freemyipod r924 - Code Review

Repository:	freemyipod
Revision:	< r923‎ \| r924 \| r925 >
Date:	21:43, 6 May 2014
Author:	theseven
Status:	new
Tags:
Comment:	diskmode: Split the code into multiple files, add some buffering and I/O error handling
Modified paths:	/apps/diskmode/SOURCES (modified) (history) /apps/diskmode/main.c (modified) (history) /apps/diskmode/main.h (added) (history) /apps/diskmode/scsi.h (added) (history) /apps/diskmode/ums.c (added) (history) /apps/diskmode/ums.h (added) (history) /apps/diskmode/usb.c (added) (history) /apps/diskmode/usb.h (added) (history)

Diff [purge]

Index: apps/diskmode/SOURCES
—	—	@@ -1 +1,3 @@
2	2	main.c
	3	+usb.c
	4	+ums.c
Index: apps/diskmode/main.c
—	—	@@ -22,941 +22,43 @@
23	23	//
24	24
25	25
26		~~-#define LITTLE_ENDIAN~~
27		-
28		-
29	26	#include "emcoreapp.h"
30	27	#include "libboot.h"
	28	+#include "ums.h"
	29	+#include "usb.h"
31	30
32	31
33		~~-#define SCSI_TEST_UNIT_READY 0x00~~
34		~~-#define SCSI_INQUIRY 0x12~~
35		~~-#define SCSI_MODE_SENSE_6 0x1a~~
36		~~-#define SCSI_MODE_SENSE_10 0x5a~~
37		~~-#define SCSI_REQUEST_SENSE 0x03~~
38		~~-#define SCSI_ALLOW_MEDIUM_REMOVAL 0x1e~~
39		~~-#define SCSI_READ_CAPACITY 0x25~~
40		~~-#define SCSI_READ_FORMAT_CAPACITY 0x23~~
41		~~-#define SCSI_READ_10 0x28~~
42		~~-#define SCSI_WRITE_10 0x2a~~
43		~~-#define SCSI_START_STOP_UNIT 0x1b~~
44		~~-#define SCSI_REPORT_LUNS 0xa0~~
45		~~-#define SCSI_WRITE_BUFFER 0x3b~~
46		-
47		~~-#define SENSE_NOT_READY 0x02~~
48		~~-#define SENSE_MEDIUM_ERROR 0x03~~
49		~~-#define SENSE_ILLEGAL_REQUEST 0x05~~
50		~~-#define SENSE_UNIT_ATTENTION 0x06~~
51		-
52		~~-#define ASC_MEDIUM_NOT_PRESENT 0x3a~~
53		~~-#define ASC_INVALID_FIELD_IN_CBD 0x24~~
54		~~-#define ASC_LBA_OUT_OF_RANGE 0x21~~
55		~~-#define ASC_WRITE_ERROR 0x0C~~
56		~~-#define ASC_READ_ERROR 0x11~~
57		~~-#define ASC_NOT_READY 0x04~~
58		~~-#define ASC_INVALID_COMMAND 0x20~~
59		-
60		~~-#define ASCQ_BECOMING_READY 0x01~~
61		-
62		~~-#define DIRECT_ACCESS_DEVICE 0x00~~
63		~~-#define DEVICE_REMOVABLE 0x80~~
64		-
65		~~-#define SCSI_FORMAT_CAPACITY_FORMATTED_MEDIA 0x02000000~~
66		-
67		-
68		~~-struct storage_info storage_info;~~
69		-
70		~~-enum storage_operation {~~
71		~~- OP_READ,~~
72		~~- OP_WRITE~~
73		~~-} pending_op;~~
74		-
75		~~-unsigned long pending_op_start;~~
76		~~-int pending_op_count;~~
77		-
78		~~-struct wakeup pending_op_wakeup;~~
79		-
80		~~-static const struct usb_devicedescriptor usb_devicedescriptor =~~
81		-{
82		~~- .bLength = sizeof(struct usb_devicedescriptor),~~
83		~~- .bDescriptorType = USB_DESCRIPTOR_TYPE_DEVICE,~~
84		~~- .bcdUSB = 0x0200,~~
85		~~- .bDeviceClass = 0,~~
86		~~- .bDeviceSubClass = 0,~~
87		~~- .bDeviceProtocol = 0,~~
88		~~- .bMaxPacketSize0 = 64,~~
89		~~- .idVendor = 0xffff,~~
90		~~- .idProduct = 0xe001,~~
91		~~- .bcdDevice = 2,~~
92		~~- .iManufacturer = 1,~~
93		~~- .iProduct = 2,~~
94		~~- .iSerialNumber = 0,~~
95		~~- .bNumConfigurations = 1,~~
96		~~-};~~
97		-
98		~~-static struct __attribute__((packed)) _usb_config1_descriptors~~
99		-{
100		~~- struct usb_configurationdescriptor c1;~~
101		~~- struct usb_interfacedescriptor c1_i0_a0;~~
102		~~- struct usb_endpointdescriptor c1_i0_a0_e1out;~~
103		~~- struct usb_endpointdescriptor c1_i0_a0_e1in;~~
104		~~-} usb_config1_descriptors =~~
105		-{
106		~~- .c1 =~~
107		~~- {~~
108		~~- .bLength = sizeof(struct usb_configurationdescriptor),~~
109		~~- .bDescriptorType = USB_DESCRIPTOR_TYPE_CONFIGURATION,~~
110		~~- .wTotalLength = sizeof(struct _usb_config1_descriptors),~~
111		~~- .bNumInterfaces = 1,~~
112		~~- .bConfigurationValue = 1,~~
113		~~- .iConfiguration = 0,~~
114		~~- .bmAttributes = { .buspowered = 1, .selfpowered = 1 },~~
115		~~- .bMaxPower = 100 / 2,~~
116		~~- },~~
117		~~- .c1_i0_a0 =~~
118		~~- {~~
119		~~- .bLength = sizeof(struct usb_interfacedescriptor),~~
120		~~- .bDescriptorType = USB_DESCRIPTOR_TYPE_INTERFACE,~~
121		~~- .bInterfaceNumber = 0,~~
122		~~- .bAlternateSetting = 0,~~
123		~~- .bNumEndpoints = 2,~~
124		~~- .bInterfaceClass = 0x08,~~
125		~~- .bInterfaceSubClass = 0x06,~~
126		~~- .bInterfaceProtocol = 0x50,~~
127		~~- .iInterface = 0,~~
128		~~- },~~
129		~~- .c1_i0_a0_e1out =~~
130		~~- {~~
131		~~- .bLength = sizeof(struct usb_endpointdescriptor),~~
132		~~- .bDescriptorType = USB_DESCRIPTOR_TYPE_ENDPOINT,~~
133		~~- .bEndpointAddress = { .number = 0, .direction = USB_ENDPOINT_DIRECTION_OUT },~~
134		~~- .bmAttributes = { .type = USB_ENDPOINT_ATTRIBUTE_TYPE_BULK },~~
135		~~- .wMaxPacketSize = 512,~~
136		~~- .bInterval = 1,~~
137		~~- },~~
138		~~- .c1_i0_a0_e1in =~~
139		~~- {~~
140		~~- .bLength = sizeof(struct usb_endpointdescriptor),~~
141		~~- .bDescriptorType = USB_DESCRIPTOR_TYPE_ENDPOINT,~~
142		~~- .bEndpointAddress = { .number = 0, .direction = USB_ENDPOINT_DIRECTION_IN },~~
143		~~- .bmAttributes = { .type = USB_ENDPOINT_ATTRIBUTE_TYPE_BULK },~~
144		~~- .wMaxPacketSize = 512,~~
145		~~- .bInterval = 1,~~
146		~~- },~~
147		~~-};~~
148		-
149		~~-static const struct usb_stringdescriptor usb_string_language =~~
150		-{
151		~~- .bLength = sizeof(usb_string_language) + sizeof(*usb_string_language.wString),~~
152		~~- .bDescriptorType = USB_DESCRIPTOR_TYPE_STRING,~~
153		~~- .wString = { 0x0409 },~~
154		~~-};~~
155		-
156		~~-static const struct usb_stringdescriptor usb_string_vendor =~~
157		-{
158		~~- .bLength = sizeof(usb_string_vendor) + sizeof(usb_string_vendor.wString) 14,~~
159		~~- .bDescriptorType = USB_DESCRIPTOR_TYPE_STRING,~~
160		~~- .wString = { 'f', 'r', 'e', 'e', 'm', 'y', 'i', 'p', 'o', 'd', '.', 'o', 'r', 'g' },~~
161		~~-};~~
162		-
163		~~-static const struct usb_stringdescriptor usb_string_product =~~
164		-{
165		~~- .bLength = sizeof(usb_string_product) + sizeof(usb_string_product.wString) 16,~~
166		~~- .bDescriptorType = USB_DESCRIPTOR_TYPE_STRING,~~
167		~~- .wString = { 'e', 'm', 'C', 'O', 'R', 'E', ' ', 'D', 'i', 's', 'k', ' ', 'm', 'o', 'd', 'e' },~~
168		~~-};~~
169		-
170		~~-static const struct usb_stringdescriptor* usb_stringdescriptors[] =~~
171		-{
172		~~- &usb_string_language,~~
173		~~- &usb_string_vendor,~~
174		~~- &usb_string_product,~~
175		~~-};~~
176		-
177		~~-struct __attribute__((packed,aligned(32))) command_block_wrapper~~
178		-{
179		~~- unsigned int signature;~~
180		~~- unsigned int tag;~~
181		~~- unsigned int data_transfer_length;~~
182		~~- unsigned char flags;~~
183		~~- unsigned char lun;~~
184		~~- unsigned char command_length;~~
185		~~- unsigned char command_block[16];~~
186		~~-};~~
187		-
188		~~-struct __attribute__((packed)) command_status_wrapper~~
189		-{
190		~~- unsigned int signature;~~
191		~~- unsigned int tag;~~
192		~~- unsigned int data_residue;~~
193		~~- unsigned char status;~~
194		~~-};~~
195		-
196		~~-struct __attribute__((packed)) inquiry_data~~
197		-{
198		~~- unsigned char DeviceType;~~
199		~~- unsigned char DeviceTypeModifier;~~
200		~~- unsigned char Versions;~~
201		~~- unsigned char Format;~~
202		~~- unsigned char AdditionalLength;~~
203		~~- unsigned char Reserved[2];~~
204		~~- unsigned char Capability;~~
205		~~- char VendorId[8];~~
206		~~- char ProductId[16];~~
207		~~- char ProductRevisionLevel[4];~~
208		~~-};~~
209		-
210		~~-struct __attribute__((packed)) report_lun_data~~
211		-{
212		~~- unsigned int lun_list_length;~~
213		~~- unsigned int reserved1;~~
214		~~- unsigned char luns[1][8];~~
215		~~-};~~
216		-
217		~~-struct __attribute__((packed)) sense_data~~
218		-{
219		~~- unsigned char ResponseCode;~~
220		~~- unsigned char Obsolete;~~
221		~~- unsigned char fei_sensekey;~~
222		~~- unsigned int Information;~~
223		~~- unsigned char AdditionalSenseLength;~~
224		~~- unsigned int CommandSpecificInformation;~~
225		~~- unsigned char AdditionalSenseCode;~~
226		~~- unsigned char AdditionalSenseCodeQualifier;~~
227		~~- unsigned char FieldReplaceableUnitCode;~~
228		~~- unsigned char SKSV;~~
229		~~- unsigned short SenseKeySpecific;~~
230		~~-};~~
231		-
232		~~-struct __attribute__((packed)) mode_sense_bdesc_longlba~~
233		-{
234		~~- unsigned char num_blocks[8];~~
235		~~- unsigned char reserved[4];~~
236		~~- unsigned char block_size[4];~~
237		~~-};~~
238		-
239		~~-struct __attribute__((packed)) mode_sense_bdesc_shortlba~~
240		-{
241		~~- unsigned char density_code;~~
242		~~- unsigned char num_blocks[3];~~
243		~~- unsigned char reserved;~~
244		~~- unsigned char block_size[3];~~
245		~~-};~~
246		-
247		~~-struct __attribute__((packed)) mode_sense_data_10~~
248		-{
249		~~- unsigned short mode_data_length;~~
250		~~- unsigned char medium_type;~~
251		~~- unsigned char device_specific;~~
252		~~- unsigned char longlba;~~
253		~~- unsigned char reserved;~~
254		~~- unsigned short block_descriptor_length;~~
255		~~- struct mode_sense_bdesc_longlba block_descriptor;~~
256		~~-};~~
257		-
258		~~-struct __attribute__((packed)) mode_sense_data_6~~
259		-{
260		~~- unsigned char mode_data_length;~~
261		~~- unsigned char medium_type;~~
262		~~- unsigned char device_specific;~~
263		~~- unsigned char block_descriptor_length;~~
264		~~- struct mode_sense_bdesc_shortlba block_descriptor;~~
265		~~-};~~
266		-
267		~~-struct __attribute__((packed)) capacity~~
268		-{
269		~~- unsigned int block_count;~~
270		~~- unsigned int block_size;~~
271		~~-};~~
272		-
273		~~-struct __attribute__((packed)) format_capacity~~
274		-{
275		~~- unsigned int following_length;~~
276		~~- unsigned int block_count;~~
277		~~- unsigned int block_size;~~
278		~~-};~~
279		-
280		~~-union __attribute__((aligned(32)))~~
281		-{
282		~~- struct inquiry_data inquiry;~~
283		~~- struct capacity capacity_data;~~
284		~~- struct format_capacity format_capacity_data;~~
285		~~- struct sense_data sense_data;~~
286		~~- struct mode_sense_data_6 ms_data_6;~~
287		~~- struct mode_sense_data_10 ms_data_10;~~
288		~~- struct report_lun_data lun_data;~~
289		~~- struct command_status_wrapper csw;~~
290		~~-} tb;~~
291		-
292		~~-static enum~~
293		-{
294		~~- WAITING_FOR_COMMAND,~~
295		~~- SENDING_BLOCKS,~~
296		~~- SENDING_RESULT,~~
297		~~- SENDING_FAILED_RESULT,~~
298		~~- RECEIVING_BLOCKS,~~
299		~~- WAITING_FOR_CSW_COMPLETION~~
300		~~-} state = WAITING_FOR_COMMAND;~~
301		-
302		~~-static struct~~
303		-{
304		~~- unsigned int sector;~~
305		~~- unsigned int count;~~
306		~~- unsigned int orig_count;~~
307		~~- unsigned int cur_cmd;~~
308		~~- unsigned int tag;~~
309		~~- unsigned int lun;~~
310		~~- unsigned int last_result;~~
311		~~-} cur_cmd;~~
312		-
313		~~-static struct~~
314		-{
315		~~- unsigned char sense_key;~~
316		~~- unsigned char information;~~
317		~~- unsigned char asc;~~
318		~~- unsigned char ascq;~~
319		~~-} cur_sense_data;~~
320		-
321		~~-static union usb_endpoint_number outep = { .number = 0, .direction = USB_ENDPOINT_DIRECTION_OUT };~~
322		~~-static union usb_endpoint_number inep = { .number = 0, .direction = USB_ENDPOINT_DIRECTION_IN };~~
323		-
324		~~-static struct command_block_wrapper cbw;~~
325		~~-static int maxpacket = 512;~~
326		~~-static int maxlen;~~
327		~~-static int length;~~
328		~~-static bool locked;~~
329		~~-static const struct usb_instance* usb;~~
330		~~-static volatile bool ejected = false;~~
331		~~-static uint8_t __attribute__((aligned(32))) storage_buffer[0x10000];~~
332		-
333		~~-struct bootinfo_t~~
334		-{
335		~~- bool valid;~~
336		~~- void* firmware;~~
337		~~- int size;~~
338		~~- void* app;~~
339		~~- int argc;~~
340		~~- const char** argv;~~
341		~~-};~~
342		-
343		~~-static void listen()~~
344		-{
345		~~- usb_start_rx(usb, outep, &cbw, sizeof(cbw));~~
346		-}
347		-
348		~~-static void send_csw(int status)~~
349		-{
350		~~- tb.csw.signature = 0x53425355;~~
351		~~- tb.csw.tag = cur_cmd.tag;~~
352		~~- tb.csw.data_residue = 0;~~
353		~~- tb.csw.status = status;~~
354		-
355		~~- state = WAITING_FOR_CSW_COMPLETION;~~
356		~~- usb_start_tx(usb, inep, &tb.csw, sizeof(tb.csw));~~
357		-
358		~~- if (!status)~~
359		~~- {~~
360		~~- cur_sense_data.sense_key = 0;~~
361		~~- cur_sense_data.information = 0;~~
362		~~- cur_sense_data.asc = 0;~~
363		~~- cur_sense_data.ascq = 0;~~
364		~~- }~~
365		-}
366		-
367		~~-static void receive_block_data(void* data, int size)~~
368		-{
369		~~- length = size;~~
370		~~- usb_start_rx(usb, outep, data, size);~~
371		~~- state = RECEIVING_BLOCKS;~~
372		-}
373		-
374		~~-static void send_block_data(void* data, int size)~~
375		-{
376		~~- length = size;~~
377		~~- usb_start_tx(usb, inep, data, size);~~
378		~~- state = SENDING_BLOCKS;~~
379		-}
380		-
381		~~-static void send_command_result(void* data, int size)~~
382		-{
383		~~- length = size;~~
384		~~- usb_start_tx(usb, inep, data, size);~~
385		~~- state = SENDING_RESULT;~~
386		-}
387		-
388		~~-static void send_command_failed_result()~~
389		-{
390		~~- usb_start_tx(usb, inep, NULL, 0);~~
391		~~- state = SENDING_FAILED_RESULT;~~
392		-}
393		-
394		~~-static void send_and_read_next()~~
395		-{
396		~~- if (cur_cmd.last_result)~~
397		~~- {~~
398		~~- send_csw(1);~~
399		~~- cur_sense_data.sense_key = SENSE_MEDIUM_ERROR;~~
400		~~- cur_sense_data.asc = ASC_READ_ERROR;~~
401		~~- cur_sense_data.ascq = 0;~~
402		~~- return;~~
403		~~- }~~
404		-
405		~~- pending_op_start = cur_cmd.sector;~~
406		~~- pending_op_count = cur_cmd.count;~~
407		~~- pending_op = OP_READ;~~
408		~~- wakeup_signal(&pending_op_wakeup);~~
409		-}
410		-
411		~~-static void copy_padded(char* dest, char* src, int len)~~
412		-{
413		~~- int i = 0;~~
414		~~- while (src[i] && i < len)~~
415		~~- {~~
416		~~- dest[i] = src[i];~~
417		~~- i++;~~
418		~~- }~~
419		~~- while(i < len) dest[i++] = ' ';~~
420		-}
421		-
422		~~-static void fill_inquiry()~~
423		-{
424		~~- memset(&tb.inquiry, 0, sizeof(tb.inquiry));~~
425		~~- copy_padded(tb.inquiry.VendorId, storage_info.vendor, sizeof(tb.inquiry.VendorId));~~
426		~~- copy_padded(tb.inquiry.ProductId, storage_info.product, sizeof(tb.inquiry.ProductId));~~
427		~~- copy_padded(tb.inquiry.ProductRevisionLevel, storage_info.revision, sizeof(tb.inquiry.ProductRevisionLevel));~~
428		-
429		~~- tb.inquiry.DeviceType = DIRECT_ACCESS_DEVICE;~~
430		~~- tb.inquiry.AdditionalLength = 0x1f;~~
431		~~- tb.inquiry.Versions = 4; // SPC-2~~
432		~~- tb.inquiry.Format = 2; // SPC-2/3 inquiry format~~
433		~~- tb.inquiry.DeviceTypeModifier = DEVICE_REMOVABLE;~~
434		-}
435		-
436		~~-static void handle_scsi(struct command_block_wrapper* cbw)~~
437		-{
438		~~- unsigned int length = cbw->data_transfer_length;~~
439		-
440		~~- if (cbw->signature != 0x43425355)~~
441		~~- {~~
442		~~- usb_set_stall(usb, outep, true);~~
443		~~- usb_set_stall(usb, inep, true);~~
444		~~- return;~~
445		~~- }~~
446		~~- cur_cmd.tag = cbw->tag;~~
447		~~- cur_cmd.lun = cbw->lun;~~
448		~~- cur_cmd.cur_cmd = cbw->command_block[0];~~
449		-
450		~~- switch (cbw->command_block[0])~~
451		~~- {~~
452		~~- case SCSI_TEST_UNIT_READY:~~
453		~~- if (!ejected) send_csw(0);~~
454		~~- else~~
455		~~- {~~
456		~~- send_csw(1);~~
457		~~- cur_sense_data.sense_key = SENSE_NOT_READY;~~
458		~~- cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;~~
459		~~- cur_sense_data.ascq = 0;~~
460		~~- }~~
461		~~- break;~~
462		-
463		~~- case SCSI_REPORT_LUNS:~~
464		~~- {~~
465		~~- memset(&tb.lun_data, 0, sizeof(struct report_lun_data));~~
466		~~- tb.lun_data.lun_list_length = 0x08000000;~~
467		~~- send_command_result(&tb.lun_data, MIN(16, length));~~
468		~~- break;~~
469		~~- }~~
470		-
471		~~- case SCSI_INQUIRY:~~
472		~~- fill_inquiry();~~
473		~~- length = MIN(length, cbw->command_block[4]);~~
474		~~- send_command_result(&tb.inquiry, MIN(sizeof(tb.inquiry), length));~~
475		~~- break;~~
476		-
477		~~- case SCSI_REQUEST_SENSE:~~
478		~~- {~~
479		~~- tb.sense_data.ResponseCode = 0x70;~~
480		~~- tb.sense_data.Obsolete = 0;~~
481		~~- tb.sense_data.fei_sensekey = cur_sense_data.sense_key & 0x0f;~~
482		~~- tb.sense_data.Information = cur_sense_data.information;~~
483		~~- tb.sense_data.AdditionalSenseLength = 10;~~
484		~~- tb.sense_data.CommandSpecificInformation = 0;~~
485		~~- tb.sense_data.AdditionalSenseCode = cur_sense_data.asc;~~
486		~~- tb.sense_data.AdditionalSenseCodeQualifier = cur_sense_data.ascq;~~
487		~~- tb.sense_data.FieldReplaceableUnitCode = 0;~~
488		~~- tb.sense_data.SKSV = 0;~~
489		~~- tb.sense_data.SenseKeySpecific = 0;~~
490		~~- send_command_result(&tb.sense_data, MIN(sizeof(tb.sense_data), length));~~
491		~~- break;~~
492		~~- }~~
493		-
494		~~- case SCSI_MODE_SENSE_10:~~
495		~~- {~~
496		~~- if (ejected)~~
497		~~- {~~
498		~~- send_command_failed_result();~~
499		~~- cur_sense_data.sense_key = SENSE_NOT_READY;~~
500		~~- cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;~~
501		~~- cur_sense_data.ascq = 0;~~
502		~~- break;~~
503		~~- }~~
504		~~- unsigned char page_code = cbw->command_block[2] & 0x3f;~~
505		~~- switch (page_code)~~
506		~~- {~~
507		~~- case 0x3f:~~
508		~~- tb.ms_data_10.mode_data_length = htobe16(sizeof(tb.ms_data_10) - 2);~~
509		~~- tb.ms_data_10.medium_type = 0;~~
510		~~- tb.ms_data_10.device_specific = 0;~~
511		~~- tb.ms_data_10.reserved = 0;~~
512		~~- tb.ms_data_10.longlba = 1;~~
513		~~- tb.ms_data_10.block_descriptor_length = htobe16(sizeof(tb.ms_data_10.block_descriptor));~~
514		-
515		~~- memset(tb.ms_data_10.block_descriptor.reserved, 0, 4);~~
516		~~- memset(tb.ms_data_10.block_descriptor.num_blocks, 0, 8);~~
517		-
518		~~- tb.ms_data_10.block_descriptor.num_blocks[4] = (storage_info.num_sectors & 0xff000000) >> 24;~~
519		~~- tb.ms_data_10.block_descriptor.num_blocks[5] = (storage_info.num_sectors & 0x00ff0000) >> 16;~~
520		~~- tb.ms_data_10.block_descriptor.num_blocks[6] = (storage_info.num_sectors & 0x0000ff00) >> 8;~~
521		~~- tb.ms_data_10.block_descriptor.num_blocks[7] = (storage_info.num_sectors & 0x000000ff);~~
522		-
523		~~- tb.ms_data_10.block_descriptor.block_size[0] = (storage_info.sector_size & 0xff000000) >> 24;~~
524		~~- tb.ms_data_10.block_descriptor.block_size[1] = (storage_info.sector_size & 0x00ff0000) >> 16;~~
525		~~- tb.ms_data_10.block_descriptor.block_size[2] = (storage_info.sector_size & 0x0000ff00) >> 8;~~
526		~~- tb.ms_data_10.block_descriptor.block_size[3] = (storage_info.sector_size & 0x000000ff);~~
527		~~- send_command_result(&tb.ms_data_10, MIN(sizeof(tb.ms_data_10), length));~~
528		~~- break;~~
529		~~- default:~~
530		~~- send_command_failed_result();~~
531		~~- cur_sense_data.sense_key = SENSE_ILLEGAL_REQUEST;~~
532		~~- cur_sense_data.asc = ASC_INVALID_FIELD_IN_CBD;~~
533		~~- cur_sense_data.ascq = 0;~~
534		~~- break;~~
535		~~- }~~
536		~~- break;~~
537		~~- }~~
538		-
539		~~- case SCSI_MODE_SENSE_6:~~
540		~~- {~~
541		~~- if (ejected)~~
542		~~- {~~
543		~~- send_command_failed_result();~~
544		~~- cur_sense_data.sense_key = SENSE_NOT_READY;~~
545		~~- cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;~~
546		~~- cur_sense_data.ascq = 0;~~
547		~~- break;~~
548		~~- }~~
549		~~- unsigned char page_code = cbw->command_block[2] & 0x3f;~~
550		~~- switch (page_code)~~
551		~~- {~~
552		~~- case 0x3f:~~
553		~~- tb.ms_data_6.mode_data_length = sizeof(tb.ms_data_6) - 1;~~
554		~~- tb.ms_data_6.medium_type = 0;~~
555		~~- tb.ms_data_6.device_specific = 0;~~
556		~~- tb.ms_data_6.block_descriptor_length = sizeof(tb.ms_data_6.block_descriptor);~~
557		~~- tb.ms_data_6.block_descriptor.density_code = 0;~~
558		~~- tb.ms_data_6.block_descriptor.reserved = 0;~~
559		~~- if (storage_info.num_sectors > 0xffffff)~~
560		~~- {~~
561		~~- tb.ms_data_6.block_descriptor.num_blocks[0] = 0xff;~~
562		~~- tb.ms_data_6.block_descriptor.num_blocks[1] = 0xff;~~
563		~~- tb.ms_data_6.block_descriptor.num_blocks[2] = 0xff;~~
564		~~- }~~
565		~~- else~~
566		~~- {~~
567		~~- tb.ms_data_6.block_descriptor.num_blocks[0] = (storage_info.num_sectors & 0xff0000) >> 16;~~
568		~~- tb.ms_data_6.block_descriptor.num_blocks[1] = (storage_info.num_sectors & 0x00ff00) >> 8;~~
569		~~- tb.ms_data_6.block_descriptor.num_blocks[2] = (storage_info.num_sectors & 0x0000ff);~~
570		~~- }~~
571		~~- tb.ms_data_6.block_descriptor.block_size[0] = (storage_info.sector_size & 0xff0000) >> 16;~~
572		~~- tb.ms_data_6.block_descriptor.block_size[1] = (storage_info.sector_size & 0x00ff00) >> 8;~~
573		~~- tb.ms_data_6.block_descriptor.block_size[2] = (storage_info.sector_size & 0x0000ff);~~
574		~~- send_command_result(&tb.ms_data_6, MIN(sizeof(tb.ms_data_6), length));~~
575		~~- break;~~
576		~~- default:~~
577		~~- send_command_failed_result();~~
578		~~- cur_sense_data.sense_key = SENSE_ILLEGAL_REQUEST;~~
579		~~- cur_sense_data.asc = ASC_INVALID_FIELD_IN_CBD;~~
580		~~- cur_sense_data.ascq = 0;~~
581		~~- break;~~
582		~~- }~~
583		~~- break;~~
584		~~- }~~
585		-
586		~~- case SCSI_START_STOP_UNIT:~~
587		~~- if ((cbw->command_block[4] & 0xf3) == 2) ejected = true;~~
588		~~- send_csw(0);~~
589		~~- break;~~
590		-
591		~~- case SCSI_ALLOW_MEDIUM_REMOVAL:~~
592		~~- if ((cbw->command_block[4] & 0x03) == 0) locked = false;~~
593		~~- else locked = true;~~
594		~~- send_csw(0);~~
595		~~- break;~~
596		-
597		~~- case SCSI_READ_FORMAT_CAPACITY:~~
598		~~- {~~
599		~~- if (!ejected)~~
600		~~- {~~
601		~~- tb.format_capacity_data.following_length = 0x08000000;~~
602		~~- tb.format_capacity_data.block_count = htobe32(storage_info.num_sectors - 1);~~
603		~~- tb.format_capacity_data.block_size = htobe32(storage_info.sector_size);~~
604		~~- tb.format_capacity_data.block_size \|= htobe32(SCSI_FORMAT_CAPACITY_FORMATTED_MEDIA);~~
605		~~- send_command_result(&tb.format_capacity_data, MIN(sizeof(tb.format_capacity_data), length));~~
606		~~- }~~
607		~~- else~~
608		~~- {~~
609		~~- send_command_failed_result();~~
610		~~- cur_sense_data.sense_key = SENSE_NOT_READY;~~
611		~~- cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;~~
612		~~- cur_sense_data.ascq = 0;~~
613		~~- }~~
614		~~- break;~~
615		~~- }~~
616		-
617		~~- case SCSI_READ_CAPACITY:~~
618		~~- {~~
619		~~- if (!ejected)~~
620		~~- {~~
621		~~- tb.capacity_data.block_count = htobe32(storage_info.num_sectors - 1);~~
622		~~- tb.capacity_data.block_size = htobe32(storage_info.sector_size);~~
623		~~- send_command_result(&tb.capacity_data, MIN(sizeof(tb.capacity_data), length));~~
624		~~- }~~
625		~~- else~~
626		~~- {~~
627		~~- send_command_failed_result();~~
628		~~- cur_sense_data.sense_key = SENSE_NOT_READY;~~
629		~~- cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;~~
630		~~- cur_sense_data.ascq = 0;~~
631		~~- }~~
632		~~- break;~~
633		~~- }~~
634		-
635		~~- case SCSI_READ_10:~~
636		~~- if (ejected)~~
637		~~- {~~
638		~~- send_command_failed_result();~~
639		~~- cur_sense_data.sense_key = SENSE_NOT_READY;~~
640		~~- cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;~~
641		~~- cur_sense_data.ascq = 0;~~
642		~~- break;~~
643		~~- }~~
644		~~- cur_cmd.sector = (cbw->command_block[2] << 24 \| cbw->command_block[3] << 16~~
645		~~- \| cbw->command_block[4] << 8 \| cbw->command_block[5]);~~
646		~~- cur_cmd.count = (cbw->command_block[7] << 8 \| cbw->command_block[8]);~~
647		~~- cur_cmd.orig_count = cur_cmd.count;~~
648		-
649		~~- if ((cur_cmd.sector + cur_cmd.count) > storage_info.num_sectors)~~
650		~~- {~~
651		~~- send_csw(1);~~
652		~~- cur_sense_data.sense_key = SENSE_ILLEGAL_REQUEST;~~
653		~~- cur_sense_data.asc = ASC_LBA_OUT_OF_RANGE;~~
654		~~- cur_sense_data.ascq = 0;~~
655		~~- }~~
656		~~- else send_and_read_next();~~
657		~~- break;~~
658		-
659		~~- case SCSI_WRITE_10:~~
660		~~- if (ejected)~~
661		~~- {~~
662		~~- send_command_failed_result();~~
663		~~- cur_sense_data.sense_key = SENSE_NOT_READY;~~
664		~~- cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;~~
665		~~- cur_sense_data.ascq = 0;~~
666		~~- break;~~
667		~~- }~~
668		~~- cur_cmd.sector = (cbw->command_block[2] << 24 \| cbw->command_block[3] << 16~~
669		~~- \| cbw->command_block[4] << 8 \| cbw->command_block[5]);~~
670		~~- cur_cmd.count = (cbw->command_block[7] << 8 \| cbw->command_block[8]);~~
671		~~- cur_cmd.orig_count = cur_cmd.count;~~
672		-
673		~~- if ((cur_cmd.sector + cur_cmd.count) > storage_info.num_sectors)~~
674		~~- {~~
675		~~- send_csw(1);~~
676		~~- cur_sense_data.sense_key = SENSE_ILLEGAL_REQUEST;~~
677		~~- cur_sense_data.asc = ASC_LBA_OUT_OF_RANGE;~~
678		~~- cur_sense_data.ascq = 0;~~
679		~~- }~~
680		~~- else {~~
681		~~- receive_block_data(storage_buffer, MIN(maxlen, cur_cmd.count * storage_info.sector_size));~~
682		~~- }~~
683		~~- break;~~
684		-
685		~~- case SCSI_WRITE_BUFFER:~~
686		~~- break;~~
687		-
688		~~- default:~~
689		~~- send_csw(1);~~
690		~~- cur_sense_data.sense_key = SENSE_ILLEGAL_REQUEST;~~
691		~~- cur_sense_data.asc = ASC_INVALID_COMMAND;~~
692		~~- cur_sense_data.ascq = 0;~~
693		~~- break;~~
694		~~- }~~
695		-}
696		-
697		~~-int handle_ctrl_request(const struct usb_instance* data, int interface, union usb_ep0_buffer* request, const void** response)~~
698		-{
699		~~- int size = -1;~~
700		~~- switch (request->setup.bmRequestType.type)~~
701		~~- {~~
702		~~- case USB_SETUP_BMREQUESTTYPE_TYPE_CLASS:~~
703		~~- switch (request->setup.bRequest.raw)~~
704		~~- {~~
705		~~- case 0xfe: // GET_MAX_LUN~~
706		~~- data->buffer->raw[0] = 0;~~
707		~~- size = 1;~~
708		~~- break;~~
709		~~- case 0xff: // STORAGE_RESET~~
710		~~- size = 0;~~
711		~~- break;~~
712		~~- default: break;~~
713		~~- }~~
714		~~- break;~~
715		~~- default: break;~~
716		~~- }~~
717		~~- return size;~~
718		-}
719		-
720		~~-void handle_set_altsetting(const struct usb_instance* data, int interface, int altsetting)~~
721		-{
722		~~- usb = data;~~
723		~~- state = WAITING_FOR_COMMAND;~~
724		~~- maxlen = maxpacket * MIN(usb_get_max_transfer_size(usb, outep), usb_get_max_transfer_size(usb, inep));~~
725		~~- usb_configure_ep(usb, outep, USB_ENDPOINT_TYPE_BULK, maxpacket);~~
726		~~- usb_configure_ep(usb, inep, USB_ENDPOINT_TYPE_BULK, maxpacket);~~
727		~~- listen();~~
728		-}
729		-
730		~~-void handle_unset_altsetting(const struct usb_instance* data, int interface, int altsetting)~~
731		-{
732		~~- usb_unconfigure_ep(usb, outep);~~
733		~~- usb_unconfigure_ep(usb, inep);~~
734		-}
735		-
736		~~-int handle_ep_ctrl_request(const struct usb_instance* data, int interface, int endpoint, union usb_ep0_buffer* request, const void** response)~~
737		-{
738		~~- int size = -1;~~
739		~~- switch (request->setup.bmRequestType.type)~~
740		~~- {~~
741		~~- case USB_SETUP_BMREQUESTTYPE_TYPE_STANDARD:~~
742		~~- switch (request->setup.bRequest.req)~~
743		~~- {~~
744		~~- case USB_SETUP_BREQUEST_CLEAR_FEATURE:~~
745		~~- if (request->setup.wLength \|\| request->setup.wValue) break;~~
746		~~- listen();~~
747		~~- break;~~
748		~~- default: break;~~
749		~~- }~~
750		~~- break;~~
751		~~- default: break;~~
752		~~- }~~
753		~~- return size;~~
754		-}
755		-
756		~~-void handle_xfer_complete(const struct usb_instance* data, int ifnum, int epnum, int bytesleft)~~
757		-{
758		~~- length -= bytesleft;~~
759		~~- switch (state)~~
760		~~- {~~
761		~~- case RECEIVING_BLOCKS:~~
762		~~- if (length != storage_info.sector_size * cur_cmd.count && length != maxlen) break;~~
763		-
764		~~- pending_op_start = cur_cmd.sector;~~
765		~~- pending_op_count = cur_cmd.count;~~
766		~~- pending_op = OP_WRITE;~~
767		~~- wakeup_signal(&pending_op_wakeup);~~
768		~~- break;~~
769		~~- case WAITING_FOR_CSW_COMPLETION:~~
770		~~- state = WAITING_FOR_COMMAND;~~
771		~~- listen();~~
772		~~- break;~~
773		~~- case WAITING_FOR_COMMAND:~~
774		~~- handle_scsi(&cbw);~~
775		~~- break;~~
776		~~- case SENDING_RESULT:~~
777		~~- send_csw(0);~~
778		~~- break;~~
779		~~- case SENDING_FAILED_RESULT:~~
780		~~- send_csw(1);~~
781		~~- break;~~
782		~~- case SENDING_BLOCKS:~~
783		~~- if (!cur_cmd.count) send_csw(0);~~
784		~~- else send_and_read_next();~~
785		~~- break;~~
786		~~- }~~
787		-}
788		-
789		~~-void handle_timeout(const struct usb_instance* data, int interface, int endpoint, int bytesleft)~~
790		-{
791		~~- usb_set_stall(usb, outep, true);~~
792		~~- usb_set_stall(usb, inep, true);~~
793		-}
794		-
795		~~-static void handle_bus_reset(const struct usb_instance* data, int configuration, int interface, int highspeed)~~
796		-{
797		~~- maxpacket = highspeed ? 512 : 64;~~
798		~~- usb_config1_descriptors.c1_i0_a0_e1out.wMaxPacketSize = maxpacket;~~
799		~~- usb_config1_descriptors.c1_i0_a0_e1in.wMaxPacketSize = maxpacket;~~
800		-}
801		-
802		~~-static struct usb_endpoint usb_c1_i0_a0_ep1out =~~
803		-{
804		~~- .number = { .number = 0, .direction = USB_ENDPOINT_DIRECTION_OUT },~~
805		~~- .ctrl_request = handle_ep_ctrl_request,~~
806		~~- .xfer_complete = handle_xfer_complete,~~
807		~~-};~~
808		-
809		~~-static struct usb_endpoint usb_c1_i0_a0_ep1in =~~
810		-{
811		~~- .number = { .number = 0, .direction = USB_ENDPOINT_DIRECTION_IN },~~
812		~~- .ctrl_request = handle_ep_ctrl_request,~~
813		~~- .xfer_complete = handle_xfer_complete,~~
814		~~- .timeout = handle_timeout,~~
815		~~-};~~
816		-
817		~~-static const struct usb_altsetting usb_c1_i0_a0 =~~
818		-{
819		~~- .set_altsetting = handle_set_altsetting,~~
820		~~- .unset_altsetting = handle_unset_altsetting,~~
821		~~- .endpoint_count = 2,~~
822		~~- .endpoints =~~
823		~~- {~~
824		~~- &usb_c1_i0_a0_ep1out,~~
825		~~- &usb_c1_i0_a0_ep1in,~~
826		~~- },~~
827		~~-};~~
828		-
829		~~-static const struct usb_interface usb_c1_i0 =~~
830		-{
831		~~- .bus_reset = handle_bus_reset,~~
832		~~- .ctrl_request = handle_ctrl_request,~~
833		~~- .altsetting_count = 1,~~
834		~~- .altsettings =~~
835		~~- {~~
836		~~- &usb_c1_i0_a0,~~
837		~~- },~~
838		~~-};~~
839		-
840		~~-static const struct usb_configuration usb_c1 =~~
841		-{
842		~~- .descriptor = &usb_config1_descriptors.c1,~~
843		~~- .set_configuration = NULL,~~
844		~~- .unset_configuration = NULL,~~
845		~~- .interface_count = 1,~~
846		~~- .interfaces =~~
847		~~- {~~
848		~~- &usb_c1_i0,~~
849		~~- },~~
850		~~-};~~
851		-
852		~~-static const struct usb_configuration* usb_configurations[] =~~
853		-{
854		~~- &usb_c1,~~
855		~~-};~~
856		-
857		~~-struct emcorelib_header* loadlib(uint32_t identifier, uint32_t version, char* filename)~~
858		-{
859		~~- struct emcorelib_header* lib = get_library(identifier, version, LIBSOURCE_BOOTFLASH, filename);~~
860		~~- if (!lib) panicf(PANIC_KILLTHREAD, "Could not load %s", filename);~~
861		~~- return lib;~~
862		-}
863		-
864	32	static void main(int argc, const char** argv)
865	33	{
866		~~- cprintf(3, "Welcome to Disk mode! Please wait until your device is detected by your operating system. It should not take more than 1-2 minutes. In case of issues, please ask for support.\n\n");~~
867		~~- cprintf(3, "When you're done transferring files, please use your operating system's Eject/Unmount option before unplugging the device.\n\n");~~
	34	+ cputs(1, "Welcome to Disk Mode!\n\n"
	35	+ "This device will now behave\nlike an external hard drive.\n\n"
	36	+ "When you're finished, please\nproperly eject/unmount the disk.\n");
	37	+
	38	+ ums_init();
	39	+ usb_prepare();
868	40
869		~~- storage_get_info(0, &storage_info);~~
870		-
871		~~- if (!storage_info.sector_size) panicf(PANIC_KILLTHREAD, "Sector size is zero!\n");~~
872		~~- if (!storage_info.num_sectors) panicf(PANIC_KILLTHREAD, "Number of sectors is zero!\n");~~
873		-
874	41	disk_unmount(0);
875		-
876		~~- int i;~~
877		~~- uint32_t eps = usbmanager_get_available_endpoints();~~
878		~~- int ep_out = 0;~~
879		~~- int ep_in = 0;~~
880		~~- for (i = 1; i < 16; i++)~~
881		~~- if (eps & (1 << i))~~
882		~~- {~~
883		~~- ep_out = i;~~
884		~~- break;~~
885		~~- }~~
886		~~- for (i = 1; i < 16; i++)~~
887		~~- if (eps & (1 << (16 + i)))~~
888		~~- {~~
889		~~- ep_in = i;~~
890		~~- break;~~
891		~~- }~~
892		~~- if (!ep_out \|\| !ep_in) panicf(PANIC_KILLTHREAD, "Not enough USB endpoints available!\n");~~
893		~~- usb_config1_descriptors.c1_i0_a0_e1out.bEndpointAddress.number = ep_out;~~
894		~~- usb_config1_descriptors.c1_i0_a0_e1in.bEndpointAddress.number = ep_in;~~
895		~~- usb_c1_i0_a0_ep1out.number.number = ep_out;~~
896		~~- usb_c1_i0_a0_ep1in.number.number = ep_in;~~
897		~~- outep.number = ep_out;~~
898		~~- inep.number = ep_in;~~
899		~~- int rc = usbmanager_install_custom(&usb_devicedescriptor, ARRAYLEN(usb_configurations), usb_configurations,~~
900		~~- ARRAYLEN(usb_stringdescriptors), usb_stringdescriptors, true);~~
901		~~- if (IS_ERR(rc)) {~~
902		~~- disk_mount(0);~~
903		~~- panicf(PANIC_KILLTHREAD, "Failed to register USB handler: %08X\n", rc);~~
904		~~- }~~
	42	+ usb_connect();
905	43
906		~~- wakeup_init(&pending_op_wakeup);~~
	44	+ cprintf(3, "Disk was ejected successfully.\nReturning to the bootmenu...\n\n");
907	45
908		~~- while (!ejected && usbmanager_get_connected()) {~~
909		~~- if (wakeup_wait(&pending_op_wakeup, 200000) == THREAD_OK) {~~
910		~~- if (pending_op == OP_READ) {~~
911		~~- //cprintf(3, "R(%u, %u)\n", pending_op_start, pending_op_count);~~
912		~~- storage_read_sectors_md(0, pending_op_start, pending_op_count, storage_buffer);~~
913		-
914		~~- send_block_data(storage_buffer, MIN(maxlen, cur_cmd.count * storage_info.sector_size));~~
915		~~- }~~
916		-
917		~~- if (pending_op == OP_WRITE) {~~
918		~~- //cprintf(3, "W(%u, %u)\n", pending_op_start, pending_op_count);~~
919		~~- storage_write_sectors_md(0, pending_op_start, pending_op_count, storage_buffer);~~
920		~~- }~~
921		-
922		~~- cur_cmd.sector += maxlen / storage_info.sector_size;~~
923		~~- cur_cmd.count -= MIN(cur_cmd.count, maxlen / storage_info.sector_size);~~
924		-
925		~~- if (pending_op == OP_WRITE) {~~
926		~~- if (cur_cmd.count) {~~
927		~~- receive_block_data(storage_buffer, MIN(maxlen, cur_cmd.count * storage_info.sector_size));~~
928		~~- }~~
929		~~- else send_csw(0);~~
930		~~- }~~
931		~~- }~~
932		~~- }~~
933		-
934		~~- usbmanager_uninstall_custom();~~
935		-
936		~~- cprintf(3, "Disk mode completed successfully. Returning to the bootmenu...\n\n");~~
937		-
938		~~- struct bootinfo_t bootinfo =~~
939		~~- {~~
940		~~- .valid = false,~~
941		~~- .firmware = NULL,~~
942		~~- .size = 0,~~
943		~~- .app = NULL,~~
944		~~- .argc = 0,~~
945		~~- .argv = NULL~~
946		~~- };~~
947		-
948		~~- struct emcorelib_header* libboot = loadlib(LIBBOOT_IDENTIFIER,~~
949		~~- LIBBOOT_API_VERSION, "libboot ");~~
	46	+ struct emcorelib_header* libboot = get_library(LIBBOOT_IDENTIFIER, LIBBOOT_API_VERSION,
	47	+ LIBSOURCE_BOOTFLASH, "libboot ");
	48	+ if (!libboot) panicf(PANIC_KILLTHREAD, "Could not load libboot");
950	49	struct libboot_api* boot = (struct libboot_api*)libboot->api;
951	50
952		~~- boot->load_from_flash(&bootinfo.app, &bootinfo.size, false, "bootmenu", 0);~~
953		-
954		~~- if (!bootinfo.app) {~~
	51	+ int size = 0;
	52	+ void* app = NULL;
	53	+ boot->load_from_flash(&app, &size, false, "bootmenu", 0);
	54	+ if (!app)
955	55	panicf(PANIC_KILLTHREAD, "Unable to start the bootmenu! Press MENU+SELECT to reboot your device.\n");
956		~~- }~~
	56	+
	57	+ release_library(libboot);
957	58
958	59	disk_mount(0);
959		~~- execimage(bootinfo.app, false, bootinfo.argc, bootinfo.argv);~~
	60	+ execimage(app, false, 0, NULL);
960	61	}
961	62
962	63
963		~~-EMCORE_APP_HEADER("Disk mode", main, 127)~~
	64	+EMCORE_APP_HEADER("Disk Mode", main, 127)
	65	+
Index: apps/diskmode/ums.c
—	—	@@ -0,0 +1,637 @@
	2	+//
	3	+//
	4	+// Copyright 2013 TheSeven
	5	+// Copyright 2014 user890104
	6	+//
	7	+//
	8	+// This file is part of emCORE.
	9	+//
	10	+// emCORE is free software: you can redistribute it and/or
	11	+// modify it under the terms of the GNU General Public License as
	12	+// published by the Free Software Foundation, either version 2 of the
	13	+// License, or (at your option) any later version.
	14	+//
	15	+// emCORE is distributed in the hope that it will be useful,
	16	+// but WITHOUT ANY WARRANTY; without even the implied warranty of
	17	+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
	18	+// See the GNU General Public License for more details.
	19	+//
	20	+// You should have received a copy of the GNU General Public License along
	21	+// with emCORE. If not, see <http://www.gnu.org/licenses/>.
	22	+//
	23	+//
	24	+
	25	+
	26	+#include "emcoreapp.h"
	27	+#include "ums.h"
	28	+#include "scsi.h"
	29	+#include "usb.h"
	30	+
	31	+
	32	+#define UMS_BUFSIZE 65536
	33	+
	34	+
	35	+static struct
	36	+{
	37	+ unsigned int sector;
	38	+ unsigned int count;
	39	+ unsigned int orig_count;
	40	+ unsigned int cur_cmd;
	41	+ unsigned int tag;
	42	+ unsigned int lun;
	43	+ unsigned int last_result;
	44	+} cur_cmd;
	45	+
	46	+
	47	+static struct
	48	+{
	49	+ unsigned char sense_key;
	50	+ unsigned char information;
	51	+ unsigned char asc;
	52	+ unsigned char ascq;
	53	+} cur_sense_data;
	54	+
	55	+
	56	+struct __attribute__((packed,aligned(32))) command_block_wrapper
	57	+{
	58	+ unsigned int signature;
	59	+ unsigned int tag;
	60	+ unsigned int data_transfer_length;
	61	+ unsigned char flags;
	62	+ unsigned char lun;
	63	+ unsigned char command_length;
	64	+ unsigned char command_block[16];
	65	+};
	66	+
	67	+
	68	+struct __attribute__((packed)) command_status_wrapper
	69	+{
	70	+ unsigned int signature;
	71	+ unsigned int tag;
	72	+ unsigned int data_residue;
	73	+ unsigned char status;
	74	+};
	75	+
	76	+
	77	+union __attribute__((aligned(32)))
	78	+{
	79	+ struct inquiry_data inquiry;
	80	+ struct capacity capacity_data;
	81	+ struct format_capacity format_capacity_data;
	82	+ struct sense_data sense_data;
	83	+ struct mode_sense_data_6 ms_data_6;
	84	+ struct mode_sense_data_10 ms_data_10;
	85	+ struct report_lun_data lun_data;
	86	+ struct command_status_wrapper csw;
	87	+} tb;
	88	+
	89	+
	90	+static enum
	91	+{
	92	+ WAITING_FOR_COMMAND,
	93	+ SENDING_BLOCKS,
	94	+ SENDING_RESULT,
	95	+ SENDING_FAILED_RESULT,
	96	+ RECEIVING_BLOCKS,
	97	+ WAITING_FOR_CSW_COMPLETION
	98	+} state = WAITING_FOR_COMMAND;
	99	+
	100	+static uint32_t length;
	101	+static struct storage_info storage_info;
	102	+static uint8_t __attribute__((aligned(32))) umsbuf[2][2][UMS_BUFSIZE];
	103	+static union __attribute__((packed,aligned(32)))
	104	+{
	105	+ struct command_block_wrapper cbw;
	106	+ uint8_t dummy;
	107	+} cmdbuf;
	108	+static uint8_t readbuf_current;
	109	+static uint32_t readbuf_sector[2] = {0, 0};
	110	+static int8_t readbuf_count[2] = {0, 0};
	111	+static uint8_t read_blocked = false;
	112	+static uint8_t writebuf_current;
	113	+static uint32_t writebuf_sector;
	114	+static uint8_t writebuf_count;
	115	+static uint8_t writebuf_busy = false;
	116	+static uint8_t writebuf_overrun = false;
	117	+static uint32_t write_rc = 0;
	118	+static bool locked = false;
	119	+
	120	+
	121	+bool ums_ejected = false;
	122	+
	123	+
	124	+static void listen()
	125	+{
	126	+ usb_receive(&cmdbuf.cbw, sizeof(cmdbuf.cbw));
	127	+}
	128	+
	129	+
	130	+void ums_listen()
	131	+{
	132	+ state = WAITING_FOR_COMMAND;
	133	+ listen();
	134	+}
	135	+
	136	+
	137	+static void send_csw(int status)
	138	+{
	139	+ tb.csw.signature = 0x53425355;
	140	+ tb.csw.tag = cur_cmd.tag;
	141	+ tb.csw.data_residue = 0;
	142	+ tb.csw.status = status;
	143	+
	144	+ state = WAITING_FOR_CSW_COMPLETION;
	145	+ usb_transmit(&tb.csw, sizeof(tb.csw));
	146	+
	147	+ if (!status)
	148	+ {
	149	+ cur_sense_data.sense_key = 0;
	150	+ cur_sense_data.information = 0;
	151	+ cur_sense_data.asc = 0;
	152	+ cur_sense_data.ascq = 0;
	153	+ }
	154	+}
	155	+
	156	+
	157	+static void receive_block_data(void* data, int size)
	158	+{
	159	+ length = size;
	160	+ usb_receive(data, size);
	161	+ state = RECEIVING_BLOCKS;
	162	+}
	163	+
	164	+
	165	+static void send_block_data(void* data, int size)
	166	+{
	167	+ length = size;
	168	+ usb_transmit(data, size);
	169	+ state = SENDING_BLOCKS;
	170	+}
	171	+
	172	+
	173	+static void send_command_result(void* data, int size)
	174	+{
	175	+ length = size;
	176	+ usb_transmit(data, size);
	177	+ state = SENDING_RESULT;
	178	+}
	179	+
	180	+
	181	+static void send_command_failed_result()
	182	+{
	183	+ usb_transmit(NULL, 0);
	184	+ state = SENDING_FAILED_RESULT;
	185	+}
	186	+
	187	+
	188	+static void send_and_read_next()
	189	+{
	190	+ int bufsize = UMS_BUFSIZE / storage_info.sector_size;
	191	+ int i;
	192	+ for (i = 0; i < 2; i++)
	193	+ {
	194	+ if (readbuf_sector[i] <= cur_cmd.sector && readbuf_sector[i] + bufsize > cur_cmd.sector)
	195	+ {
	196	+ if (readbuf_sector[i] + readbuf_count[i] <= cur_cmd.sector)
	197	+ {
	198	+ readbuf_current = i;
	199	+ read_blocked = true;
	200	+ enqueue_async();
	201	+ return;
	202	+ }
	203	+ int overlap = MIN(readbuf_sector[i] + readbuf_count[i] - cur_cmd.sector, cur_cmd.count);
	204	+ if (i == readbuf_current && readbuf_sector[i] + readbuf_count[i] < storage_info.num_sectors)
	205	+ {
	206	+ readbuf_current = !i;
	207	+ readbuf_sector[!i] = MAX(readbuf_sector[i] + readbuf_count[i], cur_cmd.sector + overlap);
	208	+ readbuf_count[!i] = 0;
	209	+ enqueue_async();
	210	+ }
	211	+ int offset = (cur_cmd.sector - readbuf_sector[i]) * storage_info.sector_size;
	212	+ send_block_data(umsbuf[0][i] + offset, overlap * storage_info.sector_size);
	213	+ cur_cmd.sector += overlap;
	214	+ cur_cmd.count -= overlap;
	215	+ return;
	216	+ }
	217	+ }
	218	+ readbuf_current ^= 1;
	219	+ readbuf_sector[readbuf_current] = cur_cmd.sector;
	220	+ readbuf_count[readbuf_current] = 0;
	221	+ read_blocked = true;
	222	+ enqueue_async();
	223	+}
	224	+
	225	+
	226	+static void copy_padded(char* dest, char* src, int len)
	227	+{
	228	+ int i = 0;
	229	+ while (src[i] && i < len)
	230	+ {
	231	+ dest[i] = src[i];
	232	+ i++;
	233	+ }
	234	+ while(i < len) dest[i++] = ' ';
	235	+}
	236	+
	237	+
	238	+static void fill_inquiry()
	239	+{
	240	+ memset(&tb.inquiry, 0, sizeof(tb.inquiry));
	241	+ copy_padded(tb.inquiry.VendorId, storage_info.vendor, sizeof(tb.inquiry.VendorId));
	242	+ copy_padded(tb.inquiry.ProductId, storage_info.product, sizeof(tb.inquiry.ProductId));
	243	+ copy_padded(tb.inquiry.ProductRevisionLevel, storage_info.revision, sizeof(tb.inquiry.ProductRevisionLevel));
	244	+
	245	+ tb.inquiry.DeviceType = DIRECT_ACCESS_DEVICE;
	246	+ tb.inquiry.AdditionalLength = 0x1f;
	247	+ tb.inquiry.Versions = 4; // SPC-2
	248	+ tb.inquiry.Format = 2; // SPC-2/3 inquiry format
	249	+ tb.inquiry.DeviceTypeModifier = DEVICE_REMOVABLE;
	250	+}
	251	+
	252	+
	253	+static void handle_scsi(struct command_block_wrapper* cbw)
	254	+{
	255	+ unsigned int length = cbw->data_transfer_length;
	256	+
	257	+ if (cbw->signature != 0x43425355)
	258	+ {
	259	+ usb_stall();
	260	+ return;
	261	+ }
	262	+ cur_cmd.tag = cbw->tag;
	263	+ cur_cmd.lun = cbw->lun;
	264	+ cur_cmd.cur_cmd = cbw->command_block[0];
	265	+
	266	+ switch (cbw->command_block[0])
	267	+ {
	268	+ case SCSI_TEST_UNIT_READY:
	269	+ if (!ums_ejected) send_csw(0);
	270	+ else
	271	+ {
	272	+ send_csw(1);
	273	+ cur_sense_data.sense_key = SENSE_NOT_READY;
	274	+ cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;
	275	+ cur_sense_data.ascq = 0;
	276	+ }
	277	+ break;
	278	+
	279	+ case SCSI_REPORT_LUNS:
	280	+ {
	281	+ memset(&tb.lun_data, 0, sizeof(struct report_lun_data));
	282	+ tb.lun_data.lun_list_length = 0x08000000;
	283	+ send_command_result(&tb.lun_data, MIN(16, length));
	284	+ break;
	285	+ }
	286	+
	287	+ case SCSI_INQUIRY:
	288	+ fill_inquiry();
	289	+ length = MIN(length, cbw->command_block[4]);
	290	+ send_command_result(&tb.inquiry, MIN(sizeof(tb.inquiry), length));
	291	+ break;
	292	+
	293	+ case SCSI_REQUEST_SENSE:
	294	+ {
	295	+ tb.sense_data.ResponseCode = 0x70;
	296	+ tb.sense_data.Obsolete = 0;
	297	+ tb.sense_data.fei_sensekey = cur_sense_data.sense_key & 0x0f;
	298	+ tb.sense_data.Information = cur_sense_data.information;
	299	+ tb.sense_data.AdditionalSenseLength = 10;
	300	+ tb.sense_data.CommandSpecificInformation = 0;
	301	+ tb.sense_data.AdditionalSenseCode = cur_sense_data.asc;
	302	+ tb.sense_data.AdditionalSenseCodeQualifier = cur_sense_data.ascq;
	303	+ tb.sense_data.FieldReplaceableUnitCode = 0;
	304	+ tb.sense_data.SKSV = 0;
	305	+ tb.sense_data.SenseKeySpecific = 0;
	306	+ send_command_result(&tb.sense_data, MIN(sizeof(tb.sense_data), length));
	307	+ break;
	308	+ }
	309	+
	310	+ case SCSI_MODE_SENSE_10:
	311	+ {
	312	+ if (ums_ejected)
	313	+ {
	314	+ send_command_failed_result();
	315	+ cur_sense_data.sense_key = SENSE_NOT_READY;
	316	+ cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;
	317	+ cur_sense_data.ascq = 0;
	318	+ break;
	319	+ }
	320	+ unsigned char page_code = cbw->command_block[2] & 0x3f;
	321	+ switch (page_code)
	322	+ {
	323	+ case 0x3f:
	324	+ tb.ms_data_10.mode_data_length = htobe16(sizeof(tb.ms_data_10) - 2);
	325	+ tb.ms_data_10.medium_type = 0;
	326	+ tb.ms_data_10.device_specific = 0;
	327	+ tb.ms_data_10.reserved = 0;
	328	+ tb.ms_data_10.longlba = 1;
	329	+ tb.ms_data_10.block_descriptor_length = htobe16(sizeof(tb.ms_data_10.block_descriptor));
	330	+
	331	+ memset(tb.ms_data_10.block_descriptor.reserved, 0, 4);
	332	+ memset(tb.ms_data_10.block_descriptor.num_blocks, 0, 8);
	333	+
	334	+ tb.ms_data_10.block_descriptor.num_blocks[4] = (storage_info.num_sectors & 0xff000000) >> 24;
	335	+ tb.ms_data_10.block_descriptor.num_blocks[5] = (storage_info.num_sectors & 0x00ff0000) >> 16;
	336	+ tb.ms_data_10.block_descriptor.num_blocks[6] = (storage_info.num_sectors & 0x0000ff00) >> 8;
	337	+ tb.ms_data_10.block_descriptor.num_blocks[7] = (storage_info.num_sectors & 0x000000ff);
	338	+
	339	+ tb.ms_data_10.block_descriptor.block_size[0] = (storage_info.sector_size & 0xff000000) >> 24;
	340	+ tb.ms_data_10.block_descriptor.block_size[1] = (storage_info.sector_size & 0x00ff0000) >> 16;
	341	+ tb.ms_data_10.block_descriptor.block_size[2] = (storage_info.sector_size & 0x0000ff00) >> 8;
	342	+ tb.ms_data_10.block_descriptor.block_size[3] = (storage_info.sector_size & 0x000000ff);
	343	+ send_command_result(&tb.ms_data_10, MIN(sizeof(tb.ms_data_10), length));
	344	+ break;
	345	+ default:
	346	+ send_command_failed_result();
	347	+ cur_sense_data.sense_key = SENSE_ILLEGAL_REQUEST;
	348	+ cur_sense_data.asc = ASC_INVALID_FIELD_IN_CBD;
	349	+ cur_sense_data.ascq = 0;
	350	+ break;
	351	+ }
	352	+ break;
	353	+ }
	354	+
	355	+ case SCSI_MODE_SENSE_6:
	356	+ {
	357	+ if (ums_ejected)
	358	+ {
	359	+ send_command_failed_result();
	360	+ cur_sense_data.sense_key = SENSE_NOT_READY;
	361	+ cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;
	362	+ cur_sense_data.ascq = 0;
	363	+ break;
	364	+ }
	365	+ unsigned char page_code = cbw->command_block[2] & 0x3f;
	366	+ switch (page_code)
	367	+ {
	368	+ case 0x3f:
	369	+ tb.ms_data_6.mode_data_length = sizeof(tb.ms_data_6) - 1;
	370	+ tb.ms_data_6.medium_type = 0;
	371	+ tb.ms_data_6.device_specific = 0;
	372	+ tb.ms_data_6.block_descriptor_length = sizeof(tb.ms_data_6.block_descriptor);
	373	+ tb.ms_data_6.block_descriptor.density_code = 0;
	374	+ tb.ms_data_6.block_descriptor.reserved = 0;
	375	+ if (storage_info.num_sectors > 0xffffff)
	376	+ {
	377	+ tb.ms_data_6.block_descriptor.num_blocks[0] = 0xff;
	378	+ tb.ms_data_6.block_descriptor.num_blocks[1] = 0xff;
	379	+ tb.ms_data_6.block_descriptor.num_blocks[2] = 0xff;
	380	+ }
	381	+ else
	382	+ {
	383	+ tb.ms_data_6.block_descriptor.num_blocks[0] = (storage_info.num_sectors & 0xff0000) >> 16;
	384	+ tb.ms_data_6.block_descriptor.num_blocks[1] = (storage_info.num_sectors & 0x00ff00) >> 8;
	385	+ tb.ms_data_6.block_descriptor.num_blocks[2] = (storage_info.num_sectors & 0x0000ff);
	386	+ }
	387	+ tb.ms_data_6.block_descriptor.block_size[0] = (storage_info.sector_size & 0xff0000) >> 16;
	388	+ tb.ms_data_6.block_descriptor.block_size[1] = (storage_info.sector_size & 0x00ff00) >> 8;
	389	+ tb.ms_data_6.block_descriptor.block_size[2] = (storage_info.sector_size & 0x0000ff);
	390	+ send_command_result(&tb.ms_data_6, MIN(sizeof(tb.ms_data_6), length));
	391	+ break;
	392	+ default:
	393	+ send_command_failed_result();
	394	+ cur_sense_data.sense_key = SENSE_ILLEGAL_REQUEST;
	395	+ cur_sense_data.asc = ASC_INVALID_FIELD_IN_CBD;
	396	+ cur_sense_data.ascq = 0;
	397	+ break;
	398	+ }
	399	+ break;
	400	+ }
	401	+
	402	+ case SCSI_START_STOP_UNIT:
	403	+ if ((cbw->command_block[4] & 0xf3) == 2) ums_ejected = true;
	404	+ send_csw(0);
	405	+ break;
	406	+
	407	+ case SCSI_ALLOW_MEDIUM_REMOVAL:
	408	+ if ((cbw->command_block[4] & 0x03) == 0) locked = false;
	409	+ else locked = true;
	410	+ send_csw(0);
	411	+ break;
	412	+
	413	+ case SCSI_READ_FORMAT_CAPACITY:
	414	+ {
	415	+ if (!ums_ejected)
	416	+ {
	417	+ tb.format_capacity_data.following_length = 0x08000000;
	418	+ tb.format_capacity_data.block_count = swap32(storage_info.num_sectors - 1);
	419	+ tb.format_capacity_data.block_size = swap32(storage_info.sector_size);
	420	+ tb.format_capacity_data.block_size \|= swap32(SCSI_FORMAT_CAPACITY_FORMATTED_MEDIA);
	421	+ send_command_result(&tb.format_capacity_data, MIN(sizeof(tb.format_capacity_data), length));
	422	+ }
	423	+ else
	424	+ {
	425	+ send_command_failed_result();
	426	+ cur_sense_data.sense_key = SENSE_NOT_READY;
	427	+ cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;
	428	+ cur_sense_data.ascq = 0;
	429	+ }
	430	+ break;
	431	+ }
	432	+
	433	+ case SCSI_READ_CAPACITY:
	434	+ {
	435	+ if (!ums_ejected)
	436	+ {
	437	+ tb.capacity_data.block_count = swap32(storage_info.num_sectors - 1);
	438	+ tb.capacity_data.block_size = swap32(storage_info.sector_size);
	439	+ send_command_result(&tb.capacity_data, MIN(sizeof(tb.capacity_data), length));
	440	+ }
	441	+ else
	442	+ {
	443	+ send_command_failed_result();
	444	+ cur_sense_data.sense_key = SENSE_NOT_READY;
	445	+ cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;
	446	+ cur_sense_data.ascq = 0;
	447	+ }
	448	+ break;
	449	+ }
	450	+
	451	+ case SCSI_READ_10:
	452	+ if (ums_ejected)
	453	+ {
	454	+ send_command_failed_result();
	455	+ cur_sense_data.sense_key = SENSE_NOT_READY;
	456	+ cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;
	457	+ cur_sense_data.ascq = 0;
	458	+ break;
	459	+ }
	460	+ cur_cmd.sector = (cbw->command_block[2] << 24 \| cbw->command_block[3] << 16
	461	+ \| cbw->command_block[4] << 8 \| cbw->command_block[5]);
	462	+ cur_cmd.count = (cbw->command_block[7] << 8 \| cbw->command_block[8]);
	463	+ cur_cmd.orig_count = cur_cmd.count;
	464	+
	465	+ if ((cur_cmd.sector + cur_cmd.count) > storage_info.num_sectors)
	466	+ {
	467	+ send_csw(1);
	468	+ cur_sense_data.sense_key = SENSE_ILLEGAL_REQUEST;
	469	+ cur_sense_data.asc = ASC_LBA_OUT_OF_RANGE;
	470	+ cur_sense_data.ascq = 0;
	471	+ }
	472	+ else if (!cur_cmd.count) send_csw(0);
	473	+ else send_and_read_next();
	474	+ break;
	475	+
	476	+ case SCSI_WRITE_10:
	477	+ if (ums_ejected)
	478	+ {
	479	+ send_command_failed_result();
	480	+ cur_sense_data.sense_key = SENSE_NOT_READY;
	481	+ cur_sense_data.asc = ASC_MEDIUM_NOT_PRESENT;
	482	+ cur_sense_data.ascq = 0;
	483	+ break;
	484	+ }
	485	+ cur_cmd.sector = (cbw->command_block[2] << 24 \| cbw->command_block[3] << 16
	486	+ \| cbw->command_block[4] << 8 \| cbw->command_block[5]);
	487	+ cur_cmd.count = (cbw->command_block[7] << 8 \| cbw->command_block[8]);
	488	+ cur_cmd.orig_count = cur_cmd.count;
	489	+
	490	+ if ((cur_cmd.sector + cur_cmd.count) > storage_info.num_sectors)
	491	+ {
	492	+ send_csw(1);
	493	+ cur_sense_data.sense_key = SENSE_ILLEGAL_REQUEST;
	494	+ cur_sense_data.asc = ASC_LBA_OUT_OF_RANGE;
	495	+ cur_sense_data.ascq = 0;
	496	+ }
	497	+ else if (!cur_cmd.count) send_csw(0);
	498	+ else
	499	+ receive_block_data(umsbuf[1][!writebuf_current],
	500	+ MIN(UMS_BUFSIZE, cur_cmd.count * storage_info.sector_size));
	501	+ break;
	502	+
	503	+ case SCSI_WRITE_BUFFER:
	504	+ break;
	505	+
	506	+ default:
	507	+ send_csw(1);
	508	+ cur_sense_data.sense_key = SENSE_ILLEGAL_REQUEST;
	509	+ cur_sense_data.asc = ASC_INVALID_COMMAND;
	510	+ cur_sense_data.ascq = 0;
	511	+ break;
	512	+ }
	513	+}
	514	+
	515	+
	516	+void ums_init()
	517	+{
	518	+ storage_get_info(0, &storage_info);
	519	+ if (!storage_info.sector_size) panicf(PANIC_KILLTHREAD, "Sector size is zero!\n");
	520	+ if (!storage_info.num_sectors) panicf(PANIC_KILLTHREAD, "Number of sectors is zero!\n");
	521	+}
	522	+
	523	+
	524	+void update_readcache()
	525	+{
	526	+ int count = length / storage_info.sector_size;
	527	+ int i;
	528	+ for (i = 0; i < 2; i++)
	529	+ if ((readbuf_sector[i] <= cur_cmd.sector && readbuf_sector[i] + readbuf_count[i] > cur_cmd.sector)
	530	+ \|\| (readbuf_sector[i] <= cur_cmd.sector + count
	531	+ && readbuf_sector[i] + readbuf_count[i] > cur_cmd.sector + count))
	532	+ {
	533	+ int roffset = MAX(0, (int)(cur_cmd.sector - readbuf_sector[i]));
	534	+ int woffset = MAX(0, (int)(readbuf_sector[i] - cur_cmd.sector));
	535	+ int len = MIN(readbuf_count[i] - roffset, count - woffset);
	536	+ roffset *= storage_info.sector_size;
	537	+ woffset *= storage_info.sector_size;
	538	+ len *= storage_info.sector_size;
	539	+ memcpy(umsbuf[0][i] + roffset, umsbuf[1][writebuf_current] + woffset, len);
	540	+ }
	541	+}
	542	+
	543	+
	544	+static void writebuf_push()
	545	+{
	546	+ int count = length / storage_info.sector_size;
	547	+ writebuf_current ^= 1;
	548	+ writebuf_sector = cur_cmd.sector;
	549	+ cur_cmd.sector += count;
	550	+ writebuf_count = count;
	551	+ cur_cmd.count -= count;
	552	+ writebuf_busy = true;
	553	+ int remaining = cur_cmd.count * storage_info.sector_size;
	554	+ if (!cur_cmd.count)
	555	+ {
	556	+ if (IS_ERR(write_rc))
	557	+ {
	558	+ send_csw(1);
	559	+ cur_sense_data.sense_key = SENSE_MEDIUM_ERROR;
	560	+ cur_sense_data.asc = ASC_WRITE_ERROR;
	561	+ cur_sense_data.ascq = 0;
	562	+ }
	563	+ send_csw(0);
	564	+ write_rc = 0;
	565	+ }
	566	+ else receive_block_data(umsbuf[1][!writebuf_current], MIN(UMS_BUFSIZE, remaining));
	567	+}
	568	+
	569	+
	570	+void ums_xfer_complete(bool in, int bytesleft)
	571	+{
	572	+ length -= bytesleft;
	573	+ switch (state)
	574	+ {
	575	+ case RECEIVING_BLOCKS:
	576	+ if (length != storage_info.sector_size * cur_cmd.count && length != UMS_BUFSIZE) break;
	577	+ update_readcache();
	578	+ if (!writebuf_busy) writebuf_push();
	579	+ else writebuf_overrun = true;
	580	+ enqueue_async();
	581	+ break;
	582	+ case WAITING_FOR_CSW_COMPLETION:
	583	+ state = WAITING_FOR_COMMAND;
	584	+ listen();
	585	+ break;
	586	+ case WAITING_FOR_COMMAND:
	587	+ invalidate_dcache(&cmdbuf, sizeof(cmdbuf)); // Who pulls this into a cache line!?
	588	+ handle_scsi(&cmdbuf.cbw);
	589	+ break;
	590	+ case SENDING_RESULT:
	591	+ send_csw(0);
	592	+ break;
	593	+ case SENDING_FAILED_RESULT:
	594	+ send_csw(1);
	595	+ break;
	596	+ case SENDING_BLOCKS:
	597	+ if (!cur_cmd.count) send_csw(0);
	598	+ else send_and_read_next();
	599	+ break;
	600	+ }
	601	+}
	602	+
	603	+void ums_handle_async()
	604	+{
	605	+ if (writebuf_overrun)
	606	+ {
	607	+ writebuf_overrun = false;
	608	+ writebuf_push();
	609	+ }
	610	+ if (writebuf_busy)
	611	+ {
	612	+ write_rc \|= storage_write_sectors_md(0, writebuf_sector, writebuf_count, umsbuf[1][writebuf_current]);
	613	+ writebuf_busy = false;
	614	+ }
	615	+
	616	+ int c = readbuf_current;
	617	+ if (!readbuf_count[c])
	618	+ {
	619	+ int sector = readbuf_sector[c];
	620	+ int count = MIN(UMS_BUFSIZE / storage_info.sector_size, storage_info.num_sectors - sector);
	621	+ if (IS_ERR(storage_read_sectors_md(0, sector, count, umsbuf[0][c]))) count = -1;
	622	+ if (sector == readbuf_sector[c]) readbuf_count[c] = count;
	623	+ if (sector != readbuf_sector[c]) readbuf_count[c] = 0; // Extremely ugly hack to neutralize race condition
	624	+ }
	625	+ if (read_blocked)
	626	+ {
	627	+ read_blocked = false;
	628	+ if (readbuf_count[readbuf_current] < 0)
	629	+ {
	630	+ send_csw(1);
	631	+ cur_sense_data.sense_key = SENSE_MEDIUM_ERROR;
	632	+ cur_sense_data.asc = ASC_READ_ERROR;
	633	+ cur_sense_data.ascq = 0;
	634	+ }
	635	+ else send_and_read_next();
	636	+ }
	637	+}
	638	+
Index: apps/diskmode/scsi.h
—	—	@@ -0,0 +1,152 @@
	2	+//
	3	+//
	4	+// Copyright 2013 TheSeven
	5	+// Copyright 2014 user890104
	6	+//
	7	+//
	8	+// This file is part of emCORE.
	9	+//
	10	+// emCORE is free software: you can redistribute it and/or
	11	+// modify it under the terms of the GNU General Public License as
	12	+// published by the Free Software Foundation, either version 2 of the
	13	+// License, or (at your option) any later version.
	14	+//
	15	+// emCORE is distributed in the hope that it will be useful,
	16	+// but WITHOUT ANY WARRANTY; without even the implied warranty of
	17	+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
	18	+// See the GNU General Public License for more details.
	19	+//
	20	+// You should have received a copy of the GNU General Public License along
	21	+// with emCORE. If not, see <http://www.gnu.org/licenses/>.
	22	+//
	23	+//
	24	+
	25	+
	26	+#ifndef __SCSI_H__
	27	+#define __SCSI_H__
	28	+
	29	+#include "emcoreapp.h"
	30	+
	31	+
	32	+#define SCSI_TEST_UNIT_READY 0x00
	33	+#define SCSI_INQUIRY 0x12
	34	+#define SCSI_MODE_SENSE_6 0x1a
	35	+#define SCSI_MODE_SENSE_10 0x5a
	36	+#define SCSI_REQUEST_SENSE 0x03
	37	+#define SCSI_ALLOW_MEDIUM_REMOVAL 0x1e
	38	+#define SCSI_READ_CAPACITY 0x25
	39	+#define SCSI_READ_FORMAT_CAPACITY 0x23
	40	+#define SCSI_READ_10 0x28
	41	+#define SCSI_WRITE_10 0x2a
	42	+#define SCSI_START_STOP_UNIT 0x1b
	43	+#define SCSI_REPORT_LUNS 0xa0
	44	+#define SCSI_WRITE_BUFFER 0x3b
	45	+
	46	+#define SENSE_NOT_READY 0x02
	47	+#define SENSE_MEDIUM_ERROR 0x03
	48	+#define SENSE_ILLEGAL_REQUEST 0x05
	49	+#define SENSE_UNIT_ATTENTION 0x06
	50	+
	51	+#define ASC_MEDIUM_NOT_PRESENT 0x3a
	52	+#define ASC_INVALID_FIELD_IN_CBD 0x24
	53	+#define ASC_LBA_OUT_OF_RANGE 0x21
	54	+#define ASC_WRITE_ERROR 0x0C
	55	+#define ASC_READ_ERROR 0x11
	56	+#define ASC_NOT_READY 0x04
	57	+#define ASC_INVALID_COMMAND 0x20
	58	+
	59	+#define ASCQ_BECOMING_READY 0x01
	60	+
	61	+#define DIRECT_ACCESS_DEVICE 0x00
	62	+#define DEVICE_REMOVABLE 0x80
	63	+
	64	+#define SCSI_FORMAT_CAPACITY_FORMATTED_MEDIA 0x02000000
	65	+
	66	+
	67	+struct __attribute__((packed)) inquiry_data
	68	+{
	69	+ unsigned char DeviceType;
	70	+ unsigned char DeviceTypeModifier;
	71	+ unsigned char Versions;
	72	+ unsigned char Format;
	73	+ unsigned char AdditionalLength;
	74	+ unsigned char Reserved[2];
	75	+ unsigned char Capability;
	76	+ char VendorId[8];
	77	+ char ProductId[16];
	78	+ char ProductRevisionLevel[4];
	79	+};
	80	+
	81	+struct __attribute__((packed)) report_lun_data
	82	+{
	83	+ unsigned int lun_list_length;
	84	+ unsigned int reserved1;
	85	+ unsigned char luns[1][8];
	86	+};
	87	+
	88	+struct __attribute__((packed)) sense_data
	89	+{
	90	+ unsigned char ResponseCode;
	91	+ unsigned char Obsolete;
	92	+ unsigned char fei_sensekey;
	93	+ unsigned int Information;
	94	+ unsigned char AdditionalSenseLength;
	95	+ unsigned int CommandSpecificInformation;
	96	+ unsigned char AdditionalSenseCode;
	97	+ unsigned char AdditionalSenseCodeQualifier;
	98	+ unsigned char FieldReplaceableUnitCode;
	99	+ unsigned char SKSV;
	100	+ unsigned short SenseKeySpecific;
	101	+};
	102	+
	103	+struct __attribute__((packed)) mode_sense_bdesc_longlba
	104	+{
	105	+ unsigned char num_blocks[8];
	106	+ unsigned char reserved[4];
	107	+ unsigned char block_size[4];
	108	+};
	109	+
	110	+struct __attribute__((packed)) mode_sense_bdesc_shortlba
	111	+{
	112	+ unsigned char density_code;
	113	+ unsigned char num_blocks[3];
	114	+ unsigned char reserved;
	115	+ unsigned char block_size[3];
	116	+};
	117	+
	118	+struct __attribute__((packed)) mode_sense_data_10
	119	+{
	120	+ unsigned short mode_data_length;
	121	+ unsigned char medium_type;
	122	+ unsigned char device_specific;
	123	+ unsigned char longlba;
	124	+ unsigned char reserved;
	125	+ unsigned short block_descriptor_length;
	126	+ struct mode_sense_bdesc_longlba block_descriptor;
	127	+};
	128	+
	129	+struct __attribute__((packed)) mode_sense_data_6
	130	+{
	131	+ unsigned char mode_data_length;
	132	+ unsigned char medium_type;
	133	+ unsigned char device_specific;
	134	+ unsigned char block_descriptor_length;
	135	+ struct mode_sense_bdesc_shortlba block_descriptor;
	136	+};
	137	+
	138	+struct __attribute__((packed)) capacity
	139	+{
	140	+ unsigned int block_count;
	141	+ unsigned int block_size;
	142	+};
	143	+
	144	+struct __attribute__((packed)) format_capacity
	145	+{
	146	+ unsigned int following_length;
	147	+ unsigned int block_count;
	148	+ unsigned int block_size;
	149	+};
	150	+
	151	+
	152	+#endif
	153	+
Index: apps/diskmode/main.h
—	—	@@ -0,0 +1,33 @@
	2	+//
	3	+//
	4	+// Copyright 2013 TheSeven
	5	+// Copyright 2014 user890104
	6	+//
	7	+//
	8	+// This file is part of emCORE.
	9	+//
	10	+// emCORE is free software: you can redistribute it and/or
	11	+// modify it under the terms of the GNU General Public License as
	12	+// published by the Free Software Foundation, either version 2 of the
	13	+// License, or (at your option) any later version.
	14	+//
	15	+// emCORE is distributed in the hope that it will be useful,
	16	+// but WITHOUT ANY WARRANTY; without even the implied warranty of
	17	+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
	18	+// See the GNU General Public License for more details.
	19	+//
	20	+// You should have received a copy of the GNU General Public License along
	21	+// with emCORE. If not, see <http://www.gnu.org/licenses/>.
	22	+//
	23	+//
	24	+
	25	+
	26	+#ifndef __MAIN_H__
	27	+#define __MAIN_H__
	28	+
	29	+#include "emcoreapp.h"
	30	+
	31	+
	32	+
	33	+#endif
	34	+
Index: apps/diskmode/ums.h
—	—	@@ -0,0 +1,39 @@
	2	+//
	3	+//
	4	+// Copyright 2013 TheSeven
	5	+// Copyright 2014 user890104
	6	+//
	7	+//
	8	+// This file is part of emCORE.
	9	+//
	10	+// emCORE is free software: you can redistribute it and/or
	11	+// modify it under the terms of the GNU General Public License as
	12	+// published by the Free Software Foundation, either version 2 of the
	13	+// License, or (at your option) any later version.
	14	+//
	15	+// emCORE is distributed in the hope that it will be useful,
	16	+// but WITHOUT ANY WARRANTY; without even the implied warranty of
	17	+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
	18	+// See the GNU General Public License for more details.
	19	+//
	20	+// You should have received a copy of the GNU General Public License along
	21	+// with emCORE. If not, see <http://www.gnu.org/licenses/>.
	22	+//
	23	+//
	24	+
	25	+
	26	+#ifndef __UMS_H__
	27	+#define __UMS_H__
	28	+
	29	+#include "emcoreapp.h"
	30	+
	31	+
	32	+extern bool ums_ejected;
	33	+
	34	+
	35	+extern void ums_init();
	36	+extern void ums_listen();
	37	+
	38	+
	39	+#endif
	40	+
Index: apps/diskmode/usb.c
—	—	@@ -0,0 +1,358 @@
	2	+//
	3	+//
	4	+// Copyright 2013 TheSeven
	5	+// Copyright 2014 user890104
	6	+//
	7	+//
	8	+// This file is part of emCORE.
	9	+//
	10	+// emCORE is free software: you can redistribute it and/or
	11	+// modify it under the terms of the GNU General Public License as
	12	+// published by the Free Software Foundation, either version 2 of the
	13	+// License, or (at your option) any later version.
	14	+//
	15	+// emCORE is distributed in the hope that it will be useful,
	16	+// but WITHOUT ANY WARRANTY; without even the implied warranty of
	17	+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
	18	+// See the GNU General Public License for more details.
	19	+//
	20	+// You should have received a copy of the GNU General Public License along
	21	+// with emCORE. If not, see <http://www.gnu.org/licenses/>.
	22	+//
	23	+//
	24	+
	25	+
	26	+#include "emcoreapp.h"
	27	+#include "usb.h"
	28	+#include "ums.h"
	29	+
	30	+
	31	+int usb_maxlen;
	32	+
	33	+static const struct usb_instance* usb_handle;
	34	+static union usb_endpoint_number usb_outep = { .number = 0, .direction = USB_ENDPOINT_DIRECTION_OUT };
	35	+static union usb_endpoint_number usb_inep = { .number = 0, .direction = USB_ENDPOINT_DIRECTION_IN };
	36	+static int maxpacket = 512;
	37	+static struct wakeup mainloop_wakeup;
	38	+
	39	+
	40	+static const struct usb_devicedescriptor usb_devicedescriptor =
	41	+{
	42	+ .bLength = sizeof(struct usb_devicedescriptor),
	43	+ .bDescriptorType = USB_DESCRIPTOR_TYPE_DEVICE,
	44	+ .bcdUSB = 0x0200,
	45	+ .bDeviceClass = 0,
	46	+ .bDeviceSubClass = 0,
	47	+ .bDeviceProtocol = 0,
	48	+ .bMaxPacketSize0 = 64,
	49	+ .idVendor = 0xffff,
	50	+ .idProduct = 0xe001,
	51	+ .bcdDevice = 2,
	52	+ .iManufacturer = 1,
	53	+ .iProduct = 2,
	54	+ .iSerialNumber = 0,
	55	+ .bNumConfigurations = 1,
	56	+};
	57	+
	58	+
	59	+static struct __attribute__((packed)) _usb_config1_descriptors
	60	+{
	61	+ struct usb_configurationdescriptor c1;
	62	+ struct usb_interfacedescriptor c1_i0_a0;
	63	+ struct usb_endpointdescriptor c1_i0_a0_e1out;
	64	+ struct usb_endpointdescriptor c1_i0_a0_e1in;
	65	+} usb_config1_descriptors =
	66	+{
	67	+ .c1 =
	68	+ {
	69	+ .bLength = sizeof(struct usb_configurationdescriptor),
	70	+ .bDescriptorType = USB_DESCRIPTOR_TYPE_CONFIGURATION,
	71	+ .wTotalLength = sizeof(struct _usb_config1_descriptors),
	72	+ .bNumInterfaces = 1,
	73	+ .bConfigurationValue = 1,
	74	+ .iConfiguration = 0,
	75	+ .bmAttributes = { .buspowered = 1, .selfpowered = 1 },
	76	+ .bMaxPower = 100 / 2,
	77	+ },
	78	+ .c1_i0_a0 =
	79	+ {
	80	+ .bLength = sizeof(struct usb_interfacedescriptor),
	81	+ .bDescriptorType = USB_DESCRIPTOR_TYPE_INTERFACE,
	82	+ .bInterfaceNumber = 0,
	83	+ .bAlternateSetting = 0,
	84	+ .bNumEndpoints = 2,
	85	+ .bInterfaceClass = 0x08,
	86	+ .bInterfaceSubClass = 0x06,
	87	+ .bInterfaceProtocol = 0x50,
	88	+ .iInterface = 0,
	89	+ },
	90	+ .c1_i0_a0_e1out =
	91	+ {
	92	+ .bLength = sizeof(struct usb_endpointdescriptor),
	93	+ .bDescriptorType = USB_DESCRIPTOR_TYPE_ENDPOINT,
	94	+ .bEndpointAddress = { .number = 0, .direction = USB_ENDPOINT_DIRECTION_OUT },
	95	+ .bmAttributes = { .type = USB_ENDPOINT_ATTRIBUTE_TYPE_BULK },
	96	+ .wMaxPacketSize = 512,
	97	+ .bInterval = 1,
	98	+ },
	99	+ .c1_i0_a0_e1in =
	100	+ {
	101	+ .bLength = sizeof(struct usb_endpointdescriptor),
	102	+ .bDescriptorType = USB_DESCRIPTOR_TYPE_ENDPOINT,
	103	+ .bEndpointAddress = { .number = 0, .direction = USB_ENDPOINT_DIRECTION_IN },
	104	+ .bmAttributes = { .type = USB_ENDPOINT_ATTRIBUTE_TYPE_BULK },
	105	+ .wMaxPacketSize = 512,
	106	+ .bInterval = 1,
	107	+ },
	108	+};
	109	+
	110	+
	111	+static const struct usb_stringdescriptor usb_string_language =
	112	+{
	113	+ .bLength = sizeof(usb_string_language) + sizeof(*usb_string_language.wString),
	114	+ .bDescriptorType = USB_DESCRIPTOR_TYPE_STRING,
	115	+ .wString = { 0x0409 },
	116	+};
	117	+
	118	+
	119	+static const struct usb_stringdescriptor usb_string_vendor =
	120	+{
	121	+ .bLength = sizeof(usb_string_vendor) + sizeof(usb_string_vendor.wString) 14,
	122	+ .bDescriptorType = USB_DESCRIPTOR_TYPE_STRING,
	123	+ .wString = { 'f', 'r', 'e', 'e', 'm', 'y', 'i', 'p', 'o', 'd', '.', 'o', 'r', 'g' },
	124	+};
	125	+
	126	+
	127	+static const struct usb_stringdescriptor usb_string_product =
	128	+{
	129	+ .bLength = sizeof(usb_string_product) + sizeof(usb_string_product.wString) 16,
	130	+ .bDescriptorType = USB_DESCRIPTOR_TYPE_STRING,
	131	+ .wString = { 'e', 'm', 'C', 'O', 'R', 'E', ' ', 'D', 'i', 's', 'k', ' ', 'M', 'o', 'd', 'e' },
	132	+};
	133	+
	134	+
	135	+static const struct usb_stringdescriptor* usb_stringdescriptors[] =
	136	+{
	137	+ &usb_string_language,
	138	+ &usb_string_vendor,
	139	+ &usb_string_product,
	140	+};
	141	+
	142	+
	143	+int handle_ctrl_request(const struct usb_instance* data, int interface, union usb_ep0_buffer* request, const void** response)
	144	+{
	145	+ int size = -1;
	146	+ switch (request->setup.bmRequestType.type)
	147	+ {
	148	+ case USB_SETUP_BMREQUESTTYPE_TYPE_CLASS:
	149	+ switch (request->setup.bRequest.raw)
	150	+ {
	151	+ case 0xfe: // GET_MAX_LUN
	152	+ data->buffer->raw[0] = 0;
	153	+ size = 1;
	154	+ break;
	155	+ case 0xff: // STORAGE_RESET
	156	+ size = 0;
	157	+ break;
	158	+ default: break;
	159	+ }
	160	+ break;
	161	+ default: break;
	162	+ }
	163	+ return size;
	164	+}
	165	+
	166	+
	167	+void handle_set_altsetting(const struct usb_instance* data, int interface, int altsetting)
	168	+{
	169	+ usb_handle = data;
	170	+ usb_maxlen = maxpacket * MIN(usb_get_max_transfer_size(usb_handle, usb_outep),
	171	+ usb_get_max_transfer_size(usb_handle, usb_inep));
	172	+ usb_configure_ep(usb_handle, usb_outep, USB_ENDPOINT_TYPE_BULK, maxpacket);
	173	+ usb_configure_ep(usb_handle, usb_inep, USB_ENDPOINT_TYPE_BULK, maxpacket);
	174	+ ums_listen();
	175	+}
	176	+
	177	+
	178	+void handle_unset_altsetting(const struct usb_instance* data, int interface, int altsetting)
	179	+{
	180	+ usb_unconfigure_ep(usb_handle, usb_outep);
	181	+ usb_unconfigure_ep(usb_handle, usb_inep);
	182	+}
	183	+
	184	+
	185	+int handle_ep_ctrl_request(const struct usb_instance* data, int interface, int endpoint, union usb_ep0_buffer* request, const void** response)
	186	+{
	187	+ int size = -1;
	188	+ switch (request->setup.bmRequestType.type)
	189	+ {
	190	+ case USB_SETUP_BMREQUESTTYPE_TYPE_STANDARD:
	191	+ switch (request->setup.bRequest.req)
	192	+ {
	193	+ case USB_SETUP_BREQUEST_CLEAR_FEATURE:
	194	+ if (request->setup.wLength \|\| request->setup.wValue) break;
	195	+ ums_listen();
	196	+ break;
	197	+ default: break;
	198	+ }
	199	+ break;
	200	+ default: break;
	201	+ }
	202	+ return size;
	203	+}
	204	+
	205	+
	206	+void handle_xfer_complete(const struct usb_instance* data, int ifnum, int epnum, int bytesleft)
	207	+{
	208	+ ums_xfer_complete(epnum & 0x80, bytesleft);
	209	+}
	210	+
	211	+
	212	+void handle_timeout(const struct usb_instance* data, int interface, int endpoint, int bytesleft)
	213	+{
	214	+ usb_set_stall(usb_handle, usb_outep, true);
	215	+ usb_set_stall(usb_handle, usb_inep, true);
	216	+}
	217	+
	218	+
	219	+static void handle_bus_reset(const struct usb_instance* data, int configuration, int interface, int highspeed)
	220	+{
	221	+ maxpacket = highspeed ? 512 : 64;
	222	+ usb_config1_descriptors.c1_i0_a0_e1out.wMaxPacketSize = maxpacket;
	223	+ usb_config1_descriptors.c1_i0_a0_e1in.wMaxPacketSize = maxpacket;
	224	+}
	225	+
	226	+
	227	+static struct usb_endpoint usb_c1_i0_a0_ep1out =
	228	+{
	229	+ .number = { .number = 0, .direction = USB_ENDPOINT_DIRECTION_OUT },
	230	+ .ctrl_request = handle_ep_ctrl_request,
	231	+ .xfer_complete = handle_xfer_complete,
	232	+};
	233	+
	234	+
	235	+static struct usb_endpoint usb_c1_i0_a0_ep1in =
	236	+{
	237	+ .number = { .number = 0, .direction = USB_ENDPOINT_DIRECTION_IN },
	238	+ .ctrl_request = handle_ep_ctrl_request,
	239	+ .xfer_complete = handle_xfer_complete,
	240	+ .timeout = handle_timeout,
	241	+};
	242	+
	243	+
	244	+static const struct usb_altsetting usb_c1_i0_a0 =
	245	+{
	246	+ .set_altsetting = handle_set_altsetting,
	247	+ .unset_altsetting = handle_unset_altsetting,
	248	+ .endpoint_count = 2,
	249	+ .endpoints =
	250	+ {
	251	+ &usb_c1_i0_a0_ep1out,
	252	+ &usb_c1_i0_a0_ep1in,
	253	+ },
	254	+};
	255	+
	256	+
	257	+static const struct usb_interface usb_c1_i0 =
	258	+{
	259	+ .bus_reset = handle_bus_reset,
	260	+ .ctrl_request = handle_ctrl_request,
	261	+ .altsetting_count = 1,
	262	+ .altsettings =
	263	+ {
	264	+ &usb_c1_i0_a0,
	265	+ },
	266	+};
	267	+
	268	+
	269	+static const struct usb_configuration usb_c1 =
	270	+{
	271	+ .descriptor = &usb_config1_descriptors.c1,
	272	+ .set_configuration = NULL,
	273	+ .unset_configuration = NULL,
	274	+ .interface_count = 1,
	275	+ .interfaces =
	276	+ {
	277	+ &usb_c1_i0,
	278	+ },
	279	+};
	280	+
	281	+
	282	+static const struct usb_configuration* usb_configurations[] =
	283	+{
	284	+ &usb_c1,
	285	+};
	286	+
	287	+
	288	+void usb_prepare()
	289	+{
	290	+ int i;
	291	+ uint32_t eps = usbmanager_get_available_endpoints();
	292	+ int ep_out = 0;
	293	+ int ep_in = 0;
	294	+ for (i = 1; i < 16; i++)
	295	+ if (eps & (1 << i))
	296	+ {
	297	+ ep_out = i;
	298	+ break;
	299	+ }
	300	+ for (i = 1; i < 16; i++)
	301	+ if (eps & (1 << (16 + i)))
	302	+ {
	303	+ ep_in = i;
	304	+ break;
	305	+ }
	306	+ if (!ep_out \|\| !ep_in) panicf(PANIC_KILLTHREAD, "Not enough USB endpoints available!\n");
	307	+ usb_config1_descriptors.c1_i0_a0_e1out.bEndpointAddress.number = ep_out;
	308	+ usb_config1_descriptors.c1_i0_a0_e1in.bEndpointAddress.number = ep_in;
	309	+ usb_c1_i0_a0_ep1out.number.number = ep_out;
	310	+ usb_c1_i0_a0_ep1in.number.number = ep_in;
	311	+ usb_outep.number = ep_out;
	312	+ usb_inep.number = ep_in;
	313	+}
	314	+
	315	+
	316	+void usb_connect()
	317	+{
	318	+ int rc = usbmanager_install_custom(&usb_devicedescriptor, ARRAYLEN(usb_configurations), usb_configurations,
	319	+ ARRAYLEN(usb_stringdescriptors), usb_stringdescriptors, true);
	320	+ if (IS_ERR(rc))
	321	+ {
	322	+ cprintf(3, "Failed to register USB handler: %08X\n", rc);
	323	+ return;
	324	+ }
	325	+
	326	+ wakeup_init(&mainloop_wakeup);
	327	+
	328	+ while (!ums_ejected && usbmanager_get_connected())
	329	+ if (wakeup_wait(&mainloop_wakeup, 200000) == THREAD_OK)
	330	+ ums_handle_async();
	331	+
	332	+ usbmanager_uninstall_custom();
	333	+}
	334	+
	335	+
	336	+void enqueue_async()
	337	+{
	338	+ wakeup_signal(&mainloop_wakeup);
	339	+}
	340	+
	341	+
	342	+void usb_transmit(void* buffer, uint32_t len)
	343	+{
	344	+ usb_start_tx(usb_handle, usb_inep, buffer, len);
	345	+}
	346	+
	347	+
	348	+void usb_receive(void* buffer, uint32_t len)
	349	+{
	350	+ usb_start_rx(usb_handle, usb_outep, buffer, len);
	351	+}
	352	+
	353	+
	354	+void usb_stall()
	355	+{
	356	+ usb_set_stall(usb_handle, usb_outep, true);
	357	+ usb_set_stall(usb_handle, usb_inep, true);
	358	+}
	359	+
Index: apps/diskmode/usb.h
—	—	@@ -0,0 +1,42 @@
	2	+//
	3	+//
	4	+// Copyright 2013 TheSeven
	5	+// Copyright 2014 user890104
	6	+//
	7	+//
	8	+// This file is part of emCORE.
	9	+//
	10	+// emCORE is free software: you can redistribute it and/or
	11	+// modify it under the terms of the GNU General Public License as
	12	+// published by the Free Software Foundation, either version 2 of the
	13	+// License, or (at your option) any later version.
	14	+//
	15	+// emCORE is distributed in the hope that it will be useful,
	16	+// but WITHOUT ANY WARRANTY; without even the implied warranty of
	17	+// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
	18	+// See the GNU General Public License for more details.
	19	+//
	20	+// You should have received a copy of the GNU General Public License along
	21	+// with emCORE. If not, see <http://www.gnu.org/licenses/>.
	22	+//
	23	+//
	24	+
	25	+
	26	+#ifndef __USB_H__
	27	+#define __USB_H__
	28	+
	29	+#include "emcoreapp.h"
	30	+
	31	+
	32	+extern int usb_maxlen;
	33	+
	34	+
	35	+extern void usb_prepare();
	36	+extern void usb_connect();
	37	+extern void enqueue_async();
	38	+extern void usb_transmit(void* buffer, uint32_t len);
	39	+extern void usb_receive(void* buffer, uint32_t len);
	40	+extern void usb_stall();
	41	+
	42	+#endif
	43	+

freemyipod r924 - Code Review

Diff [purge]

Navigation menu

Personal tools

Namespaces

Variants

Views

More

Search

Navigation

Info

Reverse engineering Results

Exploiting

Other Guides

Tools