What do the half-reactions need to be for balancing a redox reaction in an acidic medium?

Question

Balance the following reaction: $$\ce{CuS + SO4^{2-} -> CuO + SO2}$$

Below, the number mentioned in the parenthesis is the oxidation number of sulfur.
I have found out that the oxidation half-reactions and reduction half-reactions are as follows:

\begin{align} \ce{CuS^{(-2)} &-> ^{(4)}SO2}&& \text{Oxidation half reaction}\\ \ce{^{(6)}SO4^{2-} &-> ^{(4)}SO2}&& \text{Reduction half reaction} \end{align}

Problem:

In this, what about $\ce{CuO}$ in the product side? I have also learned that we need to balance the spectator ions before charges if the spectator ion is other than oxygen and hydrogen.

Here, there is no $\ce{Cu}$ in reduction half reaction. So, I think there is something is wrong in my reduction half-reaction.

Answer 1

Below, the number mentioned in the parenthesis is the oxidation number of sulfur.

1. Writing down half reactions: \begin{align} \ce{CuS^{(-2)} &-> ^{(4)}SO2}&& \text{Oxidation}\\ \ce{^{(6)}SO4^{2-} &-> ^{(4)}SO2}&& \text{Reduction} \end{align}

2. Adding electrons in both reactions: \begin{align} \ce{CuS^{(-2)} &-> ^{(4)}SO2 + 6e-}&& \text{Oxidation}\\ \ce{^{(6)}SO4^{2-} + 2e- &-> ^{(4)}SO2}&& \text{Reduction} \end{align}

3. Balancing $\ce{Cu}$: \begin{align} \ce{CuS^{(-2)}&-> ^{(4)}SO2 + 6e- + Cu^{+2}}&& \text{Oxidation} \end{align}

4. Balancing charges of both half reactions: \begin{align} \ce{CuS^{(-2)}&-> ^{(4)}SO2 + 6e- +CuO + 6H+}&& \text{Oxidation}\\ \ce{^{(6)}SO4^{2-} + 2e- +4H+ &-> ^{(4)}SO2}&& \text{Reduction} \end{align}

5. Balancing oxygen and hydrogen: \begin{align} \ce{CuS^{(-2)} + 3H2O&-> ^{(4)}SO2 + 6e- +CuO + 6H+}&& \text{Oxidation}\\ \ce{^{(6)}SO4^{2-} + 2e- +4H+ &-> ^{(4)}SO2 + 2H2O}&& \text{Reduction} \end{align}

6. Adding 3 copies of reduction half reaction with oxidation half reaction, gives finally balanced redox reaction: $$\ce{CuS + 3SO4^{2-} + 6H+ -> 4SO2 +CuO + 3H2O}$$

(Thanks to Silvio Levy for helping me to solve this problem.)