/* * nghttp2 - HTTP/2 C Library * * Copyright (c) 2012 Tatsuhiro Tsujikawa * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sublicense, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE * LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION * OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include "nghttp2_stream.h" #include #include #include "nghttp2_session.h" #include "nghttp2_helper.h" /* Maximum distance between any two stream's cycle in the same prirority queue. Imagine stream A's cycle is A, and stream B's cycle is B, and A < B. The cycle is unsigned 32 bit integer, it may get overflow. Because of how we calculate the next cycle value, if B - A is less than or equals to NGHTTP2_MAX_CYCLE_DISTANCE, A and B are in the same scale, in other words, B is really greater than or equal to A. Otherwise, A is a result of overflow, and it is actually A > B if we consider that fact. */ #define NGHTTP2_MAX_CYCLE_DISTANCE (16384 * 256 + 255) static int stream_less(const void *lhsx, const void *rhsx) { const nghttp2_stream *lhs, *rhs; lhs = nghttp2_struct_of(lhsx, nghttp2_stream, pq_entry); rhs = nghttp2_struct_of(rhsx, nghttp2_stream, pq_entry); if (lhs->cycle == rhs->cycle) { return lhs->seq < rhs->seq; } if (lhs->cycle < rhs->cycle) { return rhs->cycle - lhs->cycle <= NGHTTP2_MAX_CYCLE_DISTANCE; } return lhs->cycle - rhs->cycle > NGHTTP2_MAX_CYCLE_DISTANCE; } void nghttp2_stream_init(nghttp2_stream *stream, int32_t stream_id, uint8_t flags, nghttp2_stream_state initial_state, int32_t weight, int32_t remote_initial_window_size, int32_t local_initial_window_size, void *stream_user_data, nghttp2_mem *mem) { nghttp2_map_entry_init(&stream->map_entry, (key_type)stream_id); nghttp2_pq_init(&stream->obq, stream_less, mem); stream->stream_id = stream_id; stream->flags = flags; stream->state = initial_state; stream->shut_flags = NGHTTP2_SHUT_NONE; stream->stream_user_data = stream_user_data; stream->item = NULL; stream->remote_window_size = remote_initial_window_size; stream->local_window_size = local_initial_window_size; stream->recv_window_size = 0; stream->consumed_size = 0; stream->recv_reduction = 0; stream->window_update_queued = 0; stream->dep_prev = NULL; stream->dep_next = NULL; stream->sib_prev = NULL; stream->sib_next = NULL; stream->closed_prev = NULL; stream->closed_next = NULL; stream->weight = weight; stream->sum_dep_weight = 0; stream->http_flags = NGHTTP2_HTTP_FLAG_NONE; stream->content_length = -1; stream->recv_content_length = 0; stream->status_code = -1; stream->queued = 0; stream->descendant_last_cycle = 0; stream->cycle = 0; stream->pending_penalty = 0; stream->descendant_next_seq = 0; stream->seq = 0; stream->last_writelen = 0; } void nghttp2_stream_free(nghttp2_stream *stream) { nghttp2_pq_free(&stream->obq); /* We don't free stream->item. If it is assigned to aob, then active_outbound_item_reset() will delete it. Otherwise, nghttp2_stream_close() or session_del() will delete it. */ } void nghttp2_stream_shutdown(nghttp2_stream *stream, nghttp2_shut_flag flag) { stream->shut_flags = (uint8_t)(stream->shut_flags | flag); } /* * Returns nonzero if |stream| is active. This function does not take * into account its descendants. */ static int stream_active(nghttp2_stream *stream) { return stream->item && (stream->flags & NGHTTP2_STREAM_FLAG_DEFERRED_ALL) == 0; } /* * Returns nonzero if |stream| or one of its descendants is active */ static int stream_subtree_active(nghttp2_stream *stream) { return stream_active(stream) || !nghttp2_pq_empty(&stream->obq); } /* * Returns next cycle for |stream|. */ static void stream_next_cycle(nghttp2_stream *stream, uint32_t last_cycle) { uint32_t penalty; penalty = (uint32_t)stream->last_writelen * NGHTTP2_MAX_WEIGHT + stream->pending_penalty; stream->cycle = last_cycle + penalty / (uint32_t)stream->weight; stream->pending_penalty = penalty % (uint32_t)stream->weight; } static int stream_obq_push(nghttp2_stream *dep_stream, nghttp2_stream *stream) { int rv; for (; dep_stream && !stream->queued; stream = dep_stream, dep_stream = dep_stream->dep_prev) { stream_next_cycle(stream, dep_stream->descendant_last_cycle); stream->seq = dep_stream->descendant_next_seq++; DEBUGF("stream: stream=%d obq push cycle=%d\n", stream->stream_id, stream->cycle); DEBUGF("stream: push stream %d to stream %d\n", stream->stream_id, dep_stream->stream_id); rv = nghttp2_pq_push(&dep_stream->obq, &stream->pq_entry); if (rv != 0) { return rv; } stream->queued = 1; } return 0; } /* * Removes |stream| from parent's obq. If removal of |stream| makes * parent's obq empty, and parent is not active, then parent is also * removed. This process is repeated recursively. */ static void stream_obq_remove(nghttp2_stream *stream) { nghttp2_stream *dep_stream; dep_stream = stream->dep_prev; if (!stream->queued) { return; } for (; dep_stream; stream = dep_stream, dep_stream = dep_stream->dep_prev) { DEBUGF("stream: remove stream %d from stream %d\n", stream->stream_id, dep_stream->stream_id); nghttp2_pq_remove(&dep_stream->obq, &stream->pq_entry); assert(stream->queued); stream->queued = 0; stream->cycle = 0; stream->pending_penalty = 0; stream->descendant_last_cycle = 0; stream->last_writelen = 0; if (stream_subtree_active(dep_stream)) { return; } } } /* * Moves |stream| from |src|'s obq to |dest|'s obq. Removal from * |src|'s obq is just done calling nghttp2_pq_remove(), so it does * not recursively remove |src| and ancestors, like * stream_obq_remove(). */ static int stream_obq_move(nghttp2_stream *dest, nghttp2_stream *src, nghttp2_stream *stream) { if (!stream->queued) { return 0; } DEBUGF("stream: remove stream %d from stream %d (move)\n", stream->stream_id, src->stream_id); nghttp2_pq_remove(&src->obq, &stream->pq_entry); stream->queued = 0; return stream_obq_push(dest, stream); } void nghttp2_stream_reschedule(nghttp2_stream *stream) { nghttp2_stream *dep_stream; assert(stream->queued); dep_stream = stream->dep_prev; for (; dep_stream; stream = dep_stream, dep_stream = dep_stream->dep_prev) { nghttp2_pq_remove(&dep_stream->obq, &stream->pq_entry); stream_next_cycle(stream, dep_stream->descendant_last_cycle); stream->seq = dep_stream->descendant_next_seq++; nghttp2_pq_push(&dep_stream->obq, &stream->pq_entry); DEBUGF("stream: stream=%d obq resched cycle=%d\n", stream->stream_id, stream->cycle); dep_stream->last_writelen = stream->last_writelen; } } void nghttp2_stream_change_weight(nghttp2_stream *stream, int32_t weight) { nghttp2_stream *dep_stream; uint32_t last_cycle; int32_t old_weight; uint32_t wlen_penalty; if (stream->weight == weight) { return; } old_weight = stream->weight; stream->weight = weight; dep_stream = stream->dep_prev; if (!dep_stream) { return; } dep_stream->sum_dep_weight += weight - old_weight; if (!stream->queued) { return; } nghttp2_pq_remove(&dep_stream->obq, &stream->pq_entry); wlen_penalty = (uint32_t)stream->last_writelen * NGHTTP2_MAX_WEIGHT; /* Compute old stream->pending_penalty we used to calculate stream->cycle */ stream->pending_penalty = (uint32_t)((stream->pending_penalty + (uint32_t)old_weight - (wlen_penalty % (uint32_t)old_weight)) % (uint32_t)old_weight); last_cycle = stream->cycle - (wlen_penalty + stream->pending_penalty) / (uint32_t)old_weight; /* Now we have old stream->pending_penalty and new stream->weight in place */ stream_next_cycle(stream, last_cycle); if (stream->cycle < dep_stream->descendant_last_cycle && (dep_stream->descendant_last_cycle - stream->cycle) <= NGHTTP2_MAX_CYCLE_DISTANCE) { stream->cycle = dep_stream->descendant_last_cycle; } /* Continue to use same stream->seq */ nghttp2_pq_push(&dep_stream->obq, &stream->pq_entry); DEBUGF("stream: stream=%d obq resched cycle=%d\n", stream->stream_id, stream->cycle); } static nghttp2_stream *stream_last_sib(nghttp2_stream *stream) { for (; stream->sib_next; stream = stream->sib_next) ; return stream; } int32_t nghttp2_stream_dep_distributed_weight(nghttp2_stream *stream, int32_t weight) { weight = stream->weight * weight / stream->sum_dep_weight; return nghttp2_max(1, weight); } #ifdef STREAM_DEP_DEBUG static void ensure_inactive(nghttp2_stream *stream) { nghttp2_stream *si; if (stream->queued) { fprintf(stderr, "stream(%p)=%d, stream->queued = 1; want 0\n", stream, stream->stream_id); assert(0); } if (stream_active(stream)) { fprintf(stderr, "stream(%p)=%d, stream_active(stream) = 1; want 0\n", stream, stream->stream_id); assert(0); } if (!nghttp2_pq_empty(&stream->obq)) { fprintf(stderr, "stream(%p)=%d, nghttp2_pq_size() = %zu; want 0\n", stream, stream->stream_id, nghttp2_pq_size(&stream->obq)); assert(0); } for (si = stream->dep_next; si; si = si->sib_next) { ensure_inactive(si); } } static void check_queued(nghttp2_stream *stream) { nghttp2_stream *si; int queued; if (stream->queued) { if (!stream_subtree_active(stream)) { fprintf(stderr, "stream(%p)=%d, stream->queued == 1, but " "stream_active() == %d and nghttp2_pq_size(&stream->obq) = %zu\n", stream, stream->stream_id, stream_active(stream), nghttp2_pq_size(&stream->obq)); assert(0); } if (!stream_active(stream)) { queued = 0; for (si = stream->dep_next; si; si = si->sib_next) { if (si->queued) { ++queued; } } if (queued == 0) { fprintf(stderr, "stream(%p)=%d, stream->queued == 1, and " "!stream_active(), but no descendants is queued\n", stream, stream->stream_id); assert(0); } } for (si = stream->dep_next; si; si = si->sib_next) { check_queued(si); } } else { if (stream_active(stream) || !nghttp2_pq_empty(&stream->obq)) { fprintf(stderr, "stream(%p) = %d, stream->queued == 0, but " "stream_active(stream) == %d and " "nghttp2_pq_size(&stream->obq) = %zu\n", stream, stream->stream_id, stream_active(stream), nghttp2_pq_size(&stream->obq)); assert(0); } for (si = stream->dep_next; si; si = si->sib_next) { ensure_inactive(si); } } } static void check_sum_dep(nghttp2_stream *stream) { nghttp2_stream *si; int32_t n = 0; for (si = stream->dep_next; si; si = si->sib_next) { n += si->weight; } if (n != stream->sum_dep_weight) { fprintf(stderr, "stream(%p)=%d, sum_dep_weight = %d; want %d\n", stream, stream->stream_id, n, stream->sum_dep_weight); assert(0); } for (si = stream->dep_next; si; si = si->sib_next) { check_sum_dep(si); } } static void check_dep_prev(nghttp2_stream *stream) { nghttp2_stream *si; for (si = stream->dep_next; si; si = si->sib_next) { if (si->dep_prev != stream) { fprintf(stderr, "si->dep_prev = %p; want %p\n", si->dep_prev, stream); assert(0); } check_dep_prev(si); } } #endif /* STREAM_DEP_DEBUG */ #ifdef STREAM_DEP_DEBUG static void validate_tree(nghttp2_stream *stream) { nghttp2_stream *si; if (!stream) { return; } for (; stream->dep_prev; stream = stream->dep_prev) ; assert(stream->stream_id == 0); assert(!stream->queued); fprintf(stderr, "checking...\n"); if (nghttp2_pq_empty(&stream->obq)) { fprintf(stderr, "root obq empty\n"); for (si = stream->dep_next; si; si = si->sib_next) { ensure_inactive(si); } } else { for (si = stream->dep_next; si; si = si->sib_next) { check_queued(si); } } check_sum_dep(stream); check_dep_prev(stream); } #else /* !STREAM_DEP_DEBUG */ static void validate_tree(nghttp2_stream *stream _U_) {} #endif /* !STREAM_DEP_DEBUG*/ static int stream_update_dep_on_attach_item(nghttp2_stream *stream) { int rv; rv = stream_obq_push(stream->dep_prev, stream); if (rv != 0) { return rv; } validate_tree(stream); return 0; } static int stream_update_dep_on_detach_item(nghttp2_stream *stream) { if (nghttp2_pq_empty(&stream->obq)) { stream_obq_remove(stream); } validate_tree(stream); return 0; } int nghttp2_stream_attach_item(nghttp2_stream *stream, nghttp2_outbound_item *item) { int rv; assert((stream->flags & NGHTTP2_STREAM_FLAG_DEFERRED_ALL) == 0); assert(stream->item == NULL); DEBUGF("stream: stream=%d attach item=%p\n", stream->stream_id, item); stream->item = item; rv = stream_update_dep_on_attach_item(stream); if (rv != 0) { /* This may relave stream->queued == 1, but stream->item == NULL. But only consequence of this error is fatal one, and session destruction. In that execution path, these inconsistency does not matter. */ stream->item = NULL; return rv; } return 0; } int nghttp2_stream_detach_item(nghttp2_stream *stream) { DEBUGF("stream: stream=%d detach item=%p\n", stream->stream_id, stream->item); stream->item = NULL; stream->flags = (uint8_t)(stream->flags & ~NGHTTP2_STREAM_FLAG_DEFERRED_ALL); return stream_update_dep_on_detach_item(stream); } int nghttp2_stream_defer_item(nghttp2_stream *stream, uint8_t flags) { assert(stream->item); DEBUGF("stream: stream=%d defer item=%p cause=%02x\n", stream->stream_id, stream->item, flags); stream->flags |= flags; return stream_update_dep_on_detach_item(stream); } int nghttp2_stream_resume_deferred_item(nghttp2_stream *stream, uint8_t flags) { assert(stream->item); DEBUGF("stream: stream=%d resume item=%p flags=%02x\n", stream->stream_id, stream->item, flags); stream->flags = (uint8_t)(stream->flags & ~flags); if (stream->flags & NGHTTP2_STREAM_FLAG_DEFERRED_ALL) { return 0; } return stream_update_dep_on_attach_item(stream); } int nghttp2_stream_check_deferred_item(nghttp2_stream *stream) { return stream->item && (stream->flags & NGHTTP2_STREAM_FLAG_DEFERRED_ALL); } int nghttp2_stream_check_deferred_by_flow_control(nghttp2_stream *stream) { return stream->item && (stream->flags & NGHTTP2_STREAM_FLAG_DEFERRED_FLOW_CONTROL); } static int update_initial_window_size(int32_t *window_size_ptr, int32_t new_initial_window_size, int32_t old_initial_window_size) { int64_t new_window_size = (int64_t)(*window_size_ptr) + new_initial_window_size - old_initial_window_size; if (INT32_MIN > new_window_size || new_window_size > NGHTTP2_MAX_WINDOW_SIZE) { return -1; } *window_size_ptr = (int32_t)new_window_size; return 0; } int nghttp2_stream_update_remote_initial_window_size( nghttp2_stream *stream, int32_t new_initial_window_size, int32_t old_initial_window_size) { return update_initial_window_size(&stream->remote_window_size, new_initial_window_size, old_initial_window_size); } int nghttp2_stream_update_local_initial_window_size( nghttp2_stream *stream, int32_t new_initial_window_size, int32_t old_initial_window_size) { return update_initial_window_size(&stream->local_window_size, new_initial_window_size, old_initial_window_size); } void nghttp2_stream_promise_fulfilled(nghttp2_stream *stream) { stream->state = NGHTTP2_STREAM_OPENED; stream->flags = (uint8_t)(stream->flags & ~NGHTTP2_STREAM_FLAG_PUSH); } int nghttp2_stream_dep_find_ancestor(nghttp2_stream *stream, nghttp2_stream *target) { for (; stream; stream = stream->dep_prev) { if (stream == target) { return 1; } } return 0; } int nghttp2_stream_dep_insert(nghttp2_stream *dep_stream, nghttp2_stream *stream) { nghttp2_stream *si; int rv; DEBUGF("stream: dep_insert dep_stream(%p)=%d, stream(%p)=%d\n", dep_stream, dep_stream->stream_id, stream, stream->stream_id); stream->sum_dep_weight = dep_stream->sum_dep_weight; dep_stream->sum_dep_weight = stream->weight; if (dep_stream->dep_next) { for (si = dep_stream->dep_next; si; si = si->sib_next) { si->dep_prev = stream; if (si->queued) { rv = stream_obq_move(stream, dep_stream, si); if (rv != 0) { return rv; } } } if (stream_subtree_active(stream)) { rv = stream_obq_push(dep_stream, stream); if (rv != 0) { return rv; } } stream->dep_next = dep_stream->dep_next; } dep_stream->dep_next = stream; stream->dep_prev = dep_stream; validate_tree(stream); return 0; } static void set_dep_prev(nghttp2_stream *stream, nghttp2_stream *dep) { for (; stream; stream = stream->sib_next) { stream->dep_prev = dep; } } static void link_dep(nghttp2_stream *dep_stream, nghttp2_stream *stream) { dep_stream->dep_next = stream; if (stream) { stream->dep_prev = dep_stream; } } static void link_sib(nghttp2_stream *a, nghttp2_stream *b) { a->sib_next = b; if (b) { b->sib_prev = a; } } static void insert_link_dep(nghttp2_stream *dep_stream, nghttp2_stream *stream) { nghttp2_stream *sib_next; assert(stream->sib_prev == NULL); sib_next = dep_stream->dep_next; link_sib(stream, sib_next); link_dep(dep_stream, stream); } static void unlink_sib(nghttp2_stream *stream) { nghttp2_stream *prev, *next, *dep_next; prev = stream->sib_prev; dep_next = stream->dep_next; assert(prev); if (dep_next) { /* * prev--stream(--sib_next--...) * | * dep_next */ link_sib(prev, dep_next); set_dep_prev(dep_next, stream->dep_prev); if (stream->sib_next) { link_sib(stream_last_sib(dep_next), stream->sib_next); } } else { /* * prev--stream(--sib_next--...) */ next = stream->sib_next; prev->sib_next = next; if (next) { next->sib_prev = prev; } } } static void unlink_dep(nghttp2_stream *stream) { nghttp2_stream *prev, *next, *dep_next; prev = stream->dep_prev; dep_next = stream->dep_next; assert(prev); if (dep_next) { /* * prev * | * stream(--sib_next--...) * | * dep_next */ link_dep(prev, dep_next); set_dep_prev(dep_next, stream->dep_prev); if (stream->sib_next) { link_sib(stream_last_sib(dep_next), stream->sib_next); } } else if (stream->sib_next) { /* * prev * | * stream--sib_next */ next = stream->sib_next; next->sib_prev = NULL; link_dep(prev, next); } else { prev->dep_next = NULL; } } void nghttp2_stream_dep_add(nghttp2_stream *dep_stream, nghttp2_stream *stream) { DEBUGF("stream: dep_add dep_stream(%p)=%d, stream(%p)=%d\n", dep_stream, dep_stream->stream_id, stream, stream->stream_id); dep_stream->sum_dep_weight += stream->weight; if (dep_stream->dep_next == NULL) { link_dep(dep_stream, stream); } else { insert_link_dep(dep_stream, stream); } validate_tree(stream); } int nghttp2_stream_dep_remove(nghttp2_stream *stream) { nghttp2_stream *dep_prev, *si; int32_t sum_dep_weight_delta; int rv; DEBUGF("stream: dep_remove stream(%p)=%d\n", stream, stream->stream_id); /* Distribute weight of |stream| to direct descendants */ sum_dep_weight_delta = -stream->weight; for (si = stream->dep_next; si; si = si->sib_next) { si->weight = nghttp2_stream_dep_distributed_weight(stream, si->weight); sum_dep_weight_delta += si->weight; if (si->queued) { rv = stream_obq_move(stream->dep_prev, stream, si); if (rv != 0) { return rv; } } } assert(stream->dep_prev); dep_prev = stream->dep_prev; dep_prev->sum_dep_weight += sum_dep_weight_delta; if (stream->queued) { stream_obq_remove(stream); } if (stream->sib_prev) { unlink_sib(stream); } else { unlink_dep(stream); } stream->sum_dep_weight = 0; stream->dep_prev = NULL; stream->dep_next = NULL; stream->sib_prev = NULL; stream->sib_next = NULL; validate_tree(dep_prev); return 0; } int nghttp2_stream_dep_insert_subtree(nghttp2_stream *dep_stream, nghttp2_stream *stream) { nghttp2_stream *last_sib; nghttp2_stream *dep_next; nghttp2_stream *si; int rv; DEBUGF("stream: dep_insert_subtree dep_stream(%p)=%d " "stream(%p)=%d\n", dep_stream, dep_stream->stream_id, stream, stream->stream_id); stream->sum_dep_weight += dep_stream->sum_dep_weight; dep_stream->sum_dep_weight = stream->weight; if (dep_stream->dep_next) { dep_next = dep_stream->dep_next; link_dep(dep_stream, stream); if (stream->dep_next) { last_sib = stream_last_sib(stream->dep_next); link_sib(last_sib, dep_next); } else { link_dep(stream, dep_next); } for (si = dep_next; si; si = si->sib_next) { si->dep_prev = stream; if (si->queued) { rv = stream_obq_move(stream, dep_stream, si); if (rv != 0) { return rv; } } } } else { link_dep(dep_stream, stream); } if (stream_subtree_active(stream)) { rv = stream_obq_push(dep_stream, stream); if (rv != 0) { return rv; } } validate_tree(dep_stream); return 0; } int nghttp2_stream_dep_add_subtree(nghttp2_stream *dep_stream, nghttp2_stream *stream) { int rv; DEBUGF("stream: dep_add_subtree dep_stream(%p)=%d " "stream(%p)=%d\n", dep_stream, dep_stream->stream_id, stream, stream->stream_id); dep_stream->sum_dep_weight += stream->weight; if (dep_stream->dep_next) { insert_link_dep(dep_stream, stream); } else { link_dep(dep_stream, stream); } if (stream_subtree_active(stream)) { rv = stream_obq_push(dep_stream, stream); if (rv != 0) { return rv; } } validate_tree(dep_stream); return 0; } void nghttp2_stream_dep_remove_subtree(nghttp2_stream *stream) { nghttp2_stream *next, *dep_prev; DEBUGF("stream: dep_remove_subtree stream(%p)=%d\n", stream, stream->stream_id); assert(stream->dep_prev); dep_prev = stream->dep_prev; if (stream->sib_prev) { link_sib(stream->sib_prev, stream->sib_next); } else { next = stream->sib_next; link_dep(dep_prev, next); if (next) { next->sib_prev = NULL; } } dep_prev->sum_dep_weight -= stream->weight; if (stream->queued) { stream_obq_remove(stream); } validate_tree(dep_prev); stream->sib_prev = NULL; stream->sib_next = NULL; stream->dep_prev = NULL; } int nghttp2_stream_in_dep_tree(nghttp2_stream *stream) { return stream->dep_prev || stream->dep_next || stream->sib_prev || stream->sib_next; } nghttp2_outbound_item * nghttp2_stream_next_outbound_item(nghttp2_stream *stream) { nghttp2_pq_entry *ent; nghttp2_stream *si; for (;;) { if (stream_active(stream)) { /* Update ascendant's descendant_last_cycle here, so that we can assure that new stream is scheduled based on it. */ for (si = stream; si->dep_prev; si = si->dep_prev) { si->dep_prev->descendant_last_cycle = si->cycle; } return stream->item; } ent = nghttp2_pq_top(&stream->obq); if (!ent) { return NULL; } stream = nghttp2_struct_of(ent, nghttp2_stream, pq_entry); } } nghttp2_stream_proto_state nghttp2_stream_get_state(nghttp2_stream *stream) { if (stream->flags & NGHTTP2_STREAM_FLAG_CLOSED) { return NGHTTP2_STREAM_STATE_CLOSED; } if (stream->flags & NGHTTP2_STREAM_FLAG_PUSH) { if (stream->shut_flags & NGHTTP2_SHUT_RD) { return NGHTTP2_STREAM_STATE_RESERVED_LOCAL; } if (stream->shut_flags & NGHTTP2_SHUT_WR) { return NGHTTP2_STREAM_STATE_RESERVED_REMOTE; } } if (stream->shut_flags & NGHTTP2_SHUT_RD) { return NGHTTP2_STREAM_STATE_HALF_CLOSED_REMOTE; } if (stream->shut_flags & NGHTTP2_SHUT_WR) { return NGHTTP2_STREAM_STATE_HALF_CLOSED_LOCAL; } if (stream->state == NGHTTP2_STREAM_IDLE) { return NGHTTP2_STREAM_STATE_IDLE; } return NGHTTP2_STREAM_STATE_OPEN; } nghttp2_stream *nghttp2_stream_get_parent(nghttp2_stream *stream) { return stream->dep_prev; } nghttp2_stream *nghttp2_stream_get_next_sibling(nghttp2_stream *stream) { return stream->sib_next; } nghttp2_stream *nghttp2_stream_get_previous_sibling(nghttp2_stream *stream) { return stream->sib_prev; } nghttp2_stream *nghttp2_stream_get_first_child(nghttp2_stream *stream) { return stream->dep_next; } int32_t nghttp2_stream_get_weight(nghttp2_stream *stream) { return stream->weight; } int32_t nghttp2_stream_get_sum_dependency_weight(nghttp2_stream *stream) { return stream->sum_dep_weight; } int32_t nghttp2_stream_get_stream_id(nghttp2_stream *stream) { return stream->stream_id; }