Changes in uspace/drv/usbhid/kbd/kbddev.c [323b0ec:4125b7d] in mainline

File:

• uspace/drv/usbhid/kbd/kbddev.c (modified) (17 diffs)

uspace/drv/usbhid/kbd/kbddev.c

@@ -177 +177 @@
 /*----------------------------------------------------------------------------*/
 
-//static void usb_kbd_process_keycodes(const uint8_t *key_codes, size_t count,
-//    uint8_t report_id, void *arg);
-
-//static const usb_hid_report_in_callbacks_t usb_kbd_parser_callbacks = {
-//      .keyboard = usb_kbd_process_keycodes
-//};
+static void usb_kbd_process_keycodes(const uint8_t *key_codes, size_t count,
+    uint8_t report_id, void *arg);
+
+static const usb_hid_report_in_callbacks_t usb_kbd_parser_callbacks = {
+        .keyboard = usb_kbd_process_keycodes
+};
 
 /*----------------------------------------------------------------------------*/
@@ -203 +203 @@
 /*----------------------------------------------------------------------------*/
 /** Mapping of USB modifier key codes to generic modifier key codes. */
-//static const keycode_t usbhid_modifiers_keycodes[USB_HID_MOD_COUNT] = {
-//      KC_LCTRL,         /* USB_HID_MOD_LCTRL */
-//      KC_LSHIFT,        /* USB_HID_MOD_LSHIFT */
-//      KC_LALT,          /* USB_HID_MOD_LALT */
-//      0,                /* USB_HID_MOD_LGUI */
-//      KC_RCTRL,         /* USB_HID_MOD_RCTRL */
-//      KC_RSHIFT,        /* USB_HID_MOD_RSHIFT */
-//      KC_RALT,          /* USB_HID_MOD_RALT */
-//      0,                /* USB_HID_MOD_RGUI */
-//};
-
-//typedef enum usbhid_lock_code {
-//      USB_KBD_LOCK_NUM = 0x53,
-//      USB_KBD_LOCK_CAPS = 0x39,
-//      USB_KBD_LOCK_SCROLL = 0x47,
-//      USB_KBD_LOCK_COUNT = 3
-//} usbhid_lock_code;
-
-//static const usbhid_lock_code usbhid_lock_codes[USB_KBD_LOCK_COUNT] = {
-//      USB_KBD_LOCK_NUM,
-//      USB_KBD_LOCK_CAPS,
-//      USB_KBD_LOCK_SCROLL
-//};
+static const keycode_t usbhid_modifiers_keycodes[USB_HID_MOD_COUNT] = {
+        KC_LCTRL,         /* USB_HID_MOD_LCTRL */
+        KC_LSHIFT,        /* USB_HID_MOD_LSHIFT */
+        KC_LALT,          /* USB_HID_MOD_LALT */
+        0,                /* USB_HID_MOD_LGUI */
+        KC_RCTRL,         /* USB_HID_MOD_RCTRL */
+        KC_RSHIFT,        /* USB_HID_MOD_RSHIFT */
+        KC_RALT,          /* USB_HID_MOD_RALT */
+        0,                /* USB_HID_MOD_RGUI */
+};
+
+typedef enum usbhid_lock_code {
+        USB_KBD_LOCK_NUM = 0x53,
+        USB_KBD_LOCK_CAPS = 0x39,
+        USB_KBD_LOCK_SCROLL = 0x47,
+        USB_KBD_LOCK_COUNT = 3
+} usbhid_lock_code;
+
+static const usbhid_lock_code usbhid_lock_codes[USB_KBD_LOCK_COUNT] = {
+        USB_KBD_LOCK_NUM,
+        USB_KBD_LOCK_CAPS,
+        USB_KBD_LOCK_SCROLL
+};
 
 /*----------------------------------------------------------------------------*/
@@ -299 +299 @@
                 return;
         }
-                
+        
+        unsigned i = 0;
+        
         /* Reset the LED data. */
         memset(kbd_dev->led_data, 0, kbd_dev->led_output_size * sizeof(int32_t));
-        usb_log_debug("Creating output report:\n");
-
-        usb_hid_report_field_t *field = usb_hid_report_get_sibling(
-            hid_dev->report, NULL, kbd_dev->led_path, 
-            USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY | USB_HID_PATH_COMPARE_END,
-            USB_HID_REPORT_TYPE_OUTPUT);
-        
-        while (field != NULL) {
-
-                if ((field->usage == USB_HID_LED_NUM_LOCK) 
-                    && (kbd_dev->mods & KM_NUM_LOCK)){
-                        field->value = 1;
-                }
-
-                if ((field->usage == USB_HID_LED_CAPS_LOCK) 
-                    && (kbd_dev->mods & KM_CAPS_LOCK)){
-                        field->value = 1;
-                }
-
-                if ((field->usage == USB_HID_LED_SCROLL_LOCK) 
-                    && (kbd_dev->mods & KM_SCROLL_LOCK)){
-                        field->value = 1;
-                }
-                
-                field = usb_hid_report_get_sibling(hid_dev->report, field,
-                    kbd_dev->led_path, USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY 
-                    | USB_HID_PATH_COMPARE_END, USB_HID_REPORT_TYPE_OUTPUT);
-        }
-        
-        // TODO: what about the Report ID?
-        int rc = usb_hid_report_output_translate(hid_dev->report, 0,
-            kbd_dev->output_buffer, kbd_dev->output_size);
+        
+        if ((kbd_dev->mods & KM_NUM_LOCK) && (i < kbd_dev->led_output_size)) {
+                kbd_dev->led_data[i++] = USB_HID_LED_NUM_LOCK;
+        }
+        
+        if ((kbd_dev->mods & KM_CAPS_LOCK) && (i < kbd_dev->led_output_size)) {
+                kbd_dev->led_data[i++] = USB_HID_LED_CAPS_LOCK;
+        }
+        
+        if ((kbd_dev->mods & KM_SCROLL_LOCK) 
+            && (i < kbd_dev->led_output_size)) {
+                kbd_dev->led_data[i++] = USB_HID_LED_SCROLL_LOCK;
+        }
+
+        // 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);
         
         if (rc != EOK) {
@@ -492 +485 @@
  */
 static void usb_kbd_check_key_changes(usb_hid_dev_t *hid_dev, 
-    usb_kbd_t *kbd_dev/*, const uint8_t *key_codes, size_t count*/)
+    usb_kbd_t *kbd_dev, const uint8_t *key_codes, size_t count)
 {
         unsigned int key;
@@ -506 +499 @@
          */
         i = 0;
-        while (i < kbd_dev->key_count && kbd_dev->keys[i] != ERROR_ROLLOVER) {
+        while (i < count && key_codes[i] != ERROR_ROLLOVER) {
                 ++i;
         }
-        if (i != kbd_dev->key_count) {
+        if (i != count) {
                 usb_log_debug("Phantom state occured.\n");
                 // phantom state, do nothing
                 return;
         }
+        
+        /* TODO: quite dummy right now, think of better implementation */
+        assert(count == kbd_dev->key_count);
         
         /*
          * 1) Key releases
          */
-        for (j = 0; j < kbd_dev->key_count; ++j) {
+        for (j = 0; j < count; ++j) {
                 // try to find the old key in the new key list
                 i = 0;
                 while (i < kbd_dev->key_count
-                    && kbd_dev->keys[i] != kbd_dev->keys_old[j]) {
+                    && key_codes[i] != kbd_dev->keys[j]) {
                         ++i;
                 }
                 
-                if (i == kbd_dev->key_count) {
+                if (i == count) {
                         // not found, i.e. the key was released
-                        key = usbhid_parse_scancode(kbd_dev->keys_old[j]);
+                        key = usbhid_parse_scancode(kbd_dev->keys[j]);
                         if (!usb_kbd_is_lock(key)) {
                                 usb_kbd_repeat_stop(kbd_dev, key);
@@ -545 +541 @@
                 // try to find the new key in the old key list
                 j = 0;
-                while (j < kbd_dev->key_count 
-                    && kbd_dev->keys_old[j] != kbd_dev->keys[i]) { 
+                while (j < count && kbd_dev->keys[j] != key_codes[i]) { 
                         ++j;
                 }
                 
-                if (j == kbd_dev->key_count) {
+                if (j == count) {
                         // not found, i.e. new key pressed
-                        key = usbhid_parse_scancode(kbd_dev->keys[i]);
+                        key = usbhid_parse_scancode(key_codes[i]);
                         usb_log_debug2("Key pressed: %d (keycode: %d)\n", key,
-                            kbd_dev->keys[i]);
-                        usb_kbd_push_ev(hid_dev, kbd_dev, KEY_PRESS, key);
+                            key_codes[i]);
+                        usb_kbd_push_ev(hid_dev, kbd_dev, KEY_PRESS, 
+                            key);
                         if (!usb_kbd_is_lock(key)) {
                                 usb_kbd_repeat_start(kbd_dev, key);
@@ -564 +560 @@
         }
         
-//      usb_log_debug("Old keys: ");
-//      for (i = 0; i < kbd_dev->key_count; ++i) {
-//              usb_log_debug("%d ", kbd_dev->keys_old[i]);
-//      }
-//      usb_log_debug("\n");
-        
-        
-//      usb_log_debug("New keys: ");
-//      for (i = 0; i < kbd_dev->key_count; ++i) {
-//              usb_log_debug("%d ", kbd_dev->keys[i]);
-//      }
-//      usb_log_debug("\n");
-        
-        memcpy(kbd_dev->keys_old, kbd_dev->keys, kbd_dev->key_count * 4);
-        
-        usb_log_debug2("New stored keys: ");
-        for (i = 0; i < kbd_dev->key_count; ++i) {
-                usb_log_debug2("%d ", kbd_dev->keys_old[i]);
-        }
-        usb_log_debug2("\n");
+        memcpy(kbd_dev->keys, key_codes, count);
+
+        usb_log_debug("New stored keycodes: %s\n", 
+            usb_debug_str_buffer(kbd_dev->keys, kbd_dev->key_count, 0));
 }
 
@@ -605 +585 @@
  * @sa usb_kbd_check_key_changes(), usb_kbd_check_modifier_changes()
  */
-//static void usb_kbd_process_keycodes(const uint8_t *key_codes, size_t count,
-//    uint8_t report_id, void *arg)
-//{
-//      if (arg == NULL) {
-//              usb_log_warning("Missing argument in callback "
-//                  "usbhid_process_keycodes().\n");
-//              return;
-//      }
-        
-//      usb_hid_dev_t *hid_dev = (usb_hid_dev_t *)arg;
-        
-//      if (hid_dev->data == NULL) {
-//              usb_log_warning("Missing KBD device structure in callback.\n");
-//              return;
-//      }
-        
-//      usb_kbd_t *kbd_dev = (usb_kbd_t *)hid_dev->data;
-
-//      usb_log_debug("Got keys from parser (report id: %u): %s\n", 
-//          report_id, usb_debug_str_buffer(key_codes, count, 0));
-        
-//      if (count != kbd_dev->key_count) {
-//              usb_log_warning("Number of received keycodes (%zu) differs from"
-//                  " expected (%zu).\n", count, kbd_dev->key_count);
-//              return;
-//      }
-        
-//      ///usb_kbd_check_modifier_changes(kbd_dev, key_codes, count);
-//      usb_kbd_check_key_changes(hid_dev, kbd_dev, key_codes, count);
-//}
+static void usb_kbd_process_keycodes(const uint8_t *key_codes, size_t count,
+    uint8_t report_id, void *arg)
+{
+        if (arg == NULL) {
+                usb_log_warning("Missing argument in callback "
+                    "usbhid_process_keycodes().\n");
+                return;
+        }
+        
+        usb_hid_dev_t *hid_dev = (usb_hid_dev_t *)arg;
+        
+        if (hid_dev->data == NULL) {
+                usb_log_warning("Missing KBD device structure in callback.\n");
+                return;
+        }
+        
+        usb_kbd_t *kbd_dev = (usb_kbd_t *)hid_dev->data;
+
+        usb_log_debug("Got keys from parser (report id: %u): %s\n", 
+            report_id, usb_debug_str_buffer(key_codes, count, 0));
+        
+        if (count != kbd_dev->key_count) {
+                usb_log_warning("Number of received keycodes (%zu) differs from"
+                    " expected (%zu).\n", count, kbd_dev->key_count);
+                return;
+        }
+        
+        ///usb_kbd_check_modifier_changes(kbd_dev, key_codes, count);
+        usb_kbd_check_key_changes(hid_dev, kbd_dev, key_codes, count);
+}
 
 /*----------------------------------------------------------------------------*/
@@ -658 +638 @@
                                  uint8_t *buffer, size_t actual_size)
 {
-        assert(hid_dev->report != NULL);
-        assert(hid_dev != NULL);
-        assert(hid_dev->data != NULL);
-        
-        usb_kbd_t *kbd_dev = (usb_kbd_t *)hid_dev->data;
+        assert(hid_dev->parser != NULL);
 
         usb_log_debug("Calling usb_hid_parse_report() with "
@@ -672 +648 @@
         usb_hid_report_path_append_item(path, USB_HIDUT_PAGE_KEYBOARD, 0);
         //usb_hid_report_path_set_report_id(path, 0);
-
-        uint8_t report_id;
-        int rc = usb_hid_parse_report(hid_dev->report, buffer, actual_size, 
-            &report_id);
+        
+        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);
+
+        usb_hid_report_path_free(path);
         
         if (rc != EOK) {
-                usb_log_warning("Error in usb_hid_parse_report():"
+                usb_log_warning("Error in usb_hid_boot_keyboard_input_report():"
                     "%s\n", str_error(rc));
         }
-        
-        usb_hid_report_path_set_report_id (path, report_id);
-        
-        // fill in the currently pressed keys
-        
-        usb_hid_report_field_t *field = usb_hid_report_get_sibling(
-            hid_dev->report, NULL, path, 
-            USB_HID_PATH_COMPARE_END | USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY, 
-            USB_HID_REPORT_TYPE_INPUT);
-        unsigned i = 0;
-        
-        while (field != NULL) {
-                usb_log_debug2("FIELD (%p) - VALUE(%d) USAGE(%u)\n", 
-                    field, field->value, field->usage);
-                
-                assert(i < kbd_dev->key_count);
-//              if (i == kbd_dev->key_count) {
-//                      break;
-//              }
-                
-                // save the key usage
-                /* TODO: maybe it's not good to save value, nor usage
-                 *       as the value may be e.g. 1 for LEDs and usage may be
-                 *       value of the LED. On the other hand, in case of normal
-                 *       keys, the usage is more important and we must check
-                 *       that. One possible solution: distinguish between those
-                 *       two parts of the Report somehow.
-                 */
-                if (field->value != 0) {
-                        kbd_dev->keys[i] = field->usage;
-                }
-                else {
-                        kbd_dev->keys[i] = 0;
-                }
-                usb_log_debug2("Saved %u. key usage %d\n", i, kbd_dev->keys[i]);
-                
-                ++i;
-                field = usb_hid_report_get_sibling(hid_dev->report, 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);
-        
-        usb_kbd_check_key_changes(hid_dev, kbd_dev);
 }
 
@@ -814 +747 @@
         
         kbd_dev->key_count = usb_hid_report_input_length(
-            hid_dev->report, path, 
+            hid_dev->parser, path, 
             USB_HID_PATH_COMPARE_END | USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY);
         usb_hid_report_path_free(path);
@@ -820 +753 @@
         usb_log_debug("Size of the input report: %zu\n", kbd_dev->key_count);
         
-        kbd_dev->keys = (int32_t *)calloc(kbd_dev->key_count, sizeof(int32_t));
+        kbd_dev->keys = (uint8_t *)calloc(kbd_dev->key_count, sizeof(uint8_t));
         
         if (kbd_dev->keys == NULL) {
@@ -828 +761 @@
         }
         
-        kbd_dev->keys_old = 
-                (int32_t *)calloc(kbd_dev->key_count, sizeof(int32_t));
-        
-        if (kbd_dev->keys_old == NULL) {
-                usb_log_fatal("No memory!\n");
-                free(kbd_dev->keys);
-                free(kbd_dev);
-                return ENOMEM;
-        }
-        
         /*
          * Output report
          */
         kbd_dev->output_size = 0;
-        kbd_dev->output_buffer = usb_hid_report_output(hid_dev->report, 
-            &kbd_dev->output_size, 0);
-        if (kbd_dev->output_buffer == NULL) {
+        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) {
                 usb_log_warning("Error creating output report buffer.\n");
                 free(kbd_dev->keys);
-                return ENOMEM;  /* TODO: other error code */
+                free(kbd_dev);
+                return ENOMEM;
         }
         
@@ -856 +780 @@
             kbd_dev->led_path, USB_HIDUT_PAGE_LED, 0);
         
-        kbd_dev->led_output_size = usb_hid_report_output_size(hid_dev->report, 
+        kbd_dev->led_output_size = usb_hid_report_output_size(hid_dev->parser, 
             kbd_dev->led_path, 
             USB_HID_PATH_COMPARE_END | USB_HID_PATH_COMPARE_USAGE_PAGE_ONLY);
@@ -984 +908 @@
         }
         
-        // free all buffers
-        if ((*kbd_dev)->keys != NULL) {
-                free((*kbd_dev)->keys);
-        }
-        if ((*kbd_dev)->keys_old != NULL) {
-                free((*kbd_dev)->keys_old);
-        }
-        if ((*kbd_dev)->led_data != NULL) {
-                free((*kbd_dev)->led_data);
-        }
-        if ((*kbd_dev)->output_buffer != NULL) {
-                free((*kbd_dev)->output_buffer);
-        }
-        if ((*kbd_dev)->led_path != NULL) {
-                usb_hid_report_path_free((*kbd_dev)->led_path);
-        }
-        if ((*kbd_dev)->output_buffer != NULL) {
-                usb_hid_report_output_free((*kbd_dev)->output_buffer);
-        }
+        // free the output buffer
+        usb_hid_report_output_free((*kbd_dev)->output_buffer);
 
         free(*kbd_dev);
@@ -1022 +929 @@
                 } else {
                         usb_kbd_free(&kbd_dev);
-                        hid_dev->data = NULL;
                 }
         }
@@ -1031 +937 @@
 int usb_kbd_set_boot_protocol(usb_hid_dev_t *hid_dev)
 {
-        int rc = usb_hid_parse_report_descriptor(hid_dev->report, 
+        int rc = usb_hid_parse_report_descriptor(hid_dev->parser, 
             USB_KBD_BOOT_REPORT_DESCRIPTOR, 
             USB_KBD_BOOT_REPORT_DESCRIPTOR_SIZE);