From: Evan Hunt Date: Wed, 6 Feb 2019 19:27:11 +0000 (-0800) Subject: refactor tcpquota and pipeline refs; allow special-case overrun in isc_quota X-Git-Url: http://git.ipfire.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=43aec6ee0f2804cd73e941a03c56fbd9c71ae326;p=thirdparty%2Fbind9.git refactor tcpquota and pipeline refs; allow special-case overrun in isc_quota - if the TCP quota has been exceeded but there are no clients listening for new connections on the interface, we can now force attachment to the quota using isc_quota_force(), instead of carrying on with the quota not attached. - the TCP client quota is now referenced via a reference-counted 'ns_tcpconn' object, one of which is created whenever a client begins listening for new connections, and attached to by members of that client's pipeline group. when the last reference to the tcpconn object is detached, it is freed and the TCP quota slot is released. - reduce code duplication by adding mark_tcp_active() function - convert counters to atomic (cherry picked from commit 7e8222378ca24f1302a0c1c638565050ab04681b) (cherry picked from commit 86a7d4c175ea394b03f0fb6e36b36a0af711e680) --- diff --git a/lib/isc/include/isc/quota.h b/lib/isc/include/isc/quota.h index b9bf59877ac..36c5830242c 100644 --- a/lib/isc/include/isc/quota.h +++ b/lib/isc/include/isc/quota.h @@ -100,6 +100,13 @@ isc_quota_attach(isc_quota_t *quota, isc_quota_t **p); * quota if successful (ISC_R_SUCCESS or ISC_R_SOFTQUOTA). */ +isc_result_t +isc_quota_force(isc_quota_t *quota, isc_quota_t **p); +/*%< + * Like isc_quota_attach, but will attach '*p' to the quota + * even if the hard quota has been exceeded. + */ + void isc_quota_detach(isc_quota_t **p); /*%< diff --git a/lib/isc/quota.c b/lib/isc/quota.c index 3ddff0d875c..556a61f21d3 100644 --- a/lib/isc/quota.c +++ b/lib/isc/quota.c @@ -74,20 +74,39 @@ isc_quota_release(isc_quota_t *quota) { UNLOCK("a->lock); } -isc_result_t -isc_quota_attach(isc_quota_t *quota, isc_quota_t **p) -{ +static isc_result_t +doattach(isc_quota_t *quota, isc_quota_t **p, bool force) { isc_result_t result; - INSIST(p != NULL && *p == NULL); + REQUIRE(p != NULL && *p == NULL); + result = isc_quota_reserve(quota); - if (result == ISC_R_SUCCESS || result == ISC_R_SOFTQUOTA) + if (result == ISC_R_SUCCESS || result == ISC_R_SOFTQUOTA) { + *p = quota; + } else if (result == ISC_R_QUOTA && force) { + /* attach anyway */ + LOCK("a->lock); + quota->used++; + UNLOCK("a->lock); + *p = quota; + result = ISC_R_SUCCESS; + } + return (result); } +isc_result_t +isc_quota_attach(isc_quota_t *quota, isc_quota_t **p) { + return (doattach(quota, p, false)); +} + +isc_result_t +isc_quota_force(isc_quota_t *quota, isc_quota_t **p) { + return (doattach(quota, p, true)); +} + void -isc_quota_detach(isc_quota_t **p) -{ +isc_quota_detach(isc_quota_t **p) { INSIST(p != NULL && *p != NULL); isc_quota_release(*p); *p = NULL; diff --git a/lib/isc/win32/libisc.def.in b/lib/isc/win32/libisc.def.in index 84eb50e13e9..bf729381947 100644 --- a/lib/isc/win32/libisc.def.in +++ b/lib/isc/win32/libisc.def.in @@ -525,6 +525,7 @@ isc_portset_removerange isc_quota_attach isc_quota_destroy isc_quota_detach +isc_quota_force isc_quota_init isc_quota_max isc_quota_release diff --git a/lib/ns/client.c b/lib/ns/client.c index dcbacb71b3f..665dcaf507c 100644 --- a/lib/ns/client.c +++ b/lib/ns/client.c @@ -248,8 +248,7 @@ static void ns_client_endrequest(ns_client_t *client); static void client_start(isc_task_t *task, isc_event_t *event); static void ns_client_dumpmessage(ns_client_t *client, const char *reason); static isc_result_t get_client(ns_clientmgr_t *manager, ns_interface_t *ifp, - dns_dispatch_t *disp, ns_client_t *oldclient, - bool tcp); + dns_dispatch_t *disp, bool tcp); static isc_result_t get_worker(ns_clientmgr_t *manager, ns_interface_t *ifp, isc_socket_t *sock, ns_client_t *oldclient); static void compute_cookie(ns_client_t *client, uint32_t when, @@ -327,16 +326,32 @@ read_settimeout(ns_client_t *client, bool newconn) { } /*% - * Allocate a reference counter that will track the number of client structures - * using the TCP connection that 'client' called accept() for. This counter - * will be shared between all client structures associated with this TCP - * connection. + * Allocate a reference-counted object that will maintain a single pointer to + * the (also reference-counted) TCP client quota, shared between all the + * clients processing queries on a single TCP connection, so that all + * clients sharing the one socket will together consume only one slot in + * the 'tcp-clients' quota. */ -static void -pipeline_init(ns_client_t *client) { - isc_refcount_t *refs; +static isc_result_t +tcpconn_init(ns_client_t *client, bool force) { + isc_result_t result; + isc_quota_t *quota = NULL; + ns_tcpconn_t *tconn = NULL; - REQUIRE(client->pipeline_refs == NULL); + REQUIRE(client->tcpconn == NULL); + + /* + * Try to attach to the quota first, so we won't pointlessly + * allocate memory for a tcpconn object if we can't get one. + */ + if (force) { + result = isc_quota_force(&client->sctx->tcpquota, "a); + } else { + result = isc_quota_attach(&client->sctx->tcpquota, "a); + } + if (result != ISC_R_SUCCESS) { + return (result); + } /* * A global memory context is used for the allocation as different @@ -346,79 +361,80 @@ pipeline_init(ns_client_t *client) { * contention here is expected to be negligible, given that this code * is only executed for TCP connections. */ - refs = isc_mem_allocate(client->sctx->mctx, sizeof(*refs)); - isc_refcount_init(refs, 1); - client->pipeline_refs = refs; + tconn = isc_mem_allocate(client->sctx->mctx, sizeof(*tconn)); + + isc_refcount_init(&tconn->refs, 1); + tconn->tcpquota = quota; + quota = NULL; + tconn->pipelined = false; + + client->tcpconn = tconn; + + return (ISC_R_SUCCESS); } /*% - * Increase the count of client structures using the TCP connection that - * 'source' is associated with and put a pointer to that count in 'target', - * thus associating it with the same TCP connection. + * Increase the count of client structures sharing the TCP connection + * that 'source' is associated with; add a pointer to the same tcpconn + * to 'target', thus associating it with the same TCP connection. */ static void -pipeline_attach(ns_client_t *source, ns_client_t *target) { - int old_refs; +tcpconn_attach(ns_client_t *source, ns_client_t *target) { + int refs; - REQUIRE(source->pipeline_refs != NULL); - REQUIRE(target->pipeline_refs == NULL); + REQUIRE(source->tcpconn != NULL); + REQUIRE(target->tcpconn == NULL); + REQUIRE(source->tcpconn->pipelined); - old_refs = isc_refcount_increment(source->pipeline_refs); - INSIST(old_refs > 0); - target->pipeline_refs = source->pipeline_refs; + isc_refcount_increment(&source->tcpconn->refs, &refs); + INSIST(refs > 1); + target->tcpconn = source->tcpconn; } /*% - * Decrease the count of client structures using the TCP connection that + * Decrease the count of client structures sharing the TCP connection that * 'client' is associated with. If this is the last client using this TCP - * connection, free the reference counter and return true; otherwise, return - * false. + * connection, we detach from the TCP quota and free the tcpconn + * object. Either way, client->tcpconn is set to NULL. */ -static bool -pipeline_detach(ns_client_t *client) { - isc_refcount_t *refs; - int old_refs; - - REQUIRE(client->pipeline_refs != NULL); +static void +tcpconn_detach(ns_client_t *client) { + ns_tcpconn_t *tconn = NULL; + int refs; - refs = client->pipeline_refs; - client->pipeline_refs = NULL; + REQUIRE(client->tcpconn != NULL); - old_refs = isc_refcount_decrement(refs); - INSIST(old_refs > 0); + tconn = client->tcpconn; + client->tcpconn = NULL; - if (old_refs == 1) { - isc_mem_free(client->sctx->mctx, refs); - return (true); + isc_refcount_decrement(&tconn->refs, &refs); + if (refs == 0) { + isc_quota_detach(&tconn->tcpquota); + isc_mem_free(client->sctx->mctx, tconn); } - - return (false); } -/* - * Detach a client from the TCP client quota if appropriate, and set - * the quota pointer to NULL. - * - * Sometimes when the TCP client quota is exhausted but there are no other - * clients servicing the interface, a client will be allowed to continue - * running despite not having been attached to the quota. In this event, - * the TCP quota was never attached to the client, so when the client (or - * associated pipeline group) shuts down, the quota must NOT be detached. +/*% + * Mark a client as active and increment the interface's 'ntcpactive' + * counter, as a signal that there is at least one client servicing + * TCP queries for the interface. If we reach the TCP client quota at + * some point, this will be used to determine whether a quota overrun + * should be permitted. * - * Otherwise, if the quota pointer is set, it should be detached. If not - * set at all, we just return without doing anything. + * Marking the client active with the 'tcpactive' flag ensures proper + * accounting, by preventing us from incrementing or decrementing + * 'ntcpactive' more than once per client. */ static void -tcpquota_disconnect(ns_client_t *client) { - if (client->tcpquota == NULL) { - return; - } - - if (client->tcpattached) { - isc_quota_detach(&client->tcpquota); - client->tcpattached = false; - } else { - client->tcpquota = NULL; +mark_tcp_active(ns_client_t *client, bool active) { + if (active && !client->tcpactive) { + isc_atomic_xadd(&client->interface->ntcpactive, 1); + client->tcpactive = active; + } else if (!active && client->tcpactive) { + uint32_t old = + isc_atomic_xadd(&client->interface->ntcpactive, -1); + INSIST(old > 0); + client->tcpactive = active; } } @@ -511,7 +527,8 @@ exit_check(ns_client_t *client) { INSIST(client->recursionquota == NULL); if (NS_CLIENTSTATE_READING == client->newstate) { - if (!client->pipelined) { + INSIST(client->tcpconn != NULL); + if (!client->tcpconn->pipelined) { client_read(client, false); client->newstate = NS_CLIENTSTATE_MAX; return (true); /* We're done. */ @@ -534,8 +551,8 @@ exit_check(ns_client_t *client) { dns_tcpmsg_cancelread(&client->tcpmsg); } - if (client->nreads != 0) { - /* Still waiting for read cancel completion. */ + /* Still waiting for read cancel completion. */ + if (client->nreads > 0) { return (true); } @@ -545,43 +562,45 @@ exit_check(ns_client_t *client) { } /* - * Detach from pipeline group and from TCP client quota, - * if appropriate. - * - * - If no pipeline group is active, attempt to - * detach from the TCP client quota. - * - * - If a pipeline group is active, detach from it; - * if the return code indicates that there no more - * clients left if this pipeline group, we also detach - * from the TCP client quota. + * Soon the client will be ready to accept a new TCP + * connection or UDP request, but we may have enough + * clients doing that already. Check whether this client + * needs to remain active and allow it go inactive if + * not. * - * - Otherwise we don't try to detach, we just set the - * TCP quota pointer to NULL if it wasn't NULL already. + * UDP clients always go inactive at this point, but a TCP + * client may need to stay active and return to READY + * state if no other clients are available to listen + * for TCP requests on this interface. * - * tcpquota_disconnect() will set tcpquota to NULL, either - * by detaching it or by assignment, depending on the - * needs of the client. See the comments on that function - * for further information. + * Regardless, if we're going to FREED state, that means + * the system is shutting down and we don't need to + * retain clients. */ - if (client->pipeline_refs == NULL || pipeline_detach(client)) { - tcpquota_disconnect(client); - } else { - client->tcpquota = NULL; - client->tcpattached = false; + if (client->mortal && TCP_CLIENT(client) && + client->newstate != NS_CLIENTSTATE_FREED && + (client->sctx->options & NS_SERVER_CLIENTTEST) == 0 && + isc_atomic_xadd(&client->interface->ntcpaccepting, 0) == 0) + { + /* Nobody else is accepting */ + client->mortal = false; + client->newstate = NS_CLIENTSTATE_READY; + } + + /* + * Detach from TCP connection and TCP client quota, + * if appropriate. If this is the last reference to + * the TCP connection in our pipeline group, the + * TCP quota slot will be released. + */ + if (client->tcpconn) { + tcpconn_detach(client); } if (client->tcpsocket != NULL) { CTRACE("closetcp"); isc_socket_detach(&client->tcpsocket); - - if (client->tcpactive) { - LOCK(&client->interface->lock); - INSIST(client->interface->ntcpactive > 0); - client->interface->ntcpactive--; - UNLOCK(&client->interface->lock); - client->tcpactive = false; - } + mark_tcp_active(client, false); } if (client->timerset) { @@ -594,37 +613,6 @@ exit_check(ns_client_t *client) { client->peeraddr_valid = false; client->state = NS_CLIENTSTATE_READY; - INSIST(client->recursionquota == NULL); - - /* - * Now the client is ready to accept a new TCP connection - * or UDP request, but we may have enough clients doing - * that already. Check whether this client needs to remain - * active and force it to go inactive if not. - * - * UDP clients go inactive at this point, but a TCP client - * may need to remain active and go into ready state if - * no other clients are available to listen for TCP - * requests on this interface or (in the case of pipelined - * clients) to read for additional messages on the current - * connection. - */ - if (client->mortal && TCP_CLIENT(client) && - ((client->sctx->options & NS_SERVER_CLIENTTEST) == 0)) - { - LOCK(&client->interface->lock); - if ((client->interface->ntcpaccepting == 0 || - (client->pipelined && - client->interface->ntcpactive < 2)) && - client->newstate != NS_CLIENTSTATE_FREED) - { - client->mortal = false; - client->newstate = NS_CLIENTSTATE_READY; - } - UNLOCK(&client->interface->lock); - } - - client->pipelined = false; /* * We don't need the client; send it to the inactive @@ -659,7 +647,7 @@ exit_check(ns_client_t *client) { } /* Still waiting for accept cancel completion. */ - if (! (client->naccepts == 0)) { + if (client->naccepts > 0) { return (true); } @@ -670,7 +658,7 @@ exit_check(ns_client_t *client) { } /* Still waiting for recv cancel completion. */ - if (! (client->nrecvs == 0)) { + if (client->nrecvs > 0) { return (true); } @@ -683,14 +671,7 @@ exit_check(ns_client_t *client) { INSIST(client->recursionquota == NULL); if (client->tcplistener != NULL) { isc_socket_detach(&client->tcplistener); - - if (client->tcpactive) { - LOCK(&client->interface->lock); - INSIST(client->interface->ntcpactive > 0); - client->interface->ntcpactive--; - UNLOCK(&client->interface->lock); - client->tcpactive = false; - } + mark_tcp_active(client, false); } if (client->udpsocket != NULL) { isc_socket_detach(&client->udpsocket); @@ -852,7 +833,7 @@ client_start(isc_task_t *task, isc_event_t *event) { return; if (TCP_CLIENT(client)) { - if (client->pipelined) { + if (client->tcpconn != NULL) { client_read(client, false); } else { client_accept(client); @@ -2483,6 +2464,7 @@ ns__client_request(isc_task_t *task, isc_event_t *event) { client->nrecvs--; } else { INSIST(TCP_CLIENT(client)); + INSIST(client->tcpconn != NULL); REQUIRE(event->ev_type == DNS_EVENT_TCPMSG); REQUIRE(event->ev_sender == &client->tcpmsg); buffer = &client->tcpmsg.buffer; @@ -2671,17 +2653,19 @@ ns__client_request(isc_task_t *task, isc_event_t *event) { /* * Pipeline TCP query processing. */ - if (client->message->opcode != dns_opcode_query) { - client->pipelined = false; + if (TCP_CLIENT(client) && + client->message->opcode != dns_opcode_query) + { + client->tcpconn->pipelined = false; } - if (TCP_CLIENT(client) && client->pipelined) { + if (TCP_CLIENT(client) && client->tcpconn->pipelined) { /* * We're pipelining. Replace the client; the - * the replacement can read the TCP socket looking - * for new messages and this client can process the + * replacement can read the TCP socket looking + * for new messages and this one can process the * current message asynchronously. * - * There are now at least three clients using this + * There will now be at least three clients using this * TCP socket - one accepting new connections, * one reading an existing connection to get new * messages, and one answering the message already @@ -2689,7 +2673,7 @@ ns__client_request(isc_task_t *task, isc_event_t *event) { */ result = ns_client_replace(client); if (result != ISC_R_SUCCESS) { - client->pipelined = false; + client->tcpconn->pipelined = false; } } @@ -3213,10 +3197,7 @@ client_create(ns_clientmgr_t *manager, ns_client_t **clientp) { dns_name_init(&client->signername, NULL); client->mortal = false; client->sendcb = NULL; - client->pipelined = false; - client->pipeline_refs = NULL; - client->tcpquota = NULL; - client->tcpattached = false; + client->tcpconn = NULL; client->recursionquota = NULL; client->interface = NULL; client->peeraddr_valid = false; @@ -3321,10 +3302,11 @@ client_read(ns_client_t *client, bool newconn) { static void client_newconn(isc_task_t *task, isc_event_t *event) { + isc_result_t result; ns_client_t *client = event->ev_arg; isc_socket_newconnev_t *nevent = (isc_socket_newconnev_t *)event; dns_aclenv_t *env = ns_interfacemgr_getaclenv(client->interface->mgr); - isc_result_t result; + uint32_t old; REQUIRE(event->ev_type == ISC_SOCKEVENT_NEWCONN); REQUIRE(NS_CLIENT_VALID(client)); @@ -3344,10 +3326,8 @@ client_newconn(isc_task_t *task, isc_event_t *event) { INSIST(client->naccepts == 1); client->naccepts--; - LOCK(&client->interface->lock); - INSIST(client->interface->ntcpaccepting > 0); - client->interface->ntcpaccepting--; - UNLOCK(&client->interface->lock); + old = isc_atomic_xadd(&client->interface->ntcpaccepting, -1); + INSIST(old > 0); /* * We must take ownership of the new socket before the exit @@ -3380,7 +3360,7 @@ client_newconn(isc_task_t *task, isc_event_t *event) { NS_LOGMODULE_CLIENT, ISC_LOG_DEBUG(3), "accept failed: %s", isc_result_totext(nevent->result)); - tcpquota_disconnect(client); + tcpconn_detach(client); } if (exit_check(client)) @@ -3417,15 +3397,13 @@ client_newconn(isc_task_t *task, isc_event_t *event) { * telnetting to port 53 (once per CPU) will * deny service to legitimate TCP clients. */ - client->pipelined = false; result = ns_client_replace(client); if (result == ISC_R_SUCCESS && (client->sctx->keepresporder == NULL || !dns_acl_allowed(&netaddr, NULL, NULL, 0, NULL, client->sctx->keepresporder, env))) { - pipeline_init(client); - client->pipelined = true; + client->tcpconn->pipelined = true; } client_read(client, true); @@ -3442,78 +3420,59 @@ client_accept(ns_client_t *client) { CTRACE("accept"); /* - * The tcpquota object can only be simultaneously referenced a - * pre-defined number of times; this is configured by 'tcp-clients' - * in named.conf. If we can't attach to it here, that means the TCP - * client quota has been exceeded. + * Set up a new TCP connection. This means try to attach to the + * TCP client quota (tcp-clients), but fail if we're over quota. */ - result = isc_quota_attach(&client->sctx->tcpquota, - &client->tcpquota); + result = tcpconn_init(client, false); if (result != ISC_R_SUCCESS) { - bool exit; + bool exit; - ns_client_log(client, NS_LOGCATEGORY_CLIENT, - NS_LOGMODULE_CLIENT, ISC_LOG_DEBUG(1), - "no more TCP clients: %s", - isc_result_totext(result)); - - /* - * We have exceeded the system-wide TCP client - * quota. But, we can't just block this accept - * in all cases, because if we did, a heavy TCP - * load on other interfaces might cause this - * interface to be starved, with no clients able - * to accept new connections. - * - * So, we check here to see if any other clients - * are already servicing TCP queries on this - * interface (whether accepting, reading, or - * processing). If there are at least two - * (one reading and one processing a request) - * then it's okay *not* to call accept - we - * can let this client go inactive and another - * one will resume accepting when it's done. - * - * If there aren't enough active clients on the - * interface, then we can be a little bit - * flexible about the quota. We'll allow *one* - * extra client through to ensure we're listening - * on every interface. - * - * (Note: In practice this means that the real - * TCP client quota is tcp-clients plus the - * number of listening interfaces plus 2.) - */ - LOCK(&client->interface->lock); - exit = (client->interface->ntcpactive > 1); - UNLOCK(&client->interface->lock); + ns_client_log(client, NS_LOGCATEGORY_CLIENT, + NS_LOGMODULE_CLIENT, ISC_LOG_WARNING, + "TCP client quota reached: %s", + isc_result_totext(result)); - if (exit) { - client->newstate = NS_CLIENTSTATE_INACTIVE; - (void)exit_check(client); - return; - } + /* + * We have exceeded the system-wide TCP client quota. But, + * we can't just block this accept in all cases, because if + * we did, a heavy TCP load on other interfaces might cause + * this interface to be starved, with no clients able to + * accept new connections. + * + * So, we check here to see if any other clients are + * already servicing TCP queries on this interface (whether + * accepting, reading, or processing). If we find at least + * one, then it's okay *not* to call accept - we can let this + * client go inactive and another will take over when it's + * done. + * + * If there aren't enough active clients on the interface, + * then we can be a little bit flexible about the quota. + * We'll allow *one* extra client through to ensure we're + * listening on every interface; we do this by setting the + * 'force' option to tcpconn_init(). + * + * (Note: In practice this means that the real TCP client + * quota is tcp-clients plus the number of listening + * interfaces plus 1.) + */ + exit = (isc_atomic_xadd(&client->interface->ntcpactive, 0) > 0); + if (exit) { + client->newstate = NS_CLIENTSTATE_INACTIVE; + (void)exit_check(client); + return; + } - } else { - client->tcpattached = true; + result = tcpconn_init(client, true); + RUNTIME_CHECK(result == ISC_R_SUCCESS); } /* - * By incrementing the interface's ntcpactive counter we signal - * that there is at least one client servicing TCP queries for the - * interface. - * - * We also make note of the fact in the client itself with the - * tcpactive flag. This ensures proper accounting by preventing - * us from accidentally incrementing or decrementing ntcpactive - * more than once per client object. + * If this client was set up using get_client() or get_worker(), + * then TCP is already marked active. However, if it was restarted + * from exit_check(), it might not be, so we take care of it now. */ - if (!client->tcpactive) { - LOCK(&client->interface->lock); - client->interface->ntcpactive++; - UNLOCK(&client->interface->lock); - client->tcpactive = true; - } + mark_tcp_active(client, true); result = isc_socket_accept(client->tcplistener, client->task, client_newconn, client); @@ -3529,15 +3488,8 @@ client_accept(ns_client_t *client) { "isc_socket_accept() failed: %s", isc_result_totext(result)); - tcpquota_disconnect(client); - - if (client->tcpactive) { - LOCK(&client->interface->lock); - client->interface->ntcpactive--; - UNLOCK(&client->interface->lock); - client->tcpactive = false; - } - + tcpconn_detach(client); + mark_tcp_active(client, false); return; } @@ -3562,9 +3514,7 @@ client_accept(ns_client_t *client) { * listening for connections itself to prevent the interface * going dead. */ - LOCK(&client->interface->lock); - client->interface->ntcpaccepting++; - UNLOCK(&client->interface->lock); + isc_atomic_xadd(&client->interface->ntcpaccepting, 1); } static void @@ -3635,24 +3585,25 @@ ns_client_replace(ns_client_t *client) { REQUIRE(client->manager != NULL); tcp = TCP_CLIENT(client); - if (tcp && client->pipelined) { + if (tcp && client->tcpconn != NULL && client->tcpconn->pipelined) { result = get_worker(client->manager, client->interface, client->tcpsocket, client); } else { result = get_client(client->manager, client->interface, - client->dispatch, client, tcp); + client->dispatch, tcp); - /* - * The responsibility for listening for new requests is hereby - * transferred to the new client. Therefore, the old client - * should refrain from listening for any more requests. - */ - client->mortal = true; } if (result != ISC_R_SUCCESS) { return (result); } + /* + * The responsibility for listening for new requests is hereby + * transferred to the new client. Therefore, the old client + * should refrain from listening for any more requests. + */ + client->mortal = true; + return (ISC_R_SUCCESS); } @@ -3806,7 +3757,7 @@ ns_clientmgr_destroy(ns_clientmgr_t **managerp) { static isc_result_t get_client(ns_clientmgr_t *manager, ns_interface_t *ifp, - dns_dispatch_t *disp, ns_client_t *oldclient, bool tcp) + dns_dispatch_t *disp, bool tcp) { isc_result_t result = ISC_R_SUCCESS; isc_event_t *ev; @@ -3851,15 +3802,7 @@ get_client(ns_clientmgr_t *manager, ns_interface_t *ifp, client->dscp = ifp->dscp; if (tcp) { - client->tcpattached = false; - if (oldclient != NULL) { - client->tcpattached = oldclient->tcpattached; - } - - LOCK(&client->interface->lock); - client->interface->ntcpactive++; - UNLOCK(&client->interface->lock); - client->tcpactive = true; + mark_tcp_active(client, true); client->attributes |= NS_CLIENTATTR_TCP; isc_socket_attach(ifp->tcpsocket, @@ -3925,8 +3868,6 @@ get_worker(ns_clientmgr_t *manager, ns_interface_t *ifp, isc_socket_t *sock, client->newstate = client->state = NS_CLIENTSTATE_WORKING; INSIST(client->recursionquota == NULL); client->sctx = manager->sctx; - client->tcpquota = &client->sctx->tcpquota; - client->tcpattached = oldclient->tcpattached; client->dscp = ifp->dscp; @@ -3934,8 +3875,8 @@ get_worker(ns_clientmgr_t *manager, ns_interface_t *ifp, isc_socket_t *sock, client->mortal = true; client->sendcb = NULL; - pipeline_attach(oldclient, client); - client->pipelined = true; + tcpconn_attach(oldclient, client); + mark_tcp_active(client, true); isc_socket_attach(ifp->tcpsocket, &client->tcplistener); isc_socket_attach(sock, &client->tcpsocket); @@ -3943,11 +3884,6 @@ get_worker(ns_clientmgr_t *manager, ns_interface_t *ifp, isc_socket_t *sock, (void)isc_socket_getpeername(client->tcpsocket, &client->peeraddr); client->peeraddr_valid = true; - LOCK(&client->interface->lock); - client->interface->ntcpactive++; - UNLOCK(&client->interface->lock); - client->tcpactive = true; - INSIST(client->tcpmsg_valid == false); dns_tcpmsg_init(client->mctx, client->tcpsocket, &client->tcpmsg); client->tcpmsg_valid = true; @@ -4022,8 +3958,7 @@ ns_clientmgr_createclients(ns_clientmgr_t *manager, unsigned int n, MTRACE("createclients"); for (disp = 0; disp < n; disp++) { - result = get_client(manager, ifp, ifp->udpdispatch[disp], - NULL, tcp); + result = get_client(manager, ifp, ifp->udpdispatch[disp], tcp); if (result != ISC_R_SUCCESS) break; } diff --git a/lib/ns/include/ns/client.h b/lib/ns/include/ns/client.h index 09e8819ce1f..a158444d463 100644 --- a/lib/ns/include/ns/client.h +++ b/lib/ns/include/ns/client.h @@ -80,6 +80,13 @@ *** Types ***/ +/*% reference-counted TCP connection object */ +typedef struct ns_tcpconn { + isc_refcount_t refs; + isc_quota_t *tcpquota; + bool pipelined; +} ns_tcpconn_t; + /*% nameserver client structure */ struct ns_client { unsigned int magic; @@ -134,10 +141,7 @@ struct ns_client { dns_name_t signername; /*%< [T]SIG key name */ dns_name_t *signer; /*%< NULL if not valid sig */ bool mortal; /*%< Die after handling request */ - bool pipelined; /*%< TCP queries not in sequence */ - isc_refcount_t *pipeline_refs; - isc_quota_t *tcpquota; - bool tcpattached; + ns_tcpconn_t *tcpconn; isc_quota_t *recursionquota; ns_interface_t *interface; diff --git a/lib/ns/include/ns/interfacemgr.h b/lib/ns/include/ns/interfacemgr.h index f579b7ec281..24552ed353d 100644 --- a/lib/ns/include/ns/interfacemgr.h +++ b/lib/ns/include/ns/interfacemgr.h @@ -76,11 +76,11 @@ struct ns_interface { /*%< UDP dispatchers. */ isc_socket_t * tcpsocket; /*%< TCP socket. */ isc_dscp_t dscp; /*%< "listen-on" DSCP value */ - int ntcpaccepting; /*%< Number of clients + int32_t ntcpaccepting; /*%< Number of clients ready to accept new TCP connections on this interface */ - int ntcpactive; /*%< Number of clients + int32_t ntcpactive; /*%< Number of clients servicing TCP queries (whether accepting or connected) */ diff --git a/lib/ns/interfacemgr.c b/lib/ns/interfacemgr.c index b5b5899cf77..5f9cd8c0b96 100644 --- a/lib/ns/interfacemgr.c +++ b/lib/ns/interfacemgr.c @@ -431,6 +431,7 @@ ns_interface_create(ns_interfacemgr_t *mgr, isc_sockaddr_t *addr, */ ifp->ntcpaccepting = 0; ifp->ntcpactive = 0; + ifp->nudpdispatch = 0; ifp->dscp = -1;