#ifdef SPLIT_TRANSACTION_IDS_USER # include "transport_sync.h" # include "transactions.h" # include typedef struct { bool oled_on; uint16_t keymap_config; } user_runtime_config_t; user_runtime_config_t user_state; void user_sync(uint8_t initiator2target_buffer_size, const void* initiator2target_buffer, uint8_t target2initiator_buffer_size, void* target2initiator_buffer) { if (initiator2target_buffer_size == sizeof(user_state)) { memcpy(&user_state, initiator2target_buffer, initiator2target_buffer_size); } } void keyboard_post_init_transport_sync(void) { // Register keyboard state sync split transaction transaction_register_rpc(RPC_ID_USER_STATE_SYNC, user_sync); } void user_state_update(void) { if (is_keyboard_master()) { # ifdef OLED_DRIVER_ENABLE user_state.oled_on = is_oled_on(); # endif user_state.keymap_config = keymap_config.raw; } else { # ifdef OLED_DRIVER_ENABLE if (user_state.oled_on) { oled_on(); } else { oled_off(); } # endif if (keymap_config.raw != user_state.keymap_config) { keymap_config.raw = user_state.keymap_config; } } } void user_state_sync(void) { if (is_keyboard_master()) { // Keep track of the last state, so that we can tell if we need to propagate to slave static user_runtime_config_t last_user_state; static uint32_t last_sync; bool needs_sync = false; // Check if the state values are different if (memcmp(&user_state, &last_user_state, sizeof(user_state))) { needs_sync = true; memcpy(&last_user_state, &user_state, sizeof(user_state)); } // Send to slave every 500ms regardless of state change if (timer_elapsed32(last_sync) > 250) { needs_sync = true; } // Perform the sync if requested if (needs_sync) { if (transaction_rpc_send(RPC_ID_USER_STATE_SYNC, sizeof(user_state), &user_state)) { last_sync = timer_read32(); } } } } void housekeeping_task_user(void) { // Update kb_state so we can send to slave user_state_update(); // Data sync from master to slave user_state_sync(); } #endif