/* * socket.c -- socket library functions * * Copyright 1998 by Eric S. Raymond. * For license terms, see the file COPYING in this directory. */ #include "config.h" #include #include #include #ifdef HAVE_MEMORY_H #include #endif /* HAVE_MEMORY_H */ #include #include #include #include #include #if defined(STDC_HEADERS) #include #endif #if defined(HAVE_UNISTD_H) #include #endif #if defined(HAVE_STDARG_H) #include #else #include #endif #include "socket.h" #include "fetchmail.h" #include "i18n.h" /* We need to define h_errno only if it is not already */ #ifndef h_errno #ifdef HAVE_RES_SEARCH /* some versions of FreeBSD should declare this but don't */ extern int h_errno; #else /* pretend we have h_errno to avoid some #ifdef's later */ static int h_errno; #endif #endif /* ndef h_errno */ #if NET_SECURITY #include #endif /* NET_SECURITY */ #ifdef HAVE_SOCKETPAIR static int handle_plugin(const char *host, const char *service, const char *plugin) /* get a socket mediated through a given external command */ { int fds[2]; if (socketpair(AF_UNIX,SOCK_STREAM,0,fds)) { report(stderr, _("fetchmail: socketpair failed\n")); return -1; } switch (fork()) { case -1: /* error */ report(stderr, _("fetchmail: fork failed\n")); return -1; break; case 0: /* child */ /* fds[1] is the parent's end; close it for proper EOF ** detection */ (void) close(fds[1]); if ( (dup2(fds[0],0) == -1) || (dup2(fds[0],1) == -1) ) { report(stderr, _("dup2 failed\n")); exit(1); } /* fds[0] is now connected to 0 and 1; close it */ (void) close(fds[0]); if (outlevel >= O_VERBOSE) report(stderr, _("running %s %s %s\n"), plugin, host, service); execlp(plugin,plugin,host,service,0); report(stderr, _("execl(%s) failed\n"), plugin); exit(0); break; default: /* parent */ /* NOP */ break; } /* fds[0] is the child's end; close it for proper EOF detection */ (void) close(fds[0]); return fds[1]; } #endif /* HAVE_SOCKETPAIR */ #ifdef __UNUSED__ #include int SockCheckOpen(int fd) /* poll given socket; is it selectable? */ { fd_set r, w, e; int rt; struct timeval tv; for (;;) { FD_ZERO(&r); FD_ZERO(&w); FD_ZERO(&e); FD_SET(fd, &e); tv.tv_sec = 0; tv.tv_usec = 0; rt = select(fd+1, &r, &w, &e, &tv); if (rt == -1 && (errno != EAGAIN && errno != EINTR)) return 0; if (rt != -1) return 1; } } #endif /* __UNUSED__ */ #if INET6 int SockOpen(const char *host, const char *service, const char *options, const char *plugin) { struct addrinfo *ai, req; #if NET_SECURITY void *request = NULL; int requestlen; #endif /* NET_SECURITY */ #ifdef HAVE_SOCKETPAIR if (plugin) return handle_plugin(host,service,plugin); #endif /* HAVE_SOCKETPAIR */ memset(&req, 0, sizeof(struct addrinfo)); req.ai_socktype = SOCK_STREAM; if (getaddrinfo(host, service, &req, &ai)) { report(stderr, _("fetchmail: getaddrinfo(%s.%s)\n"), host,service); return -1; }; #if NET_SECURITY if (!options) requestlen = 0; else if (net_security_strtorequest((char *)options, &request, &requestlen)) goto ret; i = inner_connect(ai, request, requestlen, NULL, NULL, "fetchmail", NULL); if (request) free(request); ret: #else /* NET_SECURITY */ i = inner_connect(ai, NULL, 0, NULL, NULL, "fetchmail", NULL); #endif /* NET_SECURITY */ freeaddrinfo(ai); return i; }; #else /* INET6 */ #ifndef HAVE_INET_ATON #ifndef INADDR_NONE #ifdef INADDR_BROADCAST #define INADDR_NONE INADDR_BROADCAST #else #define INADDR_NONE -1 #endif #endif #endif /* HAVE_INET_ATON */ int SockOpen(const char *host, int clientPort, const char *options, const char *plugin) { int sock = -1; /* pacify -Wall */ #ifndef HAVE_INET_ATON unsigned long inaddr; #endif /* HAVE_INET_ATON */ struct sockaddr_in ad, **pptr; struct hostent *hp; #ifdef HAVE_SOCKETPAIR if (plugin) { char buf[10]; sprintf(buf,"%d",clientPort); return handle_plugin(host,buf,plugin); } #endif /* HAVE_SOCKETPAIR */ memset(&ad, 0, sizeof(ad)); ad.sin_family = AF_INET; /* we'll accept a quad address */ #ifndef HAVE_INET_ATON inaddr = inet_addr(host); if (inaddr != INADDR_NONE) memcpy(&ad.sin_addr, &inaddr, sizeof(inaddr)); else #else if (!inet_aton(host, &ad.sin_addr)) #endif /* HAVE_INET_ATON */ { hp = gethostbyname(host); if (hp == NULL) { errno = 0; return -1; } /* * Add a check to make sure the address has a valid IPv4 or IPv6 * length. This prevents buffer spamming by a broken DNS. */ if(hp->h_length != 4 && hp->h_length != 8) { h_errno = errno = 0; report(stderr, _("fetchmail: illegal address length received for host %s\n"),host); return -1; } /* * Try all addresses of a possibly multihomed host until we get * a successful connect or until we run out of addresses. */ pptr = (struct sockaddr_in **)hp->h_addr_list; for(; *pptr != NULL; pptr++) { sock = socket(AF_INET, SOCK_STREAM, 0); if (sock < 0) { h_errno = 0; return -1; } ad.sin_port = htons(clientPort); memcpy(&ad.sin_addr, *pptr, sizeof(struct in_addr)); if (connect(sock, (struct sockaddr *) &ad, sizeof(ad)) == 0) break; /* success */ close(sock); memset(&ad, 0, sizeof(ad)); ad.sin_family = AF_INET; } if(*pptr == NULL) { int olderr = errno; close(sock); h_errno = 0; errno = olderr; return -1; } } else { ad.sin_port = htons(clientPort); sock = socket(AF_INET, SOCK_STREAM, 0); if (sock < 0) { h_errno = 0; return -1; } if (connect(sock, (struct sockaddr *) &ad, sizeof(ad)) < 0) { int olderr = errno; close(sock); h_errno = 0; errno = olderr; return -1; } } return(sock); } #endif /* INET6 */ #if defined(HAVE_STDARG_H) int SockPrintf(int sock, const char* format, ...) { #else int SockPrintf(sock,format,va_alist) int sock; char *format; va_dcl { #endif va_list ap; char buf[8192]; #if defined(HAVE_STDARG_H) va_start(ap, format) ; #else va_start(ap); #endif #ifdef HAVE_VSNPRINTF vsnprintf(buf, sizeof(buf), format, ap); #else vsprintf(buf, format, ap); #endif va_end(ap); return SockWrite(sock, buf, strlen(buf)); } #ifdef SSL_ENABLE #include "ssl.h" #include "err.h" #include "pem.h" #include "x509.h" static SSL_CTX *_ctx = NULL; static SSL *_ssl_context[FD_SETSIZE]; SSL *SSLGetContext( int ); #endif /* SSL_ENABLE */ int SockWrite(int sock, char *buf, int len) { int n, wrlen = 0; #ifdef SSL_ENABLE SSL *ssl; #endif while (len) { #ifdef SSL_ENABLE if( NULL != ( ssl = SSLGetContext( sock ) ) ) n = SSL_write(ssl, buf, len); else n = write(sock, buf, len); #else n = write(sock, buf, len); #endif if (n <= 0) return -1; len -= n; wrlen += n; buf += n; } return wrlen; } int SockRead(int sock, char *buf, int len) { char *newline, *bp = buf; int n; #ifdef SSL_ENABLE SSL *ssl; #endif if (--len < 1) return(-1); do { /* * The reason for these gymnastics is that we want two things: * (1) to read \n-terminated lines, * (2) to return the true length of data read, even if the * data coming in has embedded NULS. */ #ifdef SSL_ENABLE if( NULL != ( ssl = SSLGetContext( sock ) ) ) { /* Hack alert! */ /* OK... SSL_peek works a little different from MSG_PEEK Problem is that SSL_peek can return 0 if there is no data currently available. If, on the other hand, we loose the socket, we also get a zero, but the SSL_read then SEGFAULTS! To deal with this, we'll check the error code any time we get a return of zero from SSL_peek. If we have an error, we bail. If we don't, we read one character in SSL_read and loop. This should continue to work even if they later change the behavior of SSL_peek to "fix" this problem... :-( */ if ((n = SSL_peek(ssl, bp, len)) < 0) { return(-1); } if( 0 == n ) { /* SSL_peek says no data... Does he mean no data or did the connection blow up? If we got an error then bail! */ if( 0 != ( n = ERR_get_error() ) ) { return -1; } /* We didn't get an error so read at least one character at this point and loop */ n = 1; /* Make sure newline start out NULL! * We don't have a string to pass through * the strchr at this point yet */ newline = NULL; } else if ((newline = memchr(bp, '\n', n)) != NULL) n = newline - bp + 1; if ((n = SSL_read(ssl, bp, n)) == -1) { return(-1); } /* Check for case where our single character turned out to * be a newline... (It wasn't going to get caught by * the strchr above if it came from the hack... ). */ if( NULL == newline && 1 == n && '\n' == *bp ) { /* Got our newline - this will break out of the loop now */ newline = bp; } } else { if ((n = recv(sock, bp, len, MSG_PEEK)) <= 0) return(-1); if ((newline = memchr(bp, '\n', n)) != NULL) n = newline - bp + 1; if ((n = read(sock, bp, n)) == -1) return(-1); } #else if ((n = recv(sock, bp, len, MSG_PEEK)) <= 0) return(-1); if ((newline = memchr(bp, '\n', n)) != NULL) n = newline - bp + 1; if ((n = read(sock, bp, n)) == -1) return(-1); #endif bp += n; len -= n; } while (!newline && len); *bp = '\0'; return bp - buf; } int SockPeek(int sock) /* peek at the next socket character without actually reading it */ { int n; char ch; #ifdef SSL_ENABLE SSL *ssl; #endif #ifdef SSL_ENABLE if( NULL != ( ssl = SSLGetContext( sock ) ) ) { n = SSL_peek(ssl, &ch, 1); if( 0 == n ) { /* This code really needs to implement a "hold back" * to simulate a functioning SSL_peek()... sigh... * Has to be coordinated with the read code above. * Next on the list todo... */ /* SSL_peek says no data... Does he mean no data or did the connection blow up? If we got an error then bail! */ if( 0 != ( n = ERR_get_error() ) ) { return -1; } /* Haven't seen this case actually occur, but... if the problem in SockRead can occur, this should be possible... Just not sure what to do here. This should be a safe "punt" the "peek" but don't "punt" the "session"... */ return 0; /* Give him a '\0' character */ } } else { n = recv(sock, &ch, 1, MSG_PEEK); } #else n = recv(sock, &ch, 1, MSG_PEEK); #endif if (n == -1) return -1; else return(ch); } #ifdef SSL_ENABLE static char *_ssl_server_cname = NULL; SSL *SSLGetContext( int sock ) { /* If SSLOpen has never initialized - just return NULL */ if( NULL == _ctx ) return NULL; if( sock < 0 || sock > FD_SETSIZE ) return NULL; return _ssl_context[sock]; } int SSL_verify_callback( int ok_return, X509_STORE_CTX *ctx ) { char buf[260]; char cbuf[260]; char ibuf[260]; char *str_ptr; X509 *x509_cert; int err, depth; x509_cert = X509_STORE_CTX_get_current_cert(ctx); err = X509_STORE_CTX_get_error(ctx); depth = X509_STORE_CTX_get_error_depth(ctx); X509_NAME_oneline(X509_get_subject_name(x509_cert), buf, 256); X509_NAME_oneline(X509_get_issuer_name(x509_cert), ibuf, 256); /* Just to be sure those buffers are terminated... I think the X509 libraries do, but... */ buf[256] = ibuf[256] = '\0'; if (depth == 0) { if( ( str_ptr = strstr( ibuf, "/O=" ) ) ) { str_ptr += 3; strcpy( cbuf, str_ptr ); if( ( str_ptr = strchr(cbuf, '/' ) ) ) { *str_ptr = '\0'; } if (outlevel == O_VERBOSE) report(stdout, "Issuer Organization: %s", cbuf ); } else { if (outlevel == O_VERBOSE) report(stdout, "Unknown Organization", cbuf ); } if( ( str_ptr = strstr( ibuf, "/CN=" ) ) ) { str_ptr += 4; strcpy( cbuf, str_ptr ); if( ( str_ptr = strchr(cbuf, '/' ) ) ) { *str_ptr = '\0'; } if (outlevel == O_VERBOSE) report(stdout, "Issuer CommonName: %s", cbuf ); } else { if (outlevel == O_VERBOSE) report(stdout, "Unknown Issuer CommonName", cbuf ); } if( ( str_ptr = strstr( buf, "/CN=" ) ) ) { str_ptr += 4; strcpy( cbuf, str_ptr ); if( ( str_ptr = strchr(cbuf, '/' ) ) ) { *str_ptr = '\0'; } if (outlevel == O_VERBOSE) report(stdout, "Server CommonName: %s", cbuf ); /* Should we have some wildcarding here? */ if ( NULL != _ssl_server_cname && 0 != strcmp( cbuf, _ssl_server_cname ) ) { report(stdout, "Server CommonName mismatch: %s != %s", cbuf, _ssl_server_cname ); } } else { if (outlevel == O_VERBOSE) report(stdout, "Unknown Server CommonName", cbuf ); } } switch (ctx->error) { case X509_V_ERR_UNABLE_TO_GET_ISSUER_CERT: X509_NAME_oneline(X509_get_issuer_name(ctx->current_cert), buf, 256); report(stdout, "unknown issuer= %s", buf); break; case X509_V_ERR_CERT_NOT_YET_VALID: case X509_V_ERR_ERROR_IN_CERT_NOT_BEFORE_FIELD: report(stderr, "Server Certificate not yet valid"); break; case X509_V_ERR_CERT_HAS_EXPIRED: case X509_V_ERR_ERROR_IN_CERT_NOT_AFTER_FIELD: report(stderr, "Server Certificate expired"); break; } /* We are not requiring or validating server or issuer id's as yet */ /* Always return OK from here */ ok_return = 1; return( ok_return ); } /* performs initial SSL handshake over the connected socket * uses SSL *ssl global variable, which is currently defined * in this file */ int SSLOpen(int sock, char *mycert, char *mykey, char *servercname ) { SSL_load_error_strings(); SSLeay_add_ssl_algorithms(); if( sock < 0 || sock > FD_SETSIZE ) { report(stderr, "File descriptor out of range for SSL" ); return( -1 ); } if( ! _ctx ) { /* Be picky and make sure the memory is cleared */ memset( _ssl_context, 0, sizeof( _ssl_context ) ); _ctx = SSL_CTX_new(SSLv23_client_method()); if(_ctx == NULL) { ERR_print_errors_fp(stderr); return(-1); } } _ssl_context[sock] = SSL_new(_ctx); if(_ssl_context[sock] == NULL) { ERR_print_errors_fp(stderr); return(-1); } /* This static is for the verify callback */ _ssl_server_cname = servercname; SSL_CTX_set_verify(_ctx, SSL_VERIFY_PEER, SSL_verify_callback); if( mycert || mykey ) { /* Ok... He has a certificate file defined, so lets declare it. If * he does NOT have a separate certificate and private key file then * assume that it's a combined key and certificate file. */ if( !mykey ) mykey = mycert; if( !mycert ) mycert = mykey; SSL_use_certificate_file(_ssl_context[sock], mycert, SSL_FILETYPE_PEM); SSL_use_RSAPrivateKey_file(_ssl_context[sock], mykey, SSL_FILETYPE_PEM); } SSL_set_fd(_ssl_context[sock], sock); if(SSL_connect(_ssl_context[sock]) == -1) { ERR_print_errors_fp(stderr); return(-1); } return(0); } #endif int SockClose(int sock) /* close a socket (someday we may do other cleanup here) */ { #ifdef SSL_ENABLE SSL *ssl; if( NULL != ( ssl = SSLGetContext( sock ) ) ) { /* Clean up the SSL stack */ SSL_free( _ssl_context[sock] ); _ssl_context[sock] = NULL; } #endif return(close(sock)); } #ifdef MAIN /* * Use the chargen service to test input buffering directly. * You may have to uncomment the `chargen' service description in your * inetd.conf (and then SIGHUP inetd) for this to work. */ main() { int sock = SockOpen("localhost", 19, NULL); char buf[80]; while (SockRead(sock, buf, sizeof(buf)-1)) SockWrite(1, buf, strlen(buf)); SockClose(sock); } #endif /* MAIN */ /* socket.c ends here */