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diff --git a/browser/components/urlbar/UrlbarTokenizer.sys.mjs b/browser/components/urlbar/UrlbarTokenizer.sys.mjs
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+++ b/browser/components/urlbar/UrlbarTokenizer.sys.mjs
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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
+ * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
+
+/**
+ * This module exports a tokenizer to be used by the urlbar model.
+ * Emitted tokens are objects in the shape { type, value }, where type is one
+ * of UrlbarTokenizer.TYPE.
+ */
+
+import { XPCOMUtils } from "resource://gre/modules/XPCOMUtils.sys.mjs";
+
+const lazy = {};
+ChromeUtils.defineESModuleGetters(lazy, {
+  UrlbarUtils: "resource:///modules/UrlbarUtils.sys.mjs",
+});
+
+XPCOMUtils.defineLazyGetter(lazy, "logger", () =>
+  lazy.UrlbarUtils.getLogger({ prefix: "Tokenizer" })
+);
+
+export var UrlbarTokenizer = {
+  // Regex matching on whitespaces.
+  REGEXP_SPACES: /\s+/,
+  REGEXP_SPACES_START: /^\s+/,
+
+  // Regex used to guess url-like strings.
+  // These are not expected to be 100% correct, we accept some user mistypes
+  // and we're unlikely to be able to cover 100% of the cases.
+  REGEXP_LIKE_PROTOCOL: /^[A-Z+.-]+:\/*(?!\/)/i,
+  REGEXP_USERINFO_INVALID_CHARS: /[^\w.~%!$&'()*+,;=:-]/,
+  REGEXP_HOSTPORT_INVALID_CHARS: /[^\[\]A-Z0-9.:-]/i,
+  REGEXP_SINGLE_WORD_HOST: /^[^.:]+$/i,
+  REGEXP_HOSTPORT_IP_LIKE: /^(?=(.*[.:].*){2})[a-f0-9\.\[\]:]+$/i,
+  // This accepts partial IPv4.
+  REGEXP_HOSTPORT_INVALID_IP:
+    /\.{2,}|\d{5,}|\d{4,}(?![:\]])|^\.|^(\d+\.){4,}\d+$|^\d{4,}$/,
+  // This only accepts complete IPv4.
+  REGEXP_HOSTPORT_IPV4: /^(\d{1,3}\.){3,}\d{1,3}(:\d+)?$/,
+  // This accepts partial IPv6.
+  REGEXP_HOSTPORT_IPV6: /^\[([0-9a-f]{0,4}:){0,7}[0-9a-f]{0,4}\]?$/i,
+  REGEXP_COMMON_EMAIL: /^[\w!#$%&'*+/=?^`{|}~.-]+@[\[\]A-Z0-9.-]+$/i,
+  REGEXP_HAS_PORT: /:\d+$/,
+  // Regex matching a percent encoded char at the beginning of a string.
+  REGEXP_PERCENT_ENCODED_START: /^(%[0-9a-f]{2}){2,}/i,
+  // Regex matching scheme and colon, plus, if present, two slashes.
+  REGEXP_PREFIX: /^[a-z-]+:(?:\/){0,2}/i,
+
+  TYPE: {
+    TEXT: 1,
+    POSSIBLE_ORIGIN: 2, // It may be an ip, a domain, but even just a single word used as host.
+    POSSIBLE_URL: 3, // Consumers should still check this with a fixup.
+    RESTRICT_HISTORY: 4,
+    RESTRICT_BOOKMARK: 5,
+    RESTRICT_TAG: 6,
+    RESTRICT_OPENPAGE: 7,
+    RESTRICT_SEARCH: 8,
+    RESTRICT_TITLE: 9,
+    RESTRICT_URL: 10,
+    RESTRICT_ACTION: 11,
+  },
+
+  // The special characters below can be typed into the urlbar to restrict
+  // the search to a certain category, like history, bookmarks or open pages; or
+  // to force a match on just the title or url.
+  // These restriction characters can be typed alone, or at word boundaries,
+  // provided their meaning cannot be confused, for example # could be present
+  // in a valid url, and thus it should not be interpreted as a restriction.
+  RESTRICT: {
+    HISTORY: "^",
+    BOOKMARK: "*",
+    TAG: "+",
+    OPENPAGE: "%",
+    SEARCH: "?",
+    TITLE: "#",
+    URL: "$",
+    ACTION: ">",
+  },
+
+  // The keys of characters in RESTRICT that will enter search mode.
+  get SEARCH_MODE_RESTRICT() {
+    return new Set([
+      this.RESTRICT.HISTORY,
+      this.RESTRICT.BOOKMARK,
+      this.RESTRICT.OPENPAGE,
+      this.RESTRICT.SEARCH,
+      this.RESTRICT.ACTION,
+    ]);
+  },
+
+  /**
+   * Returns whether the passed in token looks like a URL.
+   * This is based on guessing and heuristics, that means if this function
+   * returns false, it's surely not a URL, if it returns true, the result must
+   * still be verified through URIFixup.
+   *
+   * @param {string} token
+   *        The string token to verify
+   * @param {boolean} [requirePath] The url must have a path
+   * @returns {boolean} whether the token looks like a URL.
+   */
+  looksLikeUrl(token, { requirePath = false } = {}) {
+    if (token.length < 2) {
+      return false;
+    }
+    // Ignore spaces and require path for the data: protocol.
+    if (token.startsWith("data:")) {
+      return token.length > 5;
+    }
+    if (this.REGEXP_SPACES.test(token)) {
+      return false;
+    }
+    // If it starts with something that looks like a protocol, it's likely a url.
+    if (this.REGEXP_LIKE_PROTOCOL.test(token)) {
+      return true;
+    }
+    // Guess path and prePath. At this point we should be analyzing strings not
+    // having a protocol.
+    let slashIndex = token.indexOf("/");
+    let prePath = slashIndex != -1 ? token.slice(0, slashIndex) : token;
+    if (!this.looksLikeOrigin(prePath, { ignoreKnownDomains: true })) {
+      return false;
+    }
+
+    let path = slashIndex != -1 ? token.slice(slashIndex) : "";
+    lazy.logger.debug("path", path);
+    if (requirePath && !path) {
+      return false;
+    }
+    // If there are both path and userinfo, it's likely a url.
+    let atIndex = prePath.indexOf("@");
+    let userinfo = atIndex != -1 ? prePath.slice(0, atIndex) : "";
+    if (path.length && userinfo.length) {
+      return true;
+    }
+
+    // If the first character after the slash in the path is a letter, then the
+    // token may be an "abc/def" url.
+    if (/^\/[a-z]/i.test(path)) {
+      return true;
+    }
+    // If the path contains special chars, it is likely a url.
+    if (["%", "?", "#"].some(c => path.includes(c))) {
+      return true;
+    }
+
+    // The above looksLikeOrigin call told us the prePath looks like an origin,
+    // now we go into details checking some common origins.
+    let hostPort = atIndex != -1 ? prePath.slice(atIndex + 1) : prePath;
+    if (this.REGEXP_HOSTPORT_IPV4.test(hostPort)) {
+      return true;
+    }
+    // ipv6 is very complex to support, just check for a few chars.
+    if (
+      this.REGEXP_HOSTPORT_IPV6.test(hostPort) &&
+      ["[", "]", ":"].some(c => hostPort.includes(c))
+    ) {
+      return true;
+    }
+    if (Services.uriFixup.isDomainKnown(hostPort)) {
+      return true;
+    }
+    return false;
+  },
+
+  /**
+   * Returns whether the passed in token looks like an origin.
+   * This is based on guessing and heuristics, that means if this function
+   * returns false, it's surely not an origin, if it returns true, the result
+   * must still be verified through URIFixup.
+   *
+   * @param {string} token
+   *        The string token to verify
+   * @param {object} options Options object
+   * @param {boolean} [options.ignoreKnownDomains] If true, the origin doesn't have to be
+   *        in the known domain list
+   * @param {boolean} [options.noIp] If true, the origin cannot be an IP address
+   * @param {boolean} [options.noPort] If true, the origin cannot have a port number
+   * @returns {boolean} whether the token looks like an origin.
+   */
+  looksLikeOrigin(
+    token,
+    { ignoreKnownDomains = false, noIp = false, noPort = false } = {}
+  ) {
+    if (!token.length) {
+      return false;
+    }
+    let atIndex = token.indexOf("@");
+    if (atIndex != -1 && this.REGEXP_COMMON_EMAIL.test(token)) {
+      // We prefer handling it as an email rather than an origin with userinfo.
+      return false;
+    }
+    let userinfo = atIndex != -1 ? token.slice(0, atIndex) : "";
+    let hostPort = atIndex != -1 ? token.slice(atIndex + 1) : token;
+    let hasPort = this.REGEXP_HAS_PORT.test(hostPort);
+    lazy.logger.debug("userinfo", userinfo);
+    lazy.logger.debug("hostPort", hostPort);
+    if (noPort && hasPort) {
+      return false;
+    }
+    if (
+      this.REGEXP_HOSTPORT_IPV4.test(hostPort) ||
+      this.REGEXP_HOSTPORT_IPV6.test(hostPort)
+    ) {
+      return !noIp;
+    }
+
+    // Check for invalid chars.
+    if (
+      this.REGEXP_LIKE_PROTOCOL.test(hostPort) ||
+      this.REGEXP_USERINFO_INVALID_CHARS.test(userinfo) ||
+      this.REGEXP_HOSTPORT_INVALID_CHARS.test(hostPort) ||
+      (!this.REGEXP_SINGLE_WORD_HOST.test(hostPort) &&
+        this.REGEXP_HOSTPORT_IP_LIKE.test(hostPort) &&
+        this.REGEXP_HOSTPORT_INVALID_IP.test(hostPort))
+    ) {
+      return false;
+    }
+
+    // If it looks like a single word host, check the known domains.
+    if (
+      !ignoreKnownDomains &&
+      !userinfo &&
+      !hasPort &&
+      this.REGEXP_SINGLE_WORD_HOST.test(hostPort)
+    ) {
+      return Services.uriFixup.isDomainKnown(hostPort);
+    }
+
+    return true;
+  },
+
+  /**
+   * Tokenizes the searchString from a UrlbarQueryContext.
+   *
+   * @param {UrlbarQueryContext} queryContext
+   *        The query context object to tokenize
+   * @returns {UrlbarQueryContext} the same query context object with a new
+   *          tokens property.
+   */
+  tokenize(queryContext) {
+    lazy.logger.debug(
+      "Tokenizing search string",
+      JSON.stringify(queryContext.searchString)
+    );
+    if (!queryContext.trimmedSearchString) {
+      queryContext.tokens = [];
+      return queryContext;
+    }
+    let unfiltered = splitString(queryContext.searchString);
+    let tokens = filterTokens(unfiltered);
+    queryContext.tokens = tokens;
+    return queryContext;
+  },
+
+  /**
+   * Given a token, tells if it's a restriction token.
+   *
+   * @param {object} token
+   *   The token to check.
+   * @returns {boolean} Whether the token is a restriction character.
+   */
+  isRestrictionToken(token) {
+    return (
+      token &&
+      token.type >= this.TYPE.RESTRICT_HISTORY &&
+      token.type <= this.TYPE.RESTRICT_URL
+    );
+  },
+};
+
+const CHAR_TO_TYPE_MAP = new Map(
+  Object.entries(UrlbarTokenizer.RESTRICT).map(([type, char]) => [
+    char,
+    UrlbarTokenizer.TYPE[`RESTRICT_${type}`],
+  ])
+);
+
+/**
+ * Given a search string, splits it into string tokens.
+ *
+ * @param {string} searchString
+ *        The search string to split
+ * @returns {Array} An array of string tokens.
+ */
+function splitString(searchString) {
+  // The first step is splitting on unicode whitespaces. We ignore whitespaces
+  // if the search string starts with "data:", to better support Web developers
+  // and compatiblity with other browsers.
+  let trimmed = searchString.trim();
+  let tokens = trimmed.startsWith("data:")
+    ? [trimmed]
+    : trimmed.split(UrlbarTokenizer.REGEXP_SPACES);
+
+  if (!tokens.length) {
+    return tokens;
+  }
+
+  // If there is no separate restriction token, it's possible we have to split
+  // a token, if it's the first one and it includes a leading restriction char
+  // or it's the last one and it includes a trailing restriction char.
+  // This allows to not require the user to add artificial whitespaces to
+  // enforce restrictions, for example typing questions would restrict to
+  // search results.
+  const hasRestrictionToken = tokens.some(t => CHAR_TO_TYPE_MAP.has(t));
+  if (hasRestrictionToken) {
+    return tokens;
+  }
+
+  // Check for an unambiguous restriction char at the beginning of the first
+  // token, or at the end of the last token. We only count trailing restriction
+  // chars if they are the search restriction char, which is "?". This is to
+  // allow for a typed question to yield only search results.
+  const firstToken = tokens[0];
+  if (
+    CHAR_TO_TYPE_MAP.has(firstToken[0]) &&
+    !UrlbarTokenizer.REGEXP_PERCENT_ENCODED_START.test(firstToken)
+  ) {
+    tokens[0] = firstToken.substring(1);
+    tokens.splice(0, 0, firstToken[0]);
+    return tokens;
+  }
+
+  const lastIndex = tokens.length - 1;
+  const lastToken = tokens[lastIndex];
+  if (
+    lastToken[lastToken.length - 1] == UrlbarTokenizer.RESTRICT.SEARCH &&
+    !UrlbarTokenizer.looksLikeUrl(lastToken, { requirePath: true })
+  ) {
+    tokens[lastIndex] = lastToken.substring(0, lastToken.length - 1);
+    tokens.push(lastToken[lastToken.length - 1]);
+  }
+
+  return tokens;
+}
+
+/**
+ * Given an array of unfiltered tokens, this function filters them and converts
+ * to token objects with a type.
+ *
+ * @param {Array} tokens
+ *        An array of strings, representing search tokens.
+ * @returns {Array} An array of token objects.
+ * Note: restriction characters are only considered if they appear at the start
+ *       or at the end of the tokens list. In case of restriction characters
+ *       conflict, the most external ones win. Leading ones win over trailing
+ *       ones. Discarded restriction characters are considered text.
+ */
+function filterTokens(tokens) {
+  let filtered = [];
+  let restrictions = [];
+  for (let i = 0; i < tokens.length; ++i) {
+    let token = tokens[i];
+    let tokenObj = {
+      value: token,
+      lowerCaseValue: token.toLocaleLowerCase(),
+      type: UrlbarTokenizer.TYPE.TEXT,
+    };
+    let restrictionType = CHAR_TO_TYPE_MAP.get(token);
+    if (restrictionType) {
+      restrictions.push({ index: i, type: restrictionType });
+    } else if (UrlbarTokenizer.looksLikeOrigin(token)) {
+      tokenObj.type = UrlbarTokenizer.TYPE.POSSIBLE_ORIGIN;
+    } else if (UrlbarTokenizer.looksLikeUrl(token, { requirePath: true })) {
+      tokenObj.type = UrlbarTokenizer.TYPE.POSSIBLE_URL;
+    }
+    filtered.push(tokenObj);
+  }
+
+  // Handle restriction characters.
+  if (restrictions.length) {
+    // We can apply two kind of restrictions: type (bookmark, search, ...) and
+    // matching (url, title). These kind of restrictions can be combined, but we
+    // can only have one restriction per kind.
+    let matchingRestrictionFound = false;
+    let typeRestrictionFound = false;
+    function assignRestriction(r) {
+      if (r && !(matchingRestrictionFound && typeRestrictionFound)) {
+        if (
+          [
+            UrlbarTokenizer.TYPE.RESTRICT_TITLE,
+            UrlbarTokenizer.TYPE.RESTRICT_URL,
+          ].includes(r.type)
+        ) {
+          if (!matchingRestrictionFound) {
+            matchingRestrictionFound = true;
+            filtered[r.index].type = r.type;
+            return true;
+          }
+        } else if (!typeRestrictionFound) {
+          typeRestrictionFound = true;
+          filtered[r.index].type = r.type;
+          return true;
+        }
+      }
+      return false;
+    }
+
+    // Look at the first token.
+    let found = assignRestriction(restrictions.find(r => r.index == 0));
+    if (found) {
+      // If the first token was assigned, look at the next one.
+      assignRestriction(restrictions.find(r => r.index == 1));
+    }
+    // Then look at the last token.
+    let lastIndex = tokens.length - 1;
+    found = assignRestriction(restrictions.find(r => r.index == lastIndex));
+    if (found) {
+      // If the last token was assigned, look at the previous one.
+      assignRestriction(restrictions.find(r => r.index == lastIndex - 1));
+    }
+  }
+
+  lazy.logger.info("Filtered Tokens", filtered);
+  return filtered;
+}