Smart card wallet: Difference between revisions

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===Rationale===
===Rationale===


*Computers and smartphones are target for malware. The software of a smart card can be protected.
*Computers and smartphones are target for malware. The software on a smart card can be protected.
*Smart cards do not need a battery, nor internet connection, they are robust.
*Smart cards do not need a battery, nor internet connection, they are robust.
*Adoption: people are already used to pay with smart cards.
*Adoption: people are already used to pay with smart cards.

Revision as of 14:04, 1 October 2011

This pages gathers resources for the implementation of a Bitcoin wallet on a smart card.

Rationale

  • Computers and smartphones are target for malware. The software on a smart card can be protected.
  • Smart cards do not need a battery, nor internet connection, they are robust.
  • Adoption: people are already used to pay with smart cards.

Desired features

  • no blockchain, no node; the card contains only private keys, and an algorithm to sign a transaction
  • the smart card should have its own keyboard (for pin code protection) and display (to show the transaction amount)
  • the card should implement a deterministic wallet, so that funds can be recovered if the card is lost.

Usage scenario

  • the reading device may belong to a merchant at a point of sale; it cannot be trusted with private keys.
  • the reading device is connected to a full bitcoin node; it can be trusted for getting and sending blockchain information.
  • the reading device sends to the card the current balance of its bitcoin addresses. This information can be cached in the card.
  • the reading device sends a bitcoin receiving address and transaction amount to the card.
  • the amount is displayed by the card ; the user confirms the transaction with his pin code.
  • the smart card creates a signed transaction and sends it to the reading device
  • the transaction is checked and broadcast by the bitcoin node.

Implementation steps

1. write a bitcoin daemon that can broadcast transactions

2. write a lightweight wallet

  • wallet without blockchain, in order to test the daemon
  • this lightweight wallet will be later implemented on the card
  • use it to define the communication protocol between card and reading device.

3. implement wallet on a simple smart card

  • http://www.opensc-project.org/opensc openSC : tools and libraries for smart cards.
  • amadousarr.free.fr/crypto/ECDSAJAVACARD.pdf : A Software Implementation of ECDSA on a Java Smart Card
  • http://www.acs.com.hk : cards, readers, development kits; no display, pincode needs to be typed on the reading device

4. implement wallet on a smart card with display and pincode

list of vendors: