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Session.cc
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1 #include "CondCore/CondDB/interface/Session.h"
2 #include "SessionImpl.h"
3 //
4 
5 namespace cond {
6 
7  namespace persistency {
8 
9  Transaction::Transaction(SessionImpl& session) : m_session(&session) {}
10 
11  Transaction::Transaction(const Transaction& rhs) : m_session(rhs.m_session) {}
12 
13  Transaction& Transaction::operator=(const Transaction& rhs) {
14  m_session = rhs.m_session;
15  return *this;
16  }
17 
18  void Transaction::start(bool readOnly) {
19  if (m_session)
20  m_session->startTransaction(readOnly);
21  }
22 
23  void Transaction::commit() {
24  if (m_session)
25  m_session->commitTransaction();
26  }
27 
28  void Transaction::rollback() {
29  if (m_session)
30  m_session->rollbackTransaction();
31  }
32 
33  bool Transaction::isActive() { return m_session ? m_session->isTransactionActive() : false; }
34 
35  Session::Session() : m_session(new SessionImpl), m_transaction(*m_session) {}
36 
37  Session::Session(const std::shared_ptr<SessionImpl>& sessionImpl)
38  : m_session(sessionImpl), m_transaction(*m_session) {}
39 
40  Session::Session(const Session& rhs) : m_session(rhs.m_session), m_transaction(rhs.m_transaction) {}
41 
42  Session::~Session() {}
43 
44  Session& Session::operator=(const Session& rhs) {
45  m_session = rhs.m_session;
46  m_transaction = rhs.m_transaction;
47  return *this;
48  }
49 
50  void Session::close() { m_session->close(); }
51 
52  Transaction& Session::transaction() { return m_transaction; }
53 
54  //
55  bool Session::existsDatabase() {
56  m_session->openIovDb(SessionImpl::DO_NOT_THROW);
57  return m_session->transaction->iovDbExists;
58  }
59 
60  //
61  void Session::createDatabase() { m_session->openDb(); }
62 
63  IOVProxy Session::readIov(const std::string& tagName) {
64  m_session->openIovDb();
65  IOVProxy proxy(m_session);
66  proxy.load(tagName);
67  return proxy;
68  }
69 
70  IOVProxy Session::readIov(const std::string& tagName, const boost::posix_time::ptime& snapshottime) {
71  m_session->openIovDb();
72  IOVProxy proxy(m_session);
73  proxy.load(tagName, snapshottime);
74  return proxy;
75  }
76 
77  bool Session::existsIov(const std::string& tag) {
78  m_session->openIovDb();
79  return m_session->iovSchema().tagTable().select(tag);
80  }
81 
82  //bool Session::getIovRange(const std::string& tag,
83  // cond::Time_t begin,
84  // cond::Time_t end,
85  // std::vector<std::tuple<cond::Time_t, cond::Hash> >& range) {
86  // m_session->openIovDb();
87  // boost::posix_time::ptime snapshotTime;
88  // return m_session->iovSchema().iovTable().getRange(tag, begin, end, snapshotTime, range);
89  //}
90 
91  IOVEditor Session::createIov(const std::string& payloadType,
92  const std::string& tag,
93  cond::TimeType timeType,
94  cond::SynchronizationType synchronizationType) {
95  m_session->openDb();
96  if (m_session->iovSchema().tagTable().select(tag))
97  throwException("The specified tag \"" + tag + "\" already exist in the database.", "Session::createIov");
98  IOVEditor editor(m_session, tag, timeType, payloadType, synchronizationType);
99  return editor;
100  }
101 
102  IOVEditor Session::createIov(const std::string& payloadType,
103  const std::string& tag,
104  cond::TimeType timeType,
105  cond::SynchronizationType synchronizationType,
106  const boost::posix_time::ptime& creationTime) {
107  m_session->openDb();
108  if (m_session->iovSchema().tagTable().select(tag))
109  throwException("The specified tag \"" + tag + "\" already exist in the database.", "Session::createIov");
110  IOVEditor editor(m_session, tag, timeType, payloadType, synchronizationType, creationTime);
111  return editor;
112  }
113 
114  IOVEditor Session::createIovForPayload(const Hash& payloadHash,
115  const std::string& tag,
116  cond::TimeType timeType,
117  cond::SynchronizationType synchronizationType) {
118  m_session->openDb();
119  if (m_session->iovSchema().tagTable().select(tag))
120  throwException("The specified tag \"" + tag + "\" already exist in the database.",
121  "Session::createIovForPayload");
122  std::string payloadType("");
123  if (!m_session->iovSchema().payloadTable().getType(payloadHash, payloadType))
124  throwException("The specified payloadId \"" + payloadHash + "\" does not exist in the database.",
125  "Session::createIovForPayload");
126  IOVEditor editor(m_session, tag, timeType, payloadType, synchronizationType);
127  return editor;
128  }
129 
130  IOVEditor Session::editIov(const std::string& tag) {
131  m_session->openIovDb();
132  IOVEditor editor(m_session);
133  editor.load(tag);
134  return editor;
135  }
136 
137  void Session::clearIov(const std::string& tag) {
138  m_session->openIovDb();
139  m_session->iovSchema().iovTable().erase(tag);
140  }
141 
142  bool Session::existsGlobalTag(const std::string& name) {
143  m_session->openGTDb();
144  return m_session->gtSchema().gtTable().select(name);
145  }
146 
147  GTEditor Session::createGlobalTag(const std::string& name) {
148  m_session->openGTDb();
149  if (m_session->gtSchema().gtTable().select(name))
150  throwException("The specified Global Tag \"" + name + "\" already exist in the database.",
151  "Session::createGlobalTag");
152  GTEditor editor(m_session, name);
153  return editor;
154  }
155 
156  GTEditor Session::editGlobalTag(const std::string& name) {
157  m_session->openGTDb();
158  GTEditor editor(m_session);
159  editor.load(name);
160  return editor;
161  }
162 
163  GTProxy Session::readGlobalTag(const std::string& name) {
164  m_session->openGTDb();
165  GTProxy proxy(m_session);
166  proxy.load(name);
167  return proxy;
168  }
169 
170  GTProxy Session::readGlobalTag(const std::string& name, const std::string& preFix, const std::string& postFix) {
171  m_session->openGTDb();
172  GTProxy proxy(m_session);
173  proxy.load(name, preFix, postFix);
174  return proxy;
175  }
176 
177  cond::Hash Session::storePayloadData(const std::string& payloadObjectType,
178  const std::pair<Binary, Binary>& payloadAndStreamerInfoData,
179  const boost::posix_time::ptime& creationTime) {
180  m_session->openDb();
181  return m_session->iovSchema().payloadTable().insertIfNew(
182  payloadObjectType, payloadAndStreamerInfoData.first, payloadAndStreamerInfoData.second, creationTime);
183  }
184 
185  bool Session::fetchPayloadData(const cond::Hash& payloadHash,
186  std::string& payloadType,
187  cond::Binary& payloadData,
188  cond::Binary& streamerInfoData) {
189  m_session->openIovDb();
190  return m_session->iovSchema().payloadTable().select(payloadHash, payloadType, payloadData, streamerInfoData);
191  }
192 
193  RunInfoProxy Session::getRunInfo(cond::Time_t start, cond::Time_t end) {
194  if (!m_session->transaction.get())
195  throwException("The transaction is not active.", "Session::getRunInfo");
196  RunInfoProxy proxy(m_session);
197  proxy.load(start, end);
198  return proxy;
199  }
200 
201  cond::RunInfo_t Session::getLastRun() {
202  if (!m_session->transaction.get())
203  throwException("The transaction is not active.", "Session::getRunInfo");
204  m_session->openRunInfoDb();
205  cond::RunInfo_t ret;
206  ret.run = m_session->runInfoSchema().runInfoTable().getLastInserted(ret.start, ret.end);
207  return ret;
208  }
209 
210  RunInfoEditor Session::editRunInfo() {
211  RunInfoEditor editor(m_session);
212  editor.init();
213  return editor;
214  }
215 
216  std::string Session::connectionString() { return m_session->connectionString; }
217 
218  coral::ISessionProxy& Session::coralSession() {
219  if (!m_session->coralSession.get())
220  throwException("The session is not active.", "Session::coralSession");
221  return *m_session->coralSession;
222  }
223 
224  coral::ISchema& Session::nominalSchema() { return coralSession().nominalSchema(); }
225 
226  TransactionScope::TransactionScope(Transaction& transaction) : m_transaction(transaction), m_status(true) {
227  m_status = !m_transaction.isActive();
228  }
229 
230  TransactionScope::~TransactionScope() {
231  if (!m_status && m_transaction.isActive()) {
232  m_transaction.rollback();
233  }
234  }
235 
236  void TransactionScope::start(bool readOnly) {
237  m_transaction.start(readOnly);
238  m_status = false;
239  }
240 
241  void TransactionScope::commit() {
242  m_transaction.commit();
243  m_status = true;
244  }
245 
246  void TransactionScope::close() { m_status = true; }
247 
248  } // namespace persistency
249 } // namespace cond
start
Definition: start.py:1
cond::persistency::Session::editGlobalTag
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Definition: Session.cc:156
cond::persistency::Transaction::Transaction
Transaction(SessionImpl &session)
Definition: Session.cc:9
cond::persistency::Session::existsGlobalTag
bool existsGlobalTag(const std::string &name)
Definition: Session.cc:142
cond::persistency::Session::clearIov
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cond::persistency::Session::createIov
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