Electronic signature
An electronic signature, or e-signature, refers to data in electronic form, which is logically associated with other data in electronic form and which is used by the signatory to sign. This type of signature provides the same legal standing as a handwritten signature as long as it adheres to the requirements of the specific regulation under which it was created.
Electronic signatures are a legal concept distinct from digital signatures, a cryptographic mechanism often used to implement electronic signatures. While an electronic signature can be as simple as a name entered in an electronic document, digital signatures are increasingly used in e-commerce and in regulatory filings to implement electronic signatures in a cryptographically protected way. Standardization agencies like NIST or ETSI provide standards for their implementation. The concept itself is not new, with common law jurisdictions having recognized telegraph signatures as far back as the mid-19th century and faxed signatures since the 1980s.
Description
An electronic signature is intended to provide a secure and accurate identification method for the signatory to provide a seamless transaction.Definitions of electronic signatures vary depending on the applicable jurisdiction. A common denominator in most countries is the level of an advanced electronic signature requiring that:
- The signatory can be uniquely identified and linked to the signature
- The signatory must have sole control of the private key that was used to create the electronic signature
- The signature must be capable of identifying if its accompanying data has been tampered with after the message was signed
- In the event that the accompanying data has been changed, the signature must be invalidated
In contract law
Since well before the American Civil War began in 1861, morse code was used to send messages electrically by telegraphy. Some of these messages were agreements to terms that were intended as enforceable contracts. An early acceptance of the enforceability of telegraphic messages as electronic signatures came from a New Hampshire Supreme Court case, Howley v. Whipple, in 1869.In the 1980s, many companies and even some individuals began using fax machines for high-priority or time-sensitive delivery of documents. Although the original signature on the original document was on paper, the image of the signature and its transmission was electronic.
Courts in various jurisdictions have decided that enforceable electronic signatures can include agreements made by email, entering a personal identification number into a bank ATM, signing a credit or debit slip with a digital pen pad device at a point of sale, installing software with a clickwrap software license agreement on the package, and signing electronic documents online.
The first agreement signed electronically by two sovereign nations was a Joint Communiqué recognizing the growing importance of the promotion of electronic commerce, signed by the United States and Ireland in 1998.
Enforceability
In 1996 the United Nations published the UNCITRAL Model Law on Electronic Commerce. Article 7 of the UNCITRAL Model Law on Electronic Commerce was highly influential in the development of electronic signature laws around the world, including in the US. In 2001, UNCITRAL concluded work on a dedicated text, the UNCITRAL Model Law on Electronic Signatures, which has been adopted in some 30 jurisdictions. The latest UNCITRAL text dealing with electronic signatures is article 9, paragraph 3 of the United Nations Convention on the Use of Electronic Communications in International Contracts, 2005, which establishes a mechanism for functional equivalence between electronic and handwritten signatures at the international level as well as for the cross-border recognition.Canadian law attempts to clarify the situation by first defining a generic electronic signature as "a signature that consists of one or more letters, characters, numbers or other symbols in digital form incorporated in, attached to or associated with an electronic document", then defining a secure electronic signature as an electronic signature with specific properties. PIPEDA's secure electronic signature regulations refine the definition as being a digital signature applied and verified in a specific manner.
In the European Union, EU Regulation No 910/2014 on electronic identification and trust services for electronic transactions in the European internal market sets the legal frame for electronic signatures. It repeals Directive 1999/93/EC. The current and applicable version of eIDAS was published by the European Parliament and the European Council on July 23, 2014. Following Article 25 of the eIDAS regulation, an advanced electronic signature shall “not be denied legal effect and admissibility as evidence in legal proceedings". However it will reach a higher probative value when enhanced to the level of a qualified electronic signature. By requiring the use of a qualified electronic signature creation device and being based on a certificate that has been issued by a qualified trust service provider, the upgraded advanced signature then carries according to Article 25 of the eIDAS Regulation the same legal value as a handwritten signature. However, this is only regulated in the European Union and similarly through ZertES in Switzerland. A qualified electronic signature is not defined in the United States.
The U.S. Code defines an electronic signature for the purpose of US law as "an electronic sound, symbol, or process, attached to or logically associated with a contract or other record and executed or adopted by a person with the intent to sign the record." It may be an electronic transmission of the document which contains the signature, as in the case of facsimile transmissions, or it may be encoded message, such as telegraphy using Morse code.
In the United States, the definition of what qualifies as an electronic signature is wide and is set out in the Uniform Electronic Transactions Act released by the National Conference of Commissioners on Uniform State Laws in 1999. It was influenced by ABA committee white papers and the uniform law promulgated by NCCUSL. Under UETA, the term means "an electronic sound, symbol, or process, attached to or logically associated with a record and executed or adopted by a person with the intent to sign the record." This definition and many other core concepts of UETA are echoed in the U.S. ESign Act of 2000. 47 US states, the District of Columbia, and the US Virgin Islands have enacted UETA. Only New York, Washington State, and Illinois have not enacted UETA, but each of those states has adopted its own electronic signatures statute.
Legal definitions
Various laws have been passed internationally to facilitate commerce by the use of electronic records and signatures in interstate and foreign commerce. The intent is to ensure the validity and legal effect of contracts entered into electronically. For instance,;PIPEDA
;ESIGN Act Sec 106
;GPEA Sec 1710 :
;UETA Sec 2 :
;Federal Reserve 12 CFR 202 : refers to the ESIGN Act
;Commodity Futures Trading Commission 17 CFR Part 1 Sec. 1.3 :
;Food and Drug Administration 21 CFR Sec. 11.3 :
;United States Patent and Trademark Office 37 CFR Sec. 1.4
Laws regarding their use
- Australia - , specifically relates to electronic signatures.
- Canada - , , and the .
- China - Law of the People’s Republic of China on Electronic Signature
- Costa Rica - Digital Signature Law 8454
- Croatia 2002, updated 2008
- Czech Republic – currently directly applicable eIDAS and , formerly
- Ecuador –
- European Union - eIDAS regulation on implementation within the EU is set out in the Digital Signatures and the Law.
- India - Information Technology Act
- Iraq - Electronic Transactions and Electronic Signature Act No 78 in 2012
- Ireland -
- Japan - Law Concerning Electronic Signatures and Certification Services, 2000
- Mexico - E-Commerce Act
- Malaysia - Digital Signature Act 1997 and Digital Signature Regulation 1998
- Moldova - Privind semnătura electronică şi documentul electronic
- New Zealand -
- Paraguay - ,
- Peru -
- Philippines -
- Poland - Ustawa o podpisie elektronicznym
- Romania -
- Russian Federation -
- Singapore -
- Slovakia -
- Slovenia - Slovene Electronic Commerce and Electronic Signature Act
- South Africa -
- Spain -
- Switzerland - ZertES
- Republika Srpska 2005
- Turkey -
- Ukraine -
- UK - s.7 Electronic Communications Act 2000
- U.S. - Electronic Signatures in Global and National Commerce Act
- U.S. - Uniform Electronic Transactions Act - adopted by 48 states
- U.S. - Digital Signature And Electronic Authentication Law
- U.S. - Government Paperwork Elimination Act
- U.S. - The Uniform Commercial Code
- Lithuania -
Technological implementations (underlying technology)
Digital signature
s are cryptographic implementations of electronic signatures used as a proof of authenticity, data integrity and non-repudiation of communications conducted over the Internet. When implemented in compliance to digital signature standards, digital signing should offer end-to-end privacy with the signing process being user-friendly and secure. Digital signatures are generated and verified through standardized frameworks such as the Digital Signature Algorithm by NIST or in compliance to the XAdES, PAdES or CAdES standards, specified by the ETSI.There are typically three algorithms involved with the digital signature process:
- Key generation – This algorithm provides a private key along with its corresponding public key.
- Signing – This algorithm produces a signature upon receiving a private key and the message that is being signed.
- Verification – This algorithm checks for the authenticity of the message by verifying it along with the signature and public key.
The most relevant standards on digital signatures with respect to size of domestic markets are the Digital Signature Standard by the National Institute of Standards and Technology and the eIDAS Regulation enacted by the European Parliament. OpenPGP is a non-proprietary protocol for email encryption through public key cryptography. It is supported by PGP and GnuPG, and some of the S/MIME IETF standards and has evolved into the most popular email encryption standard in the world.
Biometric signature
Electronic signature may also refer to electronic forms of processing or verifying identity through use of biometric "signatures" or biologically identifying qualities of an individual. Such signatures use the approach of attaching some biometric measurement, or hash of said measurement, to a document as evidence. For instance, fingerprints, hand geometry, iris patterns, or even retinal patterns. All of these are collected using electronic sensors of some kind. Since each of these physical characteristics has claims to uniqueness among humans, each is to some extent useful as a signature.Biometric measurements of this type are useless as passwords, as they can't be changed if compromised. However, they might be serviceable as electronic signatures of a kind, except that to date they have been so easily spoofable that they can carry little assurance that the person who purportedly signed a document was actually the person who did. Unfortunately, each is easily spoofable by a replay of the electronic signal produced and submitted to the computer system responsible for 'affixing' a signature to a document. Wiretapping techniques often suffice for this. In the particular case of fingerprints, a Japanese professor and some graduate students managed to spoof all of the commercially available fingerprint readers available to them with some ordinary kitchen chemistry and a little ingenuity. No actual fingers were needed to successfully spoof every reading device. In another example, researchers in Vietnam successfully demonstrated in late 2017 how a specially crafted mask could beat Apple's Face ID program on iPhone X.