Mercurial > hg > orthanc
view OrthancFramework/UnitTestsSources/SQLiteTests.cpp @ 4803:1eca4378d761
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author | Alain Mazy <am@osimis.io> |
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date | Mon, 25 Oct 2021 14:15:20 +0200 |
parents | d9473bd5ed43 |
children | 7053502fbf97 |
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/** * Orthanc - A Lightweight, RESTful DICOM Store * Copyright (C) 2012-2016 Sebastien Jodogne, Medical Physics * Department, University Hospital of Liege, Belgium * Copyright (C) 2017-2021 Osimis S.A., Belgium * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public License * as published by the Free Software Foundation, either version 3 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program. If not, see * <http://www.gnu.org/licenses/>. **/ #if ORTHANC_UNIT_TESTS_LINK_FRAMEWORK == 1 // Must be the first to be sure to use the Orthanc framework shared library # include <OrthancFramework.h> #endif #include <gtest/gtest.h> #include "../Sources/SystemToolbox.h" #include "../Sources/SQLite/Connection.h" #include "../Sources/SQLite/Statement.h" #include "../Sources/SQLite/Transaction.h" #include <sqlite3.h> using namespace Orthanc; TEST(SQLite, Configuration) { /** * The system-wide version of SQLite under OS X uses * SQLITE_THREADSAFE==2 (SQLITE_CONFIG_SERIALIZED), whereas the * static builds of Orthanc use SQLITE_THREADSAFE==1 * (SQLITE_CONFIG_MULTITHREAD). In any case, we wish to ensure that * SQLITE_THREADSAFE!=0 (SQLITE_CONFIG_SINGLETHREAD). **/ ASSERT_NE(0, sqlite3_threadsafe()); } TEST(SQLite, Connection) { SystemToolbox::RemoveFile("UnitTestsResults/coucou"); SQLite::Connection c; c.Open("UnitTestsResults/coucou"); c.Execute("CREATE TABLE c(k INTEGER PRIMARY KEY AUTOINCREMENT, v INTEGER)"); c.Execute("INSERT INTO c VALUES(NULL, 42);"); } TEST(SQLite, StatementReferenceBasic) { sqlite3* db; sqlite3_open(":memory:", &db); { SQLite::StatementReference r(db, "SELECT * FROM sqlite_master"); ASSERT_EQ(0u, r.GetReferenceCount()); { SQLite::StatementReference r1(r); ASSERT_EQ(1u, r.GetReferenceCount()); ASSERT_EQ(0u, r1.GetReferenceCount()); { SQLite::StatementReference r2(r); ASSERT_EQ(2u, r.GetReferenceCount()); ASSERT_EQ(0u, r1.GetReferenceCount()); ASSERT_EQ(0u, r2.GetReferenceCount()); SQLite::StatementReference r3(r2); ASSERT_EQ(3u, r.GetReferenceCount()); ASSERT_EQ(0u, r1.GetReferenceCount()); ASSERT_EQ(0u, r2.GetReferenceCount()); ASSERT_EQ(0u, r3.GetReferenceCount()); } ASSERT_EQ(1u, r.GetReferenceCount()); ASSERT_EQ(0u, r1.GetReferenceCount()); { SQLite::StatementReference r2(r); ASSERT_EQ(2u, r.GetReferenceCount()); ASSERT_EQ(0u, r1.GetReferenceCount()); ASSERT_EQ(0u, r2.GetReferenceCount()); } ASSERT_EQ(1u, r.GetReferenceCount()); ASSERT_EQ(0u, r1.GetReferenceCount()); } ASSERT_EQ(0u, r.GetReferenceCount()); } sqlite3_close(db); } TEST(SQLite, StatementBasic) { SQLite::Connection c; c.OpenInMemory(); SQLite::Statement s(c, "SELECT * from sqlite_master"); s.Run(); for (unsigned int i = 0; i < 5; i++) { SQLite::Statement cs(c, SQLITE_FROM_HERE, "SELECT * from sqlite_master"); cs.Step(); } } namespace { static bool destroyed; class MyFunc : public SQLite::IScalarFunction { public: MyFunc() { destroyed = false; } virtual ~MyFunc() ORTHANC_OVERRIDE { destroyed = true; } virtual const char* GetName() const ORTHANC_OVERRIDE { return "MYFUNC"; } virtual unsigned int GetCardinality() const ORTHANC_OVERRIDE { return 2; } virtual void Compute(SQLite::FunctionContext& context) ORTHANC_OVERRIDE { context.SetIntResult(1000 + context.GetIntValue(0) * context.GetIntValue(1)); } }; class MyDelete : public SQLite::IScalarFunction { public: std::set<int> deleted_; virtual const char* GetName() const ORTHANC_OVERRIDE { return "MYDELETE"; } virtual unsigned int GetCardinality() const ORTHANC_OVERRIDE { return 1; } virtual void Compute(SQLite::FunctionContext& context) ORTHANC_OVERRIDE { deleted_.insert(context.GetIntValue(0)); context.SetNullResult(); } }; } TEST(SQLite, ScalarFunction) { { SQLite::Connection c; c.OpenInMemory(); c.Register(new MyFunc()); c.Execute("CREATE TABLE t(id INTEGER PRIMARY KEY, v1 INTEGER, v2 INTEGER);"); c.Execute("INSERT INTO t VALUES(NULL, 2, 3);"); c.Execute("INSERT INTO t VALUES(NULL, 4, 4);"); c.Execute("INSERT INTO t VALUES(NULL, 6, 5);"); SQLite::Statement t(c, "SELECT MYFUNC(v1, v2), v1, v2 FROM t"); int i = 0; while (t.Step()) { ASSERT_EQ(t.ColumnInt(0), 1000 + t.ColumnInt(1) * t.ColumnInt(2)); i++; } ASSERT_EQ(3, i); ASSERT_FALSE(destroyed); } ASSERT_TRUE(destroyed); } TEST(SQLite, CascadedDeleteCallback) { SQLite::Connection c; c.OpenInMemory(); MyDelete *func = new MyDelete(); c.Register(func); c.Execute("CREATE TABLE parent(id INTEGER PRIMARY KEY, dummy INTEGER);"); c.Execute("CREATE TABLE child(" " id INTEGER PRIMARY KEY, " " parent INTEGER REFERENCES parent(id) ON DELETE CASCADE, " " value INTEGER);"); c.Execute("CREATE TRIGGER childRemoved " "AFTER DELETE ON child " "FOR EACH ROW BEGIN " " SELECT MYDELETE(old.value); " "END;"); c.Execute("INSERT INTO parent VALUES(42, 100);"); c.Execute("INSERT INTO parent VALUES(43, 101);"); c.Execute("INSERT INTO child VALUES(NULL, 42, 4200);"); c.Execute("INSERT INTO child VALUES(NULL, 42, 4201);"); c.Execute("INSERT INTO child VALUES(NULL, 43, 4300);"); c.Execute("INSERT INTO child VALUES(NULL, 43, 4301);"); // The following command deletes "parent(43, 101)", then in turns // "child(NULL, 43, 4300/4301)", then calls the MyDelete on 4300 and // 4301 c.Execute("DELETE FROM parent WHERE dummy=101"); ASSERT_EQ(2u, func->deleted_.size()); ASSERT_TRUE(func->deleted_.find(4300) != func->deleted_.end()); ASSERT_TRUE(func->deleted_.find(4301) != func->deleted_.end()); } TEST(SQLite, EmptyTransactions) { try { SQLite::Connection c; c.OpenInMemory(); c.Execute("CREATE TABLE a(id INTEGER PRIMARY KEY);"); c.Execute("INSERT INTO a VALUES(NULL)"); { SQLite::Transaction t(c); t.Begin(); { SQLite::Statement s(c, SQLITE_FROM_HERE, "SELECT * FROM a"); s.Step(); } //t.Commit(); } { SQLite::Statement s(c, SQLITE_FROM_HERE, "SELECT * FROM a"); s.Step(); } } catch (OrthancException& e) { fprintf(stderr, "Exception: [%s]\n", e.What()); throw e; } } TEST(SQLite, Types) { SQLite::Connection c; c.OpenInMemory(); c.Execute("CREATE TABLE a(id INTEGER PRIMARY KEY, value)"); { SQLite::Statement s(c, std::string("SELECT * FROM a")); ASSERT_EQ(2, s.ColumnCount()); ASSERT_FALSE(s.Step()); } { SQLite::Statement s(c, SQLITE_FROM_HERE, std::string("SELECT * FROM a")); ASSERT_FALSE(s.Step()); ASSERT_EQ("SELECT * FROM a", s.GetOriginalSQLStatement()); } { SQLite::Statement s(c, SQLITE_FROM_HERE, "INSERT INTO a VALUES(NULL, ?);"); s.BindNull(0); ASSERT_TRUE(s.Run()); s.Reset(); s.BindBool(0, true); ASSERT_TRUE(s.Run()); s.Reset(); s.BindInt(0, 42); ASSERT_TRUE(s.Run()); s.Reset(); s.BindInt64(0, 42ll); ASSERT_TRUE(s.Run()); s.Reset(); s.BindDouble(0, 42.5); ASSERT_TRUE(s.Run()); s.Reset(); s.BindCString(0, "Hello"); ASSERT_TRUE(s.Run()); s.Reset(); s.BindBlob(0, "Hello", 5); ASSERT_TRUE(s.Run()); s.Reset(); } { SQLite::Statement s(c, SQLITE_FROM_HERE, std::string("SELECT * FROM a")); ASSERT_TRUE(s.Step()); ASSERT_EQ(SQLite::COLUMN_TYPE_NULL, s.GetColumnType(1)); ASSERT_TRUE(s.ColumnIsNull(1)); ASSERT_TRUE(s.Step()); ASSERT_EQ(SQLite::COLUMN_TYPE_INTEGER, s.GetColumnType(1)); ASSERT_TRUE(s.ColumnBool(1)); ASSERT_TRUE(s.Step()); ASSERT_EQ(SQLite::COLUMN_TYPE_INTEGER, s.GetColumnType(1)); ASSERT_EQ(42, s.ColumnInt(1)); ASSERT_TRUE(s.Step()); ASSERT_EQ(SQLite::COLUMN_TYPE_INTEGER, s.GetColumnType(1)); ASSERT_EQ(42ll, s.ColumnInt64(1)); ASSERT_TRUE(s.Step()); ASSERT_EQ(SQLite::COLUMN_TYPE_FLOAT, s.GetColumnType(1)); ASSERT_DOUBLE_EQ(42.5, s.ColumnDouble(1)); ASSERT_TRUE(s.Step()); ASSERT_EQ(SQLite::COLUMN_TYPE_TEXT, s.GetColumnType(1)); ASSERT_EQ("Hello", s.ColumnString(1)); ASSERT_TRUE(s.Step()); ASSERT_EQ(SQLite::COLUMN_TYPE_BLOB, s.GetColumnType(1)); ASSERT_EQ(5, s.ColumnByteLength(1)); ASSERT_TRUE(!memcmp("Hello", s.ColumnBlob(1), 5)); std::string t; ASSERT_TRUE(s.ColumnBlobAsString(1, &t)); ASSERT_EQ("Hello", t); ASSERT_FALSE(s.Step()); } }