Fimeg/letta-server
1
0
Fork 0
Code Issues Pull Requests Actions 2 Packages Projects Releases Wiki Activity

feat: add tracking of advanced usage data (eg caching) [LET-6372] (#6449)

Browse Source 
* feat: init refactor

* feat: add helper code

* fix: missing file + test

* fix: just state/publish api
This commit is contained in:
Charles Packer
2025-11-28 21:21:20 -08:00
committed by Caren Thomas
parent 807c5c18d9
commit 131891e05f
19 changed files with 895 additions and 9 deletions
Download Patch File Download Diff File Expand all files Collapse all files

497
tests/integration_test_usage_tracking.py Normal file
View File

@@ -0,0 +1,497 @@
"""
Integration tests for advanced usage tracking (cache tokens, reasoning tokens).
These tests verify that:
1. Cache token data (cached_input_tokens, cache_write_tokens) is captured from providers
2. Reasoning token data is captured from reasoning models
3. The data flows correctly through streaming and non-streaming paths
4. Step-level and run-level aggregation works correctly
Provider-specific cache field mappings:
- Anthropic: cache_read_input_tokens, cache_creation_input_tokens
- OpenAI: prompt_tokens_details.cached_tokens, completion_tokens_details.reasoning_tokens
- Gemini: cached_content_token_count
"""
import json
import logging
import os
import uuid
from typing import Any, Dict, List, Optional, Tuple
import pytest
from dotenv import load_dotenv
from letta_client import AsyncLetta
from letta_client.types import (
AgentState,
MessageCreateParam,
)
from letta_client.types.agents import Run
from letta_client.types.agents.letta_streaming_response import LettaUsageStatistics
logger = logging.getLogger(__name__)
# Load environment variables
load_dotenv()
# ------------------------------
# Test Configuration
# ------------------------------
# Model configs for testing - these models should support caching or reasoning
CACHE_TEST_CONFIGS = [
# Anthropic Sonnet 4.5 with prompt caching
("anthropic/claude-sonnet-4-5-20250514", {"provider_type": "anthropic"}),
# OpenAI gpt-4o with prompt caching (Chat Completions API)
("openai/gpt-4o", {"provider_type": "openai"}),
# Gemini 3 Pro Preview with context caching
("google_ai/gemini-3-pro-preview", {"provider_type": "google_ai"}),
]
REASONING_TEST_CONFIGS = [
# Anthropic Sonnet 4.5 with thinking enabled
(
"anthropic/claude-sonnet-4-5-20250514",
{"provider_type": "anthropic", "thinking": {"type": "enabled", "budget_tokens": 1024}},
),
# OpenAI gpt-5.1 reasoning model (Responses API)
("openai/gpt-5.1", {"provider_type": "openai", "reasoning": {"reasoning_effort": "low"}}),
# Gemini 3 Pro Preview with thinking enabled
(
"google_ai/gemini-3-pro-preview",
{"provider_type": "google_ai", "thinking_config": {"include_thoughts": True, "thinking_budget": 1024}},
),
]
# Filter based on environment variable if set
requested = os.getenv("USAGE_TEST_CONFIG")
if requested:
# Filter configs to only include the requested one
CACHE_TEST_CONFIGS = [(h, s) for h, s in CACHE_TEST_CONFIGS if requested in h]
REASONING_TEST_CONFIGS = [(h, s) for h, s in REASONING_TEST_CONFIGS if requested in h]
def get_model_config(filename: str, model_settings_dir: str = "tests/model_settings") -> Tuple[str, dict]:
"""Load a model_settings file and return the handle and settings dict."""
filepath = os.path.join(model_settings_dir, filename)
with open(filepath, "r") as f:
config_data = json.load(f)
return config_data["handle"], config_data.get("model_settings", {})
# ------------------------------
# Fixtures
# ------------------------------
@pytest.fixture
def base_url() -> str:
"""Get the Letta server URL from environment or use default."""
return os.getenv("LETTA_SERVER_URL", "http://localhost:8283")
@pytest.fixture
async def async_client(base_url: str) -> AsyncLetta:
"""Create an async Letta client."""
token = os.getenv("LETTA_SERVER_TOKEN")
return AsyncLetta(base_url=base_url, token=token)
# ------------------------------
# Helper Functions
# ------------------------------
async def create_test_agent(
client: AsyncLetta,
model_handle: str,
model_settings: dict,
name_suffix: str = "",
) -> AgentState:
"""Create a test agent with the specified model configuration."""
agent = await client.agents.create(
name=f"usage-test-agent-{name_suffix}-{uuid.uuid4().hex[:8]}",
model=model_handle,
model_settings=model_settings,
include_base_tools=False, # Keep it simple for usage testing
)
return agent
async def cleanup_agent(client: AsyncLetta, agent_id: str) -> None:
"""Delete a test agent."""
try:
await client.agents.delete(agent_id)
except Exception as e:
logger.warning(f"Failed to cleanup agent {agent_id}: {e}")
def extract_usage_from_stream(messages: List[Any]) -> Optional[LettaUsageStatistics]:
"""Extract LettaUsageStatistics from a stream response."""
for msg in reversed(messages):
if isinstance(msg, LettaUsageStatistics):
return msg
return None
# ------------------------------
# Cache Token Tests
# ------------------------------
@pytest.mark.asyncio
@pytest.mark.parametrize("model_handle,model_settings", CACHE_TEST_CONFIGS)
async def test_cache_tokens_streaming(
async_client: AsyncLetta,
model_handle: str,
model_settings: dict,
) -> None:
"""
Test that cache token data is captured in streaming mode.
Cache hits typically occur on the second+ request with the same context,
so we send multiple messages to trigger caching.
"""
agent = await create_test_agent(async_client, model_handle, model_settings, "cache-stream")
try:
# First message - likely cache write (cache_creation_tokens for Anthropic)
messages1: List[Any] = []
async for chunk in async_client.agents.messages.send_message_streaming(
agent_id=agent.id,
messages=[MessageCreateParam(role="user", content="Hello, this is a test message for caching.")],
):
messages1.append(chunk)
usage1 = extract_usage_from_stream(messages1)
assert usage1 is not None, "Should receive usage statistics in stream"
assert usage1.prompt_tokens > 0, "Should have prompt tokens"
# Log first call usage for debugging
logger.info(
f"First call usage ({model_handle}): prompt={usage1.prompt_tokens}, "
f"cached_input={usage1.cached_input_tokens}, cache_write={usage1.cache_write_tokens}"
)
# Second message - same agent/context should trigger cache hits
messages2: List[Any] = []
async for chunk in async_client.agents.messages.send_message_streaming(
agent_id=agent.id,
messages=[MessageCreateParam(role="user", content="This is a follow-up message.")],
):
messages2.append(chunk)
usage2 = extract_usage_from_stream(messages2)
assert usage2 is not None, "Should receive usage statistics in stream"
# Log second call usage
logger.info(
f"Second call usage ({model_handle}): prompt={usage2.prompt_tokens}, "
f"cached_input={usage2.cached_input_tokens}, cache_write={usage2.cache_write_tokens}"
)
# Verify cache fields exist (values may be 0 if caching not available for this model/config)
assert hasattr(usage2, "cached_input_tokens"), "Should have cached_input_tokens field"
assert hasattr(usage2, "cache_write_tokens"), "Should have cache_write_tokens field"
# For providers with caching enabled, we expect either:
# - cache_write_tokens > 0 on first call (writing to cache)
# - cached_input_tokens > 0 on second call (reading from cache)
# Note: Not all providers always return cache data, so we just verify the fields exist
finally:
await cleanup_agent(async_client, agent.id)
@pytest.mark.asyncio
@pytest.mark.parametrize("model_handle,model_settings", CACHE_TEST_CONFIGS)
async def test_cache_tokens_non_streaming(
async_client: AsyncLetta,
model_handle: str,
model_settings: dict,
) -> None:
"""
Test that cache token data is captured in non-streaming (blocking) mode.
"""
agent = await create_test_agent(async_client, model_handle, model_settings, "cache-blocking")
try:
# First message
response1: Run = await async_client.agents.messages.send_message(
agent_id=agent.id,
messages=[MessageCreateParam(role="user", content="Hello, this is a test message for caching.")],
)
assert response1.usage is not None, "Should have usage in response"
logger.info(
f"First call usage ({model_handle}): prompt={response1.usage.prompt_tokens}, "
f"cached_input={response1.usage.cached_input_tokens}, cache_write={response1.usage.cache_write_tokens}"
)
# Second message - should trigger cache hit
response2: Run = await async_client.agents.messages.send_message(
agent_id=agent.id,
messages=[MessageCreateParam(role="user", content="This is a follow-up message.")],
)
assert response2.usage is not None, "Should have usage in response"
logger.info(
f"Second call usage ({model_handle}): prompt={response2.usage.prompt_tokens}, "
f"cached_input={response2.usage.cached_input_tokens}, cache_write={response2.usage.cache_write_tokens}"
)
# Verify cache fields exist
assert hasattr(response2.usage, "cached_input_tokens"), "Should have cached_input_tokens field"
assert hasattr(response2.usage, "cache_write_tokens"), "Should have cache_write_tokens field"
finally:
await cleanup_agent(async_client, agent.id)
# ------------------------------
# Reasoning Token Tests
# ------------------------------
@pytest.mark.asyncio
@pytest.mark.parametrize("model_handle,model_settings", REASONING_TEST_CONFIGS)
async def test_reasoning_tokens_streaming(
async_client: AsyncLetta,
model_handle: str,
model_settings: dict,
) -> None:
"""
Test that reasoning token data is captured from reasoning models in streaming mode.
"""
agent = await create_test_agent(async_client, model_handle, model_settings, "reasoning-stream")
try:
messages: List[Any] = []
async for chunk in async_client.agents.messages.send_message_streaming(
agent_id=agent.id,
messages=[MessageCreateParam(role="user", content="Think step by step: what is 2 + 2? Explain your reasoning.")],
):
messages.append(chunk)
usage = extract_usage_from_stream(messages)
assert usage is not None, "Should receive usage statistics in stream"
logger.info(
f"Reasoning usage ({model_handle}): prompt={usage.prompt_tokens}, "
f"completion={usage.completion_tokens}, reasoning={usage.reasoning_tokens}"
)
# Verify reasoning_tokens field exists
assert hasattr(usage, "reasoning_tokens"), "Should have reasoning_tokens field"
# For reasoning models, we expect reasoning_tokens > 0
# Note: Some providers may not always return reasoning token counts
if "gpt-5" in model_handle or "o3" in model_handle or "o1" in model_handle:
# OpenAI reasoning models should always have reasoning tokens
assert usage.reasoning_tokens > 0, f"OpenAI reasoning model {model_handle} should have reasoning_tokens > 0"
finally:
await cleanup_agent(async_client, agent.id)
@pytest.mark.asyncio
@pytest.mark.parametrize("model_handle,model_settings", REASONING_TEST_CONFIGS)
async def test_reasoning_tokens_non_streaming(
async_client: AsyncLetta,
model_handle: str,
model_settings: dict,
) -> None:
"""
Test that reasoning token data is captured from reasoning models in non-streaming mode.
"""
agent = await create_test_agent(async_client, model_handle, model_settings, "reasoning-blocking")
try:
response: Run = await async_client.agents.messages.send_message(
agent_id=agent.id,
messages=[MessageCreateParam(role="user", content="Think step by step: what is 2 + 2? Explain your reasoning.")],
)
assert response.usage is not None, "Should have usage in response"
logger.info(
f"Reasoning usage ({model_handle}): prompt={response.usage.prompt_tokens}, "
f"completion={response.usage.completion_tokens}, reasoning={response.usage.reasoning_tokens}"
)
# Verify reasoning_tokens field exists
assert hasattr(response.usage, "reasoning_tokens"), "Should have reasoning_tokens field"
# For OpenAI reasoning models, we expect reasoning_tokens > 0
if "gpt-5" in model_handle or "o3" in model_handle or "o1" in model_handle:
assert response.usage.reasoning_tokens > 0, f"OpenAI reasoning model {model_handle} should have reasoning_tokens > 0"
finally:
await cleanup_agent(async_client, agent.id)
# ------------------------------
# Step-Level Usage Tests
# ------------------------------
@pytest.mark.asyncio
@pytest.mark.parametrize("model_handle,model_settings", CACHE_TEST_CONFIGS[:1]) # Test with one config
async def test_step_level_usage_details(
async_client: AsyncLetta,
model_handle: str,
model_settings: dict,
) -> None:
"""
Test that step-level usage details (prompt_tokens_details, completion_tokens_details)
are properly persisted and retrievable.
"""
agent = await create_test_agent(async_client, model_handle, model_settings, "step-details")
try:
# Send a message to create a step
response: Run = await async_client.agents.messages.send_message(
agent_id=agent.id,
messages=[MessageCreateParam(role="user", content="Hello!")],
)
# Get the run's steps
steps = await async_client.runs.list_steps(run_id=response.id)
assert len(steps) > 0, "Should have at least one step"
step = steps[0]
logger.info(
f"Step usage ({model_handle}): prompt_tokens={step.prompt_tokens}, "
f"prompt_tokens_details={step.prompt_tokens_details}, "
f"completion_tokens_details={step.completion_tokens_details}"
)
# Verify the step has the usage fields
assert step.prompt_tokens > 0, "Step should have prompt_tokens"
assert step.completion_tokens >= 0, "Step should have completion_tokens"
assert step.total_tokens > 0, "Step should have total_tokens"
# The details fields may be None if no cache/reasoning was involved,
# but they should be present in the schema
# Note: This test mainly verifies the field exists and can hold data
finally:
await cleanup_agent(async_client, agent.id)
# ------------------------------
# Run-Level Aggregation Tests
# ------------------------------
@pytest.mark.asyncio
@pytest.mark.parametrize("model_handle,model_settings", CACHE_TEST_CONFIGS[:1]) # Test with one config
async def test_run_level_usage_aggregation(
async_client: AsyncLetta,
model_handle: str,
model_settings: dict,
) -> None:
"""
Test that run-level usage correctly aggregates cache/reasoning tokens from steps.
"""
agent = await create_test_agent(async_client, model_handle, model_settings, "run-aggregation")
try:
# Send multiple messages to create multiple steps
response1: Run = await async_client.agents.messages.send_message(
agent_id=agent.id,
messages=[MessageCreateParam(role="user", content="Message 1")],
)
response2: Run = await async_client.agents.messages.send_message(
agent_id=agent.id,
messages=[MessageCreateParam(role="user", content="Message 2")],
)
# Get run usage for the second run (which should have accumulated context)
run_usage = await async_client.runs.get_run_usage(run_id=response2.id)
logger.info(
f"Run usage ({model_handle}): prompt={run_usage.prompt_tokens}, "
f"completion={run_usage.completion_tokens}, total={run_usage.total_tokens}, "
f"cached_input={run_usage.cached_input_tokens}, cache_write={run_usage.cache_write_tokens}, "
f"reasoning={run_usage.reasoning_tokens}"
)
# Verify the run usage has all the expected fields
assert run_usage.prompt_tokens >= 0, "Run should have prompt_tokens"
assert run_usage.completion_tokens >= 0, "Run should have completion_tokens"
assert run_usage.total_tokens >= 0, "Run should have total_tokens"
assert hasattr(run_usage, "cached_input_tokens"), "Run should have cached_input_tokens"
assert hasattr(run_usage, "cache_write_tokens"), "Run should have cache_write_tokens"
assert hasattr(run_usage, "reasoning_tokens"), "Run should have reasoning_tokens"
finally:
await cleanup_agent(async_client, agent.id)
# ------------------------------
# Comprehensive End-to-End Test
# ------------------------------
@pytest.mark.asyncio
async def test_usage_tracking_end_to_end(async_client: AsyncLetta) -> None:
"""
End-to-end test that verifies the complete usage tracking flow:
1. Create agent with a model that supports caching
2. Send messages to trigger cache writes and reads
3. Verify step-level details are persisted
4. Verify run-level aggregation is correct
"""
# Use Anthropic Sonnet 4.5 for this test as it has the most comprehensive caching
model_handle = "anthropic/claude-sonnet-4-5-20250514"
model_settings = {"provider_type": "anthropic"}
agent = await create_test_agent(async_client, model_handle, model_settings, "e2e")
try:
# Send first message (should trigger cache write)
response1: Run = await async_client.agents.messages.send_message(
agent_id=agent.id,
messages=[MessageCreateParam(role="user", content="This is a longer message to ensure there's enough content to cache. " * 5)],
)
logger.info(f"E2E Test - First message usage: {response1.usage}")
# Send second message (should trigger cache read)
response2: Run = await async_client.agents.messages.send_message(
agent_id=agent.id,
messages=[MessageCreateParam(role="user", content="Short follow-up")],
)
logger.info(f"E2E Test - Second message usage: {response2.usage}")
# Verify basic usage is tracked
assert response1.usage is not None
assert response2.usage is not None
assert response1.usage.prompt_tokens > 0
assert response2.usage.prompt_tokens > 0
# Get steps for the second run
steps = await async_client.runs.list_steps(run_id=response2.id)
assert len(steps) > 0, "Should have steps for the run"
# Get run-level usage
run_usage = await async_client.runs.get_run_usage(run_id=response2.id)
assert run_usage.total_tokens > 0, "Run should have total tokens"
logger.info(
f"E2E Test - Run usage: prompt={run_usage.prompt_tokens}, "
f"completion={run_usage.completion_tokens}, "
f"cached_input={run_usage.cached_input_tokens}, "
f"cache_write={run_usage.cache_write_tokens}"
)
# The test passes if we get here without errors - cache data may or may not be present
# depending on whether the provider actually cached the content
finally:
await cleanup_agent(async_client, agent.id)