_index);
}

/* 16 bit registers */

#define Configuration_Memory_Low	0x10
enum Configuration_Memory_Low_Bits {
	AI_DITHER = 0x200,
	AI_LAST_CHANNEL = 0x8000,
};
#define Configuration_Memory_High	0x12
enum Configuration_Memory_High_Bits {
	AI_AC_COUPLE = 0x800,
	AI_DIFFERENTIAL = 0x1000,
	AI_COMMON = 0x2000,
	AI_GROUND = 0x3000,
};
static inline unsigned int AI_CONFIG_CHANNEL(unsigned int channel)
{
	return channel & 0x3f;
}

#define ADC_FIFO_Data_Register		0x1c

#define AO_Configuration		0x16
#define AO_Bipolar		_bit0
#define AO_Deglitch		_bit1
#define AO_Ext_Ref		_bit2
#define AO_Ground_Ref		_bit3
#define AO_Channel(x)		((x) << 8)

#define DAC_FIFO_Data			0x1e
#define DAC0_Direct_Data		0x18
#define DAC1_Direct_Data		0x1a

/* 611x registers (these boards differ from the e-series) */

#define Magic_611x			0x19	/* w8 (new) */
#define Calibration_Channel_Select_611x	0x1a	/* w16 (new) */
#define ADC_FIFO_Data_611x		0x1c	/* r32 (incompatible) */
#define AI_FIFO_Offset_Load_611x	0x05	/* r8 (new) */
#define DAC_FIFO_Data_611x		0x14	/* w32 (incompatible) */
#define Cal_Gain_Select_611x		0x05	/* w8 (new) */

#define AO_Window_Address_611x		0x18
#define AO_Window_Data_611x		0x1e

/* 6143 registers */
#define Magic_6143			0x19	/* w8 */
#define G0G1_DMA_Select_6143		0x0B	/* w8 */
#define PipelineDelay_6143		0x1f	/* w8 */
#define EOC_Set_6143			0x1D	/* w8 */
#define AIDMA_Select_6143		0x09	/* w8 */
#define AIFIFO_Data_6143		0x8C	/* w32 */
#define AIFIFO_Flag_6143		0x84	/* w32 */
#define AIFIFO_Control_6143		0x88	/* w32 */
#define AIFIFO_Status_6143		0x88	/* w32 */
#define AIFIFO_DMAThreshold_6143	0x90	/* w32 */
#define AIFIFO_Words_Available_6143	0x94	/* w32 */

#define Calibration_Channel_6143	0x42	/* w16 */
#define Calibration_LowTime_6143	0x20	/* w16 */
#define Calibration_HighTime_6143	0x22	/* w16 */
#define Relay_Counter_Load_Val__6143	0x4C	/* w32 */
#define Signature_6143			0x50	/* w32 */
#define Release_Date_6143		0x54	/* w32 */
#define Release_Oldest_Date_6143	0x58	/* w32 */

#define Calibration_Channel_6143_RelayOn	0x8000	/* Calibration relay switch On */
#define Calibration_Channel_6143_RelayOff	0x4000	/* Calibration relay switch Off */
#define Calibration_Channel_Gnd_Gnd	0x00	/* Offset Calibration */
#define Calibration_Channel_2v5_Gnd	0x02	/* 2.5V Reference */
#define Calibration_Channel_Pwm_Gnd	0x05	/* +/- 5V Self Cal */
#define Calibration_Channel_2v5_Pwm	0x0a	/* PWM Calibration */
#define Calibration_Channel_Pwm_Pwm	0x0d	/* CMRR */
#define Calibration_Channel_Gnd_Pwm	0x0e	/* PWM Calibration */

/* 671x, 611x registers */

/* 671xi, 611x windowed ao registers */
enum windowed_regs_67xx_61xx {
	AO_Immediate_671x = 0x11,	/* W 16 */
	AO_Timed_611x = 0x10,	/* W 16 */
	AO_FIFO_Offset_Load_611x = 0x13,	/* W32 */
	AO_Later_Single_Point_Updates = 0x14,	/* W 16 */
	AO_Waveform_Generation_611x = 0x15,	/* W 16 */
	AO_Misc_611x = 0x16,	/* W 16 */
	AO_Calibration_Channel_Select_67xx = 0x17,	/* W 16 */
	AO_Configuration_2_67xx = 0x18,	/* W 16 */
	CAL_ADC_Command_67xx = 0x19,	/* W 8 */
	CAL_ADC_Status_67xx = 0x1a,	/* R 8 */
	CAL_ADC_Data_67xx = 0x1b,	/* R 16 */
	CAL_ADC_Config_Data_High_Word_67xx = 0x1c,	/* RW 16 */
	CAL_ADC_Config_Data_Low_Word_67xx = 0x1d,	/* RW 16 */
};
static inline unsigned int DACx_Direct_Data_671x(int channel)
{
	return channel;
}
enum AO_Misc_611x_Bits {
	CLEAR_WG = 1,
};
enum cs5529_configuration_bits {
	CSCFG_CAL_CONTROL_MASK = 0x7,
	CSCFG_SELF_CAL_OFFSET = 0x1,
	CSCFG_SELF_CAL_GAIN = 0x2,
	CSCFG_SELF_CAL_OFFSET_GAIN = 0x3,
	CSCFG_SYSTEM_CAL_OFFSET = 0x5,
	CSCFG_SYSTEM_CAL_GAIN = 0x6,
	CSCFG_DONE = 1 << 3,
	CSCFG_POWER_SAVE_SELECT = 1 << 4,
	CSCFG_PORT_MODE = 1 << 5,
	CSCFG_RESET_VALID = 1 << 6,
	CSCFG_RESET = 1 << 7,
	CSCFG_UNIPOLAR = 1 << 12,
	CSCFG_WORD_RATE_2180_CYCLES = 0x0 << 13,
	CSCFG_WORD_RATE_1092_CYCLES = 0x1 << 13,
	CSCFG_WORD_RATE_532_CYCLES = 0x2 << 13,
	CSCFG_WORD_RATE_388_CYCLES = 0x3 << 13,
	CSCFG_WORD_RATE_324_CYCLES = 0x4 << 13,
	CSCFG_WORD_RATE_17444_CYCLES = 0x5 << 13,
	CSCFG_WORD_RATE_8724_CYCLES = 0x6 << 13,
	CSCFG_WORD_RATE_4364_CYCLES = 0x7 << 13,
	CSCFG_WORD_RATE_MASK = 0x7 << 13,
	CSCFG_LOW_POWER = 1 << 16,
};
static inline unsigned int CS5529_CONFIG_DOUT(int output)
{
	return 1 << (18 + output);
}
static inline unsigned int CS5529_CONFIG_AOUT(int output)
{
	return 1 << (22 + output);
}
enum cs5529_command_bits {
	CSCMD_POWER_SAVE = 0x1,
	CSCMD_REGISTER_SELECT_MASK = 0xe,
	CSCMD_OFFSET_REGISTER = 0x0,
	CSCMD_GAIN_REGISTER = 0x2,
	CSCMD_CONFIG_REGISTER = 0x4,
	CSCMD_READ = 0x10,
	CSCMD_CONTINUOUS_CONVERSIONS = 0x20,
	CSCMD_SINGLE_CONVERSION = 0x40,
	CSCMD_COMMAND = 0x80,
};
enum cs5529_status_bits {
	CSS_ADC_BUSY = 0x1,
	CSS_OSC_DETECT = 0x2,	/* indicates adc error */
	CSS_OVERRANGE = 0x4,
};
#define SerDacLd(x)			(0x08<<(x))

/*
	This is stuff unique to the NI E series drivers,
	but I thought I'd put it here anyway.
*/

enum { ai_gain_16 =
		0, ai_gain_8, ai_gain_14, ai_gain_4, ai_gain_611x, ai_gain_622x,
		ai_gain_628x, ai_gain_6143 };
enum caldac_enum { caldac_none = 0, mb88341, dac8800, dac8043, ad8522,
	ad8804, ad8842, ad8804_debug
};
enum ni_reg_type {
	ni_reg_normal = 0x0,
	ni_reg_611x = 0x1,
	ni_reg_6711 = 0x2,
	ni_reg_6713 = 0x4,
	ni_reg_67xx_mask = 0x6,
	ni_reg_6xxx_mask = 0x7,
	ni_reg_622x = 0x8,
	ni_reg_625x = 0x10,
	ni_reg_628x = 0x18,
	ni_reg_m_series_mask = 0x18,
	ni_reg_6143 = 0x20
};

static const struct comedi_lrange range_ni_E_ao_ext;

enum m_series_register_offsets {
	M_Offset_CDIO_DMA_Select = 0x7,	/*  write */
	M_Offset_SCXI_Status = 0x7,	/*  read */
	M_Offset_AI_AO_Select = 0x9,	/*  write, same offset as e-series */
	M_Offset_SCXI_Serial_Data_In = 0x9,	/*  read */
	M_Offset_G0_G1_Select = 0xb,	/*  write, same offset as e-series */
	M_Offset_Misc_Command = 0xf,
	M_Offset_SCXI_Serial_Data_Out = 0x11,
	M_Offset_SCXI_Control = 0x13,
	M_Offset_SCXI_Output_Enable = 0x15,
	M_Offset_AI_FIFO_Data = 0x1c,
	M_Offset_Static_Digital_Output = 0x24,	/*  write */
	M_Offset_Static_Digital_Input = 0x24,	/*  read */
	M_Offset_DIO_Direction = 0x28,
	M_Offset_Cal_PWM = 0x40,
	M_Offset_AI_Config_FIFO_Data = 0x5e,
	M_Offset_Interrupt_C_Enable = 0x88,	/*  write */
	M_Offset_Interrupt_C_Status = 0x88,	/*  read */
	M_Offset_Analog_Trigger_Control = 0x8c,
	M_Offset_AO_Serial_Interrupt_Enable = 0xa0,
	M_Offset_AO_Serial_Interrupt_Ack = 0xa1,	/*  write */
	M_Offset_AO_Serial_Interrupt_Status = 0xa1,	/*  read */
	M_Offset_AO_Calibration = 0xa3,
	M_Offset_AO_FIFO_Data = 0xa4,
	M_Offset_PFI_Filter = 0xb0,
	M_Offset_RTSI_Filter = 0xb4,
	M_Offset_SCXI_Legacy_Compatibility = 0xbc,
	M_Offset_Interrupt_A_Ack = 0x104,	/*  write */
	M_Offset_AI_Status_1 = 0x104,	/*  read */
	M_Offset_Interrupt_B_Ack = 0x106,	/*  write */
	M_Offset_AO_Status_1 = 0x106,	/*  read */
	M_Offset_AI_Command_2 = 0x108,	/*  write */
	M_Offset_G01_Status = 0x108,	/*  read */
	M_Offset_AO_Command_2 = 0x10a,
	M_Offset_AO_Status_2 = 0x10c,	/*  read */
	M_Offset_G0_Command = 0x10c,	/*  write */
	M_Offset_G1_Command = 0x10e,	/*  write */
	M_Offset_G0_HW_Save = 0x110,
	M_Offset_G0_HW_Save_High = 0x110,
	M_Offset_AI_Command_1 = 0x110,
	M_Offset_G0_HW_Save_Low = 0x112,
	M_Offset_AO_Command_1 = 0x112,
	M_Offset_G1_HW_Save = 0x114,
	M_Offset_G1_HW_Save_High = 0x114,
	M_Offset_G1_HW_Save_Low = 0x116,
	M_Offset_AI_Mode_1 = 0x118,
	M_Offset_G0_Save = 0x118,
	M_Offset_G0_Save_High = 0x118,
	M_Offset_AI_Mode_2 = 0x11a,
	M_Offset_G0_Save_Low = 0x11a,
	M_Offset_AI_SI_Load_A = 0x11c,
	M_Offset_G1_Save = 0x11c,
	M_Offset_G1_Save_High = 0x11c,
	M_Offset_G1_Save_Low = 0x11e,
	M_Offset_AI_SI_Load_B = 0x120,	/*  write */
	M_Offset_AO_UI_Save = 0x120,	/*  read */
	M_Offset_AI_SC_Load_A = 0x124,	/*  write */
	M_Offset_AO_BC_Save = 0x124,	/*  read */
	M_Offset_AI_SC_Load_B = 0x128,	/*  write */
	M_Offset_AO_UC_Save = 0x128,	/* read */
	M_Offset_AI_SI2_Load_A = 0x12c,
	M_Offset_AI_SI2_Load_B = 0x130,
	M_Offset_G0_Mode = 0x134,
	M_Offset_G1_Mode = 0x136,	/*  write */
	M_Offset_Joint_Status_1 = 0x136,	/*  read */
	M_Offset_G0_Load_A = 0x138,
	M_Offset_Joint_Status_2 = 0x13a,
	M_Offset_G0_Load_B = 0x13c,
	M_Offset_G1_Load_A = 0x140,
	M_Offset_G1_Load_B = 0x144,
	M_Offset_G0_Input_Select = 0x148,
	M_Offset_G1_Input_Select = 0x14a,
	M_Offset_AO_Mode_1 = 0x14c,
	M_Offset_AO_Mode_2 = 0x14e,
	M_Offset_AO_UI_Load_A = 0x150,
	M_Offset_AO_UI_Load_B = 0x154,
	M_Offset_AO_BC_Load_A = 0x158,
	M_Offset_AO_BC_Load_B = 0x15c,
	M_Offset_AO_UC_Load_A = 0x160,
	M_Offset_AO_UC_Load_B = 0x164,
	M_Offset_Clock_and_FOUT = 0x170,
	M_Offset_IO_Bidirection_Pin = 0x172,
	M_Offset_RTSI_Trig_Direction = 0x174,
	M_Offset_Interrupt_Control = 0x176,
	M_Offset_AI_Output_Control = 0x178,
	M_Offset_Analog_Trigger_Etc = 0x17a,
	M_Offset_AI_START_STOP_Select = 0x17c,
	M_Offset_AI_Trigger_Select = 0x17e,
	M_Offset_AI_SI_Save = 0x180,	/*  read */
	M_Offset_AI_DIV_Load_A = 0x180,	/*  write */
	M_Offset_AI_SC_Save = 0x184,	/*  read */
	M_Offset_AO_Start_Select = 0x184,	/*  write */
	M_Offset_AO_Trigger_Select = 0x186,
	M_Offset_AO_Mode_3 = 0x18c,
	M_Offset_G0_Autoincrement = 0x188,
	M_Offset_G1_Autoincrement = 0x18a,
	M_Offset_Joint_Reset = 0x190,
	M_Offset_Interrupt_A_Enable = 0x192,
	M_Offset_Interrupt_B_Enable = 0x196,
	M_Offset_AI_Personal = 0x19a,
	M_Offset_AO_Personal = 0x19c,
	M_Offset_RTSI_Trig_A_Output = 0x19e,
	M_Offset_RTSI_Trig_B_Output = 0x1a0,
	M_Offset_RTSI_Shared_MUX = 0x1a2,
	M_Offset_AO_Output_Control = 0x1ac,
	M_Offset_AI_Mode_3 = 0x1ae,
	M_Offset_Configuration_Memory_Clear = 0x1a4,
	M_Offset_AI_FIFO_Clear = 0x1a6,
	M_Offset_AO_FIFO_Clear = 0x1a8,
	M_Offset_G0_Counting_Mode = 0x1b0,
	M_Offset_G1_Counting_Mode = 0x1b2,
	M_Offset_G0_Second_Gate = 0x1b4,
	M_Offset_G1_Second_Gate = 0x1b6,
	M_Offset_G0_DMA_Config = 0x1b8,	/*  write */
	M_Offset_G0_DMA_Status = 0x1b8,	/*  read */
	M_Offset_G1_DMA_Config = 0x1ba,	/*  write */
	M_Offset_G1_DMA_Status = 0x1ba,	/*  read */
	M_Offset_G0_MSeries_ABZ = 0x1c0,
	M_Offset_G1_MSeries_ABZ = 0x1c2,
	M_Offset_Clock_and_Fout2 = 0x1c4,
	M_Offset_PLL_Control = 0x1c6,
	M_Offset_PLL_Status = 0x1c8,
	M_Offset_PFI_Output_Select_1 = 0x1d0,
	M_Offset_PFI_Output_Select_2 = 0x1d2,
	M_Offset_PFI_Output_Select_3 = 0x1d4,
	M_Offset_PFI_Output_Select_4 = 0x1d6,
	M_Offset_PFI_Output_Select_5 = 0x1d8,
	M_Offset_PFI_Output_Select_6 = 0x1da,
	M_Offset_PFI_DI = 0x1dc,
	M_Offset_PFI_DO = 0x1de,
	M_Offset_AI_Config_FIFO_Bypass = 0x218,
	M_Offset_SCXI_DIO_Enable = 0x21c,
	M_Offset_CDI_FIFO_Data = 0x220,	/*  read */
	M_Offset_CDO_FIFO_Data = 0x220,	/*  write */
	M_Offset_CDIO_Status = 0x224,	/*  read */
	M_Offset_CDIO_Command = 0x224,	/*  write */
	M_Offset_CDI_Mode = 0x228,
	M_Offset_CDO_Mode = 0x22c,
	M_Offset_CDI_Mask_Enable = 0x230,
	M_Offset_CDO_Mask_Enable = 0x234,
};
static inline int M_Offset_AO_Waveform_Order(int channel)
{
	return 0xc2 + 0x4 * channel;
};
static inline int M_Offset_AO_Config_Bank(int channel)
{
	return 0xc3 + 0x4 * channel;
};
static inline int M_Offset_DAC_Direct_Data(int channel)
{
	return 0xc0 + 0x4 * channel;
}
static inline int M_Offset_Gen_PWM(int channel)
{
	return 0x44 + 0x2 * channel;
}
static inline int M_Offset_Static_AI_Control(int i)
{
	int offset[] = {
		0x64,
		0x261,
		0x262,
		0x263,
	};
	if (((unsigned)i) >= ARRAY_SIZE(offset)) {
		printk("%s: invalid channel=%i\n", __func__, i);
		return offset[0];
	}
	return offset[i];
};
static inline int M_Offset_AO_Reference_Attenuation(int channel)
{
	int offset[] = {
		0x264,
		0x265,
		0x266,
		0x267
	};
	if (((unsigned)channel) >= ARRAY_SIZE(offset)) {
		printk("%s: invalid channel=%i\n", __func__, channel);
		return offset[0];
	}
	return offset[channel];
};
static inline unsigned M_Offset_PFI_Output_Select(unsigned n)
{
	if (n < 1 || n > NUM_PFI_OUTPUT_SELECT_REGS) {
		printk("%s: invalid pfi output select register=%i\n",
			__func__, n);
		return M_Offset_PFI_Output_Select_1;
	}
	return M_Offset_PFI_Output_Select_1 + (n - 1) * 2;
}

enum MSeries_AI_Config_FIFO_Data_Bits {
	MSeries_AI_Config_Channel_Type_Mask = 0x7 << 6,
	MSeries_AI_Config_Channel_Type_Calibration_Bits = 0x0,
	MSeries_AI_Config_Channel_Type_Differential_Bits = 0x1 << 6,
	MSeries_AI_Config_Channel_Type_Common_Ref_Bits = 0x2 << 6,
	MSeries_AI_Config_Channel_Type_Ground_Ref_Bits = 0x3 << 6,
	MSeries_AI_Config_Channel_Type_Aux_Bits = 0x5 << 6,
	MSeries_AI_Config_Channel_Type_Ghost_Bits = 0x7 << 6,
	MSeries_AI_Config_Polarity_Bit = 0x1000,	/*  0 for 2's complement encoding */
	MSeries_AI_Config_Dither_Bit = 0x2000,
	MSeries_AI_Config_Last_Channel_Bit = 0x4000,
};
static inline unsigned MSeries_AI_Config_Channel_Bits(unsigned channel)
{
	return channel & 0xf;
}
static inline unsigned MSeries_AI_Config_Bank_Bits(enum ni_reg_type reg_type,
	unsigned channel)
{
	unsigned bits = channel & 0x30;
	if (reg_type == ni_reg_622x) {
		if (channel & 0x40)
			bits |= 0x400;
	}
	return bits;
}
static inline unsigned MSeries_AI_Config_Gain_Bits(unsigned range)
{
	return (range & 0x7) << 9;
}

enum MSeries_Clock_and_Fout2_Bits {
	MSeries_PLL_In_Source_Select_RTSI0_Bits = 0xb,
	MSeries_PLL_In_Source_Select_Star_Trigger_Bits = 0x14,
	MSeries_PLL_In_Source_Select_RTSI7_Bits = 0x1b,
	MSeries_PLL_In_Source_Select_PXI_Clock10 = 0x1d,
	MSeries_PLL_In_Source_Select_Mask = 0x1f,
	MSeries_Timebase1_Select_Bit = 0x20,	/*  use PLL for timebase 1 */
	MSeries_Timebase3_Select_Bit = 0x40,	/*  use PLL for timebase 3 */
	/* use 10MHz instead of 20MHz for RTSI clock frequency.  Appears
	   to have no effect, at least on pxi-6281, which always uses
	   20MHz rtsi clock frequency */
	MSeries_RTSI_10MHz_Bit = 0x80
};
static inline unsigned MSeries_PLL_In_Source_Select_RTSI_Bits(unsigned
	RTSI_channel)
{
	if (RTSI_channel > 7) {
		printk("%s: bug, invalid RTSI_channel=%i\n", __func__,
			RTSI_channel);
		return 0;
	}
	if (RTSI_channel == 7)
		return MSeries_PLL_In_Source_Select_RTSI7_Bits;
	else
		return MSeries_PLL_In_Source_Select_RTSI0_Bits + RTSI_channel;
}

enum MSeries_PLL_Control_Bits {
	MSeries_PLL_Enable_Bit = 0x1000,
	MSeries_PLL_VCO_Mode_200_325MHz_Bits = 0x0,
	MSeries_PLL_VCO_Mode_175_225MHz_Bits = 0x2000,
	MSeries_PLL_VCO_Mode_100_225MHz_Bits = 0x4000,
	MSeries_PLL_VCO_Mode_75_150MHz_Bits = 0x6000,
};
static inline unsigned MSeries_PLL_Divisor_Bits(unsigned divisor)
{
	static const unsigned max_divisor = 0x10;
	if (divisor < 1 || divisor > max_divisor) {
		printk("%s: bug, invalid divisor=%i\n", __func__,
			divisor);
		return 0;
	}
	return (divisor & 0xf) << 8;
}
static inline unsigned MSeries_PLL_Multiplier_Bits(unsigned multiplier)
{
	static const unsigned max_multiplier = 0x100;
	if (multiplier < 1 || multiplier > max_multiplier) {
		printk("%s: bug, invalid multiplier=%i\n", __func__,
			multiplier);
		return 0;
	}
	return multiplier & 0xff;
}

enum MSeries_PLL_Status {
	MSeries_PLL_Locked_Bit = 0x1
};

enum MSeries_AI_Config_FIFO_Bypass_Bits {
	MSeries_AI_Bypass_Channel_Mask = 0x7,
	MSeries_AI_Bypass_Bank_Mask = 0x78,
	MSeries_AI_Bypass_Cal_Sel_Pos_Mask = 0x380,
	MSeries_AI_Bypass_Cal_Sel_Neg_Mask = 0x1c00,
	MSeries_AI_Bypass_Mode_Mux_Mask = 0x6000,
	MSeries_AO_Bypass_AO_Cal_Sel_Mask = 0x38000,
	MSeries_AI_Bypass_Gain_Mask = 0x1c0000,
	MSeries_AI_Bypass_Dither_Bit = 0x200000,
	MSeries_AI_Bypass_Polarity_Bit = 0x400000,	/*  0 for 2's complement encoding */
	MSeries_AI_Bypass_Config_FIFO_Bit = 0x80000000
};
static inline unsigned MSeries_AI_Bypass_Cal_Sel_Pos_Bits(int
	calibration_source)
{
	return (calibration_source << 7) & MSeries_AI_Bypass_Cal_Sel_Pos_Mask;
}
static inline unsigned MSeries_AI_Bypass_Cal_Sel_Neg_Bits(int
	calibration_source)
{
	return (calibration_source << 10) & MSeries_AI_Bypass_Cal_Sel_Pos_Mask;
}
static inline unsigned MSeries_AI_Bypass_Gain_Bits(int gain)
{
	return (gain << 18) & MSeries_AI_Bypass_Gain_Mask;
}

enum MSeries_AO_Config_Bank_Bits {
	MSeries_AO_DAC_Offset_Select_Mask = 0x7,
	MSeries_AO_DAC_Offset_0V_Bits = 0x0,
	MSeries_AO_DAC_Offset_5V_Bits = 0x1,
	MSeries_AO_DAC_Reference_Mask = 0x38,
	MSeries_AO_DAC_Reference_10V_Internal_Bits = 0x0,
	MSeries_AO_DAC_Reference_5V_Internal_Bits = 0x8,
	MSeries_AO_Update_Timed_Bit = 0x40,
	MSeries_AO_Bipolar_Bit = 0x80	/*  turns on 2's complement encoding */
};

enum MSeries_AO_Reference_Attenuation_Bits {
	MSeries_Attenuate_x5_Bit = 0x1
};

static inline unsigned MSeries_Cal_PWM_High_Time_Bits(unsigned count)
{
	return (count << 16) & 0xffff0000;
}

static inline unsigned MSeries_Cal_PWM_Low_Time_Bits(unsigned count)
{
	return count & 0xffff;
}

static inline unsigned MSeries_PFI_Output_Select_Mask(unsigned channel)
{
	return 0x1f << (channel % 3) * 5;
};
static inline unsigned MSeries_PFI_Output_Select_Bits(unsigned channel,
	unsigned source)
{
	return (source & 0x1f) << ((channel % 3) * 5);
};

/* inverse to MSeries_PFI_Output_Select_Bits */
static inline unsigned MSeries_PFI_Output_Select_Source(unsigned channel,
	unsigned bits)
{
	return (bits >> ((channel % 3) * 5)) & 0x1f;
};

enum MSeries_Gi_DMA_Config_Bits {
	Gi_DMA_BankSW_Error_Bit = 0x10,
	Gi_DMA_Reset_Bit = 0x8,
	Gi_DMA_Int_Enable_Bit = 0x4,
	Gi_DMA_Write_Bit = 0x2,
	Gi_DMA_Enable_Bit = 0x1,
};

static inline unsigned MSeries_PFI_Filter_Select_Mask(unsigned channel)
{
	return 0x3 << (channel * 2);
}
static inline unsigned MSeries_PFI_Filter_Select_Bits(unsigned channel,
	unsigned filter)
{
	return (filter << (channel *
			2)) & MSeries_PFI_Filter_Select_Mask(channel);
}

enum CDIO_DMA_Select_Bits {
	CDI_DMA_Select_Shift = 0,
	CDI_DMA_Select_Mask = 0xf,
	CDO_DMA_Select_Shift = 4,
	CDO_DMA_Select_Mask = 0xf << CDO_DMA_Select_Shift
};

enum CDIO_Status_Bits {
	CDO_FIFO_Empty_Bit = 0x1,
	CDO_FIFO_Full_Bit = 0x2,
	CDO_FIFO_Request_Bit = 0x4,
	CDO_Overrun_Bit = 0x8,
	CDO_Underflow_Bit = 0x10,
	CDI_FIFO_Empty_Bit = 0x10000,
	CDI_FIFO_Full_Bit = 0x20000,
	CDI_FIFO_Request_Bit = 0x40000,
	CDI_Overrun_Bit = 0x80000,
	CDI_Overflow_Bit = 0x100000
};

enum CDIO_Command_Bits {
	CDO_Disarm_Bit = 0x1,
	CDO_Arm_Bit = 0x2,
	CDI_Disarm_Bit = 0x4,
	CDI_Arm_Bit = 0x8,
	CDO_Reset_Bit = 0x10,
	CDI_Reset_Bit = 0x20,
	CDO_Error_Interrupt_Enable_Set_Bit = 0x40,
	CDO_Error_Interrupt_Enable_Clear_Bit = 0x80,
	CDI_Error_Interrupt_Enable_Set_Bit = 0x100,
	CDI_Error_Interrupt_Enable_Clear_Bit = 0x200,
	CDO_FIFO_Request_Interrupt_Enable_Set_Bit = 0x400,
	CDO_FIFO_Request_Interrupt_Enable_Clear_Bit = 0x800,
	CDI_FIFO_Request_Interrupt_Enable_Set_Bit = 0x1000,
	CDI_FIFO_Request_Interrupt_Enable_Clear_Bit = 0x2000,
	CDO_Error_Interrupt_Confirm_Bit = 0x4000,
	CDI_Error_Interrupt_Confirm_Bit = 0x8000,
	CDO_Empty_FIFO_Interrupt_Enable_Set_Bit = 0x10000,
	CDO_Empty_FIFO_Interrupt_Enable_Clear_Bit = 0x20000,
	CDO_SW_Update_Bit = 0x80000,
	CDI_SW_Update_Bit = 0x100000
};

enum CDI_Mode_Bits {
	CDI_Sample_Source_Select_Mask = 0x3f,
	CDI_Halt_On_Error_Bit = 0x200,
	CDI_Polarity_Bit = 0x400,	/*  sample clock on falling edge */
	CDI_FIFO_Mode_Bit = 0x800,	/*  set for half full mode, clear for not empty mode */
	CDI_Data_Lane_Mask = 0x3000,	/*  data lanes specify which dio channels map to byte or word accesses to the dio fifos */
	CDI_Data_Lane_0_15_Bits = 0x0,
	CDI_Data_Lane_16_31_Bits = 0x1000,
	CDI_Data_Lane_0_7_Bits = 0x0,
	CDI_Data_Lane_8_15_Bits = 0x1000,
	CDI_Data_Lane_16_23_Bits = 0x2000,
	CDI_Data_Lane_24_31_Bits = 0x3000
};

enum CDO_Mode_Bits {
	CDO_Sample_Source_Select_Mask = 0x3f,
	CDO_Retransmit_Bit = 0x100,
	CDO_Halt_On_Error_Bit = 0x200,
	CDO_Polarity_Bit = 0x400,	/*  sample clock on falling edge */
	CDO_FIFO_Mode_Bit = 0x800,	/*  set for half full mode, clear for not full mode */
	CDO_Data_Lane_Mask = 0x3000,	/*  data lanes specify which dio channels map to byte or word accesses to the dio fifos */
	CDO_Data_Lane_0_15_Bits = 0x0,
	CDO_Data_Lane_16_31_Bits = 0x1000,
	CDO_Data_Lane_0_7_Bits = 0x0,
	CDO_Data_Lane_8_15_Bits = 0x1000,
	CDO_Data_Lane_16_23_Bits = 0x2000,
	CDO_Data_Lane_24_31_Bits = 0x3000
};

enum Interrupt_C_Enable_Bits {
	Interrupt_Group_C_Enable_Bit = 0x1
};

enum Interrupt_C_Status_Bits {
	Interrupt_Group_C_Status_Bit = 0x1
};

#define M_SERIES_EEPROM_SIZE 1024

struct ni_board_struct {
	int device_id;
	int isapnp_id;
	char *name;

	int n_adchan;
	int adbits;

	int ai_fifo_depth;
	unsigned int alwaysdither:1;
	int gainlkup;
	int ai_speed;

	int n_aochan;
	int aobits;
	int ao_fifo_depth;
	const struct comedi_lrange *ao_range_table;
	unsigned ao_speed;

	unsigned num_p0_dio_channels;

	int reg_type;
	unsigned int ao_unipolar:1;
	unsigned int has_8255:1;
	unsigned int has_analog_trig:1;

	enum caldac_enum caldac[3];
};

#define n_ni_boards  (sizeof(ni_boards)/sizeof(struct ni_board_struct))

#define boardtype (*(struct ni_board_struct *)dev->board_ptr)

#define MAX_N_AO_CHAN 8
#define NUM_GPCT 2

#define NI_PRIVATE_COMMON					\
	uint16_t (*stc_readw)(struct comedi_device *dev, int register);	\
	uint32_t (*stc_readl)(struct comedi_device *dev, int register);	\
	void (*stc_writew)(struct comedi_device *dev, uint16_t value, int register);	\
	void (*stc_writel)(struct comedi_device *dev, uint32_t value, int register);	\
	\
	unsigned short dio_output;				\
	unsigned short dio_control;				\
	int ao0p, ao1p;						\
	int lastchan;						\
	int last_do;						\
	int rt_irq;						\
	int irqmask;						\
	int aimode;						\
	int ai_continuous;					\
	int blocksize;						\
	int n_left;						\
	unsigned int ai_calib_source;				\
	unsigned int ai_calib_source_enabled;			\
	spinlock_t window_lock; \
	spinlock_t soft_reg_copy_lock; \
	spinlock_t mite_channel_lock; \
								\
	int changain_state;					\
	unsigned int changain_spec;				\
								\
	unsigned int caldac_maxdata_list[MAX_N_CALDACS];	\
	unsigned short ao[MAX_N_AO_CHAN];					\
	unsigned short caldacs[MAX_N_CALDACS];				\
								\
	unsigned short ai_cmd2;	\
								\
	unsigned short ao_conf[MAX_N_AO_CHAN];				\
	unsigned short ao_mode1;				\
	unsigned short ao_mode2;				\
	unsigned short ao_mode3;				\
	unsigned short ao_cmd1;					\
	unsigned short ao_cmd2;					\
	unsigned short ao_cmd3;					\
	unsigned short ao_trigger_select;			\
								\
	struct ni_gpct_device *counter_dev;	\
	unsigned short an_trig_etc_reg;				\
								\
	unsigned ai_offset[512];				\
								\
	unsigned long serial_interval_ns;                       \
	unsigned char serial_hw_mode;                           \
	unsigned short clock_and_fout;				\
	unsigned short clock_and_fout2;				\
								\
	unsigned short int_a_enable_reg;			\
	unsigned short int_b_enable_reg;			\
	unsigned short io_bidirection_pin_reg;			\
	unsigned short rtsi_trig_direction_reg;			\
	unsigned short rtsi_trig_a_output_reg; \
	unsigned short rtsi_trig_b_output_reg; \
	unsigned short pfi_output_select_reg[NUM_PFI_OUTPUT_SELECT_REGS]; \
	unsigned short ai_ao_select_reg; \
	unsigned short g0_g1_select_reg; \
	unsigned short cdio_dma_select_reg; \
	\
	unsigned clock_ns; \
	unsigned clock_source; \
	\
	unsigned short atrig_mode;				\
	unsigned short atrig_high;				\
	unsigned short atrig_low;				\
	\
	unsigned short pwm_up_count;	\
	unsigned short pwm_down_count;	\
	\
	short ai_fifo_buffer[0x2000];				\
	uint8_t eeprom_buffer[M_SERIES_EEPROM_SIZE]; \
	uint32_t serial_number; \
	\
	struct mite_struct *mite; \
	struct mite_channel *ai_mite_chan; \
	struct mite_channel *ao_mite_chan;\
	struct mite_channel *cdo_mite_chan;\
	struct mite_dma_descriptor_ring *ai_mite_ring; \
	struct mite_dma_descriptor_ring *ao_mite_ring; \
	struct mite_dma_descriptor_ring *cdo_mite_ring; \
	struct mite_dma_descriptor_ring *gpct_mite_ring[NUM_GPCT];

#endif /* _COMEDI_NI_STC_H */