diff options
author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-25 04:41:28 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-25 04:41:28 +0000 |
commit | 2eeb62e38ae17a3523ad3cd81c3de9f20f9e7742 (patch) | |
tree | fe91033d4712f6d836006b998525656b9dd193b8 /debian/patches/import-http2-module-from-2.4.46.patch | |
parent | Merging upstream version 2.4.59. (diff) | |
download | apache2-2eeb62e38ae17a3523ad3cd81c3de9f20f9e7742.tar.xz apache2-2eeb62e38ae17a3523ad3cd81c3de9f20f9e7742.zip |
Adding debian version 2.4.59-1~deb10u1.debian/2.4.59-1_deb10u1debian
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'debian/patches/import-http2-module-from-2.4.46.patch')
-rw-r--r-- | debian/patches/import-http2-module-from-2.4.46.patch | 7588 |
1 files changed, 0 insertions, 7588 deletions
diff --git a/debian/patches/import-http2-module-from-2.4.46.patch b/debian/patches/import-http2-module-from-2.4.46.patch deleted file mode 100644 index cdca37d..0000000 --- a/debian/patches/import-http2-module-from-2.4.46.patch +++ /dev/null @@ -1,7588 +0,0 @@ -Description: import http2 module from 2.4.41 - There are too many changes in http2 module to distiguish CVE-2019-9517, - CVE-2019-10082 and CVE-2019-10081 changes. -Author: Apache authors -Bug: https://security-tracker.debian.org/tracker/CVE-2019-9517 - https://security-tracker.debian.org/tracker/CVE-2019-10082 - https://security-tracker.debian.org/tracker/CVE-2019-10081 - https://security-tracker.debian.org/tracker/CVE-2020-9490 - https://security-tracker.debian.org/tracker/CVE-2020-11993 -Forwarded: not-needed -Reviewed-By: Xavier Guimard <yadd@debian.org> -Last-Update: 2020-08-25 - ---- a/modules/http2/config2.m4 -+++ b/modules/http2/config2.m4 -@@ -31,7 +31,6 @@ - h2_h2.lo dnl - h2_headers.lo dnl - h2_mplx.lo dnl --h2_ngn_shed.lo dnl - h2_push.lo dnl - h2_request.lo dnl - h2_session.lo dnl ---- a/modules/http2/h2.h -+++ b/modules/http2/h2.h -@@ -48,12 +48,12 @@ - #define H2_HEADER_PATH_LEN 5 - #define H2_CRLF "\r\n" - --/* Max data size to write so it fits inside a TLS record */ --#define H2_DATA_CHUNK_SIZE ((16*1024) - 100 - 9) -- - /* Size of the frame header itself in HTTP/2 */ - #define H2_FRAME_HDR_LEN 9 - -+/* Max data size to write so it fits inside a TLS record */ -+#define H2_DATA_CHUNK_SIZE ((16*1024) - 100 - H2_FRAME_HDR_LEN) -+ - /* Maximum number of padding bytes in a frame, rfc7540 */ - #define H2_MAX_PADLEN 256 - /* Initial default window size, RFC 7540 ch. 6.5.2 */ -@@ -138,7 +138,7 @@ - apr_table_t *headers; - - apr_time_t request_time; -- unsigned int chunked : 1; /* iff requst body needs to be forwarded as chunked */ -+ unsigned int chunked : 1; /* iff request body needs to be forwarded as chunked */ - unsigned int serialize : 1; /* iff this request is written in HTTP/1.1 serialization */ - apr_off_t raw_bytes; /* RAW network bytes that generated this request - if known. */ - }; -@@ -162,5 +162,6 @@ - #define H2_FILTER_DEBUG_NOTE "http2-debug" - #define H2_HDR_CONFORMANCE "http2-hdr-conformance" - #define H2_HDR_CONFORMANCE_UNSAFE "unsafe" -+#define H2_PUSH_MODE_NOTE "http2-push-mode" - - #endif /* defined(__mod_h2__h2__) */ ---- a/modules/http2/h2_alt_svc.c -+++ b/modules/http2/h2_alt_svc.c -@@ -75,7 +75,7 @@ - - static int h2_alt_svc_handler(request_rec *r) - { -- const h2_config *cfg; -+ apr_array_header_t *alt_svcs; - int i; - - if (r->connection->keepalives > 0) { -@@ -87,8 +87,8 @@ - return DECLINED; - } - -- cfg = h2_config_sget(r->server); -- if (r->hostname && cfg && cfg->alt_svcs && cfg->alt_svcs->nelts > 0) { -+ alt_svcs = h2_config_alt_svcs(r); -+ if (r->hostname && alt_svcs && alt_svcs->nelts > 0) { - const char *alt_svc_used = apr_table_get(r->headers_in, "Alt-Svc-Used"); - if (!alt_svc_used) { - /* We have alt-svcs defined and client is not already using -@@ -99,7 +99,7 @@ - const char *alt_svc = ""; - const char *svc_ma = ""; - int secure = h2_h2_is_tls(r->connection); -- int ma = h2_config_geti(cfg, H2_CONF_ALT_SVC_MAX_AGE); -+ int ma = h2_config_rgeti(r, H2_CONF_ALT_SVC_MAX_AGE); - if (ma >= 0) { - svc_ma = apr_psprintf(r->pool, "; ma=%d", ma); - } -@@ -107,8 +107,8 @@ - "h2_alt_svc: announce %s for %s:%d", - (secure? "secure" : "insecure"), - r->hostname, (int)r->server->port); -- for (i = 0; i < cfg->alt_svcs->nelts; ++i) { -- h2_alt_svc *as = h2_alt_svc_IDX(cfg->alt_svcs, i); -+ for (i = 0; i < alt_svcs->nelts; ++i) { -+ h2_alt_svc *as = h2_alt_svc_IDX(alt_svcs, i); - const char *ahost = as->host; - if (ahost && !apr_strnatcasecmp(ahost, r->hostname)) { - ahost = NULL; ---- a/modules/http2/h2_bucket_beam.c -+++ b/modules/http2/h2_bucket_beam.c -@@ -196,7 +196,7 @@ - * bucket beam that can transport buckets across threads - ******************************************************************************/ - --static void mutex_leave(void *ctx, apr_thread_mutex_t *lock) -+static void mutex_leave(apr_thread_mutex_t *lock) - { - apr_thread_mutex_unlock(lock); - } -@@ -217,7 +217,7 @@ - static void leave_yellow(h2_bucket_beam *beam, h2_beam_lock *pbl) - { - if (pbl->leave) { -- pbl->leave(pbl->leave_ctx, pbl->mutex); -+ pbl->leave(pbl->mutex); - } - } - ---- a/modules/http2/h2_bucket_beam.h -+++ b/modules/http2/h2_bucket_beam.h -@@ -126,12 +126,11 @@ - * buffers until the transmission is complete. Star gates use a similar trick. - */ - --typedef void h2_beam_mutex_leave(void *ctx, struct apr_thread_mutex_t *lock); -+typedef void h2_beam_mutex_leave(struct apr_thread_mutex_t *lock); - - typedef struct { - apr_thread_mutex_t *mutex; - h2_beam_mutex_leave *leave; -- void *leave_ctx; - } h2_beam_lock; - - typedef struct h2_bucket_beam h2_bucket_beam; ---- a/modules/http2/h2_config.c -+++ b/modules/http2/h2_config.c -@@ -42,6 +42,55 @@ - #define H2_CONFIG_GET(a, b, n) \ - (((a)->n == DEF_VAL)? (b) : (a))->n - -+#define H2_CONFIG_SET(a, n, v) \ -+ ((a)->n = v) -+ -+#define CONFIG_CMD_SET(cmd,dir,var,val) \ -+ h2_config_seti(((cmd)->path? (dir) : NULL), h2_config_sget((cmd)->server), var, val) -+ -+#define CONFIG_CMD_SET64(cmd,dir,var,val) \ -+ h2_config_seti64(((cmd)->path? (dir) : NULL), h2_config_sget((cmd)->server), var, val) -+ -+/* Apache httpd module configuration for h2. */ -+typedef struct h2_config { -+ const char *name; -+ int h2_max_streams; /* max concurrent # streams (http2) */ -+ int h2_window_size; /* stream window size (http2) */ -+ int min_workers; /* min # of worker threads/child */ -+ int max_workers; /* max # of worker threads/child */ -+ int max_worker_idle_secs; /* max # of idle seconds for worker */ -+ int stream_max_mem_size; /* max # bytes held in memory/stream */ -+ apr_array_header_t *alt_svcs; /* h2_alt_svc specs for this server */ -+ int alt_svc_max_age; /* seconds clients can rely on alt-svc info*/ -+ int serialize_headers; /* Use serialized HTTP/1.1 headers for -+ processing, better compatibility */ -+ int h2_direct; /* if mod_h2 is active directly */ -+ int modern_tls_only; /* Accept only modern TLS in HTTP/2 connections */ -+ int h2_upgrade; /* Allow HTTP/1 upgrade to h2/h2c */ -+ apr_int64_t tls_warmup_size; /* Amount of TLS data to send before going full write size */ -+ int tls_cooldown_secs; /* Seconds of idle time before going back to small TLS records */ -+ int h2_push; /* if HTTP/2 server push is enabled */ -+ struct apr_hash_t *priorities;/* map of content-type to h2_priority records */ -+ -+ int push_diary_size; /* # of entries in push diary */ -+ int copy_files; /* if files shall be copied vs setaside on output */ -+ apr_array_header_t *push_list;/* list of h2_push_res configurations */ -+ int early_hints; /* support status code 103 */ -+ int padding_bits; -+ int padding_always; -+} h2_config; -+ -+typedef struct h2_dir_config { -+ const char *name; -+ apr_array_header_t *alt_svcs; /* h2_alt_svc specs for this server */ -+ int alt_svc_max_age; /* seconds clients can rely on alt-svc info*/ -+ int h2_upgrade; /* Allow HTTP/1 upgrade to h2/h2c */ -+ int h2_push; /* if HTTP/2 server push is enabled */ -+ apr_array_header_t *push_list;/* list of h2_push_res configurations */ -+ int early_hints; /* support status code 103 */ -+} h2_dir_config; -+ -+ - static h2_config defconf = { - "default", - 100, /* max_streams */ -@@ -64,6 +113,18 @@ - 0, /* copy files across threads */ - NULL, /* push list */ - 0, /* early hints, http status 103 */ -+ 0, /* padding bits */ -+ 1, /* padding always */ -+}; -+ -+static h2_dir_config defdconf = { -+ "default", -+ NULL, /* no alt-svcs */ -+ -1, /* alt-svc max age */ -+ -1, /* HTTP/1 Upgrade support */ -+ -1, /* HTTP/2 server push enabled */ -+ NULL, /* push list */ -+ -1, /* early hints, http status 103 */ - }; - - void h2_config_init(apr_pool_t *pool) -@@ -71,12 +132,10 @@ - (void)pool; - } - --static void *h2_config_create(apr_pool_t *pool, -- const char *prefix, const char *x) -+void *h2_config_create_svr(apr_pool_t *pool, server_rec *s) - { - h2_config *conf = (h2_config *)apr_pcalloc(pool, sizeof(h2_config)); -- const char *s = x? x : "unknown"; -- char *name = apr_pstrcat(pool, prefix, "[", s, "]", NULL); -+ char *name = apr_pstrcat(pool, "srv[", s->defn_name, "]", NULL); - - conf->name = name; - conf->h2_max_streams = DEF_VAL; -@@ -98,19 +157,11 @@ - conf->copy_files = DEF_VAL; - conf->push_list = NULL; - conf->early_hints = DEF_VAL; -+ conf->padding_bits = DEF_VAL; -+ conf->padding_always = DEF_VAL; - return conf; - } - --void *h2_config_create_svr(apr_pool_t *pool, server_rec *s) --{ -- return h2_config_create(pool, "srv", s->defn_name); --} -- --void *h2_config_create_dir(apr_pool_t *pool, char *x) --{ -- return h2_config_create(pool, "dir", x); --} -- - static void *h2_config_merge(apr_pool_t *pool, void *basev, void *addv) - { - h2_config *base = (h2_config *)basev; -@@ -149,25 +200,52 @@ - n->push_list = add->push_list? add->push_list : base->push_list; - } - n->early_hints = H2_CONFIG_GET(add, base, early_hints); -+ n->padding_bits = H2_CONFIG_GET(add, base, padding_bits); -+ n->padding_always = H2_CONFIG_GET(add, base, padding_always); - return n; - } - --void *h2_config_merge_dir(apr_pool_t *pool, void *basev, void *addv) -+void *h2_config_merge_svr(apr_pool_t *pool, void *basev, void *addv) - { - return h2_config_merge(pool, basev, addv); - } - --void *h2_config_merge_svr(apr_pool_t *pool, void *basev, void *addv) -+void *h2_config_create_dir(apr_pool_t *pool, char *x) - { -- return h2_config_merge(pool, basev, addv); -+ h2_dir_config *conf = (h2_dir_config *)apr_pcalloc(pool, sizeof(h2_dir_config)); -+ const char *s = x? x : "unknown"; -+ char *name = apr_pstrcat(pool, "dir[", s, "]", NULL); -+ -+ conf->name = name; -+ conf->alt_svc_max_age = DEF_VAL; -+ conf->h2_upgrade = DEF_VAL; -+ conf->h2_push = DEF_VAL; -+ conf->early_hints = DEF_VAL; -+ return conf; - } - --int h2_config_geti(const h2_config *conf, h2_config_var_t var) -+void *h2_config_merge_dir(apr_pool_t *pool, void *basev, void *addv) - { -- return (int)h2_config_geti64(conf, var); -+ h2_dir_config *base = (h2_dir_config *)basev; -+ h2_dir_config *add = (h2_dir_config *)addv; -+ h2_dir_config *n = (h2_dir_config *)apr_pcalloc(pool, sizeof(h2_dir_config)); -+ -+ n->name = apr_pstrcat(pool, "merged[", add->name, ", ", base->name, "]", NULL); -+ n->alt_svcs = add->alt_svcs? add->alt_svcs : base->alt_svcs; -+ n->alt_svc_max_age = H2_CONFIG_GET(add, base, alt_svc_max_age); -+ n->h2_upgrade = H2_CONFIG_GET(add, base, h2_upgrade); -+ n->h2_push = H2_CONFIG_GET(add, base, h2_push); -+ if (add->push_list && base->push_list) { -+ n->push_list = apr_array_append(pool, base->push_list, add->push_list); -+ } -+ else { -+ n->push_list = add->push_list? add->push_list : base->push_list; -+ } -+ n->early_hints = H2_CONFIG_GET(add, base, early_hints); -+ return n; - } - --apr_int64_t h2_config_geti64(const h2_config *conf, h2_config_var_t var) -+static apr_int64_t h2_srv_config_geti64(const h2_config *conf, h2_config_var_t var) - { - switch(var) { - case H2_CONF_MAX_STREAMS: -@@ -204,12 +282,93 @@ - return H2_CONFIG_GET(conf, &defconf, copy_files); - case H2_CONF_EARLY_HINTS: - return H2_CONFIG_GET(conf, &defconf, early_hints); -+ case H2_CONF_PADDING_BITS: -+ return H2_CONFIG_GET(conf, &defconf, padding_bits); -+ case H2_CONF_PADDING_ALWAYS: -+ return H2_CONFIG_GET(conf, &defconf, padding_always); - default: - return DEF_VAL; - } - } - --const h2_config *h2_config_sget(server_rec *s) -+static void h2_srv_config_seti(h2_config *conf, h2_config_var_t var, int val) -+{ -+ switch(var) { -+ case H2_CONF_MAX_STREAMS: -+ H2_CONFIG_SET(conf, h2_max_streams, val); -+ break; -+ case H2_CONF_WIN_SIZE: -+ H2_CONFIG_SET(conf, h2_window_size, val); -+ break; -+ case H2_CONF_MIN_WORKERS: -+ H2_CONFIG_SET(conf, min_workers, val); -+ break; -+ case H2_CONF_MAX_WORKERS: -+ H2_CONFIG_SET(conf, max_workers, val); -+ break; -+ case H2_CONF_MAX_WORKER_IDLE_SECS: -+ H2_CONFIG_SET(conf, max_worker_idle_secs, val); -+ break; -+ case H2_CONF_STREAM_MAX_MEM: -+ H2_CONFIG_SET(conf, stream_max_mem_size, val); -+ break; -+ case H2_CONF_ALT_SVC_MAX_AGE: -+ H2_CONFIG_SET(conf, alt_svc_max_age, val); -+ break; -+ case H2_CONF_SER_HEADERS: -+ H2_CONFIG_SET(conf, serialize_headers, val); -+ break; -+ case H2_CONF_MODERN_TLS_ONLY: -+ H2_CONFIG_SET(conf, modern_tls_only, val); -+ break; -+ case H2_CONF_UPGRADE: -+ H2_CONFIG_SET(conf, h2_upgrade, val); -+ break; -+ case H2_CONF_DIRECT: -+ H2_CONFIG_SET(conf, h2_direct, val); -+ break; -+ case H2_CONF_TLS_WARMUP_SIZE: -+ H2_CONFIG_SET(conf, tls_warmup_size, val); -+ break; -+ case H2_CONF_TLS_COOLDOWN_SECS: -+ H2_CONFIG_SET(conf, tls_cooldown_secs, val); -+ break; -+ case H2_CONF_PUSH: -+ H2_CONFIG_SET(conf, h2_push, val); -+ break; -+ case H2_CONF_PUSH_DIARY_SIZE: -+ H2_CONFIG_SET(conf, push_diary_size, val); -+ break; -+ case H2_CONF_COPY_FILES: -+ H2_CONFIG_SET(conf, copy_files, val); -+ break; -+ case H2_CONF_EARLY_HINTS: -+ H2_CONFIG_SET(conf, early_hints, val); -+ break; -+ case H2_CONF_PADDING_BITS: -+ H2_CONFIG_SET(conf, padding_bits, val); -+ break; -+ case H2_CONF_PADDING_ALWAYS: -+ H2_CONFIG_SET(conf, padding_always, val); -+ break; -+ default: -+ break; -+ } -+} -+ -+static void h2_srv_config_seti64(h2_config *conf, h2_config_var_t var, apr_int64_t val) -+{ -+ switch(var) { -+ case H2_CONF_TLS_WARMUP_SIZE: -+ H2_CONFIG_SET(conf, tls_warmup_size, val); -+ break; -+ default: -+ h2_srv_config_seti(conf, var, (int)val); -+ break; -+ } -+} -+ -+static h2_config *h2_config_sget(server_rec *s) - { - h2_config *cfg = (h2_config *)ap_get_module_config(s->module_config, - &http2_module); -@@ -217,9 +376,162 @@ - return cfg; - } - --const struct h2_priority *h2_config_get_priority(const h2_config *conf, -- const char *content_type) -+static const h2_dir_config *h2_config_rget(request_rec *r) -+{ -+ h2_dir_config *cfg = (h2_dir_config *)ap_get_module_config(r->per_dir_config, -+ &http2_module); -+ ap_assert(cfg); -+ return cfg; -+} -+ -+static apr_int64_t h2_dir_config_geti64(const h2_dir_config *conf, h2_config_var_t var) -+{ -+ switch(var) { -+ case H2_CONF_ALT_SVC_MAX_AGE: -+ return H2_CONFIG_GET(conf, &defdconf, alt_svc_max_age); -+ case H2_CONF_UPGRADE: -+ return H2_CONFIG_GET(conf, &defdconf, h2_upgrade); -+ case H2_CONF_PUSH: -+ return H2_CONFIG_GET(conf, &defdconf, h2_push); -+ case H2_CONF_EARLY_HINTS: -+ return H2_CONFIG_GET(conf, &defdconf, early_hints); -+ -+ default: -+ return DEF_VAL; -+ } -+} -+ -+static void h2_config_seti(h2_dir_config *dconf, h2_config *conf, h2_config_var_t var, int val) -+{ -+ int set_srv = !dconf; -+ if (dconf) { -+ switch(var) { -+ case H2_CONF_ALT_SVC_MAX_AGE: -+ H2_CONFIG_SET(dconf, alt_svc_max_age, val); -+ break; -+ case H2_CONF_UPGRADE: -+ H2_CONFIG_SET(dconf, h2_upgrade, val); -+ break; -+ case H2_CONF_PUSH: -+ H2_CONFIG_SET(dconf, h2_push, val); -+ break; -+ case H2_CONF_EARLY_HINTS: -+ H2_CONFIG_SET(dconf, early_hints, val); -+ break; -+ default: -+ /* not handled in dir_conf */ -+ set_srv = 1; -+ break; -+ } -+ } -+ -+ if (set_srv) { -+ h2_srv_config_seti(conf, var, val); -+ } -+} -+ -+static void h2_config_seti64(h2_dir_config *dconf, h2_config *conf, h2_config_var_t var, apr_int64_t val) - { -+ int set_srv = !dconf; -+ if (dconf) { -+ switch(var) { -+ default: -+ /* not handled in dir_conf */ -+ set_srv = 1; -+ break; -+ } -+ } -+ -+ if (set_srv) { -+ h2_srv_config_seti64(conf, var, val); -+ } -+} -+ -+static const h2_config *h2_config_get(conn_rec *c) -+{ -+ h2_ctx *ctx = h2_ctx_get(c, 0); -+ -+ if (ctx) { -+ if (ctx->config) { -+ return ctx->config; -+ } -+ else if (ctx->server) { -+ ctx->config = h2_config_sget(ctx->server); -+ return ctx->config; -+ } -+ } -+ -+ return h2_config_sget(c->base_server); -+} -+ -+int h2_config_cgeti(conn_rec *c, h2_config_var_t var) -+{ -+ return (int)h2_srv_config_geti64(h2_config_get(c), var); -+} -+ -+apr_int64_t h2_config_cgeti64(conn_rec *c, h2_config_var_t var) -+{ -+ return h2_srv_config_geti64(h2_config_get(c), var); -+} -+ -+int h2_config_sgeti(server_rec *s, h2_config_var_t var) -+{ -+ return (int)h2_srv_config_geti64(h2_config_sget(s), var); -+} -+ -+apr_int64_t h2_config_sgeti64(server_rec *s, h2_config_var_t var) -+{ -+ return h2_srv_config_geti64(h2_config_sget(s), var); -+} -+ -+int h2_config_geti(request_rec *r, server_rec *s, h2_config_var_t var) -+{ -+ return (int)h2_config_geti64(r, s, var); -+} -+ -+apr_int64_t h2_config_geti64(request_rec *r, server_rec *s, h2_config_var_t var) -+{ -+ apr_int64_t mode = r? (int)h2_dir_config_geti64(h2_config_rget(r), var) : DEF_VAL; -+ return (mode != DEF_VAL)? mode : h2_config_sgeti64(s, var); -+} -+ -+int h2_config_rgeti(request_rec *r, h2_config_var_t var) -+{ -+ return h2_config_geti(r, r->server, var); -+} -+ -+apr_int64_t h2_config_rgeti64(request_rec *r, h2_config_var_t var) -+{ -+ return h2_config_geti64(r, r->server, var); -+} -+ -+apr_array_header_t *h2_config_push_list(request_rec *r) -+{ -+ const h2_config *sconf; -+ const h2_dir_config *conf = h2_config_rget(r); -+ -+ if (conf && conf->push_list) { -+ return conf->push_list; -+ } -+ sconf = h2_config_sget(r->server); -+ return sconf? sconf->push_list : NULL; -+} -+ -+apr_array_header_t *h2_config_alt_svcs(request_rec *r) -+{ -+ const h2_config *sconf; -+ const h2_dir_config *conf = h2_config_rget(r); -+ -+ if (conf && conf->alt_svcs) { -+ return conf->alt_svcs; -+ } -+ sconf = h2_config_sget(r->server); -+ return sconf? sconf->alt_svcs : NULL; -+} -+ -+const struct h2_priority *h2_cconfig_get_priority(conn_rec *c, const char *content_type) -+{ -+ const h2_config *conf = h2_config_get(c); - if (content_type && conf->priorities) { - size_t len = strcspn(content_type, "; \t"); - h2_priority *prio = apr_hash_get(conf->priorities, content_type, len); -@@ -228,166 +540,156 @@ - return NULL; - } - --static const char *h2_conf_set_max_streams(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_max_streams(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); -- cfg->h2_max_streams = (int)apr_atoi64(value); -- (void)arg; -- if (cfg->h2_max_streams < 1) { -+ apr_int64_t ival = (int)apr_atoi64(value); -+ if (ival < 1) { - return "value must be > 0"; - } -+ CONFIG_CMD_SET64(cmd, dirconf, H2_CONF_MAX_STREAMS, ival); - return NULL; - } - --static const char *h2_conf_set_window_size(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_window_size(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); -- cfg->h2_window_size = (int)apr_atoi64(value); -- (void)arg; -- if (cfg->h2_window_size < 1024) { -+ int val = (int)apr_atoi64(value); -+ if (val < 1024) { - return "value must be >= 1024"; - } -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_WIN_SIZE, val); - return NULL; - } - --static const char *h2_conf_set_min_workers(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_min_workers(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); -- cfg->min_workers = (int)apr_atoi64(value); -- (void)arg; -- if (cfg->min_workers < 1) { -+ int val = (int)apr_atoi64(value); -+ if (val < 1) { - return "value must be > 0"; - } -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_MIN_WORKERS, val); - return NULL; - } - --static const char *h2_conf_set_max_workers(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_max_workers(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); -- cfg->max_workers = (int)apr_atoi64(value); -- (void)arg; -- if (cfg->max_workers < 1) { -+ int val = (int)apr_atoi64(value); -+ if (val < 1) { - return "value must be > 0"; - } -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_MAX_WORKERS, val); - return NULL; - } - --static const char *h2_conf_set_max_worker_idle_secs(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_max_worker_idle_secs(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); -- cfg->max_worker_idle_secs = (int)apr_atoi64(value); -- (void)arg; -- if (cfg->max_worker_idle_secs < 1) { -+ int val = (int)apr_atoi64(value); -+ if (val < 1) { - return "value must be > 0"; - } -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_MAX_WORKER_IDLE_SECS, val); - return NULL; - } - --static const char *h2_conf_set_stream_max_mem_size(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_stream_max_mem_size(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); -- -- -- cfg->stream_max_mem_size = (int)apr_atoi64(value); -- (void)arg; -- if (cfg->stream_max_mem_size < 1024) { -+ int val = (int)apr_atoi64(value); -+ if (val < 1024) { - return "value must be >= 1024"; - } -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_STREAM_MAX_MEM, val); - return NULL; - } - --static const char *h2_add_alt_svc(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_add_alt_svc(cmd_parms *cmd, -+ void *dirconf, const char *value) - { - if (value && *value) { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); -- h2_alt_svc *as = h2_alt_svc_parse(value, parms->pool); -+ h2_alt_svc *as = h2_alt_svc_parse(value, cmd->pool); - if (!as) { - return "unable to parse alt-svc specifier"; - } -- if (!cfg->alt_svcs) { -- cfg->alt_svcs = apr_array_make(parms->pool, 5, sizeof(h2_alt_svc*)); -+ -+ if (cmd->path) { -+ h2_dir_config *dcfg = (h2_dir_config *)dirconf; -+ if (!dcfg->alt_svcs) { -+ dcfg->alt_svcs = apr_array_make(cmd->pool, 5, sizeof(h2_alt_svc*)); -+ } -+ APR_ARRAY_PUSH(dcfg->alt_svcs, h2_alt_svc*) = as; -+ } -+ else { -+ h2_config *cfg = (h2_config *)h2_config_sget(cmd->server); -+ if (!cfg->alt_svcs) { -+ cfg->alt_svcs = apr_array_make(cmd->pool, 5, sizeof(h2_alt_svc*)); -+ } -+ APR_ARRAY_PUSH(cfg->alt_svcs, h2_alt_svc*) = as; - } -- APR_ARRAY_PUSH(cfg->alt_svcs, h2_alt_svc*) = as; - } -- (void)arg; - return NULL; - } - --static const char *h2_conf_set_alt_svc_max_age(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_alt_svc_max_age(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); -- cfg->alt_svc_max_age = (int)apr_atoi64(value); -- (void)arg; -+ int val = (int)apr_atoi64(value); -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_ALT_SVC_MAX_AGE, val); - return NULL; - } - --static const char *h2_conf_set_session_extra_files(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_session_extra_files(cmd_parms *cmd, -+ void *dirconf, const char *value) - { - /* deprecated, ignore */ -- (void)arg; -+ (void)dirconf; - (void)value; -- ap_log_perror(APLOG_MARK, APLOG_WARNING, 0, parms->pool, /* NO LOGNO */ -+ ap_log_perror(APLOG_MARK, APLOG_WARNING, 0, cmd->pool, /* NO LOGNO */ - "H2SessionExtraFiles is obsolete and will be ignored"); - return NULL; - } - --static const char *h2_conf_set_serialize_headers(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_serialize_headers(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); - if (!strcasecmp(value, "On")) { -- cfg->serialize_headers = 1; -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_SER_HEADERS, 1); - return NULL; - } - else if (!strcasecmp(value, "Off")) { -- cfg->serialize_headers = 0; -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_SER_HEADERS, 0); - return NULL; - } -- -- (void)arg; - return "value must be On or Off"; - } - --static const char *h2_conf_set_direct(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_direct(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); - if (!strcasecmp(value, "On")) { -- cfg->h2_direct = 1; -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_DIRECT, 1); - return NULL; - } - else if (!strcasecmp(value, "Off")) { -- cfg->h2_direct = 0; -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_DIRECT, 0); - return NULL; - } -- -- (void)arg; - return "value must be On or Off"; - } - --static const char *h2_conf_set_push(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_push(cmd_parms *cmd, void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); - if (!strcasecmp(value, "On")) { -- cfg->h2_push = 1; -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_PUSH, 1); - return NULL; - } - else if (!strcasecmp(value, "Off")) { -- cfg->h2_push = 0; -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_PUSH, 0); - return NULL; - } -- -- (void)arg; - return "value must be On or Off"; - } - -@@ -419,7 +721,7 @@ - else if (!strcasecmp("BEFORE", sdependency)) { - dependency = H2_DEPENDANT_BEFORE; - if (sweight) { -- return "dependency 'Before' does not allow a weight"; -+ return "dependecy 'Before' does not allow a weight"; - } - } - else if (!strcasecmp("INTERLEAVED", sdependency)) { -@@ -447,100 +749,88 @@ - return NULL; - } - --static const char *h2_conf_set_modern_tls_only(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_modern_tls_only(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); - if (!strcasecmp(value, "On")) { -- cfg->modern_tls_only = 1; -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_MODERN_TLS_ONLY, 1); - return NULL; - } - else if (!strcasecmp(value, "Off")) { -- cfg->modern_tls_only = 0; -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_MODERN_TLS_ONLY, 0); - return NULL; - } -- -- (void)arg; - return "value must be On or Off"; - } - --static const char *h2_conf_set_upgrade(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_upgrade(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); - if (!strcasecmp(value, "On")) { -- cfg->h2_upgrade = 1; -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_UPGRADE, 1); - return NULL; - } - else if (!strcasecmp(value, "Off")) { -- cfg->h2_upgrade = 0; -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_UPGRADE, 0); - return NULL; - } -- -- (void)arg; - return "value must be On or Off"; - } - --static const char *h2_conf_set_tls_warmup_size(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_tls_warmup_size(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); -- cfg->tls_warmup_size = apr_atoi64(value); -- (void)arg; -+ apr_int64_t val = apr_atoi64(value); -+ CONFIG_CMD_SET64(cmd, dirconf, H2_CONF_TLS_WARMUP_SIZE, val); - return NULL; - } - --static const char *h2_conf_set_tls_cooldown_secs(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_tls_cooldown_secs(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); -- cfg->tls_cooldown_secs = (int)apr_atoi64(value); -- (void)arg; -+ apr_int64_t val = (int)apr_atoi64(value); -+ CONFIG_CMD_SET64(cmd, dirconf, H2_CONF_TLS_COOLDOWN_SECS, val); - return NULL; - } - --static const char *h2_conf_set_push_diary_size(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_push_diary_size(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); -- (void)arg; -- cfg->push_diary_size = (int)apr_atoi64(value); -- if (cfg->push_diary_size < 0) { -+ int val = (int)apr_atoi64(value); -+ if (val < 0) { - return "value must be >= 0"; - } -- if (cfg->push_diary_size > 0 && (cfg->push_diary_size & (cfg->push_diary_size-1))) { -+ if (val > 0 && (val & (val-1))) { - return "value must a power of 2"; - } -- if (cfg->push_diary_size > (1 << 15)) { -+ if (val > (1 << 15)) { - return "value must <= 65536"; - } -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_PUSH_DIARY_SIZE, val); - return NULL; - } - --static const char *h2_conf_set_copy_files(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_copy_files(cmd_parms *cmd, -+ void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)arg; - if (!strcasecmp(value, "On")) { -- cfg->copy_files = 1; -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_COPY_FILES, 1); - return NULL; - } - else if (!strcasecmp(value, "Off")) { -- cfg->copy_files = 0; -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_COPY_FILES, 0); - return NULL; - } -- -- (void)arg; - return "value must be On or Off"; - } - --static void add_push(apr_pool_t *pool, h2_config *conf, h2_push_res *push) -+static void add_push(apr_array_header_t **plist, apr_pool_t *pool, h2_push_res *push) - { - h2_push_res *new; -- if (!conf->push_list) { -- conf->push_list = apr_array_make(pool, 10, sizeof(*push)); -+ if (!*plist) { -+ *plist = apr_array_make(pool, 10, sizeof(*push)); - } -- new = apr_array_push(conf->push_list); -+ new = apr_array_push(*plist); - new->uri_ref = push->uri_ref; - new->critical = push->critical; - } -@@ -549,8 +839,6 @@ - const char *arg1, const char *arg2, - const char *arg3) - { -- h2_config *dconf = (h2_config*)dirconf ; -- h2_config *sconf = (h2_config*)h2_config_sget(cmd->server); - h2_push_res push; - const char *last = arg3; - -@@ -575,42 +863,54 @@ - } - } - -- /* server command? set both */ -- if (cmd->path == NULL) { -- add_push(cmd->pool, sconf, &push); -- add_push(cmd->pool, dconf, &push); -+ if (cmd->path) { -+ add_push(&(((h2_dir_config*)dirconf)->push_list), cmd->pool, &push); - } - else { -- add_push(cmd->pool, dconf, &push); -+ add_push(&(h2_config_sget(cmd->server)->push_list), cmd->pool, &push); - } -+ return NULL; -+} - -+static const char *h2_conf_set_early_hints(cmd_parms *cmd, -+ void *dirconf, const char *value) -+{ -+ int val; -+ -+ if (!strcasecmp(value, "On")) val = 1; -+ else if (!strcasecmp(value, "Off")) val = 0; -+ else return "value must be On or Off"; -+ -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_EARLY_HINTS, val); -+ if (cmd->path) { -+ ap_log_perror(APLOG_MARK, APLOG_WARNING, 0, cmd->pool, -+ "H2EarlyHints = %d on path %s", val, cmd->path); -+ } - return NULL; - } - --static const char *h2_conf_set_early_hints(cmd_parms *parms, -- void *arg, const char *value) -+static const char *h2_conf_set_padding(cmd_parms *cmd, void *dirconf, const char *value) - { -- h2_config *cfg = (h2_config *)h2_config_sget(parms->server); -- if (!strcasecmp(value, "On")) { -- cfg->early_hints = 1; -- return NULL; -+ int val; -+ -+ val = (int)apr_atoi64(value); -+ if (val < 0) { -+ return "number of bits must be >= 0"; - } -- else if (!strcasecmp(value, "Off")) { -- cfg->early_hints = 0; -- return NULL; -+ if (val > 8) { -+ return "number of bits must be <= 8"; - } -- -- (void)arg; -- return "value must be On or Off"; -+ CONFIG_CMD_SET(cmd, dirconf, H2_CONF_PADDING_BITS, val); -+ return NULL; - } - -+ - void h2_get_num_workers(server_rec *s, int *minw, int *maxw) - { - int threads_per_child = 0; -- const h2_config *config = h2_config_sget(s); - -- *minw = h2_config_geti(config, H2_CONF_MIN_WORKERS); -- *maxw = h2_config_geti(config, H2_CONF_MAX_WORKERS); -+ *minw = h2_config_sgeti(s, H2_CONF_MIN_WORKERS); -+ *maxw = h2_config_sgeti(s, H2_CONF_MAX_WORKERS); - ap_mpm_query(AP_MPMQ_MAX_THREADS, &threads_per_child); - - if (*minw <= 0) { -@@ -652,7 +952,7 @@ - AP_INIT_TAKE1("H2ModernTLSOnly", h2_conf_set_modern_tls_only, NULL, - RSRC_CONF, "off to not impose RFC 7540 restrictions on TLS"), - AP_INIT_TAKE1("H2Upgrade", h2_conf_set_upgrade, NULL, -- RSRC_CONF, "on to allow HTTP/1 Upgrades to h2/h2c"), -+ RSRC_CONF|OR_AUTHCFG, "on to allow HTTP/1 Upgrades to h2/h2c"), - AP_INIT_TAKE1("H2Direct", h2_conf_set_direct, NULL, - RSRC_CONF, "on to enable direct HTTP/2 mode"), - AP_INIT_TAKE1("H2SessionExtraFiles", h2_conf_set_session_extra_files, NULL, -@@ -662,7 +962,7 @@ - AP_INIT_TAKE1("H2TLSCoolDownSecs", h2_conf_set_tls_cooldown_secs, NULL, - RSRC_CONF, "seconds of idle time on TLS before shrinking writes"), - AP_INIT_TAKE1("H2Push", h2_conf_set_push, NULL, -- RSRC_CONF, "off to disable HTTP/2 server push"), -+ RSRC_CONF|OR_AUTHCFG, "off to disable HTTP/2 server push"), - AP_INIT_TAKE23("H2PushPriority", h2_conf_add_push_priority, NULL, - RSRC_CONF, "define priority of PUSHed resources per content type"), - AP_INIT_TAKE1("H2PushDiarySize", h2_conf_set_push_diary_size, NULL, -@@ -670,33 +970,12 @@ - AP_INIT_TAKE1("H2CopyFiles", h2_conf_set_copy_files, NULL, - OR_FILEINFO, "on to perform copy of file data"), - AP_INIT_TAKE123("H2PushResource", h2_conf_add_push_res, NULL, -- OR_FILEINFO, "add a resource to be pushed in this location/on this server."), -+ OR_FILEINFO|OR_AUTHCFG, "add a resource to be pushed in this location/on this server."), - AP_INIT_TAKE1("H2EarlyHints", h2_conf_set_early_hints, NULL, - RSRC_CONF, "on to enable interim status 103 responses"), -+ AP_INIT_TAKE1("H2Padding", h2_conf_set_padding, NULL, -+ RSRC_CONF, "set payload padding"), - AP_END_CMD - }; - - --const h2_config *h2_config_rget(request_rec *r) --{ -- h2_config *cfg = (h2_config *)ap_get_module_config(r->per_dir_config, -- &http2_module); -- return cfg? cfg : h2_config_sget(r->server); --} -- --const h2_config *h2_config_get(conn_rec *c) --{ -- h2_ctx *ctx = h2_ctx_get(c, 0); -- -- if (ctx) { -- if (ctx->config) { -- return ctx->config; -- } -- else if (ctx->server) { -- ctx->config = h2_config_sget(ctx->server); -- return ctx->config; -- } -- } -- -- return h2_config_sget(c->base_server); --} ---- a/modules/http2/h2_config.h -+++ b/modules/http2/h2_config.h -@@ -42,6 +42,8 @@ - H2_CONF_PUSH_DIARY_SIZE, - H2_CONF_COPY_FILES, - H2_CONF_EARLY_HINTS, -+ H2_CONF_PADDING_BITS, -+ H2_CONF_PADDING_ALWAYS, - } h2_config_var_t; - - struct apr_hash_t; -@@ -53,33 +55,6 @@ - int critical; - } h2_push_res; - --/* Apache httpd module configuration for h2. */ --typedef struct h2_config { -- const char *name; -- int h2_max_streams; /* max concurrent # streams (http2) */ -- int h2_window_size; /* stream window size (http2) */ -- int min_workers; /* min # of worker threads/child */ -- int max_workers; /* max # of worker threads/child */ -- int max_worker_idle_secs; /* max # of idle seconds for worker */ -- int stream_max_mem_size; /* max # bytes held in memory/stream */ -- apr_array_header_t *alt_svcs; /* h2_alt_svc specs for this server */ -- int alt_svc_max_age; /* seconds clients can rely on alt-svc info*/ -- int serialize_headers; /* Use serialized HTTP/1.1 headers for -- processing, better compatibility */ -- int h2_direct; /* if mod_h2 is active directly */ -- int modern_tls_only; /* Accept only modern TLS in HTTP/2 connections */ -- int h2_upgrade; /* Allow HTTP/1 upgrade to h2/h2c */ -- apr_int64_t tls_warmup_size; /* Amount of TLS data to send before going full write size */ -- int tls_cooldown_secs; /* Seconds of idle time before going back to small TLS records */ -- int h2_push; /* if HTTP/2 server push is enabled */ -- struct apr_hash_t *priorities;/* map of content-type to h2_priority records */ -- -- int push_diary_size; /* # of entries in push diary */ -- int copy_files; /* if files shall be copied vs setaside on output */ -- apr_array_header_t *push_list;/* list of h2_push_res configurations */ -- int early_hints; /* support status code 103 */ --} h2_config; -- - - void *h2_config_create_dir(apr_pool_t *pool, char *x); - void *h2_config_merge_dir(apr_pool_t *pool, void *basev, void *addv); -@@ -88,19 +63,37 @@ - - extern const command_rec h2_cmds[]; - --const h2_config *h2_config_get(conn_rec *c); --const h2_config *h2_config_sget(server_rec *s); --const h2_config *h2_config_rget(request_rec *r); -+int h2_config_geti(request_rec *r, server_rec *s, h2_config_var_t var); -+apr_int64_t h2_config_geti64(request_rec *r, server_rec *s, h2_config_var_t var); - --int h2_config_geti(const h2_config *conf, h2_config_var_t var); --apr_int64_t h2_config_geti64(const h2_config *conf, h2_config_var_t var); -+/** -+ * Get the configured value for variable <var> at the given connection. -+ */ -+int h2_config_cgeti(conn_rec *c, h2_config_var_t var); -+apr_int64_t h2_config_cgeti64(conn_rec *c, h2_config_var_t var); -+ -+/** -+ * Get the configured value for variable <var> at the given server. -+ */ -+int h2_config_sgeti(server_rec *s, h2_config_var_t var); -+apr_int64_t h2_config_sgeti64(server_rec *s, h2_config_var_t var); -+ -+/** -+ * Get the configured value for variable <var> at the given request, -+ * if configured for the request location. -+ * Fallback to request server config otherwise. -+ */ -+int h2_config_rgeti(request_rec *r, h2_config_var_t var); -+apr_int64_t h2_config_rgeti64(request_rec *r, h2_config_var_t var); - --void h2_get_num_workers(server_rec *s, int *minw, int *maxw); -+apr_array_header_t *h2_config_push_list(request_rec *r); -+apr_array_header_t *h2_config_alt_svcs(request_rec *r); - -+ -+void h2_get_num_workers(server_rec *s, int *minw, int *maxw); - void h2_config_init(apr_pool_t *pool); - --const struct h2_priority *h2_config_get_priority(const h2_config *conf, -- const char *content_type); -+const struct h2_priority *h2_cconfig_get_priority(conn_rec *c, const char *content_type); - - #endif /* __mod_h2__h2_config_h__ */ - ---- a/modules/http2/h2_conn.c -+++ b/modules/http2/h2_conn.c -@@ -18,6 +18,7 @@ - #include <apr_strings.h> - - #include <ap_mpm.h> -+#include <ap_mmn.h> - - #include <httpd.h> - #include <http_core.h> -@@ -79,7 +80,7 @@ - mpm_type = H2_MPM_PREFORK; - mpm_module = m; - /* While http2 can work really well on prefork, it collides -- * today's use case for prefork: runnning single-thread app engines -+ * today's use case for prefork: running single-thread app engines - * like php. If we restrict h2_workers to 1 per process, php will - * work fine, but browser will be limited to 1 active request at a - * time. */ -@@ -109,7 +110,6 @@ - - apr_status_t h2_conn_child_init(apr_pool_t *pool, server_rec *s) - { -- const h2_config *config = h2_config_sget(s); - apr_status_t status = APR_SUCCESS; - int minw, maxw; - int max_threads_per_child = 0; -@@ -129,7 +129,7 @@ - - h2_get_num_workers(s, &minw, &maxw); - -- idle_secs = h2_config_geti(config, H2_CONF_MAX_WORKER_IDLE_SECS); -+ idle_secs = h2_config_sgeti(s, H2_CONF_MAX_WORKER_IDLE_SECS); - ap_log_error(APLOG_MARK, APLOG_TRACE3, 0, s, - "h2_workers: min=%d max=%d, mthrpchild=%d, idle_secs=%d", - minw, maxw, max_threads_per_child, idle_secs); -@@ -138,7 +138,7 @@ - ap_register_input_filter("H2_IN", h2_filter_core_input, - NULL, AP_FTYPE_CONNECTION); - -- status = h2_mplx_child_init(pool, s); -+ status = h2_mplx_m_child_init(pool, s); - - if (status == APR_SUCCESS) { - status = apr_socket_create(&dummy_socket, APR_INET, SOCK_STREAM, -@@ -172,9 +172,10 @@ - return mpm_module; - } - --apr_status_t h2_conn_setup(h2_ctx *ctx, conn_rec *c, request_rec *r) -+apr_status_t h2_conn_setup(conn_rec *c, request_rec *r, server_rec *s) - { - h2_session *session; -+ h2_ctx *ctx; - apr_status_t status; - - if (!workers) { -@@ -183,24 +184,25 @@ - return APR_EGENERAL; - } - -- if (r) { -- status = h2_session_rcreate(&session, r, ctx, workers); -- } -- else { -- status = h2_session_create(&session, c, ctx, workers); -- } -- -- if (status == APR_SUCCESS) { -+ if (APR_SUCCESS == (status = h2_session_create(&session, c, r, s, workers))) { -+ ctx = h2_ctx_get(c, 1); - h2_ctx_session_set(ctx, session); -+ -+ /* remove the input filter of mod_reqtimeout, now that the connection -+ * is established and we have swtiched to h2. reqtimeout has supervised -+ * possibly configured handshake timeouts and needs to get out of the way -+ * now since the rest of its state handling assumes http/1.x to take place. */ -+ ap_remove_input_filter_byhandle(c->input_filters, "reqtimeout"); - } -+ - return status; - } - --apr_status_t h2_conn_run(struct h2_ctx *ctx, conn_rec *c) -+apr_status_t h2_conn_run(conn_rec *c) - { - apr_status_t status; - int mpm_state = 0; -- h2_session *session = h2_ctx_session_get(ctx); -+ h2_session *session = h2_ctx_get_session(c); - - ap_assert(session); - do { -@@ -235,6 +237,13 @@ - case H2_SESSION_ST_BUSY: - case H2_SESSION_ST_WAIT: - c->cs->state = CONN_STATE_WRITE_COMPLETION; -+ if (c->cs && (session->open_streams || !session->remote.emitted_count)) { -+ /* let the MPM know that we are not done and want -+ * the Timeout behaviour instead of a KeepAliveTimeout -+ * See PR 63534. -+ */ -+ c->cs->sense = CONN_SENSE_WANT_READ; -+ } - break; - case H2_SESSION_ST_CLEANUP: - case H2_SESSION_ST_DONE: -@@ -249,7 +258,7 @@ - - apr_status_t h2_conn_pre_close(struct h2_ctx *ctx, conn_rec *c) - { -- h2_session *session = h2_ctx_session_get(ctx); -+ h2_session *session = h2_ctx_get_session(c); - if (session) { - apr_status_t status = h2_session_pre_close(session, async_mpm); - return (status == APR_SUCCESS)? DONE : status; -@@ -257,7 +266,7 @@ - return DONE; - } - --conn_rec *h2_slave_create(conn_rec *master, int slave_id, apr_pool_t *parent) -+conn_rec *h2_secondary_create(conn_rec *master, int sec_id, apr_pool_t *parent) - { - apr_allocator_t *allocator; - apr_status_t status; -@@ -268,11 +277,11 @@ - - ap_assert(master); - ap_log_cerror(APLOG_MARK, APLOG_TRACE3, 0, master, -- "h2_stream(%ld-%d): create slave", master->id, slave_id); -+ "h2_stream(%ld-%d): create secondary", master->id, sec_id); - - /* We create a pool with its own allocator to be used for - * processing a request. This is the only way to have the processing -- * independant of its parent pool in the sense that it can work in -+ * independent of its parent pool in the sense that it can work in - * another thread. Also, the new allocator needs its own mutex to - * synchronize sub-pools. - */ -@@ -281,18 +290,18 @@ - status = apr_pool_create_ex(&pool, parent, NULL, allocator); - if (status != APR_SUCCESS) { - ap_log_cerror(APLOG_MARK, APLOG_ERR, status, master, -- APLOGNO(10004) "h2_session(%ld-%d): create slave pool", -- master->id, slave_id); -+ APLOGNO(10004) "h2_session(%ld-%d): create secondary pool", -+ master->id, sec_id); - return NULL; - } - apr_allocator_owner_set(allocator, pool); -- apr_pool_tag(pool, "h2_slave_conn"); -+ apr_pool_tag(pool, "h2_secondary_conn"); - - c = (conn_rec *) apr_palloc(pool, sizeof(conn_rec)); - if (c == NULL) { - ap_log_cerror(APLOG_MARK, APLOG_ERR, APR_ENOMEM, master, -- APLOGNO(02913) "h2_session(%ld-%d): create slave", -- master->id, slave_id); -+ APLOGNO(02913) "h2_session(%ld-%d): create secondary", -+ master->id, sec_id); - apr_pool_destroy(pool); - return NULL; - } -@@ -310,26 +319,28 @@ - c->filter_conn_ctx = NULL; - #endif - c->bucket_alloc = apr_bucket_alloc_create(pool); -+#if !AP_MODULE_MAGIC_AT_LEAST(20180720, 1) - c->data_in_input_filters = 0; - c->data_in_output_filters = 0; -+#endif - /* prevent mpm_event from making wrong assumptions about this connection, - * like e.g. using its socket for an async read check. */ - c->clogging_input_filters = 1; - c->log = NULL; - c->log_id = apr_psprintf(pool, "%ld-%d", -- master->id, slave_id); -+ master->id, sec_id); - c->aborted = 0; -- /* We cannot install the master connection socket on the slaves, as -+ /* We cannot install the master connection socket on the secondary, as - * modules mess with timeouts/blocking of the socket, with - * unwanted side effects to the master connection processing. -- * Fortunately, since we never use the slave socket, we can just install -+ * Fortunately, since we never use the secondary socket, we can just install - * a single, process-wide dummy and everyone is happy. - */ - ap_set_module_config(c->conn_config, &core_module, dummy_socket); - /* TODO: these should be unique to this thread */ - c->sbh = master->sbh; -- /* TODO: not all mpm modules have learned about slave connections yet. -- * copy their config from master to slave. -+ /* TODO: not all mpm modules have learned about secondary connections yet. -+ * copy their config from master to secondary. - */ - if ((mpm = h2_conn_mpm_module()) != NULL) { - cfg = ap_get_module_config(master->conn_config, mpm); -@@ -337,38 +348,38 @@ - } - - ap_log_cerror(APLOG_MARK, APLOG_TRACE3, 0, c, -- "h2_slave(%s): created", c->log_id); -+ "h2_secondary(%s): created", c->log_id); - return c; - } - --void h2_slave_destroy(conn_rec *slave) -+void h2_secondary_destroy(conn_rec *secondary) - { -- ap_log_cerror(APLOG_MARK, APLOG_TRACE3, 0, slave, -- "h2_slave(%s): destroy", slave->log_id); -- slave->sbh = NULL; -- apr_pool_destroy(slave->pool); -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE3, 0, secondary, -+ "h2_secondary(%s): destroy", secondary->log_id); -+ secondary->sbh = NULL; -+ apr_pool_destroy(secondary->pool); - } - --apr_status_t h2_slave_run_pre_connection(conn_rec *slave, apr_socket_t *csd) -+apr_status_t h2_secondary_run_pre_connection(conn_rec *secondary, apr_socket_t *csd) - { -- if (slave->keepalives == 0) { -+ if (secondary->keepalives == 0) { - /* Simulate that we had already a request on this connection. Some - * hooks trigger special behaviour when keepalives is 0. - * (Not necessarily in pre_connection, but later. Set it here, so it - * is in place.) */ -- slave->keepalives = 1; -+ secondary->keepalives = 1; - /* We signal that this connection will be closed after the request. - * Which is true in that sense that we throw away all traffic data -- * on this slave connection after each requests. Although we might -+ * on this secondary connection after each requests. Although we might - * reuse internal structures like memory pools. - * The wanted effect of this is that httpd does not try to clean up - * any dangling data on this connection when a request is done. Which -- * is unneccessary on a h2 stream. -+ * is unnecessary on a h2 stream. - */ -- slave->keepalive = AP_CONN_CLOSE; -- return ap_run_pre_connection(slave, csd); -+ secondary->keepalive = AP_CONN_CLOSE; -+ return ap_run_pre_connection(secondary, csd); - } -- ap_assert(slave->output_filters); -+ ap_assert(secondary->output_filters); - return APR_SUCCESS; - } - ---- a/modules/http2/h2_conn.h -+++ b/modules/http2/h2_conn.h -@@ -23,21 +23,21 @@ - /** - * Setup the connection and our context for HTTP/2 processing - * -- * @param ctx the http2 context to setup - * @param c the connection HTTP/2 is starting on - * @param r the upgrade request that still awaits an answer, optional -+ * @param s the server selected for this connection (can be != c->base_server) - */ --apr_status_t h2_conn_setup(struct h2_ctx *ctx, conn_rec *c, request_rec *r); -+apr_status_t h2_conn_setup(conn_rec *c, request_rec *r, server_rec *s); - - /** - * Run the HTTP/2 connection in synchronous fashion. - * Return when the HTTP/2 session is done - * and the connection will close or a fatal error occurred. - * -- * @param ctx the http2 context to run -+ * @param c the http2 connection to run - * @return APR_SUCCESS when session is done. - */ --apr_status_t h2_conn_run(struct h2_ctx *ctx, conn_rec *c); -+apr_status_t h2_conn_run(conn_rec *c); - - /** - * The connection is about to close. If we have not send a GOAWAY -@@ -68,10 +68,10 @@ - const char *h2_conn_mpm_name(void); - int h2_mpm_supported(void); - --conn_rec *h2_slave_create(conn_rec *master, int slave_id, apr_pool_t *parent); --void h2_slave_destroy(conn_rec *slave); -+conn_rec *h2_secondary_create(conn_rec *master, int sec_id, apr_pool_t *parent); -+void h2_secondary_destroy(conn_rec *secondary); - --apr_status_t h2_slave_run_pre_connection(conn_rec *slave, apr_socket_t *csd); --void h2_slave_run_connection(conn_rec *slave); -+apr_status_t h2_secondary_run_pre_connection(conn_rec *secondary, apr_socket_t *csd); -+void h2_secondary_run_connection(conn_rec *secondary); - - #endif /* defined(__mod_h2__h2_conn__) */ ---- a/modules/http2/h2_conn_io.c -+++ b/modules/http2/h2_conn_io.c -@@ -40,12 +40,17 @@ - * ~= 1300 bytes */ - #define WRITE_SIZE_INITIAL 1300 - --/* Calculated like this: max TLS record size 16*1024 -- * - 40 (IP) - 20 (TCP) - 40 (TCP options) -- * - TLS overhead (60-100) -- * which seems to create less TCP packets overall -+/* The maximum we'd like to write in one chunk is -+ * the max size of a TLS record. When pushing -+ * many frames down the h2 connection, this might -+ * align differently because of headers and other -+ * frames or simply as not sufficient data is -+ * in a response body. -+ * However keeping frames at or below this limit -+ * should make optimizations at the layer that writes -+ * to TLS easier. - */ --#define WRITE_SIZE_MAX (TLS_DATA_MAX - 100) -+#define WRITE_SIZE_MAX (TLS_DATA_MAX) - - - static void h2_conn_io_bb_log(conn_rec *c, int stream_id, int level, -@@ -123,21 +128,20 @@ - - } - --apr_status_t h2_conn_io_init(h2_conn_io *io, conn_rec *c, -- const h2_config *cfg) -+apr_status_t h2_conn_io_init(h2_conn_io *io, conn_rec *c, server_rec *s) - { - io->c = c; - io->output = apr_brigade_create(c->pool, c->bucket_alloc); - io->is_tls = h2_h2_is_tls(c); - io->buffer_output = io->is_tls; -- io->flush_threshold = (apr_size_t)h2_config_geti64(cfg, H2_CONF_STREAM_MAX_MEM); -+ io->flush_threshold = (apr_size_t)h2_config_sgeti64(s, H2_CONF_STREAM_MAX_MEM); - - if (io->is_tls) { - /* This is what we start with, - * see https://issues.apache.org/jira/browse/TS-2503 - */ -- io->warmup_size = h2_config_geti64(cfg, H2_CONF_TLS_WARMUP_SIZE); -- io->cooldown_usecs = (h2_config_geti(cfg, H2_CONF_TLS_COOLDOWN_SECS) -+ io->warmup_size = h2_config_sgeti64(s, H2_CONF_TLS_WARMUP_SIZE); -+ io->cooldown_usecs = (h2_config_sgeti(s, H2_CONF_TLS_COOLDOWN_SECS) - * APR_USEC_PER_SEC); - io->write_size = (io->cooldown_usecs > 0? - WRITE_SIZE_INITIAL : WRITE_SIZE_MAX); ---- a/modules/http2/h2_conn_io.h -+++ b/modules/http2/h2_conn_io.h -@@ -48,8 +48,7 @@ - apr_size_t slen; - } h2_conn_io; - --apr_status_t h2_conn_io_init(h2_conn_io *io, conn_rec *c, -- const struct h2_config *cfg); -+apr_status_t h2_conn_io_init(h2_conn_io *io, conn_rec *c, server_rec *s); - - /** - * Append data to the buffered output. ---- a/modules/http2/h2_ctx.c -+++ b/modules/http2/h2_ctx.c -@@ -29,8 +29,8 @@ - { - h2_ctx *ctx = apr_pcalloc(c->pool, sizeof(h2_ctx)); - ap_assert(ctx); -+ h2_ctx_server_update(ctx, c->base_server); - ap_set_module_config(c->conn_config, &http2_module, ctx); -- h2_ctx_server_set(ctx, c->base_server); - return ctx; - } - -@@ -79,8 +79,9 @@ - return ctx; - } - --h2_session *h2_ctx_session_get(h2_ctx *ctx) -+h2_session *h2_ctx_get_session(conn_rec *c) - { -+ h2_ctx *ctx = h2_ctx_get(c, 0); - return ctx? ctx->session : NULL; - } - -@@ -89,33 +90,17 @@ - ctx->session = session; - } - --server_rec *h2_ctx_server_get(h2_ctx *ctx) -+h2_ctx *h2_ctx_server_update(h2_ctx *ctx, server_rec *s) - { -- return ctx? ctx->server : NULL; --} -- --h2_ctx *h2_ctx_server_set(h2_ctx *ctx, server_rec *s) --{ -- ctx->server = s; -+ if (ctx->server != s) { -+ ctx->server = s; -+ } - return ctx; - } - --int h2_ctx_is_task(h2_ctx *ctx) --{ -- return ctx && ctx->task; --} -- --h2_task *h2_ctx_get_task(h2_ctx *ctx) -+h2_task *h2_ctx_get_task(conn_rec *c) - { -+ h2_ctx *ctx = h2_ctx_get(c, 0); - return ctx? ctx->task : NULL; - } - --h2_task *h2_ctx_cget_task(conn_rec *c) --{ -- return h2_ctx_get_task(h2_ctx_get(c, 0)); --} -- --h2_task *h2_ctx_rget_task(request_rec *r) --{ -- return h2_ctx_get_task(h2_ctx_rget(r)); --} ---- a/modules/http2/h2_ctx.h -+++ b/modules/http2/h2_ctx.h -@@ -56,12 +56,11 @@ - */ - h2_ctx *h2_ctx_protocol_set(h2_ctx *ctx, const char *proto); - --/* Set the server_rec relevant for this context. -+/* Update the server_rec relevant for this context. A server for -+ * a connection may change during SNI handling, for example. - */ --h2_ctx *h2_ctx_server_set(h2_ctx *ctx, server_rec *s); --server_rec *h2_ctx_server_get(h2_ctx *ctx); -+h2_ctx *h2_ctx_server_update(h2_ctx *ctx, server_rec *s); - --struct h2_session *h2_ctx_session_get(h2_ctx *ctx); - void h2_ctx_session_set(h2_ctx *ctx, struct h2_session *session); - - /** -@@ -69,10 +68,8 @@ - */ - const char *h2_ctx_protocol_get(const conn_rec *c); - --int h2_ctx_is_task(h2_ctx *ctx); -+struct h2_session *h2_ctx_get_session(conn_rec *c); -+struct h2_task *h2_ctx_get_task(conn_rec *c); - --struct h2_task *h2_ctx_get_task(h2_ctx *ctx); --struct h2_task *h2_ctx_cget_task(conn_rec *c); --struct h2_task *h2_ctx_rget_task(request_rec *r); - - #endif /* defined(__mod_h2__h2_ctx__) */ ---- a/modules/http2/h2_filter.c -+++ b/modules/http2/h2_filter.c -@@ -54,6 +54,7 @@ - const char *data; - ssize_t n; - -+ (void)c; - status = apr_bucket_read(b, &data, &len, block); - - while (status == APR_SUCCESS && len > 0) { -@@ -71,10 +72,10 @@ - } - else { - session->io.bytes_read += n; -- if (len <= n) { -+ if ((apr_ssize_t)len <= n) { - break; - } -- len -= n; -+ len -= (apr_size_t)n; - data += n; - } - } -@@ -277,6 +278,7 @@ - apr_bucket_brigade *dest, - const apr_bucket *src) - { -+ (void)beam; - if (H2_BUCKET_IS_OBSERVER(src)) { - h2_bucket_observer *l = (h2_bucket_observer *)src->data; - apr_bucket *b = h2_bucket_observer_create(dest->bucket_alloc, -@@ -311,8 +313,7 @@ - bbout(bb, " \"settings\": {\n"); - bbout(bb, " \"SETTINGS_MAX_CONCURRENT_STREAMS\": %d,\n", m->max_streams); - bbout(bb, " \"SETTINGS_MAX_FRAME_SIZE\": %d,\n", 16*1024); -- bbout(bb, " \"SETTINGS_INITIAL_WINDOW_SIZE\": %d,\n", -- h2_config_geti(s->config, H2_CONF_WIN_SIZE)); -+ bbout(bb, " \"SETTINGS_INITIAL_WINDOW_SIZE\": %d,\n", h2_config_sgeti(s->s, H2_CONF_WIN_SIZE)); - bbout(bb, " \"SETTINGS_ENABLE_PUSH\": %d\n", h2_session_push_enabled(s)); - bbout(bb, " }%s\n", last? "" : ","); - } -@@ -369,7 +370,7 @@ - x.s = s; - x.idx = 0; - bbout(bb, " \"streams\": {"); -- h2_mplx_stream_do(s->mplx, add_stream, &x); -+ h2_mplx_m_stream_do(s->mplx, add_stream, &x); - bbout(bb, "\n }%s\n", last? "" : ","); - } - -@@ -431,41 +432,38 @@ - - static apr_status_t h2_status_insert(h2_task *task, apr_bucket *b) - { -- conn_rec *c = task->c->master; -- h2_ctx *h2ctx = h2_ctx_get(c, 0); -- h2_session *session; -- h2_stream *stream; -+ h2_mplx *m = task->mplx; -+ h2_stream *stream = h2_mplx_t_stream_get(m, task); -+ h2_session *s; -+ conn_rec *c; -+ - apr_bucket_brigade *bb; - apr_bucket *e; - int32_t connFlowIn, connFlowOut; - -- -- if (!h2ctx || (session = h2_ctx_session_get(h2ctx)) == NULL) { -- return APR_SUCCESS; -- } -- -- stream = h2_session_stream_get(session, task->stream_id); - if (!stream) { - /* stream already done */ - return APR_SUCCESS; - } -+ s = stream->session; -+ c = s->c; - - bb = apr_brigade_create(stream->pool, c->bucket_alloc); - -- connFlowIn = nghttp2_session_get_effective_local_window_size(session->ngh2); -- connFlowOut = nghttp2_session_get_remote_window_size(session->ngh2); -+ connFlowIn = nghttp2_session_get_effective_local_window_size(s->ngh2); -+ connFlowOut = nghttp2_session_get_remote_window_size(s->ngh2); - - bbout(bb, "{\n"); - bbout(bb, " \"version\": \"draft-01\",\n"); -- add_settings(bb, session, 0); -- add_peer_settings(bb, session, 0); -+ add_settings(bb, s, 0); -+ add_peer_settings(bb, s, 0); - bbout(bb, " \"connFlowIn\": %d,\n", connFlowIn); - bbout(bb, " \"connFlowOut\": %d,\n", connFlowOut); -- bbout(bb, " \"sentGoAway\": %d,\n", session->local.shutdown); -+ bbout(bb, " \"sentGoAway\": %d,\n", s->local.shutdown); - -- add_streams(bb, session, 0); -+ add_streams(bb, s, 0); - -- add_stats(bb, session, stream, 1); -+ add_stats(bb, s, stream, 1); - bbout(bb, "}\n"); - - while ((e = APR_BRIGADE_FIRST(bb)) != APR_BRIGADE_SENTINEL(bb)) { -@@ -495,9 +493,54 @@ - return APR_SUCCESS; - } - -+static apr_status_t discard_body(request_rec *r, apr_off_t maxlen) -+{ -+ apr_bucket_brigade *bb; -+ int seen_eos; -+ apr_status_t rv; -+ -+ bb = apr_brigade_create(r->pool, r->connection->bucket_alloc); -+ seen_eos = 0; -+ do { -+ apr_bucket *bucket; -+ -+ rv = ap_get_brigade(r->input_filters, bb, AP_MODE_READBYTES, -+ APR_BLOCK_READ, HUGE_STRING_LEN); -+ -+ if (rv != APR_SUCCESS) { -+ apr_brigade_destroy(bb); -+ return rv; -+ } -+ -+ for (bucket = APR_BRIGADE_FIRST(bb); -+ bucket != APR_BRIGADE_SENTINEL(bb); -+ bucket = APR_BUCKET_NEXT(bucket)) -+ { -+ const char *data; -+ apr_size_t len; -+ -+ if (APR_BUCKET_IS_EOS(bucket)) { -+ seen_eos = 1; -+ break; -+ } -+ if (bucket->length == 0) { -+ continue; -+ } -+ rv = apr_bucket_read(bucket, &data, &len, APR_BLOCK_READ); -+ if (rv != APR_SUCCESS) { -+ apr_brigade_destroy(bb); -+ return rv; -+ } -+ maxlen -= bucket->length; -+ } -+ apr_brigade_cleanup(bb); -+ } while (!seen_eos && maxlen >= 0); -+ -+ return APR_SUCCESS; -+} -+ - int h2_filter_h2_status_handler(request_rec *r) - { -- h2_ctx *ctx = h2_ctx_rget(r); - conn_rec *c = r->connection; - h2_task *task; - apr_bucket_brigade *bb; -@@ -511,10 +554,12 @@ - return DECLINED; - } - -- task = ctx? h2_ctx_get_task(ctx) : NULL; -+ task = h2_ctx_get_task(r->connection); - if (task) { -- -- if ((status = ap_discard_request_body(r)) != OK) { -+ /* In this handler, we do some special sauce to send footers back, -+ * IFF we received footers in the request. This is used in our test -+ * cases, since CGI has no way of handling those. */ -+ if ((status = discard_body(r, 1024)) != OK) { - return status; - } - ---- a/modules/http2/h2_from_h1.c -+++ b/modules/http2/h2_from_h1.c -@@ -315,6 +315,7 @@ - int http_status; - apr_array_header_t *hlines; - apr_bucket_brigade *tmp; -+ apr_bucket_brigade *saveto; - } h2_response_parser; - - static apr_status_t parse_header(h2_response_parser *parser, char *line) { -@@ -351,13 +352,17 @@ - parser->tmp = apr_brigade_create(task->pool, task->c->bucket_alloc); - } - status = apr_brigade_split_line(parser->tmp, bb, APR_BLOCK_READ, -- HUGE_STRING_LEN); -+ len); - if (status == APR_SUCCESS) { - --len; - status = apr_brigade_flatten(parser->tmp, line, &len); - if (status == APR_SUCCESS) { - /* we assume a non-0 containing line and remove trailing crlf. */ - line[len] = '\0'; -+ /* -+ * XXX: What to do if there is an LF but no CRLF? -+ * Should we error out? -+ */ - if (len >= 2 && !strcmp(H2_CRLF, line + len - 2)) { - len -= 2; - line[len] = '\0'; -@@ -367,10 +372,47 @@ - task->id, line); - } - else { -+ apr_off_t brigade_length; -+ -+ /* -+ * If the brigade parser->tmp becomes longer than our buffer -+ * for flattening we never have a chance to get a complete -+ * line. This can happen if we are called multiple times after -+ * previous calls did not find a H2_CRLF and we returned -+ * APR_EAGAIN. In this case parser->tmp (correctly) grows -+ * with each call to apr_brigade_split_line. -+ * -+ * XXX: Currently a stack based buffer of HUGE_STRING_LEN is -+ * used. This means we cannot cope with lines larger than -+ * HUGE_STRING_LEN which might be an issue. -+ */ -+ status = apr_brigade_length(parser->tmp, 0, &brigade_length); -+ if ((status != APR_SUCCESS) || (brigade_length > len)) { -+ ap_log_cerror(APLOG_MARK, APLOG_ERR, 0, task->c, APLOGNO(10257) -+ "h2_task(%s): read response, line too long", -+ task->id); -+ return APR_ENOSPC; -+ } - /* this does not look like a complete line yet */ - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, task->c, - "h2_task(%s): read response, incomplete line: %s", - task->id, line); -+ if (!parser->saveto) { -+ parser->saveto = apr_brigade_create(task->pool, -+ task->c->bucket_alloc); -+ } -+ /* -+ * Be on the save side and save the parser->tmp brigade -+ * as it could contain transient buckets which could be -+ * invalid next time we are here. -+ * -+ * NULL for the filter parameter is ok since we -+ * provide our own brigade as second parameter -+ * and ap_save_brigade does not need to create one. -+ */ -+ ap_save_brigade(NULL, &(parser->saveto), &(parser->tmp), -+ parser->tmp->p); -+ APR_BRIGADE_CONCAT(parser->tmp, parser->saveto); - return APR_EAGAIN; - } - } -@@ -594,18 +636,20 @@ - } - } - -- if (r->header_only) { -+ if (r->header_only || AP_STATUS_IS_HEADER_ONLY(r->status)) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, f->c, -- "h2_task(%s): header_only, cleanup output brigade", -+ "h2_task(%s): headers only, cleanup output brigade", - task->id); - b = body_bucket? body_bucket : APR_BRIGADE_FIRST(bb); - while (b != APR_BRIGADE_SENTINEL(bb)) { - next = APR_BUCKET_NEXT(b); - if (APR_BUCKET_IS_EOS(b) || AP_BUCKET_IS_EOR(b)) { - break; -- } -- APR_BUCKET_REMOVE(b); -- apr_bucket_destroy(b); -+ } -+ if (!H2_BUCKET_IS_HEADERS(b)) { -+ APR_BUCKET_REMOVE(b); -+ apr_bucket_destroy(b); -+ } - b = next; - } - } ---- a/modules/http2/h2_h2.c -+++ b/modules/http2/h2_h2.c -@@ -463,19 +463,18 @@ - return opt_ssl_is_https && opt_ssl_is_https(c); - } - --int h2_is_acceptable_connection(conn_rec *c, int require_all) -+int h2_is_acceptable_connection(conn_rec *c, request_rec *r, int require_all) - { - int is_tls = h2_h2_is_tls(c); -- const h2_config *cfg = h2_config_get(c); - -- if (is_tls && h2_config_geti(cfg, H2_CONF_MODERN_TLS_ONLY) > 0) { -+ if (is_tls && h2_config_cgeti(c, H2_CONF_MODERN_TLS_ONLY) > 0) { - /* Check TLS connection for modern TLS parameters, as defined in - * RFC 7540 and https://wiki.mozilla.org/Security/Server_Side_TLS#Modern_compatibility - */ - apr_pool_t *pool = c->pool; - server_rec *s = c->base_server; - char *val; -- -+ - if (!opt_ssl_var_lookup) { - /* unable to check */ - return 0; -@@ -521,33 +520,29 @@ - return 1; - } - --int h2_allows_h2_direct(conn_rec *c) -+static int h2_allows_h2_direct(conn_rec *c) - { -- const h2_config *cfg = h2_config_get(c); - int is_tls = h2_h2_is_tls(c); - const char *needed_protocol = is_tls? "h2" : "h2c"; -- int h2_direct = h2_config_geti(cfg, H2_CONF_DIRECT); -+ int h2_direct = h2_config_cgeti(c, H2_CONF_DIRECT); - - if (h2_direct < 0) { - h2_direct = is_tls? 0 : 1; - } -- return (h2_direct -- && ap_is_allowed_protocol(c, NULL, NULL, needed_protocol)); -+ return (h2_direct && ap_is_allowed_protocol(c, NULL, NULL, needed_protocol)); - } - --int h2_allows_h2_upgrade(conn_rec *c) -+int h2_allows_h2_upgrade(request_rec *r) - { -- const h2_config *cfg = h2_config_get(c); -- int h2_upgrade = h2_config_geti(cfg, H2_CONF_UPGRADE); -- -- return h2_upgrade > 0 || (h2_upgrade < 0 && !h2_h2_is_tls(c)); -+ int h2_upgrade = h2_config_rgeti(r, H2_CONF_UPGRADE); -+ return h2_upgrade > 0 || (h2_upgrade < 0 && !h2_h2_is_tls(r->connection)); - } - - /******************************************************************************* - * Register various hooks - */ - static const char* const mod_ssl[] = { "mod_ssl.c", NULL}; --static const char* const mod_reqtimeout[] = { "mod_reqtimeout.c", NULL}; -+static const char* const mod_reqtimeout[] = { "mod_ssl.c", "mod_reqtimeout.c", NULL}; - - void h2_h2_register_hooks(void) - { -@@ -558,7 +553,7 @@ - * a chance to take over before it. - */ - ap_hook_process_connection(h2_h2_process_conn, -- mod_ssl, mod_reqtimeout, APR_HOOK_LAST); -+ mod_reqtimeout, NULL, APR_HOOK_LAST); - - /* One last chance to properly say goodbye if we have not done so - * already. */ -@@ -581,14 +576,17 @@ - { - apr_status_t status; - h2_ctx *ctx; -+ server_rec *s; - - if (c->master) { - return DECLINED; - } - - ctx = h2_ctx_get(c, 0); -+ s = ctx? ctx->server : c->base_server; -+ - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, "h2_h2, process_conn"); -- if (h2_ctx_is_task(ctx)) { -+ if (ctx && ctx->task) { - /* our stream pseudo connection */ - ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, c, "h2_h2, task, declined"); - return DECLINED; -@@ -601,19 +599,19 @@ - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, "h2_h2, process_conn, " - "new connection using protocol '%s', direct=%d, " - "tls acceptable=%d", proto, h2_allows_h2_direct(c), -- h2_is_acceptable_connection(c, 1)); -+ h2_is_acceptable_connection(c, NULL, 1)); - } - - if (!strcmp(AP_PROTOCOL_HTTP1, proto) - && h2_allows_h2_direct(c) -- && h2_is_acceptable_connection(c, 1)) { -+ && h2_is_acceptable_connection(c, NULL, 1)) { - /* Fresh connection still is on http/1.1 and H2Direct is enabled. - * Otherwise connection is in a fully acceptable state. - * -> peek at the first 24 incoming bytes - */ - apr_bucket_brigade *temp; -- char *s = NULL; -- apr_size_t slen; -+ char *peek = NULL; -+ apr_size_t peeklen; - - temp = apr_brigade_create(c->pool, c->bucket_alloc); - status = ap_get_brigade(c->input_filters, temp, -@@ -626,8 +624,8 @@ - return DECLINED; - } - -- apr_brigade_pflatten(temp, &s, &slen, c->pool); -- if ((slen >= 24) && !memcmp(H2_MAGIC_TOKEN, s, 24)) { -+ apr_brigade_pflatten(temp, &peek, &peeklen, c->pool); -+ if ((peeklen >= 24) && !memcmp(H2_MAGIC_TOKEN, peek, 24)) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, - "h2_h2, direct mode detected"); - if (!ctx) { -@@ -638,7 +636,7 @@ - else if (APLOGctrace2(c)) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, c, - "h2_h2, not detected in %d bytes(base64): %s", -- (int)slen, h2_util_base64url_encode(s, slen, c->pool)); -+ (int)peeklen, h2_util_base64url_encode(peek, peeklen, c->pool)); - } - - apr_brigade_destroy(temp); -@@ -647,15 +645,16 @@ - - if (ctx) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, "process_conn"); -- if (!h2_ctx_session_get(ctx)) { -- status = h2_conn_setup(ctx, c, NULL); -+ -+ if (!h2_ctx_get_session(c)) { -+ status = h2_conn_setup(c, NULL, s); - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, status, c, "conn_setup"); - if (status != APR_SUCCESS) { - h2_ctx_clear(c); - return !OK; - } - } -- h2_conn_run(ctx, c); -+ h2_conn_run(c); - return OK; - } - -@@ -667,7 +666,7 @@ - { - h2_ctx *ctx; - -- /* slave connection? */ -+ /* secondary connection? */ - if (c->master) { - return DECLINED; - } -@@ -684,16 +683,17 @@ - - static void check_push(request_rec *r, const char *tag) - { -- const h2_config *conf = h2_config_rget(r); -- if (!r->expecting_100 -- && conf && conf->push_list && conf->push_list->nelts > 0) { -+ apr_array_header_t *push_list = h2_config_push_list(r); -+ -+ if (!r->expecting_100 && push_list && push_list->nelts > 0) { - int i, old_status; - const char *old_line; -+ - ap_log_rerror(APLOG_MARK, APLOG_TRACE1, 0, r, - "%s, early announcing %d resources for push", -- tag, conf->push_list->nelts); -- for (i = 0; i < conf->push_list->nelts; ++i) { -- h2_push_res *push = &APR_ARRAY_IDX(conf->push_list, i, h2_push_res); -+ tag, push_list->nelts); -+ for (i = 0; i < push_list->nelts; ++i) { -+ h2_push_res *push = &APR_ARRAY_IDX(push_list, i, h2_push_res); - apr_table_add(r->headers_out, "Link", - apr_psprintf(r->pool, "<%s>; rel=preload%s", - push->uri_ref, push->critical? "; critical" : "")); -@@ -710,10 +710,9 @@ - - static int h2_h2_post_read_req(request_rec *r) - { -- /* slave connection? */ -+ /* secondary connection? */ - if (r->connection->master) { -- h2_ctx *ctx = h2_ctx_rget(r); -- struct h2_task *task = h2_ctx_get_task(ctx); -+ struct h2_task *task = h2_ctx_get_task(r->connection); - /* This hook will get called twice on internal redirects. Take care - * that we manipulate filters only once. */ - if (task && !task->filters_set) { -@@ -730,7 +729,7 @@ - ap_add_output_filter("H2_RESPONSE", task, r, r->connection); - - for (f = r->input_filters; f; f = f->next) { -- if (!strcmp("H2_SLAVE_IN", f->frec->name)) { -+ if (!strcmp("H2_SECONDARY_IN", f->frec->name)) { - f->r = r; - break; - } -@@ -744,17 +743,15 @@ - - static int h2_h2_late_fixups(request_rec *r) - { -- /* slave connection? */ -+ /* secondary connection? */ - if (r->connection->master) { -- h2_ctx *ctx = h2_ctx_rget(r); -- struct h2_task *task = h2_ctx_get_task(ctx); -+ struct h2_task *task = h2_ctx_get_task(r->connection); - if (task) { - /* check if we copy vs. setaside files in this location */ -- task->output.copy_files = h2_config_geti(h2_config_rget(r), -- H2_CONF_COPY_FILES); -+ task->output.copy_files = h2_config_rgeti(r, H2_CONF_COPY_FILES); - if (task->output.copy_files) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, task->c, -- "h2_slave_out(%s): copy_files on", task->id); -+ "h2_secondary_out(%s): copy_files on", task->id); - h2_beam_on_file_beam(task->output.beam, h2_beam_no_files, NULL); - } - check_push(r, "late_fixup"); ---- a/modules/http2/h2_h2.h -+++ b/modules/http2/h2_h2.h -@@ -57,23 +57,15 @@ - * the handshake is still ongoing. - * @return != 0 iff connection requirements are met - */ --int h2_is_acceptable_connection(conn_rec *c, int require_all); -- --/** -- * Check if the "direct" HTTP/2 mode of protocol handling is enabled -- * for the given connection. -- * @param c the connection to check -- * @return != 0 iff direct mode is enabled -- */ --int h2_allows_h2_direct(conn_rec *c); -+int h2_is_acceptable_connection(conn_rec *c, request_rec *r, int require_all); - - /** - * Check if the "Upgrade" HTTP/1.1 mode of protocol switching is enabled -- * for the given connection. -- * @param c the connection to check -+ * for the given request. -+ * @param r the request to check - * @return != 0 iff Upgrade switching is enabled - */ --int h2_allows_h2_upgrade(conn_rec *c); -+int h2_allows_h2_upgrade(request_rec *r); - - - #endif /* defined(__mod_h2__h2_h2__) */ ---- a/modules/http2/h2_headers.c -+++ b/modules/http2/h2_headers.c -@@ -28,6 +28,7 @@ - - #include "h2_private.h" - #include "h2_h2.h" -+#include "h2_config.h" - #include "h2_util.h" - #include "h2_request.h" - #include "h2_headers.h" -@@ -101,8 +102,9 @@ - const apr_bucket *src) - { - if (H2_BUCKET_IS_HEADERS(src)) { -- h2_headers *r = ((h2_bucket_headers *)src->data)->headers; -- apr_bucket *b = h2_bucket_headers_create(dest->bucket_alloc, r); -+ h2_headers *src_headers = ((h2_bucket_headers *)src->data)->headers; -+ apr_bucket *b = h2_bucket_headers_create(dest->bucket_alloc, -+ h2_headers_clone(dest->p, src_headers)); - APR_BRIGADE_INSERT_TAIL(dest, b); - return b; - } -@@ -128,28 +130,41 @@ - { - h2_headers *headers = h2_headers_create(status, header, r->notes, 0, pool); - if (headers->status == HTTP_FORBIDDEN) { -- const char *cause = apr_table_get(r->notes, "ssl-renegotiate-forbidden"); -- if (cause) { -- /* This request triggered a TLS renegotiation that is now allowed -- * in HTTP/2. Tell the client that it should use HTTP/1.1 for this. -- */ -- ap_log_rerror(APLOG_MARK, APLOG_DEBUG, headers->status, r, -- APLOGNO(03061) -- "h2_headers(%ld): renegotiate forbidden, cause: %s", -- (long)r->connection->id, cause); -- headers->status = H2_ERR_HTTP_1_1_REQUIRED; -+ request_rec *r_prev; -+ for (r_prev = r; r_prev != NULL; r_prev = r_prev->prev) { -+ const char *cause = apr_table_get(r_prev->notes, "ssl-renegotiate-forbidden"); -+ if (cause) { -+ /* This request triggered a TLS renegotiation that is not allowed -+ * in HTTP/2. Tell the client that it should use HTTP/1.1 for this. -+ */ -+ ap_log_rerror(APLOG_MARK, APLOG_DEBUG, headers->status, r, -+ APLOGNO(03061) -+ "h2_headers(%ld): renegotiate forbidden, cause: %s", -+ (long)r->connection->id, cause); -+ headers->status = H2_ERR_HTTP_1_1_REQUIRED; -+ break; -+ } - } - } - if (is_unsafe(r->server)) { -- apr_table_setn(headers->notes, H2_HDR_CONFORMANCE, -- H2_HDR_CONFORMANCE_UNSAFE); -+ apr_table_setn(headers->notes, H2_HDR_CONFORMANCE, H2_HDR_CONFORMANCE_UNSAFE); -+ } -+ if (h2_config_rgeti(r, H2_CONF_PUSH) == 0 && h2_config_sgeti(r->server, H2_CONF_PUSH) != 0) { -+ apr_table_setn(headers->notes, H2_PUSH_MODE_NOTE, "0"); - } - return headers; - } - - h2_headers *h2_headers_copy(apr_pool_t *pool, h2_headers *h) - { -- return h2_headers_create(h->status, h->headers, h->notes, h->raw_bytes, pool); -+ return h2_headers_create(h->status, apr_table_copy(pool, h->headers), -+ apr_table_copy(pool, h->notes), h->raw_bytes, pool); -+} -+ -+h2_headers *h2_headers_clone(apr_pool_t *pool, h2_headers *h) -+{ -+ return h2_headers_create(h->status, apr_table_clone(pool, h->headers), -+ apr_table_clone(pool, h->notes), h->raw_bytes, pool); - } - - h2_headers *h2_headers_die(apr_status_t type, ---- a/modules/http2/h2_headers.h -+++ b/modules/http2/h2_headers.h -@@ -59,12 +59,18 @@ - apr_table_t *header, apr_pool_t *pool); - - /** -- * Clone the headers into another pool. This will not copy any -+ * Copy the headers into another pool. This will not copy any - * header strings. - */ - h2_headers *h2_headers_copy(apr_pool_t *pool, h2_headers *h); - - /** -+ * Clone the headers into another pool. This will also clone any -+ * header strings. -+ */ -+h2_headers *h2_headers_clone(apr_pool_t *pool, h2_headers *h); -+ -+/** - * Create the headers for the given error. - * @param stream_id id of the stream to create the headers for - * @param type the error code ---- a/modules/http2/h2_mplx.c -+++ b/modules/http2/h2_mplx.c -@@ -40,7 +40,6 @@ - #include "h2_ctx.h" - #include "h2_h2.h" - #include "h2_mplx.h" --#include "h2_ngn_shed.h" - #include "h2_request.h" - #include "h2_stream.h" - #include "h2_session.h" -@@ -54,9 +53,21 @@ - h2_mplx *m; - h2_stream *stream; - apr_time_t now; -+ apr_size_t count; - } stream_iter_ctx; - --apr_status_t h2_mplx_child_init(apr_pool_t *pool, server_rec *s) -+/** -+ * Naming convention for static functions: -+ * - m_*: function only called from the master connection -+ * - s_*: function only called from a secondary connection -+ * - t_*: function only called from a h2_task holder -+ * - mst_*: function called from everyone -+ */ -+ -+static apr_status_t s_mplx_be_happy(h2_mplx *m, h2_task *task); -+static apr_status_t m_be_annoyed(h2_mplx *m); -+ -+apr_status_t h2_mplx_m_child_init(apr_pool_t *pool, server_rec *s) - { - return APR_SUCCESS; - } -@@ -72,46 +83,40 @@ - #define H2_MPLX_ENTER_ALWAYS(m) \ - apr_thread_mutex_lock(m->lock) - --#define H2_MPLX_ENTER_MAYBE(m, lock) \ -- if (lock) apr_thread_mutex_lock(m->lock) -+#define H2_MPLX_ENTER_MAYBE(m, dolock) \ -+ if (dolock) apr_thread_mutex_lock(m->lock) - --#define H2_MPLX_LEAVE_MAYBE(m, lock) \ -- if (lock) apr_thread_mutex_unlock(m->lock) -+#define H2_MPLX_LEAVE_MAYBE(m, dolock) \ -+ if (dolock) apr_thread_mutex_unlock(m->lock) - --static void check_data_for(h2_mplx *m, h2_stream *stream, int lock); -+static void mst_check_data_for(h2_mplx *m, h2_stream *stream, int mplx_is_locked); - --static void stream_output_consumed(void *ctx, -- h2_bucket_beam *beam, apr_off_t length) -+static void mst_stream_output_consumed(void *ctx, h2_bucket_beam *beam, apr_off_t length) - { -- h2_stream *stream = ctx; -- h2_task *task = stream->task; -- -- if (length > 0 && task && task->assigned) { -- h2_req_engine_out_consumed(task->assigned, task->c, length); -- } - } - --static void stream_input_ev(void *ctx, h2_bucket_beam *beam) -+static void mst_stream_input_ev(void *ctx, h2_bucket_beam *beam) - { - h2_stream *stream = ctx; - h2_mplx *m = stream->session->mplx; - apr_atomic_set32(&m->event_pending, 1); - } - --static void stream_input_consumed(void *ctx, h2_bucket_beam *beam, apr_off_t length) -+static void m_stream_input_consumed(void *ctx, h2_bucket_beam *beam, apr_off_t length) - { - h2_stream_in_consumed(ctx, length); - } - --static void stream_joined(h2_mplx *m, h2_stream *stream) -+static void ms_stream_joined(h2_mplx *m, h2_stream *stream) - { -- ap_assert(!stream->task || stream->task->worker_done); -+ ap_assert(!h2_task_has_started(stream->task) || stream->task->worker_done); - -+ h2_ififo_remove(m->readyq, stream->id); - h2_ihash_remove(m->shold, stream->id); - h2_ihash_add(m->spurge, stream); - } - --static void stream_cleanup(h2_mplx *m, h2_stream *stream) -+static void m_stream_cleanup(h2_mplx *m, h2_stream *stream) - { - ap_assert(stream->state == H2_SS_CLEANUP); - -@@ -128,15 +133,16 @@ - - h2_ihash_remove(m->streams, stream->id); - h2_iq_remove(m->q, stream->id); -- h2_ififo_remove(m->readyq, stream->id); -- h2_ihash_add(m->shold, stream); - -- if (!stream->task || stream->task->worker_done) { -- stream_joined(m, stream); -+ if (!h2_task_has_started(stream->task) || stream->task->done_done) { -+ ms_stream_joined(m, stream); - } -- else if (stream->task) { -- stream->task->c->aborted = 1; -- apr_thread_cond_broadcast(m->task_thawed); -+ else { -+ h2_ififo_remove(m->readyq, stream->id); -+ h2_ihash_add(m->shold, stream); -+ if (stream->task) { -+ stream->task->c->aborted = 1; -+ } - } - } - -@@ -151,29 +157,23 @@ - * their HTTP/1 cousins, the separate allocator seems to work better - * than protecting a shared h2_session one with an own lock. - */ --h2_mplx *h2_mplx_create(conn_rec *c, apr_pool_t *parent, -- const h2_config *conf, -- h2_workers *workers) -+h2_mplx *h2_mplx_m_create(conn_rec *c, server_rec *s, apr_pool_t *parent, -+ h2_workers *workers) - { - apr_status_t status = APR_SUCCESS; - apr_allocator_t *allocator; - apr_thread_mutex_t *mutex; - h2_mplx *m; -- h2_ctx *ctx = h2_ctx_get(c, 0); -- ap_assert(conf); - - m = apr_pcalloc(parent, sizeof(h2_mplx)); - if (m) { - m->id = c->id; - m->c = c; -- m->s = (ctx? h2_ctx_server_get(ctx) : NULL); -- if (!m->s) { -- m->s = c->base_server; -- } -+ m->s = s; - - /* We create a pool with its own allocator to be used for -- * processing slave connections. This is the only way to have the -- * processing independant of its parent pool in the sense that it -+ * processing secondary connections. This is the only way to have the -+ * processing independent of its parent pool in the sense that it - * can work in another thread. Also, the new allocator needs its own - * mutex to synchronize sub-pools. - */ -@@ -204,17 +204,10 @@ - return NULL; - } - -- status = apr_thread_cond_create(&m->task_thawed, m->pool); -- if (status != APR_SUCCESS) { -- apr_pool_destroy(m->pool); -- return NULL; -- } -- -- m->max_streams = h2_config_geti(conf, H2_CONF_MAX_STREAMS); -- m->stream_max_mem = h2_config_geti(conf, H2_CONF_STREAM_MAX_MEM); -+ m->max_streams = h2_config_sgeti(s, H2_CONF_MAX_STREAMS); -+ m->stream_max_mem = h2_config_sgeti(s, H2_CONF_STREAM_MAX_MEM); - - m->streams = h2_ihash_create(m->pool, offsetof(h2_stream,id)); -- m->sredo = h2_ihash_create(m->pool, offsetof(h2_stream,id)); - m->shold = h2_ihash_create(m->pool, offsetof(h2_stream,id)); - m->spurge = h2_ihash_create(m->pool, offsetof(h2_stream,id)); - m->q = h2_iq_create(m->pool, m->max_streams); -@@ -228,19 +221,15 @@ - m->workers = workers; - m->max_active = workers->max_workers; - m->limit_active = 6; /* the original h1 max parallel connections */ -- m->last_limit_change = m->last_idle_block = apr_time_now(); -- m->limit_change_interval = apr_time_from_msec(100); -- -- m->spare_slaves = apr_array_make(m->pool, 10, sizeof(conn_rec*)); -+ m->last_mood_change = apr_time_now(); -+ m->mood_update_interval = apr_time_from_msec(100); - -- m->ngn_shed = h2_ngn_shed_create(m->pool, m->c, m->max_streams, -- m->stream_max_mem); -- h2_ngn_shed_set_ctx(m->ngn_shed , m); -+ m->spare_secondary = apr_array_make(m->pool, 10, sizeof(conn_rec*)); - } - return m; - } - --int h2_mplx_shutdown(h2_mplx *m) -+int h2_mplx_m_shutdown(h2_mplx *m) - { - int max_stream_started = 0; - -@@ -254,7 +243,7 @@ - return max_stream_started; - } - --static int input_consumed_signal(h2_mplx *m, h2_stream *stream) -+static int m_input_consumed_signal(h2_mplx *m, h2_stream *stream) - { - if (stream->input) { - return h2_beam_report_consumption(stream->input); -@@ -262,12 +251,12 @@ - return 0; - } - --static int report_consumption_iter(void *ctx, void *val) -+static int m_report_consumption_iter(void *ctx, void *val) - { - h2_stream *stream = val; - h2_mplx *m = ctx; - -- input_consumed_signal(m, stream); -+ m_input_consumed_signal(m, stream); - if (stream->state == H2_SS_CLOSED_L - && (!stream->task || stream->task->worker_done)) { - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, m->c, -@@ -278,7 +267,7 @@ - return 1; - } - --static int output_consumed_signal(h2_mplx *m, h2_task *task) -+static int s_output_consumed_signal(h2_mplx *m, h2_task *task) - { - if (task->output.beam) { - return h2_beam_report_consumption(task->output.beam); -@@ -286,7 +275,7 @@ - return 0; - } - --static int stream_destroy_iter(void *ctx, void *val) -+static int m_stream_destroy_iter(void *ctx, void *val) - { - h2_mplx *m = ctx; - h2_stream *stream = val; -@@ -296,7 +285,7 @@ - - if (stream->input) { - /* Process outstanding events before destruction */ -- input_consumed_signal(m, stream); -+ m_input_consumed_signal(m, stream); - h2_beam_log(stream->input, m->c, APLOG_TRACE2, "stream_destroy"); - h2_beam_destroy(stream->input); - stream->input = NULL; -@@ -304,12 +293,12 @@ - - if (stream->task) { - h2_task *task = stream->task; -- conn_rec *slave; -- int reuse_slave = 0; -+ conn_rec *secondary; -+ int reuse_secondary = 0; - - stream->task = NULL; -- slave = task->c; -- if (slave) { -+ secondary = task->c; -+ if (secondary) { - /* On non-serialized requests, the IO logging has not accounted for any - * meta data send over the network: response headers and h2 frame headers. we - * counted this on the stream and need to add this now. -@@ -318,26 +307,25 @@ - if (task->request && !task->request->serialize && h2_task_logio_add_bytes_out) { - apr_off_t unaccounted = stream->out_frame_octets - stream->out_data_octets; - if (unaccounted > 0) { -- h2_task_logio_add_bytes_out(slave, unaccounted); -+ h2_task_logio_add_bytes_out(secondary, unaccounted); - } - } - -- if (m->s->keep_alive_max == 0 || slave->keepalives < m->s->keep_alive_max) { -- reuse_slave = ((m->spare_slaves->nelts < (m->limit_active * 3 / 2)) -- && !task->rst_error); -+ if (m->s->keep_alive_max == 0 || secondary->keepalives < m->s->keep_alive_max) { -+ reuse_secondary = ((m->spare_secondary->nelts < (m->limit_active * 3 / 2)) -+ && !task->rst_error); - } - -- task->c = NULL; -- if (reuse_slave) { -+ if (reuse_secondary) { - h2_beam_log(task->output.beam, m->c, APLOG_DEBUG, -- APLOGNO(03385) "h2_task_destroy, reuse slave"); -+ APLOGNO(03385) "h2_task_destroy, reuse secondary"); - h2_task_destroy(task); -- APR_ARRAY_PUSH(m->spare_slaves, conn_rec*) = slave; -+ APR_ARRAY_PUSH(m->spare_secondary, conn_rec*) = secondary; - } - else { - h2_beam_log(task->output.beam, m->c, APLOG_TRACE1, -- "h2_task_destroy, destroy slave"); -- h2_slave_destroy(slave); -+ "h2_task_destroy, destroy secondary"); -+ h2_secondary_destroy(secondary); - } - } - } -@@ -345,11 +333,11 @@ - return 0; - } - --static void purge_streams(h2_mplx *m, int lock) -+static void m_purge_streams(h2_mplx *m, int lock) - { - if (!h2_ihash_empty(m->spurge)) { - H2_MPLX_ENTER_MAYBE(m, lock); -- while (!h2_ihash_iter(m->spurge, stream_destroy_iter, m)) { -+ while (!h2_ihash_iter(m->spurge, m_stream_destroy_iter, m)) { - /* repeat until empty */ - } - H2_MPLX_LEAVE_MAYBE(m, lock); -@@ -361,13 +349,13 @@ - void *ctx; - } stream_iter_ctx_t; - --static int stream_iter_wrap(void *ctx, void *stream) -+static int m_stream_iter_wrap(void *ctx, void *stream) - { - stream_iter_ctx_t *x = ctx; - return x->cb(stream, x->ctx); - } - --apr_status_t h2_mplx_stream_do(h2_mplx *m, h2_mplx_stream_cb *cb, void *ctx) -+apr_status_t h2_mplx_m_stream_do(h2_mplx *m, h2_mplx_stream_cb *cb, void *ctx) - { - stream_iter_ctx_t x; - -@@ -375,13 +363,13 @@ - - x.cb = cb; - x.ctx = ctx; -- h2_ihash_iter(m->streams, stream_iter_wrap, &x); -+ h2_ihash_iter(m->streams, m_stream_iter_wrap, &x); - - H2_MPLX_LEAVE(m); - return APR_SUCCESS; - } - --static int report_stream_iter(void *ctx, void *val) { -+static int m_report_stream_iter(void *ctx, void *val) { - h2_mplx *m = ctx; - h2_stream *stream = val; - h2_task *task = stream->task; -@@ -394,10 +382,10 @@ - if (task) { - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, m->c, /* NO APLOGNO */ - H2_STRM_MSG(stream, "->03198: %s %s %s" -- "[started=%d/done=%d/frozen=%d]"), -+ "[started=%d/done=%d]"), - task->request->method, task->request->authority, - task->request->path, task->worker_started, -- task->worker_done, task->frozen); -+ task->worker_done); - } - else { - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, m->c, /* NO APLOGNO */ -@@ -406,7 +394,7 @@ - return 1; - } - --static int unexpected_stream_iter(void *ctx, void *val) { -+static int m_unexpected_stream_iter(void *ctx, void *val) { - h2_mplx *m = ctx; - h2_stream *stream = val; - ap_log_cerror(APLOG_MARK, APLOG_WARNING, 0, m->c, /* NO APLOGNO */ -@@ -415,7 +403,7 @@ - return 1; - } - --static int stream_cancel_iter(void *ctx, void *val) { -+static int m_stream_cancel_iter(void *ctx, void *val) { - h2_mplx *m = ctx; - h2_stream *stream = val; - -@@ -429,14 +417,14 @@ - h2_stream_rst(stream, H2_ERR_NO_ERROR); - /* All connection data has been sent, simulate cleanup */ - h2_stream_dispatch(stream, H2_SEV_EOS_SENT); -- stream_cleanup(m, stream); -+ m_stream_cleanup(m, stream); - return 0; - } - --void h2_mplx_release_and_join(h2_mplx *m, apr_thread_cond_t *wait) -+void h2_mplx_m_release_and_join(h2_mplx *m, apr_thread_cond_t *wait) - { - apr_status_t status; -- int i, wait_secs = 60; -+ int i, wait_secs = 60, old_aborted; - - ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, m->c, - "h2_mplx(%ld): start release", m->id); -@@ -447,15 +435,23 @@ - - H2_MPLX_ENTER_ALWAYS(m); - -+ /* While really terminating any secondary connections, treat the master -+ * connection as aborted. It's not as if we could send any more data -+ * at this point. */ -+ old_aborted = m->c->aborted; -+ m->c->aborted = 1; -+ - /* How to shut down a h2 connection: - * 1. cancel all streams still active */ -- while (!h2_ihash_iter(m->streams, stream_cancel_iter, m)) { -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, m->c, -+ "h2_mplx(%ld): release, %d/%d/%d streams (total/hold/purge), %d active tasks", -+ m->id, (int)h2_ihash_count(m->streams), -+ (int)h2_ihash_count(m->shold), (int)h2_ihash_count(m->spurge), m->tasks_active); -+ while (!h2_ihash_iter(m->streams, m_stream_cancel_iter, m)) { - /* until empty */ - } - -- /* 2. terminate ngn_shed, no more streams -- * should be scheduled or in the active set */ -- h2_ngn_shed_abort(m->ngn_shed); -+ /* 2. no more streams should be scheduled or in the active set */ - ap_assert(h2_ihash_empty(m->streams)); - ap_assert(h2_iq_empty(m->q)); - -@@ -473,65 +469,60 @@ - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, m->c, APLOGNO(03198) - "h2_mplx(%ld): waited %d sec for %d tasks", - m->id, i*wait_secs, (int)h2_ihash_count(m->shold)); -- h2_ihash_iter(m->shold, report_stream_iter, m); -+ h2_ihash_iter(m->shold, m_report_stream_iter, m); - } - } -- ap_assert(m->tasks_active == 0); - m->join_wait = NULL; -- -- /* 4. close the h2_req_enginge shed */ -- h2_ngn_shed_destroy(m->ngn_shed); -- m->ngn_shed = NULL; -- -+ - /* 4. With all workers done, all streams should be in spurge */ -+ ap_assert(m->tasks_active == 0); - if (!h2_ihash_empty(m->shold)) { - ap_log_cerror(APLOG_MARK, APLOG_WARNING, 0, m->c, APLOGNO(03516) - "h2_mplx(%ld): unexpected %d streams in hold", - m->id, (int)h2_ihash_count(m->shold)); -- h2_ihash_iter(m->shold, unexpected_stream_iter, m); -+ h2_ihash_iter(m->shold, m_unexpected_stream_iter, m); - } - -+ m->c->aborted = old_aborted; - H2_MPLX_LEAVE(m); - -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, m->c, -- "h2_mplx(%ld): released", m->id); -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, m->c, "h2_mplx(%ld): released", m->id); - } - --apr_status_t h2_mplx_stream_cleanup(h2_mplx *m, h2_stream *stream) -+apr_status_t h2_mplx_m_stream_cleanup(h2_mplx *m, h2_stream *stream) - { - H2_MPLX_ENTER(m); - - ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, m->c, - H2_STRM_MSG(stream, "cleanup")); -- stream_cleanup(m, stream); -+ m_stream_cleanup(m, stream); - - H2_MPLX_LEAVE(m); - return APR_SUCCESS; - } - --h2_stream *h2_mplx_stream_get(h2_mplx *m, int id) -+h2_stream *h2_mplx_t_stream_get(h2_mplx *m, h2_task *task) - { - h2_stream *s = NULL; - - H2_MPLX_ENTER_ALWAYS(m); - -- s = h2_ihash_get(m->streams, id); -+ s = h2_ihash_get(m->streams, task->stream_id); - - H2_MPLX_LEAVE(m); - return s; - } - --static void output_produced(void *ctx, h2_bucket_beam *beam, apr_off_t bytes) -+static void mst_output_produced(void *ctx, h2_bucket_beam *beam, apr_off_t bytes) - { - h2_stream *stream = ctx; - h2_mplx *m = stream->session->mplx; - -- check_data_for(m, stream, 1); -+ mst_check_data_for(m, stream, 0); - } - --static apr_status_t out_open(h2_mplx *m, int stream_id, h2_bucket_beam *beam) -+static apr_status_t t_out_open(h2_mplx *m, int stream_id, h2_bucket_beam *beam) - { -- apr_status_t status = APR_SUCCESS; - h2_stream *stream = h2_ihash_get(m->streams, stream_id); - - if (!stream || !stream->task || m->aborted) { -@@ -542,26 +533,26 @@ - stream->output = beam; - - if (APLOGctrace2(m->c)) { -- h2_beam_log(beam, m->c, APLOG_TRACE2, "out_open"); -+ h2_beam_log(beam, stream->task->c, APLOG_TRACE2, "out_open"); - } - else { -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, status, m->c, -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, stream->task->c, - "h2_mplx(%s): out open", stream->task->id); - } - -- h2_beam_on_consumed(stream->output, NULL, stream_output_consumed, stream); -- h2_beam_on_produced(stream->output, output_produced, stream); -+ h2_beam_on_consumed(stream->output, NULL, mst_stream_output_consumed, stream); -+ h2_beam_on_produced(stream->output, mst_output_produced, stream); - if (stream->task->output.copy_files) { - h2_beam_on_file_beam(stream->output, h2_beam_no_files, NULL); - } - - /* we might see some file buckets in the output, see - * if we have enough handles reserved. */ -- check_data_for(m, stream, 0); -- return status; -+ mst_check_data_for(m, stream, 1); -+ return APR_SUCCESS; - } - --apr_status_t h2_mplx_out_open(h2_mplx *m, int stream_id, h2_bucket_beam *beam) -+apr_status_t h2_mplx_t_out_open(h2_mplx *m, int stream_id, h2_bucket_beam *beam) - { - apr_status_t status; - -@@ -571,14 +562,14 @@ - status = APR_ECONNABORTED; - } - else { -- status = out_open(m, stream_id, beam); -+ status = t_out_open(m, stream_id, beam); - } - - H2_MPLX_LEAVE(m); - return status; - } - --static apr_status_t out_close(h2_mplx *m, h2_task *task) -+static apr_status_t s_out_close(h2_mplx *m, h2_task *task) - { - apr_status_t status = APR_SUCCESS; - h2_stream *stream; -@@ -595,17 +586,17 @@ - return APR_ECONNABORTED; - } - -- ap_log_cerror(APLOG_MARK, APLOG_TRACE2, status, m->c, -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE2, status, task->c, - "h2_mplx(%s): close", task->id); - status = h2_beam_close(task->output.beam); -- h2_beam_log(task->output.beam, m->c, APLOG_TRACE2, "out_close"); -- output_consumed_signal(m, task); -- check_data_for(m, stream, 0); -+ h2_beam_log(task->output.beam, task->c, APLOG_TRACE2, "out_close"); -+ s_output_consumed_signal(m, task); -+ mst_check_data_for(m, stream, 1); - return status; - } - --apr_status_t h2_mplx_out_trywait(h2_mplx *m, apr_interval_time_t timeout, -- apr_thread_cond_t *iowait) -+apr_status_t h2_mplx_m_out_trywait(h2_mplx *m, apr_interval_time_t timeout, -+ apr_thread_cond_t *iowait) - { - apr_status_t status; - -@@ -614,12 +605,12 @@ - if (m->aborted) { - status = APR_ECONNABORTED; - } -- else if (h2_mplx_has_master_events(m)) { -+ else if (h2_mplx_m_has_master_events(m)) { - status = APR_SUCCESS; - } - else { -- purge_streams(m, 0); -- h2_ihash_iter(m->streams, report_consumption_iter, m); -+ m_purge_streams(m, 0); -+ h2_ihash_iter(m->streams, m_report_consumption_iter, m); - m->added_output = iowait; - status = apr_thread_cond_timedwait(m->added_output, m->lock, timeout); - if (APLOGctrace2(m->c)) { -@@ -634,19 +625,27 @@ - return status; - } - --static void check_data_for(h2_mplx *m, h2_stream *stream, int lock) -+static void mst_check_data_for(h2_mplx *m, h2_stream *stream, int mplx_is_locked) - { -+ /* If m->lock is already held, we must release during h2_ififo_push() -+ * which can wait on its not_full condition, causing a deadlock because -+ * no one would then be able to acquire m->lock to empty the fifo. -+ */ -+ H2_MPLX_LEAVE_MAYBE(m, mplx_is_locked); - if (h2_ififo_push(m->readyq, stream->id) == APR_SUCCESS) { -+ H2_MPLX_ENTER_ALWAYS(m); - apr_atomic_set32(&m->event_pending, 1); -- H2_MPLX_ENTER_MAYBE(m, lock); - if (m->added_output) { - apr_thread_cond_signal(m->added_output); - } -- H2_MPLX_LEAVE_MAYBE(m, lock); -+ H2_MPLX_LEAVE_MAYBE(m, !mplx_is_locked); -+ } -+ else { -+ H2_MPLX_ENTER_MAYBE(m, mplx_is_locked); - } - } - --apr_status_t h2_mplx_reprioritize(h2_mplx *m, h2_stream_pri_cmp *cmp, void *ctx) -+apr_status_t h2_mplx_m_reprioritize(h2_mplx *m, h2_stream_pri_cmp *cmp, void *ctx) - { - apr_status_t status; - -@@ -666,22 +665,22 @@ - return status; - } - --static void register_if_needed(h2_mplx *m) -+static void ms_register_if_needed(h2_mplx *m, int from_master) - { - if (!m->aborted && !m->is_registered && !h2_iq_empty(m->q)) { - apr_status_t status = h2_workers_register(m->workers, m); - if (status == APR_SUCCESS) { - m->is_registered = 1; - } -- else { -+ else if (from_master) { - ap_log_cerror(APLOG_MARK, APLOG_ERR, status, m->c, APLOGNO(10021) - "h2_mplx(%ld): register at workers", m->id); - } - } - } - --apr_status_t h2_mplx_process(h2_mplx *m, struct h2_stream *stream, -- h2_stream_pri_cmp *cmp, void *ctx) -+apr_status_t h2_mplx_m_process(h2_mplx *m, struct h2_stream *stream, -+ h2_stream_pri_cmp *cmp, void *ctx) - { - apr_status_t status; - -@@ -695,13 +694,13 @@ - h2_ihash_add(m->streams, stream); - if (h2_stream_is_ready(stream)) { - /* already have a response */ -- check_data_for(m, stream, 0); -+ mst_check_data_for(m, stream, 1); - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, m->c, - H2_STRM_MSG(stream, "process, add to readyq")); - } - else { - h2_iq_add(m->q, stream->id, cmp, ctx); -- register_if_needed(m); -+ ms_register_if_needed(m, 1); - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, m->c, - H2_STRM_MSG(stream, "process, added to q")); - } -@@ -711,7 +710,7 @@ - return status; - } - --static h2_task *next_stream_task(h2_mplx *m) -+static h2_task *s_next_stream_task(h2_mplx *m) - { - h2_stream *stream; - int sid; -@@ -720,40 +719,39 @@ - - stream = h2_ihash_get(m->streams, sid); - if (stream) { -- conn_rec *slave, **pslave; -+ conn_rec *secondary, **psecondary; - -- pslave = (conn_rec **)apr_array_pop(m->spare_slaves); -- if (pslave) { -- slave = *pslave; -- slave->aborted = 0; -+ psecondary = (conn_rec **)apr_array_pop(m->spare_secondary); -+ if (psecondary) { -+ secondary = *psecondary; -+ secondary->aborted = 0; - } - else { -- slave = h2_slave_create(m->c, stream->id, m->pool); -+ secondary = h2_secondary_create(m->c, stream->id, m->pool); - } - - if (!stream->task) { -- - if (sid > m->max_stream_started) { - m->max_stream_started = sid; - } - if (stream->input) { -- h2_beam_on_consumed(stream->input, stream_input_ev, -- stream_input_consumed, stream); -+ h2_beam_on_consumed(stream->input, mst_stream_input_ev, -+ m_stream_input_consumed, stream); - } - -- stream->task = h2_task_create(slave, stream->id, -+ stream->task = h2_task_create(secondary, stream->id, - stream->request, m, stream->input, - stream->session->s->timeout, - m->stream_max_mem); - if (!stream->task) { -- ap_log_cerror(APLOG_MARK, APLOG_ERR, APR_ENOMEM, slave, -+ ap_log_cerror(APLOG_MARK, APLOG_ERR, APR_ENOMEM, secondary, - H2_STRM_LOG(APLOGNO(02941), stream, - "create task")); - return NULL; - } -- - } - -+ stream->task->started_at = apr_time_now(); - ++m->tasks_active; - return stream->task; - } -@@ -761,7 +759,7 @@ - return NULL; - } - --apr_status_t h2_mplx_pop_task(h2_mplx *m, h2_task **ptask) -+apr_status_t h2_mplx_s_pop_task(h2_mplx *m, h2_task **ptask) - { - apr_status_t rv = APR_EOF; - -@@ -777,7 +775,7 @@ - rv = APR_EOF; - } - else { -- *ptask = next_stream_task(m); -+ *ptask = s_next_stream_task(m); - rv = (*ptask != NULL && !h2_iq_empty(m->q))? APR_EAGAIN : APR_SUCCESS; - } - if (APR_EAGAIN != rv) { -@@ -787,127 +785,87 @@ - return rv; - } - --static void task_done(h2_mplx *m, h2_task *task, h2_req_engine *ngn) -+static void s_task_done(h2_mplx *m, h2_task *task) - { - h2_stream *stream; - -- if (task->frozen) { -- /* this task was handed over to an engine for processing -- * and the original worker has finished. That means the -- * engine may start processing now. */ -- h2_task_thaw(task); -- apr_thread_cond_broadcast(m->task_thawed); -- return; -- } -- -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, m->c, -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, task->c, - "h2_mplx(%ld): task(%s) done", m->id, task->id); -- out_close(m, task); -- -- if (ngn) { -- apr_off_t bytes = 0; -- h2_beam_send(task->output.beam, NULL, APR_NONBLOCK_READ); -- bytes += h2_beam_get_buffered(task->output.beam); -- if (bytes > 0) { -- /* we need to report consumed and current buffered output -- * to the engine. The request will be streamed out or cancelled, -- * no more data is coming from it and the engine should update -- * its calculations before we destroy this information. */ -- h2_req_engine_out_consumed(ngn, task->c, bytes); -- } -- } -- -- if (task->engine) { -- if (!m->aborted && !task->c->aborted -- && !h2_req_engine_is_shutdown(task->engine)) { -- ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, m->c, APLOGNO(10022) -- "h2_mplx(%ld): task(%s) has not-shutdown " -- "engine(%s)", m->id, task->id, -- h2_req_engine_get_id(task->engine)); -- } -- h2_ngn_shed_done_ngn(m->ngn_shed, task->engine); -- } -+ s_out_close(m, task); - - task->worker_done = 1; - task->done_at = apr_time_now(); -- ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, m->c, -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, task->c, - "h2_mplx(%s): request done, %f ms elapsed", task->id, - (task->done_at - task->started_at) / 1000.0); - -- if (task->started_at > m->last_idle_block) { -- /* this task finished without causing an 'idle block', e.g. -- * a block by flow control. -- */ -- if (task->done_at- m->last_limit_change >= m->limit_change_interval -- && m->limit_active < m->max_active) { -- /* Well behaving stream, allow it more workers */ -- m->limit_active = H2MIN(m->limit_active * 2, -- m->max_active); -- m->last_limit_change = task->done_at; -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, m->c, -- "h2_mplx(%ld): increase worker limit to %d", -- m->id, m->limit_active); -- } -+ if (task->c && !task->c->aborted && task->started_at > m->last_mood_change) { -+ s_mplx_be_happy(m, task); - } - -+ ap_assert(task->done_done == 0); -+ - stream = h2_ihash_get(m->streams, task->stream_id); - if (stream) { - /* stream not done yet. */ -- if (!m->aborted && h2_ihash_get(m->sredo, stream->id)) { -+ if (!m->aborted && task->redo) { - /* reset and schedule again */ - h2_task_redo(task); -- h2_ihash_remove(m->sredo, stream->id); - h2_iq_add(m->q, stream->id, NULL, NULL); -+ ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, task->c, -+ H2_STRM_MSG(stream, "redo, added to q")); - } - else { - /* stream not cleaned up, stay around */ -- ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, m->c, -+ task->done_done = 1; -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, task->c, - H2_STRM_MSG(stream, "task_done, stream open")); - if (stream->input) { - h2_beam_leave(stream->input); - } - - /* more data will not arrive, resume the stream */ -- check_data_for(m, stream, 0); -+ mst_check_data_for(m, stream, 1); - } - } - else if ((stream = h2_ihash_get(m->shold, task->stream_id)) != NULL) { - /* stream is done, was just waiting for this. */ -- ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, m->c, -+ task->done_done = 1; -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, task->c, - H2_STRM_MSG(stream, "task_done, in hold")); - if (stream->input) { - h2_beam_leave(stream->input); - } -- stream_joined(m, stream); -+ ms_stream_joined(m, stream); - } - else if ((stream = h2_ihash_get(m->spurge, task->stream_id)) != NULL) { -- ap_log_cerror(APLOG_MARK, APLOG_WARNING, 0, m->c, -+ ap_log_cerror(APLOG_MARK, APLOG_WARNING, 0, task->c, - H2_STRM_LOG(APLOGNO(03517), stream, "already in spurge")); - ap_assert("stream should not be in spurge" == NULL); - } - else { -- ap_log_cerror(APLOG_MARK, APLOG_WARNING, 0, m->c, APLOGNO(03518) -+ ap_log_cerror(APLOG_MARK, APLOG_WARNING, 0, task->c, APLOGNO(03518) - "h2_mplx(%s): task_done, stream not found", - task->id); - ap_assert("stream should still be available" == NULL); - } - } - --void h2_mplx_task_done(h2_mplx *m, h2_task *task, h2_task **ptask) -+void h2_mplx_s_task_done(h2_mplx *m, h2_task *task, h2_task **ptask) - { - H2_MPLX_ENTER_ALWAYS(m); - -- task_done(m, task, NULL); - --m->tasks_active; -+ s_task_done(m, task); - - if (m->join_wait) { - apr_thread_cond_signal(m->join_wait); - } - if (ptask) { - /* caller wants another task */ -- *ptask = next_stream_task(m); -+ *ptask = s_next_stream_task(m); - } -- register_if_needed(m); -+ ms_register_if_needed(m, 0); - - H2_MPLX_LEAVE(m); - } -@@ -916,94 +874,161 @@ - * h2_mplx DoS protection - ******************************************************************************/ - --static int latest_repeatable_unsubmitted_iter(void *data, void *val) -+static int m_timed_out_busy_iter(void *data, void *val) - { - stream_iter_ctx *ctx = data; - h2_stream *stream = val; -- -- if (stream->task && !stream->task->worker_done -- && h2_task_can_redo(stream->task) -- && !h2_ihash_get(ctx->m->sredo, stream->id)) { -- if (!h2_stream_is_ready(stream)) { -- /* this task occupies a worker, the response has not been submitted -- * yet, not been cancelled and it is a repeatable request -- * -> it can be re-scheduled later */ -- if (!ctx->stream -- || (ctx->stream->task->started_at < stream->task->started_at)) { -- /* we did not have one or this one was started later */ -- ctx->stream = stream; -- } -- } -+ if (h2_task_has_started(stream->task) && !stream->task->worker_done -+ && (ctx->now - stream->task->started_at) > stream->task->timeout) { -+ /* timed out stream occupying a worker, found */ -+ ctx->stream = stream; -+ return 0; - } - return 1; - } - --static h2_stream *get_latest_repeatable_unsubmitted_stream(h2_mplx *m) -+static h2_stream *m_get_timed_out_busy_stream(h2_mplx *m) - { - stream_iter_ctx ctx; - ctx.m = m; - ctx.stream = NULL; -- h2_ihash_iter(m->streams, latest_repeatable_unsubmitted_iter, &ctx); -+ ctx.now = apr_time_now(); -+ h2_ihash_iter(m->streams, m_timed_out_busy_iter, &ctx); - return ctx.stream; - } - --static int timed_out_busy_iter(void *data, void *val) -+static int m_latest_repeatable_unsubmitted_iter(void *data, void *val) - { - stream_iter_ctx *ctx = data; - h2_stream *stream = val; -- if (stream->task && !stream->task->worker_done -- && (ctx->now - stream->task->started_at) > stream->task->timeout) { -- /* timed out stream occupying a worker, found */ -- ctx->stream = stream; -- return 0; -+ -+ if (!stream->task) goto leave; -+ if (!h2_task_has_started(stream->task) || stream->task->worker_done) goto leave; -+ if (h2_stream_is_ready(stream)) goto leave; -+ if (stream->task->redo) { -+ ++ctx->count; -+ goto leave; -+ } -+ if (h2_task_can_redo(stream->task)) { -+ /* this task occupies a worker, the response has not been submitted -+ * yet, not been cancelled and it is a repeatable request -+ * -> we could redo it later */ -+ if (!ctx->stream -+ || (ctx->stream->task->started_at < stream->task->started_at)) { -+ /* we did not have one or this one was started later */ -+ ctx->stream = stream; -+ } - } -+leave: - return 1; - } - --static h2_stream *get_timed_out_busy_stream(h2_mplx *m) -+static apr_status_t m_assess_task_to_throttle(h2_task **ptask, h2_mplx *m) - { - stream_iter_ctx ctx; -+ -+ /* count the running tasks already marked for redo and get one that could -+ * be throttled */ -+ *ptask = NULL; - ctx.m = m; - ctx.stream = NULL; -- ctx.now = apr_time_now(); -- h2_ihash_iter(m->streams, timed_out_busy_iter, &ctx); -- return ctx.stream; -+ ctx.count = 0; -+ h2_ihash_iter(m->streams, m_latest_repeatable_unsubmitted_iter, &ctx); -+ if (m->tasks_active - ctx.count > m->limit_active) { -+ /* we are above the limit of running tasks, accounting for the ones -+ * already throttled. */ -+ if (ctx.stream && ctx.stream->task) { -+ *ptask = ctx.stream->task; -+ return APR_EAGAIN; -+ } -+ /* above limit, be seeing no candidate for easy throttling */ -+ if (m_get_timed_out_busy_stream(m)) { -+ /* Too many busy workers, unable to cancel enough streams -+ * and with a busy, timed out stream, we tell the client -+ * to go away... */ -+ return APR_TIMEUP; -+ } -+ } -+ return APR_SUCCESS; - } - --static apr_status_t unschedule_slow_tasks(h2_mplx *m) -+static apr_status_t m_unschedule_slow_tasks(h2_mplx *m) - { -- h2_stream *stream; -- int n; -+ h2_task *task; -+ apr_status_t rv; - - /* Try to get rid of streams that occupy workers. Look for safe requests - * that are repeatable. If none found, fail the connection. - */ -- n = (m->tasks_active - m->limit_active - (int)h2_ihash_count(m->sredo)); -- while (n > 0 && (stream = get_latest_repeatable_unsubmitted_stream(m))) { -+ while (APR_EAGAIN == (rv = m_assess_task_to_throttle(&task, m))) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, m->c, - "h2_mplx(%s): unschedule, resetting task for redo later", -- stream->task->id); -- h2_task_rst(stream->task, H2_ERR_CANCEL); -- h2_ihash_add(m->sredo, stream); -- --n; -+ task->id); -+ task->redo = 1; -+ h2_task_rst(task, H2_ERR_CANCEL); - } - -- if ((m->tasks_active - h2_ihash_count(m->sredo)) > m->limit_active) { -- h2_stream *stream = get_timed_out_busy_stream(m); -- if (stream) { -- /* Too many busy workers, unable to cancel enough streams -- * and with a busy, timed out stream, we tell the client -- * to go away... */ -- return APR_TIMEUP; -- } -+ return rv; -+} -+ -+static apr_status_t s_mplx_be_happy(h2_mplx *m, h2_task *task) -+{ -+ apr_time_t now; -+ -+ --m->irritations_since; -+ now = apr_time_now(); -+ if (m->limit_active < m->max_active -+ && (now - m->last_mood_change >= m->mood_update_interval -+ || m->irritations_since < -m->limit_active)) { -+ m->limit_active = H2MIN(m->limit_active * 2, m->max_active); -+ m->last_mood_change = now; -+ m->irritations_since = 0; -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, task->c, -+ "h2_mplx(%ld): mood update, increasing worker limit to %d", -+ m->id, m->limit_active); - } - return APR_SUCCESS; - } - --apr_status_t h2_mplx_idle(h2_mplx *m) -+static apr_status_t m_be_annoyed(h2_mplx *m) - { - apr_status_t status = APR_SUCCESS; - apr_time_t now; -+ -+ ++m->irritations_since; -+ now = apr_time_now(); -+ if (m->limit_active > 2 && -+ ((now - m->last_mood_change >= m->mood_update_interval) -+ || (m->irritations_since >= m->limit_active))) { -+ -+ if (m->limit_active > 16) { -+ m->limit_active = 16; -+ } -+ else if (m->limit_active > 8) { -+ m->limit_active = 8; -+ } -+ else if (m->limit_active > 4) { -+ m->limit_active = 4; -+ } -+ else if (m->limit_active > 2) { -+ m->limit_active = 2; -+ } -+ m->last_mood_change = now; -+ m->irritations_since = 0; -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, m->c, -+ "h2_mplx(%ld): mood update, decreasing worker limit to %d", -+ m->id, m->limit_active); -+ } -+ -+ if (m->tasks_active > m->limit_active) { -+ status = m_unschedule_slow_tasks(m); -+ } -+ return status; -+} -+ -+apr_status_t h2_mplx_m_idle(h2_mplx *m) -+{ -+ apr_status_t status = APR_SUCCESS; - apr_size_t scount; - - H2_MPLX_ENTER(m); -@@ -1023,31 +1048,7 @@ - * of busy workers we allow for this connection until it - * well behaves. - */ -- now = apr_time_now(); -- m->last_idle_block = now; -- if (m->limit_active > 2 -- && now - m->last_limit_change >= m->limit_change_interval) { -- if (m->limit_active > 16) { -- m->limit_active = 16; -- } -- else if (m->limit_active > 8) { -- m->limit_active = 8; -- } -- else if (m->limit_active > 4) { -- m->limit_active = 4; -- } -- else if (m->limit_active > 2) { -- m->limit_active = 2; -- } -- m->last_limit_change = now; -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, m->c, -- "h2_mplx(%ld): decrease worker limit to %d", -- m->id, m->limit_active); -- } -- -- if (m->tasks_active > m->limit_active) { -- status = unschedule_slow_tasks(m); -- } -+ status = m_be_annoyed(m); - } - else if (!h2_iq_empty(m->q)) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, m->c, -@@ -1077,167 +1078,30 @@ - h2_beam_is_closed(stream->output), - (long)h2_beam_get_buffered(stream->output)); - h2_ihash_add(m->streams, stream); -- check_data_for(m, stream, 0); -+ mst_check_data_for(m, stream, 1); - stream->out_checked = 1; - status = APR_EAGAIN; - } - } - } - } -- register_if_needed(m); -+ ms_register_if_needed(m, 1); - - H2_MPLX_LEAVE(m); - return status; - } - - /******************************************************************************* -- * HTTP/2 request engines -- ******************************************************************************/ -- --typedef struct { -- h2_mplx * m; -- h2_req_engine *ngn; -- int streams_updated; --} ngn_update_ctx; -- --static int ngn_update_window(void *ctx, void *val) --{ -- ngn_update_ctx *uctx = ctx; -- h2_stream *stream = val; -- if (stream->task && stream->task->assigned == uctx->ngn -- && output_consumed_signal(uctx->m, stream->task)) { -- ++uctx->streams_updated; -- } -- return 1; --} -- --static apr_status_t ngn_out_update_windows(h2_mplx *m, h2_req_engine *ngn) --{ -- ngn_update_ctx ctx; -- -- ctx.m = m; -- ctx.ngn = ngn; -- ctx.streams_updated = 0; -- h2_ihash_iter(m->streams, ngn_update_window, &ctx); -- -- return ctx.streams_updated? APR_SUCCESS : APR_EAGAIN; --} -- --apr_status_t h2_mplx_req_engine_push(const char *ngn_type, -- request_rec *r, -- http2_req_engine_init *einit) --{ -- apr_status_t status; -- h2_mplx *m; -- h2_task *task; -- h2_stream *stream; -- -- task = h2_ctx_rget_task(r); -- if (!task) { -- return APR_ECONNABORTED; -- } -- m = task->mplx; -- -- H2_MPLX_ENTER(m); -- -- stream = h2_ihash_get(m->streams, task->stream_id); -- if (stream) { -- status = h2_ngn_shed_push_request(m->ngn_shed, ngn_type, r, einit); -- } -- else { -- status = APR_ECONNABORTED; -- } -- -- H2_MPLX_LEAVE(m); -- return status; --} -- --apr_status_t h2_mplx_req_engine_pull(h2_req_engine *ngn, -- apr_read_type_e block, -- int capacity, -- request_rec **pr) --{ -- h2_ngn_shed *shed = h2_ngn_shed_get_shed(ngn); -- h2_mplx *m = h2_ngn_shed_get_ctx(shed); -- apr_status_t status; -- int want_shutdown; -- -- H2_MPLX_ENTER(m); -- -- want_shutdown = (block == APR_BLOCK_READ); -- -- /* Take this opportunity to update output consummation -- * for this engine */ -- ngn_out_update_windows(m, ngn); -- -- if (want_shutdown && !h2_iq_empty(m->q)) { -- /* For a blocking read, check first if requests are to be -- * had and, if not, wait a short while before doing the -- * blocking, and if unsuccessful, terminating read. -- */ -- status = h2_ngn_shed_pull_request(shed, ngn, capacity, 1, pr); -- if (APR_STATUS_IS_EAGAIN(status)) { -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, m->c, -- "h2_mplx(%ld): start block engine pull", m->id); -- apr_thread_cond_timedwait(m->task_thawed, m->lock, -- apr_time_from_msec(20)); -- status = h2_ngn_shed_pull_request(shed, ngn, capacity, 1, pr); -- } -- } -- else { -- status = h2_ngn_shed_pull_request(shed, ngn, capacity, -- want_shutdown, pr); -- } -- -- H2_MPLX_LEAVE(m); -- return status; --} -- --void h2_mplx_req_engine_done(h2_req_engine *ngn, conn_rec *r_conn, -- apr_status_t status) --{ -- h2_task *task = h2_ctx_cget_task(r_conn); -- -- if (task) { -- h2_mplx *m = task->mplx; -- h2_stream *stream; -- -- H2_MPLX_ENTER_ALWAYS(m); -- -- stream = h2_ihash_get(m->streams, task->stream_id); -- -- ngn_out_update_windows(m, ngn); -- h2_ngn_shed_done_task(m->ngn_shed, ngn, task); -- -- if (status != APR_SUCCESS && stream -- && h2_task_can_redo(task) -- && !h2_ihash_get(m->sredo, stream->id)) { -- h2_ihash_add(m->sredo, stream); -- } -- -- if (task->engine) { -- /* cannot report that as done until engine returns */ -- } -- else { -- task_done(m, task, ngn); -- } -- -- H2_MPLX_LEAVE(m); -- } --} -- --/******************************************************************************* - * mplx master events dispatching - ******************************************************************************/ - --int h2_mplx_has_master_events(h2_mplx *m) -+int h2_mplx_m_has_master_events(h2_mplx *m) - { - return apr_atomic_read32(&m->event_pending) > 0; - } - --apr_status_t h2_mplx_dispatch_master_events(h2_mplx *m, -- stream_ev_callback *on_resume, -- void *on_ctx) -+apr_status_t h2_mplx_m_dispatch_master_events(h2_mplx *m, stream_ev_callback *on_resume, -+ void *on_ctx) - { - h2_stream *stream; - int n, id; -@@ -1247,8 +1111,8 @@ - apr_atomic_set32(&m->event_pending, 0); - - /* update input windows for streams */ -- h2_ihash_iter(m->streams, report_consumption_iter, m); -- purge_streams(m, 1); -+ h2_ihash_iter(m->streams, m_report_consumption_iter, m); -+ m_purge_streams(m, 1); - - n = h2_ififo_count(m->readyq); - while (n > 0 -@@ -1263,13 +1127,13 @@ - return APR_SUCCESS; - } - --apr_status_t h2_mplx_keep_active(h2_mplx *m, h2_stream *stream) -+apr_status_t h2_mplx_m_keep_active(h2_mplx *m, h2_stream *stream) - { -- check_data_for(m, stream, 1); -+ mst_check_data_for(m, stream, 0); - return APR_SUCCESS; - } - --int h2_mplx_awaits_data(h2_mplx *m) -+int h2_mplx_m_awaits_data(h2_mplx *m) - { - int waiting = 1; - -@@ -1278,11 +1142,24 @@ - if (h2_ihash_empty(m->streams)) { - waiting = 0; - } -- else if (!m->tasks_active && !h2_ififo_count(m->readyq) -- && h2_iq_empty(m->q)) { -+ else if (!m->tasks_active && !h2_ififo_count(m->readyq) && h2_iq_empty(m->q)) { - waiting = 0; - } - - H2_MPLX_LEAVE(m); - return waiting; - } -+ -+apr_status_t h2_mplx_m_client_rst(h2_mplx *m, int stream_id) -+{ -+ h2_stream *stream; -+ apr_status_t status = APR_SUCCESS; -+ -+ H2_MPLX_ENTER_ALWAYS(m); -+ stream = h2_ihash_get(m->streams, stream_id); -+ if (stream && stream->task) { -+ status = m_be_annoyed(m); -+ } -+ H2_MPLX_LEAVE(m); -+ return status; -+} ---- a/modules/http2/h2_mplx.h -+++ b/modules/http2/h2_mplx.h -@@ -31,8 +31,10 @@ - * queued in the multiplexer. If a task thread tries to write more - * data, it is blocked until space becomes available. - * -- * Writing input is never blocked. In order to use flow control on the input, -- * the mplx can be polled for input data consumption. -+ * Naming Convention: -+ * "h2_mplx_m_" are methods only to be called by the main connection -+ * "h2_mplx_s_" are method only to be called by a secondary connection -+ * "h2_mplx_t_" are method only to be called by a task handler (can be master or secondary) - */ - - struct apr_pool_t; -@@ -47,8 +49,6 @@ - struct apr_thread_cond_t; - struct h2_workers; - struct h2_iqueue; --struct h2_ngn_shed; --struct h2_req_engine; - - #include <apr_queue.h> - -@@ -65,7 +65,6 @@ - unsigned int is_registered; /* is registered at h2_workers */ - - struct h2_ihash_t *streams; /* all streams currently processing */ -- struct h2_ihash_t *sredo; /* all streams that need to be re-started */ - struct h2_ihash_t *shold; /* all streams done with task ongoing */ - struct h2_ihash_t *spurge; /* all streams done, ready for destroy */ - -@@ -79,41 +78,35 @@ - int tasks_active; /* # of tasks being processed from this mplx */ - int limit_active; /* current limit on active tasks, dynamic */ - int max_active; /* max, hard limit # of active tasks in a process */ -- apr_time_t last_idle_block; /* last time, this mplx entered IDLE while -- * streams were ready */ -- apr_time_t last_limit_change; /* last time, worker limit changed */ -- apr_interval_time_t limit_change_interval; -+ -+ apr_time_t last_mood_change; /* last time, we worker limit changed */ -+ apr_interval_time_t mood_update_interval; /* how frequent we update at most */ -+ int irritations_since; /* irritations (>0) or happy events (<0) since last mood change */ - - apr_thread_mutex_t *lock; - struct apr_thread_cond_t *added_output; -- struct apr_thread_cond_t *task_thawed; - struct apr_thread_cond_t *join_wait; - - apr_size_t stream_max_mem; - - apr_pool_t *spare_io_pool; -- apr_array_header_t *spare_slaves; /* spare slave connections */ -+ apr_array_header_t *spare_secondary; /* spare secondary connections */ - - struct h2_workers *workers; -- -- struct h2_ngn_shed *ngn_shed; - }; - -- -- - /******************************************************************************* -- * Object lifecycle and information. -+ * From the main connection processing: h2_mplx_m_* - ******************************************************************************/ - --apr_status_t h2_mplx_child_init(apr_pool_t *pool, server_rec *s); -+apr_status_t h2_mplx_m_child_init(apr_pool_t *pool, server_rec *s); - - /** - * Create the multiplexer for the given HTTP2 session. - * Implicitly has reference count 1. - */ --h2_mplx *h2_mplx_create(conn_rec *c, apr_pool_t *master, -- const struct h2_config *conf, -- struct h2_workers *workers); -+h2_mplx *h2_mplx_m_create(conn_rec *c, server_rec *s, apr_pool_t *master, -+ struct h2_workers *workers); - - /** - * Decreases the reference counter of this mplx and waits for it -@@ -123,26 +116,14 @@ - * @param m the mplx to be released and destroyed - * @param wait condition var to wait on for ref counter == 0 - */ --void h2_mplx_release_and_join(h2_mplx *m, struct apr_thread_cond_t *wait); -- --apr_status_t h2_mplx_pop_task(h2_mplx *m, struct h2_task **ptask); -- --void h2_mplx_task_done(h2_mplx *m, struct h2_task *task, struct h2_task **ptask); -+void h2_mplx_m_release_and_join(h2_mplx *m, struct apr_thread_cond_t *wait); - - /** - * Shut down the multiplexer gracefully. Will no longer schedule new streams - * but let the ongoing ones finish normally. - * @return the highest stream id being/been processed - */ --int h2_mplx_shutdown(h2_mplx *m); -- --int h2_mplx_is_busy(h2_mplx *m); -- --/******************************************************************************* -- * IO lifetime of streams. -- ******************************************************************************/ -- --struct h2_stream *h2_mplx_stream_get(h2_mplx *m, int id); -+int h2_mplx_m_shutdown(h2_mplx *m); - - /** - * Notifies mplx that a stream has been completely handled on the main -@@ -151,20 +132,16 @@ - * @param m the mplx itself - * @param stream the stream ready for cleanup - */ --apr_status_t h2_mplx_stream_cleanup(h2_mplx *m, struct h2_stream *stream); -+apr_status_t h2_mplx_m_stream_cleanup(h2_mplx *m, struct h2_stream *stream); - - /** - * Waits on output data from any stream in this session to become available. - * Returns APR_TIMEUP if no data arrived in the given time. - */ --apr_status_t h2_mplx_out_trywait(h2_mplx *m, apr_interval_time_t timeout, -- struct apr_thread_cond_t *iowait); -+apr_status_t h2_mplx_m_out_trywait(h2_mplx *m, apr_interval_time_t timeout, -+ struct apr_thread_cond_t *iowait); - --apr_status_t h2_mplx_keep_active(h2_mplx *m, struct h2_stream *stream); -- --/******************************************************************************* -- * Stream processing. -- ******************************************************************************/ -+apr_status_t h2_mplx_m_keep_active(h2_mplx *m, struct h2_stream *stream); - - /** - * Process a stream request. -@@ -175,8 +152,8 @@ - * @param cmp the stream priority compare function - * @param ctx context data for the compare function - */ --apr_status_t h2_mplx_process(h2_mplx *m, struct h2_stream *stream, -- h2_stream_pri_cmp *cmp, void *ctx); -+apr_status_t h2_mplx_m_process(h2_mplx *m, struct h2_stream *stream, -+ h2_stream_pri_cmp *cmp, void *ctx); - - /** - * Stream priorities have changed, reschedule pending requests. -@@ -185,7 +162,7 @@ - * @param cmp the stream priority compare function - * @param ctx context data for the compare function - */ --apr_status_t h2_mplx_reprioritize(h2_mplx *m, h2_stream_pri_cmp *cmp, void *ctx); -+apr_status_t h2_mplx_m_reprioritize(h2_mplx *m, h2_stream_pri_cmp *cmp, void *ctx); - - typedef apr_status_t stream_ev_callback(void *ctx, struct h2_stream *stream); - -@@ -193,7 +170,7 @@ - * Check if the multiplexer has events for the master connection pending. - * @return != 0 iff there are events pending - */ --int h2_mplx_has_master_events(h2_mplx *m); -+int h2_mplx_m_has_master_events(h2_mplx *m); - - /** - * Dispatch events for the master connection, such as -@@ -201,130 +178,46 @@ - * @param on_resume new output data has arrived for a suspended stream - * @param ctx user supplied argument to invocation. - */ --apr_status_t h2_mplx_dispatch_master_events(h2_mplx *m, -- stream_ev_callback *on_resume, -- void *ctx); -+apr_status_t h2_mplx_m_dispatch_master_events(h2_mplx *m, stream_ev_callback *on_resume, -+ void *ctx); - --int h2_mplx_awaits_data(h2_mplx *m); -+int h2_mplx_m_awaits_data(h2_mplx *m); - - typedef int h2_mplx_stream_cb(struct h2_stream *s, void *ctx); - --apr_status_t h2_mplx_stream_do(h2_mplx *m, h2_mplx_stream_cb *cb, void *ctx); -+apr_status_t h2_mplx_m_stream_do(h2_mplx *m, h2_mplx_stream_cb *cb, void *ctx); - --/******************************************************************************* -- * Output handling of streams. -- ******************************************************************************/ -+apr_status_t h2_mplx_m_client_rst(h2_mplx *m, int stream_id); - - /** -- * Opens the output for the given stream with the specified response. -+ * Master connection has entered idle mode. -+ * @param m the mplx instance of the master connection -+ * @return != SUCCESS iff connection should be terminated - */ --apr_status_t h2_mplx_out_open(h2_mplx *mplx, int stream_id, -- struct h2_bucket_beam *beam); -+apr_status_t h2_mplx_m_idle(h2_mplx *m); - - /******************************************************************************* -- * h2_mplx list Manipulation. -+ * From a secondary connection processing: h2_mplx_s_* - ******************************************************************************/ -- --/** -- * The magic pointer value that indicates the head of a h2_mplx list -- * @param b The mplx list -- * @return The magic pointer value -- */ --#define H2_MPLX_LIST_SENTINEL(b) APR_RING_SENTINEL((b), h2_mplx, link) -- --/** -- * Determine if the mplx list is empty -- * @param b The list to check -- * @return true or false -- */ --#define H2_MPLX_LIST_EMPTY(b) APR_RING_EMPTY((b), h2_mplx, link) -- --/** -- * Return the first mplx in a list -- * @param b The list to query -- * @return The first mplx in the list -- */ --#define H2_MPLX_LIST_FIRST(b) APR_RING_FIRST(b) -- --/** -- * Return the last mplx in a list -- * @param b The list to query -- * @return The last mplx int he list -- */ --#define H2_MPLX_LIST_LAST(b) APR_RING_LAST(b) -- --/** -- * Insert a single mplx at the front of a list -- * @param b The list to add to -- * @param e The mplx to insert -- */ --#define H2_MPLX_LIST_INSERT_HEAD(b, e) do { \ --h2_mplx *ap__b = (e); \ --APR_RING_INSERT_HEAD((b), ap__b, h2_mplx, link); \ --} while (0) -- --/** -- * Insert a single mplx at the end of a list -- * @param b The list to add to -- * @param e The mplx to insert -- */ --#define H2_MPLX_LIST_INSERT_TAIL(b, e) do { \ --h2_mplx *ap__b = (e); \ --APR_RING_INSERT_TAIL((b), ap__b, h2_mplx, link); \ --} while (0) -- --/** -- * Get the next mplx in the list -- * @param e The current mplx -- * @return The next mplx -- */ --#define H2_MPLX_NEXT(e) APR_RING_NEXT((e), link) --/** -- * Get the previous mplx in the list -- * @param e The current mplx -- * @return The previous mplx -- */ --#define H2_MPLX_PREV(e) APR_RING_PREV((e), link) -- --/** -- * Remove a mplx from its list -- * @param e The mplx to remove -- */ --#define H2_MPLX_REMOVE(e) APR_RING_REMOVE((e), link) -+apr_status_t h2_mplx_s_pop_task(h2_mplx *m, struct h2_task **ptask); -+void h2_mplx_s_task_done(h2_mplx *m, struct h2_task *task, struct h2_task **ptask); - - /******************************************************************************* -- * h2_mplx DoS protection -+ * From a h2_task owner: h2_mplx_s_* -+ * (a task is transfered from master to secondary connection and back in -+ * its normal lifetime). - ******************************************************************************/ - - /** -- * Master connection has entered idle mode. -- * @param m the mplx instance of the master connection -- * @return != SUCCESS iff connection should be terminated -+ * Opens the output for the given stream with the specified response. - */ --apr_status_t h2_mplx_idle(h2_mplx *m); -+apr_status_t h2_mplx_t_out_open(h2_mplx *mplx, int stream_id, -+ struct h2_bucket_beam *beam); - --/******************************************************************************* -- * h2_req_engine handling -- ******************************************************************************/ -+/** -+ * Get the stream that belongs to the given task. -+ */ -+struct h2_stream *h2_mplx_t_stream_get(h2_mplx *m, struct h2_task *task); - --typedef void h2_output_consumed(void *ctx, conn_rec *c, apr_off_t consumed); --typedef apr_status_t h2_mplx_req_engine_init(struct h2_req_engine *engine, -- const char *id, -- const char *type, -- apr_pool_t *pool, -- apr_size_t req_buffer_size, -- request_rec *r, -- h2_output_consumed **pconsumed, -- void **pbaton); -- --apr_status_t h2_mplx_req_engine_push(const char *ngn_type, -- request_rec *r, -- h2_mplx_req_engine_init *einit); --apr_status_t h2_mplx_req_engine_pull(struct h2_req_engine *ngn, -- apr_read_type_e block, -- int capacity, -- request_rec **pr); --void h2_mplx_req_engine_done(struct h2_req_engine *ngn, conn_rec *r_conn, -- apr_status_t status); - - #endif /* defined(__mod_h2__h2_mplx__) */ ---- a/modules/http2/h2_proxy_session.c -+++ b/modules/http2/h2_proxy_session.c -@@ -45,6 +45,7 @@ - unsigned int suspended : 1; - unsigned int waiting_on_100 : 1; - unsigned int waiting_on_ping : 1; -+ unsigned int headers_ended : 1; - uint32_t error_code; - - apr_bucket_brigade *input; -@@ -61,7 +62,123 @@ - static void ping_arrived(h2_proxy_session *session); - static apr_status_t check_suspended(h2_proxy_session *session); - static void stream_resume(h2_proxy_stream *stream); -+static apr_status_t submit_trailers(h2_proxy_stream *stream); - -+/* -+ * The H2_PING connection sub-state: a state independant of the H2_SESSION state -+ * of the connection: -+ * - H2_PING_ST_NONE: no interference with request handling, ProxyTimeout in effect. -+ * When entered, all suspended streams are unsuspended again. -+ * - H2_PING_ST_AWAIT_ANY: new requests are suspended, a possibly configured "ping" -+ * timeout is in effect. Any frame received transits to H2_PING_ST_NONE. -+ * - H2_PING_ST_AWAIT_PING: same as above, but only a PING frame transits -+ * to H2_PING_ST_NONE. -+ * -+ * An AWAIT state is entered on a new connection or when re-using a connection and -+ * the last frame received has been some time ago. The latter sends a PING frame -+ * and insists on an answer, the former is satisfied by any frame received from the -+ * backend. -+ * -+ * This works for new connections as there is always at least one SETTINGS frame -+ * that the backend sends. When re-using connection, we send a PING and insist on -+ * receiving one back, as there might be frames in our connection buffers from -+ * some time ago. Since some servers have protections against PING flooding, we -+ * only ever have one PING unanswered. -+ * -+ * Requests are suspended while in a PING state, as we do not want to send data -+ * before we can be reasonably sure that the connection is working (at least on -+ * the h2 protocol level). This also means that the session can do blocking reads -+ * when expecting PING answers. -+ */ -+static void set_ping_timeout(h2_proxy_session *session) -+{ -+ if (session->ping_timeout != -1 && session->save_timeout == -1) { -+ apr_socket_t *socket = NULL; -+ -+ socket = ap_get_conn_socket(session->c); -+ if (socket) { -+ apr_socket_timeout_get(socket, &session->save_timeout); -+ apr_socket_timeout_set(socket, session->ping_timeout); -+ } -+ } -+} -+ -+static void unset_ping_timeout(h2_proxy_session *session) -+{ -+ if (session->save_timeout != -1) { -+ apr_socket_t *socket = NULL; -+ -+ socket = ap_get_conn_socket(session->c); -+ if (socket) { -+ apr_socket_timeout_set(socket, session->save_timeout); -+ session->save_timeout = -1; -+ } -+ } -+} -+ -+static void enter_ping_state(h2_proxy_session *session, h2_ping_state_t state) -+{ -+ if (session->ping_state == state) return; -+ switch (session->ping_state) { -+ case H2_PING_ST_NONE: -+ /* leaving NONE, enforce timeout, send frame maybe */ -+ if (H2_PING_ST_AWAIT_PING == state) { -+ unset_ping_timeout(session); -+ nghttp2_submit_ping(session->ngh2, 0, (const uint8_t *)"nevergonnagiveyouup"); -+ } -+ set_ping_timeout(session); -+ session->ping_state = state; -+ break; -+ default: -+ /* no switching between the != NONE states */ -+ if (H2_PING_ST_NONE == state) { -+ session->ping_state = state; -+ unset_ping_timeout(session); -+ ping_arrived(session); -+ } -+ break; -+ } -+} -+ -+static void ping_new_session(h2_proxy_session *session, proxy_conn_rec *p_conn) -+{ -+ session->save_timeout = -1; -+ session->ping_timeout = (p_conn->worker->s->ping_timeout_set? -+ p_conn->worker->s->ping_timeout : -1); -+ session->ping_state = H2_PING_ST_NONE; -+ enter_ping_state(session, H2_PING_ST_AWAIT_ANY); -+} -+ -+static void ping_reuse_session(h2_proxy_session *session) -+{ -+ if (H2_PING_ST_NONE == session->ping_state) { -+ apr_interval_time_t age = apr_time_now() - session->last_frame_received; -+ if (age > apr_time_from_sec(1)) { -+ enter_ping_state(session, H2_PING_ST_AWAIT_PING); -+ } -+ } -+} -+ -+static void ping_ev_frame_received(h2_proxy_session *session, const nghttp2_frame *frame) -+{ -+ session->last_frame_received = apr_time_now(); -+ switch (session->ping_state) { -+ case H2_PING_ST_NONE: -+ /* nop */ -+ break; -+ case H2_PING_ST_AWAIT_ANY: -+ enter_ping_state(session, H2_PING_ST_NONE); -+ break; -+ case H2_PING_ST_AWAIT_PING: -+ if (NGHTTP2_PING == frame->hd.type) { -+ enter_ping_state(session, H2_PING_ST_NONE); -+ } -+ /* we may receive many other frames while we are waiting for the -+ * PING answer. They may come all from our connection buffers and -+ * say nothing about the current state of the backend. */ -+ break; -+ } -+} - - static apr_status_t proxy_session_pre_close(void *theconn) - { -@@ -152,7 +269,8 @@ - session->id, buffer); - } - -- session->last_frame_received = apr_time_now(); -+ ping_ev_frame_received(session, frame); -+ /* Action for frame types: */ - switch (frame->hd.type) { - case NGHTTP2_HEADERS: - stream = nghttp2_session_get_stream_user_data(ngh2, frame->hd.stream_id); -@@ -193,10 +311,6 @@ - stream_resume(stream); - break; - case NGHTTP2_PING: -- if (session->check_ping) { -- session->check_ping = 0; -- ping_arrived(session); -- } - break; - case NGHTTP2_PUSH_PROMISE: - break; -@@ -241,7 +355,8 @@ - return 1; - } - --static void process_proxy_header(h2_proxy_stream *stream, const char *n, const char *v) -+static void process_proxy_header(apr_table_t *headers, h2_proxy_stream *stream, -+ const char *n, const char *v) - { - static const struct { - const char *name; -@@ -262,20 +377,18 @@ - if (!dconf->preserve_host) { - for (i = 0; transform_hdrs[i].name; ++i) { - if (!ap_cstr_casecmp(transform_hdrs[i].name, n)) { -- apr_table_add(r->headers_out, n, -- (*transform_hdrs[i].func)(r, dconf, v)); -+ apr_table_add(headers, n, (*transform_hdrs[i].func)(r, dconf, v)); - return; - } - } - if (!ap_cstr_casecmp("Link", n)) { - dconf = ap_get_module_config(r->per_dir_config, &proxy_module); -- apr_table_add(r->headers_out, n, -- h2_proxy_link_reverse_map(r, dconf, -- stream->real_server_uri, stream->p_server_uri, v)); -+ apr_table_add(headers, n, h2_proxy_link_reverse_map(r, dconf, -+ stream->real_server_uri, stream->p_server_uri, v)); - return; - } - } -- apr_table_add(r->headers_out, n, v); -+ apr_table_add(headers, n, v); - } - - static apr_status_t h2_proxy_stream_add_header_out(h2_proxy_stream *stream, -@@ -299,8 +412,13 @@ - return APR_SUCCESS; - } - -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, stream->session->c, -+ "h2_proxy_stream(%s-%d): on_header %s: %s", -+ stream->session->id, stream->id, n, v); - if (!h2_proxy_res_ignore_header(n, nlen)) { - char *hname, *hvalue; -+ apr_table_t *headers = (stream->headers_ended? -+ stream->r->trailers_out : stream->r->headers_out); - - hname = apr_pstrndup(stream->pool, n, nlen); - h2_proxy_util_camel_case_header(hname, nlen); -@@ -309,7 +427,7 @@ - ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, stream->session->c, - "h2_proxy_stream(%s-%d): got header %s: %s", - stream->session->id, stream->id, hname, hvalue); -- process_proxy_header(stream, hname, hvalue); -+ process_proxy_header(headers, stream, hname, hvalue); - } - return APR_SUCCESS; - } -@@ -374,6 +492,7 @@ - server_name, portstr) - ); - } -+ if (r->status >= 200) stream->headers_ended = 1; - - if (APLOGrtrace2(stream->r)) { - ap_log_rerror(APLOG_MARK, APLOG_TRACE2, 0, stream->r, -@@ -429,12 +548,6 @@ - stream_id, NGHTTP2_STREAM_CLOSED); - return NGHTTP2_ERR_STREAM_CLOSING; - } -- if (stream->standalone) { -- nghttp2_session_consume(ngh2, stream_id, len); -- ap_log_rerror(APLOG_MARK, APLOG_TRACE2, 0, stream->r, -- "h2_proxy_session(%s): stream %d, win_update %d bytes", -- session->id, stream_id, (int)len); -- } - return 0; - } - -@@ -493,12 +606,12 @@ - stream = nghttp2_session_get_stream_user_data(ngh2, stream_id); - if (!stream) { - ap_log_error(APLOG_MARK, APLOG_DEBUG, 0, ap_server_conf, APLOGNO(03361) -- "h2_proxy_stream(%s): data_read, stream %d not found", -- stream->session->id, stream_id); -+ "h2_proxy_stream(NULL): data_read, stream %d not found", -+ stream_id); - return NGHTTP2_ERR_CALLBACK_FAILURE; - } - -- if (stream->session->check_ping) { -+ if (stream->session->ping_state != H2_PING_ST_NONE) { - /* suspend until we hear from the other side */ - stream->waiting_on_ping = 1; - status = APR_EAGAIN; -@@ -553,9 +666,14 @@ - stream->data_sent += readlen; - ap_log_rerror(APLOG_MARK, APLOG_DEBUG, status, stream->r, APLOGNO(03468) - "h2_proxy_stream(%d): request DATA %ld, %ld" -- " total, flags=%d", -- stream->id, (long)readlen, (long)stream->data_sent, -+ " total, flags=%d", stream->id, (long)readlen, (long)stream->data_sent, - (int)*data_flags); -+ if ((*data_flags & NGHTTP2_DATA_FLAG_EOF) && !apr_is_empty_table(stream->r->trailers_in)) { -+ ap_log_rerror(APLOG_MARK, APLOG_DEBUG, status, stream->r, APLOGNO(10179) -+ "h2_proxy_stream(%d): submit trailers", stream->id); -+ *data_flags |= NGHTTP2_DATA_FLAG_NO_END_STREAM; -+ submit_trailers(stream); -+ } - return readlen; - } - else if (APR_STATUS_IS_EAGAIN(status)) { -@@ -641,23 +759,20 @@ - - nghttp2_option_new(&option); - nghttp2_option_set_peer_max_concurrent_streams(option, 100); -- nghttp2_option_set_no_auto_window_update(option, 1); -+ nghttp2_option_set_no_auto_window_update(option, 0); - - nghttp2_session_client_new2(&session->ngh2, cbs, session, option); - - nghttp2_option_del(option); - nghttp2_session_callbacks_del(cbs); - -+ ping_new_session(session, p_conn); - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, session->c, APLOGNO(03362) - "setup session for %s", p_conn->hostname); - } - else { - h2_proxy_session *session = p_conn->data; -- apr_interval_time_t age = apr_time_now() - session->last_frame_received; -- if (age > apr_time_from_sec(1)) { -- session->check_ping = 1; -- nghttp2_submit_ping(session->ngh2, 0, (const uint8_t *)"nevergonnagiveyouup"); -- } -+ ping_reuse_session(session); - } - return p_conn->data; - } -@@ -740,6 +855,8 @@ - stream->real_server_uri = apr_psprintf(stream->pool, "%s://%s", scheme, authority); - stream->p_server_uri = apr_psprintf(stream->pool, "%s://%s", puri.scheme, authority); - path = apr_uri_unparse(stream->pool, &puri, APR_URI_UNP_OMITSITEPART); -+ -+ - h2_proxy_req_make(stream->req, stream->pool, r->method, scheme, - authority, path, r->headers_in); - -@@ -826,6 +943,16 @@ - return APR_EGENERAL; - } - -+static apr_status_t submit_trailers(h2_proxy_stream *stream) -+{ -+ h2_proxy_ngheader *hd; -+ int rv; -+ -+ hd = h2_proxy_util_nghd_make(stream->pool, stream->r->trailers_in); -+ rv = nghttp2_submit_trailer(stream->session->ngh2, stream->id, hd->nv, hd->nvlen); -+ return rv == 0? APR_SUCCESS: APR_EGENERAL; -+} -+ - static apr_status_t feed_brigade(h2_proxy_session *session, apr_bucket_brigade *bb) - { - apr_status_t status = APR_SUCCESS; -@@ -882,7 +1009,7 @@ - apr_socket_t *socket = NULL; - apr_time_t save_timeout = -1; - -- if (block) { -+ if (block && timeout > 0) { - socket = ap_get_conn_socket(session->c); - if (socket) { - apr_socket_timeout_get(socket, &save_timeout); -@@ -954,6 +1081,14 @@ - dispatch_event(session, H2_PROXYS_EV_STREAM_RESUMED, 0, NULL); - } - -+static int is_waiting_for_backend(h2_proxy_session *session) -+{ -+ return ((session->ping_state != H2_PING_ST_NONE) -+ || ((session->suspended->nelts <= 0) -+ && !nghttp2_session_want_write(session->ngh2) -+ && nghttp2_session_want_read(session->ngh2))); -+} -+ - static apr_status_t check_suspended(h2_proxy_session *session) - { - h2_proxy_stream *stream; -@@ -1408,7 +1543,22 @@ - break; - - case H2_PROXYS_ST_WAIT: -- if (check_suspended(session) == APR_EAGAIN) { -+ if (is_waiting_for_backend(session)) { -+ /* we can do a blocking read with the default timeout (as -+ * configured via ProxyTimeout in our socket. There is -+ * nothing we want to send or check until we get more data -+ * from the backend. */ -+ status = h2_proxy_session_read(session, 1, 0); -+ if (status == APR_SUCCESS) { -+ have_read = 1; -+ dispatch_event(session, H2_PROXYS_EV_DATA_READ, 0, NULL); -+ } -+ else { -+ dispatch_event(session, H2_PROXYS_EV_CONN_ERROR, status, NULL); -+ return status; -+ } -+ } -+ else if (check_suspended(session) == APR_EAGAIN) { - /* no stream has become resumed. Do a blocking read with - * ever increasing timeouts... */ - if (session->wait_timeout < 25) { -@@ -1423,7 +1573,7 @@ - ap_log_cerror(APLOG_MARK, APLOG_TRACE3, status, session->c, - APLOGNO(03365) - "h2_proxy_session(%s): WAIT read, timeout=%fms", -- session->id, (float)session->wait_timeout/1000.0); -+ session->id, session->wait_timeout/1000.0); - if (status == APR_SUCCESS) { - have_read = 1; - dispatch_event(session, H2_PROXYS_EV_DATA_READ, 0, NULL); -@@ -1543,42 +1693,3 @@ - int updated; - } win_update_ctx; - --static int win_update_iter(void *udata, void *val) --{ -- win_update_ctx *ctx = udata; -- h2_proxy_stream *stream = val; -- -- if (stream->r && stream->r->connection == ctx->c) { -- ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, ctx->session->c, -- "h2_proxy_session(%s-%d): win_update %ld bytes", -- ctx->session->id, (int)stream->id, (long)ctx->bytes); -- nghttp2_session_consume(ctx->session->ngh2, stream->id, ctx->bytes); -- ctx->updated = 1; -- return 0; -- } -- return 1; --} -- -- --void h2_proxy_session_update_window(h2_proxy_session *session, -- conn_rec *c, apr_off_t bytes) --{ -- if (!h2_proxy_ihash_empty(session->streams)) { -- win_update_ctx ctx; -- ctx.session = session; -- ctx.c = c; -- ctx.bytes = bytes; -- ctx.updated = 0; -- h2_proxy_ihash_iter(session->streams, win_update_iter, &ctx); -- -- if (!ctx.updated) { -- /* could not find the stream any more, possibly closed, update -- * the connection window at least */ -- ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, session->c, -- "h2_proxy_session(%s): win_update conn %ld bytes", -- session->id, (long)bytes); -- nghttp2_session_consume_connection(session->ngh2, (size_t)bytes); -- } -- } --} -- ---- a/modules/http2/h2_proxy_session.h -+++ b/modules/http2/h2_proxy_session.h -@@ -60,6 +60,11 @@ - H2_PROXYS_EV_PRE_CLOSE, /* connection will close after this */ - } h2_proxys_event_t; - -+typedef enum { -+ H2_PING_ST_NONE, /* normal connection mode, ProxyTimeout rules */ -+ H2_PING_ST_AWAIT_ANY, /* waiting for any frame from backend */ -+ H2_PING_ST_AWAIT_PING, /* waiting for PING frame from backend */ -+} h2_ping_state_t; - - typedef struct h2_proxy_session h2_proxy_session; - typedef void h2_proxy_request_done(h2_proxy_session *s, request_rec *r, -@@ -74,7 +79,6 @@ - nghttp2_session *ngh2; /* the nghttp2 session itself */ - - unsigned int aborted : 1; -- unsigned int check_ping : 1; - unsigned int h2_front : 1; /* if front-end connection is HTTP/2 */ - - h2_proxy_request_done *done; -@@ -94,6 +98,10 @@ - - apr_bucket_brigade *input; - apr_bucket_brigade *output; -+ -+ h2_ping_state_t ping_state; -+ apr_time_t ping_timeout; -+ apr_time_t save_timeout; - }; - - h2_proxy_session *h2_proxy_session_setup(const char *id, proxy_conn_rec *p_conn, -@@ -120,9 +128,6 @@ - - void h2_proxy_session_cleanup(h2_proxy_session *s, h2_proxy_request_done *done); - --void h2_proxy_session_update_window(h2_proxy_session *s, -- conn_rec *c, apr_off_t bytes); -- - #define H2_PROXY_REQ_URL_NOTE "h2-proxy-req-url" - - #endif /* h2_proxy_session_h */ ---- a/modules/http2/h2_proxy_util.c -+++ b/modules/http2/h2_proxy_util.c -@@ -452,6 +452,22 @@ - return ngh; - } - -+h2_proxy_ngheader *h2_proxy_util_nghd_make(apr_pool_t *p, apr_table_t *headers) -+{ -+ -+ h2_proxy_ngheader *ngh; -+ size_t n; -+ -+ n = 0; -+ apr_table_do(count_header, &n, headers, NULL); -+ -+ ngh = apr_pcalloc(p, sizeof(h2_proxy_ngheader)); -+ ngh->nv = apr_pcalloc(p, n * sizeof(nghttp2_nv)); -+ apr_table_do(add_table_header, ngh, headers, NULL); -+ -+ return ngh; -+} -+ - /******************************************************************************* - * header HTTP/1 <-> HTTP/2 conversions - ******************************************************************************/ -@@ -609,6 +625,7 @@ - apr_table_t *headers) - { - h1_ctx x; -+ const char *val; - - req->method = method; - req->scheme = scheme; -@@ -623,6 +640,11 @@ - x.pool = pool; - x.headers = req->headers; - apr_table_do(set_h1_header, &x, headers, NULL); -+ if ((val = apr_table_get(headers, "TE")) && ap_find_token(pool, val, "trailers")) { -+ /* client accepts trailers, forward this information */ -+ apr_table_addn(req->headers, "TE", "trailers"); -+ } -+ apr_table_setn(req->headers, "te", "trailers"); - return APR_SUCCESS; - } - -@@ -915,12 +937,12 @@ - nlen = (int)strlen(ns); - delta = nlen - olen; - plen = ctx->slen + delta + 1; -- p = apr_pcalloc(ctx->pool, plen); -+ p = apr_palloc(ctx->pool, plen); - memcpy(p, ctx->s, start); - memcpy(p + start, ns, nlen); - strcpy(p + start + nlen, ctx->s + end); - ctx->s = p; -- ctx->slen = (int)strlen(p); -+ ctx->slen = plen - 1; /* (int)strlen(p) */ - if (ctx->i >= end) { - ctx->i += delta; - } ---- a/modules/http2/h2_proxy_util.h -+++ b/modules/http2/h2_proxy_util.h -@@ -168,6 +168,8 @@ - h2_proxy_ngheader *h2_proxy_util_nghd_make_req(apr_pool_t *p, - const struct h2_proxy_request *req); - -+h2_proxy_ngheader *h2_proxy_util_nghd_make(apr_pool_t *p, apr_table_t *headers); -+ - /******************************************************************************* - * h2_proxy_request helpers - ******************************************************************************/ -@@ -183,7 +185,7 @@ - - apr_time_t request_time; - -- unsigned int chunked : 1; /* iff requst body needs to be forwarded as chunked */ -+ unsigned int chunked : 1; /* iff request body needs to be forwarded as chunked */ - unsigned int serialize : 1; /* iff this request is written in HTTP/1.1 serialization */ - }; - ---- a/modules/http2/h2_push.c -+++ b/modules/http2/h2_push.c -@@ -464,33 +464,6 @@ - return NULL; - } - --/******************************************************************************* -- * push diary -- * -- * - The push diary keeps track of resources already PUSHed via HTTP/2 on this -- * connection. It records a hash value from the absolute URL of the resource -- * pushed. -- * - Lacking openssl, it uses 'apr_hashfunc_default' for the value -- * - with openssl, it uses SHA256 to calculate the hash value -- * - whatever the method to generate the hash, the diary keeps a maximum of 64 -- * bits per hash, limiting the memory consumption to about -- * H2PushDiarySize * 8 -- * bytes. Entries are sorted by most recently used and oldest entries are -- * forgotten first. -- * - Clients can initialize/replace the push diary by sending a 'Cache-Digest' -- * header. Currently, this is the base64url encoded value of the cache digest -- * as specified in https://datatracker.ietf.org/doc/draft-kazuho-h2-cache-digest/ -- * This draft can be expected to evolve and the definition of the header -- * will be added there and refined. -- * - The cache digest header is a Golomb Coded Set of hash values, but it may -- * limit the amount of bits per hash value even further. For a good description -- * of GCS, read here: -- * http://giovanni.bajo.it/post/47119962313/golomb-coded-sets-smaller-than-bloom-filters -- * - The means that the push diary might be initialized with hash values of much -- * less than 64 bits, leading to more false positives, but smaller digest size. -- ******************************************************************************/ -- -- - #define GCSLOG_LEVEL APLOG_TRACE1 - - typedef struct h2_push_diary_entry { -@@ -617,38 +590,48 @@ - return -1; - } - --static h2_push_diary_entry *move_to_last(h2_push_diary *diary, apr_size_t idx) -+static void move_to_last(h2_push_diary *diary, apr_size_t idx) - { - h2_push_diary_entry *entries = (h2_push_diary_entry*)diary->entries->elts; - h2_push_diary_entry e; -- apr_size_t lastidx = diary->entries->nelts-1; -+ int lastidx; - -+ /* Move an existing entry to the last place */ -+ if (diary->entries->nelts <= 0) -+ return; -+ - /* move entry[idx] to the end */ -+ lastidx = diary->entries->nelts - 1; - if (idx < lastidx) { - e = entries[idx]; -- memmove(entries+idx, entries+idx+1, sizeof(e) * (lastidx - idx)); -+ memmove(entries+idx, entries+idx+1, sizeof(h2_push_diary_entry) * (lastidx - idx)); - entries[lastidx] = e; - } -- return &entries[lastidx]; - } - --static void h2_push_diary_append(h2_push_diary *diary, h2_push_diary_entry *e) -+static void remove_first(h2_push_diary *diary) - { -- h2_push_diary_entry *ne; -+ h2_push_diary_entry *entries = (h2_push_diary_entry*)diary->entries->elts; -+ int lastidx; - -- if (diary->entries->nelts < diary->N) { -- /* append a new diary entry at the end */ -- APR_ARRAY_PUSH(diary->entries, h2_push_diary_entry) = *e; -- ne = &APR_ARRAY_IDX(diary->entries, diary->entries->nelts-1, h2_push_diary_entry); -- } -- else { -- /* replace content with new digest. keeps memory usage constant once diary is full */ -- ne = move_to_last(diary, 0); -- *ne = *e; -+ /* move remaining entries to index 0 */ -+ lastidx = diary->entries->nelts - 1; -+ if (lastidx > 0) { -+ --diary->entries->nelts; -+ memmove(entries, entries+1, sizeof(h2_push_diary_entry) * diary->entries->nelts); - } -+} -+ -+static void h2_push_diary_append(h2_push_diary *diary, h2_push_diary_entry *e) -+{ -+ while (diary->entries->nelts >= diary->N) { -+ remove_first(diary); -+ } -+ /* append a new diary entry at the end */ -+ APR_ARRAY_PUSH(diary->entries, h2_push_diary_entry) = *e; - /* Intentional no APLOGNO */ - ap_log_perror(APLOG_MARK, GCSLOG_LEVEL, 0, diary->entries->pool, -- "push_diary_append: %"APR_UINT64_T_HEX_FMT, ne->hash); -+ "push_diary_append: %"APR_UINT64_T_HEX_FMT, e->hash); - } - - apr_array_header_t *h2_push_diary_update(h2_session *session, apr_array_header_t *pushes) -@@ -691,30 +674,12 @@ - const struct h2_request *req, - const struct h2_headers *res) - { -- h2_session *session = stream->session; -- const char *cache_digest = apr_table_get(req->headers, "Cache-Digest"); - apr_array_header_t *pushes; -- apr_status_t status; - -- if (cache_digest && session->push_diary) { -- status = h2_push_diary_digest64_set(session->push_diary, req->authority, -- cache_digest, stream->pool); -- if (status != APR_SUCCESS) { -- ap_log_cerror(APLOG_MARK, APLOG_DEBUG, status, session->c, -- H2_SSSN_LOG(APLOGNO(03057), session, -- "push diary set from Cache-Digest: %s"), cache_digest); -- } -- } - pushes = h2_push_collect(stream->pool, req, stream->push_policy, res); - return h2_push_diary_update(stream->session, pushes); - } - --static apr_int32_t h2_log2inv(unsigned char log2) --{ -- return log2? (1 << log2) : 1; --} -- -- - typedef struct { - h2_push_diary *diary; - unsigned char log2p; -@@ -829,16 +794,11 @@ - apr_size_t hash_count; - - nelts = diary->entries->nelts; -- -- if (nelts > APR_UINT32_MAX) { -- /* should not happen */ -- return APR_ENOTIMPL; -- } - N = ceil_power_of_2(nelts); - log2n = h2_log2(N); - - /* Now log2p is the max number of relevant bits, so that -- * log2p + log2n == mask_bits. We can uise a lower log2p -+ * log2p + log2n == mask_bits. We can use a lower log2p - * and have a shorter set encoding... - */ - log2pmax = h2_log2(ceil_power_of_2(maxP)); -@@ -895,166 +855,3 @@ - return APR_SUCCESS; - } - --typedef struct { -- h2_push_diary *diary; -- apr_pool_t *pool; -- unsigned char log2p; -- const unsigned char *data; -- apr_size_t datalen; -- apr_size_t offset; -- unsigned int bit; -- apr_uint64_t last_val; --} gset_decoder; -- --static int gset_decode_next_bit(gset_decoder *decoder) --{ -- if (++decoder->bit >= 8) { -- if (++decoder->offset >= decoder->datalen) { -- return -1; -- } -- decoder->bit = 0; -- } -- return (decoder->data[decoder->offset] & cbit_mask[decoder->bit])? 1 : 0; --} -- --static apr_status_t gset_decode_next(gset_decoder *decoder, apr_uint64_t *phash) --{ -- apr_uint64_t flex = 0, fixed = 0, delta; -- int i; -- -- /* read 1 bits until we encounter 0, then read log2n(diary-P) bits. -- * On a malformed bit-string, this will not fail, but produce results -- * which are pbly too large. Luckily, the diary will modulo the hash. -- */ -- while (1) { -- int bit = gset_decode_next_bit(decoder); -- if (bit == -1) { -- return APR_EINVAL; -- } -- if (!bit) { -- break; -- } -- ++flex; -- } -- -- for (i = 0; i < decoder->log2p; ++i) { -- int bit = gset_decode_next_bit(decoder); -- if (bit == -1) { -- return APR_EINVAL; -- } -- fixed = (fixed << 1) | bit; -- } -- -- delta = (flex << decoder->log2p) | fixed; -- *phash = delta + decoder->last_val; -- decoder->last_val = *phash; -- -- /* Intentional no APLOGNO */ -- ap_log_perror(APLOG_MARK, GCSLOG_LEVEL, 0, decoder->pool, -- "h2_push_diary_digest_dec: val=%"APR_UINT64_T_HEX_FMT", delta=%" -- APR_UINT64_T_HEX_FMT", flex=%d, fixed=%"APR_UINT64_T_HEX_FMT, -- *phash, delta, (int)flex, fixed); -- -- return APR_SUCCESS; --} -- --/** -- * Initialize the push diary by a cache digest as described in -- * https://datatracker.ietf.org/doc/draft-kazuho-h2-cache-digest/ -- * . -- * @param diary the diary to set the digest into -- * @param data the binary cache digest -- * @param len the length of the cache digest -- * @return APR_EINVAL if digest was not successfully parsed -- */ --apr_status_t h2_push_diary_digest_set(h2_push_diary *diary, const char *authority, -- const char *data, apr_size_t len) --{ -- gset_decoder decoder; -- unsigned char log2n, log2p; -- int N, i; -- apr_pool_t *pool = diary->entries->pool; -- h2_push_diary_entry e; -- apr_status_t status = APR_SUCCESS; -- -- if (len < 2) { -- /* at least this should be there */ -- return APR_EINVAL; -- } -- log2n = data[0]; -- log2p = data[1]; -- diary->mask_bits = log2n + log2p; -- if (diary->mask_bits > 64) { -- /* cannot handle */ -- return APR_ENOTIMPL; -- } -- -- /* whatever is in the digest, it replaces the diary entries */ -- apr_array_clear(diary->entries); -- if (!authority || !strcmp("*", authority)) { -- diary->authority = NULL; -- } -- else if (!diary->authority || strcmp(diary->authority, authority)) { -- diary->authority = apr_pstrdup(diary->entries->pool, authority); -- } -- -- N = h2_log2inv(log2n + log2p); -- -- decoder.diary = diary; -- decoder.pool = pool; -- decoder.log2p = log2p; -- decoder.data = (const unsigned char*)data; -- decoder.datalen = len; -- decoder.offset = 1; -- decoder.bit = 8; -- decoder.last_val = 0; -- -- diary->N = N; -- /* Determine effective N we use for storage */ -- if (!N) { -- /* a totally empty cache digest. someone tells us that she has no -- * entries in the cache at all. Use our own preferences for N+mask -- */ -- diary->N = diary->NMax; -- return APR_SUCCESS; -- } -- else if (N > diary->NMax) { -- /* Store not more than diary is configured to hold. We open us up -- * to DOS attacks otherwise. */ -- diary->N = diary->NMax; -- } -- -- /* Intentional no APLOGNO */ -- ap_log_perror(APLOG_MARK, GCSLOG_LEVEL, 0, pool, -- "h2_push_diary_digest_set: N=%d, log2n=%d, " -- "diary->mask_bits=%d, dec.log2p=%d", -- (int)diary->N, (int)log2n, diary->mask_bits, -- (int)decoder.log2p); -- -- for (i = 0; i < diary->N; ++i) { -- if (gset_decode_next(&decoder, &e.hash) != APR_SUCCESS) { -- /* the data may have less than N values */ -- break; -- } -- h2_push_diary_append(diary, &e); -- } -- -- /* Intentional no APLOGNO */ -- ap_log_perror(APLOG_MARK, GCSLOG_LEVEL, 0, pool, -- "h2_push_diary_digest_set: diary now with %d entries, mask_bits=%d", -- (int)diary->entries->nelts, diary->mask_bits); -- return status; --} -- --apr_status_t h2_push_diary_digest64_set(h2_push_diary *diary, const char *authority, -- const char *data64url, apr_pool_t *pool) --{ -- const char *data; -- apr_size_t len = h2_util_base64url_decode(&data, data64url, pool); -- /* Intentional no APLOGNO */ -- ap_log_perror(APLOG_MARK, GCSLOG_LEVEL, 0, pool, -- "h2_push_diary_digest64_set: digest=%s, dlen=%d", -- data64url, (int)len); -- return h2_push_diary_digest_set(diary, authority, data, len); --} -- ---- a/modules/http2/h2_push.h -+++ b/modules/http2/h2_push.h -@@ -35,6 +35,44 @@ - H2_PUSH_DIGEST_SHA256 - } h2_push_digest_type; - -+/******************************************************************************* -+ * push diary -+ * -+ * - The push diary keeps track of resources already PUSHed via HTTP/2 on this -+ * connection. It records a hash value from the absolute URL of the resource -+ * pushed. -+ * - Lacking openssl, -+ * - with openssl, it uses SHA256 to calculate the hash value, otherwise it -+ * falls back to apr_hashfunc_default() -+ * - whatever the method to generate the hash, the diary keeps a maximum of 64 -+ * bits per hash, limiting the memory consumption to about -+ * H2PushDiarySize * 8 -+ * bytes. Entries are sorted by most recently used and oldest entries are -+ * forgotten first. -+ * - While useful by itself to avoid duplicated PUSHes on the same connection, -+ * the original idea was that clients provided a 'Cache-Digest' header with -+ * the values of *their own* cached resources. This was described in -+ * <https://datatracker.ietf.org/doc/draft-kazuho-h2-cache-digest/> -+ * and some subsequent revisions that tweaked values but kept the overall idea. -+ * - The draft was abandoned by the IETF http-wg, as support from major clients, -+ * e.g. browsers, was lacking for various reasons. -+ * - For these reasons, mod_h2 abandoned its support for client supplied values -+ * but keeps the diary. It seems to provide value for applications using PUSH, -+ * is configurable in size and defaults to a very moderate amount of memory -+ * used. -+ * - The cache digest header is a Golomb Coded Set of hash values, but it may -+ * limit the amount of bits per hash value even further. For a good description -+ * of GCS, read here: -+ * <http://giovanni.bajo.it/post/47119962313/golomb-coded-sets-smaller-than-bloom-filters> -+ ******************************************************************************/ -+ -+ -+/* -+ * The push diary is based on the abandoned draft -+ * <https://datatracker.ietf.org/doc/draft-kazuho-h2-cache-digest/> -+ * that describes how to use golomb filters. -+ */ -+ - typedef struct h2_push_diary h2_push_diary; - - typedef void h2_push_digest_calc(h2_push_diary *diary, apr_uint64_t *phash, h2_push *push); -@@ -101,20 +139,4 @@ - int maxP, const char *authority, - const char **pdata, apr_size_t *plen); - --/** -- * Initialize the push diary by a cache digest as described in -- * https://datatracker.ietf.org/doc/draft-kazuho-h2-cache-digest/ -- * . -- * @param diary the diary to set the digest into -- * @param authority the authority to set the data for -- * @param data the binary cache digest -- * @param len the length of the cache digest -- * @return APR_EINVAL if digest was not successfully parsed -- */ --apr_status_t h2_push_diary_digest_set(h2_push_diary *diary, const char *authority, -- const char *data, apr_size_t len); -- --apr_status_t h2_push_diary_digest64_set(h2_push_diary *diary, const char *authority, -- const char *data64url, apr_pool_t *pool); -- - #endif /* defined(__mod_h2__h2_push__) */ ---- a/modules/http2/h2_request.c -+++ b/modules/http2/h2_request.c -@@ -17,6 +17,7 @@ - #include <assert.h> - - #include <apr_strings.h> -+#include <ap_mmn.h> - - #include <httpd.h> - #include <http_core.h> -@@ -46,9 +47,9 @@ - static int set_h1_header(void *ctx, const char *key, const char *value) - { - h1_ctx *x = ctx; -- x->status = h2_req_add_header(x->headers, x->pool, key, strlen(key), -- value, strlen(value)); -- return (x->status == APR_SUCCESS)? 1 : 0; -+ int was_added; -+ h2_req_add_header(x->headers, x->pool, key, strlen(key), value, strlen(value), 0, &was_added); -+ return 1; - } - - apr_status_t h2_request_rcreate(h2_request **preq, apr_pool_t *pool, -@@ -84,8 +85,7 @@ - req->path = path; - req->headers = apr_table_make(pool, 10); - if (r->server) { -- req->serialize = h2_config_geti(h2_config_sget(r->server), -- H2_CONF_SER_HEADERS); -+ req->serialize = h2_config_rgeti(r, H2_CONF_SER_HEADERS); - } - - x.pool = pool; -@@ -99,10 +99,12 @@ - - apr_status_t h2_request_add_header(h2_request *req, apr_pool_t *pool, - const char *name, size_t nlen, -- const char *value, size_t vlen) -+ const char *value, size_t vlen, -+ size_t max_field_len, int *pwas_added) - { - apr_status_t status = APR_SUCCESS; - -+ *pwas_added = 0; - if (nlen <= 0) { - return status; - } -@@ -143,8 +145,9 @@ - } - } - else { -- /* non-pseudo header, append to work bucket of stream */ -- status = h2_req_add_header(req->headers, pool, name, nlen, value, vlen); -+ /* non-pseudo header, add to table */ -+ status = h2_req_add_header(req->headers, pool, name, nlen, value, vlen, -+ max_field_len, pwas_added); - } - - return status; -@@ -156,7 +159,7 @@ - - /* rfc7540, ch. 8.1.2.3: - * - if we have :authority, it overrides any Host header -- * - :authority MUST be ommited when converting h1->h2, so we -+ * - :authority MUST be omitted when converting h1->h2, so we - * might get a stream without, but then Host needs to be there */ - if (!req->authority) { - const char *host = apr_table_get(req->headers, "Host"); -@@ -206,13 +209,11 @@ - return dst; - } - --request_rec *h2_request_create_rec(const h2_request *req, conn_rec *c) -+#if !AP_MODULE_MAGIC_AT_LEAST(20150222, 13) -+static request_rec *my_ap_create_request(conn_rec *c) - { -- int access_status = HTTP_OK; -- const char *rpath; - apr_pool_t *p; - request_rec *r; -- const char *s; - - apr_pool_create(&p, c->pool); - apr_pool_tag(p, "request"); -@@ -226,8 +227,8 @@ - r->ap_auth_type = NULL; - - r->allowed_methods = ap_make_method_list(p, 2); -- -- r->headers_in = apr_table_clone(r->pool, req->headers); -+ -+ r->headers_in = apr_table_make(r->pool, 5); - r->trailers_in = apr_table_make(r->pool, 5); - r->subprocess_env = apr_table_make(r->pool, 25); - r->headers_out = apr_table_make(r->pool, 12); -@@ -262,6 +263,24 @@ - r->useragent_addr = c->client_addr; - r->useragent_ip = c->client_ip; - -+ return r; -+} -+#endif -+ -+request_rec *h2_request_create_rec(const h2_request *req, conn_rec *c) -+{ -+ int access_status = HTTP_OK; -+ const char *rpath; -+ const char *s; -+ -+#if AP_MODULE_MAGIC_AT_LEAST(20150222, 13) -+ request_rec *r = ap_create_request(c); -+#else -+ request_rec *r = my_ap_create_request(c); -+#endif -+ -+ r->headers_in = apr_table_clone(r->pool, req->headers); -+ - ap_run_pre_read_request(r, c); - - /* Time to populate r with the data we have. */ -@@ -272,6 +291,9 @@ - if (r->method_number == M_GET && r->method[0] == 'H') { - r->header_only = 1; - } -+ r->the_request = apr_psprintf(r->pool, "%s %s HTTP/2.0", -+ req->method, req->path ? req->path : ""); -+ r->headers_in = apr_table_clone(r->pool, req->headers); - - rpath = (req->path ? req->path : ""); - ap_parse_uri(r, rpath); -@@ -288,7 +310,9 @@ - */ - r->hostname = NULL; - ap_update_vhost_from_headers(r); -- -+ r->protocol = "HTTP/2.0"; -+ r->proto_num = HTTP_VERSION(2, 0); -+ - /* we may have switched to another server */ - r->per_dir_config = r->server->lookup_defaults; - -@@ -337,3 +361,4 @@ - } - - -+ ---- a/modules/http2/h2_request.h -+++ b/modules/http2/h2_request.h -@@ -24,7 +24,8 @@ - - apr_status_t h2_request_add_header(h2_request *req, apr_pool_t *pool, - const char *name, size_t nlen, -- const char *value, size_t vlen); -+ const char *value, size_t vlen, -+ size_t max_field_len, int *pwas_added); - - apr_status_t h2_request_add_trailer(h2_request *req, apr_pool_t *pool, - const char *name, size_t nlen, ---- a/modules/http2/h2_session.c -+++ b/modules/http2/h2_session.c -@@ -106,7 +106,7 @@ - - static void cleanup_unprocessed_streams(h2_session *session) - { -- h2_mplx_stream_do(session->mplx, rst_unprocessed_stream, session); -+ h2_mplx_m_stream_do(session->mplx, rst_unprocessed_stream, session); - } - - static h2_stream *h2_session_open_stream(h2_session *session, int stream_id, -@@ -385,14 +385,19 @@ - break; - case NGHTTP2_RST_STREAM: - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, session->c, APLOGNO(03067) -- "h2_stream(%ld-%d): RST_STREAM by client, errror=%d", -+ "h2_stream(%ld-%d): RST_STREAM by client, error=%d", - session->id, (int)frame->hd.stream_id, - (int)frame->rst_stream.error_code); - stream = h2_session_stream_get(session, frame->hd.stream_id); - if (stream && stream->initiated_on) { -+ /* A stream reset on a request we sent it. Normal, when the -+ * client does not want it. */ - ++session->pushes_reset; - } - else { -+ /* A stream reset on a request it sent us. Could happen in a browser -+ * when the user navigates away or cancels loading - maybe. */ -+ h2_mplx_m_client_rst(session->mplx, frame->hd.stream_id); - ++session->streams_reset; - } - break; -@@ -462,7 +467,7 @@ - } - - static int h2_session_continue_data(h2_session *session) { -- if (h2_mplx_has_master_events(session->mplx)) { -+ if (h2_mplx_m_has_master_events(session->mplx)) { - return 0; - } - if (h2_conn_io_needs_flush(&session->io)) { -@@ -495,9 +500,7 @@ - return NGHTTP2_ERR_WOULDBLOCK; - } - -- if (frame->data.padlen > H2_MAX_PADLEN) { -- return NGHTTP2_ERR_PROTO; -- } -+ ap_assert(frame->data.padlen <= (H2_MAX_PADLEN+1)); - padlen = (unsigned char)frame->data.padlen; - - stream = h2_session_stream_get(session, stream_id); -@@ -513,8 +516,9 @@ - H2_STRM_MSG(stream, "send_data_cb for %ld bytes"), - (long)length); - -- status = h2_conn_io_write(&session->io, (const char *)framehd, 9); -+ status = h2_conn_io_write(&session->io, (const char *)framehd, H2_FRAME_HDR_LEN); - if (padlen && status == APR_SUCCESS) { -+ --padlen; - status = h2_conn_io_write(&session->io, (const char *)&padlen, 1); - } - -@@ -622,6 +626,39 @@ - } - #endif - -+static ssize_t select_padding_cb(nghttp2_session *ngh2, -+ const nghttp2_frame *frame, -+ size_t max_payloadlen, void *user_data) -+{ -+ h2_session *session = user_data; -+ ssize_t frame_len = frame->hd.length + H2_FRAME_HDR_LEN; /* the total length without padding */ -+ ssize_t padded_len = frame_len; -+ -+ /* Determine # of padding bytes to append to frame. Unless session->padding_always -+ * the number my be capped by the ui.write_size that currently applies. -+ */ -+ if (session->padding_max) { -+ int n = ap_random_pick(0, session->padding_max); -+ padded_len = H2MIN(max_payloadlen + H2_FRAME_HDR_LEN, frame_len + n); -+ } -+ -+ if (padded_len != frame_len) { -+ if (!session->padding_always && session->io.write_size -+ && (padded_len > session->io.write_size) -+ && (frame_len <= session->io.write_size)) { -+ padded_len = session->io.write_size; -+ } -+ if (APLOGctrace2(session->c)) { -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, session->c, -+ "select padding from [%d, %d]: %d (frame length: 0x%04x, write size: %d)", -+ (int)frame_len, (int)max_payloadlen+H2_FRAME_HDR_LEN, -+ (int)(padded_len - frame_len), (int)padded_len, (int)session->io.write_size); -+ } -+ return padded_len - H2_FRAME_HDR_LEN; -+ } -+ return frame->hd.length; -+} -+ - #define NGH2_SET_CALLBACK(callbacks, name, fn)\ - nghttp2_session_callbacks_set_##name##_callback(callbacks, fn) - -@@ -647,6 +684,7 @@ - #ifdef H2_NG2_INVALID_HEADER_CB - NGH2_SET_CALLBACK(*pcb, on_invalid_header, on_invalid_header_cb); - #endif -+ NGH2_SET_CALLBACK(*pcb, select_padding, select_padding_cb); - return APR_SUCCESS; - } - -@@ -691,7 +729,7 @@ - * Remove all streams greater than this number without submitting - * a RST_STREAM frame, since that should be clear from the GOAWAY - * we send. */ -- session->local.accepted_max = h2_mplx_shutdown(session->mplx); -+ session->local.accepted_max = h2_mplx_m_shutdown(session->mplx); - session->local.error = error; - } - else { -@@ -741,7 +779,7 @@ - } - - transit(session, trigger, H2_SESSION_ST_CLEANUP); -- h2_mplx_release_and_join(session->mplx, session->iowait); -+ h2_mplx_m_release_and_join(session->mplx, session->iowait); - session->mplx = NULL; - - ap_assert(session->ngh2); -@@ -757,13 +795,12 @@ - { - conn_rec *c = data; - h2_session *session; -- h2_ctx *ctx = h2_ctx_get(c, 0); - -- if (ctx && (session = h2_ctx_session_get(ctx))) { -+ if ((session = h2_ctx_get_session(c))) { - /* if the session is still there, now is the last chance - * to perform cleanup. Normally, cleanup should have happened - * earlier in the connection pre_close. Main reason is that -- * any ongoing requests on slave connections might still access -+ * any ongoing requests on secondary connections might still access - * data which has, at this time, already been freed. An example - * is mod_ssl that uses request hooks. */ - ap_log_cerror(APLOG_MARK, APLOG_WARNING, 0, c, -@@ -775,11 +812,8 @@ - return APR_SUCCESS; - } - --static apr_status_t h2_session_create_int(h2_session **psession, -- conn_rec *c, -- request_rec *r, -- h2_ctx *ctx, -- h2_workers *workers) -+apr_status_t h2_session_create(h2_session **psession, conn_rec *c, request_rec *r, -+ server_rec *s, h2_workers *workers) - { - nghttp2_session_callbacks *callbacks = NULL; - nghttp2_option *options = NULL; -@@ -820,19 +854,16 @@ - session->id = c->id; - session->c = c; - session->r = r; -- session->s = h2_ctx_server_get(ctx); -+ session->s = s; - session->pool = pool; -- session->config = h2_config_sget(session->s); - session->workers = workers; - - session->state = H2_SESSION_ST_INIT; - session->local.accepting = 1; - session->remote.accepting = 1; - -- session->max_stream_count = h2_config_geti(session->config, -- H2_CONF_MAX_STREAMS); -- session->max_stream_mem = h2_config_geti(session->config, -- H2_CONF_STREAM_MAX_MEM); -+ session->max_stream_count = h2_config_sgeti(s, H2_CONF_MAX_STREAMS); -+ session->max_stream_mem = h2_config_sgeti(s, H2_CONF_STREAM_MAX_MEM); - - status = apr_thread_cond_create(&session->iowait, session->pool); - if (status != APR_SUCCESS) { -@@ -862,14 +893,18 @@ - session->monitor->on_state_event = on_stream_state_event; - session->monitor->on_event = on_stream_event; - -- session->mplx = h2_mplx_create(c, session->pool, session->config, -- workers); -+ session->mplx = h2_mplx_m_create(c, s, session->pool, workers); - - /* connection input filter that feeds the session */ - session->cin = h2_filter_cin_create(session); - ap_add_input_filter("H2_IN", session->cin, r, c); - -- h2_conn_io_init(&session->io, c, session->config); -+ h2_conn_io_init(&session->io, c, s); -+ session->padding_max = h2_config_sgeti(s, H2_CONF_PADDING_BITS); -+ if (session->padding_max) { -+ session->padding_max = (0x01 << session->padding_max) - 1; -+ } -+ session->padding_always = h2_config_sgeti(s, H2_CONF_PADDING_ALWAYS); - session->bbtmp = apr_brigade_create(session->pool, c->bucket_alloc); - - status = init_callbacks(c, &callbacks); -@@ -888,8 +923,7 @@ - apr_pool_destroy(pool); - return status; - } -- nghttp2_option_set_peer_max_concurrent_streams( -- options, (uint32_t)session->max_stream_count); -+ nghttp2_option_set_peer_max_concurrent_streams(options, (uint32_t)session->max_stream_count); - /* We need to handle window updates ourself, otherwise we - * get flooded by nghttp2. */ - nghttp2_option_set_no_auto_window_update(options, 1); -@@ -907,7 +941,7 @@ - return APR_ENOMEM; - } - -- n = h2_config_geti(session->config, H2_CONF_PUSH_DIARY_SIZE); -+ n = h2_config_sgeti(s, H2_CONF_PUSH_DIARY_SIZE); - session->push_diary = h2_push_diary_create(session->pool, n); - - if (APLOGcdebug(c)) { -@@ -924,22 +958,11 @@ - (int)session->push_diary->N); - } - -- apr_pool_pre_cleanup_register(pool, c, session_pool_cleanup); -+ apr_pool_pre_cleanup_register(pool, c, session_pool_cleanup); -+ - return APR_SUCCESS; - } - --apr_status_t h2_session_create(h2_session **psession, -- conn_rec *c, h2_ctx *ctx, h2_workers *workers) --{ -- return h2_session_create_int(psession, c, NULL, ctx, workers); --} -- --apr_status_t h2_session_rcreate(h2_session **psession, -- request_rec *r, h2_ctx *ctx, h2_workers *workers) --{ -- return h2_session_create_int(psession, r->connection, r, ctx, workers); --} -- - static apr_status_t h2_session_start(h2_session *session, int *rv) - { - apr_status_t status = APR_SUCCESS; -@@ -1004,7 +1027,7 @@ - settings[slen].settings_id = NGHTTP2_SETTINGS_MAX_CONCURRENT_STREAMS; - settings[slen].value = (uint32_t)session->max_stream_count; - ++slen; -- win_size = h2_config_geti(session->config, H2_CONF_WIN_SIZE); -+ win_size = h2_config_sgeti(session->s, H2_CONF_WIN_SIZE); - if (win_size != H2_INITIAL_WINDOW_SIZE) { - settings[slen].settings_id = NGHTTP2_SETTINGS_INITIAL_WINDOW_SIZE; - settings[slen].value = win_size; -@@ -1156,7 +1179,7 @@ - stream = h2_session_open_stream(session, nid, is->id); - if (!stream) { - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, session->c, -- H2_STRM_LOG(APLOGNO(03077), stream, -+ H2_STRM_LOG(APLOGNO(03077), is, - "failed to create stream obj %d"), nid); - /* kill the push_promise */ - nghttp2_submit_rst_stream(session->ngh2, NGHTTP2_FLAG_NONE, nid, -@@ -1262,7 +1285,7 @@ - - rv = nghttp2_session_change_stream_priority(session->ngh2, stream->id, &ps); - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, session->c, -- ""H2_STRM_LOG(APLOGNO(03203), stream, -+ H2_STRM_LOG(APLOGNO(03203), stream, - "PUSH %s, weight=%d, depends=%d, returned=%d"), - ptype, ps.weight, ps.stream_id, rv); - status = (rv < 0)? APR_EGENERAL : APR_SUCCESS; -@@ -1280,7 +1303,7 @@ - { - /* iff we can and they can and want */ - return (session->remote.accepting /* remote GOAWAY received */ -- && h2_config_geti(session->config, H2_CONF_PUSH) -+ && h2_config_sgeti(session->s, H2_CONF_PUSH) - && nghttp2_session_get_remote_settings(session->ngh2, - NGHTTP2_SETTINGS_ENABLE_PUSH)); - } -@@ -1324,6 +1347,7 @@ - int eos) - { - apr_status_t status = APR_SUCCESS; -+ const char *s; - int rv = 0; - - ap_assert(session); -@@ -1391,8 +1415,12 @@ - && (headers->status < 400) - && (headers->status != 304) - && h2_session_push_enabled(session)) { -- -- h2_stream_submit_pushes(stream, headers); -+ /* PUSH is possible and enabled on server, unless the request -+ * denies it, submit resources to push */ -+ s = apr_table_get(headers->notes, H2_PUSH_MODE_NOTE); -+ if (!s || strcmp(s, "0")) { -+ h2_stream_submit_pushes(stream, headers); -+ } - } - - if (!stream->pref_priority) { -@@ -1414,7 +1442,7 @@ - } - - if (headers->status == 103 -- && !h2_config_geti(session->config, H2_CONF_EARLY_HINTS)) { -+ && !h2_config_sgeti(session->s, H2_CONF_EARLY_HINTS)) { - /* suppress sending this to the client, it might have triggered - * pushes and served its purpose nevertheless */ - rv = 0; -@@ -1524,7 +1552,7 @@ - if (stream) { - ap_assert(!stream->scheduled); - if (h2_stream_prep_processing(stream) == APR_SUCCESS) { -- h2_mplx_process(session->mplx, stream, stream_pri_cmp, session); -+ h2_mplx_m_process(session->mplx, stream, stream_pri_cmp, session); - } - else { - h2_stream_rst(stream, H2_ERR_INTERNAL_ERROR); -@@ -1680,7 +1708,7 @@ - * that already served requests - not fair. */ - session->idle_sync_until = apr_time_now() + apr_time_from_sec(1); - s = "timeout"; -- timeout = H2MAX(session->s->timeout, session->s->keep_alive_timeout); -+ timeout = session->s->timeout; - update_child_status(session, SERVER_BUSY_READ, "idle"); - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, session->c, - H2_SSSN_LOG("", session, "enter idle, timeout = %d sec"), -@@ -1688,8 +1716,8 @@ - } - else if (session->open_streams) { - s = "timeout"; -- timeout = session->s->keep_alive_timeout; -- update_child_status(session, SERVER_BUSY_KEEPALIVE, "idle"); -+ timeout = session->s->timeout; -+ update_child_status(session, SERVER_BUSY_READ, "idle"); - } - else { - /* normal keepalive setup */ -@@ -1796,7 +1824,7 @@ - session->open_streams); - h2_conn_io_flush(&session->io); - if (session->open_streams > 0) { -- if (h2_mplx_awaits_data(session->mplx)) { -+ if (h2_mplx_m_awaits_data(session->mplx)) { - /* waiting for at least one stream to produce data */ - transit(session, "no io", H2_SESSION_ST_WAIT); - } -@@ -1954,7 +1982,8 @@ - ev_stream_closed(session, stream); - break; - case H2_SS_CLEANUP: -- h2_mplx_stream_cleanup(session->mplx, stream); -+ nghttp2_session_set_stream_user_data(session->ngh2, stream->id, NULL); -+ h2_mplx_m_stream_cleanup(session->mplx, stream); - break; - default: - break; -@@ -2044,7 +2073,7 @@ - static apr_status_t dispatch_master(h2_session *session) { - apr_status_t status; - -- status = h2_mplx_dispatch_master_events(session->mplx, -+ status = h2_mplx_m_dispatch_master_events(session->mplx, - on_stream_resume, session); - if (status == APR_EAGAIN) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE3, status, session->c, -@@ -2089,7 +2118,7 @@ - switch (session->state) { - case H2_SESSION_ST_INIT: - ap_update_child_status_from_conn(c->sbh, SERVER_BUSY_READ, c); -- if (!h2_is_acceptable_connection(c, 1)) { -+ if (!h2_is_acceptable_connection(c, session->r, 1)) { - update_child_status(session, SERVER_BUSY_READ, - "inadequate security"); - h2_session_shutdown(session, -@@ -2112,7 +2141,7 @@ - break; - - case H2_SESSION_ST_IDLE: -- if (session->idle_until && (apr_time_now() + session->idle_delay) > session->idle_until) { -+ if (session->idle_until && (now + session->idle_delay) > session->idle_until) { - ap_log_cerror( APLOG_MARK, APLOG_TRACE1, status, c, - H2_SSSN_MSG(session, "idle, timeout reached, closing")); - if (session->idle_delay) { -@@ -2146,6 +2175,14 @@ - session->have_read = 1; - } - else if (APR_STATUS_IS_EAGAIN(status) || APR_STATUS_IS_TIMEUP(status)) { -+ status = h2_mplx_m_idle(session->mplx); -+ if (status == APR_EAGAIN) { -+ break; -+ } -+ else if (status != APR_SUCCESS) { -+ dispatch_event(session, H2_SESSION_EV_CONN_ERROR, -+ H2_ERR_ENHANCE_YOUR_CALM, "less is more"); -+ } - status = APR_EAGAIN; - goto out; - } -@@ -2168,7 +2205,7 @@ - /* We wait in smaller increments, using a 1 second timeout. - * That gives us the chance to check for MPMQ_STOPPING often. - */ -- status = h2_mplx_idle(session->mplx); -+ status = h2_mplx_m_idle(session->mplx); - if (status == APR_EAGAIN) { - break; - } -@@ -2282,7 +2319,7 @@ - "h2_session: wait for data, %ld micros", - (long)session->wait_us); - } -- status = h2_mplx_out_trywait(session->mplx, session->wait_us, -+ status = h2_mplx_m_out_trywait(session->mplx, session->wait_us, - session->iowait); - if (status == APR_SUCCESS) { - session->wait_us = 0; -@@ -2319,7 +2356,7 @@ - dispatch_event(session, H2_SESSION_EV_NGH2_DONE, 0, NULL); - } - if (session->reprioritize) { -- h2_mplx_reprioritize(session->mplx, stream_pri_cmp, session); -+ h2_mplx_m_reprioritize(session->mplx, stream_pri_cmp, session); - session->reprioritize = 0; - } - } ---- a/modules/http2/h2_session.h -+++ b/modules/http2/h2_session.h -@@ -80,12 +80,13 @@ - request_rec *r; /* the request that started this in case - * of 'h2c', NULL otherwise */ - server_rec *s; /* server/vhost we're starting on */ -- const struct h2_config *config; /* Relevant config for this session */ - apr_pool_t *pool; /* pool to use in session */ - struct h2_mplx *mplx; /* multiplexer for stream data */ - struct h2_workers *workers; /* for executing stream tasks */ - struct h2_filter_cin *cin; /* connection input filter context */ - h2_conn_io io; /* io on httpd conn filters */ -+ int padding_max; /* max number of padding bytes */ -+ int padding_always; /* padding has precedence over I/O optimizations */ - struct nghttp2_session *ngh2; /* the nghttp2 session (internal use) */ - - h2_session_state state; /* state session is in */ -@@ -131,7 +132,7 @@ - const char *last_status_msg; /* the one already reported */ - - struct h2_iqueue *in_pending; /* all streams with input pending */ -- struct h2_iqueue *in_process; /* all streams ready for processing on slave */ -+ struct h2_iqueue *in_process; /* all streams ready for processing on a secondary */ - - } h2_session; - -@@ -142,27 +143,15 @@ - * The session will apply the configured parameter. - * @param psession pointer receiving the created session on success or NULL - * @param c the connection to work on -+ * @param r optional request when protocol was upgraded - * @param cfg the module config to apply - * @param workers the worker pool to use - * @return the created session - */ - apr_status_t h2_session_create(h2_session **psession, -- conn_rec *c, struct h2_ctx *ctx, -+ conn_rec *c, request_rec *r, server_rec *, - struct h2_workers *workers); - --/** -- * Create a new h2_session for the given request. -- * The session will apply the configured parameter. -- * @param psession pointer receiving the created session on success or NULL -- * @param r the request that was upgraded -- * @param cfg the module config to apply -- * @param workers the worker pool to use -- * @return the created session -- */ --apr_status_t h2_session_rcreate(h2_session **psession, -- request_rec *r, struct h2_ctx *ctx, -- struct h2_workers *workers); -- - void h2_session_event(h2_session *session, h2_session_event_t ev, - int err, const char *msg); - ---- a/modules/http2/h2_stream.c -+++ b/modules/http2/h2_stream.c -@@ -365,9 +365,8 @@ - static void set_policy_for(h2_stream *stream, h2_request *r) - { - int enabled = h2_session_push_enabled(stream->session); -- stream->push_policy = h2_push_policy_determine(r->headers, stream->pool, -- enabled); -- r->serialize = h2_config_geti(stream->session->config, H2_CONF_SER_HEADERS); -+ stream->push_policy = h2_push_policy_determine(r->headers, stream->pool, enabled); -+ r->serialize = h2_config_sgeti(stream->session->s, H2_CONF_SER_HEADERS); - } - - apr_status_t h2_stream_send_frame(h2_stream *stream, int ftype, int flags, size_t frame_len) -@@ -398,13 +397,8 @@ - /* start pushed stream */ - ap_assert(stream->request == NULL); - ap_assert(stream->rtmp != NULL); -- status = h2_request_end_headers(stream->rtmp, stream->pool, 1, 0); -- if (status != APR_SUCCESS) { -- return status; -- } -- set_policy_for(stream, stream->rtmp); -- stream->request = stream->rtmp; -- stream->rtmp = NULL; -+ status = h2_stream_end_headers(stream, 1, 0); -+ if (status != APR_SUCCESS) goto leave; - break; - - default: -@@ -416,6 +410,7 @@ - if (status == APR_SUCCESS && eos) { - status = transit(stream, on_event(stream, H2_SEV_CLOSED_L)); - } -+leave: - return status; - } - -@@ -451,18 +446,13 @@ - ap_assert(stream->request == NULL); - if (stream->rtmp == NULL) { - /* This can only happen, if the stream has received no header -- * name/value pairs at all. The lastest nghttp2 version have become -+ * name/value pairs at all. The latest nghttp2 version have become - * pretty good at detecting this early. In any case, we have - * to abort the connection here, since this is clearly a protocol error */ - return APR_EINVAL; - } -- status = h2_request_end_headers(stream->rtmp, stream->pool, eos, frame_len); -- if (status != APR_SUCCESS) { -- return status; -- } -- set_policy_for(stream, stream->rtmp); -- stream->request = stream->rtmp; -- stream->rtmp = NULL; -+ status = h2_stream_end_headers(stream, eos, frame_len); -+ if (status != APR_SUCCESS) goto leave; - } - break; - -@@ -473,6 +463,7 @@ - if (status == APR_SUCCESS && eos) { - status = transit(stream, on_event(stream, H2_SEV_CLOSED_R)); - } -+leave: - return status; - } - -@@ -663,11 +654,14 @@ - - static apr_status_t add_trailer(h2_stream *stream, - const char *name, size_t nlen, -- const char *value, size_t vlen) -+ const char *value, size_t vlen, -+ size_t max_field_len, int *pwas_added) - { - conn_rec *c = stream->session->c; - char *hname, *hvalue; -+ const char *existing; - -+ *pwas_added = 0; - if (nlen == 0 || name[0] == ':') { - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, APR_EINVAL, c, - H2_STRM_LOG(APLOGNO(03060), stream, -@@ -681,9 +675,18 @@ - stream->trailers = apr_table_make(stream->pool, 5); - } - hname = apr_pstrndup(stream->pool, name, nlen); -- hvalue = apr_pstrndup(stream->pool, value, vlen); - h2_util_camel_case_header(hname, nlen); -+ existing = apr_table_get(stream->trailers, hname); -+ if (max_field_len -+ && ((existing? strlen(existing)+2 : 0) + vlen + nlen + 2 > max_field_len)) { -+ /* "key: (oldval, )?nval" is too long */ -+ return APR_EINVAL; -+ } -+ if (!existing) *pwas_added = 1; -+ hvalue = apr_pstrndup(stream->pool, value, vlen); - apr_table_mergen(stream->trailers, hname, hvalue); -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, c, -+ H2_STRM_MSG(stream, "added trailer '%s: %s'"), hname, hvalue); - - return APR_SUCCESS; - } -@@ -693,44 +696,31 @@ - const char *value, size_t vlen) - { - h2_session *session = stream->session; -- int error = 0; -- apr_status_t status; -+ int error = 0, was_added = 0; -+ apr_status_t status = APR_SUCCESS; - - if (stream->has_response) { - return APR_EINVAL; - } -- ++stream->request_headers_added; -+ - if (name[0] == ':') { - if ((vlen) > session->s->limit_req_line) { - /* pseudo header: approximation of request line size check */ -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, session->c, -- H2_STRM_MSG(stream, "pseudo %s too long"), name); -+ if (!h2_stream_is_ready(stream)) { -+ ap_log_cerror(APLOG_MARK, APLOG_INFO, 0, session->c, -+ H2_STRM_LOG(APLOGNO(10178), stream, -+ "Request pseudo header exceeds " -+ "LimitRequestFieldSize: %s"), name); -+ } - error = HTTP_REQUEST_URI_TOO_LARGE; -+ goto cleanup; - } - } -- else if ((nlen + 2 + vlen) > session->s->limit_req_fieldsize) { -- /* header too long */ -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, session->c, -- H2_STRM_MSG(stream, "header %s too long"), name); -- error = HTTP_REQUEST_HEADER_FIELDS_TOO_LARGE; -- } -- -- if (stream->request_headers_added > session->s->limit_req_fields + 4) { -- /* too many header lines, include 4 pseudo headers */ -- if (stream->request_headers_added -- > session->s->limit_req_fields + 4 + 100) { -- /* yeah, right */ -- h2_stream_rst(stream, H2_ERR_ENHANCE_YOUR_CALM); -- return APR_ECONNRESET; -- } -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, session->c, -- H2_STRM_MSG(stream, "too many header lines")); -- error = HTTP_REQUEST_HEADER_FIELDS_TOO_LARGE; -- } - -- if (error) { -- set_error_response(stream, error); -- return APR_EINVAL; -+ if (session->s->limit_req_fields > 0 -+ && stream->request_headers_added > session->s->limit_req_fields) { -+ /* already over limit, count this attempt, but do not take it in */ -+ ++stream->request_headers_added; - } - else if (H2_SS_IDLE == stream->state) { - if (!stream->rtmp) { -@@ -738,16 +728,55 @@ - NULL, NULL, NULL, NULL, NULL, 0); - } - status = h2_request_add_header(stream->rtmp, stream->pool, -- name, nlen, value, vlen); -+ name, nlen, value, vlen, -+ session->s->limit_req_fieldsize, &was_added); -+ if (was_added) ++stream->request_headers_added; - } - else if (H2_SS_OPEN == stream->state) { -- status = add_trailer(stream, name, nlen, value, vlen); -+ status = add_trailer(stream, name, nlen, value, vlen, -+ session->s->limit_req_fieldsize, &was_added); -+ if (was_added) ++stream->request_headers_added; - } - else { - status = APR_EINVAL; -+ goto cleanup; -+ } -+ -+ if (APR_EINVAL == status) { -+ /* header too long */ -+ if (!h2_stream_is_ready(stream)) { -+ ap_log_cerror(APLOG_MARK, APLOG_INFO, 0, session->c, -+ H2_STRM_LOG(APLOGNO(10180), stream,"Request header exceeds " -+ "LimitRequestFieldSize: %.*s"), -+ (int)H2MIN(nlen, 80), name); -+ } -+ error = HTTP_REQUEST_HEADER_FIELDS_TOO_LARGE; -+ goto cleanup; -+ } -+ -+ if (session->s->limit_req_fields > 0 -+ && stream->request_headers_added > session->s->limit_req_fields) { -+ /* too many header lines */ -+ if (stream->request_headers_added > session->s->limit_req_fields + 100) { -+ /* yeah, right, this request is way over the limit, say goodbye */ -+ h2_stream_rst(stream, H2_ERR_ENHANCE_YOUR_CALM); -+ return APR_ECONNRESET; -+ } -+ if (!h2_stream_is_ready(stream)) { -+ ap_log_cerror(APLOG_MARK, APLOG_INFO, 0, session->c, -+ H2_STRM_LOG(APLOGNO(10181), stream, "Number of request headers " -+ "exceeds LimitRequestFields")); -+ } -+ error = HTTP_REQUEST_HEADER_FIELDS_TOO_LARGE; -+ goto cleanup; - } - -- if (status != APR_SUCCESS) { -+cleanup: -+ if (error) { -+ set_error_response(stream, error); -+ return APR_EINVAL; -+ } -+ else if (status != APR_SUCCESS) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, session->c, - H2_STRM_MSG(stream, "header %s not accepted"), name); - h2_stream_dispatch(stream, H2_SEV_CANCELLED); -@@ -755,6 +784,49 @@ - return status; - } - -+typedef struct { -+ apr_size_t maxlen; -+ const char *failed_key; -+} val_len_check_ctx; -+ -+static int table_check_val_len(void *baton, const char *key, const char *value) -+{ -+ val_len_check_ctx *ctx = baton; -+ -+ if (strlen(value) <= ctx->maxlen) return 1; -+ ctx->failed_key = key; -+ return 0; -+} -+ -+apr_status_t h2_stream_end_headers(h2_stream *stream, int eos, size_t raw_bytes) -+{ -+ apr_status_t status; -+ val_len_check_ctx ctx; -+ -+ status = h2_request_end_headers(stream->rtmp, stream->pool, eos, raw_bytes); -+ if (APR_SUCCESS == status) { -+ set_policy_for(stream, stream->rtmp); -+ stream->request = stream->rtmp; -+ stream->rtmp = NULL; -+ -+ ctx.maxlen = stream->session->s->limit_req_fieldsize; -+ ctx.failed_key = NULL; -+ apr_table_do(table_check_val_len, &ctx, stream->request->headers, NULL); -+ if (ctx.failed_key) { -+ if (!h2_stream_is_ready(stream)) { -+ ap_log_cerror(APLOG_MARK, APLOG_INFO, 0, stream->session->c, -+ H2_STRM_LOG(APLOGNO(10230), stream,"Request header exceeds " -+ "LimitRequestFieldSize: %.*s"), -+ (int)H2MIN(strlen(ctx.failed_key), 80), ctx.failed_key); -+ } -+ set_error_response(stream, HTTP_REQUEST_HEADER_FIELDS_TOO_LARGE); -+ /* keep on returning APR_SUCCESS, so that we send a HTTP response and -+ * do not RST the stream. */ -+ } -+ } -+ return status; -+} -+ - static apr_bucket *get_first_headers_bucket(apr_bucket_brigade *bb) - { - if (bb) { -@@ -855,7 +927,7 @@ - * is requested. But we can reduce the size in case the master - * connection operates in smaller chunks. (TSL warmup) */ - if (stream->session->io.write_size > 0) { -- max_chunk = stream->session->io.write_size - 9; /* header bits */ -+ max_chunk = stream->session->io.write_size - H2_FRAME_HDR_LEN; - } - requested = (*plen > 0)? H2MIN(*plen, max_chunk) : max_chunk; - -@@ -864,7 +936,7 @@ - - if (status == APR_EAGAIN) { - /* TODO: ugly, someone needs to retrieve the response first */ -- h2_mplx_keep_active(stream->session->mplx, stream); -+ h2_mplx_m_keep_active(stream->session->mplx, stream); - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, - H2_STRM_MSG(stream, "prep, response eagain")); - return status; -@@ -987,7 +1059,7 @@ - const char *ctype = apr_table_get(response->headers, "content-type"); - if (ctype) { - /* FIXME: Not good enough, config needs to come from request->server */ -- return h2_config_get_priority(stream->session->config, ctype); -+ return h2_cconfig_get_priority(stream->session->c, ctype); - } - } - return NULL; ---- a/modules/http2/h2_stream.h -+++ b/modules/http2/h2_stream.h -@@ -198,6 +198,10 @@ - apr_status_t h2_stream_add_header(h2_stream *stream, - const char *name, size_t nlen, - const char *value, size_t vlen); -+ -+/* End the construction of request headers */ -+apr_status_t h2_stream_end_headers(h2_stream *stream, int eos, size_t raw_bytes); -+ - - apr_status_t h2_stream_send_frame(h2_stream *stream, int frame_type, int flags, size_t frame_len); - apr_status_t h2_stream_recv_frame(h2_stream *stream, int frame_type, int flags, size_t frame_len); ---- a/modules/http2/h2_switch.c -+++ b/modules/http2/h2_switch.c -@@ -55,7 +55,6 @@ - int is_tls = h2_h2_is_tls(c); - const char **protos = is_tls? h2_tls_protos : h2_clear_protos; - -- (void)s; - if (!h2_mpm_supported()) { - return DECLINED; - } -@@ -68,7 +67,7 @@ - return DECLINED; - } - -- if (!h2_is_acceptable_connection(c, 0)) { -+ if (!h2_is_acceptable_connection(c, r, 0)) { - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, c, APLOGNO(03084) - "protocol propose: connection requirements not met"); - return DECLINED; -@@ -81,7 +80,7 @@ - */ - const char *p; - -- if (!h2_allows_h2_upgrade(c)) { -+ if (!h2_allows_h2_upgrade(r)) { - return DECLINED; - } - -@@ -150,7 +149,7 @@ - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, - "switching protocol to '%s'", protocol); - h2_ctx_protocol_set(ctx, protocol); -- h2_ctx_server_set(ctx, s); -+ h2_ctx_server_update(ctx, s); - - if (r != NULL) { - apr_status_t status; -@@ -160,12 +159,11 @@ - * right away. - */ - ap_remove_input_filter_byhandle(r->input_filters, "http_in"); -- ap_remove_input_filter_byhandle(r->input_filters, "reqtimeout"); - ap_remove_output_filter_byhandle(r->output_filters, "HTTP_HEADER"); - - /* Ok, start an h2_conn on this one. */ -- h2_ctx_server_set(ctx, r->server); -- status = h2_conn_setup(ctx, r->connection, r); -+ status = h2_conn_setup(c, r, s); -+ - if (status != APR_SUCCESS) { - ap_log_rerror(APLOG_MARK, APLOG_DEBUG, status, r, APLOGNO(03088) - "session setup"); -@@ -173,7 +171,7 @@ - return !OK; - } - -- h2_conn_run(ctx, c); -+ h2_conn_run(c); - } - return OK; - } ---- a/modules/http2/h2_task.c -+++ b/modules/http2/h2_task.c -@@ -86,7 +86,7 @@ - task->request->authority, - task->request->path); - task->output.opened = 1; -- return h2_mplx_out_open(task->mplx, task->stream_id, task->output.beam); -+ return h2_mplx_t_out_open(task->mplx, task->stream_id, task->output.beam); - } - - static apr_status_t send_out(h2_task *task, apr_bucket_brigade* bb, int block) -@@ -97,7 +97,7 @@ - apr_brigade_length(bb, 0, &written); - H2_TASK_OUT_LOG(APLOG_TRACE2, task, bb, "h2_task send_out"); - h2_beam_log(task->output.beam, task->c, APLOG_TRACE2, "send_out(before)"); -- /* engines send unblocking */ -+ - status = h2_beam_send(task->output.beam, bb, - block? APR_BLOCK_READ : APR_NONBLOCK_READ); - h2_beam_log(task->output.beam, task->c, APLOG_TRACE2, "send_out(after)"); -@@ -126,33 +126,16 @@ - * request_rec out filter chain) into the h2_mplx for further sending - * on the master connection. - */ --static apr_status_t slave_out(h2_task *task, ap_filter_t* f, -- apr_bucket_brigade* bb) -+static apr_status_t secondary_out(h2_task *task, ap_filter_t* f, -+ apr_bucket_brigade* bb) - { - apr_bucket *b; - apr_status_t rv = APR_SUCCESS; - int flush = 0, blocking; - -- if (task->frozen) { -- h2_util_bb_log(task->c, task->stream_id, APLOG_TRACE2, -- "frozen task output write, ignored", bb); -- while (!APR_BRIGADE_EMPTY(bb)) { -- b = APR_BRIGADE_FIRST(bb); -- if (AP_BUCKET_IS_EOR(b)) { -- APR_BUCKET_REMOVE(b); -- task->eor = b; -- } -- else { -- apr_bucket_delete(b); -- } -- } -- return APR_SUCCESS; -- } -- - send: -- /* we send block once we opened the output, so someone is there -- * reading it *and* the task is not assigned to a h2_req_engine */ -- blocking = (!task->assigned && task->output.opened); -+ /* we send block once we opened the output, so someone is there reading it */ -+ blocking = task->output.opened; - for (b = APR_BRIGADE_FIRST(bb); - b != APR_BRIGADE_SENTINEL(bb); - b = APR_BUCKET_NEXT(b)) { -@@ -192,7 +175,7 @@ - if (APR_SUCCESS == rv) { - /* could not write all, buffer the rest */ - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, rv, task->c, APLOGNO(03405) -- "h2_slave_out(%s): saving brigade", task->id); -+ "h2_secondary_out(%s): saving brigade", task->id); - ap_assert(NULL); - rv = ap_save_brigade(f, &task->output.bb, &bb, task->pool); - flush = 1; -@@ -206,7 +189,7 @@ - } - out: - ap_log_cerror(APLOG_MARK, APLOG_TRACE2, rv, task->c, -- "h2_slave_out(%s): slave_out leave", task->id); -+ "h2_secondary_out(%s): secondary_out leave", task->id); - return rv; - } - -@@ -219,14 +202,14 @@ - } - - /******************************************************************************* -- * task slave connection filters -+ * task secondary connection filters - ******************************************************************************/ - --static apr_status_t h2_filter_slave_in(ap_filter_t* f, -- apr_bucket_brigade* bb, -- ap_input_mode_t mode, -- apr_read_type_e block, -- apr_off_t readbytes) -+static apr_status_t h2_filter_secondary_in(ap_filter_t* f, -+ apr_bucket_brigade* bb, -+ ap_input_mode_t mode, -+ apr_read_type_e block, -+ apr_off_t readbytes) - { - h2_task *task; - apr_status_t status = APR_SUCCESS; -@@ -236,12 +219,12 @@ - apr_size_t rmax = ((readbytes <= APR_SIZE_MAX)? - (apr_size_t)readbytes : APR_SIZE_MAX); - -- task = h2_ctx_cget_task(f->c); -+ task = h2_ctx_get_task(f->c); - ap_assert(task); - - if (trace1) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, f->c, -- "h2_slave_in(%s): read, mode=%d, block=%d, readbytes=%ld", -+ "h2_secondary_in(%s): read, mode=%d, block=%d, readbytes=%ld", - task->id, mode, block, (long)readbytes); - } - -@@ -271,7 +254,7 @@ - /* Get more input data for our request. */ - if (trace1) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, status, f->c, -- "h2_slave_in(%s): get more data from mplx, block=%d, " -+ "h2_secondary_in(%s): get more data from mplx, block=%d, " - "readbytes=%ld", task->id, block, (long)readbytes); - } - if (task->input.beam) { -@@ -284,7 +267,7 @@ - - if (trace1) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE2, status, f->c, -- "h2_slave_in(%s): read returned", task->id); -+ "h2_secondary_in(%s): read returned", task->id); - } - if (APR_STATUS_IS_EAGAIN(status) - && (mode == AP_MODE_GETLINE || block == APR_BLOCK_READ)) { -@@ -310,11 +293,9 @@ - } - } - -- /* Nothing there, no more data to get. Return APR_EAGAIN on -- * speculative reads, this is ap_check_pipeline()'s trick to -- * see if the connection needs closing. */ -+ /* Nothing there, no more data to get. Return. */ - if (status == APR_EOF && APR_BRIGADE_EMPTY(task->input.bb)) { -- return (mode == AP_MODE_SPECULATIVE)? APR_EAGAIN : APR_EOF; -+ return status; - } - - if (trace1) { -@@ -325,7 +306,7 @@ - if (APR_BRIGADE_EMPTY(task->input.bb)) { - if (trace1) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, f->c, -- "h2_slave_in(%s): no data", task->id); -+ "h2_secondary_in(%s): no data", task->id); - } - return (block == APR_NONBLOCK_READ)? APR_EAGAIN : APR_EOF; - } -@@ -353,7 +334,7 @@ - buffer[len] = 0; - if (trace1) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, status, f->c, -- "h2_slave_in(%s): getline: %s", -+ "h2_secondary_in(%s): getline: %s", - task->id, buffer); - } - } -@@ -363,7 +344,7 @@ - * to support it. Seems to work. */ - ap_log_cerror(APLOG_MARK, APLOG_ERR, APR_ENOTIMPL, f->c, - APLOGNO(03472) -- "h2_slave_in(%s), unsupported READ mode %d", -+ "h2_secondary_in(%s), unsupported READ mode %d", - task->id, mode); - status = APR_ENOTIMPL; - } -@@ -371,19 +352,19 @@ - if (trace1) { - apr_brigade_length(bb, 0, &bblen); - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, status, f->c, -- "h2_slave_in(%s): %ld data bytes", task->id, (long)bblen); -+ "h2_secondary_in(%s): %ld data bytes", task->id, (long)bblen); - } - return status; - } - --static apr_status_t h2_filter_slave_output(ap_filter_t* filter, -- apr_bucket_brigade* brigade) -+static apr_status_t h2_filter_secondary_output(ap_filter_t* filter, -+ apr_bucket_brigade* brigade) - { -- h2_task *task = h2_ctx_cget_task(filter->c); -+ h2_task *task = h2_ctx_get_task(filter->c); - apr_status_t status; - - ap_assert(task); -- status = slave_out(task, filter, brigade); -+ status = secondary_out(task, filter, brigade); - if (status != APR_SUCCESS) { - h2_task_rst(task, H2_ERR_INTERNAL_ERROR); - } -@@ -392,14 +373,14 @@ - - static apr_status_t h2_filter_parse_h1(ap_filter_t* f, apr_bucket_brigade* bb) - { -- h2_task *task = h2_ctx_cget_task(f->c); -+ h2_task *task = h2_ctx_get_task(f->c); - apr_status_t status; - - ap_assert(task); - /* There are cases where we need to parse a serialized http/1.1 - * response. One example is a 100-continue answer in serialized mode - * or via a mod_proxy setup */ -- while (bb && !task->output.sent_response) { -+ while (bb && !task->c->aborted && !task->output.sent_response) { - status = h2_from_h1_parse_response(task, f, bb); - ap_log_cerror(APLOG_MARK, APLOG_TRACE2, status, f->c, - "h2_task(%s): parsed response", task->id); -@@ -425,8 +406,15 @@ - || !strcmp("OPTIONS", task->request->method)); - } - -+int h2_task_has_started(h2_task *task) -+{ -+ return task && task->started_at != 0; -+} -+ - void h2_task_redo(h2_task *task) - { -+ task->started_at = 0; -+ task->worker_done = 0; - task->rst_error = 0; - } - -@@ -468,9 +456,9 @@ - ap_hook_process_connection(h2_task_process_conn, - NULL, NULL, APR_HOOK_FIRST); - -- ap_register_input_filter("H2_SLAVE_IN", h2_filter_slave_in, -+ ap_register_input_filter("H2_SECONDARY_IN", h2_filter_secondary_in, - NULL, AP_FTYPE_NETWORK); -- ap_register_output_filter("H2_SLAVE_OUT", h2_filter_slave_output, -+ ap_register_output_filter("H2_SECONDARY_OUT", h2_filter_secondary_output, - NULL, AP_FTYPE_NETWORK); - ap_register_output_filter("H2_PARSE_H1", h2_filter_parse_h1, - NULL, AP_FTYPE_NETWORK); -@@ -502,17 +490,17 @@ - - ctx = h2_ctx_get(c, 0); - (void)arg; -- if (h2_ctx_is_task(ctx)) { -+ if (ctx->task) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE2, 0, c, -- "h2_slave(%s), pre_connection, adding filters", c->log_id); -- ap_add_input_filter("H2_SLAVE_IN", NULL, NULL, c); -+ "h2_secondary(%s), pre_connection, adding filters", c->log_id); -+ ap_add_input_filter("H2_SECONDARY_IN", NULL, NULL, c); - ap_add_output_filter("H2_PARSE_H1", NULL, NULL, c); -- ap_add_output_filter("H2_SLAVE_OUT", NULL, NULL, c); -+ ap_add_output_filter("H2_SECONDARY_OUT", NULL, NULL, c); - } - return OK; - } - --h2_task *h2_task_create(conn_rec *slave, int stream_id, -+h2_task *h2_task_create(conn_rec *secondary, int stream_id, - const h2_request *req, h2_mplx *m, - h2_bucket_beam *input, - apr_interval_time_t timeout, -@@ -521,17 +509,18 @@ - apr_pool_t *pool; - h2_task *task; - -- ap_assert(slave); -+ ap_assert(secondary); - ap_assert(req); - -- apr_pool_create(&pool, slave->pool); -+ apr_pool_create(&pool, secondary->pool); -+ apr_pool_tag(pool, "h2_task"); - task = apr_pcalloc(pool, sizeof(h2_task)); - if (task == NULL) { - return NULL; - } - task->id = "000"; - task->stream_id = stream_id; -- task->c = slave; -+ task->c = secondary; - task->mplx = m; - task->pool = pool; - task->request = req; -@@ -564,41 +553,40 @@ - ap_assert(task); - c = task->c; - task->worker_started = 1; -- task->started_at = apr_time_now(); - - if (c->master) { -- /* Each conn_rec->id is supposed to be unique at a point in time. Since -+ /* See the discussion at <https://github.com/icing/mod_h2/issues/195> -+ * -+ * Each conn_rec->id is supposed to be unique at a point in time. Since - * some modules (and maybe external code) uses this id as an identifier -- * for the request_rec they handle, it needs to be unique for slave -+ * for the request_rec they handle, it needs to be unique for secondary - * connections also. -- * The connection id is generated by the MPM and most MPMs use the formula -- * id := (child_num * max_threads) + thread_num -- * which means that there is a maximum id of about -- * idmax := max_child_count * max_threads -- * If we assume 2024 child processes with 2048 threads max, we get -- * idmax ~= 2024 * 2048 = 2 ** 22 -- * On 32 bit systems, we have not much space left, but on 64 bit systems -- * (and higher?) we can use the upper 32 bits without fear of collision. -- * 32 bits is just what we need, since a connection can only handle so -- * many streams. -+ * -+ * The MPM module assigns the connection ids and mod_unique_id is using -+ * that one to generate identifier for requests. While the implementation -+ * works for HTTP/1.x, the parallel execution of several requests per -+ * connection will generate duplicate identifiers on load. -+ * -+ * The original implementation for secondary connection identifiers used -+ * to shift the master connection id up and assign the stream id to the -+ * lower bits. This was cramped on 32 bit systems, but on 64bit there was -+ * enough space. -+ * -+ * As issue 195 showed, mod_unique_id only uses the lower 32 bit of the -+ * connection id, even on 64bit systems. Therefore collisions in request ids. -+ * -+ * The way master connection ids are generated, there is some space "at the -+ * top" of the lower 32 bits on allmost all systems. If you have a setup -+ * with 64k threads per child and 255 child processes, you live on the edge. -+ * -+ * The new implementation shifts 8 bits and XORs in the worker -+ * id. This will experience collisions with > 256 h2 workers and heavy -+ * load still. There seems to be no way to solve this in all possible -+ * configurations by mod_h2 alone. - */ -- int slave_id, free_bits; -- -+ task->c->id = (c->master->id << 8)^worker_id; - task->id = apr_psprintf(task->pool, "%ld-%d", c->master->id, - task->stream_id); -- if (sizeof(unsigned long) >= 8) { -- free_bits = 32; -- slave_id = task->stream_id; -- } -- else { -- /* Assume we have a more limited number of threads/processes -- * and h2 workers on a 32-bit system. Use the worker instead -- * of the stream id. */ -- free_bits = 8; -- slave_id = worker_id; -- } -- task->c->id = (c->master->id << free_bits)^slave_id; -- c->keepalive = AP_CONN_KEEPALIVE; - } - - h2_beam_create(&task->output.beam, c->pool, task->stream_id, "output", -@@ -613,7 +601,7 @@ - h2_ctx_create_for(c, task); - apr_table_setn(c->notes, H2_TASK_ID_NOTE, task->id); - -- h2_slave_run_pre_connection(c, ap_get_conn_socket(c)); -+ h2_secondary_run_pre_connection(c, ap_get_conn_socket(c)); - - task->input.bb = apr_brigade_create(task->pool, c->bucket_alloc); - if (task->request->serialize) { -@@ -633,18 +621,9 @@ - task->c->current_thread = thread; - ap_run_process_connection(c); - -- if (task->frozen) { -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, -- "h2_task(%s): process_conn returned frozen task", -- task->id); -- /* cleanup delayed */ -- return APR_EAGAIN; -- } -- else { -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, -- "h2_task(%s): processing done", task->id); -- return output_finish(task); -- } -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, -+ "h2_task(%s): processing done", task->id); -+ return output_finish(task); - } - - static apr_status_t h2_task_process_request(h2_task *task, conn_rec *c) -@@ -682,14 +661,8 @@ - - ap_process_request(r); - -- if (task->frozen) { -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, -- "h2_task(%s): process_request frozen", task->id); -- } -- else { -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, -- "h2_task(%s): process_request done", task->id); -- } -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, -+ "h2_task(%s): process_request done", task->id); - - /* After the call to ap_process_request, the - * request pool may have been deleted. We set -@@ -724,7 +697,7 @@ - } - - ctx = h2_ctx_get(c, 0); -- if (h2_ctx_is_task(ctx)) { -+ if (ctx->task) { - if (!ctx->task->request->serialize) { - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, - "h2_h2, processing request directly"); -@@ -736,33 +709,8 @@ - } - else { - ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, -- "slave_conn(%ld): has no task", c->id); -+ "secondary_conn(%ld): has no task", c->id); - } - return DECLINED; - } - --apr_status_t h2_task_freeze(h2_task *task) --{ -- if (!task->frozen) { -- task->frozen = 1; -- ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, task->c, APLOGNO(03406) -- "h2_task(%s), frozen", task->id); -- } -- return APR_SUCCESS; --} -- --apr_status_t h2_task_thaw(h2_task *task) --{ -- if (task->frozen) { -- task->frozen = 0; -- ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, task->c, APLOGNO(03407) -- "h2_task(%s), thawed", task->id); -- } -- task->thawed = 1; -- return APR_SUCCESS; --} -- --int h2_task_has_thawed(h2_task *task) --{ -- return task->thawed; --} ---- a/modules/http2/h2_task.h -+++ b/modules/http2/h2_task.h -@@ -35,14 +35,13 @@ - * - * Finally, to keep certain connection level filters, such as ourselves and - * especially mod_ssl ones, from messing with our data, we need a filter -- * of our own to disble those. -+ * of our own to disable those. - */ - - struct h2_bucket_beam; - struct h2_conn; - struct h2_mplx; - struct h2_task; --struct h2_req_engine; - struct h2_request; - struct h2_response_parser; - struct h2_stream; -@@ -80,20 +79,18 @@ - struct h2_mplx *mplx; - - unsigned int filters_set : 1; -- unsigned int frozen : 1; -- unsigned int thawed : 1; - unsigned int worker_started : 1; /* h2_worker started processing */ -- unsigned int worker_done : 1; /* h2_worker finished */ -+ unsigned int redo : 1; /* was throttled, should be restarted later */ -+ -+ int worker_done; /* h2_worker finished */ -+ int done_done; /* task_done has been handled */ - - apr_time_t started_at; /* when processing started */ - apr_time_t done_at; /* when processing was done */ - apr_bucket *eor; -- -- struct h2_req_engine *engine; /* engine hosted by this task */ -- struct h2_req_engine *assigned; /* engine that task has been assigned to */ - }; - --h2_task *h2_task_create(conn_rec *slave, int stream_id, -+h2_task *h2_task_create(conn_rec *secondary, int stream_id, - const h2_request *req, struct h2_mplx *m, - struct h2_bucket_beam *input, - apr_interval_time_t timeout, -@@ -105,6 +102,7 @@ - - void h2_task_redo(h2_task *task); - int h2_task_can_redo(h2_task *task); -+int h2_task_has_started(h2_task *task); - - /** - * Reset the task with the given error code, resets all input/output. -@@ -120,8 +118,4 @@ - extern APR_OPTIONAL_FN_TYPE(ap_logio_add_bytes_in) *h2_task_logio_add_bytes_in; - extern APR_OPTIONAL_FN_TYPE(ap_logio_add_bytes_out) *h2_task_logio_add_bytes_out; - --apr_status_t h2_task_freeze(h2_task *task); --apr_status_t h2_task_thaw(h2_task *task); --int h2_task_has_thawed(h2_task *task); -- - #endif /* defined(__mod_h2__h2_task__) */ ---- a/modules/http2/h2_util.c -+++ b/modules/http2/h2_util.c -@@ -638,15 +638,6 @@ - apr_status_t rv; - if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) { - fifo->aborted = 1; -- apr_thread_mutex_unlock(fifo->lock); -- } -- return rv; --} -- --apr_status_t h2_fifo_interrupt(h2_fifo *fifo) --{ -- apr_status_t rv; -- if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) { - apr_thread_cond_broadcast(fifo->not_empty); - apr_thread_cond_broadcast(fifo->not_full); - apr_thread_mutex_unlock(fifo->lock); -@@ -710,10 +701,6 @@ - { - apr_status_t rv; - -- if (fifo->aborted) { -- return APR_EOF; -- } -- - if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) { - rv = fifo_push_int(fifo, elem, block); - apr_thread_mutex_unlock(fifo->lock); -@@ -754,10 +741,6 @@ - { - apr_status_t rv; - -- if (fifo->aborted) { -- return APR_EOF; -- } -- - if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) { - rv = pull_head(fifo, pelem, block); - apr_thread_mutex_unlock(fifo->lock); -@@ -946,15 +929,6 @@ - apr_status_t rv; - if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) { - fifo->aborted = 1; -- apr_thread_mutex_unlock(fifo->lock); -- } -- return rv; --} -- --apr_status_t h2_ififo_interrupt(h2_ififo *fifo) --{ -- apr_status_t rv; -- if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) { - apr_thread_cond_broadcast(fifo->not_empty); - apr_thread_cond_broadcast(fifo->not_full); - apr_thread_mutex_unlock(fifo->lock); -@@ -1018,10 +992,6 @@ - { - apr_status_t rv; - -- if (fifo->aborted) { -- return APR_EOF; -- } -- - if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) { - rv = ififo_push_int(fifo, id, block); - apr_thread_mutex_unlock(fifo->lock); -@@ -1062,10 +1032,6 @@ - { - apr_status_t rv; - -- if (fifo->aborted) { -- return APR_EOF; -- } -- - if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) { - rv = ipull_head(fifo, pi, block); - apr_thread_mutex_unlock(fifo->lock); -@@ -1088,10 +1054,6 @@ - apr_status_t rv; - int id; - -- if (fifo->aborted) { -- return APR_EOF; -- } -- - if (APR_SUCCESS == (rv = apr_thread_mutex_lock(fifo->lock))) { - if (APR_SUCCESS == (rv = ipull_head(fifo, &id, block))) { - switch (fn(id, ctx)) { -@@ -1117,39 +1079,40 @@ - return ififo_peek(fifo, fn, ctx, 0); - } - --apr_status_t h2_ififo_remove(h2_ififo *fifo, int id) -+static apr_status_t ififo_remove(h2_ififo *fifo, int id) - { -- apr_status_t rv; -+ int rc, i; - - if (fifo->aborted) { - return APR_EOF; - } - -- if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) { -- int i, rc; -- int e; -- -- rc = 0; -- for (i = 0; i < fifo->count; ++i) { -- e = fifo->elems[inth_index(fifo, i)]; -- if (e == id) { -- ++rc; -- } -- else if (rc) { -- fifo->elems[inth_index(fifo, i-rc)] = e; -- } -- } -- if (rc) { -- fifo->count -= rc; -- if (fifo->count + rc == fifo->nelems) { -- apr_thread_cond_broadcast(fifo->not_full); -- } -- rv = APR_SUCCESS; -+ rc = 0; -+ for (i = 0; i < fifo->count; ++i) { -+ int e = fifo->elems[inth_index(fifo, i)]; -+ if (e == id) { -+ ++rc; - } -- else { -- rv = APR_EAGAIN; -+ else if (rc) { -+ fifo->elems[inth_index(fifo, i-rc)] = e; - } -- -+ } -+ if (!rc) { -+ return APR_EAGAIN; -+ } -+ fifo->count -= rc; -+ if (fifo->count + rc == fifo->nelems) { -+ apr_thread_cond_broadcast(fifo->not_full); -+ } -+ return APR_SUCCESS; -+} -+ -+apr_status_t h2_ififo_remove(h2_ififo *fifo, int id) -+{ -+ apr_status_t rv; -+ -+ if ((rv = apr_thread_mutex_lock(fifo->lock)) == APR_SUCCESS) { -+ rv = ififo_remove(fifo, id); - apr_thread_mutex_unlock(fifo->lock); - } - return rv; -@@ -1373,7 +1336,7 @@ - return status; - } - else if (blen == 0) { -- /* brigade without data, does it have an EOS bucket somwhere? */ -+ /* brigade without data, does it have an EOS bucket somewhere? */ - *plen = 0; - *peos = h2_util_has_eos(bb, -1); - } -@@ -1840,22 +1803,29 @@ - } - - apr_status_t h2_req_add_header(apr_table_t *headers, apr_pool_t *pool, -- const char *name, size_t nlen, -- const char *value, size_t vlen) -+ const char *name, size_t nlen, -+ const char *value, size_t vlen, -+ size_t max_field_len, int *pwas_added) - { - char *hname, *hvalue; -+ const char *existing; - -+ *pwas_added = 0; - if (h2_req_ignore_header(name, nlen)) { - return APR_SUCCESS; - } - else if (H2_HD_MATCH_LIT("cookie", name, nlen)) { -- const char *existing = apr_table_get(headers, "cookie"); -+ existing = apr_table_get(headers, "cookie"); - if (existing) { - char *nval; - - /* Cookie header come separately in HTTP/2, but need - * to be merged by "; " (instead of default ", ") - */ -+ if (max_field_len && strlen(existing) + vlen + nlen + 4 > max_field_len) { -+ /* "key: oldval, nval" is too long */ -+ return APR_EINVAL; -+ } - hvalue = apr_pstrndup(pool, value, vlen); - nval = apr_psprintf(pool, "%s; %s", existing, hvalue); - apr_table_setn(headers, "Cookie", nval); -@@ -1869,8 +1839,16 @@ - } - - hname = apr_pstrndup(pool, name, nlen); -- hvalue = apr_pstrndup(pool, value, vlen); - h2_util_camel_case_header(hname, nlen); -+ existing = apr_table_get(headers, hname); -+ if (max_field_len) { -+ if ((existing? strlen(existing)+2 : 0) + vlen + nlen + 2 > max_field_len) { -+ /* "key: (oldval, )?nval" is too long */ -+ return APR_EINVAL; -+ } -+ } -+ if (!existing) *pwas_added = 1; -+ hvalue = apr_pstrndup(pool, value, vlen); - apr_table_mergen(headers, hname, hvalue); - - return APR_SUCCESS; -@@ -1960,7 +1938,8 @@ - case NGHTTP2_GOAWAY: { - size_t len = (frame->goaway.opaque_data_len < s_len)? - frame->goaway.opaque_data_len : s_len-1; -- memcpy(scratch, frame->goaway.opaque_data, len); -+ if (len) -+ memcpy(scratch, frame->goaway.opaque_data, len); - scratch[len] = '\0'; - return apr_snprintf(buffer, maxlen, "GOAWAY[error=%d, reason='%s', " - "last_stream=%d]", frame->goaway.error_code, ---- a/modules/http2/h2_util.h -+++ b/modules/http2/h2_util.h -@@ -209,7 +209,6 @@ - apr_status_t h2_fifo_set_create(h2_fifo **pfifo, apr_pool_t *pool, int capacity); - - apr_status_t h2_fifo_term(h2_fifo *fifo); --apr_status_t h2_fifo_interrupt(h2_fifo *fifo); - - int h2_fifo_count(h2_fifo *fifo); - -@@ -229,7 +228,7 @@ - - typedef enum { - H2_FIFO_OP_PULL, /* pull the element from the queue, ie discard it */ -- H2_FIFO_OP_REPUSH, /* pull and immediatley re-push it */ -+ H2_FIFO_OP_REPUSH, /* pull and immediately re-push it */ - } h2_fifo_op_t; - - typedef h2_fifo_op_t h2_fifo_peek_fn(void *head, void *ctx); -@@ -280,7 +279,6 @@ - apr_status_t h2_ififo_set_create(h2_ififo **pfifo, apr_pool_t *pool, int capacity); - - apr_status_t h2_ififo_term(h2_ififo *fifo); --apr_status_t h2_ififo_interrupt(h2_ififo *fifo); - - int h2_ififo_count(h2_ififo *fifo); - -@@ -412,9 +410,14 @@ - apr_status_t h2_req_create_ngheader(h2_ngheader **ph, apr_pool_t *p, - const struct h2_request *req); - -+/** -+ * Add a HTTP/2 header and return the table key if it really was added -+ * and not ignored. -+ */ - apr_status_t h2_req_add_header(apr_table_t *headers, apr_pool_t *pool, - const char *name, size_t nlen, -- const char *value, size_t vlen); -+ const char *value, size_t vlen, -+ size_t max_field_len, int *pwas_added); - - /******************************************************************************* - * h2_request helpers ---- a/modules/http2/h2_version.h -+++ b/modules/http2/h2_version.h -@@ -27,7 +27,7 @@ - * @macro - * Version number of the http2 module as c string - */ --#define MOD_HTTP2_VERSION "1.11.4" -+#define MOD_HTTP2_VERSION "1.15.14" - - /** - * @macro -@@ -35,7 +35,6 @@ - * release. This is a 24 bit number with 8 bits for major number, 8 bits - * for minor and 8 bits for patch. Version 1.2.3 becomes 0x010203. - */ --#define MOD_HTTP2_VERSION_NUM 0x010b04 -- -+#define MOD_HTTP2_VERSION_NUM 0x010f0e - - #endif /* mod_h2_h2_version_h */ ---- a/modules/http2/h2_workers.c -+++ b/modules/http2/h2_workers.c -@@ -155,7 +155,7 @@ - { - apr_status_t rv; - -- rv = h2_mplx_pop_task(m, &slot->task); -+ rv = h2_mplx_s_pop_task(m, &slot->task); - if (slot->task) { - /* Ok, we got something to give back to the worker for execution. - * If we still have idle workers, we let the worker be sticky, -@@ -234,10 +234,10 @@ - * mplx the opportunity to give us back a new task right away. - */ - if (!slot->aborted && (--slot->sticks > 0)) { -- h2_mplx_task_done(slot->task->mplx, slot->task, &slot->task); -+ h2_mplx_s_task_done(slot->task->mplx, slot->task, &slot->task); - } - else { -- h2_mplx_task_done(slot->task->mplx, slot->task, NULL); -+ h2_mplx_s_task_done(slot->task->mplx, slot->task, NULL); - slot->task = NULL; - } - } -@@ -269,7 +269,6 @@ - } - - h2_fifo_term(workers->mplxs); -- h2_fifo_interrupt(workers->mplxs); - - cleanup_zombies(workers); - } ---- a/modules/http2/mod_http2.c -+++ b/modules/http2/mod_http2.c -@@ -172,27 +172,6 @@ - conn_rec *, request_rec *, char *name); - static int http2_is_h2(conn_rec *); - --static apr_status_t http2_req_engine_push(const char *ngn_type, -- request_rec *r, -- http2_req_engine_init *einit) --{ -- return h2_mplx_req_engine_push(ngn_type, r, einit); --} -- --static apr_status_t http2_req_engine_pull(h2_req_engine *ngn, -- apr_read_type_e block, -- int capacity, -- request_rec **pr) --{ -- return h2_mplx_req_engine_pull(ngn, block, capacity, pr); --} -- --static void http2_req_engine_done(h2_req_engine *ngn, conn_rec *r_conn, -- apr_status_t status) --{ -- h2_mplx_req_engine_done(ngn, r_conn, status); --} -- - static void http2_get_num_workers(server_rec *s, int *minw, int *maxw) - { - h2_get_num_workers(s, minw, maxw); -@@ -220,9 +199,6 @@ - - APR_REGISTER_OPTIONAL_FN(http2_is_h2); - APR_REGISTER_OPTIONAL_FN(http2_var_lookup); -- APR_REGISTER_OPTIONAL_FN(http2_req_engine_push); -- APR_REGISTER_OPTIONAL_FN(http2_req_engine_pull); -- APR_REGISTER_OPTIONAL_FN(http2_req_engine_done); - APR_REGISTER_OPTIONAL_FN(http2_get_num_workers); - - ap_log_perror(APLOG_MARK, APLOG_TRACE1, 0, pool, "installing hooks"); -@@ -260,9 +236,8 @@ - { - if (ctx) { - if (r) { -- h2_task *task = h2_ctx_get_task(ctx); -- if (task) { -- h2_stream *stream = h2_mplx_stream_get(task->mplx, task->stream_id); -+ if (ctx->task) { -+ h2_stream *stream = h2_mplx_t_stream_get(ctx->task->mplx, ctx->task); - if (stream && stream->push_policy != H2_PUSH_NONE) { - return "on"; - } -@@ -273,8 +248,7 @@ - } - } - else if (s) { -- const h2_config *cfg = h2_config_sget(s); -- if (cfg && h2_config_geti(cfg, H2_CONF_PUSH)) { -+ if (h2_config_geti(r, s, H2_CONF_PUSH)) { - return "on"; - } - } -@@ -285,8 +259,7 @@ - conn_rec *c, request_rec *r, h2_ctx *ctx) - { - if (ctx) { -- h2_task *task = h2_ctx_get_task(ctx); -- if (task && !H2_STREAM_CLIENT_INITIATED(task->stream_id)) { -+ if (ctx->task && !H2_STREAM_CLIENT_INITIATED(ctx->task->stream_id)) { - return "PUSHED"; - } - } -@@ -297,9 +270,8 @@ - conn_rec *c, request_rec *r, h2_ctx *ctx) - { - if (ctx) { -- h2_task *task = h2_ctx_get_task(ctx); -- if (task && !H2_STREAM_CLIENT_INITIATED(task->stream_id)) { -- h2_stream *stream = h2_mplx_stream_get(task->mplx, task->stream_id); -+ if (ctx->task && !H2_STREAM_CLIENT_INITIATED(ctx->task->stream_id)) { -+ h2_stream *stream = h2_mplx_t_stream_get(ctx->task->mplx, ctx->task); - if (stream) { - return apr_itoa(p, stream->initiated_on); - } -@@ -312,9 +284,8 @@ - conn_rec *c, request_rec *r, h2_ctx *ctx) - { - if (ctx) { -- h2_task *task = h2_ctx_get_task(ctx); -- if (task) { -- return task->id; -+ if (ctx->task) { -+ return ctx->task->id; - } - } - return ""; -@@ -366,7 +337,7 @@ - for (i = 0; i < H2_ALEN(H2_VARS); ++i) { - h2_var_def *vdef = &H2_VARS[i]; - if (!strcmp(vdef->name, name)) { -- h2_ctx *ctx = (r? h2_ctx_rget(r) : -+ h2_ctx *ctx = (r? h2_ctx_get(c, 0) : - h2_ctx_get(c->master? c->master : c, 0)); - return (char *)vdef->lookup(p, s, c, r, ctx); - } -@@ -377,7 +348,7 @@ - static int h2_h2_fixups(request_rec *r) - { - if (r->connection->master) { -- h2_ctx *ctx = h2_ctx_rget(r); -+ h2_ctx *ctx = h2_ctx_get(r->connection, 0); - int i; - - for (i = 0; ctx && i < H2_ALEN(H2_VARS); ++i) { ---- a/modules/http2/mod_http2.dep -+++ b/modules/http2/mod_http2.dep -@@ -694,7 +694,6 @@ - ".\h2_ctx.h"\ - ".\h2_h2.h"\ - ".\h2_mplx.h"\ -- ".\h2_ngn_shed.h"\ - ".\h2_private.h"\ - ".\h2_request.h"\ - ".\h2_stream.h"\ -@@ -754,7 +753,6 @@ - ".\h2_ctx.h"\ - ".\h2_h2.h"\ - ".\h2_mplx.h"\ -- ".\h2_ngn_shed.h"\ - ".\h2_private.h"\ - ".\h2_request.h"\ - ".\h2_task.h"\ ---- a/modules/http2/mod_http2.dsp -+++ b/modules/http2/mod_http2.dsp -@@ -145,10 +145,6 @@ - # End Source File - # Begin Source File - --SOURCE=./h2_ngn_shed.c --# End Source File --# Begin Source File -- - SOURCE=./h2_push.c - # End Source File - # Begin Source File ---- a/modules/http2/mod_http2.h -+++ b/modules/http2/mod_http2.h -@@ -30,22 +30,20 @@ - - - /******************************************************************************* -- * HTTP/2 request engines -+ * START HTTP/2 request engines (DEPRECATED) - ******************************************************************************/ -+ -+/* The following functions were introduced for the experimental mod_proxy_http2 -+ * support, but have been abandoned since. -+ * They are still declared here for backward compatibility, in case someone -+ * tries to build an old mod_proxy_http2 against it, but will disappear -+ * completely sometime in the future. -+ */ - - struct apr_thread_cond_t; -- - typedef struct h2_req_engine h2_req_engine; -- - typedef void http2_output_consumed(void *ctx, conn_rec *c, apr_off_t consumed); - --/** -- * Initialize a h2_req_engine. The structure will be passed in but -- * only the name and master are set. The function should initialize -- * all fields. -- * @param engine the allocated, partially filled structure -- * @param r the first request to process, or NULL -- */ - typedef apr_status_t http2_req_engine_init(h2_req_engine *engine, - const char *id, - const char *type, -@@ -55,35 +53,11 @@ - http2_output_consumed **pconsumed, - void **pbaton); - --/** -- * Push a request to an engine with the specified name for further processing. -- * If no such engine is available, einit is not NULL, einit is called -- * with a new engine record and the caller is responsible for running the -- * new engine instance. -- * @param engine_type the type of the engine to add the request to -- * @param r the request to push to an engine for processing -- * @param einit an optional initialization callback for a new engine -- * of the requested type, should no instance be available. -- * By passing a non-NULL callback, the caller is willing -- * to init and run a new engine itself. -- * @return APR_SUCCESS iff slave was successfully added to an engine -- */ - APR_DECLARE_OPTIONAL_FN(apr_status_t, - http2_req_engine_push, (const char *engine_type, - request_rec *r, - http2_req_engine_init *einit)); - --/** -- * Get a new request for processing in this engine. -- * @param engine the engine which is done processing the slave -- * @param block if call should block waiting for request to come -- * @param capacity how many parallel requests are acceptable -- * @param pr the request that needs processing or NULL -- * @return APR_SUCCESS if new request was assigned -- * APR_EAGAIN if no new request is available -- * APR_EOF if engine may shut down, as no more request will be scheduled -- * APR_ECONNABORTED if the engine needs to shut down immediately -- */ - APR_DECLARE_OPTIONAL_FN(apr_status_t, - http2_req_engine_pull, (h2_req_engine *engine, - apr_read_type_e block, -@@ -98,4 +72,8 @@ - http2_get_num_workers, (server_rec *s, - int *minw, int *max)); - -+/******************************************************************************* -+ * END HTTP/2 request engines (DEPRECATED) -+ ******************************************************************************/ -+ - #endif ---- a/modules/http2/mod_http2.mak -+++ b/modules/http2/mod_http2.mak -@@ -61,7 +61,6 @@ - -@erase "$(INTDIR)\h2_h2.obj" - -@erase "$(INTDIR)\h2_headers.obj" - -@erase "$(INTDIR)\h2_mplx.obj" -- -@erase "$(INTDIR)\h2_ngn_shed.obj" - -@erase "$(INTDIR)\h2_push.obj" - -@erase "$(INTDIR)\h2_request.obj" - -@erase "$(INTDIR)\h2_session.obj" -@@ -138,7 +137,6 @@ - "$(INTDIR)\h2_h2.obj" \ - "$(INTDIR)\h2_headers.obj" \ - "$(INTDIR)\h2_mplx.obj" \ -- "$(INTDIR)\h2_ngn_shed.obj" \ - "$(INTDIR)\h2_push.obj" \ - "$(INTDIR)\h2_request.obj" \ - "$(INTDIR)\h2_session.obj" \ -@@ -207,7 +205,6 @@ - -@erase "$(INTDIR)\h2_h2.obj" - -@erase "$(INTDIR)\h2_headers.obj" - -@erase "$(INTDIR)\h2_mplx.obj" -- -@erase "$(INTDIR)\h2_ngn_shed.obj" - -@erase "$(INTDIR)\h2_push.obj" - -@erase "$(INTDIR)\h2_request.obj" - -@erase "$(INTDIR)\h2_session.obj" -@@ -284,7 +281,6 @@ - "$(INTDIR)\h2_h2.obj" \ - "$(INTDIR)\h2_headers.obj" \ - "$(INTDIR)\h2_mplx.obj" \ -- "$(INTDIR)\h2_ngn_shed.obj" \ - "$(INTDIR)\h2_push.obj" \ - "$(INTDIR)\h2_request.obj" \ - "$(INTDIR)\h2_session.obj" \ -@@ -469,11 +465,6 @@ - "$(INTDIR)\h2_mplx.obj" : $(SOURCE) "$(INTDIR)" - - --SOURCE=./h2_ngn_shed.c -- --"$(INTDIR)\h2_ngn_shed.obj" : $(SOURCE) "$(INTDIR)" -- -- - SOURCE=./h2_push.c - - "$(INTDIR)\h2_push.obj" : $(SOURCE) "$(INTDIR)" ---- a/modules/http2/mod_proxy_http2.c -+++ b/modules/http2/mod_proxy_http2.c -@@ -16,13 +16,14 @@ - - #include <nghttp2/nghttp2.h> - -+#include <ap_mmn.h> - #include <httpd.h> - #include <mod_proxy.h> - #include "mod_http2.h" - - - #include "mod_proxy_http2.h" --#include "h2_request.h" -+#include "h2.h" - #include "h2_proxy_util.h" - #include "h2_version.h" - #include "h2_proxy_session.h" -@@ -46,19 +47,12 @@ - - /* Optional functions from mod_http2 */ - static int (*is_h2)(conn_rec *c); --static apr_status_t (*req_engine_push)(const char *name, request_rec *r, -- http2_req_engine_init *einit); --static apr_status_t (*req_engine_pull)(h2_req_engine *engine, -- apr_read_type_e block, -- int capacity, -- request_rec **pr); --static void (*req_engine_done)(h2_req_engine *engine, conn_rec *r_conn, -- apr_status_t status); -- -+ - typedef struct h2_proxy_ctx { -+ const char *id; -+ conn_rec *master; - conn_rec *owner; - apr_pool_t *pool; -- request_rec *rbase; - server_rec *server; - const char *proxy_func; - char server_portstr[32]; -@@ -66,19 +60,15 @@ - proxy_worker *worker; - proxy_server_conf *conf; - -- h2_req_engine *engine; -- const char *engine_id; -- const char *engine_type; -- apr_pool_t *engine_pool; - apr_size_t req_buffer_size; -- h2_proxy_fifo *requests; - int capacity; - -- unsigned standalone : 1; - unsigned is_ssl : 1; -- unsigned flushall : 1; - -- apr_status_t r_status; /* status of our first request work */ -+ request_rec *r; /* the request processed in this ctx */ -+ apr_status_t r_status; /* status of request work */ -+ int r_done; /* request was processed, not necessarily successfully */ -+ int r_may_retry; /* request may be retried */ - h2_proxy_session *session; /* current http2 session against backend */ - } h2_proxy_ctx; - -@@ -104,16 +94,6 @@ - MOD_HTTP2_VERSION, ngh2? ngh2->version_str : "unknown"); - - is_h2 = APR_RETRIEVE_OPTIONAL_FN(http2_is_h2); -- req_engine_push = APR_RETRIEVE_OPTIONAL_FN(http2_req_engine_push); -- req_engine_pull = APR_RETRIEVE_OPTIONAL_FN(http2_req_engine_pull); -- req_engine_done = APR_RETRIEVE_OPTIONAL_FN(http2_req_engine_done); -- -- /* we need all of them */ -- if (!req_engine_push || !req_engine_pull || !req_engine_done) { -- req_engine_push = NULL; -- req_engine_pull = NULL; -- req_engine_done = NULL; -- } - - return status; - } -@@ -204,45 +184,6 @@ - return OK; - } - --static void out_consumed(void *baton, conn_rec *c, apr_off_t bytes) --{ -- h2_proxy_ctx *ctx = baton; -- -- if (ctx->session) { -- h2_proxy_session_update_window(ctx->session, c, bytes); -- } --} -- --static apr_status_t proxy_engine_init(h2_req_engine *engine, -- const char *id, -- const char *type, -- apr_pool_t *pool, -- apr_size_t req_buffer_size, -- request_rec *r, -- http2_output_consumed **pconsumed, -- void **pctx) --{ -- h2_proxy_ctx *ctx = ap_get_module_config(r->connection->conn_config, -- &proxy_http2_module); -- if (!ctx) { -- ap_log_rerror(APLOG_MARK, APLOG_WARNING, 0, r, APLOGNO(03368) -- "h2_proxy_session, engine init, no ctx found"); -- return APR_ENOTIMPL; -- } -- -- ctx->pool = pool; -- ctx->engine = engine; -- ctx->engine_id = id; -- ctx->engine_type = type; -- ctx->engine_pool = pool; -- ctx->req_buffer_size = req_buffer_size; -- ctx->capacity = H2MIN(100, h2_proxy_fifo_capacity(ctx->requests)); -- -- *pconsumed = out_consumed; -- *pctx = ctx; -- return APR_SUCCESS; --} -- - static apr_status_t add_request(h2_proxy_session *session, request_rec *r) - { - h2_proxy_ctx *ctx = session->user_data; -@@ -252,7 +193,7 @@ - url = apr_table_get(r->notes, H2_PROXY_REQ_URL_NOTE); - apr_table_setn(r->notes, "proxy-source-port", apr_psprintf(r->pool, "%hu", - ctx->p_conn->connection->local_addr->port)); -- status = h2_proxy_session_submit(session, url, r, ctx->standalone); -+ status = h2_proxy_session_submit(session, url, r, 1); - if (status != APR_SUCCESS) { - ap_log_cerror(APLOG_MARK, APLOG_ERR, status, r->connection, APLOGNO(03351) - "pass request body failed to %pI (%s) from %s (%s)", -@@ -266,43 +207,15 @@ - static void request_done(h2_proxy_ctx *ctx, request_rec *r, - apr_status_t status, int touched) - { -- const char *task_id = apr_table_get(r->connection->notes, H2_TASK_ID_NOTE); -- -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, status, r->connection, -- "h2_proxy_session(%s): request done %s, touched=%d", -- ctx->engine_id, task_id, touched); -- if (status != APR_SUCCESS) { -- if (!touched) { -- /* untouched request, need rescheduling */ -- status = h2_proxy_fifo_push(ctx->requests, r); -- ap_log_cerror(APLOG_MARK, APLOG_DEBUG, status, r->connection, -- APLOGNO(03369) -- "h2_proxy_session(%s): rescheduled request %s", -- ctx->engine_id, task_id); -- return; -- } -- else { -- const char *uri; -- uri = apr_uri_unparse(r->pool, &r->parsed_uri, 0); -- ap_log_cerror(APLOG_MARK, APLOG_DEBUG, status, r->connection, -- APLOGNO(03471) "h2_proxy_session(%s): request %s -> %s " -- "not complete, cannot repeat", -- ctx->engine_id, task_id, uri); -- } -- } -- -- if (r == ctx->rbase) { -+ if (r == ctx->r) { -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE1, status, r->connection, -+ "h2_proxy_session(%s): request done, touched=%d", -+ ctx->id, touched); -+ ctx->r_done = 1; -+ if (touched) ctx->r_may_retry = 0; - ctx->r_status = ((status == APR_SUCCESS)? APR_SUCCESS - : HTTP_SERVICE_UNAVAILABLE); - } -- -- if (req_engine_done && ctx->engine) { -- ap_log_cerror(APLOG_MARK, APLOG_DEBUG, status, r->connection, -- APLOGNO(03370) -- "h2_proxy_session(%s): finished request %s", -- ctx->engine_id, task_id); -- req_engine_done(ctx->engine, r->connection, status); -- } - } - - static void session_req_done(h2_proxy_session *session, request_rec *r, -@@ -311,43 +224,15 @@ - request_done(session->user_data, r, status, touched); - } - --static apr_status_t next_request(h2_proxy_ctx *ctx, int before_leave) --{ -- if (h2_proxy_fifo_count(ctx->requests) > 0) { -- return APR_SUCCESS; -- } -- else if (req_engine_pull && ctx->engine) { -- apr_status_t status; -- request_rec *r = NULL; -- -- status = req_engine_pull(ctx->engine, before_leave? -- APR_BLOCK_READ: APR_NONBLOCK_READ, -- ctx->capacity, &r); -- if (status == APR_SUCCESS && r) { -- ap_log_cerror(APLOG_MARK, APLOG_TRACE3, status, ctx->owner, -- "h2_proxy_engine(%s): pulled request (%s) %s", -- ctx->engine_id, -- before_leave? "before leave" : "regular", -- r->the_request); -- h2_proxy_fifo_push(ctx->requests, r); -- } -- return APR_STATUS_IS_EAGAIN(status)? APR_SUCCESS : status; -- } -- return APR_EOF; --} -- --static apr_status_t proxy_engine_run(h2_proxy_ctx *ctx) { -+static apr_status_t ctx_run(h2_proxy_ctx *ctx) { - apr_status_t status = OK; - int h2_front; -- request_rec *r; - - /* Step Four: Send the Request in a new HTTP/2 stream and - * loop until we got the response or encounter errors. - */ -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, ctx->owner, -- "eng(%s): setup session", ctx->engine_id); - h2_front = is_h2? is_h2(ctx->owner) : 0; -- ctx->session = h2_proxy_session_setup(ctx->engine_id, ctx->p_conn, ctx->conf, -+ ctx->session = h2_proxy_session_setup(ctx->id, ctx->p_conn, ctx->conf, - h2_front, 30, - h2_proxy_log2((int)ctx->req_buffer_size), - session_req_done); -@@ -358,105 +243,45 @@ - } - - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, ctx->owner, APLOGNO(03373) -- "eng(%s): run session %s", ctx->engine_id, ctx->session->id); -+ "eng(%s): run session %s", ctx->id, ctx->session->id); - ctx->session->user_data = ctx; - -- while (!ctx->owner->aborted) { -- if (APR_SUCCESS == h2_proxy_fifo_try_pull(ctx->requests, (void**)&r)) { -- add_request(ctx->session, r); -- } -- -+ ctx->r_done = 0; -+ add_request(ctx->session, ctx->r); -+ -+ while (!ctx->master->aborted && !ctx->r_done) { -+ - status = h2_proxy_session_process(ctx->session); -- -- if (status == APR_SUCCESS) { -- apr_status_t s2; -- /* ongoing processing, call again */ -- if (ctx->session->remote_max_concurrent > 0 -- && ctx->session->remote_max_concurrent != ctx->capacity) { -- ctx->capacity = H2MIN((int)ctx->session->remote_max_concurrent, -- h2_proxy_fifo_capacity(ctx->requests)); -- } -- s2 = next_request(ctx, 0); -- if (s2 == APR_ECONNABORTED) { -- /* master connection gone */ -- ap_log_cerror(APLOG_MARK, APLOG_DEBUG, s2, ctx->owner, -- APLOGNO(03374) "eng(%s): pull request", -- ctx->engine_id); -- /* give notice that we're leaving and cancel all ongoing -- * streams. */ -- next_request(ctx, 1); -- h2_proxy_session_cancel_all(ctx->session); -- h2_proxy_session_process(ctx->session); -- status = ctx->r_status = APR_SUCCESS; -- break; -- } -- if ((h2_proxy_fifo_count(ctx->requests) == 0) -- && h2_proxy_ihash_empty(ctx->session->streams)) { -- break; -- } -- } -- else { -- /* end of processing, maybe error */ -+ if (status != APR_SUCCESS) { -+ /* Encountered an error during session processing */ - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, status, ctx->owner, - APLOGNO(03375) "eng(%s): end of session %s", -- ctx->engine_id, ctx->session->id); -- /* -- * Any open stream of that session needs to -+ ctx->id, ctx->session->id); -+ /* Any open stream of that session needs to - * a) be reopened on the new session iff safe to do so - * b) reported as done (failed) otherwise - */ - h2_proxy_session_cleanup(ctx->session, session_req_done); -- break; -+ goto out; - } - } - -- ctx->session->user_data = NULL; -- ctx->session = NULL; -- -- return status; --} -- --static apr_status_t push_request_somewhere(h2_proxy_ctx *ctx, request_rec *r) --{ -- conn_rec *c = ctx->owner; -- const char *engine_type, *hostname; -- -- hostname = (ctx->p_conn->ssl_hostname? -- ctx->p_conn->ssl_hostname : ctx->p_conn->hostname); -- engine_type = apr_psprintf(ctx->pool, "proxy_http2 %s%s", hostname, -- ctx->server_portstr); -- -- if (c->master && req_engine_push && r && is_h2 && is_h2(c)) { -- /* If we are have req_engine capabilities, push the handling of this -- * request (e.g. slave connection) to a proxy_http2 engine which -- * uses the same backend. We may be called to create an engine -- * ourself. */ -- if (req_engine_push(engine_type, r, proxy_engine_init) == APR_SUCCESS) { -- if (ctx->engine == NULL) { -- /* request has been assigned to an engine in another thread */ -- return SUSPENDED; -- } -+out: -+ if (ctx->master->aborted) { -+ /* master connection gone */ -+ ap_log_cerror(APLOG_MARK, APLOG_DEBUG, status, ctx->owner, -+ APLOGNO(03374) "eng(%s): master connection gone", ctx->id); -+ /* cancel all ongoing requests */ -+ h2_proxy_session_cancel_all(ctx->session); -+ h2_proxy_session_process(ctx->session); -+ if (!ctx->master->aborted) { -+ status = ctx->r_status = APR_SUCCESS; - } - } - -- if (!ctx->engine) { -- /* No engine was available or has been initialized, handle this -- * request just by ourself. */ -- ctx->engine_id = apr_psprintf(ctx->pool, "eng-proxy-%ld", c->id); -- ctx->engine_type = engine_type; -- ctx->engine_pool = ctx->pool; -- ctx->req_buffer_size = (32*1024); -- ctx->standalone = 1; -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, -- "h2_proxy_http2(%ld): setup standalone engine for type %s", -- c->id, engine_type); -- } -- else { -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, c, -- "H2: hosting engine %s", ctx->engine_id); -- } -- -- return h2_proxy_fifo_push(ctx->requests, r); -+ ctx->session->user_data = NULL; -+ ctx->session = NULL; -+ return status; - } - - static int proxy_http2_handler(request_rec *r, -@@ -466,7 +291,7 @@ - const char *proxyname, - apr_port_t proxyport) - { -- const char *proxy_func; -+ const char *proxy_func, *task_id; - char *locurl = url, *u; - apr_size_t slen; - int is_ssl = 0; -@@ -498,29 +323,35 @@ - default: - return DECLINED; - } -+ -+ task_id = apr_table_get(r->connection->notes, H2_TASK_ID_NOTE); - - ctx = apr_pcalloc(r->pool, sizeof(*ctx)); -- ctx->owner = r->connection; -- ctx->pool = r->pool; -- ctx->rbase = r; -- ctx->server = r->server; -+ ctx->master = r->connection->master? r->connection->master : r->connection; -+ ctx->id = task_id? task_id : apr_psprintf(r->pool, "%ld", (long)ctx->master->id); -+ ctx->owner = r->connection; -+ ctx->pool = r->pool; -+ ctx->server = r->server; - ctx->proxy_func = proxy_func; -- ctx->is_ssl = is_ssl; -- ctx->worker = worker; -- ctx->conf = conf; -- ctx->flushall = apr_table_get(r->subprocess_env, "proxy-flushall")? 1 : 0; -- ctx->r_status = HTTP_SERVICE_UNAVAILABLE; -- -- h2_proxy_fifo_set_create(&ctx->requests, ctx->pool, 100); -+ ctx->is_ssl = is_ssl; -+ ctx->worker = worker; -+ ctx->conf = conf; -+ ctx->req_buffer_size = (32*1024); -+ ctx->r = r; -+ ctx->r_status = status = HTTP_SERVICE_UNAVAILABLE; -+ ctx->r_done = 0; -+ ctx->r_may_retry = 1; - - ap_set_module_config(ctx->owner->conn_config, &proxy_http2_module, ctx); - - /* scheme says, this is for us. */ -- apr_table_setn(ctx->rbase->notes, H2_PROXY_REQ_URL_NOTE, url); -- ap_log_rerror(APLOG_MARK, APLOG_TRACE1, 0, ctx->rbase, -+ apr_table_setn(ctx->r->notes, H2_PROXY_REQ_URL_NOTE, url); -+ ap_log_rerror(APLOG_MARK, APLOG_TRACE1, 0, ctx->r, - "H2: serving URL %s", url); - - run_connect: -+ if (ctx->master->aborted) goto cleanup; -+ - /* Get a proxy_conn_rec from the worker, might be a new one, might - * be one still open from another request, or it might fail if the - * worker is stopped or in error. */ -@@ -530,25 +361,11 @@ - } - - ctx->p_conn->is_ssl = ctx->is_ssl; -- if (ctx->is_ssl && ctx->p_conn->connection) { -- /* If there are some metadata on the connection (e.g. TLS alert), -- * let mod_ssl detect them, and create a new connection below. -- */ -- apr_bucket_brigade *tmp_bb; -- tmp_bb = apr_brigade_create(ctx->rbase->pool, -- ctx->rbase->connection->bucket_alloc); -- status = ap_get_brigade(ctx->p_conn->connection->input_filters, tmp_bb, -- AP_MODE_SPECULATIVE, APR_NONBLOCK_READ, 1); -- if (status != APR_SUCCESS && !APR_STATUS_IS_EAGAIN(status)) { -- ctx->p_conn->close = 1; -- } -- apr_brigade_cleanup(tmp_bb); -- } - - /* Step One: Determine the URL to connect to (might be a proxy), - * initialize the backend accordingly and determine the server - * port string we can expect in responses. */ -- if ((status = ap_proxy_determine_connection(ctx->pool, ctx->rbase, conf, worker, -+ if ((status = ap_proxy_determine_connection(ctx->pool, ctx->r, conf, worker, - ctx->p_conn, &uri, &locurl, - proxyname, proxyport, - ctx->server_portstr, -@@ -556,17 +373,6 @@ - goto cleanup; - } - -- /* If we are not already hosting an engine, try to push the request -- * to an already existing engine or host a new engine here. */ -- if (r && !ctx->engine) { -- ctx->r_status = push_request_somewhere(ctx, r); -- r = NULL; -- if (ctx->r_status == SUSPENDED) { -- /* request was pushed to another thread, leave processing here */ -- goto cleanup; -- } -- } -- - /* Step Two: Make the Connection (or check that an already existing - * socket is still usable). On success, we have a socket connected to - * backend->hostname. */ -@@ -575,70 +381,56 @@ - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, ctx->owner, APLOGNO(03352) - "H2: failed to make connection to backend: %s", - ctx->p_conn->hostname); -- goto reconnect; -+ goto cleanup; - } - - /* Step Three: Create conn_rec for the socket we have open now. */ -- if (!ctx->p_conn->connection) { -- status = ap_proxy_connection_create_ex(ctx->proxy_func, -- ctx->p_conn, ctx->rbase); -- if (status != OK) { -- ap_log_cerror(APLOG_MARK, APLOG_DEBUG, status, ctx->owner, APLOGNO(03353) -- "setup new connection: is_ssl=%d %s %s %s", -- ctx->p_conn->is_ssl, ctx->p_conn->ssl_hostname, -- locurl, ctx->p_conn->hostname); -- goto reconnect; -- } -- -- if (!ctx->p_conn->data) { -- /* New conection: set a note on the connection what CN is -- * requested and what protocol we want */ -- if (ctx->p_conn->ssl_hostname) { -- ap_log_cerror(APLOG_MARK, APLOG_TRACE1, status, ctx->owner, -- "set SNI to %s for (%s)", -- ctx->p_conn->ssl_hostname, -- ctx->p_conn->hostname); -- apr_table_setn(ctx->p_conn->connection->notes, -- "proxy-request-hostname", ctx->p_conn->ssl_hostname); -- } -- if (ctx->is_ssl) { -- apr_table_setn(ctx->p_conn->connection->notes, -- "proxy-request-alpn-protos", "h2"); -- } -- } -+ status = ap_proxy_connection_create_ex(ctx->proxy_func, ctx->p_conn, ctx->r); -+ if (status != OK) { -+ ap_log_cerror(APLOG_MARK, APLOG_DEBUG, status, ctx->owner, APLOGNO(03353) -+ "setup new connection: is_ssl=%d %s %s %s", -+ ctx->p_conn->is_ssl, ctx->p_conn->ssl_hostname, -+ locurl, ctx->p_conn->hostname); -+ ctx->r_status = status; -+ goto cleanup; - } -- --run_session: -- status = proxy_engine_run(ctx); -- if (status == APR_SUCCESS) { -- /* session and connection still ok */ -- if (next_request(ctx, 1) == APR_SUCCESS) { -- /* more requests, run again */ -- ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, ctx->owner, APLOGNO(03376) -- "run_session, again"); -- goto run_session; -+ -+ if (!ctx->p_conn->data && ctx->is_ssl) { -+ /* New SSL connection: set a note on the connection about what -+ * protocol we want. -+ */ -+ apr_table_setn(ctx->p_conn->connection->notes, -+ "proxy-request-alpn-protos", "h2"); -+ if (ctx->p_conn->ssl_hostname) { -+ ap_log_cerror(APLOG_MARK, APLOG_TRACE1, 0, ctx->owner, -+ "set SNI to %s for (%s)", -+ ctx->p_conn->ssl_hostname, -+ ctx->p_conn->hostname); -+ apr_table_setn(ctx->p_conn->connection->notes, -+ "proxy-request-hostname", ctx->p_conn->ssl_hostname); - } -- /* done */ -- ctx->engine = NULL; - } - --reconnect: -- if (next_request(ctx, 1) == APR_SUCCESS) { -- /* Still more to do, tear down old conn and start over */ -+ if (ctx->master->aborted) goto cleanup; -+ status = ctx_run(ctx); -+ -+ if (ctx->r_status != APR_SUCCESS && ctx->r_may_retry && !ctx->master->aborted) { -+ /* Not successfully processed, but may retry, tear down old conn and start over */ - if (ctx->p_conn) { - ctx->p_conn->close = 1; -- /*only in trunk so far */ -- /*proxy_run_detach_backend(r, ctx->p_conn);*/ -+#if AP_MODULE_MAGIC_AT_LEAST(20140207, 2) -+ proxy_run_detach_backend(r, ctx->p_conn); -+#endif - ap_proxy_release_connection(ctx->proxy_func, ctx->p_conn, ctx->server); - ctx->p_conn = NULL; - } - ++reconnects; -- if (reconnects < 5 && !ctx->owner->aborted) { -+ if (reconnects < 5) { - goto run_connect; - } - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, 0, ctx->owner, APLOGNO(10023) -- "giving up after %d reconnects, %d requests todo", -- reconnects, h2_proxy_fifo_count(ctx->requests)); -+ "giving up after %d reconnects, request-done=%d", -+ reconnects, ctx->r_done); - } - - cleanup: -@@ -647,17 +439,13 @@ - /* close socket when errors happened or session shut down (EOF) */ - ctx->p_conn->close = 1; - } -- /*only in trunk so far */ -- /*proxy_run_detach_backend(ctx->rbase, ctx->p_conn);*/ -+#if AP_MODULE_MAGIC_AT_LEAST(20140207, 2) -+ proxy_run_detach_backend(ctx->r, ctx->p_conn); -+#endif - ap_proxy_release_connection(ctx->proxy_func, ctx->p_conn, ctx->server); - ctx->p_conn = NULL; - } - -- /* Any requests will still have need to fail */ -- while (APR_SUCCESS == h2_proxy_fifo_try_pull(ctx->requests, (void**)&r)) { -- request_done(ctx, r, HTTP_SERVICE_UNAVAILABLE, 1); -- } -- - ap_set_module_config(ctx->owner->conn_config, &proxy_http2_module, NULL); - ap_log_cerror(APLOG_MARK, APLOG_DEBUG, status, ctx->owner, - APLOGNO(03377) "leaving handler"); |