Diff [8595577b1bae16ef32d246ec3defd163cf7519f0:e50cd7f06f4f69de26916ce998bb262dbcd8bec0] for / – HelenOS

uspace/drv/usbhid/kbd/kbddev.c

-              r8595577b
+              re50cd7f
         // TODO: COMPOSE and KANA
         usb_log_debug("Creating output report.\n");
         int rc = usb_hid_report_output_translate(hid_dev->parser,
             kbd_dev->led_path,
             USB_HID_PATH_COMPARE_END | USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY,
             kbd_dev->output_buffer,
             kbd_dev->output_size, kbd_dev->led_data, kbd_dev->led_output_size);
+        usb_log_debug("Creating output report: %s\n", usb_debug_str_buffer ((uint8_t *)kbd_dev->led_data, kbd_dev->led_output_size * 4, 0));
+        usb_hid_report_output_set_data(hid_dev->parser, kbd_dev->led_path,
+                                       USB_HID_PATH_COMPARE_END , kbd_dev->led_data,
+                                       kbd_dev->led_output_size);
+        int rc = usb_hid_report_output_translate(hid_dev->parser, 0,
+            kbd_dev->output_buffer, kbd_dev->output_size);
         if (rc != EOK) {
 …
         //usb_hid_report_path_set_report_id(path, 0);
+        int rc = usb_hid_parse_report(hid_dev->parser, buffer,
+            actual_size, path,
+            USB_HID_PATH_COMPARE_END | USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY,
+            &usb_kbd_parser_callbacks, hid_dev);
+        int rc = usb_hid_parse_report(hid_dev->parser, buffer, actual_size);
+        usb_hid_report_field_t *field = usb_hid_report_get_sibling(hid_dev->parser,
+                            NULL, path, USB_HID_PATH_COMPARE_END | USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY,
+                                                USB_HID_REPORT_TYPE_INPUT);
+        while(field != NULL) {
+                usb_log_debug("FIELD (%X) - VALUE(%X) USAGE(%X)\n", field, field->value, field->usage);
+                field = usb_hid_report_get_sibling(hid_dev->parser, field, path,
+                                                   USB_HID_PATH_COMPARE_END | USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY,
+                                                   USB_HID_REPORT_TYPE_INPUT);
+        }
         usb_hid_report_path_free(path);
 …
         kbd_dev->output_size = 0;
         kbd_dev->output_buffer = usb_hid_report_output(hid_dev->parser,
             &kbd_dev->output_size);
         if (kbd_dev->output_buffer == NULL && kbd_dev->output_size != 0) {
+            &kbd_dev->output_size, 0x00);
+        if (kbd_dev->output_buffer == NULL) {
                 usb_log_warning("Error creating output report buffer.\n");
                 free(kbd_dev->keys);
+                free(kbd_dev);
+                return ENOMEM;
+                return ENOMEM;  /* TODO: other error code */
+        }

uspace/drv/usbhid/lgtch-ultrax/lgtch-ultrax.c

-              r8595577b
+              re50cd7f
         usb_hid_report_path_t *path = usb_hid_report_path();
         usb_hid_report_path_append_item(path, 0xc, 0);
         usb_hid_report_path_set_report_id(path, 1);
+        usb_hid_report_path_set_report_id(path, 0);
+        int rc = usb_hid_parse_report(hid_dev->parser, buffer,
+            buffer_size, path,
+            USB_HID_PATH_COMPARE_END | USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY,
+            &usb_lgtch_parser_callbacks, hid_dev);
+        int rc = usb_hid_parse_report(hid_dev->parser, buffer, buffer_size);
+        usb_hid_report_field_t *field = usb_hid_report_get_sibling(hid_dev->parser, NULL, path, USB_HID_PATH_COMPARE_END , USB_HID_REPORT_TYPE_INPUT);
+        while(field != NULL) {
+                usb_log_debug("KEY VALUE(%X) USAGE(%X)\n", field->value, field->usage);
+        }
         usb_hid_report_path_free(path);

uspace/drv/usbhid/usbhid.c

-              r8595577b
+              re50cd7f
+        }
         hid_dev->parser = (usb_hid_report_parser_t *)(malloc(sizeof(
             usb_hid_report_parser_t)));
+        hid_dev->parser = (usb_hid_report_t *)(malloc(sizeof(
+            usb_hid_report_t)));
         if (hid_dev->parser == NULL) {
                 usb_log_fatal("No memory!\n");
 …
                 return rc;
+        }
+        /* Initialize the report parser. */
+        rc = usb_hid_parser_init(hid_dev->parser);
+        if (rc != EOK) {
+                usb_log_error("Failed to initialize report parser.\n");
+                //usb_hid_free(&hid_dev);
+                return rc;
+        }
         /* Get the report descriptor and parse it. */
         rc = usb_hid_process_report_descriptor(hid_dev->usb_dev,
 …
         // destroy the parser
         if ((*hid_dev)->parser != NULL) {
                 usb_hid_free_report_parser((*hid_dev)->parser);
+                usb_hid_free_report((*hid_dev)->parser);
+        }

uspace/drv/usbhid/usbhid.h

r8595577b	re50cd7f
91	91
92	92	/** HID Report parser. */
93		usb_hid_report_~~parser_~~t *parser;
	93	usb_hid_report_t *parser;
94	94
95	95	/** Arbitrary data (e.g. a special structure for handling keyboard). */

uspace/drv/usbkbd/kbddev.c

-              r8595577b
+              re50cd7f
 x15, 0x00,  //   Logical Minimum (0),
 x25, 0x01,  //   Logical Maximum (1),
+        //0x85, 0x00,  //   Report ID,
+        //0xA4,      //   Push
 x81, 0x02,  //   Input (Data, Variable, Absolute),   ; Modifier byte
+x95, 0x01,  //   Report Count (1),
+x75, 0x08,  //   Report Size (8),
+        //0xB4,      //   Pop
+x75, 0x08,  //   Report Size (1),
+x95, 0x01,  //   Report Count (8),
 x81, 0x01,  //   Input (Constant),                   ; Reserved byte
 x95, 0x05,  //   Report Count (5),
 …
                 return;
+        }
         unsigned i = 0;
 …
         usb_log_debug("Creating output report.\n");
         int rc = usb_hid_report_output_translate(kbd_dev->parser,
             kbd_dev->led_path,
             USB_HID_PATH_COMPARE_END | USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY,
             kbd_dev->output_buffer,
             kbd_dev->output_size, kbd_dev->led_data, kbd_dev->led_output_size);
+        usb_hid_report_output_set_data(kbd_dev->parser, kbd_dev->led_path,
+                                       USB_HID_PATH_COMPARE_END , kbd_dev->led_data,
+                                       kbd_dev->led_output_size);
+        int rc = usb_hid_report_output_translate(kbd_dev->parser, 0,
+            kbd_dev->output_buffer, kbd_dev->output_size);
         if (rc != EOK) {
 …
         assert(kbd_dev != NULL);
         usb_log_debug("Got keys from parser (report id: %u): %s\n",
             report_id, usb_debug_str_buffer(key_codes, count, 0));
+        usb_log_debug("Got keys from parser (report id: %d): %s\n", report_id,
+            usb_debug_str_buffer(key_codes, count, 0));
         if (count != kbd_dev->key_count) {
 …
         usb_hid_report_path_t *path = usb_hid_report_path();
         usb_hid_report_path_append_item(path, USB_HIDUT_PAGE_KEYBOARD, 0);
+        usb_hid_report_path_set_report_id(path, 0);
+        int rc = usb_hid_parse_report(kbd_dev->parser, buffer,
+            actual_size, path,
+            USB_HID_PATH_COMPARE_END | USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY,
+            callbacks, kbd_dev);
+        int rc = usb_hid_parse_report(kbd_dev->parser, buffer, actual_size);
+        usb_hid_descriptor_print (kbd_dev->parser);
         usb_hid_report_path_free (path);
 …
         memset(kbd_dev, 0, sizeof(usb_kbd_t));
         kbd_dev->parser = (usb_hid_report_parser_t *)(malloc(sizeof(
             usb_hid_report_parser_t)));
+        kbd_dev->parser = (usb_hid_report_t *)(malloc(sizeof(
+            usb_hid_report_t)));
         if (kbd_dev->parser == NULL) {
                 usb_log_fatal("No memory!\n");
 …
         /* Initialize the report parser. */
         rc = usb_hid_parser_init(kbd_dev->parser);
         if (rc != EOK) {
                 usb_log_error("Failed to initialize report parser.\n");
                 return rc;
+        }
+        //rc = usb_hid_parser_init(kbd_dev->parser);
+        //if (rc != EOK) {
+        //      usb_log_error("Failed to initialize report parser.\n");
+        //      return rc;
+        //}
         /* Get the report descriptor and parse it. */
 …
         kbd_dev->key_count = usb_hid_report_input_length(
+            kbd_dev->parser, path,
+            USB_HID_PATH_COMPARE_END | USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY);
+            kbd_dev->parser, path, USB_HID_PATH_COMPARE_END);
         usb_hid_report_path_free (path);
 …
         kbd_dev->output_size = 0;
         kbd_dev->output_buffer = usb_hid_report_output(kbd_dev->parser,
             &kbd_dev->output_size);
         if (kbd_dev->output_buffer == NULL && kbd_dev->output_size != 0) {
+            &kbd_dev->output_size, 0x00);
+        if (kbd_dev->output_buffer == NULL) {
                 usb_log_warning("Error creating output report buffer.\n");
                 free(kbd_dev->keys);
 …
         usb_hid_report_path_append_item(
             kbd_dev->led_path, USB_HIDUT_PAGE_LED, 0);
+        usb_hid_report_path_set_report_id(kbd_dev->led_path, 0x00);
         kbd_dev->led_output_size = usb_hid_report_output_size(kbd_dev->parser,
 …
          * Set Idle rate
          */
         usb_kbd_set_led(kbd_dev);
+        usb_kbd_set_led(kbd_dev);
         usbhid_req_set_idle(&kbd_dev->usb_dev->ctrl_pipe,
 …
         // destroy the parser
         if ((*kbd_dev)->parser != NULL) {
                 usb_hid_free_report_parser((*kbd_dev)->parser);
+                usb_hid_free_report((*kbd_dev)->parser);
+        }

uspace/drv/usbkbd/kbddev.h

r8595577b	re50cd7f
106	106
107	107	/** HID Report parser. */
108		usb_hid_report_~~parser_~~t *parser;
	108	usb_hid_report_t *parser;
109	109
110	110	/** State of the structure (for checking before use).

uspace/lib/usb/include/usb/classes/hid.h

-              r8595577b
+              re50cd7f
         USB_HIDREQ_SET_PROTOCOL = 11
 } usb_hid_request_t;
-typedef enum {
-        USB_HID_REPORT_TYPE_INPUT = 1,
-        USB_HID_REPORT_TYPE_OUTPUT = 2,
-        USB_HID_REPORT_TYPE_FEATURE = 3
-} usb_hid_report_type_t;
 typedef enum {

uspace/lib/usb/include/usb/classes/hidparser.h

-              r8595577b
+              re50cd7f
 #define USB_HID_PATH_COMPARE_END                                1
 #define USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY    4
+/** */
+typedef struct {
+        /** */
+        int32_t usage_page;
+        /** */
+        int32_t usage;
+#define USB_HID_PATH_COMPARE_COLLECTION_ONLY    2 /* porovnava jenom cestu z Kolekci */
+#define USB_HID_MAX_USAGES      20
+typedef enum {
+        USB_HID_REPORT_TYPE_INPUT = 1,
+        USB_HID_REPORT_TYPE_OUTPUT = 2,
+        USB_HID_REPORT_TYPE_FEATURE = 3
+} usb_hid_report_type_t;
+/** Collection usage path structure */
+typedef struct {
+        /** */
+        uint32_t usage_page;
+        /** */
+        uint32_t usage;
+        uint8_t flags;
         /** */
         link_t link;
 …
         /** */
+        link_t link; /* list */
+        link_t head; /* head of list of usage paths */
+} usb_hid_report_path_t;
+typedef struct {
+        /** */
+        int report_count;
+        link_t reports;         /** list of usb_hid_report_description_t */
+        link_t collection_paths;
+        int collection_paths_count;
+        int use_report_ids;
+} usb_hid_report_t;
+typedef struct {
+        uint8_t report_id;
+        usb_hid_report_type_t type;
+        size_t bit_length;
+        size_t item_length;
+        link_t report_items;    /** list of report items (fields) */
         link_t link;
+} usb_hid_report_path_t;
+/**
+ * Description of report items
+ */
+typedef struct {
+        /** */
+} usb_hid_report_description_t;
+typedef struct {
+        int offset;
+        size_t size;
+        uint16_t usage_page;
+        uint16_t usage;
+        uint8_t item_flags;
+        usb_hid_report_path_t *collection_path;
+        int32_t logical_minimum;
+        int32_t logical_maximum;
+        int32_t physical_minimum;
+        int32_t physical_maximum;
+        uint32_t usage_minimum;
+        uint32_t usage_maximum;
+        uint32_t unit;
+        uint32_t unit_exponent;
+        int32_t value;
+        link_t link;
+} usb_hid_report_field_t;
+/**
+ * state table
+ */
+typedef struct {
+        /** report id */
         int32_t id;
+        /** */
+        int32_t usage_minimum;
+        /** */
+        int32_t usage_maximum;
+        /** */
+        uint16_t extended_usage_page;
+        uint32_t usages[USB_HID_MAX_USAGES];
+        int usages_count;
+        /** */
+        uint32_t usage_page;
+        /** */
+        uint32_t usage_minimum;
+        /** */
+        uint32_t usage_maximum;
         /** */
         int32_t logical_minimum;
 …
         size_t offset;
         /** */
-        int32_t delimiter;
-        /** */
         int32_t unit_exponent;
         /** */
 …
         /** */
         int32_t string_index;
         /** */
         int32_t string_minimum;
         /** */
         int32_t string_maximum;
         /** */
         int32_t designator_index;
         /** */
         int32_t designator_minimum;
         /** */
         int32_t designator_maximum;
+        uint32_t string_index;
+        /** */
+        uint32_t string_minimum;
+        /** */
+        uint32_t string_maximum;
+        /** */
+        uint32_t designator_index;
+        /** */
+        uint32_t designator_minimum;
+        /** */
+        uint32_t designator_maximum;
         /** */
         int32_t physical_minimum;
 …
         uint8_t item_flags;
+        /** */
+        usb_hid_report_type_t type;
+        /** current collection path*/
         usb_hid_report_path_t *usage_path;
         /** */
         link_t link;
 } usb_hid_report_item_t;
-/** HID report parser structure. */
-typedef struct {
-        /** */
-        link_t input;
-        /** */
-        link_t output;
-        /** */
-        link_t feature;
-        int use_report_id;
-        /** */
-        link_t stack;
-} usb_hid_report_parser_t;
 /** HID parser callbacks for IN items. */
 …
 } usb_hid_modifiers_t;
-//typedef enum {
-//      USB_HID_LED_NUM_LOCK = 0x1,
-//      USB_HID_LED_CAPS_LOCK = 0x2,
-//      USB_HID_LED_SCROLL_LOCK = 0x4,
-//      USB_HID_LED_COMPOSE = 0x8,
-//      USB_HID_LED_KANA = 0x10,
-//      USB_HID_LED_COUNT = 5
-//} usb_hid_led_t;
 static const usb_hid_modifiers_t
     usb_hid_modifiers_consts[USB_HID_MOD_COUNT] = {
 …
 };
-//static const usb_hid_led_t usb_hid_led_consts[USB_HID_LED_COUNT] = {
-//      USB_HID_LED_NUM_LOCK,
-//      USB_HID_LED_CAPS_LOCK,
-//      USB_HID_LED_SCROLL_LOCK,
-//      USB_HID_LED_COMPOSE,
-//      USB_HID_LED_KANA
-//};
-//#define USB_HID_BOOT_KEYBOARD_NUM_LOCK                0x01
-//#define USB_HID_BOOT_KEYBOARD_CAPS_LOCK               0x02
-//#define USB_HID_BOOT_KEYBOARD_SCROLL_LOCK     0x04
-//#define USB_HID_BOOT_KEYBOARD_COMPOSE         0x08
-//#define USB_HID_BOOT_KEYBOARD_KANA                    0x10
 /*
  * Descriptor parser functions
  */
+/** */
+int usb_hid_parser_init(usb_hid_report_parser_t *parser);
+/** */
+int usb_hid_parse_report_descriptor(usb_hid_report_parser_t *parser,
+/** */
+int usb_hid_parse_report_descriptor(usb_hid_report_t *report,
     const uint8_t *data, size_t size);
 /** */
+void usb_hid_free_report_parser(usb_hid_report_parser_t *parser);
+/** */
+void usb_hid_descriptor_print(usb_hid_report_parser_t *parser);
+/*
+ * Boot protocol functions
+ */
+/** */
+int usb_hid_boot_keyboard_input_report(const uint8_t *data, size_t size,
+        const usb_hid_report_in_callbacks_t *callbacks, void *arg);
+/** */
+int usb_hid_boot_keyboard_output_report(uint8_t leds, uint8_t *data, size_t size);
+void usb_hid_free_report(usb_hid_report_t *report);
+/** */
+void usb_hid_descriptor_print(usb_hid_report_t *report);
 …
  */
 /** */
+int usb_hid_parse_report(const usb_hid_report_parser_t *parser,
+    const uint8_t *data, size_t size,
+    usb_hid_report_path_t *path, int flags,
+    const usb_hid_report_in_callbacks_t *callbacks, void *arg);
+/** */
+size_t usb_hid_report_input_length(const usb_hid_report_parser_t *parser,
+int usb_hid_parse_report(const usb_hid_report_t *report, const uint8_t *data, size_t size);
+/** */
+size_t usb_hid_report_input_length(const usb_hid_report_t *report,
         usb_hid_report_path_t *path, int flags);
 …
 usb_hid_report_path_t *usb_hid_report_path_clone(usb_hid_report_path_t *usage_path);
+usb_hid_report_field_t *usb_hid_report_get_sibling(usb_hid_report_t *report, usb_hid_report_field_t *field, usb_hid_report_path_t *path, int flags, usb_hid_report_type_t type);
 /*
 …
  */
 /** Allocates output report buffer*/
 uint8_t *usb_hid_report_output(usb_hid_report_parser_t *parser, size_t *size);
+uint8_t *usb_hid_report_output(usb_hid_report_t *report, size_t *size, uint8_t report_id);
 /** Frees output report buffer*/
 …
 /** Returns size of output for given usage path */
 size_t usb_hid_report_output_size(usb_hid_report_parser_t *parser,
+size_t usb_hid_report_output_size(usb_hid_report_t *report,
                                   usb_hid_report_path_t *path, int flags);
+/** Updates the output report buffer by translated given data */
+int usb_hid_report_output_translate(usb_hid_report_parser_t *parser,
+                                    usb_hid_report_path_t *path, int flags,
+                                    uint8_t *buffer, size_t size,
+                                    int32_t *data, size_t data_size);
+/** Sets data in report structure */
+int usb_hid_report_output_set_data(usb_hid_report_t *report,
+                                   usb_hid_report_path_t *path, int flags,
+                                  int *data, size_t data_size);
+/** Makes the output report buffer by translated given data */
+int usb_hid_report_output_translate(usb_hid_report_t *report, uint8_t report_id, uint8_t *buffer, size_t size);
 #endif
 /**

uspace/lib/usb/include/usb/classes/hidreport.h

r8595577b	re50cd7f
57	57	*/
58	58	int usb_hid_process_report_descriptor(usb_device_t *dev,
59		usb_hid_report_~~parser_t *parser~~);
	59	usb_hid_report_t *report);
60	60
61	61	#endif /* LIBUSB_HIDREPORT_H_ */

uspace/lib/usb/src/hidparser.c

-              r8595577b
+              re50cd7f
 #include <mem.h>
 #include <usb/debug.h>
+/** */
+#include <assert.h>
+/** The new report item flag. Used to determine when the item is completly
+ * configured and should be added to the report structure
+ */
 #define USB_HID_NEW_REPORT_ITEM 1
+/** */
+#define USB_HID_NO_ACTION               2
+/** */
+/** No special action after the report descriptor tag is processed should be
+ * done
+ */
+#define USB_HID_NO_ACTION       2
+#define USB_HID_RESET_OFFSET    3
+/** Unknown tag was founded in report descriptor data*/
 #define USB_HID_UNKNOWN_TAG             -99
 …
  * Private descriptor parser functions
  */
+int usb_hid_report_init(usb_hid_report_t *report);
+int usb_hid_report_append_fields(usb_hid_report_t *report, usb_hid_report_item_t *report_item);
+usb_hid_report_description_t * usb_hid_report_find_description(const usb_hid_report_t *report, uint8_t report_id, usb_hid_report_type_t type);
 int usb_hid_report_parse_tag(uint8_t tag, uint8_t class, const uint8_t *data, size_t item_size,
                              usb_hid_report_item_t *report_item, usb_hid_report_path_t *usage_path);
 …
                              usb_hid_report_item_t *report_item, usb_hid_report_path_t *usage_path);
+void usb_hid_print_usage_path(usb_hid_report_path_t *path);
 void usb_hid_descriptor_print_list(link_t *head);
 int usb_hid_report_reset_local_items();
 …
 int32_t usb_hid_report_tag_data_int32(const uint8_t *data, size_t size);
 inline size_t usb_hid_count_item_offset(usb_hid_report_item_t * report_item, size_t offset);
 int usb_hid_translate_data(usb_hid_report_item_t *item, const uint8_t *data, size_t j);
 int32_t usb_hid_translate_data_reverse(usb_hid_report_item_t *item, int32_t value);
+int usb_hid_translate_data(usb_hid_report_field_t *item, const uint8_t *data, size_t j);
+uint32_t usb_hid_translate_data_reverse(usb_hid_report_field_t *item, int32_t value);
 int usb_pow(int a, int b);
 …
  * @return Error code
  */
 int usb_hid_parser_init(usb_hid_report_parser_t *parser)
+{
         if(parser == NULL) {
+int usb_hid_report_init(usb_hid_report_t *report)
+{
+        if(report == NULL) {
                 return EINVAL;
+        }
+        list_initialize(&(parser->input));
+    list_initialize(&(parser->output));
+    list_initialize(&(parser->feature));
+        list_initialize(&(parser->stack));
+        parser->use_report_id = 0;
+        memset(report, 0, sizeof(usb_hid_report_t));
+        list_initialize(&report->reports);
+        list_initialize(&report->collection_paths);
+        report->use_report_ids = 0;
     return EOK;
+}
+int usb_hid_report_append_fields(usb_hid_report_t *report, usb_hid_report_item_t *report_item)
+{
+        usb_hid_report_field_t *field;
+        int i;
+        /* find or append current collection path to the list */
+        link_t *path_it = report->collection_paths.next;
+        usb_hid_report_path_t *path = NULL;
+        while(path_it != &report->collection_paths) {
+                path = list_get_instance(path_it, usb_hid_report_path_t, link);
+                if(usb_hid_report_compare_usage_path(path, report_item->usage_path, USB_HID_PATH_COMPARE_STRICT) == EOK){
+                        break;
+                }
+                path_it = path_it->next;
+        }
+        if(path_it == &report->collection_paths) {
+                path = usb_hid_report_path_clone(report_item->usage_path);
+                list_append(&path->link, &report->collection_paths);
+                report->collection_paths_count++;
+        }
+        for(i=0; i<report_item->count; i++){
+                field = malloc(sizeof(usb_hid_report_field_t));
+                memset(field, 0, sizeof(usb_hid_report_field_t));
+                list_initialize(&field->link);
+                /* fill the attributes */
+                field->collection_path = path;
+                field->logical_minimum = report_item->logical_minimum;
+                field->logical_maximum = report_item->logical_maximum;
+                field->physical_minimum = report_item->physical_minimum;
+                field->physical_maximum = report_item->physical_maximum;
+                field->usage_minimum = report_item->usage_minimum;
+                field->usage_maximum = report_item->usage_maximum;
+                if(report_item->extended_usage_page != 0){
+                        field->usage_page = report_item->extended_usage_page;
+                }
+                else {
+                        field->usage_page = report_item->usage_page;
+                }
+                if(report_item->usages_count > 0 && ((report_item->usage_minimum = 0) && (report_item->usage_maximum = 0))) {
+                        if(i < report_item->usages_count){
+                                if((report_item->usages[i] & 0xFF00) > 0){
+                                        field->usage_page = (report_item->usages[i] >> 16);
+                                        field->usage = (report_item->usages[i] & 0xFF);
+                                }
+                                else {
+                                        field->usage = report_item->usages[i];
+                                }
+                        }
+                        else {
+                                field->usage = report_item->usages[report_item->usages_count - 1];
+                        }
+                }
+                field->size = report_item->size;
+                field->offset = report_item->offset + (i * report_item->size);
+                if(report_item->id != 0) {
+                        field->offset += 8;
+                        report->use_report_ids = 1;
+                }
+                field->item_flags = report_item->item_flags;
+                /* find the right report list*/
+                usb_hid_report_description_t *report_des;
+                report_des = usb_hid_report_find_description(report, report_item->id, report_item->type);
+                if(report_des == NULL){
+                        report_des = malloc(sizeof(usb_hid_report_description_t));
+                        memset(report_des, 0, sizeof(usb_hid_report_description_t));
+                        report_des->type = report_item->type;
+                        report_des->report_id = report_item->id;
+                        list_initialize (&report_des->link);
+                        list_initialize (&report_des->report_items);
+                        list_append(&report_des->link, &report->reports);
+                        report->report_count++;
+                }
+                /* append this field to the end of founded report list */
+                list_append (&field->link, &report_des->report_items);
+                /* update the sizes */
+                report_des->bit_length += field->size;
+                report_des->item_length++;
+        }
+        return EOK;
+}
+usb_hid_report_description_t * usb_hid_report_find_description(const usb_hid_report_t *report, uint8_t report_id, usb_hid_report_type_t type)
+{
+        link_t *report_it = report->reports.next;
+        usb_hid_report_description_t *report_des = NULL;
+        while(report_it != &report->reports) {
+                report_des = list_get_instance(report_it, usb_hid_report_description_t, link);
+                if((report_des->report_id == report_id) && (report_des->type == type)){
+                        return report_des;
+                }
+                report_it = report_it->next;
+        }
+        return NULL;
+}
 /** Parse HID report descriptor.
 …
  * @return Error code.
  */
 int usb_hid_parse_report_descriptor(usb_hid_report_parser_t *parser,
+int usb_hid_parse_report_descriptor(usb_hid_report_t *report,
     const uint8_t *data, size_t size)
+{
 …
         usb_hid_report_item_t *new_report_item;
         usb_hid_report_path_t *usage_path;
-        usb_hid_report_path_t *tmp_usage_path;
         size_t offset_input=0;
         size_t offset_output=0;
         size_t offset_feature=0;
+        link_t stack;
+        list_initialize(&stack);
         /* parser structure initialization*/
         if(usb_hid_parser_init(parser) != EOK) {
+        if(usb_hid_report_init(report) != EOK) {
                 return EINVAL;
+        }
         /*report item initialization*/
         if(!(report_item=malloc(sizeof(usb_hid_report_item_t)))){
 …
                         if((i+USB_HID_ITEM_SIZE(data[i]))>= size){
                                 return EINVAL; // TODO ERROR CODE
+                                return EINVAL;
+                        }
 …
                         item_size = USB_HID_ITEM_SIZE(data[i]);
                         class = USB_HID_ITEM_TAG_CLASS(data[i]);
-                        usb_log_debug2(
-                                "i(%u) data(%X) value(%X): TAG %u, class %u, size %u - ", i,
-                            data[i], usb_hid_report_tag_data_int32(data+i+1,item_size),
-                            tag, class, item_size);
                         ret = usb_hid_report_parse_tag(tag,class,data+i+1,
                                                        item_size,report_item, usage_path);
-                        usb_log_debug2("ret: %u\n", ret);
                         switch(ret){
                                 case USB_HID_NEW_REPORT_ITEM:
                                         // store report item to report and create the new one
+                                        usb_log_debug("\nNEW REPORT ITEM: %X",ret);
+                                        // store current usage path
+                                        // store current collection path
                                         report_item->usage_path = usage_path;
-                                        // clone path to the new one
-                                        tmp_usage_path = usb_hid_report_path_clone(usage_path);
-                                        // swap
-                                        usage_path = tmp_usage_path;
-                                        tmp_usage_path = NULL;
                                         usb_hid_report_path_set_report_id(report_item->usage_path, report_item->id);
                                         if(report_item->id != 0){
                                                 parser->use_report_id = 1;
+                                                report->use_report_ids = 1;
+                                        }
                                         switch(tag) {
                                                 case USB_HID_REPORT_TAG_INPUT:
+                                                        report_item->type = USB_HID_REPORT_TYPE_INPUT;
                                                         report_item->offset = offset_input;
                                                         offset_input += report_item->count * report_item->size;
-                                                        usb_log_debug(" - INPUT\n");
-                                                        list_append(&(report_item->link), &(parser->input));
                                                         break;
                                                 case USB_HID_REPORT_TAG_OUTPUT:
+                                                        report_item->type = USB_HID_REPORT_TYPE_OUTPUT;
                                                         report_item->offset = offset_output;
                                                         offset_output += report_item->count * report_item->size;
-                                                        usb_log_debug(" - OUTPUT\n");
-                                                                list_append(&(report_item->link), &(parser->output));
                                                         break;
                                                 case USB_HID_REPORT_TAG_FEATURE:
+                                                        report_item->type = USB_HID_REPORT_TYPE_FEATURE;
                                                         report_item->offset = offset_feature;
                                                         offset_feature += report_item->count * report_item->size;
-                                                        usb_log_debug(" - FEATURE\n");
-                                                                list_append(&(report_item->link), &(parser->feature));
                                                         break;
                                                 default:
 …
                                                     break;
+                                        }
-                                        /* clone current state table to the new item */
-                                        if(!(new_report_item = malloc(sizeof(usb_hid_report_item_t)))) {
-                                                return ENOMEM;
+                                        }
-                                        memcpy(new_report_item,report_item, sizeof(usb_hid_report_item_t));
-                                        link_initialize(&(new_report_item->link));
+                                        /*
+                                         * append new fields to the report
+                                         * structure
+                                         */
+                                        usb_hid_report_append_fields(report, report_item);
                                         /* reset local items */
+                                        new_report_item->usage_minimum = 0;
+                                        new_report_item->usage_maximum = 0;
+                                        new_report_item->designator_index = 0;
+                                        new_report_item->designator_minimum = 0;
+                                        new_report_item->designator_maximum = 0;
+                                        new_report_item->string_index = 0;
+                                        new_report_item->string_minimum = 0;
+                                        new_report_item->string_maximum = 0;
+                                        /* reset usage from current usage path */
+                                        usb_hid_report_usage_path_t *path = list_get_instance(&usage_path->link, usb_hid_report_usage_path_t, link);
+                                        path->usage = 0;
+                                        report_item = new_report_item;
+                                        while(report_item->usages_count > 0){
+                                                report_item->usages[--(report_item->usages_count)] = 0;
+                                        }
+                                        report_item->extended_usage_page = 0;
+                                        report_item->usage_minimum = 0;
+                                        report_item->usage_maximum = 0;
+                                        report_item->designator_index = 0;
+                                        report_item->designator_minimum = 0;
+                                        report_item->designator_maximum = 0;
+                                        report_item->string_index = 0;
+                                        report_item->string_minimum = 0;
+                                        report_item->string_maximum = 0;
                                         break;
+                                case USB_HID_RESET_OFFSET:
+                                        offset_input = 0;
+                                        offset_output = 0;
+                                        offset_feature = 0;
+                                        break;
                                 case USB_HID_REPORT_TAG_PUSH:
                                         // push current state to stack
                                         new_report_item = usb_hid_report_item_clone(report_item);
+                                        list_prepend (&parser->stack, &new_report_item->link);
+                                        usb_hid_report_path_t *tmp_path = usb_hid_report_path_clone(usage_path);
+                                        new_report_item->usage_path = tmp_path;
+                                        list_prepend (&new_report_item->link, &stack);
                                         break;
                                 case USB_HID_REPORT_TAG_POP:
                                         // restore current state from stack
                                         if(list_empty (&parser->stack)) {
+                                        if(list_empty (&stack)) {
                                                 return EINVAL;
+                                        }
+                                        free(report_item);
+                                        report_item = list_get_instance(stack.next, usb_hid_report_item_t, link);
+                                        report_item = list_get_instance(&parser->stack, usb_hid_report_item_t, link);
+                                        list_remove (parser->stack.next);
+                                        usb_hid_report_usage_path_t *tmp_usage_path;
+                                        tmp_usage_path = list_get_instance(report_item->usage_path->link.prev, usb_hid_report_usage_path_t, link);
+                                        usb_hid_report_set_last_item(usage_path, tmp_usage_path->usage_page, tmp_usage_path->usage);
+                                        usb_hid_report_path_free(report_item->usage_path);
+                                        list_initialize(&report_item->usage_path->link);
+                                        list_remove (stack.next);
                                         break;
 …
+}
-/**
- * Parse input report.
+ *
- * @param data Data for report
- * @param size Size of report
- * @param callbacks Callbacks for report actions
- * @param arg Custom arguments
+ *
- * @return Error code
- */
-int usb_hid_boot_keyboard_input_report(const uint8_t *data, size_t size,
-        const usb_hid_report_in_callbacks_t *callbacks, void *arg)
+{
-        int i;
-        usb_hid_report_item_t item;
-        /* fill item due to the boot protocol report descriptor */
-        // modifier keys are in the first byte
-        uint8_t modifiers = data[0];
-        item.offset = 2; /* second byte is reserved */
-        item.size = 8;
-        item.count = 6;
-        item.usage_minimum = 0;
-        item.usage_maximum = 255;
-        item.logical_minimum = 0;
-        item.logical_maximum = 255;
-        if (size != 8) {
-                return -1; //ERANGE;
+        }
-        uint8_t keys[6];
-        for (i = 0; i < item.count; i++) {
-                keys[i] = data[i + item.offset];
+        }
-        callbacks->keyboard(keys, 6, modifiers, arg);
-        return EOK;
+}
-/**
- * Makes output report for keyboard boot protocol
+ *
- * @param leds
- * @param output Output report data buffer
- * @param size Size of the output buffer
- * @return Error code
- */
-int usb_hid_boot_keyboard_output_report(uint8_t leds, uint8_t *data, size_t size)
+{
-        if(size != 1){
-                return -1;
+        }
-        /* used only first five bits, others are only padding*/
-        *data = leds;
-        return EOK;
+}
 /**
 …
                 case USB_HID_REPORT_TAG_COLLECTION:
                         usb_hid_report_path_append_item(usage_path, 0, 0);
+                        // TODO usage_path->flags = *data;
+                        usb_hid_report_path_append_item(usage_path, report_item->usage_page, report_item->usages[report_item->usages_count-1]);
                         return USB_HID_NO_ACTION;
                         break;
                 case USB_HID_REPORT_TAG_END_COLLECTION:
-                        // TODO
-                        // znici posledni uroven ve vsech usage paths
-                        // otazka jestli nema nicit dve, respektive novou posledni vynulovat?
                         usb_hid_report_remove_last_item(usage_path);
                         return USB_HID_NO_ACTION;
 …
+        {
                 case USB_HID_REPORT_TAG_USAGE_PAGE:
+                        // zmeni to jenom v poslednim poli aktualni usage path
+                        usb_hid_report_set_last_item(usage_path, USB_HID_TAG_CLASS_GLOBAL,
+                                usb_hid_report_tag_data_int32(data,item_size));
+                        report_item->usage_page = usb_hid_report_tag_data_int32(data, item_size);
                         break;
                 case USB_HID_REPORT_TAG_LOGICAL_MINIMUM:
 …
                 case USB_HID_REPORT_TAG_REPORT_ID:
                         report_item->id = usb_hid_report_tag_data_int32(data,item_size);
+                        return USB_HID_RESET_OFFSET;
                         break;
                 case USB_HID_REPORT_TAG_PUSH:
                 case USB_HID_REPORT_TAG_POP:
+                        /*
+                         * stack operations are done in top level parsing
+                         * function
+                         */
                         return tag;
                         break;
 …
+        {
                 case USB_HID_REPORT_TAG_USAGE:
+                        usb_hid_report_set_last_item(usage_path, USB_HID_TAG_CLASS_LOCAL,
+                                usb_hid_report_tag_data_int32(data,item_size));
+                        report_item->usages[report_item->usages_count++] = usb_hid_report_tag_data_int32(data,item_size);
                         break;
                 case USB_HID_REPORT_TAG_USAGE_MINIMUM:
+                        report_item->usage_minimum = usb_hid_report_tag_data_int32(data,item_size);
+                        if (item_size == 3) {
+                                // usage extended usages
+                                report_item->extended_usage_page = (usb_hid_report_tag_data_int32(data,item_size) & 0xFF00) >> 16;
+                                report_item->usage_minimum = usb_hid_report_tag_data_int32(data,item_size) & 0xFF;
+                        }
+                        else {
+                                report_item->usage_minimum = usb_hid_report_tag_data_int32(data,item_size);
+                        }
                         break;
                 case USB_HID_REPORT_TAG_USAGE_MAXIMUM:
+                        report_item->usage_maximum = usb_hid_report_tag_data_int32(data,item_size);
+                        if (item_size == 3) {
+                                // usage extended usages
+                                report_item->extended_usage_page = (usb_hid_report_tag_data_int32(data,item_size) & 0xFF00) >> 16;
+                                report_item->usage_maximum = usb_hid_report_tag_data_int32(data,item_size) & 0xFF;
+                        }
+                        else {
+                                report_item->usage_maximum = usb_hid_report_tag_data_int32(data,item_size);
+                        }
                         break;
                 case USB_HID_REPORT_TAG_DESIGNATOR_INDEX:
 …
                         break;
                 case USB_HID_REPORT_TAG_DELIMITER:
+                        report_item->delimiter = usb_hid_report_tag_data_int32(data,item_size);
+                        //report_item->delimiter = usb_hid_report_tag_data_int32(data,item_size);
+                        //TODO:
+                        //      DELIMITER STUFF
                         break;
 …
 void usb_hid_descriptor_print_list(link_t *head)
+{
+        usb_hid_report_item_t *report_item;
+        usb_hid_report_usage_path_t *path_item;
+        link_t *path;
+        usb_hid_report_field_t *report_item;
         link_t *item;
         if(head == NULL || list_empty(head)) {
             usb_log_debug("\tempty\n");
 …
         for(item = head->next; item != head; item = item->next) {
+                report_item = list_get_instance(item, usb_hid_report_item_t, link);
+                usb_log_debug("\tOFFSET: %X\n", report_item->offset);
+                usb_log_debug("\tCOUNT: %X\n", report_item->count);
+                usb_log_debug("\tSIZE: %X\n", report_item->size);
+                usb_log_debug("\tCONSTANT/VAR: %X\n", USB_HID_ITEM_FLAG_CONSTANT(report_item->item_flags));
+                usb_log_debug("\tVARIABLE/ARRAY: %X\n", USB_HID_ITEM_FLAG_VARIABLE(report_item->item_flags));
+                usb_log_debug("\tUSAGE PATH:\n");
+                path = report_item->usage_path->link.next;
+                while(path != &report_item->usage_path->link)   {
+                        path_item = list_get_instance(path, usb_hid_report_usage_path_t, link);
+                        usb_log_debug("\t\tUSAGE PAGE: %X, USAGE: %X\n", path_item->usage_page, path_item->usage);
+                        path = path->next;
+                }
+                usb_log_debug("\tLOGMIN: %X\n", report_item->logical_minimum);
+                usb_log_debug("\tLOGMAX: %X\n", report_item->logical_maximum);
+                usb_log_debug("\tPHYMIN: %X\n", report_item->physical_minimum);
+                usb_log_debug("\tPHYMAX: %X\n", report_item->physical_maximum);
+                usb_log_debug("\tUSAGEMIN: %X\n", report_item->usage_minimum);
+                usb_log_debug("\tUSAGEMAX: %X\n", report_item->usage_maximum);
+                usb_log_debug("\n");
+                report_item = list_get_instance(item, usb_hid_report_field_t, link);
+                usb_log_debug("\t\tOFFSET: %X\n", report_item->offset);
+                usb_log_debug("\t\tSIZE: %X\n", report_item->size);
+                usb_log_debug("\t\tLOGMIN: %X\n", report_item->logical_minimum);
+                usb_log_debug("\t\tLOGMAX: %X\n", report_item->logical_maximum);
+                usb_log_debug("\t\tPHYMIN: %X\n", report_item->physical_minimum);
+                usb_log_debug("\t\tPHYMAX: %X\n", report_item->physical_maximum);
+                usb_log_debug("\t\ttUSAGEMIN: %X\n", report_item->usage_minimum);
+                usb_log_debug("\t\tUSAGEMAX: %X\n", report_item->usage_maximum);
+                usb_log_debug("\t\tVALUE: %X\n", report_item->value);
+                usb_log_debug("\t\ttUSAGE: %X\n", report_item->usage);
+                usb_log_debug("\t\tUSAGE PAGE: %X\n", report_item->usage_page);
+//              usb_log_debug("\n");
+        }
 …
  * @return void
  */
 void usb_hid_descriptor_print(usb_hid_report_parser_t *parser)
+{
         if(parser == NULL) {
+void usb_hid_descriptor_print(usb_hid_report_t *report)
+{
+        if(report == NULL) {
                 return;
+        }
+        usb_log_debug("INPUT:\n");
+        usb_hid_descriptor_print_list(&parser->input);
+        usb_log_debug("OUTPUT: \n");
+        usb_hid_descriptor_print_list(&parser->output);
+        usb_log_debug("FEATURE:\n");
+        usb_hid_descriptor_print_list(&parser->feature);
+        link_t *report_it = report->reports.next;
+        usb_hid_report_description_t *report_des;
+        while(report_it != &report->reports) {
+                report_des = list_get_instance(report_it, usb_hid_report_description_t, link);
+                usb_log_debug("Report ID: %d\n", report_des->report_id);
+                usb_log_debug("\tType: %d\n", report_des->type);
+                usb_log_debug("\tLength: %d\n", report_des->bit_length);
+                usb_log_debug("\tItems: %d\n", report_des->item_length);
+                usb_hid_descriptor_print_list(&report_des->report_items);
+                link_t *path_it = report->collection_paths.next;
+                while(path_it != &report->collection_paths) {
+                        usb_hid_print_usage_path (list_get_instance(path_it, usb_hid_report_path_t, link));
+                        path_it = path_it->next;
+                }
+                report_it = report_it->next;
+        }
+}
 …
  * @return void
  */
 void usb_hid_free_report_parser(usb_hid_report_parser_t *parser)
+{
         if(parser == NULL){
+void usb_hid_free_report(usb_hid_report_t *report)
+{
+        if(report == NULL){
                 return;
+        }
+        parser->use_report_id = 0;
+        usb_hid_free_report_list(&parser->input);
+        usb_hid_free_report_list(&parser->output);
+        usb_hid_free_report_list(&parser->feature);
+        // free collection paths
+        usb_hid_report_path_t *path;
+        while(!list_empty(&report->collection_paths)) {
+                path = list_get_instance(report->collection_paths.next, usb_hid_report_path_t, link);
+                usb_hid_report_path_free(path);
+        }
+        // free report items
+        usb_hid_report_description_t *report_des;
+        usb_hid_report_field_t *field;
+        while(!list_empty(&report->reports)) {
+                report_des = list_get_instance(report->reports.next, usb_hid_report_description_t, link);
+                list_remove(&report_des->link);
+                while(!list_empty(&report_des->report_items)) {
+                        field = list_get_instance(report_des->report_items.next, usb_hid_report_field_t, link);
+                        list_remove(&field->link);
+                        free(field);
+                }
+                free(report_des);
+        }
         return;
+}
 …
  * @param parser Opaque HID report parser structure.
  * @param data Data for the report.
- * @param callbacks Callbacks for report actions.
- * @param arg Custom argument (passed through to the callbacks).
  * @return Error code.
  */
+int usb_hid_parse_report(const usb_hid_report_parser_t *parser,
+    const uint8_t *data, size_t size,
+    usb_hid_report_path_t *path, int flags,
+    const usb_hid_report_in_callbacks_t *callbacks, void *arg)
+int usb_hid_parse_report(const usb_hid_report_t *report,
+    const uint8_t *data, size_t size)
+{
         link_t *list_item;
+        usb_hid_report_item_t *item;
+        uint8_t *keys;
+        uint8_t item_value;
+        size_t key_count=0;
+        size_t i=0;
+        size_t j=0;
+        usb_hid_report_field_t *item;
         uint8_t report_id = 0;
+        if(parser == NULL) {
+        usb_hid_report_description_t *report_des;
+        usb_hid_report_type_t type = USB_HID_REPORT_TYPE_INPUT;
+        if(report == NULL) {
                 return EINVAL;
+        }
+        /* get the size of result array */
+        key_count = usb_hid_report_input_length(parser, path, flags);
+        if(!(keys = malloc(sizeof(uint8_t) * key_count))){
+                return ENOMEM;
+        }
+        if(parser->use_report_id != 0) {
+        if(report->use_report_ids != 0) {
                 report_id = data[0];
+                usb_hid_report_path_set_report_id(path, report_id);
+        }
+        }
+        report_des = usb_hid_report_find_description(report, report_id, type);
         /* read data */
+        list_item = parser->input.next;
+        while(list_item != &(parser->input)) {
+                item = list_get_instance(list_item, usb_hid_report_item_t, link);
+                if(!USB_HID_ITEM_FLAG_CONSTANT(item->item_flags) &&
+                   (usb_hid_report_compare_usage_path(item->usage_path, path, flags) == EOK)) {
+                        for(j=0; j<(size_t)(item->count); j++) {
+                                if((USB_HID_ITEM_FLAG_VARIABLE(item->item_flags) == 0) ||
+                                   ((item->usage_minimum == 0) && (item->usage_maximum == 0))) {
+                                        // variable item
+                                        keys[i++] = usb_hid_translate_data(item, data,j);
+        list_item = report_des->report_items.next;
+        while(list_item != &(report_des->report_items)) {
+                item = list_get_instance(list_item, usb_hid_report_field_t, link);
+                if(!USB_HID_ITEM_FLAG_CONSTANT(item->item_flags)) {
+                        if((USB_HID_ITEM_FLAG_VARIABLE(item->item_flags) == 0) ||
+                           ((item->usage_minimum == 0) && (item->usage_maximum == 0))) {
+                                // variable item
+                                item->value = usb_hid_translate_data(item, data,0);
+                                // array item ???
+                                if(!((item->usage_minimum == 0) && (item->usage_maximum == 0))) {
+                                        item->usage = item->value + item->usage_minimum;
+                                }
+                                else {
+                                        // bitmapa
+                                        if((item_value = usb_hid_translate_data(item, data, j)) != 0) {
+                                                keys[i++] = (item->count - 1 - j) + item->usage_minimum;
+                                        }
+                                        else {
+                                                keys[i++] = 0;
+                                        }
+                                }
+                        }
+                        }
+                        else {
+                                // bitmapa
+                                // TODO: overit jestli vraci hodnoty podle phy min/max
+                                item->value = usb_hid_translate_data(item, data, 0);
+                        }
+                }
                 list_item = list_item->next;
+        }
-        callbacks->keyboard(keys, key_count, report_id, arg);
-        free(keys);
         return EOK;
 …
 /**
  * Translate data from the report as specified in report descriptor
+ * Translate data from the report as specified in report descriptor item
+ *
  * @param item Report descriptor item with definition of translation
 …
  * @return Translated data
  */
 int usb_hid_translate_data(usb_hid_report_item_t *item, const uint8_t *data, size_t j)
+int usb_hid_translate_data(usb_hid_report_field_t *item, const uint8_t *data, size_t j)
+{
         int resolution;
 …
         int part_size;
         int32_t value;
+        int32_t value=0;
         int32_t mask;
         const uint8_t *foo;
         // now only common numbers llowed
+        // now only shot tags are allowed
         if(item->size > 32) {
                 return 0;
 …
         offset = item->offset + (j * item->size);
-        if(item->id != 0) {
-                offset += 8;
-                usb_log_debug("MOVED OFFSET BY 1Byte, REPORT_ID(%d)\n", item->id);
+        }
         // FIXME
+        if((offset/8) != ((offset+item->size)/8)) {
+                usb_log_debug2("offset %d\n", offset);
+        if((size_t)(offset/8) != (size_t)((offset+item->size-1)/8)) {
                 part_size = ((offset+item->size)%8);
+                usb_log_debug2("part size %d\n",part_size);
+                // the higher one
+                foo = data+(offset/8);
+                mask =  ((1 << (item->size-part_size))-1);
+                value = (*foo & mask) << part_size;
+                usb_log_debug2("hfoo %x\n", *foo);
+                usb_log_debug2("hmaska %x\n",  mask);
+                usb_log_debug2("hval %d\n", value);
+                // the lower one
+                foo = data+((offset+item->size)/8);
+                mask =  ((1 << part_size)-1) << (8-part_size);
+                value += ((*foo & mask) >> (8-part_size));
+                usb_log_debug2("lfoo %x\n", *foo);
+                usb_log_debug2("lmaska %x\n",  mask);
+                usb_log_debug2("lval %d\n", ((*foo & mask) >> (8-(item->size-part_size))));
+                usb_log_debug2("val %d\n", value);
+                size_t i=0;
+                for(i=(size_t)(offset/8); i<=(size_t)(offset+item->size-1)/8; i++){
+                        if(i == (size_t)(offset/8)) {
+                                // the higher one
+                                foo = data + i;
+                                mask =  ((1 << (item->size-part_size))-1);
+                                value = (*foo & mask) << part_size;
+                        }
+                        else if(i == ((offset+item->size-1)/8)){
+                                // the lower one
+                                foo = data + i;
+                                mask =  ((1 << part_size)-1) << (8-part_size);
+                                value += ((*foo & mask) >> (8-part_size));
+                        }
+                        else {
+                                value = value << 8;
+                                value += *(data + 1);
+                        }
+                }
+        }
         else {
 …
                 mask =  ((1 << item->size)-1) << (8-((offset%8)+item->size));
                 value = (*foo & mask) >> (8-((offset%8)+item->size));
+                usb_log_debug2("offset %d\n", offset);
                 usb_log_debug2("foo %x\n", *foo);
                 usb_log_debug2("maska %x\n",  mask);
                 usb_log_debug2("val %d\n", value);
+        }
+        usb_log_debug2("---\n\n");
+        }
+        if(!(item->logical_minimum >= 0 && item->logical_maximum >= 0)){
+                value = (int32_t)value;
+        }
+        else {
+                value = (uint32_t)value;
+        }
         return (int)(((value - item->logical_minimum) / resolution) + item->physical_minimum);
 …
 /**
+ *
+ *
  * @param parser
  * @param path
  * @param flags
  * @return
  */
 size_t usb_hid_report_input_length(const usb_hid_report_parser_t *parser,
+ * Returns number of items in input report which are accessible by given usage path
+ *
+ * @param parser Opaque report descriptor structure
+ * @param path Usage path specification
+ * @param flags Usage path comparison flags
+ * @return Number of items in input report
+ */
+size_t usb_hid_report_input_length(const usb_hid_report_t *report,
         usb_hid_report_path_t *path, int flags)
+{
         size_t ret = 0;
+        link_t *item;
+        usb_hid_report_item_t *report_item;
+        if(parser == NULL) {
+        if(report == NULL) {
                 return 0;
+        }
+        item = parser->input.next;
+        while(&parser->input != item) {
+                report_item = list_get_instance(item, usb_hid_report_item_t, link);
+                if(!USB_HID_ITEM_FLAG_CONSTANT(report_item->item_flags) &&
+                   (usb_hid_report_compare_usage_path(report_item->usage_path, path, flags) == EOK)) {
+                        ret += report_item->count;
+                }
+                item = item->next;
+        }
+        usb_hid_report_description_t *report_des;
+        report_des = usb_hid_report_find_description (report, path->report_id, USB_HID_REPORT_TYPE_INPUT);
+        if(report_des == NULL) {
+                return 0;
+        }
+        link_t *field_it = report_des->report_items.next;
+        usb_hid_report_field_t *field;
+        while(field_it != &report_des->report_items) {
+                field = list_get_instance(field_it, usb_hid_report_field_t, link);
+                if(USB_HID_ITEM_FLAG_CONSTANT(field->item_flags) == 0) {
+                        usb_hid_report_path_append_item (field->collection_path, field->usage_page, field->usage);
+                        if(usb_hid_report_compare_usage_path (field->collection_path, path, flags) == EOK) {
+                                ret++;
+                        }
+                        usb_hid_report_remove_last_item (field->collection_path);
+                }
+                field_it = field_it->next;
+        }
         return ret;
+}
+/**
+ *
+ * @param usage_path
+ * @param usage_page
+ * @param usage
+ * @return
+        }
+/**
+ * Appends one item (couple of usage_path and usage) into the usage path
+ * structure
+ *
+ * @param usage_path Usage path structure
+ * @param usage_page Usage page constant
+ * @param usage Usage constant
+ * @return Error code
  */
 int usb_hid_report_path_append_item(usb_hid_report_path_t *usage_path,
 …
         item->usage = usage;
         item->usage_page = usage_page;
+        usb_log_debug("Appending usage %d, usage page %d\n", usage, usage_page);
+        list_append (&usage_path->link, &item->link);
+        item->flags = 0;
+        list_append (&item->link, &usage_path->head);
         usage_path->depth++;
         return EOK;
 …
 /**
+ *
  * @param usage_path
  * @return
+ * Removes last item from the usage path structure
+ * @param usage_path
+ * @return void
  */
 void usb_hid_report_remove_last_item(usb_hid_report_path_t *usage_path)
 …
         usb_hid_report_usage_path_t *item;
         if(!list_empty(&usage_path->link)){
                 item = list_get_instance(usage_path->link.prev, usb_hid_report_usage_path_t, link);
                 list_remove(usage_path->link.prev);
+        if(!list_empty(&usage_path->head)){
+                item = list_get_instance(usage_path->head.prev, usb_hid_report_usage_path_t, link);
+                list_remove(usage_path->head.prev);
                 usage_path->depth--;
                 free(item);
 …
 /**
+ * Nulls last item of the usage path structure.
+ *
  * @param usage_path
  * @return
+ * @return void
  */
 void usb_hid_report_null_last_item(usb_hid_report_path_t *usage_path)
 …
         usb_hid_report_usage_path_t *item;
         if(!list_empty(&usage_path->link)){
                 item = list_get_instance(usage_path->link.prev, usb_hid_report_usage_path_t, link);
+        if(!list_empty(&usage_path->head)){
+                item = list_get_instance(usage_path->head.prev, usb_hid_report_usage_path_t, link);
                 memset(item, 0, sizeof(usb_hid_report_usage_path_t));
+        }
 …
 /**
+ *
+ * @param usage_path
+ * @param tag
+ * @param data
+ * @return
+ * Modifies last item of usage path structure by given usage page or usage
+ *
+ * @param usage_path Opaque usage path structure
+ * @param tag Class of currently processed tag (Usage page tag falls into Global
+ * class but Usage tag into the Local)
+ * @param data Value of the processed tag
+ * @return void
  */
 void usb_hid_report_set_last_item(usb_hid_report_path_t *usage_path, int32_t tag, int32_t data)
 …
         usb_hid_report_usage_path_t *item;
         if(!list_empty(&usage_path->link)){
                 item = list_get_instance(usage_path->link.prev, usb_hid_report_usage_path_t, link);
+        if(!list_empty(&usage_path->head)){
+                item = list_get_instance(usage_path->head.prev, usb_hid_report_usage_path_t, link);
                 switch(tag) {
 …
+}
+/**
+ *
+ *
+ * @param report_path
+ * @param path
+ * @param flags
+ * @return
+void usb_hid_print_usage_path(usb_hid_report_path_t *path)
+{
+        usb_log_debug("USAGE_PATH FOR RId(%d):\n", path->report_id);
+        usb_log_debug("\tLENGTH: %d\n", path->depth);
+        link_t *item = path->head.next;
+        usb_hid_report_usage_path_t *path_item;
+        while(item != &path->head) {
+                path_item = list_get_instance(item, usb_hid_report_usage_path_t, link);
+                usb_log_debug("\tUSAGE_PAGE: %X\n", path_item->usage_page);
+                usb_log_debug("\tUSAGE: %X\n", path_item->usage);
+                usb_log_debug("\tFLAGS: %d\n", path_item->flags);
+                item = item->next;
+        }
+}
+/**
+ * Compares two usage paths structures
+ *
+ * If USB_HID_PATH_COMPARE_COLLECTION_ONLY flag is given, the last item in report_path structure is forgotten
+ *
+ * @param report_path usage path structure to compare
+ * @param path usage patrh structure to compare
+ * @param flags Flags determining the mode of comparison
+ * @return EOK if both paths are identical, non zero number otherwise
  */
 int usb_hid_report_compare_usage_path(usb_hid_report_path_t *report_path,
 …
+                                }
                                 report_link = report_path->link.next;
                                 path_link = path->link.next;
+                                report_link = report_path->head.next;
+                                path_link = path->head.next;
                                 while((report_link != &report_path->link) && (path_link != &path->link)) {
+                                while((report_link != &report_path->head) && (path_link != &path->head)) {
                                         report_item = list_get_instance(report_link, usb_hid_report_usage_path_t, link);
                                         path_item = list_get_instance(path_link, usb_hid_report_usage_path_t, link);
 …
+                                }
+                                if((report_link == &report_path->link) && (path_link == &path->link)) {
+                                if(((report_link == &report_path->head) && (path_link == &path->head)) ||
+                                   (((flags & USB_HID_PATH_COMPARE_COLLECTION_ONLY) != 0) && (path_link = &path->head) && (report_link == report_path->head.prev))) {
                                         return EOK;
+                                }
 …
                 /* compare with only the end of path*/
                 case USB_HID_PATH_COMPARE_END:
+                                report_link = report_path->link.prev;
+                                path_link = path->link.prev;
+                                if(list_empty(&path->link)){
+                                if((flags & USB_HID_PATH_COMPARE_COLLECTION_ONLY) != 0) {
+                                        report_link = report_path->head.prev->prev;
+                                }
+                                else {
+                                        report_link = report_path->head.prev;
+                                }
+                                path_link = path->head.prev;
+                                if(list_empty(&path->head)){
                                         return EOK;
+                                }
                                 while((report_link != &report_path->link) && (path_link != &path->link)) {
+                                while((report_link != &report_path->head) && (path_link != &path->head)) {
                                         report_item = list_get_instance(report_link, usb_hid_report_usage_path_t, link);
                                         path_item = list_get_instance(path_link, usb_hid_report_usage_path_t, link);
 …
+                                }
                                 if(path_link == &path->link) {
+                                if(path_link == &path->head) {
                                         return EOK;
+                                }
 …
 /**
+ *
+ * @return
+ * Allocates and initializes new usage path structure.
+ *
+ * @return Initialized usage path structure
  */
 usb_hid_report_path_t *usb_hid_report_path(void)
 …
         usb_hid_report_path_t *path;
         path = malloc(sizeof(usb_hid_report_path_t));
         if(!path){
+        if(path == NULL){
                 return NULL;
+        }
 …
                 path->report_id = 0;
                 list_initialize(&path->link);
+                list_initialize(&path->head);
                 return path;
+        }
 …
 /**
+ *
+ * @param path
+ * Releases given usage path structure.
+ *
+ * @param path usage path structure to release
  * @return void
  */
 void usb_hid_report_path_free(usb_hid_report_path_t *path)
+{
         while(!list_empty(&path->link)){
+        while(!list_empty(&path->head)){
                 usb_hid_report_remove_last_item(path);
+        }
+        list_remove(&path->link);
+        free(path);
+}
 …
  * Clone content of given usage path to the new one
+ *
  * @param usage_path
  * @return
+ * @param usage_path Usage path structure to clone
+ * @return New copy of given usage path structure
  */
 usb_hid_report_path_t *usb_hid_report_path_clone(usb_hid_report_path_t *usage_path)
+{
+        link_t *path_link;
         usb_hid_report_usage_path_t *path_item;
         link_t *path_link;
+        usb_hid_report_usage_path_t *new_path_item;
         usb_hid_report_path_t *new_usage_path = usb_hid_report_path ();
 …
+        }
         if(list_empty(&usage_path->link)){
+        if(list_empty(&usage_path->head)){
                 return new_usage_path;
+        }
         path_link = usage_path->link.next;
         while(path_link != &usage_path->link) {
+        path_link = usage_path->head.next;
+        while(path_link != &usage_path->head) {
                 path_item = list_get_instance(path_link, usb_hid_report_usage_path_t, link);
+                usb_hid_report_path_append_item (new_usage_path, path_item->usage_page, path_item->usage);
+                new_path_item = malloc(sizeof(usb_hid_report_usage_path_t));
+                if(new_path_item == NULL) {
+                        return NULL;
+                }
+                list_initialize (&new_path_item->link);
+                new_path_item->usage_page = path_item->usage_page;
+                new_path_item->usage = path_item->usage;
+                new_path_item->flags = path_item->flags;
+                list_append(&new_path_item->link, &new_usage_path->head);
+                new_usage_path->depth++;
                 path_link = path_link->next;
 …
 /*** OUTPUT API **/
+/** Allocates output report buffer
+ *
+ * @param parser
+ * @param size
+ * @return
+ */
+uint8_t *usb_hid_report_output(usb_hid_report_parser_t *parser, size_t *size)
+{
+        if(parser == NULL) {
+/**
+ * Allocates output report buffer for output report
+ *
+ * @param parser Report parsed structure
+ * @param size Size of returned buffer
+ * @param report_id Report id of created output report
+ * @return Returns allocated output buffer for specified output
+ */
+uint8_t *usb_hid_report_output(usb_hid_report_t *report, size_t *size, uint8_t report_id)
+{
+        if(report == NULL) {
                 *size = 0;
                 return NULL;
+        }
         // read the last output report item
         usb_hid_report_item_t *last;
         link_t *link;
         link = parser->output.prev;
         if(link != &parser->output) {
                 last = list_get_instance(link, usb_hid_report_item_t, link);
+                *size = (last->offset + (last->size * last->count)) / 8;
                 uint8_t *buffer = malloc(sizeof(uint8_t) * (*size));
+                memset(buffer, 0, sizeof(uint8_t) * (*size));
                 usb_log_debug("output buffer: %s\n", usb_debug_str_buffer(buffer, *size, 0));
                 return buffer;
+        link_t *report_it = report->reports.next;
+        usb_hid_report_description_t *report_des = NULL;
+        while(report_it != &report->reports) {
+                report_des = list_get_instance(report_it, usb_hid_report_description_t, link);
+                if((report_des->report_id == report_id) && (report_des->type == USB_HID_REPORT_TYPE_OUTPUT)){
+                        break;
+                }
+                report_it = report_it->next;
+        }
+        if(report_des == NULL){
+                *size = 0;
+                return NULL;
+        }
         else {
+                *size = 0;
+                return NULL;
+                *size = (report_des->bit_length + (8 - 1))/8;
+                uint8_t *ret = malloc((*size) * sizeof(uint8_t));
+                memset(ret, 0, (*size) * sizeof(uint8_t));
+                return ret;
+        }
+}
 …
+ *
  * @param output Output report buffer
  * @return
+ * @return void
  */
 void usb_hid_report_output_free(uint8_t *output)
 …
 /** Returns size of output for given usage path
+ *
  * @param parser
  * @param path
  * @param flags
  * @return
  */
 size_t usb_hid_report_output_size(usb_hid_report_parser_t *parser,
+ * @param parser Opaque report parser structure
+ * @param path Usage path specified which items will be thought for the output
+ * @param flags Flags of usage path structure comparison
+ * @return Number of items matching the given usage path
+ */
+size_t usb_hid_report_output_size(usb_hid_report_t *report,
                                   usb_hid_report_path_t *path, int flags)
+{
+        size_t ret = 0;
+        link_t *item;
+        usb_hid_report_item_t *report_item;
+        if(parser == NULL) {
+        size_t ret = 0;
+        usb_hid_report_description_t *report_des;
+        if(report == NULL) {
                 return 0;
+        }
+        item = parser->output.next;
+        while(&parser->output != item) {
+                report_item = list_get_instance(item, usb_hid_report_item_t, link);
+                if(!USB_HID_ITEM_FLAG_CONSTANT(report_item->item_flags) &&
+                   (usb_hid_report_compare_usage_path(report_item->usage_path, path, flags) == EOK)) {
+                        ret += report_item->count;
+                }
+                item = item->next;
+        }
+        report_des = usb_hid_report_find_description (report, path->report_id, USB_HID_REPORT_TYPE_OUTPUT);
+        if(report_des == NULL){
+                return 0;
+        }
+        link_t *field_it = report_des->report_items.next;
+        usb_hid_report_field_t *field;
+        while(field_it != &report_des->report_items) {
+                field = list_get_instance(field_it, usb_hid_report_field_t, link);
+                if(USB_HID_ITEM_FLAG_CONSTANT(field->item_flags) == 0){
+                        usb_hid_report_path_append_item (field->collection_path, field->usage_page, field->usage);
+                        if(usb_hid_report_compare_usage_path (field->collection_path, path, flags) == EOK) {
+                                ret++;
+                        }
+                        usb_hid_report_remove_last_item (field->collection_path);
+                }
+                field_it = field_it->next;
+        }
         return ret;
 …
+}
+/** Updates the output report buffer by translated given data
+ *
+ * @param parser
+ * @param path
+ * @param flags
+ * @param buffer
+ * @param size
+ * @param data
+ * @param data_size
+ * @return
+ */
+int usb_hid_report_output_translate(usb_hid_report_parser_t *parser,
+                                    usb_hid_report_path_t *path, int flags,
+                                    uint8_t *buffer, size_t size,
+                                    int32_t *data, size_t data_size)
+{
+        usb_hid_report_item_t *report_item;
+/** Makes the output report buffer for data given in the report structure
+ *
+ * @param parser Opaque report parser structure
+ * @param path Usage path specifing which parts of output will be set
+ * @param flags Usage path structure comparison flags
+ * @param buffer Output buffer
+ * @param size Size of output buffer
+ * @return Error code
+ */
+int usb_hid_report_output_translate(usb_hid_report_t *report, uint8_t report_id,
+                                    uint8_t *buffer, size_t size)
+{
         link_t *item;
-        size_t idx=0;
-        int i=0;
         int32_t value=0;
         int offset;
         int length;
         int32_t tmp_value;
+        size_t offset_prefix = 0;
+        if(parser == NULL) {
+        if(report == NULL) {
                 return EINVAL;
+        }
+        if(parser->use_report_id != 0) {
+                buffer[0] = path->report_id;
+                offset_prefix = 8;
+        if(report->use_report_ids != 0) {
+                buffer[0] = report_id;
+        }
         usb_log_debug("OUTPUT BUFFER: %s\n", usb_debug_str_buffer(buffer,size, 0));
+        usb_log_debug("OUTPUT DATA[0]: %d, DATA[1]: %d, DATA[2]: %d\n", data[0], data[1], data[2]);
         item = parser->output.next;
         while(item != &parser->output) {
                 report_item = list_get_instance(item, usb_hid_report_item_t, link);
+                for(i=0; i<report_item->count; i++) {
                         if(idx >= data_size) {
                                 break;
+                        }
+        usb_hid_report_description_t *report_des;
+        report_des = usb_hid_report_find_description (report, report_id, USB_HID_REPORT_TYPE_OUTPUT);
+        if(report_des == NULL){
+                return EINVAL;
+        }
+        usb_hid_report_field_t *report_item;
+        item = report_des->report_items.next;
+        while(item != &report_des->report_items) {
+                report_item = list_get_instance(item, usb_hid_report_field_t, link);
                         if((USB_HID_ITEM_FLAG_VARIABLE(report_item->item_flags) == 0) ||
                                 ((report_item->usage_minimum == 0) && (report_item->usage_maximum == 0))) {
 //                              // variable item
                                 value = usb_hid_translate_data_reverse(report_item, data[idx++]);
                                 offset = report_item->offset + (i * report_item->size) + offset_prefix;
+                                // variable item
+                                value = usb_hid_translate_data_reverse(report_item, report_item->value);
+                                offset = report_item->offset;
                                 length = report_item->size;
+                        }
                         else {
                                 //bitmap
                                 value += usb_hid_translate_data_reverse(report_item, data[idx++]);
                                 offset = report_item->offset + offset_prefix;
                                 length = report_item->size * report_item->count;
+                                value += usb_hid_translate_data_reverse(report_item, report_item->value);
+                                offset = report_item->offset;
+                                length = report_item->size;
+                        }
 …
+                        }
                         else {
+                                // je to ve dvou!! FIXME: melo by to umet delsi jak 2
+                                // konec prvniho -- dolni x bitu
+                                tmp_value = value;
+                                tmp_value = tmp_value & ((1 << (8-(offset%8)))-1);
+                                tmp_value = tmp_value << (offset%8);
+                                int i = 0;
                                 uint8_t mask = 0;
+                                mask = ~(((1 << (8-(offset%8)))-1) << (offset%8));
+                                buffer[offset/8] = (buffer[offset/8] & mask) | tmp_value;
+                                // a ted druhej -- hornich length-x bitu
+                                value = value >> (8 - (offset % 8));
+                                value = value & ((1 << (length - (8 - (offset % 8)))) - 1);
+                                for(i = (offset/8); i <= ((offset+length-1)/8); i++) {
+                                        if(i == (offset/8)) {
+                                                tmp_value = value;
+                                                tmp_value = tmp_value & ((1 << (8-(offset%8)))-1);
+                                                tmp_value = tmp_value << (offset%8);
+                                                mask = ~(((1 << (8-(offset%8)))-1) << (offset%8));
+                                                buffer[i] = (buffer[i] & mask) | tmp_value;
+                                        }
+                                        else if (i == ((offset + length -1)/8)) {
+                                                value = value >> (length - ((offset + length) % 8));
+                                                value = value & ((1 << (length - ((offset + length) % 8))) - 1);
+                                mask = ((1 << (length - (8 - (offset % 8)))) - 1);
+                                buffer[(offset+length-1)/8] = (buffer[(offset+length-1)/8] & mask) | value;
+                        }
+                }
+                                                mask = (1 << (length - ((offset + length) % 8))) - 1;
+                                                buffer[i] = (buffer[i] & mask) | value;
+                                        }
+                                        else {
+                                                buffer[i] = value & (0xFF << i);
+                                        }
+                                }
+                        }
                 item = item->next;
 …
 /**
+ *
  * @param item
  * @param value
  * @return
  */
 int32_t usb_hid_translate_data_reverse(usb_hid_report_item_t *item, int value)
+ * Translate given data for putting them into the outoput report
+ * @param item Report item structure
+ * @param value Value to translate
+ * @return ranslated value
+ */
+uint32_t usb_hid_translate_data_reverse(usb_hid_report_field_t *item, int value)
+{
         int ret=0;
 …
+        return ret;
+}
+        return (uint32_t)ret;
+}
+/**
+ * Sets report id in usage path structure
+ *
+ * @param path Usage path structure
+ * @param report_id Report id to set
+ * @return Error code
+ */
 int usb_hid_report_path_set_report_id(usb_hid_report_path_t *path, uint8_t report_id)
+{
 …
         path->report_id = report_id;
+        return EOK;
+}
+/**
+ *
+ *
+ *
+ *
+ *
+ */
+int usb_hid_report_output_set_data(usb_hid_report_t *report,
+                                   usb_hid_report_path_t *path, int flags,
+                                  int *data, size_t data_size)
+{
+        size_t data_idx = 0;
+        if(report == NULL){
+                return EINVAL;
+        }
+        usb_hid_report_description_t *report_des;
+        report_des = usb_hid_report_find_description (report, path->report_id,
+                                                      USB_HID_REPORT_TYPE_OUTPUT);
+        if(report_des == NULL){
+                return EINVAL;
+        }
+        usb_hid_report_field_t *field;
+        link_t *field_it = report_des->report_items.next;
+        while(field_it != &report_des->report_items){
+                field = list_get_instance(field_it, usb_hid_report_field_t, link);
+                if(USB_HID_ITEM_FLAG_CONSTANT(field->item_flags) == 0) {
+                        usb_hid_report_path_append_item (field->collection_path, field->usage_page, field->usage);
+                        if(usb_hid_report_compare_usage_path (field->collection_path, path,
+                                                      flags) == EOK) {
+                                if(data_idx < data_size) {
+                                        field->value = data[data_idx++];
+                                }
+                                else {
+                                        field->value = 0;
+                                }
+                        }
+                        usb_hid_report_remove_last_item (field->collection_path);
+                }
+                field_it = field_it->next;
+        }
         return EOK;
+}
 …
+}
+usb_hid_report_field_t *usb_hid_report_get_sibling(usb_hid_report_t *report,
+                                                        usb_hid_report_field_t *field,
+                            usb_hid_report_path_t *path, int flags,
+                            usb_hid_report_type_t type)
+{
+        usb_hid_report_description_t *report_des = usb_hid_report_find_description (report, path->report_id, type);
+        link_t *field_it;
+        if(report_des == NULL){
+                return NULL;
+        }
+        if(field == NULL){
+                // vezmu prvni co mathuje podle path!!
+                field_it = report_des->report_items.next;
+        }
+        else {
+                field_it = field->link.next;
+        }
+        while(field_it != &report_des->report_items) {
+                field = list_get_instance(field_it, usb_hid_report_field_t, link);
+                usb_hid_report_path_append_item (field->collection_path, field->usage_page, field->usage);
+                if(usb_hid_report_compare_usage_path (field->collection_path, path, flags) == EOK){
+                        usb_hid_report_remove_last_item (field->collection_path);
+                        usb_log_debug("....OK\n");
+                        return field;
+                }
+                usb_hid_report_remove_last_item (field->collection_path);
+                field_it = field_it->next;
+        }
+        return NULL;
+}
 /**
  * @}

uspace/lib/usb/src/hidreport.c

-              r8595577b
+              re50cd7f
 int usb_hid_process_report_descriptor(usb_device_t *dev,
     usb_hid_report_parser_t *parser)
+    usb_hid_report_t *report)
+{
         if (dev == NULL || parser == NULL) {
+        if (dev == NULL || report == NULL) {
                 usb_log_error("Failed to process Report descriptor: wrong "
                     "parameters given.\n");
 …
         assert(report_desc != NULL);
         rc = usb_hid_parse_report_descriptor(parser, report_desc, report_size);
+        rc = usb_hid_parse_report_descriptor(report, report_desc, report_size);
         if (rc != EOK) {
                 usb_log_error("Problem parsing Report descriptor: %s.\n",
 …
+        }
         usb_hid_descriptor_print(parser);
+        usb_hid_descriptor_print(report);
         free(report_desc);

Context Navigation

Changes in / [8595577b:e50cd7f] in mainline

Legend:

uspace/drv/usbhid/kbd/kbddev.c

uspace/drv/usbhid/lgtch-ultrax/lgtch-ultrax.c

uspace/drv/usbhid/usbhid.c

uspace/drv/usbhid/usbhid.h

uspace/drv/usbkbd/kbddev.c

uspace/drv/usbkbd/kbddev.h

uspace/lib/usb/include/usb/classes/hid.h

uspace/lib/usb/include/usb/classes/hidparser.h

uspace/lib/usb/include/usb/classes/hidreport.h

uspace/lib/usb/src/hidparser.c

uspace/lib/usb/src/hidreport.c

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