// Copyright (C) 2016-2017 Internet Systems Consortium, Inc. ("ISC") // // 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 #include #include #include #include #include using namespace isc; using namespace isc::dhcp; namespace { /// @brief Verifies the ability to add various data types to /// the bind array. TEST(PsqlBindArray, addDataTest) { PsqlBindArray b; // Declare a vector to add. Vectors are not currently duplicated // So they will go out of scope, unless caller ensures it. std::vector bytes; for (int i = 0; i < 10; i++) { bytes.push_back(i+1); } // Declare a string std::string not_temp_str("just a string"); // Now add all the items within a different scope. Everything should // still be valid once we exit this scope. { // Add a const char* b.add("booya!"); // Add the non temporary string b.add(not_temp_str); // Add a temporary string b.addTempString("walah walah washington"); // Add a one byte int uint8_t small_int = 25; b.add(small_int); // Add a four byte int int reg_int = 376; b.add(reg_int); // Add a eight byte unsigned int uint64_t big_int = 48786749032; b.add(big_int); // Add boolean true and false b.add((bool)(1)); b.add((bool)(0)); // Add IP addresses b.add(isc::asiolink::IOAddress("192.2.15.34")); b.add(isc::asiolink::IOAddress("3001::1")); // Add the vector b.add(bytes); } // We've left bind scope, everything should be intact. std::string expected = "0 : \"booya!\"\n" "1 : \"just a string\"\n" "2 : \"walah walah washington\"\n" "3 : \"25\"\n" "4 : \"376\"\n" "5 : \"48786749032\"\n" "6 : \"TRUE\"\n" "7 : \"FALSE\"\n" "8 : \"3221360418\"\n" "9 : \"3001::1\"\n" "10 : 0x0102030405060708090a\n"; EXPECT_EQ(expected, b.toText()); } /// @brief Defines a pointer to a PgSqlConnection typedef boost::shared_ptr PgSqlConnectionPtr; /// @brief Defines a pointer to a PgSqlResult typedef boost::shared_ptr PgSqlResultPtr; /// @brief Fixture for exercising basic PostgreSQL operations and data types /// /// This class is intended to be used to verify basic operations and to /// verify that each PostgreSQL data type currently used by Kea, can be /// correctly written to and read from PostgreSQL. Rather than use tables /// that belong to Kea the schema proper, it creates its own. Currently it /// consists of a single table, called "basics" which contains one column for /// each of the supported data types. /// /// It creates the schema during construction, deletes it upon destruction, and /// provides functions for executing SQL statements, executing prepared /// statements, fetching all rows in the table, and deleting all the rows in /// the table. class PgSqlBasicsTest : public ::testing::Test { public: /// @brief Column index for each column enum BasicColIndex { ID_COL, BOOL_COL, BYTEA_COL, BIGINT_COL, SMALLINT_COL, INT_COL, TEXT_COL, TIMESTAMP_COL, VARCHAR_COL, NUM_BASIC_COLS }; /// @brief Constructor /// /// Creates the database connection, opens the database, and destroys /// the table (if present) and then recreates it. PgSqlBasicsTest() : expectedColNames_(NUM_BASIC_COLS) { // Create database connection parameter list PgSqlConnection::ParameterMap params; params["name"] = "keatest"; params["user"] = "keatest"; params["password"] = "keatest"; // Create and open the database connection conn_.reset(new PgSqlConnection(params)); conn_->openDatabase(); // Create the list of expected column names expectedColNames_[ID_COL] = "id"; expectedColNames_[BOOL_COL] = "bool_col"; expectedColNames_[BYTEA_COL] = "bytea_col"; expectedColNames_[BIGINT_COL] = "bigint_col"; expectedColNames_[SMALLINT_COL] = "smallint_col"; expectedColNames_[INT_COL] = "int_col"; expectedColNames_[TEXT_COL] = "text_col"; expectedColNames_[TIMESTAMP_COL] = "timestamp_col"; expectedColNames_[VARCHAR_COL] = "varchar_col"; destroySchema(); createSchema(); } /// @brief Destructor /// /// Destroys the table. The database resources are freed and the connection /// closed by the destruction of conn_. virtual ~PgSqlBasicsTest () { destroySchema(); } /// @brief Gets the expected name of the column for a given column index /// /// Returns the name of column as we expect it to be when the column is /// fetched from the database. /// /// @param col index of the desired column /// /// @return string containing the column name /// /// @throw BadValue if the index is out of range const std::string& expectedColumnName(int col) { if (col < 0 || col >= NUM_BASIC_COLS) { isc_throw(BadValue, "definedColumnName: invalid column value" << col); } return (expectedColNames_[col]); } /// @brief Creates the basics table /// Asserts if the creation step fails void createSchema() { // One column for OID type, plus an auto-increment const char* sql = "CREATE TABLE basics ( " " id SERIAL PRIMARY KEY NOT NULL, " " bool_col BOOLEAN, " " bytea_col BYTEA, " " bigint_col BIGINT, " " smallint_col SMALLINT, " " int_col INT, " " text_col TEXT, " " timestamp_col TIMESTAMP WITH TIME ZONE, " " varchar_col VARCHAR(255) " "); "; PgSqlResult r(PQexec(*conn_, sql)); ASSERT_EQ(PQresultStatus(r), PGRES_COMMAND_OK) << " create basics table failed: " << PQerrorMessage(*conn_); } /// @brief Destroys the basics table /// Asserts if the destruction fails void destroySchema() { if (conn_) { PgSqlResult r(PQexec(*conn_, "DROP TABLE IF EXISTS basics;")); ASSERT_EQ(PQresultStatus(r), PGRES_COMMAND_OK) << " drop basics table failed: " << PQerrorMessage(*conn_); } } /// @brief Executes a SQL statement and tests for an expected outcome /// /// @param r pointer which will contain the result set returned by the /// statement's execution. /// @param sql string containing the SQL statement text. Note that /// PostgreSQL supports executing text which contains more than one SQL /// statement separated by semicolons. /// @param exp_outcome expected status value returned with within the /// result set such as PGRES_COMMAND_OK, PGRES_TUPLES_OK. /// @lineno line number from where the call was invoked /// /// Asserts if the result set status does not equal the expected outcome. void runSql(PgSqlResultPtr& r, const std::string& sql, int exp_outcome, int lineno) { r.reset(new PgSqlResult(PQexec(*conn_, sql.c_str()))); ASSERT_EQ(PQresultStatus(*r), exp_outcome) << " runSql at line: " << lineno << " failed, sql:[" << sql << "]\n reason: " << PQerrorMessage(*conn_); } /// @brief Executes a SQL statement and tests for an expected outcome /// /// @param r pointer which will contain the result set returned by the /// statement's execution. /// @param statement statement descriptor of the prepared statement /// to execute. /// @param bind_array bind array containing the input values to submit /// along with the statement /// @param exp_outcome expected status value returned with within the /// result set such as PGRES_COMMAND_OK, PGRES_TUPLES_OK. /// @lineno line number from where the call was invoked /// /// Asserts if the result set status does not equal the expected outcome. void runPreparedStatement(PgSqlResultPtr& r, PgSqlTaggedStatement& statement, PsqlBindArrayPtr bind_array, int exp_outcome, int lineno) { r.reset(new PgSqlResult(PQexecPrepared(*conn_, statement.name, statement.nbparams, &bind_array->values_[0], &bind_array->lengths_[0], &bind_array->formats_[0], 0))); ASSERT_EQ(PQresultStatus(*r), exp_outcome) << " runPreparedStatement at line: " << lineno << " statement name:[" << statement.name << "]\n reason: " << PQerrorMessage(*conn_); } /// @brief Fetches all of the rows currently in the table /// /// Executes a select statement which returns all of the rows in the /// basics table, in their order of insertion. Each row contains all /// of the defined columns, in the order they are defined. /// /// @param r pointer which will contain the result set returned by the /// statement's execution. /// @param exp_rows expected number of rows fetched. (This can be 0). /// @lineno line number from where the call was invoked /// /// Asserts if the result set status does not equal the expected outcome. void fetchRows(PgSqlResultPtr& r, int exp_rows, int line) { std::string sql = "SELECT" " id, bool_col, bytea_col, bigint_col, smallint_col, " " int_col, text_col," " extract(epoch from timestamp_col)::bigint as timestamp_col," " varchar_col FROM basics"; runSql(r, sql, PGRES_TUPLES_OK, line); ASSERT_EQ(r->getRows(), exp_rows) << "fetch at line: " << line << " wrong row count, expected: " << exp_rows << " , have: " << r->getRows(); } /// @brief Database connection PgSqlConnectionPtr conn_; /// @brief List of column names as we expect them to be in fetched rows std::vector expectedColNames_; }; // Macros defined to ease passing invocation line number for output tracing // (Yes I could have used scoped tracing but that's so ugly in code...) #define RUN_SQL(a,b,c) (runSql(a,b,c, __LINE__)) #define RUN_PREP(a,b,c,d) (runPreparedStatement(a,b,c,d, __LINE__)) #define FETCH_ROWS(a,b) (fetchRows(a,b,__LINE__)) #define WIPE_ROWS(a) (RUN_SQL(a, "DELETE FROM BASICS", PGRES_COMMAND_OK)) /// @brief Verifies that PgResultSet row and column meta-data is correct TEST_F(PgSqlBasicsTest, rowColumnBasics) { // We fetch the table contents, which at this point should be no rows. PgSqlResultPtr r; FETCH_ROWS(r, 0); // Column meta-data is determined by the select statement and is // present whether or not any rows were returned. EXPECT_EQ(r->getCols(), NUM_BASIC_COLS); // Negative indexes should be out of range. We test negative values // as PostgreSQL functions accept column values as type int. EXPECT_THROW(r->colCheck(-1), DbOperationError); // Iterate over the column indexes verifying: // 1. the column is valid // 2. the result set column name matches the expected column name for (int i = 0; i < NUM_BASIC_COLS; i++) { EXPECT_NO_THROW(r->colCheck(i)); EXPECT_EQ(r->getColumnLabel(i), expectedColumnName(i)); } // Verify above range column value is detected. EXPECT_THROW(r->colCheck(NUM_BASIC_COLS), DbOperationError); // Verify the fetching a column label for out of range columns // do NOT throw. std::string label; ASSERT_NO_THROW(label = r->getColumnLabel(-1)); EXPECT_EQ(label, "Unknown column:-1"); ASSERT_NO_THROW(label = r->getColumnLabel(NUM_BASIC_COLS)); std::ostringstream os; os << "Unknown column:" << NUM_BASIC_COLS; EXPECT_EQ(label, os.str()); // Verify row count and checking. With an empty result set all values of // row are invalid. EXPECT_EQ(r->getRows(), 0); EXPECT_THROW(r->rowCheck(-1), DbOperationError); EXPECT_THROW(r->rowCheck(0), DbOperationError); EXPECT_THROW(r->rowCheck(1), DbOperationError); // Verify Row-column check will always fail with an empty result set. EXPECT_THROW(r->rowColCheck(-1, 1), DbOperationError); EXPECT_THROW(r->rowColCheck(0, 1), DbOperationError); EXPECT_THROW(r->rowColCheck(1, 1), DbOperationError); // Insert three minimal rows. We don't really care about column content // for this test. int num_rows = 3; for (int i = 0; i < num_rows; i++) { RUN_SQL(r, "INSERT INTO basics (bool_col) VALUES ('t')", PGRES_COMMAND_OK); } // Fetch the newly created rows. FETCH_ROWS(r, num_rows); // Verify we row count and checking EXPECT_EQ(r->getRows(), num_rows); EXPECT_THROW(r->rowCheck(-1), DbOperationError); // Iterate over the row count, verifying that expected rows are valid for (int i = 0; i < num_rows; i++) { EXPECT_NO_THROW(r->rowCheck(i)); EXPECT_NO_THROW(r->rowColCheck(i, 0)); } // Verify an above range row is detected. EXPECT_THROW(r->rowCheck(num_rows), DbOperationError); } /// @brief Verify that we can read and write BOOL columns TEST_F(PgSqlBasicsTest, boolTest) { // Create a prepared statement for inserting bool_col const char* st_name = "bool_insert"; PgSqlTaggedStatement statement[] = { {1, { OID_BOOL }, st_name, "INSERT INTO BASICS (bool_col) values ($1)" } }; ASSERT_NO_THROW(conn_->prepareStatement(statement[0])); bool bools[] = { true, false }; PsqlBindArrayPtr bind_array(new PsqlBindArray()); PgSqlResultPtr r; // Insert bool rows for (int i = 0; i < 2; ++i) { bind_array.reset(new PsqlBindArray()); bind_array->add(bools[i]); RUN_PREP(r,statement[0], bind_array, PGRES_COMMAND_OK); } // Fetch the newly inserted rows. FETCH_ROWS(r, 2); // Verify the fetched bool values are what we expect. bool fetched_bool; int row = 0; for ( ; row < 2; ++row ) { // Verify the column is not null. ASSERT_FALSE(PgSqlExchange::isColumnNull(*r, row, BOOL_COL)); // Fetch and verify the column value fetched_bool = !bools[row]; ASSERT_NO_THROW(PgSqlExchange::getColumnValue(*r, row, BOOL_COL, fetched_bool)); EXPECT_EQ(fetched_bool, bools[row]); } // While we here, verify that bad row throws ASSERT_THROW(PgSqlExchange::getColumnValue(*r, row, 1, fetched_bool), DbOperationError); // Clean out the table WIPE_ROWS(r); // Verify we can insert a NULL boolean bind_array.reset(new PsqlBindArray()); bind_array->addNull(); // Run the insert with the bind array. RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); // Fetch the newly inserted row. FETCH_ROWS(r, 1); // Verify the column is null. ASSERT_TRUE(PgSqlExchange::isColumnNull(*r, 0, 1)); } /// @brief Verify that we can read and write BYTEA columns TEST_F(PgSqlBasicsTest, byteaTest) { const char* st_name = "bytea_insert"; PgSqlTaggedStatement statement[] = { {1, { OID_BYTEA }, st_name, "INSERT INTO BASICS (bytea_col) values ($1)" } }; ASSERT_NO_THROW(conn_->prepareStatement(statement[0])); const uint8_t bytes[] = { 0x01, 0x02, 0x03, 0x04 }; std::vector vbytes(bytes, bytes + sizeof(bytes)); // Verify we can insert bytea from a vector PsqlBindArrayPtr bind_array(new PsqlBindArray()); PgSqlResultPtr r; bind_array->add(vbytes); RUN_PREP(r,statement[0], bind_array, PGRES_COMMAND_OK); // Verify we can insert bytea from a buffer. bind_array.reset(new PsqlBindArray()); bind_array->add(bytes, sizeof(bytes)); RUN_PREP(r,statement[0], bind_array, PGRES_COMMAND_OK); // Fetch the newly inserted rows. int num_rows = 2; FETCH_ROWS(r, num_rows); uint8_t fetched_bytes[sizeof(bytes)]; size_t byte_count; int row = 0; for ( ; row < num_rows; ++row) { // Verify the column is not null. ASSERT_FALSE(PgSqlExchange::isColumnNull(*r, row, BYTEA_COL)); // Extract the data into a correctly sized buffer memset(fetched_bytes, 0, sizeof(fetched_bytes)); ASSERT_NO_THROW(PgSqlExchange::convertFromBytea(*r, row, BYTEA_COL, fetched_bytes, sizeof(fetched_bytes), byte_count)); // Verify the data is correct ASSERT_EQ(byte_count, sizeof(bytes)); for (int i = 0; i < sizeof(bytes); i++) { ASSERT_EQ(bytes[i], fetched_bytes[i]); } } // While we here, verify that bad row throws ASSERT_THROW(PgSqlExchange::convertFromBytea(*r, row, BYTEA_COL, fetched_bytes, sizeof(fetched_bytes), byte_count), DbOperationError); // Verify that too small of a buffer throws ASSERT_THROW(PgSqlExchange::convertFromBytea(*r, 0, BYTEA_COL, fetched_bytes, sizeof(fetched_bytes) - 1, byte_count), DbOperationError); // Clean out the table WIPE_ROWS(r); // Verify we can insert a NULL for a bytea column bind_array.reset(new PsqlBindArray()); bind_array->addNull(PsqlBindArray::BINARY_FMT); RUN_PREP(r,statement[0], bind_array, PGRES_COMMAND_OK); // Fetch the newly inserted row. FETCH_ROWS(r, 1); // Verify the column is null. ASSERT_TRUE(PgSqlExchange::isColumnNull(*r, 0, BYTEA_COL)); // Verify that fetching a NULL bytea, returns 0 byte count ASSERT_NO_THROW(PgSqlExchange::convertFromBytea(*r, 0, BYTEA_COL, fetched_bytes, sizeof(fetched_bytes), byte_count)); EXPECT_EQ(byte_count, 0); } /// @brief Verify that we can read and write BIGINT columns TEST_F(PgSqlBasicsTest, bigIntTest) { // Create a prepared statement for inserting BIGINT const char* st_name = "bigint_insert"; PgSqlTaggedStatement statement[] = { { 1, { OID_INT8 }, st_name, "INSERT INTO BASICS (bigint_col) values ($1)" } }; ASSERT_NO_THROW(conn_->prepareStatement(statement[0])); // Build our reference list of reference values std::vector ints; ints.push_back(-1); ints.push_back(0); ints.push_back(0x7fffffffffffffff); ints.push_back(0xffffffffffffffff); // Insert a row for each reference value PsqlBindArrayPtr bind_array; PgSqlResultPtr r; for (int i = 0; i < ints.size(); ++i) { bind_array.reset(new PsqlBindArray()); bind_array->add(ints[i]); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); } // Fetch the newly inserted rows. FETCH_ROWS(r, ints.size()); // Iterate over the rows, verifying each value against its reference int64_t fetched_int; int row = 0; for ( ; row < ints.size(); ++row ) { // Verify the column is not null. ASSERT_FALSE(PgSqlExchange::isColumnNull(*r, row, BIGINT_COL)); // Fetch and verify the column value fetched_int = 777; ASSERT_NO_THROW(PgSqlExchange::getColumnValue(*r, row, BIGINT_COL, fetched_int)); EXPECT_EQ(fetched_int, ints[row]); } // While we here, verify that bad row throws ASSERT_THROW(PgSqlExchange::getColumnValue(*r, row, BIGINT_COL, fetched_int), DbOperationError); // Clean out the table WIPE_ROWS(r); // Verify we can insert a NULL value. bind_array.reset(new PsqlBindArray()); bind_array->addNull(); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); // Fetch the newly inserted row. FETCH_ROWS(r, 1); // Verify the column is null. ASSERT_TRUE(PgSqlExchange::isColumnNull(*r, 0, BIGINT_COL)); } /// @brief Verify that we can read and write SMALLINT columns TEST_F(PgSqlBasicsTest, smallIntTest) { // Create a prepared statement for inserting a SMALLINT const char* st_name = "smallint_insert"; PgSqlTaggedStatement statement[] = { { 1, { OID_INT2 }, st_name, "INSERT INTO BASICS (smallint_col) values ($1)" } }; ASSERT_NO_THROW(conn_->prepareStatement(statement[0])); // Build our reference list of reference values std::vectorints; ints.push_back(-1); ints.push_back(0); ints.push_back(0x7fff); ints.push_back(0xffff); // Insert a row for each reference value PsqlBindArrayPtr bind_array; PgSqlResultPtr r; for (int i = 0; i < ints.size(); ++i) { bind_array.reset(new PsqlBindArray()); bind_array->add(ints[i]); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); } // Fetch the newly inserted rows. FETCH_ROWS(r, ints.size()); // Iterate over the rows, verifying each value against its reference int16_t fetched_int; int row = 0; for ( ; row < ints.size(); ++row ) { // Verify the column is not null. ASSERT_FALSE(PgSqlExchange::isColumnNull(*r, row, SMALLINT_COL)); // Fetch and verify the column value fetched_int = 777; ASSERT_NO_THROW(PgSqlExchange::getColumnValue(*r, row, SMALLINT_COL, fetched_int)); EXPECT_EQ(fetched_int, ints[row]); } // While we here, verify that bad row throws ASSERT_THROW(PgSqlExchange::getColumnValue(*r, row, SMALLINT_COL, fetched_int), DbOperationError); // Clean out the table WIPE_ROWS(r); // Verify we can insert a NULL value. bind_array.reset(new PsqlBindArray()); bind_array->addNull(); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); // Fetch the newly inserted row. FETCH_ROWS(r, 1); // Verify the column is null. ASSERT_TRUE(PgSqlExchange::isColumnNull(*r, 0, SMALLINT_COL)); } /// @brief Verify that we can read and write INT columns TEST_F(PgSqlBasicsTest, intTest) { // Create a prepared statement for inserting an INT const char* st_name = "int_insert"; PgSqlTaggedStatement statement[] = { { 1, { OID_INT4 }, st_name, "INSERT INTO BASICS (int_col) values ($1)" } }; ASSERT_NO_THROW(conn_->prepareStatement(statement[0])); // Build our reference list of reference values std::vector ints; ints.push_back(-1); ints.push_back(0); ints.push_back(0x7fffffff); ints.push_back(0xffffffff); // Insert a row for each reference value PsqlBindArrayPtr bind_array; PgSqlResultPtr r; for (int i = 0; i < ints.size(); ++i) { bind_array.reset(new PsqlBindArray()); bind_array->add(ints[i]); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); } // Fetch the newly inserted rows. FETCH_ROWS(r, ints.size()); // Iterate over the rows, verifying each value against its reference int32_t fetched_int; int row = 0; for ( ; row < ints.size(); ++row ) { // Verify the column is not null. ASSERT_FALSE(PgSqlExchange::isColumnNull(*r, row, INT_COL)); // Fetch and verify the column value fetched_int = 777; ASSERT_NO_THROW(PgSqlExchange::getColumnValue(*r, row, INT_COL, fetched_int)); EXPECT_EQ(fetched_int, ints[row]); } // While we here, verify that bad row throws ASSERT_THROW(PgSqlExchange::getColumnValue(*r, row, INT_COL, fetched_int), DbOperationError); // Clean out the table WIPE_ROWS(r); // Verify we can insert a NULL value. bind_array.reset(new PsqlBindArray()); bind_array->addNull(); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); // Fetch the newly inserted rows FETCH_ROWS(r, 1); // Verify the column is null. ASSERT_TRUE(PgSqlExchange::isColumnNull(*r, 0, INT_COL)); } /// @brief Verify that we can read and write TEXT columns TEST_F(PgSqlBasicsTest, textTest) { // Create a prepared statement for inserting TEXT PgSqlTaggedStatement statement[] = { { 1, { OID_TEXT }, "text_insert", "INSERT INTO BASICS (text_col) values ($1)" } }; ASSERT_NO_THROW(conn_->prepareStatement(statement[0])); // Our reference string. std::string ref_string = "This is a text string"; // Insert the reference from std::string PsqlBindArrayPtr bind_array; PgSqlResultPtr r; bind_array.reset(new PsqlBindArray()); bind_array->add(ref_string); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); // Insert the reference from a buffer bind_array.reset(new PsqlBindArray()); bind_array->add(ref_string.c_str()); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); // Fetch the newly inserted rows. FETCH_ROWS(r, 2); // Iterate over the rows, verifying the value against the reference std::string fetched_str; int row = 0; for ( ; row < 2; ++row ) { // Verify the column is not null. ASSERT_FALSE(PgSqlExchange::isColumnNull(*r, row, TEXT_COL)); // Fetch and verify the column value fetched_str = ""; ASSERT_NO_THROW(PgSqlExchange::getColumnValue(*r, row, TEXT_COL, fetched_str)); EXPECT_EQ(fetched_str, ref_string); } // While we here, verify that bad row throws ASSERT_THROW(PgSqlExchange::getColumnValue(*r, row, TEXT_COL, fetched_str), DbOperationError); // Clean out the table WIPE_ROWS(r); // Verify we can insert a NULL value. bind_array.reset(new PsqlBindArray()); bind_array->addNull(); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); // Fetch the newly inserted row. FETCH_ROWS(r, 1); // Verify the column is null. ASSERT_TRUE(PgSqlExchange::isColumnNull(*r, 0, TEXT_COL)); } /// @brief Verify that we can read and write VARCHAR columns TEST_F(PgSqlBasicsTest, varcharTest) { // Create a prepared statement for inserting a VARCHAR PgSqlTaggedStatement statement[] = { { 1, { OID_VARCHAR }, "varchar_insert", "INSERT INTO BASICS (varchar_col) values ($1)" } }; ASSERT_NO_THROW(conn_->prepareStatement(statement[0])); // Our reference string. std::string ref_string = "This is a varchar string"; // Insert the reference from std::string PsqlBindArrayPtr bind_array; PgSqlResultPtr r; bind_array.reset(new PsqlBindArray()); bind_array->add(ref_string); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); // Insert the reference from a buffer bind_array.reset(new PsqlBindArray()); bind_array->add(ref_string.c_str()); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); // Fetch the newly inserted rows. FETCH_ROWS(r, 2); // Iterate over the rows, verifying the value against the reference std::string fetched_str; int row = 0; for ( ; row < 2; ++row ) { // Verify the column is not null. ASSERT_FALSE(PgSqlExchange::isColumnNull(*r, row, VARCHAR_COL)); // Fetch and verify the column value fetched_str = ""; ASSERT_NO_THROW(PgSqlExchange::getColumnValue(*r, row, VARCHAR_COL, fetched_str)); EXPECT_EQ(fetched_str, ref_string); } // While we here, verify that bad row throws ASSERT_THROW(PgSqlExchange::getColumnValue(*r, row, VARCHAR_COL, fetched_str), DbOperationError); // Clean out the table WIPE_ROWS(r); // Verify we can insert a NULL value. bind_array.reset(new PsqlBindArray()); bind_array->addNull(); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); // Fetch the newly inserted rows FETCH_ROWS(r, 1); // Verify the column is null. ASSERT_TRUE(PgSqlExchange::isColumnNull(*r, 0, VARCHAR_COL)); } /// @brief Verify that we can read and write TIMESTAMP columns TEST_F(PgSqlBasicsTest, timeStampTest) { // Create a prepared statement for inserting a TIMESTAMP PgSqlTaggedStatement statement[] = { { 1, { OID_TIMESTAMP }, "timestamp_insert", "INSERT INTO BASICS (timestamp_col) values ($1)" } }; ASSERT_NO_THROW(conn_->prepareStatement(statement[0])); // Build our list of reference times time_t now; time(&now); std::vector times; times.push_back(now); times.push_back(DatabaseConnection::MAX_DB_TIME); // Note on a 32-bit OS this value is really -1. PosgreSQL will store it // and return it intact. times.push_back(0xFFFFFFFF); // Insert a row for each reference value PsqlBindArrayPtr bind_array; PgSqlResultPtr r; std::string time_str; for (int i = 0; i < times.size(); ++i) { // Timestamps are inserted as strings so convert them first ASSERT_NO_THROW(time_str = PgSqlExchange::convertToDatabaseTime(times[i])); // Add it to the bind array and insert it bind_array.reset(new PsqlBindArray()); bind_array->add(time_str); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); } // Insert a row with ref time plus one day times.push_back(now + 24*3600); ASSERT_NO_THROW(time_str = PgSqlExchange::convertToDatabaseTime(times[0], 24*3600)); bind_array.reset(new PsqlBindArray()); bind_array->add(time_str); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); // Fetch the newly inserted rows. FETCH_ROWS(r, times.size()); // Iterate over the rows, verifying the value against its reference std::string fetched_str; int row = 0; for ( ; row < times.size(); ++row ) { // Verify the column is not null. ASSERT_FALSE(PgSqlExchange::isColumnNull(*r, row, TIMESTAMP_COL)); // Fetch and verify the column value fetched_str = ""; ASSERT_NO_THROW(PgSqlExchange::getColumnValue(*r, row, TIMESTAMP_COL, fetched_str)); time_t fetched_time; ASSERT_NO_THROW(fetched_time = PgSqlExchange::convertFromDatabaseTime(fetched_str)); EXPECT_EQ(fetched_time, times[row]) << " row: " << row; } // While we here, verify that bad row throws ASSERT_THROW(PgSqlExchange::getColumnValue(*r, row, TIMESTAMP_COL, fetched_str), DbOperationError); // Clean out the table WIPE_ROWS(r); // Verify we can insert a NULL value. bind_array.reset(new PsqlBindArray()); bind_array->addNull(); RUN_PREP(r, statement[0], bind_array, PGRES_COMMAND_OK); // Fetch the newly inserted rows FETCH_ROWS(r, 1); // Verify the column is null. ASSERT_TRUE(PgSqlExchange::isColumnNull(*r, 0, TIMESTAMP_COL)); // Verify exceeding max time throws ASSERT_THROW(PgSqlExchange::convertToDatabaseTime(times[0], DatabaseConnection:: MAX_DB_TIME), BadValue); } }; // namespace