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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
// This file is loaded into the browser window scope.
/* eslint-env mozilla/browser-window */
/**
* Handle keyboard navigation for toolbars.
* Having separate tab stops for every toolbar control results in an
* unmanageable number of tab stops. Therefore, we group buttons under a single
* tab stop and allow movement between them using left/right arrows.
* However, text inputs use the arrow keys for their own purposes, so they need
* their own tab stop. There are also groups of buttons before and after the
* URL bar input which should get their own tab stop. The subsequent buttons on
* the toolbar are then another tab stop after that.
* Tab stops for groups of buttons are set using the <toolbartabstop/> element.
* This element is invisible, but gets included in the tab order. When one of
* these gets focus, it redirects focus to the appropriate button. This avoids
* the need to continually manage the tabindex of toolbar buttons in response to
* toolbarchanges.
* In addition to linear navigation with tab and arrows, users can also type
* the first (or first few) characters of a button's name to jump directly to
* that button.
*/
ToolbarKeyboardNavigator = {
// Toolbars we want to be keyboard navigable.
kToolbars: [
CustomizableUI.AREA_TABSTRIP,
CustomizableUI.AREA_NAVBAR,
CustomizableUI.AREA_BOOKMARKS,
],
// Delay (in ms) after which to clear any search text typed by the user if
// the user hasn't typed anything further.
kSearchClearTimeout: 1000,
_isButton(aElem) {
if (aElem.getAttribute("keyNav") === "false") {
return false;
}
return (
aElem.tagName == "toolbarbutton" || aElem.getAttribute("role") == "button"
);
},
// Get a TreeWalker which includes only controls which should be keyboard
// navigable.
_getWalker(aRoot) {
if (aRoot._toolbarKeyNavWalker) {
return aRoot._toolbarKeyNavWalker;
}
let filter = aNode => {
if (aNode.tagName == "toolbartabstop") {
return NodeFilter.FILTER_ACCEPT;
}
// Special case for the "View site information" button, which isn't
// actionable in some cases but is still visible.
if (
aNode.id == "identity-box" &&
document.getElementById("urlbar").getAttribute("pageproxystate") ==
"invalid"
) {
return NodeFilter.FILTER_REJECT;
}
// Skip disabled elements.
if (aNode.disabled) {
return NodeFilter.FILTER_REJECT;
}
// Skip invisible elements.
const visible = aNode.checkVisibility({
checkVisibilityCSS: true,
flush: false,
});
if (!visible) {
return NodeFilter.FILTER_REJECT;
}
// This width check excludes the overflow button when there's no overflow.
const bounds = window.windowUtils.getBoundsWithoutFlushing(aNode);
if (bounds.width == 0) {
return NodeFilter.FILTER_SKIP;
}
if (this._isButton(aNode)) {
return NodeFilter.FILTER_ACCEPT;
}
return NodeFilter.FILTER_SKIP;
};
aRoot._toolbarKeyNavWalker = document.createTreeWalker(
aRoot,
NodeFilter.SHOW_ELEMENT,
filter
);
return aRoot._toolbarKeyNavWalker;
},
_initTabStops(aRoot) {
for (let stop of aRoot.getElementsByTagName("toolbartabstop")) {
// These are invisible, but because they need to be in the tab order,
// they can't get display: none or similar. They must therefore be
// explicitly hidden for accessibility.
stop.setAttribute("aria-hidden", "true");
stop.addEventListener("focus", this);
}
},
init() {
for (let id of this.kToolbars) {
let toolbar = document.getElementById(id);
// When enabled, no toolbar buttons should themselves be tabbable.
// We manage toolbar focus completely. This attribute ensures that CSS
// doesn't set -moz-user-focus: normal.
toolbar.setAttribute("keyNav", "true");
this._initTabStops(toolbar);
toolbar.addEventListener("keydown", this);
toolbar.addEventListener("keypress", this);
}
CustomizableUI.addListener(this);
},
uninit() {
for (let id of this.kToolbars) {
let toolbar = document.getElementById(id);
for (let stop of toolbar.getElementsByTagName("toolbartabstop")) {
stop.removeEventListener("focus", this);
}
toolbar.removeEventListener("keydown", this);
toolbar.removeEventListener("keypress", this);
toolbar.removeAttribute("keyNav");
}
CustomizableUI.removeListener(this);
},
// CustomizableUI event handler
onWidgetAdded(aWidgetId, aArea) {
if (!this.kToolbars.includes(aArea)) {
return;
}
let widget = document.getElementById(aWidgetId);
if (!widget) {
return;
}
this._initTabStops(widget);
},
_focusButton(aButton) {
// Toolbar buttons aren't focusable because if they were, clicking them
// would focus them, which is undesirable. Therefore, we must make a
// button focusable only when we want to focus it.
aButton.setAttribute("tabindex", "-1");
aButton.focus();
// We could remove tabindex now, but even though the button keeps DOM
// focus, a11y gets confused because the button reports as not being
// focusable. This results in weirdness if the user switches windows and
// then switches back. It also means that focus can't be restored to the
// button when a panel is closed. Instead, remove tabindex when the button
// loses focus.
aButton.addEventListener("blur", this);
},
_onButtonBlur(aEvent) {
if (document.activeElement == aEvent.target) {
// This event was fired because the user switched windows. This button
// will get focus again when the user returns.
return;
}
if (aEvent.target.getAttribute("open") == "true") {
// The button activated a panel. The button should remain
// focusable so that focus can be restored when the panel closes.
return;
}
aEvent.target.removeEventListener("blur", this);
aEvent.target.removeAttribute("tabindex");
},
_onTabStopFocus(aEvent) {
let toolbar = aEvent.target.closest("toolbar");
let walker = this._getWalker(toolbar);
let oldFocus = aEvent.relatedTarget;
if (oldFocus) {
// Save this because we might rewind focus and the subsequent focus event
// won't get a relatedTarget.
this._isFocusMovingBackward =
oldFocus.compareDocumentPosition(aEvent.target) &
Node.DOCUMENT_POSITION_PRECEDING;
if (this._isFocusMovingBackward && oldFocus && this._isButton(oldFocus)) {
// Shift+tabbing from a button will land on its toolbartabstop. Skip it.
document.commandDispatcher.rewindFocus();
return;
}
}
walker.currentNode = aEvent.target;
let button = walker.nextNode();
if (!button || !this._isButton(button)) {
// If we think we're moving backward, and focus came from outside the
// toolbox, we might actually have wrapped around. In this case, the
// event target was the first tabstop. If we can't find a button, e.g.
// because we're in a popup where most buttons are hidden, we
// should ensure focus keeps moving forward:
if (
this._isFocusMovingBackward &&
(!oldFocus || !gNavToolbox.contains(oldFocus))
) {
let allStops = Array.from(
gNavToolbox.querySelectorAll("toolbartabstop")
);
// Find the previous toolbartabstop:
let earlierVisibleStopIndex = allStops.indexOf(aEvent.target) - 1;
// Then work out if any of the earlier ones are in a visible
// toolbar:
while (earlierVisibleStopIndex >= 0) {
let stopToolbar =
allStops[earlierVisibleStopIndex].closest("toolbar");
if (!stopToolbar.collapsed) {
break;
}
earlierVisibleStopIndex--;
}
// If we couldn't find any earlier visible stops, we're not moving
// backwards, we're moving forwards and wrapped around:
if (earlierVisibleStopIndex == -1) {
this._isFocusMovingBackward = false;
}
}
// No navigable buttons for this tab stop. Skip it.
if (this._isFocusMovingBackward) {
document.commandDispatcher.rewindFocus();
} else {
document.commandDispatcher.advanceFocus();
}
return;
}
this._focusButton(button);
},
navigateButtons(aToolbar, aPrevious) {
let oldFocus = document.activeElement;
let walker = this._getWalker(aToolbar);
// Start from the current control and walk to the next/previous control.
walker.currentNode = oldFocus;
let newFocus;
if (aPrevious) {
newFocus = walker.previousNode();
} else {
newFocus = walker.nextNode();
}
if (!newFocus || newFocus.tagName == "toolbartabstop") {
// There are no more controls or we hit a tab stop placeholder.
return;
}
this._focusButton(newFocus);
},
_onKeyDown(aEvent) {
let focus = document.activeElement;
if (
aEvent.key != " " &&
aEvent.key.length == 1 &&
this._isButton(focus) &&
// Don't handle characters if the user is focused in a panel anchored
// to the toolbar.
!focus.closest("panel")
) {
this._onSearchChar(aEvent.currentTarget, aEvent.key);
return;
}
// Anything that doesn't trigger search should clear the search.
this._clearSearch();
if (
aEvent.altKey ||
aEvent.controlKey ||
aEvent.metaKey ||
aEvent.shiftKey ||
!this._isButton(focus)
) {
return;
}
switch (aEvent.key) {
case "ArrowLeft":
// Previous if UI is LTR, next if UI is RTL.
this.navigateButtons(aEvent.currentTarget, !window.RTL_UI);
break;
case "ArrowRight":
// Previous if UI is RTL, next if UI is LTR.
this.navigateButtons(aEvent.currentTarget, window.RTL_UI);
break;
default:
return;
}
aEvent.preventDefault();
},
_clearSearch() {
this._searchText = "";
if (this._clearSearchTimeout) {
clearTimeout(this._clearSearchTimeout);
this._clearSearchTimeout = null;
}
},
_onSearchChar(aToolbar, aChar) {
if (this._clearSearchTimeout) {
// The user just typed a character, so reset the timer.
clearTimeout(this._clearSearchTimeout);
}
// Convert to lower case so we can do case insensitive searches.
let char = aChar.toLowerCase();
// If the user has only typed a single character and they type the same
// character again, they want to move to the next item starting with that
// same character. Effectively, it's as if there was no existing search.
// In that case, we just leave this._searchText alone.
if (!this._searchText) {
this._searchText = char;
} else if (this._searchText != char) {
this._searchText += char;
}
// Clear the search if the user doesn't type anything more within the timeout.
this._clearSearchTimeout = setTimeout(
this._clearSearch.bind(this),
this.kSearchClearTimeout
);
let oldFocus = document.activeElement;
let walker = this._getWalker(aToolbar);
// Search forward after the current control.
walker.currentNode = oldFocus;
for (
let newFocus = walker.nextNode();
newFocus;
newFocus = walker.nextNode()
) {
if (this._doesSearchMatch(newFocus)) {
this._focusButton(newFocus);
return;
}
}
// No match, so search from the start until the current control.
walker.currentNode = walker.root;
for (
let newFocus = walker.firstChild();
newFocus && newFocus != oldFocus;
newFocus = walker.nextNode()
) {
if (this._doesSearchMatch(newFocus)) {
this._focusButton(newFocus);
return;
}
}
},
_doesSearchMatch(aElem) {
if (!this._isButton(aElem)) {
return false;
}
for (let attrib of ["aria-label", "label", "tooltiptext"]) {
let label = aElem.getAttribute(attrib);
if (!label) {
continue;
}
// Convert to lower case so we do a case insensitive comparison.
// (this._searchText is already lower case.)
label = label.toLowerCase();
if (label.startsWith(this._searchText)) {
return true;
}
}
return false;
},
_onKeyPress(aEvent) {
let focus = document.activeElement;
if (
(aEvent.key != "Enter" && aEvent.key != " ") ||
!this._isButton(focus)
) {
return;
}
if (focus.getAttribute("type") == "menu") {
focus.open = true;
return;
}
// Several buttons specifically don't use command events; e.g. because
// they want to activate for middle click. Therefore, simulate a click
// event if we know they handle click explicitly and don't handle
// commands.
const usesClickInsteadOfCommand = (() => {
if (focus.tagName != "toolbarbutton") {
return true;
}
return !focus.hasAttribute("oncommand") && focus.hasAttribute("onclick");
})();
if (!usesClickInsteadOfCommand) {
return;
}
focus.dispatchEvent(
new PointerEvent("click", {
bubbles: true,
ctrlKey: aEvent.ctrlKey,
altKey: aEvent.altKey,
shiftKey: aEvent.shiftKey,
metaKey: aEvent.metaKey,
})
);
},
handleEvent(aEvent) {
switch (aEvent.type) {
case "focus":
this._onTabStopFocus(aEvent);
break;
case "keydown":
this._onKeyDown(aEvent);
break;
case "keypress":
this._onKeyPress(aEvent);
break;
case "blur":
this._onButtonBlur(aEvent);
break;
}
},
};