/* Copyright (c) 2017 - 2021 LiteSpeed Technologies Inc. See LICENSE. */ /* * lsquic_conn_flow.h -- Connection flow control-related functions */ #ifndef LSQUIC_CONN_FLOW_H #define LSQUIC_CONN_FLOW_H 1 struct lsquic_conn_public; typedef struct lsquic_cfcw { struct lsquic_conn_public *cf_conn_pub; uint64_t cf_max_recv_off; /* Largest offset observed (cumulative) */ uint64_t cf_recv_off; /* Flow control receive offset */ uint64_t cf_read_off; /* Number of bytes consumed (cumulative) */ lsquic_time_t cf_last_updated; unsigned cf_max_recv_win; /* Maximum receive window */ } lsquic_cfcw_t; struct lsquic_conn_cap { uint64_t cc_sent; /* Number of bytes sent on connection */ uint64_t cc_max; /* Maximum cumulative number of bytes allowed * to be sent on this connection. */ uint64_t cc_blocked; /* Last blocked offset used */ }; #define lsquic_conn_cap_init(cc, max) do { \ (cc)->cc_sent = 0; \ (cc)->cc_max = max; \ } while (0) #define lsquic_conn_cap_avail(cap) ( \ (assert((cap)->cc_max >= (cap)->cc_sent)), \ (cap)->cc_max - (cap)->cc_sent) void lsquic_cfcw_init (lsquic_cfcw_t *, struct lsquic_conn_public *, unsigned initial_max_recv_window); /* If update is to be sent, updates max_recv_off and returns true. Note * that if you call this function twice, the second call will return false. */ int lsquic_cfcw_fc_offsets_changed (lsquic_cfcw_t *); #define lsquic_cfcw_get_fc_recv_off(fc) (+(fc)->cf_recv_off) #define lsquic_cfcw_get_max_recv_off(fc) (+(fc)->cf_max_recv_off) #define lsquic_cfcw_get_max_recv_window(fc) (+(fc)->cf_max_recv_win) /* Returns false if flow control violation is encountered */ int lsquic_cfcw_incr_max_recv_off (lsquic_cfcw_t *, uint64_t); /* Void because we do not expect the caller to make a mistake. */ void lsquic_cfcw_incr_read_off (lsquic_cfcw_t *, uint64_t); #endif