/* * nanohttp.c: minimalist HTTP GET implementation to fetch external subsets. * focuses on size, streamability, reentrancy and portability * * This is clearly not a general purpose HTTP implementation * If you look for one, check: * http://www.w3.org/Library/ * * See Copyright for the status of this software. * * daniel@veillard.com */ #define IN_LIBXML #include "libxml.h" #ifdef LIBXML_HTTP_ENABLED #include #include #include #include #ifdef HAVE_UNISTD_H #include #elif defined (_WIN32) #include #endif #ifdef HAVE_SYS_SOCKET_H #include #endif #ifdef HAVE_NETINET_IN_H #include #endif #ifdef HAVE_ARPA_INET_H #include #endif #ifdef HAVE_NETDB_H #include #endif #ifdef HAVE_FCNTL_H #include #endif #ifdef HAVE_SYS_TIME_H #include #endif #ifndef HAVE_POLL_H #ifdef HAVE_SYS_SELECT_H #include #endif #else #include #endif #ifdef LIBXML_ZLIB_ENABLED #include #endif #ifdef VMS #include #define XML_SOCKLEN_T unsigned int #endif #if defined(_WIN32) #include #endif #include #include #include /* for xmlStr(n)casecmp() */ #include #include #include "private/error.h" #include "private/io.h" /** * A couple portability macros */ #ifndef _WINSOCKAPI_ #define closesocket(s) close(s) #define SOCKET int #define INVALID_SOCKET (-1) #endif #ifndef XML_SOCKLEN_T #define XML_SOCKLEN_T unsigned int #endif #define GETHOSTBYNAME_ARG_CAST (char *) #define SEND_ARG2_CAST (char *) #ifdef STANDALONE #define xmlStrncasecmp(a, b, n) strncasecmp((char *)a, (char *)b, n) #define xmlStrcasecmpi(a, b) strcasecmp((char *)a, (char *)b) #endif #define XML_NANO_HTTP_MAX_REDIR 10 #define XML_NANO_HTTP_CHUNK 4096 #define XML_NANO_HTTP_CLOSED 0 #define XML_NANO_HTTP_WRITE 1 #define XML_NANO_HTTP_READ 2 #define XML_NANO_HTTP_NONE 4 typedef struct xmlNanoHTTPCtxt { char *protocol; /* the protocol name */ char *hostname; /* the host name */ int port; /* the port */ char *path; /* the path within the URL */ char *query; /* the query string */ SOCKET fd; /* the file descriptor for the socket */ int state; /* WRITE / READ / CLOSED */ char *out; /* buffer sent (zero terminated) */ char *outptr; /* index within the buffer sent */ char *in; /* the receiving buffer */ char *content; /* the start of the content */ char *inptr; /* the next byte to read from network */ char *inrptr; /* the next byte to give back to the client */ int inlen; /* len of the input buffer */ int last; /* return code for last operation */ int returnValue; /* the protocol return value */ int version; /* the protocol version */ int ContentLength; /* specified content length from HTTP header */ char *contentType; /* the MIME type for the input */ char *location; /* the new URL in case of redirect */ char *authHeader; /* contents of {WWW,Proxy}-Authenticate header */ char *encoding; /* encoding extracted from the contentType */ char *mimeType; /* Mime-Type extracted from the contentType */ #ifdef LIBXML_ZLIB_ENABLED z_stream *strm; /* Zlib stream object */ int usesGzip; /* "Content-Encoding: gzip" was detected */ #endif } xmlNanoHTTPCtxt, *xmlNanoHTTPCtxtPtr; static int initialized = 0; static char *proxy = NULL; /* the proxy name if any */ static int proxyPort; /* the proxy port if any */ static unsigned int timeout = 60;/* the select() timeout in seconds */ static int xmlNanoHTTPFetchContent( void * ctx, char ** ptr, int * len ); /** * xmlHTTPErrMemory: * @extra: extra information * * Handle an out of memory condition */ static void xmlHTTPErrMemory(void) { xmlRaiseMemoryError(NULL, NULL, NULL, XML_FROM_HTTP, NULL); } /** * A portability function */ static int socket_errno(void) { #ifdef _WINSOCKAPI_ int err = WSAGetLastError(); switch(err) { case WSAECONNRESET: return(ECONNRESET); case WSAEINPROGRESS: return(EINPROGRESS); case WSAEINTR: return(EINTR); case WSAESHUTDOWN: return(ESHUTDOWN); case WSAEWOULDBLOCK: return(EWOULDBLOCK); default: return(err); } #else return(errno); #endif } /** * xmlNanoHTTPInit: * * Initialize the HTTP protocol layer. * Currently it just checks for proxy information */ void xmlNanoHTTPInit(void) { const char *env; #ifdef _WINSOCKAPI_ WSADATA wsaData; #endif if (initialized) return; #ifdef _WINSOCKAPI_ if (WSAStartup(MAKEWORD(1, 1), &wsaData) != 0) return; #endif if (proxy == NULL) { proxyPort = 80; env = getenv("no_proxy"); if (env && ((env[0] == '*') && (env[1] == 0))) goto done; env = getenv("http_proxy"); if (env != NULL) { xmlNanoHTTPScanProxy(env); goto done; } env = getenv("HTTP_PROXY"); if (env != NULL) { xmlNanoHTTPScanProxy(env); goto done; } } done: initialized = 1; } /** * xmlNanoHTTPCleanup: * * Cleanup the HTTP protocol layer. */ void xmlNanoHTTPCleanup(void) { if (proxy != NULL) { xmlFree(proxy); proxy = NULL; } #ifdef _WINSOCKAPI_ if (initialized) WSACleanup(); #endif initialized = 0; return; } /** * xmlNanoHTTPScanURL: * @ctxt: an HTTP context * @URL: The URL used to initialize the context * * (Re)Initialize an HTTP context by parsing the URL and finding * the protocol host port and path it indicates. */ static void xmlNanoHTTPScanURL(xmlNanoHTTPCtxtPtr ctxt, const char *URL) { xmlURIPtr uri; int len; /* * Clear any existing data from the context */ if (ctxt->protocol != NULL) { xmlFree(ctxt->protocol); ctxt->protocol = NULL; } if (ctxt->hostname != NULL) { xmlFree(ctxt->hostname); ctxt->hostname = NULL; } if (ctxt->path != NULL) { xmlFree(ctxt->path); ctxt->path = NULL; } if (ctxt->query != NULL) { xmlFree(ctxt->query); ctxt->query = NULL; } if (URL == NULL) return; uri = xmlParseURIRaw(URL, 1); if (uri == NULL) return; if ((uri->scheme == NULL) || (uri->server == NULL)) { xmlFreeURI(uri); return; } ctxt->protocol = xmlMemStrdup(uri->scheme); /* special case of IPv6 addresses, the [] need to be removed */ if ((uri->server != NULL) && (*uri->server == '[')) { len = strlen(uri->server); if ((len > 2) && (uri->server[len - 1] == ']')) { ctxt->hostname = (char *) xmlCharStrndup(uri->server + 1, len -2); } else ctxt->hostname = xmlMemStrdup(uri->server); } else ctxt->hostname = xmlMemStrdup(uri->server); if (uri->path != NULL) ctxt->path = xmlMemStrdup(uri->path); else ctxt->path = xmlMemStrdup("/"); if (uri->query != NULL) ctxt->query = xmlMemStrdup(uri->query); if (uri->port != 0) ctxt->port = uri->port; xmlFreeURI(uri); } /** * xmlNanoHTTPScanProxy: * @URL: The proxy URL used to initialize the proxy context * * (Re)Initialize the HTTP Proxy context by parsing the URL and finding * the protocol host port it indicates. * Should be like http://myproxy/ or http://myproxy:3128/ * A NULL URL cleans up proxy information. */ void xmlNanoHTTPScanProxy(const char *URL) { xmlURIPtr uri; if (proxy != NULL) { xmlFree(proxy); proxy = NULL; } proxyPort = 0; if (URL == NULL) return; uri = xmlParseURIRaw(URL, 1); if ((uri == NULL) || (uri->scheme == NULL) || (strcmp(uri->scheme, "http")) || (uri->server == NULL)) { __xmlIOErr(XML_FROM_HTTP, XML_HTTP_URL_SYNTAX, "Syntax Error\n"); if (uri != NULL) xmlFreeURI(uri); return; } proxy = xmlMemStrdup(uri->server); if (uri->port != 0) proxyPort = uri->port; xmlFreeURI(uri); } /** * xmlNanoHTTPNewCtxt: * @URL: The URL used to initialize the context * * Allocate and initialize a new HTTP context. * * Returns an HTTP context or NULL in case of error. */ static xmlNanoHTTPCtxtPtr xmlNanoHTTPNewCtxt(const char *URL) { xmlNanoHTTPCtxtPtr ret; ret = (xmlNanoHTTPCtxtPtr) xmlMalloc(sizeof(xmlNanoHTTPCtxt)); if (ret == NULL) { xmlHTTPErrMemory(); return(NULL); } memset(ret, 0, sizeof(xmlNanoHTTPCtxt)); ret->port = 80; ret->returnValue = 0; ret->fd = INVALID_SOCKET; ret->ContentLength = -1; xmlNanoHTTPScanURL(ret, URL); return(ret); } /** * xmlNanoHTTPFreeCtxt: * @ctxt: an HTTP context * * Frees the context after closing the connection. */ static void xmlNanoHTTPFreeCtxt(xmlNanoHTTPCtxtPtr ctxt) { if (ctxt == NULL) return; if (ctxt->hostname != NULL) xmlFree(ctxt->hostname); if (ctxt->protocol != NULL) xmlFree(ctxt->protocol); if (ctxt->path != NULL) xmlFree(ctxt->path); if (ctxt->query != NULL) xmlFree(ctxt->query); if (ctxt->out != NULL) xmlFree(ctxt->out); if (ctxt->in != NULL) xmlFree(ctxt->in); if (ctxt->contentType != NULL) xmlFree(ctxt->contentType); if (ctxt->encoding != NULL) xmlFree(ctxt->encoding); if (ctxt->mimeType != NULL) xmlFree(ctxt->mimeType); if (ctxt->location != NULL) xmlFree(ctxt->location); if (ctxt->authHeader != NULL) xmlFree(ctxt->authHeader); #ifdef LIBXML_ZLIB_ENABLED if (ctxt->strm != NULL) { inflateEnd(ctxt->strm); xmlFree(ctxt->strm); } #endif ctxt->state = XML_NANO_HTTP_NONE; if (ctxt->fd != INVALID_SOCKET) closesocket(ctxt->fd); ctxt->fd = INVALID_SOCKET; xmlFree(ctxt); } /** * xmlNanoHTTPSend: * @ctxt: an HTTP context * * Send the input needed to initiate the processing on the server side * Returns number of bytes sent or -1 on error. */ static int xmlNanoHTTPSend(xmlNanoHTTPCtxtPtr ctxt, const char *xmt_ptr, int outlen) { int total_sent = 0; #ifdef HAVE_POLL_H struct pollfd p; #else struct timeval tv; fd_set wfd; #endif if ((ctxt->state & XML_NANO_HTTP_WRITE) && (xmt_ptr != NULL)) { while (total_sent < outlen) { int nsent = send(ctxt->fd, SEND_ARG2_CAST (xmt_ptr + total_sent), outlen - total_sent, 0); if (nsent > 0) total_sent += nsent; else if ((nsent == -1) && #if defined(EAGAIN) && EAGAIN != EWOULDBLOCK (socket_errno() != EAGAIN) && #endif (socket_errno() != EWOULDBLOCK)) { __xmlIOErr(XML_FROM_HTTP, 0, "send failed\n"); if (total_sent == 0) total_sent = -1; break; } else { /* * No data sent * Since non-blocking sockets are used, wait for * socket to be writable or default timeout prior * to retrying. */ #ifndef HAVE_POLL_H #ifndef _WINSOCKAPI_ if (ctxt->fd > FD_SETSIZE) return -1; #endif tv.tv_sec = timeout; tv.tv_usec = 0; FD_ZERO(&wfd); #ifdef _MSC_VER #pragma warning(push) #pragma warning(disable: 4018) #endif FD_SET(ctxt->fd, &wfd); #ifdef _MSC_VER #pragma warning(pop) #endif (void) select(ctxt->fd + 1, NULL, &wfd, NULL, &tv); #else p.fd = ctxt->fd; p.events = POLLOUT; (void) poll(&p, 1, timeout * 1000); #endif /* !HAVE_POLL_H */ } } } return total_sent; } /** * xmlNanoHTTPRecv: * @ctxt: an HTTP context * * Read information coming from the HTTP connection. * This is a blocking call (but it blocks in select(), not read()). * * Returns the number of byte read or -1 in case of error. */ static int xmlNanoHTTPRecv(xmlNanoHTTPCtxtPtr ctxt) { #ifdef HAVE_POLL_H struct pollfd p; #else fd_set rfd; struct timeval tv; #endif while (ctxt->state & XML_NANO_HTTP_READ) { if (ctxt->in == NULL) { ctxt->in = (char *) xmlMallocAtomic(65000); if (ctxt->in == NULL) { xmlHTTPErrMemory(); ctxt->last = -1; return (-1); } ctxt->inlen = 65000; ctxt->inptr = ctxt->content = ctxt->inrptr = ctxt->in; } if (ctxt->inrptr > ctxt->in + XML_NANO_HTTP_CHUNK) { int delta = ctxt->inrptr - ctxt->in; int len = ctxt->inptr - ctxt->inrptr; memmove(ctxt->in, ctxt->inrptr, len); ctxt->inrptr -= delta; ctxt->content -= delta; ctxt->inptr -= delta; } if ((ctxt->in + ctxt->inlen) < (ctxt->inptr + XML_NANO_HTTP_CHUNK)) { int d_inptr = ctxt->inptr - ctxt->in; int d_content = ctxt->content - ctxt->in; int d_inrptr = ctxt->inrptr - ctxt->in; char *tmp_ptr = ctxt->in; ctxt->inlen *= 2; ctxt->in = (char *) xmlRealloc(tmp_ptr, ctxt->inlen); if (ctxt->in == NULL) { xmlHTTPErrMemory(); xmlFree(tmp_ptr); ctxt->last = -1; return (-1); } ctxt->inptr = ctxt->in + d_inptr; ctxt->content = ctxt->in + d_content; ctxt->inrptr = ctxt->in + d_inrptr; } ctxt->last = recv(ctxt->fd, ctxt->inptr, XML_NANO_HTTP_CHUNK, 0); if (ctxt->last > 0) { ctxt->inptr += ctxt->last; return (ctxt->last); } if (ctxt->last == 0) { return (0); } if (ctxt->last == -1) { switch (socket_errno()) { case EINPROGRESS: case EWOULDBLOCK: #if defined(EAGAIN) && EAGAIN != EWOULDBLOCK case EAGAIN: #endif break; case ECONNRESET: case ESHUTDOWN: return (0); default: __xmlIOErr(XML_FROM_HTTP, 0, "recv failed\n"); return (-1); } } #ifdef HAVE_POLL_H p.fd = ctxt->fd; p.events = POLLIN; if ((poll(&p, 1, timeout * 1000) < 1) #if defined(EINTR) && (errno != EINTR) #endif ) return (0); #else /* !HAVE_POLL_H */ #ifndef _WINSOCKAPI_ if (ctxt->fd > FD_SETSIZE) return 0; #endif tv.tv_sec = timeout; tv.tv_usec = 0; FD_ZERO(&rfd); #ifdef _MSC_VER #pragma warning(push) #pragma warning(disable: 4018) #endif FD_SET(ctxt->fd, &rfd); #ifdef _MSC_VER #pragma warning(pop) #endif if ((select(ctxt->fd + 1, &rfd, NULL, NULL, &tv) < 1) #if defined(EINTR) && (socket_errno() != EINTR) #endif ) return (0); #endif /* !HAVE_POLL_H */ } return (0); } /** * xmlNanoHTTPReadLine: * @ctxt: an HTTP context * * Read one line in the HTTP server output, usually for extracting * the HTTP protocol information from the answer header. * * Returns a newly allocated string with a copy of the line, or NULL * which indicate the end of the input. */ static char * xmlNanoHTTPReadLine(xmlNanoHTTPCtxtPtr ctxt) { char buf[4096]; char *bp = buf; int rc; while (bp - buf < 4095) { if (ctxt->inrptr == ctxt->inptr) { if ( (rc = xmlNanoHTTPRecv(ctxt)) == 0) { if (bp == buf) return(NULL); else *bp = 0; return(xmlMemStrdup(buf)); } else if ( rc == -1 ) { return ( NULL ); } } *bp = *ctxt->inrptr++; if (*bp == '\n') { *bp = 0; return(xmlMemStrdup(buf)); } if (*bp != '\r') bp++; } buf[4095] = 0; return(xmlMemStrdup(buf)); } /** * xmlNanoHTTPScanAnswer: * @ctxt: an HTTP context * @line: an HTTP header line * * Try to extract useful information from the server answer. * We currently parse and process: * - The HTTP revision/ return code * - The Content-Type, Mime-Type and charset used * - The Location for redirect processing. * * Returns -1 in case of failure, the file descriptor number otherwise */ static void xmlNanoHTTPScanAnswer(xmlNanoHTTPCtxtPtr ctxt, const char *line) { const char *cur = line; if (line == NULL) return; if (!strncmp(line, "HTTP/", 5)) { int version = 0; int ret = 0; cur += 5; while ((*cur >= '0') && (*cur <= '9')) { version *= 10; version += *cur - '0'; cur++; } if (*cur == '.') { cur++; if ((*cur >= '0') && (*cur <= '9')) { version *= 10; version += *cur - '0'; cur++; } while ((*cur >= '0') && (*cur <= '9')) cur++; } else version *= 10; if ((*cur != ' ') && (*cur != '\t')) return; while ((*cur == ' ') || (*cur == '\t')) cur++; if ((*cur < '0') || (*cur > '9')) return; while ((*cur >= '0') && (*cur <= '9')) { ret *= 10; ret += *cur - '0'; cur++; } if ((*cur != 0) && (*cur != ' ') && (*cur != '\t')) return; ctxt->returnValue = ret; ctxt->version = version; } else if (!xmlStrncasecmp(BAD_CAST line, BAD_CAST"Content-Type:", 13)) { const xmlChar *charset, *last, *mime; cur += 13; while ((*cur == ' ') || (*cur == '\t')) cur++; if (ctxt->contentType != NULL) xmlFree(ctxt->contentType); ctxt->contentType = xmlMemStrdup(cur); mime = (const xmlChar *) cur; last = mime; while ((*last != 0) && (*last != ' ') && (*last != '\t') && (*last != ';') && (*last != ',')) last++; if (ctxt->mimeType != NULL) xmlFree(ctxt->mimeType); ctxt->mimeType = (char *) xmlStrndup(mime, last - mime); charset = xmlStrstr(BAD_CAST ctxt->contentType, BAD_CAST "charset="); if (charset != NULL) { charset += 8; last = charset; while ((*last != 0) && (*last != ' ') && (*last != '\t') && (*last != ';') && (*last != ',')) last++; if (ctxt->encoding != NULL) xmlFree(ctxt->encoding); ctxt->encoding = (char *) xmlStrndup(charset, last - charset); } } else if (!xmlStrncasecmp(BAD_CAST line, BAD_CAST"ContentType:", 12)) { const xmlChar *charset, *last, *mime; cur += 12; if (ctxt->contentType != NULL) return; while ((*cur == ' ') || (*cur == '\t')) cur++; ctxt->contentType = xmlMemStrdup(cur); mime = (const xmlChar *) cur; last = mime; while ((*last != 0) && (*last != ' ') && (*last != '\t') && (*last != ';') && (*last != ',')) last++; if (ctxt->mimeType != NULL) xmlFree(ctxt->mimeType); ctxt->mimeType = (char *) xmlStrndup(mime, last - mime); charset = xmlStrstr(BAD_CAST ctxt->contentType, BAD_CAST "charset="); if (charset != NULL) { charset += 8; last = charset; while ((*last != 0) && (*last != ' ') && (*last != '\t') && (*last != ';') && (*last != ',')) last++; if (ctxt->encoding != NULL) xmlFree(ctxt->encoding); ctxt->encoding = (char *) xmlStrndup(charset, last - charset); } } else if (!xmlStrncasecmp(BAD_CAST line, BAD_CAST"Location:", 9)) { cur += 9; while ((*cur == ' ') || (*cur == '\t')) cur++; if (ctxt->location != NULL) xmlFree(ctxt->location); if (*cur == '/') { xmlChar *tmp_http = xmlStrdup(BAD_CAST "http://"); xmlChar *tmp_loc = xmlStrcat(tmp_http, (const xmlChar *) ctxt->hostname); ctxt->location = (char *) xmlStrcat (tmp_loc, (const xmlChar *) cur); } else { ctxt->location = xmlMemStrdup(cur); } } else if (!xmlStrncasecmp(BAD_CAST line, BAD_CAST"WWW-Authenticate:", 17)) { cur += 17; while ((*cur == ' ') || (*cur == '\t')) cur++; if (ctxt->authHeader != NULL) xmlFree(ctxt->authHeader); ctxt->authHeader = xmlMemStrdup(cur); } else if (!xmlStrncasecmp(BAD_CAST line, BAD_CAST"Proxy-Authenticate:", 19)) { cur += 19; while ((*cur == ' ') || (*cur == '\t')) cur++; if (ctxt->authHeader != NULL) xmlFree(ctxt->authHeader); ctxt->authHeader = xmlMemStrdup(cur); #ifdef LIBXML_ZLIB_ENABLED } else if ( !xmlStrncasecmp( BAD_CAST line, BAD_CAST"Content-Encoding:", 17) ) { cur += 17; while ((*cur == ' ') || (*cur == '\t')) cur++; if ( !xmlStrncasecmp( BAD_CAST cur, BAD_CAST"gzip", 4) ) { ctxt->usesGzip = 1; ctxt->strm = xmlMalloc(sizeof(z_stream)); if (ctxt->strm != NULL) { ctxt->strm->zalloc = Z_NULL; ctxt->strm->zfree = Z_NULL; ctxt->strm->opaque = Z_NULL; ctxt->strm->avail_in = 0; ctxt->strm->next_in = Z_NULL; inflateInit2( ctxt->strm, 31 ); } } #endif } else if ( !xmlStrncasecmp( BAD_CAST line, BAD_CAST"Content-Length:", 15) ) { cur += 15; ctxt->ContentLength = strtol( cur, NULL, 10 ); } } /** * xmlNanoHTTPConnectAttempt: * @addr: a socket address structure * * Attempt a connection to the given IP:port endpoint. It forces * non-blocking semantic on the socket, and allow 60 seconds for * the host to answer. * * Returns -1 in case of failure, the file descriptor number otherwise */ static SOCKET xmlNanoHTTPConnectAttempt(struct sockaddr *addr) { #ifndef HAVE_POLL_H fd_set wfd; #ifdef _WINSOCKAPI_ fd_set xfd; #endif struct timeval tv; #else /* !HAVE_POLL_H */ struct pollfd p; #endif /* !HAVE_POLL_H */ int status; int addrlen; SOCKET s; #ifdef SUPPORT_IP6 if (addr->sa_family == AF_INET6) { s = socket(PF_INET6, SOCK_STREAM, IPPROTO_TCP); addrlen = sizeof(struct sockaddr_in6); } else #endif { s = socket(PF_INET, SOCK_STREAM, IPPROTO_TCP); addrlen = sizeof(struct sockaddr_in); } if (s == INVALID_SOCKET) { __xmlIOErr(XML_FROM_HTTP, 0, "socket failed\n"); return INVALID_SOCKET; } #ifdef _WINSOCKAPI_ { u_long one = 1; status = ioctlsocket(s, FIONBIO, &one) == SOCKET_ERROR ? -1 : 0; } #else /* _WINSOCKAPI_ */ #if defined(VMS) { int enable = 1; status = ioctl(s, FIONBIO, &enable); } #else /* VMS */ if ((status = fcntl(s, F_GETFL, 0)) != -1) { #ifdef O_NONBLOCK status |= O_NONBLOCK; #else /* O_NONBLOCK */ #ifdef F_NDELAY status |= F_NDELAY; #endif /* F_NDELAY */ #endif /* !O_NONBLOCK */ status = fcntl(s, F_SETFL, status); } if (status < 0) { __xmlIOErr(XML_FROM_HTTP, 0, "error setting non-blocking IO\n"); closesocket(s); return INVALID_SOCKET; } #endif /* !VMS */ #endif /* !_WINSOCKAPI_ */ if (connect(s, addr, addrlen) == -1) { switch (socket_errno()) { case EINPROGRESS: case EWOULDBLOCK: break; default: __xmlIOErr(XML_FROM_HTTP, 0, "error connecting to HTTP server"); closesocket(s); return INVALID_SOCKET; } } #ifndef HAVE_POLL_H tv.tv_sec = timeout; tv.tv_usec = 0; #ifdef _MSC_VER #pragma warning(push) #pragma warning(disable: 4018) #endif #ifndef _WINSOCKAPI_ if (s > FD_SETSIZE) return INVALID_SOCKET; #endif FD_ZERO(&wfd); FD_SET(s, &wfd); #ifdef _WINSOCKAPI_ FD_ZERO(&xfd); FD_SET(s, &xfd); switch (select(s + 1, NULL, &wfd, &xfd, &tv)) #else switch (select(s + 1, NULL, &wfd, NULL, &tv)) #endif #ifdef _MSC_VER #pragma warning(pop) #endif #else /* !HAVE_POLL_H */ p.fd = s; p.events = POLLOUT; switch (poll(&p, 1, timeout * 1000)) #endif /* !HAVE_POLL_H */ { case 0: /* Time out */ __xmlIOErr(XML_FROM_HTTP, 0, "Connect attempt timed out"); closesocket(s); return INVALID_SOCKET; case -1: /* Ermm.. ?? */ __xmlIOErr(XML_FROM_HTTP, 0, "Connect failed"); closesocket(s); return INVALID_SOCKET; } #ifndef HAVE_POLL_H if (FD_ISSET(s, &wfd) #ifdef _WINSOCKAPI_ || FD_ISSET(s, &xfd) #endif ) #else /* !HAVE_POLL_H */ if (p.revents == POLLOUT) #endif /* !HAVE_POLL_H */ { XML_SOCKLEN_T len; len = sizeof(status); #ifdef SO_ERROR if (getsockopt(s, SOL_SOCKET, SO_ERROR, (char *) &status, &len) < 0) { /* Solaris error code */ __xmlIOErr(XML_FROM_HTTP, 0, "getsockopt failed\n"); closesocket(s); return INVALID_SOCKET; } #endif if (status) { __xmlIOErr(XML_FROM_HTTP, 0, "Error connecting to remote host"); closesocket(s); errno = status; return INVALID_SOCKET; } } else { /* pbm */ __xmlIOErr(XML_FROM_HTTP, 0, "select failed\n"); closesocket(s); return INVALID_SOCKET; } return (s); } /** * xmlNanoHTTPConnectHost: * @host: the host name * @port: the port number * * Attempt a connection to the given host:port endpoint. It tries * the multiple IP provided by the DNS if available. * * Returns -1 in case of failure, the file descriptor number otherwise */ static SOCKET xmlNanoHTTPConnectHost(const char *host, int port) { struct sockaddr *addr = NULL; struct sockaddr_in sockin; #ifdef SUPPORT_IP6 struct sockaddr_in6 sockin6; #endif SOCKET s; memset (&sockin, 0, sizeof(sockin)); #if defined(SUPPORT_IP6) { int status; struct addrinfo hints, *res, *result; memset (&sockin6, 0, sizeof(sockin6)); result = NULL; memset (&hints, 0,sizeof(hints)); hints.ai_socktype = SOCK_STREAM; status = getaddrinfo (host, NULL, &hints, &result); if (status) { __xmlIOErr(XML_FROM_HTTP, 0, "getaddrinfo failed\n"); return INVALID_SOCKET; } for (res = result; res; res = res->ai_next) { if (res->ai_family == AF_INET) { if ((size_t)res->ai_addrlen > sizeof(sockin)) { __xmlIOErr(XML_FROM_HTTP, 0, "address size mismatch\n"); freeaddrinfo (result); return INVALID_SOCKET; } memcpy (&sockin, res->ai_addr, res->ai_addrlen); sockin.sin_port = htons (port); addr = (struct sockaddr *)&sockin; } else if (res->ai_family == AF_INET6) { if ((size_t)res->ai_addrlen > sizeof(sockin6)) { __xmlIOErr(XML_FROM_HTTP, 0, "address size mismatch\n"); freeaddrinfo (result); return INVALID_SOCKET; } memcpy (&sockin6, res->ai_addr, res->ai_addrlen); sockin6.sin6_port = htons (port); addr = (struct sockaddr *)&sockin6; } else continue; /* for */ s = xmlNanoHTTPConnectAttempt (addr); if (s != INVALID_SOCKET) { freeaddrinfo (result); return (s); } } if (result) freeaddrinfo (result); } #else { struct hostent *h; struct in_addr ia; int i; h = gethostbyname (GETHOSTBYNAME_ARG_CAST host); if (h == NULL) { /* * Okay, I got fed up by the non-portability of this error message * extraction code. it work on Linux, if it work on your platform * and one want to enable it, send me the defined(foobar) needed */ #if defined(HAVE_NETDB_H) && defined(HOST_NOT_FOUND) && defined(__linux__) const char *h_err_txt = ""; switch (h_errno) { case HOST_NOT_FOUND: h_err_txt = "Authoritative host not found"; break; case TRY_AGAIN: h_err_txt = "Non-authoritative host not found or server failure."; break; case NO_RECOVERY: h_err_txt = "Non-recoverable errors: FORMERR, REFUSED, or NOTIMP."; break; #ifdef NO_ADDRESS case NO_ADDRESS: h_err_txt = "Valid name, no data record of requested type."; break; #endif default: h_err_txt = "No error text defined."; break; } __xmlIOErr(XML_FROM_HTTP, 0, h_err_txt); #else __xmlIOErr(XML_FROM_HTTP, 0, "Failed to resolve host"); #endif return INVALID_SOCKET; } for (i = 0; h->h_addr_list[i]; i++) { if (h->h_addrtype == AF_INET) { /* A records (IPv4) */ if ((unsigned int) h->h_length > sizeof(ia)) { __xmlIOErr(XML_FROM_HTTP, 0, "address size mismatch\n"); return INVALID_SOCKET; } memcpy (&ia, h->h_addr_list[i], h->h_length); sockin.sin_family = h->h_addrtype; sockin.sin_addr = ia; sockin.sin_port = (unsigned short)htons ((unsigned short)port); addr = (struct sockaddr *) &sockin; } else break; /* for */ s = xmlNanoHTTPConnectAttempt (addr); if (s != INVALID_SOCKET) return (s); } } #endif return INVALID_SOCKET; } /** * xmlNanoHTTPOpen: * @URL: The URL to load * @contentType: if available the Content-Type information will be * returned at that location * * This function try to open a connection to the indicated resource * via HTTP GET. * * Returns NULL in case of failure, otherwise a request handler. * The contentType, if provided must be freed by the caller */ void* xmlNanoHTTPOpen(const char *URL, char **contentType) { if (contentType != NULL) *contentType = NULL; return(xmlNanoHTTPMethod(URL, NULL, NULL, contentType, NULL, 0)); } /** * xmlNanoHTTPOpenRedir: * @URL: The URL to load * @contentType: if available the Content-Type information will be * returned at that location * @redir: if available the redirected URL will be returned * * This function try to open a connection to the indicated resource * via HTTP GET. * * Returns NULL in case of failure, otherwise a request handler. * The contentType, if provided must be freed by the caller */ void* xmlNanoHTTPOpenRedir(const char *URL, char **contentType, char **redir) { if (contentType != NULL) *contentType = NULL; if (redir != NULL) *redir = NULL; return(xmlNanoHTTPMethodRedir(URL, NULL, NULL, contentType, redir, NULL,0)); } /** * xmlNanoHTTPRead: * @ctx: the HTTP context * @dest: a buffer * @len: the buffer length * * This function tries to read @len bytes from the existing HTTP connection * and saves them in @dest. This is a blocking call. * * Returns the number of byte read. 0 is an indication of an end of connection. * -1 indicates a parameter error. */ int xmlNanoHTTPRead(void *ctx, void *dest, int len) { xmlNanoHTTPCtxtPtr ctxt = (xmlNanoHTTPCtxtPtr) ctx; #ifdef LIBXML_ZLIB_ENABLED int bytes_read = 0; int orig_avail_in; int z_ret; #endif if (ctx == NULL) return(-1); if (dest == NULL) return(-1); if (len <= 0) return(0); #ifdef LIBXML_ZLIB_ENABLED if (ctxt->usesGzip == 1) { if (ctxt->strm == NULL) return(0); ctxt->strm->next_out = dest; ctxt->strm->avail_out = len; ctxt->strm->avail_in = ctxt->inptr - ctxt->inrptr; while (ctxt->strm->avail_out > 0 && (ctxt->strm->avail_in > 0 || xmlNanoHTTPRecv(ctxt) > 0)) { orig_avail_in = ctxt->strm->avail_in = ctxt->inptr - ctxt->inrptr - bytes_read; ctxt->strm->next_in = BAD_CAST (ctxt->inrptr + bytes_read); z_ret = inflate(ctxt->strm, Z_NO_FLUSH); bytes_read += orig_avail_in - ctxt->strm->avail_in; if (z_ret != Z_OK) break; } ctxt->inrptr += bytes_read; return(len - ctxt->strm->avail_out); } #endif while (ctxt->inptr - ctxt->inrptr < len) { if (xmlNanoHTTPRecv(ctxt) <= 0) break; } if (ctxt->inptr - ctxt->inrptr < len) len = ctxt->inptr - ctxt->inrptr; if (len > 0) { memcpy(dest, ctxt->inrptr, len); ctxt->inrptr += len; } return(len); } /** * xmlNanoHTTPClose: * @ctx: the HTTP context * * This function closes an HTTP context, it ends up the connection and * free all data related to it. */ void xmlNanoHTTPClose(void *ctx) { xmlNanoHTTPCtxtPtr ctxt = (xmlNanoHTTPCtxtPtr) ctx; if (ctx == NULL) return; xmlNanoHTTPFreeCtxt(ctxt); } /** * xmlNanoHTTPHostnameMatch: * @pattern: The pattern as it appears in no_proxy environment variable * @hostname: The hostname to test as it appears in the URL * * This function tests whether a given hostname matches a pattern. The pattern * usually is a token from the no_proxy environment variable. Wildcards in the * pattern are not supported. * * Returns true, iff hostname matches the pattern. */ static int xmlNanoHTTPHostnameMatch(const char *pattern, const char *hostname) { int idx_pattern, idx_hostname; const char * pattern_start; if (!pattern || *pattern == '\0' || !hostname) return 0; /* Ignore trailing '.' */ if (*pattern == '.') { idx_pattern = strlen(pattern) -1; pattern_start = pattern + 1; } else { idx_pattern = strlen(pattern); pattern_start = pattern; } idx_hostname = strlen(hostname); for (; idx_pattern >= 0 && idx_hostname >= 0; --idx_pattern, --idx_hostname) { if (tolower(pattern_start[idx_pattern]) != tolower(hostname[idx_hostname])) break; } return idx_pattern == -1 && (idx_hostname == -1|| hostname[idx_hostname] == '.'); } /** * xmlNanoHTTPBypassProxy: * @hostname: The hostname as it appears in the URL * * This function evaluates the no_proxy environment variable and returns * whether the proxy server should be bypassed for a given host. * * Returns true, iff a proxy server should be bypassed for the given hostname. */ static int xmlNanoHTTPBypassProxy(const char *hostname) { size_t envlen; char *env = getenv("no_proxy"), *cpy=NULL, *p=NULL; if (!env) return 0; /* (Avoid strdup because it's not portable.) */ envlen = strlen(env) + 1; cpy = xmlMalloc(envlen); memcpy(cpy, env, envlen); env = cpy; /* The remainder of the function is basically a tokenizing: */ while (isspace(*env)) ++env; if (*env == '\0') { xmlFree(cpy); return 0; } p = env; while (*env) { if (*env != ',') { ++env; continue; } *(env++) = '\0'; if (xmlNanoHTTPHostnameMatch(p, hostname)) { xmlFree(cpy); return 1; } while (isspace(*env)) ++env; p = env; } if (xmlNanoHTTPHostnameMatch(p, hostname)) { xmlFree(cpy); return 1; } xmlFree(cpy); return 0; } /** * xmlNanoHTTPMethodRedir: * @URL: The URL to load * @method: the HTTP method to use * @input: the input string if any * @contentType: the Content-Type information IN and OUT * @redir: the redirected URL OUT * @headers: the extra headers * @ilen: input length * * This function try to open a connection to the indicated resource * via HTTP using the given @method, adding the given extra headers * and the input buffer for the request content. * * Returns NULL in case of failure, otherwise a request handler. * The contentType, or redir, if provided must be freed by the caller */ void* xmlNanoHTTPMethodRedir(const char *URL, const char *method, const char *input, char **contentType, char **redir, const char *headers, int ilen ) { xmlNanoHTTPCtxtPtr ctxt; char *bp, *p; int blen; SOCKET ret; int nbRedirects = 0; int use_proxy; char *redirURL = NULL; if (URL == NULL) return(NULL); if (method == NULL) method = "GET"; xmlNanoHTTPInit(); retry: if (redirURL == NULL) { ctxt = xmlNanoHTTPNewCtxt(URL); if (ctxt == NULL) return(NULL); } else { ctxt = xmlNanoHTTPNewCtxt(redirURL); if (ctxt == NULL) return(NULL); ctxt->location = xmlMemStrdup(redirURL); } if ((ctxt->protocol == NULL) || (strcmp(ctxt->protocol, "http"))) { __xmlIOErr(XML_FROM_IO, XML_IO_UNSUPPORTED_PROTOCOL, ctxt->protocol); xmlNanoHTTPFreeCtxt(ctxt); if (redirURL != NULL) xmlFree(redirURL); return(NULL); } if (ctxt->hostname == NULL) { __xmlIOErr(XML_FROM_HTTP, XML_HTTP_UNKNOWN_HOST, "Failed to identify host in URI"); xmlNanoHTTPFreeCtxt(ctxt); if (redirURL != NULL) xmlFree(redirURL); return(NULL); } use_proxy = proxy && !xmlNanoHTTPBypassProxy(ctxt->hostname); if (use_proxy) { blen = strlen(ctxt->hostname) * 2 + 16; ret = xmlNanoHTTPConnectHost(proxy, proxyPort); } else { blen = strlen(ctxt->hostname); ret = xmlNanoHTTPConnectHost(ctxt->hostname, ctxt->port); } if (ret == INVALID_SOCKET) { xmlNanoHTTPFreeCtxt(ctxt); if (redirURL != NULL) xmlFree(redirURL); return(NULL); } ctxt->fd = ret; if (input == NULL) ilen = 0; else blen += 36; if (headers != NULL) blen += strlen(headers) + 2; if (contentType && *contentType) /* reserve for string plus 'Content-Type: \r\n" */ blen += strlen(*contentType) + 16; if (ctxt->query != NULL) /* 1 for '?' */ blen += strlen(ctxt->query) + 1; blen += strlen(method) + strlen(ctxt->path) + 24; #ifdef LIBXML_ZLIB_ENABLED /* reserve for possible 'Accept-Encoding: gzip' string */ blen += 23; #endif if (ctxt->port != 80) { /* reserve space for ':xxxxx', incl. potential proxy */ if (use_proxy) blen += 17; else blen += 11; } bp = (char*)xmlMallocAtomic(blen); if ( bp == NULL ) { xmlNanoHTTPFreeCtxt( ctxt ); xmlHTTPErrMemory(); return ( NULL ); } p = bp; if (use_proxy) { if (ctxt->port != 80) { p += snprintf( p, blen - (p - bp), "%s http://%s:%d%s", method, ctxt->hostname, ctxt->port, ctxt->path ); } else p += snprintf( p, blen - (p - bp), "%s http://%s%s", method, ctxt->hostname, ctxt->path); } else p += snprintf( p, blen - (p - bp), "%s %s", method, ctxt->path); if (ctxt->query != NULL) p += snprintf( p, blen - (p - bp), "?%s", ctxt->query); if (ctxt->port == 80) { p += snprintf( p, blen - (p - bp), " HTTP/1.0\r\nHost: %s\r\n", ctxt->hostname); } else { p += snprintf( p, blen - (p - bp), " HTTP/1.0\r\nHost: %s:%d\r\n", ctxt->hostname, ctxt->port); } #ifdef LIBXML_ZLIB_ENABLED p += snprintf(p, blen - (p - bp), "Accept-Encoding: gzip\r\n"); #endif if (contentType != NULL && *contentType) p += snprintf(p, blen - (p - bp), "Content-Type: %s\r\n", *contentType); if (headers != NULL) p += snprintf( p, blen - (p - bp), "%s", headers ); if (input != NULL) snprintf(p, blen - (p - bp), "Content-Length: %d\r\n\r\n", ilen ); else snprintf(p, blen - (p - bp), "\r\n"); ctxt->outptr = ctxt->out = bp; ctxt->state = XML_NANO_HTTP_WRITE; blen = strlen( ctxt->out ); xmlNanoHTTPSend(ctxt, ctxt->out, blen ); if ( input != NULL ) { xmlNanoHTTPSend( ctxt, input, ilen ); } ctxt->state = XML_NANO_HTTP_READ; while ((p = xmlNanoHTTPReadLine(ctxt)) != NULL) { if (*p == 0) { ctxt->content = ctxt->inrptr; xmlFree(p); break; } xmlNanoHTTPScanAnswer(ctxt, p); xmlFree(p); } if ((ctxt->location != NULL) && (ctxt->returnValue >= 300) && (ctxt->returnValue < 400)) { while ( xmlNanoHTTPRecv(ctxt) > 0 ) ; if (nbRedirects < XML_NANO_HTTP_MAX_REDIR) { nbRedirects++; if (redirURL != NULL) xmlFree(redirURL); redirURL = xmlMemStrdup(ctxt->location); xmlNanoHTTPFreeCtxt(ctxt); goto retry; } xmlNanoHTTPFreeCtxt(ctxt); if (redirURL != NULL) xmlFree(redirURL); return(NULL); } if (contentType != NULL) { if (ctxt->contentType != NULL) *contentType = xmlMemStrdup(ctxt->contentType); else *contentType = NULL; } if ((redir != NULL) && (redirURL != NULL)) { *redir = redirURL; } else { if (redirURL != NULL) xmlFree(redirURL); if (redir != NULL) *redir = NULL; } return((void *) ctxt); } /** * xmlNanoHTTPMethod: * @URL: The URL to load * @method: the HTTP method to use * @input: the input string if any * @contentType: the Content-Type information IN and OUT * @headers: the extra headers * @ilen: input length * * This function try to open a connection to the indicated resource * via HTTP using the given @method, adding the given extra headers * and the input buffer for the request content. * * Returns NULL in case of failure, otherwise a request handler. * The contentType, if provided must be freed by the caller */ void* xmlNanoHTTPMethod(const char *URL, const char *method, const char *input, char **contentType, const char *headers, int ilen) { return(xmlNanoHTTPMethodRedir(URL, method, input, contentType, NULL, headers, ilen)); } /** * xmlNanoHTTPFetch: * @URL: The URL to load * @filename: the filename where the content should be saved * @contentType: if available the Content-Type information will be * returned at that location * * This function try to fetch the indicated resource via HTTP GET * and save it's content in the file. * * Returns -1 in case of failure, 0 in case of success. The contentType, * if provided must be freed by the caller */ int xmlNanoHTTPFetch(const char *URL, const char *filename, char **contentType) { void *ctxt = NULL; char *buf = NULL; int fd; int len; int ret = 0; if (filename == NULL) return(-1); ctxt = xmlNanoHTTPOpen(URL, contentType); if (ctxt == NULL) return(-1); if (!strcmp(filename, "-")) fd = 0; else { fd = open(filename, O_CREAT | O_WRONLY, 00644); if (fd < 0) { xmlNanoHTTPClose(ctxt); if ((contentType != NULL) && (*contentType != NULL)) { xmlFree(*contentType); *contentType = NULL; } return(-1); } } xmlNanoHTTPFetchContent( ctxt, &buf, &len ); if ( len > 0 ) { if (write(fd, buf, len) == -1) { ret = -1; } } xmlNanoHTTPClose(ctxt); close(fd); return(ret); } #ifdef LIBXML_OUTPUT_ENABLED /** * xmlNanoHTTPSave: * @ctxt: the HTTP context * @filename: the filename where the content should be saved * * This function saves the output of the HTTP transaction to a file * It closes and free the context at the end * * Returns -1 in case of failure, 0 in case of success. */ int xmlNanoHTTPSave(void *ctxt, const char *filename) { char *buf = NULL; int fd; int len; int ret = 0; if ((ctxt == NULL) || (filename == NULL)) return(-1); if (!strcmp(filename, "-")) fd = 0; else { fd = open(filename, O_CREAT | O_WRONLY, 0666); if (fd < 0) { xmlNanoHTTPClose(ctxt); return(-1); } } xmlNanoHTTPFetchContent( ctxt, &buf, &len ); if ( len > 0 ) { if (write(fd, buf, len) == -1) { ret = -1; } } xmlNanoHTTPClose(ctxt); close(fd); return(ret); } #endif /* LIBXML_OUTPUT_ENABLED */ /** * xmlNanoHTTPReturnCode: * @ctx: the HTTP context * * Get the latest HTTP return code received * * Returns the HTTP return code for the request. */ int xmlNanoHTTPReturnCode(void *ctx) { xmlNanoHTTPCtxtPtr ctxt = (xmlNanoHTTPCtxtPtr) ctx; if (ctxt == NULL) return(-1); return(ctxt->returnValue); } /** * xmlNanoHTTPAuthHeader: * @ctx: the HTTP context * * Get the authentication header of an HTTP context * * Returns the stashed value of the WWW-Authenticate or Proxy-Authenticate * header. */ const char * xmlNanoHTTPAuthHeader(void *ctx) { xmlNanoHTTPCtxtPtr ctxt = (xmlNanoHTTPCtxtPtr) ctx; if (ctxt == NULL) return(NULL); return(ctxt->authHeader); } /** * xmlNanoHTTPContentLength: * @ctx: the HTTP context * * Provides the specified content length from the HTTP header. * * Return the specified content length from the HTTP header. Note that * a value of -1 indicates that the content length element was not included in * the response header. */ int xmlNanoHTTPContentLength( void * ctx ) { xmlNanoHTTPCtxtPtr ctxt = (xmlNanoHTTPCtxtPtr)ctx; return ( ( ctxt == NULL ) ? -1 : ctxt->ContentLength ); } /** * xmlNanoHTTPRedir: * @ctx: the HTTP context * * Provides the specified redirection URL if available from the HTTP header. * * Return the specified redirection URL or NULL if not redirected. */ const char * xmlNanoHTTPRedir( void * ctx ) { xmlNanoHTTPCtxtPtr ctxt = (xmlNanoHTTPCtxtPtr)ctx; return ( ( ctxt == NULL ) ? NULL : ctxt->location ); } /** * xmlNanoHTTPEncoding: * @ctx: the HTTP context * * Provides the specified encoding if specified in the HTTP headers. * * Return the specified encoding or NULL if not available */ const char * xmlNanoHTTPEncoding( void * ctx ) { xmlNanoHTTPCtxtPtr ctxt = (xmlNanoHTTPCtxtPtr)ctx; return ( ( ctxt == NULL ) ? NULL : ctxt->encoding ); } /** * xmlNanoHTTPMimeType: * @ctx: the HTTP context * * Provides the specified Mime-Type if specified in the HTTP headers. * * Return the specified Mime-Type or NULL if not available */ const char * xmlNanoHTTPMimeType( void * ctx ) { xmlNanoHTTPCtxtPtr ctxt = (xmlNanoHTTPCtxtPtr)ctx; return ( ( ctxt == NULL ) ? NULL : ctxt->mimeType ); } /** * xmlNanoHTTPFetchContent: * @ctx: the HTTP context * @ptr: pointer to set to the content buffer. * @len: integer pointer to hold the length of the content * * Check if all the content was read * * Returns 0 if all the content was read and available, returns * -1 if received content length was less than specified or an error * occurred. */ static int xmlNanoHTTPFetchContent( void * ctx, char ** ptr, int * len ) { xmlNanoHTTPCtxtPtr ctxt = (xmlNanoHTTPCtxtPtr)ctx; int rc = 0; int cur_lgth; int rcvd_lgth; int dummy_int; char * dummy_ptr = NULL; /* Dummy up return input parameters if not provided */ if ( len == NULL ) len = &dummy_int; if ( ptr == NULL ) ptr = &dummy_ptr; /* But can't work without the context pointer */ if ( ( ctxt == NULL ) || ( ctxt->content == NULL ) ) { *len = 0; *ptr = NULL; return ( -1 ); } rcvd_lgth = ctxt->inptr - ctxt->content; while ( (cur_lgth = xmlNanoHTTPRecv( ctxt )) > 0 ) { rcvd_lgth += cur_lgth; if ( (ctxt->ContentLength > 0) && (rcvd_lgth >= ctxt->ContentLength) ) break; } *ptr = ctxt->content; *len = rcvd_lgth; if ( ( ctxt->ContentLength > 0 ) && ( rcvd_lgth < ctxt->ContentLength ) ) rc = -1; else if ( rcvd_lgth == 0 ) rc = -1; return ( rc ); } #ifdef STANDALONE int main(int argc, char **argv) { char *contentType = NULL; if (argv[1] != NULL) { if (argv[2] != NULL) xmlNanoHTTPFetch(argv[1], argv[2], &contentType); else xmlNanoHTTPFetch(argv[1], "-", &contentType); if (contentType != NULL) xmlFree(contentType); } else { fprintf(stderr, "%s: minimal HTTP GET implementation\n", argv[0]); fprintf(stderr, "\tusage %s [ URL [ filename ] ]\n", argv[0]); } xmlNanoHTTPCleanup(); return(0); } #endif /* STANDALONE */ #else /* !LIBXML_HTTP_ENABLED */ #ifdef STANDALONE #include int main(int argc, char **argv) { fprintf(stderr, "%s : HTTP support not compiled in\n", argv[0]); return(0); } #endif /* STANDALONE */ #endif /* LIBXML_HTTP_ENABLED */