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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/. */
const PREF_LOGLEVEL = "browser.policies.loglevel";
const lazy = {};
ChromeUtils.defineLazyGetter(lazy, "log", () => {
let { ConsoleAPI } = ChromeUtils.importESModule(
"resource://gre/modules/Console.sys.mjs"
);
return new ConsoleAPI({
prefix: "macOSPoliciesParser",
// tip: set maxLogLevel to "debug" and use log.debug() to create detailed
// messages during development. See LOG_LEVELS in Console.sys.mjs for details.
maxLogLevel: "error",
maxLogLevelPref: PREF_LOGLEVEL,
});
});
export var macOSPoliciesParser = {
readPolicies(reader) {
let nativePolicies = reader.readPreferences();
if (!nativePolicies) {
return null;
}
nativePolicies = this.unflatten(nativePolicies);
nativePolicies = this.removeUnknownPolicies(nativePolicies);
// Need an extra check here so we don't
// JSON.stringify if we aren't in debug mode
if (lazy.log.maxLogLevel == "debug") {
lazy.log.debug(JSON.stringify(nativePolicies, null, 2));
}
return nativePolicies;
},
removeUnknownPolicies(policies) {
let { schema } = ChromeUtils.importESModule(
"resource:///modules/policies/schema.sys.mjs"
);
for (let policyName of Object.keys(policies)) {
if (!schema.properties.hasOwnProperty(policyName)) {
lazy.log.debug(`Removing unknown policy: ${policyName}`);
delete policies[policyName];
}
}
return policies;
},
unflatten(input, delimiter = "__") {
let ret = {};
for (let key of Object.keys(input)) {
if (!key.includes(delimiter)) {
// Short-circuit for policies that are not specified in
// the flat format.
ret[key] = input[key];
continue;
}
lazy.log.debug(`Unflattening policy key "${key}".`);
let subkeys = key.split(delimiter);
// `obj`: is the intermediate step into the unflattened
// return object. For example, for an input:
//
// Foo__Bar__Baz: 5,
//
// when the subkey being iterated is Bar, then `obj` will be
// the Bar object being constructed, as represented below:
//
// ret = {
// Foo = {
// Bar = { <---- obj
// Baz: 5,
// }
// }
// }
let obj = ret;
// Iterate until the second to last subkey, as the last one
// needs special handling afterwards.
for (let i = 0; i < subkeys.length - 1; i++) {
let subkey = subkeys[i];
if (!isValidSubkey(subkey)) {
lazy.log.error(
`Error in key ${key}: can't use indexes bigger than 50.`
);
continue;
}
if (!obj[subkey]) {
// if this subkey hasn't been seen yet, create the object
// for it, which could be an array if the next subkey is
// a number.
//
// For example, in the following examples:
// A)
// Foo__Bar__0
// Foo__Bar__1
//
// B)
// Foo__Bar__Baz
// Foo__Bar__Qux
//
// If the subkey being analysed right now is Bar, then in example A
// we'll create an array to accomodate the numeric entries.
// Otherwise, if it's example B, we'll create an object to host all
// the named keys.
if (Number.isInteger(Number(subkeys[i + 1]))) {
obj[subkey] = [];
} else {
obj[subkey] = {};
}
}
obj = obj[subkey];
}
let lastSubkey = subkeys[subkeys.length - 1];
if (!isValidSubkey(lastSubkey)) {
lazy.log.error(
`Error in key ${key}: can't use indexes bigger than 50.`
);
continue;
}
// In the last subkey, we assign it the value by accessing the input
// object again with the full key. For example, in the case:
//
// input = {"Foo__Bar__Baz": 5}
//
// what we're doing in practice is:
//
// ret["Foo"]["Bar"]["Baz"] = input["Foo__Bar__Baz"];
// \_______ _______/ |
// v |
// obj last subkey
obj[lastSubkey] = input[key];
}
return ret;
},
};
function isValidSubkey(subkey) {
let valueAsNumber = Number(subkey);
return Number.isNaN(valueAsNumber) || valueAsNumber <= 50;
}
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