/* -*- Mode: C; tab-width: 4 -*- * * Copyright (c) 2003-2004, Apple Computer, Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. Neither the name of Apple Computer, Inc. ("Apple") nor the names of its * contributors may be used to endorse or promote products derived from this * software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY APPLE AND ITS CONTRIBUTORS "AS IS" AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL APPLE OR ITS CONTRIBUTORS BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #if APPLE_OSX_mDNSResponder #include #include #include #endif #include "dnssd_ipc.h" #if defined(_WIN32) #define _SSIZE_T #include #include #include #include #include #include #include #define sockaddr_mdns sockaddr_in #define AF_MDNS AF_INET // Disable warning: "'type cast' : from data pointer 'void *' to function pointer" #pragma warning(disable:4055) // Disable warning: "nonstandard extension, function/data pointer conversion in expression" #pragma warning(disable:4152) extern BOOL IsSystemServiceDisabled(); #define sleep(X) Sleep((X) * 1000) static int g_initWinsock = 0; #define LOG_WARNING kDebugLevelWarning #define LOG_INFO kDebugLevelInfo static void syslog( int priority, const char * message, ...) { va_list args; int len; char * buffer; DWORD err = WSAGetLastError(); (void) priority; va_start( args, message ); len = _vscprintf( message, args ) + 1; buffer = malloc( len * sizeof(char) ); if ( buffer ) { vsprintf( buffer, message, args ); OutputDebugString( buffer ); free( buffer ); } WSASetLastError( err ); } #else #include // For O_RDWR etc. #include #include #include #define sockaddr_mdns sockaddr_un #define AF_MDNS AF_LOCAL #endif // Specifies how many times we'll try and connect to the server. #define DNSSD_CLIENT_MAXTRIES 4 // Uncomment the line below to use the old error return mechanism of creating a temporary named socket (e.g. in /var/tmp) //#define USE_NAMED_ERROR_RETURN_SOCKET 1 // If the UDS client has not received a response from the daemon in 60 secs, it is unlikely to get one // Note: Timeout of 3 secs should be sufficient in normal scenarios, but 60 secs is chosen as a safeguard since // some clients may come up before mDNSResponder itself after a BOOT and on rare ocassions IOPM/Keychain/D2D calls // in mDNSResponder's INIT may take a much longer time to return #define DNSSD_CLIENT_TIMEOUT 60 #ifndef CTL_PATH_PREFIX #define CTL_PATH_PREFIX "/var/tmp/dnssd_result_socket." #endif typedef struct { ipc_msg_hdr ipc_hdr; DNSServiceFlags cb_flags; uint32_t cb_interface; DNSServiceErrorType cb_err; } CallbackHeader; typedef struct _DNSServiceRef_t DNSServiceOp; typedef struct _DNSRecordRef_t DNSRecord; #if !defined(_WIN32) typedef struct { void *AppCallback; // Client callback function and context void *AppContext; } SleepKAContext; #endif // client stub callback to process message from server and deliver results to client application typedef void (*ProcessReplyFn)(DNSServiceOp *const sdr, const CallbackHeader *const cbh, const char *msg, const char *const end); #define ValidatorBits 0x12345678 #define DNSServiceRefValid(X) (dnssd_SocketValid((X)->sockfd) && (((X)->sockfd ^ (X)->validator) == ValidatorBits)) // When using kDNSServiceFlagsShareConnection, there is one primary _DNSServiceOp_t, and zero or more subordinates // For the primary, the 'next' field points to the first subordinate, and its 'next' field points to the next, and so on. // For the primary, the 'primary' field is NULL; for subordinates the 'primary' field points back to the associated primary // // _DNS_SD_LIBDISPATCH is defined where libdispatch/GCD is available. This does not mean that the application will use the // DNSServiceSetDispatchQueue API. Hence any new code guarded with _DNS_SD_LIBDISPATCH should still be backwards compatible. struct _DNSServiceRef_t { DNSServiceOp *next; // For shared connection DNSServiceOp *primary; // For shared connection dnssd_sock_t sockfd; // Connected socket between client and daemon dnssd_sock_t validator; // Used to detect memory corruption, double disposals, etc. client_context_t uid; // For shared connection requests, each subordinate DNSServiceRef has its own ID, // unique within the scope of the same shared parent DNSServiceRef uint32_t op; // request_op_t or reply_op_t uint32_t max_index; // Largest assigned record index - 0 if no additional records registered uint32_t logcounter; // Counter used to control number of syslog messages we write int *moreptr; // Set while DNSServiceProcessResult working on this particular DNSServiceRef ProcessReplyFn ProcessReply; // Function pointer to the code to handle received messages void *AppCallback; // Client callback function and context void *AppContext; DNSRecord *rec; #if _DNS_SD_LIBDISPATCH dispatch_source_t disp_source; dispatch_queue_t disp_queue; #endif void *kacontext; }; struct _DNSRecordRef_t { DNSRecord *recnext; void *AppContext; DNSServiceRegisterRecordReply AppCallback; DNSRecordRef recref; uint32_t record_index; // index is unique to the ServiceDiscoveryRef client_context_t uid; // For demultiplexing multiple DNSServiceRegisterRecord calls DNSServiceOp *sdr; }; // Write len bytes. Return 0 on success, -1 on error static int write_all(dnssd_sock_t sd, char *buf, size_t len) { // Don't use "MSG_WAITALL"; it returns "Invalid argument" on some Linux versions; use an explicit while() loop instead. //if (send(sd, buf, len, MSG_WAITALL) != len) return -1; while (len) { ssize_t num_written = send(sd, buf, (long)len, 0); if (num_written < 0 || (size_t)num_written > len) { // Should never happen. If it does, it indicates some OS bug, // or that the mDNSResponder daemon crashed (which should never happen). #if !defined(__ppc__) && defined(SO_ISDEFUNCT) int defunct; socklen_t dlen = sizeof (defunct); if (getsockopt(sd, SOL_SOCKET, SO_ISDEFUNCT, &defunct, &dlen) < 0) syslog(LOG_WARNING, "dnssd_clientstub write_all: SO_ISDEFUNCT failed %d %s", dnssd_errno, dnssd_strerror(dnssd_errno)); if (!defunct) syslog(LOG_WARNING, "dnssd_clientstub write_all(%d) failed %ld/%ld %d %s", sd, (long)num_written, (long)len, (num_written < 0) ? dnssd_errno : 0, (num_written < 0) ? dnssd_strerror(dnssd_errno) : ""); else syslog(LOG_INFO, "dnssd_clientstub write_all(%d) DEFUNCT", sd); #else syslog(LOG_WARNING, "dnssd_clientstub write_all(%d) failed %ld/%ld %d %s", sd, (long)num_written, (long)len, (num_written < 0) ? dnssd_errno : 0, (num_written < 0) ? dnssd_strerror(dnssd_errno) : ""); #endif return -1; } buf += num_written; len -= num_written; } return 0; } enum { read_all_success = 0, read_all_fail = -1, read_all_wouldblock = -2 }; // Read len bytes. Return 0 on success, read_all_fail on error, or read_all_wouldblock for static int read_all(dnssd_sock_t sd, char *buf, int len) { // Don't use "MSG_WAITALL"; it returns "Invalid argument" on some Linux versions; use an explicit while() loop instead. //if (recv(sd, buf, len, MSG_WAITALL) != len) return -1; while (len) { ssize_t num_read = recv(sd, buf, len, 0); // It is valid to get an interrupted system call error e.g., somebody attaching // in a debugger, retry without failing if ((num_read < 0) && (errno == EINTR)) { syslog(LOG_INFO, "dnssd_clientstub read_all: EINTR continue"); continue; } if ((num_read == 0) || (num_read < 0) || (num_read > len)) { int printWarn = 0; int defunct = 0; // Should never happen. If it does, it indicates some OS bug, // or that the mDNSResponder daemon crashed (which should never happen). #if defined(WIN32) // Suppress logs for "A non-blocking socket operation // could not be completed immediately" if (WSAGetLastError() != WSAEWOULDBLOCK) printWarn = 1; #endif #if !defined(__ppc__) && defined(SO_ISDEFUNCT) { socklen_t dlen = sizeof (defunct); if (getsockopt(sd, SOL_SOCKET, SO_ISDEFUNCT, &defunct, &dlen) < 0) syslog(LOG_WARNING, "dnssd_clientstub read_all: SO_ISDEFUNCT failed %d %s", dnssd_errno, dnssd_strerror(dnssd_errno)); } if (!defunct) printWarn = 1; #endif if (printWarn) syslog(LOG_WARNING, "dnssd_clientstub read_all(%d) failed %ld/%ld %d %s", sd, (long)num_read, (long)len, (num_read < 0) ? dnssd_errno : 0, (num_read < 0) ? dnssd_strerror(dnssd_errno) : ""); else if (defunct) syslog(LOG_INFO, "dnssd_clientstub read_all(%d) DEFUNCT", sd); return (num_read < 0 && dnssd_errno == dnssd_EWOULDBLOCK) ? read_all_wouldblock : read_all_fail; } buf += num_read; len -= num_read; } return read_all_success; } // Returns 1 if more bytes remain to be read on socket descriptor sd, 0 otherwise static int more_bytes(dnssd_sock_t sd) { struct timeval tv = { 0, 0 }; fd_set readfds; fd_set *fs; int ret; if (sd < FD_SETSIZE) { fs = &readfds; FD_ZERO(fs); } else { // Compute the number of integers needed for storing "sd". Internally fd_set is stored // as an array of ints with one bit for each fd and hence we need to compute // the number of ints needed rather than the number of bytes. If "sd" is 32, we need // two ints and not just one. int nfdbits = sizeof (int) * 8; int nints = (sd/nfdbits) + 1; fs = (fd_set *)calloc(nints, sizeof(int)); if (fs == NULL) { syslog(LOG_WARNING, "dnssd_clientstub more_bytes: malloc failed"); return 0; } } FD_SET(sd, fs); ret = select((int)sd+1, fs, (fd_set*)NULL, (fd_set*)NULL, &tv); if (fs != &readfds) free(fs); return (ret > 0); } // set_waitlimit() implements a timeout using select. It is called from deliver_request() before recv() OR accept() // to ensure the UDS clients are not blocked in these system calls indefinitely. // Note: Ideally one should never be blocked here, because it indicates either mDNSResponder daemon is not yet up/hung/ // superbusy/crashed or some other OS bug. For eg: On Windows which suffers from 3rd party software // (primarily 3rd party firewall software) interfering with proper functioning of the TCP protocol stack it is possible // the next operation on this socket(recv/accept) is blocked since we depend on TCP to communicate with the system service. static int set_waitlimit(dnssd_sock_t sock, int timeout) { int gDaemonErr = kDNSServiceErr_NoError; // To prevent stack corruption since select does not work with timeout if fds > FD_SETSIZE(1024) if (!gDaemonErr && sock < FD_SETSIZE) { struct timeval tv; fd_set set; FD_ZERO(&set); FD_SET(sock, &set); tv.tv_sec = timeout; tv.tv_usec = 0; if (!select((int)(sock + 1), &set, NULL, NULL, &tv)) { // Ideally one should never hit this case: See comments before set_waitlimit() syslog(LOG_WARNING, "dnssd_clientstub set_waitlimit:_daemon timed out (%d secs) without any response: Socket %d", timeout, sock); gDaemonErr = kDNSServiceErr_Timeout; } } return gDaemonErr; } /* create_hdr * * allocate and initialize an ipc message header. Value of len should initially be the * length of the data, and is set to the value of the data plus the header. data_start * is set to point to the beginning of the data section. SeparateReturnSocket should be * non-zero for calls that can't receive an immediate error return value on their primary * socket, and therefore require a separate return path for the error code result. * if zero, the path to a control socket is appended at the beginning of the message buffer. * data_start is set past this string. */ static ipc_msg_hdr *create_hdr(uint32_t op, size_t *len, char **data_start, int SeparateReturnSocket, DNSServiceOp *ref) { char *msg = NULL; ipc_msg_hdr *hdr; int datalen; #if !defined(USE_TCP_LOOPBACK) char ctrl_path[64] = ""; // "/var/tmp/dnssd_result_socket.xxxxxxxxxx-xxx-xxxxxx" #endif if (SeparateReturnSocket) { #if defined(USE_TCP_LOOPBACK) *len += 2; // Allocate space for two-byte port number #elif defined(USE_NAMED_ERROR_RETURN_SOCKET) struct timeval tv; if (gettimeofday(&tv, NULL) < 0) { syslog(LOG_WARNING, "dnssd_clientstub create_hdr: gettimeofday failed %d %s", dnssd_errno, dnssd_strerror(dnssd_errno)); return NULL; } sprintf(ctrl_path, "%s%d-%.3lx-%.6lu", CTL_PATH_PREFIX, (int)getpid(), (unsigned long)(tv.tv_sec & 0xFFF), (unsigned long)(tv.tv_usec)); *len += strlen(ctrl_path) + 1; #else *len += 1; // Allocate space for single zero byte (empty C string) #endif } datalen = (int) *len; *len += sizeof(ipc_msg_hdr); // Write message to buffer msg = malloc(*len); if (!msg) { syslog(LOG_WARNING, "dnssd_clientstub create_hdr: malloc failed"); return NULL; } memset(msg, 0, *len); hdr = (ipc_msg_hdr *)msg; hdr->version = VERSION; hdr->datalen = datalen; hdr->ipc_flags = 0; hdr->op = op; hdr->client_context = ref->uid; hdr->reg_index = 0; *data_start = msg + sizeof(ipc_msg_hdr); #if defined(USE_TCP_LOOPBACK) // Put dummy data in for the port, since we don't know what it is yet. // The data will get filled in before we send the message. This happens in deliver_request(). if (SeparateReturnSocket) put_uint16(0, data_start); #else if (SeparateReturnSocket) put_string(ctrl_path, data_start); #endif return hdr; } static void FreeDNSRecords(DNSServiceOp *sdRef) { DNSRecord *rec = sdRef->rec; while (rec) { DNSRecord *next = rec->recnext; free(rec); rec = next; } } static void FreeDNSServiceOp(DNSServiceOp *x) { // We don't use our DNSServiceRefValid macro here because if we're cleaning up after a socket() call failed // then sockfd could legitimately contain a failing value (e.g. dnssd_InvalidSocket) if ((x->sockfd ^ x->validator) != ValidatorBits) syslog(LOG_WARNING, "dnssd_clientstub attempt to dispose invalid DNSServiceRef %p %08X %08X", x, x->sockfd, x->validator); else { x->next = NULL; x->primary = NULL; x->sockfd = dnssd_InvalidSocket; x->validator = 0xDDDDDDDD; x->op = request_op_none; x->max_index = 0; x->logcounter = 0; x->moreptr = NULL; x->ProcessReply = NULL; x->AppCallback = NULL; x->AppContext = NULL; #if _DNS_SD_LIBDISPATCH if (x->disp_source) dispatch_release(x->disp_source); x->disp_source = NULL; x->disp_queue = NULL; #endif // DNSRecords may have been added to subordinate sdRef e.g., DNSServiceRegister/DNSServiceAddRecord // or on the main sdRef e.g., DNSServiceCreateConnection/DNSServiveRegisterRecord. DNSRecords may have // been freed if the application called DNSRemoveRecord FreeDNSRecords(x); if (x->kacontext) { free(x->kacontext); x->kacontext = NULL; } free(x); } } // Return a connected service ref (deallocate with DNSServiceRefDeallocate) static DNSServiceErrorType ConnectToServer(DNSServiceRef *ref, DNSServiceFlags flags, uint32_t op, ProcessReplyFn ProcessReply, void *AppCallback, void *AppContext) { int NumTries = 0; dnssd_sockaddr_t saddr; DNSServiceOp *sdr; if (!ref) { syslog(LOG_WARNING, "dnssd_clientstub DNSService operation with NULL DNSServiceRef"); return kDNSServiceErr_BadParam; } if (flags & kDNSServiceFlagsShareConnection) { if (!*ref) { syslog(LOG_WARNING, "dnssd_clientstub kDNSServiceFlagsShareConnection used with NULL DNSServiceRef"); return kDNSServiceErr_BadParam; } if (!DNSServiceRefValid(*ref) || ((*ref)->op != connection_request && (*ref)->op != connection_delegate_request) || (*ref)->primary) { syslog(LOG_WARNING, "dnssd_clientstub kDNSServiceFlagsShareConnection used with invalid DNSServiceRef %p %08X %08X op %d", (*ref), (*ref)->sockfd, (*ref)->validator, (*ref)->op); *ref = NULL; return kDNSServiceErr_BadReference; } } #if defined(_WIN32) if (!g_initWinsock) { WSADATA wsaData; g_initWinsock = 1; if (WSAStartup(MAKEWORD(2,2), &wsaData) != 0) { *ref = NULL; return kDNSServiceErr_ServiceNotRunning; } } // If the system service is disabled, we only want to try to connect once if (IsSystemServiceDisabled()) NumTries = DNSSD_CLIENT_MAXTRIES; #endif sdr = malloc(sizeof(DNSServiceOp)); if (!sdr) { syslog(LOG_WARNING, "dnssd_clientstub ConnectToServer: malloc failed"); *ref = NULL; return kDNSServiceErr_NoMemory; } sdr->next = NULL; sdr->primary = NULL; sdr->sockfd = dnssd_InvalidSocket; sdr->validator = sdr->sockfd ^ ValidatorBits; sdr->op = op; sdr->max_index = 0; sdr->logcounter = 0; sdr->moreptr = NULL; sdr->uid.u32[0] = 0; sdr->uid.u32[1] = 0; sdr->ProcessReply = ProcessReply; sdr->AppCallback = AppCallback; sdr->AppContext = AppContext; sdr->rec = NULL; #if _DNS_SD_LIBDISPATCH sdr->disp_source = NULL; sdr->disp_queue = NULL; #endif sdr->kacontext = NULL; if (flags & kDNSServiceFlagsShareConnection) { DNSServiceOp **p = &(*ref)->next; // Append ourselves to end of primary's list while (*p) p = &(*p)->next; *p = sdr; // Preincrement counter before we use it -- it helps with debugging if we know the all-zeroes ID should never appear if (++(*ref)->uid.u32[0] == 0) ++(*ref)->uid.u32[1]; // In parent DNSServiceOp increment UID counter sdr->primary = *ref; // Set our primary pointer sdr->sockfd = (*ref)->sockfd; // Inherit primary's socket sdr->validator = (*ref)->validator; sdr->uid = (*ref)->uid; //printf("ConnectToServer sharing socket %d\n", sdr->sockfd); } else { #ifdef SO_NOSIGPIPE const unsigned long optval = 1; #endif #ifndef USE_TCP_LOOPBACK char* uds_serverpath = getenv(MDNS_UDS_SERVERPATH_ENVVAR); if (uds_serverpath == NULL) uds_serverpath = MDNS_UDS_SERVERPATH; #endif *ref = NULL; sdr->sockfd = socket(AF_DNSSD, SOCK_STREAM, 0); sdr->validator = sdr->sockfd ^ ValidatorBits; if (!dnssd_SocketValid(sdr->sockfd)) { syslog(LOG_WARNING, "dnssd_clientstub ConnectToServer: socket failed %d %s", dnssd_errno, dnssd_strerror(dnssd_errno)); FreeDNSServiceOp(sdr); return kDNSServiceErr_NoMemory; } #ifdef SO_NOSIGPIPE // Some environments (e.g. OS X) support turning off SIGPIPE for a socket if (setsockopt(sdr->sockfd, SOL_SOCKET, SO_NOSIGPIPE, &optval, sizeof(optval)) < 0) syslog(LOG_WARNING, "dnssd_clientstub ConnectToServer: SO_NOSIGPIPE failed %d %s", dnssd_errno, dnssd_strerror(dnssd_errno)); #endif #if defined(USE_TCP_LOOPBACK) saddr.sin_family = AF_INET; saddr.sin_addr.s_addr = inet_addr(MDNS_TCP_SERVERADDR); saddr.sin_port = htons(MDNS_TCP_SERVERPORT); #else saddr.sun_family = AF_LOCAL; strcpy(saddr.sun_path, uds_serverpath); #if !defined(__ppc__) && defined(SO_DEFUNCTOK) { int defunct = 1; if (setsockopt(sdr->sockfd, SOL_SOCKET, SO_DEFUNCTOK, &defunct, sizeof(defunct)) < 0) syslog(LOG_WARNING, "dnssd_clientstub ConnectToServer: SO_DEFUNCTOK failed %d %s", dnssd_errno, dnssd_strerror(dnssd_errno)); } #endif #endif while (1) { int err = connect(sdr->sockfd, (struct sockaddr *) &saddr, sizeof(saddr)); if (!err) break; // If we succeeded, return sdr // If we failed, then it may be because the daemon is still launching. // This can happen for processes that launch early in the boot process, while the // daemon is still coming up. Rather than fail here, we wait 1 sec and try again. // If, after DNSSD_CLIENT_MAXTRIES, we still can't connect to the daemon, // then we give up and return a failure code. if (++NumTries < DNSSD_CLIENT_MAXTRIES) { syslog(LOG_WARNING, "dnssd_clientstub ConnectToServer: connect()-> No of tries: %d", NumTries); sleep(1); // Sleep a bit, then try again } else { syslog(LOG_WARNING, "dnssd_clientstub ConnectToServer: connect() failed path:%s Socket:%d Err:%d Errno:%d %s", uds_serverpath, sdr->sockfd, err, dnssd_errno, dnssd_strerror(dnssd_errno)); dnssd_close(sdr->sockfd); FreeDNSServiceOp(sdr); return kDNSServiceErr_ServiceNotRunning; } } //printf("ConnectToServer opened socket %d\n", sdr->sockfd); } *ref = sdr; return kDNSServiceErr_NoError; } #define deliver_request_bailout(MSG) \ do { syslog(LOG_WARNING, "dnssd_clientstub deliver_request: %s failed %d (%s)", (MSG), dnssd_errno, dnssd_strerror(dnssd_errno)); goto cleanup; } while(0) static DNSServiceErrorType deliver_request(ipc_msg_hdr *hdr, DNSServiceOp *sdr) { uint32_t datalen = hdr->datalen; // We take a copy here because we're going to convert hdr->datalen to network byte order #if defined(USE_TCP_LOOPBACK) || defined(USE_NAMED_ERROR_RETURN_SOCKET) char *const data = (char *)hdr + sizeof(ipc_msg_hdr); #endif dnssd_sock_t listenfd = dnssd_InvalidSocket, errsd = dnssd_InvalidSocket; DNSServiceErrorType err = kDNSServiceErr_Unknown; // Default for the "goto cleanup" cases int MakeSeparateReturnSocket = 0; // Note: need to check hdr->op, not sdr->op. // hdr->op contains the code for the specific operation we're currently doing, whereas sdr->op // contains the original parent DNSServiceOp (e.g. for an add_record_request, hdr->op will be // add_record_request but the parent sdr->op will be connection_request or reg_service_request) if (sdr->primary || hdr->op == reg_record_request || hdr->op == add_record_request || hdr->op == update_record_request || hdr->op == remove_record_request) MakeSeparateReturnSocket = 1; if (!DNSServiceRefValid(sdr)) { if (hdr) free(hdr); syslog(LOG_WARNING, "dnssd_clientstub deliver_request: invalid DNSServiceRef %p %08X %08X", sdr, sdr->sockfd, sdr->validator); return kDNSServiceErr_BadReference; } if (!hdr) { syslog(LOG_WARNING, "dnssd_clientstub deliver_request: !hdr"); return kDNSServiceErr_Unknown; } if (MakeSeparateReturnSocket) { #if defined(USE_TCP_LOOPBACK) { union { uint16_t s; u_char b[2]; } port; dnssd_sockaddr_t caddr; dnssd_socklen_t len = (dnssd_socklen_t) sizeof(caddr); listenfd = socket(AF_DNSSD, SOCK_STREAM, 0); if (!dnssd_SocketValid(listenfd)) deliver_request_bailout("TCP socket"); caddr.sin_family = AF_INET; caddr.sin_port = 0; caddr.sin_addr.s_addr = inet_addr(MDNS_TCP_SERVERADDR); if (bind(listenfd, (struct sockaddr*) &caddr, sizeof(caddr)) < 0) deliver_request_bailout("TCP bind"); if (getsockname(listenfd, (struct sockaddr*) &caddr, &len) < 0) deliver_request_bailout("TCP getsockname"); if (listen(listenfd, 1) < 0) deliver_request_bailout("TCP listen"); port.s = caddr.sin_port; data[0] = port.b[0]; // don't switch the byte order, as the data[1] = port.b[1]; // daemon expects it in network byte order } #elif defined(USE_NAMED_ERROR_RETURN_SOCKET) { mode_t mask; int bindresult; dnssd_sockaddr_t caddr; listenfd = socket(AF_DNSSD, SOCK_STREAM, 0); if (!dnssd_SocketValid(listenfd)) deliver_request_bailout("USE_NAMED_ERROR_RETURN_SOCKET socket"); caddr.sun_family = AF_LOCAL; // According to Stevens (section 3.2), there is no portable way to // determine whether sa_len is defined on a particular platform. #ifndef NOT_HAVE_SA_LEN caddr.sun_len = sizeof(struct sockaddr_un); #endif strcpy(caddr.sun_path, data); mask = umask(0); bindresult = bind(listenfd, (struct sockaddr *)&caddr, sizeof(caddr)); umask(mask); if (bindresult < 0) deliver_request_bailout("USE_NAMED_ERROR_RETURN_SOCKET bind"); if (listen(listenfd, 1) < 0) deliver_request_bailout("USE_NAMED_ERROR_RETURN_SOCKET listen"); } #else { dnssd_sock_t sp[2]; if (socketpair(AF_DNSSD, SOCK_STREAM, 0, sp) < 0) deliver_request_bailout("socketpair"); else { errsd = sp[0]; // We'll read our four-byte error code from sp[0] listenfd = sp[1]; // We'll send sp[1] to the daemon #if !defined(__ppc__) && defined(SO_DEFUNCTOK) { int defunct = 1; if (setsockopt(errsd, SOL_SOCKET, SO_DEFUNCTOK, &defunct, sizeof(defunct)) < 0) syslog(LOG_WARNING, "dnssd_clientstub ConnectToServer: SO_DEFUNCTOK failed %d %s", dnssd_errno, dnssd_strerror(dnssd_errno)); } #endif } } #endif } #if !defined(USE_TCP_LOOPBACK) && !defined(USE_NAMED_ERROR_RETURN_SOCKET) // If we're going to make a separate error return socket, and pass it to the daemon // using sendmsg, then we'll hold back one data byte to go with it. // On some versions of Unix (including Leopard) sending a control message without // any associated data does not work reliably -- e.g. one particular issue we ran // into is that if the receiving program is in a kqueue loop waiting to be notified // of the received message, it doesn't get woken up when the control message arrives. if (MakeSeparateReturnSocket || sdr->op == send_bpf) datalen--; // Okay to use sdr->op when checking for op == send_bpf #endif // At this point, our listening socket is set up and waiting, if necessary, for the daemon to connect back to ConvertHeaderBytes(hdr); //syslog(LOG_WARNING, "dnssd_clientstub deliver_request writing %lu bytes", (unsigned long)(datalen + sizeof(ipc_msg_hdr))); //if (MakeSeparateReturnSocket) syslog(LOG_WARNING, "dnssd_clientstub deliver_request name is %s", data); #if TEST_SENDING_ONE_BYTE_AT_A_TIME unsigned int i; for (i=0; isockfd, ((char *)hdr)+i, 1) < 0) { syslog(LOG_WARNING, "write_all (byte %u) failed", i); goto cleanup; } usleep(10000); } #else if (write_all(sdr->sockfd, (char *)hdr, datalen + sizeof(ipc_msg_hdr)) < 0) { // write_all already prints an error message if there is an error writing to // the socket except for DEFUNCT. Logging here is unnecessary and also wrong // in the case of DEFUNCT sockets syslog(LOG_INFO, "dnssd_clientstub deliver_request ERROR: write_all(%d, %lu bytes) failed", sdr->sockfd, (unsigned long)(datalen + sizeof(ipc_msg_hdr))); goto cleanup; } #endif if (!MakeSeparateReturnSocket) errsd = sdr->sockfd; if (MakeSeparateReturnSocket || sdr->op == send_bpf) // Okay to use sdr->op when checking for op == send_bpf { #if defined(USE_TCP_LOOPBACK) || defined(USE_NAMED_ERROR_RETURN_SOCKET) // At this point we may wait in accept for a few milliseconds waiting for the daemon to connect back to us, // but that's okay -- the daemon should not take more than a few milliseconds to respond. // set_waitlimit() ensures we do not block indefinitely just in case something is wrong dnssd_sockaddr_t daddr; dnssd_socklen_t len = sizeof(daddr); if ((err = set_waitlimit(listenfd, DNSSD_CLIENT_TIMEOUT)) != kDNSServiceErr_NoError) goto cleanup; errsd = accept(listenfd, (struct sockaddr *)&daddr, &len); if (!dnssd_SocketValid(errsd)) deliver_request_bailout("accept"); #else struct iovec vec = { ((char *)hdr) + sizeof(ipc_msg_hdr) + datalen, 1 }; // Send the last byte along with the SCM_RIGHTS struct msghdr msg; struct cmsghdr *cmsg; char cbuf[CMSG_SPACE(4 * sizeof(dnssd_sock_t))]; msg.msg_name = 0; msg.msg_namelen = 0; msg.msg_iov = &vec; msg.msg_iovlen = 1; msg.msg_flags = 0; if (MakeSeparateReturnSocket || sdr->op == send_bpf) // Okay to use sdr->op when checking for op == send_bpf { if (sdr->op == send_bpf) { int i; char p[12]; // Room for "/dev/bpf999" with terminating null for (i=0; i<100; i++) { snprintf(p, sizeof(p), "/dev/bpf%d", i); listenfd = open(p, O_RDWR, 0); //if (dnssd_SocketValid(listenfd)) syslog(LOG_WARNING, "Sending fd %d for %s", listenfd, p); if (!dnssd_SocketValid(listenfd) && dnssd_errno != EBUSY) syslog(LOG_WARNING, "Error opening %s %d (%s)", p, dnssd_errno, dnssd_strerror(dnssd_errno)); if (dnssd_SocketValid(listenfd) || dnssd_errno != EBUSY) break; } } msg.msg_control = cbuf; msg.msg_controllen = CMSG_LEN(sizeof(dnssd_sock_t)); cmsg = CMSG_FIRSTHDR(&msg); cmsg->cmsg_len = CMSG_LEN(sizeof(dnssd_sock_t)); cmsg->cmsg_level = SOL_SOCKET; cmsg->cmsg_type = SCM_RIGHTS; *((dnssd_sock_t *)CMSG_DATA(cmsg)) = listenfd; } #if TEST_KQUEUE_CONTROL_MESSAGE_BUG sleep(1); #endif #if DEBUG_64BIT_SCM_RIGHTS syslog(LOG_WARNING, "dnssd_clientstub sendmsg read sd=%d write sd=%d %ld %ld %ld/%ld/%ld/%ld", errsd, listenfd, sizeof(dnssd_sock_t), sizeof(void*), sizeof(struct cmsghdr) + sizeof(dnssd_sock_t), CMSG_LEN(sizeof(dnssd_sock_t)), (long)CMSG_SPACE(sizeof(dnssd_sock_t)), (long)((char*)CMSG_DATA(cmsg) + 4 - cbuf)); #endif // DEBUG_64BIT_SCM_RIGHTS if (sendmsg(sdr->sockfd, &msg, 0) < 0) { syslog(LOG_WARNING, "dnssd_clientstub deliver_request ERROR: sendmsg failed read sd=%d write sd=%d errno %d (%s)", errsd, listenfd, dnssd_errno, dnssd_strerror(dnssd_errno)); err = kDNSServiceErr_Incompatible; goto cleanup; } #if DEBUG_64BIT_SCM_RIGHTS syslog(LOG_WARNING, "dnssd_clientstub sendmsg read sd=%d write sd=%d okay", errsd, listenfd); #endif // DEBUG_64BIT_SCM_RIGHTS #endif // Close our end of the socketpair *before* calling read_all() to get the four-byte error code. // Otherwise, if the daemon closes our socket (or crashes), we will have to wait for a timeout // in read_all() because the socket is not closed (we still have an open reference to it) // Note: listenfd is overwritten in the case of send_bpf above and that will be closed here // for send_bpf operation. dnssd_close(listenfd); listenfd = dnssd_InvalidSocket; // Make sure we don't close it a second time in the cleanup handling below } // At this point we may wait in read_all for a few milliseconds waiting for the daemon to send us the error code, // but that's okay -- the daemon should not take more than a few milliseconds to respond. // set_waitlimit() ensures we do not block indefinitely just in case something is wrong if (sdr->op == send_bpf) // Okay to use sdr->op when checking for op == send_bpf err = kDNSServiceErr_NoError; else if ((err = set_waitlimit(errsd, DNSSD_CLIENT_TIMEOUT)) == kDNSServiceErr_NoError) { if (read_all(errsd, (char*)&err, (int)sizeof(err)) < 0) err = kDNSServiceErr_ServiceNotRunning; // On failure read_all will have written a message to syslog for us else err = ntohl(err); } //syslog(LOG_WARNING, "dnssd_clientstub deliver_request: retrieved error code %d", err); cleanup: if (MakeSeparateReturnSocket) { if (dnssd_SocketValid(listenfd)) dnssd_close(listenfd); if (dnssd_SocketValid(errsd)) dnssd_close(errsd); #if defined(USE_NAMED_ERROR_RETURN_SOCKET) // syslog(LOG_WARNING, "dnssd_clientstub deliver_request: removing UDS: %s", data); if (unlink(data) != 0) syslog(LOG_WARNING, "dnssd_clientstub WARNING: unlink(\"%s\") failed errno %d (%s)", data, dnssd_errno, dnssd_strerror(dnssd_errno)); // else syslog(LOG_WARNING, "dnssd_clientstub deliver_request: removed UDS: %s", data); #endif } free(hdr); return err; } int DNSSD_API DNSServiceRefSockFD(DNSServiceRef sdRef) { if (!sdRef) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceRefSockFD called with NULL DNSServiceRef"); return dnssd_InvalidSocket; } if (!DNSServiceRefValid(sdRef)) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceRefSockFD called with invalid DNSServiceRef %p %08X %08X", sdRef, sdRef->sockfd, sdRef->validator); return dnssd_InvalidSocket; } if (sdRef->primary) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceRefSockFD undefined for kDNSServiceFlagsShareConnection subordinate DNSServiceRef %p", sdRef); return dnssd_InvalidSocket; } return (int) sdRef->sockfd; } #if _DNS_SD_LIBDISPATCH static void CallbackWithError(DNSServiceRef sdRef, DNSServiceErrorType error) { DNSServiceOp *sdr = sdRef; DNSServiceOp *sdrNext; DNSRecord *rec; DNSRecord *recnext; int morebytes; while (sdr) { // We can't touch the sdr after the callback as it can be deallocated in the callback sdrNext = sdr->next; morebytes = 1; sdr->moreptr = &morebytes; switch (sdr->op) { case resolve_request: if (sdr->AppCallback) ((DNSServiceResolveReply) sdr->AppCallback)(sdr, 0, 0, error, NULL, 0, 0, 0, NULL, sdr->AppContext); break; case query_request: if (sdr->AppCallback) ((DNSServiceQueryRecordReply)sdr->AppCallback)(sdr, 0, 0, error, NULL, 0, 0, 0, NULL, 0, sdr->AppContext); break; case addrinfo_request: if (sdr->AppCallback) ((DNSServiceGetAddrInfoReply)sdr->AppCallback)(sdr, 0, 0, error, NULL, NULL, 0, sdr->AppContext); break; case browse_request: if (sdr->AppCallback) ((DNSServiceBrowseReply) sdr->AppCallback)(sdr, 0, 0, error, NULL, 0, NULL, sdr->AppContext); break; case reg_service_request: if (sdr->AppCallback) ((DNSServiceRegisterReply) sdr->AppCallback)(sdr, 0, error, NULL, 0, NULL, sdr->AppContext); break; case enumeration_request: if (sdr->AppCallback) ((DNSServiceDomainEnumReply) sdr->AppCallback)(sdr, 0, 0, error, NULL, sdr->AppContext); break; case connection_request: case connection_delegate_request: // This means Register Record, walk the list of DNSRecords to do the callback rec = sdr->rec; while (rec) { recnext = rec->recnext; if (rec->AppCallback) ((DNSServiceRegisterRecordReply)rec->AppCallback)(sdr, 0, 0, error, rec->AppContext); // The Callback can call DNSServiceRefDeallocate which in turn frees sdr and all the records. // Detect that and return early if (!morebytes) {syslog(LOG_WARNING, "dnssdclientstub:Record: CallbackwithError morebytes zero"); return;} rec = recnext; } break; case port_mapping_request: if (sdr->AppCallback) ((DNSServiceNATPortMappingReply)sdr->AppCallback)(sdr, 0, 0, error, 0, 0, 0, 0, 0, sdr->AppContext); break; default: syslog(LOG_WARNING, "dnssd_clientstub CallbackWithError called with bad op %d", sdr->op); } // If DNSServiceRefDeallocate was called in the callback, morebytes will be zero. As the sdRef // (and its subordinates) have been freed, we should not proceed further. Note that when we // call the callback with a subordinate sdRef the application can call DNSServiceRefDeallocate // on the main sdRef and DNSServiceRefDeallocate handles this case by walking all the sdRefs and // clears the moreptr so that we can terminate here. // // If DNSServiceRefDeallocate was not called in the callback, then set moreptr to NULL so that // we don't access the stack variable after we return from this function. if (!morebytes) {syslog(LOG_WARNING, "dnssdclientstub:sdRef: CallbackwithError morebytes zero sdr %p", sdr); return;} else {sdr->moreptr = NULL;} sdr = sdrNext; } } #endif // _DNS_SD_LIBDISPATCH // Handle reply from server, calling application client callback. If there is no reply // from the daemon on the socket contained in sdRef, the call will block. DNSServiceErrorType DNSSD_API DNSServiceProcessResult(DNSServiceRef sdRef) { int morebytes = 0; if (!sdRef) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceProcessResult called with NULL DNSServiceRef"); return kDNSServiceErr_BadParam; } if (!DNSServiceRefValid(sdRef)) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceProcessResult called with invalid DNSServiceRef %p %08X %08X", sdRef, sdRef->sockfd, sdRef->validator); return kDNSServiceErr_BadReference; } if (sdRef->primary) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceProcessResult undefined for kDNSServiceFlagsShareConnection subordinate DNSServiceRef %p", sdRef); return kDNSServiceErr_BadReference; } if (!sdRef->ProcessReply) { static int num_logs = 0; if (num_logs < 10) syslog(LOG_WARNING, "dnssd_clientstub DNSServiceProcessResult called with DNSServiceRef with no ProcessReply function"); if (num_logs < 1000) num_logs++;else sleep(1); return kDNSServiceErr_BadReference; } do { CallbackHeader cbh; char *data; // return NoError on EWOULDBLOCK. This will handle the case // where a non-blocking socket is told there is data, but it was a false positive. // On error, read_all will write a message to syslog for us, so don't need to duplicate that here // Note: If we want to properly support using non-blocking sockets in the future int result = read_all(sdRef->sockfd, (void *)&cbh.ipc_hdr, sizeof(cbh.ipc_hdr)); if (result == read_all_fail) { // Set the ProcessReply to NULL before callback as the sdRef can get deallocated // in the callback. sdRef->ProcessReply = NULL; #if _DNS_SD_LIBDISPATCH // Call the callbacks with an error if using the dispatch API, as DNSServiceProcessResult // is not called by the application and hence need to communicate the error. Cancel the // source so that we don't get any more events // Note: read_all fails if we could not read from the daemon which can happen if the // daemon dies or the file descriptor is disconnected (defunct). if (sdRef->disp_source) { dispatch_source_cancel(sdRef->disp_source); dispatch_release(sdRef->disp_source); sdRef->disp_source = NULL; CallbackWithError(sdRef, kDNSServiceErr_ServiceNotRunning); } #endif // Don't touch sdRef anymore as it might have been deallocated return kDNSServiceErr_ServiceNotRunning; } else if (result == read_all_wouldblock) { if (morebytes && sdRef->logcounter < 100) { sdRef->logcounter++; syslog(LOG_WARNING, "dnssd_clientstub DNSServiceProcessResult error: select indicated data was waiting but read_all returned EWOULDBLOCK"); } return kDNSServiceErr_NoError; } ConvertHeaderBytes(&cbh.ipc_hdr); if (cbh.ipc_hdr.version != VERSION) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceProcessResult daemon version %d does not match client version %d", cbh.ipc_hdr.version, VERSION); sdRef->ProcessReply = NULL; return kDNSServiceErr_Incompatible; } data = malloc(cbh.ipc_hdr.datalen); if (!data) return kDNSServiceErr_NoMemory; if (read_all(sdRef->sockfd, data, cbh.ipc_hdr.datalen) < 0) // On error, read_all will write a message to syslog for us { // Set the ProcessReply to NULL before callback as the sdRef can get deallocated // in the callback. sdRef->ProcessReply = NULL; #if _DNS_SD_LIBDISPATCH // Call the callbacks with an error if using the dispatch API, as DNSServiceProcessResult // is not called by the application and hence need to communicate the error. Cancel the // source so that we don't get any more events if (sdRef->disp_source) { dispatch_source_cancel(sdRef->disp_source); dispatch_release(sdRef->disp_source); sdRef->disp_source = NULL; CallbackWithError(sdRef, kDNSServiceErr_ServiceNotRunning); } #endif // Don't touch sdRef anymore as it might have been deallocated free(data); return kDNSServiceErr_ServiceNotRunning; } else { const char *ptr = data; cbh.cb_flags = get_flags (&ptr, data + cbh.ipc_hdr.datalen); cbh.cb_interface = get_uint32 (&ptr, data + cbh.ipc_hdr.datalen); cbh.cb_err = get_error_code(&ptr, data + cbh.ipc_hdr.datalen); // CAUTION: We have to handle the case where the client calls DNSServiceRefDeallocate from within the callback function. // To do this we set moreptr to point to morebytes. If the client does call DNSServiceRefDeallocate(), // then that routine will clear morebytes for us, and cause us to exit our loop. morebytes = more_bytes(sdRef->sockfd); if (morebytes) { cbh.cb_flags |= kDNSServiceFlagsMoreComing; sdRef->moreptr = &morebytes; } if (ptr) sdRef->ProcessReply(sdRef, &cbh, ptr, data + cbh.ipc_hdr.datalen); // Careful code here: // If morebytes is non-zero, that means we set sdRef->moreptr above, and the operation was not // cancelled out from under us, so now we need to clear sdRef->moreptr so we don't leave a stray // dangling pointer pointing to a long-gone stack variable. // If morebytes is zero, then one of two thing happened: // (a) morebytes was 0 above, so we didn't set sdRef->moreptr, so we don't need to clear it // (b) morebytes was 1 above, and we set sdRef->moreptr, but the operation was cancelled (with DNSServiceRefDeallocate()), // so we MUST NOT try to dereference our stale sdRef pointer. if (morebytes) sdRef->moreptr = NULL; } free(data); } while (morebytes); return kDNSServiceErr_NoError; } void DNSSD_API DNSServiceRefDeallocate(DNSServiceRef sdRef) { if (!sdRef) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceRefDeallocate called with NULL DNSServiceRef"); return; } if (!DNSServiceRefValid(sdRef)) // Also verifies dnssd_SocketValid(sdRef->sockfd) for us too { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceRefDeallocate called with invalid DNSServiceRef %p %08X %08X", sdRef, sdRef->sockfd, sdRef->validator); return; } // If we're in the middle of a DNSServiceProcessResult() invocation for this DNSServiceRef, clear its morebytes flag to break it out of its while loop if (sdRef->moreptr) *(sdRef->moreptr) = 0; if (sdRef->primary) // If this is a subordinate DNSServiceOp, just send a 'stop' command { DNSServiceOp **p = &sdRef->primary->next; while (*p && *p != sdRef) p = &(*p)->next; if (*p) { char *ptr; size_t len = 0; ipc_msg_hdr *hdr = create_hdr(cancel_request, &len, &ptr, 0, sdRef); if (hdr) { ConvertHeaderBytes(hdr); write_all(sdRef->sockfd, (char *)hdr, len); free(hdr); } *p = sdRef->next; FreeDNSServiceOp(sdRef); } } else // else, make sure to terminate all subordinates as well { #if _DNS_SD_LIBDISPATCH // The cancel handler will close the fd if a dispatch source has been set if (sdRef->disp_source) { // By setting the ProcessReply to NULL, we make sure that we never call // the application callbacks ever, after returning from this function. We // assume that DNSServiceRefDeallocate is called from the serial queue // that was passed to DNSServiceSetDispatchQueue. Hence, dispatch_source_cancel // should cancel all the blocks on the queue and hence there should be no more // callbacks when we return from this function. Setting ProcessReply to NULL // provides extra protection. sdRef->ProcessReply = NULL; shutdown(sdRef->sockfd, SHUT_WR); dispatch_source_cancel(sdRef->disp_source); dispatch_release(sdRef->disp_source); sdRef->disp_source = NULL; } // if disp_queue is set, it means it used the DNSServiceSetDispatchQueue API. In that case, // when the source was cancelled, the fd was closed in the handler. Currently the source // is cancelled only when the mDNSResponder daemon dies else if (!sdRef->disp_queue) dnssd_close(sdRef->sockfd); #else dnssd_close(sdRef->sockfd); #endif // Free DNSRecords added in DNSRegisterRecord if they have not // been freed in DNSRemoveRecord while (sdRef) { DNSServiceOp *p = sdRef; sdRef = sdRef->next; // When there is an error reading from the daemon e.g., bad fd, CallbackWithError // is called which sets moreptr. It might set the moreptr on a subordinate sdRef // but the application might call DNSServiceRefDeallocate with the main sdRef from // the callback. Hence, when we loop through the subordinate sdRefs, we need // to clear the moreptr so that CallbackWithError can terminate itself instead of // walking through the freed sdRefs. if (p->moreptr) *(p->moreptr) = 0; FreeDNSServiceOp(p); } } } DNSServiceErrorType DNSSD_API DNSServiceGetProperty(const char *property, void *result, uint32_t *size) { char *ptr; size_t len = strlen(property) + 1; ipc_msg_hdr *hdr; DNSServiceOp *tmp; uint32_t actualsize; DNSServiceErrorType err = ConnectToServer(&tmp, 0, getproperty_request, NULL, NULL, NULL); if (err) return err; hdr = create_hdr(getproperty_request, &len, &ptr, 0, tmp); if (!hdr) { DNSServiceRefDeallocate(tmp); return kDNSServiceErr_NoMemory; } put_string(property, &ptr); err = deliver_request(hdr, tmp); // Will free hdr for us if (read_all(tmp->sockfd, (char*)&actualsize, (int)sizeof(actualsize)) < 0) { DNSServiceRefDeallocate(tmp); return kDNSServiceErr_ServiceNotRunning; } actualsize = ntohl(actualsize); if (read_all(tmp->sockfd, (char*)result, actualsize < *size ? actualsize : *size) < 0) { DNSServiceRefDeallocate(tmp); return kDNSServiceErr_ServiceNotRunning; } DNSServiceRefDeallocate(tmp); // Swap version result back to local process byte order if (!strcmp(property, kDNSServiceProperty_DaemonVersion) && *size >= 4) *(uint32_t*)result = ntohl(*(uint32_t*)result); *size = actualsize; return kDNSServiceErr_NoError; } DNSServiceErrorType DNSSD_API DNSServiceGetPID(const uint16_t srcport, int32_t *pid) { char *ptr; ipc_msg_hdr *hdr; DNSServiceOp *tmp; size_t len = sizeof(int32_t); DNSServiceErrorType err = ConnectToServer(&tmp, 0, getpid_request, NULL, NULL, NULL); if (err) return err; hdr = create_hdr(getpid_request, &len, &ptr, 0, tmp); if (!hdr) { DNSServiceRefDeallocate(tmp); return kDNSServiceErr_NoMemory; } put_uint16(srcport, &ptr); err = deliver_request(hdr, tmp); // Will free hdr for us if (read_all(tmp->sockfd, (char*)pid, sizeof(int32_t)) < 0) { DNSServiceRefDeallocate(tmp); return kDNSServiceErr_ServiceNotRunning; } DNSServiceRefDeallocate(tmp); return kDNSServiceErr_NoError; } static void handle_resolve_response(DNSServiceOp *const sdr, const CallbackHeader *const cbh, const char *data, const char *end) { char fullname[kDNSServiceMaxDomainName]; char target[kDNSServiceMaxDomainName]; uint16_t txtlen; union { uint16_t s; u_char b[2]; } port; unsigned char *txtrecord; get_string(&data, end, fullname, kDNSServiceMaxDomainName); get_string(&data, end, target, kDNSServiceMaxDomainName); if (!data || data + 2 > end) goto fail; port.b[0] = *data++; port.b[1] = *data++; txtlen = get_uint16(&data, end); txtrecord = (unsigned char *)get_rdata(&data, end, txtlen); if (!data) goto fail; ((DNSServiceResolveReply)sdr->AppCallback)(sdr, cbh->cb_flags, cbh->cb_interface, cbh->cb_err, fullname, target, port.s, txtlen, txtrecord, sdr->AppContext); return; // MUST NOT touch sdr after invoking AppCallback -- client is allowed to dispose it from within callback function fail: syslog(LOG_WARNING, "dnssd_clientstub handle_resolve_response: error reading result from daemon"); } #if TARGET_OS_EMBEDDED static int32_t libSystemVersion = 0; // Return true if the iOS application linked against a version of libsystem where P2P // interfaces were included by default when using kDNSServiceInterfaceIndexAny. // Using 160.0.0 == 0xa00000 as the version threshold. static int includeP2PWithIndexAny() { if (libSystemVersion == 0) libSystemVersion = NSVersionOfLinkTimeLibrary("System"); if (libSystemVersion < 0xa00000) return 1; else return 0; } #else // TARGET_OS_EMBEDDED // always return false for non iOS platforms static int includeP2PWithIndexAny() { return 0; } #endif // TARGET_OS_EMBEDDED DNSServiceErrorType DNSSD_API DNSServiceResolve ( DNSServiceRef *sdRef, DNSServiceFlags flags, uint32_t interfaceIndex, const char *name, const char *regtype, const char *domain, DNSServiceResolveReply callBack, void *context ) { char *ptr; size_t len; ipc_msg_hdr *hdr; DNSServiceErrorType err; if (!name || !regtype || !domain || !callBack) return kDNSServiceErr_BadParam; // Need a real InterfaceID for WakeOnResolve if ((flags & kDNSServiceFlagsWakeOnResolve) != 0 && ((interfaceIndex == kDNSServiceInterfaceIndexAny) || (interfaceIndex == kDNSServiceInterfaceIndexLocalOnly) || (interfaceIndex == kDNSServiceInterfaceIndexUnicast) || (interfaceIndex == kDNSServiceInterfaceIndexP2P))) { return kDNSServiceErr_BadParam; } if ((interfaceIndex == kDNSServiceInterfaceIndexAny) && includeP2PWithIndexAny()) flags |= kDNSServiceFlagsIncludeP2P; err = ConnectToServer(sdRef, flags, resolve_request, handle_resolve_response, (void *)callBack, context); if (err) return err; // On error ConnectToServer leaves *sdRef set to NULL // Calculate total message length len = sizeof(flags); len += sizeof(interfaceIndex); len += strlen(name) + 1; len += strlen(regtype) + 1; len += strlen(domain) + 1; hdr = create_hdr(resolve_request, &len, &ptr, (*sdRef)->primary ? 1 : 0, *sdRef); if (!hdr) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; return kDNSServiceErr_NoMemory; } put_flags(flags, &ptr); put_uint32(interfaceIndex, &ptr); put_string(name, &ptr); put_string(regtype, &ptr); put_string(domain, &ptr); err = deliver_request(hdr, *sdRef); // Will free hdr for us if (err) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; } return err; } static void handle_query_response(DNSServiceOp *const sdr, const CallbackHeader *const cbh, const char *data, const char *const end) { uint32_t ttl; char name[kDNSServiceMaxDomainName]; uint16_t rrtype, rrclass, rdlen; const char *rdata; get_string(&data, end, name, kDNSServiceMaxDomainName); rrtype = get_uint16(&data, end); rrclass = get_uint16(&data, end); rdlen = get_uint16(&data, end); rdata = get_rdata(&data, end, rdlen); ttl = get_uint32(&data, end); if (!data) syslog(LOG_WARNING, "dnssd_clientstub handle_query_response: error reading result from daemon"); else ((DNSServiceQueryRecordReply)sdr->AppCallback)(sdr, cbh->cb_flags, cbh->cb_interface, cbh->cb_err, name, rrtype, rrclass, rdlen, rdata, ttl, sdr->AppContext); // MUST NOT touch sdr after invoking AppCallback -- client is allowed to dispose it from within callback function } DNSServiceErrorType DNSSD_API DNSServiceQueryRecord ( DNSServiceRef *sdRef, DNSServiceFlags flags, uint32_t interfaceIndex, const char *name, uint16_t rrtype, uint16_t rrclass, DNSServiceQueryRecordReply callBack, void *context ) { char *ptr; size_t len; ipc_msg_hdr *hdr; DNSServiceErrorType err; if ((interfaceIndex == kDNSServiceInterfaceIndexAny) && includeP2PWithIndexAny()) flags |= kDNSServiceFlagsIncludeP2P; err = ConnectToServer(sdRef, flags, query_request, handle_query_response, (void *)callBack, context); if (err) return err; // On error ConnectToServer leaves *sdRef set to NULL if (!name) name = "\0"; // Calculate total message length len = sizeof(flags); len += sizeof(uint32_t); // interfaceIndex len += strlen(name) + 1; len += 2 * sizeof(uint16_t); // rrtype, rrclass hdr = create_hdr(query_request, &len, &ptr, (*sdRef)->primary ? 1 : 0, *sdRef); if (!hdr) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; return kDNSServiceErr_NoMemory; } put_flags(flags, &ptr); put_uint32(interfaceIndex, &ptr); put_string(name, &ptr); put_uint16(rrtype, &ptr); put_uint16(rrclass, &ptr); err = deliver_request(hdr, *sdRef); // Will free hdr for us if (err) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; } return err; } static void handle_addrinfo_response(DNSServiceOp *const sdr, const CallbackHeader *const cbh, const char *data, const char *const end) { char hostname[kDNSServiceMaxDomainName]; uint16_t rrtype, rdlen; const char *rdata; uint32_t ttl; get_string(&data, end, hostname, kDNSServiceMaxDomainName); rrtype = get_uint16(&data, end); (void) get_uint16(&data, end); /* class is not used */ rdlen = get_uint16(&data, end); rdata = get_rdata (&data, end, rdlen); ttl = get_uint32(&data, end); // We only generate client callbacks for A and AAAA results (including NXDOMAIN results for // those types, if the client has requested those with the kDNSServiceFlagsReturnIntermediates). // Other result types, specifically CNAME referrals, are not communicated to the client, because // the DNSServiceGetAddrInfoReply interface doesn't have any meaningful way to communiate CNAME referrals. if (!data) syslog(LOG_WARNING, "dnssd_clientstub handle_addrinfo_response: error reading result from daemon"); else if (rrtype == kDNSServiceType_A || rrtype == kDNSServiceType_AAAA) { struct sockaddr_in sa4; struct sockaddr_in6 sa6; const struct sockaddr *const sa = (rrtype == kDNSServiceType_A) ? (struct sockaddr*)&sa4 : (struct sockaddr*)&sa6; if (rrtype == kDNSServiceType_A) { memset(&sa4, 0, sizeof(sa4)); #ifndef NOT_HAVE_SA_LEN sa4.sin_len = sizeof(struct sockaddr_in); #endif sa4.sin_family = AF_INET; // sin_port = 0; if (!cbh->cb_err) memcpy(&sa4.sin_addr, rdata, rdlen); } else { memset(&sa6, 0, sizeof(sa6)); #ifndef NOT_HAVE_SA_LEN sa6.sin6_len = sizeof(struct sockaddr_in6); #endif sa6.sin6_family = AF_INET6; // sin6_port = 0; // sin6_flowinfo = 0; // sin6_scope_id = 0; if (!cbh->cb_err) { memcpy(&sa6.sin6_addr, rdata, rdlen); if (IN6_IS_ADDR_LINKLOCAL(&sa6.sin6_addr)) sa6.sin6_scope_id = cbh->cb_interface; } } // Validation results are always delivered separately from the actual results of the // DNSServiceGetAddrInfo. Set the "addr" to NULL as per the documentation. // // Note: If we deliver validation results along with the "addr" in the future, we need // a way to differentiate the negative response from validation-only response as both // has zero address. if (!(cbh->cb_flags & kDNSServiceFlagsValidate)) ((DNSServiceGetAddrInfoReply)sdr->AppCallback)(sdr, cbh->cb_flags, cbh->cb_interface, cbh->cb_err, hostname, sa, ttl, sdr->AppContext); else ((DNSServiceGetAddrInfoReply)sdr->AppCallback)(sdr, cbh->cb_flags, cbh->cb_interface, cbh->cb_err, hostname, NULL, 0, sdr->AppContext); // MUST NOT touch sdr after invoking AppCallback -- client is allowed to dispose it from within callback function } } DNSServiceErrorType DNSSD_API DNSServiceGetAddrInfo ( DNSServiceRef *sdRef, DNSServiceFlags flags, uint32_t interfaceIndex, uint32_t protocol, const char *hostname, DNSServiceGetAddrInfoReply callBack, void *context /* may be NULL */ ) { char *ptr; size_t len; ipc_msg_hdr *hdr; DNSServiceErrorType err; if (!hostname) return kDNSServiceErr_BadParam; err = ConnectToServer(sdRef, flags, addrinfo_request, handle_addrinfo_response, (void *)callBack, context); if (err) { return err; // On error ConnectToServer leaves *sdRef set to NULL } // Calculate total message length len = sizeof(flags); len += sizeof(uint32_t); // interfaceIndex len += sizeof(uint32_t); // protocol len += strlen(hostname) + 1; hdr = create_hdr(addrinfo_request, &len, &ptr, (*sdRef)->primary ? 1 : 0, *sdRef); if (!hdr) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; return kDNSServiceErr_NoMemory; } put_flags(flags, &ptr); put_uint32(interfaceIndex, &ptr); put_uint32(protocol, &ptr); put_string(hostname, &ptr); err = deliver_request(hdr, *sdRef); // Will free hdr for us if (err) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; } return err; } static void handle_browse_response(DNSServiceOp *const sdr, const CallbackHeader *const cbh, const char *data, const char *const end) { char replyName[256], replyType[kDNSServiceMaxDomainName], replyDomain[kDNSServiceMaxDomainName]; get_string(&data, end, replyName, 256); get_string(&data, end, replyType, kDNSServiceMaxDomainName); get_string(&data, end, replyDomain, kDNSServiceMaxDomainName); if (!data) syslog(LOG_WARNING, "dnssd_clientstub handle_browse_response: error reading result from daemon"); else ((DNSServiceBrowseReply)sdr->AppCallback)(sdr, cbh->cb_flags, cbh->cb_interface, cbh->cb_err, replyName, replyType, replyDomain, sdr->AppContext); // MUST NOT touch sdr after invoking AppCallback -- client is allowed to dispose it from within callback function } DNSServiceErrorType DNSSD_API DNSServiceBrowse ( DNSServiceRef *sdRef, DNSServiceFlags flags, uint32_t interfaceIndex, const char *regtype, const char *domain, DNSServiceBrowseReply callBack, void *context ) { char *ptr; size_t len; ipc_msg_hdr *hdr; DNSServiceErrorType err; if ((interfaceIndex == kDNSServiceInterfaceIndexAny) && includeP2PWithIndexAny()) flags |= kDNSServiceFlagsIncludeP2P; err = ConnectToServer(sdRef, flags, browse_request, handle_browse_response, (void *)callBack, context); if (err) return err; // On error ConnectToServer leaves *sdRef set to NULL if (!domain) domain = ""; len = sizeof(flags); len += sizeof(interfaceIndex); len += strlen(regtype) + 1; len += strlen(domain) + 1; hdr = create_hdr(browse_request, &len, &ptr, (*sdRef)->primary ? 1 : 0, *sdRef); if (!hdr) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; return kDNSServiceErr_NoMemory; } put_flags(flags, &ptr); put_uint32(interfaceIndex, &ptr); put_string(regtype, &ptr); put_string(domain, &ptr); err = deliver_request(hdr, *sdRef); // Will free hdr for us if (err) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; } return err; } DNSServiceErrorType DNSSD_API DNSServiceSetDefaultDomainForUser(DNSServiceFlags flags, const char *domain); DNSServiceErrorType DNSSD_API DNSServiceSetDefaultDomainForUser(DNSServiceFlags flags, const char *domain) { DNSServiceOp *tmp; char *ptr; size_t len = sizeof(flags) + strlen(domain) + 1; ipc_msg_hdr *hdr; DNSServiceErrorType err = ConnectToServer(&tmp, 0, setdomain_request, NULL, NULL, NULL); if (err) return err; hdr = create_hdr(setdomain_request, &len, &ptr, 0, tmp); if (!hdr) { DNSServiceRefDeallocate(tmp); return kDNSServiceErr_NoMemory; } put_flags(flags, &ptr); put_string(domain, &ptr); err = deliver_request(hdr, tmp); // Will free hdr for us DNSServiceRefDeallocate(tmp); return err; } static void handle_regservice_response(DNSServiceOp *const sdr, const CallbackHeader *const cbh, const char *data, const char *const end) { char name[256], regtype[kDNSServiceMaxDomainName], domain[kDNSServiceMaxDomainName]; get_string(&data, end, name, 256); get_string(&data, end, regtype, kDNSServiceMaxDomainName); get_string(&data, end, domain, kDNSServiceMaxDomainName); if (!data) syslog(LOG_WARNING, "dnssd_clientstub handle_regservice_response: error reading result from daemon"); else ((DNSServiceRegisterReply)sdr->AppCallback)(sdr, cbh->cb_flags, cbh->cb_err, name, regtype, domain, sdr->AppContext); // MUST NOT touch sdr after invoking AppCallback -- client is allowed to dispose it from within callback function } DNSServiceErrorType DNSSD_API DNSServiceRegister ( DNSServiceRef *sdRef, DNSServiceFlags flags, uint32_t interfaceIndex, const char *name, const char *regtype, const char *domain, const char *host, uint16_t PortInNetworkByteOrder, uint16_t txtLen, const void *txtRecord, DNSServiceRegisterReply callBack, void *context ) { char *ptr; size_t len; ipc_msg_hdr *hdr; DNSServiceErrorType err; union { uint16_t s; u_char b[2]; } port = { PortInNetworkByteOrder }; if (!name) name = ""; if (!regtype) return kDNSServiceErr_BadParam; if (!domain) domain = ""; if (!host) host = ""; if (!txtRecord) txtRecord = (void*)""; // No callback must have auto-rename if (!callBack && (flags & kDNSServiceFlagsNoAutoRename)) return kDNSServiceErr_BadParam; if ((interfaceIndex == kDNSServiceInterfaceIndexAny) && includeP2PWithIndexAny()) flags |= kDNSServiceFlagsIncludeP2P; err = ConnectToServer(sdRef, flags, reg_service_request, callBack ? handle_regservice_response : NULL, (void *)callBack, context); if (err) return err; // On error ConnectToServer leaves *sdRef set to NULL len = sizeof(DNSServiceFlags); len += sizeof(uint32_t); // interfaceIndex len += strlen(name) + strlen(regtype) + strlen(domain) + strlen(host) + 4; len += 2 * sizeof(uint16_t); // port, txtLen len += txtLen; hdr = create_hdr(reg_service_request, &len, &ptr, (*sdRef)->primary ? 1 : 0, *sdRef); if (!hdr) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; return kDNSServiceErr_NoMemory; } // If it is going over a shared connection, then don't set the IPC_FLAGS_NOREPLY // as it affects all the operations over the shared connection. This is not // a normal case and hence receiving the response back from the daemon and // discarding it in ConnectionResponse is okay. if (!(flags & kDNSServiceFlagsShareConnection) && !callBack) hdr->ipc_flags |= IPC_FLAGS_NOREPLY; put_flags(flags, &ptr); put_uint32(interfaceIndex, &ptr); put_string(name, &ptr); put_string(regtype, &ptr); put_string(domain, &ptr); put_string(host, &ptr); *ptr++ = port.b[0]; *ptr++ = port.b[1]; put_uint16(txtLen, &ptr); put_rdata(txtLen, txtRecord, &ptr); err = deliver_request(hdr, *sdRef); // Will free hdr for us if (err) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; } return err; } static void handle_enumeration_response(DNSServiceOp *const sdr, const CallbackHeader *const cbh, const char *data, const char *const end) { char domain[kDNSServiceMaxDomainName]; get_string(&data, end, domain, kDNSServiceMaxDomainName); if (!data) syslog(LOG_WARNING, "dnssd_clientstub handle_enumeration_response: error reading result from daemon"); else ((DNSServiceDomainEnumReply)sdr->AppCallback)(sdr, cbh->cb_flags, cbh->cb_interface, cbh->cb_err, domain, sdr->AppContext); // MUST NOT touch sdr after invoking AppCallback -- client is allowed to dispose it from within callback function } DNSServiceErrorType DNSSD_API DNSServiceEnumerateDomains ( DNSServiceRef *sdRef, DNSServiceFlags flags, uint32_t interfaceIndex, DNSServiceDomainEnumReply callBack, void *context ) { char *ptr; size_t len; ipc_msg_hdr *hdr; DNSServiceErrorType err; int f1 = (flags & kDNSServiceFlagsBrowseDomains) != 0; int f2 = (flags & kDNSServiceFlagsRegistrationDomains) != 0; if (f1 + f2 != 1) return kDNSServiceErr_BadParam; err = ConnectToServer(sdRef, flags, enumeration_request, handle_enumeration_response, (void *)callBack, context); if (err) return err; // On error ConnectToServer leaves *sdRef set to NULL len = sizeof(DNSServiceFlags); len += sizeof(uint32_t); hdr = create_hdr(enumeration_request, &len, &ptr, (*sdRef)->primary ? 1 : 0, *sdRef); if (!hdr) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; return kDNSServiceErr_NoMemory; } put_flags(flags, &ptr); put_uint32(interfaceIndex, &ptr); err = deliver_request(hdr, *sdRef); // Will free hdr for us if (err) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; } return err; } static void ConnectionResponse(DNSServiceOp *const sdr, const CallbackHeader *const cbh, const char *const data, const char *const end) { (void)data; // Unused //printf("ConnectionResponse got %d\n", cbh->ipc_hdr.op); if (cbh->ipc_hdr.op != reg_record_reply_op) { // When using kDNSServiceFlagsShareConnection, need to search the list of associated DNSServiceOps // to find the one this response is intended for, and then call through to its ProcessReply handler. // We start with our first subordinate DNSServiceRef -- don't want to accidentally match the parent DNSServiceRef. DNSServiceOp *op = sdr->next; while (op && (op->uid.u32[0] != cbh->ipc_hdr.client_context.u32[0] || op->uid.u32[1] != cbh->ipc_hdr.client_context.u32[1])) op = op->next; // Note: We may sometimes not find a matching DNSServiceOp, in the case where the client has // cancelled the subordinate DNSServiceOp, but there are still messages in the pipeline from the daemon if (op && op->ProcessReply) op->ProcessReply(op, cbh, data, end); // WARNING: Don't touch op or sdr after this -- client may have called DNSServiceRefDeallocate return; } else { DNSRecordRef rec; for (rec = sdr->rec; rec; rec = rec->recnext) { if (rec->uid.u32[0] == cbh->ipc_hdr.client_context.u32[0] && rec->uid.u32[1] == cbh->ipc_hdr.client_context.u32[1]) break; } // The record might have been freed already and hence not an // error if the record is not found. if (!rec) { syslog(LOG_INFO, "ConnectionResponse: Record not found"); return; } if (rec->sdr != sdr) { syslog(LOG_WARNING, "ConnectionResponse: Record sdr mismatch: rec %p sdr %p", rec->sdr, sdr); return; } if (sdr->op == connection_request || sdr->op == connection_delegate_request) { rec->AppCallback(rec->sdr, rec, cbh->cb_flags, cbh->cb_err, rec->AppContext); } else { syslog(LOG_WARNING, "dnssd_clientstub ConnectionResponse: sdr->op != connection_request"); rec->AppCallback(rec->sdr, rec, 0, kDNSServiceErr_Unknown, rec->AppContext); } // MUST NOT touch sdr after invoking AppCallback -- client is allowed to dispose it from within callback function } } DNSServiceErrorType DNSSD_API DNSServiceCreateConnection(DNSServiceRef *sdRef) { char *ptr; size_t len = 0; ipc_msg_hdr *hdr; DNSServiceErrorType err = ConnectToServer(sdRef, 0, connection_request, ConnectionResponse, NULL, NULL); if (err) return err; // On error ConnectToServer leaves *sdRef set to NULL hdr = create_hdr(connection_request, &len, &ptr, 0, *sdRef); if (!hdr) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; return kDNSServiceErr_NoMemory; } err = deliver_request(hdr, *sdRef); // Will free hdr for us if (err) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; } return err; } #if APPLE_OSX_mDNSResponder && !TARGET_IPHONE_SIMULATOR DNSServiceErrorType DNSSD_API DNSServiceCreateDelegateConnection(DNSServiceRef *sdRef, int32_t pid, uuid_t uuid) { char *ptr; size_t len = 0; ipc_msg_hdr *hdr; DNSServiceErrorType err = ConnectToServer(sdRef, 0, connection_delegate_request, ConnectionResponse, NULL, NULL); if (err) { return err; // On error ConnectToServer leaves *sdRef set to NULL } // Only one of the two options can be set. If pid is zero, uuid is used. // If both are specified only pid will be used. We send across the pid // so that the daemon knows what to read from the socket. len += sizeof(int32_t); hdr = create_hdr(connection_delegate_request, &len, &ptr, 0, *sdRef); if (!hdr) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; return kDNSServiceErr_NoMemory; } if (pid && setsockopt((*sdRef)->sockfd, SOL_SOCKET, SO_DELEGATED, &pid, sizeof(pid)) == -1) { syslog(LOG_WARNING, "dnssdclientstub: Could not setsockopt() for PID[%d], no entitlements or process(pid) invalid errno:%d (%s)", pid, errno, strerror(errno)); // Free the hdr in case we return before calling deliver_request() if (hdr) free(hdr); DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; return kDNSServiceErr_NoAuth; } if (!pid && setsockopt((*sdRef)->sockfd, SOL_SOCKET, SO_DELEGATED_UUID, uuid, sizeof(uuid_t)) == -1) { syslog(LOG_WARNING, "dnssdclientstub: Could not setsockopt() for UUID, no entitlements or process(uuid) invalid errno:%d (%s) ", errno, strerror(errno)); // Free the hdr in case we return before calling deliver_request() if (hdr) free(hdr); DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; return kDNSServiceErr_NoAuth; } put_uint32(pid, &ptr); err = deliver_request(hdr, *sdRef); // Will free hdr for us if (err) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; } return err; } #elif TARGET_IPHONE_SIMULATOR // This hack is for Simulator platform only DNSServiceErrorType DNSSD_API DNSServiceCreateDelegateConnection(DNSServiceRef *sdRef, int32_t pid, uuid_t uuid) { (void) pid; (void) uuid; return DNSServiceCreateConnection(sdRef); } #endif DNSServiceErrorType DNSSD_API DNSServiceRegisterRecord ( DNSServiceRef sdRef, DNSRecordRef *RecordRef, DNSServiceFlags flags, uint32_t interfaceIndex, const char *fullname, uint16_t rrtype, uint16_t rrclass, uint16_t rdlen, const void *rdata, uint32_t ttl, DNSServiceRegisterRecordReply callBack, void *context ) { char *ptr; size_t len; ipc_msg_hdr *hdr = NULL; DNSRecordRef rref = NULL; DNSRecord **p; int f1 = (flags & kDNSServiceFlagsShared) != 0; int f2 = (flags & kDNSServiceFlagsUnique) != 0; if (f1 + f2 != 1) return kDNSServiceErr_BadParam; if ((interfaceIndex == kDNSServiceInterfaceIndexAny) && includeP2PWithIndexAny()) flags |= kDNSServiceFlagsIncludeP2P; if (!sdRef) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceRegisterRecord called with NULL DNSServiceRef"); return kDNSServiceErr_BadParam; } if (!DNSServiceRefValid(sdRef)) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceRegisterRecord called with invalid DNSServiceRef %p %08X %08X", sdRef, sdRef->sockfd, sdRef->validator); return kDNSServiceErr_BadReference; } if (sdRef->op != connection_request && sdRef->op != connection_delegate_request) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceRegisterRecord called with non-DNSServiceCreateConnection DNSServiceRef %p %d", sdRef, sdRef->op); return kDNSServiceErr_BadReference; } *RecordRef = NULL; len = sizeof(DNSServiceFlags); len += 2 * sizeof(uint32_t); // interfaceIndex, ttl len += 3 * sizeof(uint16_t); // rrtype, rrclass, rdlen len += strlen(fullname) + 1; len += rdlen; // Bump up the uid. Normally for shared operations (kDNSServiceFlagsShareConnection), this // is done in ConnectToServer. For DNSServiceRegisterRecord, ConnectToServer has already // been called. As multiple DNSServiceRegisterRecords can be multiplexed over a single // connection, we need a way to demultiplex the response so that the callback corresponding // to the right DNSServiceRegisterRecord instance can be called. Use the same mechanism that // is used by kDNSServiceFlagsShareConnection. create_hdr copies the uid value to ipc // hdr->client_context which will be returned in the ipc response. if (++sdRef->uid.u32[0] == 0) ++sdRef->uid.u32[1]; hdr = create_hdr(reg_record_request, &len, &ptr, 1, sdRef); if (!hdr) return kDNSServiceErr_NoMemory; put_flags(flags, &ptr); put_uint32(interfaceIndex, &ptr); put_string(fullname, &ptr); put_uint16(rrtype, &ptr); put_uint16(rrclass, &ptr); put_uint16(rdlen, &ptr); put_rdata(rdlen, rdata, &ptr); put_uint32(ttl, &ptr); rref = malloc(sizeof(DNSRecord)); if (!rref) { free(hdr); return kDNSServiceErr_NoMemory; } rref->AppContext = context; rref->AppCallback = callBack; rref->record_index = sdRef->max_index++; rref->sdr = sdRef; rref->recnext = NULL; *RecordRef = rref; // Remember the uid that we are sending across so that we can match // when the response comes back. rref->uid = sdRef->uid; hdr->reg_index = rref->record_index; p = &(sdRef)->rec; while (*p) p = &(*p)->recnext; *p = rref; return deliver_request(hdr, sdRef); // Will free hdr for us } // sdRef returned by DNSServiceRegister() DNSServiceErrorType DNSSD_API DNSServiceAddRecord ( DNSServiceRef sdRef, DNSRecordRef *RecordRef, DNSServiceFlags flags, uint16_t rrtype, uint16_t rdlen, const void *rdata, uint32_t ttl ) { ipc_msg_hdr *hdr; size_t len = 0; char *ptr; DNSRecordRef rref; DNSRecord **p; if (!sdRef) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceAddRecord called with NULL DNSServiceRef"); return kDNSServiceErr_BadParam; } if (!RecordRef) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceAddRecord called with NULL DNSRecordRef pointer"); return kDNSServiceErr_BadParam; } if (sdRef->op != reg_service_request) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceAddRecord called with non-DNSServiceRegister DNSServiceRef %p %d", sdRef, sdRef->op); return kDNSServiceErr_BadReference; } if (!DNSServiceRefValid(sdRef)) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceAddRecord called with invalid DNSServiceRef %p %08X %08X", sdRef, sdRef->sockfd, sdRef->validator); return kDNSServiceErr_BadReference; } *RecordRef = NULL; len += 2 * sizeof(uint16_t); // rrtype, rdlen len += rdlen; len += sizeof(uint32_t); len += sizeof(DNSServiceFlags); hdr = create_hdr(add_record_request, &len, &ptr, 1, sdRef); if (!hdr) return kDNSServiceErr_NoMemory; put_flags(flags, &ptr); put_uint16(rrtype, &ptr); put_uint16(rdlen, &ptr); put_rdata(rdlen, rdata, &ptr); put_uint32(ttl, &ptr); rref = malloc(sizeof(DNSRecord)); if (!rref) { free(hdr); return kDNSServiceErr_NoMemory; } rref->AppContext = NULL; rref->AppCallback = NULL; rref->record_index = sdRef->max_index++; rref->sdr = sdRef; rref->recnext = NULL; *RecordRef = rref; hdr->reg_index = rref->record_index; p = &(sdRef)->rec; while (*p) p = &(*p)->recnext; *p = rref; return deliver_request(hdr, sdRef); // Will free hdr for us } // DNSRecordRef returned by DNSServiceRegisterRecord or DNSServiceAddRecord DNSServiceErrorType DNSSD_API DNSServiceUpdateRecord ( DNSServiceRef sdRef, DNSRecordRef RecordRef, DNSServiceFlags flags, uint16_t rdlen, const void *rdata, uint32_t ttl ) { ipc_msg_hdr *hdr; size_t len = 0; char *ptr; if (!sdRef) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceUpdateRecord called with NULL DNSServiceRef"); return kDNSServiceErr_BadParam; } if (!DNSServiceRefValid(sdRef)) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceUpdateRecord called with invalid DNSServiceRef %p %08X %08X", sdRef, sdRef->sockfd, sdRef->validator); return kDNSServiceErr_BadReference; } // Note: RecordRef is allowed to be NULL len += sizeof(uint16_t); len += rdlen; len += sizeof(uint32_t); len += sizeof(DNSServiceFlags); hdr = create_hdr(update_record_request, &len, &ptr, 1, sdRef); if (!hdr) return kDNSServiceErr_NoMemory; hdr->reg_index = RecordRef ? RecordRef->record_index : TXT_RECORD_INDEX; put_flags(flags, &ptr); put_uint16(rdlen, &ptr); put_rdata(rdlen, rdata, &ptr); put_uint32(ttl, &ptr); return deliver_request(hdr, sdRef); // Will free hdr for us } DNSServiceErrorType DNSSD_API DNSServiceRemoveRecord ( DNSServiceRef sdRef, DNSRecordRef RecordRef, DNSServiceFlags flags ) { ipc_msg_hdr *hdr; size_t len = 0; char *ptr; DNSServiceErrorType err; if (!sdRef) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceRemoveRecord called with NULL DNSServiceRef"); return kDNSServiceErr_BadParam; } if (!RecordRef) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceRemoveRecord called with NULL DNSRecordRef"); return kDNSServiceErr_BadParam; } if (!sdRef->max_index) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceRemoveRecord called with bad DNSServiceRef"); return kDNSServiceErr_BadReference; } if (!DNSServiceRefValid(sdRef)) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceRemoveRecord called with invalid DNSServiceRef %p %08X %08X", sdRef, sdRef->sockfd, sdRef->validator); return kDNSServiceErr_BadReference; } len += sizeof(flags); hdr = create_hdr(remove_record_request, &len, &ptr, 1, sdRef); if (!hdr) return kDNSServiceErr_NoMemory; hdr->reg_index = RecordRef->record_index; put_flags(flags, &ptr); err = deliver_request(hdr, sdRef); // Will free hdr for us if (!err) { // This RecordRef could have been allocated in DNSServiceRegisterRecord or DNSServiceAddRecord. // If so, delink from the list before freeing DNSRecord **p = &sdRef->rec; while (*p && *p != RecordRef) p = &(*p)->recnext; if (*p) *p = RecordRef->recnext; free(RecordRef); } return err; } DNSServiceErrorType DNSSD_API DNSServiceReconfirmRecord ( DNSServiceFlags flags, uint32_t interfaceIndex, const char *fullname, uint16_t rrtype, uint16_t rrclass, uint16_t rdlen, const void *rdata ) { char *ptr; size_t len; ipc_msg_hdr *hdr; DNSServiceOp *tmp; DNSServiceErrorType err = ConnectToServer(&tmp, flags, reconfirm_record_request, NULL, NULL, NULL); if (err) return err; len = sizeof(DNSServiceFlags); len += sizeof(uint32_t); len += strlen(fullname) + 1; len += 3 * sizeof(uint16_t); len += rdlen; hdr = create_hdr(reconfirm_record_request, &len, &ptr, 0, tmp); if (!hdr) { DNSServiceRefDeallocate(tmp); return kDNSServiceErr_NoMemory; } put_flags(flags, &ptr); put_uint32(interfaceIndex, &ptr); put_string(fullname, &ptr); put_uint16(rrtype, &ptr); put_uint16(rrclass, &ptr); put_uint16(rdlen, &ptr); put_rdata(rdlen, rdata, &ptr); err = deliver_request(hdr, tmp); // Will free hdr for us DNSServiceRefDeallocate(tmp); return err; } static void handle_port_mapping_response(DNSServiceOp *const sdr, const CallbackHeader *const cbh, const char *data, const char *const end) { union { uint32_t l; u_char b[4]; } addr; uint8_t protocol; union { uint16_t s; u_char b[2]; } internalPort; union { uint16_t s; u_char b[2]; } externalPort; uint32_t ttl; if (!data || data + 13 > end) goto fail; addr.b[0] = *data++; addr.b[1] = *data++; addr.b[2] = *data++; addr.b[3] = *data++; protocol = *data++; internalPort.b[0] = *data++; internalPort.b[1] = *data++; externalPort.b[0] = *data++; externalPort.b[1] = *data++; ttl = get_uint32(&data, end); if (!data) goto fail; ((DNSServiceNATPortMappingReply)sdr->AppCallback)(sdr, cbh->cb_flags, cbh->cb_interface, cbh->cb_err, addr.l, protocol, internalPort.s, externalPort.s, ttl, sdr->AppContext); return; // MUST NOT touch sdr after invoking AppCallback -- client is allowed to dispose it from within callback function fail : syslog(LOG_WARNING, "dnssd_clientstub handle_port_mapping_response: error reading result from daemon"); } DNSServiceErrorType DNSSD_API DNSServiceNATPortMappingCreate ( DNSServiceRef *sdRef, DNSServiceFlags flags, uint32_t interfaceIndex, uint32_t protocol, /* TCP and/or UDP */ uint16_t internalPortInNetworkByteOrder, uint16_t externalPortInNetworkByteOrder, uint32_t ttl, /* time to live in seconds */ DNSServiceNATPortMappingReply callBack, void *context /* may be NULL */ ) { char *ptr; size_t len; ipc_msg_hdr *hdr; union { uint16_t s; u_char b[2]; } internalPort = { internalPortInNetworkByteOrder }; union { uint16_t s; u_char b[2]; } externalPort = { externalPortInNetworkByteOrder }; DNSServiceErrorType err = ConnectToServer(sdRef, flags, port_mapping_request, handle_port_mapping_response, (void *)callBack, context); if (err) return err; // On error ConnectToServer leaves *sdRef set to NULL len = sizeof(flags); len += sizeof(interfaceIndex); len += sizeof(protocol); len += sizeof(internalPort); len += sizeof(externalPort); len += sizeof(ttl); hdr = create_hdr(port_mapping_request, &len, &ptr, (*sdRef)->primary ? 1 : 0, *sdRef); if (!hdr) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; return kDNSServiceErr_NoMemory; } put_flags(flags, &ptr); put_uint32(interfaceIndex, &ptr); put_uint32(protocol, &ptr); *ptr++ = internalPort.b[0]; *ptr++ = internalPort.b[1]; *ptr++ = externalPort.b[0]; *ptr++ = externalPort.b[1]; put_uint32(ttl, &ptr); err = deliver_request(hdr, *sdRef); // Will free hdr for us if (err) { DNSServiceRefDeallocate(*sdRef); *sdRef = NULL; } return err; } #if _DNS_SD_LIBDISPATCH DNSServiceErrorType DNSSD_API DNSServiceSetDispatchQueue ( DNSServiceRef service, dispatch_queue_t queue ) { int dnssd_fd = DNSServiceRefSockFD(service); if (dnssd_fd == dnssd_InvalidSocket) return kDNSServiceErr_BadParam; if (!queue) { syslog(LOG_WARNING, "dnssd_clientstub: DNSServiceSetDispatchQueue dispatch queue NULL"); return kDNSServiceErr_BadParam; } if (service->disp_queue) { syslog(LOG_WARNING, "dnssd_clientstub DNSServiceSetDispatchQueue dispatch queue set already"); return kDNSServiceErr_BadParam; } if (service->disp_source) { syslog(LOG_WARNING, "DNSServiceSetDispatchQueue dispatch source set already"); return kDNSServiceErr_BadParam; } service->disp_source = dispatch_source_create(DISPATCH_SOURCE_TYPE_READ, dnssd_fd, 0, queue); if (!service->disp_source) { syslog(LOG_WARNING, "DNSServiceSetDispatchQueue dispatch_source_create failed"); return kDNSServiceErr_NoMemory; } service->disp_queue = queue; dispatch_source_set_event_handler(service->disp_source, ^{DNSServiceProcessResult(service);}); dispatch_source_set_cancel_handler(service->disp_source, ^{dnssd_close(dnssd_fd);}); dispatch_resume(service->disp_source); return kDNSServiceErr_NoError; } #endif // _DNS_SD_LIBDISPATCH #if !defined(_WIN32) static void DNSSD_API SleepKeepaliveCallback(DNSServiceRef sdRef, DNSRecordRef rec, const DNSServiceFlags flags, DNSServiceErrorType errorCode, void *context) { SleepKAContext *ka = (SleepKAContext *)context; (void)rec; // Unused (void)flags; // Unused if (sdRef->kacontext != context) syslog(LOG_WARNING, "SleepKeepaliveCallback context mismatch"); if (ka->AppCallback) ((DNSServiceSleepKeepaliveReply)ka->AppCallback)(sdRef, errorCode, ka->AppContext); } DNSServiceErrorType DNSSD_API DNSServiceSleepKeepalive ( DNSServiceRef *sdRef, DNSServiceFlags flags, int fd, unsigned int timeout, DNSServiceSleepKeepaliveReply callBack, void *context ) { char source_str[INET6_ADDRSTRLEN]; char target_str[INET6_ADDRSTRLEN]; struct sockaddr_storage lss; struct sockaddr_storage rss; socklen_t len1, len2; unsigned int len, proxyreclen; char buf[256]; DNSServiceErrorType err; DNSRecordRef record = NULL; char name[10]; char recname[128]; SleepKAContext *ka; unsigned int i, unique; (void) flags; //unused if (!timeout) return kDNSServiceErr_BadParam; len1 = sizeof(lss); if (getsockname(fd, (struct sockaddr *)&lss, &len1) < 0) { syslog(LOG_WARNING, "DNSServiceSleepKeepalive: getsockname %d\n", errno); return kDNSServiceErr_BadParam; } len2 = sizeof(rss); if (getpeername(fd, (struct sockaddr *)&rss, &len2) < 0) { syslog(LOG_WARNING, "DNSServiceSleepKeepalive: getpeername %d\n", errno); return kDNSServiceErr_BadParam; } if (len1 != len2) { syslog(LOG_WARNING, "DNSServiceSleepKeepalive local/remote info not same"); return kDNSServiceErr_Unknown; } unique = 0; if (lss.ss_family == AF_INET) { struct sockaddr_in *sl = (struct sockaddr_in *)&lss; struct sockaddr_in *sr = (struct sockaddr_in *)&rss; unsigned char *ptr = (unsigned char *)&sl->sin_addr; if (!inet_ntop(AF_INET, (const void *)&sr->sin_addr, target_str, sizeof (target_str))) { syslog(LOG_WARNING, "DNSServiceSleepKeepalive remote info failed %d", errno); return kDNSServiceErr_Unknown; } if (!inet_ntop(AF_INET, (const void *)&sl->sin_addr, source_str, sizeof (source_str))) { syslog(LOG_WARNING, "DNSServiceSleepKeepalive local info failed %d", errno); return kDNSServiceErr_Unknown; } // Sum of all bytes in the local address and port should result in a unique // number in the local network for (i = 0; i < sizeof(struct in_addr); i++) unique += ptr[i]; unique += sl->sin_port; len = snprintf(buf+1, sizeof(buf) - 1, "t=%u h=%s d=%s l=%u r=%u", timeout, source_str, target_str, ntohs(sl->sin_port), ntohs(sr->sin_port)); } else { struct sockaddr_in6 *sl6 = (struct sockaddr_in6 *)&lss; struct sockaddr_in6 *sr6 = (struct sockaddr_in6 *)&rss; unsigned char *ptr = (unsigned char *)&sl6->sin6_addr; if (!inet_ntop(AF_INET6, (const void *)&sr6->sin6_addr, target_str, sizeof (target_str))) { syslog(LOG_WARNING, "DNSServiceSleepKeepalive remote6 info failed %d", errno); return kDNSServiceErr_Unknown; } if (!inet_ntop(AF_INET6, (const void *)&sl6->sin6_addr, source_str, sizeof (source_str))) { syslog(LOG_WARNING, "DNSServiceSleepKeepalive local6 info failed %d", errno); return kDNSServiceErr_Unknown; } for (i = 0; i < sizeof(struct in6_addr); i++) unique += ptr[i]; unique += sl6->sin6_port; len = snprintf(buf+1, sizeof(buf) - 1, "t=%u H=%s D=%s l=%u r=%u", timeout, source_str, target_str, ntohs(sl6->sin6_port), ntohs(sr6->sin6_port)); } if (len >= (sizeof(buf) - 1)) { syslog(LOG_WARNING, "DNSServiceSleepKeepalive could not fit local/remote info"); return kDNSServiceErr_Unknown; } // Include the NULL byte also in the first byte. The total length of the record includes the // first byte also. buf[0] = len + 1; proxyreclen = len + 2; len = snprintf(name, sizeof(name), "%u", unique); if (len >= sizeof(name)) { syslog(LOG_WARNING, "DNSServiceSleepKeepalive could not fit unique"); return kDNSServiceErr_Unknown; } len = snprintf(recname, sizeof(recname), "%s.%s", name, "_keepalive._dns-sd._udp.local"); if (len >= sizeof(recname)) { syslog(LOG_WARNING, "DNSServiceSleepKeepalive could not fit name"); return kDNSServiceErr_Unknown; } ka = malloc(sizeof(SleepKAContext)); if (!ka) return kDNSServiceErr_NoMemory; ka->AppCallback = (void *)callBack; ka->AppContext = context; err = DNSServiceCreateConnection(sdRef); if (err) { syslog(LOG_WARNING, "DNSServiceSleepKeepalive cannot create connection"); free(ka); return err; } // we don't care about the "record". When sdRef gets deallocated later, it will be freed too err = DNSServiceRegisterRecord(*sdRef, &record, kDNSServiceFlagsUnique, 0, recname, kDNSServiceType_NULL, kDNSServiceClass_IN, proxyreclen, buf, kDNSServiceInterfaceIndexAny, SleepKeepaliveCallback, ka); if (err) { syslog(LOG_WARNING, "DNSServiceSleepKeepalive cannot create connection"); free(ka); return err; } (*sdRef)->kacontext = ka; return kDNSServiceErr_NoError; } #endif