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Overview

Overview. Electronic Commerce Underlying Technologies Cryptography Network Security Protocols Electronic Payment Systems Credit card-based methods Electronic Cheques Anonymous payment Micropayments SmartCards. Commerce. Commerce: Exchange of Goods / Services

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Overview

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  1. Overview • Electronic Commerce • Underlying Technologies • Cryptography • Network Security Protocols • Electronic Payment Systems • Credit card-based methods • Electronic Cheques • Anonymous payment • Micropayments • SmartCards

  2. Commerce • Commerce: Exchange of Goods / Services • Contracting parties: Buyer and Seller • Fundamental principles: Trust and Security • Intermediaries: • Direct (Distributors, Retailers) • Indirect (Banks, Regulators) • Money is a medium to facilitate transactions • Attributes of money: • Acceptability, Portability, Divisibility • Security, Anonymity • Durability, Interoperability

  3. E-Commerce Summary • Automation of commercial transactions using computer and communication technologies • Facilitated by Internet and WWW • Business-to-Business: EDI • Business-to-Consumer: WWW retailing • Some features: • Easy, global access, 24 hour availability • Customized products and services • Back Office integration • Additional revenue stream

  4. E-Commerce Steps • Attract prospects to your site • Positive online experience • Value over traditional retail • Convert prospect to customer • Provide customized services • Online ordering, billing and payment • Keep them coming back • Online customer service • Offer more products and conveniences Maximize revenue per sale

  5. E-Commerce Participants

  6. E-Commerce Problems Snooper Unknown customer Unreliable Merchant

  7. E-Commerce risks • Customer's risks • Stolen credentials or password • Dishonest merchant • Disputes over transaction • Inappropriate use of transaction details • Merchant’s risk • Forged or copied instruments • Disputed charges • Insufficient funds in customer’s account • Unauthorized redistribution of purchased items • Main issue: Secure payment scheme

  8. E-Commerce Security • Authorization, Access Control: • protect intranet from hordes: Firewalls • Confidentiality, Data Integrity: • protect contents against snoopers: Encryption • Authentication: • both parties prove identity before starting transaction: Digital certificates • Non-repudiation: • proof that the document originated by you & you only: Digital signature

  9. Encryption (shared key) m: message k: shared key - Sender and receiver agree on a key K - None else knows K - K is used to derive encryption key EK & decryption key DK - Sender computes and sends EK(Message) - Receiver computes DK(EK(Message)) - Example: DES: Data Encryption Standard

  10. Public key encryption m: message sk: private secret key pk: public key • Separate public key pk and private key sk • Private key is kept secret by receiver • Dsk(Epk(mesg)) = mesg and vice versa • Knowing Ke gives no clue about Kd

  11. Digital signature Sign: sign(sk,m) = Dsk(m) Verify: Epk(sign(sk,m)) = m Sign on small hash function to reduce cost

  12. Signed and secret messages pk2 m pk1 Verify-sign Encrypt(pk1) sign(sk1, m) Epk2(Dsk1(m)) Encrypt(pk2) Decrypt(sk2) First sign, then encrypt: order is important.

  13. Digital certificates How to establish authenticity of public key? Register public key Download public key

  14. Certification authority

  15. E-Payments: Secure transfer • SSL: Secure socket layer • below application layer • S-HTTP: Secure HTTP: • On top of http

  16. SSL: Secure Socket Layer • Application protocol independent • Provides connection security as: • Connection is private: Encryption is used after an initial handshake to define secret (symmetric) key • Peer's identity can be authenticated using public (asymmetric) key • Connection is reliable: Message transport includes a message integrity check (hash) • SSL Handshake protocol: • Allows server and client to authenticate each other and negotiate a encryption key

  17. SSL Handshake Protocol • 1. Client "Hello": challenge data, cipher specs • 2. Server "Hello": connection ID, public key certificate, cipher specs • 3. Client "session-key": encrypted with server's public key • 4. Client "finish": connection ID signed with client's private key • 5. Server "verify": client's challenge data signed with server's private key • 6. Server "finish": session ID signed with server's private key • Session IDs and encryption options cached to avoid renegotiation for reconnection

  18. S-HTTP: Secure HTTP • Application level security (HTTP specific) • "Content-Privacy-Domain" header: • Allows use of digital signatures &/ encryption • Various encryption options • Server-Browser negotiate • Property: cryptographic scheme to be used • Value: specific algorithm to be used • Direction: One way/Two way security

  19. E-Payments: Atomicity • Money atomicity: no creation/destruction of money when transferred • Goods atomicity: no payment w/o goods and viceversa. • Eg: pay on delivery of parcel • Certified delivery: the goods delivered is what was promised: • Open the parcel in front of a trusted 3rd party

  20. Anonymity of purchaser

  21. Payment system types • Credit card-based methods • Credit card over SSL - First Virtual -SET • Electronic Cheques • - NetCheque • Anonymous payments • - Digicash - CAFE • Micropayments • SmartCards

  22. Encrypted credit card payment • Set secure communication channel between buyer and seller • Send credit card number to merchant encrypted using merchant’s public key • Problems: merchant fraud, no customer signature • Ensures money but no goods atomicity • Not suitable for microtransactions

  23. First virtual • Customer assigned virtual PIN by phone • Customer uses PIN to make purchases • Merchant contacts First virtual • First virtual send email to customer • If customer confirms, payment made to merchant • Not goods atomic since customer can refuse to pay • Not suitable for small transactions • Flood customer’s mailbox, delay merchant

  24. Cybercash • Customer opens account with cybercash, gives credit card number and gets a PIN • Special software on customer side sends PIN, signature, transaction amount to merchant • Merchant forwards to cybercash server that completes credit card transaction • Pros: credit card # not shown to server, fast • Cons: not for microtransactions

  25. SET:Secure Electronic Transactions • Merge of STT, SEPP, iKP • Secure credit card based protocol • Common structure: • Customer digitally signs a purchase along with price and encrypts in bank’s public key • Merchant submits a sales request with price to bank. • Bank compares purchase and sales request. If price match, bank authorizes sales • Avoids merchant fraud, ensures money but no goods atomicity

  26. Electronic Cheques • Leverages the check payments system, a core competency of the banking industry. • Fits within current business practices • Works like a paper check does but in pure electronic form, with fewer manual steps. • Can be used by all bank customers who have checking accounts • Different from Electronic fund transfers

  27. How does echeck work? • Exactly same way as paper • Check writer "writes" the echeck using one of many types of electronic devices • ”Gives" the echeck to the payee electronically. • Payee "deposits" echeck, receives credit, • Payee's bank "clears" the echeck to the paying bank. • Paying bank validates the echeck and "charges" the check writer's account for the check.

  28. Anonymous payments 5. Deposit token at bank. If double spent reveal identity and notify police 1. Withdraw money: cyrpographically encoded tokens merchant customer 3. Send token after adding merchant’s identity 4. Check validity and send goods 2. Transform so merchant can check validity but identity hidden

  29. Problems with the protocol • Not money atomic: if crash after 3, money lost • if money actually sent to merchant: returning to bank will alert police • if money not sent: not sending will lead to loss • High cost of cryptographic transformations: not suitable for micropayments • Examples: Digicash

  30. Micropayments on hyperlinks • HTML extended to have pricing details with each link: displayed when user around the link • On clicking, browser talks to E-Wallet that initiates payment to webserver of the source site • Payment for content providers • Attempt to reduce overhead per transaction

  31. Micropayments: NetBill • Customer & merchant have account with NetBill server • Protocol: • Customer request quote from merchant, gets quote and accepts • Merchant sends goods encrypted by key K • Customer prepares & signs Electronic Purchase Order having <price, crypto-checksum of goods> • Merchant countersigns EPO, signs K and sends both to NetBill server • NetBill verifies signatures and transfers funds, stores K and crypto-checksum and • NetBill sends receipt to merchant and K to customer

  32. Recent micropayment systems Company Payment Unique system code Compaq Millicent mcent IBM IBM payment mpay system France Micrommerce microm Telecom

  33. Smartcards • 8-bit micro, < 5MHz, < 2k RAM, 20k ROM • Download electronic money on a card: wallet on a card • Efficient, secure, paperless, intuitive and speedy • Real and virtual stores accept them • Less susceptible to net attacks since disconnected • Has other uses spanning many industries, from banking to health care

  34. Mondex • Smart card based sales and card to card transfers • Money is secured through a password and transactions are logged on the card • Other operation and features similar to traditional debit cards • Card signs transaction: so no anonymity • Need card reader everywhere • Available only in prototypes

  35. Summary • Various protocols and software infrastructure for ecommerce • Today: credit card over SSL or S-HTTP • Getting there: • smart cards, • digital certificates • Need: • legal base for the entire ecommerce business • global market place for ecommerce

  36. Electronic Commerce-Definition Using electronic methods and procedures to conduct all forms of business activity including governance.

  37. Content Community Commerce Context Communication Collaboration Products Price Packaging Penetration Protection Pace E-commerce  6 Cs & 6 Ps

  38. Electronic Commerce-Issues Technology Infrastructure Legal Management Security Trade, Scope & Coverage Impact on Economy

  39. Infrastructure • Power • Reliable communication • Environment • Human resource • Interface with suppliers and consumers • Faith, trust and ethics • Legal

  40. e-Law: Global Internet requires Global Laws • Industrial laws to be transformed to Information Age • Laws to protect value protection and minimum ethics in Industrial practices when Government transforms itself to be a facilitator

  41. Relationship between Information Technology and Economy Information Technology and Paradigm Shift of Economy Agricultural Society Industrial Society Knowledge and Information-based Society Labor Farmer Knowledge Worker White Collar Worker Energy Intermediate Resource Informatization Industrialization Knowledge Rate of Transformation from Information to Knowledge Rate of Yields Value -Added Rate Main Resources Land Information Energy Product Farm Product Product Knowledge Product Site Research Institute, University Factory Farm

  42. Ontological issues • Definition • What is electronic money ? • Relative to traditional money • Relative to traditional electronic money • Continuity or upheaval ? • What should be the basis of definition • Purpose • Whatdo you buy ? • Payment system • How do you pay ?

  43. Technology • Hardware • Software • Firmware • Communication & Networks • Security • Smart Cards

  44. Role of Technology • lower transaction costs • reducing asymmetric information • 24-hour trading • borderless global trading network • improve market efficiency

  45. Technology Hype Cycle

  46. Brand Development DirectSelling CustomerService Employee self-service purchasing from suppliers (indirect goods) Establish process linking with trading partners (direct goods) Onlinebill payment, investment services and banking Online bill payment, investment services and banking Internet Commerce Opportunities Direct Marketing, Selling & Service Corporate Purchasing Value Chain Financial Services Financial Services

  47. Smart card Technology

  48. Smart cards =>Micro e-commerce • Smart cards in e-banking • Smart cards in e-transportation • Smart cards in e-identification • Smart cards in e-logistics business • Smart cards in e-personal health care business • Smart cards in e-insurance

  49. Smart Card Issues • Interoperability • Selection of Operating System • Smart Chip supplier • Card manufacturer and Integrator • Application software • Multi Application Support • National & Global Usage

  50. International Concerns • Limited chip and card suppliers(Cost and capacity restriction) • Interoperability between various cards and terminal systems • Europe’s effort in EMV 2000 specs • CEPS effort by visa? • Limitation in Multi application support • Card remote update and load and delete applications

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