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Public Key Infrastructure Public Key Infrastructure – tell me in plain English AND THEN – tell me in plain English AND THEN deep technical how PKI worksdeep technical how PKI works
Steve LambSteve Lamb
[email protected]@microsoft.com
http://blogs.technet.com/steve_lambhttp://blogs.technet.com/steve_lamb
IT Pro Security EvangelistIT Pro Security Evangelist
Microsoft LtdMicrosoft Ltd
ObjectivesObjectives
Demystify commonly used terminologyDemystify commonly used terminology
Explain how PKI worksExplain how PKI works
Get you playing with PKI in the labGet you playing with PKI in the lab
Make some simple recommendationsMake some simple recommendations
AgendaAgenda
Foundational Concept (level 200)Foundational Concept (level 200)
PKI and Signatures (level 330)PKI and Signatures (level 330)
Recommendations (level 310)Recommendations (level 310)
Reference material Reference material
Common Algorithms (level 360)Common Algorithms (level 360)
What can PKI enable?What can PKI enable?
Secure Email – sign and/or encrypt messages
Secure browsing – SSL – authentication and encryption
Secure code – authenticode
Secure wireless – PEAP & EAP-TLS
Secure documents – Rights Management
Secure networks – segmentation via IPsec
Secure files – Encrypted File System(EFS)
Foundational ConceptsFoundational Concepts
Encryption vs. AuthenticationEncryption vs. Authentication
Encrypted information cannot be automatically Encrypted information cannot be automatically trustedtrusted
You still need authenticationYou still need authentication
Which we can implement using encryption, of Which we can implement using encryption, of coursecourse
AssetsAssets
What we are securing?What we are securing?
DataData
Services (i.e. business etc. applications or their Services (i.e. business etc. applications or their individually accessible parts)individually accessible parts)
This session is not about securing:This session is not about securing:
People (sorry), cables, carpets, typewriters and People (sorry), cables, carpets, typewriters and computers (!?)computers (!?)
Some assets are Some assets are key assetskey assets
Passwords, private keys etc…Passwords, private keys etc…
Digital Security as Extension of Digital Security as Extension of Physical Security of Physical Security of Key AssetsKey Assets
Strong PhysicalStrong PhysicalSecurity of KASecurity of KA
Strong DigitalStrong DigitalSecuritySecurity
Good SecurityGood SecurityEverywhereEverywhere
Weak PhysicalWeak PhysicalSecurity of KASecurity of KA
Strong DigitalStrong DigitalSecuritySecurity
InsecureInsecureEnvironmentEnvironment
Strong PhysicalStrong PhysicalSecurity of KASecurity of KA
Weak DigitalWeak DigitalSecuritySecurity
InsecureInsecureEnvironmentEnvironment
Remember CP and CPS!Remember CP and CPS!
““The Certification Practice & Certification The Certification Practice & Certification Practice Statement (CP/CPS) is a formal Practice Statement (CP/CPS) is a formal statement that describes who may have statement that describes who may have certificates, how certificates are generated and certificates, how certificates are generated and what they may be used for.”what they may be used for.”
http://www.nhsia.nhs.uk/pathology/pages/http://www.nhsia.nhs.uk/pathology/pages/documents/cp_cps.docdocuments/cp_cps.doc
Symmetric Key CryptographySymmetric Key Cryptography
EncryptionEncryption
““The quick The quick brown fox brown fox jumps over jumps over the lazy the lazy dog”dog”
““AxCv;5bmEseTfid3)AxCv;5bmEseTfid3)fGsmWe#4^,sdgfMwifGsmWe#4^,sdgfMwir3:dkJeTsY8R\s@!r3:dkJeTsY8R\s@!q3%”q3%”
““The quick The quick brown fox brown fox jumps over jumps over the lazy the lazy dog”dog”
DecryptionDecryption
Plain-text inputPlain-text input Plain-text outputPlain-text outputCipher-textCipher-text
Same keySame key(shared secret)(shared secret)
Symmetric Pros and ConsSymmetric Pros and Cons
Strength:Strength:
Simple and really very fast (order of 1000 to 10000 Simple and really very fast (order of 1000 to 10000 faster than asymmetric mechanisms)faster than asymmetric mechanisms)
Super-fast (and somewhat more secure) if done in Super-fast (and somewhat more secure) if done in hardware (DES, Rijndael)hardware (DES, Rijndael)
Weakness:Weakness:
Must agree the key beforehandMust agree the key beforehand
Securely pass the key to the other partySecurely pass the key to the other party
Public Key CryptographyPublic Key Cryptography
Knowledge of the Knowledge of the encryptionencryption key doesn’t give key doesn’t give you knowledge of the you knowledge of the decryptiondecryption key key
Receiver of information generates a pair of keys Receiver of information generates a pair of keys
Publish the public key in a directoryPublish the public key in a directory
Then anyone can send him messages that only Then anyone can send him messages that only she can readshe can read
Public Key EncryptionPublic Key Encryption
EncryptionEncryption
““The quick The quick brown fox brown fox jumps over jumps over the lazy the lazy dog”dog”
““Py75c%bn&*)9|Py75c%bn&*)9|fDe^bDFaq#xzjFr@gfDe^bDFaq#xzjFr@g5=&nmdFg$5knvMd’r5=&nmdFg$5knvMd’rkvegMs”kvegMs”
““The quick The quick brown fox brown fox jumps over jumps over the lazy the lazy dog”dog”
DecryptionDecryption
Clear-text InputClear-text Input Clear-text OutputClear-text OutputCipher-textCipher-text
DifferentDifferent keys keys
Recipient’s Recipient’s public keypublic key
Recipient’s Recipient’s private keyprivate key
privatprivatee
publicpublic
Public Key Pros and ConsPublic Key Pros and Cons
Weakness:Weakness:
Extremely slowExtremely slow
Susceptible to “known ciphertext” attackSusceptible to “known ciphertext” attack
Problem of trusting public key (see later on PKI)Problem of trusting public key (see later on PKI)
StrengthStrength
Solves problem of passing the keySolves problem of passing the key
Allows establishment of trust context between Allows establishment of trust context between partiesparties
Hybrid Encryption (Real World)Hybrid Encryption (Real World)
As above, repeated As above, repeated for other recipientsfor other recipientsor recovery agentsor recovery agents
DigitalDigitalEnvelopeEnvelope
Other recipient’s or Other recipient’s or agent’s agent’s publicpublic key key (in certificate)(in certificate)in recovery policyin recovery policy
Launch keyLaunch keyfor nuclearfor nuclear
missile missile ““RedHeat” RedHeat”
is...is...
Symmetric key Symmetric key encrypted asymmetrically encrypted asymmetrically
(e.g., RSA)(e.g., RSA)
Digital Digital EnvelopeEnvelope
User’sUser’spublicpublic key key(in certificate)(in certificate)
RNGRNG
Randomly-Randomly-Generated Generated symmetricsymmetric“session” key “session” key
SymmetricSymmetric encryption encryption(e.g. DES)(e.g. DES)
*#$fjda^j*#$fjda^ju539!3tu539!3t
t389E *&\@t389E *&\@5e%32\^kd5e%32\^kd
*#$fjda^j*#$fjda^ju539!3tu539!3t
t389E *&\@t389E *&\@5e%32\^kd5e%32\^kd
Launch keyLaunch keyfor nuclearfor nuclear
missile missile ““RedHeat” RedHeat”
is...is...
Launch keyLaunch keyfor nuclearfor nuclear
missile missile ““RedHeat” RedHeat”
is...is...
SymmetricSymmetricdecryption decryption (e.g. DES)(e.g. DES)
Digital Digital EnvelopeEnvelope
Asymmetric Asymmetric decryption of decryption of
“session” key (e.g. RSA)“session” key (e.g. RSA)
Symmetric Symmetric “session” key“session” key
Session key must be Session key must be decrypted using the decrypted using the recipient’s recipient’s private private keykey
Digital envelope Digital envelope contains “session” contains “session” key encrypted key encrypted using recipient’s using recipient’s public keypublic key
Recipient’s Recipient’s privateprivate keykey
Hybrid DecryptionHybrid Decryption
PKI and SignaturesPKI and Signatures
Public Key Distribution ProblemPublic Key Distribution Problem
We just solved the problem of symmetric key distribution We just solved the problem of symmetric key distribution by using public/private keysby using public/private keys
But…But…
Scott creates a keypair (private/public) and quickly tells Scott creates a keypair (private/public) and quickly tells the world that the public key he published belongs to Billthe world that the public key he published belongs to Bill
People send confidential stuff to BillPeople send confidential stuff to Bill
Bill does not have the private key to read them…Bill does not have the private key to read them…
Scott reads Bill’s messages Scott reads Bill’s messages
Eureka!Eureka!
We need PKI to solve that problemWe need PKI to solve that problem
And a few others…And a few others…
Creating a Digital SignatureCreating a Digital Signature
Hash Hash Function Function
(SHA, MD5)(SHA, MD5)
Jrf843kjfgf*Jrf843kjfgf*££$&Hdif*7oU$&Hdif*7oUsd*&@:<CHsd*&@:<CHDFHSD(**DFHSD(**
Py75c%bn&*)9|Py75c%bn&*)9|fDe^bDFaq#xzjFr@gfDe^bDFaq#xzjFr@g5=&nmdFg$5knvMd’r5=&nmdFg$5knvMd’rkvegMs”kvegMs”
This is a This is a really long really long message message about about Bill’s…Bill’s…
AsymmetricAsymmetricEncryptionEncryption
Message or FileMessage or File Digital SignatureDigital Signature128 bits 128 bits Message DigestMessage Digest
Calculate a short Calculate a short message digest from message digest from even a long input even a long input using a one-way using a one-way message digest message digest function (hash)function (hash)
Signatory’s Signatory’s privateprivate key key
privatprivatee
Verifying a Digital SignatureVerifying a Digital Signature
Jrf843kjfJrf843kjfgf*£$&Hdgf*£$&Hdif*7oUsdif*7oUsd
*&@:<CHD*&@:<CHDFHSD(**FHSD(**
Py75c%bn&*)Py75c%bn&*)9|fDe^bDFaq9|fDe^bDFaq#xzjFr@g5=#xzjFr@g5=
&nmdFg$5kn&nmdFg$5knvMd’rkvegMs”vMd’rkvegMs”
Py75c%bn&*)Py75c%bn&*)9|fDe^bDFaq9|fDe^bDFaq#xzjFr@g5=#xzjFr@g5=
&nmdFg$5kn&nmdFg$5knvMd’rkvegMs”vMd’rkvegMs”
AsymmetricAsymmetricdecryption decryption (e.g. RSA)(e.g. RSA)
Everyone has Everyone has access to trusted access to trusted public key of the public key of the signatorysignatory
Signatory’s Signatory’s publicpublic keykey
Digital SignatureDigital Signature
This is a This is a really long really long message message
about Bill’s…about Bill’s…
Same hash functionSame hash function(e.g. MD5, SHA…)(e.g. MD5, SHA…)
Original MessageOriginal Message
Py75c%bn&*)Py75c%bn&*)9|fDe^bDFaq9|fDe^bDFaq#xzjFr@g5=#xzjFr@g5=
&nmdFg$5kn&nmdFg$5knvMd’rkvegMs”vMd’rkvegMs”
Py75c%bn&*)Py75c%bn&*)9|fDe^bDFaq9|fDe^bDFaq#xzjFr@g5=#xzjFr@g5=
&nmdFg$5kn&nmdFg$5knvMd’rkvegMs”vMd’rkvegMs”
? == ?? == ?Are They Same?Are They Same?
Word About SmartcardsWord About Smartcards
Some smartcards are “dumb”, i.e. they are only a memory Some smartcards are “dumb”, i.e. they are only a memory chipchip
Not recommended for storing a private key used in a challenge Not recommended for storing a private key used in a challenge test (verifying identity)test (verifying identity)
Anyway, they are still better than leaving keys on a floppy disk or Anyway, they are still better than leaving keys on a floppy disk or on the hard driveon the hard drive
Cryptographically-enabled smartcards are more expensive Cryptographically-enabled smartcards are more expensive but they give much more securitybut they give much more security
Private key is secure and used as neededPrivate key is secure and used as needed
Additional protection (password, biometrics) is possibleAdditional protection (password, biometrics) is possible
Hardware implements some algorithmsHardware implements some algorithms
Self-destruct is possibleSelf-destruct is possible
RecommendationsRecommendationsDon’t be scared of PKI!Don’t be scared of PKI!
Set up a test environment to enable hyou to Set up a test environment to enable hyou to “play”“play”
Minimise the scope of your first implementationMinimise the scope of your first implementation
Read up on CP & CPSRead up on CP & CPS
Document the purpose and operating Document the purpose and operating procedures of your PKIprocedures of your PKI
SummarySummary
Cryptography is a rich and amazingly mature Cryptography is a rich and amazingly mature fieldfield
We all rely on it, everyday, with our livesWe all rely on it, everyday, with our lives
Know the basics and make good choices Know the basics and make good choices avoiding common pitfallsavoiding common pitfalls
Plan your PKI earlyPlan your PKI early
Avoid very new and unknown solutionsAvoid very new and unknown solutions
Certificate Policy Certificate Policy
Certification Practises statementCertification Practises statement
ReferencesReferences
Visit www.microsoft.com/security Visit www.microsoft.com/security
Read sci.crypt (incl. archives)Read sci.crypt (incl. archives)
Attend SEC499 for “Encryption in Detail” on Friday at Attend SEC499 for “Encryption in Detail” on Friday at 14.45 in Room 114.45 in Room 1
For more detail, read:For more detail, read:Cryptography: An Introduction, Cryptography: An Introduction, N. Smart, McGraw-Hill, ISBN 0-07-709987-7N. Smart, McGraw-Hill, ISBN 0-07-709987-7
Practical Cryptography, Practical Cryptography, N. Ferguson & B. Schneier, Wiley, ISBN 0-471-22357-3N. Ferguson & B. Schneier, Wiley, ISBN 0-471-22357-3
Contemporary Cryptography, Contemporary Cryptography, R. Oppliger, Artech House, ISBN 1-58053-642-5 (to R. Oppliger, Artech House, ISBN 1-58053-642-5 (to be published May 2005, see http://www.esecurity.ch/Books/cryptography.html)be published May 2005, see http://www.esecurity.ch/Books/cryptography.html)
Applied CryptographyApplied Cryptography, B. Schneier, John Wiley & Sons, ISBN 0-471-11709-9, B. Schneier, John Wiley & Sons, ISBN 0-471-11709-9
Handbook of Applied CryptographyHandbook of Applied Cryptography, A.J. Menezes, CRC Press, ISBN 0-8493-, A.J. Menezes, CRC Press, ISBN 0-8493-8523-7, 8523-7, www.cacr.math.uwaterloo.ca/hacwww.cacr.math.uwaterloo.ca/hac (free PDF) (free PDF)PKI, PKI, A. Nash et al., RSA Press, ISBN 0-07-213123-3A. Nash et al., RSA Press, ISBN 0-07-213123-3
Foundations of CryptographyFoundations of Cryptography, O. Goldereich, , O. Goldereich, www.eccc.uni-trier.de/eccc-local/ECCC-Books/oded_book_readme.htmlwww.eccc.uni-trier.de/eccc-local/ECCC-Books/oded_book_readme.html
Cryptography in C and C++Cryptography in C and C++, M. Welschenbach, Apress, , M. Welschenbach, Apress, ISBN 1-893115-95-X (includes code samples CD)ISBN 1-893115-95-X (includes code samples CD)
Copyright 2004 © Project Botticelli Ltd & Microsoft Corp. E&OE. For informational purposes only. No warranties of Copyright 2004 © Project Botticelli Ltd & Microsoft Corp. E&OE. For informational purposes only. No warranties of any kind are made and you have to verify all information before relying on it. You can re-use this presentation as any kind are made and you have to verify all information before relying on it. You can re-use this presentation as
long as you read, agree, and follow the guidelines described in the “Comments” field in File/Properties.long as you read, agree, and follow the guidelines described in the “Comments” field in File/Properties.
Thanks to Rafal Lukawiecki for providing some of the content Thanks to Rafal Lukawiecki for providing some of the content for this presentation deck – his contact details are as for this presentation deck – his contact details are as follows…follows…
[email protected]@projectbotticelli.co.uk
Strategic Consultant, Project Botticelli LtdStrategic Consultant, Project Botticelli Ltd
Common AlgorithmsCommon Algorithms
DES, IDEA, RC2, RC5, TwofishDES, IDEA, RC2, RC5, TwofishSymmetricSymmetric
DES (Data Encryption Standard) is still the most popularDES (Data Encryption Standard) is still the most popular
Keys very short: 56 bitsKeys very short: 56 bits
Brute-force attack took 3.5 hours on a machine costing US$1m in Brute-force attack took 3.5 hours on a machine costing US$1m in 1993. Today it is done real-time1993. Today it is done real-time
Triple DES (3DES) more secure, but better options aboutTriple DES (3DES) more secure, but better options about
Just say no, unless value of data is minimalJust say no, unless value of data is minimal
IDEA (International Data Encryption Standard)IDEA (International Data Encryption Standard)
Deceptively similar to DES, and “not” from NSADeceptively similar to DES, and “not” from NSA
128 bit keys128 bit keys
RC2 & RC5 (by R. Rivest)RC2 & RC5 (by R. Rivest)
RC2 is older and RC5 newer (1994) - similar to DES and IDEARC2 is older and RC5 newer (1994) - similar to DES and IDEA
Blowfish, TwofishBlowfish, Twofish
B. Schneier’s replacement for DES, followed by Twofish, one of the B. Schneier’s replacement for DES, followed by Twofish, one of the NIST competition finalistsNIST competition finalists
Rijndael (AES)Rijndael (AES)
Standard replacement for DES for US government, and, Standard replacement for DES for US government, and, probably for all of us as a result…probably for all of us as a result…
Winner of the AES (Advanced Encryption Standard) Winner of the AES (Advanced Encryption Standard) competition run by NIST (National Institute of Standards and competition run by NIST (National Institute of Standards and Technology in US) in 1997-2000Technology in US) in 1997-2000
Comes from Europe (Belgium) by Joan Daemen and Vincent Comes from Europe (Belgium) by Joan Daemen and Vincent Rijmen. “X-files” stories less likely (unlike DES). Rijmen. “X-files” stories less likely (unlike DES).
Symmetric block-cipher (128, 192 or 256 bits) with Symmetric block-cipher (128, 192 or 256 bits) with variable keys (128, 192 or 256 bits, too)variable keys (128, 192 or 256 bits, too)
Fast and a lot of good properties, such as good immunity Fast and a lot of good properties, such as good immunity from timing and power (electric) analysisfrom timing and power (electric) analysis
Construction, again, deceptively similar to DES (S-Construction, again, deceptively similar to DES (S-boxes, XORs etc.) but boxes, XORs etc.) but reallyreally different different
CAST and GOSTCAST and GOST
CASTCAST
Canadians Carlisle Adams & Stafford TavaresCanadians Carlisle Adams & Stafford Tavares
64 bit key and 64 bit of data64 bit key and 64 bit of data
Chose your S-boxesChose your S-boxes
Seems resistant to differential & linear cryptanalysis and only Seems resistant to differential & linear cryptanalysis and only way to break is brute force (but key is a bit short!)way to break is brute force (but key is a bit short!)
GOSTGOST
Soviet Union’s “version” of DES but with a clearer design and Soviet Union’s “version” of DES but with a clearer design and many more repetitions of the processmany more repetitions of the process
256 bit key but really 610 bits of secret, so pretty much “tank 256 bit key but really 610 bits of secret, so pretty much “tank quality”quality”
Backdoor? Who knows…Backdoor? Who knows…
Careful with Streams!Careful with Streams!
Do NOT use a block cipher in a loopDo NOT use a block cipher in a loop
Use a crypto-correct technique for treating Use a crypto-correct technique for treating streams of data, such as CBC (Cipher Block streams of data, such as CBC (Cipher Block Chaining)Chaining)
For developers: For developers:
.NET Framework implements it as ICryptoTransform on a .NET Framework implements it as ICryptoTransform on a crypto stream with any supported algorithmcrypto stream with any supported algorithm
RC4RC4
SymmetricSymmetricFast, streaming encryptionFast, streaming encryption
R. Rivest in 1994R. Rivest in 1994Originally secret, but “published” on sci.cryptOriginally secret, but “published” on sci.crypt
Related to “one-time pad”, theoretically most secureRelated to “one-time pad”, theoretically most secure
But!But!
It relies on a really good random number generatorIt relies on a really good random number generatorAnd that is the problemAnd that is the problem
Nowadays, we tend to use block ciphers in modes of Nowadays, we tend to use block ciphers in modes of operation that work for streamsoperation that work for streams
RSA, DSA, ElGamal, ECCRSA, DSA, ElGamal, ECCAsymmetricAsymmetric
Very slow and computationally expensive – need a computerVery slow and computationally expensive – need a computer
Very secureVery secure
Rivest, Shamir, Adleman – 1978Rivest, Shamir, Adleman – 1978Popular and well researchedPopular and well researched
Strength in today’s inefficiency to factorise into prime numbersStrength in today’s inefficiency to factorise into prime numbers
Some worries about key generation process in some implementationsSome worries about key generation process in some implementations
DSA (Digital Signature Algorithm) – NSA/NIST thingDSA (Digital Signature Algorithm) – NSA/NIST thingOnly for digital signing, not for encryptionOnly for digital signing, not for encryption
Variant of Schnorr and ElGamal sig algorithmVariant of Schnorr and ElGamal sig algorithm
ElGamalElGamalRelies on complexity of discrete logarithmsRelies on complexity of discrete logarithms
ECC (Elliptic Curve Cryptography)ECC (Elliptic Curve Cryptography)Really hard maths and topologyReally hard maths and topology
Improves RSA (and others)Improves RSA (and others)
Quantum CryptographyQuantum Cryptography
Method for generating and passing a secret key or a random streamMethod for generating and passing a secret key or a random stream
Not for passing the actual data, but that’s irrelevantNot for passing the actual data, but that’s irrelevant
Polarisation of light (photons) can be detected only in a way that Polarisation of light (photons) can be detected only in a way that destroys the “direction” (basis)destroys the “direction” (basis)
So if someone other than you observes it, you receive nothing useful So if someone other than you observes it, you receive nothing useful and you know you were buggedand you know you were bugged
Perfectly doable over up-to-120km dedicated long fibre-optic linkPerfectly doable over up-to-120km dedicated long fibre-optic link
Seems pretty perfect, if a bit tedious and slowSeems pretty perfect, if a bit tedious and slow
Practical implementations still use AES/DES etc. for actual encryptionPractical implementations still use AES/DES etc. for actual encryption
Magiq QPN: http://www.magiqtech.com/press/qpn.pdf Magiq QPN: http://www.magiqtech.com/press/qpn.pdf
Don’t confuse it with quantum computing, which won’t be with us for Don’t confuse it with quantum computing, which won’t be with us for at least another 50 years or so, or maybe longer…at least another 50 years or so, or maybe longer…
MD5, SHAMD5, SHA
Hash functions – not encryption at all!Hash functions – not encryption at all!
Goals:Goals:
Not reversible: can’t obtain the message from its hashNot reversible: can’t obtain the message from its hash
Hash much shorter than originalHash much shorter than original
Two messages won’t have the same hashTwo messages won’t have the same hash
MD5 (R. Rivest)MD5 (R. Rivest)
512 bits hashed into 128512 bits hashed into 128
Mathematical model still unknownMathematical model still unknown
But it resisted major attacksBut it resisted major attacks
SHA (Secure Hash Algorithm)SHA (Secure Hash Algorithm)
US standard based on MD5US standard based on MD5
Diffie-Hellman, “SSL”, CertsDiffie-Hellman, “SSL”, Certs
Methods for key generation and exchangeMethods for key generation and exchange
DH is very clever since you always generate a new “key-DH is very clever since you always generate a new “key-pair” for each asymmetric sessionpair” for each asymmetric session
STS, MTI, and certs make it even saferSTS, MTI, and certs make it even safer
Certs (certificates) are the most common way to Certs (certificates) are the most common way to exchange public keysexchange public keys
Foundation of Public Key Infrastructure (PKI)Foundation of Public Key Infrastructure (PKI)
SSL uses a protocol to exchange keys safelySSL uses a protocol to exchange keys safely
See laterSee later
CryptanalysisCryptanalysis
Brute forceBrute force
Good for guessing passwords, and some 40-bit symmetric keys (in Good for guessing passwords, and some 40-bit symmetric keys (in some cases needed only 27 attempts)some cases needed only 27 attempts)
Frequency analysisFrequency analysis
For very simple methods only (US mobiles)For very simple methods only (US mobiles)
Linear cryptanalysisLinear cryptanalysis
For stronger DES-like, needs 243 plain-cipher pairsFor stronger DES-like, needs 243 plain-cipher pairs
Differential cryptanalysisDifferential cryptanalysis
Weaker DES-like, needs from 214 pairsWeaker DES-like, needs from 214 pairs
Power and timing analysisPower and timing analysis
Fluctuations in response times or power usage by CPUFluctuations in response times or power usage by CPU
Strong SystemsStrong Systems
It is always a mixture! Changes all the time…It is always a mixture! Changes all the time…
Symmetric:Symmetric:
AES, min. 128 bits for RC2 & RC5, 3DES, IDEA, carefully AES, min. 128 bits for RC2 & RC5, 3DES, IDEA, carefully analysed RC4, 256 bit betteranalysed RC4, 256 bit better
Asymmetric:Asymmetric:
RSA, ElGamal, Diffie-Hellman (for keys) with minimum 1024 RSA, ElGamal, Diffie-Hellman (for keys) with minimum 1024 bits (go for the maximum, typically 4096, if you can afford it)bits (go for the maximum, typically 4096, if you can afford it)
Hash:Hash:
Either MD5 or SHA but with at least 128 bit results, 256 betterEither MD5 or SHA but with at least 128 bit results, 256 better
Weak SystemsWeak Systems
Anything with 40-bits (including 128 and 56 bit versions Anything with 40-bits (including 128 and 56 bit versions with the remainder “fixed”)with the remainder “fixed”)
Most consider DES as fairly weak algorithmMost consider DES as fairly weak algorithm
CLIPPERCLIPPER
A5 (GSM mobile phones outside US)A5 (GSM mobile phones outside US)
Vigenère (US mobile phones)Vigenère (US mobile phones)
Dates from 1585!Dates from 1585!
Unverified certs with no trustUnverified certs with no trust
Weak certs (as in many “class 1” personal certs)Weak certs (as in many “class 1” personal certs)