/* * ZeroTier One - Network Virtualization Everywhere * Copyright (C) 2011-2015 ZeroTier, Inc. * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . * * -- * * ZeroTier may be used and distributed under the terms of the GPLv3, which * are available at: http://www.gnu.org/licenses/gpl-3.0.html * * If you would like to embed ZeroTier into a commercial application or * redistribute it in a modified binary form, please contact ZeroTier Networks * LLC. Start here: http://www.zerotier.com/ */ #include #include #include #include #include #include #include "node/Constants.hpp" #ifdef __WINDOWS__ #include #include #include #include #include #include #include #include "osdep/WindowsEthernetTap.hpp" #include "windows/ZeroTierOne/ServiceInstaller.h" #include "windows/ZeroTierOne/ServiceBase.h" #include "windows/ZeroTierOne/ZeroTierOneService.h" #else #include #include #include #include #include #include #endif #include #include #include "version.h" #include "include/ZeroTierOne.h" #include "ext/json-parser/json.h" #include "node/Identity.hpp" #include "node/CertificateOfMembership.hpp" #include "node/Utils.hpp" #include "node/NetworkController.hpp" #include "osdep/OSUtils.hpp" #include "osdep/Http.hpp" #include "service/OneService.hpp" #define ZT1_PID_PATH "zerotier-one.pid" using namespace ZeroTier; static OneService *volatile zt1Service = (OneService *)0; /****************************************************************************/ /* zerotier-cli personality */ /****************************************************************************/ static void cliPrintHelp(const char *pn,FILE *out) { fprintf(out,"ZeroTier One version %d.%d.%d"ZT_EOL_S"(c)2011-2015 ZeroTier, Inc."ZT_EOL_S,ZEROTIER_ONE_VERSION_MAJOR,ZEROTIER_ONE_VERSION_MINOR,ZEROTIER_ONE_VERSION_REVISION); fprintf(out,"Licensed under the GNU General Public License v3"ZT_EOL_S""ZT_EOL_S); fprintf(out,"Usage: %s [-switches] []"ZT_EOL_S""ZT_EOL_S,pn); fprintf(out,"Available switches:"ZT_EOL_S); fprintf(out," -h - Display this help"ZT_EOL_S); fprintf(out," -v - Show version"ZT_EOL_S); fprintf(out," -j - Display full raw JSON output"ZT_EOL_S); fprintf(out," -D - ZeroTier home path for parameter auto-detect"ZT_EOL_S); fprintf(out," -p - HTTP port (default: auto)"ZT_EOL_S); fprintf(out," -T - Authentication token (default: auto)"ZT_EOL_S); //fprintf(out," -H - HTTP server bind address (default: 127.0.0.1)"ZT_EOL_S); fprintf(out,ZT_EOL_S"Available commands:"ZT_EOL_S); fprintf(out," info - Display status info"ZT_EOL_S); fprintf(out," listpeers - List all peers"ZT_EOL_S); fprintf(out," listnetworks - List all networks"ZT_EOL_S); fprintf(out," join - Join a network"ZT_EOL_S); fprintf(out," leave - Leave a network"ZT_EOL_S); } static std::string cliFixJsonCRs(const std::string &s) { std::string r; for(std::string::const_iterator c(s.begin());c!=s.end();++c) { if (*c == '\n') r.append(ZT_EOL_S); else r.push_back(*c); } return r; } #ifdef __WINDOWS__ static int cli(int argc, _TCHAR* argv[]) #else static int cli(int argc,char **argv) #endif { unsigned int port = 0; std::string homeDir; std::string command; std::string arg1; std::string authToken; std::string ip("127.0.0.1"); bool json = false; for(int i=1;i 0xffff)||(port == 0)) { cliPrintHelp(argv[0],stdout); return 1; } break; case 'D': if (argv[i][2]) { homeDir = argv[i] + 2; } else { cliPrintHelp(argv[0],stdout); return 1; } break; case 'H': if (argv[i][2]) { ip = argv[i] + 2; } else { cliPrintHelp(argv[0],stdout); return 1; } break; case 'T': if (argv[i][2]) { authToken = argv[i] + 2; } else { cliPrintHelp(argv[0],stdout); return 1; } break; case 'v': if (argv[i][2]) { cliPrintHelp(argv[0],stdout); return 1; } printf("%d.%d.%d"ZT_EOL_S,ZEROTIER_ONE_VERSION_MAJOR,ZEROTIER_ONE_VERSION_MINOR,ZEROTIER_ONE_VERSION_REVISION); return 0; case 'h': case '?': default: cliPrintHelp(argv[0],stdout); return 0; } } else { if (command.length()) arg1 = argv[i]; else command = argv[i]; } } if (!homeDir.length()) homeDir = OneService::platformDefaultHomePath(); if ((!port)||(!authToken.length())) { if (!homeDir.length()) { fprintf(stderr,"%s: missing port or authentication token and no home directory specified to auto-detect"ZT_EOL_S,argv[0]); return 2; } if (!port) { std::string portStr; OSUtils::readFile((homeDir + ZT_PATH_SEPARATOR_S + "zerotier-one.port").c_str(),portStr); port = Utils::strToUInt(portStr.c_str()); if ((port == 0)||(port > 0xffff)) { fprintf(stderr,"%s: missing port and zerotier-one.port not found in %s"ZT_EOL_S,argv[0],homeDir.c_str()); return 2; } } if (!authToken.length()) { OSUtils::readFile((homeDir + ZT_PATH_SEPARATOR_S + "authtoken.secret").c_str(),authToken); #ifdef __UNIX_LIKE__ if (!authToken.length()) { const char *hd = getenv("HOME"); if (hd) { char p[4096]; #ifdef __APPLE__ Utils::snprintf(p,sizeof(p),"%s/Library/Application Support/ZeroTier/One/authtoken.secret",hd); #else Utils::snprintf(p,sizeof(p),"%s/.zeroTierOneAuthToken",hd); #endif OSUtils::readFile(p,authToken); } } #endif if (!authToken.length()) { fprintf(stderr,"%s: missing authentication token and authtoken.secret not found (or readable) in %s"ZT_EOL_S,argv[0],homeDir.c_str()); return 2; } } } InetAddress addr; { char addrtmp[256]; Utils::snprintf(addrtmp,sizeof(addrtmp),"%s/%u",ip.c_str(),port); addr = InetAddress(addrtmp); } std::map requestHeaders; std::map responseHeaders; std::string responseBody; requestHeaders["X-ZT1-Auth"] = authToken; if ((command.length() > 0)&&(command[0] == '/')) { unsigned int scode = Http::GET( 1024 * 1024 * 16, 60000, (const struct sockaddr *)&addr, command.c_str(), requestHeaders, responseHeaders, responseBody); if (scode == 200) { printf("%s",cliFixJsonCRs(responseBody).c_str()); return 0; } else { printf("%u %s %s"ZT_EOL_S,scode,command.c_str(),responseBody.c_str()); return 1; } } else if ((command == "info")||(command == "status")) { unsigned int scode = Http::GET( 1024 * 1024 * 16, 60000, (const struct sockaddr *)&addr, "/status", requestHeaders, responseHeaders, responseBody); if (scode == 200) { if (json) { printf("%s",cliFixJsonCRs(responseBody).c_str()); return 0; } else { json_value *j = json_parse(responseBody.c_str(),responseBody.length()); bool good = false; if (j) { if (j->type == json_object) { const char *address = (const char *)0; bool online = false; const char *version = (const char *)0; for(unsigned int k=0;ku.object.length;++k) { if ((!strcmp(j->u.object.values[k].name,"address"))&&(j->u.object.values[k].value->type == json_string)) address = j->u.object.values[k].value->u.string.ptr; else if ((!strcmp(j->u.object.values[k].name,"version"))&&(j->u.object.values[k].value->type == json_string)) version = j->u.object.values[k].value->u.string.ptr; else if ((!strcmp(j->u.object.values[k].name,"online"))&&(j->u.object.values[k].value->type == json_boolean)) online = (j->u.object.values[k].value->u.boolean != 0); } if ((address)&&(version)) { printf("200 info %s %s %s"ZT_EOL_S,address,(online ? "ONLINE" : "OFFLINE"),version); good = true; } } json_value_free(j); } if (good) { return 0; } else { printf("%u %s invalid JSON response"ZT_EOL_S,scode,command.c_str()); return 1; } } } else { printf("%u %s %s"ZT_EOL_S,scode,command.c_str(),responseBody.c_str()); return 1; } } else if (command == "listpeers") { unsigned int scode = Http::GET( 1024 * 1024 * 16, 60000, (const struct sockaddr *)&addr, "/peer", requestHeaders, responseHeaders, responseBody); if (scode == 200) { if (json) { printf("%s",cliFixJsonCRs(responseBody).c_str()); return 0; } else { printf("200 listpeers "ZT_EOL_S); json_value *j = json_parse(responseBody.c_str(),responseBody.length()); if (j) { if (j->type == json_array) { for(unsigned int p=0;pu.array.length;++p) { json_value *jp = j->u.array.values[p]; if (jp->type == json_object) { const char *address = (const char *)0; std::string paths; int64_t latency = 0; int64_t versionMajor = -1,versionMinor = -1,versionRev = -1; const char *role = (const char *)0; for(unsigned int k=0;ku.object.length;++k) { if ((!strcmp(jp->u.object.values[k].name,"address"))&&(jp->u.object.values[k].value->type == json_string)) address = jp->u.object.values[k].value->u.string.ptr; else if ((!strcmp(jp->u.object.values[k].name,"versionMajor"))&&(jp->u.object.values[k].value->type == json_integer)) versionMajor = jp->u.object.values[k].value->u.integer; else if ((!strcmp(jp->u.object.values[k].name,"versionMinor"))&&(jp->u.object.values[k].value->type == json_integer)) versionMinor = jp->u.object.values[k].value->u.integer; else if ((!strcmp(jp->u.object.values[k].name,"versionRev"))&&(jp->u.object.values[k].value->type == json_integer)) versionRev = jp->u.object.values[k].value->u.integer; else if ((!strcmp(jp->u.object.values[k].name,"role"))&&(jp->u.object.values[k].value->type == json_string)) role = jp->u.object.values[k].value->u.string.ptr; else if ((!strcmp(jp->u.object.values[k].name,"latency"))&&(jp->u.object.values[k].value->type == json_integer)) latency = jp->u.object.values[k].value->u.integer; else if ((!strcmp(jp->u.object.values[k].name,"paths"))&&(jp->u.object.values[k].value->type == json_array)) { for(unsigned int pp=0;ppu.object.values[k].value->u.array.length;++pp) { json_value *jpath = jp->u.object.values[k].value->u.array.values[pp]; if (jpath->type == json_object) { const char *paddr = (const char *)0; int64_t lastSend = 0; int64_t lastReceive = 0; bool fixed = false; bool active = false; // fixed/active/inactive for(unsigned int kk=0;kku.object.length;++kk) { if ((!strcmp(jpath->u.object.values[kk].name,"address"))&&(jpath->u.object.values[kk].value->type == json_string)) paddr = jpath->u.object.values[kk].value->u.string.ptr; else if ((!strcmp(jpath->u.object.values[kk].name,"lastSend"))&&(jpath->u.object.values[kk].value->type == json_integer)) lastSend = jpath->u.object.values[kk].value->u.integer; else if ((!strcmp(jpath->u.object.values[kk].name,"lastReceive"))&&(jpath->u.object.values[kk].value->type == json_integer)) lastReceive = jpath->u.object.values[kk].value->u.integer; else if ((!strcmp(jpath->u.object.values[kk].name,"fixed"))&&(jpath->u.object.values[kk].value->type == json_boolean)) fixed = (jpath->u.object.values[kk].value->u.boolean != 0); else if ((!strcmp(jpath->u.object.values[kk].name,"active"))&&(jpath->u.object.values[kk].value->type == json_boolean)) active = (jpath->u.object.values[kk].value->u.boolean != 0); } if ((paddr)&&((active)||(fixed))) { int64_t now = (int64_t)OSUtils::now(); if (lastSend > 0) lastSend = now - lastSend; if (lastReceive > 0) lastReceive = now - lastReceive; char pathtmp[256]; Utils::snprintf(pathtmp,sizeof(pathtmp),"%s;%lld;%lld;%s", paddr, lastSend, lastReceive, (fixed ? "fixed" : (active ? "active" : "inactive"))); if (paths.length()) paths.push_back(','); paths.append(pathtmp); } } } } } if ((address)&&(role)) { char verstr[64]; if ((versionMajor >= 0)&&(versionMinor >= 0)&&(versionRev >= 0)) Utils::snprintf(verstr,sizeof(verstr),"%lld.%lld.%lld",versionMajor,versionMinor,versionRev); else { verstr[0] = '-'; verstr[1] = (char)0; } printf("200 listpeers %s %s %lld %s %s"ZT_EOL_S,address,(paths.length()) ? paths.c_str() : "-",(long long)latency,verstr,role); } } } } json_value_free(j); } return 0; } } else { printf("%u %s %s"ZT_EOL_S,scode,command.c_str(),responseBody.c_str()); return 1; } } else if (command == "listnetworks") { unsigned int scode = Http::GET( 1024 * 1024 * 16, 60000, (const struct sockaddr *)&addr, "/network", requestHeaders, responseHeaders, responseBody); if (scode == 200) { if (json) { printf("%s",cliFixJsonCRs(responseBody).c_str()); return 0; } else { printf("200 listnetworks "ZT_EOL_S); json_value *j = json_parse(responseBody.c_str(),responseBody.length()); if (j) { if (j->type == json_array) { for(unsigned int p=0;pu.array.length;++p) { json_value *jn = j->u.array.values[p]; if (jn->type == json_object) { const char *nwid = (const char *)0; const char *name = ""; const char *mac = (const char *)0; const char *status = (const char *)0; const char *type = (const char *)0; const char *portDeviceName = ""; std::string ips; for(unsigned int k=0;ku.object.length;++k) { if ((!strcmp(jn->u.object.values[k].name,"nwid"))&&(jn->u.object.values[k].value->type == json_string)) nwid = jn->u.object.values[k].value->u.string.ptr; else if ((!strcmp(jn->u.object.values[k].name,"name"))&&(jn->u.object.values[k].value->type == json_string)) name = jn->u.object.values[k].value->u.string.ptr; else if ((!strcmp(jn->u.object.values[k].name,"mac"))&&(jn->u.object.values[k].value->type == json_string)) mac = jn->u.object.values[k].value->u.string.ptr; else if ((!strcmp(jn->u.object.values[k].name,"status"))&&(jn->u.object.values[k].value->type == json_string)) status = jn->u.object.values[k].value->u.string.ptr; else if ((!strcmp(jn->u.object.values[k].name,"type"))&&(jn->u.object.values[k].value->type == json_string)) type = jn->u.object.values[k].value->u.string.ptr; else if ((!strcmp(jn->u.object.values[k].name,"portDeviceName"))&&(jn->u.object.values[k].value->type == json_string)) portDeviceName = jn->u.object.values[k].value->u.string.ptr; else if ((!strcmp(jn->u.object.values[k].name,"assignedAddresses"))&&(jn->u.object.values[k].value->type == json_array)) { for(unsigned int a=0;au.object.values[k].value->u.array.length;++a) { json_value *aa = jn->u.object.values[k].value->u.array.values[a]; if (aa->type == json_string) { if (ips.length()) ips.push_back(','); ips.append(aa->u.string.ptr); } } } } if ((nwid)&&(mac)&&(status)&&(type)) { printf("200 listnetworks %s %s %s %s %s %s %s"ZT_EOL_S, nwid, (((name)&&(name[0])) ? name : "-"), mac, status, type, (((portDeviceName)&&(portDeviceName[0])) ? portDeviceName : "-"), ((ips.length() > 0) ? ips.c_str() : "-")); } } } } json_value_free(j); } } } else { printf("%u %s %s"ZT_EOL_S,scode,command.c_str(),responseBody.c_str()); return 1; } } else if (command == "join") { if (arg1.length() != 16) { cliPrintHelp(argv[0],stderr); return 2; } requestHeaders["Content-Type"] = "application/json"; requestHeaders["Content-Length"] = "2"; unsigned int scode = Http::POST( 1024 * 1024 * 16, 60000, (const struct sockaddr *)&addr, (std::string("/network/") + arg1).c_str(), requestHeaders, "{}", 2, responseHeaders, responseBody); if (scode == 200) { if (json) { printf("%s",cliFixJsonCRs(responseBody).c_str()); } else { printf("200 join OK"ZT_EOL_S); } return 0; } else { printf("%u %s %s"ZT_EOL_S,scode,command.c_str(),responseBody.c_str()); return 1; } } else if (command == "leave") { if (arg1.length() != 16) { cliPrintHelp(argv[0],stderr); return 2; } unsigned int scode = Http::DEL( 1024 * 1024 * 16, 60000, (const struct sockaddr *)&addr, (std::string("/network/") + arg1).c_str(), requestHeaders, responseHeaders, responseBody); if (scode == 200) { if (json) { printf("%s",cliFixJsonCRs(responseBody).c_str()); } else { printf("200 leave OK"ZT_EOL_S); } return 0; } else { printf("%u %s %s"ZT_EOL_S,scode,command.c_str(),responseBody.c_str()); return 1; } } else { cliPrintHelp(argv[0],stderr); return 0; } return 0; } /****************************************************************************/ /* zerotier-idtool personality */ /****************************************************************************/ static void idtoolPrintHelp(FILE *out,const char *pn) { fprintf(out,"ZeroTier One version %d.%d.%d"ZT_EOL_S"(c)2011-2015 ZeroTier, Inc."ZT_EOL_S,ZEROTIER_ONE_VERSION_MAJOR,ZEROTIER_ONE_VERSION_MINOR,ZEROTIER_ONE_VERSION_REVISION); fprintf(out,"Licensed under the GNU General Public License v3"ZT_EOL_S""ZT_EOL_S); fprintf(out,"Usage: %s []"ZT_EOL_S""ZT_EOL_S"Commands:"ZT_EOL_S,pn); fprintf(out," generate [] []"ZT_EOL_S); fprintf(out," validate "ZT_EOL_S); fprintf(out," getpublic "ZT_EOL_S); fprintf(out," sign "ZT_EOL_S); fprintf(out," verify "ZT_EOL_S); fprintf(out," mkcom [ ...] (hexadecimal integers)"ZT_EOL_S); } static Identity getIdFromArg(char *arg) { Identity id; if ((strlen(arg) > 32)&&(arg[10] == ':')) { // identity is a literal on the command line if (id.fromString(arg)) return id; } else { // identity is to be read from a file std::string idser; if (OSUtils::readFile(arg,idser)) { if (id.fromString(idser)) return id; } } return Identity(); } #ifdef __WINDOWS__ static int idtool(int argc, _TCHAR* argv[]) #else static int idtool(int argc,char **argv) #endif { if (argc < 2) { idtoolPrintHelp(stdout,argv[0]); return 1; } if (!strcmp(argv[1],"generate")) { Identity id; id.generate(); std::string idser = id.toString(true); if (argc >= 3) { if (!OSUtils::writeFile(argv[2],idser)) { fprintf(stderr,"Error writing to %s"ZT_EOL_S,argv[2]); return 1; } else printf("%s written"ZT_EOL_S,argv[2]); if (argc >= 4) { idser = id.toString(false); if (!OSUtils::writeFile(argv[3],idser)) { fprintf(stderr,"Error writing to %s"ZT_EOL_S,argv[3]); return 1; } else printf("%s written"ZT_EOL_S,argv[3]); } } else printf("%s",idser.c_str()); } else if (!strcmp(argv[1],"validate")) { if (argc < 3) { idtoolPrintHelp(stdout,argv[0]); return 1; } Identity id = getIdFromArg(argv[2]); if (!id) { fprintf(stderr,"Identity argument invalid or file unreadable: %s"ZT_EOL_S,argv[2]); return 1; } if (!id.locallyValidate()) { fprintf(stderr,"%s FAILED validation."ZT_EOL_S,argv[2]); return 1; } else printf("%s is a valid identity"ZT_EOL_S,argv[2]); } else if (!strcmp(argv[1],"getpublic")) { if (argc < 3) { idtoolPrintHelp(stdout,argv[0]); return 1; } Identity id = getIdFromArg(argv[2]); if (!id) { fprintf(stderr,"Identity argument invalid or file unreadable: %s"ZT_EOL_S,argv[2]); return 1; } printf("%s",id.toString(false).c_str()); } else if (!strcmp(argv[1],"sign")) { if (argc < 4) { idtoolPrintHelp(stdout,argv[0]); return 1; } Identity id = getIdFromArg(argv[2]); if (!id) { fprintf(stderr,"Identity argument invalid or file unreadable: %s"ZT_EOL_S,argv[2]); return 1; } if (!id.hasPrivate()) { fprintf(stderr,"%s does not contain a private key (must use private to sign)"ZT_EOL_S,argv[2]); return 1; } std::string inf; if (!OSUtils::readFile(argv[3],inf)) { fprintf(stderr,"%s is not readable"ZT_EOL_S,argv[3]); return 1; } C25519::Signature signature = id.sign(inf.data(),(unsigned int)inf.length()); printf("%s",Utils::hex(signature.data,(unsigned int)signature.size()).c_str()); } else if (!strcmp(argv[1],"verify")) { if (argc < 4) { idtoolPrintHelp(stdout,argv[0]); return 1; } Identity id = getIdFromArg(argv[2]); if (!id) { fprintf(stderr,"Identity argument invalid or file unreadable: %s"ZT_EOL_S,argv[2]); return 1; } std::string inf; if (!OSUtils::readFile(argv[3],inf)) { fprintf(stderr,"%s is not readable"ZT_EOL_S,argv[3]); return 1; } std::string signature(Utils::unhex(argv[4])); if ((signature.length() > ZT_ADDRESS_LENGTH)&&(id.verify(inf.data(),(unsigned int)inf.length(),signature.data(),(unsigned int)signature.length()))) { printf("%s signature valid"ZT_EOL_S,argv[3]); } else { fprintf(stderr,"%s signature check FAILED"ZT_EOL_S,argv[3]); return 1; } } else if (!strcmp(argv[1],"mkcom")) { if (argc < 3) { idtoolPrintHelp(stdout,argv[0]); return 1; } Identity id = getIdFromArg(argv[2]); if ((!id)||(!id.hasPrivate())) { fprintf(stderr,"Identity argument invalid, does not include private key, or file unreadable: %s"ZT_EOL_S,argv[2]); return 1; } CertificateOfMembership com; for(int a=3;a params(Utils::split(argv[a],",","","")); if (params.size() == 3) { uint64_t qId = Utils::hexStrToU64(params[0].c_str()); uint64_t qValue = Utils::hexStrToU64(params[1].c_str()); uint64_t qMaxDelta = Utils::hexStrToU64(params[2].c_str()); com.setQualifier(qId,qValue,qMaxDelta); } } if (!com.sign(id)) { fprintf(stderr,"Signature of certificate of membership failed."ZT_EOL_S); return 1; } printf("%s",com.toString().c_str()); } else { idtoolPrintHelp(stdout,argv[0]); return 1; } return 0; } /****************************************************************************/ /* Unix helper functions and signal handlers */ /****************************************************************************/ #ifdef __UNIX_LIKE__ static void _sighandlerHup(int sig) { } static void _sighandlerQuit(int sig) { OneService *s = zt1Service; if (s) s->terminate(); else exit(0); } #endif /****************************************************************************/ /* Windows helper functions and signal handlers */ /****************************************************************************/ #ifdef __WINDOWS__ // Console signal handler routine to allow CTRL+C to work, mostly for testing static BOOL WINAPI _winConsoleCtrlHandler(DWORD dwCtrlType) { switch(dwCtrlType) { case CTRL_C_EVENT: case CTRL_BREAK_EVENT: case CTRL_CLOSE_EVENT: case CTRL_SHUTDOWN_EVENT: OneService *s = zt1Service; if (s) s->terminate(); return TRUE; } return FALSE; } // Pokes a hole in the Windows firewall (advfirewall) for the running program /* -- now done by Advanced Installer static void _winPokeAHole() { char myPath[MAX_PATH]; DWORD ps = GetModuleFileNameA(NULL,myPath,sizeof(myPath)); if ((ps > 0)&&(ps < (DWORD)sizeof(myPath))) { STARTUPINFOA startupInfo; PROCESS_INFORMATION processInfo; startupInfo.cb = sizeof(startupInfo); memset(&startupInfo,0,sizeof(STARTUPINFOA)); memset(&processInfo,0,sizeof(PROCESS_INFORMATION)); if (CreateProcessA(NULL,(LPSTR)(std::string("C:\\Windows\\System32\\netsh.exe advfirewall firewall delete rule name=\"ZeroTier One\" program=\"") + myPath + "\"").c_str(),NULL,NULL,FALSE,0,NULL,NULL,&startupInfo,&processInfo)) { WaitForSingleObject(processInfo.hProcess,INFINITE); CloseHandle(processInfo.hProcess); CloseHandle(processInfo.hThread); } startupInfo.cb = sizeof(startupInfo); memset(&startupInfo,0,sizeof(STARTUPINFOA)); memset(&processInfo,0,sizeof(PROCESS_INFORMATION)); if (CreateProcessA(NULL,(LPSTR)(std::string("C:\\Windows\\System32\\netsh.exe advfirewall firewall add rule name=\"ZeroTier One\" dir=in action=allow program=\"") + myPath + "\" enable=yes").c_str(),NULL,NULL,FALSE,0,NULL,NULL,&startupInfo,&processInfo)) { WaitForSingleObject(processInfo.hProcess,INFINITE); CloseHandle(processInfo.hProcess); CloseHandle(processInfo.hThread); } startupInfo.cb = sizeof(startupInfo); memset(&startupInfo,0,sizeof(STARTUPINFOA)); memset(&processInfo,0,sizeof(PROCESS_INFORMATION)); if (CreateProcessA(NULL,(LPSTR)(std::string("C:\\Windows\\System32\\netsh.exe advfirewall firewall add rule name=\"ZeroTier One\" dir=out action=allow program=\"") + myPath + "\" enable=yes").c_str(),NULL,NULL,FALSE,0,NULL,NULL,&startupInfo,&processInfo)) { WaitForSingleObject(processInfo.hProcess,INFINITE); CloseHandle(processInfo.hProcess); CloseHandle(processInfo.hThread); } } } */ // Returns true if this is running as the local administrator static BOOL IsCurrentUserLocalAdministrator(void) { BOOL fReturn = FALSE; DWORD dwStatus; DWORD dwAccessMask; DWORD dwAccessDesired; DWORD dwACLSize; DWORD dwStructureSize = sizeof(PRIVILEGE_SET); PACL pACL = NULL; PSID psidAdmin = NULL; HANDLE hToken = NULL; HANDLE hImpersonationToken = NULL; PRIVILEGE_SET ps; GENERIC_MAPPING GenericMapping; PSECURITY_DESCRIPTOR psdAdmin = NULL; SID_IDENTIFIER_AUTHORITY SystemSidAuthority = SECURITY_NT_AUTHORITY; const DWORD ACCESS_READ = 1; const DWORD ACCESS_WRITE = 2; __try { if (!OpenThreadToken(GetCurrentThread(), TOKEN_DUPLICATE|TOKEN_QUERY,TRUE,&hToken)) { if (GetLastError() != ERROR_NO_TOKEN) __leave; if (!OpenProcessToken(GetCurrentProcess(),TOKEN_DUPLICATE|TOKEN_QUERY, &hToken)) __leave; } if (!DuplicateToken (hToken, SecurityImpersonation,&hImpersonationToken)) __leave; if (!AllocateAndInitializeSid(&SystemSidAuthority, 2, SECURITY_BUILTIN_DOMAIN_RID, DOMAIN_ALIAS_RID_ADMINS, 0, 0, 0, 0, 0, 0, &psidAdmin)) __leave; psdAdmin = LocalAlloc(LPTR, SECURITY_DESCRIPTOR_MIN_LENGTH); if (psdAdmin == NULL) __leave; if (!InitializeSecurityDescriptor(psdAdmin,SECURITY_DESCRIPTOR_REVISION)) __leave; dwACLSize = sizeof(ACL) + sizeof(ACCESS_ALLOWED_ACE) + GetLengthSid(psidAdmin) - sizeof(DWORD); pACL = (PACL)LocalAlloc(LPTR, dwACLSize); if (pACL == NULL) __leave; if (!InitializeAcl(pACL, dwACLSize, ACL_REVISION2)) __leave; dwAccessMask= ACCESS_READ | ACCESS_WRITE; if (!AddAccessAllowedAce(pACL, ACL_REVISION2, dwAccessMask, psidAdmin)) __leave; if (!SetSecurityDescriptorDacl(psdAdmin, TRUE, pACL, FALSE)) __leave; SetSecurityDescriptorGroup(psdAdmin, psidAdmin, FALSE); SetSecurityDescriptorOwner(psdAdmin, psidAdmin, FALSE); if (!IsValidSecurityDescriptor(psdAdmin)) __leave; dwAccessDesired = ACCESS_READ; GenericMapping.GenericRead = ACCESS_READ; GenericMapping.GenericWrite = ACCESS_WRITE; GenericMapping.GenericExecute = 0; GenericMapping.GenericAll = ACCESS_READ | ACCESS_WRITE; if (!AccessCheck(psdAdmin, hImpersonationToken, dwAccessDesired, &GenericMapping, &ps, &dwStructureSize, &dwStatus, &fReturn)) { fReturn = FALSE; __leave; } } __finally { // Clean up. if (pACL) LocalFree(pACL); if (psdAdmin) LocalFree(psdAdmin); if (psidAdmin) FreeSid(psidAdmin); if (hImpersonationToken) CloseHandle (hImpersonationToken); if (hToken) CloseHandle (hToken); } return fReturn; } #endif // __WINDOWS__ /****************************************************************************/ /* main() and friends */ /****************************************************************************/ static void printHelp(const char *cn,FILE *out) { fprintf(out,"ZeroTier One version %d.%d.%d"ZT_EOL_S"(c)2011-2015 ZeroTier, Inc."ZT_EOL_S,ZEROTIER_ONE_VERSION_MAJOR,ZEROTIER_ONE_VERSION_MINOR,ZEROTIER_ONE_VERSION_REVISION); fprintf(out,"Licensed under the GNU General Public License v3"ZT_EOL_S""ZT_EOL_S); std::string updateUrl(OneService::autoUpdateUrl()); if (updateUrl.length()) fprintf(out,"Automatic update enabled:"ZT_EOL_S" %s"ZT_EOL_S""ZT_EOL_S,updateUrl.c_str()); fprintf(out,"Usage: %s [-switches] [home directory]"ZT_EOL_S""ZT_EOL_S,cn); fprintf(out,"Available switches:"ZT_EOL_S); fprintf(out," -h - Display this help"ZT_EOL_S); fprintf(out," -v - Show version"ZT_EOL_S); fprintf(out," -U - Run as unprivileged user (skip privilege check)"ZT_EOL_S); fprintf(out," -p - Port for UDP and TCP/HTTP (default: 9993)"ZT_EOL_S); //fprintf(out," -T - Override root topology, do not authenticate or update"ZT_EOL_S); #ifdef __UNIX_LIKE__ fprintf(out," -d - Fork and run as daemon (Unix-ish OSes)"ZT_EOL_S); #endif // __UNIX_LIKE__ #ifdef __WINDOWS__ fprintf(out," -C - Run from command line instead of as service (Windows)"ZT_EOL_S); fprintf(out," -I - Install Windows service (Windows)"ZT_EOL_S); fprintf(out," -R - Uninstall Windows service (Windows)"ZT_EOL_S); fprintf(out," -D - Remove all instances of Windows tap device (Windows)"ZT_EOL_S); #endif // __WINDOWS__ fprintf(out," -i - Generate and manage identities (zerotier-idtool)"ZT_EOL_S); fprintf(out," -q - Query API (zerotier-cli)"ZT_EOL_S); } #ifdef __WINDOWS__ int _tmain(int argc, _TCHAR* argv[]) #else int main(int argc,char **argv) #endif { #ifdef __UNIX_LIKE__ signal(SIGHUP,&_sighandlerHup); signal(SIGPIPE,SIG_IGN); signal(SIGUSR1,SIG_IGN); signal(SIGUSR2,SIG_IGN); signal(SIGALRM,SIG_IGN); signal(SIGINT,&_sighandlerQuit); signal(SIGTERM,&_sighandlerQuit); signal(SIGQUIT,&_sighandlerQuit); /* Ensure that there are no inherited file descriptors open from a previous * incarnation. This is a hack to ensure that GitHub issue #61 or variants * of it do not return, and should not do anything otherwise bad. */ { int mfd = STDIN_FILENO; if (STDOUT_FILENO > mfd) mfd = STDOUT_FILENO; if (STDERR_FILENO > mfd) mfd = STDERR_FILENO; for(int f=mfd+1;f<1024;++f) ::close(f); } bool runAsDaemon = false; #endif // __UNIX_LIKE__ #ifdef __WINDOWS__ WSADATA wsaData; WSAStartup(MAKEWORD(2,2),&wsaData); #ifdef ZT_WIN_RUN_IN_CONSOLE bool winRunFromCommandLine = true; #else bool winRunFromCommandLine = false; #endif #endif // __WINDOWS__ if ((strstr(argv[0],"zerotier-idtool"))||(strstr(argv[0],"ZEROTIER-IDTOOL"))) return idtool(argc,argv); if ((strstr(argv[0],"zerotier-cli"))||(strstr(argv[0],"ZEROTIER-CLI"))) return cli(argc,argv); std::string overrideRootTopology; std::string homeDir; unsigned int port = ZT1_DEFAULT_PORT; bool skipRootCheck = false; for(int i=1;i 0xffff)||(port == 0)) { printHelp(argv[0],stdout); return 1; } break; #ifdef __UNIX_LIKE__ case 'd': // Run in background as daemon runAsDaemon = true; break; #endif // __UNIX_LIKE__ case 'U': skipRootCheck = true; break; case 'T': // Override root topology if (argv[i][2]) { if (!OSUtils::readFile(argv[i] + 2,overrideRootTopology)) { fprintf(stderr,"%s: cannot read root topology from %s"ZT_EOL_S,argv[0],argv[i] + 2); return 1; } } else { printHelp(argv[0],stdout); return 1; } break; case 'v': // Display version printf("%d.%d.%d"ZT_EOL_S,ZEROTIER_ONE_VERSION_MAJOR,ZEROTIER_ONE_VERSION_MINOR,ZEROTIER_ONE_VERSION_REVISION); return 0; case 'i': // Invoke idtool personality if (argv[i][2]) { printHelp(argv[0],stdout); return 0; } else return idtool(argc,argv); case 'q': // Invoke cli personality if (argv[i][2]) { printHelp(argv[0],stdout); return 0; } else return cli(argc,argv); #ifdef __WINDOWS__ case 'C': // Run from command line instead of as Windows service winRunFromCommandLine = true; break; case 'I': { // Install this binary as a Windows service if (IsCurrentUserLocalAdministrator() != TRUE) { fprintf(stderr,"%s: must be run as a local administrator."ZT_EOL_S,argv[0]); return 1; } std::string ret(InstallService(ZT_SERVICE_NAME,ZT_SERVICE_DISPLAY_NAME,ZT_SERVICE_START_TYPE,ZT_SERVICE_DEPENDENCIES,ZT_SERVICE_ACCOUNT,ZT_SERVICE_PASSWORD)); if (ret.length()) { fprintf(stderr,"%s: unable to install service: %s"ZT_EOL_S,argv[0],ret.c_str()); return 3; } return 0; } break; case 'R': { // Uninstall this binary as Windows service if (IsCurrentUserLocalAdministrator() != TRUE) { fprintf(stderr,"%s: must be run as a local administrator."ZT_EOL_S,argv[0]); return 1; } std::string ret(UninstallService(ZT_SERVICE_NAME)); if (ret.length()) { fprintf(stderr,"%s: unable to uninstall service: %s"ZT_EOL_S,argv[0],ret.c_str()); return 3; } return 0; } break; case 'D': { std::string err = WindowsEthernetTap::destroyAllPersistentTapDevices(); if (err.length() > 0) { fprintf(stderr,"%s: unable to uninstall one or more persistent tap devices: %s"ZT_EOL_S,argv[0],err.c_str()); return 3; } return 0; } break; #endif // __WINDOWS__ case 'h': case '?': default: printHelp(argv[0],stdout); return 0; } } else { if (homeDir.length()) { printHelp(argv[0],stdout); return 0; } else { homeDir = argv[i]; } } } if (!homeDir.length()) homeDir = OneService::platformDefaultHomePath(); if (!homeDir.length()) { fprintf(stderr,"%s: no home path specified and no platform default available"ZT_EOL_S,argv[0]); return 1; } else { std::vector hpsp(Utils::split(homeDir.c_str(),ZT_PATH_SEPARATOR_S,"","")); std::string ptmp; if (homeDir[0] == ZT_PATH_SEPARATOR) ptmp.push_back(ZT_PATH_SEPARATOR); for(std::vector::iterator pi(hpsp.begin());pi!=hpsp.end();++pi) { if (ptmp.length() > 0) ptmp.push_back(ZT_PATH_SEPARATOR); ptmp.append(*pi); if ((*pi != ".")&&(*pi != "..")) { if (!OSUtils::mkdir(ptmp)) throw std::runtime_error("home path does not exist, and could not create"); } } } #ifdef __UNIX_LIKE__ if ((!skipRootCheck)&&(getuid() != 0)) { fprintf(stderr,"%s: must be run as root (uid 0)"ZT_EOL_S,argv[0]); return 1; } if (runAsDaemon) { long p = (long)fork(); if (p < 0) { fprintf(stderr,"%s: could not fork"ZT_EOL_S,argv[0]); return 1; } else if (p > 0) return 0; // forked // else p == 0, so we are daemonized } #endif // __UNIX_LIKE__ #ifdef __WINDOWS__ // Uninstall legacy tap devices. New devices will automatically be installed and configured // when tap instances are created. WindowsEthernetTap::destroyAllLegacyPersistentTapDevices(); if (winRunFromCommandLine) { // Running in "interactive" mode (mostly for debugging) if (IsCurrentUserLocalAdministrator() != TRUE) { if (!skipRootCheck) { fprintf(stderr,"%s: must be run as a local administrator."ZT_EOL_S,argv[0]); return 1; } } else { //_winPokeAHole(); } SetConsoleCtrlHandler(&_winConsoleCtrlHandler,TRUE); // continues on to ordinary command line execution code below... } else { // Running from service manager //_winPokeAHole(); ZeroTierOneService zt1Service; if (CServiceBase::Run(zt1Service) == TRUE) { return 0; } else { fprintf(stderr,"%s: unable to start service (try -h for help)"ZT_EOL_S,argv[0]); return 1; } } #endif // __WINDOWS__ #ifdef __UNIX_LIKE__ std::string pidPath(homeDir + ZT_PATH_SEPARATOR_S + ZT1_PID_PATH); { // Write .pid file to home folder FILE *pf = fopen(pidPath.c_str(),"w"); if (pf) { fprintf(pf,"%ld",(long)getpid()); fclose(pf); } } #endif // __UNIX_LIKE__ unsigned int returnValue = 0; try { for(;;) { zt1Service = OneService::newInstance(homeDir.c_str(),port,(overrideRootTopology.length() > 0) ? overrideRootTopology.c_str() : (const char *)0); switch(zt1Service->run()) { case OneService::ONE_STILL_RUNNING: // shouldn't happen, run() won't return until done case OneService::ONE_NORMAL_TERMINATION: break; case OneService::ONE_UNRECOVERABLE_ERROR: fprintf(stderr,"%s: fatal error: %s"ZT_EOL_S,argv[0],zt1Service->fatalErrorMessage().c_str()); returnValue = 1; break; case OneService::ONE_IDENTITY_COLLISION: { delete zt1Service; zt1Service = (OneService *)0; std::string oldid; OSUtils::readFile((homeDir + ZT_PATH_SEPARATOR_S + "identity.secret").c_str(),oldid); if (oldid.length()) { OSUtils::writeFile((homeDir + ZT_PATH_SEPARATOR_S + "identity.secret.saved_after_collision").c_str(),oldid); OSUtils::rm((homeDir + ZT_PATH_SEPARATOR_S + "identity.secret").c_str()); OSUtils::rm((homeDir + ZT_PATH_SEPARATOR_S + "identity.public").c_str()); } } continue; // restart! } break; // terminate loop -- normally we don't keep restarting } } catch (std::exception &exc) { fprintf(stderr,"%s: fatal error: %s"ZT_EOL_S,argv[0],exc.what()); returnValue = 1; } catch ( ... ) { fprintf(stderr,"%s: fatal error: unknown exception"ZT_EOL_S,argv[0]); returnValue = 1; } delete zt1Service; zt1Service = (OneService *)0; #ifdef __UNIX_LIKE__ OSUtils::rm(pidPath.c_str()); #endif return returnValue; }