fedf11a25e725f63464ac8656717447e98616fa9
[libam7xxx.git] / src / am7xxx.c
1 /* am7xxx - communication with AM7xxx based USB Pico Projectors and DPFs
2  *
3  * Copyright (C) 2012-2014  Antonio Ospite <ao2@ao2.it>
4  *
5  * This program is free software: you can redistribute it and/or modify
6  * it under the terms of the GNU General Public License as published by
7  * the Free Software Foundation, either version 2 of the License, or
8  * (at your option) any later version.
9  *
10  * This program is distributed in the hope that it will be useful,
11  * but WITHOUT ANY WARRANTY; without even the implied warranty of
12  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
13  * GNU General Public License for more details.
14  *
15  * You should have received a copy of the GNU General Public License
16  * along with this program.  If not, see <http://www.gnu.org/licenses/>.
17  */
18
19 #include <stdio.h>
20 #include <stdlib.h>
21 #include <string.h>
22 #include <stdarg.h>
23 #include <errno.h>
24 #include <libusb.h>
25 #include <math.h>
26
27 #include "am7xxx.h"
28 #include "serialize.h"
29 #include "tools.h"
30
31 #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
32
33 /* If we're not using GNU C, elide __attribute__
34  * taken from: http://unixwiz.net/techtips/gnu-c-attributes.html)
35  */
36 #ifndef __GNUC__
37 #  define  __attribute__(x)  /*NOTHING*/
38 #endif
39
40 /* Control shared library symbols visibility */
41 #if defined _WIN32 || defined __CYGWIN__
42         #define AM7XXX_PUBLIC __declspec(dllexport)
43         #define AM7XXX_LOCAL
44 #else
45         #if __GNUC__ >= 4
46                 #define AM7XXX_PUBLIC __attribute__ ((visibility ("default")))
47                 #define AM7XXX_LOCAL  __attribute__ ((visibility ("hidden")))
48         #else
49                 #define AM7XXX_PUBLIC
50                 #define AM7XXX_LOCAL
51         #endif
52 #endif
53
54 static void log_message(am7xxx_context *ctx,
55                         int level,
56                         const char *function,
57                         int line,
58                         const char *fmt,
59                         ...) __attribute__ ((format (printf, 5, 6)));
60
61 #define fatal(...)        log_message(NULL, AM7XXX_LOG_FATAL,   __func__, __LINE__, __VA_ARGS__)
62 #define error(ctx, ...)   log_message(ctx,  AM7XXX_LOG_ERROR,   __func__, __LINE__, __VA_ARGS__)
63 #define warning(ctx, ...) log_message(ctx,  AM7XXX_LOG_WARNING, __func__, 0,        __VA_ARGS__)
64 #define info(ctx, ...)    log_message(ctx,  AM7XXX_LOG_INFO,    __func__, 0,        __VA_ARGS__)
65 #define debug(ctx, ...)   log_message(ctx,  AM7XXX_LOG_DEBUG,   __func__, 0,        __VA_ARGS__)
66 #define trace(ctx, ...)   log_message(ctx,  AM7XXX_LOG_TRACE,   NULL,     0,        __VA_ARGS__)
67
68 struct am7xxx_ops {
69         int (*set_power_mode)(am7xxx_device *dev, am7xxx_power_mode power);
70         int (*set_zoom_mode)(am7xxx_device *dev, am7xxx_zoom_mode zoom);
71 };
72
73 struct am7xxx_usb_device_descriptor {
74         const char *name;
75         uint16_t vendor_id;
76         uint16_t product_id;
77         uint8_t configuration;    /* The bConfigurationValue of the device */
78         uint8_t interface_number; /* The bInterfaceNumber of the device */
79         struct am7xxx_ops ops;
80 };
81
82 static int default_set_power_mode(am7xxx_device *dev, am7xxx_power_mode power);
83 static int picopix_set_power_mode(am7xxx_device *dev, am7xxx_power_mode power);
84 static int default_set_zoom_mode(am7xxx_device *dev, am7xxx_zoom_mode zoom);
85 static int picopix_set_zoom_mode(am7xxx_device *dev, am7xxx_zoom_mode zoom);
86
87 #define DEFAULT_OPS { \
88         .set_power_mode = default_set_power_mode, \
89         .set_zoom_mode = default_set_zoom_mode, \
90 }
91
92 static const struct am7xxx_usb_device_descriptor supported_devices[] = {
93         {
94                 .name       = "Acer C110",
95                 .vendor_id  = 0x1de1,
96                 .product_id = 0xc101,
97                 .configuration    = 2,
98                 .interface_number = 0,
99                 .ops = DEFAULT_OPS,
100         },
101         {
102                 .name       = "Acer C112",
103                 .vendor_id  = 0x1de1,
104                 .product_id = 0x5501,
105                 .configuration    = 2,
106                 .interface_number = 0,
107                 .ops = DEFAULT_OPS,
108         },
109         {
110                 .name       ="Aiptek PocketCinema T25",
111                 .vendor_id  = 0x08ca,
112                 .product_id = 0x2144,
113                 .configuration    = 2,
114                 .interface_number = 0,
115                 .ops = DEFAULT_OPS,
116         },
117         {
118                 .name       = "Philips/Sagemcom PicoPix 1020",
119                 .vendor_id  = 0x21e7,
120                 .product_id = 0x000e,
121                 .configuration    = 2,
122                 .interface_number = 0,
123                 .ops = DEFAULT_OPS,
124         },
125         {
126                 .name       = "Philips/Sagemcom PicoPix 2055",
127                 .vendor_id  = 0x21e7,
128                 .product_id = 0x0016,
129                 .configuration    = 2,
130                 .interface_number = 0,
131                 .ops = {
132                         .set_power_mode = picopix_set_power_mode,
133                         .set_zoom_mode = picopix_set_zoom_mode,
134                 },
135         },
136         {
137                 .name       = "Philips/Sagemcom PicoPix 2330",
138                 .vendor_id  = 0x21e7,
139                 .product_id = 0x0019,
140                 .configuration    = 1,
141                 .interface_number = 0,
142         },
143 };
144
145 /* The header size on the wire is known to be always 24 bytes, regardless of
146  * the memory configuration enforced by different architectures or compilers
147  * for struct am7xxx_header
148  */
149 #define AM7XXX_HEADER_WIRE_SIZE 24
150
151 struct _am7xxx_device {
152         libusb_device_handle *usb_device;
153         struct libusb_transfer *transfer;
154         int transfer_completed;
155         uint8_t buffer[AM7XXX_HEADER_WIRE_SIZE];
156         am7xxx_device_info *device_info;
157         am7xxx_context *ctx;
158         const struct am7xxx_usb_device_descriptor *desc;
159         am7xxx_device *next;
160 };
161
162 struct _am7xxx_context {
163         libusb_context *usb_context;
164         int log_level;
165         am7xxx_device *devices_list;
166 };
167
168 typedef enum {
169         AM7XXX_PACKET_TYPE_DEVINFO = 0x01,
170         AM7XXX_PACKET_TYPE_IMAGE   = 0x02,
171         AM7XXX_PACKET_TYPE_POWER   = 0x04,
172         AM7XXX_PACKET_TYPE_ZOOM    = 0x05,
173         AM7XXX_PACKET_TYPE_PICOPIX_POWER_LOW    = 0x15,
174         AM7XXX_PACKET_TYPE_PICOPIX_POWER_MEDIUM = 0x16,
175         AM7XXX_PACKET_TYPE_PICOPIX_POWER_HIGH   = 0x17,
176         AM7XXX_PACKET_TYPE_PICOPIX_ENABLE_TI    = 0x18,
177         AM7XXX_PACKET_TYPE_PICOPIX_DISABLE_TI   = 0x19,
178 } am7xxx_packet_type;
179
180 struct am7xxx_generic_header {
181         uint32_t field0;
182         uint32_t field1;
183         uint32_t field2;
184         uint32_t field3;
185 };
186
187 struct am7xxx_devinfo_header {
188         uint32_t native_width;
189         uint32_t native_height;
190         uint32_t unknown0;
191         uint32_t unknown1;
192 };
193
194 struct am7xxx_image_header {
195         uint32_t format;
196         uint32_t width;
197         uint32_t height;
198         uint32_t image_size;
199 };
200
201 struct am7xxx_power_header {
202         uint32_t bit2;
203         uint32_t bit1;
204         uint32_t bit0;
205 };
206
207 struct am7xxx_zoom_header {
208         uint32_t bit1;
209         uint32_t bit0;
210 };
211
212 /*
213  * Examples of packet headers:
214  *
215  * Image header:
216  * 02 00 00 00 00 10 3e 10 01 00 00 00 20 03 00 00 e0 01 00 00 53 E8 00 00
217  *
218  * Power header:
219  * 04 00 00 00 00 0c ff ff 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00 00
220  */
221
222 /* Direction of the communication from the host point of view */
223 #define AM7XXX_DIRECTION_OUT 0 /* host -> device */
224 #define AM7XXX_DIRECTION_IN  1 /* host <- device */
225
226 struct am7xxx_header {
227         uint32_t packet_type;
228         uint8_t direction;
229         uint8_t header_data_len;
230         uint8_t unknown2;
231         uint8_t unknown3;
232         union {
233                 struct am7xxx_generic_header data;
234                 struct am7xxx_devinfo_header devinfo;
235                 struct am7xxx_image_header image;
236                 struct am7xxx_power_header power;
237                 struct am7xxx_zoom_header zoom;
238         } header_data;
239 };
240
241
242 #ifdef DEBUG
243 static void debug_dump_generic_header(am7xxx_context *ctx, struct am7xxx_generic_header *g)
244 {
245         if (ctx == NULL || g == NULL)
246                 return;
247
248         debug(ctx, "Generic header:\n");
249         debug(ctx, "\tfield0:  0x%08x (%u)\n", g->field0, g->field0);
250         debug(ctx, "\tfield1:  0x%08x (%u)\n", g->field1, g->field1);
251         debug(ctx, "\tfield2:  0x%08x (%u)\n", g->field2, g->field2);
252         debug(ctx, "\tfield3:  0x%08x (%u)\n", g->field3, g->field3);
253 }
254
255 static void debug_dump_devinfo_header(am7xxx_context *ctx, struct am7xxx_devinfo_header *d)
256 {
257         if (ctx == NULL || d == NULL)
258                 return;
259
260         debug(ctx, "Info header:\n");
261         debug(ctx, "\tnative_width:  0x%08x (%u)\n", d->native_width, d->native_width);
262         debug(ctx, "\tnative_height: 0x%08x (%u)\n", d->native_height, d->native_height);
263         debug(ctx, "\tunknown0:      0x%08x (%u)\n", d->unknown0, d->unknown0);
264         debug(ctx, "\tunknown1:      0x%08x (%u)\n", d->unknown1, d->unknown1);
265 }
266
267 static void debug_dump_image_header(am7xxx_context *ctx, struct am7xxx_image_header *i)
268 {
269         if (ctx == NULL || i == NULL)
270                 return;
271
272         debug(ctx, "Image header:\n");
273         debug(ctx, "\tformat:     0x%08x (%u)\n", i->format, i->format);
274         debug(ctx, "\twidth:      0x%08x (%u)\n", i->width, i->width);
275         debug(ctx, "\theight:     0x%08x (%u)\n", i->height, i->height);
276         debug(ctx, "\timage size: 0x%08x (%u)\n", i->image_size, i->image_size);
277 }
278
279 static void debug_dump_power_header(am7xxx_context *ctx, struct am7xxx_power_header *p)
280 {
281         if (ctx == NULL || p == NULL)
282                 return;
283
284         debug(ctx, "Power header:\n");
285         debug(ctx, "\tbit2: 0x%08x (%u)\n", p->bit2, p->bit2);
286         debug(ctx, "\tbit1: 0x%08x (%u)\n", p->bit1, p->bit1);
287         debug(ctx, "\tbit0: 0x%08x (%u)\n", p->bit0, p->bit0);
288 }
289
290 static void debug_dump_zoom_header(am7xxx_context *ctx, struct am7xxx_zoom_header *z)
291 {
292         if (ctx == NULL || z == NULL)
293                 return;
294
295         debug(ctx, "Zoom header:\n");
296         debug(ctx, "\tbit1: 0x%08x (%u)\n", z->bit1, z->bit1);
297         debug(ctx, "\tbit0: 0x%08x (%u)\n", z->bit0, z->bit0);
298 }
299
300 static void debug_dump_header(am7xxx_context *ctx, struct am7xxx_header *h)
301 {
302         if (ctx == NULL || h == NULL)
303                 return;
304
305         debug(ctx, "BEGIN\n");
306         debug(ctx, "packet_type:     0x%08x (%u)\n", h->packet_type, h->packet_type);
307         debug(ctx, "direction:       0x%02hhx (%hhu) (%s)\n", h->direction, h->direction,
308               h->direction == AM7XXX_DIRECTION_IN ? "IN" :
309               h->direction == AM7XXX_DIRECTION_OUT ? "OUT" :
310               "UNKNOWN");
311         debug(ctx, "header_data_len: 0x%02hhx (%hhu)\n", h->header_data_len, h->header_data_len);
312         debug(ctx, "unknown2:        0x%02hhx (%hhu)\n", h->unknown2, h->unknown2);
313         debug(ctx, "unknown3:        0x%02hhx (%hhu)\n", h->unknown3, h->unknown3);
314
315         switch(h->packet_type) {
316         case AM7XXX_PACKET_TYPE_DEVINFO:
317                 debug_dump_devinfo_header(ctx, &(h->header_data.devinfo));
318                 break;
319
320         case AM7XXX_PACKET_TYPE_IMAGE:
321                 debug_dump_image_header(ctx, &(h->header_data.image));
322                 break;
323
324         case AM7XXX_PACKET_TYPE_POWER:
325                 debug_dump_power_header(ctx, &(h->header_data.power));
326                 break;
327
328         case AM7XXX_PACKET_TYPE_ZOOM:
329                 debug_dump_zoom_header(ctx, &(h->header_data.zoom));
330                 break;
331
332         default:
333                 debug(ctx, "Parsing data not supported for this packet type!\n");
334                 debug_dump_generic_header(ctx, &(h->header_data.data));
335                 break;
336         }
337         debug(ctx, "END\n\n");
338 }
339
340 static inline unsigned int in_80chars(unsigned int i)
341 {
342         /* The 3 below is the length of "xx " where xx is the hex string
343          * representation of a byte */
344         return ((i+1) % (80/3));
345 }
346
347 static void trace_dump_buffer(am7xxx_context *ctx, const char *message,
348                               uint8_t *buffer, unsigned int len)
349 {
350         unsigned int i;
351
352         if (ctx == NULL || buffer == NULL || len == 0)
353                 return;
354
355         trace(ctx, "\n");
356         if (message)
357                 trace(ctx, "%s\n", message);
358
359         for (i = 0; i < len; i++) {
360                 trace(ctx, "%02hhX%c", buffer[i], (in_80chars(i) && (i < len - 1)) ? ' ' : '\n');
361         }
362         trace(ctx, "\n");
363 }
364 #else
365 static void debug_dump_header(am7xxx_context *ctx, struct am7xxx_header *h)
366 {
367         (void)ctx;
368         (void)h;
369 }
370
371 static void trace_dump_buffer(am7xxx_context *ctx, const char *message,
372                               uint8_t *buffer, unsigned int len)
373 {
374         (void)ctx;
375         (void)message;
376         (void)buffer;
377         (void)len;
378 }
379 #endif /* DEBUG */
380
381 static int read_data(am7xxx_device *dev, uint8_t *buffer, unsigned int len)
382 {
383         int ret;
384         int transferred = 0;
385
386         ret = libusb_bulk_transfer(dev->usb_device, 0x81, buffer, len, &transferred, 0);
387         if (ret != 0 || (unsigned int)transferred != len) {
388                 error(dev->ctx, "ret: %d\ttransferred: %d (expected %u)\n",
389                       ret, transferred, len);
390                 return ret;
391         }
392
393         trace_dump_buffer(dev->ctx, "<-- received", buffer, len);
394
395         return 0;
396 }
397
398 static int send_data(am7xxx_device *dev, uint8_t *buffer, unsigned int len)
399 {
400         int ret;
401         int transferred = 0;
402
403         trace_dump_buffer(dev->ctx, "sending -->", buffer, len);
404
405         ret = libusb_bulk_transfer(dev->usb_device, 0x1, buffer, len, &transferred, 0);
406         if (ret != 0 || (unsigned int)transferred != len) {
407                 error(dev->ctx, "ret: %d\ttransferred: %d (expected %u)\n",
408                       ret, transferred, len);
409                 return ret;
410         }
411
412         return 0;
413 }
414
415 static void send_data_async_complete_cb(struct libusb_transfer *transfer)
416 {
417         am7xxx_device *dev = (am7xxx_device *)(transfer->user_data);
418         int *completed = &(dev->transfer_completed);
419         int transferred = transfer->actual_length;
420         int ret;
421
422         if (transferred != transfer->length) {
423                 error(dev->ctx, "transferred: %d (expected %u)\n",
424                       transferred, transfer->length);
425         }
426
427         switch (transfer->status) {
428         case LIBUSB_TRANSFER_COMPLETED:
429                 ret = 0;
430                 break;
431         case LIBUSB_TRANSFER_TIMED_OUT:
432                 ret = LIBUSB_ERROR_TIMEOUT;
433                 break;
434         case LIBUSB_TRANSFER_STALL:
435                 ret = LIBUSB_ERROR_PIPE;
436                 break;
437         case LIBUSB_TRANSFER_OVERFLOW:
438                 ret = LIBUSB_ERROR_OVERFLOW;
439                 break;
440         case LIBUSB_TRANSFER_NO_DEVICE:
441                 ret = LIBUSB_ERROR_NO_DEVICE;
442                 break;
443         case LIBUSB_TRANSFER_ERROR:
444         case LIBUSB_TRANSFER_CANCELLED:
445                 ret = LIBUSB_ERROR_IO;
446                 break;
447         default:
448                 error(dev->ctx, "unrecognised status code %d", transfer->status);
449                 ret = LIBUSB_ERROR_OTHER;
450         }
451
452         if (ret < 0)
453                 error(dev->ctx, "libusb transfer failed: %s",
454                       libusb_error_name(ret));
455
456         libusb_free_transfer(transfer);
457         transfer = NULL;
458
459         *completed = 1;
460 }
461
462 static inline void wait_for_trasfer_completed(am7xxx_device *dev)
463 {
464         while (!dev->transfer_completed) {
465                 int ret = libusb_handle_events_completed(dev->ctx->usb_context,
466                                                          &(dev->transfer_completed));
467                 if (ret < 0) {
468                         if (ret == LIBUSB_ERROR_INTERRUPTED)
469                                 continue;
470                         error(dev->ctx, "libusb_handle_events failed: %s, cancelling transfer and retrying",
471                               libusb_error_name(ret));
472                         libusb_cancel_transfer(dev->transfer);
473                         continue;
474                 }
475         }
476 }
477
478 static int send_data_async(am7xxx_device *dev, uint8_t *buffer, unsigned int len)
479 {
480         int ret;
481         uint8_t *transfer_buffer;
482
483         dev->transfer = libusb_alloc_transfer(0);
484         if (dev->transfer == NULL) {
485                 error(dev->ctx, "cannot allocate transfer (%s)\n",
486                       strerror(errno));
487                 return -ENOMEM;
488         }
489
490         /* Make a copy of the buffer so the caller can safely reuse it just
491          * after libusb_submit_transfer() has returned. This technique
492          * requires more allocations than a proper double-buffering approach
493          * but it takes a lot less code. */
494         transfer_buffer = malloc(len);
495         if (transfer_buffer == NULL) {
496                 error(dev->ctx, "cannot allocate transfer buffer (%s)\n",
497                       strerror(errno));
498                 ret = -ENOMEM;
499                 goto err;
500         }
501         memcpy(transfer_buffer, buffer, len);
502
503         dev->transfer->flags |= LIBUSB_TRANSFER_FREE_BUFFER;
504         libusb_fill_bulk_transfer(dev->transfer, dev->usb_device, 0x1,
505                                   transfer_buffer, len,
506                                   send_data_async_complete_cb, dev, 0);
507
508         /* wait for the previous transfer to complete */
509         wait_for_trasfer_completed(dev);
510
511         trace_dump_buffer(dev->ctx, "sending -->", buffer, len);
512
513         dev->transfer_completed = 0;
514         ret = libusb_submit_transfer(dev->transfer);
515         if (ret < 0)
516                 goto err;
517
518         return 0;
519
520 err:
521         libusb_free_transfer(dev->transfer);
522         dev->transfer = NULL;
523         return ret;
524 }
525
526 static void serialize_header(struct am7xxx_header *h, uint8_t *buffer)
527 {
528         uint8_t **buffer_iterator = &buffer;
529
530         put_le32(h->packet_type, buffer_iterator);
531         put_8(h->direction, buffer_iterator);
532         put_8(h->header_data_len, buffer_iterator);
533         put_8(h->unknown2, buffer_iterator);
534         put_8(h->unknown3, buffer_iterator);
535         put_le32(h->header_data.data.field0, buffer_iterator);
536         put_le32(h->header_data.data.field1, buffer_iterator);
537         put_le32(h->header_data.data.field2, buffer_iterator);
538         put_le32(h->header_data.data.field3, buffer_iterator);
539 }
540
541 static void unserialize_header(uint8_t *buffer, struct am7xxx_header *h)
542 {
543         uint8_t **buffer_iterator = &buffer;
544
545         h->packet_type = get_le32(buffer_iterator);
546         h->direction = get_8(buffer_iterator);
547         h->header_data_len = get_8(buffer_iterator);
548         h->unknown2 = get_8(buffer_iterator);
549         h->unknown3 = get_8(buffer_iterator);
550         h->header_data.data.field0 = get_le32(buffer_iterator);
551         h->header_data.data.field1 = get_le32(buffer_iterator);
552         h->header_data.data.field2 = get_le32(buffer_iterator);
553         h->header_data.data.field3 = get_le32(buffer_iterator);
554 }
555
556 static int read_header(am7xxx_device *dev, struct am7xxx_header *h)
557 {
558         int ret;
559
560         ret = read_data(dev, dev->buffer, AM7XXX_HEADER_WIRE_SIZE);
561         if (ret < 0)
562                 goto out;
563
564         unserialize_header(dev->buffer, h);
565
566         if (h->direction == AM7XXX_DIRECTION_IN) {
567                 ret = 0;
568         } else {
569                 error(dev->ctx,
570                       "Expected an AM7XXX_DIRECTION_IN packet, got one with direction = %d. Weird!\n",
571                       h->direction);
572                 ret = -EINVAL;
573         }
574
575         debug_dump_header(dev->ctx, h);
576
577 out:
578         return ret;
579 }
580
581 static int send_header(am7xxx_device *dev, struct am7xxx_header *h)
582 {
583         int ret;
584
585         debug_dump_header(dev->ctx, h);
586
587         /* For symmetry with read_header() we should check here for
588          * h->direction == AM7XXX_DIRECTION_OUT but we just ensure that in all
589          * the callers and save some cycles here.
590          */
591
592         serialize_header(h, dev->buffer);
593
594         ret = send_data(dev, dev->buffer, AM7XXX_HEADER_WIRE_SIZE);
595         if (ret < 0)
596                 error(dev->ctx, "failed to send data\n");
597
598         return ret;
599 }
600
601 static int send_command(am7xxx_device *dev, am7xxx_packet_type type)
602 {
603         struct am7xxx_header h = {
604                 .packet_type     = type,
605                 .direction       = AM7XXX_DIRECTION_OUT,
606                 .header_data_len = 0x00,
607                 .unknown2        = 0x3e,
608                 .unknown3        = 0x10,
609                 .header_data = {
610                         .data = {
611                                 .field0 = 0,
612                                 .field1 = 0,
613                                 .field2 = 0,
614                                 .field3 = 0,
615                         },
616                 },
617         };
618
619         return send_header(dev, &h);
620 }
621
622
623 /* When level == AM7XXX_LOG_FATAL do not check the log_level from the context
624  * and print the message unconditionally, this makes it possible to print
625  * fatal messages even early on initialization, before the context has been
626  * set up */
627 static void log_message(am7xxx_context *ctx,
628                         int level,
629                         const char *function,
630                         int line,
631                         const char *fmt,
632                         ...)
633 {
634         va_list ap;
635
636         if (level == AM7XXX_LOG_FATAL || (ctx && level <= ctx->log_level)) {
637                 if (function) {
638                         fprintf(stderr, "%s", function);
639                         if (line)
640                                 fprintf(stderr, "[%d]", line);
641                         fprintf(stderr, ": ");
642                 }
643
644                 va_start(ap, fmt);
645                 vfprintf(stderr, fmt, ap);
646                 va_end(ap);
647         }
648
649         return;
650 }
651
652 static am7xxx_device *add_new_device(am7xxx_context *ctx,
653                                      const struct am7xxx_usb_device_descriptor *desc)
654 {
655         am7xxx_device **devices_list;
656         am7xxx_device *new_device;
657
658         if (ctx == NULL) {
659                 fatal("context must not be NULL!\n");
660                 return NULL;
661         }
662
663         new_device = malloc(sizeof(*new_device));
664         if (new_device == NULL) {
665                 fatal("cannot allocate a new device (%s)\n", strerror(errno));
666                 return NULL;
667         }
668         memset(new_device, 0, sizeof(*new_device));
669
670         new_device->ctx = ctx;
671         new_device->desc = desc;
672         new_device->transfer_completed = 1;
673
674         devices_list = &(ctx->devices_list);
675
676         if (*devices_list == NULL) {
677                 *devices_list = new_device;
678         } else {
679                 am7xxx_device *prev = *devices_list;
680                 while (prev->next)
681                         prev = prev->next;
682                 prev->next = new_device;
683         }
684         return new_device;
685 }
686
687 static am7xxx_device *find_device(am7xxx_context *ctx,
688                                   unsigned int device_index)
689 {
690         unsigned int i = 0;
691         am7xxx_device *current;
692
693         if (ctx == NULL) {
694                 fatal("context must not be NULL!\n");
695                 return NULL;
696         }
697
698         current = ctx->devices_list;
699         while (current && i++ < device_index)
700                 current = current->next;
701
702         return current;
703 }
704
705 static int open_device(am7xxx_context *ctx,
706                        unsigned int device_index,
707                        libusb_device* usb_dev,
708                        am7xxx_device **dev)
709 {
710         int ret;
711
712         *dev = find_device(ctx, device_index);
713         if (*dev == NULL) {
714                 ret = -ENODEV;
715                 goto out;
716         }
717
718         /* the usb device has already been opened */
719         if ((*dev)->usb_device) {
720                 debug(ctx, "(*dev)->usb_device already set\n");
721                 ret = 1;
722                 goto out;
723         }
724
725         ret = libusb_open(usb_dev, &((*dev)->usb_device));
726         if (ret < 0) {
727                 debug(ctx, "libusb_open failed\n");
728                 goto out;
729         }
730
731         /* XXX, the device is now open, if any of the calls below fail we need
732          * to close it again before bailing out.
733          */
734
735         ret = libusb_set_configuration((*dev)->usb_device,
736                                        (*dev)->desc->configuration);
737         if (ret < 0) {
738                 debug(ctx, "libusb_set_configuration failed\n");
739                 debug(ctx, "Cannot set configuration %hhu\n",
740                       (*dev)->desc->configuration);
741                 goto out_libusb_close;
742         }
743
744         ret = libusb_claim_interface((*dev)->usb_device,
745                                      (*dev)->desc->interface_number);
746         if (ret < 0) {
747                 debug(ctx, "libusb_claim_interface failed\n");
748                 debug(ctx, "Cannot claim interface %hhu\n",
749                       (*dev)->desc->interface_number);
750                 goto out_libusb_close;
751         }
752 out:
753         return ret;
754
755 out_libusb_close:
756         libusb_close((*dev)->usb_device);
757         (*dev)->usb_device = NULL;
758         return ret;
759 }
760
761 typedef enum {
762         SCAN_OP_BUILD_DEVLIST,
763         SCAN_OP_OPEN_DEVICE,
764 } scan_op;
765
766 /**
767  * This is where the central logic of multi-device support is.
768  *
769  * When 'op' == SCAN_OP_BUILD_DEVLIST the parameters 'open_device_index' and
770  * 'dev' are ignored; the function returns 0 on success and a negative value
771  * on error.
772  *
773  * When 'op' == SCAN_OP_OPEN_DEVICE the function opens the supported USB
774  * device with index 'open_device_index' and returns the correspondent
775  * am7xxx_device in the 'dev' parameter; the function returns 0 on success,
776  * 1 if the device was already open and a negative value on error.
777  *
778  * NOTES:
779  * if scan_devices() fails when called with 'op' == SCAN_OP_BUILD_DEVLIST,
780  * the caller might want to call am7xxx_shutdown() in order to remove
781  * devices possibly added before the failure.
782  */
783 static int scan_devices(am7xxx_context *ctx, scan_op op,
784                         unsigned int open_device_index, am7xxx_device **dev)
785 {
786         ssize_t num_devices;
787         libusb_device** list;
788         unsigned int current_index;
789         int i;
790         int ret;
791
792         if (ctx == NULL) {
793                 fatal("context must not be NULL!\n");
794                 return -EINVAL;
795         }
796         if (op == SCAN_OP_BUILD_DEVLIST && ctx->devices_list != NULL) {
797                 error(ctx, "device scan done already? Abort!\n");
798                 return -EINVAL;
799         }
800
801         num_devices = libusb_get_device_list(ctx->usb_context, &list);
802         if (num_devices < 0) {
803                 ret = -ENODEV;
804                 goto out;
805         }
806
807         current_index = 0;
808         for (i = 0; i < num_devices; i++) {
809                 struct libusb_device_descriptor desc;
810                 unsigned int j;
811
812                 ret = libusb_get_device_descriptor(list[i], &desc);
813                 if (ret < 0)
814                         continue;
815
816                 for (j = 0; j < ARRAY_SIZE(supported_devices); j++) {
817                         if (desc.idVendor == supported_devices[j].vendor_id &&
818                             desc.idProduct == supported_devices[j].product_id) {
819
820                                 if (op == SCAN_OP_BUILD_DEVLIST) {
821                                         am7xxx_device *new_device;
822                                         info(ctx, "am7xxx device found, index: %d, name: %s\n",
823                                              current_index,
824                                              supported_devices[j].name);
825                                         new_device = add_new_device(ctx, &supported_devices[j]);
826                                         if (new_device == NULL) {
827                                                 /* XXX, the caller may want
828                                                  * to call am7xxx_shutdown() if
829                                                  * we fail here, as we may have
830                                                  * added some devices already
831                                                  */
832                                                 debug(ctx, "Cannot create a new device\n");
833                                                 ret = -ENODEV;
834                                                 goto out;
835                                         }
836                                 } else if (op == SCAN_OP_OPEN_DEVICE &&
837                                            current_index == open_device_index) {
838
839                                         ret = open_device(ctx,
840                                                           open_device_index,
841                                                           list[i],
842                                                           dev);
843                                         if (ret < 0)
844                                                 debug(ctx, "open_device failed\n");
845
846                                         /* exit the loop unconditionally after
847                                          * attempting to open the device
848                                          * requested by the user */
849                                         goto out;
850                                 }
851                                 current_index++;
852                         }
853                 }
854         }
855
856         /* if we made it up to here when op == SCAN_OP_OPEN_DEVICE,
857          * no devices to open had been found. */
858         if (op == SCAN_OP_OPEN_DEVICE) {
859                 error(ctx, "Cannot find any device to open\n");
860                 ret = -ENODEV;
861                 goto out;
862         }
863
864         /* everything went fine when building the device list */
865         ret = 0;
866 out:
867         libusb_free_device_list(list, 1);
868         return ret;
869 }
870
871 /* Device specific operations */
872
873 static int default_set_power_mode(am7xxx_device *dev, am7xxx_power_mode power)
874 {
875         int ret;
876         struct am7xxx_header h = {
877                 .packet_type     = AM7XXX_PACKET_TYPE_POWER,
878                 .direction       = AM7XXX_DIRECTION_OUT,
879                 .header_data_len = sizeof(struct am7xxx_power_header),
880                 .unknown2        = 0x3e,
881                 .unknown3        = 0x10,
882         };
883
884         switch(power) {
885         case AM7XXX_POWER_OFF:
886                 h.header_data.power.bit2 = 0;
887                 h.header_data.power.bit1 = 0;
888                 h.header_data.power.bit0 = 0;
889                 break;
890
891         case AM7XXX_POWER_LOW:
892                 h.header_data.power.bit2 = 0;
893                 h.header_data.power.bit1 = 0;
894                 h.header_data.power.bit0 = 1;
895                 break;
896
897         case AM7XXX_POWER_MIDDLE:
898                 h.header_data.power.bit2 = 0;
899                 h.header_data.power.bit1 = 1;
900                 h.header_data.power.bit0 = 0;
901                 break;
902
903         case AM7XXX_POWER_HIGH:
904                 h.header_data.power.bit2 = 0;
905                 h.header_data.power.bit1 = 1;
906                 h.header_data.power.bit0 = 1;
907                 break;
908
909         case AM7XXX_POWER_TURBO:
910                 h.header_data.power.bit2 = 1;
911                 h.header_data.power.bit1 = 0;
912                 h.header_data.power.bit0 = 0;
913                 break;
914
915         default:
916                 error(dev->ctx, "Unsupported power mode.\n");
917                 return -EINVAL;
918         };
919
920         ret = send_header(dev, &h);
921         if (ret < 0)
922                 return ret;
923
924         return 0;
925 }
926
927 static int picopix_set_power_mode(am7xxx_device *dev, am7xxx_power_mode power)
928 {
929         switch(power) {
930         case AM7XXX_POWER_LOW:
931                 return send_command(dev, AM7XXX_PACKET_TYPE_PICOPIX_POWER_LOW);
932
933         case AM7XXX_POWER_MIDDLE:
934                 return send_command(dev, AM7XXX_PACKET_TYPE_PICOPIX_POWER_MEDIUM);
935
936         case AM7XXX_POWER_HIGH:
937                 return send_command(dev, AM7XXX_PACKET_TYPE_PICOPIX_POWER_HIGH);
938
939         case AM7XXX_POWER_OFF:
940         case AM7XXX_POWER_TURBO:
941         default:
942                 error(dev->ctx, "Unsupported power mode.\n");
943                 return -EINVAL;
944         };
945 }
946
947 static int default_set_zoom_mode(am7xxx_device *dev, am7xxx_zoom_mode zoom)
948 {
949         int ret;
950         struct am7xxx_header h = {
951                 .packet_type     = AM7XXX_PACKET_TYPE_ZOOM,
952                 .direction       = AM7XXX_DIRECTION_OUT,
953                 .header_data_len = sizeof(struct am7xxx_zoom_header),
954                 .unknown2        = 0x3e,
955                 .unknown3        = 0x10,
956         };
957
958         switch(zoom) {
959         case AM7XXX_ZOOM_ORIGINAL:
960                 h.header_data.zoom.bit1 = 0;
961                 h.header_data.zoom.bit0 = 0;
962                 break;
963
964         case AM7XXX_ZOOM_H:
965                 h.header_data.zoom.bit1 = 0;
966                 h.header_data.zoom.bit0 = 1;
967                 break;
968
969         case AM7XXX_ZOOM_H_V:
970                 h.header_data.zoom.bit1 = 1;
971                 h.header_data.zoom.bit0 = 0;
972                 break;
973
974         case AM7XXX_ZOOM_TEST:
975                 h.header_data.zoom.bit1 = 1;
976                 h.header_data.zoom.bit0 = 1;
977                 break;
978
979         case AM7XXX_ZOOM_TELE:
980         default:
981                 error(dev->ctx, "Unsupported zoom mode.\n");
982                 return -EINVAL;
983         };
984
985         ret = send_header(dev, &h);
986         if (ret < 0)
987                 return ret;
988
989         return 0;
990 }
991
992 static int picopix_set_zoom_mode(am7xxx_device *dev, am7xxx_zoom_mode zoom)
993 {
994         int ret;
995         am7xxx_packet_type packet_type;
996
997         switch(zoom) {
998         case AM7XXX_ZOOM_ORIGINAL:
999                 packet_type = AM7XXX_PACKET_TYPE_PICOPIX_DISABLE_TI;
1000                 break;
1001
1002         case AM7XXX_ZOOM_TELE:
1003                 packet_type = AM7XXX_PACKET_TYPE_PICOPIX_ENABLE_TI;
1004                 break;
1005
1006         case AM7XXX_ZOOM_H:
1007         case AM7XXX_ZOOM_H_V:
1008         case AM7XXX_ZOOM_TEST:
1009         default:
1010                 error(dev->ctx, "Unsupported zoom mode.\n");
1011                 return -EINVAL;
1012         };
1013
1014         ret = send_command(dev, packet_type);
1015         if (ret < 0)
1016                 return ret;
1017
1018         /* The Windows drivers wait for 100ms and send the same command again,
1019          * probably to overcome a firmware deficiency */
1020         ret = msleep(100);
1021         if (ret < 0)
1022                 return ret;
1023
1024         return send_command(dev, packet_type);
1025 }
1026
1027 /* Public API */
1028
1029 AM7XXX_PUBLIC int am7xxx_init(am7xxx_context **ctx)
1030 {
1031         int ret;
1032
1033         *ctx = malloc(sizeof(**ctx));
1034         if (*ctx == NULL) {
1035                 fatal("cannot allocate the context (%s)\n", strerror(errno));
1036                 ret = -ENOMEM;
1037                 goto out;
1038         }
1039         memset(*ctx, 0, sizeof(**ctx));
1040
1041         /* Set the highest log level during initialization */
1042         (*ctx)->log_level = AM7XXX_LOG_TRACE;
1043
1044         ret = libusb_init(&((*ctx)->usb_context));
1045         if (ret < 0)
1046                 goto out_free_context;
1047
1048         libusb_set_debug((*ctx)->usb_context, LIBUSB_LOG_LEVEL_INFO);
1049
1050         ret = scan_devices(*ctx, SCAN_OP_BUILD_DEVLIST , 0, NULL);
1051         if (ret < 0) {
1052                 error(*ctx, "scan_devices() failed\n");
1053                 am7xxx_shutdown(*ctx);
1054                 goto out;
1055         }
1056
1057         /* Set a quieter log level as default for normal operation */
1058         (*ctx)->log_level = AM7XXX_LOG_ERROR;
1059         return 0;
1060
1061 out_free_context:
1062         free(*ctx);
1063         *ctx = NULL;
1064 out:
1065         return ret;
1066 }
1067
1068 AM7XXX_PUBLIC void am7xxx_shutdown(am7xxx_context *ctx)
1069 {
1070         am7xxx_device *current;
1071
1072         if (ctx == NULL) {
1073                 fatal("context must not be NULL!\n");
1074                 return;
1075         }
1076
1077         current = ctx->devices_list;
1078         while (current) {
1079                 am7xxx_device *next = current->next;
1080                 am7xxx_close_device(current);
1081                 free(current->device_info);
1082                 free(current);
1083                 current = next;
1084         }
1085
1086         libusb_exit(ctx->usb_context);
1087         free(ctx);
1088         ctx = NULL;
1089 }
1090
1091 AM7XXX_PUBLIC void am7xxx_set_log_level(am7xxx_context *ctx, am7xxx_log_level log_level)
1092 {
1093         ctx->log_level = log_level;
1094 }
1095
1096 AM7XXX_PUBLIC int am7xxx_open_device(am7xxx_context *ctx, am7xxx_device **dev,
1097                        unsigned int device_index)
1098 {
1099         int ret;
1100
1101         if (ctx == NULL) {
1102                 fatal("context must not be NULL!\n");
1103                 return -EINVAL;
1104         }
1105
1106         ret = scan_devices(ctx, SCAN_OP_OPEN_DEVICE, device_index, dev);
1107         if (ret < 0) {
1108                 errno = ENODEV;
1109                 goto out;
1110         } else if (ret > 0) {
1111                 warning(ctx, "device %d already open\n", device_index);
1112                 errno = EBUSY;
1113                 ret = -EBUSY;
1114                 goto out;
1115         }
1116
1117         /* Philips/Sagemcom PicoPix projectors require that the DEVINFO packet
1118          * is the first one to be sent to the device in order for it to
1119          * successfully return the correct device information.
1120          *
1121          * So, if there is not a cached version of it (from a previous open),
1122          * we ask for device info at open time,
1123          */
1124         if ((*dev)->device_info == NULL) {
1125                 ret = am7xxx_get_device_info(*dev, NULL);
1126                 if (ret < 0)
1127                         error(ctx, "cannot get device info\n");
1128         }
1129
1130 out:
1131         return ret;
1132 }
1133
1134 AM7XXX_PUBLIC int am7xxx_close_device(am7xxx_device *dev)
1135 {
1136         if (dev == NULL) {
1137                 fatal("dev must not be NULL!\n");
1138                 return -EINVAL;
1139         }
1140         if (dev->usb_device) {
1141                 wait_for_trasfer_completed(dev);
1142                 libusb_release_interface(dev->usb_device, dev->desc->interface_number);
1143                 libusb_close(dev->usb_device);
1144                 dev->usb_device = NULL;
1145         }
1146         return 0;
1147 }
1148
1149 AM7XXX_PUBLIC int am7xxx_get_device_info(am7xxx_device *dev,
1150                            am7xxx_device_info *device_info)
1151 {
1152         int ret;
1153         struct am7xxx_header h;
1154
1155         if (dev->device_info) {
1156                 memcpy(device_info, dev->device_info, sizeof(*device_info));
1157                 return 0;
1158         }
1159
1160         ret = send_command(dev, AM7XXX_PACKET_TYPE_DEVINFO);
1161         if (ret < 0)
1162                 return ret;
1163
1164         memset(&h, 0, sizeof(h));
1165         ret = read_header(dev, &h);
1166         if (ret < 0)
1167                 return ret;
1168
1169         if (h.packet_type != AM7XXX_PACKET_TYPE_DEVINFO) {
1170                 error(dev->ctx, "expected packet type: %d, got %d instead!\n",
1171                       AM7XXX_PACKET_TYPE_DEVINFO, h.packet_type);
1172                 errno = ENOTSUP;
1173                 return -ENOTSUP;
1174         }
1175
1176         dev->device_info = malloc(sizeof(*dev->device_info));
1177         if (dev->device_info == NULL) {
1178                 error(dev->ctx, "cannot allocate a device info (%s)\n",
1179                        strerror(errno));
1180                 return -ENOMEM;
1181         }
1182         memset(dev->device_info, 0, sizeof(*dev->device_info));
1183
1184         dev->device_info->native_width = h.header_data.devinfo.native_width;
1185         dev->device_info->native_height = h.header_data.devinfo.native_height;
1186 #if 0
1187         /* No reason to expose these in the public API until we know what they mean */
1188         dev->device_info->unknown0 = h.header_data.devinfo.unknown0;
1189         dev->device_info->unknown1 = h.header_data.devinfo.unknown1;
1190 #endif
1191
1192         return 0;
1193 }
1194
1195 AM7XXX_PUBLIC int am7xxx_calc_scaled_image_dimensions(am7xxx_device *dev,
1196                                         unsigned int upscale,
1197                                         unsigned int original_width,
1198                                         unsigned int original_height,
1199                                         unsigned int *scaled_width,
1200                                         unsigned int *scaled_height)
1201 {
1202
1203         am7xxx_device_info device_info;
1204         float width_ratio;
1205         float height_ratio;
1206         int ret;
1207
1208         ret = am7xxx_get_device_info(dev, &device_info);
1209         if (ret < 0) {
1210                 error(dev->ctx, "cannot get device info\n");
1211                 return ret;
1212         }
1213
1214         /*
1215          * Check if we need to rescale; if the input image fits the native
1216          * dimensions there is no need to, unless we want to upscale.
1217          */
1218         if (!upscale &&
1219             original_width <= device_info.native_width &&
1220             original_height <= device_info.native_height ) {
1221                 debug(dev->ctx, "CASE 0, no rescaling, the original image fits already\n");
1222                 *scaled_width = original_width;
1223                 *scaled_height = original_height;
1224                 return 0;
1225         }
1226
1227         /* Input dimensions relative to the device native dimensions */
1228         width_ratio =  (float)original_width / device_info.native_width;
1229         height_ratio = (float)original_height / device_info.native_height;
1230
1231         if (width_ratio > height_ratio) {
1232                 /*
1233                  * The input is proportionally "wider" than the device viewport
1234                  * so its height needs to be adjusted
1235                  */
1236                 debug(dev->ctx, "CASE 1, original image wider, adjust the scaled height\n");
1237                 *scaled_width = device_info.native_width;
1238                 *scaled_height = (unsigned int)lroundf(original_height / width_ratio);
1239         } else if (width_ratio < height_ratio) {
1240                 /*
1241                  * The input is proportionally "taller" than the device viewport
1242                  * so its width needs to be adjusted
1243                  */
1244                 debug(dev->ctx, "CASE 2 original image taller, adjust the scaled width\n");
1245                 *scaled_width = (unsigned int)lroundf(original_width / height_ratio);
1246                 *scaled_height = device_info.native_height;
1247         } else {
1248                 debug(dev->ctx, "CASE 3, just rescale, same aspect ratio already\n");
1249                 *scaled_width = device_info.native_width;
1250                 *scaled_height = device_info.native_height;
1251         }
1252         debug(dev->ctx, "scaled dimensions: %dx%d\n", *scaled_width, *scaled_height);
1253
1254         return 0;
1255 }
1256
1257 AM7XXX_PUBLIC int am7xxx_send_image(am7xxx_device *dev,
1258                       am7xxx_image_format format,
1259                       unsigned int width,
1260                       unsigned int height,
1261                       uint8_t *image,
1262                       unsigned int image_size)
1263 {
1264         int ret;
1265         struct am7xxx_header h = {
1266                 .packet_type     = AM7XXX_PACKET_TYPE_IMAGE,
1267                 .direction       = AM7XXX_DIRECTION_OUT,
1268                 .header_data_len = sizeof(struct am7xxx_image_header),
1269                 .unknown2        = 0x3e,
1270                 .unknown3        = 0x10,
1271                 .header_data = {
1272                         .image = {
1273                                 .format     = format,
1274                                 .width      = width,
1275                                 .height     = height,
1276                                 .image_size = image_size,
1277                         },
1278                 },
1279         };
1280
1281         ret = send_header(dev, &h);
1282         if (ret < 0)
1283                 return ret;
1284
1285         if (image == NULL || image_size == 0) {
1286                 warning(dev->ctx, "Not sending any data, check the 'image' or 'image_size' parameters\n");
1287                 return 0;
1288         }
1289
1290         return send_data(dev, image, image_size);
1291 }
1292
1293 AM7XXX_PUBLIC int am7xxx_send_image_async(am7xxx_device *dev,
1294                                           am7xxx_image_format format,
1295                                           unsigned int width,
1296                                           unsigned int height,
1297                                           uint8_t *image,
1298                                           unsigned int image_size)
1299 {
1300         int ret;
1301         struct am7xxx_header h = {
1302                 .packet_type     = AM7XXX_PACKET_TYPE_IMAGE,
1303                 .direction       = AM7XXX_DIRECTION_OUT,
1304                 .header_data_len = sizeof(struct am7xxx_image_header),
1305                 .unknown2        = 0x3e,
1306                 .unknown3        = 0x10,
1307                 .header_data = {
1308                         .image = {
1309                                 .format     = format,
1310                                 .width      = width,
1311                                 .height     = height,
1312                                 .image_size = image_size,
1313                         },
1314                 },
1315         };
1316
1317         ret = send_header(dev, &h);
1318         if (ret < 0)
1319                 return ret;
1320
1321         if (image == NULL || image_size == 0) {
1322                 warning(dev->ctx, "Not sending any data, check the 'image' or 'image_size' parameters\n");
1323                 return 0;
1324         }
1325
1326         return send_data_async(dev, image, image_size);
1327 }
1328
1329 AM7XXX_PUBLIC int am7xxx_set_power_mode(am7xxx_device *dev, am7xxx_power_mode power)
1330 {
1331         if (dev->desc->ops.set_power_mode == NULL) {
1332                 warning(dev->ctx,
1333                         "setting power mode is unsupported on this device\n");
1334                 return 0;
1335         }
1336
1337         return dev->desc->ops.set_power_mode(dev, power);
1338 }
1339
1340 AM7XXX_PUBLIC int am7xxx_set_zoom_mode(am7xxx_device *dev, am7xxx_zoom_mode zoom)
1341 {
1342         if (dev->desc->ops.set_zoom_mode == NULL) {
1343                 warning(dev->ctx,
1344                         "setting zoom mode is unsupported on this device\n");
1345                 return 0;
1346         }
1347
1348         return dev->desc->ops.set_zoom_mode(dev, zoom);
1349 }