CVE-2023-34450
NiskieCVSS 3.7Prawdopodobieństwo exploitacji (EPSS)
Niskie ryzykoPercentyl 48 — wyżej niż 48% wszystkich znanych CVE
Streszczenie
W CometBFT występuje problem z deadlockiem spowodowany modyfikacją serializacji struktury `PeerState` do formatu JSON w wersjach 0.34.28 i 0.37.1. Deadlock może wystąpić podczas wywoływania funkcji MarshallJSON, co prowadzi do zablokowania węzła lub jednego z kanałów komunikacyjnych w przypadku wywołania RPC `dump_consensus_state`.
Ocena ryzyka
Organizacja może doświadczyć przestojów w działaniu węzłów, co może wpłynąć na wydajność i dostępność systemu. W przypadku małej liczby węzłów ryzyko jest większe, ponieważ może prowadzić do całkowitego zatrzymania łańcucha.
Rekomendacja
Zaleca się aktualizację do wersji 0.34.29 lub 0.37.2, aby usunąć tę podatność. Alternatywnie, należy unikać ustawiania logów na poziom 'debug' oraz nie udostępniać punktu końcowego RPC `dump_consensus_state` w Internecie.
Oryginalny opis (angielski, źródło NVD)
CometBFT is a Byzantine Fault Tolerant (BFT) middleware that takes a state transition machine and replicates it on many machines. An internal modification made in versions 0.34.28 and 0.37.1 to the way struct `PeerState` is serialized to JSON introduced a deadlock when new function MarshallJSON is called. This function can be called from two places. The first is via logs, setting the `consensus` logging module to "debug" level (should not happen in production), and setting the log output format to JSON. The second is via RPC `dump_consensus_state`. Case 1, which should not be hit in production, will eventually hit the deadlock in most goroutines, effectively halting the node. In case 2, only the data structures related to the first peer will be deadlocked, together with the thread(s) dealing with the RPC request(s). This means that only one of the channels of communication to the node's peers will be blocked. Eventually the peer will timeout and excluded from the list (typically after 2 minutes). The goroutines involved in the deadlock will not be garbage collected, but they will not interfere with the system after the peer is excluded. The theoretical worst case for case 2, is a network with only two validator nodes. In this case, each of the nodes only has one `PeerState` struct. If `dump_consensus_state` is called in either node (or both), the chain will halt until the peer connections time out, after which the nodes will reconnect (with different `PeerState` structs) and the chain will progress again. Then, the same process can be repeated. As the number of nodes in a network increases, and thus, the number of peer struct each node maintains, the possibility of reproducing the perturbation visible with two nodes decreases. Only the first `PeerState` struct will deadlock, and not the others (RPC `dump_consensus_state` accesses them in a for loop, so the deadlock at the first iteration causes the rest of the iterations of that "for" loop to never be reached). This regression was fixed in versions 0.34.29 and 0.37.2. Some workarounds are available. For case 1 (hitting the deadlock via logs), either don't set the log output to "json", leave at "plain", or don't set the consensus logging module to "debug", leave it at "info" or higher. For case 2 (hitting the deadlock via RPC `dump_consensus_state`), do not expose `dump_consensus_state` RPC endpoint to the public internet (e.g., via rules in one's nginx setup).

