[Core] rewrite locking in split transaction handlers (#18417)
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@ -76,7 +76,26 @@ static bool transaction_handler_master(matrix_row_t master_matrix[], matrix_row_
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if (!transaction_handler_master(master_matrix, slave_matrix, #prefix, &prefix##_handlers_master)) return false; \
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} while (0)
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/**
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* @brief Constructs a transaction handler that doesn't acquire a lock to the
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* split shared memory. Therefore the locking and unlocking has to be done
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* manually inside the handler. Use this macro only if the handler is
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* non-deterministic in runtime and thus needs a manual lock unlock
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* implementation to hold the lock for the shortest possible time.
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*/
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#define TRANSACTION_HANDLER_SLAVE(prefix) \
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do { \
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prefix##_handlers_slave(master_matrix, slave_matrix); \
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} while (0)
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/**
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* @brief Constructs a transaction handler that automatically acquires a lock to
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* safely access the split shared memory and releases the lock again after
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* processing the handler. Use this macro if the handler is fast and
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* deterministic in runtime and thus holds the lock only for a very short time.
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* If not fallback to manually locking and unlocking inside the handler.
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*/
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#define TRANSACTION_HANDLER_SLAVE_AUTOLOCK(prefix) \
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do { \
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split_shared_memory_lock(); \
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prefix##_handlers_slave(master_matrix, slave_matrix); \
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@ -139,7 +158,7 @@ static void slave_matrix_handlers_slave(matrix_row_t master_matrix[], matrix_row
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// clang-format off
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#define TRANSACTIONS_SLAVE_MATRIX_MASTER() TRANSACTION_HANDLER_MASTER(slave_matrix)
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#define TRANSACTIONS_SLAVE_MATRIX_SLAVE() TRANSACTION_HANDLER_SLAVE(slave_matrix)
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#define TRANSACTIONS_SLAVE_MATRIX_SLAVE() TRANSACTION_HANDLER_SLAVE_AUTOLOCK(slave_matrix)
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#define TRANSACTIONS_SLAVE_MATRIX_REGISTRATIONS \
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[GET_SLAVE_MATRIX_CHECKSUM] = trans_target2initiator_initializer(smatrix.checksum), \
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[GET_SLAVE_MATRIX_DATA] = trans_target2initiator_initializer(smatrix.matrix),
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@ -161,7 +180,7 @@ static void master_matrix_handlers_slave(matrix_row_t master_matrix[], matrix_ro
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}
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# define TRANSACTIONS_MASTER_MATRIX_MASTER() TRANSACTION_HANDLER_MASTER(master_matrix)
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# define TRANSACTIONS_MASTER_MATRIX_SLAVE() TRANSACTION_HANDLER_SLAVE(master_matrix)
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# define TRANSACTIONS_MASTER_MATRIX_SLAVE() TRANSACTION_HANDLER_SLAVE_AUTOLOCK(master_matrix)
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# define TRANSACTIONS_MASTER_MATRIX_REGISTRATIONS [PUT_MASTER_MATRIX] = trans_initiator2target_initializer(mmatrix.matrix),
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#else // SPLIT_TRANSPORT_MIRROR
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@ -197,7 +216,7 @@ static void encoder_handlers_slave(matrix_row_t master_matrix[], matrix_row_t sl
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// clang-format off
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# define TRANSACTIONS_ENCODERS_MASTER() TRANSACTION_HANDLER_MASTER(encoder)
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# define TRANSACTIONS_ENCODERS_SLAVE() TRANSACTION_HANDLER_SLAVE(encoder)
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# define TRANSACTIONS_ENCODERS_SLAVE() TRANSACTION_HANDLER_SLAVE_AUTOLOCK(encoder)
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# define TRANSACTIONS_ENCODERS_REGISTRATIONS \
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[GET_ENCODERS_CHECKSUM] = trans_target2initiator_initializer(encoders.checksum), \
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[GET_ENCODERS_DATA] = trans_target2initiator_initializer(encoders.state),
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@ -239,7 +258,7 @@ static void sync_timer_handlers_slave(matrix_row_t master_matrix[], matrix_row_t
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}
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# define TRANSACTIONS_SYNC_TIMER_MASTER() TRANSACTION_HANDLER_MASTER(sync_timer)
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# define TRANSACTIONS_SYNC_TIMER_SLAVE() TRANSACTION_HANDLER_SLAVE(sync_timer)
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# define TRANSACTIONS_SYNC_TIMER_SLAVE() TRANSACTION_HANDLER_SLAVE_AUTOLOCK(sync_timer)
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# define TRANSACTIONS_SYNC_TIMER_REGISTRATIONS [PUT_SYNC_TIMER] = trans_initiator2target_initializer(sync_timer),
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#else // DISABLE_SYNC_TIMER
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@ -273,7 +292,7 @@ static void layer_state_handlers_slave(matrix_row_t master_matrix[], matrix_row_
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// clang-format off
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# define TRANSACTIONS_LAYER_STATE_MASTER() TRANSACTION_HANDLER_MASTER(layer_state)
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# define TRANSACTIONS_LAYER_STATE_SLAVE() TRANSACTION_HANDLER_SLAVE(layer_state)
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# define TRANSACTIONS_LAYER_STATE_SLAVE() TRANSACTION_HANDLER_SLAVE_AUTOLOCK(layer_state)
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# define TRANSACTIONS_LAYER_STATE_REGISTRATIONS \
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[PUT_LAYER_STATE] = trans_initiator2target_initializer(layers.layer_state), \
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[PUT_DEFAULT_LAYER_STATE] = trans_initiator2target_initializer(layers.default_layer_state),
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@ -304,7 +323,7 @@ static void led_state_handlers_slave(matrix_row_t master_matrix[], matrix_row_t
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}
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# define TRANSACTIONS_LED_STATE_MASTER() TRANSACTION_HANDLER_MASTER(led_state)
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# define TRANSACTIONS_LED_STATE_SLAVE() TRANSACTION_HANDLER_SLAVE(led_state)
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# define TRANSACTIONS_LED_STATE_SLAVE() TRANSACTION_HANDLER_SLAVE_AUTOLOCK(led_state)
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# define TRANSACTIONS_LED_STATE_REGISTRATIONS [PUT_LED_STATE] = trans_initiator2target_initializer(led_state),
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#else // SPLIT_LED_STATE_ENABLE
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@ -353,10 +372,15 @@ static bool mods_handlers_master(matrix_row_t master_matrix[], matrix_row_t slav
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}
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static void mods_handlers_slave(matrix_row_t master_matrix[], matrix_row_t slave_matrix[]) {
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set_mods(split_shmem->mods.real_mods);
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set_weak_mods(split_shmem->mods.weak_mods);
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split_shared_memory_lock();
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split_mods_sync_t mods;
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memcpy(&mods, &split_shmem->mods, sizeof(split_mods_sync_t));
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split_shared_memory_unlock();
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set_mods(mods.real_mods);
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set_weak_mods(mods.weak_mods);
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# ifndef NO_ACTION_ONESHOT
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set_oneshot_mods(split_shmem->mods.oneshot_mods);
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set_oneshot_mods(mods.oneshot_mods);
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# endif
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}
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@ -384,7 +408,11 @@ static bool backlight_handlers_master(matrix_row_t master_matrix[], matrix_row_t
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}
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static void backlight_handlers_slave(matrix_row_t master_matrix[], matrix_row_t slave_matrix[]) {
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backlight_set(split_shmem->backlight_level);
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split_shared_memory_lock();
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uint8_t backlight_level = split_shmem->backlight_level;
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split_shared_memory_unlock();
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backlight_set(backlight_level);
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}
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# define TRANSACTIONS_BACKLIGHT_MASTER() TRANSACTION_HANDLER_MASTER(backlight)
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@ -417,10 +445,15 @@ static bool rgblight_handlers_master(matrix_row_t master_matrix[], matrix_row_t
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}
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static void rgblight_handlers_slave(matrix_row_t master_matrix[], matrix_row_t slave_matrix[]) {
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split_shared_memory_lock();
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// Update the RGB with the new data
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if (split_shmem->rgblight_sync.status.change_flags != 0) {
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rgblight_update_sync(&split_shmem->rgblight_sync, false);
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split_shmem->rgblight_sync.status.change_flags = 0;
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rgblight_syncinfo_t rgblight_sync;
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memcpy(&rgblight_sync, &split_shmem->rgblight_sync, sizeof(rgblight_syncinfo_t));
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split_shmem->rgblight_sync.status.change_flags = 0;
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split_shared_memory_unlock();
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if (rgblight_sync.status.change_flags != 0) {
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rgblight_update_sync(&rgblight_sync, false);
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}
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}
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@ -450,8 +483,12 @@ static bool led_matrix_handlers_master(matrix_row_t master_matrix[], matrix_row_
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}
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static void led_matrix_handlers_slave(matrix_row_t master_matrix[], matrix_row_t slave_matrix[]) {
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split_shared_memory_lock();
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memcpy(&led_matrix_eeconfig, &split_shmem->led_matrix_sync.led_matrix, sizeof(led_eeconfig_t));
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led_matrix_set_suspend_state(split_shmem->led_matrix_sync.led_suspend_state);
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bool led_suspend_state = split_shmem->led_matrix_sync.led_suspend_state;
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split_shared_memory_unlock();
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led_matrix_set_suspend_state(led_suspend_state);
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}
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# define TRANSACTIONS_LED_MATRIX_MASTER() TRANSACTION_HANDLER_MASTER(led_matrix)
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@ -480,8 +517,12 @@ static bool rgb_matrix_handlers_master(matrix_row_t master_matrix[], matrix_row_
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}
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static void rgb_matrix_handlers_slave(matrix_row_t master_matrix[], matrix_row_t slave_matrix[]) {
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split_shared_memory_lock();
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memcpy(&rgb_matrix_config, &split_shmem->rgb_matrix_sync.rgb_matrix, sizeof(rgb_config_t));
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rgb_matrix_set_suspend_state(split_shmem->rgb_matrix_sync.rgb_suspend_state);
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bool rgb_suspend_state = split_shmem->rgb_matrix_sync.rgb_suspend_state;
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split_shared_memory_unlock();
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rgb_matrix_set_suspend_state(rgb_suspend_state);
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}
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# define TRANSACTIONS_RGB_MATRIX_MASTER() TRANSACTION_HANDLER_MASTER(rgb_matrix)
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@ -512,7 +553,7 @@ static void wpm_handlers_slave(matrix_row_t master_matrix[], matrix_row_t slave_
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}
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# define TRANSACTIONS_WPM_MASTER() TRANSACTION_HANDLER_MASTER(wpm)
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# define TRANSACTIONS_WPM_SLAVE() TRANSACTION_HANDLER_SLAVE(wpm)
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# define TRANSACTIONS_WPM_SLAVE() TRANSACTION_HANDLER_SLAVE_AUTOLOCK(wpm)
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# define TRANSACTIONS_WPM_REGISTRATIONS [PUT_WPM] = trans_initiator2target_initializer(current_wpm),
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#else // defined(WPM_ENABLE) && defined(SPLIT_WPM_ENABLE)
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@ -535,7 +576,11 @@ static bool oled_handlers_master(matrix_row_t master_matrix[], matrix_row_t slav
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}
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static void oled_handlers_slave(matrix_row_t master_matrix[], matrix_row_t slave_matrix[]) {
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if (split_shmem->current_oled_state) {
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split_shared_memory_lock();
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uint8_t current_oled_state = split_shmem->current_oled_state;
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split_shared_memory_unlock();
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if (current_oled_state) {
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oled_on();
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} else {
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oled_off();
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@ -566,7 +611,11 @@ static bool st7565_handlers_master(matrix_row_t master_matrix[], matrix_row_t sl
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}
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static void st7565_handlers_slave(matrix_row_t master_matrix[], matrix_row_t slave_matrix[]) {
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if (split_shmem->current_st7565_state) {
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split_shared_memory_lock();
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uint8_t current_st7565_state = split_shmem->current_st7565_state;
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split_shared_memory_unlock();
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if (current_st7565_state) {
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st7565_on();
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} else {
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st7565_off();
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@ -574,7 +623,7 @@ static void st7565_handlers_slave(matrix_row_t master_matrix[], matrix_row_t sla
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}
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# define TRANSACTIONS_ST7565_MASTER() TRANSACTION_HANDLER_MASTER(st7565)
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# define TRANSACTIONS_ST7565_SLAVE() TRANSACTION_HANDLER_SLAVE(st7565)
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# define TRANSACTIONS_ST7565_SLAVE() TRANSACTION_HANDLER_SLAVE_AUTOLOCK(st7565)
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# define TRANSACTIONS_ST7565_REGISTRATIONS [PUT_ST7565] = trans_initiator2target_initializer(current_st7565_state),
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#else // defined(ST7565_ENABLE) && defined(SPLIT_ST7565_ENABLE)
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@ -607,9 +656,9 @@ static bool pointing_handlers_master(matrix_row_t master_matrix[], matrix_row_t
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bool okay = read_if_checksum_mismatch(GET_POINTING_CHECKSUM, GET_POINTING_DATA, &last_update, &temp_state, &split_shmem->pointing.report, sizeof(temp_state));
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if (okay) pointing_device_set_shared_report(temp_state);
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temp_cpi = pointing_device_get_shared_cpi();
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if (temp_cpi && memcmp(&last_cpi, &temp_cpi, sizeof(temp_cpi)) != 0) {
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memcpy(&split_shmem->pointing.cpi, &temp_cpi, sizeof(temp_cpi));
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okay = transport_write(PUT_POINTING_CPI, &split_shmem->pointing.cpi, sizeof(split_shmem->pointing.cpi));
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if (temp_cpi && last_cpi != temp_cpi) {
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split_shmem->pointing.cpi = temp_cpi;
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okay = transport_write(PUT_POINTING_CPI, &split_shmem->pointing.cpi, sizeof(split_shmem->pointing.cpi));
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if (okay) {
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last_cpi = temp_cpi;
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}
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@ -629,8 +678,6 @@ static void pointing_handlers_slave(matrix_row_t master_matrix[], matrix_row_t s
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return;
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}
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# endif
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report_mouse_t temp_report;
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uint16_t temp_cpi;
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# if (POINTING_DEVICE_TASK_THROTTLE_MS > 0)
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static uint32_t last_exec = 0;
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if (timer_elapsed32(last_exec) < POINTING_DEVICE_TASK_THROTTLE_MS) {
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@ -638,17 +685,25 @@ static void pointing_handlers_slave(matrix_row_t master_matrix[], matrix_row_t s
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}
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last_exec = timer_read32();
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# endif
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temp_cpi = !pointing_device_driver.get_cpi ? 0 : pointing_device_driver.get_cpi(); // check for NULL
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if (split_shmem->pointing.cpi && memcmp(&split_shmem->pointing.cpi, &temp_cpi, sizeof(temp_cpi)) != 0) {
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if (pointing_device_driver.set_cpi) {
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pointing_device_driver.set_cpi(split_shmem->pointing.cpi);
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}
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uint16_t temp_cpi = !pointing_device_driver.get_cpi ? 0 : pointing_device_driver.get_cpi(); // check for NULL
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split_shared_memory_lock();
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split_slave_pointing_sync_t pointing;
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memcpy(&pointing, &split_shmem->pointing, sizeof(split_slave_pointing_sync_t));
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split_shared_memory_unlock();
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if (pointing.cpi && pointing.cpi != temp_cpi && pointing_device_driver.set_cpi) {
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pointing_device_driver.set_cpi(pointing.cpi);
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}
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memset(&temp_report, 0, sizeof(temp_report));
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temp_report = pointing_device_driver.get_report(temp_report);
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memcpy(&split_shmem->pointing.report, &temp_report, sizeof(temp_report));
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pointing.report = pointing_device_driver.get_report((report_mouse_t){0});
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// Now update the checksum given that the pointing has been written to
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split_shmem->pointing.checksum = crc8(&temp_report, sizeof(temp_report));
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pointing.checksum = crc8(&pointing.report, sizeof(report_mouse_t));
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split_shared_memory_lock();
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memcpy(&split_shmem->pointing, &pointing, sizeof(split_slave_pointing_sync_t));
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split_shared_memory_unlock();
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}
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# define TRANSACTIONS_POINTING_MASTER() TRANSACTION_HANDLER_MASTER(pointing)
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