ASoC: Remove duplicate ADC/DAC widgets from wm_hubs.c
[linux/fpc-iii.git] / drivers / staging / cpc-usb / cpc.h
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1 /*
2 * CPC CAN Interface Definitions
4 * Copyright (C) 2000-2008 EMS Dr. Thomas Wuensche
6 * This program is distributed in the hope that it will be useful, but
7 * WITHOUT ANY WARRANTY; without even the implied warranty of
8 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
9 */
10 #ifndef CPC_HEADER
11 #define CPC_HEADER
13 // the maximum length of the union members within a CPC_MSG
14 // this value can be defined by the customer, but has to be
15 // >= 64 bytes
16 // however, if not defined before, we set a length of 64 byte
17 #if !defined(CPC_MSG_LEN) || (CPC_MSG_LEN < 64)
18 #undef CPC_MSG_LEN
19 #define CPC_MSG_LEN 64
20 #endif
22 // check the operating system used
23 #ifdef _WIN32 // running a Windows OS
25 // define basic types on Windows platforms
26 #ifdef _MSC_VER // Visual Studio
27 typedef unsigned __int8 u8;
28 typedef unsigned __int16 u16;
29 typedef unsigned __int32 u32;
30 #else // Borland Compiler
31 typedef unsigned char u8;
32 typedef unsigned short u16;
33 typedef unsigned int u32;
34 #endif
35 // on Windows OS we use a byte alignment of 1
36 #pragma pack(push, 1)
38 // set the calling conventions for the library function calls
39 #define CALL_CONV __stdcall
40 #else
41 // Kernel headers already define this types
42 #ifndef __KERNEL__
43 // define basic types
44 typedef unsigned char u8;
45 typedef unsigned short u16;
46 typedef unsigned int u32;
47 #endif
49 // Linux does not use this calling convention
50 #define CALL_CONV
51 #endif
53 // Transmission of events from CPC interfaces to PC can be individually
54 // controlled per event type. Default state is: don't transmit
55 // Control values are constructed by bit-or of Subject and Action
56 // and passed to CPC_Control()
58 // Control-Values for CPC_Control() Command Subject Selection
59 #define CONTR_CAN_Message 0x04
60 #define CONTR_Busload 0x08
61 #define CONTR_CAN_State 0x0C
62 #define CONTR_SendAck 0x10
63 #define CONTR_Filter 0x14
64 #define CONTR_CmdQueue 0x18 // reserved, do not use
65 #define CONTR_BusError 0x1C
67 // Control Command Actions
68 #define CONTR_CONT_OFF 0
69 #define CONTR_CONT_ON 1
70 #define CONTR_SING_ON 2
71 // CONTR_SING_ON doesn't change CONTR_CONT_ON state, so it should be
72 // read as: transmit at least once
74 // defines for confirmed request
75 #define DO_NOT_CONFIRM 0
76 #define DO_CONFIRM 1
78 // event flags
79 #define EVENT_READ 0x01
80 #define EVENT_WRITE 0x02
82 // Messages from CPC to PC contain a message object type field.
83 // The following message types are sent by CPC and can be used in
84 // handlers, others should be ignored.
85 #define CPC_MSG_T_RESYNC 0 // Normally to be ignored
86 #define CPC_MSG_T_CAN 1 // CAN data frame
87 #define CPC_MSG_T_BUSLOAD 2 // Busload message
88 #define CPC_MSG_T_STRING 3 // Normally to be ignored
89 #define CPC_MSG_T_CONTI 4 // Normally to be ignored
90 #define CPC_MSG_T_MEM 7 // Normally not to be handled
91 #define CPC_MSG_T_RTR 8 // CAN remote frame
92 #define CPC_MSG_T_TXACK 9 // Send acknowledge
93 #define CPC_MSG_T_POWERUP 10 // Power-up message
94 #define CPC_MSG_T_CMD_NO 11 // Normally to be ignored
95 #define CPC_MSG_T_CAN_PRMS 12 // Actual CAN parameters
96 #define CPC_MSG_T_ABORTED 13 // Command aborted message
97 #define CPC_MSG_T_CANSTATE 14 // CAN state message
98 #define CPC_MSG_T_RESET 15 // used to reset CAN-Controller
99 #define CPC_MSG_T_XCAN 16 // XCAN data frame
100 #define CPC_MSG_T_XRTR 17 // XCAN remote frame
101 #define CPC_MSG_T_INFO 18 // information strings
102 #define CPC_MSG_T_CONTROL 19 // used for control of interface/driver behaviour
103 #define CPC_MSG_T_CONFIRM 20 // response type for confirmed requests
104 #define CPC_MSG_T_OVERRUN 21 // response type for overrun conditions
105 #define CPC_MSG_T_KEEPALIVE 22 // response type for keep alive conditions
106 #define CPC_MSG_T_CANERROR 23 // response type for bus error conditions
107 #define CPC_MSG_T_DISCONNECTED 24 // response type for a disconnected interface
108 #define CPC_MSG_T_ERR_COUNTER 25 // RX/TX error counter of CAN controller
110 #define CPC_MSG_T_FIRMWARE 100 // response type for USB firmware download
112 // Messages from the PC to the CPC interface contain a command field
113 // Most of the command types are wrapped by the library functions and have therefore
114 // normally not to be used.
115 // However, programmers who wish to circumvent the library and talk directly
116 // to the drivers (mainly Linux programmers) can use the following
117 // command types:
119 #define CPC_CMD_T_CAN 1 // CAN data frame
120 #define CPC_CMD_T_CONTROL 3 // used for control of interface/driver behaviour
121 #define CPC_CMD_T_CAN_PRMS 6 // set CAN parameters
122 #define CPC_CMD_T_CLEARBUF 8 // clears input queue; this is depricated, use CPC_CMD_T_CLEAR_MSG_QUEUE instead
123 #define CPC_CMD_T_INQ_CAN_PARMS 11 // inquire actual CAN parameters
124 #define CPC_CMD_T_FILTER_PRMS 12 // set filter parameter
125 #define CPC_CMD_T_RTR 13 // CAN remote frame
126 #define CPC_CMD_T_CANSTATE 14 // CAN state message
127 #define CPC_CMD_T_XCAN 15 // XCAN data frame
128 #define CPC_CMD_T_XRTR 16 // XCAN remote frame
129 #define CPC_CMD_T_RESET 17 // used to reset CAN-Controller
130 #define CPC_CMD_T_INQ_INFO 18 // miscellanous information strings
131 #define CPC_CMD_T_OPEN_CHAN 19 // open a channel
132 #define CPC_CMD_T_CLOSE_CHAN 20 // close a channel
133 #define CPC_CMD_T_CNTBUF 21 // this is depricated, use CPC_CMD_T_INQ_MSG_QUEUE_CNT instead
134 #define CPC_CMD_T_CAN_EXIT 200 // exit the CAN (disable interrupts; reset bootrate; reset output_cntr; mode = 1)
136 #define CPC_CMD_T_INQ_MSG_QUEUE_CNT CPC_CMD_T_CNTBUF // inquires the count of elements in the message queue
137 #define CPC_CMD_T_INQ_ERR_COUNTER 25 // request the CAN controllers error counter
138 #define CPC_CMD_T_CLEAR_MSG_QUEUE CPC_CMD_T_CLEARBUF // clear CPC_MSG queue
139 #define CPC_CMD_T_CLEAR_CMD_QUEUE 28 // clear CPC_CMD queue
140 #define CPC_CMD_T_FIRMWARE 100 // reserved, must not be used
141 #define CPC_CMD_T_USB_RESET 101 // reserved, must not be used
142 #define CPC_CMD_T_WAIT_NOTIFY 102 // reserved, must not be used
143 #define CPC_CMD_T_WAIT_SETUP 103 // reserved, must not be used
144 #define CPC_CMD_T_ABORT 255 // Normally not to be used
146 // definitions for CPC_MSG_T_INFO
147 // information sources
148 #define CPC_INFOMSG_T_UNKNOWN_SOURCE 0
149 #define CPC_INFOMSG_T_INTERFACE 1
150 #define CPC_INFOMSG_T_DRIVER 2
151 #define CPC_INFOMSG_T_LIBRARY 3
153 // information types
154 #define CPC_INFOMSG_T_UNKNOWN_TYPE 0
155 #define CPC_INFOMSG_T_VERSION 1
156 #define CPC_INFOMSG_T_SERIAL 2
158 // definitions for controller types
159 #define PCA82C200 1 // Philips basic CAN controller, replaced by SJA1000
160 #define SJA1000 2 // Philips basic CAN controller
161 #define AN82527 3 // Intel full CAN controller
162 #define M16C_BASIC 4 // M16C controller running in basic CAN (not full CAN) mode
164 // channel open error codes
165 #define CPC_ERR_NO_FREE_CHANNEL -1 // no more free space within the channel array
166 #define CPC_ERR_CHANNEL_ALREADY_OPEN -2 // the channel is already open
167 #define CPC_ERR_CHANNEL_NOT_ACTIVE -3 // access to a channel not active failed
168 #define CPC_ERR_NO_DRIVER_PRESENT -4 // no driver at the location searched by the library
169 #define CPC_ERR_NO_INIFILE_PRESENT -5 // the library could not find the inifile
170 #define CPC_ERR_WRONG_PARAMETERS -6 // wrong parameters in the inifile
171 #define CPC_ERR_NO_INTERFACE_PRESENT -7 // 1. The specified interface is not connected
172 // 2. The interface (mostly CPC-USB) was disconnected upon operation
173 #define CPC_ERR_NO_MATCHING_CHANNEL -8 // the driver couldn't find a matching channel
174 #define CPC_ERR_NO_BUFFER_AVAILABLE -9 // the driver couldn't allocate buffer for messages
175 #define CPC_ERR_NO_INTERRUPT -10 // the requested interrupt couldn't be claimed
176 #define CPC_ERR_NO_MATCHING_INTERFACE -11 // no interface type related to this channel was found
177 #define CPC_ERR_NO_RESOURCES -12 // the requested resources could not be claimed
178 #define CPC_ERR_SOCKET -13 // error concerning TCP sockets
180 // init error codes
181 #define CPC_ERR_WRONG_CONTROLLER_TYPE -14 // wrong CAN controller type within initialization
182 #define CPC_ERR_NO_RESET_MODE -15 // the controller could not be set into reset mode
183 #define CPC_ERR_NO_CAN_ACCESS -16 // the CAN controller could not be accessed
185 // transmit error codes
186 #define CPC_ERR_CAN_WRONG_ID -20 // the provided CAN id is too big
187 #define CPC_ERR_CAN_WRONG_LENGTH -21 // the provided CAN length is too long
188 #define CPC_ERR_CAN_NO_TRANSMIT_BUF -22 // the transmit buffer was occupied
189 #define CPC_ERR_CAN_TRANSMIT_TIMEOUT -23 // The message could not be sent within a
190 // specified time
192 // other error codes
193 #define CPC_ERR_SERVICE_NOT_SUPPORTED -30 // the requested service is not supported by the interface
194 #define CPC_ERR_IO_TRANSFER -31 // a transmission error down to the driver occurred
195 #define CPC_ERR_TRANSMISSION_FAILED -32 // a transmission error down to the interface occurred
196 #define CPC_ERR_TRANSMISSION_TIMEOUT -33 // a timeout occurred within transmission to the interface
197 #define CPC_ERR_OP_SYS_NOT_SUPPORTED -35 // the operating system is not supported
198 #define CPC_ERR_UNKNOWN -40 // an unknown error ocurred (mostly IOCTL errors)
200 #define CPC_ERR_LOADING_DLL -50 // the library 'cpcwin.dll' could not be loaded
201 #define CPC_ERR_ASSIGNING_FUNCTION -51 // the specified function could not be assigned
202 #define CPC_ERR_DLL_INITIALIZATION -52 // the DLL was not initialized correctly
203 #define CPC_ERR_MISSING_LICFILE -55 // the file containing the licenses does not exist
204 #define CPC_ERR_MISSING_LICENSE -56 // a required license was not found
206 // CAN state bit values. Ignore any bits not listed
207 #define CPC_CAN_STATE_BUSOFF 0x80
208 #define CPC_CAN_STATE_ERROR 0x40
210 // Mask to help ignore undefined bits
211 #define CPC_CAN_STATE_MASK 0xc0
213 // CAN-Message representation in a CPC_MSG
214 // Message object type is CPC_MSG_T_CAN or CPC_MSG_T_RTR
215 // or CPC_MSG_T_XCAN or CPC_MSG_T_XRTR
216 typedef struct CPC_CAN_MSG {
217 u32 id;
218 u8 length;
219 u8 msg[8];
220 } CPC_CAN_MSG_T;
223 // representation of the CAN parameters for the PCA82C200 controller
224 typedef struct CPC_PCA82C200_PARAMS {
225 u8 acc_code; // Acceptance-code for receive, Standard: 0
226 u8 acc_mask; // Acceptance-mask for receive, Standard: 0xff (everything)
227 u8 btr0; // Bus-timing register 0
228 u8 btr1; // Bus-timing register 1
229 u8 outp_contr; // Output-control register
230 } CPC_PCA82C200_PARAMS_T;
232 // representation of the CAN parameters for the SJA1000 controller
233 typedef struct CPC_SJA1000_PARAMS {
234 u8 mode; // enables single or dual acceptance filtering
235 u8 acc_code0; // Acceptance-code for receive, Standard: 0
236 u8 acc_code1;
237 u8 acc_code2;
238 u8 acc_code3;
239 u8 acc_mask0; // Acceptance-mask for receive, Standard: 0xff (everything)
240 u8 acc_mask1;
241 u8 acc_mask2;
242 u8 acc_mask3;
243 u8 btr0; // Bus-timing register 0
244 u8 btr1; // Bus-timing register 1
245 u8 outp_contr; // Output-control register
246 } CPC_SJA1000_PARAMS_T;
248 // representation of the CAN parameters for the M16C controller
249 // in basic CAN mode (means no full CAN)
250 typedef struct CPC_M16C_BASIC_PARAMS {
251 u8 con0;
252 u8 con1;
253 u8 ctlr0;
254 u8 ctlr1;
255 u8 clk;
256 u8 acc_std_code0;
257 u8 acc_std_code1;
258 u8 acc_ext_code0;
259 u8 acc_ext_code1;
260 u8 acc_ext_code2;
261 u8 acc_ext_code3;
262 u8 acc_std_mask0;
263 u8 acc_std_mask1;
264 u8 acc_ext_mask0;
265 u8 acc_ext_mask1;
266 u8 acc_ext_mask2;
267 u8 acc_ext_mask3;
268 } CPC_M16C_BASIC_PARAMS_T;
270 // CAN params message representation
271 typedef struct CPC_CAN_PARAMS {
272 u8 cc_type; // represents the controller type
273 union {
274 CPC_M16C_BASIC_PARAMS_T m16c_basic;
275 CPC_SJA1000_PARAMS_T sja1000;
276 CPC_PCA82C200_PARAMS_T pca82c200;
277 } cc_params;
278 } CPC_CAN_PARAMS_T;
280 // the following structures are slightly different for Windows and Linux
281 // To be able to use the 'Select' mechanism with Linux the application
282 // needs to know the devices file desciptor.
283 // This mechanism is not implemented within Windows and the file descriptor
284 // is therefore not needed
285 #ifdef _WIN32
287 // CAN init params message representation
288 typedef struct CPC_INIT_PARAMS {
289 CPC_CAN_PARAMS_T canparams;
290 } CPC_INIT_PARAMS_T;
292 #else// Linux
294 // CHAN init params representation
295 typedef struct CPC_CHAN_PARAMS {
296 int fd;
297 } CPC_CHAN_PARAMS_T;
299 // CAN init params message representation
300 typedef struct CPC_INIT_PARAMS {
301 CPC_CHAN_PARAMS_T chanparams;
302 CPC_CAN_PARAMS_T canparams;
303 } CPC_INIT_PARAMS_T;
305 #endif
307 // structure for confirmed message handling
308 typedef struct CPC_CONFIRM {
309 u8 result; // error code
310 } CPC_CONFIRM_T;
312 // structure for information requests
313 typedef struct CPC_INFO {
314 u8 source; // interface, driver or library
315 u8 type; // version or serial number
316 char msg[CPC_MSG_LEN - 2]; // string holding the requested information
317 } CPC_INFO_T;
319 // OVERRUN ///////////////////////////////////////
320 // In general two types of overrun may occur.
321 // A hardware overrun, where the CAN controller
322 // lost a message, because the interrupt was
323 // not handled before the next messgae comes in.
324 // Or a software overrun, where i.e. a received
325 // message could not be stored in the CPC_MSG
326 // buffer.
328 // After a software overrun has occurred
329 // we wait until we have CPC_OVR_GAP slots
330 // free in the CPC_MSG buffer.
331 #define CPC_OVR_GAP 10
333 // Two types of software overrun may occur.
334 // A received CAN message or a CAN state event
335 // can cause an overrun.
336 // Note: A CPC_CMD which would normally store
337 // its result immediately in the CPC_MSG
338 // queue may fail, because the message queue is full.
339 // This will not generate an overrun message, but
340 // will halt command execution, until this command
341 // is able to store its message in the message queue.
342 #define CPC_OVR_EVENT_CAN 0x01
343 #define CPC_OVR_EVENT_CANSTATE 0x02
344 #define CPC_OVR_EVENT_BUSERROR 0x04
346 // If the CAN controller lost a message
347 // we indicate it with the highest bit
348 // set in the count field.
349 #define CPC_OVR_HW 0x80
351 // structure for overrun conditions
352 typedef struct {
353 u8 event;
354 u8 count;
355 } CPC_OVERRUN_T;
357 // CAN errors ////////////////////////////////////
358 // Each CAN controller type has different
359 // registers to record errors.
360 // Therefor a structure containing the specific
361 // errors is set up for each controller here
363 // SJA1000 error structure
364 // see the SJA1000 datasheet for detailed
365 // explanation of the registers
366 typedef struct CPC_SJA1000_CAN_ERROR {
367 u8 ecc; // error capture code register
368 u8 rxerr; // RX error counter register
369 u8 txerr; // TX error counter register
370 } CPC_SJA1000_CAN_ERROR_T;
372 // M16C error structure
373 // see the M16C datasheet for detailed
374 // explanation of the registers
375 typedef struct CPC_M16C_CAN_ERROR {
376 u8 tbd; // to be defined
377 } CPC_M16C_CAN_ERROR_T;
379 // structure for CAN error conditions
380 #define CPC_CAN_ECODE_ERRFRAME 0x01
381 typedef struct CPC_CAN_ERROR {
382 u8 ecode;
383 struct {
384 u8 cc_type; // CAN controller type
385 union {
386 CPC_SJA1000_CAN_ERROR_T sja1000;
387 CPC_M16C_CAN_ERROR_T m16c;
388 } regs;
389 } cc;
390 } CPC_CAN_ERROR_T;
392 // Structure containing RX/TX error counter.
393 // This structure is used to request the
394 // values of the CAN controllers TX and RX
395 // error counter.
396 typedef struct CPC_CAN_ERR_COUNTER {
397 u8 rx;
398 u8 tx;
399 } CPC_CAN_ERR_COUNTER_T;
401 // If this flag is set, transmissions from PC to CPC are protected against loss
402 #define CPC_SECURE_TO_CPC 0x01
404 // If this flag is set, transmissions from CPC to PC are protected against loss
405 #define CPC_SECURE_TO_PC 0x02
407 // If this flag is set, the CAN-transmit buffer is checked to be free before sending a message
408 #define CPC_SECURE_SEND 0x04
410 // If this flag is set, the transmission complete flag is checked
411 // after sending a message
412 // THIS IS CURRENTLY ONLY IMPLEMENTED IN THE PASSIVE INTERFACE DRIVERS
413 #define CPC_SECURE_TRANSMIT 0x08
415 // main message type used between library and application
416 typedef struct CPC_MSG {
417 u8 type; // type of message
418 u8 length; // length of data within union 'msg'
419 u8 msgid; // confirmation handle
420 u32 ts_sec; // timestamp in seconds
421 u32 ts_nsec; // timestamp in nano seconds
422 union {
423 u8 generic[CPC_MSG_LEN];
424 CPC_CAN_MSG_T canmsg;
425 CPC_CAN_PARAMS_T canparams;
426 CPC_CONFIRM_T confirmation;
427 CPC_INFO_T info;
428 CPC_OVERRUN_T overrun;
429 CPC_CAN_ERROR_T error;
430 CPC_CAN_ERR_COUNTER_T err_counter;
431 u8 busload;
432 u8 canstate;
433 } msg;
434 } CPC_MSG_T;
436 #ifdef _WIN32
437 #pragma pack(pop) // reset the byte alignment
438 #endif
440 #endif // CPC_HEADER