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Update C++, Objective-C and Swift examples

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This commit is contained in:
Joseph Henry
2020-05-28 18:32:39 -07:00
parent be9af71238
commit f0d6330735
8 changed files with 698 additions and 394 deletions
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458
examples/cpp/comprehensive.cpp
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@@ -12,7 +12,7 @@
* the location given in the first argument to zts_start(path, ...). If you accidentally
* duplicate the identity files and use them simultaneously in a different node instance
* you will experience undefined behavior and it is likely nothing will work.
*
*
* - You must authorize the node ID provided by the ZTS_EVENT_NODE_ONLINE callback to join
* your network, otherwise nothing will happen. This can be done manually or via
* our web API: https://my.zerotier.com/help/api
@@ -51,12 +51,12 @@
* Category 1: Control functions (zts_start, zts_join, zts_get_peer_status, etc). Errors
* returned by these functions can be any of the following:
*
* ZTS_ERR_OK 0 // No error
* ZTS_ERR_SOCKET -1 // Socket error, see zts_errno
* ZTS_ERR_SERVICE -2 // You probably did something at the wrong time
* ZTS_ERR_ARG -3 // Invalid argument
* ZTS_ERR_NO_RESULT -4 // No result (not necessarily an error)
* ZTS_ERR_GENERAL -5 // Consider filing a bug report
* ZTS_ERR_OK // No error
* ZTS_ERR_SOCKET // Socket error, see zts_errno
* ZTS_ERR_SERVICE // You probably did something at the wrong time
* ZTS_ERR_ARG // Invalid argument
* ZTS_ERR_NO_RESULT // No result (not necessarily an error)
* ZTS_ERR_GENERAL // Consider filing a bug report
*
* Category 2: Sockets (zts_socket, zts_bind, zts_connect, zts_listen, etc).
* Errors returned by these functions can be the same as the above. With
@@ -74,7 +74,7 @@
* are a few guidelines:
*
* If you are calling a zts_* function, use the appropriate ZTS_* constants:
*
*
* zts_socket(ZTS_AF_INET6, ZTS_SOCK_DGRAM, 0); (CORRECT)
* zts_socket(AF_INET6, SOCK_DGRAM, 0); (INCORRECT)
*
@@ -88,126 +88,45 @@
#include <stdio.h>
#include <stdlib.h>
#include <string>
#include "ZeroTierSockets.h"
bool nodeReady = false;
bool networkReady = false;
#include "winsock.h"
// Example callbacks
void myZeroTierEventCallback(void *msgPtr)
struct Node
{
struct zts_callback_msg *msg = (struct zts_callback_msg *)msgPtr;
Node() : online(false), joinedAtLeastOneNetwork(false), id(0) {}
bool online;
bool joinedAtLeastOneNetwork;
uint64_t id;
// etc
} myNode;
// Node events
if (msg->eventCode == ZTS_EVENT_NODE_ONLINE) {
printf("ZTS_EVENT_NODE_ONLINE --- This node's ID is %llx\n", msg->node->address);
nodeReady = true;
}
if (msg->eventCode == ZTS_EVENT_NODE_OFFLINE) {
printf("ZTS_EVENT_NODE_OFFLINE --- Check your physical Internet connection, router, firewall, etc. What ports are you blocking?\n");
nodeReady = false;
}
if (msg->eventCode == ZTS_EVENT_NODE_NORMAL_TERMINATION) {
printf("ZTS_EVENT_NODE_NORMAL_TERMINATION\n");
}
// Virtual network events
if (msg->eventCode == ZTS_EVENT_NETWORK_NOT_FOUND) {
printf("ZTS_EVENT_NETWORK_NOT_FOUND --- Are you sure %llx is a valid network?\n",
msg->network->nwid);
}
if (msg->eventCode == ZTS_EVENT_NETWORK_REQ_CONFIG) {
printf("ZTS_EVENT_NETWORK_REQ_CONFIG --- Requesting config for network %llx, please wait a few seconds...\n", msg->network->nwid);
}
if (msg->eventCode == ZTS_EVENT_NETWORK_ACCESS_DENIED) {
printf("ZTS_EVENT_NETWORK_ACCESS_DENIED --- Access to virtual network %llx has been denied. Did you authorize the node yet?\n",
msg->network->nwid);
}
if (msg->eventCode == ZTS_EVENT_NETWORK_READY_IP4) {
printf("ZTS_EVENT_NETWORK_READY_IP4 --- Network config received. IPv4 traffic can now be sent over network %llx\n",
msg->network->nwid);
networkReady = true;
}
if (msg->eventCode == ZTS_EVENT_NETWORK_READY_IP6) {
printf("ZTS_EVENT_NETWORK_READY_IP6 --- Network config received. IPv6 traffic can now be sent over network %llx\n",
msg->network->nwid);
networkReady = true;
}
if (msg->eventCode == ZTS_EVENT_NETWORK_DOWN) {
printf("ZTS_EVENT_NETWORK_DOWN --- %llx\n", msg->network->nwid);
}
// Network stack events
if (msg->eventCode == ZTS_EVENT_NETIF_UP) {
printf("ZTS_EVENT_NETIF_UP --- network=%llx, mac=%llx, mtu=%d\n",
msg->netif->nwid,
msg->netif->mac,
msg->netif->mtu);
networkReady = true;
}
if (msg->eventCode == ZTS_EVENT_NETIF_DOWN) {
printf("ZTS_EVENT_NETIF_DOWN --- network=%llx, mac=%llx\n",
msg->netif->nwid,
msg->netif->mac);
networkReady = true;
}
// Address events
if (msg->eventCode == ZTS_EVENT_ADDR_ADDED_IP4) {
char ipstr[ZTS_INET_ADDRSTRLEN];
struct zts_sockaddr_in *in4 = (struct zts_sockaddr_in*)&(msg->addr->addr);
zts_inet_ntop(ZTS_AF_INET, &(in4->sin_addr), ipstr, ZTS_INET_ADDRSTRLEN);
printf("ZTS_EVENT_ADDR_NEW_IP4 --- This node's virtual address on network %llx is %s\n",
msg->addr->nwid, ipstr);
}
if (msg->eventCode == ZTS_EVENT_ADDR_ADDED_IP6) {
char ipstr[ZTS_INET6_ADDRSTRLEN];
struct zts_sockaddr_in6 *in6 = (struct zts_sockaddr_in6*)&(msg->addr->addr);
zts_inet_ntop(ZTS_AF_INET6, &(in6->sin6_addr), ipstr, ZTS_INET6_ADDRSTRLEN);
printf("ZTS_EVENT_ADDR_NEW_IP6 --- This node's virtual address on network %llx is %s\n",
msg->addr->nwid, ipstr);
}
if (msg->eventCode == ZTS_EVENT_ADDR_REMOVED_IP4) {
char ipstr[ZTS_INET_ADDRSTRLEN];
struct zts_sockaddr_in *in4 = (struct zts_sockaddr_in*)&(msg->addr->addr);
zts_inet_ntop(ZTS_AF_INET, &(in4->sin_addr), ipstr, ZTS_INET_ADDRSTRLEN);
printf("ZTS_EVENT_ADDR_REMOVED_IP4 --- The virtual address %s for this node on network %llx has been removed.\n",
ipstr, msg->addr->nwid);
}
if (msg->eventCode == ZTS_EVENT_ADDR_REMOVED_IP6) {
char ipstr[ZTS_INET6_ADDRSTRLEN];
struct zts_sockaddr_in6 *in6 = (struct zts_sockaddr_in6*)&(msg->addr->addr);
zts_inet_ntop(ZTS_AF_INET6, &(in6->sin6_addr), ipstr, ZTS_INET6_ADDRSTRLEN);
printf("ZTS_EVENT_ADDR_REMOVED_IP6 --- The virtual address %s for this node on network %llx has been removed.\n",
ipstr, msg->addr->nwid);
}
// Peer events
if (msg->eventCode == ZTS_EVENT_PEER_DIRECT) {
printf("ZTS_EVENT_PEER_DIRECT --- node=%llx\n", msg->peer->address);
// A direct path is known for nodeId
}
if (msg->eventCode == ZTS_EVENT_PEER_RELAY) {
printf("ZTS_EVENT_PEER_RELAY --- node=%llx\n", msg->peer->address);
// No direct path is known for nodeId
}
void printNodeDetails(const char *msgStr, struct zts_node_details *d)
{
printf("\n%s\n", msgStr);
printf("\t- id : %llx\n", d->address);
printf("\t- version : %d.%d.%d\n", d->versionMajor, d->versionMinor, d->versionRev);
printf("\t- primaryPort : %d\n", d->primaryPort);
printf("\t- secondaryPort : %d\n", d->secondaryPort);
}
void printPeerDetails(struct zts_peer_details *pd)
void printPeerDetails(const char *msgStr, struct zts_peer_details *d)
{
printf("\npeer=%llx, latency=%d, version=%d.%d.%d, pathCount=%d\n",
pd->address,
pd->latency,
pd->versionMajor,
pd->versionMinor,
pd->versionRev,
pd->pathCount);
printf("\n%s\n", msgStr);
printf("\t- peer : %llx\n", d->address);
printf("\t- role : %llx\n", d->role);
printf("\t- latency : %llx\n", d->latency);
printf("\t- pathCount : %llx\n", d->pathCount);
printf("\t- version : %d.%d.%d\n", d->versionMajor, d->versionMinor, d->versionRev);
printf("\t- paths:\n");
// Print all known paths for each peer
for (unsigned int j=0; j<pd->pathCount; j++) {
for (unsigned int j=0; j<d->pathCount; j++) {
char ipstr[ZTS_INET6_ADDRSTRLEN];
int port = 0;
struct zts_sockaddr *sa = (struct zts_sockaddr *)&(pd->paths[j].address);
struct zts_sockaddr *sa = (struct zts_sockaddr *)&(d->paths[j].address);
if (sa->sa_family == ZTS_AF_INET) { // TODO: Probably broken
struct zts_sockaddr_in *in4 = (struct zts_sockaddr_in*)sa;
zts_inet_ntop(ZTS_AF_INET, &(in4->sin_addr), ipstr, ZTS_INET_ADDRSTRLEN);
@@ -217,51 +136,219 @@ void printPeerDetails(struct zts_peer_details *pd)
struct zts_sockaddr_in6 *in6 = (struct zts_sockaddr_in6*)sa;
zts_inet_ntop(ZTS_AF_INET6, &(in6->sin6_addr), ipstr, ZTS_INET6_ADDRSTRLEN);
}
printf("\tpath[%d]=%s, port=%d\n", j, ipstr, port);
printf("\t - %15s : %6d\n", ipstr, port);
}
printf("\n");
}
void getSinglePeerDetails(uint64_t peerId)
void printNetworkDetails(const char *msgStr, struct zts_network_details *d)
{
struct zts_peer_details pd;
int err = zts_get_peer(&pd, peerId);
printf("\n%s\n", msgStr);
printf("\t- nwid : %llx\n", d->nwid);
printf("\t- mac : %lx\n", d->mac);
printf("\t- name : %s\n", d->name);
printf("\t- type : %d\n", d->type);
/* MTU for the virtual network can be set via our web API */
printf("\t- mtu : %d\n", d->mtu);
printf("\t- dhcp : %d\n", d->dhcp);
printf("\t- bridge : %d\n", d->bridge);
printf("\t- broadcastEnabled : %d\n", d->broadcastEnabled);
printf("\t- portError : %d\n", d->portError);
printf("\t- netconfRevision : %d\n", d->netconfRevision);
printf("\t- routeCount : %d\n", d->routeCount);
printf("\t- multicastSubscriptionCount : %d\n", d->multicastSubscriptionCount);
if (err == ZTS_ERR_OK) {
printf("(%d) call succeeded\n", err);
printPeerDetails(&pd);
} if (err == ZTS_ERR_ARG) {
printf("(%d) invalid argument\n", err);
return;
} if (err == ZTS_ERR_SERVICE) {
printf("(%d) error: invalid API operation or service error\n", err);
return;
} if (err == ZTS_ERR_NO_RESULT) {
printf("(%d) error: object or result not found\n", err);
return;
for (int i=0; i<d->multicastSubscriptionCount; i++) {
printf("\t - mac=%llx, adi=%x\n", d->multicastSubscriptions[i].mac, d->multicastSubscriptions[i].adi);
}
}
// Similar to "zerotier-cli listpeers"
void getAllPeerDetails()
{
struct zts_peer_details pd[128];
/* This number should be large enough to handle the
expected number of peers. This call can also get
expensive for large numbers of peers. Consider using
get_peer(struct zts_peer_details *pds, uint64_t peerId)
instead */
unsigned int num = 128;
int err;
if ((err = zts_get_peers(pd, &num)) < 0) {
printf("error (%d)\n", err);
return;
}
if (num) {
printf("num=%d\n", num);
for (unsigned int i=0; i<num; i++) {
printPeerDetails(&pd[i]);
printf("\t- addresses:\n");
for (int i=0; i<d->assignedAddressCount; i++) {
if (d->assignedAddresses[i].ss_family == ZTS_AF_INET) {
char ipstr[ZTS_INET_ADDRSTRLEN];
struct zts_sockaddr_in *in4 = (struct zts_sockaddr_in*)&(d->assignedAddresses[i]);
zts_inet_ntop(ZTS_AF_INET, &(in4->sin_addr), ipstr, ZTS_INET_ADDRSTRLEN);
printf("\t - %s\n",ipstr);
}
if (d->assignedAddresses[i].ss_family == ZTS_AF_INET6) {
char ipstr[ZTS_INET6_ADDRSTRLEN];
struct zts_sockaddr_in6 *in6 = (struct zts_sockaddr_in6*)&(d->assignedAddresses[i]);
zts_inet_ntop(ZTS_AF_INET6, &(in6->sin6_addr), ipstr, ZTS_INET6_ADDRSTRLEN);
printf("\t - %s\n",ipstr);
}
}
printf("\t- routes:\n");
for (int i=0; i<d->routeCount; i++) {
if (d->routes[i].target.ss_family == ZTS_AF_INET) {
char ipstr[ZTS_INET_ADDRSTRLEN];
struct zts_sockaddr_in *in4 = (struct zts_sockaddr_in*)&(d->routes[i].target);
zts_inet_ntop(ZTS_AF_INET, &(in4->sin_addr), ipstr, ZTS_INET_ADDRSTRLEN);
printf("\t - target : %s\n",ipstr);
in4 = (struct zts_sockaddr_in*)&(d->routes[i].via);
zts_inet_ntop(ZTS_AF_INET, &(in4->sin_addr), ipstr, ZTS_INET_ADDRSTRLEN);
printf("\t - via : %s\n",ipstr);
}
if (d->routes[i].target.ss_family == ZTS_AF_INET6) {
char ipstr[ZTS_INET6_ADDRSTRLEN];
struct zts_sockaddr_in6 *in6 = (struct zts_sockaddr_in6*)&(d->routes[i].target);
zts_inet_ntop(ZTS_AF_INET6, &(in6->sin6_addr), ipstr, ZTS_INET6_ADDRSTRLEN);
printf("\t - target : %s\n",ipstr);
in6 = (struct zts_sockaddr_in6*)&(d->routes[i].via);
zts_inet_ntop(ZTS_AF_INET6, &(in6->sin6_addr), ipstr, ZTS_INET6_ADDRSTRLEN);
printf("\t - via : %s\n",ipstr);
}
printf("\t - flags : %d\n", d->routes[i].flags);
printf("\t - metric : %d\n", d->routes[i].metric);
}
}
void printNetifDetails(const char *msgStr, struct zts_netif_details *d)
{
printf("\n%s\n", msgStr);
printf("\t- nwid : %llx\n", d->nwid);
printf("\t- mac : %llx\n", d->mac);
printf("\t- mtu : %d\n", d->mtu);
}
/* Callback handler, you should return control from this function as quickly as you can
to ensure timely receipt of future events. You should not call libzt API functions from
this function unless it's something trivial like zts_inet_ntop() or similar that has
no state-change implications. */
void myZeroTierEventCallback(void *msgPtr)
{
struct zts_callback_msg *msg = (struct zts_callback_msg *)msgPtr;
printf("code=%d\n", msg->eventCode);
// Node events
if (msg->eventCode == ZTS_EVENT_NODE_ONLINE) {
printNodeDetails("nZTS_EVENT_NODE_ONLINE", msg->node);
myNode.id = msg->node->address;
myNode.online = true;
}
if (msg->eventCode == ZTS_EVENT_NODE_OFFLINE) {
printf("\nZTS_EVENT_NODE_OFFLINE --- Check your Internet connection, router, firewall, etc. What ports are you blocking?\n");
myNode.online = false;
}
if (msg->eventCode == ZTS_EVENT_NODE_NORMAL_TERMINATION) {
printf("\nZTS_EVENT_NODE_NORMAL_TERMINATION -- A call to zts_start() will restart ZeroTier.\n");
myNode.online = false;
}
// Virtual network events
if (msg->eventCode == ZTS_EVENT_NETWORK_NOT_FOUND) {
printf("\nZTS_EVENT_NETWORK_NOT_FOUND --- Are you sure %llx is a valid network?\n",
msg->network->nwid);
}
if (msg->eventCode == ZTS_EVENT_NETWORK_REQ_CONFIG) {
printf("\nZTS_EVENT_NETWORK_REQ_CONFIG --- Requesting config for network %llx, please wait a few seconds...\n",
msg->network->nwid);
}
if (msg->eventCode == ZTS_EVENT_NETWORK_ACCESS_DENIED) {
printf("\nZTS_EVENT_NETWORK_ACCESS_DENIED --- Access to virtual network %llx has been denied. Did you authorize the node yet?\n",
msg->network->nwid);
}
if (msg->eventCode == ZTS_EVENT_NETWORK_READY_IP4) {
printNetworkDetails("ZTS_EVENT_NETWORK_READY_IP4 --- Network config received.", msg->network);
myNode.joinedAtLeastOneNetwork = true;
}
if (msg->eventCode == ZTS_EVENT_NETWORK_READY_IP6) {
printNetworkDetails("ZTS_EVENT_NETWORK_READY_IP6 --- Network config received.", msg->network);
myNode.joinedAtLeastOneNetwork = true;
}
if (msg->eventCode == ZTS_EVENT_NETWORK_DOWN) {
printf("\nZTS_EVENT_NETWORK_DOWN --- %llx\n", msg->network->nwid);
}
if (msg->eventCode == ZTS_EVENT_NETWORK_UPDATE) {
printNetworkDetails("ZTS_EVENT_NETWORK_UPDATE --- Network config received.", msg->network);
}
// Address events
if (msg->eventCode == ZTS_EVENT_ADDR_ADDED_IP4) {
char ipstr[ZTS_INET_ADDRSTRLEN];
struct zts_sockaddr_in *in4 = (struct zts_sockaddr_in*)&(msg->addr->addr);
zts_inet_ntop(ZTS_AF_INET, &(in4->sin_addr), ipstr, ZTS_INET_ADDRSTRLEN);
printf("\nZTS_EVENT_ADDR_ADDED_IP4 --- This node's virtual address on network %llx is %s\n",
msg->addr->nwid, ipstr);
}
if (msg->eventCode == ZTS_EVENT_ADDR_ADDED_IP6) {
char ipstr[ZTS_INET6_ADDRSTRLEN];
struct zts_sockaddr_in6 *in6 = (struct zts_sockaddr_in6*)&(msg->addr->addr);
zts_inet_ntop(ZTS_AF_INET6, &(in6->sin6_addr), ipstr, ZTS_INET6_ADDRSTRLEN);
printf("\nZTS_EVENT_ADDR_ADDED_IP6 --- This node's virtual address on network %llx is %s\n",
msg->addr->nwid, ipstr);
}
if (msg->eventCode == ZTS_EVENT_ADDR_REMOVED_IP4) {
char ipstr[ZTS_INET_ADDRSTRLEN];
struct zts_sockaddr_in *in4 = (struct zts_sockaddr_in*)&(msg->addr->addr);
zts_inet_ntop(ZTS_AF_INET, &(in4->sin_addr), ipstr, ZTS_INET_ADDRSTRLEN);
printf("\nZTS_EVENT_ADDR_REMOVED_IP4 --- The virtual address %s for this node on network %llx has been removed.\n",
ipstr, msg->addr->nwid);
}
if (msg->eventCode == ZTS_EVENT_ADDR_REMOVED_IP6) {
char ipstr[ZTS_INET6_ADDRSTRLEN];
struct zts_sockaddr_in6 *in6 = (struct zts_sockaddr_in6*)&(msg->addr->addr);
zts_inet_ntop(ZTS_AF_INET6, &(in6->sin6_addr), ipstr, ZTS_INET6_ADDRSTRLEN);
printf("\nZTS_EVENT_ADDR_REMOVED_IP6 --- The virtual address %s for this node on network %llx has been removed.\n",
ipstr, msg->addr->nwid);
}
// Peer events
if (msg->peer) {
if (msg->peer->role == ZTS_PEER_ROLE_PLANET) {
/* Safe to ignore, these are our roots. They orchestrate the P2P connection.
You might also see other unknown peers, these are our network controllers. */
return;
}
if (msg->eventCode == ZTS_EVENT_PEER_DIRECT) {
printPeerDetails("ZTS_EVENT_PEER_DIRECT --- A direct path is known.", msg->peer);
}
if (msg->eventCode == ZTS_EVENT_PEER_RELAY) {
printPeerDetails("ZTS_EVENT_PEER_RELAY --- No direct path known.", msg->peer);
}
if (msg->eventCode == ZTS_EVENT_PEER_PATH_DISCOVERED) {
printPeerDetails("ZTS_EVENT_PEER_PATH_DISCOVERED --- A new direct path was discovered.", msg->peer);
}
if (msg->eventCode == ZTS_EVENT_PEER_PATH_DEAD) {
printPeerDetails("ZTS_EVENT_PEER_PATH_DEAD --- A direct path has died.", msg->peer);
}
}
// Network stack (netif) events (used for debugging, can be ignored)
if (msg->eventCode == ZTS_EVENT_NETIF_UP) {
printNetifDetails("ZTS_EVENT_NETIF_UP --- No action required.", msg->netif);
}
if (msg->eventCode == ZTS_EVENT_NETIF_DOWN) {
printNetifDetails("ZTS_EVENT_NETIF_DOWN --- No action required.", msg->netif);
}
if (msg->eventCode == ZTS_EVENT_NETIF_REMOVED) {
printNetifDetails("ZTS_EVENT_NETIF_REMOVED --- No action required.", msg->netif);
}
if (msg->eventCode == ZTS_EVENT_NETIF_LINK_UP) {
printNetifDetails("ZTS_EVENT_NETIF_LINK_UP --- No action required.", msg->netif);
}
if (msg->eventCode == ZTS_EVENT_NETIF_LINK_DOWN) {
printNetifDetails("ZTS_EVENT_NETIF_LINK_DOWN --- No action required.", msg->netif);
}
// Network stack events (used for debugging, can be ignored)
if (msg->eventCode == ZTS_EVENT_STACK_UP) {
printf("\nZTS_EVENT_STACK_UP --- No action required.\n");
}
if (msg->eventCode == ZTS_EVENT_STACK_DOWN) {
printf("\nZTS_EVENT_STACK_DOWN --- No action required. An app restart is needed to use ZeroTier again.\n");
}
}
void get6PLANEAddressOfPeer(uint64_t peerId, uint64_t nwId)
{
char peerAddrStr[ZTS_INET6_ADDRSTRLEN] = {0};
struct zts_sockaddr_storage sixplane_addr;
zts_get_6plane_addr(&sixplane_addr, nwId, peerId);
struct zts_sockaddr_in6 *p6 = (struct zts_sockaddr_in6*)&sixplane_addr;
zts_inet_ntop(ZTS_AF_INET6, &(p6->sin6_addr), peerAddrStr, ZTS_INET6_ADDRSTRLEN);
printf("6PLANE address of peer is: %s\n", peerAddrStr);
}
struct zts_stats_proto protoSpecificStats;
@@ -283,35 +370,36 @@ void display_stack_stats()
printf("tcp.drop=%d\n", protoSpecificStats.drop);
}
int main(int argc, char **argv)
int main(int argc, char **argv)
{
fprintf(stderr, "AF_INET=%d, SOCK_STREAM=%d, IPPROTO_TCP=%d", AF_INET, SOCK_STREAM, IPPROTO_TCP);
if (argc != 4) {
printf("\nlibzt example server\n");
printf("comprehensive <config_file_path> <nwid> <ztServicePort>\n");
exit(0);
}
std::string configPath = std::string(argv[1]);
uint64_t nwid = strtoull(argv[2],NULL,16); // Network ID to join
int ztServicePort = atoi(argv[3]); // Port ZT uses to send encrypted UDP packets to peers (try something like 9994)
// Bring up ZeroTier service and join network
// Enable/Disable caching of network details in networks.d
// (read function documentation before disabling!)
// zts_allow_network_caching(0)
// Enable/Disable caching of peer details in peers.d
// (read function documentation before disabling!)
// zts_allow_network_caching(1)
int err = ZTS_ERR_OK;
// Disable caching of network details in networks.d
// (read function documentation before disabling!)
// zts_set_network_caching(false)
// Disable caching of peer details in peers.d
// (read function documentation before disabling!)
// zts_set_network_caching(false)
if((err = zts_start(argv[1], &myZeroTierEventCallback, ztServicePort)) != ZTS_ERR_OK) {
if((err = zts_start(configPath.c_str(), &myZeroTierEventCallback, ztServicePort)) != ZTS_ERR_OK) {
printf("Unable to start service, error = %d. Exiting.\n", err);
exit(1);
}
printf("Waiting for node to come online...\n");
while (!nodeReady) { zts_delay_ms(50); }
printf("This node ID is %llx\n", zts_get_node_id());
while (!myNode.online) { zts_delay_ms(50); }
printf("This node's identity is stored in %s\n", argv[1]);
if((err = zts_join(nwid)) != ZTS_ERR_OK) {
@@ -320,35 +408,29 @@ int main(int argc, char **argv)
}
printf("Joining network %llx\n", nwid);
printf("Don't forget to authorize this device in my.zerotier.com or the web API!\n");
while (!networkReady) { zts_delay_ms(50); }
// Get multiple peer's details
getAllPeerDetails();
// Get a single peer's details
uint64_t peerId = 0xabcdef1234;
getSinglePeerDetails(peerId);
int status = -1;
// Get status of the node/service
status = zts_get_node_status();
printf("zts_get_node_status()=%d\n", status);
// Get status of a network
status = zts_get_network_status(nwid);
printf("zts_get_network_status()=%d\n", status);
while (!myNode.joinedAtLeastOneNetwork) { zts_delay_ms(50); }
// Idle and just show callback events, stack statistics, etc
// Alternatively, this is where you could start making calls to the socket API
while (true) {
zts_delay_ms(1000);
status = zts_get_node_status();
printf("zts_get_node_status()=%d\n", status);
/*
while(true) {
display_stack_stats();
zts_delay_ms(1000);
}
*/
// Shut down service and stack threads
int delay = 500000;
printf("This program will delay for %d seconds and then shut down.\n", (delay / 1000));
zts_delay_ms(delay);
//printf("Leaving network %llx\n", nwid);
//zts_leave(nwid);
//zts_delay_ms(3000); /* added for demo purposes so that events show up */
printf("Stopping ZeroTier\n");
zts_stop();
zts_delay_ms(delay); /* added for demo purposes so that events show up */
printf("Stopping network stack\n");
zts_free();
zts_delay_ms(delay); /* added for demo purposes so that events show up */
return 0;
}