#include struct broadcast_state *new_broadcast_state(tal_t *ctx) { struct broadcast_state *bstate = tal(ctx, struct broadcast_state); uintmap_init(&bstate->broadcasts); /* Skip 0 because we initialize peers with 0 */ bstate->next_index = 1; return bstate; } static struct queued_message *new_queued_message(tal_t *ctx, const int type, const u8 *tag, const u8 *payload) { struct queued_message *msg = tal(ctx, struct queued_message); msg->type = type; msg->tag = tal_dup_arr(msg, u8, tag, tal_count(tag), 0); msg->payload = tal_dup_arr(msg, u8, payload, tal_count(payload), 0); return msg; } bool queue_broadcast(struct broadcast_state *bstate, const int type, const u8 *tag, const u8 *payload) { struct queued_message *msg; u64 index; bool evicted = false; /* Remove any tag&type collisions */ for (msg = uintmap_first(&bstate->broadcasts, &index); msg; msg = uintmap_after(&bstate->broadcasts, &index)) { if (msg->type == type && memcmp(msg->tag, tag, tal_count(tag)) == 0) { uintmap_del(&bstate->broadcasts, index); tal_free(msg); evicted = true; break; } } /* Now add the message to the queue */ msg = new_queued_message(bstate, type, tag, payload); uintmap_add(&bstate->broadcasts, bstate->next_index, msg); bstate->next_index += 1; return evicted; } struct queued_message *next_broadcast_message(struct broadcast_state *bstate, u64 last_index) { return uintmap_after(&bstate->broadcasts, &last_index); }