/* * Copyright 2022 The OpenSSL Project Authors. All Rights Reserved. * * Licensed under the Apache License 2.0 (the "License"). You may not use * this file except in compliance with the License. You can obtain a copy * in the file LICENSE in the source distribution or at * https://www.openssl.org/source/license.html */ #include "internal/quic_fc.h" #include "internal/quic_error.h" #include "internal/common.h" #include "internal/safe_math.h" #include OSSL_SAFE_MATH_UNSIGNED(uint64_t, uint64_t) /* * TX Flow Controller (TXFC) * ========================= */ int ossl_quic_txfc_init(QUIC_TXFC *txfc, QUIC_TXFC *conn_txfc) { if (conn_txfc != NULL && conn_txfc->parent != NULL) return 0; txfc->swm = 0; txfc->cwm = 0; txfc->parent = conn_txfc; txfc->has_become_blocked = 0; return 1; } QUIC_TXFC *ossl_quic_txfc_get_parent(QUIC_TXFC *txfc) { return txfc->parent; } int ossl_quic_txfc_bump_cwm(QUIC_TXFC *txfc, uint64_t cwm) { if (cwm <= txfc->cwm) return 0; txfc->cwm = cwm; return 1; } uint64_t ossl_quic_txfc_get_credit_local(QUIC_TXFC *txfc) { assert(txfc->swm <= txfc->cwm); return txfc->cwm - txfc->swm; } uint64_t ossl_quic_txfc_get_credit(QUIC_TXFC *txfc) { uint64_t r, conn_r; r = ossl_quic_txfc_get_credit_local(txfc); if (txfc->parent != NULL) { assert(txfc->parent->parent == NULL); conn_r = ossl_quic_txfc_get_credit_local(txfc->parent); if (conn_r < r) r = conn_r; } return r; } int ossl_quic_txfc_consume_credit_local(QUIC_TXFC *txfc, uint64_t num_bytes) { int ok = 1; uint64_t credit = ossl_quic_txfc_get_credit_local(txfc); if (num_bytes > credit) { ok = 0; num_bytes = credit; } if (num_bytes > 0 && num_bytes == credit) txfc->has_become_blocked = 1; txfc->swm += num_bytes; return ok; } int ossl_quic_txfc_consume_credit(QUIC_TXFC *txfc, uint64_t num_bytes) { int ok = ossl_quic_txfc_consume_credit_local(txfc, num_bytes); if (txfc->parent != NULL) { assert(txfc->parent->parent == NULL); if (!ossl_quic_txfc_consume_credit_local(txfc->parent, num_bytes)) return 0; } return ok; } int ossl_quic_txfc_has_become_blocked(QUIC_TXFC *txfc, int clear) { int r = txfc->has_become_blocked; if (clear) txfc->has_become_blocked = 0; return r; } uint64_t ossl_quic_txfc_get_cwm(QUIC_TXFC *txfc) { return txfc->cwm; } uint64_t ossl_quic_txfc_get_swm(QUIC_TXFC *txfc) { return txfc->swm; } /* * RX Flow Controller (RXFC) * ========================= */ int ossl_quic_rxfc_init(QUIC_RXFC *rxfc, QUIC_RXFC *conn_rxfc, uint64_t initial_window_size, uint64_t max_window_size, OSSL_TIME (*now)(void *now_arg), void *now_arg) { if (conn_rxfc != NULL && conn_rxfc->parent != NULL) return 0; rxfc->swm = 0; rxfc->cwm = initial_window_size; rxfc->rwm = 0; rxfc->esrwm = 0; rxfc->hwm = 0; rxfc->cur_window_size = initial_window_size; rxfc->max_window_size = max_window_size; rxfc->parent = conn_rxfc; rxfc->error_code = 0; rxfc->has_cwm_changed = 0; rxfc->epoch_start = ossl_time_zero(); rxfc->now = now; rxfc->now_arg = now_arg; rxfc->is_fin = 0; return 1; } QUIC_RXFC *ossl_quic_rxfc_get_parent(QUIC_RXFC *rxfc) { return rxfc->parent; } void ossl_quic_rxfc_set_max_window_size(QUIC_RXFC *rxfc, size_t max_window_size) { rxfc->max_window_size = max_window_size; } static void rxfc_start_epoch(QUIC_RXFC *rxfc) { rxfc->epoch_start = rxfc->now(rxfc->now_arg); rxfc->esrwm = rxfc->rwm; } static int on_rx_controlled_bytes(QUIC_RXFC *rxfc, uint64_t num_bytes) { int ok = 1; uint64_t credit = rxfc->cwm - rxfc->swm; if (num_bytes > credit) { ok = 0; num_bytes = credit; rxfc->error_code = QUIC_ERR_FLOW_CONTROL_ERROR; } rxfc->swm += num_bytes; return ok; } int ossl_quic_rxfc_on_rx_stream_frame(QUIC_RXFC *rxfc, uint64_t end, int is_fin) { uint64_t delta; if (rxfc->parent == NULL) return 0; if (rxfc->is_fin && ((is_fin && rxfc->hwm != end) || end > rxfc->hwm)) { /* Stream size cannot change after the stream is finished */ rxfc->error_code = QUIC_ERR_FINAL_SIZE_ERROR; return 1; /* not a caller error */ } if (is_fin) rxfc->is_fin = 1; if (end > rxfc->hwm) { delta = end - rxfc->hwm; rxfc->hwm = end; on_rx_controlled_bytes(rxfc, delta); /* result ignored */ on_rx_controlled_bytes(rxfc->parent, delta); /* result ignored */ } else if (end < rxfc->hwm && is_fin) { rxfc->error_code = QUIC_ERR_FINAL_SIZE_ERROR; return 1; /* not a caller error */ } return 1; } /* threshold = 3/4 */ #define WINDOW_THRESHOLD_NUM 3 #define WINDOW_THRESHOLD_DEN 4 static int rxfc_cwm_bump_desired(QUIC_RXFC *rxfc) { int err = 0; uint64_t window_rem = rxfc->cwm - rxfc->rwm; uint64_t threshold = safe_mul_uint64_t(rxfc->cur_window_size, WINDOW_THRESHOLD_NUM, &err) / WINDOW_THRESHOLD_DEN; if (err) /* * Extremely large window should never occur, but if it does, just use * 1/2 as the threshold. */ threshold = rxfc->cur_window_size / 2; /* * No point emitting a new MAX_STREAM_DATA frame if the stream has a final * size. */ return !rxfc->is_fin && window_rem <= threshold; } static int rxfc_should_bump_window_size(QUIC_RXFC *rxfc, OSSL_TIME rtt) { /* * dt: time since start of epoch * b: bytes of window consumed since start of epoch * dw: proportion of window consumed since start of epoch * T_window: time it will take to use up the entire window, based on dt, dw * RTT: The current estimated RTT. * * b = rwm - esrwm * dw = b / window_size * T_window = dt / dw * T_window = dt / (b / window_size) * T_window = (dt * window_size) / b * * We bump the window size if T_window < 4 * RTT. * * We leave the division by b on the LHS to reduce the risk of overflowing * our 64-bit nanosecond representation, which will afford plenty of * precision left over after the division anyway. */ uint64_t b = rxfc->rwm - rxfc->esrwm; OSSL_TIME now, dt, t_window; if (b == 0) return 0; now = rxfc->now(rxfc->now_arg); dt = ossl_time_subtract(now, rxfc->epoch_start); t_window = ossl_time_muldiv(dt, rxfc->cur_window_size, b); return ossl_time_compare(t_window, ossl_time_multiply(rtt, 4)) < 0; } static void rxfc_adjust_window_size(QUIC_RXFC *rxfc, uint64_t min_window_size, OSSL_TIME rtt) { /* Are we sending updates too often? */ uint64_t new_window_size; new_window_size = rxfc->cur_window_size; if (rxfc_should_bump_window_size(rxfc, rtt)) new_window_size *= 2; if (new_window_size < min_window_size) new_window_size = min_window_size; if (new_window_size > rxfc->max_window_size) /* takes precedence over min size */ new_window_size = rxfc->max_window_size; rxfc->cur_window_size = new_window_size; rxfc_start_epoch(rxfc); } static void rxfc_update_cwm(QUIC_RXFC *rxfc, uint64_t min_window_size, OSSL_TIME rtt) { uint64_t new_cwm; if (!rxfc_cwm_bump_desired(rxfc)) return; rxfc_adjust_window_size(rxfc, min_window_size, rtt); new_cwm = rxfc->rwm + rxfc->cur_window_size; if (new_cwm > rxfc->cwm) { rxfc->cwm = new_cwm; rxfc->has_cwm_changed = 1; } } static int rxfc_on_retire(QUIC_RXFC *rxfc, uint64_t num_bytes, uint64_t min_window_size, OSSL_TIME rtt) { if (ossl_time_is_zero(rxfc->epoch_start)) /* This happens when we retire our first ever bytes. */ rxfc_start_epoch(rxfc); rxfc->rwm += num_bytes; rxfc_update_cwm(rxfc, min_window_size, rtt); return 1; } int ossl_quic_rxfc_on_retire(QUIC_RXFC *rxfc, uint64_t num_bytes, OSSL_TIME rtt) { if (rxfc->parent == NULL) return 0; if (num_bytes == 0) return 1; if (rxfc->rwm + num_bytes > rxfc->swm) /* Impossible for us to retire more bytes than we have received. */ return 0; rxfc_on_retire(rxfc, num_bytes, 0, rtt); rxfc_on_retire(rxfc->parent, num_bytes, rxfc->cur_window_size, rtt); return 1; } uint64_t ossl_quic_rxfc_get_cwm(QUIC_RXFC *rxfc) { return rxfc->cwm; } uint64_t ossl_quic_rxfc_get_swm(QUIC_RXFC *rxfc) { return rxfc->swm; } uint64_t ossl_quic_rxfc_get_rwm(QUIC_RXFC *rxfc) { return rxfc->rwm; } int ossl_quic_rxfc_has_cwm_changed(QUIC_RXFC *rxfc, int clear) { int r = rxfc->has_cwm_changed; if (clear) rxfc->has_cwm_changed = 0; return r; } int ossl_quic_rxfc_get_error(QUIC_RXFC *rxfc, int clear) { int r = rxfc->error_code; if (clear) rxfc->error_code = 0; return r; }