xref: /openbmc/linux/drivers/usb/serial/whiteheat.h (revision dc6a81c3)
1 // SPDX-License-Identifier: GPL-2.0+
2 /*
3  * USB ConnectTech WhiteHEAT driver
4  *
5  *      Copyright (C) 2002
6  *          Connect Tech Inc.
7  *
8  *      Copyright (C) 1999, 2000
9  *          Greg Kroah-Hartman (greg@kroah.com)
10  *
11  * See Documentation/usb/usb-serial.rst for more information on using this
12  * driver
13  *
14  */
15 
16 #ifndef __LINUX_USB_SERIAL_WHITEHEAT_H
17 #define __LINUX_USB_SERIAL_WHITEHEAT_H
18 
19 
20 /* WhiteHEAT commands */
21 #define WHITEHEAT_OPEN			1	/* open the port */
22 #define WHITEHEAT_CLOSE			2	/* close the port */
23 #define WHITEHEAT_SETUP_PORT		3	/* change port settings */
24 #define WHITEHEAT_SET_RTS		4	/* turn RTS on or off */
25 #define WHITEHEAT_SET_DTR		5	/* turn DTR on or off */
26 #define WHITEHEAT_SET_BREAK		6	/* turn BREAK on or off */
27 #define WHITEHEAT_DUMP			7	/* dump memory */
28 #define WHITEHEAT_STATUS		8	/* get status */
29 #define WHITEHEAT_PURGE			9	/* clear the UART fifos */
30 #define WHITEHEAT_GET_DTR_RTS		10	/* get the state of DTR and RTS
31 							for a port */
32 #define WHITEHEAT_GET_HW_INFO		11	/* get EEPROM info and
33 							hardware ID */
34 #define WHITEHEAT_REPORT_TX_DONE	12	/* get the next TX done */
35 #define WHITEHEAT_EVENT			13	/* unsolicited status events */
36 #define WHITEHEAT_ECHO			14	/* send data to the indicated
37 						   IN endpoint */
38 #define WHITEHEAT_DO_TEST		15	/* perform specified test */
39 #define WHITEHEAT_CMD_COMPLETE		16	/* reply for some commands */
40 #define WHITEHEAT_CMD_FAILURE		17	/* reply for failed commands */
41 
42 
43 /*
44  * Commands to the firmware
45  */
46 
47 
48 /*
49  * WHITEHEAT_OPEN
50  * WHITEHEAT_CLOSE
51  * WHITEHEAT_STATUS
52  * WHITEHEAT_GET_DTR_RTS
53  * WHITEHEAT_REPORT_TX_DONE
54 */
55 struct whiteheat_simple {
56 	__u8	port;	/* port number (1 to N) */
57 };
58 
59 
60 /*
61  * WHITEHEAT_SETUP_PORT
62  */
63 #define WHITEHEAT_PAR_NONE	'n'	/* no parity */
64 #define WHITEHEAT_PAR_EVEN	'e'	/* even parity */
65 #define WHITEHEAT_PAR_ODD	'o'	/* odd parity */
66 #define WHITEHEAT_PAR_SPACE	'0'	/* space (force 0) parity */
67 #define WHITEHEAT_PAR_MARK	'1'	/* mark (force 1) parity */
68 
69 #define WHITEHEAT_SFLOW_NONE	'n'	/* no software flow control */
70 #define WHITEHEAT_SFLOW_RX	'r'	/* XOFF/ON is sent when RX
71 					   fills/empties */
72 #define WHITEHEAT_SFLOW_TX	't'	/* when received XOFF/ON will
73 					   stop/start TX */
74 #define WHITEHEAT_SFLOW_RXTX	'b'	/* both SFLOW_RX and SFLOW_TX */
75 
76 #define WHITEHEAT_HFLOW_NONE		0x00	/* no hardware flow control */
77 #define WHITEHEAT_HFLOW_RTS_TOGGLE	0x01	/* RTS is on during transmit,
78 						   off otherwise */
79 #define WHITEHEAT_HFLOW_DTR		0x02	/* DTR is off/on when RX
80 						   fills/empties */
81 #define WHITEHEAT_HFLOW_CTS		0x08	/* when received CTS off/on
82 						   will stop/start TX */
83 #define WHITEHEAT_HFLOW_DSR		0x10	/* when received DSR off/on
84 						   will stop/start TX */
85 #define WHITEHEAT_HFLOW_RTS		0x80	/* RTS is off/on when RX
86 						   fills/empties */
87 
88 struct whiteheat_port_settings {
89 	__u8	port;		/* port number (1 to N) */
90 	__le32	baud;		/* any value 7 - 460800, firmware calculates
91 				   best fit; arrives little endian */
92 	__u8	bits;		/* 5, 6, 7, or 8 */
93 	__u8	stop;		/* 1 or 2, default 1 (2 = 1.5 if bits = 5) */
94 	__u8	parity;		/* see WHITEHEAT_PAR_* above */
95 	__u8	sflow;		/* see WHITEHEAT_SFLOW_* above */
96 	__u8	xoff;		/* XOFF byte value */
97 	__u8	xon;		/* XON byte value */
98 	__u8	hflow;		/* see WHITEHEAT_HFLOW_* above */
99 	__u8	lloop;		/* 0/1 turns local loopback mode off/on */
100 } __attribute__ ((packed));
101 
102 
103 /*
104  * WHITEHEAT_SET_RTS
105  * WHITEHEAT_SET_DTR
106  * WHITEHEAT_SET_BREAK
107  */
108 #define WHITEHEAT_RTS_OFF	0x00
109 #define WHITEHEAT_RTS_ON	0x01
110 #define WHITEHEAT_DTR_OFF	0x00
111 #define WHITEHEAT_DTR_ON	0x01
112 #define WHITEHEAT_BREAK_OFF	0x00
113 #define WHITEHEAT_BREAK_ON	0x01
114 
115 struct whiteheat_set_rdb {
116 	__u8	port;		/* port number (1 to N) */
117 	__u8	state;		/* 0/1 turns signal off/on */
118 };
119 
120 
121 /*
122  * WHITEHEAT_DUMP
123  */
124 #define WHITEHEAT_DUMP_MEM_DATA		'd'  /* data */
125 #define WHITEHEAT_DUMP_MEM_IDATA	'i'  /* idata */
126 #define WHITEHEAT_DUMP_MEM_BDATA	'b'  /* bdata */
127 #define WHITEHEAT_DUMP_MEM_XDATA	'x'  /* xdata */
128 
129 /*
130  * Allowable address ranges (firmware checks address):
131  * Type DATA:  0x00 - 0xff
132  * Type IDATA: 0x80 - 0xff
133  * Type BDATA: 0x20 - 0x2f
134  * Type XDATA: 0x0000 - 0xffff
135  *
136  * B/I/DATA all read the local memory space
137  * XDATA reads the external memory space
138  * BDATA returns bits as bytes
139  *
140  * NOTE: 0x80 - 0xff (local space) are the Special Function Registers
141  *       of the 8051, and some have on-read side-effects.
142  */
143 
144 struct whiteheat_dump {
145 	__u8	mem_type;	/* see WHITEHEAT_DUMP_* above */
146 	__u16	addr;		/* address, see restrictions above */
147 	__u16	length;		/* number of bytes to dump, max 63 bytes */
148 };
149 
150 
151 /*
152  * WHITEHEAT_PURGE
153  */
154 #define WHITEHEAT_PURGE_RX	0x01	/* purge rx fifos */
155 #define WHITEHEAT_PURGE_TX	0x02	/* purge tx fifos */
156 
157 struct whiteheat_purge {
158 	__u8	port;		/* port number (1 to N) */
159 	__u8	what;		/* bit pattern of what to purge */
160 };
161 
162 
163 /*
164  * WHITEHEAT_ECHO
165  */
166 struct whiteheat_echo {
167 	__u8	port;		/* port number (1 to N) */
168 	__u8	length;		/* length of message to echo, max 61 bytes */
169 	__u8	echo_data[61];	/* data to echo */
170 };
171 
172 
173 /*
174  * WHITEHEAT_DO_TEST
175  */
176 #define WHITEHEAT_TEST_UART_RW		0x01  /* read/write uart registers */
177 #define WHITEHEAT_TEST_UART_INTR	0x02  /* uart interrupt */
178 #define WHITEHEAT_TEST_SETUP_CONT	0x03  /* setup for
179 						PORT_CONT/PORT_DISCONT */
180 #define WHITEHEAT_TEST_PORT_CONT	0x04  /* port connect */
181 #define WHITEHEAT_TEST_PORT_DISCONT	0x05  /* port disconnect */
182 #define WHITEHEAT_TEST_UART_CLK_START	0x06  /* uart clock test start */
183 #define WHITEHEAT_TEST_UART_CLK_STOP	0x07  /* uart clock test stop */
184 #define WHITEHEAT_TEST_MODEM_FT		0x08  /* modem signals, requires a
185 						loopback cable/connector */
186 #define WHITEHEAT_TEST_ERASE_EEPROM	0x09  /* erase eeprom */
187 #define WHITEHEAT_TEST_READ_EEPROM	0x0a  /* read eeprom */
188 #define WHITEHEAT_TEST_PROGRAM_EEPROM	0x0b  /* program eeprom */
189 
190 struct whiteheat_test {
191 	__u8	port;		/* port number (1 to n) */
192 	__u8	test;		/* see WHITEHEAT_TEST_* above*/
193 	__u8	info[32];	/* additional info */
194 };
195 
196 
197 /*
198  * Replies from the firmware
199  */
200 
201 
202 /*
203  * WHITEHEAT_STATUS
204  */
205 #define WHITEHEAT_EVENT_MODEM		0x01	/* modem field is valid */
206 #define WHITEHEAT_EVENT_ERROR		0x02	/* error field is valid */
207 #define WHITEHEAT_EVENT_FLOW		0x04	/* flow field is valid */
208 #define WHITEHEAT_EVENT_CONNECT		0x08	/* connect field is valid */
209 
210 #define WHITEHEAT_FLOW_NONE		0x00	/* no flow control active */
211 #define WHITEHEAT_FLOW_HARD_OUT		0x01	/* TX is stopped by CTS
212 						  (waiting for CTS to go on) */
213 #define WHITEHEAT_FLOW_HARD_IN		0x02	/* remote TX is stopped
214 						  by RTS */
215 #define WHITEHEAT_FLOW_SOFT_OUT		0x04	/* TX is stopped by XOFF
216 						  received (waiting for XON) */
217 #define WHITEHEAT_FLOW_SOFT_IN		0x08	/* remote TX is stopped by XOFF
218 						  transmitted */
219 #define WHITEHEAT_FLOW_TX_DONE		0x80	/* TX has completed */
220 
221 struct whiteheat_status_info {
222 	__u8	port;		/* port number (1 to N) */
223 	__u8	event;		/* indicates what the current event is,
224 					see WHITEHEAT_EVENT_* above */
225 	__u8	modem;		/* modem signal status (copy of uart's
226 					MSR register) */
227 	__u8	error;		/* line status (copy of uart's LSR register) */
228 	__u8	flow;		/* flow control state, see WHITEHEAT_FLOW_*
229 					above */
230 	__u8	connect;	/* 0 means not connected, non-zero means
231 					connected */
232 };
233 
234 
235 /*
236  * WHITEHEAT_GET_DTR_RTS
237  */
238 struct whiteheat_dr_info {
239 	__u8	mcr;		/* copy of uart's MCR register */
240 };
241 
242 
243 /*
244  * WHITEHEAT_GET_HW_INFO
245  */
246 struct whiteheat_hw_info {
247 	__u8	hw_id;		/* hardware id number, WhiteHEAT = 0 */
248 	__u8	sw_major_rev;	/* major version number */
249 	__u8	sw_minor_rev;	/* minor version number */
250 	struct whiteheat_hw_eeprom_info {
251 		__u8	b0;			/* B0 */
252 		__u8	vendor_id_low;		/* vendor id (low byte) */
253 		__u8	vendor_id_high;		/* vendor id (high byte) */
254 		__u8	product_id_low;		/* product id (low byte) */
255 		__u8	product_id_high;	/* product id (high byte) */
256 		__u8	device_id_low;		/* device id (low byte) */
257 		__u8	device_id_high;		/* device id (high byte) */
258 		__u8	not_used_1;
259 		__u8	serial_number_0;	/* serial number (low byte) */
260 		__u8	serial_number_1;	/* serial number */
261 		__u8	serial_number_2;	/* serial number */
262 		__u8	serial_number_3;	/* serial number (high byte) */
263 		__u8	not_used_2;
264 		__u8	not_used_3;
265 		__u8	checksum_low;		/* checksum (low byte) */
266 		__u8	checksum_high;		/* checksum (high byte */
267 	} hw_eeprom_info;	/* EEPROM contents */
268 };
269 
270 
271 /*
272  * WHITEHEAT_EVENT
273  */
274 struct whiteheat_event_info {
275 	__u8	port;		/* port number (1 to N) */
276 	__u8	event;		/* see whiteheat_status_info.event */
277 	__u8	info;		/* see whiteheat_status_info.modem, .error,
278 					.flow, .connect */
279 };
280 
281 
282 /*
283  * WHITEHEAT_DO_TEST
284  */
285 #define WHITEHEAT_TEST_FAIL	0x00  /* test failed */
286 #define WHITEHEAT_TEST_UNKNOWN	0x01  /* unknown test requested */
287 #define WHITEHEAT_TEST_PASS	0xff  /* test passed */
288 
289 struct whiteheat_test_info {
290 	__u8	port;		/* port number (1 to N) */
291 	__u8	test;		/* indicates which test this is a response for,
292 				   see WHITEHEAT_DO_TEST above */
293 	__u8	status;		/* see WHITEHEAT_TEST_* above */
294 	__u8	results[32];	/* test-dependent results */
295 };
296 
297 
298 #endif
299