233 lines
7.5 KiB
TeX
233 lines
7.5 KiB
TeX
\documentclass{llncs}
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%\usepackage[margin=1in,a4paper]{geometry}
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\usepackage[T1]{fontenc}
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\usepackage{palatino}
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\usepackage{xspace}
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\usepackage{microtype}
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\usepackage{tikz,eurosym}
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\usepackage{amsmath,amssymb}
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\usepackage{enumitem}
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\usetikzlibrary{shapes,arrows}
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\usetikzlibrary{positioning}
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\usetikzlibrary{calc}
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% Relate to:
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% http://fc14.ifca.ai/papers/fc14_submission_124.pdf
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% Terminology:
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% - SEPA-transfer -- avoid 'SEPA transaction' as we use
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% 'transaction' already when we talk about taxable
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% transfers of Taler coins and database 'transactions'.
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% - wallet = coins at customer
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% - reserve = currency entrusted to exchange waiting for withdrawal
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% - deposit = SEPA to exchange
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% - withdrawal = exchange to customer
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% - spending = customer to merchant
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% - redeeming = merchant to exchange (and then exchange SEPA to merchant)
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% - refreshing = customer-exchange-customer
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% - dirty coin = coin with exposed public key
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% - fresh coin = coin that was refreshed or is new
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% - coin signing key = exchange's online key used to (blindly) sign coin
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% - message signing key = exchange's online key to sign exchange messages
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% - exchange master key = exchange's key used to sign other exchange keys
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% - owner = entity that knows coin private key
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% - transaction = coin ownership transfer that should be taxed
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% - sharing = coin copying that should not be taxed
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\def\mathcomma{,}
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\def\mathperiod{.}
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\title{Offline Taler}
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\begin{document}
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\mainmatter
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\author{Jeffrey Burdges}
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\institute{Intria / GNUnet / Taler}
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\maketitle
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% \begin{abstract}
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% \end{abstract}
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% \section{Introduction}
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% \section{Taler's refresh protocol}
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\def\Nu{N}
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\def\newmathrm#1{\expandafter\newcommand\csname #1\endcsname{\mathrm{#1}}}
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\newmathrm{FDH}
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We shall describe Taler's refresh protocol in this section.
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All notation defined here persists throughout the remainder of
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the article.
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We let $\kappa$ denote the exchange's taxation security parameter,
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meaning the highest marginal tax rate is $1/\kappa$. Also, let
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$n_\mu$ denote the maximum number of coins returned by a refresh.
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\smallskip
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Let $\iota$ denote a coin idetity paramater that
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links together the different commitments but must reemain secret
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from the exchange.
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Let $n_\nu$ denote the identity security paramater.
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An online coin's identity commitment $\Nu$ is the empty string.
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In the offline coin case, we begin with a reserve public key $R$
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and a private identity commitment seed $\nu$.
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For $k \le n_\nu$, we define
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\[ \begin{aligned}
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\nu_{k,0} &= H(\nu || i) \mathcomma \\
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\nu_{k,1} &= H(\nu || i) \oplus R \mathcomma \\
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\Nu_k &= H(\nu_{k,0} || \nu_{k,1} || H(\iota || k) ) \mathperiod \\
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\end{aligned} \]
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% We define $\Nu = H( \Nu_i \quad\textrm{for $k \le n_\nu$})$ finally.
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\smallskip
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A coin $(C,\Nu,S)$ consists of
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a Ed25519 public key $C = c G$,
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an optional set of offline identity commitments $\Nu = \{\Nu_k | k \in \Gamma \}$
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an RSA-FDH signature $S = S_d(\FDH(C) * \Pi_{k \in \Gamma} \FDH(\Nu_k))$ by a denomination key $d$.
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A coin is spent by signing a contract with $C$. The contract must
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specify the recipiant merchant and what portion of the value denoted
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by the denomination $d$ they recieve.
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There was of course a blinding factor $b$ used in the creation of
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the coin's signature $S$. In addition, there was a private seed $s$
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used to generate $c$ and $b$ but we need not retain $s$
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outside the refresh protocol.
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$$ c = H(\textrm{"Ed25519"} || s)
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\qquad b = H(\textrm{"Blind"} || s) $$
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We generate $\nu = H("Offline" || s)$ from $s$ as well,
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but only for offline coins.
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\smallskip
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We begin refresh with a possibly tainted coin $(C,S)$ whose value
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we wish to save by refreshing it into untainted coins.
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In the change sitaution, our coin $(C,\Nu,S)$ was partially spent and
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retains only a part of the value determined by the denominaton $d$.
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For $x$ amongst the symbols $c$, $C$, $b$, and $s$,
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we let $x_{j,i}$ denote the value normally denoted $x$ of
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the $j$th cut of the $i$th new coin being created.
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% So $C_{j,i} = c_{j,i} G$, $\Nu_{j,i}$, $m_{j,i}$, and $b^{j,i}$
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% must be derived from $s^{j,i}$ as above.
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We need only consider one such new coin at a time usually,
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so let $x'$ denote $x_{j,i}$ when $i$ and $j$ are clear from context.
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In other words, $c'$, and $b_j$ are derived from $s_j$,
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and both $C' = c' G$.
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\paragraph{Wallet phase 1.}
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\begin{itemize}
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\item For $i = 1 \cdots n$, create random coin ids $\iota_i$.
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\item For $j = 1 \cdots \kappa$:
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\begin{itemize}
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\item Create random $\zeta_j$ and $l_j$.
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\item Also compute $L_j = l_j G$.
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\item Set $k_j = H(l_j C || \eta_j)$.
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\end{itemize}
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\smallskip
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\item For $i = 1 \cdots n$:
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\begin{itemize}
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\item Create random pre-coin id $\iota'_i$.
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\item Set $\iota_i = H("Id" || \iota'_i)$.
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\item $j = 1 \cdots \kappa$:
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\begin{itemize}
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\item Set $s' = H(\zeta_j || i)$.
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\item Derive $c'$ and $b'$from $s'$ as above.
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\item Compute $C' = c' G$ too.
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\item Compute $B_{j,i} = B_{b'}(C' || H(\iota_i || H(s')))$.
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\item Encrypt $\Gamma'_{j,i} = E_{k_j}(s')$.
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\item Set the coin commitments $\Gamma_{j,i} = (\Gamma'_{j,i},B_{j,i})$.
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\end{itemize}
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\item For $k = 1 \cdots 2 n_\nu$:
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\begin{itemize}
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\item Set $\nu_k = H(\iota'_i || k)$.
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\item Generate $\Nu_k$ from $\nu_k$ and $H(\iota_i || k)$.
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\item Set the coin commitment $\Gamma_{\kappa+k,i} = B_{b'}(\Nu_{i,k})$.
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\end{itemize}
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\end{itemize}
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\smallskip
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\item Save $\zeta_*$ and $\iota'_*$.
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\item Send $(C,S)$ and the signed commitments
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$\Gamma_* = S_C( \Gamma_{j,i} \quad\textrm{for $j=1\cdots\kappa+2n_\nu, i=0 \cdots n$} )$.
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\end{itemize}
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\paragraph{Exchange phase 1.}
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\begin{itemize}
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\item Verify the signature $S$ by $d$ on $C$.
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\item Verify the signatures by $C$ on the $\Gamma_{j,i}$ in $\Gamma_*$.
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\item Pick random $\gamma \in \{1 \cdots \kappa\}$.
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\item Pick random $\Gamma \subset \{1,\ldots,2 n_\nu\}$ with $|\Gamma| = n_\nu$.
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\item Mark $C$ as spent by saving $(C,\gamma,\Gamma,\Gamma_*)$.
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\item Send $(\gamma,\Gamma)$ as $S(C,\gamma)$.
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\end{itemize}
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\paragraph{Wallet phase 2.}
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\begin{itemize}
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\item Save $S(C,\gamma,\Gamma)$.
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\item For $j = 1 \cdots \kappa$ except $\gamma$:
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\begin{itemize}
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\item Send $S_C(l_j)$.
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\item Send $S_C(H(\iota_i || H(s_{j,i})) \quad\textrm{for $i = 1 \cdots n$})$.
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\end{itemize}
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\item For $i = 1 \cdots n$ and $k \not\in \Gamma$:
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\begin{itemize}
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\item Send $S_C( \nu_{k,i}, H(\iota_i || k) )$.
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\end{itemize}
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\end{itemize}
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\paragraph{Exchange phase 2.}
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\begin{itemize}
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\item Verify the signature by $C$.
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\item For $j = 1 \cdots \kappa$ except $\gamma$:
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\begin{itemize}
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\item Set $k_j = H(l_j C)$.
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\item For $i=1 \cdots n$:
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\begin{itemize}
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\item Decrypt $s' = D_{k_j}(\Gamma'_{j,i})$.
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\item Compute $c'$, $m'$, and $b'$ from $s_j$.
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\item Compute $C' = c' G$ too.
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\item Verify $B' = B_{b'}(C' || H(\iota_i || H(s_{j,i})))$.
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\end{itemize}
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\end{itemize}
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\item For $i=1 \cdots n$ and $k \not\in \Gamma$:
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\begin{itemize}
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\item Generate $\Nu_k$ from $\nu_k$ and $H(\iota_i || k)$.
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\item Verify the coin commitment $\Gamma_{\kappa+k,i} = B_{b'}(\Nu_{i,k})$.
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\end{itemize}
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\item If verifications all pass then send $S_{d_i}(B_\gamma * \Pi_{k \in \Gamma} B_k)$.
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\end{itemize}
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!!! PLEASE READ CHAUM BEFORE USING THIS !!!
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There are several really deadly attacks that require careful defenses.
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Also, one must find a proof of security that works for this product.
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And Brands might do better anyways.
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\bibliographystyle{alpha}
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\bibliography{taler,rfc}
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% \newpage
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% \appendix
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% \section{}
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\end{document}
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