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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/. */
"use strict";
// How to run this file:
// 1. [obtain firefox source code]
// 2. [build/obtain firefox binaries]
// 3. run `[path to]/run-mozilla.sh [path to]/xpcshell genRootCAHashes.js \
// [absolute path to]/RootHashes.inc'
var Cc = Components.classes;
var Ci = Components.interfaces;
var Cu = Components.utils;
var Cr = Components.results;
const nsX509CertDB = "@mozilla.org/security/x509certdb;1";
const CertDb = Components.classes[nsX509CertDB].getService(Ci.nsIX509CertDB);
Cu.import("resource://gre/modules/Services.jsm");
Cu.import("resource://gre/modules/FileUtils.jsm");
Cu.import("resource://gre/modules/NetUtil.jsm");
const { CommonUtils } = Cu.import("resource://services-common/utils.js", {});
const FILENAME_OUTPUT = "RootHashes.inc";
const FILENAME_TRUST_ANCHORS = "KnownRootHashes.json";
const ROOT_NOT_ASSIGNED = -1;
const JSON_HEADER = "// This Source Code Form is subject to the terms of the Mozilla Public\n" +
"// License, v. 2.0. If a copy of the MPL was not distributed with this\n" +
"// file, You can obtain one at http://mozilla.org/MPL/2.0/. */\n" +
"//\n" +
"//***************************************************************************\n" +
"// This is an automatically generated file. It's used to maintain state for\n" +
"// runs of genRootCAHashes.js; you should never need to manually edit it\n" +
"//***************************************************************************\n" +
"\n";
const FILE_HEADER = "/* This Source Code Form is subject to the terms of the Mozilla Public\n" +
" * License, v. 2.0. If a copy of the MPL was not distributed with this\n" +
" * file, You can obtain one at http://mozilla.org/MPL/2.0/. */\n" +
"\n" +
"/*****************************************************************************/\n" +
"/* This is an automatically generated file. If you're not */\n" +
"/* RootCertificateTelemetryUtils.cpp, you shouldn't be #including it. */\n" +
"/*****************************************************************************/\n" +
"\n" +
"#define HASH_LEN 32\n";
const FP_PREAMBLE = "struct CertAuthorityHash {\n" +
" const uint8_t hash[HASH_LEN];\n" +
" const int32_t binNumber;\n" +
"};\n\n" +
"static const struct CertAuthorityHash ROOT_TABLE[] = {\n";
const FP_POSTAMBLE = "};\n";
// Helper
function writeString(fos, string) {
fos.write(string, string.length);
}
// Remove all colons from a string
function stripColons(hexString) {
return hexString.replace(/:/g, '');
}
// Expect an array of bytes and make it C-formatted
function hexSlice(bytes, start, end) {
let ret = "";
for (let i = start; i < end; i++) {
let hex = (0 + bytes.charCodeAt(i).toString(16)).slice(-2).toUpperCase();
ret += "0x" + hex;
if (i < end - 1) {
ret += ", ";
}
}
return ret;
}
function stripComments(buf) {
let lines = buf.split("\n");
let entryRegex = /^\s*\/\//;
let data = "";
for (let i = 0; i < lines.length; i++) {
let match = entryRegex.exec(lines[i]);
if (!match) {
data = data + lines[i];
}
}
return data;
}
// Load the trust anchors JSON object from disk
function loadTrustAnchors(file) {
if (file.exists()) {
let stream = Cc["@mozilla.org/network/file-input-stream;1"]
.createInstance(Ci.nsIFileInputStream);
stream.init(file, -1, 0, 0);
let buf = NetUtil.readInputStreamToString(stream, stream.available());
return JSON.parse(stripComments(buf));
}
// If there's no input file, bootstrap.
return { roots: [], maxBin: 0 };
}
// Saves our persistence file so that we don't lose track of the mapping
// between bin numbers and the CA-hashes, even as CAs come and go.
function writeTrustAnchors(file) {
let fos = FileUtils.openSafeFileOutputStream(file);
let serializedData = JSON.stringify(gTrustAnchors, null, ' ');
fos.write(JSON_HEADER, JSON_HEADER.length);
fos.write(serializedData, serializedData.length);
FileUtils.closeSafeFileOutputStream(fos);
}
// Write the C++ header file
function writeRootHashes(fos) {
try {
writeString(fos, FILE_HEADER);
// Output the sorted gTrustAnchors
writeString(fos, FP_PREAMBLE);
gTrustAnchors.roots.forEach(function(fp) {
let fpBytes = atob(fp.sha256Fingerprint);
writeString(fos, " {\n");
writeString(fos, " /* " + fp.label + " */\n");
writeString(fos, " { " + hexSlice(fpBytes, 0, 16) + ",\n");
writeString(fos, " " + hexSlice(fpBytes, 16, 32) + " },\n");
writeString(fos, " " + fp.binNumber + " /* Bin Number */\n");
writeString(fos, " },\n");
});
writeString(fos, FP_POSTAMBLE);
writeString(fos, "\n");
}
catch (e) {
dump("ERROR: problem writing output: " + e + "\n");
}
}
// Scan our list (linearly) for the given fingerprint string
function findTrustAnchorByFingerprint(sha256Fingerprint) {
for (let i = 0; i < gTrustAnchors.roots.length; i++) {
if (sha256Fingerprint == gTrustAnchors.roots[i].sha256Fingerprint) {
return i;
}
}
return ROOT_NOT_ASSIGNED;
}
// Get a clean label for a given certificate; usually the common name.
function getLabelForCert(cert) {
let label = cert.commonName;
if (label.length < 5) {
label = cert.subjectName;
}
// replace non-ascii characters
label = label.replace(/[^[:ascii:]]/g, "_");
// replace non-word characters
label = label.replace(/[^A-Za-z0-9]/g, "_");
return label;
}
// Fill in the gTrustAnchors list with trust anchors from the database.
function insertTrustAnchorsFromDatabase() {
// We only want CA certs for SSL
const CERT_TYPE = Ci.nsIX509Cert.CA_CERT;
const TRUST_TYPE = Ci.nsIX509CertDB.TRUSTED_SSL;
// Iterate through the whole Cert DB
let enumerator = CertDb.getCerts().getEnumerator();
while (enumerator.hasMoreElements()) {
let cert = enumerator.getNext().QueryInterface(Ci.nsIX509Cert);
// Find the certificate in our existing list. Do it here because we need to check if
// it's untrusted too.
// If this is a trusted cert
if (CertDb.isCertTrusted(cert, CERT_TYPE, TRUST_TYPE)) {
// Base64 encode the hex string
let binaryFingerprint = CommonUtils.hexToBytes(stripColons(cert.sha256Fingerprint));
let encodedFingerprint = btoa(binaryFingerprint);
// Scan to see if this is already in the database.
if (findTrustAnchorByFingerprint(encodedFingerprint) == ROOT_NOT_ASSIGNED) {
// Let's get a usable name; some old certs do not have CN= filled out
let label = getLabelForCert(cert);
// Add to list
gTrustAnchors.maxBin += 1;
gTrustAnchors.roots.push(
{
"label": label,
"binNumber": gTrustAnchors.maxBin,
"sha256Fingerprint": encodedFingerprint
});
}
}
}
}
//
// PRIMARY LOGIC
//
if (arguments.length != 1) {
throw new Error("Usage: genRootCAHashes.js " +
"<absolute path to current RootHashes.inc>");
}
var trustAnchorsFile = FileUtils.getFile("CurWorkD", [FILENAME_TRUST_ANCHORS]);
// let rootHashesFile = FileUtils.getFile("CurWorkD", arguments[0]);
var rootHashesFile = Cc["@mozilla.org/file/local;1"].createInstance(Ci.nsILocalFile);
rootHashesFile.initWithPath(arguments[0]);
// Open the known hashes file; this is to ensure stable bin numbers.
var gTrustAnchors = loadTrustAnchors(trustAnchorsFile);
// Collect all certificate entries
insertTrustAnchorsFromDatabase();
// Update known hashes before we sort
writeTrustAnchors(trustAnchorsFile);
// Sort all trust anchors before writing, as AccumulateRootCA.cpp
// will perform binary searches
gTrustAnchors.roots.sort(function(a, b) {
// We need to work from the binary values, not the base64 values.
let aBin = atob(a.sha256Fingerprint);
let bBin = atob(b.sha256Fingerprint);
if (aBin < bBin) {
return -1;
}
if (aBin > bBin) {
return 1;
}
return 0;
});
// Write the output file.
var rootHashesFileOutputStream = FileUtils.openSafeFileOutputStream(rootHashesFile);
writeRootHashes(rootHashesFileOutputStream);
FileUtils.closeSafeFileOutputStream(rootHashesFileOutputStream);
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