2 * xusb: Generic USB test program
3 * Copyright © 2009-2012 Pete Batard <pete@akeo.ie>
4 * Contributions to Mass Storage by Alan Stern.
6 * This library is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU Lesser General Public
8 * License as published by the Free Software Foundation; either
9 * version 2.1 of the License, or (at your option) any later version.
11 * This library is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 * Lesser General Public License for more details.
16 * You should have received a copy of the GNU Lesser General Public
17 * License along with this library; if not, write to the Free Software
18 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
30 #define msleep(msecs) Sleep(msecs)
33 #define msleep(msecs) usleep(1000*msecs)
36 #if !defined(_MSC_VER) || _MSC_VER<=1200
37 #define sscanf_s sscanf
51 // Future versions of libusbx will use usb_interface instead of interface
52 // in libusb_config_descriptor => catter for that
53 #define usb_interface interface
56 bool binary_dump
= false;
57 bool extra_info
= false;
58 const char* binary_name
= NULL
;
60 static int perr(char const *format
, ...)
65 va_start (args
, format
);
66 r
= vfprintf(stderr
, format
, args
);
72 #define ERR_EXIT(errcode) do { perr(" %s\n", libusb_error_name((enum libusb_error)errcode)); return -1; } while (0)
73 #define CALL_CHECK(fcall) do { r=fcall; if (r < 0) ERR_EXIT(r); } while (0);
74 #define B(x) (((x)!=0)?1:0)
75 #define be_to_int32(buf) (((buf)[0]<<24)|((buf)[1]<<16)|((buf)[2]<<8)|(buf)[3])
78 #define REQUEST_SENSE_LENGTH 0x12
79 #define INQUIRY_LENGTH 0x24
80 #define READ_CAPACITY_LENGTH 0x08
82 // HID Class-Specific Requests values. See section 7.2 of the HID specifications
83 #define HID_GET_REPORT 0x01
84 #define HID_GET_IDLE 0x02
85 #define HID_GET_PROTOCOL 0x03
86 #define HID_SET_REPORT 0x09
87 #define HID_SET_IDLE 0x0A
88 #define HID_SET_PROTOCOL 0x0B
89 #define HID_REPORT_TYPE_INPUT 0x01
90 #define HID_REPORT_TYPE_OUTPUT 0x02
91 #define HID_REPORT_TYPE_FEATURE 0x03
93 // Mass Storage Requests values. See section 3 of the Bulk-Only Mass Storage Class specifications
94 #define BOMS_RESET 0xFF
95 #define BOMS_GET_MAX_LUN 0xFE
97 // Section 5.1: Command Block Wrapper (CBW)
98 struct command_block_wrapper
{
99 uint8_t dCBWSignature
[4];
101 uint32_t dCBWDataTransferLength
;
104 uint8_t bCBWCBLength
;
108 // Section 5.2: Command Status Wrapper (CSW)
109 struct command_status_wrapper
{
110 uint8_t dCSWSignature
[4];
112 uint32_t dCSWDataResidue
;
116 static uint8_t cdb_length
[256] = {
117 // 0 1 2 3 4 5 6 7 8 9 A B C D E F
118 06,06,06,06,06,06,06,06,06,06,06,06,06,06,06,06, // 0
119 06,06,06,06,06,06,06,06,06,06,06,06,06,06,06,06, // 1
120 10,10,10,10,10,10,10,10,10,10,10,10,10,10,10,10, // 2
121 10,10,10,10,10,10,10,10,10,10,10,10,10,10,10,10, // 3
122 10,10,10,10,10,10,10,10,10,10,10,10,10,10,10,10, // 4
123 10,10,10,10,10,10,10,10,10,10,10,10,10,10,10,10, // 5
124 00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00, // 6
125 00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00, // 7
126 16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16, // 8
127 16,16,16,16,16,16,16,16,16,16,16,16,16,16,16,16, // 9
128 12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12, // A
129 12,12,12,12,12,12,12,12,12,12,12,12,12,12,12,12, // B
130 00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00, // C
131 00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00, // D
132 00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00, // E
133 00,00,00,00,00,00,00,00,00,00,00,00,00,00,00,00, // F
145 static void display_buffer_hex(unsigned char *buffer
, unsigned size
)
149 for (i
=0; i
<size
; i
+=16) {
150 printf("\n %08x ", i
);
151 for(j
=0,k
=0; k
<16; j
++,k
++) {
153 printf("%02x", buffer
[i
+j
]);
160 for(j
=0,k
=0; k
<16; j
++,k
++) {
162 if ((buffer
[i
+j
] < 32) || (buffer
[i
+j
] > 126)) {
165 printf("%c", buffer
[i
+j
]);
173 // The PS3 Controller is really a HID device that got its HID Report Descriptors
175 static int display_ps3_status(libusb_device_handle
*handle
)
178 uint8_t input_report
[49];
179 uint8_t master_bt_address
[8];
180 uint8_t device_bt_address
[18];
182 // Get the controller's bluetooth address of its master device
183 CALL_CHECK(libusb_control_transfer(handle
, LIBUSB_ENDPOINT_IN
|LIBUSB_REQUEST_TYPE_CLASS
|LIBUSB_RECIPIENT_INTERFACE
,
184 HID_GET_REPORT
, 0x03f5, 0, master_bt_address
, sizeof(master_bt_address
), 100));
185 printf("\nMaster's bluetooth address: %02X:%02X:%02X:%02X:%02X:%02X\n", master_bt_address
[2], master_bt_address
[3],
186 master_bt_address
[4], master_bt_address
[5], master_bt_address
[6], master_bt_address
[7]);
188 // Get the controller's bluetooth address
189 CALL_CHECK(libusb_control_transfer(handle
, LIBUSB_ENDPOINT_IN
|LIBUSB_REQUEST_TYPE_CLASS
|LIBUSB_RECIPIENT_INTERFACE
,
190 HID_GET_REPORT
, 0x03f2, 0, device_bt_address
, sizeof(device_bt_address
), 100));
191 printf("\nMaster's bluetooth address: %02X:%02X:%02X:%02X:%02X:%02X\n", device_bt_address
[4], device_bt_address
[5],
192 device_bt_address
[6], device_bt_address
[7], device_bt_address
[8], device_bt_address
[9]);
194 // Get the status of the controller's buttons via its HID report
195 printf("\nReading PS3 Input Report...\n");
196 CALL_CHECK(libusb_control_transfer(handle
, LIBUSB_ENDPOINT_IN
|LIBUSB_REQUEST_TYPE_CLASS
|LIBUSB_RECIPIENT_INTERFACE
,
197 HID_GET_REPORT
, (HID_REPORT_TYPE_INPUT
<<8)|0x01, 0, input_report
, sizeof(input_report
), 1000));
198 switch(input_report
[2]){ /** Direction pad plus start, select, and joystick buttons */
200 printf("\tSELECT pressed\n");
203 printf("\tLEFT 3 pressed\n");
206 printf("\tRIGHT 3 pressed\n");
209 printf("\tSTART presed\n");
212 printf("\tUP pressed\n");
215 printf("\tRIGHT pressed\n");
218 printf("\tDOWN pressed\n");
221 printf("\tLEFT pressed\n");
224 switch(input_report
[3]){ /** Shapes plus top right and left buttons */
226 printf("\tLEFT 2 pressed\n");
229 printf("\tRIGHT 2 pressed\n");
232 printf("\tLEFT 1 pressed\n");
235 printf("\tRIGHT 1 presed\n");
238 printf("\tTRIANGLE pressed\n");
241 printf("\tCIRCLE pressed\n");
244 printf("\tCROSS pressed\n");
247 printf("\tSQUARE pressed\n");
250 printf("\tPS button: %d\n", input_report
[4]);
251 printf("\tLeft Analog (X,Y): (%d,%d)\n", input_report
[6], input_report
[7]);
252 printf("\tRight Analog (X,Y): (%d,%d)\n", input_report
[8], input_report
[9]);
253 printf("\tL2 Value: %d\tR2 Value: %d\n", input_report
[18], input_report
[19]);
254 printf("\tL1 Value: %d\tR1 Value: %d\n", input_report
[20], input_report
[21]);
255 printf("\tRoll (x axis): %d Yaw (y axis): %d Pitch (z axis) %d\n",
256 //(((input_report[42] + 128) % 256) - 128),
257 (int8_t)(input_report
[42]),
258 (int8_t)(input_report
[44]),
259 (int8_t)(input_report
[46]));
260 printf("\tAcceleration: %d\n\n", (int8_t)(input_report
[48]));
263 // The XBOX Controller is really a HID device that got its HID Report Descriptors
264 // removed by Microsoft.
265 // Input/Output reports described at http://euc.jp/periphs/xbox-controller.ja.html
266 static int display_xbox_status(libusb_device_handle
*handle
)
269 uint8_t input_report
[20];
270 printf("\nReading XBox Input Report...\n");
271 CALL_CHECK(libusb_control_transfer(handle
, LIBUSB_ENDPOINT_IN
|LIBUSB_REQUEST_TYPE_CLASS
|LIBUSB_RECIPIENT_INTERFACE
,
272 HID_GET_REPORT
, (HID_REPORT_TYPE_INPUT
<<8)|0x00, 0, input_report
, 20, 1000));
273 printf(" D-pad: %02X\n", input_report
[2]&0x0F);
274 printf(" Start:%d, Back:%d, Left Stick Press:%d, Right Stick Press:%d\n", B(input_report
[2]&0x10), B(input_report
[2]&0x20),
275 B(input_report
[2]&0x40), B(input_report
[2]&0x80));
276 // A, B, X, Y, Black, White are pressure sensitive
277 printf(" A:%d, B:%d, X:%d, Y:%d, White:%d, Black:%d\n", input_report
[4], input_report
[5],
278 input_report
[6], input_report
[7], input_report
[9], input_report
[8]);
279 printf(" Left Trigger: %d, Right Trigger: %d\n", input_report
[10], input_report
[11]);
280 printf(" Left Analog (X,Y): (%d,%d)\n", (int16_t)((input_report
[13]<<8)|input_report
[12]),
281 (int16_t)((input_report
[15]<<8)|input_report
[14]));
282 printf(" Right Analog (X,Y): (%d,%d)\n", (int16_t)((input_report
[17]<<8)|input_report
[16]),
283 (int16_t)((input_report
[19]<<8)|input_report
[18]));
287 static int set_xbox_actuators(libusb_device_handle
*handle
, uint8_t left
, uint8_t right
)
290 uint8_t output_report
[6];
292 printf("\nWriting XBox Controller Output Report...\n");
294 memset(output_report
, 0, sizeof(output_report
));
295 output_report
[1] = sizeof(output_report
);
296 output_report
[3] = left
;
297 output_report
[5] = right
;
299 CALL_CHECK(libusb_control_transfer(handle
, LIBUSB_ENDPOINT_OUT
|LIBUSB_REQUEST_TYPE_CLASS
|LIBUSB_RECIPIENT_INTERFACE
,
300 HID_SET_REPORT
, (HID_REPORT_TYPE_OUTPUT
<<8)|0x00, 0, output_report
, 06, 1000));
304 static int send_mass_storage_command(libusb_device_handle
*handle
, uint8_t endpoint
, uint8_t lun
,
305 uint8_t *cdb
, uint8_t direction
, int data_length
, uint32_t *ret_tag
)
307 static uint32_t tag
= 1;
310 struct command_block_wrapper cbw
;
316 if (endpoint
& LIBUSB_ENDPOINT_IN
) {
317 perr("send_mass_storage_command: cannot send command on IN endpoint\n");
321 cdb_len
= cdb_length
[cdb
[0]];
322 if ((cdb_len
== 0) || (cdb_len
> sizeof(cbw
.CBWCB
))) {
323 perr("send_mass_storage_command: don't know how to handle this command (%02X, length %d)\n",
328 memset(&cbw
, 0, sizeof(cbw
));
329 cbw
.dCBWSignature
[0] = 'U';
330 cbw
.dCBWSignature
[1] = 'S';
331 cbw
.dCBWSignature
[2] = 'B';
332 cbw
.dCBWSignature
[3] = 'C';
335 cbw
.dCBWDataTransferLength
= data_length
;
336 cbw
.bmCBWFlags
= direction
;
338 // Subclass is 1 or 6 => cdb_len
339 cbw
.bCBWCBLength
= cdb_len
;
340 memcpy(cbw
.CBWCB
, cdb
, cdb_len
);
344 // The transfer length must always be exactly 31 bytes.
345 r
= libusb_bulk_transfer(handle
, endpoint
, (unsigned char*)&cbw
, 31, &size
, 1000);
346 if (r
== LIBUSB_ERROR_PIPE
) {
347 libusb_clear_halt(handle
, endpoint
);
350 } while ((r
== LIBUSB_ERROR_PIPE
) && (i
<RETRY_MAX
));
351 if (r
!= LIBUSB_SUCCESS
) {
352 perr(" send_mass_storage_command: %s\n", libusb_error_name(r
));
356 printf(" sent %d CDB bytes\n", cdb_len
);
360 static int get_mass_storage_status(libusb_device_handle
*handle
, uint8_t endpoint
, uint32_t expected_tag
)
363 struct command_status_wrapper csw
;
365 // The device is allowed to STALL this transfer. If it does, you have to
366 // clear the stall and try again.
369 r
= libusb_bulk_transfer(handle
, endpoint
, (unsigned char*)&csw
, 13, &size
, 1000);
370 if (r
== LIBUSB_ERROR_PIPE
) {
371 libusb_clear_halt(handle
, endpoint
);
374 } while ((r
== LIBUSB_ERROR_PIPE
) && (i
<RETRY_MAX
));
375 if (r
!= LIBUSB_SUCCESS
) {
376 perr(" get_mass_storage_status: %s\n", libusb_error_name(r
));
380 perr(" get_mass_storage_status: received %d bytes (expected 13)\n", size
);
383 if (csw
.dCSWTag
!= expected_tag
) {
384 perr(" get_mass_storage_status: mismatched tags (expected %08X, received %08X)\n",
385 expected_tag
, csw
.dCSWTag
);
388 // For this test, we ignore the dCSWSignature check for validity...
389 printf(" Mass Storage Status: %02X (%s)\n", csw
.bCSWStatus
, csw
.bCSWStatus
?"FAILED":"Success");
390 if (csw
.dCSWTag
!= expected_tag
)
392 if (csw
.bCSWStatus
) {
393 // REQUEST SENSE is appropriate only if bCSWStatus is 1, meaning that the
394 // command failed somehow. Larger values (2 in particular) mean that
395 // the command couldn't be understood.
396 if (csw
.bCSWStatus
== 1)
397 return -2; // request Get Sense
402 // In theory we also should check dCSWDataResidue. But lots of devices
407 static void get_sense(libusb_device_handle
*handle
, uint8_t endpoint_in
, uint8_t endpoint_out
)
409 uint8_t cdb
[16]; // SCSI Command Descriptor Block
411 uint32_t expected_tag
;
415 printf("Request Sense:\n");
416 memset(sense
, 0, sizeof(sense
));
417 memset(cdb
, 0, sizeof(cdb
));
418 cdb
[0] = 0x03; // Request Sense
419 cdb
[4] = REQUEST_SENSE_LENGTH
;
421 send_mass_storage_command(handle
, endpoint_out
, 0, cdb
, LIBUSB_ENDPOINT_IN
, REQUEST_SENSE_LENGTH
, &expected_tag
);
422 libusb_bulk_transfer(handle
, endpoint_in
, (unsigned char*)&sense
, REQUEST_SENSE_LENGTH
, &size
, 1000);
423 printf(" received %d bytes\n", size
);
425 if ((sense
[0] != 0x70) && (sense
[0] != 0x71)) {
426 perr(" ERROR No sense data\n");
428 perr(" ERROR Sense: %02X %02X %02X\n", sense
[2]&0x0F, sense
[12], sense
[13]);
430 // Strictly speaking, the get_mass_storage_status() call should come
431 // before these perr() lines. If the status is nonzero then we must
432 // assume there's no data in the buffer. For xusb it doesn't matter.
433 get_mass_storage_status(handle
, endpoint_in
, expected_tag
);
436 // Mass Storage device to test bulk transfers (non destructive test)
437 static int test_mass_storage(libusb_device_handle
*handle
, uint8_t endpoint_in
, uint8_t endpoint_out
)
441 uint32_t expected_tag
;
442 uint32_t i
, max_lba
, block_size
;
444 uint8_t cdb
[16]; // SCSI Command Descriptor Block
446 char vid
[9], pid
[9], rev
[5];
450 printf("Reading Max LUN:\n");
451 r
= libusb_control_transfer(handle
, LIBUSB_ENDPOINT_IN
|LIBUSB_REQUEST_TYPE_CLASS
|LIBUSB_RECIPIENT_INTERFACE
,
452 BOMS_GET_MAX_LUN
, 0, 0, &lun
, 1, 1000);
453 // Some devices send a STALL instead of the actual value.
454 // In such cases we should set lun to 0.
458 perr(" Failed: %s", libusb_error_name((enum libusb_error
)r
));
460 printf(" Max LUN = %d\n", lun
);
463 printf("Sending Inquiry:\n");
464 memset(buffer
, 0, sizeof(buffer
));
465 memset(cdb
, 0, sizeof(cdb
));
466 cdb
[0] = 0x12; // Inquiry
467 cdb
[4] = INQUIRY_LENGTH
;
469 send_mass_storage_command(handle
, endpoint_out
, lun
, cdb
, LIBUSB_ENDPOINT_IN
, INQUIRY_LENGTH
, &expected_tag
);
470 CALL_CHECK(libusb_bulk_transfer(handle
, endpoint_in
, (unsigned char*)&buffer
, INQUIRY_LENGTH
, &size
, 1000));
471 printf(" received %d bytes\n", size
);
472 // The following strings are not zero terminated
473 for (i
=0; i
<8; i
++) {
474 vid
[i
] = buffer
[8+i
];
475 pid
[i
] = buffer
[16+i
];
476 rev
[i
/2] = buffer
[32+i
/2]; // instead of another loop
481 printf(" VID:PID:REV \"%8s\":\"%8s\":\"%4s\"\n", vid
, pid
, rev
);
482 if (get_mass_storage_status(handle
, endpoint_in
, expected_tag
) == -2) {
483 get_sense(handle
, endpoint_in
, endpoint_out
);
487 printf("Reading Capacity:\n");
488 memset(buffer
, 0, sizeof(buffer
));
489 memset(cdb
, 0, sizeof(cdb
));
490 cdb
[0] = 0x25; // Read Capacity
492 send_mass_storage_command(handle
, endpoint_out
, lun
, cdb
, LIBUSB_ENDPOINT_IN
, READ_CAPACITY_LENGTH
, &expected_tag
);
493 CALL_CHECK(libusb_bulk_transfer(handle
, endpoint_in
, (unsigned char*)&buffer
, READ_CAPACITY_LENGTH
, &size
, 1000));
494 printf(" received %d bytes\n", size
);
495 max_lba
= be_to_int32(&buffer
[0]);
496 block_size
= be_to_int32(&buffer
[4]);
497 device_size
= ((double)(max_lba
+1))*block_size
/(1024*1024*1024);
498 printf(" Max LBA: %08X, Block Size: %08X (%.2f GB)\n", max_lba
, block_size
, device_size
);
499 if (get_mass_storage_status(handle
, endpoint_in
, expected_tag
) == -2) {
500 get_sense(handle
, endpoint_in
, endpoint_out
);
503 data
= (unsigned char*) calloc(1, block_size
);
505 perr(" unable to allocate data buffer\n");
510 printf("Attempting to read %d bytes:\n", block_size
);
511 memset(cdb
, 0, sizeof(cdb
));
513 cdb
[0] = 0x28; // Read(10)
514 cdb
[8] = 0x01; // 1 block
516 send_mass_storage_command(handle
, endpoint_out
, lun
, cdb
, LIBUSB_ENDPOINT_IN
, block_size
, &expected_tag
);
517 libusb_bulk_transfer(handle
, endpoint_in
, data
, block_size
, &size
, 5000);
518 printf(" READ: received %d bytes\n", size
);
519 if (get_mass_storage_status(handle
, endpoint_in
, expected_tag
) == -2) {
520 get_sense(handle
, endpoint_in
, endpoint_out
);
522 display_buffer_hex(data
, size
);
523 if ((binary_dump
) && ((fd
= fopen(binary_name
, "w")) != NULL
)) {
524 if (fwrite(data
, 1, (size_t)size
, fd
) != (unsigned int)size
) {
525 perr(" unable to write binary data\n");
536 static int get_hid_record_size(uint8_t *hid_report_descriptor
, int size
, int type
)
540 int record_size
[3] = {0, 0, 0};
541 int nb_bits
= 0, nb_items
= 0;
542 bool found_record_marker
;
544 found_record_marker
= false;
545 for (i
= hid_report_descriptor
[0]+1; i
< size
; i
+= offset
) {
546 offset
= (hid_report_descriptor
[i
]&0x03) + 1;
549 switch (hid_report_descriptor
[i
] & 0xFC) {
550 case 0x74: // bitsize
551 nb_bits
= hid_report_descriptor
[i
+1];
555 for (j
=1; j
<offset
; j
++) {
556 nb_items
= ((uint32_t)hid_report_descriptor
[i
+j
]) << (8*(j
-1));
560 found_record_marker
= true;
564 found_record_marker
= true;
567 case 0xb0: // feature
568 found_record_marker
= true;
571 case 0xC0: // end of collection
578 if (found_record_marker
) {
579 found_record_marker
= false;
580 record_size
[j
] += nb_items
*nb_bits
;
583 if ((type
< HID_REPORT_TYPE_INPUT
) || (type
> HID_REPORT_TYPE_FEATURE
)) {
586 return (record_size
[type
- HID_REPORT_TYPE_INPUT
]+7)/8;
590 static int test_hid(libusb_device_handle
*handle
, uint8_t endpoint_in
)
592 int r
, size
, descriptor_size
;
593 uint8_t hid_report_descriptor
[256];
594 uint8_t *report_buffer
;
597 printf("\nReading HID Report Descriptors:\n");
598 descriptor_size
= libusb_control_transfer(handle
, LIBUSB_ENDPOINT_IN
|LIBUSB_REQUEST_TYPE_STANDARD
|LIBUSB_RECIPIENT_INTERFACE
,
599 LIBUSB_REQUEST_GET_DESCRIPTOR
, LIBUSB_DT_REPORT
<<8, 0, hid_report_descriptor
, sizeof(hid_report_descriptor
), 1000);
600 if (descriptor_size
< 0) {
604 display_buffer_hex(hid_report_descriptor
, descriptor_size
);
605 if ((binary_dump
) && ((fd
= fopen(binary_name
, "w")) != NULL
)) {
606 if (fwrite(hid_report_descriptor
, 1, descriptor_size
, fd
) != descriptor_size
) {
607 printf(" Error writing descriptor to file\n");
612 size
= get_hid_record_size(hid_report_descriptor
, descriptor_size
, HID_REPORT_TYPE_FEATURE
);
614 printf("\nSkipping Feature Report readout (None detected)\n");
616 report_buffer
= (uint8_t*) calloc(size
, 1);
617 if (report_buffer
== NULL
) {
621 printf("\nReading Feature Report (length %d)...\n", size
);
622 r
= libusb_control_transfer(handle
, LIBUSB_ENDPOINT_IN
|LIBUSB_REQUEST_TYPE_CLASS
|LIBUSB_RECIPIENT_INTERFACE
,
623 HID_GET_REPORT
, (HID_REPORT_TYPE_FEATURE
<<8)|0, 0, report_buffer
, (uint16_t)size
, 5000);
625 display_buffer_hex(report_buffer
, size
);
628 case LIBUSB_ERROR_NOT_FOUND
:
629 printf(" No Feature Report available for this device\n");
631 case LIBUSB_ERROR_PIPE
:
632 printf(" Detected stall - resetting pipe...\n");
633 libusb_clear_halt(handle
, 0);
636 printf(" Error: %s\n", libusb_error_name(r
));
643 size
= get_hid_record_size(hid_report_descriptor
, descriptor_size
, HID_REPORT_TYPE_INPUT
);
645 printf("\nSkipping Input Report readout (None detected)\n");
647 report_buffer
= (uint8_t*) calloc(size
, 1);
648 if (report_buffer
== NULL
) {
652 printf("\nReading Input Report (length %d)...\n", size
);
653 r
= libusb_control_transfer(handle
, LIBUSB_ENDPOINT_IN
|LIBUSB_REQUEST_TYPE_CLASS
|LIBUSB_RECIPIENT_INTERFACE
,
654 HID_GET_REPORT
, (HID_REPORT_TYPE_INPUT
<<8)|0x00, 0, report_buffer
, (uint16_t)size
, 5000);
656 display_buffer_hex(report_buffer
, size
);
659 case LIBUSB_ERROR_TIMEOUT
:
660 printf(" Timeout! Please make sure you act on the device within the 5 seconds allocated...\n");
662 case LIBUSB_ERROR_PIPE
:
663 printf(" Detected stall - resetting pipe...\n");
664 libusb_clear_halt(handle
, 0);
667 printf(" Error: %s\n", libusb_error_name(r
));
672 // Attempt a bulk read from endpoint 0 (this should just return a raw input report)
673 printf("\nTesting interrupt read using endpoint %02X...\n", endpoint_in
);
674 r
= libusb_interrupt_transfer(handle
, endpoint_in
, report_buffer
, size
, &size
, 5000);
676 display_buffer_hex(report_buffer
, size
);
678 printf(" %s\n", libusb_error_name(r
));
686 // Read the MS WinUSB Feature Descriptors, that are used on Windows 8 for automated driver installation
687 static void read_ms_winsub_feature_descriptors(libusb_device_handle
*handle
, uint8_t bRequest
, int iface_number
)
689 #define MAX_OS_FD_LENGTH 256
691 uint8_t os_desc
[MAX_OS_FD_LENGTH
];
693 void* le_type_punning_IS_fine
;
697 uint16_t header_size
;
699 {"Extended Compat ID", 0x0004, 0x10},
700 {"Extended Properties", 0x0005, 0x0A}
703 if (iface_number
< 0) return;
705 for (i
=0; i
<2; i
++) {
706 printf("\nReading %s OS Feature Descriptor (wIndex = 0x%04d):\n", os_fd
[i
].desc
, os_fd
[i
].index
);
708 // Read the header part
709 r
= libusb_control_transfer(handle
, (uint8_t)(LIBUSB_ENDPOINT_IN
|LIBUSB_REQUEST_TYPE_VENDOR
|LIBUSB_RECIPIENT_DEVICE
),
710 bRequest
, (uint16_t)(((iface_number
)<< 8)|0x00), os_fd
[i
].index
, os_desc
, os_fd
[i
].header_size
, 1000);
711 if (r
< os_fd
[i
].header_size
) {
712 perr(" Failed: %s", (r
<0)?libusb_error_name((enum libusb_error
)r
):"header size is too small");
715 le_type_punning_IS_fine
= (void*)os_desc
;
716 length
= *((uint32_t*)le_type_punning_IS_fine
);
717 if (length
> MAX_OS_FD_LENGTH
) {
718 length
= MAX_OS_FD_LENGTH
;
721 // Read the full feature descriptor
722 r
= libusb_control_transfer(handle
, (uint8_t)(LIBUSB_ENDPOINT_IN
|LIBUSB_REQUEST_TYPE_VENDOR
|LIBUSB_RECIPIENT_DEVICE
),
723 bRequest
, (uint16_t)(((iface_number
)<< 8)|0x00), os_fd
[i
].index
, os_desc
, (uint16_t)length
, 1000);
725 perr(" Failed: %s", libusb_error_name((enum libusb_error
)r
));
728 display_buffer_hex(os_desc
, r
);
733 static int test_device(uint16_t vid
, uint16_t pid
)
735 libusb_device_handle
*handle
;
737 uint8_t bus
, port_path
[8];
738 struct libusb_config_descriptor
*conf_desc
;
739 const struct libusb_endpoint_descriptor
*endpoint
;
741 int iface
, nb_ifaces
, first_iface
= -1;
742 #if defined(__linux__)
743 // Attaching/detaching the kernel driver is only relevant for Linux
744 int iface_detached
= -1;
746 struct libusb_device_descriptor dev_desc
;
747 const char* speed_name
[5] = { "Unknown", "1.5 Mbit/s (USB LowSpeed)", "12 Mbit/s (USB FullSpeed)",
748 "480 Mbit/s (USB HighSpeed)", "5000 Mbit/s (USB SuperSpeed)"};
750 uint8_t string_index
[3]; // indexes of the string descriptors
751 uint8_t endpoint_in
= 0, endpoint_out
= 0; // default IN and OUT endpoints
753 printf("Opening device %04X:%04X...\n", vid
, pid
);
754 handle
= libusb_open_device_with_vid_pid(NULL
, vid
, pid
);
756 if (handle
== NULL
) {
761 dev
= libusb_get_device(handle
);
762 bus
= libusb_get_bus_number(dev
);
764 r
= libusb_get_port_path(NULL
, dev
, port_path
, sizeof(port_path
));
766 printf("\nDevice properties:\n");
767 printf(" bus number: %d\n", bus
);
768 printf(" port path: %d", port_path
[0]);
769 for (i
=1; i
<r
; i
++) {
770 printf("->%d", port_path
[i
]);
772 printf(" (from root hub)\n");
774 r
= libusb_get_device_speed(dev
);
775 if ((r
<0) || (r
>4)) r
=0;
776 printf(" speed: %s\n", speed_name
[r
]);
779 printf("\nReading device descriptor:\n");
780 CALL_CHECK(libusb_get_device_descriptor(dev
, &dev_desc
));
781 printf(" length: %d\n", dev_desc
.bLength
);
782 printf(" device class: %d\n", dev_desc
.bDeviceClass
);
783 printf(" S/N: %d\n", dev_desc
.iSerialNumber
);
784 printf(" VID:PID: %04X:%04X\n", dev_desc
.idVendor
, dev_desc
.idProduct
);
785 printf(" bcdDevice: %04X\n", dev_desc
.bcdDevice
);
786 printf(" iMan:iProd:iSer: %d:%d:%d\n", dev_desc
.iManufacturer
, dev_desc
.iProduct
, dev_desc
.iSerialNumber
);
787 printf(" nb confs: %d\n", dev_desc
.bNumConfigurations
);
788 // Copy the string descriptors for easier parsing
789 string_index
[0] = dev_desc
.iManufacturer
;
790 string_index
[1] = dev_desc
.iProduct
;
791 string_index
[2] = dev_desc
.iSerialNumber
;
793 printf("\nReading configuration descriptors:\n");
794 CALL_CHECK(libusb_get_config_descriptor(dev
, 0, &conf_desc
));
795 nb_ifaces
= conf_desc
->bNumInterfaces
;
796 printf(" nb interfaces: %d\n", nb_ifaces
);
798 first_iface
= conf_desc
->usb_interface
[0].altsetting
[0].bInterfaceNumber
;
799 for (i
=0; i
<nb_ifaces
; i
++) {
800 printf(" interface[%d]: id = %d\n", i
,
801 conf_desc
->usb_interface
[i
].altsetting
[0].bInterfaceNumber
);
802 for (j
=0; j
<conf_desc
->usb_interface
[i
].num_altsetting
; j
++) {
803 printf("interface[%d].altsetting[%d]: num endpoints = %d\n",
804 i
, j
, conf_desc
->usb_interface
[i
].altsetting
[j
].bNumEndpoints
);
805 printf(" Class.SubClass.Protocol: %02X.%02X.%02X\n",
806 conf_desc
->usb_interface
[i
].altsetting
[j
].bInterfaceClass
,
807 conf_desc
->usb_interface
[i
].altsetting
[j
].bInterfaceSubClass
,
808 conf_desc
->usb_interface
[i
].altsetting
[j
].bInterfaceProtocol
);
809 if ( (conf_desc
->usb_interface
[i
].altsetting
[j
].bInterfaceClass
== LIBUSB_CLASS_MASS_STORAGE
)
810 && ( (conf_desc
->usb_interface
[i
].altsetting
[j
].bInterfaceSubClass
== 0x01)
811 || (conf_desc
->usb_interface
[i
].altsetting
[j
].bInterfaceSubClass
== 0x06) )
812 && (conf_desc
->usb_interface
[i
].altsetting
[j
].bInterfaceProtocol
== 0x50) ) {
813 // Mass storage devices that can use basic SCSI commands
814 test_mode
= USE_SCSI
;
816 for (k
=0; k
<conf_desc
->usb_interface
[i
].altsetting
[j
].bNumEndpoints
; k
++) {
817 endpoint
= &conf_desc
->usb_interface
[i
].altsetting
[j
].endpoint
[k
];
818 printf(" endpoint[%d].address: %02X\n", k
, endpoint
->bEndpointAddress
);
819 // Use the first interrupt or bulk IN/OUT endpoints as default for testing
820 if ((endpoint
->bmAttributes
& LIBUSB_TRANSFER_TYPE_MASK
) & (LIBUSB_TRANSFER_TYPE_BULK
| LIBUSB_TRANSFER_TYPE_INTERRUPT
)) {
821 if (endpoint
->bEndpointAddress
& LIBUSB_ENDPOINT_IN
) {
823 endpoint_in
= endpoint
->bEndpointAddress
;
826 endpoint_out
= endpoint
->bEndpointAddress
;
829 printf(" max packet size: %04X\n", endpoint
->wMaxPacketSize
);
830 printf(" polling interval: %02X\n", endpoint
->bInterval
);
834 libusb_free_config_descriptor(conf_desc
);
836 for (iface
= 0; iface
< nb_ifaces
; iface
++)
838 printf("\nClaiming interface %d...\n", iface
);
839 r
= libusb_claim_interface(handle
, iface
);
840 #if defined(__linux__)
841 if ((r
!= LIBUSB_SUCCESS
) && (iface
== 0)) {
842 // Maybe we need to detach the driver
843 perr(" Failed. Trying to detach driver...\n");
844 libusb_detach_kernel_driver(handle
, iface
);
845 iface_detached
= iface
;
846 printf(" Claiming interface again...\n");
847 r
= libusb_claim_interface(handle
, iface
);
850 if (r
!= LIBUSB_SUCCESS
) {
855 printf("\nReading string descriptors:\n");
856 for (i
=0; i
<3; i
++) {
857 if (string_index
[i
] == 0) {
860 if (libusb_get_string_descriptor_ascii(handle
, string_index
[i
], (unsigned char*)string
, 128) >= 0) {
861 printf(" String (0x%02X): \"%s\"\n", string_index
[i
], string
);
864 // Read the OS String Descriptor
865 if (libusb_get_string_descriptor_ascii(handle
, 0xEE, (unsigned char*)string
, 128) >= 0) {
866 printf(" String (0x%02X): \"%s\"\n", 0xEE, string
);
867 // If this is a Microsoft OS String Descriptor,
868 // attempt to read the WinUSB extended Feature Descriptors
869 if (strncmp(string
, "MSFT100", 7) == 0)
870 read_ms_winsub_feature_descriptors(handle
, string
[7], first_iface
);
875 CALL_CHECK(display_ps3_status(handle
));
878 CALL_CHECK(display_xbox_status(handle
));
879 CALL_CHECK(set_xbox_actuators(handle
, 128, 222));
881 CALL_CHECK(set_xbox_actuators(handle
, 0, 0));
884 test_hid(handle
, endpoint_in
);
887 CALL_CHECK(test_mass_storage(handle
, endpoint_in
, endpoint_out
));
893 for (iface
= 0; iface
<nb_ifaces
; iface
++) {
894 printf("Releasing interface %d...\n", iface
);
895 libusb_release_interface(handle
, iface
);
898 #if defined(__linux__)
899 if (iface_detached
>= 0) {
900 printf("Re-attaching kernel driver...\n");
901 libusb_attach_kernel_driver(handle
, iface_detached
);
905 printf("Closing device...\n");
906 libusb_close(handle
);
911 int main(int argc
, char** argv
)
913 bool show_help
= false;
914 bool debug_mode
= false;
915 const struct libusb_version
* version
;
918 unsigned tmp_vid
, tmp_pid
;
919 uint16_t endian_test
= 0xBE00;
921 // Default to generic, expecting VID:PID
924 test_mode
= USE_GENERIC
;
926 if (((uint8_t*)&endian_test
)[0] == 0xBE) {
927 printf("Despite their natural superiority for end users, big endian\n"
928 "CPUs are not supported with this program, sorry.\n");
933 for (j
= 1; j
<argc
; j
++) {
934 arglen
= strlen(argv
[j
]);
935 if ( ((argv
[j
][0] == '-') || (argv
[j
][0] == '/'))
945 if ((j
+1 >= argc
) || (argv
[j
+1][0] == '-') || (argv
[j
+1][0] == '/')) {
946 printf(" Option -b requires a file name");
949 binary_name
= argv
[++j
];
953 // OLIMEX ARM-USB-TINY JTAG, 2 channel composite device - 2 interfaces
960 // Generic 2 GB USB Key (SCSI Transparent/Bulk Only) - 1 interface
966 // The following tests will force VID:PID if already provided
968 // Sony PS3 Controller - 1 interface
974 // Microsoft Sidewinder Precision Pro Joystick - 1 HID interface
980 // Microsoft XBox Controller Type S - 1 interface
983 test_mode
= USE_XBOX
;
990 for (i
=0; i
<arglen
; i
++) {
991 if (argv
[j
][i
] == ':')
995 if (sscanf_s(argv
[j
], "%x:%x" , &tmp_vid
, &tmp_pid
) != 2) {
996 printf(" Please specify VID & PID as \"vid:pid\" in hexadecimal format\n");
999 VID
= (uint16_t)tmp_vid
;
1000 PID
= (uint16_t)tmp_pid
;
1008 if ((show_help
) || (argc
== 1) || (argc
> 7)) {
1009 printf("usage: %s [-h] [-d] [-i] [-k] [-b file] [-j] [-x] [-s] [-p] [vid:pid]\n", argv
[0]);
1010 printf(" -h : display usage\n");
1011 printf(" -d : enable debug output\n");
1012 printf(" -i : print topology and speed info\n");
1013 printf(" -j : test composite FTDI based JTAG device\n");
1014 printf(" -k : test Mass Storage device\n");
1015 printf(" -b file : dump Mass Storage data to file 'file'\n");
1016 printf(" -p : test Sony PS3 SixAxis controller\n");
1017 printf(" -s : test Microsoft Sidewinder Precision Pro (HID)\n");
1018 printf(" -x : test Microsoft XBox Controller Type S\n");
1019 printf("If only the vid:pid is provided, xusb attempts to run the most appropriate test\n");
1023 version
= libusb_get_version();
1024 printf("Using libusbx v%d.%d.%d.%d\n\n", version
->major
, version
->minor
, version
->micro
, version
->nano
);
1025 r
= libusb_init(NULL
);
1029 libusb_set_debug(NULL
, debug_mode
?LIBUSB_LOG_LEVEL_DEBUG
:LIBUSB_LOG_LEVEL_INFO
);
1031 test_device(VID
, PID
);