1 files changed, 591 insertions, 0 deletions

diff --git a/modules/libmar/tests/unit/test_sign_verify.js b/modules/libmar/tests/unit/test_sign_verify.js
new file mode 100644
index 0000000000..20f0d691ac
--- /dev/null
+++ b/modules/libmar/tests/unit/test_sign_verify.js
@@ -0,0 +1,591 @@
+/* Any copyright is dedicated to the Public Domain.
+   http://creativecommons.org/publicdomain/zero/1.0/ */
+
+function run_test() {
+  /**
+   * Signs a MAR file.
+   *
+   * @param inMAR The MAR file that should be signed
+   * @param outMAR The MAR file to create
+   */
+  function signMAR(inMAR, outMAR, certs, wantSuccess, useShortHandCmdLine) {
+    // Get a process to the signmar binary from the dist/bin directory.
+    let process = Cc["@mozilla.org/process/util;1"].createInstance(
+      Ci.nsIProcess
+    );
+    let signmarBin = do_get_file("signmar" + BIN_SUFFIX);
+
+    // Make sure the signmar binary exists and is an executable.
+    Assert.ok(signmarBin.exists());
+    Assert.ok(signmarBin.isExecutable());
+
+    // Setup the command line arguments to sign the MAR.
+    let NSSConfigDir = do_get_file("data");
+    let args = ["-d", NSSConfigDir.path];
+    if (certs.length == 1 && useShortHandCmdLine) {
+      args.push("-n", certs[0]);
+    } else {
+      for (let i = 0; i < certs.length; i++) {
+        args.push("-n" + i, certs[i]);
+      }
+    }
+    args.push("-s", inMAR.path, outMAR.path);
+
+    let exitValue;
+    process.init(signmarBin);
+    try {
+      process.run(true, args, args.length);
+      exitValue = process.exitValue;
+    } catch (e) {
+      // On Windows negative return value throws an exception
+      exitValue = -1;
+    }
+
+    // Verify signmar returned 0 for success.
+    if (wantSuccess) {
+      Assert.equal(exitValue, 0);
+    } else {
+      Assert.notEqual(exitValue, 0);
+    }
+  }
+
+  /**
+   * Extract a MAR signature.
+   *
+   * @param inMAR        The MAR file who's signature should be extracted
+   * @param sigIndex     The index of the signature to extract
+   * @param extractedSig The file where the extracted signature will be stored
+   * @param wantSuccess  True if a successful signmar return code is desired
+   */
+  function extractMARSignature(inMAR, sigIndex, extractedSig, wantSuccess) {
+    // Get a process to the signmar binary from the dist/bin directory.
+    let process = Cc["@mozilla.org/process/util;1"].createInstance(
+      Ci.nsIProcess
+    );
+    let signmarBin = do_get_file("signmar" + BIN_SUFFIX);
+
+    // Make sure the signmar binary exists and is an executable.
+    Assert.ok(signmarBin.exists());
+    Assert.ok(signmarBin.isExecutable());
+
+    // Setup the command line arguments to extract the signature in the MAR.
+    let args = ["-n" + sigIndex, "-X", inMAR.path, extractedSig.path];
+
+    let exitValue;
+    process.init(signmarBin);
+    try {
+      process.run(true, args, args.length);
+      exitValue = process.exitValue;
+    } catch (e) {
+      // On Windows negative return value throws an exception
+      exitValue = -1;
+    }
+
+    // Verify signmar returned 0 for success.
+    if (wantSuccess) {
+      Assert.equal(exitValue, 0);
+    } else {
+      Assert.notEqual(exitValue, 0);
+    }
+  }
+
+  /**
+   * Import a MAR signature.
+   *
+   * @param inMAR        The MAR file who's signature should be imported to
+   * @param sigIndex     The index of the signature to import to
+   * @param sigFile      The file where the base64 signature exists
+   * @param outMAR       The same as inMAR but with the specified signature
+   *                     swapped at the specified index.
+   * @param wantSuccess  True if a successful signmar return code is desired
+   */
+  function importMARSignature(inMAR, sigIndex, sigFile, outMAR, wantSuccess) {
+    // Get a process to the signmar binary from the dist/bin directory.
+    let process = Cc["@mozilla.org/process/util;1"].createInstance(
+      Ci.nsIProcess
+    );
+    let signmarBin = do_get_file("signmar" + BIN_SUFFIX);
+
+    // Make sure the signmar binary exists and is an executable.
+    Assert.ok(signmarBin.exists());
+    Assert.ok(signmarBin.isExecutable());
+
+    // Setup the command line arguments to import the signature in the MAR.
+    let args = ["-n" + sigIndex, "-I", inMAR.path, sigFile.path, outMAR.path];
+
+    let exitValue;
+    process.init(signmarBin);
+    try {
+      process.run(true, args, args.length);
+      exitValue = process.exitValue;
+    } catch (e) {
+      // On Windows negative return value throws an exception
+      exitValue = -1;
+    }
+
+    // Verify signmar returned 0 for success.
+    if (wantSuccess) {
+      Assert.equal(exitValue, 0);
+    } else {
+      Assert.notEqual(exitValue, 0);
+    }
+  }
+
+  /**
+   * Verifies a MAR file.
+   *
+   * @param signedMAR Verifies a MAR file
+   */
+  function verifyMAR(signedMAR, wantSuccess, certs, useShortHandCmdLine) {
+    // Get a process to the signmar binary from the dist/bin directory.
+    let process = Cc["@mozilla.org/process/util;1"].createInstance(
+      Ci.nsIProcess
+    );
+    let signmarBin = do_get_file("signmar" + BIN_SUFFIX);
+
+    // Make sure the signmar binary exists and is an executable.
+    Assert.ok(signmarBin.exists());
+    Assert.ok(signmarBin.isExecutable());
+
+    // Will reference the arguments to use for verification in signmar
+    let args = [];
+
+    // Setup the command line arguments to create the MAR.
+    // Windows & Mac vs. Linux/... have different command line for verification
+    // since on Windows we verify with CryptoAPI, on Mac with Security
+    // Transforms or CDSA/CSSM and on all other platforms we verify with NSS. So
+    // on Windows and Mac we use an exported DER file and on other platforms we
+    // use the NSS config db.
+    if (mozinfo.os == "win" || mozinfo.os == "mac") {
+      if (certs.length == 1 && useShortHandCmdLine) {
+        args.push("-D", "data/" + certs[0] + ".der");
+      } else {
+        for (let i = 0; i < certs.length; i++) {
+          args.push("-D" + i, "data/" + certs[i] + ".der");
+        }
+      }
+    } else {
+      let NSSConfigDir = do_get_file("data");
+      args = ["-d", NSSConfigDir.path];
+      if (certs.length == 1 && useShortHandCmdLine) {
+        args.push("-n", certs[0]);
+      } else {
+        for (let i = 0; i < certs.length; i++) {
+          args.push("-n" + i, certs[i]);
+        }
+      }
+    }
+    args.push("-v", signedMAR.path);
+
+    let exitValue;
+    process.init(signmarBin);
+    try {
+      // We put this in a try block because nsIProcess doesn't like -1 returns
+      process.run(true, args, args.length);
+      exitValue = process.exitValue;
+    } catch (e) {
+      // On Windows negative return value throws an exception
+      exitValue = -1;
+    }
+
+    // Verify signmar returned 0 for success.
+    if (wantSuccess) {
+      Assert.equal(exitValue, 0);
+    } else {
+      Assert.notEqual(exitValue, 0);
+    }
+  }
+
+  /**
+   * Strips a MAR signature.
+   *
+   * @param signedMAR The MAR file that should be signed
+   * @param outMAR The MAR file to write to with signature stripped
+   */
+  function stripMARSignature(signedMAR, outMAR, wantSuccess) {
+    // Get a process to the signmar binary from the dist/bin directory.
+    let process = Cc["@mozilla.org/process/util;1"].createInstance(
+      Ci.nsIProcess
+    );
+    let signmarBin = do_get_file("signmar" + BIN_SUFFIX);
+
+    // Make sure the signmar binary exists and is an executable.
+    Assert.ok(signmarBin.exists());
+    Assert.ok(signmarBin.isExecutable());
+
+    // Setup the command line arguments to create the MAR.
+    let args = ["-r", signedMAR.path, outMAR.path];
+
+    let exitValue;
+    process.init(signmarBin);
+    try {
+      process.run(true, args, args.length);
+      exitValue = process.exitValue;
+    } catch (e) {
+      // On Windows negative return value throws an exception
+      exitValue = -1;
+    }
+
+    // Verify signmar returned 0 for success.
+    if (wantSuccess) {
+      Assert.equal(exitValue, 0);
+    } else {
+      Assert.notEqual(exitValue, 0);
+    }
+  }
+
+  function cleanup() {
+    let outMAR = tempDir.clone();
+    outMAR.append("signed_out.mar");
+    if (outMAR.exists()) {
+      outMAR.remove(false);
+    }
+    outMAR = tempDir.clone();
+    outMAR.append("multiple_signed_out.mar");
+    if (outMAR.exists()) {
+      outMAR.remove(false);
+    }
+    outMAR = tempDir.clone();
+    outMAR.append("out.mar");
+    if (outMAR.exists()) {
+      outMAR.remove(false);
+    }
+
+    let outDir = tempDir.clone();
+    outDir.append("out");
+    if (outDir.exists()) {
+      outDir.remove(true);
+    }
+  }
+
+  const wantFailure = false;
+  const wantSuccess = true;
+  // Define the unit tests to run.
+  let tests = {
+    // Test signing a MAR file with a single signature
+    test_sign_single: function _test_sign_single() {
+      let inMAR = do_get_file("data/binary_data.mar");
+      let outMAR = tempDir.clone();
+      outMAR.append("signed_out.mar");
+      if (outMAR.exists()) {
+        outMAR.remove(false);
+      }
+      signMAR(inMAR, outMAR, ["mycert"], wantSuccess, true);
+      Assert.ok(outMAR.exists());
+      let outMARData = getBinaryFileData(outMAR);
+      let refMAR = do_get_file("data/signed_pib.mar");
+      let refMARData = getBinaryFileData(refMAR);
+      compareBinaryData(outMARData, refMARData);
+    },
+    // Test signing a MAR file with multiple signatures
+    test_sign_multiple: function _test_sign_multiple() {
+      let inMAR = do_get_file("data/binary_data.mar");
+      let outMAR = tempDir.clone();
+      outMAR.append("multiple_signed_out.mar");
+      if (outMAR.exists()) {
+        outMAR.remove(false);
+      }
+      Assert.ok(!outMAR.exists());
+      signMAR(
+        inMAR,
+        outMAR,
+        ["mycert", "mycert2", "mycert3"],
+        wantSuccess,
+        true
+      );
+      Assert.ok(outMAR.exists());
+      let outMARData = getBinaryFileData(outMAR);
+      let refMAR = do_get_file("data/multiple_signed_pib.mar");
+      let refMARData = getBinaryFileData(refMAR);
+      compareBinaryData(outMARData, refMARData);
+    },
+    // Test verifying a signed MAR file
+    test_verify_single: function _test_verify_single() {
+      let signedMAR = do_get_file("data/signed_pib.mar");
+      verifyMAR(signedMAR, wantSuccess, ["mycert"], true);
+      verifyMAR(signedMAR, wantSuccess, ["mycert"], false);
+    },
+    // Test verifying a signed MAR file with too many certs fails.
+    // Or if you want to look at it another way, One mycert signature
+    // is missing.
+    test_verify_single_too_many_certs:
+      function _test_verify_single_too_many_certs() {
+        let signedMAR = do_get_file("data/signed_pib.mar");
+        verifyMAR(signedMAR, wantFailure, ["mycert", "mycert"], true);
+        verifyMAR(signedMAR, wantFailure, ["mycert", "mycert"], false);
+      },
+    // Test verifying a signed MAR file fails when using a wrong cert
+    test_verify_single_wrong_cert: function _test_verify_single_wrong_cert() {
+      let signedMAR = do_get_file("data/signed_pib.mar");
+      verifyMAR(signedMAR, wantFailure, ["mycert2"], true);
+      verifyMAR(signedMAR, wantFailure, ["mycert2"], false);
+    },
+    // Test verifying a signed MAR file with multiple signatures
+    test_verify_multiple: function _test_verify_multiple() {
+      let signedMAR = do_get_file("data/multiple_signed_pib.mar");
+      verifyMAR(signedMAR, wantSuccess, ["mycert", "mycert2", "mycert3"]);
+    },
+    // Test verifying an unsigned MAR file fails
+    test_verify_unsigned_mar_file_fails:
+      function _test_verify_unsigned_mar_file_fails() {
+        let unsignedMAR = do_get_file("data/binary_data.mar");
+        verifyMAR(unsignedMAR, wantFailure, ["mycert", "mycert2", "mycert3"]);
+      },
+    // Test verifying a signed MAR file with the same signature multiple
+    // times fails.  The input MAR has: mycert, mycert2, mycert3.
+    // we're checking to make sure the number of verified signatures
+    // is only 1 and not 3.  Each signature should be verified once.
+    test_verify_multiple_same_cert: function _test_verify_multiple_same_cert() {
+      let signedMAR = do_get_file("data/multiple_signed_pib.mar");
+      verifyMAR(signedMAR, wantFailure, ["mycert", "mycert", "mycert"]);
+    },
+    // Test verifying a signed MAR file with the correct signatures but in
+    // a different order fails
+    test_verify_multiple_wrong_order:
+      function _test_verify_multiple_wrong_order() {
+        let signedMAR = do_get_file("data/multiple_signed_pib.mar");
+        verifyMAR(signedMAR, wantSuccess, ["mycert", "mycert2", "mycert3"]);
+        verifyMAR(signedMAR, wantFailure, ["mycert", "mycert3", "mycert2"]);
+        verifyMAR(signedMAR, wantFailure, ["mycert2", "mycert", "mycert3"]);
+        verifyMAR(signedMAR, wantFailure, ["mycert2", "mycert3", "mycert"]);
+        verifyMAR(signedMAR, wantFailure, ["mycert3", "mycert", "mycert2"]);
+        verifyMAR(signedMAR, wantFailure, ["mycert3", "mycert2", "mycert"]);
+      },
+    // Test verifying a signed MAR file without a PIB
+    test_verify_no_pib: function _test_verify_no_pib() {
+      let signedMAR = do_get_file("data/signed_no_pib.mar");
+      verifyMAR(signedMAR, wantSuccess, ["mycert"], true);
+      verifyMAR(signedMAR, wantSuccess, ["mycert"], false);
+    },
+    // Test verifying a signed MAR file with multiple signatures without a PIB
+    test_verify_no_pib_multiple: function _test_verify_no_pib_multiple() {
+      let signedMAR = do_get_file("data/multiple_signed_no_pib.mar");
+      verifyMAR(signedMAR, wantSuccess, ["mycert", "mycert2", "mycert3"]);
+    },
+    // Test verifying a crafted MAR file where the attacker tried to adjust
+    // the version number manually.
+    test_crafted_mar: function _test_crafted_mar() {
+      let signedBadMAR = do_get_file("data/manipulated_signed.mar");
+      verifyMAR(signedBadMAR, wantFailure, ["mycert"], true);
+      verifyMAR(signedBadMAR, wantFailure, ["mycert"], false);
+    },
+    // Test verifying a file that doesn't exist fails
+    test_bad_path_verify_fails: function _test_bad_path_verify_fails() {
+      let noMAR = do_get_file("data/does_not_exist.mar", true);
+      Assert.ok(!noMAR.exists());
+      verifyMAR(noMAR, wantFailure, ["mycert"], true);
+    },
+    // Test to make sure a stripped MAR is the same as the original MAR
+    test_strip_signature: function _test_strip_signature() {
+      let originalMAR = do_get_file("data/binary_data.mar");
+      let signedMAR = tempDir.clone();
+      signedMAR.append("signed_out.mar");
+      let outMAR = tempDir.clone();
+      outMAR.append("out.mar", true);
+      stripMARSignature(signedMAR, outMAR, wantSuccess);
+
+      // Verify that the stripped MAR matches the original data MAR exactly
+      let outMARData = getBinaryFileData(outMAR);
+      let originalMARData = getBinaryFileData(originalMAR);
+      compareBinaryData(outMARData, originalMARData);
+    },
+    // Test to make sure a stripped multi-signature-MAR is the same as the original MAR
+    test_strip_multiple_signatures: function _test_strip_multiple_signatures() {
+      let originalMAR = do_get_file("data/binary_data.mar");
+      let signedMAR = tempDir.clone();
+      signedMAR.append("multiple_signed_out.mar");
+      let outMAR = tempDir.clone();
+      outMAR.append("out.mar");
+      stripMARSignature(signedMAR, outMAR, wantSuccess);
+
+      // Verify that the stripped MAR matches the original data MAR exactly
+      let outMARData = getBinaryFileData(outMAR);
+      let originalMARData = getBinaryFileData(originalMAR);
+      compareBinaryData(outMARData, originalMARData);
+    },
+    // Test extracting the first signature in a MAR that has only a single signature
+    test_extract_sig_single: function _test_extract_sig_single() {
+      let inMAR = do_get_file("data/signed_pib.mar");
+      let extractedSig = do_get_file("extracted_signature", true);
+      if (extractedSig.exists()) {
+        extractedSig.remove(false);
+      }
+      extractMARSignature(inMAR, 0, extractedSig, wantSuccess);
+      Assert.ok(extractedSig.exists());
+
+      let referenceSig = do_get_file("data/signed_pib_mar.signature.0");
+      compareBinaryData(extractedSig, referenceSig);
+    },
+    // Test extracting the all signatures in a multi signature MAR
+    // The input MAR has 3 signatures.
+    test_extract_sig_multi: function _test_extract_sig_multi() {
+      for (let i = 0; i < 3; i++) {
+        let inMAR = do_get_file("data/multiple_signed_pib.mar");
+        let extractedSig = do_get_file("extracted_signature", true);
+        if (extractedSig.exists()) {
+          extractedSig.remove(false);
+        }
+        extractMARSignature(inMAR, i, extractedSig, wantSuccess);
+        Assert.ok(extractedSig.exists());
+
+        let referenceSig = do_get_file("data/multiple_signed_pib_mar.sig." + i);
+        compareBinaryData(extractedSig, referenceSig);
+      }
+    },
+    // Test extracting a signature that is out of range fails
+    test_extract_sig_out_of_range: function _test_extract_sig_out_of_range() {
+      let inMAR = do_get_file("data/signed_pib.mar");
+      let extractedSig = do_get_file("extracted_signature", true);
+      if (extractedSig.exists()) {
+        extractedSig.remove(false);
+      }
+      const outOfBoundsIndex = 5;
+      extractMARSignature(inMAR, outOfBoundsIndex, extractedSig, wantFailure);
+      Assert.ok(!extractedSig.exists());
+    },
+    // Test signing a file that doesn't exist fails
+    test_bad_path_sign_fails: function _test_bad_path_sign_fails() {
+      let inMAR = do_get_file("data/does_not_exist.mar", true);
+      let outMAR = tempDir.clone();
+      outMAR.append("signed_out.mar");
+      Assert.ok(!inMAR.exists());
+      signMAR(inMAR, outMAR, ["mycert"], wantFailure, true);
+      Assert.ok(!outMAR.exists());
+    },
+    // Test verifying only a subset of the signatures fails.
+    // The input MAR has: mycert, mycert2, mycert3.
+    // We're only verifying 2 of the 3 signatures and that should fail.
+    test_verify_multiple_subset: function _test_verify_multiple_subset() {
+      let signedMAR = do_get_file("data/multiple_signed_pib.mar");
+      verifyMAR(signedMAR, wantFailure, ["mycert", "mycert2"]);
+    },
+    // Test importing the first signature in a MAR that has only
+    // a single signature
+    test_import_sig_single: function _test_import_sig_single() {
+      // Make sure the input MAR was signed with mycert only
+      let inMAR = do_get_file("data/signed_pib.mar");
+      verifyMAR(inMAR, wantSuccess, ["mycert"], false);
+      verifyMAR(inMAR, wantFailure, ["mycert2"], false);
+      verifyMAR(inMAR, wantFailure, ["mycert3"], false);
+
+      // Get the signature file for this MAR signed with the key from mycert2
+      let sigFile = do_get_file("data/signed_pib_mar.signature.mycert2");
+      Assert.ok(sigFile.exists());
+      let outMAR = tempDir.clone();
+      outMAR.append("sigchanged_signed_pib.mar");
+      if (outMAR.exists()) {
+        outMAR.remove(false);
+      }
+
+      // Run the import operation
+      importMARSignature(inMAR, 0, sigFile, outMAR, wantSuccess);
+
+      // Verify we have a new MAR file, that mycert no longer verifies and that,
+      // mycert2 does verify
+      Assert.ok(outMAR.exists());
+      verifyMAR(outMAR, wantFailure, ["mycert"], false);
+      verifyMAR(outMAR, wantSuccess, ["mycert2"], false);
+      verifyMAR(outMAR, wantFailure, ["mycert3"], false);
+
+      // Compare the binary data to something that was signed originally
+      // with the private key from mycert2
+      let refMAR = do_get_file("data/signed_pib_with_mycert2.mar");
+      Assert.ok(refMAR.exists());
+      let refMARData = getBinaryFileData(refMAR);
+      let outMARData = getBinaryFileData(outMAR);
+      compareBinaryData(outMARData, refMARData);
+    },
+    // Test importing a signature that doesn't belong to the file
+    // fails to verify.
+    test_import_wrong_sig: function _test_import_wrong_sig() {
+      // Make sure the input MAR was signed with mycert only
+      let inMAR = do_get_file("data/signed_pib.mar");
+      verifyMAR(inMAR, wantSuccess, ["mycert"], false);
+      verifyMAR(inMAR, wantFailure, ["mycert2"], false);
+      verifyMAR(inMAR, wantFailure, ["mycert3"], false);
+
+      // Get the signature file for multiple_signed_pib.mar signed with the
+      // key from mycert
+      let sigFile = do_get_file("data/multiple_signed_pib_mar.sig.0");
+      Assert.ok(sigFile.exists());
+      let outMAR = tempDir.clone();
+      outMAR.append("sigchanged_signed_pib.mar");
+      if (outMAR.exists()) {
+        outMAR.remove(false);
+      }
+
+      // Run the import operation
+      importMARSignature(inMAR, 0, sigFile, outMAR, wantSuccess);
+
+      // Verify we have a new MAR file and that the mar file fails to verify
+      // when using a signature for another mar file.
+      Assert.ok(outMAR.exists());
+      verifyMAR(outMAR, wantFailure, ["mycert"], false);
+      verifyMAR(outMAR, wantFailure, ["mycert2"], false);
+      verifyMAR(outMAR, wantFailure, ["mycert3"], false);
+    },
+    // Test importing to the second signature in a MAR that has multiple
+    // signature
+    test_import_sig_multiple: function _test_import_sig_multiple() {
+      // Make sure the input MAR was signed with mycert only
+      let inMAR = do_get_file("data/multiple_signed_pib.mar");
+      verifyMAR(inMAR, wantSuccess, ["mycert", "mycert2", "mycert3"], false);
+      verifyMAR(inMAR, wantFailure, ["mycert", "mycert", "mycert3"], false);
+
+      // Get the signature file for this MAR signed with the key from mycert
+      let sigFile = do_get_file("data/multiple_signed_pib_mar.sig.0");
+      Assert.ok(sigFile.exists());
+      let outMAR = tempDir.clone();
+      outMAR.append("sigchanged_signed_pib.mar");
+      if (outMAR.exists()) {
+        outMAR.remove(false);
+      }
+
+      // Run the import operation
+      const secondSigPos = 1;
+      importMARSignature(inMAR, secondSigPos, sigFile, outMAR, wantSuccess);
+
+      // Verify we have a new MAR file and that mycert no longer verifies
+      // and that mycert2 does verify
+      Assert.ok(outMAR.exists());
+      verifyMAR(outMAR, wantSuccess, ["mycert", "mycert", "mycert3"], false);
+      verifyMAR(outMAR, wantFailure, ["mycert", "mycert2", "mycert3"], false);
+
+      // Compare the binary data to something that was signed originally
+      // with the private keys from mycert, mycert, mycert3
+      let refMAR = do_get_file("data/multiple_signed_pib_2.mar");
+      Assert.ok(refMAR.exists());
+      let refMARData = getBinaryFileData(refMAR);
+      let outMARData = getBinaryFileData(outMAR);
+      compareBinaryData(outMARData, refMARData);
+    },
+    // Test stripping a MAR that doesn't exist fails
+    test_bad_path_strip_fails: function _test_bad_path_strip_fails() {
+      let noMAR = do_get_file("data/does_not_exist.mar", true);
+      Assert.ok(!noMAR.exists());
+      let outMAR = tempDir.clone();
+      outMAR.append("out.mar");
+      stripMARSignature(noMAR, outMAR, wantFailure);
+    },
+    // Test extracting from a bad path fails
+    test_extract_bad_path: function _test_extract_bad_path() {
+      let noMAR = do_get_file("data/does_not_exist.mar", true);
+      let extractedSig = do_get_file("extracted_signature", true);
+      Assert.ok(!noMAR.exists());
+      if (extractedSig.exists()) {
+        extractedSig.remove(false);
+      }
+      extractMARSignature(noMAR, 0, extractedSig, wantFailure);
+      Assert.ok(!extractedSig.exists());
+    },
+    // Between each test make sure the out MAR does not exist.
+    cleanup_per_test: function _cleanup_per_test() {},
+  };
+
+  cleanup();
+
+  // Run all the tests
+  Assert.equal(run_tests(tests), Object.keys(tests).length - 1);
+
+  registerCleanupFunction(cleanup);
+}