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// SPDX-License-Identifier: GPL-2.0+
/*
* comedi/drivers/amplc_pci230.c
* Driver for Amplicon PCI230 and PCI260 Multifunction I/O boards.
*
* Copyright (C) 2001 Allan Willcox <allanwillcox@ozemail.com.au>
*
* COMEDI - Linux Control and Measurement Device Interface
* Copyright (C) 2000 David A. Schleef <ds@schleef.org>
*/
/*
* Driver: amplc_pci230
* Description: Amplicon PCI230, PCI260 Multifunction I/O boards
* Author: Allan Willcox <allanwillcox@ozemail.com.au>,
* Steve D Sharples <steve.sharples@nottingham.ac.uk>,
* Ian Abbott <abbotti@mev.co.uk>
* Updated: Mon, 01 Sep 2014 10:09:16 +0000
* Devices: [Amplicon] PCI230 (amplc_pci230), PCI230+, PCI260, PCI260+
* Status: works
*
* Configuration options:
* none
*
* Manual configuration of PCI cards is not supported; they are configured
* automatically.
*
* The PCI230+ and PCI260+ have the same PCI device IDs as the PCI230 and
* PCI260, but can be distinguished by the size of the PCI regions. A
* card will be configured as a "+" model if detected as such.
*
* Subdevices:
*
* PCI230(+) PCI260(+)
* --------- ---------
* Subdevices 3 1
* 0 AI AI
* 1 AO
* 2 DIO
*
* AI Subdevice:
*
* The AI subdevice has 16 single-ended channels or 8 differential
* channels.
*
* The PCI230 and PCI260 cards have 12-bit resolution. The PCI230+ and
* PCI260+ cards have 16-bit resolution.
*
* For differential mode, use inputs 2N and 2N+1 for channel N (e.g. use
* inputs 14 and 15 for channel 7). If the card is physically a PCI230
* or PCI260 then it actually uses a "pseudo-differential" mode where the
* inputs are sampled a few microseconds apart. The PCI230+ and PCI260+
* use true differential sampling. Another difference is that if the
* card is physically a PCI230 or PCI260, the inverting input is 2N,
* whereas for a PCI230+ or PCI260+ the inverting input is 2N+1. So if a
* PCI230 is physically replaced by a PCI230+ (or a PCI260 with a
* PCI260+) and differential mode is used, the differential inputs need
* to be physically swapped on the connector.
*
* The following input ranges are supported:
*
* 0 => [-10, +10] V
* 1 => [-5, +5] V
* 2 => [-2.5, +2.5] V
* 3 => [-1.25, +1.25] V
* 4 => [0, 10] V
* 5 => [0, 5] V
* 6 => [0, 2.5] V
*
* AI Commands:
*
* +=========+==============+===========+============+==========+
* |start_src|scan_begin_src|convert_src|scan_end_src| stop_src |
* +=========+==============+===========+============+==========+
* |TRIG_NOW | TRIG_FOLLOW |TRIG_TIMER | TRIG_COUNT |TRIG_NONE |
* |TRIG_INT | |TRIG_EXT(3)| |TRIG_COUNT|
* | | |TRIG_INT | | |
* | |--------------|-----------| | |
* | | TRIG_TIMER(1)|TRIG_TIMER | | |
* | | TRIG_EXT(2) | | | |
* | | TRIG_INT | | | |
* +---------+--------------+-----------+------------+----------+
*
* Note 1: If AI command and AO command are used simultaneously, only
* one may have scan_begin_src == TRIG_TIMER.
*
* Note 2: For PCI230 and PCI230+, scan_begin_src == TRIG_EXT uses
* DIO channel 16 (pin 49) which will need to be configured as
* a digital input. For PCI260+, the EXTTRIG/EXTCONVCLK input
* (pin 17) is used instead. For PCI230, scan_begin_src ==
* TRIG_EXT is not supported. The trigger is a rising edge
* on the input.
*
* Note 3: For convert_src == TRIG_EXT, the EXTTRIG/EXTCONVCLK input
* (pin 25 on PCI230(+), pin 17 on PCI260(+)) is used. The
* convert_arg value is interpreted as follows:
*
* convert_arg == (CR_EDGE | 0) => rising edge
* convert_arg == (CR_EDGE | CR_INVERT | 0) => falling edge
* convert_arg == 0 => falling edge (backwards compatibility)
* convert_arg == 1 => rising edge (backwards compatibility)
*
* All entries in the channel list must use the same analogue reference.
* If the analogue reference is not AREF_DIFF (not differential) each
* pair of channel numbers (0 and 1, 2 and 3, etc.) must use the same
* input range. The input ranges used in the sequence must be all
* bipolar (ranges 0 to 3) or all unipolar (ranges 4 to 6). The channel
* sequence must consist of 1 or more identical subsequences. Within the
* subsequence, channels must be in ascending order with no repeated
* channels. For example, the following sequences are valid: 0 1 2 3
* (single valid subsequence), 0 2 3 5 0 2 3 5 (repeated valid
* subsequence), 1 1 1 1 (repeated valid subsequence). The following
* sequences are invalid: 0 3 2 1 (invalid subsequence), 0 2 3 5 0 2 3
* (incompletely repeated subsequence). Some versions of the PCI230+ and
* PCI260+ have a bug that requires a subsequence longer than one entry
* long to include channel 0.
*
* AO Subdevice:
*
* The AO subdevice has 2 channels with 12-bit resolution.
* The following output ranges are supported:
* 0 => [0, 10] V
* 1 => [-10, +10] V
*
* AO Commands:
*
* +=========+==============+===========+============+==========+
* |start_src|scan_begin_src|convert_src|scan_end_src| stop_src |
* +=========+==============+===========+============+==========+
* |TRIG_INT | TRIG_TIMER(1)| TRIG_NOW | TRIG_COUNT |TRIG_NONE |
* | | TRIG_EXT(2) | | |TRIG_COUNT|
* | | TRIG_INT | | | |
* +---------+--------------+-----------+------------+----------+
*
* Note 1: If AI command and AO command are used simultaneously, only
* one may have scan_begin_src == TRIG_TIMER.
*
* Note 2: scan_begin_src == TRIG_EXT is only supported if the card is
* configured as a PCI230+ and is only supported on later
* versions of the card. As a card configured as a PCI230+ is
* not guaranteed to support external triggering, please consider
* this support to be a bonus. It uses the EXTTRIG/ EXTCONVCLK
* input (PCI230+ pin 25). Triggering will be on the rising edge
* unless the CR_INVERT flag is set in scan_begin_arg.
*
* The channels in the channel sequence must be in ascending order with
* no repeats. All entries in the channel sequence must use the same
* output range.
*
* DIO Subdevice:
*
* The DIO subdevice is a 8255 chip providing 24 DIO channels. The DIO
* channels are configurable as inputs or outputs in four groups:
*
* Port A - channels 0 to 7
* Port B - channels 8 to 15
* Port CL - channels 16 to 19
* Port CH - channels 20 to 23
*
* Only mode 0 of the 8255 chip is supported.
*
* Bit 0 of port C (DIO channel 16) is also used as an external scan
* trigger input for AI commands on PCI230 and PCI230+, so would need to
* be configured as an input to use it for that purpose.
*/
/*
* Extra triggered scan functionality, interrupt bug-fix added by Steve
* Sharples. Support for PCI230+/260+, more triggered scan functionality,
* and workarounds for (or detection of) various hardware problems added
* by Ian Abbott.
*/
#include <linux/module.h>
#include <linux/delay.h>
#include <linux/interrupt.h>
#include <linux/comedi/comedi_pci.h>
#include "comedi_8254.h"
#include "8255.h"
/*
* PCI230 PCI configuration register information
*/
#define PCI_DEVICE_ID_PCI230 0x0000
#define PCI_DEVICE_ID_PCI260 0x0006
/*
* PCI230 i/o space 1 registers.
*/
#define PCI230_PPI_X_BASE 0x00 /* User PPI (82C55) base */
#define PCI230_PPI_X_A 0x00 /* User PPI (82C55) port A */
#define PCI230_PPI_X_B 0x01 /* User PPI (82C55) port B */
#define PCI230_PPI_X_C 0x02 /* User PPI (82C55) port C */
#define PCI230_PPI_X_CMD 0x03 /* User PPI (82C55) control word */
#define PCI230_Z2_CT_BASE 0x14 /* 82C54 counter/timer base */
#define PCI230_ZCLK_SCE 0x1A /* Group Z Clock Configuration */
#define PCI230_ZGAT_SCE 0x1D /* Group Z Gate Configuration */
#define PCI230_INT_SCE 0x1E /* Interrupt source mask (w) */
#define PCI230_INT_STAT 0x1E /* Interrupt status (r) */
/*
* PCI230 i/o space 2 registers.
*/
#define PCI230_DACCON 0x00 /* DAC control */
#define PCI230_DACOUT1 0x02 /* DAC channel 0 (w) */
#define PCI230_DACOUT2 0x04 /* DAC channel 1 (w) (not FIFO mode) */
#define PCI230_ADCDATA 0x08 /* ADC data (r) */
#define PCI230_ADCSWTRIG 0x08 /* ADC software trigger (w) */
#define PCI230_ADCCON 0x0A /* ADC control */
#define PCI230_ADCEN 0x0C /* ADC channel enable bits */
#define PCI230_ADCG 0x0E /* ADC gain control bits */
/* PCI230+ i/o space 2 additional registers. */
#define PCI230P_ADCTRIG 0x10 /* ADC start acquisition trigger */
#define PCI230P_ADCTH 0x12 /* ADC analog trigger threshold */
#define PCI230P_ADCFFTH 0x14 /* ADC FIFO interrupt threshold */
#define PCI230P_ADCFFLEV 0x16 /* ADC FIFO level (r) */
#define PCI230P_ADCPTSC 0x18 /* ADC pre-trigger sample count (r) */
#define PCI230P_ADCHYST 0x1A /* ADC analog trigger hysteresys */
#define PCI230P_EXTFUNC 0x1C /* Extended functions */
#define PCI230P_HWVER 0x1E /* Hardware version (r) */
/* PCI230+ hardware version 2 onwards. */
#define PCI230P2_DACDATA 0x02 /* DAC data (FIFO mode) (w) */
#define PCI230P2_DACSWTRIG 0x02 /* DAC soft trigger (FIFO mode) (r) */
#define PCI230P2_DACEN 0x06 /* DAC channel enable (FIFO mode) */
/*
* DACCON read-write values.
*/
#define PCI230_DAC_OR(x) (((x) & 0x1) << 0)
#define PCI230_DAC_OR_UNI PCI230_DAC_OR(0) /* Output unipolar */
#define PCI230_DAC_OR_BIP PCI230_DAC_OR(1) /* Output bipolar */
#define PCI230_DAC_OR_MASK PCI230_DAC_OR(1)
/*
* The following applies only if DAC FIFO support is enabled in the EXTFUNC
* register (and only for PCI230+ hardware version 2 onwards).
*/
#define PCI230P2_DAC_FIFO_EN BIT(8) /* FIFO enable */
/*
* The following apply only if the DAC FIFO is enabled (and only for PCI230+
* hardware version 2 onwards).
*/
#define PCI230P2_DAC_TRIG(x) (((x) & 0x7) << 2)
#define PCI230P2_DAC_TRIG_NONE PCI230P2_DAC_TRIG(0) /* none */
#define PCI230P2_DAC_TRIG_SW PCI230P2_DAC_TRIG(1) /* soft trig */
#define PCI230P2_DAC_TRIG_EXTP PCI230P2_DAC_TRIG(2) /* ext + edge */
#define PCI230P2_DAC_TRIG_EXTN PCI230P2_DAC_TRIG(3) /* ext - edge */
#define PCI230P2_DAC_TRIG_Z2CT0 PCI230P2_DAC_TRIG(4) /* Z2 CT0 out */
#define PCI230P2_DAC_TRIG_Z2CT1 PCI230P2_DAC_TRIG(5) /* Z2 CT1 out */
#define PCI230P2_DAC_TRIG_Z2CT2 PCI230P2_DAC_TRIG(6) /* Z2 CT2 out */
#define PCI230P2_DAC_TRIG_MASK PCI230P2_DAC_TRIG(7)
#define PCI230P2_DAC_FIFO_WRAP BIT(7) /* FIFO wraparound mode */
#define PCI230P2_DAC_INT_FIFO(x) (((x) & 7) << 9)
#define PCI230P2_DAC_INT_FIFO_EMPTY PCI230P2_DAC_INT_FIFO(0) /* empty */
#define PCI230P2_DAC_INT_FIFO_NEMPTY PCI230P2_DAC_INT_FIFO(1) /* !empty */
#define PCI230P2_DAC_INT_FIFO_NHALF PCI230P2_DAC_INT_FIFO(2) /* !half */
#define PCI230P2_DAC_INT_FIFO_HALF PCI230P2_DAC_INT_FIFO(3) /* half */
#define PCI230P2_DAC_INT_FIFO_NFULL PCI230P2_DAC_INT_FIFO(4) /* !full */
#define PCI230P2_DAC_INT_FIFO_FULL PCI230P2_DAC_INT_FIFO(5) /* full */
#define PCI230P2_DAC_INT_FIFO_MASK PCI230P2_DAC_INT_FIFO(7)
/*
* DACCON read-only values.
*/
#define PCI230_DAC_BUSY BIT(1) /* DAC busy. */
/*
* The following apply only if the DAC FIFO is enabled (and only for PCI230+
* hardware version 2 onwards).
*/
#define PCI230P2_DAC_FIFO_UNDERRUN_LATCHED BIT(5) /* Underrun error */
#define PCI230P2_DAC_FIFO_EMPTY BIT(13) /* FIFO empty */
#define PCI230P2_DAC_FIFO_FULL BIT(14) /* FIFO full */
#define PCI230P2_DAC_FIFO_HALF BIT(15) /* FIFO half full */
/*
* DACCON write-only, transient values.
*/
/*
* The following apply only if the DAC FIFO is enabled (and only for PCI230+
* hardware version 2 onwards).
*/
#define PCI230P2_DAC_FIFO_UNDERRUN_CLEAR BIT(5) /* Clear underrun */
#define PCI230P2_DAC_FIFO_RESET BIT(12) /* FIFO reset */
/*
* PCI230+ hardware version 2 DAC FIFO levels.
*/
#define PCI230P2_DAC_FIFOLEVEL_HALF 512
#define PCI230P2_DAC_FIFOLEVEL_FULL 1024
/* Free space in DAC FIFO. */
#define PCI230P2_DAC_FIFOROOM_EMPTY PCI230P2_DAC_FIFOLEVEL_FULL
#define PCI230P2_DAC_FIFOROOM_ONETOHALF \
(PCI230P2_DAC_FIFOLEVEL_FULL - PCI230P2_DAC_FIFOLEVEL_HALF)
#define PCI230P2_DAC_FIFOROOM_HALFTOFULL 1
#define PCI230P2_DAC_FIFOROOM_FULL 0
/*
* ADCCON read/write values.
*/
#define PCI230_ADC_TRIG(x) (((x) & 0x7) << 0)
#define PCI230_ADC_TRIG_NONE PCI230_ADC_TRIG(0) /* none */
#define PCI230_ADC_TRIG_SW PCI230_ADC_TRIG(1) /* soft trig */
#define PCI230_ADC_TRIG_EXTP PCI230_ADC_TRIG(2) /* ext + edge */
#define PCI230_ADC_TRIG_EXTN PCI230_ADC_TRIG(3) /* ext - edge */
#define PCI230_ADC_TRIG_Z2CT0 PCI230_ADC_TRIG(4) /* Z2 CT0 out*/
#define PCI230_ADC_TRIG_Z2CT1 PCI230_ADC_TRIG(5) /* Z2 CT1 out */
#define PCI230_ADC_TRIG_Z2CT2 PCI230_ADC_TRIG(6) /* Z2 CT2 out */
#define PCI230_ADC_TRIG_MASK PCI230_ADC_TRIG(7)
#define PCI230_ADC_IR(x) (((x) & 0x1) << 3)
#define PCI230_ADC_IR_UNI PCI230_ADC_IR(0) /* Input unipolar */
#define PCI230_ADC_IR_BIP PCI230_ADC_IR(1) /* Input bipolar */
#define PCI230_ADC_IR_MASK PCI230_ADC_IR(1)
#define PCI230_ADC_IM(x) (((x) & 0x1) << 4)
#define PCI230_ADC_IM_SE PCI230_ADC_IM(0) /* single ended */
#define PCI230_ADC_IM_DIF PCI230_ADC_IM(1) /* differential */
#define PCI230_ADC_IM_MASK PCI230_ADC_IM(1)
#define PCI230_ADC_FIFO_EN BIT(8) /* FIFO enable */
#define PCI230_ADC_INT_FIFO(x) (((x) & 0x7) << 9)
#define PCI230_ADC_INT_FIFO_EMPTY PCI230_ADC_INT_FIFO(0) /* empty */
#define PCI230_ADC_INT_FIFO_NEMPTY PCI230_ADC_INT_FIFO(1) /* !empty */
#define PCI230_ADC_INT_FIFO_NHALF PCI230_ADC_INT_FIFO(2) /* !half */
#define PCI230_ADC_INT_FIFO_HALF PCI230_ADC_INT_FIFO(3) /* half */
#define PCI230_ADC_INT_FIFO_NFULL PCI230_ADC_INT_FIFO(4) /* !full */
#define PCI230_ADC_INT_FIFO_FULL PCI230_ADC_INT_FIFO(5) /* full */
#define PCI230P_ADC_INT_FIFO_THRESH PCI230_ADC_INT_FIFO(7) /* threshold */
#define PCI230_ADC_INT_FIFO_MASK PCI230_ADC_INT_FIFO(7)
/*
* ADCCON write-only, transient values.
*/
#define PCI230_ADC_FIFO_RESET BIT(12) /* FIFO reset */
#define PCI230_ADC_GLOB_RESET BIT(13) /* Global reset */
/*
* ADCCON read-only values.
*/
#define PCI230_ADC_BUSY BIT(15) /* ADC busy */
#define PCI230_ADC_FIFO_EMPTY BIT(12) /* FIFO empty */
#define PCI230_ADC_FIFO_FULL BIT(13) /* FIFO full */
#define PCI230_ADC_FIFO_HALF BIT(14) /* FIFO half full */
#define PCI230_ADC_FIFO_FULL_LATCHED BIT(5) /* FIFO overrun occurred */
/*
* PCI230 ADC FIFO levels.
*/
#define PCI230_ADC_FIFOLEVEL_HALFFULL 2049 /* Value for FIFO half full */
#define PCI230_ADC_FIFOLEVEL_FULL 4096 /* FIFO size */
/*
* PCI230+ EXTFUNC values.
*/
/* Route EXTTRIG pin to external gate inputs. */
#define PCI230P_EXTFUNC_GAT_EXTTRIG BIT(0)
/* PCI230+ hardware version 2 values. */
/* Allow DAC FIFO to be enabled. */
#define PCI230P2_EXTFUNC_DACFIFO BIT(1)
/*
* Counter/timer clock input configuration sources.
*/
#define CLK_CLK 0 /* reserved (channel-specific clock) */
#define CLK_10MHZ 1 /* internal 10 MHz clock */
#define CLK_1MHZ 2 /* internal 1 MHz clock */
#define CLK_100KHZ 3 /* internal 100 kHz clock */
#define CLK_10KHZ 4 /* internal 10 kHz clock */
#define CLK_1KHZ 5 /* internal 1 kHz clock */
#define CLK_OUTNM1 6 /* output of channel-1 modulo total */
#define CLK_EXT 7 /* external clock */
static unsigned int pci230_clk_config(unsigned int chan, unsigned int src)
{
return ((chan & 3) << 3) | (src & 7);
}
/*
* Counter/timer gate input configuration sources.
*/
#define GAT_VCC 0 /* VCC (i.e. enabled) */
#define GAT_GND 1 /* GND (i.e. disabled) */
#define GAT_EXT 2 /* external gate input (PPCn on PCI230) */
#define GAT_NOUTNM2 3 /* inverted output of channel-2 modulo total */
static unsigned int pci230_gat_config(unsigned int chan, unsigned int src)
{
return ((chan & 3) << 3) | (src & 7);
}
/*
* Summary of CLK_OUTNM1 and GAT_NOUTNM2 connections for PCI230 and PCI260:
*
* Channel's Channel's
* clock input gate input
* Channel CLK_OUTNM1 GAT_NOUTNM2
* ------- ---------- -----------
* Z2-CT0 Z2-CT2-OUT /Z2-CT1-OUT
* Z2-CT1 Z2-CT0-OUT /Z2-CT2-OUT
* Z2-CT2 Z2-CT1-OUT /Z2-CT0-OUT
*/
/*
* Interrupt enables/status register values.
*/
#define PCI230_INT_DISABLE 0
#define PCI230_INT_PPI_C0 BIT(0)
#define PCI230_INT_PPI_C3 BIT(1)
#define PCI230_INT_ADC BIT(2)
#define PCI230_INT_ZCLK_CT1 BIT(5)
/* For PCI230+ hardware version 2 when DAC FIFO enabled. */
#define PCI230P2_INT_DAC BIT(4)
/*
* (Potentially) shared resources and their owners
*/
enum {
RES_Z2CT0 = BIT(0), /* Z2-CT0 */
RES_Z2CT1 = BIT(1), /* Z2-CT1 */
RES_Z2CT2 = BIT(2) /* Z2-CT2 */
};
enum {
OWNER_AICMD, /* Owned by AI command */
OWNER_AOCMD, /* Owned by AO command */
NUM_OWNERS /* Number of owners */
};
/*
* Handy macros.
*/
/* Combine old and new bits. */
#define COMBINE(old, new, mask) (((old) & ~(mask)) | ((new) & (mask)))
/* Current CPU. XXX should this be hard_smp_processor_id()? */
#define THISCPU smp_processor_id()
/*
* Board descriptions for the two boards supported.
*/
struct pci230_board {
const char *name;
unsigned short id;
unsigned char ai_bits;
unsigned char ao_bits;
unsigned char min_hwver; /* Minimum hardware version supported. */
unsigned int have_dio:1;
};
static const struct pci230_board pci230_boards[] = {
{
.name = "pci230+",
.id = PCI_DEVICE_ID_PCI230,
.ai_bits = 16,
.ao_bits = 12,
.have_dio = true,
.min_hwver = 1,
},
{
.name = "pci260+",
.id = PCI_DEVICE_ID_PCI260,
.ai_bits = 16,
.min_hwver = 1,
},
{
.name = "pci230",
.id = PCI_DEVICE_ID_PCI230,
.ai_bits = 12,
.ao_bits = 12,
.have_dio = true,
},
{
.name = "pci260",
.id = PCI_DEVICE_ID_PCI260,
.ai_bits = 12,
},
};
struct pci230_private {
spinlock_t isr_spinlock; /* Interrupt spin lock */
spinlock_t res_spinlock; /* Shared resources spin lock */
spinlock_t ai_stop_spinlock; /* Spin lock for stopping AI command */
spinlock_t ao_stop_spinlock; /* Spin lock for stopping AO command */
unsigned long daqio; /* PCI230's DAQ I/O space */
int intr_cpuid; /* ID of CPU running ISR */
unsigned short hwver; /* Hardware version (for '+' models) */
unsigned short adccon; /* ADCCON register value */
unsigned short daccon; /* DACCON register value */
unsigned short adcfifothresh; /* ADC FIFO threshold (PCI230+/260+) */
unsigned short adcg; /* ADCG register value */
unsigned char ier; /* Interrupt enable bits */
unsigned char res_owned[NUM_OWNERS]; /* Owned resources */
unsigned int intr_running:1; /* Flag set in interrupt routine */
unsigned int ai_bipolar:1; /* Flag AI range is bipolar */
unsigned int ao_bipolar:1; /* Flag AO range is bipolar */
unsigned int ai_cmd_started:1; /* Flag AI command started */
unsigned int ao_cmd_started:1; /* Flag AO command started */
};
/* PCI230 clock source periods in ns */
static const unsigned int pci230_timebase[8] = {
[CLK_10MHZ] = I8254_OSC_BASE_10MHZ,
[CLK_1MHZ] = I8254_OSC_BASE_1MHZ,
[CLK_100KHZ] = I8254_OSC_BASE_100KHZ,
[CLK_10KHZ] = I8254_OSC_BASE_10KHZ,
[CLK_1KHZ] = I8254_OSC_BASE_1KHZ,
};
/* PCI230 analogue input range table */
static const struct comedi_lrange pci230_ai_range = {
7, {
BIP_RANGE(10),
BIP_RANGE(5),
BIP_RANGE(2.5),
BIP_RANGE(1.25),
UNI_RANGE(10),
UNI_RANGE(5),
UNI_RANGE(2.5)
}
};
/* PCI230 analogue gain bits for each input range. */
static const unsigned char pci230_ai_gain[7] = { 0, 1, 2, 3, 1, 2, 3 };
/* PCI230 analogue output range table */
static const struct comedi_lrange pci230_ao_range = {
2, {
UNI_RANGE(10),
BIP_RANGE(10)
}
};
static unsigned short pci230_ai_read(struct comedi_device *dev)
{
const struct pci230_board *board = dev->board_ptr;
struct pci230_private *devpriv = dev->private;
unsigned short data;
/* Read sample. */
data = inw(devpriv->daqio + PCI230_ADCDATA);
/*
* PCI230 is 12 bit - stored in upper bits of 16 bit register
* (lower four bits reserved for expansion). PCI230+ is 16 bit AI.
*
* If a bipolar range was specified, mangle it
* (twos complement->straight binary).
*/
if (devpriv->ai_bipolar)
data ^= 0x8000;
data >>= (16 - board->ai_bits);
return data;
}
static unsigned short pci230_ao_mangle_datum(struct comedi_device *dev,
unsigned short datum)
{
const struct pci230_board *board = dev->board_ptr;
struct pci230_private *devpriv = dev->private;
/*
* PCI230 is 12 bit - stored in upper bits of 16 bit register (lower
* four bits reserved for expansion). PCI230+ is also 12 bit AO.
*/
datum <<= (16 - board->ao_bits);
/*
* If a bipolar range was specified, mangle it
* (straight binary->twos complement).
*/
if (devpriv->ao_bipolar)
datum ^= 0x8000;
return datum;
}
static void pci230_ao_write_nofifo(struct comedi_device *dev,
unsigned short datum, unsigned int chan)
{
struct pci230_private *devpriv = dev->private;
/* Write mangled datum to appropriate DACOUT register. */
outw(pci230_ao_mangle_datum(dev, datum),
devpriv->daqio + ((chan == 0) ? PCI230_DACOUT1 : PCI230_DACOUT2));
}
static void pci230_ao_write_fifo(struct comedi_device *dev,
unsigned short datum, unsigned int chan)
{
struct pci230_private *devpriv = dev->private;
/* Write mangled datum to appropriate DACDATA register. */
outw(pci230_ao_mangle_datum(dev, datum),
devpriv->daqio + PCI230P2_DACDATA);
}
static bool pci230_claim_shared(struct comedi_device *dev,
unsigned char res_mask, unsigned int owner)
{
struct pci230_private *devpriv = dev->private;
unsigned int o;
unsigned long irqflags;
spin_lock_irqsave(&devpriv->res_spinlock, irqflags);
for (o = 0; o < NUM_OWNERS; o++) {
if (o == owner)
continue;
if (devpriv->res_owned[o] & res_mask) {
spin_unlock_irqrestore(&devpriv->res_spinlock,
irqflags);
return false;
}
}
devpriv->res_owned[owner] |= res_mask;
spin_unlock_irqrestore(&devpriv->res_spinlock, irqflags);
return true;
}
static void pci230_release_shared(struct comedi_device *dev,
unsigned char res_mask, unsigned int owner)
{
struct pci230_private *devpriv = dev->private;
unsigned long irqflags;
spin_lock_irqsave(&devpriv->res_spinlock, irqflags);
devpriv->res_owned[owner] &= ~res_mask;
spin_unlock_irqrestore(&devpriv->res_spinlock, irqflags);
}
static void pci230_release_all_resources(struct comedi_device *dev,
unsigned int owner)
{
pci230_release_shared(dev, (unsigned char)~0, owner);
}
static unsigned int pci230_divide_ns(u64 ns, unsigned int timebase,
unsigned int flags)
{
u64 div;
unsigned int rem;
div = ns;
rem = do_div(div, timebase);
switch (flags & CMDF_ROUND_MASK) {
default:
case CMDF_ROUND_NEAREST:
div += DIV_ROUND_CLOSEST(rem, timebase);
break;
case CMDF_ROUND_DOWN:
break;
case CMDF_ROUND_UP:
div += DIV_ROUND_UP(rem, timebase);
break;
}
return div > UINT_MAX ? UINT_MAX : (unsigned int)div;
}
/*
* Given desired period in ns, returns the required internal clock source
* and gets the initial count.
*/
static unsigned int pci230_choose_clk_count(u64 ns, unsigned int *count,
unsigned int flags)
{
unsigned int clk_src, cnt;
for (clk_src = CLK_10MHZ;; clk_src++) {
cnt = pci230_divide_ns(ns, pci230_timebase[clk_src], flags);
if (cnt <= 65536 || clk_src == CLK_1KHZ)
break;
}
*count = cnt;
return clk_src;
}
static void pci230_ns_to_single_timer(unsigned int *ns, unsigned int flags)
{
unsigned int count;
unsigned int clk_src;
clk_src = pci230_choose_clk_count(*ns, &count, flags);
*ns = count * pci230_timebase[clk_src];
}
static void pci230_ct_setup_ns_mode(struct comedi_device *dev, unsigned int ct,
unsigned int mode, u64 ns,
unsigned int flags)
{
unsigned int clk_src;
unsigned int count;
/* Set mode. */
comedi_8254_set_mode(dev->pacer, ct, mode);
/* Determine clock source and count. */
clk_src = pci230_choose_clk_count(ns, &count, flags);
/* Program clock source. */
outb(pci230_clk_config(ct, clk_src), dev->iobase + PCI230_ZCLK_SCE);
/* Set initial count. */
if (count >= 65536)
count = 0;
comedi_8254_write(dev->pacer, ct, count);
}
static void pci230_cancel_ct(struct comedi_device *dev, unsigned int ct)
{
/* Counter ct, 8254 mode 1, initial count not written. */
comedi_8254_set_mode(dev->pacer, ct, I8254_MODE1);
}
static int pci230_ai_eoc(struct comedi_device *dev,
struct comedi_subdevice *s,
struct comedi_insn *insn,
unsigned long context)
{
struct pci230_private *devpriv = dev->private;
unsigned int status;
status = inw(devpriv->daqio + PCI230_ADCCON);
if ((status & PCI230_ADC_FIFO_EMPTY) == 0)
return 0;
return -EBUSY;
}
static int pci230_ai_insn_read(struct comedi_device *dev,
struct comedi_subdevice *s,
struct comedi_insn *insn, unsigned int *data)
{
struct pci230_private *devpriv = dev->private;
unsigned int n;
unsigned int chan, range, aref;
unsigned int gainshift;
unsigned short adccon, adcen;
int ret;
/* Unpack channel and range. */
chan = CR_CHAN(insn->chanspec);
range = CR_RANGE(insn->chanspec);
aref = CR_AREF(insn->chanspec);
if (aref == AREF_DIFF) {
/* Differential. */
if (chan >= s->n_chan / 2) {
dev_dbg(dev->class_dev,
"%s: differential channel number out of range 0 to %u\n",
__func__, (s->n_chan / 2) - 1);
return -EINVAL;
}
}
/*
* Use Z2-CT2 as a conversion trigger instead of the built-in
* software trigger, as otherwise triggering of differential channels
* doesn't work properly for some versions of PCI230/260. Also set
* FIFO mode because the ADC busy bit only works for software triggers.
*/
adccon = PCI230_ADC_TRIG_Z2CT2 | PCI230_ADC_FIFO_EN;
/* Set Z2-CT2 output low to avoid any false triggers. */
comedi_8254_set_mode(dev->pacer, 2, I8254_MODE0);
devpriv->ai_bipolar = comedi_range_is_bipolar(s, range);
if (aref == AREF_DIFF) {
/* Differential. */
gainshift = chan * 2;
if (devpriv->hwver == 0) {
/*
* Original PCI230/260 expects both inputs of the
* differential channel to be enabled.
*/
adcen = 3 << gainshift;
} else {
/*
* PCI230+/260+ expects only one input of the
* differential channel to be enabled.
*/
adcen = 1 << gainshift;
}
adccon |= PCI230_ADC_IM_DIF;
} else {
/* Single ended. */
adcen = 1 << chan;
gainshift = chan & ~1;
adccon |= PCI230_ADC_IM_SE;
}
devpriv->adcg = (devpriv->adcg & ~(3 << gainshift)) |
(pci230_ai_gain[range] << gainshift);
if (devpriv->ai_bipolar)
adccon |= PCI230_ADC_IR_BIP;
else
adccon |= PCI230_ADC_IR_UNI;
/*
* Enable only this channel in the scan list - otherwise by default
* we'll get one sample from each channel.
*/
outw(adcen, devpriv->daqio + PCI230_ADCEN);
/* Set gain for channel. */
outw(devpriv->adcg, devpriv->daqio + PCI230_ADCG);
/* Specify uni/bip, se/diff, conversion source, and reset FIFO. */
devpriv->adccon = adccon;
outw(adccon | PCI230_ADC_FIFO_RESET, devpriv->daqio + PCI230_ADCCON);
/* Convert n samples */
for (n = 0; n < insn->n; n++) {
/*
* Trigger conversion by toggling Z2-CT2 output
* (finish with output high).
*/
comedi_8254_set_mode(dev->pacer, 2, I8254_MODE0);
comedi_8254_set_mode(dev->pacer, 2, I8254_MODE1);
/* wait for conversion to end */
ret = comedi_timeout(dev, s, insn, pci230_ai_eoc, 0);
if (ret)
return ret;
/* read data */
data[n] = pci230_ai_read(dev);
}
/* return the number of samples read/written */
return n;
}
static int pci230_ao_insn_write(struct comedi_device *dev,
struct comedi_subdevice *s,
struct comedi_insn *insn,
unsigned int *data)
{
struct pci230_private *devpriv = dev->private;
unsigned int chan = CR_CHAN(insn->chanspec);
unsigned int range = CR_RANGE(insn->chanspec);
unsigned int val = s->readback[chan];
int i;
/*
* Set range - see analogue output range table; 0 => unipolar 10V,
* 1 => bipolar +/-10V range scale
*/
devpriv->ao_bipolar = comedi_range_is_bipolar(s, range);
outw(range, devpriv->daqio + PCI230_DACCON);
for (i = 0; i < insn->n; i++) {
val = data[i];
pci230_ao_write_nofifo(dev, val, chan);
}
s->readback[chan] = val;
return insn->n;
}
static int pci230_ao_check_chanlist(struct comedi_device *dev,
struct comedi_subdevice *s,
struct comedi_cmd *cmd)
{
unsigned int prev_chan = CR_CHAN(cmd->chanlist[0]);
unsigned int range0 = CR_RANGE(cmd->chanlist[0]);
int i;
for (i = 1; i < cmd->chanlist_len; i++) {
unsigned int chan = CR_CHAN(cmd->chanlist[i]);
unsigned int range = CR_RANGE(cmd->chanlist[i]);
if (chan < prev_chan) {
dev_dbg(dev->class_dev,
"%s: channel numbers must increase\n",
__func__);
return -EINVAL;
}
if (range != range0) {
dev_dbg(dev->class_dev,
"%s: channels must have the same range\n",
__func__);
return -EINVAL;
}
prev_chan = chan;
}
return 0;
}
static int pci230_ao_cmdtest(struct comedi_device *dev,
struct comedi_subdevice *s, struct comedi_cmd *cmd)
{
const struct pci230_board *board = dev->board_ptr;
struct pci230_private *devpriv = dev->private;
int err = 0;
unsigned int tmp;
/* Step 1 : check if triggers are trivially valid */
err |= comedi_check_trigger_src(&cmd->start_src, TRIG_INT);
tmp = TRIG_TIMER | TRIG_INT;
if (board->min_hwver > 0 && devpriv->hwver >= 2) {
/*
* For PCI230+ hardware version 2 onwards, allow external
* trigger from EXTTRIG/EXTCONVCLK input (PCI230+ pin 25).
*
* FIXME: The permitted scan_begin_src values shouldn't depend
* on devpriv->hwver (the detected card's actual hardware
* version). They should only depend on board->min_hwver
* (the static capabilities of the configured card). To fix
* it, a new card model, e.g. "pci230+2" would have to be
* defined with min_hwver set to 2. It doesn't seem worth it
* for this alone. At the moment, please consider
* scan_begin_src==TRIG_EXT support to be a bonus rather than a
* guarantee!
*/
tmp |= TRIG_EXT;
}
err |= comedi_check_trigger_src(&cmd->scan_begin_src, tmp);
err |= comedi_check_trigger_src(&cmd->convert_src, TRIG_NOW);
err |= comedi_check_trigger_src(&cmd->scan_end_src, TRIG_COUNT);
err |= comedi_check_trigger_src(&cmd->stop_src, TRIG_COUNT | TRIG_NONE);
if (err)
return 1;
/* Step 2a : make sure trigger sources are unique */
err |= comedi_check_trigger_is_unique(cmd->scan_begin_src);
err |= comedi_check_trigger_is_unique(cmd->stop_src);
/* Step 2b : and mutually compatible */
if (err)
return 2;
/* Step 3: check if arguments are trivially valid */
err |= comedi_check_trigger_arg_is(&cmd->start_arg, 0);
#define MAX_SPEED_AO 8000 /* 8000 ns => 125 kHz */
/*
* Comedi limit due to unsigned int cmd. Driver limit =
* 2^16 (16bit * counter) * 1000000ns (1kHz onboard clock) = 65.536s
*/
#define MIN_SPEED_AO 4294967295u /* 4294967295ns = 4.29s */
switch (cmd->scan_begin_src) {
case TRIG_TIMER:
err |= comedi_check_trigger_arg_min(&cmd->scan_begin_arg,
MAX_SPEED_AO);
err |= comedi_check_trigger_arg_max(&cmd->scan_begin_arg,
MIN_SPEED_AO);
break;
case TRIG_EXT:
/*
* External trigger - for PCI230+ hardware version 2 onwards.
*/
/* Trigger number must be 0. */
if (cmd->scan_begin_arg & ~CR_FLAGS_MASK) {
cmd->scan_begin_arg = COMBINE(cmd->scan_begin_arg, 0,
~CR_FLAGS_MASK);
err |= -EINVAL;
}
/*
* The only flags allowed are CR_EDGE and CR_INVERT.
* The CR_EDGE flag is ignored.
*/
if (cmd->scan_begin_arg & CR_FLAGS_MASK &
~(CR_EDGE | CR_INVERT)) {
cmd->scan_begin_arg =
COMBINE(cmd->scan_begin_arg, 0,
CR_FLAGS_MASK & ~(CR_EDGE | CR_INVERT));
err |= -EINVAL;
}
break;
default:
err |= comedi_check_trigger_arg_is(&cmd->scan_begin_arg, 0);
break;
}
err |= comedi_check_trigger_arg_is(&cmd->scan_end_arg,
cmd->chanlist_len);
if (cmd->stop_src == TRIG_COUNT)
err |= comedi_check_trigger_arg_min(&cmd->stop_arg, 1);
else /* TRIG_NONE */
err |= comedi_check_trigger_arg_is(&cmd->stop_arg, 0);
if (err)
return 3;
/* Step 4: fix up any arguments */
if (cmd->scan_begin_src == TRIG_TIMER) {
tmp = cmd->scan_begin_arg;
pci230_ns_to_single_timer(&cmd->scan_begin_arg, cmd->flags);
if (tmp != cmd->scan_begin_arg)
err++;
}
if (err)
return 4;
/* Step 5: check channel list if it exists */
if (cmd->chanlist && cmd->chanlist_len > 0)
err |= pci230_ao_check_chanlist(dev, s, cmd);
if (err)
return 5;
return 0;
}
static void pci230_ao_stop(struct comedi_device *dev,
struct comedi_subdevice *s)
{
struct pci230_private *devpriv = dev->private;
unsigned long irqflags;
unsigned char intsrc;
bool started;
struct comedi_cmd *cmd;
spin_lock_irqsave(&devpriv->ao_stop_spinlock, irqflags);
started = devpriv->ao_cmd_started;
devpriv->ao_cmd_started = false;
spin_unlock_irqrestore(&devpriv->ao_stop_spinlock, irqflags);
if (!started)
return;
cmd = &s->async->cmd;
if (cmd->scan_begin_src == TRIG_TIMER) {
/* Stop scan rate generator. */
pci230_cancel_ct(dev, 1);
}
/* Determine interrupt source. */
if (devpriv->hwver < 2) {
/* Not using DAC FIFO. Using CT1 interrupt. */
intsrc = PCI230_INT_ZCLK_CT1;
} else {
/* Using DAC FIFO interrupt. */
intsrc = PCI230P2_INT_DAC;
}
/*
* Disable interrupt and wait for interrupt routine to finish running
* unless we are called from the interrupt routine.
*/
spin_lock_irqsave(&devpriv->isr_spinlock, irqflags);
devpriv->ier &= ~intsrc;
while (devpriv->intr_running && devpriv->intr_cpuid != THISCPU) {
spin_unlock_irqrestore(&devpriv->isr_spinlock, irqflags);
spin_lock_irqsave(&devpriv->isr_spinlock, irqflags);
}
outb(devpriv->ier, dev->iobase + PCI230_INT_SCE);
spin_unlock_irqrestore(&devpriv->isr_spinlock, irqflags);
if (devpriv->hwver >= 2) {
/*
* Using DAC FIFO. Reset FIFO, clear underrun error,
* disable FIFO.
*/
devpriv->daccon &= PCI230_DAC_OR_MASK;
outw(devpriv->daccon | PCI230P2_DAC_FIFO_RESET |
PCI230P2_DAC_FIFO_UNDERRUN_CLEAR,
devpriv->daqio + PCI230_DACCON);
}
/* Release resources. */
pci230_release_all_resources(dev, OWNER_AOCMD);
}
static void pci230_handle_ao_nofifo(struct comedi_device *dev,
struct comedi_subdevice *s)
{
struct comedi_async *async = s->async;
struct comedi_cmd *cmd = &async->cmd;
unsigned short data;
int i;
if (cmd->stop_src == TRIG_COUNT && async->scans_done >= cmd->stop_arg)
return;
for (i = 0; i < cmd->chanlist_len; i++) {
unsigned int chan = CR_CHAN(cmd->chanlist[i]);
if (!comedi_buf_read_samples(s, &data, 1)) {
async->events |= COMEDI_CB_OVERFLOW;
return;
}
pci230_ao_write_nofifo(dev, data, chan);
s->readback[chan] = data;
}
if (cmd->stop_src == TRIG_COUNT && async->scans_done >= cmd->stop_arg)
async->events |= COMEDI_CB_EOA;
}
/*
* Loads DAC FIFO (if using it) from buffer.
* Returns false if AO finished due to completion or error, true if still going.
*/
static bool pci230_handle_ao_fifo(struct comedi_device *dev,
struct comedi_subdevice *s)
{
struct pci230_private *devpriv = dev->private;
struct comedi_async *async = s->async;
struct comedi_cmd *cmd = &async->cmd;
unsigned int num_scans = comedi_nscans_left(s, 0);
unsigned int room;
unsigned short dacstat;
unsigned int i, n;
unsigned int events = 0;
/* Get DAC FIFO status. */
dacstat = inw(devpriv->daqio + PCI230_DACCON);
if (cmd->stop_src == TRIG_COUNT && num_scans == 0)
events |= COMEDI_CB_EOA;
if (events == 0) {
/* Check for FIFO underrun. */
if (dacstat & PCI230P2_DAC_FIFO_UNDERRUN_LATCHED) {
dev_err(dev->class_dev, "AO FIFO underrun\n");
events |= COMEDI_CB_OVERFLOW | COMEDI_CB_ERROR;
}
/*
* Check for buffer underrun if FIFO less than half full
* (otherwise there will be loads of "DAC FIFO not half full"
* interrupts).
*/
if (num_scans == 0 &&
(dacstat & PCI230P2_DAC_FIFO_HALF) == 0) {
dev_err(dev->class_dev, "AO buffer underrun\n");
events |= COMEDI_CB_OVERFLOW | COMEDI_CB_ERROR;
}
}
if (events == 0) {
/* Determine how much room is in the FIFO (in samples). */
if (dacstat & PCI230P2_DAC_FIFO_FULL)
room = PCI230P2_DAC_FIFOROOM_FULL;
else if (dacstat & PCI230P2_DAC_FIFO_HALF)
room = PCI230P2_DAC_FIFOROOM_HALFTOFULL;
else if (dacstat & PCI230P2_DAC_FIFO_EMPTY)
room = PCI230P2_DAC_FIFOROOM_EMPTY;
else
room = PCI230P2_DAC_FIFOROOM_ONETOHALF;
/* Convert room to number of scans that can be added. */
room /= cmd->chanlist_len;
/* Determine number of scans to process. */
if (num_scans > room)
num_scans = room;
/* Process scans. */
for (n = 0; n < num_scans; n++) {
for (i = 0; i < cmd->chanlist_len; i++) {
unsigned int chan = CR_CHAN(cmd->chanlist[i]);
unsigned short datum;
comedi_buf_read_samples(s, &datum, 1);
pci230_ao_write_fifo(dev, datum, chan);
s->readback[chan] = datum;
}
}
if (cmd->stop_src == TRIG_COUNT &&
async->scans_done >= cmd->stop_arg) {
/*
* All data for the command has been written
* to FIFO. Set FIFO interrupt trigger level
* to 'empty'.
*/
devpriv->daccon &= ~PCI230P2_DAC_INT_FIFO_MASK;
devpriv->daccon |= PCI230P2_DAC_INT_FIFO_EMPTY;
outw(devpriv->daccon, devpriv->daqio + PCI230_DACCON);
}
/* Check if FIFO underrun occurred while writing to FIFO. */
dacstat = inw(devpriv->daqio + PCI230_DACCON);
if (dacstat & PCI230P2_DAC_FIFO_UNDERRUN_LATCHED) {
dev_err(dev->class_dev, "AO FIFO underrun\n");
events |= COMEDI_CB_OVERFLOW | COMEDI_CB_ERROR;
}
}
async->events |= events;
return !(async->events & COMEDI_CB_CANCEL_MASK);
}
static int pci230_ao_inttrig_scan_begin(struct comedi_device *dev,
struct comedi_subdevice *s,
unsigned int trig_num)
{
struct pci230_private *devpriv = dev->private;
unsigned long irqflags;
if (trig_num)
return -EINVAL;
spin_lock_irqsave(&devpriv->ao_stop_spinlock, irqflags);
if (!devpriv->ao_cmd_started) {
spin_unlock_irqrestore(&devpriv->ao_stop_spinlock, irqflags);
return 1;
}
/* Perform scan. */
if (devpriv->hwver < 2) {
/* Not using DAC FIFO. */
spin_unlock_irqrestore(&devpriv->ao_stop_spinlock, irqflags);
pci230_handle_ao_nofifo(dev, s);
comedi_handle_events(dev, s);
} else {
/* Using DAC FIFO. */
/* Read DACSWTRIG register to trigger conversion. */
inw(devpriv->daqio + PCI230P2_DACSWTRIG);
spin_unlock_irqrestore(&devpriv->ao_stop_spinlock, irqflags);
}
/* Delay. Should driver be responsible for this? */
/* XXX TODO: See if DAC busy bit can be used. */
udelay(8);
return 1;
}
static void pci230_ao_start(struct comedi_device *dev,
struct comedi_subdevice *s)
{
struct pci230_private *devpriv = dev->private;
struct comedi_async *async = s->async;
struct comedi_cmd *cmd = &async->cmd;
unsigned long irqflags;
devpriv->ao_cmd_started = true;
if (devpriv->hwver >= 2) {
/* Using DAC FIFO. */
unsigned short scantrig;
bool run;
/* Preload FIFO data. */
run = pci230_handle_ao_fifo(dev, s);
comedi_handle_events(dev, s);
if (!run) {
/* Stopped. */
return;
}
/* Set scan trigger source. */
switch (cmd->scan_begin_src) {
case TRIG_TIMER:
scantrig = PCI230P2_DAC_TRIG_Z2CT1;
break;
case TRIG_EXT:
/* Trigger on EXTTRIG/EXTCONVCLK pin. */
if ((cmd->scan_begin_arg & CR_INVERT) == 0) {
/* +ve edge */
scantrig = PCI230P2_DAC_TRIG_EXTP;
} else {
/* -ve edge */
scantrig = PCI230P2_DAC_TRIG_EXTN;
}
break;
case TRIG_INT:
scantrig = PCI230P2_DAC_TRIG_SW;
break;
default:
/* Shouldn't get here. */
scantrig = PCI230P2_DAC_TRIG_NONE;
break;
}
devpriv->daccon =
(devpriv->daccon & ~PCI230P2_DAC_TRIG_MASK) | scantrig;
outw(devpriv->daccon, devpriv->daqio + PCI230_DACCON);
}
switch (cmd->scan_begin_src) {
case TRIG_TIMER:
if (devpriv->hwver < 2) {
/* Not using DAC FIFO. */
/* Enable CT1 timer interrupt. */
spin_lock_irqsave(&devpriv->isr_spinlock, irqflags);
devpriv->ier |= PCI230_INT_ZCLK_CT1;
outb(devpriv->ier, dev->iobase + PCI230_INT_SCE);
spin_unlock_irqrestore(&devpriv->isr_spinlock,
irqflags);
}
/* Set CT1 gate high to start counting. */
outb(pci230_gat_config(1, GAT_VCC),
dev->iobase + PCI230_ZGAT_SCE);
break;
case TRIG_INT:
async->inttrig = pci230_ao_inttrig_scan_begin;
break;
}
if (devpriv->hwver >= 2) {
/* Using DAC FIFO. Enable DAC FIFO interrupt. */
spin_lock_irqsave(&devpriv->isr_spinlock, irqflags);
devpriv->ier |= PCI230P2_INT_DAC;
outb(devpriv->ier, dev->iobase + PCI230_INT_SCE);
spin_unlock_irqrestore(&devpriv->isr_spinlock, irqflags);
}
}
static int pci230_ao_inttrig_start(struct comedi_device *dev,
struct comedi_subdevice *s,
unsigned int trig_num)
{
struct comedi_cmd *cmd = &s->async->cmd;
if (trig_num != cmd->start_src)
return -EINVAL;
s->async->inttrig = NULL;
pci230_ao_start(dev, s);
return 1;
}
static int pci230_ao_cmd(struct comedi_device *dev, struct comedi_subdevice *s)
{
struct pci230_private *devpriv = dev->private;
unsigned short daccon;
unsigned int range;
/* Get the command. */
struct comedi_cmd *cmd = &s->async->cmd;
if (cmd->scan_begin_src == TRIG_TIMER) {
/* Claim Z2-CT1. */
if (!pci230_claim_shared(dev, RES_Z2CT1, OWNER_AOCMD))
return -EBUSY;
}
/*
* Set range - see analogue output range table; 0 => unipolar 10V,
* 1 => bipolar +/-10V range scale
*/
range = CR_RANGE(cmd->chanlist[0]);
devpriv->ao_bipolar = comedi_range_is_bipolar(s, range);
daccon = devpriv->ao_bipolar ? PCI230_DAC_OR_BIP : PCI230_DAC_OR_UNI;
/* Use DAC FIFO for hardware version 2 onwards. */
if (devpriv->hwver >= 2) {
unsigned short dacen;
unsigned int i;
dacen = 0;
for (i = 0; i < cmd->chanlist_len; i++)
dacen |= 1 << CR_CHAN(cmd->chanlist[i]);
/* Set channel scan list. */
outw(dacen, devpriv->daqio + PCI230P2_DACEN);
/*
* Enable DAC FIFO.
* Set DAC scan source to 'none'.
* Set DAC FIFO interrupt trigger level to 'not half full'.
* Reset DAC FIFO and clear underrun.
*
* N.B. DAC FIFO interrupts are currently disabled.
*/
daccon |= PCI230P2_DAC_FIFO_EN | PCI230P2_DAC_FIFO_RESET |
PCI230P2_DAC_FIFO_UNDERRUN_CLEAR |
PCI230P2_DAC_TRIG_NONE | PCI230P2_DAC_INT_FIFO_NHALF;
}
/* Set DACCON. */
outw(daccon, devpriv->daqio + PCI230_DACCON);
/* Preserve most of DACCON apart from write-only, transient bits. */
devpriv->daccon = daccon & ~(PCI230P2_DAC_FIFO_RESET |
PCI230P2_DAC_FIFO_UNDERRUN_CLEAR);
if (cmd->scan_begin_src == TRIG_TIMER) {
/*
* Set the counter timer 1 to the specified scan frequency.
* cmd->scan_begin_arg is sampling period in ns.
* Gate it off for now.
*/
outb(pci230_gat_config(1, GAT_GND),
dev->iobase + PCI230_ZGAT_SCE);
pci230_ct_setup_ns_mode(dev, 1, I8254_MODE3,
cmd->scan_begin_arg,
cmd->flags);
}
/* N.B. cmd->start_src == TRIG_INT */
s->async->inttrig = pci230_ao_inttrig_start;
return 0;
}
static int pci230_ao_cancel(struct comedi_device *dev,
struct comedi_subdevice *s)
{
pci230_ao_stop(dev, s);
return 0;
}
static int pci230_ai_check_scan_period(struct comedi_cmd *cmd)
{
unsigned int min_scan_period, chanlist_len;
int err = 0;
chanlist_len = cmd->chanlist_len;
if (cmd->chanlist_len == 0)
chanlist_len = 1;
min_scan_period = chanlist_len * cmd->convert_arg;
if (min_scan_period < chanlist_len ||
min_scan_period < cmd->convert_arg) {
/* Arithmetic overflow. */
min_scan_period = UINT_MAX;
err++;
}
if (cmd->scan_begin_arg < min_scan_period) {
cmd->scan_begin_arg = min_scan_period;
err++;
}
return !err;
}
static int pci230_ai_check_chanlist(struct comedi_device *dev,
struct comedi_subdevice *s,
struct comedi_cmd *cmd)
{
struct pci230_private *devpriv = dev->private;
unsigned int max_diff_chan = (s->n_chan / 2) - 1;
unsigned int prev_chan = 0;
unsigned int prev_range = 0;
unsigned int prev_aref = 0;
bool prev_bipolar = false;
unsigned int subseq_len = 0;
int i;
for (i = 0; i < cmd->chanlist_len; i++) {
unsigned int chanspec = cmd->chanlist[i];
unsigned int chan = CR_CHAN(chanspec);
unsigned int range = CR_RANGE(chanspec);
unsigned int aref = CR_AREF(chanspec);
bool bipolar = comedi_range_is_bipolar(s, range);
if (aref == AREF_DIFF && chan >= max_diff_chan) {
dev_dbg(dev->class_dev,
"%s: differential channel number out of range 0 to %u\n",
__func__, max_diff_chan);
return -EINVAL;
}
if (i > 0) {
/*
* Channel numbers must strictly increase or
* subsequence must repeat exactly.
*/
if (chan <= prev_chan && subseq_len == 0)
subseq_len = i;
if (subseq_len > 0 &&
cmd->chanlist[i % subseq_len] != chanspec) {
dev_dbg(dev->class_dev,
"%s: channel numbers must increase or sequence must repeat exactly\n",
__func__);
return -EINVAL;
}
if (aref != prev_aref) {
dev_dbg(dev->class_dev,
"%s: channel sequence analogue references must be all the same (single-ended or differential)\n",
__func__);
return -EINVAL;
}
if (bipolar != prev_bipolar) {
dev_dbg(dev->class_dev,
"%s: channel sequence ranges must be all bipolar or all unipolar\n",
__func__);
return -EINVAL;
}
if (aref != AREF_DIFF && range != prev_range &&
((chan ^ prev_chan) & ~1) == 0) {
dev_dbg(dev->class_dev,
"%s: single-ended channel pairs must have the same range\n",
__func__);
return -EINVAL;
}
}
prev_chan = chan;
prev_range = range;
prev_aref = aref;
prev_bipolar = bipolar;
}
if (subseq_len == 0)
subseq_len = cmd->chanlist_len;
if (cmd->chanlist_len % subseq_len) {
dev_dbg(dev->class_dev,
"%s: sequence must repeat exactly\n", __func__);
return -EINVAL;
}
/*
* Buggy PCI230+ or PCI260+ requires channel 0 to be (first) in the
* sequence if the sequence contains more than one channel. Hardware
* versions 1 and 2 have the bug. There is no hardware version 3.
*
* Actually, there are two firmwares that report themselves as
* hardware version 1 (the boards have different ADC chips with
* slightly different timing requirements, which was supposed to
* be invisible to software). The first one doesn't seem to have
* the bug, but the second one does, and we can't tell them apart!
*/
if (devpriv->hwver > 0 && devpriv->hwver < 4) {
if (subseq_len > 1 && CR_CHAN(cmd->chanlist[0])) {
dev_info(dev->class_dev,
"amplc_pci230: ai_cmdtest: Buggy PCI230+/260+ h/w version %u requires first channel of multi-channel sequence to be 0 (corrected in h/w version 4)\n",
devpriv->hwver);
return -EINVAL;
}
}
return 0;
}
static int pci230_ai_cmdtest(struct comedi_device *dev,
struct comedi_subdevice *s, struct comedi_cmd *cmd)
{
const struct pci230_board *board = dev->board_ptr;
struct pci230_private *devpriv = dev->private;
int err = 0;
unsigned int tmp;
/* Step 1 : check if triggers are trivially valid */
err |= comedi_check_trigger_src(&cmd->start_src, TRIG_NOW | TRIG_INT);
tmp = TRIG_FOLLOW | TRIG_TIMER | TRIG_INT;
if (board->have_dio || board->min_hwver > 0) {
/*
* Unfortunately, we cannot trigger a scan off an external
* source on the PCI260 board, since it uses the PPIC0 (DIO)
* input, which isn't present on the PCI260. For PCI260+
* we can use the EXTTRIG/EXTCONVCLK input on pin 17 instead.
*/
tmp |= TRIG_EXT;
}
err |= comedi_check_trigger_src(&cmd->scan_begin_src, tmp);
err |= comedi_check_trigger_src(&cmd->convert_src,
TRIG_TIMER | TRIG_INT | TRIG_EXT);
err |= comedi_check_trigger_src(&cmd->scan_end_src, TRIG_COUNT);
err |= comedi_check_trigger_src(&cmd->stop_src, TRIG_COUNT | TRIG_NONE);
if (err)
return 1;
/* Step 2a : make sure trigger sources are unique */
err |= comedi_check_trigger_is_unique(cmd->start_src);
err |= comedi_check_trigger_is_unique(cmd->scan_begin_src);
err |= comedi_check_trigger_is_unique(cmd->convert_src);
err |= comedi_check_trigger_is_unique(cmd->stop_src);
/* Step 2b : and mutually compatible */
/*
* If scan_begin_src is not TRIG_FOLLOW, then a monostable will be
* set up to generate a fixed number of timed conversion pulses.
*/
if (cmd->scan_begin_src != TRIG_FOLLOW &&
cmd->convert_src != TRIG_TIMER)
err |= -EINVAL;
if (err)
return 2;
/* Step 3: check if arguments are trivially valid */
err |= comedi_check_trigger_arg_is(&cmd->start_arg, 0);
#define MAX_SPEED_AI_SE 3200 /* PCI230 SE: 3200 ns => 312.5 kHz */
#define MAX_SPEED_AI_DIFF 8000 /* PCI230 DIFF: 8000 ns => 125 kHz */
#define MAX_SPEED_AI_PLUS 4000 /* PCI230+: 4000 ns => 250 kHz */
/*
* Comedi limit due to unsigned int cmd. Driver limit =
* 2^16 (16bit * counter) * 1000000ns (1kHz onboard clock) = 65.536s
*/
#define MIN_SPEED_AI 4294967295u /* 4294967295ns = 4.29s */
if (cmd->convert_src == TRIG_TIMER) {
unsigned int max_speed_ai;
if (devpriv->hwver == 0) {
/*
* PCI230 or PCI260. Max speed depends whether
* single-ended or pseudo-differential.
*/
if (cmd->chanlist && cmd->chanlist_len > 0) {
/* Peek analogue reference of first channel. */
if (CR_AREF(cmd->chanlist[0]) == AREF_DIFF)
max_speed_ai = MAX_SPEED_AI_DIFF;
else
max_speed_ai = MAX_SPEED_AI_SE;
} else {
/* No channel list. Assume single-ended. */
max_speed_ai = MAX_SPEED_AI_SE;
}
} else {
/* PCI230+ or PCI260+. */
max_speed_ai = MAX_SPEED_AI_PLUS;
}
err |= comedi_check_trigger_arg_min(&cmd->convert_arg,
max_speed_ai);
err |= comedi_check_trigger_arg_max(&cmd->convert_arg,
MIN_SPEED_AI);
} else if (cmd->convert_src == TRIG_EXT) {
/*
* external trigger
*
* convert_arg == (CR_EDGE | 0)
* => trigger on +ve edge.
* convert_arg == (CR_EDGE | CR_INVERT | 0)
* => trigger on -ve edge.
*/
if (cmd->convert_arg & CR_FLAGS_MASK) {
/* Trigger number must be 0. */
if (cmd->convert_arg & ~CR_FLAGS_MASK) {
cmd->convert_arg = COMBINE(cmd->convert_arg, 0,
~CR_FLAGS_MASK);
err |= -EINVAL;
}
/*
* The only flags allowed are CR_INVERT and CR_EDGE.
* CR_EDGE is required.
*/
if ((cmd->convert_arg & CR_FLAGS_MASK & ~CR_INVERT) !=
CR_EDGE) {
/* Set CR_EDGE, preserve CR_INVERT. */
cmd->convert_arg =
COMBINE(cmd->start_arg, CR_EDGE | 0,
CR_FLAGS_MASK & ~CR_INVERT);
err |= -EINVAL;
}
} else {
/*
* Backwards compatibility with previous versions:
* convert_arg == 0 => trigger on -ve edge.
* convert_arg == 1 => trigger on +ve edge.
*/
err |= comedi_check_trigger_arg_max(&cmd->convert_arg,
1);
}
} else {
err |= comedi_check_trigger_arg_is(&cmd->convert_arg, 0);
}
err |= comedi_check_trigger_arg_is(&cmd->scan_end_arg,
cmd->chanlist_len);
if (cmd->stop_src == TRIG_COUNT)
err |= comedi_check_trigger_arg_min(&cmd->stop_arg, 1);
else /* TRIG_NONE */
err |= comedi_check_trigger_arg_is(&cmd->stop_arg, 0);
if (cmd->scan_begin_src == TRIG_EXT) {
/*
* external "trigger" to begin each scan:
* scan_begin_arg==0 => use PPC0 input -> gate of CT0 -> gate
* of CT2 (sample convert trigger is CT2)
*/
if (cmd->scan_begin_arg & ~CR_FLAGS_MASK) {
cmd->scan_begin_arg = COMBINE(cmd->scan_begin_arg, 0,
~CR_FLAGS_MASK);
err |= -EINVAL;
}
/* The only flag allowed is CR_EDGE, which is ignored. */
if (cmd->scan_begin_arg & CR_FLAGS_MASK & ~CR_EDGE) {
cmd->scan_begin_arg = COMBINE(cmd->scan_begin_arg, 0,
CR_FLAGS_MASK & ~CR_EDGE);
err |= -EINVAL;
}
} else if (cmd->scan_begin_src == TRIG_TIMER) {
/* N.B. cmd->convert_arg is also TRIG_TIMER */
if (!pci230_ai_check_scan_period(cmd))
err |= -EINVAL;
} else {
err |= comedi_check_trigger_arg_is(&cmd->scan_begin_arg, 0);
}
if (err)
return 3;
/* Step 4: fix up any arguments */
if (cmd->convert_src == TRIG_TIMER) {
tmp = cmd->convert_arg;
pci230_ns_to_single_timer(&cmd->convert_arg, cmd->flags);
if (tmp != cmd->convert_arg)
err++;
}
if (cmd->scan_begin_src == TRIG_TIMER) {
/* N.B. cmd->convert_arg is also TRIG_TIMER */
tmp = cmd->scan_begin_arg;
pci230_ns_to_single_timer(&cmd->scan_begin_arg, cmd->flags);
if (!pci230_ai_check_scan_period(cmd)) {
/* Was below minimum required. Round up. */
pci230_ns_to_single_timer(&cmd->scan_begin_arg,
CMDF_ROUND_UP);
pci230_ai_check_scan_period(cmd);
}
if (tmp != cmd->scan_begin_arg)
err++;
}
if (err)
return 4;
/* Step 5: check channel list if it exists */
if (cmd->chanlist && cmd->chanlist_len > 0)
err |= pci230_ai_check_chanlist(dev, s, cmd);
if (err)
return 5;
return 0;
}
static void pci230_ai_update_fifo_trigger_level(struct comedi_device *dev,
struct comedi_subdevice *s)
{
struct pci230_private *devpriv = dev->private;
struct comedi_cmd *cmd = &s->async->cmd;
unsigned int wake;
unsigned short triglev;
unsigned short adccon;
if (cmd->flags & CMDF_WAKE_EOS)
wake = cmd->scan_end_arg - s->async->cur_chan;
else
wake = comedi_nsamples_left(s, PCI230_ADC_FIFOLEVEL_HALFFULL);
if (wake >= PCI230_ADC_FIFOLEVEL_HALFFULL) {
triglev = PCI230_ADC_INT_FIFO_HALF;
} else if (wake > 1 && devpriv->hwver > 0) {
/* PCI230+/260+ programmable FIFO interrupt level. */
if (devpriv->adcfifothresh != wake) {
devpriv->adcfifothresh = wake;
outw(wake, devpriv->daqio + PCI230P_ADCFFTH);
}
triglev = PCI230P_ADC_INT_FIFO_THRESH;
} else {
triglev = PCI230_ADC_INT_FIFO_NEMPTY;
}
adccon = (devpriv->adccon & ~PCI230_ADC_INT_FIFO_MASK) | triglev;
if (adccon != devpriv->adccon) {
devpriv->adccon = adccon;
outw(adccon, devpriv->daqio + PCI230_ADCCON);
}
}
static int pci230_ai_inttrig_convert(struct comedi_device *dev,
struct comedi_subdevice *s,
unsigned int trig_num)
{
struct pci230_private *devpriv = dev->private;
unsigned long irqflags;
unsigned int delayus;
if (trig_num)
return -EINVAL;
spin_lock_irqsave(&devpriv->ai_stop_spinlock, irqflags);
if (!devpriv->ai_cmd_started) {
spin_unlock_irqrestore(&devpriv->ai_stop_spinlock, irqflags);
return 1;
}
/*
* Trigger conversion by toggling Z2-CT2 output.
* Finish with output high.
*/
comedi_8254_set_mode(dev->pacer, 2, I8254_MODE0);
comedi_8254_set_mode(dev->pacer, 2, I8254_MODE1);
/*
* Delay. Should driver be responsible for this? An
* alternative would be to wait until conversion is complete,
* but we can't tell when it's complete because the ADC busy
* bit has a different meaning when FIFO enabled (and when
* FIFO not enabled, it only works for software triggers).
*/
if ((devpriv->adccon & PCI230_ADC_IM_MASK) == PCI230_ADC_IM_DIF &&
devpriv->hwver == 0) {
/* PCI230/260 in differential mode */
delayus = 8;
} else {
/* single-ended or PCI230+/260+ */
delayus = 4;
}
spin_unlock_irqrestore(&devpriv->ai_stop_spinlock, irqflags);
udelay(delayus);
return 1;
}
static int pci230_ai_inttrig_scan_begin(struct comedi_device *dev,
struct comedi_subdevice *s,
unsigned int trig_num)
{
struct pci230_private *devpriv = dev->private;
unsigned long irqflags;
unsigned char zgat;
if (trig_num)
return -EINVAL;
spin_lock_irqsave(&devpriv->ai_stop_spinlock, irqflags);
if (devpriv->ai_cmd_started) {
/* Trigger scan by waggling CT0 gate source. */
zgat = pci230_gat_config(0, GAT_GND);
outb(zgat, dev->iobase + PCI230_ZGAT_SCE);
zgat = pci230_gat_config(0, GAT_VCC);
outb(zgat, dev->iobase + PCI230_ZGAT_SCE);
}
spin_unlock_irqrestore(&devpriv->ai_stop_spinlock, irqflags);
return 1;
}
static void pci230_ai_stop(struct comedi_device *dev,
struct comedi_subdevice *s)
{
struct pci230_private *devpriv = dev->private;
unsigned long irqflags;
struct comedi_cmd *cmd;
bool started;
spin_lock_irqsave(&devpriv->ai_stop_spinlock, irqflags);
started = devpriv->ai_cmd_started;
devpriv->ai_cmd_started = false;
spin_unlock_irqrestore(&devpriv->ai_stop_spinlock, irqflags);
if (!started)
return;
cmd = &s->async->cmd;
if (cmd->convert_src == TRIG_TIMER) {
/* Stop conversion rate generator. */
pci230_cancel_ct(dev, 2);
}
if (cmd->scan_begin_src != TRIG_FOLLOW) {
/* Stop scan period monostable. */
pci230_cancel_ct(dev, 0);
}
spin_lock_irqsave(&devpriv->isr_spinlock, irqflags);
/*
* Disable ADC interrupt and wait for interrupt routine to finish
* running unless we are called from the interrupt routine.
*/
devpriv->ier &= ~PCI230_INT_ADC;
while (devpriv->intr_running && devpriv->intr_cpuid != THISCPU) {
spin_unlock_irqrestore(&devpriv->isr_spinlock, irqflags);
spin_lock_irqsave(&devpriv->isr_spinlock, irqflags);
}
outb(devpriv->ier, dev->iobase + PCI230_INT_SCE);
spin_unlock_irqrestore(&devpriv->isr_spinlock, irqflags);
/*
* Reset FIFO, disable FIFO and set start conversion source to none.
* Keep se/diff and bip/uni settings.
*/
devpriv->adccon =
(devpriv->adccon & (PCI230_ADC_IR_MASK | PCI230_ADC_IM_MASK)) |
PCI230_ADC_TRIG_NONE;
outw(devpriv->adccon | PCI230_ADC_FIFO_RESET,
devpriv->daqio + PCI230_ADCCON);
/* Release resources. */
pci230_release_all_resources(dev, OWNER_AICMD);
}
static void pci230_ai_start(struct comedi_device *dev,
struct comedi_subdevice *s)
{
struct pci230_private *devpriv = dev->private;
unsigned long irqflags;
unsigned short conv;
struct comedi_async *async = s->async;
struct comedi_cmd *cmd = &async->cmd;
devpriv->ai_cmd_started = true;
/* Enable ADC FIFO trigger level interrupt. */
spin_lock_irqsave(&devpriv->isr_spinlock, irqflags);
devpriv->ier |= PCI230_INT_ADC;
outb(devpriv->ier, dev->iobase + PCI230_INT_SCE);
spin_unlock_irqrestore(&devpriv->isr_spinlock, irqflags);
/*
* Update conversion trigger source which is currently set
* to CT2 output, which is currently stuck high.
*/
switch (cmd->convert_src) {
default:
conv = PCI230_ADC_TRIG_NONE;
break;
case TRIG_TIMER:
/* Using CT2 output. */
conv = PCI230_ADC_TRIG_Z2CT2;
break;
case TRIG_EXT:
if (cmd->convert_arg & CR_EDGE) {
if ((cmd->convert_arg & CR_INVERT) == 0) {
/* Trigger on +ve edge. */
conv = PCI230_ADC_TRIG_EXTP;
} else {
/* Trigger on -ve edge. */
conv = PCI230_ADC_TRIG_EXTN;
}
} else {
/* Backwards compatibility. */
if (cmd->convert_arg) {
/* Trigger on +ve edge. */
conv = PCI230_ADC_TRIG_EXTP;
} else {
/* Trigger on -ve edge. */
conv = PCI230_ADC_TRIG_EXTN;
}
}
break;
case TRIG_INT:
/*
* Use CT2 output for software trigger due to problems
* in differential mode on PCI230/260.
*/
conv = PCI230_ADC_TRIG_Z2CT2;
break;
}
devpriv->adccon = (devpriv->adccon & ~PCI230_ADC_TRIG_MASK) | conv;
outw(devpriv->adccon, devpriv->daqio + PCI230_ADCCON);
if (cmd->convert_src == TRIG_INT)
async->inttrig = pci230_ai_inttrig_convert;
/*
* Update FIFO interrupt trigger level, which is currently
* set to "full".
*/
pci230_ai_update_fifo_trigger_level(dev, s);
if (cmd->convert_src == TRIG_TIMER) {
/* Update timer gates. */
unsigned char zgat;
if (cmd->scan_begin_src != TRIG_FOLLOW) {
/*
* Conversion timer CT2 needs to be gated by
* inverted output of monostable CT2.
*/
zgat = pci230_gat_config(2, GAT_NOUTNM2);
} else {
/*
* Conversion timer CT2 needs to be gated on
* continuously.
*/
zgat = pci230_gat_config(2, GAT_VCC);
}
outb(zgat, dev->iobase + PCI230_ZGAT_SCE);
if (cmd->scan_begin_src != TRIG_FOLLOW) {
/* Set monostable CT0 trigger source. */
switch (cmd->scan_begin_src) {
default:
zgat = pci230_gat_config(0, GAT_VCC);
break;
case TRIG_EXT:
/*
* For CT0 on PCI230, the external trigger
* (gate) signal comes from PPC0, which is
* channel 16 of the DIO subdevice. The
* application needs to configure this as an
* input in order to use it as an external scan
* trigger.
*/
zgat = pci230_gat_config(0, GAT_EXT);
break;
case TRIG_TIMER:
/*
* Monostable CT0 triggered by rising edge on
* inverted output of CT1 (falling edge on CT1).
*/
zgat = pci230_gat_config(0, GAT_NOUTNM2);
break;
case TRIG_INT:
/*
* Monostable CT0 is triggered by inttrig
* function waggling the CT0 gate source.
*/
zgat = pci230_gat_config(0, GAT_VCC);
break;
}
outb(zgat, dev->iobase + PCI230_ZGAT_SCE);
switch (cmd->scan_begin_src) {
case TRIG_TIMER:
/*
* Scan period timer CT1 needs to be
* gated on to start counting.
*/
zgat = pci230_gat_config(1, GAT_VCC);
outb(zgat, dev->iobase + PCI230_ZGAT_SCE);
break;
case TRIG_INT:
async->inttrig = pci230_ai_inttrig_scan_begin;
break;
}
}
} else if (cmd->convert_src != TRIG_INT) {
/* No longer need Z2-CT2. */
pci230_release_shared(dev, RES_Z2CT2, OWNER_AICMD);
}
}
static int pci230_ai_inttrig_start(struct comedi_device *dev,
struct comedi_subdevice *s,
unsigned int trig_num)
{
struct comedi_cmd *cmd = &s->async->cmd;
if (trig_num != cmd->start_arg)
return -EINVAL;
s->async->inttrig = NULL;
pci230_ai_start(dev, s);
return 1;
}
static void pci230_handle_ai(struct comedi_device *dev,
struct comedi_subdevice *s)
{
struct pci230_private *devpriv = dev->private;
struct comedi_async *async = s->async;
struct comedi_cmd *cmd = &async->cmd;
unsigned int status_fifo;
unsigned int i;
unsigned int nsamples;
unsigned int fifoamount;
unsigned short val;
/* Determine number of samples to read. */
nsamples = comedi_nsamples_left(s, PCI230_ADC_FIFOLEVEL_HALFFULL);
if (nsamples == 0)
return;
fifoamount = 0;
for (i = 0; i < nsamples; i++) {
if (fifoamount == 0) {
/* Read FIFO state. */
status_fifo = inw(devpriv->daqio + PCI230_ADCCON);
if (status_fifo & PCI230_ADC_FIFO_FULL_LATCHED) {
/*
* Report error otherwise FIFO overruns will go
* unnoticed by the caller.
*/
dev_err(dev->class_dev, "AI FIFO overrun\n");
async->events |= COMEDI_CB_ERROR;
break;
} else if (status_fifo & PCI230_ADC_FIFO_EMPTY) {
/* FIFO empty. */
break;
} else if (status_fifo & PCI230_ADC_FIFO_HALF) {
/* FIFO half full. */
fifoamount = PCI230_ADC_FIFOLEVEL_HALFFULL;
} else if (devpriv->hwver > 0) {
/* Read PCI230+/260+ ADC FIFO level. */
fifoamount = inw(devpriv->daqio +
PCI230P_ADCFFLEV);
if (fifoamount == 0)
break; /* Shouldn't happen. */
} else {
/* FIFO not empty. */
fifoamount = 1;
}
}
val = pci230_ai_read(dev);
if (!comedi_buf_write_samples(s, &val, 1))
break;
fifoamount--;
if (cmd->stop_src == TRIG_COUNT &&
async->scans_done >= cmd->stop_arg) {
async->events |= COMEDI_CB_EOA;
break;
}
}
/* update FIFO interrupt trigger level if still running */
if (!(async->events & COMEDI_CB_CANCEL_MASK))
pci230_ai_update_fifo_trigger_level(dev, s);
}
static int pci230_ai_cmd(struct comedi_device *dev, struct comedi_subdevice *s)
{
struct pci230_private *devpriv = dev->private;
unsigned int i, chan, range, diff;
unsigned int res_mask;
unsigned short adccon, adcen;
unsigned char zgat;
/* Get the command. */
struct comedi_async *async = s->async;
struct comedi_cmd *cmd = &async->cmd;
/*
* Determine which shared resources are needed.
*/
res_mask = 0;
/*
* Need Z2-CT2 to supply a conversion trigger source at a high
* logic level, even if not doing timed conversions.
*/
res_mask |= RES_Z2CT2;
if (cmd->scan_begin_src != TRIG_FOLLOW) {
/* Using Z2-CT0 monostable to gate Z2-CT2 conversion timer */
res_mask |= RES_Z2CT0;
if (cmd->scan_begin_src == TRIG_TIMER) {
/* Using Z2-CT1 for scan frequency */
res_mask |= RES_Z2CT1;
}
}
/* Claim resources. */
if (!pci230_claim_shared(dev, res_mask, OWNER_AICMD))
return -EBUSY;
/*
* Steps:
* - Set channel scan list.
* - Set channel gains.
* - Enable and reset FIFO, specify uni/bip, se/diff, and set
* start conversion source to point to something at a high logic
* level (we use the output of counter/timer 2 for this purpose.
* - PAUSE to allow things to settle down.
* - Reset the FIFO again because it needs resetting twice and there
* may have been a false conversion trigger on some versions of
* PCI230/260 due to the start conversion source being set to a
* high logic level.
* - Enable ADC FIFO level interrupt.
* - Set actual conversion trigger source and FIFO interrupt trigger
* level.
* - If convert_src is TRIG_TIMER, set up the timers.
*/
adccon = PCI230_ADC_FIFO_EN;
adcen = 0;
if (CR_AREF(cmd->chanlist[0]) == AREF_DIFF) {
/* Differential - all channels must be differential. */
diff = 1;
adccon |= PCI230_ADC_IM_DIF;
} else {
/* Single ended - all channels must be single-ended. */
diff = 0;
adccon |= PCI230_ADC_IM_SE;
}
range = CR_RANGE(cmd->chanlist[0]);
devpriv->ai_bipolar = comedi_range_is_bipolar(s, range);
if (devpriv->ai_bipolar)
adccon |= PCI230_ADC_IR_BIP;
else
adccon |= PCI230_ADC_IR_UNI;
for (i = 0; i < cmd->chanlist_len; i++) {
unsigned int gainshift;
chan = CR_CHAN(cmd->chanlist[i]);
range = CR_RANGE(cmd->chanlist[i]);
if (diff) {
gainshift = 2 * chan;
if (devpriv->hwver == 0) {
/*
* Original PCI230/260 expects both inputs of
* the differential channel to be enabled.
*/
adcen |= 3 << gainshift;
} else {
/*
* PCI230+/260+ expects only one input of the
* differential channel to be enabled.
*/
adcen |= 1 << gainshift;
}
} else {
gainshift = chan & ~1;
adcen |= 1 << chan;
}
devpriv->adcg = (devpriv->adcg & ~(3 << gainshift)) |
(pci230_ai_gain[range] << gainshift);
}
/* Set channel scan list. */
outw(adcen, devpriv->daqio + PCI230_ADCEN);
/* Set channel gains. */
outw(devpriv->adcg, devpriv->daqio + PCI230_ADCG);
/*
* Set counter/timer 2 output high for use as the initial start
* conversion source.
*/
comedi_8254_set_mode(dev->pacer, 2, I8254_MODE1);
/*
* Temporarily use CT2 output as conversion trigger source and
* temporarily set FIFO interrupt trigger level to 'full'.
*/
adccon |= PCI230_ADC_INT_FIFO_FULL | PCI230_ADC_TRIG_Z2CT2;
/*
* Enable and reset FIFO, specify FIFO trigger level full, specify
* uni/bip, se/diff, and temporarily set the start conversion source
* to CT2 output. Note that CT2 output is currently high, and this
* will produce a false conversion trigger on some versions of the
* PCI230/260, but that will be dealt with later.
*/
devpriv->adccon = adccon;
outw(adccon | PCI230_ADC_FIFO_RESET, devpriv->daqio + PCI230_ADCCON);
/*
* Delay -
* Failure to include this will result in the first few channels'-worth
* of data being corrupt, normally manifesting itself by large negative
* voltages. It seems the board needs time to settle between the first
* FIFO reset (above) and the second FIFO reset (below). Setting the
* channel gains and scan list _before_ the first FIFO reset also
* helps, though only slightly.
*/
usleep_range(25, 100);
/* Reset FIFO again. */
outw(adccon | PCI230_ADC_FIFO_RESET, devpriv->daqio + PCI230_ADCCON);
if (cmd->convert_src == TRIG_TIMER) {
/*
* Set up CT2 as conversion timer, but gate it off for now.
* Note, counter/timer output 2 can be monitored on the
* connector: PCI230 pin 21, PCI260 pin 18.
*/
zgat = pci230_gat_config(2, GAT_GND);
outb(zgat, dev->iobase + PCI230_ZGAT_SCE);
/* Set counter/timer 2 to the specified conversion period. */
pci230_ct_setup_ns_mode(dev, 2, I8254_MODE3, cmd->convert_arg,
cmd->flags);
if (cmd->scan_begin_src != TRIG_FOLLOW) {
/*
* Set up monostable on CT0 output for scan timing. A
* rising edge on the trigger (gate) input of CT0 will
* trigger the monostable, causing its output to go low
* for the configured period. The period depends on
* the conversion period and the number of conversions
* in the scan.
*
* Set the trigger high before setting up the
* monostable to stop it triggering. The trigger
* source will be changed later.
*/
zgat = pci230_gat_config(0, GAT_VCC);
outb(zgat, dev->iobase + PCI230_ZGAT_SCE);
pci230_ct_setup_ns_mode(dev, 0, I8254_MODE1,
((u64)cmd->convert_arg *
cmd->scan_end_arg),
CMDF_ROUND_UP);
if (cmd->scan_begin_src == TRIG_TIMER) {
/*
* Monostable on CT0 will be triggered by
* output of CT1 at configured scan frequency.
*
* Set up CT1 but gate it off for now.
*/
zgat = pci230_gat_config(1, GAT_GND);
outb(zgat, dev->iobase + PCI230_ZGAT_SCE);
pci230_ct_setup_ns_mode(dev, 1, I8254_MODE3,
cmd->scan_begin_arg,
cmd->flags);
}
}
}
if (cmd->start_src == TRIG_INT)
s->async->inttrig = pci230_ai_inttrig_start;
else /* TRIG_NOW */
pci230_ai_start(dev, s);
return 0;
}
static int pci230_ai_cancel(struct comedi_device *dev,
struct comedi_subdevice *s)
{
pci230_ai_stop(dev, s);
return 0;
}
/* Interrupt handler */
static irqreturn_t pci230_interrupt(int irq, void *d)
{
unsigned char status_int, valid_status_int, temp_ier;
struct comedi_device *dev = d;
struct pci230_private *devpriv = dev->private;
struct comedi_subdevice *s_ao = dev->write_subdev;
struct comedi_subdevice *s_ai = dev->read_subdev;
unsigned long irqflags;
/* Read interrupt status/enable register. */
status_int = inb(dev->iobase + PCI230_INT_STAT);
if (status_int == PCI230_INT_DISABLE)
return IRQ_NONE;
spin_lock_irqsave(&devpriv->isr_spinlock, irqflags);
valid_status_int = devpriv->ier & status_int;
/*
* Disable triggered interrupts.
* (Only those interrupts that need re-enabling, are, later in the
* handler).
*/
temp_ier = devpriv->ier & ~status_int;
outb(temp_ier, dev->iobase + PCI230_INT_SCE);
devpriv->intr_running = true;
devpriv->intr_cpuid = THISCPU;
spin_unlock_irqrestore(&devpriv->isr_spinlock, irqflags);
/*
* Check the source of interrupt and handle it.
* The PCI230 can cope with concurrent ADC, DAC, PPI C0 and C3
* interrupts. However, at present (Comedi-0.7.60) does not allow
* concurrent execution of commands, instructions or a mixture of the
* two.
*/
if (valid_status_int & PCI230_INT_ZCLK_CT1)
pci230_handle_ao_nofifo(dev, s_ao);
if (valid_status_int & PCI230P2_INT_DAC)
pci230_handle_ao_fifo(dev, s_ao);
if (valid_status_int & PCI230_INT_ADC)
pci230_handle_ai(dev, s_ai);
/* Reenable interrupts. */
spin_lock_irqsave(&devpriv->isr_spinlock, irqflags);
if (devpriv->ier != temp_ier)
outb(devpriv->ier, dev->iobase + PCI230_INT_SCE);
devpriv->intr_running = false;
spin_unlock_irqrestore(&devpriv->isr_spinlock, irqflags);
if (s_ao)
comedi_handle_events(dev, s_ao);
comedi_handle_events(dev, s_ai);
return IRQ_HANDLED;
}
/* Check if PCI device matches a specific board. */
static bool pci230_match_pci_board(const struct pci230_board *board,
struct pci_dev *pci_dev)
{
/* assume pci_dev->device != PCI_DEVICE_ID_INVALID */
if (board->id != pci_dev->device)
return false;
if (board->min_hwver == 0)
return true;
/* Looking for a '+' model. First check length of registers. */
if (pci_resource_len(pci_dev, 3) < 32)
return false; /* Not a '+' model. */
/*
* TODO: temporarily enable PCI device and read the hardware version
* register. For now, assume it's okay.
*/
return true;
}
/* Look for board matching PCI device. */
static const struct pci230_board *pci230_find_pci_board(struct pci_dev *pci_dev)
{
unsigned int i;
for (i = 0; i < ARRAY_SIZE(pci230_boards); i++)
if (pci230_match_pci_board(&pci230_boards[i], pci_dev))
return &pci230_boards[i];
return NULL;
}
static int pci230_auto_attach(struct comedi_device *dev,
unsigned long context_unused)
{
struct pci_dev *pci_dev = comedi_to_pci_dev(dev);
const struct pci230_board *board;
struct pci230_private *devpriv;
struct comedi_subdevice *s;
int rc;
dev_info(dev->class_dev, "amplc_pci230: attach pci %s\n",
pci_name(pci_dev));
devpriv = comedi_alloc_devpriv(dev, sizeof(*devpriv));
if (!devpriv)
return -ENOMEM;
spin_lock_init(&devpriv->isr_spinlock);
spin_lock_init(&devpriv->res_spinlock);
spin_lock_init(&devpriv->ai_stop_spinlock);
spin_lock_init(&devpriv->ao_stop_spinlock);
board = pci230_find_pci_board(pci_dev);
if (!board) {
dev_err(dev->class_dev,
"amplc_pci230: BUG! cannot determine board type!\n");
return -EINVAL;
}
dev->board_ptr = board;
dev->board_name = board->name;
rc = comedi_pci_enable(dev);
if (rc)
return rc;
/*
* Read base addresses of the PCI230's two I/O regions from PCI
* configuration register.
*/
dev->iobase = pci_resource_start(pci_dev, 2);
devpriv->daqio = pci_resource_start(pci_dev, 3);
dev_dbg(dev->class_dev,
"%s I/O region 1 0x%04lx I/O region 2 0x%04lx\n",
dev->board_name, dev->iobase, devpriv->daqio);
/* Read bits of DACCON register - only the output range. */
devpriv->daccon = inw(devpriv->daqio + PCI230_DACCON) &
PCI230_DAC_OR_MASK;
/*
* Read hardware version register and set extended function register
* if they exist.
*/
if (pci_resource_len(pci_dev, 3) >= 32) {
unsigned short extfunc = 0;
devpriv->hwver = inw(devpriv->daqio + PCI230P_HWVER);
if (devpriv->hwver < board->min_hwver) {
dev_err(dev->class_dev,
"%s - bad hardware version - got %u, need %u\n",
dev->board_name, devpriv->hwver,
board->min_hwver);
return -EIO;
}
if (devpriv->hwver > 0) {
if (!board->have_dio) {
/*
* No DIO ports. Route counters' external gates
* to the EXTTRIG signal (PCI260+ pin 17).
* (Otherwise, they would be routed to DIO
* inputs PC0, PC1 and PC2 which don't exist
* on PCI260[+].)
*/
extfunc |= PCI230P_EXTFUNC_GAT_EXTTRIG;
}
if (board->ao_bits && devpriv->hwver >= 2) {
/* Enable DAC FIFO functionality. */
extfunc |= PCI230P2_EXTFUNC_DACFIFO;
}
}
outw(extfunc, devpriv->daqio + PCI230P_EXTFUNC);
if (extfunc & PCI230P2_EXTFUNC_DACFIFO) {
/*
* Temporarily enable DAC FIFO, reset it and disable
* FIFO wraparound.
*/
outw(devpriv->daccon | PCI230P2_DAC_FIFO_EN |
PCI230P2_DAC_FIFO_RESET,
devpriv->daqio + PCI230_DACCON);
/* Clear DAC FIFO channel enable register. */
outw(0, devpriv->daqio + PCI230P2_DACEN);
/* Disable DAC FIFO. */
outw(devpriv->daccon, devpriv->daqio + PCI230_DACCON);
}
}
/* Disable board's interrupts. */
outb(0, dev->iobase + PCI230_INT_SCE);
/* Set ADC to a reasonable state. */
devpriv->adcg = 0;
devpriv->adccon = PCI230_ADC_TRIG_NONE | PCI230_ADC_IM_SE |
PCI230_ADC_IR_BIP;
outw(BIT(0), devpriv->daqio + PCI230_ADCEN);
outw(devpriv->adcg, devpriv->daqio + PCI230_ADCG);
outw(devpriv->adccon | PCI230_ADC_FIFO_RESET,
devpriv->daqio + PCI230_ADCCON);
if (pci_dev->irq) {
rc = request_irq(pci_dev->irq, pci230_interrupt, IRQF_SHARED,
dev->board_name, dev);
if (rc == 0)
dev->irq = pci_dev->irq;
}
dev->pacer = comedi_8254_init(dev->iobase + PCI230_Z2_CT_BASE,
0, I8254_IO8, 0);
if (!dev->pacer)
return -ENOMEM;
rc = comedi_alloc_subdevices(dev, 3);
if (rc)
return rc;
s = &dev->subdevices[0];
/* analog input subdevice */
s->type = COMEDI_SUBD_AI;
s->subdev_flags = SDF_READABLE | SDF_DIFF | SDF_GROUND;
s->n_chan = 16;
s->maxdata = (1 << board->ai_bits) - 1;
s->range_table = &pci230_ai_range;
s->insn_read = pci230_ai_insn_read;
s->len_chanlist = 256; /* but there are restrictions. */
if (dev->irq) {
dev->read_subdev = s;
s->subdev_flags |= SDF_CMD_READ;
s->do_cmd = pci230_ai_cmd;
s->do_cmdtest = pci230_ai_cmdtest;
s->cancel = pci230_ai_cancel;
}
s = &dev->subdevices[1];
/* analog output subdevice */
if (board->ao_bits) {
s->type = COMEDI_SUBD_AO;
s->subdev_flags = SDF_WRITABLE | SDF_GROUND;
s->n_chan = 2;
s->maxdata = (1 << board->ao_bits) - 1;
s->range_table = &pci230_ao_range;
s->insn_write = pci230_ao_insn_write;
s->len_chanlist = 2;
if (dev->irq) {
dev->write_subdev = s;
s->subdev_flags |= SDF_CMD_WRITE;
s->do_cmd = pci230_ao_cmd;
s->do_cmdtest = pci230_ao_cmdtest;
s->cancel = pci230_ao_cancel;
}
rc = comedi_alloc_subdev_readback(s);
if (rc)
return rc;
} else {
s->type = COMEDI_SUBD_UNUSED;
}
s = &dev->subdevices[2];
/* digital i/o subdevice */
if (board->have_dio) {
rc = subdev_8255_init(dev, s, NULL, PCI230_PPI_X_BASE);
if (rc)
return rc;
} else {
s->type = COMEDI_SUBD_UNUSED;
}
return 0;
}
static struct comedi_driver amplc_pci230_driver = {
.driver_name = "amplc_pci230",
.module = THIS_MODULE,
.auto_attach = pci230_auto_attach,
.detach = comedi_pci_detach,
};
static int amplc_pci230_pci_probe(struct pci_dev *dev,
const struct pci_device_id *id)
{
return comedi_pci_auto_config(dev, &lc_pci230_driver,
id->driver_data);
}
static const struct pci_device_id amplc_pci230_pci_table[] = {
{ PCI_DEVICE(PCI_VENDOR_ID_AMPLICON, PCI_DEVICE_ID_PCI230) },
{ PCI_DEVICE(PCI_VENDOR_ID_AMPLICON, PCI_DEVICE_ID_PCI260) },
{ 0 }
};
MODULE_DEVICE_TABLE(pci, amplc_pci230_pci_table);
static struct pci_driver amplc_pci230_pci_driver = {
.name = "amplc_pci230",
.id_table = amplc_pci230_pci_table,
.probe = amplc_pci230_pci_probe,
.remove = comedi_pci_auto_unconfig,
};
module_comedi_pci_driver(amplc_pci230_driver, amplc_pci230_pci_driver);
MODULE_AUTHOR("Comedi https://www.comedi.org");
MODULE_DESCRIPTION("Comedi driver for Amplicon PCI230(+) and PCI260(+)");
MODULE_LICENSE("GPL");
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