xref: /openbmc/linux/drivers/comedi/drivers/s626.h (revision 8ffdff6a)
1 /* SPDX-License-Identifier: GPL-2.0+ */
2 /*
3  * comedi/drivers/s626.h
4  * Sensoray s626 Comedi driver, header file
5  *
6  * COMEDI - Linux Control and Measurement Device Interface
7  * Copyright (C) 2000 David A. Schleef <ds@schleef.org>
8  *
9  * Based on Sensoray Model 626 Linux driver Version 0.2
10  * Copyright (C) 2002-2004 Sensoray Co., Inc.
11  */
12 
13 #ifndef S626_H_INCLUDED
14 #define S626_H_INCLUDED
15 
16 #define S626_DMABUF_SIZE	4096	/* 4k pages */
17 
18 #define S626_ADC_CHANNELS       16
19 #define S626_DAC_CHANNELS       4
20 #define S626_ENCODER_CHANNELS   6
21 #define S626_DIO_CHANNELS       48
22 #define S626_DIO_BANKS		3	/* Number of DIO groups. */
23 #define S626_DIO_EXTCHANS	40	/*
24 					 * Number of extended-capability
25 					 * DIO channels.
26 					 */
27 
28 #define S626_NUM_TRIMDACS	12	/* Number of valid TrimDAC channels. */
29 
30 /* PCI bus interface types. */
31 #define S626_INTEL		1	/* Intel bus type. */
32 #define S626_MOTOROLA		2	/* Motorola bus type. */
33 
34 #define S626_PLATFORM		S626_INTEL /* *** SELECT PLATFORM TYPE *** */
35 
36 #define S626_RANGE_5V		0x10	/* +/-5V range */
37 #define S626_RANGE_10V		0x00	/* +/-10V range */
38 
39 #define S626_EOPL		0x80	/* End of ADC poll list marker. */
40 #define S626_GSEL_BIPOLAR5V	0x00F0	/* S626_LP_GSEL setting 5V bipolar. */
41 #define S626_GSEL_BIPOLAR10V	0x00A0	/* S626_LP_GSEL setting 10V bipolar. */
42 
43 /* Error codes that must be visible to this base class. */
44 #define S626_ERR_ILLEGAL_PARM	0x00010000	/*
45 						 * Illegal function parameter
46 						 * value was specified.
47 						 */
48 #define S626_ERR_I2C		0x00020000	/* I2C error. */
49 #define S626_ERR_COUNTERSETUP	0x00200000	/*
50 						 * Illegal setup specified for
51 						 * counter channel.
52 						 */
53 #define S626_ERR_DEBI_TIMEOUT	0x00400000	/* DEBI transfer timed out. */
54 
55 /*
56  * Organization (physical order) and size (in DWORDs) of logical DMA buffers
57  * contained by ANA_DMABUF.
58  */
59 #define S626_ADC_DMABUF_DWORDS	40	/*
60 					 * ADC DMA buffer must hold 16 samples,
61 					 * plus pre/post garbage samples.
62 					 */
63 #define S626_DAC_WDMABUF_DWORDS	1	/*
64 					 * DAC output DMA buffer holds a single
65 					 * sample.
66 					 */
67 
68 /* All remaining space in 4KB DMA buffer is available for the RPS1 program. */
69 
70 /* Address offsets, in DWORDS, from base of DMA buffer. */
71 #define S626_DAC_WDMABUF_OS	S626_ADC_DMABUF_DWORDS
72 
73 /* Interrupt enable bit in ISR and IER. */
74 #define S626_IRQ_GPIO3		0x00000040	/* IRQ enable for GPIO3. */
75 #define S626_IRQ_RPS1		0x10000000
76 #define S626_ISR_AFOU		0x00000800
77 /* Audio fifo under/overflow  detected. */
78 
79 #define S626_IRQ_COINT1A	0x0400	/* counter 1A overflow interrupt mask */
80 #define S626_IRQ_COINT1B	0x0800	/* counter 1B overflow interrupt mask */
81 #define S626_IRQ_COINT2A	0x1000	/* counter 2A overflow interrupt mask */
82 #define S626_IRQ_COINT2B	0x2000	/* counter 2B overflow interrupt mask */
83 #define S626_IRQ_COINT3A	0x4000	/* counter 3A overflow interrupt mask */
84 #define S626_IRQ_COINT3B	0x8000	/* counter 3B overflow interrupt mask */
85 
86 /* RPS command codes. */
87 #define S626_RPS_CLRSIGNAL	0x00000000	/* CLEAR SIGNAL */
88 #define S626_RPS_SETSIGNAL	0x10000000	/* SET SIGNAL */
89 #define S626_RPS_NOP		0x00000000	/* NOP */
90 #define S626_RPS_PAUSE		0x20000000	/* PAUSE */
91 #define S626_RPS_UPLOAD		0x40000000	/* UPLOAD */
92 #define S626_RPS_JUMP		0x80000000	/* JUMP */
93 #define S626_RPS_LDREG		0x90000100	/* LDREG (1 uint32_t only) */
94 #define S626_RPS_STREG		0xA0000100	/* STREG (1 uint32_t only) */
95 #define S626_RPS_STOP		0x50000000	/* STOP */
96 #define S626_RPS_IRQ		0x60000000	/* IRQ */
97 
98 #define S626_RPS_LOGICAL_OR	0x08000000	/* Logical OR conditionals. */
99 #define S626_RPS_INVERT		0x04000000	/*
100 						 * Test for negated
101 						 * semaphores.
102 						 */
103 #define S626_RPS_DEBI		0x00000002	/* DEBI done */
104 
105 #define S626_RPS_SIG0		0x00200000	/*
106 						 * RPS semaphore 0
107 						 * (used by ADC).
108 						 */
109 #define S626_RPS_SIG1		0x00400000	/*
110 						 * RPS semaphore 1
111 						 * (used by DAC).
112 						 */
113 #define S626_RPS_SIG2		0x00800000	/*
114 						 * RPS semaphore 2
115 						 * (not used).
116 						 */
117 #define S626_RPS_GPIO2		0x00080000	/* RPS GPIO2 */
118 #define S626_RPS_GPIO3		0x00100000	/* RPS GPIO3 */
119 
120 #define S626_RPS_SIGADC		S626_RPS_SIG0	/*
121 						 * Trigger/status for
122 						 * ADC's RPS program.
123 						 */
124 #define S626_RPS_SIGDAC		S626_RPS_SIG1	/*
125 						 * Trigger/status for
126 						 * DAC's RPS program.
127 						 */
128 
129 /* RPS clock parameters. */
130 #define S626_RPSCLK_SCALAR	8	/*
131 					 * This is apparent ratio of
132 					 * PCI/RPS clks (undocumented!!).
133 					 */
134 #define S626_RPSCLK_PER_US	(33 / S626_RPSCLK_SCALAR)
135 					/*
136 					 * Number of RPS clocks in one
137 					 * microsecond.
138 					 */
139 
140 /* Event counter source addresses. */
141 #define S626_SBA_RPS_A0		0x27	/* Time of RPS0 busy, in PCI clocks. */
142 
143 /* GPIO constants. */
144 #define S626_GPIO_BASE		0x10004000	/*
145 						 * GPIO 0,2,3 = inputs,
146 						 * GPIO3 = IRQ; GPIO1 = out.
147 						 */
148 #define S626_GPIO1_LO		0x00000000	/* GPIO1 set to LOW. */
149 #define S626_GPIO1_HI		0x00001000	/* GPIO1 set to HIGH. */
150 
151 /* Primary Status Register (PSR) constants. */
152 #define S626_PSR_DEBI_E		0x00040000	/* DEBI event flag. */
153 #define S626_PSR_DEBI_S		0x00080000	/* DEBI status flag. */
154 #define S626_PSR_A2_IN		0x00008000	/*
155 						 * Audio output DMA2 protection
156 						 * address reached.
157 						 */
158 #define S626_PSR_AFOU		0x00000800	/*
159 						 * Audio FIFO under/overflow
160 						 * detected.
161 						 */
162 #define S626_PSR_GPIO2		0x00000020	/*
163 						 * GPIO2 input pin: 0=AdcBusy,
164 						 * 1=AdcIdle.
165 						 */
166 #define S626_PSR_EC0S		0x00000001	/*
167 						 * Event counter 0 threshold
168 						 * reached.
169 						 */
170 
171 /* Secondary Status Register (SSR) constants. */
172 #define S626_SSR_AF2_OUT	0x00000200	/*
173 						 * Audio 2 output FIFO
174 						 * under/overflow detected.
175 						 */
176 
177 /* Master Control Register 1 (MC1) constants. */
178 #define S626_MC1_SOFT_RESET	0x80000000	/* Invoke 7146 soft reset. */
179 #define S626_MC1_SHUTDOWN	0x3FFF0000	/*
180 						 * Shut down all MC1-controlled
181 						 * enables.
182 						 */
183 
184 #define S626_MC1_ERPS1		0x2000	/* Enab/disable RPS task 1. */
185 #define S626_MC1_ERPS0		0x1000	/* Enab/disable RPS task 0. */
186 #define S626_MC1_DEBI		0x0800	/* Enab/disable DEBI pins. */
187 #define S626_MC1_AUDIO		0x0200	/* Enab/disable audio port pins. */
188 #define S626_MC1_I2C		0x0100	/* Enab/disable I2C interface. */
189 #define S626_MC1_A2OUT		0x0008	/* Enab/disable transfer on A2 out. */
190 #define S626_MC1_A2IN		0x0004	/* Enab/disable transfer on A2 in. */
191 #define S626_MC1_A1IN		0x0001	/* Enab/disable transfer on A1 in. */
192 
193 /* Master Control Register 2 (MC2) constants. */
194 #define S626_MC2_UPLD_DEBI	0x0002	/* Upload DEBI. */
195 #define S626_MC2_UPLD_IIC	0x0001	/* Upload I2C. */
196 #define S626_MC2_RPSSIG2	0x2000	/* RPS signal 2 (not used). */
197 #define S626_MC2_RPSSIG1	0x1000	/* RPS signal 1 (DAC RPS busy). */
198 #define S626_MC2_RPSSIG0	0x0800	/* RPS signal 0 (ADC RPS busy). */
199 
200 #define S626_MC2_ADC_RPS	S626_MC2_RPSSIG0	/* ADC RPS busy. */
201 #define S626_MC2_DAC_RPS	S626_MC2_RPSSIG1	/* DAC RPS busy. */
202 
203 /* PCI BUS (SAA7146) REGISTER ADDRESS OFFSETS */
204 #define S626_P_PCI_BT_A		0x004C	/* Audio DMA burst/threshold control. */
205 #define S626_P_DEBICFG		0x007C	/* DEBI configuration. */
206 #define S626_P_DEBICMD		0x0080	/* DEBI command. */
207 #define S626_P_DEBIPAGE		0x0084	/* DEBI page. */
208 #define S626_P_DEBIAD		0x0088	/* DEBI target address. */
209 #define S626_P_I2CCTRL		0x008C	/* I2C control. */
210 #define S626_P_I2CSTAT		0x0090	/* I2C status. */
211 #define S626_P_BASEA2_IN	0x00AC	/*
212 					 * Audio input 2 base physical DMAbuf
213 					 * address.
214 					 */
215 #define S626_P_PROTA2_IN	0x00B0	/*
216 					 * Audio input 2 physical DMAbuf
217 					 * protection address.
218 					 */
219 #define S626_P_PAGEA2_IN	0x00B4	/* Audio input 2 paging attributes. */
220 #define S626_P_BASEA2_OUT	0x00B8	/*
221 					 * Audio output 2 base physical DMAbuf
222 					 * address.
223 					 */
224 #define S626_P_PROTA2_OUT	0x00BC	/*
225 					 * Audio output 2 physical DMAbuf
226 					 * protection address.
227 					 */
228 #define S626_P_PAGEA2_OUT	0x00C0	/* Audio output 2 paging attributes. */
229 #define S626_P_RPSPAGE0		0x00C4	/* RPS0 page. */
230 #define S626_P_RPSPAGE1		0x00C8	/* RPS1 page. */
231 #define S626_P_RPS0_TOUT	0x00D4	/* RPS0 time-out. */
232 #define S626_P_RPS1_TOUT	0x00D8	/* RPS1 time-out. */
233 #define S626_P_IER		0x00DC	/* Interrupt enable. */
234 #define S626_P_GPIO		0x00E0	/* General-purpose I/O. */
235 #define S626_P_EC1SSR		0x00E4	/* Event counter set 1 source select. */
236 #define S626_P_ECT1R		0x00EC	/* Event counter threshold set 1. */
237 #define S626_P_ACON1		0x00F4	/* Audio control 1. */
238 #define S626_P_ACON2		0x00F8	/* Audio control 2. */
239 #define S626_P_MC1		0x00FC	/* Master control 1. */
240 #define S626_P_MC2		0x0100	/* Master control 2. */
241 #define S626_P_RPSADDR0		0x0104	/* RPS0 instruction pointer. */
242 #define S626_P_RPSADDR1		0x0108	/* RPS1 instruction pointer. */
243 #define S626_P_ISR		0x010C	/* Interrupt status. */
244 #define S626_P_PSR		0x0110	/* Primary status. */
245 #define S626_P_SSR		0x0114	/* Secondary status. */
246 #define S626_P_EC1R		0x0118	/* Event counter set 1. */
247 #define S626_P_ADP4		0x0138	/*
248 					 * Logical audio DMA pointer of audio
249 					 * input FIFO A2_IN.
250 					 */
251 #define S626_P_FB_BUFFER1	0x0144	/* Audio feedback buffer 1. */
252 #define S626_P_FB_BUFFER2	0x0148	/* Audio feedback buffer 2. */
253 #define S626_P_TSL1		0x0180	/* Audio time slot list 1. */
254 #define S626_P_TSL2		0x01C0	/* Audio time slot list 2. */
255 
256 /* LOCAL BUS (GATE ARRAY) REGISTER ADDRESS OFFSETS */
257 /* Analog I/O registers: */
258 #define S626_LP_DACPOL		0x0082	/* Write DAC polarity. */
259 #define S626_LP_GSEL		0x0084	/* Write ADC gain. */
260 #define S626_LP_ISEL		0x0086	/* Write ADC channel select. */
261 
262 /* Digital I/O registers */
263 #define S626_LP_RDDIN(x)	(0x0040 + (x) * 0x10)	/* R: digital input */
264 #define S626_LP_WRINTSEL(x)	(0x0042 + (x) * 0x10)	/* W: int enable */
265 #define S626_LP_WREDGSEL(x)	(0x0044 + (x) * 0x10)	/* W: edge selection */
266 #define S626_LP_WRCAPSEL(x)	(0x0046 + (x) * 0x10)	/* W: capture enable */
267 #define S626_LP_RDCAPFLG(x)	(0x0048 + (x) * 0x10)	/* R: edges captured */
268 #define S626_LP_WRDOUT(x)	(0x0048 + (x) * 0x10)	/* W: digital output */
269 #define S626_LP_RDINTSEL(x)	(0x004a + (x) * 0x10)	/* R: int enable */
270 #define S626_LP_RDEDGSEL(x)	(0x004c + (x) * 0x10)	/* R: edge selection */
271 #define S626_LP_RDCAPSEL(x)	(0x004e + (x) * 0x10)	/* R: capture enable */
272 
273 /* Counter registers (read/write): 0A 1A 2A 0B 1B 2B */
274 #define S626_LP_CRA(x)		(0x0000 + (((x) % 3) * 0x4))
275 #define S626_LP_CRB(x)		(0x0002 + (((x) % 3) * 0x4))
276 
277 /* Counter PreLoad (write) and Latch (read) Registers: 0A 1A 2A 0B 1B 2B */
278 #define S626_LP_CNTR(x)		(0x000c  + (((x) < 3) ? 0x0 : 0x4) + \
279 					   (((x) % 3) * 0x8))
280 
281 /* Miscellaneous Registers (read/write): */
282 #define S626_LP_MISC1		0x0088	/* Read/write Misc1. */
283 #define S626_LP_WRMISC2		0x0090	/* Write Misc2. */
284 #define S626_LP_RDMISC2		0x0082	/* Read Misc2. */
285 
286 /* Bit masks for MISC1 register that are the same for reads and writes. */
287 #define S626_MISC1_WENABLE	0x8000	/*
288 					 * enab writes to MISC2 (except Clear
289 					 * Watchdog bit).
290 					 */
291 #define S626_MISC1_WDISABLE	0x0000	/* Disable writes to MISC2. */
292 #define S626_MISC1_EDCAP	0x1000	/*
293 					 * Enable edge capture on DIO chans
294 					 * specified by S626_LP_WRCAPSELx.
295 					 */
296 #define S626_MISC1_NOEDCAP	0x0000	/*
297 					 * Disable edge capture on specified
298 					 * DIO chans.
299 					 */
300 
301 /* Bit masks for MISC1 register reads. */
302 #define S626_RDMISC1_WDTIMEOUT	0x4000	/* Watchdog timer timed out. */
303 
304 /* Bit masks for MISC2 register writes. */
305 #define S626_WRMISC2_WDCLEAR	0x8000	/* Reset watchdog timer to zero. */
306 #define S626_WRMISC2_CHARGE_ENABLE 0x4000 /* Enable battery trickle charging. */
307 
308 /* Bit masks for MISC2 register that are the same for reads and writes. */
309 #define S626_MISC2_BATT_ENABLE	0x0008	/* Backup battery enable. */
310 #define S626_MISC2_WDENABLE	0x0004	/* Watchdog timer enable. */
311 #define S626_MISC2_WDPERIOD_MASK 0x0003	/* Watchdog interval select mask. */
312 
313 /* Bit masks for ACON1 register. */
314 #define S626_A2_RUN		0x40000000	/* Run A2 based on TSL2. */
315 #define S626_A1_RUN		0x20000000	/* Run A1 based on TSL1. */
316 #define S626_A1_SWAP		0x00200000	/* Use big-endian for A1. */
317 #define S626_A2_SWAP		0x00100000	/* Use big-endian for A2. */
318 #define S626_WS_MODES		0x00019999	/*
319 						 * WS0 = TSL1 trigger input,
320 						 * WS1-WS4 = CS* outputs.
321 						 */
322 
323 #if (S626_PLATFORM == S626_INTEL)	/*
324 					 * Base ACON1 config: always run
325 					 * A1 based on TSL1.
326 					 */
327 #define S626_ACON1_BASE		(S626_WS_MODES | S626_A1_RUN)
328 #elif S626_PLATFORM == S626_MOTOROLA
329 #define S626_ACON1_BASE		\
330 	(S626_WS_MODES | S626_A1_RUN | S626_A1_SWAP | S626_A2_SWAP)
331 #endif
332 
333 #define S626_ACON1_ADCSTART	S626_ACON1_BASE	/*
334 						 * Start ADC: run A1
335 						 * based on TSL1.
336 						 */
337 #define S626_ACON1_DACSTART	(S626_ACON1_BASE | S626_A2_RUN)
338 /* Start transmit to DAC: run A2 based on TSL2. */
339 #define S626_ACON1_DACSTOP	S626_ACON1_BASE	/* Halt A2. */
340 
341 /* Bit masks for ACON2 register. */
342 #define S626_A1_CLKSRC_BCLK1	0x00000000	/* A1 bit rate = BCLK1 (ADC). */
343 #define S626_A2_CLKSRC_X1	0x00800000	/*
344 						 * A2 bit rate = ACLK/1
345 						 * (DACs).
346 						 */
347 #define S626_A2_CLKSRC_X2	0x00C00000	/*
348 						 * A2 bit rate = ACLK/2
349 						 * (DACs).
350 						 */
351 #define S626_A2_CLKSRC_X4	0x01400000	/*
352 						 * A2 bit rate = ACLK/4
353 						 * (DACs).
354 						 */
355 #define S626_INVERT_BCLK2	0x00100000	/* Invert BCLK2 (DACs). */
356 #define S626_BCLK2_OE		0x00040000	/* Enable BCLK2 (DACs). */
357 #define S626_ACON2_XORMASK	0x000C0000	/*
358 						 * XOR mask for ACON2
359 						 * active-low bits.
360 						 */
361 
362 #define S626_ACON2_INIT		(S626_ACON2_XORMASK ^ \
363 				 (S626_A1_CLKSRC_BCLK1 | S626_A2_CLKSRC_X2 | \
364 				  S626_INVERT_BCLK2 | S626_BCLK2_OE))
365 
366 /* Bit masks for timeslot records. */
367 #define S626_WS1		0x40000000	/* WS output to assert. */
368 #define S626_WS2		0x20000000
369 #define S626_WS3		0x10000000
370 #define S626_WS4		0x08000000
371 #define S626_RSD1		0x01000000	/* Shift A1 data in on SD1. */
372 #define S626_SDW_A1		0x00800000	/*
373 						 * Store rcv'd char at next char
374 						 * slot of DWORD1 buffer.
375 						 */
376 #define S626_SIB_A1		0x00400000	/*
377 						 * Store rcv'd char at next
378 						 * char slot of FB1 buffer.
379 						 */
380 #define S626_SF_A1		0x00200000	/*
381 						 * Write unsigned long
382 						 * buffer to input FIFO.
383 						 */
384 
385 /* Select parallel-to-serial converter's data source: */
386 #define S626_XFIFO_0		0x00000000	/* Data fifo byte 0. */
387 #define S626_XFIFO_1		0x00000010	/* Data fifo byte 1. */
388 #define S626_XFIFO_2		0x00000020	/* Data fifo byte 2. */
389 #define S626_XFIFO_3		0x00000030	/* Data fifo byte 3. */
390 #define S626_XFB0		0x00000040	/* FB_BUFFER byte 0. */
391 #define S626_XFB1		0x00000050	/* FB_BUFFER byte 1. */
392 #define S626_XFB2		0x00000060	/* FB_BUFFER byte 2. */
393 #define S626_XFB3		0x00000070	/* FB_BUFFER byte 3. */
394 #define S626_SIB_A2		0x00000200	/*
395 						 * Store next dword from A2's
396 						 * input shifter to FB2
397 						 * buffer.
398 						 */
399 #define S626_SF_A2		0x00000100	/*
400 						 * Store next dword from A2's
401 						 * input shifter to its input
402 						 * fifo.
403 						 */
404 #define S626_LF_A2		0x00000080	/*
405 						 * Load next dword from A2's
406 						 * output fifo into its
407 						 * output dword buffer.
408 						 */
409 #define S626_XSD2		0x00000008	/* Shift data out on SD2. */
410 #define S626_RSD3		0x00001800	/* Shift data in on SD3. */
411 #define S626_RSD2		0x00001000	/* Shift data in on SD2. */
412 #define S626_LOW_A2		0x00000002	/*
413 						 * Drive last SD low for 7 clks,
414 						 * then tri-state.
415 						 */
416 #define S626_EOS		0x00000001	/* End of superframe. */
417 
418 /* I2C configuration constants. */
419 #define S626_I2C_CLKSEL		0x0400		/*
420 						 * I2C bit rate =
421 						 * PCIclk/480 = 68.75 KHz.
422 						 */
423 #define S626_I2C_BITRATE	68.75		/*
424 						 * I2C bus data bit rate
425 						 * (determined by
426 						 * S626_I2C_CLKSEL) in KHz.
427 						 */
428 #define S626_I2C_WRTIME		15.0		/*
429 						 * Worst case time, in msec,
430 						 * for EEPROM internal write
431 						 * op.
432 						 */
433 
434 /* I2C manifest constants. */
435 
436 /* Max retries to wait for EEPROM write. */
437 #define S626_I2C_RETRIES	(S626_I2C_WRTIME * S626_I2C_BITRATE / 9.0)
438 #define S626_I2C_ERR		0x0002	/* I2C control/status flag ERROR. */
439 #define S626_I2C_BUSY		0x0001	/* I2C control/status flag BUSY. */
440 #define S626_I2C_ABORT		0x0080	/* I2C status flag ABORT. */
441 #define S626_I2C_ATTRSTART	0x3	/* I2C attribute START. */
442 #define S626_I2C_ATTRCONT	0x2	/* I2C attribute CONT. */
443 #define S626_I2C_ATTRSTOP	0x1	/* I2C attribute STOP. */
444 #define S626_I2C_ATTRNOP	0x0	/* I2C attribute NOP. */
445 
446 /* Code macros used for constructing I2C command bytes. */
447 #define S626_I2C_B2(ATTR, VAL)	(((ATTR) << 6) | ((VAL) << 24))
448 #define S626_I2C_B1(ATTR, VAL)	(((ATTR) << 4) | ((VAL) << 16))
449 #define S626_I2C_B0(ATTR, VAL)	(((ATTR) << 2) | ((VAL) <<  8))
450 
451 /* DEBI command constants. */
452 #define S626_DEBI_CMD_SIZE16	(2 << 17)	/*
453 						 * Transfer size is always
454 						 * 2 bytes.
455 						 */
456 #define S626_DEBI_CMD_READ	0x00010000	/* Read operation. */
457 #define S626_DEBI_CMD_WRITE	0x00000000	/* Write operation. */
458 
459 /* Read immediate 2 bytes. */
460 #define S626_DEBI_CMD_RDWORD	(S626_DEBI_CMD_READ | S626_DEBI_CMD_SIZE16)
461 
462 /* Write immediate 2 bytes. */
463 #define S626_DEBI_CMD_WRWORD	(S626_DEBI_CMD_WRITE | S626_DEBI_CMD_SIZE16)
464 
465 /* DEBI configuration constants. */
466 #define S626_DEBI_CFG_XIRQ_EN	0x80000000	/*
467 						 * Enable external interrupt
468 						 * on GPIO3.
469 						 */
470 #define S626_DEBI_CFG_XRESUME	0x40000000	/* Resume block */
471 						/*
472 						 * Transfer when XIRQ
473 						 * deasserted.
474 						 */
475 #define S626_DEBI_CFG_TOQ	0x03C00000	/* Timeout (15 PCI cycles). */
476 #define S626_DEBI_CFG_FAST	0x10000000	/* Fast mode enable. */
477 
478 /* 4-bit field that specifies DEBI timeout value in PCI clock cycles: */
479 #define S626_DEBI_CFG_TOUT_BIT	22	/*
480 					 * Finish DEBI cycle after this many
481 					 * clocks.
482 					 */
483 
484 /* 2-bit field that specifies Endian byte lane steering: */
485 #define S626_DEBI_CFG_SWAP_NONE	0x00000000	/*
486 						 * Straight - don't swap any
487 						 * bytes (Intel).
488 						 */
489 #define S626_DEBI_CFG_SWAP_2	0x00100000	/* 2-byte swap (Motorola). */
490 #define S626_DEBI_CFG_SWAP_4	0x00200000	/* 4-byte swap. */
491 #define S626_DEBI_CFG_SLAVE16	0x00080000	/*
492 						 * Slave is able to serve
493 						 * 16-bit cycles.
494 						 */
495 #define S626_DEBI_CFG_INC	0x00040000	/*
496 						 * Enable address increment
497 						 * for block transfers.
498 						 */
499 #define S626_DEBI_CFG_INTEL	0x00020000	/* Intel style local bus. */
500 #define S626_DEBI_CFG_TIMEROFF	0x00010000	/* Disable timer. */
501 
502 #if S626_PLATFORM == S626_INTEL
503 
504 #define S626_DEBI_TOUT		7	/*
505 					 * Wait 7 PCI clocks (212 ns) before
506 					 * polling RDY.
507 					 */
508 
509 /* Intel byte lane steering (pass through all byte lanes). */
510 #define S626_DEBI_SWAP		S626_DEBI_CFG_SWAP_NONE
511 
512 #elif S626_PLATFORM == S626_MOTOROLA
513 
514 #define S626_DEBI_TOUT		15	/*
515 					 * Wait 15 PCI clocks (454 ns) maximum
516 					 * before timing out.
517 					 */
518 
519 /* Motorola byte lane steering. */
520 #define S626_DEBI_SWAP		S626_DEBI_CFG_SWAP_2
521 
522 #endif
523 
524 /* DEBI page table constants. */
525 #define S626_DEBI_PAGE_DISABLE	0x00000000	/* Paging disable. */
526 
527 /* ******* EXTRA FROM OTHER SENSORAY  * .h  ******* */
528 
529 /* LoadSrc values: */
530 #define S626_LOADSRC_INDX	0	/* Preload core in response to Index. */
531 #define S626_LOADSRC_OVER	1	/*
532 					 * Preload core in response to
533 					 * Overflow.
534 					 */
535 #define S626_LOADSRCB_OVERA	2	/*
536 					 * Preload B core in response to
537 					 * A Overflow.
538 					 */
539 #define S626_LOADSRC_NONE	3	/* Never preload core. */
540 
541 /* IntSrc values: */
542 #define S626_INTSRC_NONE	0	/* Interrupts disabled. */
543 #define S626_INTSRC_OVER	1	/* Interrupt on Overflow. */
544 #define S626_INTSRC_INDX	2	/* Interrupt on Index. */
545 #define S626_INTSRC_BOTH	3	/* Interrupt on Index or Overflow. */
546 
547 /* LatchSrc values: */
548 #define S626_LATCHSRC_AB_READ	0	/* Latch on read. */
549 #define S626_LATCHSRC_A_INDXA	1	/* Latch A on A Index. */
550 #define S626_LATCHSRC_B_INDXB	2	/* Latch B on B Index. */
551 #define S626_LATCHSRC_B_OVERA	3	/* Latch B on A Overflow. */
552 
553 /* IndxSrc values: */
554 #define S626_INDXSRC_ENCODER	0	/* Encoder. */
555 #define S626_INDXSRC_DIGIN	1	/* Digital inputs. */
556 #define S626_INDXSRC_SOFT	2	/* S/w controlled by IndxPol bit. */
557 #define S626_INDXSRC_DISABLED	3	/* Index disabled. */
558 
559 /* IndxPol values: */
560 #define S626_INDXPOL_POS	0	/* Index input is active high. */
561 #define S626_INDXPOL_NEG	1	/* Index input is active low. */
562 
563 /* Logical encoder mode values: */
564 #define S626_ENCMODE_COUNTER	0	/* Counter mode. */
565 #define S626_ENCMODE_TIMER	2	/* Timer mode. */
566 #define S626_ENCMODE_EXTENDER	3	/* Extender mode. */
567 
568 /* Physical CntSrc values (for Counter A source and Counter B source): */
569 #define S626_CNTSRC_ENCODER	0	/* Encoder */
570 #define S626_CNTSRC_DIGIN	1	/* Digital inputs */
571 #define S626_CNTSRC_SYSCLK	2	/* System clock up */
572 #define S626_CNTSRC_SYSCLK_DOWN	3	/* System clock down */
573 
574 /* ClkPol values: */
575 #define S626_CLKPOL_POS		0	/*
576 					 * Counter/Extender clock is
577 					 * active high.
578 					 */
579 #define S626_CLKPOL_NEG		1	/*
580 					 * Counter/Extender clock is
581 					 * active low.
582 					 */
583 #define S626_CNTDIR_UP		0	/* Timer counts up. */
584 #define S626_CNTDIR_DOWN	1	/* Timer counts down. */
585 
586 /* ClkEnab values: */
587 #define S626_CLKENAB_ALWAYS	0	/* Clock always enabled. */
588 #define S626_CLKENAB_INDEX	1	/* Clock is enabled by index. */
589 
590 /* ClkMult values: */
591 #define S626_CLKMULT_4X		0	/* 4x clock multiplier. */
592 #define S626_CLKMULT_2X		1	/* 2x clock multiplier. */
593 #define S626_CLKMULT_1X		2	/* 1x clock multiplier. */
594 #define S626_CLKMULT_SPECIAL	3	/* Special clock multiplier value. */
595 
596 /* Sanity-check limits for parameters. */
597 
598 #define S626_NUM_COUNTERS	6	/*
599 					 * Maximum valid counter
600 					 * logical channel number.
601 					 */
602 #define S626_NUM_INTSOURCES	4
603 #define S626_NUM_LATCHSOURCES	4
604 #define S626_NUM_CLKMULTS	4
605 #define S626_NUM_CLKSOURCES	4
606 #define S626_NUM_CLKPOLS	2
607 #define S626_NUM_INDEXPOLS	2
608 #define S626_NUM_INDEXSOURCES	2
609 #define S626_NUM_LOADTRIGS	4
610 
611 /* General macros for manipulating bitfields: */
612 #define S626_MAKE(x, w, p)	(((x) & ((1 << (w)) - 1)) << (p))
613 #define S626_UNMAKE(v, w, p)	(((v) >> (p)) & ((1 << (w)) - 1))
614 
615 /* Bit field positions in CRA: */
616 #define S626_CRABIT_INDXSRC_B	14	/* B index source. */
617 #define S626_CRABIT_CNTSRC_B	12	/* B counter source. */
618 #define S626_CRABIT_INDXPOL_A	11	/* A index polarity. */
619 #define S626_CRABIT_LOADSRC_A	 9	/* A preload trigger. */
620 #define S626_CRABIT_CLKMULT_A	 7	/* A clock multiplier. */
621 #define S626_CRABIT_INTSRC_A	 5	/* A interrupt source. */
622 #define S626_CRABIT_CLKPOL_A	 4	/* A clock polarity. */
623 #define S626_CRABIT_INDXSRC_A	 2	/* A index source. */
624 #define S626_CRABIT_CNTSRC_A	 0	/* A counter source. */
625 
626 /* Bit field widths in CRA: */
627 #define S626_CRAWID_INDXSRC_B	2
628 #define S626_CRAWID_CNTSRC_B	2
629 #define S626_CRAWID_INDXPOL_A	1
630 #define S626_CRAWID_LOADSRC_A	2
631 #define S626_CRAWID_CLKMULT_A	2
632 #define S626_CRAWID_INTSRC_A	2
633 #define S626_CRAWID_CLKPOL_A	1
634 #define S626_CRAWID_INDXSRC_A	2
635 #define S626_CRAWID_CNTSRC_A	2
636 
637 /* Bit field masks for CRA: */
638 #define S626_CRAMSK_INDXSRC_B	S626_SET_CRA_INDXSRC_B(~0)
639 #define S626_CRAMSK_CNTSRC_B	S626_SET_CRA_CNTSRC_B(~0)
640 #define S626_CRAMSK_INDXPOL_A	S626_SET_CRA_INDXPOL_A(~0)
641 #define S626_CRAMSK_LOADSRC_A	S626_SET_CRA_LOADSRC_A(~0)
642 #define S626_CRAMSK_CLKMULT_A	S626_SET_CRA_CLKMULT_A(~0)
643 #define S626_CRAMSK_INTSRC_A	S626_SET_CRA_INTSRC_A(~0)
644 #define S626_CRAMSK_CLKPOL_A	S626_SET_CRA_CLKPOL_A(~0)
645 #define S626_CRAMSK_INDXSRC_A	S626_SET_CRA_INDXSRC_A(~0)
646 #define S626_CRAMSK_CNTSRC_A	S626_SET_CRA_CNTSRC_A(~0)
647 
648 /* Construct parts of the CRA value: */
649 #define S626_SET_CRA_INDXSRC_B(x)	\
650 	S626_MAKE((x), S626_CRAWID_INDXSRC_B, S626_CRABIT_INDXSRC_B)
651 #define S626_SET_CRA_CNTSRC_B(x)	\
652 	S626_MAKE((x), S626_CRAWID_CNTSRC_B, S626_CRABIT_CNTSRC_B)
653 #define S626_SET_CRA_INDXPOL_A(x)	\
654 	S626_MAKE((x), S626_CRAWID_INDXPOL_A, S626_CRABIT_INDXPOL_A)
655 #define S626_SET_CRA_LOADSRC_A(x)	\
656 	S626_MAKE((x), S626_CRAWID_LOADSRC_A, S626_CRABIT_LOADSRC_A)
657 #define S626_SET_CRA_CLKMULT_A(x)	\
658 	S626_MAKE((x), S626_CRAWID_CLKMULT_A, S626_CRABIT_CLKMULT_A)
659 #define S626_SET_CRA_INTSRC_A(x)	\
660 	S626_MAKE((x), S626_CRAWID_INTSRC_A, S626_CRABIT_INTSRC_A)
661 #define S626_SET_CRA_CLKPOL_A(x)	\
662 	S626_MAKE((x), S626_CRAWID_CLKPOL_A, S626_CRABIT_CLKPOL_A)
663 #define S626_SET_CRA_INDXSRC_A(x)	\
664 	S626_MAKE((x), S626_CRAWID_INDXSRC_A, S626_CRABIT_INDXSRC_A)
665 #define S626_SET_CRA_CNTSRC_A(x)	\
666 	S626_MAKE((x), S626_CRAWID_CNTSRC_A, S626_CRABIT_CNTSRC_A)
667 
668 /* Extract parts of the CRA value: */
669 #define S626_GET_CRA_INDXSRC_B(v)	\
670 	S626_UNMAKE((v), S626_CRAWID_INDXSRC_B, S626_CRABIT_INDXSRC_B)
671 #define S626_GET_CRA_CNTSRC_B(v)	\
672 	S626_UNMAKE((v), S626_CRAWID_CNTSRC_B, S626_CRABIT_CNTSRC_B)
673 #define S626_GET_CRA_INDXPOL_A(v)	\
674 	S626_UNMAKE((v), S626_CRAWID_INDXPOL_A, S626_CRABIT_INDXPOL_A)
675 #define S626_GET_CRA_LOADSRC_A(v)	\
676 	S626_UNMAKE((v), S626_CRAWID_LOADSRC_A, S626_CRABIT_LOADSRC_A)
677 #define S626_GET_CRA_CLKMULT_A(v)	\
678 	S626_UNMAKE((v), S626_CRAWID_CLKMULT_A, S626_CRABIT_CLKMULT_A)
679 #define S626_GET_CRA_INTSRC_A(v)	\
680 	S626_UNMAKE((v), S626_CRAWID_INTSRC_A, S626_CRABIT_INTSRC_A)
681 #define S626_GET_CRA_CLKPOL_A(v)	\
682 	S626_UNMAKE((v), S626_CRAWID_CLKPOL_A, S626_CRABIT_CLKPOL_A)
683 #define S626_GET_CRA_INDXSRC_A(v)	\
684 	S626_UNMAKE((v), S626_CRAWID_INDXSRC_A, S626_CRABIT_INDXSRC_A)
685 #define S626_GET_CRA_CNTSRC_A(v)	\
686 	S626_UNMAKE((v), S626_CRAWID_CNTSRC_A, S626_CRABIT_CNTSRC_A)
687 
688 /* Bit field positions in CRB: */
689 #define S626_CRBBIT_INTRESETCMD	15	/* (w) Interrupt reset command. */
690 #define S626_CRBBIT_CNTDIR_B	15	/* (r) B counter direction. */
691 #define S626_CRBBIT_INTRESET_B	14	/* (w) B interrupt reset enable. */
692 #define S626_CRBBIT_OVERDO_A	14	/* (r) A overflow routed to dig. out. */
693 #define S626_CRBBIT_INTRESET_A	13	/* (w) A interrupt reset enable. */
694 #define S626_CRBBIT_OVERDO_B	13	/* (r) B overflow routed to dig. out. */
695 #define S626_CRBBIT_CLKENAB_A	12	/* A clock enable. */
696 #define S626_CRBBIT_INTSRC_B	10	/* B interrupt source. */
697 #define S626_CRBBIT_LATCHSRC	 8	/* A/B latch source. */
698 #define S626_CRBBIT_LOADSRC_B	 6	/* B preload trigger. */
699 #define S626_CRBBIT_CLEAR_B	 7	/* B cleared when A overflows. */
700 #define S626_CRBBIT_CLKMULT_B	 3	/* B clock multiplier. */
701 #define S626_CRBBIT_CLKENAB_B	 2	/* B clock enable. */
702 #define S626_CRBBIT_INDXPOL_B	 1	/* B index polarity. */
703 #define S626_CRBBIT_CLKPOL_B	 0	/* B clock polarity. */
704 
705 /* Bit field widths in CRB: */
706 #define S626_CRBWID_INTRESETCMD	1
707 #define S626_CRBWID_CNTDIR_B	1
708 #define S626_CRBWID_INTRESET_B	1
709 #define S626_CRBWID_OVERDO_A	1
710 #define S626_CRBWID_INTRESET_A	1
711 #define S626_CRBWID_OVERDO_B	1
712 #define S626_CRBWID_CLKENAB_A	1
713 #define S626_CRBWID_INTSRC_B	2
714 #define S626_CRBWID_LATCHSRC	2
715 #define S626_CRBWID_LOADSRC_B	2
716 #define S626_CRBWID_CLEAR_B	1
717 #define S626_CRBWID_CLKMULT_B	2
718 #define S626_CRBWID_CLKENAB_B	1
719 #define S626_CRBWID_INDXPOL_B	1
720 #define S626_CRBWID_CLKPOL_B	1
721 
722 /* Bit field masks for CRB: */
723 #define S626_CRBMSK_INTRESETCMD	S626_SET_CRB_INTRESETCMD(~0)	/* (w) */
724 #define S626_CRBMSK_CNTDIR_B	S626_CRBMSK_INTRESETCMD		/* (r) */
725 #define S626_CRBMSK_INTRESET_B	S626_SET_CRB_INTRESET_B(~0)	/* (w) */
726 #define S626_CRBMSK_OVERDO_A	S626_CRBMSK_INTRESET_B		/* (r) */
727 #define S626_CRBMSK_INTRESET_A	S626_SET_CRB_INTRESET_A(~0)	/* (w) */
728 #define S626_CRBMSK_OVERDO_B	S626_CRBMSK_INTRESET_A		/* (r) */
729 #define S626_CRBMSK_CLKENAB_A	S626_SET_CRB_CLKENAB_A(~0)
730 #define S626_CRBMSK_INTSRC_B	S626_SET_CRB_INTSRC_B(~0)
731 #define S626_CRBMSK_LATCHSRC	S626_SET_CRB_LATCHSRC(~0)
732 #define S626_CRBMSK_LOADSRC_B	S626_SET_CRB_LOADSRC_B(~0)
733 #define S626_CRBMSK_CLEAR_B	S626_SET_CRB_CLEAR_B(~0)
734 #define S626_CRBMSK_CLKMULT_B	S626_SET_CRB_CLKMULT_B(~0)
735 #define S626_CRBMSK_CLKENAB_B	S626_SET_CRB_CLKENAB_B(~0)
736 #define S626_CRBMSK_INDXPOL_B	S626_SET_CRB_INDXPOL_B(~0)
737 #define S626_CRBMSK_CLKPOL_B	S626_SET_CRB_CLKPOL_B(~0)
738 
739 /* Interrupt reset control bits. */
740 #define S626_CRBMSK_INTCTRL	(S626_CRBMSK_INTRESETCMD | \
741 				 S626_CRBMSK_INTRESET_A | \
742 				 S626_CRBMSK_INTRESET_B)
743 
744 /* Construct parts of the CRB value: */
745 #define S626_SET_CRB_INTRESETCMD(x)	\
746 	S626_MAKE((x), S626_CRBWID_INTRESETCMD, S626_CRBBIT_INTRESETCMD)
747 #define S626_SET_CRB_INTRESET_B(x)	\
748 	S626_MAKE((x), S626_CRBWID_INTRESET_B, S626_CRBBIT_INTRESET_B)
749 #define S626_SET_CRB_INTRESET_A(x)	\
750 	S626_MAKE((x), S626_CRBWID_INTRESET_A, S626_CRBBIT_INTRESET_A)
751 #define S626_SET_CRB_CLKENAB_A(x)	\
752 	S626_MAKE((x), S626_CRBWID_CLKENAB_A, S626_CRBBIT_CLKENAB_A)
753 #define S626_SET_CRB_INTSRC_B(x)	\
754 	S626_MAKE((x), S626_CRBWID_INTSRC_B, S626_CRBBIT_INTSRC_B)
755 #define S626_SET_CRB_LATCHSRC(x)	\
756 	S626_MAKE((x), S626_CRBWID_LATCHSRC, S626_CRBBIT_LATCHSRC)
757 #define S626_SET_CRB_LOADSRC_B(x)	\
758 	S626_MAKE((x), S626_CRBWID_LOADSRC_B, S626_CRBBIT_LOADSRC_B)
759 #define S626_SET_CRB_CLEAR_B(x)	\
760 	S626_MAKE((x), S626_CRBWID_CLEAR_B, S626_CRBBIT_CLEAR_B)
761 #define S626_SET_CRB_CLKMULT_B(x)	\
762 	S626_MAKE((x), S626_CRBWID_CLKMULT_B, S626_CRBBIT_CLKMULT_B)
763 #define S626_SET_CRB_CLKENAB_B(x)	\
764 	S626_MAKE((x), S626_CRBWID_CLKENAB_B, S626_CRBBIT_CLKENAB_B)
765 #define S626_SET_CRB_INDXPOL_B(x)	\
766 	S626_MAKE((x), S626_CRBWID_INDXPOL_B, S626_CRBBIT_INDXPOL_B)
767 #define S626_SET_CRB_CLKPOL_B(x)	\
768 	S626_MAKE((x), S626_CRBWID_CLKPOL_B, S626_CRBBIT_CLKPOL_B)
769 
770 /* Extract parts of the CRB value: */
771 #define S626_GET_CRB_CNTDIR_B(v)	\
772 	S626_UNMAKE((v), S626_CRBWID_CNTDIR_B, S626_CRBBIT_CNTDIR_B)
773 #define S626_GET_CRB_OVERDO_A(v)	\
774 	S626_UNMAKE((v), S626_CRBWID_OVERDO_A, S626_CRBBIT_OVERDO_A)
775 #define S626_GET_CRB_OVERDO_B(v)	\
776 	S626_UNMAKE((v), S626_CRBWID_OVERDO_B, S626_CRBBIT_OVERDO_B)
777 #define S626_GET_CRB_CLKENAB_A(v)	\
778 	S626_UNMAKE((v), S626_CRBWID_CLKENAB_A, S626_CRBBIT_CLKENAB_A)
779 #define S626_GET_CRB_INTSRC_B(v)	\
780 	S626_UNMAKE((v), S626_CRBWID_INTSRC_B, S626_CRBBIT_INTSRC_B)
781 #define S626_GET_CRB_LATCHSRC(v)	\
782 	S626_UNMAKE((v), S626_CRBWID_LATCHSRC, S626_CRBBIT_LATCHSRC)
783 #define S626_GET_CRB_LOADSRC_B(v)	\
784 	S626_UNMAKE((v), S626_CRBWID_LOADSRC_B, S626_CRBBIT_LOADSRC_B)
785 #define S626_GET_CRB_CLEAR_B(v)	\
786 	S626_UNMAKE((v), S626_CRBWID_CLEAR_B, S626_CRBBIT_CLEAR_B)
787 #define S626_GET_CRB_CLKMULT_B(v)	\
788 	S626_UNMAKE((v), S626_CRBWID_CLKMULT_B, S626_CRBBIT_CLKMULT_B)
789 #define S626_GET_CRB_CLKENAB_B(v)	\
790 	S626_UNMAKE((v), S626_CRBWID_CLKENAB_B, S626_CRBBIT_CLKENAB_B)
791 #define S626_GET_CRB_INDXPOL_B(v)	\
792 	S626_UNMAKE((v), S626_CRBWID_INDXPOL_B, S626_CRBBIT_INDXPOL_B)
793 #define S626_GET_CRB_CLKPOL_B(v)	\
794 	S626_UNMAKE((v), S626_CRBWID_CLKPOL_B, S626_CRBBIT_CLKPOL_B)
795 
796 /* Bit field positions for standardized SETUP structure: */
797 #define S626_STDBIT_INTSRC	13
798 #define S626_STDBIT_LATCHSRC	11
799 #define S626_STDBIT_LOADSRC	 9
800 #define S626_STDBIT_INDXSRC	 7
801 #define S626_STDBIT_INDXPOL	 6
802 #define S626_STDBIT_ENCMODE	 4
803 #define S626_STDBIT_CLKPOL	 3
804 #define S626_STDBIT_CLKMULT	 1
805 #define S626_STDBIT_CLKENAB	 0
806 
807 /* Bit field widths for standardized SETUP structure: */
808 #define S626_STDWID_INTSRC	2
809 #define S626_STDWID_LATCHSRC	2
810 #define S626_STDWID_LOADSRC	2
811 #define S626_STDWID_INDXSRC	2
812 #define S626_STDWID_INDXPOL	1
813 #define S626_STDWID_ENCMODE	2
814 #define S626_STDWID_CLKPOL	1
815 #define S626_STDWID_CLKMULT	2
816 #define S626_STDWID_CLKENAB	1
817 
818 /* Bit field masks for standardized SETUP structure: */
819 #define S626_STDMSK_INTSRC	S626_SET_STD_INTSRC(~0)
820 #define S626_STDMSK_LATCHSRC	S626_SET_STD_LATCHSRC(~0)
821 #define S626_STDMSK_LOADSRC	S626_SET_STD_LOADSRC(~0)
822 #define S626_STDMSK_INDXSRC	S626_SET_STD_INDXSRC(~0)
823 #define S626_STDMSK_INDXPOL	S626_SET_STD_INDXPOL(~0)
824 #define S626_STDMSK_ENCMODE	S626_SET_STD_ENCMODE(~0)
825 #define S626_STDMSK_CLKPOL	S626_SET_STD_CLKPOL(~0)
826 #define S626_STDMSK_CLKMULT	S626_SET_STD_CLKMULT(~0)
827 #define S626_STDMSK_CLKENAB	S626_SET_STD_CLKENAB(~0)
828 
829 /* Construct parts of standardized SETUP structure: */
830 #define S626_SET_STD_INTSRC(x)	\
831 	S626_MAKE((x), S626_STDWID_INTSRC, S626_STDBIT_INTSRC)
832 #define S626_SET_STD_LATCHSRC(x)	\
833 	S626_MAKE((x), S626_STDWID_LATCHSRC, S626_STDBIT_LATCHSRC)
834 #define S626_SET_STD_LOADSRC(x)	\
835 	S626_MAKE((x), S626_STDWID_LOADSRC, S626_STDBIT_LOADSRC)
836 #define S626_SET_STD_INDXSRC(x)	\
837 	S626_MAKE((x), S626_STDWID_INDXSRC, S626_STDBIT_INDXSRC)
838 #define S626_SET_STD_INDXPOL(x)	\
839 	S626_MAKE((x), S626_STDWID_INDXPOL, S626_STDBIT_INDXPOL)
840 #define S626_SET_STD_ENCMODE(x)	\
841 	S626_MAKE((x), S626_STDWID_ENCMODE, S626_STDBIT_ENCMODE)
842 #define S626_SET_STD_CLKPOL(x)	\
843 	S626_MAKE((x), S626_STDWID_CLKPOL, S626_STDBIT_CLKPOL)
844 #define S626_SET_STD_CLKMULT(x)	\
845 	S626_MAKE((x), S626_STDWID_CLKMULT, S626_STDBIT_CLKMULT)
846 #define S626_SET_STD_CLKENAB(x)	\
847 	S626_MAKE((x), S626_STDWID_CLKENAB, S626_STDBIT_CLKENAB)
848 
849 /* Extract parts of standardized SETUP structure: */
850 #define S626_GET_STD_INTSRC(v)	\
851 	S626_UNMAKE((v), S626_STDWID_INTSRC, S626_STDBIT_INTSRC)
852 #define S626_GET_STD_LATCHSRC(v)	\
853 	S626_UNMAKE((v), S626_STDWID_LATCHSRC, S626_STDBIT_LATCHSRC)
854 #define S626_GET_STD_LOADSRC(v)	\
855 	S626_UNMAKE((v), S626_STDWID_LOADSRC, S626_STDBIT_LOADSRC)
856 #define S626_GET_STD_INDXSRC(v)	\
857 	S626_UNMAKE((v), S626_STDWID_INDXSRC, S626_STDBIT_INDXSRC)
858 #define S626_GET_STD_INDXPOL(v)	\
859 	S626_UNMAKE((v), S626_STDWID_INDXPOL, S626_STDBIT_INDXPOL)
860 #define S626_GET_STD_ENCMODE(v)	\
861 	S626_UNMAKE((v), S626_STDWID_ENCMODE, S626_STDBIT_ENCMODE)
862 #define S626_GET_STD_CLKPOL(v)	\
863 	S626_UNMAKE((v), S626_STDWID_CLKPOL, S626_STDBIT_CLKPOL)
864 #define S626_GET_STD_CLKMULT(v)	\
865 	S626_UNMAKE((v), S626_STDWID_CLKMULT, S626_STDBIT_CLKMULT)
866 #define S626_GET_STD_CLKENAB(v)	\
867 	S626_UNMAKE((v), S626_STDWID_CLKENAB, S626_STDBIT_CLKENAB)
868 
869 #endif
870