xref: /freebsd/sys/dev/ppbus/ppb_msq.h (revision 02e9120893770924227138ba49df1edb3896112a)
1 /*-
2  * SPDX-License-Identifier: BSD-2-Clause
3  *
4  * Copyright (c) 1998 Nicolas Souchu
5  * All rights reserved.
6  *
7  * Redistribution and use in source and binary forms, with or without
8  * modification, are permitted provided that the following conditions
9  * are met:
10  * 1. Redistributions of source code must retain the above copyright
11  *    notice, this list of conditions and the following disclaimer.
12  * 2. Redistributions in binary form must reproduce the above copyright
13  *    notice, this list of conditions and the following disclaimer in the
14  *    documentation and/or other materials provided with the distribution.
15  *
16  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
17  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
19  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
20  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
21  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
22  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
23  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
24  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
25  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
26  * SUCH DAMAGE.
27  *
28  */
29 #ifndef __PPB_MSQ_H
30 #define __PPB_MSQ_H
31 
32 /*
33  * Basic definitions
34  */
35 
36 /* microsequence parameter descriptor */
37 #define MS_INS_MASK	0x00ff	/* mask to retrieve the instruction position < 256	XXX */
38 #define MS_ARG_MASK	0x0f00	/* mask to retrieve the argument number */
39 #define MS_TYP_MASK	0xf000	/* mask to retrieve the type of the param */
40 
41 /* offset of each mask (see above) */
42 #define MS_INS_OFFSET	0
43 #define MS_ARG_OFFSET	8
44 #define MS_TYP_OFFSET	12
45 
46 /* list of parameter types */
47 #define MS_TYP_INT	0x0	/* integer */
48 #define MS_TYP_CHA	0x1	/* character */
49 #define MS_TYP_PTR	0x2	/* void pointer */
50 #define MS_TYP_FUN	0x3	/* function pointer */
51 
52 #define MS_PARAM(ins,arg,typ) \
53 	(((ins<<MS_INS_OFFSET) & MS_INS_MASK) | \
54 	 ((arg<<MS_ARG_OFFSET) & MS_ARG_MASK) | \
55 	 ((typ<<MS_TYP_OFFSET) & MS_TYP_MASK))
56 
57 #define MS_INS(param) ((param & MS_INS_MASK) >> MS_INS_OFFSET)
58 #define MS_ARG(param) ((param & MS_ARG_MASK) >> MS_ARG_OFFSET)
59 #define MS_TYP(param) ((param & MS_TYP_MASK) >> MS_TYP_OFFSET)
60 
61 /* microsequence opcodes - do not change! */
62 #define MS_OP_GET       0	/* get <ptr>, <len>			*/
63 #define MS_OP_PUT       1	/* put <ptr>, <len>			*/
64 
65 #define MS_OP_RFETCH	2	/* rfetch <reg>, <mask>, <ptr>		*/
66 #define MS_OP_RSET	3	/* rset <reg>, <mask>, <mask>		*/
67 #define MS_OP_RASSERT	4	/* rassert <reg>, <mask>		*/
68 #define MS_OP_DELAY     5	/* delay <val>				*/
69 #define MS_OP_SET       6	/* set <val>				*/
70 #define MS_OP_DBRA      7	/* dbra <offset>			*/
71 #define MS_OP_BRSET     8	/* brset <mask>, <offset>		*/
72 #define MS_OP_BRCLEAR   9	/* brclear <mask>, <offset>		*/
73 #define MS_OP_RET       10	/* ret <retcode>			*/
74 #define MS_OP_C_CALL	11	/* c_call <function>, <parameter>	*/
75 #define MS_OP_PTR	12	/* ptr <pointer>			*/
76 #define MS_OP_ADELAY	13	/* adelay <val>				*/
77 #define MS_OP_BRSTAT	14	/* brstat <mask>, <mask>, <offset>	*/
78 #define MS_OP_SUBRET	15	/* subret <code>			*/
79 #define MS_OP_CALL	16	/* call <microsequence>			*/
80 #define MS_OP_RASSERT_P	17	/* rassert_p <iter>, <reg>		*/
81 #define MS_OP_RFETCH_P	18	/* rfetch_p <iter>, <reg>, <mask>	*/
82 #define MS_OP_TRIG	19	/* trigger <reg>, <len>, <array>	*/
83 
84 /* common masks */
85 #define MS_CLEAR_ALL	0x0
86 #define MS_ASSERT_NONE	0x0
87 #define MS_ASSERT_ALL	0xff
88 #define MS_FETCH_ALL	0xff
89 
90 /* undefined parameter value */
91 #define MS_NULL		0
92 #define MS_UNKNOWN	MS_NULL
93 
94 /* predifined parameters */
95 #define MS_ACCUM	-1	/* use accum previously set by MS_OP_SET */
96 
97 /* these are register numbers according to our PC-like parallel port model */
98 #define MS_REG_DTR	0x0
99 #define MS_REG_STR	0x1
100 #define MS_REG_CTR	0x2
101 #define MS_REG_EPP_A	0x3
102 #define MS_REG_EPP_D	0x4
103 
104 /*
105  * Microsequence macro abstraction level
106  */
107 
108 /* register operations */
109 #define MS_RSET(reg,assert,clear) { MS_OP_RSET, {{ (reg) }, { (assert) }, { (clear) }}}
110 #define MS_RASSERT(reg,byte)	  { MS_OP_RASSERT, { { (reg) }, { (byte) }}}
111 #define MS_RCLR(reg,clear)	  { MS_OP_RSET, {{ (reg) }, { MS_ASSERT_NONE }, { (clear) }}}
112 #define MS_RFETCH(reg,mask,ptr) { MS_OP_RFETCH, {{ (reg) }, { (mask) }, { (ptr) }}}
113 
114 /* trigger the port with array[char, delay,...] */
115 #define MS_TRIG(reg,len,array)	{ MS_OP_TRIG, {{ (reg) }, { (len) }, { (array) }}}
116 
117 /* assert/fetch from/to ptr */
118 #define MS_RASSERT_P(n,reg)	  { MS_OP_RASSERT_P, {{ (n) }, { (reg) }}}
119 #define MS_RFETCH_P(n,reg,mask)	  { MS_OP_RFETCH_P, {{ (n) }, { (reg) }, { (mask) }}}
120 
121 /* ptr manipulation */
122 #define MS_PTR(ptr)	{ MS_OP_PTR, {{ (ptr) }}}
123 
124 #define MS_DASS(byte) MS_RASSERT(MS_REG_DTR,byte)
125 #define MS_SASS(byte) MS_RASSERT(MS_REG_STR,byte)
126 #define MS_CASS(byte) MS_RASSERT(MS_REG_CTR,byte)
127 #define MS_SET(accum)		{ MS_OP_SET, {{ (accum) }}}
128 #define MS_BRSET(mask,offset)	{ MS_OP_BRSET, {{ (mask) }, { (offset) }}}
129 #define MS_DBRA(offset)		{ MS_OP_DBRA, {{ (offset) }}}
130 #define MS_BRCLEAR(mask,offset)	{ MS_OP_BRCLEAR, {{ (mask) }, { (offset) }}}
131 #define MS_BRSTAT(mask_set,mask_clr,offset) \
132 		{ MS_OP_BRSTAT, {{ mask_set }, { mask_clr }, { (offset) }}}
133 
134 /* C function or submicrosequence call */
135 #define MS_C_CALL(function,parameter) \
136 		{ MS_OP_C_CALL, {{ (function) }, { (parameter) }}}
137 #define MS_CALL(microseq) { MS_OP_CALL, {{ (microseq) }}}
138 
139 /* mode dependent read/write operations
140  * ppb_MS_xxx_init() call required otherwise default is
141  * IEEE1284 operating mode */
142 #define MS_PUT(ptr,len) { MS_OP_PUT, {{ (ptr) }, { (len) }}}
143 #define MS_GET(ptr,len) { MS_OP_GET, {{ (ptr) }, { (len) }}}
144 
145 /* delay in microseconds */
146 #define MS_DELAY(udelay) { MS_OP_DELAY, {{ (udelay) }}}
147 
148 /* asynchroneous delay in ms */
149 #define MS_ADELAY(mdelay) { MS_OP_ADELAY, {{ (mdelay) }}}
150 
151 /* return from submicrosequence execution or microseqence execution */
152 #define MS_SUBRET(code)	{ MS_OP_SUBRET,	{{ (code) }}}
153 #define MS_RET(code)	{ MS_OP_RET, {{ (code) }}}
154 
155 /*
156  * Function abstraction level
157  */
158 
159 #define ppb_MS_GET_init(bus,dev,body) ppb_MS_init(bus, dev, body, MS_OP_GET)
160 
161 #define ppb_MS_PUT_init(bus,dev,body) ppb_MS_init(bus, dev, body, MS_OP_PUT)
162 
163 extern int ppb_MS_init(
164 		device_t,			/* ppbus bus */
165 		device_t,			/* ppbus device */
166 		struct ppb_microseq *,		/* loop msq to assign */
167 		int opcode			/* MS_OP_GET, MS_OP_PUT */
168 		);
169 
170 extern int ppb_MS_init_msq(
171 		struct ppb_microseq *,
172 		int,				/* number of parameters */
173 		...				/* descriptor, value, ... */
174 		);
175 
176 extern int ppb_MS_exec(
177 		device_t,			/* ppbus bus */
178 		device_t,			/* ppbus device */
179 		int,				/* microseq opcode */
180 		union ppb_insarg,		/* param1 */
181 		union ppb_insarg,		/* param2 */
182 		union ppb_insarg,		/* param3 */
183 		int *				/* returned value */
184 		);
185 
186 extern int ppb_MS_loop(
187 		device_t,			/* ppbus bus */
188 		device_t,			/* ppbus device */
189 		struct ppb_microseq *,		/* prologue msq of loop */
190 		struct ppb_microseq *,		/* body msq of loop */
191 		struct ppb_microseq *,		/* epilogue msq of loop */
192 		int,				/* number of iter */
193 		int *				/* returned value */
194 		);
195 
196 extern int ppb_MS_microseq(
197 		device_t,			/* ppbus bus */
198 		device_t,			/* ppbus device */
199 		struct ppb_microseq *,		/* msq to execute */
200 		int *				/* returned value */
201 		);
202 
203 #endif
204