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-rw-r--r--src/core/sockaddr.c13
-rw-r--r--src/core/sockaddr_test.c15
-rw-r--r--src/sp/transport.c6
-rw-r--r--src/sp/transport/CMakeLists.txt1
-rw-r--r--src/sp/transport/zerotier/CMakeLists.txt37
-rw-r--r--src/sp/transport/zerotier/zerotier.c3215
-rw-r--r--src/sp/transport/zerotier/zthash.c302
-rw-r--r--src/sp/transport/zerotier/zthash.h43
-rw-r--r--src/tools/nngcat/nngcat.c28
9 files changed, 0 insertions, 3660 deletions
diff --git a/src/core/sockaddr.c b/src/core/sockaddr.c
index d55db156..c7295083 100644
--- a/src/core/sockaddr.c
+++ b/src/core/sockaddr.c
@@ -133,15 +133,6 @@ str_sa_abstract(const nng_sockaddr_abstract *sa, char *buf, size_t bufsz)
return (buf);
}
-static const char *
-str_sa_zt(const nng_sockaddr_zt *sa, char *buf, size_t bufsz)
-{
- snprintf(buf, bufsz, "ZT[%llx:%llx:%u]",
- (unsigned long long) sa->sa_nodeid,
- (unsigned long long) sa->sa_nwid, sa->sa_port);
- return (buf);
-}
-
const char *
nng_str_sockaddr(const nng_sockaddr *sa, char *buf, size_t bufsz)
{
@@ -156,8 +147,6 @@ nng_str_sockaddr(const nng_sockaddr *sa, char *buf, size_t bufsz)
return (str_sa_ipc(&sa->s_ipc, buf, bufsz));
case NNG_AF_ABSTRACT:
return (str_sa_abstract(&sa->s_abstract, buf, bufsz));
- case NNG_AF_ZT:
- return (str_sa_zt(&sa->s_zt, buf, bufsz));
case NNG_AF_UNSPEC:
default:
return ("unknown");
@@ -175,8 +164,6 @@ nng_sockaddr_port(const nng_sockaddr *sa)
case NNG_AF_INET6:
NNI_GET16(&sa->s_in6.sa_port, port16);
return (port16);
- case NNG_AF_ZT:
- return (sa->s_zt.sa_port);
default:
return (0);
}
diff --git a/src/core/sockaddr_test.c b/src/core/sockaddr_test.c
index 0e05fc79..b40add28 100644
--- a/src/core/sockaddr_test.c
+++ b/src/core/sockaddr_test.c
@@ -147,20 +147,6 @@ test_sa_inet6_net(void)
NUTS_ASSERT(strcmp(addr, "[fc00::]:80") == 0);
}
-void
-test_sa_zt(void)
-{
- nng_sockaddr sa;
- char addr[NNG_MAXADDRSTRLEN];
- sa.s_zt.sa_family = NNG_AF_ZT;
- sa.s_zt.sa_nodeid = 0xa;
- sa.s_zt.sa_nwid = 0xb;
- sa.s_zt.sa_port = 1 << 20;
- nng_str_sockaddr(&sa, addr, sizeof(addr));
- nng_log_debug(NULL, "address is %s", addr);
- NUTS_ASSERT(strcmp(addr, "ZT[a:b:1048576]") == 0);
-}
-
TEST_LIST = {
{ "nng_sockaddr_ipc", test_sa_ipc },
{ "nng_sockaddr_abstract", test_sa_abstract },
@@ -171,6 +157,5 @@ TEST_LIST = {
{ "nng_sockaddr_in6 link local", test_sa_inet6_ll },
{ "nng_sockaddr_in6 zero", test_sa_inet6_zero },
{ "nng_sockaddr_in6 subnet", test_sa_inet6_net },
- { "nng_sockaddr_zt", test_sa_zt },
{ NULL, NULL },
};
diff --git a/src/sp/transport.c b/src/sp/transport.c
index 6d515967..1082db5b 100644
--- a/src/sp/transport.c
+++ b/src/sp/transport.c
@@ -108,9 +108,6 @@ extern void nni_sp_ws_register(void);
#ifdef NNG_TRANSPORT_WSS
extern void nni_sp_wss_register(void);
#endif
-#ifdef NNG_TRANSPORT_ZEROTIER
-extern void nni_sp_zt_register(void);
-#endif
#ifdef NNG_TRANSPORT_FDC
extern void nni_sp_sfd_register(void);
#endif
@@ -139,9 +136,6 @@ nni_sp_tran_sys_init(void)
#ifdef NNG_TRANSPORT_WSS
nni_sp_wss_register();
#endif
-#ifdef NNG_TRANSPORT_ZEROTIER
- nni_sp_zt_register();
-#endif
#ifdef NNG_TRANSPORT_FDC
nni_sp_sfd_register();
#endif
diff --git a/src/sp/transport/CMakeLists.txt b/src/sp/transport/CMakeLists.txt
index c7f6dabd..d0875e57 100644
--- a/src/sp/transport/CMakeLists.txt
+++ b/src/sp/transport/CMakeLists.txt
@@ -17,4 +17,3 @@ add_subdirectory(tcp)
add_subdirectory(tls)
add_subdirectory(udp)
add_subdirectory(ws)
-add_subdirectory(zerotier)
diff --git a/src/sp/transport/zerotier/CMakeLists.txt b/src/sp/transport/zerotier/CMakeLists.txt
deleted file mode 100644
index dedc9296..00000000
--- a/src/sp/transport/zerotier/CMakeLists.txt
+++ /dev/null
@@ -1,37 +0,0 @@
-#
-# Copyright 2020 Staysail Systems, Inc. <info@staysail.tech>
-# Copyright 2018 Capitar IT Group BV <info@capitar.com>
-#
-# This software is supplied under the terms of the MIT License, a
-# copy of which should be located in the distribution where this
-# file was obtained (LICENSE.txt). A copy of the license may also be
-# found online at https://opensource.org/licenses/MIT.
-#
-
-# ZeroTier protocol
-
-option (NNG_TRANSPORT_ZEROTIER "Enable ZeroTier transport (requires libzerotiercore)." OFF)
-mark_as_advanced(NNG_TRANSPORT_ZEROTIER)
-
-nng_directory(zerotier)
-
-if (NNG_TRANSPORT_ZEROTIER)
-
- # NB: As we wind up linking libzerotiercore.a into the application,
- # this means that your application will *also* need to either be licensed
- # under the GPLv3, or you will need to have a commercial license from
- # ZeroTier permitting its use elsewhere.
-
- message(WARNING "
- ************************************************************
- Linking against zerotiercore changes license terms.
- Consult a lawyer and the license files for details.
- ************************************************************")
-
- nng_find_package(zerotiercore)
-
- nng_link_libraries(zerotiercore::zerotiercore)
- nng_defines(NNG_TRANSPORT_ZEROTIER)
- nng_sources(zerotier.c zthash.c)
- nng_headers(nng/transport/zerotier/zerotier.h)
-endif()
diff --git a/src/sp/transport/zerotier/zerotier.c b/src/sp/transport/zerotier/zerotier.c
deleted file mode 100644
index 3dccd212..00000000
--- a/src/sp/transport/zerotier/zerotier.c
+++ /dev/null
@@ -1,3215 +0,0 @@
-//
-// Copyright 2023 Staysail Systems, Inc. <info@staysail.tech>
-// Copyright 2021 Capitar IT Group BV <info@capitar.com>
-//
-// This software is supplied under the terms of the MIT License, a
-// copy of which should be located in the distribution where this
-// file was obtained (LICENSE.txt). A copy of the license may also be
-// found online at https://opensource.org/licenses/MIT.
-//
-
-#include <ctype.h>
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-
-#include "core/nng_impl.h"
-#include "zthash.h"
-
-#include "nng/transport/zerotier/zerotier.h"
-
-#include <zerotiercore/ZeroTierOne.h>
-
-// ZeroTier Transport. This sits on the ZeroTier L2 network, which itself
-// is implemented on top of UDP. This requires the 3rd party
-// libzerotiercore library (which is GPLv3!) and platform specific UDP
-// functionality to be built in. Note that care must be taken to link
-// dynamically if one wishes to avoid making your entire application GPL3.
-// (Alternatively ZeroTier offers commercial licenses which may prevent
-// this particular problem.) This implementation does not make use of
-// certain advanced capabilities in ZeroTier such as more sophisticated
-// route management and TCP fallback. You need to have connectivity
-// to the Internet to use this. (Or at least to your Planetary root.)
-//
-// Because ZeroTier takes a while to establish connectivity, it is even
-// more important that applications using the ZeroTier transport not
-// assume that a connection will be immediately available. It can take
-// quite a few seconds for peer-to-peer connectivity to be established.
-//
-// The ZeroTier transport was funded by Capitar IT Group, BV.
-//
-// This transport is highly experimental.
-
-// ZeroTier and UDP are connectionless, but nng is designed around
-// connection oriented paradigms. An "unreliable" connection is created
-// on top using our own network protocol. The details of this are
-// documented in the RFC.
-
-// Every participant has an "address", which is a 64-bit value constructed
-// using the ZT node number in the upper 40-bits, and a 24-bit port number
-// in the lower bits. We elect to operate primarily on these addresses,
-// but the wire protocol relies on just conveying the 24-bit port along
-// with the MAC address (from which the ZT node number can be derived,
-// given the network ID.)
-
-typedef struct zt_pipe zt_pipe;
-typedef struct zt_ep zt_ep;
-typedef struct zt_node zt_node;
-typedef struct zt_frag zt_frag;
-typedef struct zt_fraglist zt_fraglist;
-
-// Port numbers are stored as 24-bit values in network byte order.
-#define ZT_GET24(ptr, v) \
- v = (((uint32_t) ((uint8_t) (ptr)[0])) << 16) + \
- (((uint32_t) ((uint8_t) (ptr)[1])) << 8) + \
- (((uint32_t) (uint8_t) (ptr)[2]))
-
-#define ZT_PUT24(ptr, u) \
- do { \
- (ptr)[0] = (uint8_t) (((uint32_t) (u)) >> 16); \
- (ptr)[1] = (uint8_t) (((uint32_t) (u)) >> 8); \
- (ptr)[2] = (uint8_t) ((uint32_t) (u)); \
- } while (0)
-
-static const uint16_t zt_ethertype = 0x901;
-static const uint8_t zt_version = 0x01;
-static const uint32_t zt_ephemeral = 0x800000u; // start of ephemeral ports
-static const uint32_t zt_max_port = 0xffffffu; // largest port
-static const uint32_t zt_port_mask = 0xffffffu; // mask of valid ports
-static const uint32_t zt_port_shift = 24;
-static const int zt_conn_tries = 240; // max connect attempts
-static const nng_duration zt_conn_time = 500; // between attempts (msec)
-static const int zt_ping_tries = 10; // max keepalive attempts
-static const nng_duration zt_ping_time = 60000; // keepalive time (msec)
-
-// These are compile time tunables for now.
-enum zt_tunables {
- zt_listenq = 128, // backlog queue length
- zt_listen_expire = 10000, // maximum time in backlog (msec)
- zt_rcv_bufsize = 4096, // max UDP recv
- zt_udp_sendq = 16, // outgoing UDP queue length
- zt_recvq = 2, // max pending recv (per pipe)
- zt_recv_stale = 1000, // frags older than are stale (msec)
-};
-
-enum zt_op_codes {
- zt_op_data = 0x00, // data, final fragment
- zt_op_conn_req = 0x10, // connect request
- zt_op_conn_ack = 0x12, // connect accepted
- zt_op_disc_req = 0x20, // disconnect request (no ack)
- zt_op_ping = 0x30, // ping request
- zt_op_pong = 0x32, // ping response
- zt_op_error = 0x40, // error response
-};
-
-enum zt_offsets {
- zt_offset_op = 0x00,
- zt_offset_flags = 0x01,
- zt_offset_version = 0x02, // protocol version number (2 bytes)
- zt_offset_zero1 = 0x04, // reserved, must be zero (1 byte)
- zt_offset_dst_port = 0x05, // destination port (3 bytes)
- zt_offset_zero2 = 0x08, // reserved, must be zero (1 byte)
- zt_offset_src_port = 0x09, // source port number (3 bytes)
- zt_offset_creq_proto = 0x0C, // SP protocol number (2 bytes)
- zt_offset_cack_proto = 0x0C, // SP protocol number (2 bytes)
- zt_offset_err_code = 0x0C, // error code (1 byte)
- zt_offset_err_msg = 0x0D, // error message (string)
- zt_offset_data_id = 0x0C, // message ID (2 bytes)
- zt_offset_data_fragsz = 0x0E, // fragment size
- zt_offset_data_frag = 0x10, // fragment number, first is 1 (2 bytes)
- zt_offset_data_nfrag = 0x12, // total fragments (2 bytes)
- zt_offset_data_data = 0x14, // user payload
- zt_size_headers = 0x0C, // size of headers
- zt_size_conn_req = 0x0E, // size of conn_req (connect request)
- zt_size_conn_ack = 0x0E, // size of conn_ack (connect reply)
- zt_size_disc_req = 0x0C, // size of disc_req (disconnect)
- zt_size_ping = 0x0C, // size of ping request
- zt_size_pong = 0x0C, // size of ping reply
- zt_size_data = 0x14, // size of data message (w/o payload)
-};
-
-enum zt_errors {
- zt_err_refused = 0x01, // Connection refused
- zt_err_notconn = 0x02, // Connection does not exit
- zt_err_wrongsp = 0x03, // SP protocol mismatch
- zt_err_proto = 0x04, // Other protocol error
- zt_err_msgsize = 0x05, // Message to large
- zt_err_unknown = 0x06, // Other errors
-};
-
-// This node structure is wrapped around the ZT_node; this allows us to
-// have multiple endpoints referencing the same ZT_node, but also to
-// support different nodes (identities) based on different home dirs.
-// This means we need to stick these on a global linked list, manage
-// them with a reference count, and uniquely identify them using the
-// homedir.
-struct zt_node {
- char zn_path[NNG_MAXADDRLEN]; // ought to be sufficient
- nni_file_lockh *zn_flock;
- ZT_Node *zn_znode;
- uint64_t zn_self;
- nni_list_node zn_link;
- bool zn_closed;
- nni_plat_udp *zn_udp4;
- nni_plat_udp *zn_udp6;
- nni_list zn_eplist;
- nni_list zn_plist;
- zt_hash *zn_ports;
- zt_hash *zn_eps;
- zt_hash *zn_lpipes;
- zt_hash *zn_rpipes;
- nni_aio *zn_rcv4_aio;
- uint8_t *zn_rcv4_buf;
- nng_sockaddr zn_rcv4_addr;
- nni_aio *zn_rcv6_aio;
- uint8_t *zn_rcv6_buf;
- nng_sockaddr zn_rcv6_addr;
- nni_thr zn_bgthr;
- int64_t zn_bgtime;
- nni_cv zn_bgcv;
- nni_cv zn_snd6_cv;
-};
-
-// The fragment list is used to keep track of incoming received
-// fragments for reassembly into a complete message.
-struct zt_fraglist {
- nni_time fl_time; // time first frag was received
- uint32_t fl_msgid; // message id
- int fl_ready; // we have all messages
- size_t fl_fragsz;
- unsigned int fl_nfrags;
- uint8_t *fl_missing;
- size_t fl_missingsz;
- nni_msg *fl_msg;
-};
-
-struct zt_pipe {
- nni_list_node zp_link;
- zt_node *zp_ztn;
- nni_pipe *zp_npipe;
- uint64_t zp_nwid;
- uint64_t zp_laddr;
- uint64_t zp_raddr;
- uint16_t zp_peer;
- uint16_t zp_proto;
- uint16_t zp_next_msgid;
- size_t zp_rcvmax;
- size_t zp_mtu;
- nni_aio *zp_user_rxaio;
- nni_time zp_last_recv;
- zt_fraglist zp_recvq[zt_recvq];
- int zp_ping_try;
- int zp_ping_tries;
- bool zp_closed;
- nni_duration zp_ping_time;
- nni_aio *zp_ping_aio;
- uint8_t *zp_send_buf;
- nni_atomic_flag zp_reaped;
- nni_reap_node zp_reap;
-};
-
-typedef struct zt_creq zt_creq;
-struct zt_creq {
- uint64_t cr_expire;
- uint64_t cr_raddr;
- uint16_t cr_proto;
-};
-
-struct zt_ep {
- nni_list_node ze_link;
- char ze_home[NNG_MAXADDRLEN]; // should be enough
- zt_node *ze_ztn;
- uint64_t ze_nwid;
- bool ze_running;
- uint64_t ze_raddr; // remote node address
- uint64_t ze_laddr; // local node address
- uint16_t ze_proto;
- size_t ze_rcvmax;
- nni_aio *ze_aio;
- nni_aio *ze_creq_aio;
- bool ze_creq_active;
- int ze_creq_try;
- nni_list ze_aios;
- int ze_mtu;
- int ze_ping_tries;
- nni_duration ze_ping_time;
- nni_duration ze_conn_time;
- int ze_conn_tries;
-
- // Incoming connection requests (server only). We only
- // only have "accepted" requests -- that is we won't have an
- // established connection/pipe unless the application calls
- // accept. Since the "application" is our library, that should
- // be pretty much as fast we can run.
- zt_creq ze_creqs[zt_listenq];
- int ze_creq_head;
- int ze_creq_tail;
- nni_dialer *ze_ndialer;
- nni_listener *ze_nlistener;
-};
-
-// Locking strategy. At present the ZeroTier core is not reentrant or fully
-// threadsafe. (We expect this will be fixed.) Furthermore, there are
-// some significant challenges in dealing with locks associated with the
-// callbacks, etc. So we take a big-hammer approach, and just use a single
-// global lock for everything. We hold this lock when calling into the
-// ZeroTier framework. Since ZeroTier has no independent threads, that
-// means that it will always hold this lock in its core, and the lock will
-// also be held automatically in any of our callbacks. We never hold any
-// other locks across ZeroTier core calls. We may not acquire the global
-// lock in callbacks (they will already have it held). Any other locks
-// can be acquired as long as they are not held during calls into ZeroTier.
-//
-// This will have a detrimental impact on performance, but to be completely
-// honest we don't think anyone will be using the ZeroTier transport in
-// performance critical applications; scalability may become a factor for
-// large servers sitting in a ZeroTier hub situation. (Then again, since
-// only the zerotier processing is single threaded, it may not
-// be that much of a bottleneck -- really depends on how expensive these
-// operations are. We can use lockstat or other lock-hotness tools to
-// check for this later.)
-
-static nni_mtx zt_lk;
-static nni_list zt_nodes;
-
-static void zt_ep_send_conn_req(zt_ep *);
-static void zt_ep_conn_req_cb(void *);
-static void zt_ep_doaccept(zt_ep *);
-static void zt_pipe_dorecv(zt_pipe *);
-static int zt_pipe_alloc(zt_pipe **, zt_ep *, uint64_t, uint64_t, bool);
-static void zt_pipe_ping_cb(void *);
-static void zt_fraglist_clear(zt_fraglist *);
-static void zt_fraglist_free(zt_fraglist *);
-static void zt_virtual_recv(ZT_Node *, void *, void *, uint64_t, void **,
- uint64_t, uint64_t, unsigned int, unsigned int, const void *,
- unsigned int);
-static void zt_pipe_start_ping(zt_pipe *);
-
-static int64_t
-zt_now(void)
-{
- // We return msec
- return ((int64_t) nni_clock());
-}
-
-static void
-zt_bgthr(void *arg)
-{
- zt_node *ztn = arg;
- int64_t now;
-
- nni_mtx_lock(&zt_lk);
- for (;;) {
- now = zt_now();
-
- if (ztn->zn_closed) {
- break;
- }
-
- if (now < ztn->zn_bgtime) {
- nni_cv_until(&ztn->zn_bgcv, (nni_time) ztn->zn_bgtime);
- continue;
- }
-
- ztn->zn_bgtime = 0;
- ZT_Node_processBackgroundTasks(ztn->zn_znode, NULL, now, &now);
-
- ztn->zn_bgtime = now;
- }
- nni_mtx_unlock(&zt_lk);
-}
-
-static void
-zt_node_resched(zt_node *ztn, int64_t msec)
-{
- if (msec > ztn->zn_bgtime && ztn->zn_bgtime != 0) {
- return;
- }
- ztn->zn_bgtime = msec;
- nni_cv_wake1(&ztn->zn_bgcv);
-}
-
-static void
-zt_node_rcv4_cb(void *arg)
-{
- zt_node *ztn = arg;
- nni_aio *aio = ztn->zn_rcv4_aio;
- struct sockaddr_storage sa;
- struct sockaddr_in *sin;
- nng_sockaddr_in *nsin;
- int64_t now;
-
- if (nni_aio_result(aio) != 0) {
- // Outside of memory exhaustion, we can't really think
- // of any reason for this to legitimately fail.
- // Arguably we should inject a fallback delay, but for
- // now we just carry on.
- return;
- }
-
- memset(&sa, 0, sizeof(sa));
- sin = (void *) &sa;
- nsin = &ztn->zn_rcv4_addr.s_in;
- sin->sin_family = AF_INET;
- sin->sin_port = nsin->sa_port;
- sin->sin_addr.s_addr = nsin->sa_addr;
-
- nni_mtx_lock(&zt_lk);
- now = zt_now();
-
- // We are not going to perform any validation of the data; we
- // just pass this straight into the ZeroTier core.
- // XXX: CHECK THIS, if it fails then we have a fatal error with
- // the znode, and have to shut everything down.
- ZT_Node_processWirePacket(ztn->zn_znode, NULL, now, 0, (void *) &sa,
- ztn->zn_rcv4_buf, nni_aio_count(aio), &now);
-
- // Schedule background work
- zt_node_resched(ztn, now);
-
- // Schedule another receive.
- if (ztn->zn_udp4 != NULL) {
- nni_iov iov;
- iov.iov_buf = ztn->zn_rcv4_buf;
- iov.iov_len = zt_rcv_bufsize;
- nni_aio_set_iov(aio, 1, &iov);
-
- nni_aio_set_input(aio, 0, &ztn->zn_rcv4_addr);
-
- nni_plat_udp_recv(ztn->zn_udp4, aio);
- }
- nni_mtx_unlock(&zt_lk);
-}
-
-static void
-zt_node_rcv6_cb(void *arg)
-{
- zt_node *ztn = arg;
- nni_aio *aio = ztn->zn_rcv6_aio;
- struct sockaddr_storage sa;
- struct sockaddr_in6 *sin6;
- struct nng_sockaddr_in6 *nsin6;
- int64_t now;
-
- if (nni_aio_result(aio) != 0) {
- // Outside of memory exhaustion, we can't really think
- // of any reason for this to legitimately fail.
- // Arguably we should inject a fallback delay, but for
- // now we just carry on.
- return;
- }
-
- memset(&sa, 0, sizeof(sa));
- sin6 = (void *) &sa;
- nsin6 = &ztn->zn_rcv6_addr.s_in6;
- sin6->sin6_family = AF_INET6;
- sin6->sin6_port = nsin6->sa_port;
- memcpy(&sin6->sin6_addr, nsin6->sa_addr, 16);
-
- nni_mtx_lock(&zt_lk);
- now = (uint64_t) zt_now(); // msec
-
- // We are not going to perform any validation of the data; we
- // just pass this straight into the ZeroTier core.
- ZT_Node_processWirePacket(ztn->zn_znode, NULL, now, 0, (void *) &sa,
- ztn->zn_rcv6_buf, nni_aio_count(aio), &now);
-
- // Schedule background work
- zt_node_resched(ztn, now);
-
- // Schedule another receive.
- if (ztn->zn_udp6 != NULL) {
- nni_iov iov;
- iov.iov_buf = ztn->zn_rcv6_buf;
- iov.iov_len = zt_rcv_bufsize;
- nni_aio_set_iov(aio, 1, &iov);
- nni_aio_set_input(aio, 0, &ztn->zn_rcv6_addr);
- nni_plat_udp_recv(ztn->zn_udp6, aio);
- }
- nni_mtx_unlock(&zt_lk);
-}
-
-static uint64_t
-zt_mac_to_node(uint64_t mac, uint64_t nwid)
-{
- uint64_t node;
- // This extracts a node address from a mac address. The
- // network ID is mixed in, and has to be extricated. We
- // the node ID is located in the lower 40 bits, and scrambled
- // against the nwid.
- node = mac & 0xffffffffffull;
- node ^= ((nwid >> 8) & 0xff) << 32;
- node ^= ((nwid >> 16) & 0xff) << 24;
- node ^= ((nwid >> 24) & 0xff) << 16;
- node ^= ((nwid >> 32) & 0xff) << 8;
- node ^= (nwid >> 40) & 0xff;
- return (node);
-}
-
-static uint64_t
-zt_node_to_mac(uint64_t node, uint64_t nwid)
-{
- uint64_t mac;
- // We use LSB of network ID, and make sure that we clear
- // multicast and set local administration -- this is the first
- // octet of the 48 bit mac address. We also avoid 0x52, which
- // is known to be used in KVM, libvirt, etc.
- mac = ((uint8_t) (nwid & 0xfe) | 0x02);
- if (mac == 0x52) {
- mac = 0x32;
- }
- mac <<= 40;
- mac |= node;
- // The rest of the network ID is XOR'd in, in reverse byte
- // order.
- mac ^= ((nwid >> 8) & 0xff) << 32;
- mac ^= ((nwid >> 16) & 0xff) << 24;
- mac ^= ((nwid >> 24) & 0xff) << 16;
- mac ^= ((nwid >> 32) & 0xff) << 8;
- mac ^= (nwid >> 40) & 0xff;
- return (mac);
-}
-
-static int
-zt_result(enum ZT_ResultCode rv)
-{
- switch (rv) {
- case ZT_RESULT_OK:
- return (0);
- case ZT_RESULT_OK_IGNORED:
- return (0);
- case ZT_RESULT_FATAL_ERROR_OUT_OF_MEMORY:
- return (NNG_ENOMEM);
- case ZT_RESULT_FATAL_ERROR_DATA_STORE_FAILED:
- return (NNG_EPERM);
- case ZT_RESULT_FATAL_ERROR_INTERNAL:
- return (NNG_EINTERNAL);
- case ZT_RESULT_ERROR_NETWORK_NOT_FOUND:
- return (NNG_EADDRINVAL);
- case ZT_RESULT_ERROR_UNSUPPORTED_OPERATION:
- return (NNG_ENOTSUP);
- case ZT_RESULT_ERROR_BAD_PARAMETER:
- return (NNG_EINVAL);
- default:
- return (NNG_ETRANERR + (int) rv);
- }
-}
-
-// ZeroTier Node API callbacks
-static int
-zt_virtual_config(ZT_Node *node, void *userptr, void *thr, uint64_t nwid,
- void **netptr, enum ZT_VirtualNetworkConfigOperation op,
- const ZT_VirtualNetworkConfig *config)
-{
- zt_node *ztn = userptr;
- zt_ep *ep;
-
- NNI_ARG_UNUSED(thr);
- NNI_ARG_UNUSED(netptr);
-
- NNI_ASSERT(node == ztn->zn_znode);
-
- // Maybe we don't have to create taps or anything like that.
- // We do get our mac and MTUs from this, so there's that.
- switch (op) {
- case ZT_VIRTUAL_NETWORK_CONFIG_OPERATION_UP:
- case ZT_VIRTUAL_NETWORK_CONFIG_OPERATION_CONFIG_UPDATE:
-
- // We only really care about changes to the MTU. From
- // an API perspective the MAC could change, but that
- // cannot really happen because the node identity and
- // the nwid are fixed.
- NNI_LIST_FOREACH (&ztn->zn_eplist, ep) {
- NNI_ASSERT(nwid == config->nwid);
- if (ep->ze_nwid != config->nwid) {
- continue;
- }
- ep->ze_mtu = config->mtu;
- }
- break;
- case ZT_VIRTUAL_NETWORK_CONFIG_OPERATION_DESTROY:
- case ZT_VIRTUAL_NETWORK_CONFIG_OPERATION_DOWN:
- // XXX: tear down endpoints?
- default:
- break;
- }
- return (0);
-}
-
-// zt_send modifies the start of the supplied buffer to update the
-// message headers with protocol specific details (version, port numbers,
-// etc.) and then sends it over the virtual network.
-static void
-zt_send(zt_node *ztn, uint64_t nwid, uint8_t op, uint64_t raddr,
- uint64_t laddr, uint8_t *data, size_t len)
-{
- uint64_t srcmac = zt_node_to_mac(laddr >> 24, nwid);
- uint64_t dstmac = zt_node_to_mac(raddr >> 24, nwid);
- int64_t now = zt_now();
-
- NNI_ASSERT(len >= zt_size_headers);
- data[zt_offset_op] = op;
- data[zt_offset_flags] = 0;
- data[zt_offset_zero1] = 0;
- data[zt_offset_zero2] = 0;
- NNI_PUT16(data + zt_offset_version, zt_version);
- ZT_PUT24(data + zt_offset_dst_port, raddr & zt_port_mask);
- ZT_PUT24(data + zt_offset_src_port, laddr & zt_port_mask);
-
- (void) ZT_Node_processVirtualNetworkFrame(ztn->zn_znode, NULL, now,
- nwid, srcmac, dstmac, zt_ethertype, 0, data, len, &now);
-
- zt_node_resched(ztn, now);
-}
-
-static void
-zt_send_err(zt_node *ztn, uint64_t nwid, uint64_t raddr, uint64_t laddr,
- uint8_t err, const char *msg)
-{
- uint8_t data[128];
-
- NNI_ASSERT((strlen(msg) + zt_offset_err_msg) < sizeof(data));
-
- data[zt_offset_err_code] = err;
- nni_strlcpy((char *) data + zt_offset_err_msg, msg,
- sizeof(data) - zt_offset_err_msg);
-
- zt_send(ztn, nwid, zt_op_error, raddr, laddr, data,
- strlen(msg) + zt_offset_err_msg);
-}
-
-static void
-zt_pipe_send_err(zt_pipe *p, uint8_t err, const char *msg)
-{
- zt_send_err(p->zp_ztn, p->zp_nwid, p->zp_raddr, p->zp_laddr, err, msg);
-}
-
-static void
-zt_pipe_send_disc_req(zt_pipe *p)
-{
- uint8_t data[zt_size_disc_req];
-
- zt_send(p->zp_ztn, p->zp_nwid, zt_op_disc_req, p->zp_raddr,
- p->zp_laddr, data, sizeof(data));
-}
-
-static void
-zt_pipe_send_ping(zt_pipe *p)
-{
- uint8_t data[zt_size_ping];
-
- zt_send(p->zp_ztn, p->zp_nwid, zt_op_ping, p->zp_raddr, p->zp_laddr,
- data, sizeof(data));
-}
-
-static void
-zt_pipe_send_pong(zt_pipe *p)
-{
- uint8_t data[zt_size_ping];
-
- zt_send(p->zp_ztn, p->zp_nwid, zt_op_pong, p->zp_raddr, p->zp_laddr,
- data, sizeof(data));
-}
-
-static void
-zt_pipe_send_conn_ack(zt_pipe *p)
-{
- uint8_t data[zt_size_conn_ack];
-
- NNI_PUT16(data + zt_offset_cack_proto, p->zp_proto);
- zt_send(p->zp_ztn, p->zp_nwid, zt_op_conn_ack, p->zp_raddr,
- p->zp_laddr, data, sizeof(data));
-}
-
-static void
-zt_ep_send_conn_req(zt_ep *ep)
-{
- uint8_t data[zt_size_conn_req];
-
- NNI_PUT16(data + zt_offset_creq_proto, ep->ze_proto);
- zt_send(ep->ze_ztn, ep->ze_nwid, zt_op_conn_req, ep->ze_raddr,
- ep->ze_laddr, data, sizeof(data));
-}
-
-static void
-zt_ep_recv_conn_ack(zt_ep *ep, uint64_t raddr, const uint8_t *data, size_t len)
-{
- zt_node *ztn = ep->ze_ztn;
- nni_aio *aio = ep->ze_creq_aio;
- zt_pipe *p;
- int rv;
-
- if (ep->ze_ndialer == NULL) {
- zt_send_err(ztn, ep->ze_nwid, raddr, ep->ze_laddr,
- zt_err_proto, "Inappropriate operation");
- return;
- }
-
- if (len != zt_size_conn_ack) {
- zt_send_err(ztn, ep->ze_nwid, raddr, ep->ze_laddr,
- zt_err_proto, "Bad message length");
- return;
- }
-
- if (ep->ze_creq_try == 0) {
- return;
- }
-
- // Do we already have a matching pipe? If so, we can discard
- // the operation. This should not happen, since we normally,
- // deregister the endpoint when we create the pipe.
- if ((zt_hash_find(ztn->zn_lpipes, ep->ze_laddr, (void **) &p)) == 0) {
- return;
- }
-
- if ((rv = zt_pipe_alloc(&p, ep, raddr, ep->ze_laddr, false)) != 0) {
- // We couldn't create the pipe, just drop it.
- nni_aio_finish_error(aio, rv);
- return;
- }
- NNI_GET16(data + zt_offset_cack_proto, p->zp_peer);
-
- // Reset the address of the endpoint, so that the next call to
- // ep_connect will bind a new one -- we are using this one for the
- // pipe.
- zt_hash_remove(ztn->zn_eps, ep->ze_laddr);
- ep->ze_laddr = 0;
-
- nni_aio_set_output(aio, 0, p);
- nni_aio_finish(aio, 0, 0);
-}
-
-static void
-zt_ep_recv_conn_req(zt_ep *ep, uint64_t raddr, const uint8_t *data, size_t len)
-{
- zt_node *ztn = ep->ze_ztn;
- zt_pipe *p;
- int i;
-
- if (ep->ze_nlistener == NULL) {
- zt_send_err(ztn, ep->ze_nwid, raddr, ep->ze_laddr,
- zt_err_proto, "Inappropriate operation");
- return;
- }
- if (len != zt_size_conn_req) {
- zt_send_err(ztn, ep->ze_nwid, raddr, ep->ze_laddr,
- zt_err_proto, "Bad message length");
- return;
- }
-
- // If we already have created a pipe for this connection
- // then just reply the conn ack.
- if ((zt_hash_find(ztn->zn_rpipes, raddr, (void **) &p)) == 0) {
- zt_pipe_send_conn_ack(p);
- return;
- }
-
- // We may already have a connection request queued (if this was
- // a resend for example); if that's the case we just ignore
- // this one.
- for (i = ep->ze_creq_tail; i != ep->ze_creq_head; i++) {
- if (ep->ze_creqs[i % zt_listenq].cr_raddr == raddr) {
- return;
- }
- }
- // We may already have filled our listenq, in which case we just drop.
- if ((ep->ze_creq_tail + zt_listenq) == ep->ze_creq_head) {
- // We have taken as many as we can, so just drop it.
- return;
- }
-
- // Record the connection request, and then process any
- // pending acceptors.
- i = ep->ze_creq_head % zt_listenq;
-
- NNI_GET16(data + zt_offset_creq_proto, ep->ze_creqs[i].cr_proto);
- ep->ze_creqs[i].cr_raddr = raddr;
- ep->ze_creqs[i].cr_expire = nni_clock() + zt_listen_expire;
- ep->ze_creq_head++;
-
- zt_ep_doaccept(ep);
-}
-
-static void
-zt_ep_recv_error(zt_ep *ep, const uint8_t *data, size_t len)
-{
- int code;
-
- // Most of the time we don't care about errors. The exception here
- // is that when we have an outstanding CON_REQ, we would like to
- // process that appropriately.
-
- if (ep->ze_ndialer == NULL) {
- // Not a dialer. Drop it.
- return;
- }
-
- if (len < zt_offset_err_msg) {
- // Malformed error frame.
- return;
- }
-
- code = data[zt_offset_err_code];
- switch (code) {
- case zt_err_refused:
- code = NNG_ECONNREFUSED;
- break;
- case zt_err_notconn:
- code = NNG_ECLOSED;
- break;
- case zt_err_wrongsp:
- code = NNG_EPROTO;
- break;
- default:
- code = NNG_ETRANERR;
- break;
- }
-
- if (ep->ze_creq_active) {
- ep->ze_creq_try = 0;
- ep->ze_creq_active = 0;
- nni_aio_finish_error(ep->ze_creq_aio, code);
- }
-}
-
-static void
-zt_ep_virtual_recv(
- zt_ep *ep, uint8_t op, uint64_t raddr, const uint8_t *data, size_t len)
-{
- // Only listeners should be receiving. Dialers receive on the pipe,
- // rather than the endpoint. The only message that endpoints can
- // receive are connection requests.
- switch (op) {
- case zt_op_conn_req:
- zt_ep_recv_conn_req(ep, raddr, data, len);
- return;
- case zt_op_conn_ack:
- zt_ep_recv_conn_ack(ep, raddr, data, len);
- return;
- case zt_op_error:
- zt_ep_recv_error(ep, data, len);
- return;
- default:
- zt_send_err(ep->ze_ztn, ep->ze_nwid, raddr, ep->ze_laddr,
- zt_err_proto, "Bad operation");
- return;
- }
-}
-
-static void
-zt_pipe_close_err(zt_pipe *p, int err, uint8_t code, const char *msg)
-{
- nni_aio *aio;
- if ((aio = p->zp_user_rxaio) != NULL) {
- p->zp_user_rxaio = NULL;
- nni_aio_finish_error(aio, err);
- }
- nni_aio_close(p->zp_ping_aio);
- p->zp_closed = true;
- if (msg != NULL) {
- zt_pipe_send_err(p, code, msg);
- }
-}
-
-static void
-zt_pipe_recv_data(zt_pipe *p, const uint8_t *data, size_t len)
-{
- uint16_t msgid;
- uint16_t fragno;
- uint16_t nfrags;
- size_t fragsz;
- zt_fraglist *fl;
- int i;
- int slot;
- uint8_t bit;
- uint8_t *body;
-
- if (len < zt_size_data) {
- // Runt frame. Drop it and close pipe with a protocol error.
- zt_pipe_close_err(p, NNG_EPROTO, zt_err_proto, "Runt frame");
- return;
- }
-
- NNI_GET16(data + zt_offset_data_id, msgid);
- NNI_GET16(data + zt_offset_data_fragsz, fragsz);
- NNI_GET16(data + zt_offset_data_frag, fragno);
- NNI_GET16(data + zt_offset_data_nfrag, nfrags);
- len -= zt_offset_data_data;
- data += zt_offset_data_data;
-
- // Check for cases where message size is clearly too large. Note
- // that we only can catch the case where a message is larger by
- // more than a fragment, since the final fragment may be shorter,
- // and we won't know that until we receive it.
- if ((p->zp_rcvmax > 0) &&
- ((nfrags * fragsz) >= (p->zp_rcvmax + fragsz))) {
- // Discard, as the forwarder might be on the other side
- // of a device. This is gentler than just shutting the pipe
- // down. Sending a remote error might be polite, but since
- // most peers will close the pipe on such an error, we
- // simply silently discard it.
- return;
- }
-
- // We run the recv logic once, to clear stale fragment entries.
- zt_pipe_dorecv(p);
-
- // Find a suitable fragment slot.
- slot = -1;
- for (i = 0; i < zt_recvq; i++) {
- fl = &p->zp_recvq[i];
- // This was our message ID, we always use it.
- if (msgid == fl->fl_msgid) {
- slot = i;
- break;
- }
-
- if (slot < 0) {
- slot = i;
- } else if (fl->fl_time < p->zp_recvq[slot].fl_time) {
- // This has an earlier expiration, so lets choose it.
- slot = i;
- }
- }
-
- NNI_ASSERT(slot >= 0);
-
- fl = &p->zp_recvq[slot];
- if (fl->fl_msgid != msgid) {
- // First fragment we've received for this message (but might
- // not be first fragment for message!)
- zt_fraglist_clear(fl);
-
- if (nni_msg_alloc(&fl->fl_msg, nfrags * fragsz) != 0) {
- // Out of memory. We don't close the pipe, but
- // just fail to receive the message. Bump a stat?
- return;
- }
-
- fl->fl_nfrags = nfrags;
- fl->fl_fragsz = fragsz;
- fl->fl_msgid = msgid;
- fl->fl_time = nni_clock();
-
- // Set the missing mask.
- memset(fl->fl_missing, 0xff, nfrags / 8);
- fl->fl_missing[nfrags / 8] |= ((1 << (nfrags % 8)) - 1);
- }
-
- if ((nfrags != fl->fl_nfrags) || (fragsz != fl->fl_fragsz) ||
- (fragno >= nfrags) || (fragsz == 0) || (nfrags == 0) ||
- ((fragno != (nfrags - 1)) && (len != fragsz))) {
- // Protocol error, message parameters changed.
- zt_pipe_close_err(
- p, NNG_EPROTO, zt_err_proto, "Invalid message parameters");
- zt_fraglist_clear(fl);
- return;
- }
-
- bit = (uint8_t) (1 << (fragno % 8));
- if ((fl->fl_missing[fragno / 8] & bit) == 0) {
- // We've already got this fragment, ignore it. We don't
- // bother to check for changed data.
- return;
- }
-
- fl->fl_missing[fragno / 8] &= ~(bit);
- body = nni_msg_body(fl->fl_msg);
- body += fragno * fragsz;
- memcpy(body, data, len);
- if (fragno == (nfrags - 1)) {
- // Last frag, maybe shorten the message.
- nni_msg_chop(fl->fl_msg, (fragsz - len));
- if ((nni_msg_len(fl->fl_msg) > p->zp_rcvmax) &&
- (p->zp_rcvmax > 0)) {
- // Strict enforcement of max recv.
- zt_fraglist_clear(fl);
- // Just discard the message.
- return;
- }
- }
-
- for (i = 0; i < ((nfrags + 7) / 8); i++) {
- if (fl->fl_missing[i]) {
- return;
- }
- }
-
- // We got all fragments... try to send it up.
- fl->fl_ready = 1;
- zt_pipe_dorecv(p);
-}
-
-static void
-zt_pipe_recv_ping(zt_pipe *p, const uint8_t *data, size_t len)
-{
- NNI_ARG_UNUSED(data);
-
- if (len != zt_size_ping) {
- zt_pipe_send_err(p, zt_err_proto, "Incorrect ping size");
- return;
- }
- zt_pipe_send_pong(p);
-}
-
-static void
-zt_pipe_recv_pong(zt_pipe *p, const uint8_t *data, size_t len)
-{
- NNI_ARG_UNUSED(data);
-
- if (len != zt_size_pong) {
- zt_pipe_send_err(p, zt_err_proto, "Incorrect pong size");
- }
-}
-
-static void
-zt_pipe_recv_disc_req(zt_pipe *p, const uint8_t *data, size_t len)
-{
- nni_aio *aio;
- NNI_ARG_UNUSED(data);
- NNI_ARG_UNUSED(len);
-
- // NB: lock held already.
- // Don't bother to check the length, going to disconnect anyway.
- if ((aio = p->zp_user_rxaio) != NULL) {
- p->zp_user_rxaio = NULL;
- p->zp_closed = true;
- nni_aio_finish_error(aio, NNG_ECLOSED);
- }
-}
-
-static void
-zt_pipe_recv_error(zt_pipe *p, const uint8_t *data, size_t len)
-{
- nni_aio *aio;
- NNI_ARG_UNUSED(data);
- NNI_ARG_UNUSED(len);
-
- // Perhaps we should log an error message, but at the end of
- // the day, the details are just not that interesting.
- if ((aio = p->zp_user_rxaio) != NULL) {
- p->zp_user_rxaio = NULL;
- p->zp_closed = true;
- nni_aio_finish_error(aio, NNG_ETRANERR);
- }
-}
-
-// This function is called when we have determined that a frame has
-// arrived for a pipe. The remote and local addresses were both
-// matched by the caller.
-static void
-zt_pipe_virtual_recv(zt_pipe *p, uint8_t op, const uint8_t *data, size_t len)
-{
- // We got data, so update our recv time.
- p->zp_last_recv = nni_clock();
- p->zp_ping_try = 0;
-
- switch (op) {
- case zt_op_data:
- zt_pipe_recv_data(p, data, len);
- return;
- case zt_op_disc_req:
- zt_pipe_recv_disc_req(p, data, len);
- return;
- case zt_op_ping:
- zt_pipe_recv_ping(p, data, len);
- return;
- case zt_op_pong:
- zt_pipe_recv_pong(p, data, len);
- return;
- case zt_op_error:
- zt_pipe_recv_error(p, data, len);
- return;
- case zt_op_conn_req:
- zt_pipe_send_conn_ack(p);
- return;
- }
-}
-
-// This function is called when a frame arrives on the
-// *virtual* network.
-static void
-zt_virtual_recv(ZT_Node *node, void *userptr, void *thr, uint64_t nwid,
- void **netptr, uint64_t srcmac, uint64_t dstmac, unsigned int ethertype,
- unsigned int vlanid, const void *payload, unsigned int len)
-{
- zt_node *ztn = userptr;
- uint8_t op;
- const uint8_t *data = payload;
- uint16_t version;
- uint32_t rport;
- uint32_t lport;
- zt_ep *ep;
- zt_pipe *p;
- uint64_t raddr;
- uint64_t laddr;
-
- NNI_ARG_UNUSED(node);
- NNI_ARG_UNUSED(thr);
- NNI_ARG_UNUSED(netptr);
-
- if ((ethertype != zt_ethertype) || (len < zt_size_headers) ||
- (data[zt_offset_flags] != 0) || (data[zt_offset_zero1] != 0) ||
- (data[zt_offset_zero2] != 0)) {
- return;
- }
- NNI_GET16(data + zt_offset_version, version);
- if (version != zt_version) {
- return;
- }
- if (vlanid != 0) { // for now we only use vlan 0.
- return;
- }
-
- op = data[zt_offset_op];
-
- ZT_GET24(data + zt_offset_dst_port, lport);
- ZT_GET24(data + zt_offset_src_port, rport);
-
- raddr = zt_mac_to_node(srcmac, nwid);
- raddr <<= 24;
- raddr |= rport;
-
- laddr = zt_mac_to_node(dstmac, nwid);
- laddr <<= 24;
- laddr |= lport;
-
- // NB: We are holding the zt_lock.
-
- // Look up a pipe, but also we use this chance to check that
- // the source address matches what the pipe was established with.
- // If the pipe does not match then we nak it. Note that pipes can
- // appear on the znode twice (loopback), so we have to be careful
- // to check the entire set of parameters, and to check for server
- // vs. client pipes separately.
-
- // If its a local address match on a client pipe, process it.
- if ((zt_hash_find(ztn->zn_lpipes, laddr, (void *) &p) == 0) &&
- (p->zp_nwid == nwid) && (p->zp_raddr == raddr)) {
- zt_pipe_virtual_recv(p, op, data, len);
- return;
- }
-
- // If its a remote address match on a server pipe, process it.
- if ((zt_hash_find(ztn->zn_rpipes, raddr, (void *) &p) == 0) &&
- (p->zp_nwid == nwid) && (p->zp_laddr == laddr)) {
- zt_pipe_virtual_recv(p, op, data, len);
- return;
- }
-
- // No pipe, so look for an endpoint.
- if ((zt_hash_find(ztn->zn_eps, laddr, (void **) &ep) == 0) &&
- (ep->ze_nwid == nwid)) {
- // direct this to an endpoint.
- zt_ep_virtual_recv(ep, op, raddr, data, len);
- return;
- }
-
- // We have a request for which we have no listener, and no
- // pipe. For some of these we send back a NAK, but for others
- // we just drop the frame.
- switch (op) {
- case zt_op_conn_req:
- // No listener. Connection refused.
- zt_send_err(ztn, nwid, raddr, laddr, zt_err_refused,
- "Connection refused");
- return;
- case zt_op_data:
- case zt_op_ping:
- case zt_op_conn_ack:
- zt_send_err(ztn, nwid, raddr, laddr, zt_err_notconn,
- "Connection not found");
- break;
- case zt_op_error:
- case zt_op_pong:
- case zt_op_disc_req:
- default:
- // Just drop these.
- break;
- }
-}
-
-static void
-zt_event_cb(ZT_Node *node, void *userptr, void *thr, enum ZT_Event event,
- const void *payload)
-{
- NNI_ARG_UNUSED(node);
- NNI_ARG_UNUSED(userptr);
- NNI_ARG_UNUSED(thr);
- NNI_ARG_UNUSED(payload);
-
- switch (event) {
- case ZT_EVENT_ONLINE: // Connected to the virtual net.
- case ZT_EVENT_UP: // Node initialized (may not be connected).
- case ZT_EVENT_DOWN: // Teardown of the node.
- case ZT_EVENT_OFFLINE: // Removal of the node from the net.
- case ZT_EVENT_TRACE: // Local trace events.
- // printf("TRACE: %s\n", (const char *) payload);
- break;
- case ZT_EVENT_REMOTE_TRACE: // Remote trace, not supported.
- default:
- break;
- }
-}
-
-static const char *zt_files[] = {
- // clang-format off
- NULL, // none, i.e. not used at all
- "identity.public",
- "identity.secret",
- "planet",
- "moon.%llx",
- NULL, // peer, e.g. peers.d/<ID> -- we don't persist this
- "network.%llx",
- // clang-format on
-};
-
-static struct {
- size_t len;
- void *data;
-} zt_ephemeral_state[ZT_STATE_OBJECT_NETWORK_CONFIG + 1];
-
-static void
-zt_state_put(ZT_Node *node, void *userptr, void *thr,
- enum ZT_StateObjectType objtype, const uint64_t objid[2], const void *data,
- int len)
-{
- zt_node *ztn = userptr;
- char *path;
- const char *template;
- char fname[32];
-
- NNI_ARG_UNUSED(node);
- NNI_ARG_UNUSED(thr);
- NNI_ARG_UNUSED(objid); // only use global files
-
- if ((objtype > ZT_STATE_OBJECT_NETWORK_CONFIG) ||
- ((template = zt_files[(int) objtype]) == NULL)) {
- return;
- }
-
- (void) snprintf(fname, sizeof(fname), template,
- (unsigned long long) objid[0], (unsigned long long) objid[1]);
-
- // If we have no valid path, then we just use ephemeral data.
- // Note that for moons, and so forth, we wind up just storing them
- // all in the same place, but it does not matter since we don't
- // really persist them anyway.
- if (strlen(ztn->zn_path) == 0) {
- void *ndata = NULL;
- void *odata = zt_ephemeral_state[objtype].data;
- size_t olen = zt_ephemeral_state[objtype].len;
- if ((len >= 0) && ((ndata = nni_alloc(len)) != NULL)) {
- memcpy(ndata, data, len);
- zt_ephemeral_state[objtype].data = ndata;
- zt_ephemeral_state[objtype].len = len;
- } else if (len < 0) {
- zt_ephemeral_state[objtype].data = NULL;
- zt_ephemeral_state[objtype].len = 0;
- }
-
- if (olen > 0) {
- nni_free(odata, olen);
- }
- return;
- }
-
- if ((path = nni_file_join(ztn->zn_path, fname)) == NULL) {
- return;
- }
-
- if (len < 0) {
- (void) nni_file_delete(path);
- } else {
- (void) nni_file_put(path, data, len);
- }
- nni_strfree(path);
-}
-
-static int
-zt_state_get(ZT_Node *node, void *userptr, void *thr,
- enum ZT_StateObjectType objtype, const uint64_t objid[2], void *data,
- unsigned int len)
-{
- zt_node *ztn = userptr;
- char *path;
- char fname[32];
- const char *template;
- size_t sz;
- void *buf;
-
- NNI_ARG_UNUSED(node);
- NNI_ARG_UNUSED(thr);
- NNI_ARG_UNUSED(objid); // we only use global files
-
- if ((objtype > ZT_STATE_OBJECT_NETWORK_CONFIG) ||
- ((template = zt_files[(int) objtype]) == NULL)) {
- return (-1);
- }
- snprintf(fname, sizeof(fname), template, objid[0], objid[1]);
-
- // If no base directory, we are using ephemeral data.
- if (strlen(ztn->zn_path) == 0) {
- if (zt_ephemeral_state[objtype].data == NULL) {
- return (-1);
- }
- if (zt_ephemeral_state[objtype].len > len) {
- return (-1);
- }
- len = zt_ephemeral_state[objtype].len;
- memcpy(data, zt_ephemeral_state[objtype].data, len);
- return (len);
- }
-
- if ((path = nni_file_join(ztn->zn_path, fname)) == NULL) {
- return (-1);
- }
-
- if (nni_file_get(path, &buf, &sz) != 0) {
- nni_strfree(path);
- return (-1);
- }
- nni_strfree(path);
- if (sz > len) {
- nni_free(buf, sz);
- return (-1);
- }
- memcpy(data, buf, sz);
- nni_free(buf, sz);
- return ((int) sz);
-}
-
-typedef struct zt_send_hdr {
- nni_sockaddr sa;
- size_t len;
-} zt_send_hdr;
-
-// This function is called when ZeroTier desires to send a
-// physical frame. The data is a UDP payload, the rest of the
-// payload should be set over vanilla UDP.
-static int
-zt_wire_packet_send(ZT_Node *node, void *userptr, void *thr, int64_t socket,
- const struct sockaddr_storage *remaddr, const void *data, unsigned int len,
- unsigned int ttl)
-{
- nni_aio *aio;
- nni_sockaddr addr;
- struct sockaddr_in *sin = (void *) remaddr;
- struct sockaddr_in6 *sin6 = (void *) remaddr;
- zt_node *ztn = userptr;
- nni_plat_udp *udp;
- uint8_t *buf;
- zt_send_hdr *hdr;
- nni_iov iov;
-
- NNI_ARG_UNUSED(node);
- NNI_ARG_UNUSED(thr);
- NNI_ARG_UNUSED(socket);
- NNI_ARG_UNUSED(ttl);
-
- // Kind of unfortunate, but we have to convert the
- // sockaddr to a neutral form, and then back again in
- // the platform layer.
- switch (sin->sin_family) {
- case AF_INET:
- addr.s_in.sa_family = NNG_AF_INET;
- addr.s_in.sa_port = sin->sin_port;
- addr.s_in.sa_addr = sin->sin_addr.s_addr;
- udp = ztn->zn_udp4;
- break;
- case AF_INET6:
- addr.s_in6.sa_family = NNG_AF_INET6;
- addr.s_in6.sa_port = sin6->sin6_port;
- udp = ztn->zn_udp6;
- memcpy(addr.s_in6.sa_addr, sin6->sin6_addr.s6_addr, 16);
- break;
- default:
- // No way to understand the address.
- return (-1);
- }
-
- if (nni_aio_alloc(&aio, NULL, NULL) != 0) {
- // Out of memory
- return (-1);
- }
- if ((buf = nni_alloc(sizeof(*hdr) + len)) == NULL) {
- nni_aio_free(aio);
- return (-1);
- }
-
- hdr = (void *) buf;
- buf += sizeof(*hdr);
-
- memcpy(buf, data, len);
- hdr->sa = addr;
- hdr->len = len;
- nni_aio_set_input(aio, 0, &hdr->sa);
-
- iov.iov_buf = buf;
- iov.iov_len = len;
- nni_aio_set_iov(aio, 1, &iov);
-
- // This should be non-blocking/best-effort, so while
- // not great that we're holding the lock, also not tragic.
- nni_plat_udp_send(udp, aio);
-
- // UDP sending is "fast" on all platforms -- given that its
- // best effort only, this will complete immediately, resulting
- // in either a message on the wire, or a discarded frame. We don't
- // care which. (There may be a few thread context switches, but
- // none of them are going to have to wait for some unbounded time.)
- nni_aio_wait(aio);
- nni_aio_free(aio);
- nni_free(hdr, hdr->len + sizeof(*hdr));
-
- return (0);
-}
-
-static struct ZT_Node_Callbacks zt_callbacks = {
- .version = 0,
- .statePutFunction = zt_state_put,
- .stateGetFunction = zt_state_get,
- .wirePacketSendFunction = zt_wire_packet_send,
- .virtualNetworkFrameFunction = zt_virtual_recv,
- .virtualNetworkConfigFunction = zt_virtual_config,
- .eventCallback = zt_event_cb,
- .pathCheckFunction = NULL,
- .pathLookupFunction = NULL,
-};
-
-static void
-zt_node_destroy(zt_node *ztn)
-{
- nni_aio_stop(ztn->zn_rcv4_aio);
- nni_aio_stop(ztn->zn_rcv6_aio);
-
- // Wait for background thread to exit!
- nni_thr_fini(&ztn->zn_bgthr);
-
- if (ztn->zn_znode != NULL) {
- ZT_Node_delete(ztn->zn_znode);
- }
-
- if (ztn->zn_udp4 != NULL) {
- nni_plat_udp_close(ztn->zn_udp4);
- }
- if (ztn->zn_udp6 != NULL) {
- nni_plat_udp_close(ztn->zn_udp6);
- }
-
- if (ztn->zn_rcv4_buf != NULL) {
- nni_free(ztn->zn_rcv4_buf, zt_rcv_bufsize);
- }
- if (ztn->zn_rcv6_buf != NULL) {
- nni_free(ztn->zn_rcv6_buf, zt_rcv_bufsize);
- }
- if (ztn->zn_flock != NULL) {
- nni_file_unlock(ztn->zn_flock);
- }
- nni_aio_free(ztn->zn_rcv4_aio);
- nni_aio_free(ztn->zn_rcv6_aio);
- zt_hash_fini(ztn->zn_eps);
- zt_hash_fini(ztn->zn_lpipes);
- zt_hash_fini(ztn->zn_rpipes);
- nni_cv_fini(&ztn->zn_bgcv);
- NNI_FREE_STRUCT(ztn);
-}
-
-static int
-zt_node_create(zt_node **ztnp, const char *path)
-{
- zt_node *ztn;
- nng_sockaddr sa4;
- nng_sockaddr sa6;
- int rv;
- enum ZT_ResultCode zrv;
- nni_iov iov;
-
- // XXX: Right now we depend on having both IPv6 and IPv4 available.
- // Probably we should support coping with the lack of either of them.
-
- // We want to bind to any address we can (for now).
- memset(&sa4, 0, sizeof(sa4));
- sa4.s_in.sa_family = NNG_AF_INET;
- memset(&sa6, 0, sizeof(sa6));
- sa6.s_in6.sa_family = NNG_AF_INET6;
-
- if ((ztn = NNI_ALLOC_STRUCT(ztn)) == NULL) {
- return (NNG_ENOMEM);
- }
- NNI_LIST_INIT(&ztn->zn_eplist, zt_ep, ze_link);
- NNI_LIST_INIT(&ztn->zn_plist, zt_pipe, zp_link);
- nni_cv_init(&ztn->zn_bgcv, &zt_lk);
- nni_aio_alloc(&ztn->zn_rcv4_aio, zt_node_rcv4_cb, ztn);
- nni_aio_alloc(&ztn->zn_rcv6_aio, zt_node_rcv6_cb, ztn);
-
- if (((ztn->zn_rcv4_buf = nni_alloc(zt_rcv_bufsize)) == NULL) ||
- ((ztn->zn_rcv6_buf = nni_alloc(zt_rcv_bufsize)) == NULL)) {
- zt_node_destroy(ztn);
- return (NNG_ENOMEM);
- }
- if (((rv = zt_hash_init(&ztn->zn_ports)) != 0) ||
- ((rv = zt_hash_init(&ztn->zn_eps)) != 0) ||
- ((rv = zt_hash_init(&ztn->zn_lpipes)) != 0) ||
- ((rv = zt_hash_init(&ztn->zn_rpipes)) != 0) ||
- ((rv = nni_thr_init(&ztn->zn_bgthr, zt_bgthr, ztn)) != 0) ||
- ((rv = nni_plat_udp_open(&ztn->zn_udp4, &sa4)) != 0) ||
- ((rv = nni_plat_udp_open(&ztn->zn_udp6, &sa6)) != 0)) {
- zt_node_destroy(ztn);
- return (rv);
- }
- nni_thr_set_name(&ztn->zn_bgthr, "nng:zt");
-
- if (strlen(path) > 0) {
- char *lkfile;
- if ((lkfile = nni_file_join(path, "lock")) == NULL) {
- zt_node_destroy(ztn);
- return (NNG_ENOMEM);
- }
-
- if ((rv = nni_file_lock(lkfile, &ztn->zn_flock)) != 0) {
- zt_node_destroy(ztn);
- nni_strfree(lkfile);
- return (rv);
- }
- nni_strfree(lkfile);
- }
-
- // Setup for dynamic ephemeral port allocations. We
- // set the range to allow for ephemeral ports, but not
- // higher than the max port, and starting with an
- // initial random value. Note that this should give us
- // about 8 million possible ephemeral ports.
- zt_hash_limits(ztn->zn_ports, zt_ephemeral, zt_max_port,
- (nni_random() % (zt_max_port - zt_ephemeral)) + zt_ephemeral);
-
- nni_strlcpy(ztn->zn_path, path, sizeof(ztn->zn_path));
- zrv = ZT_Node_new(&ztn->zn_znode, ztn, NULL, &zt_callbacks, zt_now());
- if (zrv != ZT_RESULT_OK) {
- zt_node_destroy(ztn);
- return (zt_result(zrv));
- }
-
- nni_list_append(&zt_nodes, ztn);
-
- ztn->zn_self = ZT_Node_address(ztn->zn_znode);
-
- nni_thr_run(&ztn->zn_bgthr);
-
- // Schedule an initial background run.
- zt_node_resched(ztn, 1);
-
- // Schedule receive
- iov.iov_buf = ztn->zn_rcv4_buf;
- iov.iov_len = zt_rcv_bufsize;
- nni_aio_set_iov(ztn->zn_rcv4_aio, 1, &iov);
- nni_aio_set_input(ztn->zn_rcv4_aio, 0, &ztn->zn_rcv4_addr);
- iov.iov_buf = ztn->zn_rcv6_buf;
- iov.iov_len = zt_rcv_bufsize;
- nni_aio_set_iov(ztn->zn_rcv6_aio, 1, &iov);
- nni_aio_set_input(ztn->zn_rcv6_aio, 0, &ztn->zn_rcv6_addr);
-
- nni_plat_udp_recv(ztn->zn_udp4, ztn->zn_rcv4_aio);
- nni_plat_udp_recv(ztn->zn_udp6, ztn->zn_rcv6_aio);
-
- *ztnp = ztn;
- return (0);
-}
-
-static int
-zt_walk_moons(const char *path, void *arg)
-{
- zt_node *ztn = arg;
- const char *bn = nni_file_basename(path);
- char *end;
- uint64_t moonid;
-
- if (strncmp(bn, "moon.", 5) != 0) {
- return (NNI_FILE_WALK_CONTINUE);
- }
- if (((moonid = (uint64_t) strtoull(bn + 5, &end, 16)) != 0) &&
- (*end == '\0')) {
- ZT_Node_orbit(ztn->zn_znode, NULL, moonid, 0);
- }
- return (NNI_FILE_WALK_CONTINUE);
-}
-
-static int
-zt_node_find(zt_ep *ep)
-{
- zt_node *ztn;
- int rv;
- ZT_VirtualNetworkConfig *cf;
-
- NNI_LIST_FOREACH (&zt_nodes, ztn) {
- if (strcmp(ep->ze_home, ztn->zn_path) == 0) {
- goto done;
- }
- }
-
- // We didn't find a node, so make one. And try to
- // initialize it.
- if ((rv = zt_node_create(&ztn, ep->ze_home)) != 0) {
- return (rv);
- }
-
- // Load moons
- if (strlen(ep->ze_home) != 0) {
- (void) nni_file_walk(ep->ze_home, zt_walk_moons, ztn,
- NNI_FILE_WALK_FILES_ONLY | NNI_FILE_WALK_SHALLOW);
- }
-
-done:
-
- ep->ze_ztn = ztn;
- if (nni_list_node_active(&ep->ze_link)) {
- nni_list_node_remove(&ep->ze_link);
- }
- nni_list_append(&ztn->zn_eplist, ep);
-
- (void) ZT_Node_join(ztn->zn_znode, ep->ze_nwid, ztn, NULL);
-
- if ((cf = ZT_Node_networkConfig(ztn->zn_znode, ep->ze_nwid)) != NULL) {
- NNI_ASSERT(cf->nwid == ep->ze_nwid);
- ep->ze_mtu = cf->mtu;
- ZT_Node_freeQueryResult(ztn->zn_znode, cf);
- }
-
- return (0);
-}
-
-static void
-zt_tran_init(void)
-{
- nni_mtx_init(&zt_lk);
- NNI_LIST_INIT(&zt_nodes, zt_node, zn_link);
-}
-
-static void
-zt_tran_fini(void)
-{
- zt_node *ztn;
-
- nni_mtx_lock(&zt_lk);
- while ((ztn = nni_list_first(&zt_nodes)) != 0) {
- nni_list_remove(&zt_nodes, ztn);
- ztn->zn_closed = true;
- nni_cv_wake(&ztn->zn_bgcv);
- nni_mtx_unlock(&zt_lk);
-
- zt_node_destroy(ztn);
-
- nni_mtx_lock(&zt_lk);
- }
- nni_mtx_unlock(&zt_lk);
-
- for (int i = 0; i <= ZT_STATE_OBJECT_NETWORK_CONFIG; i++) {
- if (zt_ephemeral_state[i].len > 0) {
- nni_free(zt_ephemeral_state[i].data,
- zt_ephemeral_state[i].len);
- }
- }
- NNI_ASSERT(nni_list_empty(&zt_nodes));
- nni_mtx_fini(&zt_lk);
-}
-
-static int
-zt_check_string(const void *v, size_t sz, nni_type t)
-{
- size_t len;
-
- if (t != NNI_TYPE_STRING) {
- return (NNG_EBADTYPE);
- }
- len = nni_strnlen(v, sz);
- if ((len >= sz) || (len >= NNG_MAXADDRLEN)) {
- return (NNG_EINVAL);
- }
- return (0);
-}
-
-static void
-zt_pipe_close(void *arg)
-{
- zt_pipe *p = arg;
- nni_aio *aio;
-
- nni_mtx_lock(&zt_lk);
- p->zp_closed = true;
- nni_aio_close(p->zp_ping_aio);
- if ((aio = p->zp_user_rxaio) != NULL) {
- p->zp_user_rxaio = NULL;
- nni_aio_finish_error(aio, NNG_ECLOSED);
- }
- zt_pipe_send_disc_req(p);
- nni_mtx_unlock(&zt_lk);
-}
-
-static int
-zt_pipe_init(void *arg, nni_pipe *npipe)
-{
- zt_pipe *p = arg;
- p->zp_npipe = npipe;
- return (0);
-}
-
-static void
-zt_pipe_fini(void *arg)
-{
- zt_pipe *p = arg;
- zt_node *ztn = p->zp_ztn;
-
- nni_aio_free(p->zp_ping_aio);
-
- // This tosses the connection details and all state.
- nni_mtx_lock(&zt_lk);
- zt_hash_remove(ztn->zn_ports, p->zp_laddr & zt_port_mask);
- zt_hash_remove(ztn->zn_lpipes, p->zp_laddr);
- zt_hash_remove(ztn->zn_rpipes, p->zp_raddr);
- nni_mtx_unlock(&zt_lk);
-
- for (int i = 0; i < zt_recvq; i++) {
- zt_fraglist_free(&p->zp_recvq[i]);
- }
- nni_free(p->zp_send_buf, ZT_MAX_MTU);
- NNI_FREE_STRUCT(p);
-}
-
-static nni_reap_list zt_reap_list = {
- .rl_offset = offsetof(zt_pipe, zp_reap),
- .rl_func = zt_pipe_fini,
-};
-
-static void
-zt_pipe_reap(zt_pipe *p)
-{
- if (!nni_atomic_flag_test_and_set(&p->zp_reaped)) {
- nni_reap(&zt_reap_list, p);
- }
-}
-
-static int
-zt_pipe_alloc(
- zt_pipe **pipep, zt_ep *ep, uint64_t raddr, uint64_t laddr, bool listener)
-{
- zt_pipe *p;
- int rv;
- zt_node *ztn = ep->ze_ztn;
- int i;
- size_t maxfrag;
- size_t maxfrags = 0;
-
- if ((p = NNI_ALLOC_STRUCT(p)) == NULL) {
- return (NNG_ENOMEM);
- }
- if ((p->zp_send_buf = nni_alloc(ZT_MAX_MTU)) == NULL) {
- NNI_FREE_STRUCT(p);
- return (NNG_ENOMEM);
- }
- p->zp_ztn = ztn;
- p->zp_raddr = raddr;
- p->zp_laddr = laddr;
- p->zp_proto = ep->ze_proto;
- p->zp_nwid = ep->ze_nwid;
- p->zp_mtu = ep->ze_mtu;
- p->zp_rcvmax = ep->ze_rcvmax;
- p->zp_ping_tries = ep->ze_ping_tries;
- p->zp_ping_time = ep->ze_ping_time;
- p->zp_next_msgid = (uint16_t) nni_random();
- p->zp_ping_try = 0;
- nni_atomic_flag_reset(&p->zp_reaped);
-
- if (listener) {
- // listener
- rv = zt_hash_insert(ztn->zn_rpipes, raddr, p);
- } else {
- // dialer
- rv = zt_hash_insert(ztn->zn_lpipes, laddr, p);
- }
- if ((rv != 0) ||
- ((rv = nni_aio_alloc(&p->zp_ping_aio, zt_pipe_ping_cb, p)) != 0)) {
- zt_pipe_reap(p);
- return (rv);
- }
-
- // The largest fragment we can accept on this pipe. The MTU is
- // configurable by the network administrator. Probably ZT would
- // pass a larger one (up to MAXMTU), but we honor the network
- // administration's configuration.
- maxfrag = p->zp_mtu - zt_offset_data_data;
-
- // The largest fragment count we can accept on this pipe.
- // This is rounded up to account for alignment.
- if (p->zp_rcvmax > 0) {
- maxfrags = (p->zp_rcvmax + (maxfrag - 1)) / maxfrag;
- }
-
- if ((maxfrags > 0xffff) || (maxfrags == 0)) {
- maxfrags = 0xffff;
- }
-
- for (i = 0; i < zt_recvq; i++) {
- zt_fraglist *fl = &p->zp_recvq[i];
- fl->fl_time = NNI_TIME_ZERO;
- fl->fl_msgid = 0;
- fl->fl_ready = 0;
- fl->fl_missingsz = (maxfrags + 7) / 8;
- fl->fl_missing = nni_alloc(fl->fl_missingsz);
- if (fl->fl_missing == NULL) {
- zt_pipe_reap(p);
- return (NNG_ENOMEM);
- }
- }
-
- *pipep = p;
- return (0);
-}
-
-static void
-zt_pipe_send(void *arg, nni_aio *aio)
-{
- // As we are sending UDP, and there is no callback to worry
- // about, we just go ahead and send out a stream of messages
- // synchronously.
- zt_pipe *p = arg;
- uint8_t *data = p->zp_send_buf;
- size_t offset;
- uint16_t id;
- uint16_t nfrags;
- uint16_t fragno;
- size_t fragsz;
- size_t bytes;
- size_t msg_header_len;
- size_t msg_len;
- nni_msg *m;
-
- if (nni_aio_begin(aio) != 0) {
- // No way to give the message back to the protocol, so
- // we just discard it silently to prevent it from leaking.
- nni_msg_free(nni_aio_get_msg(aio));
- nni_aio_set_msg(aio, NULL);
- return;
- }
- if ((m = nni_aio_get_msg(aio)) == NULL) {
- nni_aio_finish_error(aio, NNG_EINVAL);
- return;
- }
-
- nni_mtx_lock(&zt_lk);
-
- if (p->zp_closed) {
- nni_mtx_unlock(&zt_lk);
- nni_aio_finish_error(aio, NNG_ECLOSED);
- return;
- }
-
- fragsz = p->zp_mtu - zt_offset_data_data;
- NNI_ASSERT(fragsz < 0x10000); // Because zp_mtu is 16 bits
-
- msg_header_len = nni_msg_header_len(m);
- msg_len = nni_msg_len(m);
- bytes = msg_header_len + msg_len;
- if (bytes >= (0xfffe * fragsz)) {
- nni_aio_finish_error(aio, NNG_EMSGSIZE);
- nni_mtx_unlock(&zt_lk);
- return;
- }
- // above check means nfrags will fit in 16-bits.
- nfrags = (uint16_t) ((bytes + (fragsz - 1)) / fragsz);
-
- // get the next message ID, but skip 0
- if ((id = p->zp_next_msgid++) == 0) {
- id = p->zp_next_msgid++;
- }
-
- offset = 0;
- fragno = 0;
- do {
- uint8_t *dest = data + zt_offset_data_data;
- size_t room = fragsz;
- size_t fraglen = 0;
- size_t len;
-
- // Prepend the header first.
- if ((!offset) && (msg_header_len > 0)) {
- if (msg_header_len > fragsz) {
- // This shouldn't happen! SP headers are
- // supposed to be quite small.
- nni_aio_finish_error(aio, NNG_EMSGSIZE);
- nni_mtx_unlock(&zt_lk);
- return;
- }
- memcpy(dest, nni_msg_header(m), msg_header_len);
- dest += msg_header_len;
- room -= msg_header_len;
- offset += msg_header_len;
- fraglen += msg_header_len;
- }
-
- len = msg_header_len + msg_len - offset;
- if (len > room) {
- len = room;
- }
- memcpy(dest, nni_msg_body(m) + offset - msg_header_len, len);
-
- NNI_PUT16(data + zt_offset_data_id, id);
- NNI_PUT16(data + zt_offset_data_fragsz, (uint16_t) fragsz);
- NNI_PUT16(data + zt_offset_data_frag, fragno);
- NNI_PUT16(data + zt_offset_data_nfrag, nfrags);
- offset += len;
- fraglen += len;
- fragno++;
- zt_send(p->zp_ztn, p->zp_nwid, zt_op_data, p->zp_raddr,
- p->zp_laddr, data, fraglen + zt_offset_data_data);
- } while (msg_header_len + msg_len - offset != 0);
- nni_mtx_unlock(&zt_lk);
-
- // NB, We never bothered to call nn_aio_sched, because we run this
- // synchronously, relying on UDP to simply discard messages if we
- // cannot deliver them. This means that pipe send operations with
- // this transport are not cancellable.
-
- nni_aio_set_msg(aio, NULL);
- nni_msg_free(m);
- nni_aio_finish(aio, 0, offset);
-}
-
-static void
-zt_pipe_cancel_recv(nni_aio *aio, void *arg, int rv)
-{
- zt_pipe *p = arg;
- nni_mtx_lock(&zt_lk);
- if (p->zp_user_rxaio == aio) {
- p->zp_user_rxaio = NULL;
- nni_aio_finish_error(aio, rv);
- }
- nni_mtx_unlock(&zt_lk);
-}
-
-static void
-zt_fraglist_clear(zt_fraglist *fl)
-{
- nni_msg *msg;
-
- fl->fl_ready = 0;
- fl->fl_msgid = 0;
- fl->fl_time = NNI_TIME_ZERO;
- if ((msg = fl->fl_msg) != NULL) {
- fl->fl_msg = NULL;
- nni_msg_free(msg);
- }
- memset(fl->fl_missing, 0, fl->fl_missingsz);
-}
-
-static void
-zt_fraglist_free(zt_fraglist *fl)
-{
- zt_fraglist_clear(fl);
- nni_free(fl->fl_missing, fl->fl_missingsz);
- fl->fl_missing = NULL;
-}
-
-static void
-zt_pipe_dorecv(zt_pipe *p)
-{
- nni_aio *aio = p->zp_user_rxaio;
- nni_time now = nni_clock();
-
- if (aio == NULL) {
- return;
- }
-
- for (int i = 0; i < zt_recvq; i++) {
- zt_fraglist *fl = &p->zp_recvq[i];
- nni_msg *msg;
-
- if (now > (fl->fl_time + zt_recv_stale)) {
- // fragment list is stale, clean it.
- zt_fraglist_clear(fl);
- continue;
- }
- if (!fl->fl_ready) {
- continue;
- }
-
- // Got data. Let's pass it up.
- msg = fl->fl_msg;
- fl->fl_msg = NULL;
- NNI_ASSERT(msg != NULL);
-
- p->zp_user_rxaio = NULL;
- nni_aio_finish_msg(aio, msg);
- zt_fraglist_clear(fl);
- return;
- }
-}
-
-static void
-zt_pipe_recv(void *arg, nni_aio *aio)
-{
- zt_pipe *p = arg;
- int rv;
-
- if (nni_aio_begin(aio) != 0) {
- return;
- }
- nni_mtx_lock(&zt_lk);
- if (p->zp_closed) {
- nni_mtx_unlock(&zt_lk);
- nni_aio_finish_error(aio, NNG_ECLOSED);
- return;
- }
- if ((rv = nni_aio_schedule(aio, zt_pipe_cancel_recv, p)) != 0) {
- nni_mtx_unlock(&zt_lk);
- nni_aio_finish_error(aio, rv);
- return;
- }
- p->zp_user_rxaio = aio;
- zt_pipe_dorecv(p);
- nni_mtx_unlock(&zt_lk);
-}
-
-static uint16_t
-zt_pipe_peer(void *arg)
-{
- zt_pipe *pipe = arg;
-
- return (pipe->zp_peer);
-}
-
-static int
-zt_get_nw_status(zt_node *ztn, uint64_t nwid, int *statusp)
-{
- ZT_VirtualNetworkConfig *vcfg;
- int status;
-
- vcfg = ZT_Node_networkConfig(ztn->zn_znode, nwid);
- if (vcfg == NULL) {
- return (NNG_ECLOSED);
- }
- switch (vcfg->status) {
- case ZT_NETWORK_STATUS_REQUESTING_CONFIGURATION:
- status = NNG_ZT_STATUS_CONFIG;
- break;
- case ZT_NETWORK_STATUS_OK:
- status = NNG_ZT_STATUS_UP;
- break;
- case ZT_NETWORK_STATUS_ACCESS_DENIED:
- status = NNG_ZT_STATUS_DENIED;
- break;
- case ZT_NETWORK_STATUS_NOT_FOUND:
- status = NNG_ZT_STATUS_NOTFOUND;
- break;
- case ZT_NETWORK_STATUS_PORT_ERROR:
- status = NNG_ZT_STATUS_ERROR;
- break;
- case ZT_NETWORK_STATUS_CLIENT_TOO_OLD:
- status = NNG_ZT_STATUS_OBSOLETE;
- break;
- default:
- status = NNG_ZT_STATUS_UNKNOWN;
- break;
- }
- ZT_Node_freeQueryResult(ztn->zn_znode, vcfg);
-
- *statusp = status;
- return (0);
-}
-
-static int
-zt_get_nw_name(zt_node *ztn, uint64_t nwid, void *buf, size_t *szp, nni_type t)
-{
- ZT_VirtualNetworkConfig *vcfg;
- int rv;
-
- vcfg = ZT_Node_networkConfig(ztn->zn_znode, nwid);
- if (vcfg == NULL) {
- return (NNG_ECLOSED);
- }
-
- rv = nni_copyout_str(vcfg->name, buf, szp, t);
- ZT_Node_freeQueryResult(ztn->zn_znode, vcfg);
-
- return (rv);
-}
-
-static int
-zt_pipe_get_recvmaxsz(void *arg, void *buf, size_t *szp, nni_type t)
-{
- zt_pipe *p = arg;
- return (nni_copyout_size(p->zp_rcvmax, buf, szp, t));
-}
-
-static int
-zt_pipe_get_nwid(void *arg, void *buf, size_t *szp, nni_type t)
-{
- zt_pipe *p = arg;
- return (nni_copyout_u64(p->zp_nwid, buf, szp, t));
-}
-
-static int
-zt_pipe_get_node(void *arg, void *buf, size_t *szp, nni_type t)
-{
- zt_pipe *p = arg;
- return (nni_copyout_u64(p->zp_laddr >> 24, buf, szp, t));
-}
-
-static void
-zt_pipe_ping_cb(void *arg)
-{
- zt_pipe *p = arg;
- nni_aio *aio = p->zp_ping_aio;
- int rv;
-
- if ((rv = nni_aio_result(aio)) != 0) {
- // We were canceled. That means we're done.
- return;
- }
- nni_mtx_lock(&zt_lk);
- if (p->zp_closed || aio == NULL || (p->zp_ping_tries == 0) ||
- (p->zp_ping_time == NNG_DURATION_INFINITE) ||
- (p->zp_ping_time == NNG_DURATION_ZERO)) {
- nni_mtx_unlock(&zt_lk);
- return;
- }
- if (p->zp_ping_try > p->zp_ping_tries) {
- // Ping count exceeded; the other side is AFK.
- // Close the pipe, but no need to send a reason to the peer.
- zt_pipe_close_err(p, NNG_ECLOSED, 0, NULL);
- nni_mtx_unlock(&zt_lk);
- return;
- }
-
- if (nni_clock() > (p->zp_last_recv + p->zp_ping_time)) {
- p->zp_ping_try++;
- zt_pipe_send_ping(p);
- }
-
- nni_sleep_aio(p->zp_ping_time, aio); // Schedule a recheck.
- nni_mtx_unlock(&zt_lk);
-}
-
-static void
-zt_pipe_start_ping(zt_pipe *p)
-{
- // send a gratuitous ping, and start the ping interval timer.
- if ((p->zp_ping_tries > 0) && (p->zp_ping_time != NNG_DURATION_ZERO) &&
- (p->zp_ping_time != NNG_DURATION_INFINITE)) {
- p->zp_ping_try = 0;
- zt_pipe_send_ping(p);
- nni_sleep_aio(p->zp_ping_time, p->zp_ping_aio);
- }
-}
-
-static void
-zt_ep_stop(void *arg)
-{
- zt_ep *ep = arg;
- nni_aio_stop(ep->ze_creq_aio);
-}
-
-static void
-zt_ep_fini(void *arg)
-{
- zt_ep *ep = arg;
- nni_aio_free(ep->ze_creq_aio);
- NNI_FREE_STRUCT(ep);
-}
-
-static int
-zt_parsehex(const char **sp, uint64_t *valp, bool wildok)
-{
- int n;
- const char *s = *sp;
- char c;
- uint64_t v;
-
- if (wildok && *s == '*') {
- *valp = 0;
- s++;
- *sp = s;
- return (0);
- }
-
- for (v = 0, n = 0; (n < 16) && isxdigit(c = tolower(*s)); n++, s++) {
- v *= 16;
- if (isdigit(c)) {
- v += (c - '0');
- } else {
- v += ((c - 'a') + 10);
- }
- }
-
- *sp = s;
- *valp = v;
- return (n ? 0 : NNG_EINVAL);
-}
-
-static int
-zt_parsedec(const char **sp, uint64_t *valp)
-{
- int n;
- const char *s = *sp;
- char c;
- uint64_t v;
-
- for (v = 0, n = 0; (n < 20) && isdigit(c = *s); n++, s++) {
- v *= 10;
- v += (c - '0');
- }
- *sp = s;
- *valp = v;
- return (n ? 0 : NNG_EINVAL);
-}
-
-static int
-zt_ep_init(void **epp, nni_url *url, nni_sock *sock, nni_dialer *ndialer,
- nni_listener *nlistener)
-{
- zt_ep *ep;
- uint64_t node;
- uint64_t port;
- int rv;
- const char *h;
-
- if ((ep = NNI_ALLOC_STRUCT(ep)) == NULL) {
- return (NNG_ENOMEM);
- }
-
- ep->ze_mtu = ZT_MIN_MTU;
- ep->ze_aio = NULL;
- ep->ze_ping_tries = zt_ping_tries;
- ep->ze_ping_time = zt_ping_time;
- ep->ze_conn_time = zt_conn_time;
- ep->ze_conn_tries = zt_conn_tries;
- ep->ze_proto = nni_sock_proto_id(sock);
- ep->ze_ndialer = ndialer;
- ep->ze_nlistener = nlistener;
-
- nni_aio_list_init(&ep->ze_aios);
-
- rv = nni_aio_alloc(&ep->ze_creq_aio, zt_ep_conn_req_cb, ep);
- if (rv != 0) {
- zt_ep_fini(ep);
- return (rv);
- }
-
- // Our URL format is:
- //
- // zt://<nodeid>.<nwid>:<port>
- //
- // The port must be specified, but may be zero. The nodeid
- // may be '*' to refer to ourself. There may be a trailing slash
- // which will be ignored.
-
- h = url->u_hostname;
- if (((strlen(url->u_path) == 1) && (url->u_path[0] != '/')) ||
- (strlen(url->u_path) > 1) || (url->u_fragment != NULL) ||
- (url->u_query != NULL) || (url->u_userinfo != NULL) ||
- (zt_parsehex(&h, &node, true) != 0) || (*h++ != '.') ||
- (zt_parsehex(&h, &ep->ze_nwid, false) != 0) ||
- (node > 0xffffffffffull)) {
- return (NNG_EADDRINVAL);
- }
- h = url->u_port;
- if ((zt_parsedec(&h, &port) != 0) || (port > zt_max_port)) {
- return (NNG_EADDRINVAL);
- }
-
- // Parse the URL.
- if (nlistener != NULL) {
- // listener
- ep->ze_laddr = node;
- ep->ze_laddr <<= 24;
- ep->ze_laddr |= port;
- ep->ze_raddr = 0;
- ep->ze_nlistener = nlistener;
- } else {
- // dialer
- if (port == 0) {
- return (NNG_EADDRINVAL);
- }
- ep->ze_raddr = node;
- ep->ze_raddr <<= 24;
- ep->ze_raddr |= port;
- ep->ze_laddr = 0;
- ep->ze_ndialer = ndialer;
- }
-
- *epp = ep;
- return (0);
-}
-
-static int
-zt_dialer_init(void **epp, nni_url *url, nni_dialer *d)
-{
- return (zt_ep_init(epp, url, nni_dialer_sock(d), d, NULL));
-}
-
-static int
-zt_listener_init(void **epp, nni_url *url, nni_listener *l)
-{
- return (zt_ep_init(epp, url, nni_listener_sock(l), NULL, l));
-}
-
-static void
-zt_ep_close(void *arg)
-{
- zt_ep *ep = arg;
- zt_node *ztn;
- nni_aio *aio;
-
- nni_aio_abort(ep->ze_creq_aio, NNG_ECLOSED);
-
- // Cancel any outstanding user operation(s) - they should have
- // been aborted by the above cancellation, but we need to be
- // sure, as the cancellation callback may not have run yet.
-
- nni_mtx_lock(&zt_lk);
- while ((aio = nni_list_first(&ep->ze_aios)) != NULL) {
- nni_aio_list_remove(aio);
- nni_aio_finish_error(aio, NNG_ECLOSED);
- }
-
- // Endpoint framework guarantees to only call us once,
- // and to not call other things while we are closed.
- ztn = ep->ze_ztn;
- // If we're on the ztn node list, pull us off.
- if (ztn != NULL) {
- nni_list_node_remove(&ep->ze_link);
- zt_hash_remove(ztn->zn_ports, ep->ze_laddr & zt_port_mask);
- zt_hash_remove(ztn->zn_eps, ep->ze_laddr);
- }
-
- nni_mtx_unlock(&zt_lk);
-}
-
-static int
-zt_ep_bind_locked(zt_ep *ep)
-{
- int rv;
- uint64_t port;
- uint64_t node;
- zt_node *ztn;
-
- // If we haven't already got a ZT node, get one.
- if ((ztn = ep->ze_ztn) == NULL) {
- if ((rv = zt_node_find(ep)) != 0) {
- return (rv);
- }
- ztn = ep->ze_ztn;
- }
-
- node = ep->ze_laddr >> 24;
- if ((node != 0) && (node != ztn->zn_self)) {
- // User requested node id, but it doesn't match our
- // own.
- return (NNG_EADDRINVAL);
- }
-
- if ((ep->ze_laddr & zt_port_mask) == 0) {
- // ask for an ephemeral port
- if ((rv = zt_hash_alloc(ztn->zn_ports, &port, ep)) != 0) {
- return (rv);
- }
- NNI_ASSERT(port & zt_ephemeral);
- } else {
- void *conflict;
- // make sure port requested is free.
- port = ep->ze_laddr & zt_port_mask;
-
- if (zt_hash_find(ztn->zn_ports, port, &conflict) == 0) {
- return (NNG_EADDRINUSE);
- }
- if ((rv = zt_hash_insert(ztn->zn_ports, port, ep)) != 0) {
- return (rv);
- }
- }
- NNI_ASSERT(port <= zt_max_port);
- NNI_ASSERT(port > 0);
-
- ep->ze_laddr = ztn->zn_self;
- ep->ze_laddr <<= 24;
- ep->ze_laddr |= port;
- ep->ze_running = true;
-
- if ((rv = zt_hash_insert(ztn->zn_eps, ep->ze_laddr, ep)) != 0) {
- zt_hash_remove(ztn->zn_ports, port);
- return (rv);
- }
-
- return (0);
-}
-
-static int
-zt_ep_bind(void *arg, nng_url *url)
-{
- int rv;
- zt_ep *ep = arg;
- NNI_ARG_UNUSED(url);
-
- nni_mtx_lock(&zt_lk);
- rv = zt_ep_bind_locked(ep);
- nni_mtx_unlock(&zt_lk);
-
- return (rv);
-}
-
-static void
-zt_ep_cancel(nni_aio *aio, void *arg, int rv)
-{
- zt_ep *ep = arg;
-
- nni_mtx_lock(&zt_lk);
- if (nni_aio_list_active(aio)) {
- if (ep->ze_aio != NULL) {
- nni_aio_abort(ep->ze_aio, rv);
- }
- nni_aio_list_remove(aio);
- nni_aio_finish_error(aio, rv);
- }
- nni_mtx_unlock(&zt_lk);
-}
-
-static void
-zt_ep_doaccept(zt_ep *ep)
-{
- // Call with ep lock held.
- nni_time now;
- zt_pipe *p;
- int rv;
-
- now = nni_clock();
- // Consume any timedout connect requests.
- while (ep->ze_creq_tail != ep->ze_creq_head) {
- zt_creq creq;
- nni_aio *aio;
-
- creq = ep->ze_creqs[ep->ze_creq_tail % zt_listenq];
- // Discard old connection requests.
- if (creq.cr_expire < now) {
- ep->ze_creq_tail++;
- continue;
- }
-
- if ((aio = nni_list_first(&ep->ze_aios)) == NULL) {
- // No outstanding accept. We're done.
- break;
- }
-
- // We have both conn request, and a place to accept it.
-
- // Advance the tail.
- ep->ze_creq_tail++;
-
- // We remove this AIO. This keeps it from being canceled.
- nni_aio_list_remove(aio);
-
- rv = zt_pipe_alloc(&p, ep, creq.cr_raddr, ep->ze_laddr, true);
- if (rv != 0) {
- zt_send_err(ep->ze_ztn, ep->ze_nwid, creq.cr_raddr,
- ep->ze_laddr, zt_err_unknown,
- "Failed creating pipe");
- nni_aio_finish_error(aio, rv);
- continue;
- }
- p->zp_peer = creq.cr_proto;
- zt_pipe_send_conn_ack(p);
- zt_pipe_start_ping(p);
- nni_aio_set_output(aio, 0, p);
- nni_aio_finish(aio, 0, 0);
- }
-}
-
-static void
-zt_ep_accept(void *arg, nni_aio *aio)
-{
- zt_ep *ep = arg;
- int rv;
-
- if (nni_aio_begin(aio) != 0) {
- return;
- }
- nni_mtx_lock(&zt_lk);
- if ((rv = nni_aio_schedule(aio, zt_ep_cancel, ep)) != 0) {
- nni_mtx_unlock(&zt_lk);
- nni_aio_finish_error(aio, rv);
- return;
- }
- nni_aio_list_append(&ep->ze_aios, aio);
- zt_ep_doaccept(ep);
- nni_mtx_unlock(&zt_lk);
-}
-
-static void
-zt_ep_conn_req_cancel(nni_aio *aio, void *arg, int rv)
-{
- zt_ep *ep = arg;
- // We don't have much to do here. The AIO will have been
- // canceled as a result of the "parent" AIO canceling.
- nni_mtx_lock(&zt_lk);
- if (ep->ze_creq_active) {
- ep->ze_creq_active = false;
- nni_aio_finish_error(aio, rv);
- }
- nni_mtx_unlock(&zt_lk);
-}
-
-static void
-zt_ep_conn_req_cb(void *arg)
-{
- zt_ep *ep = arg;
- zt_pipe *p;
- nni_aio *aio = ep->ze_creq_aio;
- nni_aio *uaio;
- int rv;
-
- nni_mtx_lock(&zt_lk);
-
- ep->ze_creq_active = false;
- switch ((rv = nni_aio_result(aio))) {
- case 0:
- p = nni_aio_get_output(aio, 0);
- // Already canceled, or already handled?
- if ((uaio = nni_list_first(&ep->ze_aios)) != NULL) {
- nni_aio_list_remove(uaio);
- zt_pipe_start_ping(p);
- nni_aio_set_output(uaio, 0, p);
- nni_aio_finish(uaio, 0, 0);
- } else {
- // We have a pipe, but nowhere to stick it.
- // Just discard it.
- zt_pipe_fini(p);
- }
- ep->ze_creq_try = 0;
- break;
-
- case NNG_ETIMEDOUT:
- if ((ep->ze_creq_try > ep->ze_conn_tries) &&
- (ep->ze_conn_tries > 0)) {
- // Final timeout attempt.
- if ((uaio = nni_list_first(&ep->ze_aios)) != NULL) {
- nni_aio_list_remove(uaio);
- nni_aio_finish_error(uaio, rv);
- // reset the counter.
- ep->ze_creq_try = 0;
- }
- }
- break;
-
- default:
- // Failed hard?
- if ((uaio = nni_list_first(&ep->ze_aios)) != NULL) {
- nni_aio_list_remove(uaio);
- nni_aio_finish_error(uaio, rv);
- }
- ep->ze_creq_try = 0;
- break;
- }
-
- if (nni_list_first(&ep->ze_aios) != NULL) {
- nni_aio_set_timeout(aio, ep->ze_conn_time);
- if (nni_aio_begin(aio) == 0) {
- rv = nni_aio_schedule(aio, zt_ep_conn_req_cancel, ep);
- if (rv != 0) {
- nni_aio_finish_error(aio, rv);
- } else {
- ep->ze_creq_active = true;
- ep->ze_creq_try++;
- zt_ep_send_conn_req(ep);
- }
- }
- }
-
- nni_mtx_unlock(&zt_lk);
-}
-
-static void
-zt_ep_connect(void *arg, nni_aio *aio)
-{
- zt_ep *ep = arg;
- int rv;
-
- if (nni_aio_begin(aio) != 0) {
- return;
- }
- // We bind locally. We'll use the address later when we give
- // it to the pipe, but this allows us to receive the initial
- // ack back from the server. (This gives us an ephemeral
- // address to work with.)
- nni_mtx_lock(&zt_lk);
-
- // Clear the port so we get an ephemeral port.
- ep->ze_laddr &= ~((uint64_t) zt_port_mask);
-
- if ((rv = zt_ep_bind_locked(ep)) != 0) {
- nni_aio_finish_error(aio, rv);
- nni_mtx_unlock(&zt_lk);
- return;
- }
-
- if ((ep->ze_raddr >> 24) == 0) {
- ep->ze_raddr |= (ep->ze_ztn->zn_self << zt_port_shift);
- }
- if ((rv = nni_aio_schedule(aio, zt_ep_cancel, ep)) != 0) {
- nni_aio_finish_error(aio, rv);
- nni_mtx_unlock(&zt_lk);
- return;
- }
- nni_aio_list_append(&ep->ze_aios, aio);
- ep->ze_running = true;
-
- nni_aio_set_timeout(ep->ze_creq_aio, ep->ze_conn_time);
- if (nni_aio_begin(ep->ze_creq_aio) == 0) {
- rv = nni_aio_schedule(
- ep->ze_creq_aio, zt_ep_conn_req_cancel, ep);
- if (rv != 0) {
- nni_aio_finish_error(ep->ze_creq_aio, rv);
- } else {
- // Send out the first connect message; if not
- // yet attached to network message will be dropped.
- ep->ze_creq_try = 1;
- ep->ze_creq_active = true;
- zt_ep_send_conn_req(ep);
- }
- }
- nni_mtx_unlock(&zt_lk);
-}
-
-static int
-zt_ep_set_recvmaxsz(void *arg, const void *data, size_t sz, nni_type t)
-{
- zt_ep *ep = arg;
- size_t val;
- int rv;
-
- if ((rv = nni_copyin_size(&val, data, sz, 0, NNI_MAXSZ, t)) == 0) {
- nni_mtx_lock(&zt_lk);
- ep->ze_rcvmax = val;
- nni_mtx_unlock(&zt_lk);
- }
- return (rv);
-}
-
-static int
-zt_ep_get_recvmaxsz(void *arg, void *data, size_t *szp, nni_type t)
-{
- zt_ep *ep = arg;
- int rv;
- nni_mtx_lock(&zt_lk);
- rv = nni_copyout_size(ep->ze_rcvmax, data, szp, t);
- nni_mtx_unlock(&zt_lk);
- return (rv);
-}
-
-static int
-zt_ep_set_home(void *arg, const void *data, size_t sz, nni_type t)
-{
- int rv;
- zt_ep *ep = arg;
-
- if ((rv = zt_check_string(data, sz, t)) == 0) {
- nni_mtx_lock(&zt_lk);
- if (ep->ze_running) {
- rv = NNG_ESTATE;
- } else {
- nni_strlcpy(ep->ze_home, data, sizeof(ep->ze_home));
- if ((rv = zt_node_find(ep)) != 0) {
- ep->ze_ztn = NULL;
- }
- }
- nni_mtx_unlock(&zt_lk);
- }
-
- return (rv);
-}
-
-static int
-zt_ep_get_home(void *arg, void *data, size_t *szp, nni_type t)
-{
- zt_ep *ep = arg;
- int rv;
-
- nni_mtx_lock(&zt_lk);
- rv = nni_copyout_str(ep->ze_home, data, szp, t);
- nni_mtx_unlock(&zt_lk);
- return (rv);
-}
-
-static int
-zt_ep_get_url(void *arg, void *data, size_t *szp, nni_type t)
-{
- char ustr[64]; // more than plenty
- zt_ep *ep = arg;
- uint64_t addr;
-
- nni_mtx_lock(&zt_lk);
- addr = ep->ze_nlistener != NULL ? ep->ze_laddr : ep->ze_raddr;
- snprintf(ustr, sizeof(ustr), "zt://%llx.%llx:%u",
- (unsigned long long) addr >> zt_port_shift,
- (unsigned long long) ep->ze_nwid,
- (unsigned) (addr & zt_port_mask));
- nni_mtx_unlock(&zt_lk);
- return (nni_copyout_str(ustr, data, szp, t));
-}
-
-static int
-zt_ep_set_orbit(void *arg, const void *data, size_t sz, nni_type t)
-{
- uint64_t moonid;
- uint64_t peerid;
- zt_ep *ep = arg;
- int rv;
- enum ZT_ResultCode zrv;
-
- if (t != NNI_TYPE_UINT64) {
- return (NNG_EBADTYPE);
- }
- memcpy(&moonid, data, sizeof(moonid));
- peerid = 0;
-
- nni_mtx_lock(&zt_lk);
- if ((ep->ze_ztn == NULL) && ((rv = zt_node_find(ep)) != 0)) {
- nni_mtx_unlock(&zt_lk);
- return (rv);
- }
- zrv = ZT_Node_orbit(ep->ze_ztn->zn_znode, NULL, moonid, peerid);
- nni_mtx_unlock(&zt_lk);
-
- return (zt_result(zrv));
-}
-
-static int
-zt_ep_set_deorbit(void *arg, const void *data, size_t sz, nni_type t)
-{
- uint64_t moonid;
- zt_ep *ep = arg;
- int rv;
-
- if ((rv = nni_copyin_u64(&moonid, data, sz, t)) == 0) {
- enum ZT_ResultCode zrv;
-
- nni_mtx_lock(&zt_lk);
- if ((ep->ze_ztn == NULL) && ((rv = zt_node_find(ep)) != 0)) {
- nni_mtx_unlock(&zt_lk);
- return (rv);
- }
- zrv = ZT_Node_deorbit(ep->ze_ztn->zn_znode, NULL, moonid);
- nni_mtx_unlock(&zt_lk);
- rv = zt_result(zrv);
- }
- return (rv);
-}
-
-static int
-zt_ep_set_add_local_addr(void *arg, const void *data, size_t sz, nni_type t)
-{
- nng_sockaddr sa;
- zt_ep *ep = arg;
- int rv;
- NNI_ARG_UNUSED(sz);
-
- if ((rv = nni_copyin_sockaddr(&sa, data, t)) == 0) {
- enum ZT_ResultCode zrv;
- zt_node *ztn;
- struct sockaddr_storage ss;
- struct sockaddr_in *sin;
- struct sockaddr_in6 *sin6;
-
- memset(&ss, 0, sizeof(ss));
- switch (sa.s_family) {
- case NNG_AF_INET:
- sin = (void *) &ss;
- sin->sin_family = AF_INET;
- sin->sin_addr.s_addr = sa.s_in.sa_addr;
- sin->sin_port = 0;
- break;
- case NNG_AF_INET6:
- sin6 = (void *) &ss;
- sin6->sin6_family = AF_INET6;
- sin6->sin6_port = 0;
- memcpy(&sin6->sin6_addr, sa.s_in6.sa_addr, 16);
- break;
- default:
- return (NNG_EINVAL);
- }
-
- nni_mtx_lock(&zt_lk);
- if ((ep->ze_ztn == NULL) && ((rv = zt_node_find(ep)) != 0)) {
- nni_mtx_unlock(&zt_lk);
- return (rv);
- }
- ztn = ep->ze_ztn;
- zrv = ZT_Node_addLocalInterfaceAddress(ztn->zn_znode, &ss);
- nni_mtx_unlock(&zt_lk);
- rv = zt_result(zrv);
- }
- return (rv);
-}
-
-static int
-zt_ep_set_clear_local_addrs(void *arg, const void *data, size_t sz, nni_type t)
-{
- zt_ep *ep = arg;
- int rv;
- NNI_ARG_UNUSED(data);
- NNI_ARG_UNUSED(sz);
- NNI_ARG_UNUSED(t);
-
- ZT_Node *zn;
- nni_mtx_lock(&zt_lk);
- if ((ep->ze_ztn == NULL) && ((rv = zt_node_find(ep)) != 0)) {
- nni_mtx_unlock(&zt_lk);
- return (rv);
- }
- zn = ep->ze_ztn->zn_znode;
- ZT_Node_clearLocalInterfaceAddresses(zn);
- nni_mtx_unlock(&zt_lk);
- return (0);
-}
-
-static int
-zt_ep_get_node(void *arg, void *data, size_t *szp, nni_type t)
-{
- zt_ep *ep = arg;
- int rv;
-
- nni_mtx_lock(&zt_lk);
- if ((ep->ze_ztn == NULL) && ((rv = zt_node_find(ep)) != 0)) {
- nni_mtx_unlock(&zt_lk);
- return (rv);
- }
-
- rv = nni_copyout_u64(ep->ze_ztn->zn_self, data, szp, t);
-
- nni_mtx_unlock(&zt_lk);
- return (rv);
-}
-
-static int
-zt_ep_get_nwid(void *arg, void *data, size_t *szp, nni_type t)
-{
- zt_ep *ep = arg;
- int rv;
-
- nni_mtx_lock(&zt_lk);
- if ((ep->ze_ztn == NULL) && ((rv = zt_node_find(ep)) != 0)) {
- nni_mtx_unlock(&zt_lk);
- return (rv);
- }
- rv = nni_copyout_u64(ep->ze_nwid, data, szp, t);
- nni_mtx_unlock(&zt_lk);
- return (rv);
-}
-
-static int
-zt_ep_get_nw_name(void *arg, void *buf, size_t *szp, nni_type t)
-{
- zt_ep *ep = arg;
- int rv;
-
- nni_mtx_lock(&zt_lk);
- if ((ep->ze_ztn == NULL) && ((rv = zt_node_find(ep)) != 0)) {
- nni_mtx_unlock(&zt_lk);
- return (rv);
- }
- rv = zt_get_nw_name(ep->ze_ztn, ep->ze_nwid, buf, szp, t);
- nni_mtx_unlock(&zt_lk);
- return (rv);
-}
-
-static int
-zt_ep_get_nw_status(void *arg, void *buf, size_t *szp, nni_type t)
-{
- zt_ep *ep = arg;
- int rv;
- int status;
-
- nni_mtx_lock(&zt_lk);
- if ((ep->ze_ztn == NULL) && ((rv = zt_node_find(ep)) != 0)) {
- nni_mtx_unlock(&zt_lk);
- return (rv);
- }
- if ((rv = zt_get_nw_status(ep->ze_ztn, ep->ze_nwid, &status)) != 0) {
- nni_mtx_unlock(&zt_lk);
- return (rv);
- }
- nni_mtx_unlock(&zt_lk);
- return (nni_copyout_int(status, buf, szp, t));
-}
-
-static int
-zt_ep_set_ping_time(void *arg, const void *data, size_t sz, nni_type t)
-{
- zt_ep *ep = arg;
- nng_duration val;
- int rv;
-
- if ((rv = nni_copyin_ms(&val, data, sz, t)) == 0) {
- nni_mtx_lock(&zt_lk);
- ep->ze_ping_time = val;
- nni_mtx_unlock(&zt_lk);
- }
- return (rv);
-}
-
-static int
-zt_ep_get_ping_time(void *arg, void *data, size_t *szp, nni_type t)
-{
- zt_ep *ep = arg;
- int rv;
-
- nni_mtx_lock(&zt_lk);
- rv = nni_copyout_ms(ep->ze_ping_time, data, szp, t);
- nni_mtx_unlock(&zt_lk);
- return (rv);
-}
-
-static int
-zt_ep_set_ping_tries(void *arg, const void *data, size_t sz, nni_type t)
-{
- zt_ep *ep = arg;
- int val;
- int rv;
-
- if ((rv = nni_copyin_int(&val, data, sz, 0, 1000000, t)) == 0) {
- nni_mtx_lock(&zt_lk);
- ep->ze_ping_tries = val;
- nni_mtx_unlock(&zt_lk);
- }
- return (rv);
-}
-
-static int
-zt_ep_get_ping_tries(void *arg, void *data, size_t *szp, nni_type t)
-{
- zt_ep *ep = arg;
- int rv;
-
- nni_mtx_lock(&zt_lk);
- rv = nni_copyout_int(ep->ze_ping_tries, data, szp, t);
- nni_mtx_unlock(&zt_lk);
- return (rv);
-}
-
-static int
-zt_ep_set_conn_time(void *arg, const void *data, size_t sz, nni_type t)
-{
- zt_ep *ep = arg;
- nng_duration val;
- int rv;
-
- if ((rv = nni_copyin_ms(&val, data, sz, t)) == 0) {
- nni_mtx_lock(&zt_lk);
- ep->ze_conn_time = val;
- nni_mtx_unlock(&zt_lk);
- }
- return (rv);
-}
-
-static int
-zt_ep_get_conn_time(void *arg, void *data, size_t *szp, nni_type t)
-{
- zt_ep *ep = arg;
- int rv;
-
- nni_mtx_lock(&zt_lk);
- rv = nni_copyout_ms(ep->ze_conn_time, data, szp, t);
- nni_mtx_unlock(&zt_lk);
- return (rv);
-}
-
-static int
-zt_ep_set_conn_tries(void *arg, const void *data, size_t sz, nni_type t)
-{
- zt_ep *ep = arg;
- int val;
- int rv;
-
- if ((rv = nni_copyin_int(&val, data, sz, 0, 1000000, t)) == 0) {
- nni_mtx_lock(&zt_lk);
- ep->ze_conn_tries = val;
- nni_mtx_unlock(&zt_lk);
- }
- return (rv);
-}
-
-static int
-zt_ep_get_conn_tries(void *arg, void *data, size_t *szp, nni_type t)
-{
- zt_ep *ep = arg;
- int rv;
-
- nni_mtx_lock(&zt_lk);
- rv = nni_copyout_int(ep->ze_conn_tries, data, szp, t);
- nni_mtx_unlock(&zt_lk);
- return (rv);
-}
-
-static int
-zt_ep_get_locaddr(void *arg, void *data, size_t *szp, nni_type t)
-{
- zt_ep *ep = arg;
- nng_sockaddr sa;
-
- memset(&sa, 0, sizeof(sa));
- sa.s_zt.sa_family = NNG_AF_ZT;
- nni_mtx_lock(&zt_lk);
- sa.s_zt.sa_nwid = ep->ze_nwid;
- sa.s_zt.sa_nodeid = ep->ze_laddr >> zt_port_shift;
- sa.s_zt.sa_port = ep->ze_laddr & zt_port_mask;
- nni_mtx_unlock(&zt_lk);
- return (nni_copyout_sockaddr(&sa, data, szp, t));
-}
-
-static int
-zt_pipe_get_locaddr(void *arg, void *data, size_t *szp, nni_type t)
-{
- zt_pipe *p = arg;
- nng_sockaddr sa;
-
- memset(&sa, 0, sizeof(sa));
- sa.s_zt.sa_family = NNG_AF_ZT;
- sa.s_zt.sa_nwid = p->zp_nwid;
- sa.s_zt.sa_nodeid = p->zp_laddr >> zt_port_shift;
- sa.s_zt.sa_port = p->zp_laddr & zt_port_mask;
- return (nni_copyout_sockaddr(&sa, data, szp, t));
-}
-
-static int
-zt_pipe_get_remaddr(void *arg, void *data, size_t *szp, nni_type t)
-{
- zt_pipe *p = arg;
- nng_sockaddr sa;
-
- memset(&sa, 0, sizeof(sa));
- sa.s_zt.sa_family = NNG_AF_ZT;
- sa.s_zt.sa_nwid = p->zp_nwid;
- sa.s_zt.sa_nodeid = p->zp_raddr >> zt_port_shift;
- sa.s_zt.sa_port = p->zp_raddr & zt_port_mask;
- return (nni_copyout_sockaddr(&sa, data, szp, t));
-}
-
-static int
-zt_pipe_get_mtu(void *arg, void *data, size_t *szp, nni_type t)
-{
- zt_pipe *p = arg;
- return (nni_copyout_size(p->zp_mtu, data, szp, t));
-}
-
-static const nni_option zt_pipe_options[] = {
- {
- .o_name = NNG_OPT_LOCADDR,
- .o_get = zt_pipe_get_locaddr,
- },
- {
- .o_name = NNG_OPT_REMADDR,
- .o_get = zt_pipe_get_remaddr,
- },
- {
- .o_name = NNG_OPT_ZT_MTU,
- .o_get = zt_pipe_get_mtu,
- },
- {
- .o_name = NNG_OPT_ZT_NWID,
- .o_get = zt_pipe_get_nwid,
- },
- {
- .o_name = NNG_OPT_ZT_NODE,
- .o_get = zt_pipe_get_node,
- },
- {
- .o_name = NNG_OPT_RECVMAXSZ,
- .o_get = zt_pipe_get_recvmaxsz,
- },
- // terminate list
- {
- .o_name = NULL,
- },
-};
-
-static int
-zt_pipe_getopt(void *arg, const char *name, void *buf, size_t *szp, nni_type t)
-{
- zt_pipe *p = arg;
- return (nni_getopt(zt_pipe_options, name, p, buf, szp, t));
-}
-
-static nni_sp_pipe_ops zt_pipe_ops = {
- .p_init = zt_pipe_init,
- .p_fini = zt_pipe_fini,
- .p_send = zt_pipe_send,
- .p_recv = zt_pipe_recv,
- .p_close = zt_pipe_close,
- .p_peer = zt_pipe_peer,
- .p_getopt = zt_pipe_getopt,
-};
-
-static nni_option zt_dialer_options[] = {
- {
- .o_name = NNG_OPT_RECVMAXSZ,
- .o_get = zt_ep_get_recvmaxsz,
- .o_set = zt_ep_set_recvmaxsz,
- },
- {
- .o_name = NNG_OPT_URL,
- .o_get = zt_ep_get_url,
- },
- {
- .o_name = NNG_OPT_ZT_HOME,
- .o_get = zt_ep_get_home,
- .o_set = zt_ep_set_home,
- },
- {
- .o_name = NNG_OPT_ZT_NODE,
- .o_get = zt_ep_get_node,
- },
- {
- .o_name = NNG_OPT_ZT_NWID,
- .o_get = zt_ep_get_nwid,
- },
- {
- .o_name = NNG_OPT_ZT_NETWORK_STATUS,
- .o_get = zt_ep_get_nw_status,
- },
- {
- .o_name = NNG_OPT_ZT_NETWORK_NAME,
- .o_get = zt_ep_get_nw_name,
- },
- {
- .o_name = NNG_OPT_ZT_PING_TIME,
- .o_get = zt_ep_get_ping_time,
- .o_set = zt_ep_set_ping_time,
- },
- {
- .o_name = NNG_OPT_ZT_PING_TRIES,
- .o_get = zt_ep_get_ping_tries,
- .o_set = zt_ep_set_ping_tries,
- },
- {
- .o_name = NNG_OPT_ZT_CONN_TIME,
- .o_get = zt_ep_get_conn_time,
- .o_set = zt_ep_set_conn_time,
- },
- {
- .o_name = NNG_OPT_ZT_CONN_TRIES,
- .o_get = zt_ep_get_conn_tries,
- .o_set = zt_ep_set_conn_tries,
- },
- {
- .o_name = NNG_OPT_ZT_ORBIT,
- .o_set = zt_ep_set_orbit,
- },
- {
- .o_name = NNG_OPT_ZT_DEORBIT,
- .o_set = zt_ep_set_deorbit,
- },
- {
- .o_name = NNG_OPT_ZT_ADD_LOCAL_ADDR,
- .o_set = zt_ep_set_add_local_addr,
- },
- {
- .o_name = NNG_OPT_ZT_CLEAR_LOCAL_ADDRS,
- .o_set = zt_ep_set_clear_local_addrs,
- },
-
- // terminate list
- {
- .o_name = NULL,
- },
-};
-
-static nni_option zt_listener_options[] = {
- {
- .o_name = NNG_OPT_RECVMAXSZ,
- .o_get = zt_ep_get_recvmaxsz,
- .o_set = zt_ep_set_recvmaxsz,
- },
- {
- .o_name = NNG_OPT_URL,
- .o_get = zt_ep_get_url,
- },
- {
- .o_name = NNG_OPT_ZT_HOME,
- .o_get = zt_ep_get_home,
- .o_set = zt_ep_set_home,
- },
- {
- .o_name = NNG_OPT_ZT_NODE,
- .o_get = zt_ep_get_node,
- },
- {
- .o_name = NNG_OPT_ZT_NWID,
- .o_get = zt_ep_get_nwid,
- },
- {
- .o_name = NNG_OPT_ZT_NETWORK_STATUS,
- .o_get = zt_ep_get_nw_status,
- },
- {
- .o_name = NNG_OPT_ZT_NETWORK_NAME,
- .o_get = zt_ep_get_nw_name,
- },
- {
- .o_name = NNG_OPT_ZT_PING_TIME,
- .o_get = zt_ep_get_ping_time,
- .o_set = zt_ep_set_ping_time,
- },
- {
- .o_name = NNG_OPT_ZT_PING_TRIES,
- .o_get = zt_ep_get_ping_tries,
- .o_set = zt_ep_set_ping_tries,
- },
- {
- .o_name = NNG_OPT_ZT_ORBIT,
- .o_set = zt_ep_set_orbit,
- },
- {
- .o_name = NNG_OPT_ZT_DEORBIT,
- .o_set = zt_ep_set_deorbit,
- },
- {
- .o_name = NNG_OPT_LOCADDR,
- .o_get = zt_ep_get_locaddr,
- },
- // terminate list
- {
- .o_name = NULL,
- },
-};
-
-static nni_sp_dialer_ops zt_dialer_ops = {
- .d_init = zt_dialer_init,
- .d_fini = zt_ep_fini,
- .d_connect = zt_ep_connect,
- .d_close = zt_ep_close,
- .d_stop = zt_ep_fini,
- .d_options = zt_dialer_options,
-};
-
-static nni_sp_listener_ops zt_listener_ops = {
- .l_init = zt_listener_init,
- .l_fini = zt_ep_fini,
- .l_bind = zt_ep_bind,
- .l_accept = zt_ep_accept,
- .l_close = zt_ep_close,
- .l_stop = zt_ep_stop,
- .l_options = zt_listener_options,
-};
-
-// This is the ZeroTier transport linkage, and should be the
-// only global symbol in this entire file.
-static struct nni_sp_tran zt_tran = {
- .tran_scheme = "zt",
- .tran_dialer = &zt_dialer_ops,
- .tran_listener = &zt_listener_ops,
- .tran_pipe = &zt_pipe_ops,
- .tran_init = zt_tran_init,
- .tran_fini = zt_tran_fini,
-};
-
-void
-nni_sp_zt_register(void)
-{
- nni_sp_tran_register(&zt_tran);
-}
diff --git a/src/sp/transport/zerotier/zthash.c b/src/sp/transport/zerotier/zthash.c
deleted file mode 100644
index ca46b373..00000000
--- a/src/sp/transport/zerotier/zthash.c
+++ /dev/null
@@ -1,302 +0,0 @@
-//
-// Copyright 2020 Staysail Systems, Inc. <info@staysail.tech>
-// Copyright 2018 Capitar IT Group BV <info@capitar.com>
-//
-// This software is supplied under the terms of the MIT License, a
-// copy of which should be located in the distribution where this
-// file was obtained (LICENSE.txt). A copy of the license may also be
-// found online at https://opensource.org/licenses/MIT.
-//
-
-#include "core/nng_impl.h"
-#include "zthash.h"
-
-struct zt_hash_entry {
- uint64_t key;
- void * val;
- uint32_t skips;
-};
-
-int
-zt_hash_init(zt_hash **hp)
-{
- zt_hash *h;
-
- if ((h = NNI_ALLOC_STRUCT(h)) == NULL) {
- return (NNG_ENOMEM);
- }
- h->ih_entries = NULL;
- h->ih_count = 0;
- h->ih_load = 0;
- h->ih_cap = 0;
- h->ih_maxload = 0;
- h->ih_minload = 0; // never shrink below this
- h->ih_minval = 0;
- h->ih_maxval = 0xffffffff;
- h->ih_dynval = 0;
-
- *hp = h;
- return (0);
-}
-
-void
-zt_hash_fini(zt_hash *h)
-{
- if (h != NULL) {
- if (h->ih_entries != NULL) {
- NNI_FREE_STRUCTS(h->ih_entries, h->ih_cap);
- h->ih_entries = NULL;
- h->ih_cap = h->ih_count = 0;
- h->ih_load = h->ih_minload = h->ih_maxload = 0;
- }
-
- NNI_FREE_STRUCT(h);
- }
-}
-
-void
-zt_hash_limits(zt_hash *h, uint64_t minval, uint64_t maxval, uint64_t start)
-{
- if (start < minval) {
- start = minval;
- }
- if (start > maxval) {
- start = maxval;
- }
-
- h->ih_minval = minval;
- h->ih_maxval = maxval;
- h->ih_dynval = start;
- NNI_ASSERT(minval < maxval);
- NNI_ASSERT(start >= minval);
- NNI_ASSERT(start <= maxval);
-}
-
-// Inspired by Python dict implementation. This probe will visit every
-// cell. We always hash consecutively assigned IDs.
-#define ZT_HASH_NEXT(h, j) ((((j) *5) + 1) & (h->ih_cap - 1))
-#define ZT_HASH_INDEX(h, j) ((j) & (h->ih_cap - 1))
-
-static size_t
-zt_hash_find_index(zt_hash *h, uint64_t id)
-{
- size_t index;
- size_t start;
- if (h->ih_count == 0) {
- return ((size_t) -1);
- }
-
- index = ZT_HASH_INDEX(h, id);
- start = index;
- for (;;) {
- // The value of ihe_key is only valid if ihe_val is not NULL.
- if ((h->ih_entries[index].key == id) &&
- (h->ih_entries[index].val != NULL)) {
- return (index);
- }
- if (h->ih_entries[index].skips == 0) {
- return ((size_t) -1);
- }
- index = ZT_HASH_NEXT(h, index);
-
- if (index == start) {
- break;
- }
- }
-
- return ((size_t) -1);
-}
-
-int
-zt_hash_find(zt_hash *h, uint64_t id, void **vp)
-{
- size_t index;
- if ((index = zt_hash_find_index(h, id)) == (size_t) -1) {
- return (NNG_ENOENT);
- }
- *vp = h->ih_entries[index].val;
- return (0);
-}
-
-static int
-zt_hash_resize(zt_hash *h)
-{
- size_t newsize;
- size_t oldsize;
- zt_hash_entry *newents;
- zt_hash_entry *oldents;
- uint32_t i;
-
- if ((h->ih_load < h->ih_maxload) && (h->ih_load >= h->ih_minload)) {
- // No resize needed.
- return (0);
- }
-
- oldsize = h->ih_cap;
-
- newsize = 8;
- while (newsize < (h->ih_count * 2)) {
- newsize *= 2;
- }
- if (newsize == oldsize) {
- // Same size.
- return (0);
- }
-
- oldents = h->ih_entries;
- newents = NNI_ALLOC_STRUCTS(newents, newsize);
- if (newents == NULL) {
- return (NNG_ENOMEM);
- }
-
- h->ih_entries = newents;
- h->ih_cap = newsize;
- h->ih_load = 0;
- if (newsize > 8) {
- h->ih_minload = newsize / 8;
- h->ih_maxload = newsize * 2 / 3;
- } else {
- h->ih_minload = 0;
- h->ih_maxload = 5;
- }
- for (i = 0; i < oldsize; i++) {
- size_t index;
- if (oldents[i].val == NULL) {
- continue;
- }
- index = oldents[i].key & (newsize - 1);
- for (;;) {
- // Increment the load unconditionally. It counts
- // once for every item stored, plus once for each
- // hashing operation we use to store the item (i.e.
- // one for the item, plus once for each rehash.)
- h->ih_load++;
- if (newents[index].val == NULL) {
- // As we are hitting this entry for the first
- // time, it won't have any skips.
- NNI_ASSERT(newents[index].skips == 0);
- newents[index].val = oldents[i].val;
- newents[index].key = oldents[i].key;
- break;
- }
- newents[index].skips++;
- index = ZT_HASH_NEXT(h, index);
- }
- }
- if (oldsize != 0) {
- NNI_FREE_STRUCTS(oldents, oldsize);
- }
- return (0);
-}
-
-int
-zt_hash_remove(zt_hash *h, uint64_t id)
-{
- size_t index;
- size_t probe;
-
- if ((index = zt_hash_find_index(h, id)) == (size_t) -1) {
- return (NNG_ENOENT);
- }
-
- // Now we have found the index where the object exists. We are going
- // to restart the search, until the index matches, to decrement the
- // skips counter.
- probe = (int) ZT_HASH_INDEX(h, id);
-
- for (;;) {
- zt_hash_entry *entry;
- // The load was increased once each hashing operation we used
- // to place the the item. Decrement it accordingly.
- h->ih_load--;
- entry = &h->ih_entries[probe];
- if (probe == index) {
- entry->val = NULL;
- entry->key = 0;
- break;
- }
- NNI_ASSERT(entry->skips > 0);
- entry->skips--;
- probe = ZT_HASH_NEXT(h, probe);
- }
-
- h->ih_count--;
-
- // Shrink -- but it's ok if we can't.
- (void) zt_hash_resize(h);
-
- return (0);
-}
-
-int
-zt_hash_insert(zt_hash *h, uint64_t id, void *val)
-{
- size_t index;
- zt_hash_entry *ent;
-
- // Try to resize -- if we don't need to, this will be a no-op.
- if (zt_hash_resize(h) != 0) {
- return (NNG_ENOMEM);
- }
-
- // If it already exists, just overwrite the old value.
- if ((index = zt_hash_find_index(h, id)) != (size_t) -1) {
- ent = &h->ih_entries[index];
- ent->val = val;
- return (0);
- }
-
- index = ZT_HASH_INDEX(h, id);
- for (;;) {
- ent = &h->ih_entries[index];
-
- // Increment the load count. We do this each time time we
- // rehash. This may over-count items that collide on the
- // same rehashing, but this should just cause a table to
- // grow sooner, which is probably a good thing.
- h->ih_load++;
- if (ent->val == NULL) {
- h->ih_count++;
- ent->key = id;
- ent->val = val;
- return (0);
- }
- // Record the skip count. This being non-zero informs
- // that a rehash will be necessary. Without this we
- // would need to scan the entire hash for the match.
- ent->skips++;
- index = ZT_HASH_NEXT(h, index);
- }
-}
-
-int
-zt_hash_alloc(zt_hash *h, uint64_t *idp, void *val)
-{
- uint64_t id;
- int rv;
-
- NNI_ASSERT(val != NULL);
-
- if (h->ih_count > (h->ih_maxval - h->ih_minval)) {
- // Really more like ENOSPC.. the table is filled to max.
- return (NNG_ENOMEM);
- }
-
- for (;;) {
- id = h->ih_dynval;
- h->ih_dynval++;
- if (h->ih_dynval > h->ih_maxval) {
- h->ih_dynval = h->ih_minval;
- }
-
- if (zt_hash_find_index(h, id) == (size_t) -1) {
- break;
- }
- }
-
- rv = zt_hash_insert(h, id, val);
- if (rv == 0) {
- *idp = id;
- }
- return (rv);
-}
diff --git a/src/sp/transport/zerotier/zthash.h b/src/sp/transport/zerotier/zthash.h
deleted file mode 100644
index 249eabbf..00000000
--- a/src/sp/transport/zerotier/zthash.h
+++ /dev/null
@@ -1,43 +0,0 @@
-//
-// Copyright 2020 Staysail Systems, Inc. <info@staysail.tech>
-// Copyright 2018 Capitar IT Group BV <info@capitar.com>
-//
-// This software is supplied under the terms of the MIT License, a
-// copy of which should be located in the distribution where this
-// file was obtained (LICENSE.txt). A copy of the license may also be
-// found online at https://opensource.org/licenses/MIT.
-//
-
-#ifndef ZT_HASH_H
-#define ZT_HASH_H
-
-#include <stdint.h>
-
-// This code is derived from id hash, but supports 64-bit IDs.
-
-typedef struct zt_hash zt_hash;
-typedef struct zt_hash_entry zt_hash_entry;
-
-// NB: These details are entirely private to the hash implementation.
-// They are provided here to facilitate inlining in structures.
-struct zt_hash {
- size_t ih_cap;
- size_t ih_count;
- size_t ih_load;
- size_t ih_minload; // considers placeholders
- size_t ih_maxload;
- uint64_t ih_minval;
- uint64_t ih_maxval;
- uint64_t ih_dynval;
- zt_hash_entry *ih_entries;
-};
-
-extern int zt_hash_init(zt_hash **);
-extern void zt_hash_fini(zt_hash *);
-extern void zt_hash_limits(zt_hash *, uint64_t, uint64_t, uint64_t);
-extern int zt_hash_find(zt_hash *, uint64_t, void **);
-extern int zt_hash_remove(zt_hash *, uint64_t);
-extern int zt_hash_insert(zt_hash *, uint64_t, void *);
-extern int zt_hash_alloc(zt_hash *, uint64_t *, void *);
-
-#endif // CORE_IDHASH_H
diff --git a/src/tools/nngcat/nngcat.c b/src/tools/nngcat/nngcat.c
index 1a1ed667..6f0d7d97 100644
--- a/src/tools/nngcat/nngcat.c
+++ b/src/tools/nngcat/nngcat.c
@@ -31,7 +31,6 @@
#include <nng/protocol/survey0/survey.h>
#include <nng/supplemental/tls/tls.h>
#include <nng/supplemental/util/options.h>
-#include <nng/transport/zerotier/zerotier.h>
// Globals. We need this to avoid passing around everything.
int format = 0;
@@ -52,7 +51,6 @@ void *keyfile = NULL;
size_t keylen = 0;
void *certfile = NULL;
size_t certlen = 0;
-const char *zthome = NULL;
int count = 0;
int recvmaxsz = -1;
@@ -103,7 +101,6 @@ enum options {
OPT_CERTFILE,
OPT_VERSION,
OPT_RECVMAXSZ,
- OPT_ZTHOME,
};
static nng_optspec opts[] = {
@@ -201,11 +198,6 @@ static nng_optspec opts[] = {
.o_val = OPT_CERTFILE,
.o_arg = true,
},
- {
- .o_name = "zt-home",
- .o_val = OPT_ZTHOME,
- .o_arg = true,
- },
{ .o_name = "version", .o_short = 'V', .o_val = OPT_VERSION },
// Sentinel.
@@ -270,7 +262,6 @@ help(void)
printf(" --cacert <file>\n");
printf(" --cert <file> (or alias -E <file>)\n");
printf(" --key <file>\n");
- printf(" --zt-home <path>\n");
printf("\n<src> may be one of:\n");
printf(" --file <file> (or alias -F <file>). "
"Use - for standard input.\n");
@@ -872,9 +863,6 @@ main(int ac, char **av)
}
loadfile(arg, &certfile, &certlen);
break;
- case OPT_ZTHOME:
- zthome = arg;
- break;
case OPT_INSECURE:
insecure = 1;
break;
@@ -1113,14 +1101,6 @@ main(int ac, char **av)
fatal("Unable to get TLS config: %s",
nng_strerror(rv));
}
- if (zthome != NULL) {
- rv = nng_dialer_set_string(
- d, NNG_OPT_ZT_HOME, zthome);
- if ((rv != 0) && (rv != NNG_ENOTSUP)) {
- fatal("Unable to set ZT home: %s",
- nng_strerror(rv));
- }
- }
rv = nng_dialer_start(d, async);
act = "dial";
if ((rv == 0) && (verbose == OPT_VERBOSE)) {
@@ -1147,14 +1127,6 @@ main(int ac, char **av)
fatal("Unable to get TLS config: %s",
nng_strerror(rv));
}
- if (zthome != NULL) {
- rv = nng_listener_set_string(
- l, NNG_OPT_ZT_HOME, zthome);
- if ((rv != 0) && (rv != NNG_ENOTSUP)) {
- fatal("Unable to set ZT home: %s",
- nng_strerror(rv));
- }
- }
rv = nng_listener_start(l, async);
act = "listen";
if ((rv == 0) && (verbose == OPT_VERBOSE)) {
generated by cgit v1.2.3-70-g09d2 (git 2.46.0) at 2026-01-18 18:51:30 +0000