fix spelling
All checks were successful
continuous-integration/drone/push Build is passing

This commit is contained in:
Andre Henriques 2023-11-07 20:50:00 +00:00
parent 4e8b1cb8e7
commit 52425244ef

View File

@ -201,6 +201,30 @@
a = \frac{s' - s}{h - h'} a = \frac{s' - s}{h - h'}
$$ $$
\subsection{6.2}
\subsubsection{6.2.1}
To sign a contract $C$ Alice first chooses 2 random values $r$ and $c_2$ then $z$ is callulated $z=g^r\times y_b^{c_2}$. After we have $z$ we can calculate the intermidary value $c$, $c = H(y_a, y_b, C, z)$. After having $c$ we calculate $c_1$, $c_1 = c - c_2$. $c_1$ is then used to callulate $s = r - c1 \times a mod q$. The signature is $(c_1, c_2, s)$
\subsubsection{6.2.2}
No because Alice only needs Bob's public key which is publicly avaiable
\subsubsection{6.2.3}
The signature is verified if the equation holds
$$c_1 + c_2 = H(y_a, y_b, C, g^s\times y_a^{c_1} \times y_b^{c_2} mod p )$$
\subsubsection{6.2.4}
No because the signature is generated from multiple public keys and Alice's private key therefore chris will not be able to tell who signed the contract
\subsection*{6.3}
\subsubsection*{6.3.1}
The encryption works because the numbers that were chosen by Alice and Bo b make this equation work
$$(m^{r_a})^{r_b} = m$$
which means that
$$((((m^{r_{a\text{ alice}}})^{r_{a\text{ bob}}})^{r_{b\text{ alice}}})^{r_{b\text{ bob}}}) = m$$
in this case $r_a$ from alice cancels $r_b$ from alice, and $r_a$ from bob cancels $r_b$ from bob
\subsubsection*{6.3.2}
\section*{7} \section*{7}
\subsection*{7.1} \subsection*{7.1}
$$v1 = (137, 312), v2 = (215, -187)$$ $$v1 = (137, 312), v2 = (215, -187)$$