/** * @file _httpoprequest.cpp * @brief Definitions for internal class HttpOpRequest * * $LicenseInfo:firstyear=2012&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2012, Linden Research, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; * version 2.1 of the License only. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ #include "_httpoprequest.h" #include #include #include "httpcommon.h" #include "httphandler.h" #include "httpresponse.h" #include "bufferarray.h" #include "httpheaders.h" #include "httpoptions.h" #include "_httprequestqueue.h" #include "_httpreplyqueue.h" #include "_httpservice.h" #include "_httppolicy.h" #include "_httppolicyglobal.h" #include "_httplibcurl.h" #include "_httpinternal.h" #include "llhttpstatuscodes.h" #include "llproxy.h" namespace { // Attempts to parse a 'Content-Range:' header. Caller must already // have verified that the header tag is present. The 'buffer' argument // will be processed by strtok_r calls which will modify the buffer. // // @return -1 if invalid and response should be dropped, 0 if valid an // correct, 1 if couldn't be parsed. If 0, the first, last, // and length arguments are also written. 'length' may be // 0 if the length wasn't available to the server. // int parse_content_range_header(char * buffer, unsigned int * first, unsigned int * last, unsigned int * length); // Take data from libcurl's CURLOPT_DEBUGFUNCTION callback and // escape and format it for a tracing line in logging. Absolutely // anything including NULs can be in the data. If @scrub is true, // non-printing or non-ascii characters are replaced with spaces // otherwise a %XX form of escaping is used. void escape_libcurl_debug_data(char * buffer, size_t len, bool scrub, std::string & safe_line); #if LL_WINDOWS // Not available on windows where the legacy strtok interface // is thread-safe. char *strtok_r(char *str, const char *delim, char **saveptr); #endif // LL_WINDOWS } namespace LLCore { HttpOpRequest::HttpOpRequest() : HttpOperation(), mProcFlags(0U), mReqMethod(HOR_GET), mReqBody(NULL), mReqOffset(0), mReqLength(0), mReqHeaders(NULL), mReqOptions(NULL), mCurlActive(false), mCurlHandle(NULL), mCurlService(NULL), mCurlHeaders(NULL), mCurlBodyPos(0), mReplyBody(NULL), mReplyOffset(0), mReplyLength(0), mReplyFullLength(0), mReplyHeaders(NULL), mPolicyRetries(0), mPolicyRetryAt(HttpTime(0)), mPolicyRetryLimit(DEFAULT_RETRY_COUNT) { // *NOTE: As members are added, retry initialization/cleanup // may need to be extended in @prepareRequest(). } HttpOpRequest::~HttpOpRequest() { if (mReqBody) { mReqBody->release(); mReqBody = NULL; } if (mReqOptions) { mReqOptions->release(); mReqOptions = NULL; } if (mReqHeaders) { mReqHeaders->release(); mReqHeaders = NULL; } if (mCurlHandle) { curl_easy_cleanup(mCurlHandle); mCurlHandle = NULL; } mCurlService = NULL; if (mCurlHeaders) { curl_slist_free_all(mCurlHeaders); mCurlHeaders = NULL; } mReplyOffset = 0; mReplyLength = 0; mReplyFullLength = 0; if (mReplyBody) { mReplyBody->release(); mReplyBody = NULL; } if (mReplyHeaders) { mReplyHeaders->release(); mReplyHeaders = NULL; } } void HttpOpRequest::stageFromRequest(HttpService * service) { addRef(); service->getPolicy().addOp(this); // transfers refcount } void HttpOpRequest::stageFromReady(HttpService * service) { addRef(); service->getTransport().addOp(this); // transfers refcount } void HttpOpRequest::stageFromActive(HttpService * service) { if (mReplyLength) { // If non-zero, we received and processed a Content-Range // header with the response. Verify that what it says // is consistent with the received data. if (mReplyLength != mReplyBody->size()) { // Not as expected, fail the request mStatus = HttpStatus(HttpStatus::LLCORE, HE_INV_CONTENT_RANGE_HDR); } } if (mCurlHeaders) { // We take these headers out of the request now as they were // allocated originally in this thread and the notifier doesn't // need them. This eliminates one source of heap moving across // threads. curl_slist_free_all(mCurlHeaders); mCurlHeaders = NULL; } addAsReply(); } void HttpOpRequest::visitNotifier(HttpRequest * request) { static const HttpStatus partial_content(HTTP_PARTIAL_CONTENT, HE_SUCCESS); if (mUserHandler) { HttpResponse * response = new HttpResponse(); response->setStatus(mStatus); response->setBody(mReplyBody); response->setHeaders(mReplyHeaders); if (mReplyOffset || mReplyLength) { // Got an explicit offset/length in response response->setRange(mReplyOffset, mReplyLength, mReplyFullLength); } mUserHandler->onCompleted(static_cast(this), response); response->release(); } } HttpStatus HttpOpRequest::cancel() { mStatus = HttpStatus(HttpStatus::LLCORE, HE_OP_CANCELED); addAsReply(); return HttpStatus(); } HttpStatus HttpOpRequest::setupGet(HttpRequest::policy_t policy_id, HttpRequest::priority_t priority, const std::string & url, HttpOptions * options, HttpHeaders * headers) { setupCommon(policy_id, priority, url, NULL, options, headers); mReqMethod = HOR_GET; return HttpStatus(); } HttpStatus HttpOpRequest::setupGetByteRange(HttpRequest::policy_t policy_id, HttpRequest::priority_t priority, const std::string & url, size_t offset, size_t len, HttpOptions * options, HttpHeaders * headers) { setupCommon(policy_id, priority, url, NULL, options, headers); mReqMethod = HOR_GET; mReqOffset = offset; mReqLength = len; if (offset || len) { mProcFlags |= PF_SCAN_RANGE_HEADER; } return HttpStatus(); } HttpStatus HttpOpRequest::setupPost(HttpRequest::policy_t policy_id, HttpRequest::priority_t priority, const std::string & url, BufferArray * body, HttpOptions * options, HttpHeaders * headers) { setupCommon(policy_id, priority, url, body, options, headers); mReqMethod = HOR_POST; return HttpStatus(); } HttpStatus HttpOpRequest::setupPut(HttpRequest::policy_t policy_id, HttpRequest::priority_t priority, const std::string & url, BufferArray * body, HttpOptions * options, HttpHeaders * headers) { setupCommon(policy_id, priority, url, body, options, headers); mReqMethod = HOR_PUT; return HttpStatus(); } void HttpOpRequest::setupCommon(HttpRequest::policy_t policy_id, HttpRequest::priority_t priority, const std::string & url, BufferArray * body, HttpOptions * options, HttpHeaders * headers) { mProcFlags = 0; mReqPolicy = policy_id; mReqPriority = priority; mReqURL = url; if (body) { body->addRef(); mReqBody = body; } if (headers && ! mReqHeaders) { headers->addRef(); mReqHeaders = headers; } if (options && ! mReqOptions) { options->addRef(); mReqOptions = options; if (options->getWantHeaders()) { mProcFlags |= PF_SAVE_HEADERS; } mPolicyRetryLimit = options->getRetries(); mPolicyRetryLimit = llclamp(mPolicyRetryLimit, LIMIT_RETRY_MIN, LIMIT_RETRY_MAX); mTracing = (std::max)(mTracing, llclamp(options->getTrace(), TRACE_MIN, TRACE_MAX)); } } // Sets all libcurl options and data for a request. // // Used both for initial requests and to 'reload' for // a retry, generally with a different CURL handle. // Junk may be left around from a failed request and that // needs to be cleaned out. // HttpStatus HttpOpRequest::prepareRequest(HttpService * service) { // Scrub transport and result data for retried op case mCurlActive = false; mCurlHandle = NULL; mCurlService = NULL; if (mCurlHeaders) { curl_slist_free_all(mCurlHeaders); mCurlHeaders = NULL; } mCurlBodyPos = 0; if (mReplyBody) { mReplyBody->release(); mReplyBody = NULL; } mReplyOffset = 0; mReplyLength = 0; mReplyFullLength = 0; if (mReplyHeaders) { mReplyHeaders->release(); mReplyHeaders = NULL; } // *FIXME: better error handling later HttpStatus status; // Get policy options HttpPolicyGlobal & policy(service->getPolicy().getGlobalOptions()); mCurlHandle = curl_easy_init(); curl_easy_setopt(mCurlHandle, CURLOPT_IPRESOLVE, CURL_IPRESOLVE_V4); curl_easy_setopt(mCurlHandle, CURLOPT_NOSIGNAL, 1); curl_easy_setopt(mCurlHandle, CURLOPT_NOPROGRESS, 1); curl_easy_setopt(mCurlHandle, CURLOPT_URL, mReqURL.c_str()); curl_easy_setopt(mCurlHandle, CURLOPT_PRIVATE, this); curl_easy_setopt(mCurlHandle, CURLOPT_ENCODING, ""); if (ENABLE_LINKSYS_WRT54G_V5_DNS_FIX) { // The Linksys WRT54G V5 router has an issue with frequent // DNS lookups from LAN machines. If they happen too often, // like for every HTTP request, the router gets annoyed after // about 700 or so requests and starts issuing TCP RSTs to // new connections. Reuse the DNS lookups for even a few // seconds and no RSTs. curl_easy_setopt(mCurlHandle, CURLOPT_DNS_CACHE_TIMEOUT, 10); } else { // *TODO: Revisit this old DNS timeout setting - may no longer be valid // I don't think this is valid anymore, the Multi shared DNS // cache is working well. For the case of naked easy handles, // consider using a shared DNS object. curl_easy_setopt(mCurlHandle, CURLOPT_DNS_CACHE_TIMEOUT, 0); } curl_easy_setopt(mCurlHandle, CURLOPT_AUTOREFERER, 1); curl_easy_setopt(mCurlHandle, CURLOPT_FOLLOWLOCATION, 1); curl_easy_setopt(mCurlHandle, CURLOPT_MAXREDIRS, DEFAULT_HTTP_REDIRECTS); curl_easy_setopt(mCurlHandle, CURLOPT_WRITEFUNCTION, writeCallback); curl_easy_setopt(mCurlHandle, CURLOPT_WRITEDATA, this); curl_easy_setopt(mCurlHandle, CURLOPT_READFUNCTION, readCallback); curl_easy_setopt(mCurlHandle, CURLOPT_READDATA, this); curl_easy_setopt(mCurlHandle, CURLOPT_SSL_VERIFYPEER, 1); curl_easy_setopt(mCurlHandle, CURLOPT_SSL_VERIFYHOST, 0); const std::string * opt_value(NULL); long opt_long(0L); policy.get(HttpRequest::GP_LLPROXY, &opt_long); if (opt_long) { // Use the viewer-based thread-safe API which has a // fast/safe check for proxy enable. Would like to // encapsulate this someway... LLProxy::getInstance()->applyProxySettings(mCurlHandle); } else if (policy.get(HttpRequest::GP_HTTP_PROXY, &opt_value)) { // *TODO: This is fine for now but get fuller socks/ // authentication thing going later.... curl_easy_setopt(mCurlHandle, CURLOPT_PROXY, opt_value->c_str()); curl_easy_setopt(mCurlHandle, CURLOPT_PROXYTYPE, CURLPROXY_HTTP); } if (policy.get(HttpRequest::GP_CA_PATH, &opt_value)) { curl_easy_setopt(mCurlHandle, CURLOPT_CAPATH, opt_value->c_str()); } if (policy.get(HttpRequest::GP_CA_FILE, &opt_value)) { curl_easy_setopt(mCurlHandle, CURLOPT_CAINFO, opt_value->c_str()); } switch (mReqMethod) { case HOR_GET: curl_easy_setopt(mCurlHandle, CURLOPT_HTTPGET, 1); mCurlHeaders = curl_slist_append(mCurlHeaders, "Connection: keep-alive"); mCurlHeaders = curl_slist_append(mCurlHeaders, "Keep-alive: 300"); break; case HOR_POST: { curl_easy_setopt(mCurlHandle, CURLOPT_POST, 1); curl_easy_setopt(mCurlHandle, CURLOPT_ENCODING, ""); long data_size(0); if (mReqBody) { data_size = mReqBody->size(); } curl_easy_setopt(mCurlHandle, CURLOPT_POSTFIELDS, static_cast(NULL)); curl_easy_setopt(mCurlHandle, CURLOPT_POSTFIELDSIZE, data_size); mCurlHeaders = curl_slist_append(mCurlHeaders, "Expect:"); } break; case HOR_PUT: { curl_easy_setopt(mCurlHandle, CURLOPT_UPLOAD, 1); long data_size(0); if (mReqBody) { data_size = mReqBody->size(); } curl_easy_setopt(mCurlHandle, CURLOPT_INFILESIZE, data_size); curl_easy_setopt(mCurlHandle, CURLOPT_POSTFIELDS, (void *) NULL); mCurlHeaders = curl_slist_append(mCurlHeaders, "Expect:"); } break; default: LL_ERRS("CoreHttp") << "Invalid HTTP method in request: " << int(mReqMethod) << ". Can't recover." << LL_ENDL; break; } // Tracing if (mTracing >= TRACE_CURL_HEADERS) { curl_easy_setopt(mCurlHandle, CURLOPT_VERBOSE, 1); curl_easy_setopt(mCurlHandle, CURLOPT_DEBUGDATA, this); curl_easy_setopt(mCurlHandle, CURLOPT_DEBUGFUNCTION, debugCallback); } // There's a CURLOPT for this now... if ((mReqOffset || mReqLength) && HOR_GET == mReqMethod) { static const char * const fmt1("Range: bytes=%lu-%lu"); static const char * const fmt2("Range: bytes=%lu-"); char range_line[64]; #if LL_WINDOWS _snprintf_s(range_line, sizeof(range_line), sizeof(range_line) - 1, (mReqLength ? fmt1 : fmt2), (unsigned long) mReqOffset, (unsigned long) (mReqOffset + mReqLength - 1)); #else snprintf(range_line, sizeof(range_line), (mReqLength ? fmt1 : fmt2), (unsigned long) mReqOffset, (unsigned long) (mReqOffset + mReqLength - 1)); #endif // LL_WINDOWS range_line[sizeof(range_line) - 1] = '\0'; mCurlHeaders = curl_slist_append(mCurlHeaders, range_line); } mCurlHeaders = curl_slist_append(mCurlHeaders, "Pragma:"); // Request options long timeout(DEFAULT_TIMEOUT); if (mReqOptions) { timeout = mReqOptions->getTimeout(); timeout = llclamp(timeout, LIMIT_TIMEOUT_MIN, LIMIT_TIMEOUT_MAX); } curl_easy_setopt(mCurlHandle, CURLOPT_TIMEOUT, timeout); curl_easy_setopt(mCurlHandle, CURLOPT_CONNECTTIMEOUT, timeout); // Request headers if (mReqHeaders) { // Caller's headers last to override mCurlHeaders = append_headers_to_slist(mReqHeaders, mCurlHeaders); } curl_easy_setopt(mCurlHandle, CURLOPT_HTTPHEADER, mCurlHeaders); if (mProcFlags & (PF_SCAN_RANGE_HEADER | PF_SAVE_HEADERS)) { curl_easy_setopt(mCurlHandle, CURLOPT_HEADERFUNCTION, headerCallback); curl_easy_setopt(mCurlHandle, CURLOPT_HEADERDATA, this); } if (status) { mCurlService = service; } return status; } size_t HttpOpRequest::writeCallback(void * data, size_t size, size_t nmemb, void * userdata) { HttpOpRequest * op(static_cast(userdata)); if (! op->mReplyBody) { op->mReplyBody = new BufferArray(); } const size_t req_size(size * nmemb); const size_t write_size(op->mReplyBody->append(static_cast(data), req_size)); return write_size; } size_t HttpOpRequest::readCallback(void * data, size_t size, size_t nmemb, void * userdata) { HttpOpRequest * op(static_cast(userdata)); if (! op->mReqBody) { return 0; } const size_t req_size(size * nmemb); const size_t body_size(op->mReqBody->size()); if (body_size <= op->mCurlBodyPos) { LL_WARNS("HttpCore") << "Request body position beyond body size. Aborting request." << LL_ENDL; return 0; } const size_t do_size((std::min)(req_size, body_size - op->mCurlBodyPos)); const size_t read_size(op->mReqBody->read(op->mCurlBodyPos, static_cast(data), do_size)); op->mCurlBodyPos += read_size; return read_size; } size_t HttpOpRequest::headerCallback(void * data, size_t size, size_t nmemb, void * userdata) { static const char status_line[] = "HTTP/"; static const size_t status_line_len = sizeof(status_line) - 1; static const char con_ran_line[] = "content-range:"; static const size_t con_ran_line_len = sizeof(con_ran_line) - 1; HttpOpRequest * op(static_cast(userdata)); const size_t hdr_size(size * nmemb); const char * hdr_data(static_cast(data)); // Not null terminated if (hdr_size >= status_line_len && ! strncmp(status_line, hdr_data, status_line_len)) { // One of possibly several status lines. Reset what we know and start over // taking results from the last header stanza we receive. op->mReplyOffset = 0; op->mReplyLength = 0; op->mReplyFullLength = 0; op->mStatus = HttpStatus(); if (op->mReplyHeaders) { op->mReplyHeaders->mHeaders.clear(); } } else if (op->mProcFlags & PF_SCAN_RANGE_HEADER) { char hdr_buffer[128]; // Enough for a reasonable header size_t frag_size((std::min)(hdr_size, sizeof(hdr_buffer) - 1)); memcpy(hdr_buffer, hdr_data, frag_size); hdr_buffer[frag_size] = '\0'; #if LL_WINDOWS if (! _strnicmp(hdr_buffer, con_ran_line, (std::min)(frag_size, con_ran_line_len))) #else if (! strncasecmp(hdr_buffer, con_ran_line, (std::min)(frag_size, con_ran_line_len))) #endif // LL_WINDOWS { unsigned int first(0), last(0), length(0); int status; if (! (status = parse_content_range_header(hdr_buffer, &first, &last, &length))) { // Success, record the fragment position op->mReplyOffset = first; op->mReplyLength = last - first + 1; op->mReplyFullLength = length; } else if (-1 == status) { // Response is badly formed and shouldn't be accepted op->mStatus = HttpStatus(HttpStatus::LLCORE, HE_INV_CONTENT_RANGE_HDR); } else { // Ignore the unparsable. LL_INFOS_ONCE("CoreHttp") << "Problem parsing odd Content-Range header: '" << std::string(hdr_data, frag_size) << "'. Ignoring." << LL_ENDL; } } } if (op->mProcFlags & PF_SAVE_HEADERS) { // Save headers in response if (! op->mReplyHeaders) { op->mReplyHeaders = new HttpHeaders; } size_t wanted_size(hdr_size); if (wanted_size && '\n' == hdr_data[wanted_size - 1]) { if (--wanted_size && '\r' == hdr_data[wanted_size - 1]) { --wanted_size; } } op->mReplyHeaders->mHeaders.push_back(std::string(hdr_data, wanted_size)); } return hdr_size; } int HttpOpRequest::debugCallback(CURL * handle, curl_infotype info, char * buffer, size_t len, void * userdata) { HttpOpRequest * op(static_cast(userdata)); std::string safe_line; std::string tag; bool logit(false); len = (std::min)(len, size_t(256)); // Keep things reasonable in all cases switch (info) { case CURLINFO_TEXT: if (op->mTracing >= TRACE_CURL_HEADERS) { tag = "TEXT"; escape_libcurl_debug_data(buffer, len, true, safe_line); logit = true; } break; case CURLINFO_HEADER_IN: if (op->mTracing >= TRACE_CURL_HEADERS) { tag = "HEADERIN"; escape_libcurl_debug_data(buffer, len, true, safe_line); logit = true; } break; case CURLINFO_HEADER_OUT: if (op->mTracing >= TRACE_CURL_HEADERS) { tag = "HEADEROUT"; escape_libcurl_debug_data(buffer, 2 * len, true, safe_line); // Goes out as one line logit = true; } break; case CURLINFO_DATA_IN: if (op->mTracing >= TRACE_CURL_HEADERS) { tag = "DATAIN"; logit = true; if (op->mTracing >= TRACE_CURL_BODIES) { escape_libcurl_debug_data(buffer, len, false, safe_line); } else { std::ostringstream out; out << len << " Bytes"; safe_line = out.str(); } } break; case CURLINFO_DATA_OUT: if (op->mTracing >= TRACE_CURL_HEADERS) { tag = "DATAOUT"; logit = true; if (op->mTracing >= TRACE_CURL_BODIES) { escape_libcurl_debug_data(buffer, len, false, safe_line); } else { std::ostringstream out; out << len << " Bytes"; safe_line = out.str(); } } break; default: logit = false; break; } if (logit) { LL_INFOS("CoreHttp") << "TRACE, LibcurlDebug, Handle: " << static_cast(op) << ", Type: " << tag << ", Data: " << safe_line << LL_ENDL; } return 0; } } // end namespace LLCore // ======================================= // Anonymous Namespace // ======================================= namespace { int parse_content_range_header(char * buffer, unsigned int * first, unsigned int * last, unsigned int * length) { char * tok_state(NULL), * tok(NULL); bool match(true); if (! strtok_r(buffer, ": \t", &tok_state)) match = false; if (match && (tok = strtok_r(NULL, " \t", &tok_state))) #if LL_WINDOWS match = 0 == _stricmp("bytes", tok); #else match = 0 == strcasecmp("bytes", tok); #endif // LL_WINDOWS if (match && ! (tok = strtok_r(NULL, " \t", &tok_state))) match = false; if (match) { unsigned int lcl_first(0), lcl_last(0), lcl_len(0); #if LL_WINDOWS if (3 == sscanf_s(tok, "%u-%u/%u", &lcl_first, &lcl_last, &lcl_len)) #else if (3 == sscanf(tok, "%u-%u/%u", &lcl_first, &lcl_last, &lcl_len)) #endif // LL_WINDOWS { if (lcl_first > lcl_last || lcl_last >= lcl_len) return -1; *first = lcl_first; *last = lcl_last; *length = lcl_len; return 0; } #if LL_WINDOWS if (2 == sscanf_s(tok, "%u-%u/*", &lcl_first, &lcl_last)) #else if (2 == sscanf(tok, "%u-%u/*", &lcl_first, &lcl_last)) #endif // LL_WINDOWS { if (lcl_first > lcl_last) return -1; *first = lcl_first; *last = lcl_last; *length = 0; return 0; } } // Header is there but badly/unexpectedly formed, try to ignore it. return 1; } #if LL_WINDOWS char *strtok_r(char *str, const char *delim, char ** savestate) { return strtok_s(str, delim, savestate); } #endif // LL_WINDOWS void escape_libcurl_debug_data(char * buffer, size_t len, bool scrub, std::string & safe_line) { std::string out; len = (std::min)(len, size_t(200)); out.reserve(3 * len); for (int i(0); i < len; ++i) { unsigned char uc(static_cast(buffer[i])); if (uc < 32 || uc > 126) { if (scrub) { out.append(1, ' '); } else { static const char hex[] = "0123456789ABCDEF"; char convert[4]; convert[0] = '%'; convert[1] = hex[(uc >> 4) % 16]; convert[2] = hex[uc % 16]; convert[3] = '\0'; out.append(convert); } } else { out.append(1, buffer[i]); } } safe_line.swap(out); } } // end anonymous namespace