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llama-stack/llama_stack/providers/utils/telemetry/sqlite_trace_store.py
Dinesh Yeduguru 59eeaf7f81
Idiomatic REST API: Telemetry (#786) 
# What does this PR do?

Changes Telemetry API to follow more idiomatic REST


- [ ] Addresses issue (#issue)


## Test Plan

TBD, once i get an approval for rest endpoints
2025-01-16 12:08:46 -08:00

189 lines
6.8 KiB
Python
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# Copyright (c) Meta Platforms, Inc. and affiliates.
# All rights reserved.
#
# This source code is licensed under the terms described in the LICENSE file in
# the root directory of this source tree.
import json
from datetime import datetime
from typing import Dict, List, Optional, Protocol
import aiosqlite
from llama_stack.apis.telemetry import QueryCondition, Span, SpanWithStatus, Trace
class TraceStore(Protocol):
async def query_traces(
self,
attribute_filters: Optional[List[QueryCondition]] = None,
limit: Optional[int] = 100,
offset: Optional[int] = 0,
order_by: Optional[List[str]] = None,
) -> List[Trace]: ...
async def get_span_tree(
self,
span_id: str,
attributes_to_return: Optional[List[str]] = None,
max_depth: Optional[int] = None,
) -> Dict[str, SpanWithStatus]: ...
class SQLiteTraceStore(TraceStore):
def __init__(self, conn_string: str):
self.conn_string = conn_string
async def query_traces(
self,
attribute_filters: Optional[List[QueryCondition]] = None,
limit: Optional[int] = 100,
offset: Optional[int] = 0,
order_by: Optional[List[str]] = None,
) -> List[Trace]:
def build_where_clause() -> tuple[str, list]:
if not attribute_filters:
return "", []
ops_map = {"eq": "=", "ne": "!=", "gt": ">", "lt": "<"}
conditions = [
f"json_extract(s.attributes, '$.{condition.key}') {ops_map[condition.op.value]} ?"
for condition in attribute_filters
]
params = [condition.value for condition in attribute_filters]
where_clause = " WHERE " + " AND ".join(conditions)
return where_clause, params
def build_order_clause() -> str:
if not order_by:
return ""
order_clauses = []
for field in order_by:
desc = field.startswith("-")
clean_field = field[1:] if desc else field
order_clauses.append(f"t.{clean_field} {'DESC' if desc else 'ASC'}")
return " ORDER BY " + ", ".join(order_clauses)
# Build the main query
base_query = """
WITH matching_traces AS (
SELECT DISTINCT t.trace_id
FROM traces t
JOIN spans s ON t.trace_id = s.trace_id
{where_clause}
),
filtered_traces AS (
SELECT t.trace_id, t.root_span_id, t.start_time, t.end_time
FROM matching_traces mt
JOIN traces t ON mt.trace_id = t.trace_id
LEFT JOIN spans s ON t.trace_id = s.trace_id
{order_clause}
)
SELECT DISTINCT trace_id, root_span_id, start_time, end_time
FROM filtered_traces
LIMIT {limit} OFFSET {offset}
"""
where_clause, params = build_where_clause()
query = base_query.format(
where_clause=where_clause,
order_clause=build_order_clause(),
limit=limit,
offset=offset,
)
# Execute query and return results
async with aiosqlite.connect(self.conn_string) as conn:
conn.row_factory = aiosqlite.Row
async with conn.execute(query, params) as cursor:
rows = await cursor.fetchall()
return [
Trace(
trace_id=row["trace_id"],
root_span_id=row["root_span_id"],
start_time=datetime.fromisoformat(row["start_time"]),
end_time=datetime.fromisoformat(row["end_time"]),
)
for row in rows
]
async def get_span_tree(
self,
span_id: str,
attributes_to_return: Optional[List[str]] = None,
max_depth: Optional[int] = None,
) -> Dict[str, SpanWithStatus]:
# Build the attributes selection
attributes_select = "s.attributes"
if attributes_to_return:
json_object = ", ".join(
f"'{key}', json_extract(s.attributes, '$.{key}')"
for key in attributes_to_return
)
attributes_select = f"json_object({json_object})"
# SQLite CTE query with filtered attributes
query = f"""
WITH RECURSIVE span_tree AS (
SELECT s.*, 1 as depth, {attributes_select} as filtered_attributes
FROM spans s
WHERE s.span_id = ?
UNION ALL
SELECT s.*, st.depth + 1, {attributes_select} as filtered_attributes
FROM spans s
JOIN span_tree st ON s.parent_span_id = st.span_id
WHERE (? IS NULL OR st.depth < ?)
)
SELECT *
FROM span_tree
ORDER BY depth, start_time
"""
spans_by_id = {}
async with aiosqlite.connect(self.conn_string) as conn:
conn.row_factory = aiosqlite.Row
async with conn.execute(query, (span_id, max_depth, max_depth)) as cursor:
rows = await cursor.fetchall()
if not rows:
raise ValueError(f"Span {span_id} not found")
for row in rows:
span = SpanWithStatus(
span_id=row["span_id"],
trace_id=row["trace_id"],
parent_span_id=row["parent_span_id"],
name=row["name"],
start_time=datetime.fromisoformat(row["start_time"]),
end_time=datetime.fromisoformat(row["end_time"]),
attributes=json.loads(row["filtered_attributes"]),
status=row["status"].lower(),
)
spans_by_id[span.span_id] = span
return spans_by_id
async def get_trace(self, trace_id: str) -> Trace:
query = "SELECT * FROM traces WHERE trace_id = ?"
async with aiosqlite.connect(self.conn_string) as conn:
conn.row_factory = aiosqlite.Row
async with conn.execute(query, (trace_id,)) as cursor:
row = await cursor.fetchone()
if row is None:
raise ValueError(f"Trace {trace_id} not found")
return Trace(**row)
async def get_span(self, trace_id: str, span_id: str) -> Span:
query = "SELECT * FROM spans WHERE trace_id = ? AND span_id = ?"
async with aiosqlite.connect(self.conn_string) as conn:
conn.row_factory = aiosqlite.Row
async with conn.execute(query, (trace_id, span_id)) as cursor:
row = await cursor.fetchone()
if row is None:
raise ValueError(f"Span {span_id} not found")
return Span(**row)
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