/* * Copyright (c) 2011, Florian Zeitz * Copyright (c) 2011, Jonathan Schleifer * * https://webkeks.org/git/?p=objxmpp.git * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice is present in all copies. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #include #import #import "XMPPSCRAMAuth.h" #import "XMPPExceptions.h" #define HMAC_IPAD 0x36 #define HMAC_OPAD 0x5c @implementation XMPPSCRAMAuth + (instancetype)SCRAMAuthWithAuthcid: (OFString*)authcid password: (OFString*)password connection: (XMPPConnection*)connection hash: (Class)hash plusAvailable: (bool)plusAvailable { return [[[self alloc] initWithAuthcid: authcid password: password connection: connection hash: hash plusAvailable: plusAvailable] autorelease]; } + (instancetype)SCRAMAuthWithAuthzid: (OFString*)authzid authcid: (OFString*)authcid password: (OFString*)password connection: (XMPPConnection*)connection hash: (Class)hash plusAvailable: (bool)plusAvailable { return [[[self alloc] initWithAuthzid: authzid authcid: authcid password: password connection: connection hash: hash plusAvailable: plusAvailable] autorelease]; } - initWithAuthcid: (OFString*)authcid password: (OFString*)password connection: (XMPPConnection*)connection hash: (Class)hash plusAvailable: (bool)plusAvailable { return [self initWithAuthzid: nil authcid: authcid password: password connection: connection hash: hash plusAvailable: plusAvailable]; } - initWithAuthzid: (OFString*)authzid authcid: (OFString*)authcid password: (OFString*)password connection: (XMPPConnection*)connection hash: (Class)hash plusAvailable: (bool)plusAvailable { self = [super initWithAuthzid: authzid authcid: authcid password: password]; _hashType = hash; _plusAvailable = plusAvailable; _connection = [connection retain]; return self; } - (void)dealloc { [_GS2Header release]; [_clientFirstMessageBare release]; [_serverSignature release]; [_cNonce release]; [_connection release]; [super dealloc]; } - (void)setAuthzid: (OFString*)authzid { OFString *old = _authzid; if (authzid) { OFMutableString *new = [[authzid mutableCopy] autorelease]; [new replaceOccurrencesOfString: @"=" withString: @"=3D"]; [new replaceOccurrencesOfString: @"," withString: @"=2C"]; _authzid = [new retain]; } else _authzid = nil; [old release]; } - (void)setAuthcid: (OFString*)authcid { OFString *old = _authcid; if (authcid) { OFMutableString *new = [[authcid mutableCopy] autorelease]; [new replaceOccurrencesOfString: @"=" withString: @"=3D"]; [new replaceOccurrencesOfString: @"," withString: @"=2C"]; _authcid = [new retain]; } else _authcid = nil; [old release]; } - (OFDataArray*)initialMessage { OFDataArray *ret = [OFDataArray dataArray]; /* New authentication attempt, reset status */ [_cNonce release]; _cNonce = nil; [_GS2Header release]; _GS2Header = nil; [_serverSignature release]; _serverSignature = nil; _authenticated = false; if (_authzid) _GS2Header = [[OFString alloc] initWithFormat: @"%@,a=%@,", (_plusAvailable ? @"p=tls-unique" : @"y"), _authzid]; else _GS2Header = (_plusAvailable ? @"p=tls-unique,," : @"y,,"); _cNonce = [[self XMPP_genNonce] retain]; [_clientFirstMessageBare release]; _clientFirstMessageBare = nil; _clientFirstMessageBare = [[OFString alloc] initWithFormat: @"n=%@,r=%@", _authcid, _cNonce]; [ret addItems: [_GS2Header UTF8String] count: [_GS2Header UTF8StringLength]]; [ret addItems: [_clientFirstMessageBare UTF8String] count: [_clientFirstMessageBare UTF8StringLength]]; return ret; } - (OFDataArray*)continueWithData: (OFDataArray*)data { OFAutoreleasePool *pool = [[OFAutoreleasePool alloc] init]; OFDataArray *ret; if (!_serverSignature) ret = [self XMPP_parseServerFirstMessage: data]; else ret = [self XMPP_parseServerFinalMessage: data]; [ret retain]; [pool release]; return [ret autorelease]; } - (OFDataArray*)XMPP_parseServerFirstMessage: (OFDataArray*)data { size_t i; const uint8_t *clientKey, *serverKey, *clientSignature; intmax_t iterCount = 0; id hash; OFDataArray *ret, *authMessage, *tmpArray, *salt = nil, *saltedPassword; OFString *tmpString, *sNonce = nil; OFEnumerator *enumerator; OFString *comp; enum { GOT_SNONCE = 0x01, GOT_SALT = 0x02, GOT_ITERCOUNT = 0x04 } got = 0; hash = [[[_hashType alloc] init] autorelease]; ret = [OFDataArray dataArray]; authMessage = [OFDataArray dataArray]; OFString *chal = [OFString stringWithUTF8String: [data items] length: [data count] * [data itemSize]]; enumerator = [[chal componentsSeparatedByString: @","] objectEnumerator]; while ((comp = [enumerator nextObject]) != nil) { OFString *entry = [comp substringWithRange: of_range(2, [comp length] - 2)]; if ([comp hasPrefix: @"r="]) { if (![entry hasPrefix: _cNonce]) @throw [XMPPAuthFailedException exceptionWithConnection: nil reason: @"Received wrong " @"nonce"]; sNonce = entry; got |= GOT_SNONCE; } else if ([comp hasPrefix: @"s="]) { salt = [OFDataArray dataArrayWithBase64EncodedString: entry]; got |= GOT_SALT; } else if ([comp hasPrefix: @"i="]) { iterCount = [entry decimalValue]; got |= GOT_ITERCOUNT; } } if (got != (GOT_SNONCE | GOT_SALT | GOT_ITERCOUNT)) @throw [OFInvalidServerReplyException exception]; // Add c= tmpArray = [OFDataArray dataArray]; [tmpArray addItems: [_GS2Header UTF8String] count: [_GS2Header UTF8StringLength]]; if (_plusAvailable && [_connection encrypted]) { OFDataArray *channelBinding = [((SSLSocket*)[_connection socket]) channelBindingDataWithType: @"tls-unique"]; [tmpArray addItems: [channelBinding items] count: [channelBinding count]]; } tmpString = [tmpArray stringByBase64Encoding]; [ret addItems: "c=" count: 2]; [ret addItems: [tmpString UTF8String] count: [tmpString UTF8StringLength]]; // Add r= [ret addItem: ","]; [ret addItems: "r=" count: 2]; [ret addItems: [sNonce UTF8String] count: [sNonce UTF8StringLength]]; /* * IETF RFC 5802: * SaltedPassword := Hi(Normalize(password), salt, i) */ tmpArray = [OFDataArray dataArray]; [tmpArray addItems: [_password UTF8String] count: [_password UTF8StringLength]]; saltedPassword = [self XMPP_hiWithData: tmpArray salt: salt iterationCount: iterCount]; /* * IETF RFC 5802: * AuthMessage := client-first-message-bare + "," + * server-first-message + "," + * client-final-message-without-proof */ [authMessage addItems: [_clientFirstMessageBare UTF8String] count: [_clientFirstMessageBare UTF8StringLength]]; [authMessage addItem: ","]; [authMessage addItems: [data items] count: [data count] * [data itemSize]]; [authMessage addItem: ","]; [authMessage addItems: [ret items] count: [ret count]]; /* * IETF RFC 5802: * ClientKey := HMAC(SaltedPassword, "Client Key") */ tmpArray = [OFDataArray dataArray]; [tmpArray addItems: "Client Key" count: 10]; clientKey = [self XMPP_HMACWithKey: saltedPassword data: tmpArray]; /* * IETF RFC 5802: * StoredKey := H(ClientKey) */ [hash updateWithBuffer: (void*) clientKey length: [_hashType digestSize]]; tmpArray = [OFDataArray dataArray]; [tmpArray addItems: [hash digest] count: [_hashType digestSize]]; /* * IETF RFC 5802: * ClientSignature := HMAC(StoredKey, AuthMessage) */ clientSignature = [self XMPP_HMACWithKey: tmpArray data: authMessage]; /* * IETF RFC 5802: * ServerKey := HMAC(SaltedPassword, "Server Key") */ tmpArray = [OFDataArray dataArray]; [tmpArray addItems: "Server Key" count: 10]; serverKey = [self XMPP_HMACWithKey: saltedPassword data: tmpArray]; /* * IETF RFC 5802: * ServerSignature := HMAC(ServerKey, AuthMessage) */ tmpArray = [OFDataArray dataArray]; [tmpArray addItems: serverKey count: [_hashType digestSize]]; _serverSignature = [[OFDataArray alloc] init]; [_serverSignature addItems: [self XMPP_HMACWithKey: tmpArray data: authMessage] count: [_hashType digestSize]]; /* * IETF RFC 5802: * ClientProof := ClientKey XOR ClientSignature */ tmpArray = [OFDataArray dataArray]; for (i = 0; i < [_hashType digestSize]; i++) { uint8_t c = clientKey[i] ^ clientSignature[i]; [tmpArray addItem: &c]; } // Add p= [ret addItem: ","]; [ret addItems: "p=" count: 2]; tmpString = [tmpArray stringByBase64Encoding]; [ret addItems: [tmpString UTF8String] count: [tmpString UTF8StringLength]]; return ret; } - (OFDataArray*)XMPP_parseServerFinalMessage: (OFDataArray*)data { OFString *mess, *value; /* * server-final-message already received, * we were just waiting for the last word from the server */ if (_authenticated) return nil; mess = [OFString stringWithUTF8String: [data items] length: [data count] * [data itemSize]]; value = [mess substringWithRange: of_range(2, [mess length] - 2)]; if ([mess hasPrefix: @"v="]) { if (![value isEqual: [_serverSignature stringByBase64Encoding]]) @throw [XMPPAuthFailedException exceptionWithConnection: nil reason: @"Received wrong " @"ServerSignature"]; _authenticated = true; } else @throw [XMPPAuthFailedException exceptionWithConnection: nil reason: value]; return nil; } - (OFString*)XMPP_genNonce { uint8_t buf[64]; size_t i; assert(RAND_pseudo_bytes(buf, 64) >= 0); for (i = 0; i < 64; i++) { // Restrict salt to printable range, but do not include '~'... buf[i] = (buf[i] % ('~' - '!')) + '!'; // ...so we can use it to replace ',' if (buf[i] == ',') buf[i] = '~'; } return [OFString stringWithCString: (char*)buf encoding: OF_STRING_ENCODING_ASCII length: 64]; } - (const uint8_t*)XMPP_HMACWithKey: (OFDataArray*)key data: (OFDataArray*)data { OFAutoreleasePool *pool = [[OFAutoreleasePool alloc] init]; OFDataArray *k = [OFDataArray dataArray]; size_t i, kSize, blockSize = [_hashType blockSize]; uint8_t *kI = NULL, *kO = NULL; id hashI, hashO; if ([key itemSize] * [key count] > blockSize) { hashI = [[[_hashType alloc] init] autorelease]; [hashI updateWithBuffer: [key items] length: [key itemSize] * [key count]]; [k addItems: [hashI digest] count: [_hashType digestSize]]; } else [k addItems: [key items] count: [key itemSize] * [key count]]; @try { kI = [self allocMemoryWithSize: blockSize]; kO = [self allocMemoryWithSize: blockSize]; kSize = [k count]; memcpy(kI, [k items], kSize); memset(kI + kSize, 0, blockSize - kSize); memcpy(kO, kI, blockSize); for (i = 0; i < blockSize; i++) { kI[i] ^= HMAC_IPAD; kO[i] ^= HMAC_OPAD; } hashI = [[[_hashType alloc] init] autorelease]; [hashI updateWithBuffer: (char*)kI length: blockSize]; [hashI updateWithBuffer: [data items] length: [data itemSize] * [data count]]; hashO = [[[_hashType alloc] init] autorelease]; [hashO updateWithBuffer: (char*)kO length: blockSize]; [hashO updateWithBuffer: (char*)[hashI digest] length: [_hashType digestSize]]; } @finally { [self freeMemory: kI]; [self freeMemory: kO]; } [hashO retain]; [pool release]; return [[hashO autorelease] digest]; } - (OFDataArray*)XMPP_hiWithData: (OFDataArray*)str salt: (OFDataArray*)salt iterationCount: (intmax_t)i { OFAutoreleasePool *pool = [[OFAutoreleasePool alloc] init]; size_t digestSize = [_hashType digestSize]; uint8_t *result = NULL; const uint8_t *u, *uOld; intmax_t j, k; OFDataArray *salty, *tmp, *ret; result = [self allocMemoryWithSize: digestSize]; @try { memset(result, 0, digestSize); salty = [[salt copy] autorelease]; [salty addItems: "\0\0\0\1" count: 4]; uOld = [self XMPP_HMACWithKey: str data: salty]; for (j = 0; j < digestSize; j++) result[j] ^= uOld[j]; for (j = 0; j < i - 1; j++) { tmp = [[OFDataArray alloc] init]; [tmp addItems: uOld count: digestSize]; [pool releaseObjects]; // releases uOld and previous tmp [tmp autorelease]; u = [self XMPP_HMACWithKey: str data: tmp]; for (k = 0; k < digestSize; k++) result[k] ^= u[k]; uOld = u; } ret = [OFDataArray dataArray]; [ret addItems: result count: digestSize]; } @finally { [self freeMemory: result]; } [ret retain]; [pool release]; return [ret autorelease]; } @end