Authenticated broadcast with a partially compromised public-key infrastructure

Given a public-key infrastructure (PKI) and digital signatures, it is possible to construct broadcast protocols tolerating any number of corrupted parties. Existing protocols, however, do not distinguish between corrupted parties who do not follow the protocol, and honest parties whose secret (signing) keys have been compromised but continue to behave honestly. We explore conditions under which it is possible to construct broadcast protocols that still provide the usual guarantees (i.e., validity/agreement) to the latter. Consider a network of n parties, where an adversary has compromised the secret keys of up to t"c honest parties and, in addition, fully controls the behavior of up to t"a other parties. We show that for any fixed t"c>0 and any fixed t"a, there exists an efficient protocol for broadcast if and only if 2t"a+min(t"a,t"c)