/* * s3fs - FUSE-based file system backed by Amazon S3 * * Copyright(C) 2007 Randy Rizun * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "common.h" #include "curl.h" #include "string_util.h" #include "s3fs.h" #include "s3fs_util.h" #include "s3fs_auth.h" #include "addhead.h" #include "psemaphore.h" using namespace std; static const std::string empty_payload_hash = "e3b0c44298fc1c149afbf4c8996fb92427ae41e4649b934ca495991b7852b855"; //------------------------------------------------------------------- // Utilities //------------------------------------------------------------------- // [TODO] // This function uses temporary file, but should not use it. // For not using it, we implement function in each auth file(openssl, nss. gnutls). // static bool make_md5_from_binary(const char* pstr, size_t length, string& md5) { if(!pstr || '\0' == pstr[0]){ S3FS_PRN_ERR("Parameter is wrong."); return false; } FILE* fp; if(NULL == (fp = tmpfile())){ S3FS_PRN_ERR("Could not make tmpfile."); return false; } if(length != fwrite(pstr, sizeof(char), length, fp)){ S3FS_PRN_ERR("Failed to write tmpfile."); fclose(fp); return false; } int fd; if(0 != fflush(fp) || 0 != fseek(fp, 0L, SEEK_SET) || -1 == (fd = fileno(fp))){ S3FS_PRN_ERR("Failed to make MD5."); fclose(fp); return false; } // base64 md5 md5 = s3fs_get_content_md5(fd); if(0 == md5.length()){ S3FS_PRN_ERR("Failed to make MD5."); fclose(fp); return false; } fclose(fp); return true; } static string url_to_host(const std::string &url) { S3FS_PRN_INFO3("url is %s", url.c_str()); static const string http = "http://"; static const string https = "https://"; std::string hostname; if (url.compare(0, http.size(), http) == 0) { hostname = url.substr(http.size()); } else if (url.compare(0, https.size(), https) == 0) { hostname = url.substr(https.size()); } else { S3FS_PRN_EXIT("url does not begin with http:// or https://"); abort(); } size_t idx; if ((idx = hostname.find('/')) != string::npos) { return hostname.substr(0, idx); } else { return hostname; } } static string get_bucket_host() { if(!pathrequeststyle){ return bucket + "." + url_to_host(host); } return url_to_host(host); } // compare ETag ignoring quotes static bool etag_equals(std::string s1, std::string s2) { if(s1.length() > 1 && s1[0] == '\"' && s1[s1.length() - 1] == '\"'){ s1 = s1.substr(1, s1.size() - 2); } if(s2.length() > 1 && s2[0] == '\"' && s2[s2.length() - 1] == '\"'){ s2 = s2.substr(1, s2.size() - 2); } return s1 == s2; } #if 0 // noused static string tolower_header_name(const char* head) { string::size_type pos; string name = head; string value(""); if(string::npos != (pos = name.find(':'))){ value= name.substr(pos); name = name.substr(0, pos); } name = lower(name); name += value; return name; } #endif //------------------------------------------------------------------- // Class BodyData //------------------------------------------------------------------- static const int BODYDATA_RESIZE_APPEND_MIN = 1024; static const int BODYDATA_RESIZE_APPEND_MID = 1024 * 1024; static const int BODYDATA_RESIZE_APPEND_MAX = 10 * 1024 * 1024; static size_t adjust_block(size_t bytes, size_t block) { return ((bytes / block) + ((bytes % block) ? 1 : 0)) * block; } bool BodyData::Resize(size_t addbytes) { if(IsSafeSize(addbytes)){ return true; } // New size size_t need_size = adjust_block((lastpos + addbytes + 1) - bufsize, sizeof(off_t)); if(BODYDATA_RESIZE_APPEND_MAX < bufsize){ need_size = (BODYDATA_RESIZE_APPEND_MAX < need_size ? need_size : BODYDATA_RESIZE_APPEND_MAX); }else if(BODYDATA_RESIZE_APPEND_MID < bufsize){ need_size = (BODYDATA_RESIZE_APPEND_MID < need_size ? need_size : BODYDATA_RESIZE_APPEND_MID); }else if(BODYDATA_RESIZE_APPEND_MIN < bufsize){ need_size = ((bufsize * 2) < need_size ? need_size : (bufsize * 2)); }else{ need_size = (BODYDATA_RESIZE_APPEND_MIN < need_size ? need_size : BODYDATA_RESIZE_APPEND_MIN); } // realloc char* newtext; if(NULL == (newtext = (char*)realloc(text, (bufsize + need_size)))){ S3FS_PRN_CRIT("not enough memory (realloc returned NULL)"); free(text); text = NULL; return false; } text = newtext; bufsize += need_size; return true; } void BodyData::Clear() { if(text){ free(text); text = NULL; } lastpos = 0; bufsize = 0; } bool BodyData::Append(void* ptr, size_t bytes) { if(!ptr){ return false; } if(0 == bytes){ return true; } if(!Resize(bytes)){ return false; } memcpy(&text[lastpos], ptr, bytes); lastpos += bytes; text[lastpos] = '\0'; return true; } const char* BodyData::str() const { if(!text){ static const char* strnull = ""; return strnull; } return text; } //------------------------------------------------------------------- // Class CurlHandlerPool //------------------------------------------------------------------- bool CurlHandlerPool::Init() { pthread_mutexattr_t attr; pthread_mutexattr_init(&attr); #if S3FS_PTHREAD_ERRORCHECK pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_ERRORCHECK); #endif if (0 != pthread_mutex_init(&mLock, &attr)) { S3FS_PRN_ERR("Init curl handlers lock failed"); return false; } for(int cnt = 0; cnt < mMaxHandlers; ++cnt){ CURL* hCurl = curl_easy_init(); if(!hCurl){ S3FS_PRN_ERR("Init curl handlers pool failed"); Destroy(); return false; } mPool.push_back(hCurl); } return true; } bool CurlHandlerPool::Destroy() { while(!mPool.empty()){ CURL* hCurl = mPool.back(); mPool.pop_back(); if(hCurl){ curl_easy_cleanup(hCurl); } } if (0 != pthread_mutex_destroy(&mLock)) { S3FS_PRN_ERR("Destroy curl handlers lock failed"); return false; } return true; } CURL* CurlHandlerPool::GetHandler(bool only_pool) { CURL* hCurl = NULL; { AutoLock lock(&mLock); if(!mPool.empty()){ hCurl = mPool.back(); mPool.pop_back(); S3FS_PRN_DBG("Get handler from pool: rest = %d", static_cast(mPool.size())); } } if(only_pool){ return hCurl; } if(!hCurl){ S3FS_PRN_INFO("Pool empty: force to create new handler"); hCurl = curl_easy_init(); } return hCurl; } void CurlHandlerPool::ReturnHandler(CURL* hCurl, bool restore_pool) { if(!hCurl){ return; } if(restore_pool){ AutoLock lock(&mLock); S3FS_PRN_DBG("Return handler to pool"); mPool.push_back(hCurl); while(mMaxHandlers <= static_cast(mPool.size())){ CURL* hOldCurl = mPool.front(); mPool.pop_front(); if(hOldCurl){ S3FS_PRN_INFO("Pool full: destroy the oldest handler"); curl_easy_cleanup(hOldCurl); } } }else{ S3FS_PRN_INFO("Pool full: destroy the handler"); curl_easy_cleanup(hCurl); } } //------------------------------------------------------------------- // Class S3fsCurl //------------------------------------------------------------------- static const int MULTIPART_SIZE = 10 * 1024 * 1024; // constant must be at least 512 MB to copy the maximum 5 TB object size // TODO: scale part size with object size static const int MAX_MULTI_COPY_SOURCE_SIZE = 512 * 1024 * 1024; static const int IAM_EXPIRE_MERGIN = 20 * 60; // update timing static const std::string ECS_IAM_ENV_VAR = "AWS_CONTAINER_CREDENTIALS_RELATIVE_URI"; static const std::string IAMCRED_ACCESSKEYID = "AccessKeyId"; static const std::string IAMCRED_SECRETACCESSKEY = "SecretAccessKey"; static const std::string IAMCRED_ROLEARN = "RoleArn"; // [NOTICE] // This symbol is for libcurl under 7.23.0 #ifndef CURLSHE_NOT_BUILT_IN #define CURLSHE_NOT_BUILT_IN 5 #endif pthread_mutex_t S3fsCurl::curl_handles_lock; pthread_mutex_t S3fsCurl::curl_share_lock[SHARE_MUTEX_MAX]; bool S3fsCurl::is_initglobal_done = false; CurlHandlerPool* S3fsCurl::sCurlPool = NULL; int S3fsCurl::sCurlPoolSize = 32; CURLSH* S3fsCurl::hCurlShare = NULL; bool S3fsCurl::is_cert_check = true; // default bool S3fsCurl::is_dns_cache = true; // default bool S3fsCurl::is_ssl_session_cache= true; // default long S3fsCurl::connect_timeout = 300; // default time_t S3fsCurl::readwrite_timeout = 120; // default int S3fsCurl::retries = 5; // default bool S3fsCurl::is_public_bucket = false; string S3fsCurl::default_acl = "private"; storage_class_t S3fsCurl::storage_class = STANDARD; sseckeylist_t S3fsCurl::sseckeys; std::string S3fsCurl::ssekmsid; sse_type_t S3fsCurl::ssetype = SSE_DISABLE; bool S3fsCurl::is_content_md5 = false; bool S3fsCurl::is_verbose = false; string S3fsCurl::AWSAccessKeyId; string S3fsCurl::AWSSecretAccessKey; string S3fsCurl::AWSAccessToken; time_t S3fsCurl::AWSAccessTokenExpire= 0; bool S3fsCurl::is_ecs = false; bool S3fsCurl::is_ibm_iam_auth = false; string S3fsCurl::IAM_cred_url = "http://169.254.169.254/latest/meta-data/iam/security-credentials/"; size_t S3fsCurl::IAM_field_count = 4; string S3fsCurl::IAM_token_field = "Token"; string S3fsCurl::IAM_expiry_field = "Expiration"; string S3fsCurl::IAM_role; long S3fsCurl::ssl_verify_hostname = 1; // default(original code...) curltime_t S3fsCurl::curl_times; curlprogress_t S3fsCurl::curl_progress; string S3fsCurl::curl_ca_bundle; mimes_t S3fsCurl::mimeTypes; string S3fsCurl::userAgent; int S3fsCurl::max_parallel_cnt = 5; // default int S3fsCurl::max_multireq = 20; // default off_t S3fsCurl::multipart_size = MULTIPART_SIZE; // default bool S3fsCurl::is_sigv4 = true; // default bool S3fsCurl::is_ua = true; // default bool S3fsCurl::is_use_session_token = false; // default //------------------------------------------------------------------- // Class methods for S3fsCurl //------------------------------------------------------------------- bool S3fsCurl::InitS3fsCurl(const char* MimeFile) { pthread_mutexattr_t attr; pthread_mutexattr_init(&attr); #if S3FS_PTHREAD_ERRORCHECK pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_ERRORCHECK); #endif if(0 != pthread_mutex_init(&S3fsCurl::curl_handles_lock, &attr)){ return false; } if(0 != pthread_mutex_init(&S3fsCurl::curl_share_lock[SHARE_MUTEX_DNS], &attr)){ return false; } if(0 != pthread_mutex_init(&S3fsCurl::curl_share_lock[SHARE_MUTEX_SSL_SESSION], &attr)){ return false; } if(!S3fsCurl::InitMimeType(MimeFile)){ return false; } if(!S3fsCurl::InitGlobalCurl()){ return false; } if(!S3fsCurl::InitShareCurl()){ return false; } if(!S3fsCurl::InitCryptMutex()){ return false; } // [NOTE] // sCurlPoolSize must be over parrallel(or multireq) count. // if(sCurlPoolSize < std::max(GetMaxParallelCount(), GetMaxMultiRequest())){ sCurlPoolSize = std::max(GetMaxParallelCount(), GetMaxMultiRequest()); } sCurlPool = new CurlHandlerPool(sCurlPoolSize); if (!sCurlPool->Init()) { return false; } return true; } bool S3fsCurl::DestroyS3fsCurl() { int result = true; if(!S3fsCurl::DestroyCryptMutex()){ result = false; } if(!sCurlPool->Destroy()){ result = false; } delete sCurlPool; sCurlPool = NULL; if(!S3fsCurl::DestroyShareCurl()){ result = false; } if(!S3fsCurl::DestroyGlobalCurl()){ result = false; } if(0 != pthread_mutex_destroy(&S3fsCurl::curl_share_lock[SHARE_MUTEX_DNS])){ result = false; } if(0 != pthread_mutex_destroy(&S3fsCurl::curl_share_lock[SHARE_MUTEX_SSL_SESSION])){ result = false; } if(0 != pthread_mutex_destroy(&S3fsCurl::curl_handles_lock)){ result = false; } return result; } bool S3fsCurl::InitGlobalCurl() { if(S3fsCurl::is_initglobal_done){ return false; } if(CURLE_OK != curl_global_init(CURL_GLOBAL_ALL)){ S3FS_PRN_ERR("init_curl_global_all returns error."); return false; } S3fsCurl::is_initglobal_done = true; return true; } bool S3fsCurl::DestroyGlobalCurl() { if(!S3fsCurl::is_initglobal_done){ return false; } curl_global_cleanup(); S3fsCurl::is_initglobal_done = false; return true; } bool S3fsCurl::InitShareCurl() { CURLSHcode nSHCode; if(!S3fsCurl::is_dns_cache && !S3fsCurl::is_ssl_session_cache){ S3FS_PRN_INFO("Curl does not share DNS data."); return true; } if(S3fsCurl::hCurlShare){ S3FS_PRN_WARN("already initiated."); return false; } if(NULL == (S3fsCurl::hCurlShare = curl_share_init())){ S3FS_PRN_ERR("curl_share_init failed"); return false; } if(CURLSHE_OK != (nSHCode = curl_share_setopt(S3fsCurl::hCurlShare, CURLSHOPT_LOCKFUNC, S3fsCurl::LockCurlShare))){ S3FS_PRN_ERR("curl_share_setopt(LOCKFUNC) returns %d(%s)", nSHCode, curl_share_strerror(nSHCode)); return false; } if(CURLSHE_OK != (nSHCode = curl_share_setopt(S3fsCurl::hCurlShare, CURLSHOPT_UNLOCKFUNC, S3fsCurl::UnlockCurlShare))){ S3FS_PRN_ERR("curl_share_setopt(UNLOCKFUNC) returns %d(%s)", nSHCode, curl_share_strerror(nSHCode)); return false; } if(S3fsCurl::is_dns_cache){ nSHCode = curl_share_setopt(S3fsCurl::hCurlShare, CURLSHOPT_SHARE, CURL_LOCK_DATA_DNS); if(CURLSHE_OK != nSHCode && CURLSHE_BAD_OPTION != nSHCode && CURLSHE_NOT_BUILT_IN != nSHCode){ S3FS_PRN_ERR("curl_share_setopt(DNS) returns %d(%s)", nSHCode, curl_share_strerror(nSHCode)); return false; }else if(CURLSHE_BAD_OPTION == nSHCode || CURLSHE_NOT_BUILT_IN == nSHCode){ S3FS_PRN_WARN("curl_share_setopt(DNS) returns %d(%s), but continue without shared dns data.", nSHCode, curl_share_strerror(nSHCode)); } } if(S3fsCurl::is_ssl_session_cache){ nSHCode = curl_share_setopt(S3fsCurl::hCurlShare, CURLSHOPT_SHARE, CURL_LOCK_DATA_SSL_SESSION); if(CURLSHE_OK != nSHCode && CURLSHE_BAD_OPTION != nSHCode && CURLSHE_NOT_BUILT_IN != nSHCode){ S3FS_PRN_ERR("curl_share_setopt(SSL SESSION) returns %d(%s)", nSHCode, curl_share_strerror(nSHCode)); return false; }else if(CURLSHE_BAD_OPTION == nSHCode || CURLSHE_NOT_BUILT_IN == nSHCode){ S3FS_PRN_WARN("curl_share_setopt(SSL SESSION) returns %d(%s), but continue without shared ssl session data.", nSHCode, curl_share_strerror(nSHCode)); } } if(CURLSHE_OK != (nSHCode = curl_share_setopt(S3fsCurl::hCurlShare, CURLSHOPT_USERDATA, (void*)&S3fsCurl::curl_share_lock[0]))){ S3FS_PRN_ERR("curl_share_setopt(USERDATA) returns %d(%s)", nSHCode, curl_share_strerror(nSHCode)); return false; } return true; } bool S3fsCurl::DestroyShareCurl() { if(!S3fsCurl::hCurlShare){ if(!S3fsCurl::is_dns_cache && !S3fsCurl::is_ssl_session_cache){ return true; } S3FS_PRN_WARN("already destroy share curl."); return false; } if(CURLSHE_OK != curl_share_cleanup(S3fsCurl::hCurlShare)){ return false; } S3fsCurl::hCurlShare = NULL; return true; } void S3fsCurl::LockCurlShare(CURL* handle, curl_lock_data nLockData, curl_lock_access laccess, void* useptr) { if(!hCurlShare){ return; } pthread_mutex_t* lockmutex = static_cast(useptr); if(CURL_LOCK_DATA_DNS == nLockData){ pthread_mutex_lock(&lockmutex[SHARE_MUTEX_DNS]); }else if(CURL_LOCK_DATA_SSL_SESSION == nLockData){ pthread_mutex_lock(&lockmutex[SHARE_MUTEX_SSL_SESSION]); } } void S3fsCurl::UnlockCurlShare(CURL* handle, curl_lock_data nLockData, void* useptr) { if(!hCurlShare){ return; } pthread_mutex_t* lockmutex = static_cast(useptr); if(CURL_LOCK_DATA_DNS == nLockData){ pthread_mutex_unlock(&lockmutex[SHARE_MUTEX_DNS]); }else if(CURL_LOCK_DATA_SSL_SESSION == nLockData){ pthread_mutex_unlock(&lockmutex[SHARE_MUTEX_SSL_SESSION]); } } bool S3fsCurl::InitCryptMutex() { return s3fs_init_crypt_mutex(); } bool S3fsCurl::DestroyCryptMutex() { return s3fs_destroy_crypt_mutex(); } // homegrown timeout mechanism int S3fsCurl::CurlProgress(void *clientp, double dltotal, double dlnow, double ultotal, double ulnow) { CURL* curl = static_cast(clientp); time_t now = time(0); progress_t p(dlnow, ulnow); AutoLock lock(&S3fsCurl::curl_handles_lock); // any progress? if(p != S3fsCurl::curl_progress[curl]){ // yes! S3fsCurl::curl_times[curl] = now; S3fsCurl::curl_progress[curl] = p; }else{ // timeout? if(now - S3fsCurl::curl_times[curl] > readwrite_timeout){ S3FS_PRN_ERR("timeout now: %lld, curl_times[curl]: %lld, readwrite_timeout: %lld", static_cast(now), static_cast((S3fsCurl::curl_times[curl])), static_cast(readwrite_timeout)); return CURLE_ABORTED_BY_CALLBACK; } } return 0; } bool S3fsCurl::InitMimeType(const char* MimeFile) { if(!MimeFile){ MimeFile = "/etc/mime.types"; // default } string line; ifstream MT(MimeFile); if(MT.good()){ while(getline(MT, line)){ if(line[0]=='#'){ continue; } if(line.empty()){ continue; } istringstream tmp(line); string mimeType; tmp >> mimeType; while(tmp){ string ext; tmp >> ext; if(ext.empty()){ continue; } S3fsCurl::mimeTypes[ext] = mimeType; } } } return true; } void S3fsCurl::InitUserAgent() { if(S3fsCurl::userAgent.empty()){ S3fsCurl::userAgent = "s3fs/"; S3fsCurl::userAgent += VERSION; S3fsCurl::userAgent += " (commit hash "; S3fsCurl::userAgent += COMMIT_HASH_VAL; S3fsCurl::userAgent += "; "; S3fsCurl::userAgent += s3fs_crypt_lib_name(); S3fsCurl::userAgent += ")"; S3fsCurl::userAgent += instance_name; } } // // @param s e.g., "index.html" // @return e.g., "text/html" // string S3fsCurl::LookupMimeType(const string& name) { string result("application/octet-stream"); string::size_type last_pos = name.find_last_of('.'); string::size_type first_pos = name.find_first_of('.'); string prefix, ext, ext2; // No dots in name, just return if(last_pos == string::npos){ return result; } // extract the last extension ext = name.substr(1+last_pos, string::npos); if (last_pos != string::npos) { // one dot was found, now look for another if (first_pos != string::npos && first_pos < last_pos) { prefix = name.substr(0, last_pos); // Now get the second to last file extension string::size_type next_pos = prefix.find_last_of('.'); if (next_pos != string::npos) { ext2 = prefix.substr(1+next_pos, string::npos); } } } // if we get here, then we have an extension (ext) mimes_t::const_iterator iter = S3fsCurl::mimeTypes.find(ext); // if the last extension matches a mimeType, then return // that mime type if (iter != S3fsCurl::mimeTypes.end()) { result = (*iter).second; return result; } // return with the default result if there isn't a second extension if(first_pos == last_pos){ return result; } // Didn't find a mime-type for the first extension // Look for second extension in mimeTypes, return if found iter = S3fsCurl::mimeTypes.find(ext2); if (iter != S3fsCurl::mimeTypes.end()) { result = (*iter).second; return result; } // neither the last extension nor the second-to-last extension // matched a mimeType, return the default mime type return result; } bool S3fsCurl::LocateBundle() { // See if environment variable CURL_CA_BUNDLE is set // if so, check it, if it is a good path, then set the // curl_ca_bundle variable to it if(S3fsCurl::curl_ca_bundle.empty()){ char* CURL_CA_BUNDLE = getenv("CURL_CA_BUNDLE"); if(CURL_CA_BUNDLE != NULL) { // check for existence and readability of the file ifstream BF(CURL_CA_BUNDLE); if(!BF.good()){ S3FS_PRN_ERR("%s: file specified by CURL_CA_BUNDLE environment variable is not readable", program_name.c_str()); return false; } BF.close(); S3fsCurl::curl_ca_bundle.assign(CURL_CA_BUNDLE); return true; } }else{ // Already set ca bundle variable return true; } // not set via environment variable, look in likely locations /////////////////////////////////////////// // following comment from curl's (7.21.2) acinclude.m4 file /////////////////////////////////////////// // dnl CURL_CHECK_CA_BUNDLE // dnl ------------------------------------------------- // dnl Check if a default ca-bundle should be used // dnl // dnl regarding the paths this will scan: // dnl /etc/ssl/certs/ca-certificates.crt Debian systems // dnl /etc/pki/tls/certs/ca-bundle.crt Redhat and Mandriva // dnl /usr/share/ssl/certs/ca-bundle.crt old(er) Redhat // dnl /usr/local/share/certs/ca-root.crt FreeBSD // dnl /etc/ssl/cert.pem OpenBSD // dnl /etc/ssl/certs/ (ca path) SUSE /////////////////////////////////////////// // Within CURL the above path should have been checked // according to the OS. Thus, although we do not need // to check files here, we will only examine some files. // ifstream BF("/etc/pki/tls/certs/ca-bundle.crt"); if(BF.good()){ BF.close(); S3fsCurl::curl_ca_bundle.assign("/etc/pki/tls/certs/ca-bundle.crt"); }else{ BF.open("/etc/ssl/certs/ca-certificates.crt"); if(BF.good()){ BF.close(); S3fsCurl::curl_ca_bundle.assign("/etc/ssl/certs/ca-certificates.crt"); }else{ BF.open("/usr/share/ssl/certs/ca-bundle.crt"); if(BF.good()){ BF.close(); S3fsCurl::curl_ca_bundle.assign("/usr/share/ssl/certs/ca-bundle.crt"); }else{ BF.open("/usr/local/share/certs/ca-root.crt"); if(BF.good()){ BF.close(); S3fsCurl::curl_ca_bundle.assign("/usr/share/ssl/certs/ca-bundle.crt"); }else{ S3FS_PRN_ERR("%s: /.../ca-bundle.crt is not readable", program_name.c_str()); return false; } } } } return true; } size_t S3fsCurl::WriteMemoryCallback(void* ptr, size_t blockSize, size_t numBlocks, void* data) { BodyData* body = static_cast(data); if(!body->Append(ptr, blockSize, numBlocks)){ S3FS_PRN_CRIT("BodyData.Append() returned false."); S3FS_FUSE_EXIT(); return -1; } return (blockSize * numBlocks); } size_t S3fsCurl::ReadCallback(void* ptr, size_t size, size_t nmemb, void* userp) { S3fsCurl* pCurl = reinterpret_cast(userp); if(1 > (size * nmemb)){ return 0; } if(0 >= pCurl->postdata_remaining){ return 0; } int copysize = std::min((int)(size * nmemb), pCurl->postdata_remaining); memcpy(ptr, pCurl->postdata, copysize); pCurl->postdata_remaining = (pCurl->postdata_remaining > copysize ? (pCurl->postdata_remaining - copysize) : 0); pCurl->postdata += static_cast(copysize); return copysize; } size_t S3fsCurl::HeaderCallback(void* data, size_t blockSize, size_t numBlocks, void* userPtr) { headers_t* headers = reinterpret_cast(userPtr); string header(reinterpret_cast(data), blockSize * numBlocks); string key; istringstream ss(header); if(getline(ss, key, ':')){ // Force to lower, only "x-amz" string lkey = key; transform(lkey.begin(), lkey.end(), lkey.begin(), static_cast(std::tolower)); if(lkey.compare(0, 5, "x-amz") == 0){ key = lkey; } string value; getline(ss, value); (*headers)[key] = trim(value); } return blockSize * numBlocks; } size_t S3fsCurl::UploadReadCallback(void* ptr, size_t size, size_t nmemb, void* userp) { S3fsCurl* pCurl = reinterpret_cast(userp); if(1 > (size * nmemb)){ return 0; } if(-1 == pCurl->partdata.fd || 0 >= pCurl->partdata.size){ return 0; } // read size ssize_t copysize = (size * nmemb) < (size_t)pCurl->partdata.size ? (size * nmemb) : (size_t)pCurl->partdata.size; ssize_t readbytes; ssize_t totalread; // read and set for(totalread = 0, readbytes = 0; totalread < copysize; totalread += readbytes){ readbytes = pread(pCurl->partdata.fd, &((char*)ptr)[totalread], (copysize - totalread), pCurl->partdata.startpos + totalread); if(0 == readbytes){ // eof break; }else if(-1 == readbytes){ // error S3FS_PRN_ERR("read file error(%d).", errno); return 0; } } pCurl->partdata.startpos += totalread; pCurl->partdata.size -= totalread; return totalread; } size_t S3fsCurl::DownloadWriteCallback(void* ptr, size_t size, size_t nmemb, void* userp) { S3fsCurl* pCurl = reinterpret_cast(userp); if(1 > (size * nmemb)){ return 0; } if(-1 == pCurl->partdata.fd || 0 >= pCurl->partdata.size){ return 0; } // write size ssize_t copysize = (size * nmemb) < (size_t)pCurl->partdata.size ? (size * nmemb) : (size_t)pCurl->partdata.size; ssize_t writebytes; ssize_t totalwrite; // write for(totalwrite = 0, writebytes = 0; totalwrite < copysize; totalwrite += writebytes){ writebytes = pwrite(pCurl->partdata.fd, &((char*)ptr)[totalwrite], (copysize - totalwrite), pCurl->partdata.startpos + totalwrite); if(0 == writebytes){ // eof? break; }else if(-1 == writebytes){ // error S3FS_PRN_ERR("write file error(%d).", errno); return 0; } } pCurl->partdata.startpos += totalwrite; pCurl->partdata.size -= totalwrite; return totalwrite; } bool S3fsCurl::SetCheckCertificate(bool isCertCheck) { bool old = S3fsCurl::is_cert_check; S3fsCurl::is_cert_check = isCertCheck; return old; } bool S3fsCurl::SetDnsCache(bool isCache) { bool old = S3fsCurl::is_dns_cache; S3fsCurl::is_dns_cache = isCache; return old; } bool S3fsCurl::SetSslSessionCache(bool isCache) { bool old = S3fsCurl::is_ssl_session_cache; S3fsCurl::is_ssl_session_cache = isCache; return old; } long S3fsCurl::SetConnectTimeout(long timeout) { long old = S3fsCurl::connect_timeout; S3fsCurl::connect_timeout = timeout; return old; } time_t S3fsCurl::SetReadwriteTimeout(time_t timeout) { time_t old = S3fsCurl::readwrite_timeout; S3fsCurl::readwrite_timeout = timeout; return old; } int S3fsCurl::SetRetries(int count) { int old = S3fsCurl::retries; S3fsCurl::retries = count; return old; } bool S3fsCurl::SetPublicBucket(bool flag) { bool old = S3fsCurl::is_public_bucket; S3fsCurl::is_public_bucket = flag; return old; } string S3fsCurl::SetDefaultAcl(const char* acl) { string old = S3fsCurl::default_acl; S3fsCurl::default_acl = acl ? acl : ""; return old; } string S3fsCurl::GetDefaultAcl() { return S3fsCurl::default_acl; } storage_class_t S3fsCurl::SetStorageClass(storage_class_t storage_class) { storage_class_t old = S3fsCurl::storage_class; S3fsCurl::storage_class = storage_class; return old; } bool S3fsCurl::PushbackSseKeys(string& onekey) { onekey = trim(onekey); if(onekey.empty()){ return false; } if('#' == onekey[0]){ return false; } // make base64 if the key is short enough, otherwise assume it is already so string base64_key; string raw_key; if(onekey.length() > 256 / 8){ char* p_key; size_t keylength; if(NULL != (p_key = (char *)s3fs_decode64(onekey.c_str(), &keylength))) { raw_key = string(p_key, keylength); base64_key = onekey; delete[] p_key; } else { S3FS_PRN_ERR("Failed to convert base64 to SSE-C key %s", onekey.c_str()); return false; } } else { char* pbase64_key; if(NULL != (pbase64_key = s3fs_base64((unsigned char*)onekey.c_str(), onekey.length()))) { raw_key = onekey; base64_key = pbase64_key; delete[] pbase64_key; } else { S3FS_PRN_ERR("Failed to convert base64 from SSE-C key %s", onekey.c_str()); return false; } } // make MD5 string strMd5; if(!make_md5_from_binary(raw_key.c_str(), raw_key.length(), strMd5)){ S3FS_PRN_ERR("Could not make MD5 from SSE-C keys(%s).", raw_key.c_str()); return false; } // mapped MD5 = SSE Key sseckeymap_t md5map; md5map.clear(); md5map[strMd5] = base64_key; S3fsCurl::sseckeys.push_back(md5map); return true; } sse_type_t S3fsCurl::SetSseType(sse_type_t type) { sse_type_t old = S3fsCurl::ssetype; S3fsCurl::ssetype = type; return old; } bool S3fsCurl::SetSseCKeys(const char* filepath) { if(!filepath){ S3FS_PRN_ERR("SSE-C keys filepath is empty."); return false; } struct stat st; if(0 != stat(filepath, &st)){ S3FS_PRN_ERR("could not open use_sse keys file(%s).", filepath); return false; } if(st.st_mode & (S_IXUSR | S_IRWXG | S_IRWXO)){ S3FS_PRN_ERR("use_sse keys file %s should be 0600 permissions.", filepath); return false; } S3fsCurl::sseckeys.clear(); ifstream ssefs(filepath); if(!ssefs.good()){ S3FS_PRN_ERR("Could not open SSE-C keys file(%s).", filepath); return false; } string line; while(getline(ssefs, line)){ S3fsCurl::PushbackSseKeys(line); } if(S3fsCurl::sseckeys.empty()){ S3FS_PRN_ERR("There is no SSE Key in file(%s).", filepath); return false; } return true; } bool S3fsCurl::SetSseKmsid(const char* kmsid) { if(!kmsid || '\0' == kmsid[0]){ S3FS_PRN_ERR("SSE-KMS kms id is empty."); return false; } S3fsCurl::ssekmsid = kmsid; return true; } // [NOTE] // Because SSE is set by some options and environment, // this function check the integrity of the SSE data finally. bool S3fsCurl::FinalCheckSse() { if(SSE_DISABLE == S3fsCurl::ssetype){ S3fsCurl::ssekmsid.erase(); }else if(SSE_S3 == S3fsCurl::ssetype){ S3fsCurl::ssekmsid.erase(); }else if(SSE_C == S3fsCurl::ssetype){ if(S3fsCurl::sseckeys.empty()){ S3FS_PRN_ERR("sse type is SSE-C, but there is no custom key."); return false; } S3fsCurl::ssekmsid.erase(); }else if(SSE_KMS == S3fsCurl::ssetype){ if(S3fsCurl::ssekmsid.empty()){ S3FS_PRN_ERR("sse type is SSE-KMS, but there is no specified kms id."); return false; } if(!S3fsCurl::IsSignatureV4()){ S3FS_PRN_ERR("sse type is SSE-KMS, but signature type is not v4. SSE-KMS require signature v4."); return false; } }else{ S3FS_PRN_ERR("sse type is unknown(%d).", S3fsCurl::ssetype); return false; } return true; } bool S3fsCurl::LoadEnvSseCKeys() { char* envkeys = getenv("AWSSSECKEYS"); if(NULL == envkeys){ // nothing to do return true; } S3fsCurl::sseckeys.clear(); istringstream fullkeys(envkeys); string onekey; while(getline(fullkeys, onekey, ':')){ S3fsCurl::PushbackSseKeys(onekey); } if(S3fsCurl::sseckeys.empty()){ S3FS_PRN_ERR("There is no SSE Key in environment(AWSSSECKEYS=%s).", envkeys); return false; } return true; } bool S3fsCurl::LoadEnvSseKmsid() { char* envkmsid = getenv("AWSSSEKMSID"); if(NULL == envkmsid){ // nothing to do return true; } return S3fsCurl::SetSseKmsid(envkmsid); } // // If md5 is empty, returns first(current) sse key. // bool S3fsCurl::GetSseKey(string& md5, string& ssekey) { for(sseckeylist_t::const_iterator iter = S3fsCurl::sseckeys.begin(); iter != S3fsCurl::sseckeys.end(); ++iter){ if(0 == md5.length() || md5 == (*iter).begin()->first){ md5 = iter->begin()->first; ssekey = iter->begin()->second; return true; } } return false; } bool S3fsCurl::GetSseKeyMd5(int pos, string& md5) { if(pos < 0){ return false; } if(S3fsCurl::sseckeys.size() <= static_cast(pos)){ return false; } int cnt = 0; for(sseckeylist_t::const_iterator iter = S3fsCurl::sseckeys.begin(); iter != S3fsCurl::sseckeys.end(); ++iter, ++cnt){ if(pos == cnt){ md5 = iter->begin()->first; return true; } } return false; } int S3fsCurl::GetSseKeyCount() { return S3fsCurl::sseckeys.size(); } bool S3fsCurl::SetContentMd5(bool flag) { bool old = S3fsCurl::is_content_md5; S3fsCurl::is_content_md5 = flag; return old; } bool S3fsCurl::SetVerbose(bool flag) { bool old = S3fsCurl::is_verbose; S3fsCurl::is_verbose = flag; return old; } bool S3fsCurl::SetAccessKey(const char* AccessKeyId, const char* SecretAccessKey) { if((!S3fsCurl::is_ibm_iam_auth && (!AccessKeyId || '\0' == AccessKeyId[0])) || !SecretAccessKey || '\0' == SecretAccessKey[0]){ return false; } AWSAccessKeyId = AccessKeyId; AWSSecretAccessKey = SecretAccessKey; return true; } bool S3fsCurl::SetAccessKeyWithSessionToken(const char* AccessKeyId, const char* SecretAccessKey, const char* SessionToken) { bool access_key_is_empty = !AccessKeyId || '\0' == AccessKeyId[0]; bool secret_access_key_is_empty = !SecretAccessKey || '\0' == SecretAccessKey[0]; bool session_token_is_empty = !SessionToken || '\0' == SessionToken[0]; if((!S3fsCurl::is_ibm_iam_auth && access_key_is_empty) || secret_access_key_is_empty || session_token_is_empty){ return false; } AWSAccessKeyId = AccessKeyId; AWSSecretAccessKey = SecretAccessKey; AWSAccessToken = SessionToken; S3fsCurl::is_use_session_token = true; return true; } long S3fsCurl::SetSslVerifyHostname(long value) { if(0 != value && 1 != value){ return -1; } long old = S3fsCurl::ssl_verify_hostname; S3fsCurl::ssl_verify_hostname = value; return old; } bool S3fsCurl::SetIsIBMIAMAuth(bool flag) { bool old = S3fsCurl::is_ibm_iam_auth; S3fsCurl::is_ibm_iam_auth = flag; return old; } bool S3fsCurl::SetIsECS(bool flag) { bool old = S3fsCurl::is_ecs; S3fsCurl::is_ecs = flag; return old; } string S3fsCurl::SetIAMRole(const char* role) { string old = S3fsCurl::IAM_role; S3fsCurl::IAM_role = role ? role : ""; return old; } size_t S3fsCurl::SetIAMFieldCount(size_t field_count) { size_t old = S3fsCurl::IAM_field_count; S3fsCurl::IAM_field_count = field_count; return old; } string S3fsCurl::SetIAMCredentialsURL(const char* url) { string old = S3fsCurl::IAM_cred_url; S3fsCurl::IAM_cred_url = url ? url : ""; return old; } string S3fsCurl::SetIAMTokenField(const char* token_field) { string old = S3fsCurl::IAM_token_field; S3fsCurl::IAM_token_field = token_field ? token_field : ""; return old; } string S3fsCurl::SetIAMExpiryField(const char* expiry_field) { string old = S3fsCurl::IAM_expiry_field; S3fsCurl::IAM_expiry_field = expiry_field ? expiry_field : ""; return old; } bool S3fsCurl::SetMultipartSize(off_t size) { size = size * 1024 * 1024; if(size < MIN_MULTIPART_SIZE){ return false; } S3fsCurl::multipart_size = size; return true; } int S3fsCurl::SetMaxParallelCount(int value) { int old = S3fsCurl::max_parallel_cnt; S3fsCurl::max_parallel_cnt = value; return old; } int S3fsCurl::SetMaxMultiRequest(int max) { int old = S3fsCurl::max_multireq; S3fsCurl::max_multireq = max; return old; } bool S3fsCurl::UploadMultipartPostCallback(S3fsCurl* s3fscurl) { if(!s3fscurl){ return false; } return s3fscurl->UploadMultipartPostComplete(); } S3fsCurl* S3fsCurl::UploadMultipartPostRetryCallback(S3fsCurl* s3fscurl) { if(!s3fscurl){ return NULL; } // parse and get part_num, upload_id. string upload_id; string part_num_str; int part_num; if(!get_keyword_value(s3fscurl->url, "uploadId", upload_id)){ return NULL; } if(!get_keyword_value(s3fscurl->url, "partNumber", part_num_str)){ return NULL; } part_num = atoi(part_num_str.c_str()); if(s3fscurl->retry_count >= S3fsCurl::retries){ S3FS_PRN_ERR("Over retry count(%d) limit(%s:%d).", s3fscurl->retry_count, s3fscurl->path.c_str(), part_num); return NULL; } // duplicate request S3fsCurl* newcurl = new S3fsCurl(s3fscurl->IsUseAhbe()); newcurl->partdata.etaglist = s3fscurl->partdata.etaglist; newcurl->partdata.etagpos = s3fscurl->partdata.etagpos; newcurl->partdata.fd = s3fscurl->partdata.fd; newcurl->partdata.startpos = s3fscurl->b_partdata_startpos; newcurl->partdata.size = s3fscurl->b_partdata_size; newcurl->b_partdata_startpos = s3fscurl->b_partdata_startpos; newcurl->b_partdata_size = s3fscurl->b_partdata_size; newcurl->retry_count = s3fscurl->retry_count + 1; // setup new curl object if(0 != newcurl->UploadMultipartPostSetup(s3fscurl->path.c_str(), part_num, upload_id)){ S3FS_PRN_ERR("Could not duplicate curl object(%s:%d).", s3fscurl->path.c_str(), part_num); delete newcurl; return NULL; } return newcurl; } S3fsCurl* S3fsCurl::CopyMultipartPostRetryCallback(S3fsCurl* s3fscurl) { if(!s3fscurl){ return NULL; } // parse and get part_num, upload_id. string upload_id; string part_num_str; int part_num; if(!get_keyword_value(s3fscurl->url, "uploadId", upload_id)){ return NULL; } if(!get_keyword_value(s3fscurl->url, "partNumber", part_num_str)){ return NULL; } part_num = atoi(part_num_str.c_str()); if(s3fscurl->retry_count >= S3fsCurl::retries){ S3FS_PRN_ERR("Over retry count(%d) limit(%s:%d).", s3fscurl->retry_count, s3fscurl->path.c_str(), part_num); return NULL; } // duplicate request S3fsCurl* newcurl = new S3fsCurl(s3fscurl->IsUseAhbe()); newcurl->partdata.etaglist = s3fscurl->partdata.etaglist; newcurl->partdata.etagpos = s3fscurl->partdata.etagpos; newcurl->retry_count = s3fscurl->retry_count + 1; // setup new curl object if(0 != newcurl->UploadMultipartPostSetup(s3fscurl->path.c_str(), part_num, upload_id)){ S3FS_PRN_ERR("Could not duplicate curl object(%s:%d).", s3fscurl->path.c_str(), part_num); delete newcurl; return NULL; } return newcurl; } int S3fsCurl::ParallelMultipartUploadRequest(const char* tpath, headers_t& meta, int fd) { int result; string upload_id; struct stat st; int fd2; etaglist_t list; off_t remaining_bytes; S3fsCurl s3fscurl(true); S3FS_PRN_INFO3("[tpath=%s][fd=%d]", SAFESTRPTR(tpath), fd); // duplicate fd if(-1 == (fd2 = dup(fd)) || 0 != lseek(fd2, 0, SEEK_SET)){ S3FS_PRN_ERR("Could not duplicate file descriptor(errno=%d)", errno); if(-1 != fd2){ close(fd2); } return -errno; } if(-1 == fstat(fd2, &st)){ S3FS_PRN_ERR("Invalid file descriptor(errno=%d)", errno); close(fd2); return -errno; } if(0 != (result = s3fscurl.PreMultipartPostRequest(tpath, meta, upload_id, false))){ close(fd2); return result; } s3fscurl.DestroyCurlHandle(); // Initialize S3fsMultiCurl S3fsMultiCurl curlmulti(GetMaxParallelCount()); curlmulti.SetSuccessCallback(S3fsCurl::UploadMultipartPostCallback); curlmulti.SetRetryCallback(S3fsCurl::UploadMultipartPostRetryCallback); // cycle through open fd, pulling off 10MB chunks at a time for(remaining_bytes = st.st_size; 0 < remaining_bytes; ){ off_t chunk = remaining_bytes > S3fsCurl::multipart_size ? S3fsCurl::multipart_size : remaining_bytes; // s3fscurl sub object S3fsCurl* s3fscurl_para = new S3fsCurl(true); s3fscurl_para->partdata.fd = fd2; s3fscurl_para->partdata.startpos = st.st_size - remaining_bytes; s3fscurl_para->partdata.size = chunk; s3fscurl_para->b_partdata_startpos = s3fscurl_para->partdata.startpos; s3fscurl_para->b_partdata_size = s3fscurl_para->partdata.size; s3fscurl_para->partdata.add_etag_list(&list); // initiate upload part for parallel if(0 != (result = s3fscurl_para->UploadMultipartPostSetup(tpath, list.size(), upload_id))){ S3FS_PRN_ERR("failed uploading part setup(%d)", result); close(fd2); delete s3fscurl_para; return result; } // set into parallel object if(!curlmulti.SetS3fsCurlObject(s3fscurl_para)){ S3FS_PRN_ERR("Could not make curl object into multi curl(%s).", tpath); close(fd2); delete s3fscurl_para; return -1; } remaining_bytes -= chunk; } // Multi request if(0 != (result = curlmulti.Request())){ S3FS_PRN_ERR("error occurred in multi request(errno=%d).", result); S3fsCurl s3fscurl_abort(true); int result2 = s3fscurl_abort.AbortMultipartUpload(tpath, upload_id); s3fscurl_abort.DestroyCurlHandle(); if(result2 != 0){ S3FS_PRN_ERR("error aborting multipart upload(errno=%d).", result2); } return result; } close(fd2); if(0 != (result = s3fscurl.CompleteMultipartPostRequest(tpath, upload_id, list))){ return result; } return 0; } S3fsCurl* S3fsCurl::ParallelGetObjectRetryCallback(S3fsCurl* s3fscurl) { int result; if(!s3fscurl){ return NULL; } if(s3fscurl->retry_count >= S3fsCurl::retries){ S3FS_PRN_ERR("Over retry count(%d) limit(%s).", s3fscurl->retry_count, s3fscurl->path.c_str()); return NULL; } // duplicate request(setup new curl object) S3fsCurl* newcurl = new S3fsCurl(s3fscurl->IsUseAhbe()); if(0 != (result = newcurl->PreGetObjectRequest(s3fscurl->path.c_str(), s3fscurl->partdata.fd, s3fscurl->partdata.startpos, s3fscurl->partdata.size, s3fscurl->b_ssetype, s3fscurl->b_ssevalue))) { S3FS_PRN_ERR("failed downloading part setup(%d)", result); delete newcurl; return NULL;; } newcurl->retry_count = s3fscurl->retry_count + 1; return newcurl; } int S3fsCurl::ParallelGetObjectRequest(const char* tpath, int fd, off_t start, ssize_t size) { S3FS_PRN_INFO3("[tpath=%s][fd=%d]", SAFESTRPTR(tpath), fd); sse_type_t ssetype; string ssevalue; if(!get_object_sse_type(tpath, ssetype, ssevalue)){ S3FS_PRN_WARN("Failed to get SSE type for file(%s).", SAFESTRPTR(tpath)); } int result = 0; ssize_t remaining_bytes; // cycle through open fd, pulling off 10MB chunks at a time for(remaining_bytes = size; 0 < remaining_bytes; ){ S3fsMultiCurl curlmulti(GetMaxParallelCount()); int para_cnt; off_t chunk; // Initialize S3fsMultiCurl //curlmulti.SetSuccessCallback(NULL); // not need to set success callback curlmulti.SetRetryCallback(S3fsCurl::ParallelGetObjectRetryCallback); // Loop for setup parallel upload(multipart) request. for(para_cnt = 0; para_cnt < S3fsCurl::max_parallel_cnt && 0 < remaining_bytes; para_cnt++, remaining_bytes -= chunk){ // chunk size chunk = remaining_bytes > S3fsCurl::multipart_size ? S3fsCurl::multipart_size : remaining_bytes; // s3fscurl sub object S3fsCurl* s3fscurl_para = new S3fsCurl(); if(0 != (result = s3fscurl_para->PreGetObjectRequest(tpath, fd, (start + size - remaining_bytes), chunk, ssetype, ssevalue))){ S3FS_PRN_ERR("failed downloading part setup(%d)", result); delete s3fscurl_para; return result; } // set into parallel object if(!curlmulti.SetS3fsCurlObject(s3fscurl_para)){ S3FS_PRN_ERR("Could not make curl object into multi curl(%s).", tpath); delete s3fscurl_para; return -1; } } // Multi request if(0 != (result = curlmulti.Request())){ S3FS_PRN_ERR("error occurred in multi request(errno=%d).", result); break; } // reinit for loop. curlmulti.Clear(); } return result; } bool S3fsCurl::UploadMultipartPostSetCurlOpts(S3fsCurl* s3fscurl) { if(!s3fscurl){ return false; } if(!s3fscurl->CreateCurlHandle()){ return false; } curl_easy_setopt(s3fscurl->hCurl, CURLOPT_URL, s3fscurl->url.c_str()); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_UPLOAD, true); // HTTP PUT curl_easy_setopt(s3fscurl->hCurl, CURLOPT_WRITEDATA, (void*)(s3fscurl->bodydata)); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_HEADERDATA, (void*)&(s3fscurl->responseHeaders)); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_HEADERFUNCTION, HeaderCallback); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_INFILESIZE_LARGE, static_cast(s3fscurl->partdata.size)); // Content-Length curl_easy_setopt(s3fscurl->hCurl, CURLOPT_READFUNCTION, UploadReadCallback); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_READDATA, (void*)s3fscurl); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_HTTPHEADER, s3fscurl->requestHeaders); S3fsCurl::AddUserAgent(s3fscurl->hCurl); // put User-Agent return true; } bool S3fsCurl::CopyMultipartPostSetCurlOpts(S3fsCurl* s3fscurl) { if(!s3fscurl){ return false; } if(!s3fscurl->CreateCurlHandle()){ return false; } curl_easy_setopt(s3fscurl->hCurl, CURLOPT_URL, s3fscurl->url.c_str()); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_UPLOAD, true); // HTTP PUT curl_easy_setopt(s3fscurl->hCurl, CURLOPT_WRITEDATA, (void*)(s3fscurl->bodydata)); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_HEADERDATA, (void*)(s3fscurl->headdata)); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_HEADERFUNCTION, WriteMemoryCallback); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_INFILESIZE, 0); // Content-Length curl_easy_setopt(s3fscurl->hCurl, CURLOPT_HTTPHEADER, s3fscurl->requestHeaders); S3fsCurl::AddUserAgent(s3fscurl->hCurl); // put User-Agent return true; } bool S3fsCurl::PreGetObjectRequestSetCurlOpts(S3fsCurl* s3fscurl) { if(!s3fscurl){ return false; } if(!s3fscurl->CreateCurlHandle()){ return false; } curl_easy_setopt(s3fscurl->hCurl, CURLOPT_URL, s3fscurl->url.c_str()); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_HTTPHEADER, s3fscurl->requestHeaders); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_WRITEFUNCTION, DownloadWriteCallback); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_WRITEDATA, (void*)s3fscurl); S3fsCurl::AddUserAgent(s3fscurl->hCurl); // put User-Agent return true; } bool S3fsCurl::PreHeadRequestSetCurlOpts(S3fsCurl* s3fscurl) { if(!s3fscurl){ return false; } if(!s3fscurl->CreateCurlHandle()){ return false; } curl_easy_setopt(s3fscurl->hCurl, CURLOPT_URL, s3fscurl->url.c_str()); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_NOBODY, true); // HEAD curl_easy_setopt(s3fscurl->hCurl, CURLOPT_FILETIME, true); // Last-Modified curl_easy_setopt(s3fscurl->hCurl, CURLOPT_HTTPHEADER, s3fscurl->requestHeaders); // responseHeaders curl_easy_setopt(s3fscurl->hCurl, CURLOPT_HEADERDATA, (void*)&(s3fscurl->responseHeaders)); curl_easy_setopt(s3fscurl->hCurl, CURLOPT_HEADERFUNCTION, HeaderCallback); S3fsCurl::AddUserAgent(s3fscurl->hCurl); // put User-Agent return true; } bool S3fsCurl::ParseIAMCredentialResponse(const char* response, iamcredmap_t& keyval) { if(!response){ return false; } istringstream sscred(response); string oneline; keyval.clear(); while(getline(sscred, oneline, ',')){ string::size_type pos; string key; string val; if(string::npos != (pos = oneline.find(IAMCRED_ACCESSKEYID))){ key = IAMCRED_ACCESSKEYID; }else if(string::npos != (pos = oneline.find(IAMCRED_SECRETACCESSKEY))){ key = IAMCRED_SECRETACCESSKEY; }else if(string::npos != (pos = oneline.find(S3fsCurl::IAM_token_field))){ key = S3fsCurl::IAM_token_field; }else if(string::npos != (pos = oneline.find(S3fsCurl::IAM_expiry_field))){ key = S3fsCurl::IAM_expiry_field; }else if(string::npos != (pos = oneline.find(IAMCRED_ROLEARN))){ key = IAMCRED_ROLEARN; }else{ continue; } if(string::npos == (pos = oneline.find(':', pos + key.length()))){ continue; } if(S3fsCurl::is_ibm_iam_auth && key == S3fsCurl::IAM_expiry_field){ // parse integer value if(string::npos == (pos = oneline.find_first_of("0123456789", pos))){ continue; } oneline = oneline.substr(pos); if(string::npos == (pos = oneline.find_last_of("0123456789"))){ continue; } val = oneline.substr(0, pos+1); }else{ // parse string value (starts and ends with quotes) if(string::npos == (pos = oneline.find('\"', pos))){ continue; } oneline = oneline.substr(pos + sizeof(char)); if(string::npos == (pos = oneline.find('\"'))){ continue; } val = oneline.substr(0, pos); } keyval[key] = val; } return true; } bool S3fsCurl::SetIAMCredentials(const char* response) { S3FS_PRN_INFO3("IAM credential response = \"%s\"", response); iamcredmap_t keyval; if(!ParseIAMCredentialResponse(response, keyval)){ return false; } if(S3fsCurl::IAM_field_count != keyval.size()){ return false; } S3fsCurl::AWSAccessToken = keyval[string(S3fsCurl::IAM_token_field)]; if(S3fsCurl::is_ibm_iam_auth){ S3fsCurl::AWSAccessTokenExpire = strtol(keyval[string(S3fsCurl::IAM_expiry_field)].c_str(), NULL, 10); }else{ S3fsCurl::AWSAccessKeyId = keyval[string(IAMCRED_ACCESSKEYID)]; S3fsCurl::AWSSecretAccessKey = keyval[string(IAMCRED_SECRETACCESSKEY)]; S3fsCurl::AWSAccessTokenExpire = cvtIAMExpireStringToTime(keyval[S3fsCurl::IAM_expiry_field].c_str()); } return true; } bool S3fsCurl::CheckIAMCredentialUpdate() { if(S3fsCurl::IAM_role.empty() && !S3fsCurl::is_ecs && !S3fsCurl::is_ibm_iam_auth){ return true; } if(time(NULL) + IAM_EXPIRE_MERGIN <= S3fsCurl::AWSAccessTokenExpire){ return true; } // update S3fsCurl s3fscurl; if(0 != s3fscurl.GetIAMCredentials()){ return false; } return true; } bool S3fsCurl::ParseIAMRoleFromMetaDataResponse(const char* response, string& rolename) { if(!response){ return false; } // [NOTE] // expected following strings. // // myrolename // istringstream ssrole(response); string oneline; if (getline(ssrole, oneline, '\n')){ rolename = oneline; return !rolename.empty(); } return false; } bool S3fsCurl::SetIAMRoleFromMetaData(const char* response) { S3FS_PRN_INFO3("IAM role name response = \"%s\"", response); string rolename; if(!S3fsCurl::ParseIAMRoleFromMetaDataResponse(response, rolename)){ return false; } SetIAMRole(rolename.c_str()); return true; } bool S3fsCurl::AddUserAgent(CURL* hCurl) { if(!hCurl){ return false; } if(S3fsCurl::IsUserAgentFlag()){ curl_easy_setopt(hCurl, CURLOPT_USERAGENT, S3fsCurl::userAgent.c_str()); } return true; } int S3fsCurl::CurlDebugFunc(CURL* hcurl, curl_infotype type, char* data, size_t size, void* userptr) { if(!hcurl){ // something wrong... return 0; } switch(type){ case CURLINFO_TEXT: // Swap tab indentation with spaces so it stays pretty in syslog int indent; indent = 0; while (*data == '\t' && size > 0) { indent += 4; size--; data++; } S3FS_PRN_CURL("* %*s%.*s", indent, "", (int)size, data); break; case CURLINFO_HEADER_IN: case CURLINFO_HEADER_OUT: size_t remaining; char* p; // Print each line individually for tidy output remaining = size; p = data; do { char* eol = (char*)memchr(p, '\n', remaining); int newline = 0; if (eol == NULL) { eol = (char*)memchr(p, '\r', remaining); } else { if (eol > p && *(eol - 1) == '\r') { newline++; } newline++; eol++; } size_t length = eol - p; S3FS_PRN_CURL("%c %.*s", CURLINFO_HEADER_IN == type ? '<' : '>', (int)length - newline, p); remaining -= length; p = eol; } while (p != NULL && remaining > 0); break; case CURLINFO_DATA_IN: case CURLINFO_DATA_OUT: case CURLINFO_SSL_DATA_IN: case CURLINFO_SSL_DATA_OUT: // not put break; default: // why break; } return 0; } //------------------------------------------------------------------- // Methods for S3fsCurl //------------------------------------------------------------------- S3fsCurl::S3fsCurl(bool ahbe) : hCurl(NULL), type(REQTYPE_UNSET), path(""), base_path(""), saved_path(""), url(""), requestHeaders(NULL), bodydata(NULL), headdata(NULL), LastResponseCode(-1), postdata(NULL), postdata_remaining(0), is_use_ahbe(ahbe), retry_count(0), b_infile(NULL), b_postdata(NULL), b_postdata_remaining(0), b_partdata_startpos(0), b_partdata_size(0), b_ssekey_pos(-1), b_ssevalue(""), b_ssetype(SSE_DISABLE), op(""), query_string(""), sem(NULL), completed_tids_lock(NULL), completed_tids(NULL), fpLazySetup(NULL) { } S3fsCurl::~S3fsCurl() { DestroyCurlHandle(); } bool S3fsCurl::ResetHandle() { static volatile bool run_once = false; // emit older curl warnings only once curl_easy_reset(hCurl); curl_easy_setopt(hCurl, CURLOPT_NOSIGNAL, 1); curl_easy_setopt(hCurl, CURLOPT_FOLLOWLOCATION, true); curl_easy_setopt(hCurl, CURLOPT_CONNECTTIMEOUT, S3fsCurl::connect_timeout); curl_easy_setopt(hCurl, CURLOPT_NOPROGRESS, 0); curl_easy_setopt(hCurl, CURLOPT_PROGRESSFUNCTION, S3fsCurl::CurlProgress); curl_easy_setopt(hCurl, CURLOPT_PROGRESSDATA, hCurl); // curl_easy_setopt(hCurl, CURLOPT_FORBID_REUSE, 1); if(CURLE_OK != curl_easy_setopt(hCurl, S3FS_CURLOPT_TCP_KEEPALIVE, 1) && !run_once){ S3FS_PRN_WARN("The CURLOPT_TCP_KEEPALIVE option could not be set. For maximize performance you need to enable this option and you should use libcurl 7.25.0 or later."); } if(CURLE_OK != curl_easy_setopt(hCurl, S3FS_CURLOPT_SSL_ENABLE_ALPN, 0) && !run_once){ S3FS_PRN_WARN("The CURLOPT_SSL_ENABLE_ALPN option could not be unset. S3 server does not support ALPN, then this option should be disabled to maximize performance. you need to use libcurl 7.36.0 or later."); } if(CURLE_OK != curl_easy_setopt(hCurl, S3FS_CURLOPT_KEEP_SENDING_ON_ERROR, 1) && !run_once){ S3FS_PRN_WARN("The S3FS_CURLOPT_KEEP_SENDING_ON_ERROR option could not be set. For maximize performance you need to enable this option and you should use libcurl 7.51.0 or later."); } run_once = true; if(type != REQTYPE_IAMCRED && type != REQTYPE_IAMROLE){ // REQTYPE_IAMCRED and REQTYPE_IAMROLE are always HTTP if(0 == S3fsCurl::ssl_verify_hostname){ curl_easy_setopt(hCurl, CURLOPT_SSL_VERIFYHOST, 0); } if(!S3fsCurl::curl_ca_bundle.empty()){ curl_easy_setopt(hCurl, CURLOPT_CAINFO, S3fsCurl::curl_ca_bundle.c_str()); } } if((S3fsCurl::is_dns_cache || S3fsCurl::is_ssl_session_cache) && S3fsCurl::hCurlShare){ curl_easy_setopt(hCurl, CURLOPT_SHARE, S3fsCurl::hCurlShare); } if(!S3fsCurl::is_cert_check) { S3FS_PRN_DBG("'no_check_certificate' option in effect."); S3FS_PRN_DBG("The server certificate won't be checked against the available certificate authorities."); curl_easy_setopt(hCurl, CURLOPT_SSL_VERIFYPEER, false); } if(S3fsCurl::is_verbose){ curl_easy_setopt(hCurl, CURLOPT_VERBOSE, true); if(!foreground){ curl_easy_setopt(hCurl, CURLOPT_DEBUGFUNCTION, S3fsCurl::CurlDebugFunc); } } if(!cipher_suites.empty()) { curl_easy_setopt(hCurl, CURLOPT_SSL_CIPHER_LIST, cipher_suites.c_str()); } S3fsCurl::curl_times[hCurl] = time(0); S3fsCurl::curl_progress[hCurl] = progress_t(-1, -1); return true; } bool S3fsCurl::CreateCurlHandle(bool only_pool, bool remake) { AutoLock lock(&S3fsCurl::curl_handles_lock); if(hCurl && remake){ if(!DestroyCurlHandle(false)){ S3FS_PRN_ERR("could not destroy handle."); return false; } S3FS_PRN_INFO3("already has handle, so destroyed it or restored it to pool."); } if(!hCurl){ if(NULL == (hCurl = sCurlPool->GetHandler(only_pool))){ if(!only_pool){ S3FS_PRN_ERR("Failed to create handle."); return false; }else{ // [NOTE] // urther initialization processing is left to lazy processing to be executed later. // (Currently we do not use only_pool=true, but this code is remained for the future) return true; } } } // [NOTE] // If type is REQTYPE_IAMCRED or REQTYPE_IAMROLE, do not clear type. // Because that type only uses HTTP protocol, then the special // logic in ResetHandle function. // if(type != REQTYPE_IAMCRED && type != REQTYPE_IAMROLE){ type = REQTYPE_UNSET; } ResetHandle(); return true; } bool S3fsCurl::DestroyCurlHandle(bool restore_pool, bool clear_internal_data) { if(clear_internal_data){ ClearInternalData(); } if(hCurl){ AutoLock lock(&S3fsCurl::curl_handles_lock); S3fsCurl::curl_times.erase(hCurl); S3fsCurl::curl_progress.erase(hCurl); sCurlPool->ReturnHandler(hCurl, restore_pool); hCurl = NULL; }else{ return false; } return true; } bool S3fsCurl::ClearInternalData() { // Always clear internal data // type = REQTYPE_UNSET; path = ""; base_path = ""; saved_path = ""; url = ""; op = ""; query_string= ""; if(requestHeaders){ curl_slist_free_all(requestHeaders); requestHeaders = NULL; } responseHeaders.clear(); if(bodydata){ delete bodydata; bodydata = NULL; } if(headdata){ delete headdata; headdata = NULL; } LastResponseCode = -1; postdata = NULL; postdata_remaining = 0; retry_count = 0; b_infile = NULL; b_postdata = NULL; b_postdata_remaining = 0; b_partdata_startpos = 0; b_partdata_size = 0; partdata.clear(); fpLazySetup = NULL; S3FS_MALLOCTRIM(0); return true; } bool S3fsCurl::SetUseAhbe(bool ahbe) { bool old = is_use_ahbe; is_use_ahbe = ahbe; return old; } bool S3fsCurl::GetResponseCode(long& responseCode, bool from_curl_handle) { responseCode = -1; if(!from_curl_handle){ responseCode = LastResponseCode; }else{ if(!hCurl){ return false; } if(CURLE_OK != curl_easy_getinfo(hCurl, CURLINFO_RESPONSE_CODE, &LastResponseCode)){ return false; } responseCode = LastResponseCode; } return true; } // // Reset all options for retrying // bool S3fsCurl::RemakeHandle() { S3FS_PRN_INFO3("Retry request. [type=%d][url=%s][path=%s]", type, url.c_str(), path.c_str()); if(REQTYPE_UNSET == type){ return false; } // rewind file struct stat st; if(b_infile){ rewind(b_infile); if(-1 == fstat(fileno(b_infile), &st)){ S3FS_PRN_WARN("Could not get file stat(fd=%d)", fileno(b_infile)); return false; } } // reinitialize internal data responseHeaders.clear(); if(bodydata){ bodydata->Clear(); } if(headdata){ headdata->Clear(); } LastResponseCode = -1; // count up(only use for multipart) retry_count++; // set from backup postdata = b_postdata; postdata_remaining = b_postdata_remaining; partdata.startpos = b_partdata_startpos; partdata.size = b_partdata_size; // reset handle ResetHandle(); // set options switch(type){ case REQTYPE_DELETE: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_CUSTOMREQUEST, "DELETE"); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); break; case REQTYPE_HEAD: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_NOBODY, true); curl_easy_setopt(hCurl, CURLOPT_FILETIME, true); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); // responseHeaders curl_easy_setopt(hCurl, CURLOPT_HEADERDATA, (void*)&responseHeaders); curl_easy_setopt(hCurl, CURLOPT_HEADERFUNCTION, HeaderCallback); break; case REQTYPE_PUTHEAD: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_UPLOAD, true); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_INFILESIZE, 0); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); break; case REQTYPE_PUT: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_UPLOAD, true); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); if(b_infile){ curl_easy_setopt(hCurl, CURLOPT_INFILESIZE_LARGE, static_cast(st.st_size)); curl_easy_setopt(hCurl, CURLOPT_INFILE, b_infile); }else{ curl_easy_setopt(hCurl, CURLOPT_INFILESIZE, 0); } break; case REQTYPE_GET: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, S3fsCurl::DownloadWriteCallback); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)this); break; case REQTYPE_CHKBUCKET: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); break; case REQTYPE_LISTBUCKET: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); break; case REQTYPE_PREMULTIPOST: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_POST, true); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_POSTFIELDSIZE, 0); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); break; case REQTYPE_COMPLETEMULTIPOST: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); curl_easy_setopt(hCurl, CURLOPT_POST, true); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_POSTFIELDSIZE, static_cast(postdata_remaining)); curl_easy_setopt(hCurl, CURLOPT_READDATA, (void*)this); curl_easy_setopt(hCurl, CURLOPT_READFUNCTION, S3fsCurl::ReadCallback); break; case REQTYPE_UPLOADMULTIPOST: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_UPLOAD, true); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_HEADERDATA, (void*)&responseHeaders); curl_easy_setopt(hCurl, CURLOPT_HEADERFUNCTION, HeaderCallback); curl_easy_setopt(hCurl, CURLOPT_INFILESIZE_LARGE, static_cast(partdata.size)); curl_easy_setopt(hCurl, CURLOPT_READFUNCTION, S3fsCurl::UploadReadCallback); curl_easy_setopt(hCurl, CURLOPT_READDATA, (void*)this); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); break; case REQTYPE_COPYMULTIPOST: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_UPLOAD, true); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_HEADERDATA, (void*)headdata); curl_easy_setopt(hCurl, CURLOPT_HEADERFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_INFILESIZE, 0); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); break; case REQTYPE_MULTILIST: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); break; case REQTYPE_IAMCRED: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); if(S3fsCurl::is_ibm_iam_auth){ curl_easy_setopt(hCurl, CURLOPT_POST, true); curl_easy_setopt(hCurl, CURLOPT_POSTFIELDSIZE, static_cast(postdata_remaining)); curl_easy_setopt(hCurl, CURLOPT_READDATA, (void*)this); curl_easy_setopt(hCurl, CURLOPT_READFUNCTION, S3fsCurl::ReadCallback); } break; case REQTYPE_ABORTMULTIUPLOAD: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_CUSTOMREQUEST, "DELETE"); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); break; case REQTYPE_IAMROLE: curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); break; default: S3FS_PRN_ERR("request type is unknown(%d)", type); return false; } S3fsCurl::AddUserAgent(hCurl); // put User-Agent return true; } // // returns curl return code // int S3fsCurl::RequestPerform() { if(IS_S3FS_LOG_DBG()){ char* ptr_url = NULL; curl_easy_getinfo(hCurl, CURLINFO_EFFECTIVE_URL , &ptr_url); S3FS_PRN_DBG("connecting to URL %s", SAFESTRPTR(ptr_url)); } // 1 attempt + retries... for(int retrycnt = 0; retrycnt < S3fsCurl::retries; ++retrycnt){ // Requests CURLcode curlCode = curl_easy_perform(hCurl); // Check result switch(curlCode){ case CURLE_OK: // Need to look at the HTTP response code if(0 != curl_easy_getinfo(hCurl, CURLINFO_RESPONSE_CODE, &LastResponseCode)){ S3FS_PRN_ERR("curl_easy_getinfo failed while trying to retrieve HTTP response code"); return -EIO; } if(LastResponseCode >= 200 && LastResponseCode < 300){ S3FS_PRN_INFO3("HTTP response code %ld", LastResponseCode); return 0; } // Service response codes which are >= 300 && < 500 switch(LastResponseCode){ case 301: case 307: S3FS_PRN_ERR("HTTP response code 301(Moved Permanently: also happens when bucket's region is incorrect), returning EIO. Body Text: %s", (bodydata ? bodydata->str() : "")); S3FS_PRN_ERR("The options of url and endpoint may be useful for solving, please try to use both options."); return -EIO; case 400: S3FS_PRN_ERR("HTTP response code %ld, returning EIO. Body Text: %s", LastResponseCode, (bodydata ? bodydata->str() : "")); return -EIO; case 403: S3FS_PRN_ERR("HTTP response code %ld, returning EPERM. Body Text: %s", LastResponseCode, (bodydata ? bodydata->str() : "")); return -EPERM; case 404: S3FS_PRN_INFO3("HTTP response code 404 was returned, returning ENOENT"); S3FS_PRN_DBG("Body Text: %s", (bodydata ? bodydata->str() : "")); return -ENOENT; case 501: S3FS_PRN_INFO3("HTTP response code 501 was returned, returning ENOTSUP"); S3FS_PRN_DBG("Body Text: %s", (bodydata ? bodydata->str() : "")); return -ENOTSUP; case 503: S3FS_PRN_INFO3("HTTP response code 503 was returned, slowing down"); S3FS_PRN_DBG("Body Text: %s", (bodydata ? bodydata->str() : "")); sleep(4 << retry_count); break; default: S3FS_PRN_ERR("HTTP response code %ld, returning EIO. Body Text: %s", LastResponseCode, (bodydata ? bodydata->str() : "")); return -EIO; } break; case CURLE_WRITE_ERROR: S3FS_PRN_ERR("### CURLE_WRITE_ERROR"); sleep(2); break; case CURLE_OPERATION_TIMEDOUT: S3FS_PRN_ERR("### CURLE_OPERATION_TIMEDOUT"); sleep(2); break; case CURLE_COULDNT_RESOLVE_HOST: S3FS_PRN_ERR("### CURLE_COULDNT_RESOLVE_HOST"); sleep(2); break; case CURLE_COULDNT_CONNECT: S3FS_PRN_ERR("### CURLE_COULDNT_CONNECT"); sleep(4); break; case CURLE_GOT_NOTHING: S3FS_PRN_ERR("### CURLE_GOT_NOTHING"); sleep(4); break; case CURLE_ABORTED_BY_CALLBACK: S3FS_PRN_ERR("### CURLE_ABORTED_BY_CALLBACK"); sleep(4); S3fsCurl::curl_times[hCurl] = time(0); break; case CURLE_PARTIAL_FILE: S3FS_PRN_ERR("### CURLE_PARTIAL_FILE"); sleep(4); break; case CURLE_SEND_ERROR: S3FS_PRN_ERR("### CURLE_SEND_ERROR"); sleep(2); break; case CURLE_RECV_ERROR: S3FS_PRN_ERR("### CURLE_RECV_ERROR"); sleep(2); break; case CURLE_SSL_CONNECT_ERROR: S3FS_PRN_ERR("### CURLE_SSL_CONNECT_ERROR"); sleep(2); break; case CURLE_SSL_CACERT: S3FS_PRN_ERR("### CURLE_SSL_CACERT"); // try to locate cert, if successful, then set the // option and continue if(S3fsCurl::curl_ca_bundle.empty()){ if(!S3fsCurl::LocateBundle()){ S3FS_PRN_ERR("could not get CURL_CA_BUNDLE."); return -EIO; } break; // retry with CAINFO } S3FS_PRN_ERR("curlCode: %d msg: %s", curlCode, curl_easy_strerror(curlCode)); return -EIO; break; #ifdef CURLE_PEER_FAILED_VERIFICATION case CURLE_PEER_FAILED_VERIFICATION: S3FS_PRN_ERR("### CURLE_PEER_FAILED_VERIFICATION"); first_pos = bucket.find_first_of("."); if(first_pos != string::npos){ S3FS_PRN_INFO("curl returned a CURL_PEER_FAILED_VERIFICATION error"); S3FS_PRN_INFO("security issue found: buckets with periods in their name are incompatible with http"); S3FS_PRN_INFO("This check can be over-ridden by using the -o ssl_verify_hostname=0"); S3FS_PRN_INFO("The certificate will still be checked but the hostname will not be verified."); S3FS_PRN_INFO("A more secure method would be to use a bucket name without periods."); }else{ S3FS_PRN_INFO("my_curl_easy_perform: curlCode: %d -- %s", curlCode, curl_easy_strerror(curlCode)); } return -EIO; break; #endif // This should be invalid since curl option HTTP FAILONERROR is now off case CURLE_HTTP_RETURNED_ERROR: S3FS_PRN_ERR("### CURLE_HTTP_RETURNED_ERROR"); if(0 != curl_easy_getinfo(hCurl, CURLINFO_RESPONSE_CODE, &LastResponseCode)){ return -EIO; } S3FS_PRN_INFO3("HTTP response code =%ld", LastResponseCode); // Let's try to retrieve the if(404 == LastResponseCode){ return -ENOENT; } if(500 > LastResponseCode){ return -EIO; } break; // Unknown CURL return code default: S3FS_PRN_ERR("###curlCode: %d msg: %s", curlCode, curl_easy_strerror(curlCode)); return -EIO; break; } S3FS_PRN_INFO("### retrying..."); if(!RemakeHandle()){ S3FS_PRN_INFO("Failed to reset handle and internal data for retrying."); return -EIO; } } S3FS_PRN_ERR("### giving up"); return -EIO; } // // Returns the Amazon AWS signature for the given parameters. // // @param method e.g., "GET" // @param content_type e.g., "application/x-directory" // @param date e.g., get_date_rfc850() // @param resource e.g., "/pub" // string S3fsCurl::CalcSignatureV2(const string& method, const string& strMD5, const string& content_type, const string& date, const string& resource) { string Signature; string StringToSign; if(!S3fsCurl::IAM_role.empty() || S3fsCurl::is_ecs || S3fsCurl::is_use_session_token){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-security-token", S3fsCurl::AWSAccessToken.c_str()); } StringToSign += method + "\n"; StringToSign += strMD5 + "\n"; // md5 StringToSign += content_type + "\n"; StringToSign += date + "\n"; StringToSign += get_canonical_headers(requestHeaders, true); StringToSign += resource; const void* key = S3fsCurl::AWSSecretAccessKey.data(); int key_len = S3fsCurl::AWSSecretAccessKey.size(); const unsigned char* sdata = reinterpret_cast(StringToSign.data()); int sdata_len = StringToSign.size(); unsigned char* md = NULL; unsigned int md_len = 0;; s3fs_HMAC(key, key_len, sdata, sdata_len, &md, &md_len); char* base64; if(NULL == (base64 = s3fs_base64(md, md_len))){ delete[] md; return string(""); // ENOMEM } delete[] md; Signature = base64; delete[] base64; return Signature; } string S3fsCurl::CalcSignature(const string& method, const string& canonical_uri, const string& query_string, const string& strdate, const string& payload_hash, const string& date8601) { string Signature, StringCQ, StringToSign; string uriencode; if(!S3fsCurl::IAM_role.empty() || S3fsCurl::is_ecs || S3fsCurl::is_use_session_token){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-security-token", S3fsCurl::AWSAccessToken.c_str()); } uriencode = urlEncode(canonical_uri); StringCQ = method + "\n"; if(0 == strcmp(method.c_str(),"HEAD") || 0 == strcmp(method.c_str(),"PUT") || 0 == strcmp(method.c_str(),"DELETE")){ StringCQ += uriencode + "\n"; }else if (0 == strcmp(method.c_str(), "GET") && 0 == strcmp(uriencode.c_str(), "")) { StringCQ +="/\n"; }else if (0 == strcmp(method.c_str(), "GET") && 0 == strncmp(uriencode.c_str(), "/", 1)) { StringCQ += uriencode +"\n"; }else if (0 == strcmp(method.c_str(), "GET") && 0 != strncmp(uriencode.c_str(), "/", 1)) { StringCQ += "/\n" + urlEncode2(canonical_uri) +"\n"; }else if (0 == strcmp(method.c_str(), "POST")) { StringCQ += uriencode + "\n"; } StringCQ += urlEncode2(query_string) + "\n"; StringCQ += get_canonical_headers(requestHeaders) + "\n"; StringCQ += get_sorted_header_keys(requestHeaders) + "\n"; StringCQ += payload_hash; char kSecret[128]; unsigned char *kDate, *kRegion, *kService, *kSigning, *sRequest = NULL; unsigned int kDate_len,kRegion_len, kService_len, kSigning_len, sRequest_len = 0; char hexsRequest[64 + 1]; int kSecret_len = snprintf(kSecret, sizeof(kSecret), "AWS4%s", S3fsCurl::AWSSecretAccessKey.c_str()); unsigned int cnt; s3fs_HMAC256(kSecret, kSecret_len, reinterpret_cast(strdate.data()), strdate.size(), &kDate, &kDate_len); s3fs_HMAC256(kDate, kDate_len, reinterpret_cast(endpoint.c_str()), endpoint.size(), &kRegion, &kRegion_len); s3fs_HMAC256(kRegion, kRegion_len, reinterpret_cast("s3"), sizeof("s3") - 1, &kService, &kService_len); s3fs_HMAC256(kService, kService_len, reinterpret_cast("aws4_request"), sizeof("aws4_request") - 1, &kSigning, &kSigning_len); delete[] kDate; delete[] kRegion; delete[] kService; const unsigned char* cRequest = reinterpret_cast(StringCQ.c_str()); unsigned int cRequest_len = StringCQ.size(); s3fs_sha256(cRequest, cRequest_len, &sRequest, &sRequest_len); for(cnt = 0; cnt < sRequest_len; cnt++){ sprintf(&hexsRequest[cnt * 2], "%02x", sRequest[cnt]); } delete[] sRequest; StringToSign = "AWS4-HMAC-SHA256\n"; StringToSign += date8601 + "\n"; StringToSign += strdate + "/" + endpoint + "/s3/aws4_request\n"; StringToSign += hexsRequest; const unsigned char* cscope = reinterpret_cast(StringToSign.c_str()); unsigned int cscope_len = StringToSign.size(); unsigned char* md = NULL; unsigned int md_len = 0; char hexSig[64 + 1]; s3fs_HMAC256(kSigning, kSigning_len, cscope, cscope_len, &md, &md_len); for(cnt = 0; cnt < md_len; cnt++){ sprintf(&hexSig[cnt * 2], "%02x", md[cnt]); } delete[] kSigning; delete[] md; Signature = hexSig; return Signature; } void S3fsCurl::insertV4Headers() { string server_path = type == REQTYPE_LISTBUCKET ? "/" : path; string payload_hash; switch (type) { case REQTYPE_PUT: payload_hash = s3fs_sha256sum(b_infile == NULL ? -1 : fileno(b_infile), 0, -1); break; case REQTYPE_COMPLETEMULTIPOST: { unsigned int cRequest_len = strlen(reinterpret_cast(b_postdata)); unsigned char* sRequest = NULL; unsigned int sRequest_len = 0; char hexsRequest[64 + 1]; unsigned int cnt; s3fs_sha256(b_postdata, cRequest_len, &sRequest, &sRequest_len); for(cnt = 0; cnt < sRequest_len; cnt++){ sprintf(&hexsRequest[cnt * 2], "%02x", sRequest[cnt]); } delete[] sRequest; payload_hash.assign(hexsRequest, &hexsRequest[sRequest_len * 2]); break; } case REQTYPE_UPLOADMULTIPOST: payload_hash = s3fs_sha256sum(partdata.fd, partdata.startpos, partdata.size); break; default: break; } S3FS_PRN_INFO3("computing signature [%s] [%s] [%s] [%s]", op.c_str(), server_path.c_str(), query_string.c_str(), payload_hash.c_str()); string strdate; string date8601; get_date_sigv3(strdate, date8601); string contentSHA256 = payload_hash.empty() ? empty_payload_hash : payload_hash; const std::string realpath = pathrequeststyle ? "/" + bucket + server_path : server_path; //string canonical_headers, signed_headers; requestHeaders = curl_slist_sort_insert(requestHeaders, "host", get_bucket_host().c_str()); requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-content-sha256", contentSHA256.c_str()); requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-date", date8601.c_str()); if(!S3fsCurl::IsPublicBucket()){ string Signature = CalcSignature(op, realpath, query_string + (type == REQTYPE_PREMULTIPOST || type == REQTYPE_MULTILIST ? "=" : ""), strdate, contentSHA256, date8601); string auth = "AWS4-HMAC-SHA256 Credential=" + AWSAccessKeyId + "/" + strdate + "/" + endpoint + "/s3/aws4_request, SignedHeaders=" + get_sorted_header_keys(requestHeaders) + ", Signature=" + Signature; requestHeaders = curl_slist_sort_insert(requestHeaders, "Authorization", auth.c_str()); } } void S3fsCurl::insertV2Headers() { string resource; string turl; string server_path = type == REQTYPE_LISTBUCKET ? "/" : path; MakeUrlResource(server_path.c_str(), resource, turl); if(!query_string.empty() && type != REQTYPE_LISTBUCKET){ resource += "?" + query_string; } string date = get_date_rfc850(); requestHeaders = curl_slist_sort_insert(requestHeaders, "Date", date.c_str()); if(op != "PUT" && op != "POST"){ requestHeaders = curl_slist_sort_insert(requestHeaders, "Content-Type", NULL); } if(!S3fsCurl::IsPublicBucket()){ string Signature = CalcSignatureV2(op, get_header_value(requestHeaders, "Content-MD5"), get_header_value(requestHeaders, "Content-Type"), date, resource); requestHeaders = curl_slist_sort_insert(requestHeaders, "Authorization", string("AWS " + AWSAccessKeyId + ":" + Signature).c_str()); } } void S3fsCurl::insertIBMIAMHeaders() { requestHeaders = curl_slist_sort_insert(requestHeaders, "Authorization", ("Bearer " + S3fsCurl::AWSAccessToken).c_str()); if(op == "PUT" && path == mount_prefix + "/"){ // ibm-service-instance-id header is required for bucket creation requests requestHeaders = curl_slist_sort_insert(requestHeaders, "ibm-service-instance-id", S3fsCurl::AWSAccessKeyId.c_str()); } } void S3fsCurl::insertAuthHeaders() { if(!S3fsCurl::CheckIAMCredentialUpdate()){ S3FS_PRN_ERR("An error occurred in checking IAM credential."); return; // do not insert auth headers on error } if(S3fsCurl::is_ibm_iam_auth){ insertIBMIAMHeaders(); }else if(!S3fsCurl::is_sigv4){ insertV2Headers(); }else{ insertV4Headers(); } } int S3fsCurl::DeleteRequest(const char* tpath) { S3FS_PRN_INFO3("[tpath=%s]", SAFESTRPTR(tpath)); if(!tpath){ return -1; } if(!CreateCurlHandle()){ return -1; } string resource; string turl; MakeUrlResource(get_realpath(tpath).c_str(), resource, turl); url = prepare_url(turl.c_str()); path = get_realpath(tpath); requestHeaders = NULL; responseHeaders.clear(); op = "DELETE"; type = REQTYPE_DELETE; insertAuthHeaders(); curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_CUSTOMREQUEST, "DELETE"); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); S3fsCurl::AddUserAgent(hCurl); // put User-Agent return RequestPerform(); } // // Get AccessKeyId/SecretAccessKey/AccessToken/Expiration by IAM role, // and Set these value to class variable. // int S3fsCurl::GetIAMCredentials() { if (!S3fsCurl::is_ecs && !S3fsCurl::is_ibm_iam_auth) { S3FS_PRN_INFO3("[IAM role=%s]", S3fsCurl::IAM_role.c_str()); if(S3fsCurl::IAM_role.empty()) { S3FS_PRN_ERR("IAM role name is empty."); return -EIO; } } // at first set type for handle type = REQTYPE_IAMCRED; if(!CreateCurlHandle()){ return -EIO; } // url if (is_ecs) { url = string(S3fsCurl::IAM_cred_url) + std::getenv(ECS_IAM_ENV_VAR.c_str()); } else { url = string(S3fsCurl::IAM_cred_url) + S3fsCurl::IAM_role; } requestHeaders = NULL; responseHeaders.clear(); bodydata = new BodyData(); string postContent; if(S3fsCurl::is_ibm_iam_auth){ url = string(S3fsCurl::IAM_cred_url); // make contents postContent += "grant_type=urn:ibm:params:oauth:grant-type:apikey"; postContent += "&response_type=cloud_iam"; postContent += "&apikey=" + S3fsCurl::AWSSecretAccessKey; // set postdata postdata = reinterpret_cast(postContent.c_str()); b_postdata = postdata; postdata_remaining = postContent.size(); // without null b_postdata_remaining = postdata_remaining; requestHeaders = curl_slist_sort_insert(requestHeaders, "Authorization", "Basic Yng6Yng="); curl_easy_setopt(hCurl, CURLOPT_POST, true); // POST curl_easy_setopt(hCurl, CURLOPT_POSTFIELDSIZE, static_cast(postdata_remaining)); curl_easy_setopt(hCurl, CURLOPT_READDATA, (void*)this); curl_easy_setopt(hCurl, CURLOPT_READFUNCTION, S3fsCurl::ReadCallback); } curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); S3fsCurl::AddUserAgent(hCurl); // put User-Agent int result = RequestPerform(); // analyzing response if(0 == result && !S3fsCurl::SetIAMCredentials(bodydata->str())){ S3FS_PRN_ERR("Something error occurred, could not get IAM credential."); result = -EIO; } delete bodydata; bodydata = NULL; return result; } // // Get IAM role name automatically. // bool S3fsCurl::LoadIAMRoleFromMetaData() { S3FS_PRN_INFO3("Get IAM Role name"); // at first set type for handle type = REQTYPE_IAMROLE; if(!CreateCurlHandle()){ return false; } // url url = string(S3fsCurl::IAM_cred_url); requestHeaders = NULL; responseHeaders.clear(); bodydata = new BodyData(); curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); S3fsCurl::AddUserAgent(hCurl); // put User-Agent int result = RequestPerform(); // analyzing response if(0 == result && !S3fsCurl::SetIAMRoleFromMetaData(bodydata->str())){ S3FS_PRN_ERR("Something error occurred, could not get IAM role name."); result = -EIO; } delete bodydata; bodydata = NULL; return (0 == result); } bool S3fsCurl::AddSseRequestHead(sse_type_t ssetype, string& ssevalue, bool is_only_c, bool is_copy) { if(SSE_S3 == ssetype){ if(!is_only_c){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-server-side-encryption", "AES256"); } }else if(SSE_C == ssetype){ string sseckey; if(S3fsCurl::GetSseKey(ssevalue, sseckey)){ if(is_copy){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-copy-source-server-side-encryption-customer-algorithm", "AES256"); requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-copy-source-server-side-encryption-customer-key", sseckey.c_str()); requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-copy-source-server-side-encryption-customer-key-md5", ssevalue.c_str()); }else{ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-server-side-encryption-customer-algorithm", "AES256"); requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-server-side-encryption-customer-key", sseckey.c_str()); requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-server-side-encryption-customer-key-md5", ssevalue.c_str()); } }else{ S3FS_PRN_WARN("Failed to insert SSE-C header."); } }else if(SSE_KMS == ssetype){ if(!is_only_c){ if(ssevalue.empty()){ ssevalue = S3fsCurl::GetSseKmsId(); } requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-server-side-encryption", "aws:kms"); requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-server-side-encryption-aws-kms-key-id", ssevalue.c_str()); } } return true; } // // tpath : target path for head request // bpath : saved into base_path // savedpath : saved into saved_path // ssekey_pos : -1 means "not" SSE-C type // 0 - X means SSE-C type and position for SSE-C key(0 is latest key) // bool S3fsCurl::PreHeadRequest(const char* tpath, const char* bpath, const char* savedpath, int ssekey_pos) { S3FS_PRN_INFO3("[tpath=%s][bpath=%s][save=%s][sseckeypos=%d]", SAFESTRPTR(tpath), SAFESTRPTR(bpath), SAFESTRPTR(savedpath), ssekey_pos); if(!tpath){ return false; } string resource; string turl; MakeUrlResource(get_realpath(tpath).c_str(), resource, turl); // libcurl 7.17 does deep copy of url, deep copy "stable" url url = prepare_url(turl.c_str()); path = get_realpath(tpath); base_path = SAFESTRPTR(bpath); saved_path = SAFESTRPTR(savedpath); requestHeaders = NULL; responseHeaders.clear(); // requestHeaders if(0 <= ssekey_pos){ string md5; if(!S3fsCurl::GetSseKeyMd5(ssekey_pos, md5) || !AddSseRequestHead(SSE_C, md5, true, false)){ S3FS_PRN_ERR("Failed to set SSE-C headers for sse-c key pos(%d)(=md5(%s)).", ssekey_pos, md5.c_str()); return false; } } b_ssekey_pos = ssekey_pos; op = "HEAD"; type = REQTYPE_HEAD; insertAuthHeaders(); // set lazy function fpLazySetup = PreHeadRequestSetCurlOpts; return true; } int S3fsCurl::HeadRequest(const char* tpath, headers_t& meta) { int result = -1; S3FS_PRN_INFO3("[tpath=%s]", SAFESTRPTR(tpath)); // At first, try to get without SSE-C headers if(!PreHeadRequest(tpath) || !fpLazySetup || !fpLazySetup(this) || 0 != (result = RequestPerform())){ // If has SSE-C keys, try to get with all SSE-C keys. for(int pos = 0; static_cast(pos) < S3fsCurl::sseckeys.size(); pos++){ if(!DestroyCurlHandle()){ break; } if(!PreHeadRequest(tpath, NULL, NULL, pos)){ break; } if(!fpLazySetup || !fpLazySetup(this)){ S3FS_PRN_ERR("Failed to lazy setup in single head request."); break; } if(0 == (result = RequestPerform())){ break; } } if(0 != result){ DestroyCurlHandle(); // not check result. return result; } } // file exists in s3 // fixme: clean this up. meta.clear(); for(headers_t::iterator iter = responseHeaders.begin(); iter != responseHeaders.end(); ++iter){ string key = lower(iter->first); string value = iter->second; if(key == "content-type"){ meta[iter->first] = value; }else if(key == "content-length"){ meta[iter->first] = value; }else if(key == "etag"){ meta[iter->first] = value; }else if(key == "last-modified"){ meta[iter->first] = value; }else if(key.substr(0, 5) == "x-amz"){ meta[key] = value; // key is lower case for "x-amz" } } return 0; } int S3fsCurl::PutHeadRequest(const char* tpath, headers_t& meta, bool is_copy) { S3FS_PRN_INFO3("[tpath=%s]", SAFESTRPTR(tpath)); if(!tpath){ return -1; } if(!CreateCurlHandle()){ return -1; } string resource; string turl; MakeUrlResource(get_realpath(tpath).c_str(), resource, turl); url = prepare_url(turl.c_str()); path = get_realpath(tpath); requestHeaders = NULL; responseHeaders.clear(); bodydata = new BodyData(); // Make request headers for(headers_t::iterator iter = meta.begin(); iter != meta.end(); ++iter){ string key = lower(iter->first); string value = iter->second; if(key == "content-type"){ requestHeaders = curl_slist_sort_insert(requestHeaders, iter->first.c_str(), value.c_str()); }else if(key.substr(0, 9) == "x-amz-acl"){ // not set value, but after set it. }else if(key.substr(0, 10) == "x-amz-meta"){ requestHeaders = curl_slist_sort_insert(requestHeaders, iter->first.c_str(), value.c_str()); }else if(key == "x-amz-copy-source"){ requestHeaders = curl_slist_sort_insert(requestHeaders, iter->first.c_str(), value.c_str()); }else if(key == "x-amz-server-side-encryption" && value != "aws:kms"){ // Only copy mode. if(is_copy && !AddSseRequestHead(SSE_S3, value, false, true)){ S3FS_PRN_WARN("Failed to insert SSE-S3 header."); } }else if(key == "x-amz-server-side-encryption-aws-kms-key-id"){ // Only copy mode. if(is_copy && !value.empty() && !AddSseRequestHead(SSE_KMS, value, false, true)){ S3FS_PRN_WARN("Failed to insert SSE-KMS header."); } }else if(key == "x-amz-server-side-encryption-customer-key-md5"){ // Only copy mode. if(is_copy){ if(!AddSseRequestHead(SSE_C, value, true, true) || !AddSseRequestHead(SSE_C, value, true, false)){ S3FS_PRN_WARN("Failed to insert SSE-C header."); } } } } // "x-amz-acl", storage class, sse if(!S3fsCurl::default_acl.empty()){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-acl", S3fsCurl::default_acl.c_str()); } if(REDUCED_REDUNDANCY == GetStorageClass()){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-storage-class", "REDUCED_REDUNDANCY"); } else if(STANDARD_IA == GetStorageClass()){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-storage-class", "STANDARD_IA"); } else if(ONEZONE_IA == GetStorageClass()){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-storage-class", "ONEZONE_IA"); } // SSE if(!is_copy){ string ssevalue; if(!AddSseRequestHead(S3fsCurl::GetSseType(), ssevalue, false, false)){ S3FS_PRN_WARN("Failed to set SSE header, but continue..."); } } if(is_use_ahbe){ // set additional header by ahbe conf requestHeaders = AdditionalHeader::get()->AddHeader(requestHeaders, tpath); } op = "PUT"; type = REQTYPE_PUTHEAD; insertAuthHeaders(); // setopt curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_UPLOAD, true); // HTTP PUT curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_INFILESIZE, 0); // Content-Length curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); S3fsCurl::AddUserAgent(hCurl); // put User-Agent S3FS_PRN_INFO3("copying... [path=%s]", tpath); int result = RequestPerform(); if(0 == result){ // PUT returns 200 status code with something error, thus // we need to check body. // // example error body: // // // AccessDenied // Access Denied // E4CA6F6767D6685C // BHzLOATeDuvN8Es1wI8IcERq4kl4dc2A9tOB8Yqr39Ys6fl7N4EJ8sjGiVvu6wLP // // const char* pstrbody = bodydata->str(); if(!pstrbody || NULL != strcasestr(pstrbody, "")){ S3FS_PRN_ERR("PutHeadRequest get 200 status response, but it included error body(or NULL). The request failed during copying the object in S3."); S3FS_PRN_DBG("PutHeadRequest Response Body : %s", (pstrbody ? pstrbody : "(null)")); result = -EIO; } } delete bodydata; bodydata = NULL; return result; } int S3fsCurl::PutRequest(const char* tpath, headers_t& meta, int fd) { struct stat st; FILE* file = NULL; S3FS_PRN_INFO3("[tpath=%s]", SAFESTRPTR(tpath)); if(!tpath){ return -1; } if(-1 != fd){ // duplicate fd int fd2; if(-1 == (fd2 = dup(fd)) || -1 == fstat(fd2, &st) || 0 != lseek(fd2, 0, SEEK_SET) || NULL == (file = fdopen(fd2, "rb"))){ S3FS_PRN_ERR("Could not duplicate file descriptor(errno=%d)", errno); if(-1 != fd2){ close(fd2); } return -errno; } b_infile = file; }else{ // This case is creating zero byte object.(calling by create_file_object()) S3FS_PRN_INFO3("create zero byte file object."); } if(!CreateCurlHandle()){ if(file){ fclose(file); } return -1; } string resource; string turl; MakeUrlResource(get_realpath(tpath).c_str(), resource, turl); url = prepare_url(turl.c_str()); path = get_realpath(tpath); requestHeaders = NULL; responseHeaders.clear(); bodydata = new BodyData(); // Make request headers string strMD5; if(-1 != fd && S3fsCurl::is_content_md5){ strMD5 = s3fs_get_content_md5(fd); requestHeaders = curl_slist_sort_insert(requestHeaders, "Content-MD5", strMD5.c_str()); } for(headers_t::iterator iter = meta.begin(); iter != meta.end(); ++iter){ string key = lower(iter->first); string value = iter->second; if(key == "content-type"){ requestHeaders = curl_slist_sort_insert(requestHeaders, iter->first.c_str(), value.c_str()); }else if(key.substr(0, 9) == "x-amz-acl"){ // not set value, but after set it. }else if(key.substr(0, 10) == "x-amz-meta"){ requestHeaders = curl_slist_sort_insert(requestHeaders, iter->first.c_str(), value.c_str()); }else if(key == "x-amz-server-side-encryption" && value != "aws:kms"){ // skip this header, because this header is specified after logic. }else if(key == "x-amz-server-side-encryption-aws-kms-key-id"){ // skip this header, because this header is specified after logic. }else if(key == "x-amz-server-side-encryption-customer-key-md5"){ // skip this header, because this header is specified after logic. } } // "x-amz-acl", storage class, sse if(!S3fsCurl::default_acl.empty()){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-acl", S3fsCurl::default_acl.c_str()); } if(REDUCED_REDUNDANCY == GetStorageClass()){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-storage-class", "REDUCED_REDUNDANCY"); } else if(STANDARD_IA == GetStorageClass()){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-storage-class", "STANDARD_IA"); } else if(ONEZONE_IA == GetStorageClass()){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-storage-class", "ONEZONE_IA"); } // SSE string ssevalue; if(!AddSseRequestHead(S3fsCurl::GetSseType(), ssevalue, false, false)){ S3FS_PRN_WARN("Failed to set SSE header, but continue..."); } if(is_use_ahbe){ // set additional header by ahbe conf requestHeaders = AdditionalHeader::get()->AddHeader(requestHeaders, tpath); } op = "PUT"; type = REQTYPE_PUT; insertAuthHeaders(); // setopt curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_UPLOAD, true); // HTTP PUT curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); if(file){ curl_easy_setopt(hCurl, CURLOPT_INFILESIZE_LARGE, static_cast(st.st_size)); // Content-Length curl_easy_setopt(hCurl, CURLOPT_INFILE, file); }else{ curl_easy_setopt(hCurl, CURLOPT_INFILESIZE, 0); // Content-Length: 0 } S3fsCurl::AddUserAgent(hCurl); // put User-Agent S3FS_PRN_INFO3("uploading... [path=%s][fd=%d][size=%lld]", tpath, fd, static_cast(-1 != fd ? st.st_size : 0)); int result = RequestPerform(); delete bodydata; bodydata = NULL; if(file){ fclose(file); } return result; } int S3fsCurl::PreGetObjectRequest(const char* tpath, int fd, off_t start, ssize_t size, sse_type_t ssetype, string& ssevalue) { S3FS_PRN_INFO3("[tpath=%s][start=%lld][size=%lld]", SAFESTRPTR(tpath), static_cast(start), static_cast(size)); if(!tpath || -1 == fd || 0 > start || 0 > size){ return -1; } string resource; string turl; MakeUrlResource(get_realpath(tpath).c_str(), resource, turl); url = prepare_url(turl.c_str()); path = get_realpath(tpath); requestHeaders = NULL; responseHeaders.clear(); if(-1 != start && 0 < size){ string range = "bytes="; range += str(start); range += "-"; range += str(start + size - 1); requestHeaders = curl_slist_sort_insert(requestHeaders, "Range", range.c_str()); } // SSE if(!AddSseRequestHead(ssetype, ssevalue, true, false)){ S3FS_PRN_WARN("Failed to set SSE header, but continue..."); } op = "GET"; type = REQTYPE_GET; insertAuthHeaders(); // set lazy function fpLazySetup = PreGetObjectRequestSetCurlOpts; // set info for callback func. // (use only fd, startpos and size, other member is not used.) partdata.clear(); partdata.fd = fd; partdata.startpos = start; partdata.size = size; b_partdata_startpos = start; b_partdata_size = size; b_ssetype = ssetype; b_ssevalue = ssevalue; b_ssekey_pos = -1; // not use this value for get object. return 0; } int S3fsCurl::GetObjectRequest(const char* tpath, int fd, off_t start, ssize_t size) { int result; S3FS_PRN_INFO3("[tpath=%s][start=%lld][size=%lld]", SAFESTRPTR(tpath), static_cast(start), static_cast(size)); if(!tpath){ return -1; } sse_type_t ssetype; string ssevalue; if(!get_object_sse_type(tpath, ssetype, ssevalue)){ S3FS_PRN_WARN("Failed to get SSE type for file(%s).", SAFESTRPTR(tpath)); } if(0 != (result = PreGetObjectRequest(tpath, fd, start, size, ssetype, ssevalue))){ return result; } if(!fpLazySetup || !fpLazySetup(this)){ S3FS_PRN_ERR("Failed to lazy setup in single get object request."); return -1; } S3FS_PRN_INFO3("downloading... [path=%s][fd=%d]", tpath, fd); result = RequestPerform(); partdata.clear(); return result; } int S3fsCurl::CheckBucket() { S3FS_PRN_INFO3("check a bucket."); if(!CreateCurlHandle()){ return -1; } string resource; string turl; MakeUrlResource(get_realpath("/").c_str(), resource, turl); url = prepare_url(turl.c_str()); path = get_realpath("/"); requestHeaders = NULL; responseHeaders.clear(); bodydata = new BodyData(); op = "GET"; type = REQTYPE_CHKBUCKET; insertAuthHeaders(); // setopt curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); S3fsCurl::AddUserAgent(hCurl); // put User-Agent int result = RequestPerform(); if (result != 0) { S3FS_PRN_ERR("Check bucket failed, S3 response: %s", (bodydata ? bodydata->str() : "")); } return result; } int S3fsCurl::ListBucketRequest(const char* tpath, const char* query) { S3FS_PRN_INFO3("[tpath=%s]", SAFESTRPTR(tpath)); if(!tpath){ return -1; } if(!CreateCurlHandle()){ return -1; } string resource; string turl; MakeUrlResource("", resource, turl); // NOTICE: path is "". if(query){ turl += "?"; turl += query; query_string = query; } url = prepare_url(turl.c_str()); path = get_realpath(tpath); requestHeaders = NULL; responseHeaders.clear(); bodydata = new BodyData(); op = "GET"; type = REQTYPE_LISTBUCKET; insertAuthHeaders(); // setopt curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); S3fsCurl::AddUserAgent(hCurl); // put User-Agent return RequestPerform(); } // // Initialize multipart upload // // Example : // POST /example-object?uploads HTTP/1.1 // Host: example-bucket.s3.amazonaws.com // Date: Mon, 1 Nov 2010 20:34:56 GMT // Authorization: AWS VGhpcyBtZXNzYWdlIHNpZ25lZCBieSBlbHZpbmc= // int S3fsCurl::PreMultipartPostRequest(const char* tpath, headers_t& meta, string& upload_id, bool is_copy) { S3FS_PRN_INFO3("[tpath=%s]", SAFESTRPTR(tpath)); if(!tpath){ return -1; } if(!CreateCurlHandle()){ return -1; } string resource; string turl; MakeUrlResource(get_realpath(tpath).c_str(), resource, turl); query_string = "uploads"; turl += "?" + query_string; url = prepare_url(turl.c_str()); path = get_realpath(tpath); requestHeaders = NULL; bodydata = new BodyData(); responseHeaders.clear(); string contype = S3fsCurl::LookupMimeType(string(tpath)); for(headers_t::iterator iter = meta.begin(); iter != meta.end(); ++iter){ string key = lower(iter->first); string value = iter->second; if(key.substr(0, 9) == "x-amz-acl"){ // not set value, but after set it. }else if(key.substr(0, 10) == "x-amz-meta"){ requestHeaders = curl_slist_sort_insert(requestHeaders, iter->first.c_str(), value.c_str()); }else if(key == "x-amz-server-side-encryption" && value != "aws:kms"){ // Only copy mode. if(is_copy && !AddSseRequestHead(SSE_S3, value, false, true)){ S3FS_PRN_WARN("Failed to insert SSE-S3 header."); } }else if(key == "x-amz-server-side-encryption-aws-kms-key-id"){ // Only copy mode. if(is_copy && !value.empty() && !AddSseRequestHead(SSE_KMS, value, false, true)){ S3FS_PRN_WARN("Failed to insert SSE-KMS header."); } }else if(key == "x-amz-server-side-encryption-customer-key-md5"){ // Only copy mode. if(is_copy){ if(!AddSseRequestHead(SSE_C, value, true, true) || !AddSseRequestHead(SSE_C, value, true, false)){ S3FS_PRN_WARN("Failed to insert SSE-C header."); } } } } // "x-amz-acl", storage class, sse if(!S3fsCurl::default_acl.empty()){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-acl", S3fsCurl::default_acl.c_str()); } if(REDUCED_REDUNDANCY == GetStorageClass()){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-storage-class", "REDUCED_REDUNDANCY"); } else if(STANDARD_IA == GetStorageClass()){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-storage-class", "STANDARD_IA"); } else if(ONEZONE_IA == GetStorageClass()){ requestHeaders = curl_slist_sort_insert(requestHeaders, "x-amz-storage-class", "ONEZONE_IA"); } // SSE if(!is_copy){ string ssevalue; if(!AddSseRequestHead(S3fsCurl::GetSseType(), ssevalue, false, false)){ S3FS_PRN_WARN("Failed to set SSE header, but continue..."); } } if(is_use_ahbe){ // set additional header by ahbe conf requestHeaders = AdditionalHeader::get()->AddHeader(requestHeaders, tpath); } requestHeaders = curl_slist_sort_insert(requestHeaders, "Accept", NULL); requestHeaders = curl_slist_sort_insert(requestHeaders, "Content-Length", NULL); requestHeaders = curl_slist_sort_insert(requestHeaders, "Content-Type", contype.c_str()); op = "POST"; type = REQTYPE_PREMULTIPOST; insertAuthHeaders(); // setopt curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_POST, true); // POST curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_POSTFIELDSIZE, 0); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); S3fsCurl::AddUserAgent(hCurl); // put User-Agent // request int result; if(0 != (result = RequestPerform())){ delete bodydata; bodydata = NULL; return result; } if(!simple_parse_xml(bodydata->str(), bodydata->size(), "UploadId", upload_id)){ delete bodydata; bodydata = NULL; return -1; } delete bodydata; bodydata = NULL; return 0; } int S3fsCurl::CompleteMultipartPostRequest(const char* tpath, string& upload_id, etaglist_t& parts) { S3FS_PRN_INFO3("[tpath=%s][parts=%zu]", SAFESTRPTR(tpath), parts.size()); if(!tpath){ return -1; } // make contents string postContent; postContent += "\n"; for(int cnt = 0; cnt < (int)parts.size(); cnt++){ if(0 == parts[cnt].length()){ S3FS_PRN_ERR("%d file part is not finished uploading.", cnt + 1); return -1; } postContent += "\n"; postContent += " " + str(cnt + 1) + "\n"; postContent += " " + parts[cnt] + "\n"; postContent += "\n"; } postContent += "\n"; // set postdata postdata = reinterpret_cast(postContent.c_str()); b_postdata = postdata; postdata_remaining = postContent.size(); // without null b_postdata_remaining = postdata_remaining; if(!CreateCurlHandle()){ return -1; } string resource; string turl; MakeUrlResource(get_realpath(tpath).c_str(), resource, turl); query_string = "uploadId=" + upload_id; turl += "?" + query_string; url = prepare_url(turl.c_str()); path = get_realpath(tpath); requestHeaders = NULL; bodydata = new BodyData(); responseHeaders.clear(); string contype = S3fsCurl::LookupMimeType(string(tpath)); requestHeaders = curl_slist_sort_insert(requestHeaders, "Accept", NULL); requestHeaders = curl_slist_sort_insert(requestHeaders, "Content-Type", contype.c_str()); op = "POST"; type = REQTYPE_COMPLETEMULTIPOST; insertAuthHeaders(); // setopt curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); curl_easy_setopt(hCurl, CURLOPT_POST, true); // POST curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_POSTFIELDSIZE, static_cast(postdata_remaining)); curl_easy_setopt(hCurl, CURLOPT_READDATA, (void*)this); curl_easy_setopt(hCurl, CURLOPT_READFUNCTION, S3fsCurl::ReadCallback); S3fsCurl::AddUserAgent(hCurl); // put User-Agent // request int result = RequestPerform(); delete bodydata; bodydata = NULL; postdata = NULL; return result; } int S3fsCurl::MultipartListRequest(string& body) { S3FS_PRN_INFO3("list request(multipart)"); if(!CreateCurlHandle()){ return -1; } string resource; string turl; path = get_realpath("/"); MakeUrlResource(path.c_str(), resource, turl); query_string = "uploads"; turl += "?" + query_string; url = prepare_url(turl.c_str()); requestHeaders = NULL; responseHeaders.clear(); bodydata = new BodyData(); requestHeaders = curl_slist_sort_insert(requestHeaders, "Accept", NULL); op = "GET"; type = REQTYPE_MULTILIST; insertAuthHeaders(); // setopt curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_WRITEDATA, (void*)bodydata); curl_easy_setopt(hCurl, CURLOPT_WRITEFUNCTION, WriteMemoryCallback); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); S3fsCurl::AddUserAgent(hCurl); // put User-Agent int result; if(0 == (result = RequestPerform()) && 0 < bodydata->size()){ body = bodydata->str(); }else{ body = ""; } delete bodydata; bodydata = NULL; return result; } int S3fsCurl::AbortMultipartUpload(const char* tpath, string& upload_id) { S3FS_PRN_INFO3("[tpath=%s]", SAFESTRPTR(tpath)); if(!tpath){ return -1; } if(!CreateCurlHandle()){ return -1; } string resource; string turl; MakeUrlResource(get_realpath(tpath).c_str(), resource, turl); query_string = "uploadId=" + upload_id; turl += "?" + query_string; url = prepare_url(turl.c_str()); path = get_realpath(tpath); requestHeaders = NULL; responseHeaders.clear(); op = "DELETE"; type = REQTYPE_ABORTMULTIUPLOAD; insertAuthHeaders(); curl_easy_setopt(hCurl, CURLOPT_URL, url.c_str()); curl_easy_setopt(hCurl, CURLOPT_CUSTOMREQUEST, "DELETE"); curl_easy_setopt(hCurl, CURLOPT_HTTPHEADER, requestHeaders); S3fsCurl::AddUserAgent(hCurl); // put User-Agent return RequestPerform(); } // // PUT /ObjectName?partNumber=PartNumber&uploadId=UploadId HTTP/1.1 // Host: BucketName.s3.amazonaws.com // Date: date // Content-Length: Size // Authorization: Signature // // PUT /my-movie.m2ts?partNumber=1&uploadId=VCVsb2FkIElEIGZvciBlbZZpbmcncyBteS1tb3ZpZS5tMnRzIHVwbG9hZR HTTP/1.1 // Host: example-bucket.s3.amazonaws.com // Date: Mon, 1 Nov 2010 20:34:56 GMT // Content-Length: 10485760 // Content-MD5: pUNXr/BjKK5G2UKvaRRrOA== // Authorization: AWS VGhpcyBtZXNzYWdlIHNpZ25lZGGieSRlbHZpbmc= // int S3fsCurl::UploadMultipartPostSetup(const char* tpath, int part_num, const string& upload_id) { S3FS_PRN_INFO3("[tpath=%s][start=%lld][size=%lld][part=%d]", SAFESTRPTR(tpath), static_cast(partdata.startpos), static_cast(partdata.size), part_num); if(-1 == partdata.fd || -1 == partdata.startpos || -1 == partdata.size){ return -1; } requestHeaders = NULL; // make md5 and file pointer if(S3fsCurl::is_content_md5){ unsigned char *md5raw = s3fs_md5hexsum(partdata.fd, partdata.startpos, partdata.size); if(md5raw == NULL){ S3FS_PRN_ERR("Could not make md5 for file(part %d)", part_num); return -1; } partdata.etag = s3fs_hex(md5raw, get_md5_digest_length()); char* md5base64p = s3fs_base64(md5raw, get_md5_digest_length()); requestHeaders = curl_slist_sort_insert(requestHeaders, "Content-MD5", md5base64p); delete[] md5base64p; delete[] md5raw; } // make request query_string = "partNumber=" + str(part_num) + "&uploadId=" + upload_id; string urlargs = "?" + query_string; string resource; string turl; MakeUrlResource(get_realpath(tpath).c_str(), resource, turl); turl += urlargs; url = prepare_url(turl.c_str()); path = get_realpath(tpath); bodydata = new BodyData(); headdata = new BodyData(); responseHeaders.clear(); // SSE if(SSE_C == S3fsCurl::GetSseType()){ string ssevalue; if(!AddSseRequestHead(S3fsCurl::GetSseType(), ssevalue, false, false)){ S3FS_PRN_WARN("Failed to set SSE header, but continue..."); } } requestHeaders = curl_slist_sort_insert(requestHeaders, "Accept", NULL); op = "PUT"; type = REQTYPE_UPLOADMULTIPOST; insertAuthHeaders(); // set lazy function fpLazySetup = UploadMultipartPostSetCurlOpts; return 0; } int S3fsCurl::UploadMultipartPostRequest(const char* tpath, int part_num, const string& upload_id) { int result; S3FS_PRN_INFO3("[tpath=%s][start=%lld][size=%lld][part=%d]", SAFESTRPTR(tpath), static_cast(partdata.startpos), static_cast(partdata.size), part_num); // setup if(0 != (result = S3fsCurl::UploadMultipartPostSetup(tpath, part_num, upload_id))){ return result; } if(!fpLazySetup || !fpLazySetup(this)){ S3FS_PRN_ERR("Failed to lazy setup in multipart upload post request."); return -1; } // request if(0 == (result = RequestPerform())){ // UploadMultipartPostComplete returns true on success -> convert to 0 result = !UploadMultipartPostComplete(); } // closing delete bodydata; bodydata = NULL; delete headdata; headdata = NULL; return result; } int S3fsCurl::CopyMultipartPostSetup(const char* from, const char* to, int part_num, string& upload_id, headers_t& meta) { S3FS_PRN_INFO3("[from=%s][to=%s][part=%d]", SAFESTRPTR(from), SAFESTRPTR(to), part_num); if(!from || !to){ return -1; } query_string = "partNumber=" + str(part_num) + "&uploadId=" + upload_id; string urlargs = "?" + query_string; string resource; string turl; MakeUrlResource(get_realpath(to).c_str(), resource, turl); turl += urlargs; url = prepare_url(turl.c_str()); path = get_realpath(to); requestHeaders = NULL; responseHeaders.clear(); bodydata = new BodyData(); headdata = new BodyData(); // Make request headers for(headers_t::iterator iter = meta.begin(); iter != meta.end(); ++iter){ string key = lower(iter->first); string value = iter->second; if(key == "content-type"){ requestHeaders = curl_slist_sort_insert(requestHeaders, iter->first.c_str(), value.c_str()); }else if(key == "x-amz-copy-source"){ requestHeaders = curl_slist_sort_insert(requestHeaders, iter->first.c_str(), value.c_str()); }else if(key == "x-amz-copy-source-range"){ requestHeaders = curl_slist_sort_insert(requestHeaders, iter->first.c_str(), value.c_str()); } // NOTICE: x-amz-acl, x-amz-server-side-encryption is not set! } op = "PUT"; type = REQTYPE_COPYMULTIPOST; insertAuthHeaders(); // set lazy function fpLazySetup = CopyMultipartPostSetCurlOpts; // request S3FS_PRN_INFO3("copying... [from=%s][to=%s][part=%d]", from, to, part_num); return 0; } bool S3fsCurl::UploadMultipartPostComplete() { headers_t::iterator it = responseHeaders.find("ETag"); if (it == responseHeaders.end()) { return false; } // check etag(md5); // // The ETAG when using SSE_C and SSE_KMS does not reflect the MD5 we sent // SSE_C: https://docs.aws.amazon.com/AmazonS3/latest/API/RESTObjectPUT.html // SSE_KMS is ignored in the above, but in the following it states the same in the highlights: // https://docs.aws.amazon.com/AmazonS3/latest/dev/UsingKMSEncryption.html // if(S3fsCurl::is_content_md5 && SSE_C != S3fsCurl::GetSseType() && SSE_KMS != S3fsCurl::GetSseType()){ if(!etag_equals(it->second, partdata.etag)){ return false; } } partdata.etaglist->at(partdata.etagpos).assign(it->second); partdata.uploaded = true; return true; } bool S3fsCurl::CopyMultipartPostCallback(S3fsCurl* s3fscurl) { if(!s3fscurl){ return false; } return s3fscurl->CopyMultipartPostComplete(); } bool S3fsCurl::CopyMultipartPostComplete() { std::string etag; partdata.uploaded = simple_parse_xml(bodydata->str(), bodydata->size(), "ETag", etag); if(etag.size() >= 2 && *etag.begin() == '"' && *etag.rbegin() == '"'){ etag.assign(etag.substr(1, etag.size() - 2)); } partdata.etaglist->at(partdata.etagpos).assign(etag); delete bodydata; bodydata = NULL; delete headdata; headdata = NULL; return true; } int S3fsCurl::MultipartHeadRequest(const char* tpath, off_t size, headers_t& meta, bool is_copy) { int result; string upload_id; off_t chunk; off_t bytes_remaining; etaglist_t list; ostringstream strrange; S3FS_PRN_INFO3("[tpath=%s]", SAFESTRPTR(tpath)); if(0 != (result = PreMultipartPostRequest(tpath, meta, upload_id, is_copy))){ return result; } DestroyCurlHandle(); for(bytes_remaining = size, chunk = 0; 0 < bytes_remaining; bytes_remaining -= chunk){ chunk = bytes_remaining > MAX_MULTI_COPY_SOURCE_SIZE ? MAX_MULTI_COPY_SOURCE_SIZE : bytes_remaining; strrange << "bytes=" << (size - bytes_remaining) << "-" << (size - bytes_remaining + chunk - 1); meta["x-amz-copy-source-range"] = strrange.str(); strrange.str(""); strrange.clear(stringstream::goodbit); if(0 != (result = CopyMultipartPostSetup(tpath, tpath, static_cast(list.size() + 1), upload_id, meta))){ return result; } list.push_back(partdata.etag); DestroyCurlHandle(); } if(0 != (result = CompleteMultipartPostRequest(tpath, upload_id, list))){ return result; } return 0; } int S3fsCurl::MultipartUploadRequest(const char* tpath, headers_t& meta, int fd, bool is_copy) { int result; string upload_id; struct stat st; int fd2; etaglist_t list; off_t remaining_bytes; off_t chunk; S3FS_PRN_INFO3("[tpath=%s][fd=%d]", SAFESTRPTR(tpath), fd); // duplicate fd if(-1 == (fd2 = dup(fd)) || 0 != lseek(fd2, 0, SEEK_SET)){ S3FS_PRN_ERR("Could not duplicate file descriptor(errno=%d)", errno); if(-1 != fd2){ close(fd2); } return -errno; } if(-1 == fstat(fd2, &st)){ S3FS_PRN_ERR("Invalid file descriptor(errno=%d)", errno); close(fd2); return -errno; } if(0 != (result = PreMultipartPostRequest(tpath, meta, upload_id, is_copy))){ close(fd2); return result; } DestroyCurlHandle(); // cycle through open fd, pulling off 10MB chunks at a time for(remaining_bytes = st.st_size; 0 < remaining_bytes; remaining_bytes -= chunk){ // chunk size chunk = remaining_bytes > S3fsCurl::multipart_size ? S3fsCurl::multipart_size : remaining_bytes; // set partdata.fd = fd2; partdata.startpos = st.st_size - remaining_bytes; partdata.size = chunk; b_partdata_startpos = partdata.startpos; b_partdata_size = partdata.size; partdata.add_etag_list(&list); // upload part if(0 != (result = UploadMultipartPostRequest(tpath, list.size(), upload_id))){ S3FS_PRN_ERR("failed uploading part(%d)", result); close(fd2); return result; } DestroyCurlHandle(); } close(fd2); if(0 != (result = CompleteMultipartPostRequest(tpath, upload_id, list))){ return result; } return 0; } int S3fsCurl::MultipartUploadRequest(const string& upload_id, const char* tpath, int fd, off_t offset, off_t size, etaglist_t& list) { S3FS_PRN_INFO3("[upload_id=%s][tpath=%s][fd=%d][offset=%lld][size=%lld]", upload_id.c_str(), SAFESTRPTR(tpath), fd, static_cast(offset), static_cast(size)); // duplicate fd int fd2; if(-1 == (fd2 = dup(fd)) || 0 != lseek(fd2, 0, SEEK_SET)){ S3FS_PRN_ERR("Could not duplicate file descriptor(errno=%d)", errno); if(-1 != fd2){ close(fd2); } return -errno; } // set partdata.fd = fd2; partdata.startpos = offset; partdata.size = size; b_partdata_startpos = partdata.startpos; b_partdata_size = partdata.size; partdata.add_etag_list(&list); // upload part int result; if(0 != (result = UploadMultipartPostRequest(tpath, list.size(), upload_id))){ S3FS_PRN_ERR("failed uploading part(%d)", result); close(fd2); return result; } DestroyCurlHandle(); close(fd2); return 0; } int S3fsCurl::MultipartRenameRequest(const char* from, const char* to, headers_t& meta, off_t size) { int result; string upload_id; off_t chunk; off_t bytes_remaining; etaglist_t list; ostringstream strrange; S3FS_PRN_INFO3("[from=%s][to=%s]", SAFESTRPTR(from), SAFESTRPTR(to)); string srcresource; string srcurl; MakeUrlResource(get_realpath(from).c_str(), srcresource, srcurl); meta["Content-Type"] = S3fsCurl::LookupMimeType(string(to)); meta["x-amz-copy-source"] = srcresource; if(0 != (result = PreMultipartPostRequest(to, meta, upload_id, true))){ return result; } DestroyCurlHandle(); // Initialize S3fsMultiCurl S3fsMultiCurl curlmulti(GetMaxParallelCount()); curlmulti.SetSuccessCallback(S3fsCurl::CopyMultipartPostCallback); curlmulti.SetRetryCallback(S3fsCurl::CopyMultipartPostRetryCallback); for(bytes_remaining = size, chunk = 0; 0 < bytes_remaining; bytes_remaining -= chunk){ chunk = bytes_remaining > MAX_MULTI_COPY_SOURCE_SIZE ? MAX_MULTI_COPY_SOURCE_SIZE : bytes_remaining; strrange << "bytes=" << (size - bytes_remaining) << "-" << (size - bytes_remaining + chunk - 1); meta["x-amz-copy-source-range"] = strrange.str(); strrange.str(""); strrange.clear(stringstream::goodbit); // s3fscurl sub object S3fsCurl* s3fscurl_para = new S3fsCurl(true); s3fscurl_para->partdata.add_etag_list(&list); // initiate upload part for parallel if(0 != (result = s3fscurl_para->CopyMultipartPostSetup(from, to, list.size(), upload_id, meta))){ S3FS_PRN_ERR("failed uploading part setup(%d)", result); delete s3fscurl_para; return result; } // set into parallel object if(!curlmulti.SetS3fsCurlObject(s3fscurl_para)){ S3FS_PRN_ERR("Could not make curl object into multi curl(%s).", to); delete s3fscurl_para; return -1; } } // Multi request if(0 != (result = curlmulti.Request())){ S3FS_PRN_ERR("error occurred in multi request(errno=%d).", result); S3fsCurl s3fscurl_abort(true); int result2 = s3fscurl_abort.AbortMultipartUpload(to, upload_id); s3fscurl_abort.DestroyCurlHandle(); if(result2 != 0){ S3FS_PRN_ERR("error aborting multipart upload(errno=%d).", result2); } return result; } if(0 != (result = CompleteMultipartPostRequest(to, upload_id, list))){ return result; } return 0; } //------------------------------------------------------------------- // method for S3fsMultiCurl //------------------------------------------------------------------- S3fsMultiCurl::S3fsMultiCurl(int maxParallelism) : maxParallelism(maxParallelism) , SuccessCallback(NULL) , RetryCallback(NULL) { int res; pthread_mutexattr_t attr; pthread_mutexattr_init(&attr); #if S3FS_PTHREAD_ERRORCHECK pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_ERRORCHECK); #endif if (0 != (res = pthread_mutex_init(&completed_tids_lock, &attr))) { S3FS_PRN_ERR("could not initialize completed_tids_lock: %i", res); } } S3fsMultiCurl::~S3fsMultiCurl() { Clear(); int res; if(0 != (res = pthread_mutex_destroy(&completed_tids_lock))){ S3FS_PRN_ERR("could not destroy completed_tids_lock: %i", res); } } bool S3fsMultiCurl::ClearEx(bool is_all) { s3fscurllist_t::iterator iter; for(iter = clist_req.begin(); iter != clist_req.end(); ++iter){ S3fsCurl* s3fscurl = *iter; if(s3fscurl){ s3fscurl->DestroyCurlHandle(); delete s3fscurl; // with destroy curl handle. } } clist_req.clear(); if(is_all){ for(iter = clist_all.begin(); iter != clist_all.end(); ++iter){ S3fsCurl* s3fscurl = *iter; s3fscurl->DestroyCurlHandle(); delete s3fscurl; } clist_all.clear(); } S3FS_MALLOCTRIM(0); return true; } S3fsMultiSuccessCallback S3fsMultiCurl::SetSuccessCallback(S3fsMultiSuccessCallback function) { S3fsMultiSuccessCallback old = SuccessCallback; SuccessCallback = function; return old; } S3fsMultiRetryCallback S3fsMultiCurl::SetRetryCallback(S3fsMultiRetryCallback function) { S3fsMultiRetryCallback old = RetryCallback; RetryCallback = function; return old; } bool S3fsMultiCurl::SetS3fsCurlObject(S3fsCurl* s3fscurl) { if(!s3fscurl){ return false; } clist_all.push_back(s3fscurl); return true; } int S3fsMultiCurl::MultiPerform() { std::vector threads; bool success = true; bool isMultiHead = false; Semaphore sem(GetMaxParallelism()); int rc; for(s3fscurllist_t::iterator iter = clist_req.begin(); iter != clist_req.end(); ++iter) { pthread_t thread; S3fsCurl* s3fscurl = *iter; s3fscurl->sem = &sem; s3fscurl->completed_tids_lock = &completed_tids_lock; s3fscurl->completed_tids = &completed_tids; sem.wait(); { AutoLock lock(&completed_tids_lock); for(std::vector::iterator it = completed_tids.begin(); it != completed_tids.end(); ++it){ void* retval; rc = pthread_join(*it, &retval); if (rc) { success = false; S3FS_PRN_ERR("failed pthread_join - rc(%d) %s", rc, strerror(rc)); } else { int int_retval = (int)(intptr_t)(retval); if (int_retval && !(int_retval == -ENOENT && isMultiHead)) { S3FS_PRN_WARN("thread failed - rc(%d)", int_retval); } } } completed_tids.clear(); } isMultiHead |= s3fscurl->GetOp() == "HEAD"; rc = pthread_create(&thread, NULL, S3fsMultiCurl::RequestPerformWrapper, static_cast(s3fscurl)); if (rc != 0) { success = false; S3FS_PRN_ERR("failed pthread_create - rc(%d)", rc); break; } threads.push_back(thread); } for(int i = 0; i < sem.get_value(); ++i){ sem.wait(); } AutoLock lock(&completed_tids_lock); for (std::vector::iterator titer = completed_tids.begin(); titer != completed_tids.end(); ++titer) { void* retval; rc = pthread_join(*titer, &retval); if (rc) { success = false; S3FS_PRN_ERR("failed pthread_join - rc(%d)", rc); } else { int int_retval = (int)(intptr_t)(retval); if (int_retval && !(int_retval == -ENOENT && isMultiHead)) { S3FS_PRN_WARN("thread failed - rc(%d)", int_retval); } } } completed_tids.clear(); return success ? 0 : -EIO; } int S3fsMultiCurl::MultiRead() { for(s3fscurllist_t::iterator iter = clist_req.begin(); iter != clist_req.end(); ++iter) { S3fsCurl* s3fscurl = *iter; bool isRetry = false; long responseCode = -1; if(s3fscurl->GetResponseCode(responseCode, false)){ if(400 > responseCode){ // add into stat cache if(SuccessCallback && !SuccessCallback(s3fscurl)){ S3FS_PRN_WARN("error from callback function(%s).", s3fscurl->url.c_str()); } }else if(400 == responseCode){ // as possibly in multipart S3FS_PRN_WARN("failed a request(%ld: %s)", responseCode, s3fscurl->url.c_str()); isRetry = true; }else if(404 == responseCode){ // not found // HEAD requests on readdir_multi_head can return 404 if(s3fscurl->GetOp() != "HEAD"){ S3FS_PRN_WARN("failed a request(%ld: %s)", responseCode, s3fscurl->url.c_str()); } }else if(500 == responseCode){ // case of all other result, do retry.(11/13/2013) // because it was found that s3fs got 500 error from S3, but could success // to retry it. S3FS_PRN_WARN("failed a request(%ld: %s)", responseCode, s3fscurl->url.c_str()); isRetry = true; }else{ // Retry in other case. S3FS_PRN_WARN("failed a request(%ld: %s)", responseCode, s3fscurl->url.c_str()); isRetry = true; } }else{ S3FS_PRN_ERR("failed a request(Unknown response code: %s)", s3fscurl->url.c_str()); } if(!isRetry){ s3fscurl->DestroyCurlHandle(); delete s3fscurl; }else{ S3fsCurl* retrycurl = NULL; // For retry if(RetryCallback){ retrycurl = RetryCallback(s3fscurl); if(NULL != retrycurl){ clist_all.push_back(retrycurl); }else{ // Could not set up callback. return -EIO; } } if(s3fscurl != retrycurl){ s3fscurl->DestroyCurlHandle(); delete s3fscurl; } } } clist_req.clear(); return 0; } int S3fsMultiCurl::Request() { S3FS_PRN_INFO3("[count=%zu]", clist_all.size()); // Make request list. // // Send multi request loop( with retry ) // (When many request is sends, sometimes gets "Couldn't connect to server") // while(!clist_all.empty()){ // set curl handle to multi handle int result; s3fscurllist_t::iterator iter; for(iter = clist_all.begin(); iter != clist_all.end(); ++iter){ S3fsCurl* s3fscurl = *iter; clist_req.push_back(s3fscurl); } clist_all.clear(); // Send multi request. if(0 != (result = MultiPerform())){ Clear(); return result; } // Read the result if(0 != (result = MultiRead())){ Clear(); return result; } // Cleanup curl handle in multi handle ClearEx(false); } return 0; } // thread function for performing an S3fsCurl request // void* S3fsMultiCurl::RequestPerformWrapper(void* arg) { S3fsCurl* s3fscurl= static_cast(arg); void* result = NULL; if(s3fscurl && s3fscurl->fpLazySetup){ if(!s3fscurl->fpLazySetup(s3fscurl)){ S3FS_PRN_ERR("Failed to lazy setup, then respond EIO."); result = (void*)(intptr_t)(-EIO); } } if(!result){ result = (void*)(intptr_t)(s3fscurl->RequestPerform()); s3fscurl->DestroyCurlHandle(true, false); } AutoLock lock(s3fscurl->completed_tids_lock); s3fscurl->completed_tids->push_back(pthread_self()); s3fscurl->sem->post(); return result; } //------------------------------------------------------------------- // Utility functions //------------------------------------------------------------------- // // curl_slist_sort_insert // This function is like curl_slist_append function, but this adds data by a-sorting. // Because AWS signature needs sorted header. // struct curl_slist* curl_slist_sort_insert(struct curl_slist* list, const char* data) { if(!data){ return list; } string strkey = data; string strval; string::size_type pos = strkey.find(':', 0); if(string::npos != pos){ strval = strkey.substr(pos + 1); strkey = strkey.substr(0, pos); } return curl_slist_sort_insert(list, strkey.c_str(), strval.c_str()); } struct curl_slist* curl_slist_sort_insert(struct curl_slist* list, const char* key, const char* value) { struct curl_slist* curpos; struct curl_slist* lastpos; struct curl_slist* new_item; if(!key){ return list; } if(NULL == (new_item = reinterpret_cast(malloc(sizeof(struct curl_slist))))){ return list; } // key & value are trimmed and lower (only key) string strkey = trim(string(key)); string strval = trim(string(value ? value : "")); string strnew = key + string(": ") + strval; if(NULL == (new_item->data = strdup(strnew.c_str()))){ free(new_item); return list; } new_item->next = NULL; for(lastpos = NULL, curpos = list; curpos; lastpos = curpos, curpos = curpos->next){ string strcur = curpos->data; size_t pos; if(string::npos != (pos = strcur.find(':', 0))){ strcur = strcur.substr(0, pos); } int result = strcasecmp(strkey.c_str(), strcur.c_str()); if(0 == result){ // same data, so replace it. if(lastpos){ lastpos->next = new_item; }else{ list = new_item; } new_item->next = curpos->next; free(curpos->data); free(curpos); break; }else if(0 > result){ // add data before curpos. if(lastpos){ lastpos->next = new_item; }else{ list = new_item; } new_item->next = curpos; break; } } if(!curpos){ // append to last pos if(lastpos){ lastpos->next = new_item; }else{ // a case of list is null list = new_item; } } return list; } string get_sorted_header_keys(const struct curl_slist* list) { string sorted_headers; if(!list){ return sorted_headers; } for( ; list; list = list->next){ string strkey = list->data; size_t pos; if(string::npos != (pos = strkey.find(':', 0))){ if (trim(strkey.substr(pos + 1)).empty()) { // skip empty-value headers (as they are discarded by libcurl) continue; } strkey = strkey.substr(0, pos); } if(0 < sorted_headers.length()){ sorted_headers += ";"; } sorted_headers += lower(strkey); } return sorted_headers; } string get_header_value(const struct curl_slist* list, const string &key) { if(!list){ return ""; } for( ; list; list = list->next){ string strkey = list->data; size_t pos; if(string::npos != (pos = strkey.find(':', 0))){ if(0 == strcasecmp(trim(strkey.substr(0, pos)).c_str(), key.c_str())){ return trim(strkey.substr(pos+1)); } } } return ""; } string get_canonical_headers(const struct curl_slist* list) { string canonical_headers; if(!list){ canonical_headers = "\n"; return canonical_headers; } for( ; list; list = list->next){ string strhead = list->data; size_t pos; if(string::npos != (pos = strhead.find(':', 0))){ string strkey = trim(lower(strhead.substr(0, pos))); string strval = trim(strhead.substr(pos + 1)); if (strval.empty()) { // skip empty-value headers (as they are discarded by libcurl) continue; } strhead = strkey.append(":").append(strval); }else{ strhead = trim(lower(strhead)); } canonical_headers += strhead; canonical_headers += "\n"; } return canonical_headers; } string get_canonical_headers(const struct curl_slist* list, bool only_amz) { string canonical_headers; if(!list){ canonical_headers = "\n"; return canonical_headers; } for( ; list; list = list->next){ string strhead = list->data; size_t pos; if(string::npos != (pos = strhead.find(':', 0))){ string strkey = trim(lower(strhead.substr(0, pos))); string strval = trim(strhead.substr(pos + 1)); if (strval.empty()) { // skip empty-value headers (as they are discarded by libcurl) continue; } strhead = strkey.append(":").append(strval); }else{ strhead = trim(lower(strhead)); } if(only_amz && strhead.substr(0, 5) != "x-amz"){ continue; } canonical_headers += strhead; canonical_headers += "\n"; } return canonical_headers; } // function for using global values bool MakeUrlResource(const char* realpath, string& resourcepath, string& url) { if(!realpath){ return false; } resourcepath = urlEncode(service_path + bucket + realpath); url = host + resourcepath; return true; } string prepare_url(const char* url) { S3FS_PRN_INFO3("URL is %s", url); string uri; string hostname; string path; string url_str = string(url); string token = string("/") + bucket; int bucket_pos = url_str.find(token); int bucket_length = token.size(); int uri_length = 0; if(!strncasecmp(url_str.c_str(), "https://", 8)){ uri_length = 8; } else if(!strncasecmp(url_str.c_str(), "http://", 7)) { uri_length = 7; } uri = url_str.substr(0, uri_length); if(!pathrequeststyle){ hostname = bucket + "." + url_str.substr(uri_length, bucket_pos - uri_length); path = url_str.substr((bucket_pos + bucket_length)); }else{ hostname = url_str.substr(uri_length, bucket_pos - uri_length); string part = url_str.substr((bucket_pos + bucket_length)); if('/' != part[0]){ part = "/" + part; } path = "/" + bucket + part; } url_str = uri + hostname + path; S3FS_PRN_INFO3("URL changed is %s", url_str.c_str()); return url_str; } /* * Local variables: * tab-width: 4 * c-basic-offset: 4 * End: * vim600: noet sw=4 ts=4 fdm=marker * vim<600: noet sw=4 ts=4 */