ClickHouse/src/Interpreters/OpenTelemetrySpanLog.cpp

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#include "OpenTelemetrySpanLog.h"
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#include <DataTypes/DataTypeArray.h>
#include <DataTypes/DataTypeDate.h>
#include <DataTypes/DataTypeDateTime.h>
#include <DataTypes/DataTypeDateTime64.h>
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#include <DataTypes/DataTypesNumber.h>
#include <DataTypes/DataTypeString.h>
#include <DataTypes/DataTypeMap.h>
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#include <DataTypes/DataTypeUUID.h>
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#include <Common/hex.h>
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namespace DB
{
NamesAndTypesList OpenTelemetrySpanLogElement::getNamesAndTypes()
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{
return {
{"trace_id", std::make_shared<DataTypeUUID>()},
{"span_id", std::make_shared<DataTypeUInt64>()},
{"parent_span_id", std::make_shared<DataTypeUInt64>()},
{"operation_name", std::make_shared<DataTypeString>()},
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// DateTime64 is really unwieldy -- there is no "normal" way to convert
// it to an UInt64 count of microseconds, except:
// 1) reinterpretAsUInt64(reinterpretAsFixedString(date)), which just
// doesn't look sane;
// 2) things like toUInt64(toDecimal64(date, 6) * 1000000) that are also
// excessively verbose -- why do I have to write scale '6' again, and
// write out 6 zeros? -- and also don't work because of overflow.
// Also subtraction of two DateTime64 points doesn't work, so you can't
// get duration.
// It is much less hassle to just use UInt64 of microseconds.
{"start_time_us", std::make_shared<DataTypeUInt64>()},
{"finish_time_us", std::make_shared<DataTypeUInt64>()},
{"finish_date", std::make_shared<DataTypeDate>()},
{"attribute", std::make_shared<DataTypeMap>(std::make_shared<DataTypeString>(), std::make_shared<DataTypeString>())},
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};
}
NamesAndAliases OpenTelemetrySpanLogElement::getNamesAndAliases()
{
return
{
{"attribute.names", std::make_shared<DataTypeArray>(std::make_shared<DataTypeString>()), "mapKeys(attribute)"},
{"attribute.values", std::make_shared<DataTypeArray>(std::make_shared<DataTypeString>()), "mapKeys(attribute)"}
};
}
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void OpenTelemetrySpanLogElement::appendToBlock(MutableColumns & columns) const
{
size_t i = 0;
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columns[i++]->insert(trace_id);
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columns[i++]->insert(span_id);
columns[i++]->insert(parent_span_id);
columns[i++]->insert(operation_name);
columns[i++]->insert(start_time_us);
columns[i++]->insert(finish_time_us);
Extended range of DateTime64 to years 1925 - 2238 The Year 1925 is a starting point because most of the timezones switched to saner (mostly 15-minutes based) offsets somewhere during 1924 or before. And that significantly simplifies implementation. 2238 is to simplify arithmetics for sanitizing LUT index access; there are less than 0x1ffff days from 1925. * Extended DateLUTImpl internal LUT to 0x1ffff items, some of which represent negative (pre-1970) time values. As a collateral benefit, Date now correctly supports dates up to 2149 (instead of 2106). * Added a new strong typedef ExtendedDayNum, which represents dates pre-1970 and post 2149. * Functions that used to return DayNum now return ExtendedDayNum. * Refactored DateLUTImpl to untie DayNum from the dual role of being a value and an index (due to negative time). Index is now a different type LUTIndex with explicit conversion functions from DatNum, time_t, and ExtendedDayNum. * Updated DateLUTImpl to properly support values close to epoch start (1970-01-01 00:00), including negative ones. * Reduced resolution of DateLUTImpl::Values::time_at_offset_change to multiple of 15-minutes to allow storing 64-bits of time_t in DateLUTImpl::Value while keeping same size. * Minor performance updates to DateLUTImpl when building month LUT by skipping non-start-of-month days. * Fixed extractTimeZoneFromFunctionArguments to work correctly with DateTime64. * New unit-tests and stateless integration tests for both DateTime and DateTime64.
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columns[i++]->insert(DateLUT::instance().toDayNum(finish_time_us / 1000000).toUnderType());
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// The user might add some ints values, and we will have Int Field, and the
// insert will fail because the column requires Strings. Convert the fields
// here, because it's hard to remember to convert them in all other places.
Map map(attribute_names.size());
for (size_t attr_idx = 0; attr_idx < map.size(); ++attr_idx)
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{
map[attr_idx] = Tuple{attribute_names[attr_idx], toString(attribute_values[attr_idx])};
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}
columns[i++]->insert(map);
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}
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OpenTelemetrySpanHolder::OpenTelemetrySpanHolder(const std::string & _operation_name)
{
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trace_id = 0;
if (!CurrentThread::isInitialized())
{
// There may be no thread context if we're running inside the
// clickhouse-client, e.g. reading an external table provided with the
// `--external` option.
return;
}
auto & thread = CurrentThread::get();
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trace_id = thread.thread_trace_context.trace_id;
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if (trace_id == UUID())
return;
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parent_span_id = thread.thread_trace_context.span_id;
span_id = thread_local_rng();
operation_name = _operation_name;
start_time_us = std::chrono::duration_cast<std::chrono::microseconds>(
std::chrono::system_clock::now().time_since_epoch()).count();
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thread.thread_trace_context.span_id = span_id;
}
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OpenTelemetrySpanHolder::~OpenTelemetrySpanHolder()
{
try
{
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if (trace_id == UUID())
return;
// First of all, return old value of current span.
auto & thread = CurrentThread::get();
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assert(thread.thread_trace_context.span_id == span_id);
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thread.thread_trace_context.span_id = parent_span_id;
// Not sure what's the best way to access the log from here.
auto * thread_group = CurrentThread::getGroup().get();
// Not sure whether and when this can be null.
if (!thread_group)
{
return;
}
auto context = thread_group->query_context.lock();
if (!context)
{
// Both global and query contexts can be null when executing a
// background task, and global context can be null for some
// queries.
return;
}
auto log = context->getOpenTelemetrySpanLog();
if (!log)
{
// The log might be disabled.
return;
}
finish_time_us = std::chrono::duration_cast<std::chrono::microseconds>(
std::chrono::system_clock::now().time_since_epoch()).count();
log->add(OpenTelemetrySpanLogElement(
static_cast<OpenTelemetrySpan>(*this)));
}
catch (...)
{
tryLogCurrentException(__FUNCTION__);
}
}
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template <typename T>
static T readHex(const char * data)
{
T x{};
const char * end = data + sizeof(T) * 2;
while (data < end)
{
x *= 16;
x += unhex(*data);
++data;
}
return x;
}
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bool OpenTelemetryTraceContext::parseTraceparentHeader(const std::string & traceparent,
std::string & error)
{
trace_id = 0;
// Version 00, which is the only one we can parse, is fixed width. Use this
// fact for an additional sanity check.
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const int expected_length = strlen("xx-xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx-xxxxxxxxxxxxxxxx-xx");
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if (traceparent.length() != expected_length)
{
error = fmt::format("unexpected length {}, expected {}",
traceparent.length(), expected_length);
return false;
}
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const char * data = traceparent.data();
uint8_t version = readHex<uint8_t>(data);
data += 2;
if (version != 0)
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{
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error = fmt::format("unexpected version {}, expected 00", version);
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return false;
}
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if (*data != '-')
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{
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error = fmt::format("Malformed traceparant header: {}", traceparent);
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return false;
}
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++data;
UInt128 trace_id_128 = readHex<UInt128>(data);
trace_id = trace_id_128;
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data += 32;
if (*data != '-')
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{
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error = fmt::format("Malformed traceparant header: {}", traceparent);
return false;
}
++data;
span_id = readHex<UInt64>(data);
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data += 16;
if (*data != '-')
{
error = fmt::format("Malformed traceparant header: {}", traceparent);
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return false;
}
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++data;
trace_flags = readHex<UInt8>(data);
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return true;
}
std::string OpenTelemetryTraceContext::composeTraceparentHeader() const
{
// This span is a parent for its children, so we specify this span_id as a
// parent id.
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return fmt::format("00-{:032x}-{:016x}-{:02x}", __uint128_t(trace_id.toUnderType()),
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span_id,
// This cast is needed because fmt is being weird and complaining that
// "mixing character types is not allowed".
static_cast<uint8_t>(trace_flags));
}
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}