Web Payments: PaySwarm vs. OpenTransact Comparison (Part 1)

The W3C Web Payments Community Group was officially launched in August 2011 for the purpose of standardizing technologies for performing Web-based payments. The group launched at that time because Digital Bazaar had made a commitment to publish the PaySwarm technology as an open standard and eventually place it under the standardization direction of the W3C. During last week’s Web Payments telecon, a discussion ensued about using the OpenTransact specification as the basis for the Web Payments work at W3C. Inevitably, the group will have to thoroughly vet both technologies to see if it should standardize PaySwarm, OpenTransact, or both.

This blog post is a comparison of the list of features that both technologies have outlined as being standardization candidates for version 1.0 of each specification. The comparison uses the latest published specifications as of the time of this blog post, OpenTransact (October 19th, 2011) and PaySwarm (December 14th, 2011). Here is a brief summary table on the list of features supported by each proposed standard:

Feature PaySwarm 1.0 OpenTransact 1.0
IRIs for Identifiers Yes Yes
Basic Financial Transfer Yes Yes
Payment Links Yes Yes
Item For Sale Identifier Yes Yes
Micropayments Yes Yes
Access Control Delegation Digital Signatures OAuth 2.0
Alternative Currencies Yes Centralized
Machine Readable Metadata Yes Only for Items for sale
Recurring Payments Yes Use case exists, but no spec text
Transaction Processor Interoperability Yes No
Extensible Machine Readable Metadata Yes No
Transactions Yes No
Currency Exchange Yes No
Digital Signatures Yes No
Secure Communication over HTTP Yes No
Decentralized Publishing of Items for Sale Yes No
Decentralized Publishing of Licenses Yes No
Decentralized Publishing of Listings Yes No
Digital Contracts Yes No
Verifiable Receipts Yes No
Affiliate Sales Yes No
Secure Vendor-routed Purchases Yes No
Secure Customer-routed Purchases Yes No
Currency Mints Yes No
Crowd-funding Yes No
Data Portability Yes No

IRIs for Identifiers

If a payment technology is going to integrate cleanly with the Web, it should identify the things that it operates on in a Web-friendly way. Identifiers are at the heart of most Internet-based systems, and therefore it is important that the identifier work in a way that allows it to be used across the world and beyond and across different systems operating in different locations. The Internationalized Resource Identifier (IRI), of which Uniform Resource Locators (URLs) are a sub-set, provide a globally scale-able mechanism for creating distributed, de-reference-able identifiers.

PaySwarm uses IRIs to identify things like identities (http://example.com/identities/jane), financial accounts (http://example.com/accounts/jane/college-fund), assets (http://example.com/ebooks/the-republic), licenses (http://example.com/licenses/personal-use), listings (http://example.com/ebooks/the-republic#half-off-retail), transactions (http://example.com/transactions/2011/12/18/12345), contracts (http://example.com/contracts/2011/12/18/54321), and a variety of the other things that must be expressed when building an open protocol for a financial system.

OpenTransact uses IRIs to identify Asset Services (http://megabank.example.com/current), identities (bill@test.example.com), transfer receipts (http://epay.example.com/transactions/aaf4c61ddcc5e8a2dabede0f3b482cd9aea9434d), callbacks (http://epay.example.com/payment-callback), and providers of items for sale (http://vendor.example.com/). While OpenTransact does not detail many of the “things” that PaySwarm does, the implicit assumption is that those “things” would also have IRIs as their identifiers.

Basic Financial Transfer

An open payment protocol for the Web must be able to perform a simple financial transfer from one financial account to another. This simple exchange is different from the more complex transaction, as outlined below, which allows multiple financial transfers to occur across multiple accounts during a single transaction.

PaySwarm supports transfers from one financial account to another both within systems and between systems.

OpenTransact outlines transfers from one account to another within a system. It is unclear whether it supports financial transfers between systems since the implementation details of how the transfer occurs are not explained in the specification.

A Payment Link is a click-able link in a Web browser that enables one person or organization on the Web to request payment from another person or organization on the Web. Clicking on the link initiates the transfer process. The URL query parameters are standardized such that all payment processors on the Web would implement a single set of known query parameters, thus easing implementation burden when integrating with multiple payment systems.

A PaySwarm Authority will depend on the Payment Links specification to specify the proper query parameters for a Payment Link. These query parameters are intended to overlap almost entirely with the OpenTransact query parameters.

The OpenTransact specification outlines a set of query parameters for payment links.

Transacted Item Identifier

Being able to identify an item that is the cause of a financial transfer on the Web is important because it enables the payment system to understand why a particular transfer occurred. Furthermore, ensuring that the item identifier is de-reference-able allows humans and in some cases, machines, to view details about the item for sale.

PaySwarm calls an item that can be transacted an asset and ensures that the description of every asset on the network meet five important criteria; the asset is identified via an IRI, the asset description can be retrieved by de-referencing the IRI, the asset description is human-readable, the asset description is machine-readable and that the asset description can be frozen in time (to ensure the description of the asset does not change from one purchase to the next).

OpenTransact leaves the identification of the item being transacted a bit more open-ended and does not assign a conceptual name to the item. It ensures that the item is identified by an IRI and that de-referencing the IRI results in an item description. The specification is silent on whether or not the item description is required to be human-readable or machine-readable and does not require that the item description can be frozen in time. Since the item IRI is saved in the receipt but a machine-readable description is not, it allows the vendor to change the description of the purchased item at any point. For example, if the buyer purchased an ebook on day one, the vendor can change the purchase to seem as if it were a rental of the ebook on day two.

Micropayments

Micropayments allow the transmission of very small amounts of money from sender to receiver. For example, paying $0.05 for access to an article would be considered a micropayment. One of the primary benefits of micropayments is that they enable easy-to-use pay-as-you-go services. Micropayments also allow one to transfer small amounts of funds at a time without incurring high per-transaction fees.

The smallest amount for a PaySwarm transactions is unlimited. However, most transaction processors will limit payments up to 1/10,000th of the smallest whole denomination of a currency. For example, the smallest transaction possible using the PaySwarm software that Digital Bazaar is developing in US Dollars is $0.0000001 (one ten-millionth of a US Dollar).

OpenTransact is not limited in the smallest amount that is transferable.

Alternative Currencies

Alternative currencies like Ven, Bitcoin, time banking, Bernal Bucks and various gaming currencies like XBox Points are being increasingly used to solve niche economic problems that traditional fiat currencies have not been able to address. In order to ensure that experimentation with alternative currencies are supported, a Web-based payment protocol should ensure that those currencies can be easily created and exchanged.

PaySwarm allows currencies to be specified by either an internationalized currency code, like “USD”, or by an IRI that identifies a currency. This means that anyone capable of minting an IRI, which is just about anybody on the Web, has the ability to create a new alternative currency. The one draw-back for alternative currencies is that there must also be a location, or network, on the Web that acts as the currency mint. The concept of a currency mint will be covered later in this blog post.

OpenTransact supports alternative currencies by creating what it calls Asset Service endpoints. These endpoints can be for the transmission of fixed currencies, stocks, bonds, or other financial instruments.

Access Control Delegation

When implementing features like recurring payments, often some form of access control is required to ensure that a vendor honors the agreement that they created with the buyer. For example, giving permission to a vendor to bill you for up to $10 USD per month requires that some sort of access control privileges are assigned to the vendor. This access control mechanism allows the vendor to make withdrawals without needing to repeatedly bother the buyer. It also gives power to the buyer if they ever want to halt payment to the vendor. There are two primary approaches to access control on the Web; OAuth and digital signatures.

PaySwarm relies on digital signatures to ensure that a request for financial transfer is coming from the proper vendor. Setting up access control is a fairly simple process in PaySwarm, consisting of two steps. The first step requires the vendor to request access from the buyer via a Web browser link. The second step requires that the buyer select which privileges, and limits on those privileges, they are granting to the vendor. These privileges and limits may effectively make statements like: “I authorize this vendor to bill me up to $10 per month”. The vendor may then make financial transfer requests against the buyer’s financial account for up to $10 per month.

OpenTransact enables access control via the OAuth 2 protocol, which is capable of supporting similar privileges and limitations as PaySwarm. However, the OAuth 2 protocol does not allow for digital signatures external to the protocol and thus would also require a separate digital signature stack in order to support things like machine-verifiable receipts and decentralized assets, licenses and listings.

Machine Readable Metadata

One of the benefits of creating an open payment protocol is that the protocol can be further automated by computers if certain information is exposed in a machine-readable way. For example, if a digital receipt were exposed such that it was machine-readable, access to a website could be granted merely by transmitting the digital receipt to the website.

PaySwarm requires that all data that participates in a transaction is machine readable in a deterministic way. This ensures that assets, licenses, listings, contracts and digital receipts (to name a few) can be transacted and verified without a human in the loop. This increased automation leads to far better customer experiences on websites, where a great deal of the annoying practice of filling out forms can be skipped entirely because machines can automatically process things like digital receipts.

OpenTransact describes exactly what receipt metadata looks like – it’s a JSON object that contains a number of fields. It also outlines that implementations could ask for descriptions of OpenTransact Assets and the associated list of transactions that are associated with those Assets. However, there is no mechanism that allows this metadata to be extended in a deterministic fashion. This limitation will be further detailed below.

Recurring Payments

A recurring payment enables a buyer to specify that a particular vendor can bill them at a periodic interval and removes the burden of buyers having to remember to pay bills every month. Recurring payments requires a certain level of Access Control Delegation.

Recurring payments are supported in PaySwarm by pre-authorizing a vendor to spend a certain limit at a pre-specified time interval. Many other rules can be put into place as well. For example, the buyer could limit the time period that the vendor can operate or the transaction processor could send an e-mail every time the vendor withdraws money from the buyer.

While a recurring payments use case exists for OpenTransact, no specification text has been written on how one can accomplish this feat from a technical standpoint.

Transaction Processor Interoperability

For an open payment protocol to be truly open, it must provide interoperability between systems. At the most basic level, this means that a transaction processor must be able to take funds from an account on one system and transfer those funds to a different account on a different system. Interoperability often goes deeper than that, however, as transferring transaction history, accounts, and preference information from one system to the next is important as well.

Since PaySwarm lists financial accounts in a decentralized way (as IRIs), there is no reason that two financial accounts must reside on the same system. In fact, PaySwarm is built with the assumption that payments will freely flow between various payment processors during a single transaction. This means that a single transaction could contain multiple payees and each one of those payees could reside on a different system, and as long as each system adheres to the PaySwarm protocol, the money will be transmitted to each account. While the specification text has not yet been written, the PaySwarm system will not be fully standardized until the protocol for performing the back-haul communication between each PaySwarm Authority is detailed in the specification. That is, system to system inter-operability is a requirement of the protocol.

The OpenTransact specification identifies senders and receivers in a decentralized way (as IRIs). There are no plans to specify system-to-system transactions in the OpenTransact 1.0 specification. The type of interoperability that OpenTransact provides is library API-level compatibility. That is, those writing software libraries for financial services need only implement one set of query parameters to work with an OpenTransact system. However, the specification does not specify how money flows from one system to the next. There is no system-to-system interoperability in OpenTransact and thus each implementation does nothing to prevent transaction processor lock-in.

Extensible Machine Readable Metadata

Having machine-readable data allows computers to automate certain processes, such as receipt verification or granting access based on details in a digital contract. However, machine-readable data comes at the cost of having to use rigid data structures. These rigid data structures can be extended in a variety of ways that provide the best of both worlds – machine readability and extensibility. Allowing extensibility in the data structures enables innovation. For example, the addition of new terms in a contract or license would enable new business models not considered by the designers of the core protocol.

PaySwarm utilizes JSON-LD to express data in such a way as to be easily usable by Web programmers, but extensible in a way that is guaranteed to not conflict with future versions of the protocol. This means that assets, licenses, listings, digital contracts, and receipts may be extended by transaction processors in order to enable new business models without needing to coordinate with all transaction processors as a first step.

OpenTransact utilizes JSON to provide machine-readable data for receipts, Assets and transactions. However, it does not specify any mechanism that allows one to extend the data structures without running the risk of conflicting with future advancements to the language.

Transactions

A transaction is defined as a collection of one or more transfers. An example of a transaction is paying a bill at a restaurant. Typically, that transaction results in a number of transfers – there is one from the buyer to the restaurant, another from the buyer to a tax authority, and yet another transfer from the buyer to tip the waiter (in certain countries). While the restaurant gives you a single receipt, the transfer of money is often more complex than just a simple transmission from one sender to one receiver.

PaySwarm models transactions in the way that we model them in the real world – a transaction is a collection of monetary transfers from a sender to multiple receivers. An example of a transaction can be found in the PaySwarm Commerce vocabulary.

OpenTransact models only the most low-level concept of a financial transfer and leaves implementation of transactions to a higher-level application. That is, transactions are considered out-of-scope for the OpenTransact specification and are expected to be implemented at the application layer.

Currency Exchange

A currency exchange allows one to exchange a set amount of one currency for a set amount of another currency. For example, exchanging US Dollars for Japanese Yen, or exchanging goats for chickens. A currency exchange functions as a mechanism for transforming something of value into something else of value.

PaySwarm supports currency exchanges via digital contracts that outline the terms of the exchange.

OpenTransact asserts that currency exchanges can be implemented on top of the specification, but states that the details of that implementation are strictly outside of the specification. One of the primary features that are required for a functioning currency exchange is the concept of a currency mint, which is also outside of the scope of OpenTransact.

Digital Signatures

A digital signature is a mechanism that is used to verify the authenticity of digital messages and documents. Much like a hand-written signature, it can be used to prove the identity of the person sending the message or signing a document. Digital signatures have a variety of uses in financial systems, including; sending and receiving verifiable messages, access control delegation, sending and receiving secure/encrypted messages, counter-signing financial agreements, and ensuring authenticity of digital goods.

PaySwarm has direct support for digital signatures and utilizes them to provide the following capabilities; sending and receiving verifiable messages, access control delegation, sending and receiving secure/encrypted messages, counter-signing financial agreements, ensuring the authenticity of assets, licenses, listings, digital contracts, intents to purchase, and verifiable receipts.

OpenTransact does not support digital signatures in the specification.

Secure Communication over HTTP

While HTTP has served as the workhorse protocol for the Web, it’s major weakness is that it is not secure unless wrapped in a Transport Layer Security (TLS, aka SSL) connection. Unfortunately, TLS/SSL Certificates are costly and one of the design goals for an open protocol for Web Payments should be reducing the financial burden placed on the network participants. Another mechanism that can be used to secure HTTP traffic is by using AES to encrypt/decrypt or digitally sign parts of the HTTP message. This approach results in a zero-financial-cost solution for implementing a secure message channel inside of an HTTP message.

Since PaySwarm supports AES and digital signatures by default, it is also capable of securing communication over HTTP.

OpenTransact relies on OAuth 2 and thus requires a financial commitment from the participant if they want to secure their network traffic via TLS. There is no way to use OpenTransact over HTTP in a secure manner without TLS. However, this is not a problem for the subset of use cases that OpenTransact aims to solve. It does not address the cases where a digital signature or encryption is required to communicate over an un-encrypted HTTP message channel.

Decentralized Publishing of Items for Sale

A vendor would like to have their products listed for sale as widely as possible while ensuring that their control over the item’s machine-readable description is ensured, regardless of where it is listed on the Web. It is important to be able to list items for sale in a secure manner, but allow the flexibility for that item to be expressed on sites that are not under your control. Decoupling the machine-readable description of an item for sale from the payment processor allows both mechanisms to be innovated upon on different time-frames by different people. Centralized solutions are often easier to implement, but far less flexible from decentralized solutions. This holds true for how items for sale are listed. Allowing vendors to have full control over how their items for sale should appear to those browsing their wares is something that a centralized solution cannot easily offer.

PaySwarm establishes the concept of an asset and describes how an asset can be expressed in a secure, digitally signed, decentralized manner.

OpenTransact does not support machine-readable descriptions of items, nor does it support digital signatures to ensure that items cannot be tampered with by third-parties, or even the originating party.

Decentralized Publishing of Licenses

When a sale occurs, there is typically a license that governs the terms of sale. Often, this license is implied based on the laws of commerce governing the transaction in the region in which the transaction occurs. What would be better is if the license could be encapsulated into the receipt of sale and specified in a way that is decentralized to the financial transaction processor and to the item being purchased. This would ensure that people and organizations that specialize in law could innovate and standardize a set of licenses independently of the rest of the financial system.

PaySwarm establishes the concept of a license and describes how it can be expressed in a secure, digitally signed, decentralized manner. Licenses typically contain boilerplate text which are sprinkled with configurable parameters such as “warranty period in days from purchase”, and “maximum number of physical copies” (for things like manufacturing).

OpenTransact does not support machine-readable licenses, embedding licenses, nor does it support digital signatures to ensure that the license cannot be tampered with by third-parties. License tampering isn’t just a problem when transmitting the license over insecure channels, it is also an issue if the the originator of the license changes the contents of the license.

Decentralized Publishing of Listings

A listing specifies the payment details and license under which an asset can be transacted. Giving a vendor full control over when, where and how a listing is published is vital to ensuring that new business models that depend on when and how items are listed for sale can be innovated upon independently of the financial network. So, it becomes important that listings can not only be expressed in a decentralized manner, but they are also tamper-proof and re-distribute-able across the Web while ensuring that the vendor stays in control of how long a particular offer lasts.

PaySwarm establishes the concept of a listing and describes how it can be expressed in a secure, digitally signed, decentralized manner. Decentralized listings allow assets described in the listings to be sold on a separate site, under terms set forth by the original asset owner. That is, a pop-star could release their song as a listing on their website, and the fans could sell it on behalf of the pop-star while making a small profit from the sale. In this scenario, the pop-star gets the royalties they want, the fan gets a cut of the sale, and mass-distribution of the song is made possible through a strongly motivated grass-roots effort by the fans.

OpenTransact does not support machine-readable listings, nor does it support digital signatures to ensure that the license cannot be tampered with by third-parties.

Digital Contracts

A contract is the result of a commercial transaction and contains information such as the item purchased, the pricing information, the the parties involved in the transaction, the license outlining the rights to the item, and payment information associated with the transaction. A digital contract is machine-readable, is self-contained and is digitally signed to ensure authenticity.

PaySwarm supports digital contracts as the primary mechanism for performing complex exchanges of value. Digital contracts support business practices like intent-to-purchase, being able to purchase an asset under different licenses (such as personal use and broadcast use), and digital receipts.

OpenTransact does not support digital contracts nor does it support digital signatures.

Verifiable Receipts

A verifiable receipt is a receipt that contains a digital signature such that you can verify the accuracy of the receipt contents. Verifiable receipts are helpful when you need to show the receipt to a third party to assert ownership over a physical or virtual good. For example, a music fan could show a verifiable receipt confirming that they purchased a certain song from an artist to get a discount on tickets to an upcoming show. There would not need to be any coordination between the original vendor of the songs and the vendor of the tickets if a verifiable receipt was used as a proof-of-purchase.

PaySwarm supports verifiable receipts, even when the signatory of the receipt is offline. The only piece of information necessary is the public key of the PaySwarm Authority. This means that receipts can be verified even if the transaction processor is offline or goes away entirely.

OpenTransact does support receipts delivered via the Asset Service, using OAuth 2 as the access control mechanism. This means that retrieving a receipt for validation requires having a human in the loop. A verifying website would need to request an OAuth 2 token, the receipt-holder would need to grant access to the verifying website, and then the verifying website would use the token to retrieve the receipt. Currently, OpenTransact does not support digitally signed receipts, and thus it does not support receipt verification if the Asset Service is offline.

Affiliate Sales

When creating content for the Web, getting massively wide distribution typically leads to larger profits. Therefore, it is important for people that create items for sale to be able to grant others the ability to redistribute and profit off of the redistribution, as long as the original creator is compensated under their terms for their creation. Typically, this is called the affiliate model – where a single creator allows wide-distribution of their content through a network of affiliate sellers.

PaySwarm supports affiliate re-sale through digitally signed listings. A listing associates an asset for sale, the license under which asset use is governed and the payment amount and rules associated with the asset. These listings can be used on their originating site, or a third party site. Security of the terms of sale specified in the listings are ensured through the use of digital signatures.

OpenTransact does not support affiliate sales.

Secure Vendor-routed Purchases

At times, network-connectivity can be a barrier for performing a financial transaction. In these cases, the likelihood that a at least one of the transaction participants has an available network connection is high. For example, if a vendor has a physical place of business with a network connection, the customers that frequent that location can depend on the vendor’s network connection instead of requiring their own when processing payments. This is useful when implementing a payment device in hardware, like a smart payment card, without also requiring that hardware device to have a large-area network communication capability, like a mobile phone. A typical payment flow is outlined below:

  1. The vendor presents a bill to the buyer.
  2. The buyer views the bill and digitally signs the bill, stating that they agree to the charges.
  3. The vendor takes the digitally signed bill and forwards it to the buyer’s payment processor for payment.

PaySwarm supports vendor-routed purchases through the use of digital signatures on digital contracts. When the vendor provides a digital contract to a buyer, the buyer may accept the terms of sale by counter-signing the digital contract from the vendor. The counter-signed digital contract can then be uploaded to the buyer’s PaySwarm Authority to transfer the funds from the buyer to the vendor. The digital contract is returned to the vendor with the PaySwarm Authority’s signature on the contract to assert that all financial transfers listed in the contract have been processed.

OpenTransact does not support vendor-routed purchases, requiring instead that both buyer and vendor have network connectivity when performing a purchase.

Secure Customer-routed Purchases

At times, network-connectivity can be a barrier for performing a financial transaction. In these cases, the likelihood that a at least one of the transaction participants has an available network connection is high. For example, a vendor could setup a sales kiosk without any network connection (such as a vending machine) and route purchase processing via a customer’s mobile-phone. A typical payment flow is outlined below:

  1. The buyer selects the product that they would like to purchase from the kiosk (like a soda).
  2. The kiosk generates a bill and transmits it to the mobile device via a NFC connection.
  3. The buyer’s mobile phone digitally signs the bill and sends it to their payment processor for processing.
  4. The digitally signed receipt is delivered back to the buyer’s mobile device, which then transmits it via NFC to the kiosk.
  5. The kiosk checks the digital signature and upon successful verification and delivers the product to the buyer (a cold, refreshing soda).

PaySwarm supports customer-routed purchases through the use of digital signatures on digital contracts. When the buyer receives the digital contract for the purchase from the kiosk, it is already signed by the vendor which implies that the vendor is amenable to the terms in the contract. The buyer then counter-signs the contract and sends it up to the PaySwarm Authority for processing. The PaySwarm Authority then counter-signs the contract, which is delivered back to the buyer, which then routes the finalized contract back to the kiosk. The kiosk checks the digital signature of the PaySwarm Authority on the contract and delivers the product to the buyer.

OpenTransact does not support customer-routed purchases, requiring instead that both buyer and vendor have network connectivity when performing a purchase.

Currency Mints

A currency mint is capable of creating new units of a particular currency. A currency mint is closely related to the topic of alternative currencies, as previously mentioned in this blog post. In order for an alternative currency to enter the financial network, there must be a governing authority or algorithm that ensures that the generation of the currency is limited. If the generation of a currency is not limited in any way, hyperinflation of the currency becomes a risk. The most vital function of a currency mint is to carefully generate and feed currency into payment processors.

PaySwarm supports currency mints by allowing the currency mint to specify an alternative currency via an IRI on the network. The currency IRI is then used as the origin of currency across all PaySwarm systems. The currency mint can then deposit amounts of the alternative currency into accounts on any PaySwarm Authority through an externally defined process.

OpenTransact does not support currency mints. It does support alternative currencies, but does not specify how the alternative currency can be used across multiple payment processors and therefore only supports alternative currencies in a non-inter-operable way.

Crowd-funding

Crowd-funding is the act of pooling a set of funds together with the goal of effecting a change of some kind. Kickstarter is a great example of crowd-funding in action. There are a number of requirements when crowd-funding; ensure that money is not exchanged until a funding goal has been reached (an intent to fund), if a funding goal is reached – allow the mass collection of money (bulk transfer), if a funding goal is not reached – invalidate the intent to fund (cancellation).

PaySwarm supports crowd-funding. The digital contracts that PaySwarm uses can express an intent to fund. Mass-collection of a list of digital contracts expressing an intent to fund can occur in an atomic operation, which is important to make sure that the entire amount is available at once. Finally, the digital contracts containing an intent to fund also contain an expiration time for the offer to fund.

OpenTransact does not support crowd-funding as described above.

Data Portability

Data portability provides the mechanism that allows people and organizations to easily transfer their data across inter-operable systems. This includes identity, financial transaction history, public keys, and other financial data in a way that ensures that payment processors cannot take advantage of platform lock-in. Making data portability a key factor of the protocol ensures that the customers always have the power to walk away if they become unhappy with their payment processor, thus ensuring strong market competition among payment processors.

PaySwarm ensures data portability by expressing all of its Web Service data as JSON-LD. There will also be a protocol defined that ensures that data portability is a requirement for all payment processors implementing the PaySwarm protocol. That is, data portability is a fundamental design goal for PaySwarm.

OpenTransact does not specify any data portability requirements, nor does it provide any system inter-operability requirements. While certainly not done on purpose, this creates a dangerous formula for vendor lock-in and non-interoperability between payment processors.

Follow-up to this blog post

[Update 2011-12-21: Partial response by Pelle to this blog post: OpenTransact the payment standard where everything is out of scope]

[Update 2012-01-01: Rebuttal to Pelle's partial response to this blog post: Web Payments: PaySwarm vs. OpenTransact Shootout (Part 2)]

[Update 2012-01-02: Second part of response by Pelle to this blog post: OpenTransact vs PaySwarm part 2 - yes it's still mostly out of scope]

[Update 2012-01-08: Rebuttal to second part of response by Pelle to this blog post: Web Payments: PaySwarm vs. OpenTransact Shootout (Part 3)]