From 2a3361961c138b9e66d807466bf696e887b9997e Mon Sep 17 00:00:00 2001 From: Christian Grothoff Date: Tue, 16 May 2017 15:01:13 +0200 Subject: [PATCH] add section on /payback --- doc/paper/taler.tex | 27 +++++++++++++++++++++++++-- 1 file changed, 25 insertions(+), 2 deletions(-) diff --git a/doc/paper/taler.tex b/doc/paper/taler.tex index 0bca805ca..6f1be8081 100644 --- a/doc/paper/taler.tex +++ b/doc/paper/taler.tex @@ -871,7 +871,9 @@ with signature $\widetilde{C} := S_K(\FDH_K(C_p))$ public key. \item The merchant creates a signed contract - $\mathcal{A} := S_M(m, f, a, H(p, r), \vec{X})$ + \begin{equation*} + \mathcal{A} := S_M(m, f, a, H(p, r), \vec{X}) + \end{equation*} where $m$ is an identifier for this transaction, $f$ is the price of the offer, and $a$ is data relevant to the contract indicating which services or goods the merchant will @@ -1564,6 +1566,24 @@ upholds the core principles described in~\cite{fc2014murdoch}. In particular, in providing the cryptographic proofs as evidence none of the participants have to disclose their core secrets. +\subsection{Business concerns} + +The Taler system implementation includes additional protocol elements +to address real-world concerns. To begin with, the exchange +automatically transfers any funds that have been left for an extended +amount of time in a customer's reserve back to the customer's bank +account. Furthermore, we allow the exchange to revoke denomination +keys, and wallets periodically check for such revocations. If a +denomination key has been revoked, the wallets use the {\em payback} +protocol to deposit funds back to the customer's reserve, from where +they are either withdrawn with a new denomination key or sent back to +the customer's bank account. Unlike ordinary deposits, the payback +protocol does not incur any transaction fees. The primary use of the +protocol is to limit the financial loss in cases where an audit +reveals that the exchange's private keys were compromised, and to +automatically pay back balances held in a customers' wallet if an +exchange ever goes out of business. + %\subsection{System Performance} % @@ -1782,7 +1802,10 @@ coin first. the exchange persists $\langle \mathcal{L} \rangle$ and notifies the merchant that locking was successful. \item\label{contract2} The merchant creates a digitally signed contract - $\mathcal{A} := S_M(m, f, a, H(p, r))$ where $a$ is data relevant to the contract + \begin{equation*} + \mathcal{A} := S_M(m, f, a, H(p, r)) + \end{equation*} + where $a$ is data relevant to the contract indicating which services or goods the merchant will deliver to the customer, and $p$ is the merchant's payment information (e.g. his IBAN number) and $r$ is an random nonce. The merchant persists $\langle \mathcal{A} \rangle$ and sends it to the customer.