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StatisticsSenderService.cc
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1 
8 
9 #include <string>
10 #include <cmath>
11 
12 #include <unistd.h>
13 #include <fcntl.h>
14 
15 #include <openssl/x509.h>
16 #include <openssl/pem.h>
17 
18 #define UPDATE_STATISTIC(x) \
19  m_ ## x = x;
20 
21 #define UPDATE_AND_OUTPUT_STATISTIC(x) \
22  os << "\"" #x "\":" << (x-m_ ## x) << ", "; \
23  UPDATE_STATISTIC(x)
24 
25 // Simple hack to define HOST_NAME_MAX on Mac.
26 // Allows arrays to be statically allocated
27 #ifndef HOST_NAME_MAX
28 #define HOST_NAME_MAX 128
29 #endif
30 
31 #define JOB_UNIQUE_ID_ENV "CRAB_UNIQUE_JOB_ID"
32 #define JOB_UNIQUE_ID_ENV_V2 "DashboardJobId"
33 
34 using namespace edm::storage;
35 
37  m_read_single_operations(0),
38  m_read_single_bytes(0),
39  m_read_single_square(0),
40  m_read_vector_operations(0),
41  m_read_vector_bytes(0),
42  m_read_vector_square(0),
43  m_read_vector_count_sum(0),
44  m_read_vector_count_square(0),
45  m_start_time(time(NULL))
46 {}
47 
48 void
51  ssize_t read_single_operations = 0;
52  ssize_t read_single_bytes = 0;
53  ssize_t read_single_square = 0;
54  ssize_t read_vector_operations = 0;
55  ssize_t read_vector_bytes = 0;
56  ssize_t read_vector_square = 0;
57  ssize_t read_vector_count_sum = 0;
58  ssize_t read_vector_count_square = 0;
59  auto token = StorageAccount::tokenForStorageClassName("tstoragefile");
60  for (StorageAccount::StorageStats::const_iterator i = stats.begin (); i != stats.end(); ++i) {
61  if (i->first == token.value()) {
62  continue;
63  }
64  for (StorageAccount::OperationStats::const_iterator j = i->second.begin(); j != i->second.end(); ++j) {
65  if (j->first == static_cast<int>(StorageAccount::Operation::readv)) {
66  read_vector_operations += j->second.attempts;
67  read_vector_bytes += j->second.amount;
68  read_vector_count_square += j->second.vector_square;
69  read_vector_square += j->second.amount_square;
70  read_vector_count_sum += j->second.vector_count;
71  } else if (j->first == static_cast<int>(StorageAccount::Operation::read)) {
72  read_single_operations += j->second.attempts;
73  read_single_bytes += j->second.amount;
74  read_single_square += j->second.amount_square;
75  }
76  }
77  }
78  int64_t single_op_count = read_single_operations - m_read_single_operations;
79  if (single_op_count > 0) {
80  double single_sum = read_single_bytes-m_read_single_bytes;
81  double single_average = single_sum/static_cast<double>(single_op_count);
82  os << "\"read_single_sigma\":" << sqrt((static_cast<double>(read_single_square-m_read_single_square) - single_average*single_average*single_op_count)/static_cast<double>(single_op_count)) << ", ";
83  os << "\"read_single_average\":" << single_average << ", ";
84  }
85  m_read_single_square = read_single_square;
86  int64_t vector_op_count = read_vector_operations - m_read_vector_operations;
87  if (vector_op_count > 0) {
88  double vector_average = static_cast<double>(read_vector_bytes-m_read_vector_bytes)/static_cast<double>(vector_op_count);
89  os << "\"read_vector_average\":" << vector_average << ", ";
90  os << "\"read_vector_sigma\":" << sqrt((static_cast<double>(read_vector_square-m_read_vector_square) - vector_average*vector_average*vector_op_count)/static_cast<double>(vector_op_count)) << ", ";
91  double vector_count_average = static_cast<double>(read_vector_count_sum-m_read_vector_count_sum)/static_cast<double>(vector_op_count);
92  os << "\"read_vector_count_average\":" << vector_count_average << ", ";
93  os << "\"read_vector_count_sigma\":" << sqrt((static_cast<double>(read_vector_count_square-m_read_vector_count_square) - vector_count_average*vector_count_average*vector_op_count)/static_cast<double>(vector_op_count)) << ", ";
94  }
95  m_read_vector_square = read_vector_square;
96  m_read_vector_count_square = read_vector_count_square;
97  m_read_vector_count_sum = read_vector_count_sum;
98 
99  os << "\"read_bytes\":" << (read_vector_bytes + read_single_bytes - m_read_vector_bytes - m_read_single_bytes) << ", ";
100  os << "\"read_bytes_at_close\":" << (read_vector_bytes + read_single_bytes - m_read_vector_bytes - m_read_single_bytes) << ", ";
101 
102  // See top of file for macros; not complex, just avoiding copy/paste
103  UPDATE_AND_OUTPUT_STATISTIC(read_single_operations)
104  UPDATE_AND_OUTPUT_STATISTIC(read_single_bytes)
105  UPDATE_AND_OUTPUT_STATISTIC(read_vector_operations)
106  UPDATE_AND_OUTPUT_STATISTIC(read_vector_bytes)
107 
108  os << "\"start_time\":" << m_start_time << ", ";
109  m_start_time = time(NULL);
110  // NOTE: last entry doesn't have the trailing comma.
111  os << "\"end_time\":" << m_start_time;
112 }
113 
115  m_clienthost("unknown"),
116  m_clientdomain("unknown"),
117  m_serverhost("unknown"),
118  m_serverdomain("unknown"),
119  m_filelfn("unknown"),
120  m_filestats(),
121  m_guid(Guid().toString()),
122  m_counter(0),
123  m_size(-1),
124  m_userdn("unknown")
125 {
128  if (!getX509Subject(m_userdn)) {
129  m_userdn = "unknown";
130  }
131 }
132 
133 const char *
135  const char * id = getenv(JOB_UNIQUE_ID_ENV);
136  // Dashboard developers requested that we migrate to this environment variable.
137  return id ? id : getenv(JOB_UNIQUE_ID_ENV_V2);
138 }
139 
140 void
142  size_t dot_pos = servername.find(".");
143  std::string serverhost;
144  std::string serverdomain;
145  if (dot_pos == std::string::npos) {
146  serverhost = servername.substr(0, servername.find(":"));
147  serverdomain = "unknown";
148  } else {
149  serverhost = servername.substr(0, dot_pos);
150  serverdomain = servername.substr(dot_pos+1, servername.find(":")-dot_pos-1);
151  if (serverdomain.empty()) {
152  serverdomain = "unknown";
153  }
154  }
155  {
156  std::lock_guard<std::mutex> sentry(m_servermutex);
157  m_serverhost = std::move(serverhost);
158  m_serverdomain = std::move(serverdomain);
159  }
160 }
161 
162 void
164  m_size = size;
165 }
166 
167 void
169  m_filelfn = lfn;
170 
172  if (!pSLC.isAvailable()) {
173  return;
174  }
175 
176  const struct addrinfo * addresses = pSLC->statisticsDestination();
177  if (!addresses) {
178  return;
179  }
180 
181  std::set<std::string> const * info = pSLC->statisticsInfo();
182  if (info && info->size() && (m_userdn != "unknown") && (
183  (info->find("dn") == info->end()) ||
184  (info->find("nodn") != info->end()))
185  )
186  {
187  m_userdn = "not reported";
188  }
189 
190  std::string results;
191  fillUDP(pSLC->siteName(), usedFallback, results);
192 
193  for (const struct addrinfo *address = addresses; address != nullptr; address = address->ai_next) {
194  int sock = socket(address->ai_family, address->ai_socktype, address->ai_protocol);
195  if (sock < 0) {
196  continue;
197  }
198  auto close_del = [](int* iSocket) { close(*iSocket); };
199  std::unique_ptr<int,decltype(close_del)> guard(&sock, close_del);
200  if (sendto(sock, results.c_str(), results.size(), 0, address->ai_addr, address->ai_addrlen) >= 0) {
201  break;
202  }
203  }
204 
205  m_counter++;
206 }
207 
208 void
210  char tmpName[HOST_NAME_MAX];
211  if (gethostname(tmpName, HOST_NAME_MAX) != 0) {
212  // Sigh, no way to log errors from here.
213  m_clienthost = "unknown";
214  } else {
215  m_clienthost = tmpName;
216  }
217  size_t dot_pos = m_clienthost.find(".");
218  if (dot_pos == std::string::npos) {
219  m_clientdomain = "unknown";
220  } else {
221  m_clientdomain = m_clienthost.substr(dot_pos+1, m_clienthost.size()-dot_pos-1);
222  m_clienthost = m_clienthost.substr(0, dot_pos);
223  }
224 }
225 
226 void
227 StatisticsSenderService::fillUDP(const std::string& siteName, bool usedFallback, std::string &udpinfo) {
228  std::ostringstream os;
229 
230  // Header - same for all IO accesses
231  os << "{";
232  if (!siteName.empty()) {
233  os << "\"site_name\":\"" << siteName << "\", ";
234  }
235  if (usedFallback) {
236  os << "\"fallback\": true, ";
237  }
238  std::string serverhost;
239  std::string serverdomain;
240  {
241  std::lock_guard<std::mutex> sentry(m_servermutex);
242  serverhost = m_serverhost;
243  serverdomain = m_serverdomain;
244  }
245 
246  os << "\"user_dn\":\"" << m_userdn << "\", ";
247  os << "\"client_host\":\"" << m_clienthost << "\", ";
248  os << "\"client_domain\":\"" << m_clientdomain << "\", ";
249  os << "\"server_host\":\"" << serverhost << "\", ";
250  os << "\"server_domain\":\"" << serverdomain << "\", ";
251  os << "\"unique_id\":\"" << m_guid << "-" << m_counter << "\", ";
252  os << "\"file_lfn\":\"" << m_filelfn << "\", ";
253  // Dashboard devs requested that we send out no app_info if a job ID
254  // is not present in the environment.
255  const char * jobId = getJobID();
256  if (jobId) {
257  os << "\"app_info\":\"" << jobId << "\", ";
258  }
259 
260  if (m_size >= 0) {
261  os << "\"file_size\":" << m_size << ", ";
262  }
263 
264  m_filestats.fillUDP(os);
265 
266  os << "}";
267  udpinfo = os.str();
268 }
269 
270 /*
271  * Pull the X509 user subject from the environment.
272  * Based on initial code from the Frontier client:
273  * http://cdcvs.fnal.gov/cgi-bin/public-cvs/cvsweb-public.cgi/~checkout~/frontier/client/frontier.c?rev=1.57&content-type=text/plain
274  * This was further extended by walking up the returned chain similar to the Globus function
275  * globus_gsi_cert_utils-6.6/library/globus_gsi_cert_utils.c:globus_gsi_cert_utils_get_eec
276  * globus_gsi_credential-3.5/library/globus_gsi_credential.c:globus_gsi_cred_read_proxy_bio
277  */
278 
279 /*
280  * Given a stack of x509 proxies, take a guess at the EEC.
281  * Assumes the proxies are in reverse sorted order and looks for the first
282  * proxy which is not a substring of the prior proxy.
283  * THIS DOES NOT VERIFY THE RESULTS, and is a best-effort GUESS.
284  * Again, DO NOT REUSE THIS CODE THINKING IT VERIFIES THE CHAIN!
285  */
286 static X509 * findEEC(STACK_OF(X509) * certstack) {
287  int depth = sk_X509_num(certstack);
288  if (depth == 0) {
289  return nullptr;
290  }
291  int idx = depth-1;
292  char *priorsubject = nullptr;
293  char *subject = nullptr;
294  X509 *x509cert = sk_X509_value(certstack, idx);
295  for (; x509cert && idx>0; idx--) {
296  subject = X509_NAME_oneline(X509_get_subject_name(x509cert),0,0);
297  if (subject && priorsubject && (strncmp(subject, priorsubject, strlen(subject)) != 0)) {
298  break;
299  }
300  x509cert = sk_X509_value(certstack, idx);
301  if (subject) {
302  OPENSSL_free(subject);
303  subject = nullptr;
304  }
305  }
306  if (subject) {
307  OPENSSL_free(subject);
308  subject = nullptr;
309  }
310  return x509cert;
311 }
312 
313 static bool
315  BIO *biof = nullptr;
316  STACK_OF(X509) *certs = nullptr;
317  char *subject = nullptr;
318  unsigned char *data = nullptr;
319  char *header = nullptr;
320  char *name = nullptr;
321  long len = 0U;
322 
323  if((biof = BIO_new_file(filename.c_str(), "r"))) {
324 
325  certs = sk_X509_new_null();
326  bool encountered_error = false;
327  while ((!encountered_error) && (!BIO_eof(biof)) && PEM_read_bio(biof, &name, &header, &data, &len)) {
328  if (strcmp(name, PEM_STRING_X509) == 0 || strcmp(name, PEM_STRING_X509_OLD) == 0) {
329  X509 * tmp_cert = nullptr;
330  // See WARNINGS section in http://www.openssl.org/docs/crypto/d2i_X509.html
331  // Without this cmsRun crashes on a mac with a valid grid proxy.
332  const unsigned char *p;
333  p=data;
334  tmp_cert = d2i_X509(&tmp_cert, &p, len);
335  if (tmp_cert) {
336  sk_X509_push(certs, tmp_cert);
337  } else {
338  encountered_error = true;
339  }
340  } // Note we ignore any proxy key in the file.
341  if (data) { OPENSSL_free(data); data = nullptr;}
342  if (header) { OPENSSL_free(header); header = nullptr;}
343  if (name) { OPENSSL_free(name); name = nullptr;}
344  }
345  X509 *x509cert = nullptr;
346  if (!encountered_error && sk_X509_num(certs)) {
347  x509cert = findEEC(certs);
348  }
349  if (x509cert) {
350  subject = X509_NAME_oneline(X509_get_subject_name(x509cert),0,0);
351  }
352  // Note we do not free x509cert directly, as it's still owned by the certs stack.
353  if (certs) {
354  sk_X509_pop_free(certs, X509_free);
355  x509cert = nullptr;
356  }
357  BIO_free(biof);
358  if (subject) {
359  result = subject;
360  OPENSSL_free(subject);
361  return true;
362  }
363  }
364  return false;
365 }
366 
367 bool
369  char *filename = getenv("X509_USER_PROXY");
370  if (filename && getX509SubjectFromFile(filename, result)) {
371  return true;
372  }
373  std::stringstream ss;
374  ss << "/tmp/x509up_u" << geteuid();
375  return getX509SubjectFromFile(ss.str(), result);
376 }
void setCurrentServer(const std::string &servername)
size
Write out results.
virtual struct addrinfo const * statisticsDestination() const =0
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Definition: X509.py:1
static const StorageStats & summary(void)
void filePreCloseEvent(std::string const &lfn, bool usedFallback)
#define NULL
Definition: scimark2.h:8
virtual std::set< std::string > const * statisticsInfo() const =0
static X509 * findEEC(STACK_OF(X509)*certstack)
tbb::concurrent_unordered_map< int, OperationStats > StorageStats
Definition: Guid.h:23
#define JOB_UNIQUE_ID_ENV_V2
static StorageClassToken tokenForStorageClassName(std::string const &iName)
virtual std::string const & siteName(void) const =0
T sqrt(T t)
Definition: SSEVec.h:18
#define JOB_UNIQUE_ID_ENV
bool isAvailable() const
Definition: Service.h:40
void fillUDP(const std::string &, bool, std::string &)
std::string toString(const std::pair< T, T > &aT)
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Definition: EPOS_Wrapper.h:82
#define HOST_NAME_MAX
StatisticsSenderService(edm::ParameterSet const &pset, edm::ActivityRegistry &ar)
static bool getX509SubjectFromFile(const std::string &filename, std::string &result)
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Definition: eostools.py:511
#define UPDATE_AND_OUTPUT_STATISTIC(x)