sheetjs_sheetjs/bits/44_offcrypto.js

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function _JS2ANSI(str/*:string*/)/*:Array<number>*/ {
if(typeof cptable !== 'undefined') return cptable.utils.encode(current_ansi, str);
var o/*:Array<number>*/ = [], oo = str.split("");
for(var i = 0; i < oo.length; ++i) o[i] = oo[i].charCodeAt(0);
return o;
}
/* [MS-OFFCRYPTO] 2.1.4 Version */
function parse_CRYPTOVersion(blob, length/*:?number*/) {
var o/*:any*/ = {};
o.Major = blob.read_shift(2);
o.Minor = blob.read_shift(2);
/*:: if(length == null) return o; */
if(length >= 4) blob.l += length - 4;
return o;
}
/* [MS-OFFCRYPTO] 2.1.5 DataSpaceVersionInfo */
function parse_DataSpaceVersionInfo(blob) {
var o = {};
o.id = blob.read_shift(0, 'lpp4');
o.R = parse_CRYPTOVersion(blob, 4);
o.U = parse_CRYPTOVersion(blob, 4);
o.W = parse_CRYPTOVersion(blob, 4);
return o;
}
/* [MS-OFFCRYPTO] 2.1.6.1 DataSpaceMapEntry Structure */
function parse_DataSpaceMapEntry(blob) {
var len = blob.read_shift(4);
var end = blob.l + len - 4;
var o = {};
var cnt = blob.read_shift(4);
var comps/*:Array<{t:number, v:string}>*/ = [];
/* [MS-OFFCRYPTO] 2.1.6.2 DataSpaceReferenceComponent Structure */
while(cnt-- > 0) comps.push({ t: blob.read_shift(4), v: blob.read_shift(0, 'lpp4') });
o.name = blob.read_shift(0, 'lpp4');
o.comps = comps;
if(blob.l != end) throw new Error("Bad DataSpaceMapEntry: " + blob.l + " != " + end);
return o;
}
/* [MS-OFFCRYPTO] 2.1.6 DataSpaceMap */
function parse_DataSpaceMap(blob) {
var o = [];
blob.l += 4; // must be 0x8
var cnt = blob.read_shift(4);
while(cnt-- > 0) o.push(parse_DataSpaceMapEntry(blob));
return o;
}
/* [MS-OFFCRYPTO] 2.1.7 DataSpaceDefinition */
function parse_DataSpaceDefinition(blob)/*:Array<string>*/ {
var o/*:Array<string>*/ = [];
blob.l += 4; // must be 0x8
var cnt = blob.read_shift(4);
while(cnt-- > 0) o.push(blob.read_shift(0, 'lpp4'));
return o;
}
/* [MS-OFFCRYPTO] 2.1.8 DataSpaceDefinition */
function parse_TransformInfoHeader(blob) {
var o = {};
/*var len = */blob.read_shift(4);
blob.l += 4; // must be 0x1
o.id = blob.read_shift(0, 'lpp4');
o.name = blob.read_shift(0, 'lpp4');
o.R = parse_CRYPTOVersion(blob, 4);
o.U = parse_CRYPTOVersion(blob, 4);
o.W = parse_CRYPTOVersion(blob, 4);
return o;
}
function parse_Primary(blob) {
/* [MS-OFFCRYPTO] 2.2.6 IRMDSTransformInfo */
var hdr = parse_TransformInfoHeader(blob);
/* [MS-OFFCRYPTO] 2.1.9 EncryptionTransformInfo */
hdr.ename = blob.read_shift(0, '8lpp4');
hdr.blksz = blob.read_shift(4);
hdr.cmode = blob.read_shift(4);
if(blob.read_shift(4) != 0x04) throw new Error("Bad !Primary record");
return hdr;
}
/* [MS-OFFCRYPTO] 2.3.2 Encryption Header */
function parse_EncryptionHeader(blob, length/*:number*/) {
var tgt = blob.l + length;
var o = {};
o.Flags = (blob.read_shift(4) & 0x3F);
blob.l += 4;
o.AlgID = blob.read_shift(4);
var valid = false;
switch(o.AlgID) {
case 0x660E: case 0x660F: case 0x6610: valid = (o.Flags == 0x24); break;
case 0x6801: valid = (o.Flags == 0x04); break;
case 0: valid = (o.Flags == 0x10 || o.Flags == 0x04 || o.Flags == 0x24); break;
default: throw 'Unrecognized encryption algorithm: ' + o.AlgID;
}
if(!valid) throw new Error("Encryption Flags/AlgID mismatch");
o.AlgIDHash = blob.read_shift(4);
o.KeySize = blob.read_shift(4);
o.ProviderType = blob.read_shift(4);
blob.l += 8;
o.CSPName = blob.read_shift((tgt-blob.l)>>1, 'utf16le');
blob.l = tgt;
return o;
}
/* [MS-OFFCRYPTO] 2.3.3 Encryption Verifier */
function parse_EncryptionVerifier(blob, length/*:number*/) {
var o = {}, tgt = blob.l + length;
blob.l += 4; // SaltSize must be 0x10
o.Salt = blob.slice(blob.l, blob.l+16); blob.l += 16;
o.Verifier = blob.slice(blob.l, blob.l+16); blob.l += 16;
/*var sz = */blob.read_shift(4);
o.VerifierHash = blob.slice(blob.l, tgt); blob.l = tgt;
return o;
}
/* [MS-OFFCRYPTO] 2.3.4.* EncryptionInfo Stream */
function parse_EncryptionInfo(blob) {
var vers = parse_CRYPTOVersion(blob);
switch(vers.Minor) {
case 0x02: return [vers.Minor, parse_EncInfoStd(blob, vers)];
case 0x03: return [vers.Minor, parse_EncInfoExt(blob, vers)];
case 0x04: return [vers.Minor, parse_EncInfoAgl(blob, vers)];
}
throw new Error("ECMA-376 Encrypted file unrecognized Version: " + vers.Minor);
}
/* [MS-OFFCRYPTO] 2.3.4.5 EncryptionInfo Stream (Standard Encryption) */
function parse_EncInfoStd(blob/*::, vers*/) {
var flags = blob.read_shift(4);
if((flags & 0x3F) != 0x24) throw new Error("EncryptionInfo mismatch");
var sz = blob.read_shift(4);
//var tgt = blob.l + sz;
var hdr = parse_EncryptionHeader(blob, sz);
var verifier = parse_EncryptionVerifier(blob, blob.length - blob.l);
return { t:"Std", h:hdr, v:verifier };
}
/* [MS-OFFCRYPTO] 2.3.4.6 EncryptionInfo Stream (Extensible Encryption) */
function parse_EncInfoExt(/*::blob, vers*/) { throw new Error("File is password-protected: ECMA-376 Extensible"); }
/* [MS-OFFCRYPTO] 2.3.4.10 EncryptionInfo Stream (Agile Encryption) */
function parse_EncInfoAgl(blob/*::, vers*/) {
var KeyData = ["saltSize","blockSize","keyBits","hashSize","cipherAlgorithm","cipherChaining","hashAlgorithm","saltValue"];
blob.l+=4;
var xml = blob.read_shift(blob.length - blob.l, 'utf8');
var o = {};
xml.replace(tagregex, function xml_agile(x) {
var y/*:any*/ = parsexmltag(x);
switch(strip_ns(y[0])) {
case '<?xml': break;
case '<encryption': case '</encryption>': break;
case '<keyData': KeyData.forEach(function(k) { o[k] = y[k]; }); break;
case '<dataIntegrity': o.encryptedHmacKey = y.encryptedHmacKey; o.encryptedHmacValue = y.encryptedHmacValue; break;
case '<keyEncryptors>': case '<keyEncryptors': o.encs = []; break;
case '</keyEncryptors>': break;
case '<keyEncryptor': o.uri = y.uri; break;
case '</keyEncryptor>': break;
case '<encryptedKey': o.encs.push(y); break;
default: throw y[0];
}
});
return o;
}
/* [MS-OFFCRYPTO] 2.3.5.1 RC4 CryptoAPI Encryption Header */
function parse_RC4CryptoHeader(blob, length/*:number*/) {
var o = {};
var vers = o.EncryptionVersionInfo = parse_CRYPTOVersion(blob, 4); length -= 4;
if(vers.Minor != 2) throw new Error('unrecognized minor version code: ' + vers.Minor);
if(vers.Major > 4 || vers.Major < 2) throw new Error('unrecognized major version code: ' + vers.Major);
o.Flags = blob.read_shift(4); length -= 4;
var sz = blob.read_shift(4); length -= 4;
o.EncryptionHeader = parse_EncryptionHeader(blob, sz); length -= sz;
o.EncryptionVerifier = parse_EncryptionVerifier(blob, length);
return o;
}
/* [MS-OFFCRYPTO] 2.3.6.1 RC4 Encryption Header */
function parse_RC4Header(blob/*::, length*/) {
var o = {};
var vers = o.EncryptionVersionInfo = parse_CRYPTOVersion(blob, 4);
if(vers.Major != 1 || vers.Minor != 1) throw 'unrecognized version code ' + vers.Major + ' : ' + vers.Minor;
o.Salt = blob.read_shift(16);
o.EncryptedVerifier = blob.read_shift(16);
o.EncryptedVerifierHash = blob.read_shift(16);
return o;
}
/* [MS-OFFCRYPTO] 2.3.7.1 Binary Document Password Verifier Derivation */
function crypto_CreatePasswordVerifier_Method1(Password/*:string*/) {
var Verifier = 0x0000, PasswordArray;
var PasswordDecoded = _JS2ANSI(Password);
var len = PasswordDecoded.length + 1, i, PasswordByte;
var Intermediate1, Intermediate2, Intermediate3;
PasswordArray = new_raw_buf(len);
PasswordArray[0] = PasswordDecoded.length;
for(i = 1; i != len; ++i) PasswordArray[i] = PasswordDecoded[i-1];
for(i = len-1; i >= 0; --i) {
PasswordByte = PasswordArray[i];
Intermediate1 = ((Verifier & 0x4000) === 0x0000) ? 0 : 1;
Intermediate2 = (Verifier << 1) & 0x7FFF;
Intermediate3 = Intermediate1 | Intermediate2;
Verifier = Intermediate3 ^ PasswordByte;
}
return Verifier ^ 0xCE4B;
}
/* [MS-OFFCRYPTO] 2.3.7.2 Binary Document XOR Array Initialization */
var crypto_CreateXorArray_Method1 = (function() {
var PadArray = [0xBB, 0xFF, 0xFF, 0xBA, 0xFF, 0xFF, 0xB9, 0x80, 0x00, 0xBE, 0x0F, 0x00, 0xBF, 0x0F, 0x00];
var InitialCode = [0xE1F0, 0x1D0F, 0xCC9C, 0x84C0, 0x110C, 0x0E10, 0xF1CE, 0x313E, 0x1872, 0xE139, 0xD40F, 0x84F9, 0x280C, 0xA96A, 0x4EC3];
var XorMatrix = [0xAEFC, 0x4DD9, 0x9BB2, 0x2745, 0x4E8A, 0x9D14, 0x2A09, 0x7B61, 0xF6C2, 0xFDA5, 0xEB6B, 0xC6F7, 0x9DCF, 0x2BBF, 0x4563, 0x8AC6, 0x05AD, 0x0B5A, 0x16B4, 0x2D68, 0x5AD0, 0x0375, 0x06EA, 0x0DD4, 0x1BA8, 0x3750, 0x6EA0, 0xDD40, 0xD849, 0xA0B3, 0x5147, 0xA28E, 0x553D, 0xAA7A, 0x44D5, 0x6F45, 0xDE8A, 0xAD35, 0x4A4B, 0x9496, 0x390D, 0x721A, 0xEB23, 0xC667, 0x9CEF, 0x29FF, 0x53FE, 0xA7FC, 0x5FD9, 0x47D3, 0x8FA6, 0x0F6D, 0x1EDA, 0x3DB4, 0x7B68, 0xF6D0, 0xB861, 0x60E3, 0xC1C6, 0x93AD, 0x377B, 0x6EF6, 0xDDEC, 0x45A0, 0x8B40, 0x06A1, 0x0D42, 0x1A84, 0x3508, 0x6A10, 0xAA51, 0x4483, 0x8906, 0x022D, 0x045A, 0x08B4, 0x1168, 0x76B4, 0xED68, 0xCAF1, 0x85C3, 0x1BA7, 0x374E, 0x6E9C, 0x3730, 0x6E60, 0xDCC0, 0xA9A1, 0x4363, 0x86C6, 0x1DAD, 0x3331, 0x6662, 0xCCC4, 0x89A9, 0x0373, 0x06E6, 0x0DCC, 0x1021, 0x2042, 0x4084, 0x8108, 0x1231, 0x2462, 0x48C4];
var Ror = function(Byte) { return ((Byte/2) | (Byte*128)) & 0xFF; };
var XorRor = function(byte1, byte2) { return Ror(byte1 ^ byte2); };
var CreateXorKey_Method1 = function(Password) {
var XorKey = InitialCode[Password.length - 1];
var CurrentElement = 0x68;
for(var i = Password.length-1; i >= 0; --i) {
var Char = Password[i];
for(var j = 0; j != 7; ++j) {
if(Char & 0x40) XorKey ^= XorMatrix[CurrentElement];
Char *= 2; --CurrentElement;
}
}
return XorKey;
};
return function(password/*:string*/) {
var Password = _JS2ANSI(password);
var XorKey = CreateXorKey_Method1(Password);
var Index = Password.length;
var ObfuscationArray = new_raw_buf(16);
for(var i = 0; i != 16; ++i) ObfuscationArray[i] = 0x00;
var Temp, PasswordLastChar, PadIndex;
if((Index & 1) === 1) {
Temp = XorKey >> 8;
ObfuscationArray[Index] = XorRor(PadArray[0], Temp);
--Index;
Temp = XorKey & 0xFF;
PasswordLastChar = Password[Password.length - 1];
ObfuscationArray[Index] = XorRor(PasswordLastChar, Temp);
}
while(Index > 0) {
--Index;
Temp = XorKey >> 8;
ObfuscationArray[Index] = XorRor(Password[Index], Temp);
--Index;
Temp = XorKey & 0xFF;
ObfuscationArray[Index] = XorRor(Password[Index], Temp);
}
Index = 15;
PadIndex = 15 - Password.length;
while(PadIndex > 0) {
Temp = XorKey >> 8;
ObfuscationArray[Index] = XorRor(PadArray[PadIndex], Temp);
--Index;
--PadIndex;
Temp = XorKey & 0xFF;
ObfuscationArray[Index] = XorRor(Password[Index], Temp);
--Index;
--PadIndex;
}
return ObfuscationArray;
};
})();
/* [MS-OFFCRYPTO] 2.3.7.3 Binary Document XOR Data Transformation Method 1 */
var crypto_DecryptData_Method1 = function(password/*:string*/, Data, XorArrayIndex, XorArray, O) {
/* If XorArray is set, use it; if O is not set, make changes in-place */
if(!O) O = Data;
if(!XorArray) XorArray = crypto_CreateXorArray_Method1(password);
var Index, Value;
for(Index = 0; Index != Data.length; ++Index) {
Value = Data[Index];
Value ^= XorArray[XorArrayIndex];
Value = ((Value>>5) | (Value<<3)) & 0xFF;
O[Index] = Value;
++XorArrayIndex;
}
return [O, XorArrayIndex, XorArray];
};
var crypto_MakeXorDecryptor = function(password/*:string*/) {
var XorArrayIndex = 0, XorArray = crypto_CreateXorArray_Method1(password);
return function(Data) {
var O = crypto_DecryptData_Method1("", Data, XorArrayIndex, XorArray);
XorArrayIndex = O[1];
return O[0];
};
};
/* 2.5.343 */
function parse_XORObfuscation(blob, length, opts, out) {
var o = ({ key: parseuint16(blob), verificationBytes: parseuint16(blob) }/*:any*/);
if(opts.password) o.verifier = crypto_CreatePasswordVerifier_Method1(opts.password);
out.valid = o.verificationBytes === o.verifier;
if(out.valid) out.insitu = crypto_MakeXorDecryptor(opts.password);
return o;
}
/* 2.4.117 */
function parse_FilePassHeader(blob, length/*:number*/, oo) {
var o = oo || {}; o.Info = blob.read_shift(2); blob.l -= 2;
if(o.Info === 1) o.Data = parse_RC4Header(blob, length);
else o.Data = parse_RC4CryptoHeader(blob, length);
return o;
}
function parse_FilePass(blob, length/*:number*/, opts) {
var o = ({ Type: opts.biff >= 8 ? blob.read_shift(2) : 0 }/*:any*/); /* wEncryptionType */
if(o.Type) parse_FilePassHeader(blob, length-2, o);
else parse_XORObfuscation(blob, opts.biff >= 8 ? length : length - 2, opts, o);
return o;
}