/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include "Util.hpp" #include #include #ifdef __linux #include #include #include #elif defined IOS #import #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "Common.hpp" #include "Log.hpp" #include "Util.hpp" using std::size_t; namespace Util { namespace rng { static std::random_device _rd; static std::mutex _rngMutex; static Poco::RandomBuf _randBuf; // Create the prng with a random-device for seed. // If we don't have a hardware random-device, we will get the same seed. // In that case we are better off with an arbitrary, but changing, seed. static std::mt19937_64 _rng = std::mt19937_64(_rd.entropy() ? _rd() : (clock() + getpid())); // A new seed is used to shuffle the sequence. // N.B. Always reseed after getting forked! void reseed() { _rng.seed(_rd.entropy() ? _rd() : (clock() + getpid())); } // Returns a new random number. unsigned getNext() { std::unique_lock lock(_rngMutex); return _rng(); } std::vector getBytes(const size_t length) { std::vector v(length); _randBuf.readFromDevice(v.data(), v.size()); return v; } /// Generate a string of random characters. std::string getHexString(const size_t length) { std::stringstream ss; Poco::HexBinaryEncoder hex(ss); hex.write(getBytes(length).data(), length); return ss.str().substr(0, length); } /// Generate a string of harder random characters. std::string getHardRandomHexString(const size_t length) { std::stringstream ss; Poco::HexBinaryEncoder hex(ss); // a poor fallback but something. std::vector random = getBytes(length); int fd = open("/dev/urandom", O_RDONLY); int len = 0; if (fd < 0 || (len = read(fd, random.data(), length)) < 0 || size_t(len) < length) { LOG_ERR("failed to read " << length << " hard random bytes, got " << len << " for hash: " << errno); } close(fd); hex.write(random.data(), length); return ss.str().substr(0, length); } /// Generates a random string in Base64. /// Note: May contain '/' characters. std::string getB64String(const size_t length) { std::stringstream ss; Poco::Base64Encoder b64(ss); b64.write(getBytes(length).data(), length); return ss.str().substr(0, length); } std::string getFilename(const size_t length) { std::string s = getB64String(length * 2); s.erase(std::remove_if(s.begin(), s.end(), [](const std::string::value_type& c) { // Remove undesirable characters in a filename. return c == '/' || c == ' ' || c == '+'; }), s.end()); return s.substr(0, length); } } static std::string getDefaultTmpDir() { const char *tmp = getenv("TMPDIR"); if (!tmp) tmp = getenv("TEMP"); if (!tmp) tmp = getenv("TMP"); if (!tmp) tmp = "/tmp"; return tmp; } std::string createRandomTmpDir() { std::string defaultTmp = getDefaultTmpDir(); std::string newTmp = defaultTmp + "/lool-" + rng::getFilename(16); if (::mkdir(newTmp.c_str(), S_IRWXU) < 0) { LOG_ERR("Failed to create random temp directory"); return defaultTmp; } return newTmp; } #if !MOBILEAPP int getProcessThreadCount() { DIR *fdDir = opendir("/proc/self/task"); if (!fdDir) { LOG_ERR("No proc mounted"); return -1; } int tasks = 0; while (readdir(fdDir)) tasks++; closedir(fdDir); return tasks; } // close what we have - far faster than going up to a 1m open_max eg. static bool closeFdsFromProc() { DIR *fdDir = opendir("/proc/self/fd"); if (!fdDir) return false; struct dirent *i; while ((i = readdir(fdDir))) { if (i->d_name[0] == '.') continue; char *e = NULL; errno = 0; long fd = strtol(i->d_name, &e, 10); if (errno != 0 || !e || *e) continue; if (fd == dirfd(fdDir)) continue; if (fd < 3) continue; if (close(fd) < 0) std::cerr << "Unexpected failure to close fd " << fd << std::endl; } closedir(fdDir); return true; } static void closeFds() { if (!closeFdsFromProc()) { std::cerr << "Couldn't close fds efficiently from /proc" << std::endl; for (int fd = 3; fd < sysconf(_SC_OPEN_MAX); ++fd) close(fd); } } int spawnProcess(const std::string &cmd, const std::vector &args, int *stdInput) { int pipeFds[2] = { -1, -1 }; if (stdInput) { if (pipe(pipeFds) < 0) { LOG_ERR("Out of file descriptors spawning " << cmd); throw Poco::SystemException("Out of file descriptors"); } } std::vector params; params.push_back(const_cast(cmd.c_str())); for (const auto& i : args) params.push_back(const_cast(i.c_str())); params.push_back(nullptr); int pid = fork(); if (pid < 0) { LOG_ERR("Failed to fork for command '" << cmd); throw Poco::SystemException("Failed to fork for command ", cmd); } else if (pid == 0) // child { if (stdInput) dup2(pipeFds[0], STDIN_FILENO); closeFds(); int ret = execvp(params[0], ¶ms[0]); if (ret < 0) std::cerr << "Failed to exec command '" << cmd << "' with error '" << strerror(errno) << "'\n"; Log::shutdown(); _exit(42); } // else spawning process still if (stdInput) { close(pipeFds[0]); *stdInput = pipeFds[1]; } return pid; } #endif bool dataFromHexString(const std::string& hexString, std::vector& data) { if (hexString.length() % 2 != 0) { return false; } data.clear(); std::stringstream stream; unsigned value; for (unsigned long offset = 0; offset < hexString.size(); offset += 2) { stream.clear(); stream << std::hex << hexString.substr(offset, 2); stream >> value; data.push_back(static_cast(value)); } return true; } std::string encodeId(const std::uint64_t number, const int padding) { std::ostringstream oss; oss << std::hex << std::setw(padding) << std::setfill('0') << number; return oss.str(); } std::uint64_t decodeId(const std::string& str) { std::uint64_t id = 0; std::stringstream ss; ss << std::hex << str; ss >> id; return id; } bool windowingAvailable() { return std::getenv("DISPLAY") != nullptr; } #if !MOBILEAPP static const char *startsWith(const char *line, const char *tag) { size_t len = std::strlen(tag); if (!strncmp(line, tag, len)) { while (!isdigit(line[len]) && line[len] != '\0') ++len; return line + len; } return nullptr; } std::string getHumanizedBytes(unsigned long nBytes) { constexpr unsigned factor = 1024; short count = 0; float val = nBytes; while (val >= factor && count < 4) { val /= factor; count++; } std::string unit; switch (count) { case 0: unit = ""; break; case 1: unit = "ki"; break; case 2: unit = "Mi"; break; case 3: unit = "Gi"; break; case 4: unit = "Ti"; break; default: assert(false); } unit += "B"; std::stringstream ss; ss << std::fixed << std::setprecision(1) << val << ' ' << unit; return ss.str(); } size_t getTotalSystemMemoryKb() { size_t totalMemKb = 0; FILE* file = fopen("/proc/meminfo", "r"); if (file != nullptr) { char line[4096] = { 0 }; while (fgets(line, sizeof(line), file)) { const char* value; if ((value = startsWith(line, "MemTotal:"))) { totalMemKb = atoi(value); break; } } } return totalMemKb; } std::pair getPssAndDirtyFromSMaps(FILE* file) { size_t numPSSKb = 0; size_t numDirtyKb = 0; if (file) { rewind(file); char line[4096] = { 0 }; while (fgets(line, sizeof (line), file)) { const char *value; // Shared_Dirty is accounted for by forkit's RSS if ((value = startsWith(line, "Private_Dirty:"))) { numDirtyKb += atoi(value); } else if ((value = startsWith(line, "Pss:"))) { numPSSKb += atoi(value); } } } return std::make_pair(numPSSKb, numDirtyKb); } std::string getMemoryStats(FILE* file) { const std::pair pssAndDirtyKb = getPssAndDirtyFromSMaps(file); std::ostringstream oss; oss << "procmemstats: pid=" << getpid() << " pss=" << pssAndDirtyKb.first << " dirty=" << pssAndDirtyKb.second; LOG_TRC("Collected " << oss.str()); return oss.str(); } size_t getMemoryUsagePSS(const Poco::Process::PID pid) { if (pid > 0) { const auto cmd = "/proc/" + std::to_string(pid) + "/smaps"; FILE* fp = fopen(cmd.c_str(), "r"); if (fp != nullptr) { const size_t pss = getPssAndDirtyFromSMaps(fp).first; fclose(fp); return pss; } } return 0; } size_t getMemoryUsageRSS(const Poco::Process::PID pid) { static const int pageSizeBytes = getpagesize(); size_t rss = 0; if (pid > 0) { rss = getStatFromPid(pid, 23); rss *= pageSizeBytes; rss /= 1024; return rss; } return 0; } size_t getCpuUsage(const Poco::Process::PID pid) { if (pid > 0) { size_t totalJiffies = 0; totalJiffies += getStatFromPid(pid, 13); totalJiffies += getStatFromPid(pid, 14); return totalJiffies; } return 0; } size_t getStatFromPid(const Poco::Process::PID pid, int ind) { if (pid > 0) { const auto cmd = "/proc/" + std::to_string(pid) + "/stat"; FILE* fp = fopen(cmd.c_str(), "r"); if (fp != nullptr) { char line[4096] = { 0 }; if (fgets(line, sizeof (line), fp)) { const std::string s(line); int index = 1; size_t pos = s.find(' '); while (pos != std::string::npos) { if (index == ind) { fclose(fp); return strtol(&s[pos], nullptr, 10); } ++index; pos = s.find(' ', pos + 1); } } } } return 0; } #endif std::string replace(std::string result, const std::string& a, const std::string& b) { const size_t aSize = a.size(); if (aSize > 0) { const size_t bSize = b.size(); std::string::size_type pos = 0; while ((pos = result.find(a, pos)) != std::string::npos) { result = result.replace(pos, aSize, b); pos += bSize; // Skip the replacee to avoid endless recursion. } } return result; } std::string formatLinesForLog(const std::string& s) { std::string r; std::string::size_type n = s.size(); if (n > 0 && s.back() == '\n') r = s.substr(0, n-1); else r = s; return replace(r, "\n", " / "); } // prctl(2) supports names of up to 16 characters, including null-termination. // Although in practice on linux more than 16 chars is supported. static thread_local char ThreadName[32] = {0}; static_assert(sizeof(ThreadName) >= 16, "ThreadName should have a statically known size, and not be a pointer."); void setThreadName(const std::string& s) { // Copy the current name. const std::string knownAs = ThreadName[0] ? "known as [" + std::string(ThreadName) + "]" : "unnamed"; // Set the new name. strncpy(ThreadName, s.c_str(), sizeof(ThreadName) - 1); ThreadName[sizeof(ThreadName) - 1] = '\0'; #ifdef __linux if (prctl(PR_SET_NAME, reinterpret_cast(s.c_str()), 0, 0, 0) != 0) LOG_SYS("Cannot set thread name of " << getThreadId() << " (" << std::hex << std::this_thread::get_id() << std::dec << ") of process " << getpid() << " currently " << knownAs << " to [" << s << "]."); else LOG_INF("Thread " << getThreadId() << " (" << std::hex << std::this_thread::get_id() << std::dec << ") of process " << getpid() << " formerly " << knownAs << " is now called [" << s << "]."); #elif defined IOS [[NSThread currentThread] setName:[NSString stringWithUTF8String:ThreadName]]; LOG_INF("Thread " << getThreadId() << ") is now called [" << s << "]."); #endif } const char *getThreadName() { // Main process and/or not set yet. if (ThreadName[0] == '\0') { #ifdef __linux // prctl(2): The buffer should allow space for up to 16 bytes; the returned string will be null-terminated. if (prctl(PR_GET_NAME, reinterpret_cast(ThreadName), 0, 0, 0) != 0) strncpy(ThreadName, "", sizeof(ThreadName) - 1); #elif defined IOS const char *const name = [[[NSThread currentThread] name] UTF8String]; strncpy(ThreadName, name, sizeof(ThreadName) - 1); #endif ThreadName[sizeof(ThreadName) - 1] = '\0'; } // Avoid so many redundant system calls return ThreadName; } #ifdef __linux static thread_local pid_t ThreadTid = 0; pid_t getThreadId() #else std::thread::id getThreadId() #endif { // Avoid so many redundant system calls #ifdef __linux if (!ThreadTid) ThreadTid = ::syscall(SYS_gettid); return ThreadTid; #else return std::this_thread::get_id(); #endif } void getVersionInfo(std::string& version, std::string& hash) { version = std::string(LOOLWSD_VERSION); hash = std::string(LOOLWSD_VERSION_HASH); hash.resize(std::min(8, (int)hash.length())); } std::string UniqueId() { static std::atomic_int counter(0); return std::to_string(Poco::Process::id()) + '/' + std::to_string(counter++); } std::map JsonToMap(const std::string& jsonString) { std::map map; if (jsonString.empty()) return map; Poco::JSON::Parser parser; const Poco::Dynamic::Var result = parser.parse(jsonString); const auto& json = result.extract(); std::vector names; json->getNames(names); for (const auto& name : names) { map[name] = json->get(name).toString(); } return map; } bool isValidURIScheme(const std::string& scheme) { if (scheme.empty()) return false; for (char c : scheme) { if (!isalpha(c)) return false; } return true; } bool isValidURIHost(const std::string& host) { if (host.empty()) return false; for (char c : host) { if (!isalnum(c) && c != '_' && c != '-' && c != '.' && c !=':' && c != '[' && c != ']') return false; } return true; } /// Split a string in two at the delimeter and give the delimiter to the first. static std::pair splitLast2(const char* s, const int length, const char delimeter = ' ') { if (s != nullptr && length > 0) { const int pos = getLastDelimiterPosition(s, length, delimeter); if (pos < length) return std::make_pair(std::string(s, pos + 1), std::string(s + pos + 1)); } // Not found; return in first. return std::make_pair(std::string(s, length), std::string()); } std::tuple splitUrl(const std::string& url) { // In case we have a URL that has parameters. std::string base; std::string params; std::tie(base, params) = Util::split(url, '?', false); std::string filename; std::tie(base, filename) = Util::splitLast2(base.c_str(), base.size(), '/'); if (filename.empty()) { // If no '/', then it's only filename. std::swap(base, filename); } std::string ext; std::tie(filename, ext) = Util::splitLast(filename, '.', false); return std::make_tuple(base, filename, ext, params); } static std::unordered_map AnonymizedStrings; static std::atomic AnonymizationCounter(0); static std::mutex AnonymizedMutex; void mapAnonymized(const std::string& plain, const std::string& anonymized) { if (plain.empty() || anonymized.empty()) return; if (Log::traceEnabled() && plain != anonymized) LOG_TRC("Anonymizing [" << plain << "] -> [" << anonymized << "]."); std::unique_lock lock(AnonymizedMutex); AnonymizedStrings[plain] = anonymized; } std::string anonymize(const std::string& text, const std::uint64_t nAnonymizationSalt) { { std::unique_lock lock(AnonymizedMutex); const auto it = AnonymizedStrings.find(text); if (it != AnonymizedStrings.end()) { if (Log::traceEnabled() && text != it->second) LOG_TRC("Found anonymized [" << text << "] -> [" << it->second << "]."); return it->second; } } // Modified 64-bit FNV-1a to add salting. // For the algorithm and the magic numbers, see http://isthe.com/chongo/tech/comp/fnv/ std::uint64_t hash = 0xCBF29CE484222325LL; hash ^= nAnonymizationSalt; hash *= 0x100000001b3ULL; for (const char c : text) { hash ^= static_cast(c); hash *= 0x100000001b3ULL; } hash ^= nAnonymizationSalt; hash *= 0x100000001b3ULL; // Generate the anonymized string. The '#' is to hint that it's anonymized. // Prepend with count to make it unique within a single process instance, // in case we get collisions (which we will, eventually). N.B.: Identical // strings likely to have different prefixes when logged in WSD process vs. Kit. const std::string res = '#' + Util::encodeId(AnonymizationCounter++, 0) + '#' + Util::encodeId(hash, 0) + '#'; mapAnonymized(text, res); return res; } std::string getFilenameFromURL(const std::string& url) { std::string base; std::string filename; std::string ext; std::string params; std::tie(base, filename, ext, params) = Util::splitUrl(url); return filename; } std::string anonymizeUrl(const std::string& url, const std::uint64_t nAnonymizationSalt) { std::string base; std::string filename; std::string ext; std::string params; std::tie(base, filename, ext, params) = Util::splitUrl(url); return base + Util::anonymize(filename, nAnonymizationSalt) + ext + params; } std::string getHttpTimeNow() { char time_now[64]; std::chrono::system_clock::time_point now = std::chrono::system_clock::now(); std::time_t now_c = std::chrono::system_clock::to_time_t(now); std::tm now_tm = *std::gmtime(&now_c); strftime(time_now, sizeof(time_now), "%a, %d %b %Y %T", &now_tm); return time_now; } std::string getHttpTime(std::chrono::system_clock::time_point time) { char http_time[64]; std::time_t time_c = std::chrono::system_clock::to_time_t(time); std::tm time_tm = *std::gmtime(&time_c); strftime(http_time, sizeof(http_time), "%a, %d %b %Y %T", &time_tm); return http_time; } size_t findInVector(const std::vector& tokens, const char *cstring) { assert(cstring); for (size_t i = 0; i < tokens.size(); ++i) { size_t j; for (j = 0; i + j < tokens.size() && cstring[j] != '\0' && tokens[i + j] == cstring[j]; ++j) ; if (cstring[j] == '\0') return i; } return std::string::npos; } std::chrono::system_clock::time_point getFileTimestamp(std::string str_path) { struct stat file; stat(str_path.c_str(), &file); std::chrono::seconds ns{file.st_mtime}; std::chrono::system_clock::time_point mod_time_point{ns}; return mod_time_point; } std::string getIso8601FracformatTime(std::chrono::system_clock::time_point time){ char time_modified[64]; std::time_t lastModified_us_t = std::chrono::system_clock::to_time_t(time); std::tm lastModified_tm = *std::gmtime(&lastModified_us_t); strftime(time_modified, sizeof(time_modified), "%FT%T.", &lastModified_tm); auto lastModified_s = std::chrono::time_point_cast(time); std::ostringstream oss; oss << std::setfill('0') << time_modified << std::setw(6) << (time - lastModified_s).count() / 1000 << "Z"; return oss.str(); } std::chrono::system_clock::time_point iso8601ToTimestamp(const std::string& iso8601Time, const std::string& logName) { std::chrono::system_clock::time_point timestamp; std::tm tm; const char *cstr = iso8601Time.c_str(); const char *trailing; if (!(trailing = strptime(cstr, "%Y-%m-%dT%H:%M:%S", &tm))) { LOG_WRN(logName << " [" << iso8601Time << "] is in invalid format." << "Returning " << timestamp.time_since_epoch().count()); return timestamp; } timestamp += std::chrono::seconds(timegm(&tm)); if (trailing[0] == '\0') return timestamp; double us; if (trailing[0] != '.') { LOG_WRN(logName << " [" << iso8601Time << "] is in invalid format." << ". Returning " << timestamp.time_since_epoch().count()); return timestamp; } char *end = nullptr; us = strtod(trailing, &end); std::size_t seconds_us = us * std::chrono::system_clock::period::den / std::chrono::system_clock::period::num; timestamp += std::chrono::system_clock::duration(seconds_us); return timestamp; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */