RTEMS 6.1-rc2
Loading...
Searching...
No Matches
libi2c.h
Go to the documentation of this file.
1
9#ifndef _RTEMS_LIBI2C_H
10#define _RTEMS_LIBI2C_H
11
12/*
13 * Authorship
14 * ----------
15 * This software was created by
16 * Till Straumann <strauman@slac.stanford.edu>, 2005,
17 * Stanford Linear Accelerator Center, Stanford University.
18 *
19 * Acknowledgement of sponsorship
20 * ------------------------------
21 * This software was produced by
22 * the Stanford Linear Accelerator Center, Stanford University,
23 * under Contract DE-AC03-76SFO0515 with the Department of Energy.
24 *
25 * Government disclaimer of liability
26 * ----------------------------------
27 * Neither the United States nor the United States Department of Energy,
28 * nor any of their employees, makes any warranty, express or implied, or
29 * assumes any legal liability or responsibility for the accuracy,
30 * completeness, or usefulness of any data, apparatus, product, or process
31 * disclosed, or represents that its use would not infringe privately owned
32 * rights.
33 *
34 * Stanford disclaimer of liability
35 * --------------------------------
36 * Stanford University makes no representations or warranties, express or
37 * implied, nor assumes any liability for the use of this software.
38 *
39 * Stanford disclaimer of copyright
40 * --------------------------------
41 * Stanford University, owner of the copyright, hereby disclaims its
42 * copyright and all other rights in this software. Hence, anyone may
43 * freely use it for any purpose without restriction.
44 *
45 * Maintenance of notices
46 * ----------------------
47 * In the interest of clarity regarding the origin and status of this
48 * SLAC software, this and all the preceding Stanford University notices
49 * are to remain affixed to any copy or derivative of this software made
50 * or distributed by the recipient and are to be affixed to any copy of
51 * software made or distributed by the recipient that contains a copy or
52 * derivative of this software.
53 *
54 * ------------------ SLAC Software Notices, Set 4 OTT.002a, 2004 FEB 03
55 */
56
57#include <rtems.h>
58
59#include <rtems/io.h>
60
61#ifdef __cplusplus
62extern "C" {
63#endif
64
75/* Simple I2C driver API */
76
77/* Initialize the libary - may fail if no semaphore or no driver slot is available */
78extern int rtems_libi2c_initialize (void);
79
80/* Alternatively to rtems_libi2c_initialize() the library can also be
81 * initialized by means of a traditional driver table entry containing
82 * the following entry points:
83 */
85rtems_i2c_init (
88 void *arg);
89
91rtems_i2c_open (
94 void *arg);
95
97rtems_i2c_close (
100 void *arg);
101
103rtems_i2c_read (
106 void *arg);
107
109rtems_i2c_write (
112 void *arg);
113
115rtems_i2c_ioctl (
118 void *arg);
119
120extern const rtems_driver_address_table rtems_libi2c_io_ops;
121
122/* Unfortunately, if you want to add this driver to
123 * a RTEMS configuration table then you need all the
124 * members explicitly :-( (Device_driver_table should
125 * hold pointers to rtems_driver_address_tables rather
126 * than full structs).
127 *
128 * The difficulty is that adding this driver to the
129 * configuration table is not enough; you still need
130 * to populate the framework with low-level bus-driver(s)
131 * and high-level drivers and/or device-files...
132 *
133 * Currently the preferred way is having the BSP
134 * call 'rtems_libi2c_initialize' followed by
135 * 'rtems_libi2c_register_bus' and
136 * 'rtems_libi2c_register_drv' and/or
137 * 'mknod' (for 'raw' device nodes)
138 * from the 'bsp_predriver_hook'.
139 */
140#define RTEMS_LIBI2C_DRIVER_TABLE_ENTRY \
141{ \
142 initialization_entry: rtems_i2c_init, \
143 open_entry: rtems_i2c_open, \
144 close_entry: rtems_i2c_close, \
145 read_entry: rtems_i2c_read, \
146 write_entry: rtems_i2c_write, \
147 control_entry: rtems_i2c_ioctl, \
148}
149
150/* Bus Driver API
151 *
152 * Bus drivers provide access to low-level i2c functions
153 * such as 'send start', 'send address', 'get bytes' etc.
154 */
155
156/* first field must be a pointer to ops; driver
157 * may add its own fields after this.
158 * the struct that is registered with the library
159 * is not copied; a pointer will we passed
160 * to the callback functions (ops).
161 */
163{
164 const struct rtems_libi2c_bus_ops_ *ops;
165 int size; /* size of whole structure */
167
168/* Access functions a low level driver must provide;
169 *
170 * All of these, except read_bytes and write_bytes
171 * return RTEMS_SUCCESSFUL on success and an error status
172 * otherwise. The read and write ops return the number
173 * of chars read/written or -(status code) on error.
174 */
176{
177 /* Initialize the bus; might be called again to reset the bus driver */
178 rtems_status_code (*init) (rtems_libi2c_bus_t * bushdl);
179 /* Send start condition */
180 rtems_status_code (*send_start) (rtems_libi2c_bus_t * bushdl);
181 /* Send stop condition */
182 rtems_status_code (*send_stop) (rtems_libi2c_bus_t * bushdl);
183 /* initiate transfer from (rw!=0) or to a device */
184 rtems_status_code (*send_addr) (rtems_libi2c_bus_t * bushdl,
185 uint32_t addr, int rw);
186 /* read a number of bytes */
187 int (*read_bytes) (rtems_libi2c_bus_t * bushdl, unsigned char *bytes,
188 int nbytes);
189 /* write a number of bytes */
190 int (*write_bytes) (rtems_libi2c_bus_t * bushdl, unsigned char *bytes,
191 int nbytes);
192 /* ioctl misc functions */
193 int (*ioctl) (rtems_libi2c_bus_t * bushdl,
194 int cmd,
195 void *buffer
196 );
198
199
200/*
201 * Register a lowlevel driver
202 *
203 * TODO: better description
204 *
205 * This allocates a major number identifying *this* driver
206 * (i.e., libi2c) and the minor number encodes a bus# and a i2c address.
207 *
208 * The name will be registered in the filesystem (parent
209 * directories must exist, also IMFS filesystem must exist). It may be NULL in
210 * which case the library will pick a default.
211 *
212 * RETURNS: bus # (>=0) or -1 on error (errno set).
213 */
214
215extern int rtems_libi2c_register_bus (const char *name, rtems_libi2c_bus_t * bus);
216
217extern rtems_device_major_number rtems_libi2c_major;
218
219#define RTEMS_LIBI2C_MAKE_MINOR(busno, i2caddr) \
220 ((((busno)&((1<<3)-1))<<10) | ((i2caddr)&((1<<10)-1)))
221
222/* After the library is initialized, a major number is available.
223 * As soon as a low-level bus driver is registered (above routine
224 * returns a 'busno'), a device node can be created in the filesystem
225 * with a major/minor number pair of
226 *
227 * rtems_libi2c_major / RTEMS_LIBI2C_MAKE_MINOR(busno, i2caddr)
228 *
229 * and a 'raw' hi-level driver is then attached to this device
230 * node.
231 * This 'raw' driver has very simple semantics:
232 *
233 * 'open' sends a start condition
234 * 'read'/'write' address the device identified by the i2c bus# and address
235 * encoded in the minor number and read or write, respectively
236 * a stream of bytes from or to the device. Every time the
237 * direction is changed, a 're-start' condition followed by
238 * an 'address' cycle is generated on the i2c bus.
239 * 'close' sends a stop condition.
240 *
241 * Hence, using the 'raw' driver, e.g., 100 bytes at offset 0x200 can be
242 * read from an EEPROM by the following pseudo-code:
243 *
244 * mknod("/dev/i2c-54", mode, MKDEV(rtems_libi2c_major, RTEMS_LIBI2C_MAKE_MINOR(0,0x54)))
245 *
246 * int fd;
247 * char off[2]={0x02,0x00};
248 *
249 * fd = open("/dev/i2c-54",O_RDWR);
250 * write(fd,off,2);
251 * read(fd,buf,100);
252 * close(fd);
253 *
254 */
255
256/* Higher Level Driver API
257 *
258 * Higher level drivers know how to deal with specific i2c
259 * devices (independent of the bus interface chip) and provide
260 * an abstraction, i.e., the usual read/write/ioctl access.
261 *
262 * Using the above example, such a high level driver could
263 * prevent the user from issuing potentially destructive write
264 * operations (the aforementioned EEPROM interprets any 3rd
265 * and following byte written to the device as data, i.e., the
266 * contents could easily be changed!).
267 * The correct 'read-pointer offset' programming could be
268 * implemented in 'open' and 'ioctl' of a high-level driver and
269 * the user would then only have to perform harmless read
270 * operations, e.g.,
271 *
272 * fd = open("/dev/i2c.eeprom",O_RDONLY) / * opens and sets EEPROM read pointer * /
273 * ioctl(fd, IOCTL_SEEK, 0x200) / * repositions the read pointer * /
274 * read(fd, buf, 100)
275 * close(fd)
276 *
277 */
278
279/* struct provided at driver registration. The driver may store
280 * private data behind the mandatory first fields but the size
281 * must be set to the size of the entire struct, e.g.,
282 *
283 * struct driver_pvt {
284 * rtems_libi2c_drv_t pub;
285 * struct { ... } pvt;
286 * } my_driver = {
287 * { ops: my_ops,
288 * size: sizeof(my_driver)
289 * },
290 * { ...};
291 * };
292 *
293 * A pointer to this struct is passed to the callback ops.
294 */
295
297{
298 const rtems_driver_address_table *ops; /* the driver ops */
299 int size; /* size of whole structure (including appended private data) */
301
302/*
303 * The high level driver must be registered with a particular
304 * bus number and i2c address.
305 *
306 * The registration procedure also creates a filesystem node,
307 * i.e., the returned minor number is not really needed.
308 *
309 * If the 'name' argument is NULL, no filesystem node is
310 * created (but this can be done 'manually' using rtems_libi2c_major
311 * and the return value of this routine).
312 *
313 * RETURNS minor number (FYI) or -1 on failure
314 */
315extern int
316rtems_libi2c_register_drv (const char *name, rtems_libi2c_drv_t * drvtbl,
317 unsigned bus, unsigned i2caddr);
318
319/* Operations available to high level drivers */
320
321/* NOTES: The bus a device is attached to is LOCKED from the first send_start
322 * until send_stop is executed!
323 *
324 * Bus tenure MUST NOT span multiple system calls - otherwise, a single
325 * thread could get into the protected sections (or would deadlock if the
326 * mutex was not nestable).
327 * E.g., consider what happens if 'open' sends a 'start' and 'close'
328 * sends a 'stop' (i.e., the bus mutex would be locked in 'open' and
329 * released in 'close'. A single thread could try to open two devices
330 * on the same bus and would either deadlock or nest into the bus mutex
331 * and potentially mess up the i2c messages.
332 *
333 * The correct way is to *always* relinquish the i2c bus (i.e., send 'stop'
334 * from any driver routine prior to returning control to the caller.
335 * Consult the implementation of the generic driver routines (open, close, ...)
336 * below or the examples in i2c-2b-eeprom.c and i2c-2b-ds1621.c
337 *
338 * Drivers just pass the minor number on to these routines...
339 */
340extern rtems_status_code rtems_libi2c_send_start (rtems_device_minor_number minor);
341
342extern rtems_status_code rtems_libi2c_send_stop (rtems_device_minor_number minor);
343
345rtems_libi2c_send_addr (rtems_device_minor_number minor, int rw);
346
347/* the read/write routines return the number of bytes transferred
348 * or -(status_code) on error.
349 */
350extern int
351rtems_libi2c_read_bytes (rtems_device_minor_number minor,
352 unsigned char *bytes, int nbytes);
353
354extern int
355rtems_libi2c_write_bytes (rtems_device_minor_number minor,
356 const unsigned char *bytes, int nbytes);
357
358/* Send start, send address and read bytes */
359extern int
360rtems_libi2c_start_read_bytes (rtems_device_minor_number minor,
361 unsigned char *bytes,
362 int nbytes);
363
364/* Send start, send address and write bytes */
365extern int
366rtems_libi2c_start_write_bytes (rtems_device_minor_number minor,
367 const unsigned char *bytes,
368 int nbytes);
369
370
371/* call misc iocontrol function */
372extern int
373rtems_libi2c_ioctl (rtems_device_minor_number minor,
374 int cmd,
375 ...);
376/*
377 * NOTE: any low-level driver ioctl returning a negative
378 * result for release the bus (perform a STOP condition)
379 */
380/*******************************
381 * defined IOCTLs:
382 *******************************/
383#define RTEMS_LIBI2C_IOCTL_READ_WRITE 1
384/*
385 * retval = rtems_libi2c_ioctl(rtems_device_minor_number minor,
386 * RTEMS_LIBI2C_IOCTL_READ_WRITE,
387 * rtems_libi2c_read_write_t *arg);
388 *
389 * This call performs a simultanous read/write transfer,
390 * which is possible (and sometimes needed) for SPI devices
391 *
392 * arg is a pointer to a rd_wr info data structure
393 *
394 * This call is only needed for SPI devices
395 */
396#define RTEMS_LIBI2C_IOCTL_START_TFM_READ_WRITE 2
397/*
398 * retval = rtems_libi2c_ioctl(rtems_device_minor_number minor,
399 * RTEMS_LIBI2C_IOCTL_START_READ_WRITE,
400 * unsigned char *rd_buffer,
401 * const unsigned char *wr_buffer,
402 * int byte_cnt,
403 * const rtems_libi2c_tfr_mode_t *tfr_mode_ptr);
404 *
405 * This call addresses a slave and then:
406 * - sets the proper transfer mode,
407 * - performs a simultanous read/write transfer,
408 * (which is possible and sometimes needed for SPI devices)
409 * NOTE: - if rd_buffer is NULL, receive data will be dropped
410 * - if wr_buffer is NULL, bytes with content 0 will transmitted
411 *
412 * rd_buffer is a pointer to a receive buffer (or NULL)
413 * wr_buffer is a pointer to the data to be sent (or NULL)
414 *
415 * This call is only needed for SPI devices
416 */
417
418#define RTEMS_LIBI2C_IOCTL_SET_TFRMODE 3
419/*
420 * retval = rtems_libi2c_ioctl(rtems_device_minor_number minor,
421 * RTEMS_LIBI2C_IOCTL_SET_TFRMODE,
422 * const rtems_libi2c_tfr_mode_t *tfr_mode_ptr);
423 *
424 * This call sets an SPI device to the transfer mode needed (baudrate etc.)
425 *
426 * tfr_mode is a pointer to a structure defining the SPI transfer mode needed
427 * (see below).
428 *
429 * This call is only needed for SPI devices
430 */
431
432#define RTEMS_LIBI2C_IOCTL_GET_DRV_T 4
433
434/*
435 * retval = rtems_libi2c_ioctl(rtems_device_minor_number minor,
436 * RTEMS_LIBI2C_IOCTL_GET_DRV_T,
437 * const rtems_libi2c_drv_t *drv_t_ptr);
438 *
439 * This call allows the a high-level driver to query its driver table entry,
440 * including its private data appended to it during creation of the entry
441 *
442 */
443
451#define RTEMS_LIBI2C_IOCTL_READ_WRITE_ASYNC 5
452
453/*
454 * argument data structures for IOCTLs defined above
455 */
456typedef struct {
457 unsigned char *rd_buf;
458 const unsigned char *wr_buf;
459 int byte_cnt;
461
462typedef struct {
463 uint32_t baudrate; /* maximum bits per second */
464 /* only valid for SPI drivers: */
465 uint8_t bits_per_char; /* how many bits per byte/word/longword? */
466 bool lsb_first; /* true: send LSB first */
467 bool clock_inv; /* true: inverted clock (high active) */
468 bool clock_phs; /* true: clock starts toggling at start of data tfr */
469 uint32_t idle_char; /* This character will be continuously transmitted in read only functions */
471
472typedef struct {
476
486 ( int /* return value */, int /* nbytes */, void * /* arg */);
487
496typedef struct {
497 unsigned char *rd_buf;
498 const unsigned char *wr_buf;
499 int byte_cnt;
501 void *arg;
503
506#ifdef __cplusplus
507}
508#endif
509
510#endif
This header file defines the IO Manager API.
uint32_t rtems_device_major_number
This integer type represents the major number of devices.
Definition: io.h:103
uint32_t rtems_device_minor_number
This integer type represents the minor number of devices.
Definition: io.h:115
rtems_status_code
This enumeration provides status codes for directives of the Classic API.
Definition: status.h:85
void(* rtems_libi2c_read_write_done_t)(int, int, void *)
Notification function type for asynchronous read and write.
Definition: libi2c.h:486
This header file defines the RTEMS Classic API.
This structure contains the device driver entries.
Definition: io.h:140
Definition: libi2c.h:176
Definition: libi2c.h:163
Definition: libi2c.h:297
IO command data for asynchronous read and write.
Definition: libi2c.h:496
Definition: libi2c.h:456
Definition: libi2c.h:472
Definition: libi2c.h:462