/* -*- Mode: C; tab-width: 4 -*- * * Copyright (c) 2002-2004 Apple Computer, Inc. All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #if __APPLE__ // In Mac OS X 10.5 and later trying to use the daemon function gives a “‘daemon’ is deprecated” // error, which prevents compilation because we build with "-Werror". // Since this is supposed to be portable cross-platform code, we don't care that daemon is // deprecated on Mac OS X 10.5, so we use this preprocessor trick to eliminate the error message. #define daemon yes_we_know_that_daemon_is_deprecated_in_os_x_10_5_thankyou #endif #include #include // For printf() #include // For exit() etc. #include // For strlen() etc. #include // For select() #include // For errno, EINTR #include #include #if __APPLE__ #undef daemon extern int daemon(int, int); #endif #include "mDNSEmbeddedAPI.h"// Defines the interface to the client layer above #include "mDNSPosix.h" // Defines the specific types needed to run mDNS on this platform #include "mDNSUNP.h" // For daemon() #if COMPILER_LIKES_PRAGMA_MARK #pragma mark ***** Globals #endif static mDNS mDNSStorage; // mDNS core uses this to store its globals static mDNS_PlatformSupport PlatformStorage; // Stores this platform's globals mDNSexport const char ProgramName[] = "mDNSResponderPosix"; static const char *gProgramName = ProgramName; #if COMPILER_LIKES_PRAGMA_MARK #pragma mark ***** Signals #endif static volatile mDNSBool gReceivedSigUsr1; static volatile mDNSBool gReceivedSigHup; static volatile mDNSBool gStopNow; // We support 4 signals. // // o SIGUSR1 toggles verbose mode on and off in debug builds // o SIGHUP triggers the program to re-read its preferences. // o SIGINT causes an orderly shutdown of the program. // o SIGQUIT causes a somewhat orderly shutdown (direct but dangerous) // o SIGKILL kills us dead (easy to implement :-) // // There are fatal race conditions in our signal handling, but there's not much // we can do about them while remaining within the Posix space. Specifically, // if a signal arrives after we test the globals its sets but before we call // select, the signal will be dropped. The user will have to send the signal // again. Unfortunately, Posix does not have a "sigselect" to atomically // modify the signal mask and start a select. static void HandleSigUsr1(int sigraised) // If we get a SIGUSR1 we toggle the state of the // verbose mode. { assert(sigraised == SIGUSR1); gReceivedSigUsr1 = mDNStrue; } static void HandleSigHup(int sigraised) // A handler for SIGHUP that causes us to break out of the // main event loop when the user kill 1's us. This has the // effect of triggered the main loop to deregister the // current services and re-read the preferences. { assert(sigraised == SIGHUP); gReceivedSigHup = mDNStrue; } static void HandleSigInt(int sigraised) // A handler for SIGINT that causes us to break out of the // main event loop when the user types ^C. This has the // effect of quitting the program. { assert(sigraised == SIGINT); if (gMDNSPlatformPosixVerboseLevel > 0) { fprintf(stderr, "\nSIGINT\n"); } gStopNow = mDNStrue; } static void HandleSigQuit(int sigraised) // If we get a SIGQUIT the user is desperate and we // just call mDNS_Close directly. This is definitely // not safe (because it could reenter mDNS), but // we presume that the user has already tried the safe // alternatives. { assert(sigraised == SIGQUIT); if (gMDNSPlatformPosixVerboseLevel > 0) { fprintf(stderr, "\nSIGQUIT\n"); } mDNS_Close(&mDNSStorage); exit(0); } #if COMPILER_LIKES_PRAGMA_MARK #pragma mark ***** Parameter Checking #endif static mDNSBool CheckThatRichTextNameIsUsable(const char *richTextName, mDNSBool printExplanation) // Checks that richTextName is reasonable // label and, if it isn't and printExplanation is true, prints // an explanation of why not. { mDNSBool result = mDNStrue; if (result && strlen(richTextName) > 63) { if (printExplanation) { fprintf(stderr, "%s: Service name is too long (must be 63 characters or less)\n", gProgramName); } result = mDNSfalse; } if (result && richTextName[0] == 0) { if (printExplanation) { fprintf(stderr, "%s: Service name can't be empty\n", gProgramName); } result = mDNSfalse; } return result; } static mDNSBool CheckThatServiceTypeIsUsable(const char *serviceType, mDNSBool printExplanation) // Checks that serviceType is a reasonable service type // label and, if it isn't and printExplanation is true, prints // an explanation of why not. { mDNSBool result; result = mDNStrue; if (result && strlen(serviceType) > 63) { if (printExplanation) { fprintf(stderr, "%s: Service type is too long (must be 63 characters or less)\n", gProgramName); } result = mDNSfalse; } if (result && serviceType[0] == 0) { if (printExplanation) { fprintf(stderr, "%s: Service type can't be empty\n", gProgramName); } result = mDNSfalse; } return result; } static mDNSBool CheckThatPortNumberIsUsable(long portNumber, mDNSBool printExplanation) // Checks that portNumber is a reasonable port number // and, if it isn't and printExplanation is true, prints // an explanation of why not. { mDNSBool result; result = mDNStrue; if (result && (portNumber <= 0 || portNumber > 65535)) { if (printExplanation) { fprintf(stderr, "%s: Port number specified by -p must be in range 1..65535\n", gProgramName); } result = mDNSfalse; } return result; } #if COMPILER_LIKES_PRAGMA_MARK #pragma mark ***** Command Line Arguments #endif static const char kDefaultPIDFile[] = "/var/run/mDNSResponder.pid"; static const char kDefaultServiceType[] = "_afpovertcp._tcp."; static const char kDefaultServiceDomain[] = "local."; enum { kDefaultPortNumber = 548 }; static void PrintUsage() { fprintf(stderr, "Usage: %s [-v level ] [-r] [-n name] [-t type] [-d domain] [-p port] [-f file] [-b] [-P pidfile] [-x name=val ...]\n", gProgramName); fprintf(stderr, " -v verbose mode, level is a number from 0 to 2\n"); fprintf(stderr, " 0 = no debugging info (default)\n"); fprintf(stderr, " 1 = standard debugging info\n"); fprintf(stderr, " 2 = intense debugging info\n"); fprintf(stderr, " can be cycled kill -USR1\n"); fprintf(stderr, " -r also bind to port 53 (port 5353 is always bound)\n"); fprintf(stderr, " -n uses 'name' as the service name (required)\n"); fprintf(stderr, " -t uses 'type' as the service type (default is '%s')\n", kDefaultServiceType); fprintf(stderr, " -d uses 'domain' as the service domain (default is '%s')\n", kDefaultServiceDomain); fprintf(stderr, " -p uses 'port' as the port number (default is '%d')\n", kDefaultPortNumber); fprintf(stderr, " -f reads a service list from 'file'\n"); fprintf(stderr, " -b forces daemon (background) mode\n"); fprintf(stderr, " -P uses 'pidfile' as the PID file\n"); fprintf(stderr, " (default is '%s')\n", kDefaultPIDFile); fprintf(stderr, " only meaningful if -b also specified\n"); fprintf(stderr, " -x stores name=val in TXT record (default is empty).\n"); fprintf(stderr, " MUST be the last command-line argument;\n"); fprintf(stderr, " all subsequent arguments after -x are treated as name=val pairs.\n"); } static mDNSBool gAvoidPort53 = mDNStrue; static const char *gServiceName = ""; static const char *gServiceType = kDefaultServiceType; static const char *gServiceDomain = kDefaultServiceDomain; static mDNSu8 gServiceText[sizeof(RDataBody)]; static mDNSu16 gServiceTextLen = 0; static int gPortNumber = kDefaultPortNumber; static const char *gServiceFile = ""; static mDNSBool gDaemon = mDNSfalse; static const char *gPIDFile = kDefaultPIDFile; static void ParseArguments(int argc, char **argv) // Parses our command line arguments into the global variables // listed above. { int ch; // Set gProgramName to the last path component of argv[0] gProgramName = strrchr(argv[0], '/'); if (gProgramName == NULL) { gProgramName = argv[0]; } else { gProgramName += 1; } // Parse command line options using getopt. do { ch = getopt(argc, argv, "v:rn:t:d:p:f:dP:bx"); if (ch != -1) { switch (ch) { case 'v': gMDNSPlatformPosixVerboseLevel = atoi(optarg); if (gMDNSPlatformPosixVerboseLevel < 0 || gMDNSPlatformPosixVerboseLevel > 2) { fprintf(stderr, "%s: Verbose mode must be in the range 0..2\n", gProgramName); exit(1); } break; case 'r': gAvoidPort53 = mDNSfalse; break; case 'n': gServiceName = optarg; if ( ! CheckThatRichTextNameIsUsable(gServiceName, mDNStrue) ) { exit(1); } break; case 't': gServiceType = optarg; if ( ! CheckThatServiceTypeIsUsable(gServiceType, mDNStrue) ) { exit(1); } break; case 'd': gServiceDomain = optarg; break; case 'p': gPortNumber = atol(optarg); if ( ! CheckThatPortNumberIsUsable(gPortNumber, mDNStrue) ) { exit(1); } break; case 'f': gServiceFile = optarg; break; case 'b': gDaemon = mDNStrue; break; case 'P': gPIDFile = optarg; break; case 'x': while (optind < argc) { gServiceText[gServiceTextLen] = strlen(argv[optind]); mDNSPlatformMemCopy(gServiceText+gServiceTextLen+1, argv[optind], gServiceText[gServiceTextLen]); gServiceTextLen += 1 + gServiceText[gServiceTextLen]; optind++; } ch = -1; break; case '?': default: PrintUsage(); exit(1); break; } } } while (ch != -1); // Check for any left over command line arguments. if (optind != argc) { PrintUsage(); fprintf(stderr, "%s: Unexpected argument '%s'\n", gProgramName, argv[optind]); exit(1); } // Check for inconsistency between the arguments. if ( (gServiceName[0] == 0) && (gServiceFile[0] == 0) ) { PrintUsage(); fprintf(stderr, "%s: You must specify a service name to register (-n) or a service file (-f).\n", gProgramName); exit(1); } } #if COMPILER_LIKES_PRAGMA_MARK #pragma mark ***** Registration #endif typedef struct PosixService PosixService; struct PosixService { ServiceRecordSet coreServ; PosixService *next; int serviceID; }; static PosixService *gServiceList = NULL; static void RegistrationCallback(mDNS *const m, ServiceRecordSet *const thisRegistration, mStatus status) // mDNS core calls this routine to tell us about the status of // our registration. The appropriate action to take depends // entirely on the value of status. { switch (status) { case mStatus_NoError: debugf("Callback: %##s Name Registered", thisRegistration->RR_SRV.resrec.name->c); // Do nothing; our name was successfully registered. We may // get more call backs in the future. break; case mStatus_NameConflict: debugf("Callback: %##s Name Conflict", thisRegistration->RR_SRV.resrec.name->c); // In the event of a conflict, this sample RegistrationCallback // just calls mDNS_RenameAndReregisterService to automatically // pick a new unique name for the service. For a device such as a // printer, this may be appropriate. For a device with a user // interface, and a screen, and a keyboard, the appropriate response // may be to prompt the user and ask them to choose a new name for // the service. // // Also, what do we do if mDNS_RenameAndReregisterService returns an // error. Right now I have no place to send that error to. status = mDNS_RenameAndReregisterService(m, thisRegistration, mDNSNULL); assert(status == mStatus_NoError); break; case mStatus_MemFree: debugf("Callback: %##s Memory Free", thisRegistration->RR_SRV.resrec.name->c); // When debugging is enabled, make sure that thisRegistration // is not on our gServiceList. #if !defined(NDEBUG) { PosixService *cursor; cursor = gServiceList; while (cursor != NULL) { assert(&cursor->coreServ != thisRegistration); cursor = cursor->next; } } #endif free(thisRegistration); break; default: debugf("Callback: %##s Unknown Status %ld", thisRegistration->RR_SRV.resrec.name->c, status); break; } } static int gServiceID = 0; static mStatus RegisterOneService(const char * richTextName, const char * serviceType, const char * serviceDomain, const mDNSu8 text[], mDNSu16 textLen, long portNumber) { mStatus status; PosixService * thisServ; domainlabel name; domainname type; domainname domain; status = mStatus_NoError; thisServ = (PosixService *) malloc(sizeof(*thisServ)); if (thisServ == NULL) { status = mStatus_NoMemoryErr; } if (status == mStatus_NoError) { MakeDomainLabelFromLiteralString(&name, richTextName); MakeDomainNameFromDNSNameString(&type, serviceType); MakeDomainNameFromDNSNameString(&domain, serviceDomain); status = mDNS_RegisterService(&mDNSStorage, &thisServ->coreServ, &name, &type, &domain, // Name, type, domain NULL, mDNSOpaque16fromIntVal(portNumber), text, textLen, // TXT data, length NULL, 0, // Subtypes mDNSInterface_Any, // Interface ID RegistrationCallback, thisServ, 0); // Callback, context, flags } if (status == mStatus_NoError) { thisServ->serviceID = gServiceID; gServiceID += 1; thisServ->next = gServiceList; gServiceList = thisServ; if (gMDNSPlatformPosixVerboseLevel > 0) { fprintf(stderr, "%s: Registered service %d, name \"%s\", type \"%s\", domain \"%s\", port %ld\n", gProgramName, thisServ->serviceID, richTextName, serviceType, serviceDomain, portNumber); } } else { if (thisServ != NULL) { free(thisServ); } } return status; } static mDNSBool ReadALine(char *buf, size_t bufSize, FILE *fp, mDNSBool skipBlankLines) { size_t len; mDNSBool readNextLine; do { readNextLine = mDNSfalse; if (fgets(buf, bufSize, fp) == NULL) return mDNSfalse; // encountered EOF or an error condition // These first characters indicate a blank line. if (buf[0] == ' ' || buf[0] == '\t' || buf[0] == '\r' || buf[0] == '\n') { if (!skipBlankLines) return mDNSfalse; readNextLine = mDNStrue; } // always skip comment lines if (buf[0] == '#') readNextLine = mDNStrue; } while (readNextLine); len = strlen( buf); if ( buf[len - 1] == '\r' || buf[len - 1] == '\n') buf[len - 1] = '\0'; return mDNStrue; } static mStatus RegisterServicesInFile(const char *filePath) { mStatus status = mStatus_NoError; FILE * fp = fopen(filePath, "r"); if (fp == NULL) { return mStatus_UnknownErr; } if (gMDNSPlatformPosixVerboseLevel > 1) fprintf(stderr, "Parsing %s for services\n", filePath); do { char nameBuf[256]; char * name = nameBuf; char type[256]; const char *dom = kDefaultServiceDomain; char rawText[1024]; mDNSu8 text[sizeof(RDataBody)]; unsigned int textLen = 0; char port[256]; char *p; // Read the service name, type, port, and optional text record fields. // Skip blank lines while looking for the next service name. if (! ReadALine(name, sizeof(nameBuf), fp, mDNStrue)) break; // Special case that allows service name to begin with a '#' // character by escaping it with a '\' to distiguish it from // a comment line. Remove the leading '\' here before // registering the service. if (name[0] == '\\' && name[1] == '#') name++; if (gMDNSPlatformPosixVerboseLevel > 1) fprintf(stderr, "Service name: \"%s\"\n", name); // Don't skip blank lines in calls to ReadAline() after finding the // service name since the next blank line indicates the end // of this service record. if (! ReadALine(type, sizeof(type), fp, mDNSfalse)) break; // see if a domain name is specified p = type; while (*p && *p != ' ' && *p != '\t') p++; if (*p) { *p = 0; // NULL terminate the . string // skip any leading whitespace before domain name p++; while (*p && (*p == ' ' || *p == '\t')) p++; if (*p) dom = p; } if (gMDNSPlatformPosixVerboseLevel > 1) { fprintf(stderr, "Service type: \"%s\"\n", type); fprintf(stderr, "Service domain: \"%s\"\n", dom); } if (! ReadALine(port, sizeof(port), fp, mDNSfalse)) break; if (gMDNSPlatformPosixVerboseLevel > 1) fprintf(stderr, "Service port: %s\n", port); if ( ! CheckThatRichTextNameIsUsable(name, mDNStrue) || ! CheckThatServiceTypeIsUsable(type, mDNStrue) || ! CheckThatPortNumberIsUsable(atol(port), mDNStrue)) break; // read the TXT record fields while (1) { int len; if (!ReadALine(rawText, sizeof(rawText), fp, mDNSfalse)) break; if (gMDNSPlatformPosixVerboseLevel > 1) fprintf(stderr, "Text string: \"%s\"\n", rawText); len = strlen(rawText); if (len <= 255) { unsigned int newlen = textLen + 1 + len; if (len == 0 || newlen >= sizeof(text)) break; text[textLen] = len; mDNSPlatformMemCopy(text + textLen + 1, rawText, len); textLen = newlen; } else fprintf(stderr, "%s: TXT attribute too long for name = %s, type = %s, port = %s\n", gProgramName, name, type, port); } status = RegisterOneService(name, type, dom, text, textLen, atol(port)); if (status != mStatus_NoError) { // print error, but try to read and register other services in the file fprintf(stderr, "%s: Failed to register service, name \"%s\", type \"%s\", domain \"%s\", port %s\n", gProgramName, name, type, dom, port); } } while (!feof(fp)); if (!feof(fp)) { fprintf(stderr, "%s: Error reading service file %s\n", gProgramName, filePath); status = mStatus_UnknownErr; } { // __ANDROID__ : replaced assert(fclose(..)) int fp_closed = fclose(fp); assert(0 == fp_closed); } return status; } static mStatus RegisterOurServices(void) { mStatus status; status = mStatus_NoError; if (gServiceName[0] != 0) { status = RegisterOneService(gServiceName, gServiceType, gServiceDomain, gServiceText, gServiceTextLen, gPortNumber); } if (status == mStatus_NoError && gServiceFile[0] != 0) { status = RegisterServicesInFile(gServiceFile); } return status; } static void DeregisterOurServices(void) { PosixService *thisServ; int thisServID; while (gServiceList != NULL) { thisServ = gServiceList; gServiceList = thisServ->next; thisServID = thisServ->serviceID; mDNS_DeregisterService(&mDNSStorage, &thisServ->coreServ); if (gMDNSPlatformPosixVerboseLevel > 0) { fprintf(stderr, "%s: Deregistered service %d\n", gProgramName, thisServ->serviceID); } } } #if COMPILER_LIKES_PRAGMA_MARK #pragma mark **** Main #endif int main(int argc, char **argv) { mStatus status; int result; // Parse our command line arguments. This won't come back if there's an error. ParseArguments(argc, argv); // If we're told to run as a daemon, then do that straight away. // Note that we don't treat the inability to create our PID // file as an error. Also note that we assign getpid to a long // because printf has no format specified for pid_t. if (gDaemon) { int result; if (gMDNSPlatformPosixVerboseLevel > 0) { fprintf(stderr, "%s: Starting in daemon mode\n", gProgramName); } result = daemon(0,0); if (result == 0) { FILE *fp; int junk; fp = fopen(gPIDFile, "w"); if (fp != NULL) { fprintf(fp, "%ld\n", (long) getpid()); junk = fclose(fp); assert(junk == 0); } } else { fprintf(stderr, "%s: Could not run as daemon - exiting\n", gProgramName); exit(result); } } else { if (gMDNSPlatformPosixVerboseLevel > 0) { fprintf(stderr, "%s: Starting in foreground mode, PID %ld\n", gProgramName, (long) getpid()); } } status = mDNS_Init(&mDNSStorage, &PlatformStorage, mDNS_Init_NoCache, mDNS_Init_ZeroCacheSize, mDNS_Init_AdvertiseLocalAddresses, mDNS_Init_NoInitCallback, mDNS_Init_NoInitCallbackContext); if (status != mStatus_NoError) return(2); status = RegisterOurServices(); if (status != mStatus_NoError) return(2); signal(SIGHUP, HandleSigHup); // SIGHUP has to be sent by kill -HUP signal(SIGINT, HandleSigInt); // SIGINT is what you get for a Ctrl-C signal(SIGQUIT, HandleSigQuit); // SIGQUIT is what you get for a Ctrl-\ (indeed) signal(SIGUSR1, HandleSigUsr1); // SIGUSR1 has to be sent by kill -USR1 while (!gStopNow) { int nfds = 0; fd_set readfds; struct timeval timeout; int result; // 1. Set up the fd_set as usual here. // This example client has no file descriptors of its own, // but a real application would call FD_SET to add them to the set here FD_ZERO(&readfds); // 2. Set up the timeout. // This example client has no other work it needs to be doing, // so we set an effectively infinite timeout timeout.tv_sec = 0x3FFFFFFF; timeout.tv_usec = 0; // 3. Give the mDNSPosix layer a chance to add its information to the fd_set and timeout mDNSPosixGetFDSet(&mDNSStorage, &nfds, &readfds, &timeout); // 4. Call select as normal verbosedebugf("select(%d, %d.%06d)", nfds, timeout.tv_sec, timeout.tv_usec); result = select(nfds, &readfds, NULL, NULL, &timeout); if (result < 0) { verbosedebugf("select() returned %d errno %d", result, errno); if (errno != EINTR) gStopNow = mDNStrue; else { if (gReceivedSigUsr1) { gReceivedSigUsr1 = mDNSfalse; gMDNSPlatformPosixVerboseLevel += 1; if (gMDNSPlatformPosixVerboseLevel > 2) gMDNSPlatformPosixVerboseLevel = 0; if ( gMDNSPlatformPosixVerboseLevel > 0 ) fprintf(stderr, "\nVerbose level %d\n", gMDNSPlatformPosixVerboseLevel); } if (gReceivedSigHup) { if (gMDNSPlatformPosixVerboseLevel > 0) fprintf(stderr, "\nSIGHUP\n"); gReceivedSigHup = mDNSfalse; DeregisterOurServices(); status = mDNSPlatformPosixRefreshInterfaceList(&mDNSStorage); if (status != mStatus_NoError) break; status = RegisterOurServices(); if (status != mStatus_NoError) break; } } } else { // 5. Call mDNSPosixProcessFDSet to let the mDNSPosix layer do its work mDNSPosixProcessFDSet(&mDNSStorage, &readfds); // 6. This example client has no other work it needs to be doing, // but a real client would do its work here // ... (do work) ... } } debugf("Exiting"); DeregisterOurServices(); mDNS_Close(&mDNSStorage); if (status == mStatus_NoError) { result = 0; } else { result = 2; } if ( (result != 0) || (gMDNSPlatformPosixVerboseLevel > 0) ) { fprintf(stderr, "%s: Finished with status %d, result %d\n", gProgramName, (int)status, result); } return result; }