mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
synced 2024-09-13 09:24:08 -07:00
852f9a887e
--HG-- rename : services/sync/SyncComponents.manifest => services/common/servicesComponents.manifest rename : services/sync/SyncComponents.manifest => services/crypto/cryptoComponents.manifest
761 lines
35 KiB
JavaScript
761 lines
35 KiB
JavaScript
/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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this.EXPORTED_SYMBOLS = ["WeaveCrypto"];
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const Cc = Components.classes;
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const Ci = Components.interfaces;
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const Cr = Components.results;
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Components.utils.import("resource://gre/modules/XPCOMUtils.jsm");
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Components.utils.import("resource://gre/modules/Services.jsm");
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Components.utils.import("resource://gre/modules/ctypes.jsm");
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/**
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* Shortcuts for some algorithm SEC OIDs. Full list available here:
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* http://lxr.mozilla.org/seamonkey/source/security/nss/lib/util/secoidt.h
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*/
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const DES_EDE3_CBC = 156;
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const AES_128_CBC = 184;
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const AES_192_CBC = 186;
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const AES_256_CBC = 188;
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const ALGORITHM = AES_256_CBC;
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const KEYSIZE_AES_256 = 32;
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const KEY_DERIVATION_ITERATIONS = 4096; // PKCS#5 recommends at least 1000.
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const INITIAL_BUFFER_SIZE = 1024;
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this.WeaveCrypto = function WeaveCrypto() {
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this.init();
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}
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WeaveCrypto.prototype = {
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prefBranch : null,
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debug : true, // services.sync.log.cryptoDebug
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nss : null,
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nss_t : null,
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observer : {
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_self : null,
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QueryInterface : XPCOMUtils.generateQI([Ci.nsIObserver,
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Ci.nsISupportsWeakReference]),
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observe : function (subject, topic, data) {
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let self = this._self;
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self.log("Observed " + topic + " topic.");
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if (topic == "nsPref:changed") {
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self.debug = self.prefBranch.getBoolPref("cryptoDebug");
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}
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}
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},
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init : function() {
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try {
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// Preferences. Add observer so we get notified of changes.
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this.prefBranch = Services.prefs.getBranch("services.sync.log.");
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this.prefBranch.addObserver("cryptoDebug", this.observer, false);
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this.observer._self = this;
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try {
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this.debug = this.prefBranch.getBoolPref("cryptoDebug");
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} catch (x) {
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this.debug = false;
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}
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this.initNSS();
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this.initAlgorithmSettings(); // Depends on NSS.
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this.initIVSECItem();
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this.initSharedInts();
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this.initBuffers(INITIAL_BUFFER_SIZE);
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} catch (e) {
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this.log("init failed: " + e);
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throw e;
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}
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},
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// Avoid allocating new temporary ints on every run of _commonCrypt.
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_commonCryptSignedOutputSize: null,
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_commonCryptSignedOutputSizeAddr: null,
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_commonCryptUnsignedOutputSize: null,
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_commonCryptUnsignedOutputSizeAddr: null,
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initSharedInts: function initSharedInts() {
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let signed = new ctypes.int();
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let unsigned = new ctypes.unsigned_int();
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this._commonCryptSignedOutputSize = signed;
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this._commonCryptUnsignedOutputSize = unsigned;
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this._commonCryptSignedOutputSizeAddr = signed.address();
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this._commonCryptUnsignedOutputSizeAddr = unsigned.address();
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},
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/**
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* Set a bunch of NSS values once, at init-time. These are:
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* - .blockSize
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* - .mechanism
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* - .keygenMechanism
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* - .padMechanism
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* - .keySize
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*
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* See also the constant ALGORITHM.
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*/
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initAlgorithmSettings: function() {
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this.mechanism = this.nss.PK11_AlgtagToMechanism(ALGORITHM);
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this.blockSize = this.nss.PK11_GetBlockSize(this.mechanism, null);
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this.ivLength = this.nss.PK11_GetIVLength(this.mechanism);
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this.keySize = KEYSIZE_AES_256;
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this.keygenMechanism = this.nss.CKM_AES_KEY_GEN; // Always the same!
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// Determine which (padded) PKCS#11 mechanism to use.
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// E.g., AES_256_CBC --> CKM_AES_CBC --> CKM_AES_CBC_PAD
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this.padMechanism = this.nss.PK11_GetPadMechanism(this.mechanism);
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if (this.padMechanism == this.nss.CKM_INVALID_MECHANISM)
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throw Components.Exception("invalid algorithm (can't pad)", Cr.NS_ERROR_FAILURE);
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},
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log : function (message) {
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if (!this.debug)
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return;
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dump("WeaveCrypto: " + message + "\n");
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Services.console.logStringMessage("WeaveCrypto: " + message);
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},
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initNSS : function() {
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// We use NSS for the crypto ops, which needs to be initialized before
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// use. By convention, PSM is required to be the module that
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// initializes NSS. So, make sure PSM is initialized in order to
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// implicitly initialize NSS.
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Cc["@mozilla.org/psm;1"].getService(Ci.nsISupports);
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// Open the NSS library.
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let path = ctypes.libraryName("nss3");
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// XXX really want to be able to pass specific dlopen flags here.
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var nsslib;
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try {
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this.log("Trying NSS library without path");
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nsslib = ctypes.open(path);
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} catch(e) {
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// In case opening the library without a full path fails,
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// try again with a full path.
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let file = Services.dirsvc.get("GreD", Ci.nsILocalFile);
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file.append(path);
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this.log("Trying again with path " + file.path);
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nsslib = ctypes.open(file.path);
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}
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this.log("Initializing NSS types and function declarations...");
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this.nss = {};
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this.nss_t = {};
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// nsprpub/pr/include/prtypes.h#435
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// typedef PRIntn PRBool; --> int
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this.nss_t.PRBool = ctypes.int;
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// security/nss/lib/util/seccomon.h#91
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// typedef enum
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this.nss_t.SECStatus = ctypes.int;
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// security/nss/lib/softoken/secmodt.h#59
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// typedef struct PK11SlotInfoStr PK11SlotInfo; (defined in secmodti.h)
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this.nss_t.PK11SlotInfo = ctypes.void_t;
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// security/nss/lib/util/pkcs11t.h
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this.nss_t.CK_MECHANISM_TYPE = ctypes.unsigned_long;
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this.nss_t.CK_ATTRIBUTE_TYPE = ctypes.unsigned_long;
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this.nss_t.CK_KEY_TYPE = ctypes.unsigned_long;
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this.nss_t.CK_OBJECT_HANDLE = ctypes.unsigned_long;
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// security/nss/lib/softoken/secmodt.h#359
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// typedef enum PK11Origin
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this.nss_t.PK11Origin = ctypes.int;
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// PK11Origin enum values...
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this.nss.PK11_OriginUnwrap = 4;
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// security/nss/lib/softoken/secmodt.h#61
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// typedef struct PK11SymKeyStr PK11SymKey; (defined in secmodti.h)
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this.nss_t.PK11SymKey = ctypes.void_t;
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// security/nss/lib/util/secoidt.h#454
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// typedef enum
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this.nss_t.SECOidTag = ctypes.int;
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// security/nss/lib/util/seccomon.h#64
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// typedef enum
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this.nss_t.SECItemType = ctypes.int;
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// SECItemType enum values...
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this.nss.SIBUFFER = 0;
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// security/nss/lib/softoken/secmodt.h#62 (defined in secmodti.h)
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// typedef struct PK11ContextStr PK11Context;
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this.nss_t.PK11Context = ctypes.void_t;
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// Needed for SECKEYPrivateKey struct def'n, but I don't think we need to actually access it.
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this.nss_t.PLArenaPool = ctypes.void_t;
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// security/nss/lib/cryptohi/keythi.h#45
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// typedef enum
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this.nss_t.KeyType = ctypes.int;
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// security/nss/lib/softoken/secmodt.h#201
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// typedef PRUint32 PK11AttrFlags;
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this.nss_t.PK11AttrFlags = ctypes.unsigned_int;
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// security/nss/lib/util/seccomon.h#83
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// typedef struct SECItemStr SECItem; --> SECItemStr defined right below it
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this.nss_t.SECItem = ctypes.StructType(
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"SECItem", [{ type: this.nss_t.SECItemType },
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{ data: ctypes.unsigned_char.ptr },
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{ len : ctypes.int }]);
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// security/nss/lib/util/secoidt.h#52
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// typedef struct SECAlgorithmIDStr --> def'n right below it
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this.nss_t.SECAlgorithmID = ctypes.StructType(
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"SECAlgorithmID", [{ algorithm: this.nss_t.SECItem },
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{ parameters: this.nss_t.SECItem }]);
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// security/nss/lib/util/pkcs11t.h
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this.nss.CKK_RSA = 0x0;
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this.nss.CKM_RSA_PKCS_KEY_PAIR_GEN = 0x0000;
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this.nss.CKM_AES_KEY_GEN = 0x1080;
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this.nss.CKA_ENCRYPT = 0x104;
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this.nss.CKA_DECRYPT = 0x105;
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// security/nss/lib/softoken/secmodt.h
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this.nss.PK11_ATTR_SESSION = 0x02;
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this.nss.PK11_ATTR_PUBLIC = 0x08;
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this.nss.PK11_ATTR_SENSITIVE = 0x40;
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// security/nss/lib/util/secoidt.h
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this.nss.SEC_OID_PKCS5_PBKDF2 = 291;
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this.nss.SEC_OID_HMAC_SHA1 = 294;
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this.nss.SEC_OID_PKCS1_RSA_ENCRYPTION = 16;
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// security/nss/lib/pk11wrap/pk11pub.h#286
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// SECStatus PK11_GenerateRandom(unsigned char *data,int len);
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this.nss.PK11_GenerateRandom = nsslib.declare("PK11_GenerateRandom",
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ctypes.default_abi, this.nss_t.SECStatus,
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ctypes.unsigned_char.ptr, ctypes.int);
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// security/nss/lib/pk11wrap/pk11pub.h#74
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// PK11SlotInfo *PK11_GetInternalSlot(void);
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this.nss.PK11_GetInternalSlot = nsslib.declare("PK11_GetInternalSlot",
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ctypes.default_abi, this.nss_t.PK11SlotInfo.ptr);
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// security/nss/lib/pk11wrap/pk11pub.h#73
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// PK11SlotInfo *PK11_GetInternalKeySlot(void);
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this.nss.PK11_GetInternalKeySlot = nsslib.declare("PK11_GetInternalKeySlot",
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ctypes.default_abi, this.nss_t.PK11SlotInfo.ptr);
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// security/nss/lib/pk11wrap/pk11pub.h#328
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// PK11SymKey *PK11_KeyGen(PK11SlotInfo *slot,CK_MECHANISM_TYPE type, SECItem *param, int keySize,void *wincx);
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this.nss.PK11_KeyGen = nsslib.declare("PK11_KeyGen",
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ctypes.default_abi, this.nss_t.PK11SymKey.ptr,
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this.nss_t.PK11SlotInfo.ptr, this.nss_t.CK_MECHANISM_TYPE,
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this.nss_t.SECItem.ptr, ctypes.int, ctypes.voidptr_t);
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// security/nss/lib/pk11wrap/pk11pub.h#477
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// SECStatus PK11_ExtractKeyValue(PK11SymKey *symKey);
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this.nss.PK11_ExtractKeyValue = nsslib.declare("PK11_ExtractKeyValue",
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ctypes.default_abi, this.nss_t.SECStatus,
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this.nss_t.PK11SymKey.ptr);
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// security/nss/lib/pk11wrap/pk11pub.h#478
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// SECItem * PK11_GetKeyData(PK11SymKey *symKey);
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this.nss.PK11_GetKeyData = nsslib.declare("PK11_GetKeyData",
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ctypes.default_abi, this.nss_t.SECItem.ptr,
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this.nss_t.PK11SymKey.ptr);
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// security/nss/lib/pk11wrap/pk11pub.h#278
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// CK_MECHANISM_TYPE PK11_AlgtagToMechanism(SECOidTag algTag);
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this.nss.PK11_AlgtagToMechanism = nsslib.declare("PK11_AlgtagToMechanism",
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ctypes.default_abi, this.nss_t.CK_MECHANISM_TYPE,
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this.nss_t.SECOidTag);
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// security/nss/lib/pk11wrap/pk11pub.h#270
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// int PK11_GetIVLength(CK_MECHANISM_TYPE type);
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this.nss.PK11_GetIVLength = nsslib.declare("PK11_GetIVLength",
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ctypes.default_abi, ctypes.int,
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this.nss_t.CK_MECHANISM_TYPE);
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// security/nss/lib/pk11wrap/pk11pub.h#269
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// int PK11_GetBlockSize(CK_MECHANISM_TYPE type,SECItem *params);
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this.nss.PK11_GetBlockSize = nsslib.declare("PK11_GetBlockSize",
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ctypes.default_abi, ctypes.int,
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this.nss_t.CK_MECHANISM_TYPE, this.nss_t.SECItem.ptr);
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// security/nss/lib/pk11wrap/pk11pub.h#293
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// CK_MECHANISM_TYPE PK11_GetPadMechanism(CK_MECHANISM_TYPE);
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this.nss.PK11_GetPadMechanism = nsslib.declare("PK11_GetPadMechanism",
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ctypes.default_abi, this.nss_t.CK_MECHANISM_TYPE,
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this.nss_t.CK_MECHANISM_TYPE);
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// security/nss/lib/pk11wrap/pk11pub.h#271
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// SECItem *PK11_ParamFromIV(CK_MECHANISM_TYPE type,SECItem *iv);
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this.nss.PK11_ParamFromIV = nsslib.declare("PK11_ParamFromIV",
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ctypes.default_abi, this.nss_t.SECItem.ptr,
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this.nss_t.CK_MECHANISM_TYPE, this.nss_t.SECItem.ptr);
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// security/nss/lib/pk11wrap/pk11pub.h#301
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// PK11SymKey *PK11_ImportSymKey(PK11SlotInfo *slot, CK_MECHANISM_TYPE type, PK11Origin origin,
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// CK_ATTRIBUTE_TYPE operation, SECItem *key, void *wincx);
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this.nss.PK11_ImportSymKey = nsslib.declare("PK11_ImportSymKey",
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ctypes.default_abi, this.nss_t.PK11SymKey.ptr,
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this.nss_t.PK11SlotInfo.ptr, this.nss_t.CK_MECHANISM_TYPE, this.nss_t.PK11Origin,
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this.nss_t.CK_ATTRIBUTE_TYPE, this.nss_t.SECItem.ptr, ctypes.voidptr_t);
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// security/nss/lib/pk11wrap/pk11pub.h#672
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// PK11Context *PK11_CreateContextBySymKey(CK_MECHANISM_TYPE type, CK_ATTRIBUTE_TYPE operation,
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// PK11SymKey *symKey, SECItem *param);
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this.nss.PK11_CreateContextBySymKey = nsslib.declare("PK11_CreateContextBySymKey",
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ctypes.default_abi, this.nss_t.PK11Context.ptr,
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this.nss_t.CK_MECHANISM_TYPE, this.nss_t.CK_ATTRIBUTE_TYPE,
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this.nss_t.PK11SymKey.ptr, this.nss_t.SECItem.ptr);
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// security/nss/lib/pk11wrap/pk11pub.h#685
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// SECStatus PK11_CipherOp(PK11Context *context, unsigned char *out
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// int *outlen, int maxout, unsigned char *in, int inlen);
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this.nss.PK11_CipherOp = nsslib.declare("PK11_CipherOp",
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ctypes.default_abi, this.nss_t.SECStatus,
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this.nss_t.PK11Context.ptr, ctypes.unsigned_char.ptr,
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ctypes.int.ptr, ctypes.int, ctypes.unsigned_char.ptr, ctypes.int);
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// security/nss/lib/pk11wrap/pk11pub.h#688
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// SECStatus PK11_DigestFinal(PK11Context *context, unsigned char *data,
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// unsigned int *outLen, unsigned int length);
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this.nss.PK11_DigestFinal = nsslib.declare("PK11_DigestFinal",
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ctypes.default_abi, this.nss_t.SECStatus,
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this.nss_t.PK11Context.ptr, ctypes.unsigned_char.ptr,
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ctypes.unsigned_int.ptr, ctypes.unsigned_int);
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// security/nss/lib/pk11wrap/pk11pub.h#731
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// SECAlgorithmID * PK11_CreatePBEV2AlgorithmID(SECOidTag pbeAlgTag, SECOidTag cipherAlgTag,
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// SECOidTag prfAlgTag, int keyLength, int iteration,
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// SECItem *salt);
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this.nss.PK11_CreatePBEV2AlgorithmID = nsslib.declare("PK11_CreatePBEV2AlgorithmID",
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ctypes.default_abi, this.nss_t.SECAlgorithmID.ptr,
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this.nss_t.SECOidTag, this.nss_t.SECOidTag, this.nss_t.SECOidTag,
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ctypes.int, ctypes.int, this.nss_t.SECItem.ptr);
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// security/nss/lib/pk11wrap/pk11pub.h#736
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// PK11SymKey * PK11_PBEKeyGen(PK11SlotInfo *slot, SECAlgorithmID *algid, SECItem *pwitem, PRBool faulty3DES, void *wincx);
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this.nss.PK11_PBEKeyGen = nsslib.declare("PK11_PBEKeyGen",
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ctypes.default_abi, this.nss_t.PK11SymKey.ptr,
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this.nss_t.PK11SlotInfo.ptr, this.nss_t.SECAlgorithmID.ptr,
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this.nss_t.SECItem.ptr, this.nss_t.PRBool, ctypes.voidptr_t);
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// security/nss/lib/pk11wrap/pk11pub.h#675
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// void PK11_DestroyContext(PK11Context *context, PRBool freeit);
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this.nss.PK11_DestroyContext = nsslib.declare("PK11_DestroyContext",
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ctypes.default_abi, ctypes.void_t,
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this.nss_t.PK11Context.ptr, this.nss_t.PRBool);
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// security/nss/lib/pk11wrap/pk11pub.h#299
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// void PK11_FreeSymKey(PK11SymKey *key);
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this.nss.PK11_FreeSymKey = nsslib.declare("PK11_FreeSymKey",
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ctypes.default_abi, ctypes.void_t,
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this.nss_t.PK11SymKey.ptr);
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// security/nss/lib/pk11wrap/pk11pub.h#70
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// void PK11_FreeSlot(PK11SlotInfo *slot);
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this.nss.PK11_FreeSlot = nsslib.declare("PK11_FreeSlot",
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ctypes.default_abi, ctypes.void_t,
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this.nss_t.PK11SlotInfo.ptr);
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// security/nss/lib/util/secitem.h#49
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// extern SECItem *SECITEM_AllocItem(PRArenaPool *arena, SECItem *item, unsigned int len);
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this.nss.SECITEM_AllocItem = nsslib.declare("SECITEM_AllocItem",
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ctypes.default_abi, this.nss_t.SECItem.ptr,
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this.nss_t.PLArenaPool.ptr, // Not used.
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this.nss_t.SECItem.ptr, ctypes.unsigned_int);
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// security/nss/lib/util/secitem.h#274
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// extern void SECITEM_ZfreeItem(SECItem *zap, PRBool freeit);
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this.nss.SECITEM_ZfreeItem = nsslib.declare("SECITEM_ZfreeItem",
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ctypes.default_abi, ctypes.void_t,
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this.nss_t.SECItem.ptr, this.nss_t.PRBool);
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// security/nss/lib/util/secitem.h#114
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// extern void SECITEM_FreeItem(SECItem *zap, PRBool freeit);
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this.nss.SECITEM_FreeItem = nsslib.declare("SECITEM_FreeItem",
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ctypes.default_abi, ctypes.void_t,
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this.nss_t.SECItem.ptr, this.nss_t.PRBool);
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// security/nss/lib/util/secoid.h#103
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// extern void SECOID_DestroyAlgorithmID(SECAlgorithmID *aid, PRBool freeit);
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this.nss.SECOID_DestroyAlgorithmID = nsslib.declare("SECOID_DestroyAlgorithmID",
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ctypes.default_abi, ctypes.void_t,
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this.nss_t.SECAlgorithmID.ptr, this.nss_t.PRBool);
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},
|
|
|
|
|
|
_sharedInputBuffer: null,
|
|
_sharedInputBufferInts: null,
|
|
_sharedInputBufferSize: 0,
|
|
_sharedOutputBuffer: null,
|
|
_sharedOutputBufferSize: 0,
|
|
_randomByteBuffer: null,
|
|
_randomByteBufferAddr: null,
|
|
_randomByteBufferSize: 0,
|
|
|
|
_getInputBuffer: function _getInputBuffer(size) {
|
|
if (size > this._sharedInputBufferSize) {
|
|
let b = new ctypes.ArrayType(ctypes.unsigned_char, size)();
|
|
this._sharedInputBuffer = b;
|
|
this._sharedInputBufferInts = ctypes.cast(b, ctypes.uint8_t.array(size));
|
|
this._sharedInputBufferSize = size;
|
|
}
|
|
return this._sharedInputBuffer;
|
|
},
|
|
|
|
_getOutputBuffer: function _getOutputBuffer(size) {
|
|
if (size > this._sharedOutputBufferSize) {
|
|
let b = new ctypes.ArrayType(ctypes.unsigned_char, size)();
|
|
this._sharedOutputBuffer = b;
|
|
this._sharedOutputBufferSize = size;
|
|
}
|
|
return this._sharedOutputBuffer;
|
|
},
|
|
|
|
_getRandomByteBuffer: function _getRandomByteBuffer(size) {
|
|
if (size > this._randomByteBufferSize) {
|
|
let b = new ctypes.ArrayType(ctypes.unsigned_char, size)();
|
|
this._randomByteBuffer = b;
|
|
this._randomByteBufferAddr = b.address();
|
|
this._randomByteBufferSize = size;
|
|
}
|
|
return this._randomByteBuffer;
|
|
},
|
|
|
|
initBuffers: function initBuffers(initialSize) {
|
|
this._getInputBuffer(initialSize);
|
|
this._getOutputBuffer(initialSize);
|
|
|
|
this._getRandomByteBuffer(this.ivLength);
|
|
},
|
|
|
|
encrypt : function(clearTextUCS2, symmetricKey, iv) {
|
|
this.log("encrypt() called");
|
|
|
|
// js-ctypes autoconverts to a UTF8 buffer, but also includes a null
|
|
// at the end which we don't want. Decrement length to skip it.
|
|
let inputBuffer = new ctypes.ArrayType(ctypes.unsigned_char)(clearTextUCS2);
|
|
let inputBufferSize = inputBuffer.length - 1;
|
|
|
|
// When using CBC padding, the output size is the input size rounded
|
|
// up to the nearest block. If the input size is exactly on a block
|
|
// boundary, the output is 1 extra block long.
|
|
let outputBufferSize = inputBufferSize + this.blockSize;
|
|
let outputBuffer = this._getOutputBuffer(outputBufferSize);
|
|
|
|
outputBuffer = this._commonCrypt(inputBuffer, inputBufferSize,
|
|
outputBuffer, outputBufferSize,
|
|
symmetricKey, iv, this.nss.CKA_ENCRYPT);
|
|
|
|
return this.encodeBase64(outputBuffer.address(), outputBuffer.length);
|
|
},
|
|
|
|
|
|
decrypt : function(cipherText, symmetricKey, iv) {
|
|
this.log("decrypt() called");
|
|
|
|
let inputUCS2 = "";
|
|
if (cipherText.length)
|
|
inputUCS2 = atob(cipherText);
|
|
|
|
// We can't have js-ctypes create the buffer directly from the string
|
|
// (as in encrypt()), because we do _not_ want it to do UTF8
|
|
// conversion... We've got random binary data in the input's low byte.
|
|
//
|
|
// Compress a JS string (2-byte chars) into a normal C string (1-byte chars).
|
|
let len = inputUCS2.length;
|
|
let input = this._getInputBuffer(len);
|
|
this.byteCompressInts(inputUCS2, this._sharedInputBufferInts, len);
|
|
|
|
let outputBuffer = this._commonCrypt(input, len,
|
|
this._getOutputBuffer(len), len,
|
|
symmetricKey, iv, this.nss.CKA_DECRYPT);
|
|
|
|
// outputBuffer contains UTF-8 data, let js-ctypes autoconvert that to a JS string.
|
|
// XXX Bug 573842: wrap the string from ctypes to get a new string, so
|
|
// we don't hit bug 573841.
|
|
return "" + outputBuffer.readString() + "";
|
|
},
|
|
|
|
_commonCrypt : function (input, inputLength, output, outputLength, symmetricKey, iv, operation) {
|
|
this.log("_commonCrypt() called");
|
|
iv = atob(iv);
|
|
|
|
// We never want an IV longer than the block size, which is 16 bytes
|
|
// for AES. Neither do we want one smaller; throw in that case.
|
|
if (iv.length < this.blockSize)
|
|
throw "IV too short; must be " + this.blockSize + " bytes.";
|
|
if (iv.length > this.blockSize)
|
|
iv = iv.slice(0, this.blockSize);
|
|
|
|
// We use a single IV SECItem for the sake of efficiency. Fill it here.
|
|
this.byteCompressInts(iv, this._ivSECItemContents, iv.length);
|
|
|
|
let ctx, symKey, ivParam;
|
|
try {
|
|
ivParam = this.nss.PK11_ParamFromIV(this.padMechanism, this._ivSECItem);
|
|
if (ivParam.isNull())
|
|
throw Components.Exception("can't convert IV to param", Cr.NS_ERROR_FAILURE);
|
|
|
|
symKey = this.importSymKey(symmetricKey, operation);
|
|
ctx = this.nss.PK11_CreateContextBySymKey(this.padMechanism, operation, symKey, ivParam);
|
|
if (ctx.isNull())
|
|
throw Components.Exception("couldn't create context for symkey", Cr.NS_ERROR_FAILURE);
|
|
|
|
let maxOutputSize = outputLength;
|
|
if (this.nss.PK11_CipherOp(ctx, output, this._commonCryptSignedOutputSize.address(), maxOutputSize, input, inputLength))
|
|
throw Components.Exception("cipher operation failed", Cr.NS_ERROR_FAILURE);
|
|
|
|
let actualOutputSize = this._commonCryptSignedOutputSize.value;
|
|
let finalOutput = output.addressOfElement(actualOutputSize);
|
|
maxOutputSize -= actualOutputSize;
|
|
|
|
// PK11_DigestFinal sure sounds like the last step for *hashing*, but it
|
|
// just seems to be an odd name -- NSS uses this to finish the current
|
|
// cipher operation. You'd think it would be called PK11_CipherOpFinal...
|
|
if (this.nss.PK11_DigestFinal(ctx, finalOutput, this._commonCryptUnsignedOutputSizeAddr, maxOutputSize))
|
|
throw Components.Exception("cipher finalize failed", Cr.NS_ERROR_FAILURE);
|
|
|
|
actualOutputSize += this._commonCryptUnsignedOutputSize.value;
|
|
let newOutput = ctypes.cast(output, ctypes.unsigned_char.array(actualOutputSize));
|
|
return newOutput;
|
|
} catch (e) {
|
|
this.log("_commonCrypt: failed: " + e);
|
|
throw e;
|
|
} finally {
|
|
if (ctx && !ctx.isNull())
|
|
this.nss.PK11_DestroyContext(ctx, true);
|
|
if (ivParam && !ivParam.isNull())
|
|
this.nss.SECITEM_FreeItem(ivParam, true);
|
|
|
|
// Note that we do not free the IV SECItem; we reuse it.
|
|
// Neither do we free the symKey, because that's memoized.
|
|
}
|
|
},
|
|
|
|
|
|
generateRandomKey : function() {
|
|
this.log("generateRandomKey() called");
|
|
let slot, randKey, keydata;
|
|
try {
|
|
slot = this.nss.PK11_GetInternalSlot();
|
|
if (slot.isNull())
|
|
throw Components.Exception("couldn't get internal slot", Cr.NS_ERROR_FAILURE);
|
|
|
|
randKey = this.nss.PK11_KeyGen(slot, this.keygenMechanism, null, this.keySize, null);
|
|
if (randKey.isNull())
|
|
throw Components.Exception("PK11_KeyGen failed.", Cr.NS_ERROR_FAILURE);
|
|
|
|
// Slightly odd API, this call just prepares the key value for
|
|
// extraction, we get the actual bits from the call to PK11_GetKeyData().
|
|
if (this.nss.PK11_ExtractKeyValue(randKey))
|
|
throw Components.Exception("PK11_ExtractKeyValue failed.", Cr.NS_ERROR_FAILURE);
|
|
|
|
keydata = this.nss.PK11_GetKeyData(randKey);
|
|
if (keydata.isNull())
|
|
throw Components.Exception("PK11_GetKeyData failed.", Cr.NS_ERROR_FAILURE);
|
|
|
|
return this.encodeBase64(keydata.contents.data, keydata.contents.len);
|
|
} catch (e) {
|
|
this.log("generateRandomKey: failed: " + e);
|
|
throw e;
|
|
} finally {
|
|
if (randKey && !randKey.isNull())
|
|
this.nss.PK11_FreeSymKey(randKey);
|
|
if (slot && !slot.isNull())
|
|
this.nss.PK11_FreeSlot(slot);
|
|
}
|
|
},
|
|
|
|
generateRandomIV : function() this.generateRandomBytes(this.ivLength),
|
|
|
|
generateRandomBytes : function(byteCount) {
|
|
this.log("generateRandomBytes() called");
|
|
|
|
// Temporary buffer to hold the generated data.
|
|
let scratch = this._getRandomByteBuffer(byteCount);
|
|
if (this.nss.PK11_GenerateRandom(scratch, byteCount))
|
|
throw Components.Exception("PK11_GenrateRandom failed", Cr.NS_ERROR_FAILURE);
|
|
|
|
return this.encodeBase64(this._randomByteBufferAddr, byteCount);
|
|
},
|
|
|
|
//
|
|
// PK11SymKey memoization.
|
|
//
|
|
|
|
// Memoize the lookup of symmetric keys. We do this by using the base64
|
|
// string itself as a key -- the overhead of SECItem creation during the
|
|
// initial population is negligible, so that phase is not memoized.
|
|
_encryptionSymKeyMemo: {},
|
|
_decryptionSymKeyMemo: {},
|
|
importSymKey: function importSymKey(encodedKeyString, operation) {
|
|
let memo;
|
|
|
|
// We use two separate memos for thoroughness: operation is an input to
|
|
// key import.
|
|
switch (operation) {
|
|
case this.nss.CKA_ENCRYPT:
|
|
memo = this._encryptionSymKeyMemo;
|
|
break;
|
|
case this.nss.CKA_DECRYPT:
|
|
memo = this._decryptionSymKeyMemo;
|
|
break;
|
|
default:
|
|
throw "Unsupported operation in importSymKey.";
|
|
}
|
|
|
|
if (encodedKeyString in memo)
|
|
return memo[encodedKeyString];
|
|
|
|
let keyItem, slot;
|
|
try {
|
|
keyItem = this.makeSECItem(encodedKeyString, true);
|
|
slot = this.nss.PK11_GetInternalKeySlot();
|
|
if (slot.isNull())
|
|
throw Components.Exception("can't get internal key slot",
|
|
Cr.NS_ERROR_FAILURE);
|
|
|
|
let symKey = this.nss.PK11_ImportSymKey(slot, this.padMechanism,
|
|
this.nss.PK11_OriginUnwrap,
|
|
operation, keyItem, null);
|
|
if (!symKey || symKey.isNull())
|
|
throw Components.Exception("symkey import failed",
|
|
Cr.NS_ERROR_FAILURE);
|
|
|
|
return memo[encodedKeyString] = symKey;
|
|
} finally {
|
|
if (slot && !slot.isNull())
|
|
this.nss.PK11_FreeSlot(slot);
|
|
this.freeSECItem(keyItem);
|
|
}
|
|
},
|
|
|
|
|
|
//
|
|
// Utility functions
|
|
//
|
|
|
|
/**
|
|
* Compress a JS string into a C uint8 array. count is the number of
|
|
* elements in the destination array. If the array is smaller than the
|
|
* string, the string is effectively truncated. If the string is smaller
|
|
* than the array, the array is not 0-padded.
|
|
*/
|
|
byteCompressInts : function byteCompressInts (jsString, intArray, count) {
|
|
let len = jsString.length;
|
|
let end = Math.min(len, count);
|
|
for (let i = 0; i < end; i++)
|
|
intArray[i] = jsString.charCodeAt(i) & 0xFF; // convert to bytes.
|
|
},
|
|
|
|
// Expand a normal C string (1-byte chars) into a JS string (2-byte chars)
|
|
// EG, for "ABC", 0x41, 0x42, 0x43 --> 0x0041, 0x0042, 0x0043
|
|
byteExpand : function (charArray) {
|
|
let expanded = "";
|
|
let len = charArray.length;
|
|
let intData = ctypes.cast(charArray, ctypes.uint8_t.array(len));
|
|
for (let i = 0; i < len; i++)
|
|
expanded += String.fromCharCode(intData[i]);
|
|
return expanded;
|
|
},
|
|
|
|
expandData : function expandData(data, len) {
|
|
// Byte-expand the buffer, so we can treat it as a UCS-2 string
|
|
// consisting of u0000 - u00FF.
|
|
let expanded = "";
|
|
let intData = ctypes.cast(data, ctypes.uint8_t.array(len).ptr).contents;
|
|
for (let i = 0; i < len; i++)
|
|
expanded += String.fromCharCode(intData[i]);
|
|
return expanded;
|
|
},
|
|
|
|
encodeBase64 : function (data, len) {
|
|
return btoa(this.expandData(data, len));
|
|
},
|
|
|
|
// Returns a filled SECItem *, as returned by SECITEM_AllocItem.
|
|
//
|
|
// Note that this must be released with freeSECItem, which will also
|
|
// deallocate the internal buffer.
|
|
makeSECItem : function(input, isEncoded) {
|
|
if (isEncoded)
|
|
input = atob(input);
|
|
|
|
let len = input.length;
|
|
let item = this.nss.SECITEM_AllocItem(null, null, len);
|
|
if (item.isNull())
|
|
throw "SECITEM_AllocItem failed.";
|
|
|
|
let ptr = ctypes.cast(item.contents.data,
|
|
ctypes.unsigned_char.array(len).ptr);
|
|
let dest = ctypes.cast(ptr.contents, ctypes.uint8_t.array(len));
|
|
this.byteCompressInts(input, dest, len);
|
|
return item;
|
|
},
|
|
|
|
freeSECItem : function(zap) {
|
|
if (zap && !zap.isNull())
|
|
this.nss.SECITEM_ZfreeItem(zap, true);
|
|
},
|
|
|
|
// We only ever handle one IV at a time, and they're always different.
|
|
// Consequently, we maintain a single SECItem, and a handy pointer into its
|
|
// contents to avoid repetitive and expensive casts.
|
|
_ivSECItem: null,
|
|
_ivSECItemContents: null,
|
|
|
|
initIVSECItem: function initIVSECItem() {
|
|
if (this._ivSECItem) {
|
|
this._ivSECItemContents = null;
|
|
this.freeSECItem(this._ivSECItem);
|
|
}
|
|
|
|
let item = this.nss.SECITEM_AllocItem(null, null, this.blockSize);
|
|
if (item.isNull())
|
|
throw "SECITEM_AllocItem failed.";
|
|
|
|
let ptr = ctypes.cast(item.contents.data,
|
|
ctypes.unsigned_char.array(this.blockSize).ptr);
|
|
let contents = ctypes.cast(ptr.contents,
|
|
ctypes.uint8_t.array(this.blockSize));
|
|
this._ivSECItem = item;
|
|
this._ivSECItemContents = contents;
|
|
},
|
|
|
|
/**
|
|
* Returns the expanded data string for the derived key.
|
|
*/
|
|
deriveKeyFromPassphrase : function deriveKeyFromPassphrase(passphrase, salt, keyLength) {
|
|
this.log("deriveKeyFromPassphrase() called.");
|
|
let passItem = this.makeSECItem(passphrase, false);
|
|
let saltItem = this.makeSECItem(salt, true);
|
|
|
|
let pbeAlg = ALGORITHM;
|
|
let cipherAlg = ALGORITHM; // Ignored by callee when pbeAlg != a pkcs5 mech.
|
|
|
|
// Callee picks if SEC_OID_UNKNOWN, but only SHA1 is supported.
|
|
let prfAlg = this.nss.SEC_OID_HMAC_SHA1;
|
|
|
|
let keyLength = keyLength || 0; // 0 = Callee will pick.
|
|
let iterations = KEY_DERIVATION_ITERATIONS;
|
|
|
|
let algid, slot, symKey, keyData;
|
|
try {
|
|
algid = this.nss.PK11_CreatePBEV2AlgorithmID(pbeAlg, cipherAlg, prfAlg,
|
|
keyLength, iterations,
|
|
saltItem);
|
|
if (algid.isNull())
|
|
throw Components.Exception("PK11_CreatePBEV2AlgorithmID failed", Cr.NS_ERROR_FAILURE);
|
|
|
|
slot = this.nss.PK11_GetInternalSlot();
|
|
if (slot.isNull())
|
|
throw Components.Exception("couldn't get internal slot", Cr.NS_ERROR_FAILURE);
|
|
|
|
symKey = this.nss.PK11_PBEKeyGen(slot, algid, passItem, false, null);
|
|
if (symKey.isNull())
|
|
throw Components.Exception("PK11_PBEKeyGen failed", Cr.NS_ERROR_FAILURE);
|
|
|
|
// Take the PK11SymKeyStr, returning the extracted key data.
|
|
if (this.nss.PK11_ExtractKeyValue(symKey)) {
|
|
throw this.makeException("PK11_ExtractKeyValue failed.", Cr.NS_ERROR_FAILURE);
|
|
}
|
|
|
|
keyData = this.nss.PK11_GetKeyData(symKey);
|
|
|
|
if (keyData.isNull())
|
|
throw Components.Exception("PK11_GetKeyData failed", Cr.NS_ERROR_FAILURE);
|
|
|
|
// This copies the key contents into a JS string, so we don't leak.
|
|
// The `finally` block below will clean up.
|
|
return this.expandData(keyData.contents.data, keyData.contents.len);
|
|
|
|
} catch (e) {
|
|
this.log("deriveKeyFromPassphrase: failed: " + e);
|
|
throw e;
|
|
} finally {
|
|
if (algid && !algid.isNull())
|
|
this.nss.SECOID_DestroyAlgorithmID(algid, true);
|
|
if (slot && !slot.isNull())
|
|
this.nss.PK11_FreeSlot(slot);
|
|
if (symKey && !symKey.isNull())
|
|
this.nss.PK11_FreeSymKey(symKey);
|
|
|
|
this.freeSECItem(passItem);
|
|
this.freeSECItem(saltItem);
|
|
}
|
|
},
|
|
};
|