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349 | // Copyright (C) 2018-2022 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 <config.h>
#include <asiolink/io_address.h>
#include <exceptions/exceptions.h>
#include <boost/date_time/gregorian/gregorian.hpp><--- Include file: not found. Please note: Cppcheck does not need standard library headers to get proper results.
#include <mysql/mysql_binding.h>
using namespace boost::posix_time;
using namespace isc::asiolink;
using namespace isc::data;
using namespace isc::util;
namespace isc {
namespace db {
std::string
MySqlBinding::getString() const {
// Make sure the binding type is text.
validateAccess<std::string>();
if (length_ == 0) {
return (std::string());
}
return (std::string(buffer_.begin(), buffer_.begin() + length_));
}
std::string
MySqlBinding::getStringOrDefault(const std::string& default_value) const {
if (amNull()) {
return (default_value);
}
return (getString());
}
ElementPtr
MySqlBinding::getJSON() const {
if (amNull()) {
return (ElementPtr());
}
std::string s = getString();
return (Element::fromJSON(s));
}
std::vector<uint8_t>
MySqlBinding::getBlob() const {
// Make sure the binding type is blob.
validateAccess<std::vector<uint8_t> >();
if (length_ == 0) {
return (std::vector<uint8_t>());
}
return (std::vector<uint8_t>(buffer_.begin(), buffer_.begin() + length_));
}
std::vector<uint8_t>
MySqlBinding::getBlobOrDefault(const std::vector<uint8_t>& default_value) const {
if (amNull()) {
return (default_value);
}
return (getBlob());
}
float
MySqlBinding::getFloat() const {
// It may seem a bit weird that we use getInteger template method
// for getting a floating point value. However, the getInteger method
// seems to be generic enough to support it. If we were to redo the
// API of this class we would probably introduce a getNumericValue
// method instead of getInteger. However, we already have getInteger
// used in many places so we should stick to it.
return (getInteger<float>());
}
ptime
MySqlBinding::getTimestamp() const {
// Make sure the binding type is timestamp.
validateAccess<ptime>();
// Copy the buffer contents into native timestamp structure and
// then convert it to posix time.
const MYSQL_TIME* database_time = reinterpret_cast<const MYSQL_TIME*>(&buffer_[0]);
return (convertFromDatabaseTime(*database_time));
}
ptime
MySqlBinding::getTimestampOrDefault(const ptime& default_value) const {
if (amNull()) {
return (default_value);
}
return (getTimestamp());
}
MySqlBindingPtr
MySqlBinding::createString(const unsigned long length) {
MySqlBindingPtr binding(new MySqlBinding(MySqlBindingTraits<std::string>::column_type,
length));
return (binding);
}
MySqlBindingPtr
MySqlBinding::createString(const std::string& value) {
MySqlBindingPtr binding(new MySqlBinding(MySqlBindingTraits<std::string>::column_type,
value.size()));
binding->setBufferValue(value.begin(), value.end());
return (binding);
}
MySqlBindingPtr
MySqlBinding::condCreateString(const Optional<std::string>& value) {
return (value.unspecified() ? MySqlBinding::createNull() : createString(value));
}
MySqlBindingPtr
MySqlBinding::createBlob(const unsigned long length) {
MySqlBindingPtr binding(new MySqlBinding(MySqlBindingTraits<std::vector<uint8_t> >::column_type,
length));
return (binding);
}
MySqlBindingPtr
MySqlBinding::createFloat(const float value) {
// It may seem a bit weird that we use createInteger template method
// for setting a floating point value. However, the setInteger method
// seems to be generic enough to support it. If we were to redo the
// API of this class we would probably introduce a createNumericValue
// method instead of createInteger. However, we already have createInteger
// used in many places so we should stick to it.
return (createInteger<float>(value));
}
MySqlBindingPtr
MySqlBinding::createBool() {
return (createInteger<uint8_t>(static_cast<uint8_t>(false)));
}
MySqlBindingPtr
MySqlBinding::createBool(const bool value) {
return (createInteger<uint8_t>(static_cast<uint8_t>(value)));
}
MySqlBindingPtr
MySqlBinding::condCreateBool(const util::Optional<bool>& value) {
if (value.unspecified()) {
return (MySqlBinding::createNull());
}
return (createInteger<uint8_t>(static_cast<uint8_t>(value.get())));
}
MySqlBindingPtr
MySqlBinding::condCreateIPv4Address(const Optional<IOAddress>& value) {
// If the value is unspecified it doesn't matter what the value is.
if (value.unspecified()) {
return (MySqlBinding::createNull());
}
// Make sure it is an IPv4 address.
if (!value.get().isV4()) {
isc_throw(BadValue, "unable to create a MySQL binding: specified value '"
<< value.get().toText() << "' is not an IPv4 address");
}
return (createInteger<uint32_t>(value.get().toUint32()));
}
MySqlBindingPtr
MySqlBinding::createTimestamp(const boost::posix_time::ptime& timestamp) {
MySqlBindingPtr binding(new MySqlBinding(MySqlBindingTraits<ptime>::column_type,
MySqlBindingTraits<ptime>::length));
binding->setTimestampValue(timestamp);
return (binding);
}
MySqlBindingPtr
MySqlBinding::createTimestamp() {
MySqlBindingPtr binding(new MySqlBinding(MySqlBindingTraits<ptime>::column_type,
MySqlBindingTraits<ptime>::length));
return (binding);
}
MySqlBindingPtr
MySqlBinding::createNull() {
MySqlBindingPtr binding(new MySqlBinding(MYSQL_TYPE_NULL, 0));
return (binding);
}
void
MySqlBinding::convertToDatabaseTime(const time_t input_time,
MYSQL_TIME& output_time) {
// Clear output data.
memset(&output_time, 0, sizeof(MYSQL_TIME));
// Convert to broken-out time
struct tm time_tm;
(void) localtime_r(&input_time, &time_tm);
// Place in output expire structure.
output_time.year = time_tm.tm_year + 1900;
output_time.month = time_tm.tm_mon + 1; // Note different base
output_time.day = time_tm.tm_mday;
output_time.hour = time_tm.tm_hour;
output_time.minute = time_tm.tm_min;
output_time.second = time_tm.tm_sec;
output_time.second_part = 0; // No fractional seconds
output_time.neg = my_bool(0); // Not negative
}
void
MySqlBinding::convertToDatabaseTime(const boost::posix_time::ptime& input_time,
MYSQL_TIME& output_time) {
if (input_time.is_not_a_date_time()) {
isc_throw(BadValue, "Time value is not a valid posix time");
}
// Clear output data.
memset(&output_time, 0, sizeof(MYSQL_TIME));
output_time.year = input_time.date().year();
output_time.month = input_time.date().month();
output_time.day = input_time.date().day();
output_time.hour = input_time.time_of_day().hours();
output_time.minute = input_time.time_of_day().minutes();
output_time.second = input_time.time_of_day().seconds();
/// @todo Use fractional seconds instead of 0 when minimum supported
/// MySQL version has it.
output_time.second_part = 0;
/* output_time.second_part = input_time.time_of_day().fractional_seconds()
*1000000/time_duration::ticks_per_second(); */
output_time.neg = my_bool(0);
}
void
MySqlBinding::convertToDatabaseTime(const time_t cltt,
const uint32_t valid_lifetime,
MYSQL_TIME& expire) {
// Calculate expiry time. Store it in the 64-bit value so as we can detect
// overflows.
int64_t expire_time_64 = static_cast<int64_t>(cltt) +
static_cast<int64_t>(valid_lifetime);
// Even on 64-bit systems MySQL doesn't seem to accept the timestamps
// beyond the max value of int32_t.
if (expire_time_64 > DatabaseConnection::MAX_DB_TIME) {
isc_throw(BadValue, "Time value is too large: " << expire_time_64);
}
// Clear output data.
memset(&expire, 0, sizeof(MYSQL_TIME));
const time_t expire_time = static_cast<time_t>(expire_time_64);
// Convert to broken-out time
struct tm expire_tm;
(void) localtime_r(&expire_time, &expire_tm);
// Place in output expire structure.
expire.year = expire_tm.tm_year + 1900;
expire.month = expire_tm.tm_mon + 1; // Note different base
expire.day = expire_tm.tm_mday;
expire.hour = expire_tm.tm_hour;
expire.minute = expire_tm.tm_min;
expire.second = expire_tm.tm_sec;
expire.second_part = 0; // No fractional seconds
expire.neg = my_bool(0); // Not negative
}
void
MySqlBinding::convertFromDatabaseTime(const MYSQL_TIME& expire,
uint32_t valid_lifetime,
time_t& cltt) {
// Copy across fields from MYSQL_TIME structure.
struct tm expire_tm;
memset(&expire_tm, 0, sizeof(expire_tm));
expire_tm.tm_year = expire.year - 1900;
expire_tm.tm_mon = expire.month - 1;
expire_tm.tm_mday = expire.day;
expire_tm.tm_hour = expire.hour;
expire_tm.tm_min = expire.minute;
expire_tm.tm_sec = expire.second;
expire_tm.tm_isdst = -1; // Let the system work out about DST
// Convert to local time
cltt = mktime(&expire_tm) - valid_lifetime;
}
ptime
MySqlBinding::convertFromDatabaseTime(const MYSQL_TIME& database_time) {
/// @todo Use fractional seconds instead of 0 when minimum supported
/// MySQL version has it.
long fractional = 0;
// long fractional = database_time.second_part * time_duration::ticks_per_second()/1000000;
ptime pt(boost::gregorian::date(database_time.year,
boost::gregorian::greg_month(database_time.month),
database_time.day),
time_duration(database_time.hour, database_time.minute,
database_time.second, fractional));
return (pt);
}
MySqlBinding::MySqlBinding(enum_field_types buffer_type,
const size_t length)
// Make sure that the buffer has non-zero length in case we need to
// reference its first element to assign it to the MySQL binding.
: buffer_(length > 0 ? length : 1), length_(length),
null_value_(buffer_type == MYSQL_TYPE_NULL) {
memset(&bind_, 0, sizeof(MYSQL_BIND));
bind_.buffer_type = buffer_type;
if (buffer_type != MYSQL_TYPE_NULL) {
bind_.buffer = &buffer_[0];
bind_.buffer_length = length_;
bind_.length = &length_;
bind_.is_null = &null_value_;
}
}
void
MySqlBinding::setBufferLength(const unsigned long length) {
length_ = length;
// It appears that the MySQL connectors sometimes require that the
// buffer is specified (set to a non-zero value), even if the buffer
// length is 0. We have found that setting the buffer to 0 value would
// cause the value inserted to the database be NULL. In order to avoid
// it, we simply make sure that the buffer length is at least 1 byte and
// provide the pointer to this byte within the binding.
buffer_.resize(length_ > 0 ? length_ : 1);
bind_.buffer = &buffer_[0];
bind_.buffer_length = length_;
}
void
MySqlBinding::setTimestampValue(const ptime& timestamp) {
MYSQL_TIME database_time;
convertToDatabaseTime(timestamp, database_time);
// Copy database time into the buffer.
memcpy(static_cast<void*>(&buffer_[0]), reinterpret_cast<char*>(&database_time),
sizeof(MYSQL_TIME));
bind_.buffer = &buffer_[0];
}
} // end of namespace isc::db
} // end of namespace isc
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