Files
netbird/proxy/internal/middleware/builtin/llm_response_parser/streaming_test.go
Maycon Santos b416063bcc [management,proxy] Agent network: per-account LLM gateway (policy, metering, multi-provider) (#6555)
* [agent-network] Shared proto, OpenAPI schema, and generated types

* [agent-network] Management: store, manager, synthesizer, policy engine, provider catalog, HTTP/gRPC API

Adds the account-scoped agent-network module: provider/policy/budget CRUD and
store, the reverse-proxy service synthesizer, policy selection + limit
enforcement, the provider catalog (incl. Vertex AI and AWS Bedrock entries),
and the management HTTP + proxy gRPC surfaces.

* [management] Fix agent-network proxy-peer fan-out on affected-peer recompute

The affected-peers resolver loaded only persisted reverse-proxy services, but
agent-network services are synthesized on demand and never persisted. As a
result the embedded proxy peer was never folded into the affected set when a
client's group changed, so the proxy received no network-map update for a newly
authorised client and rejected its handshake until a full resync (restart).

loadProxyServices now merges the synthesized agent-network services (injected
via a registration hook to avoid an import cycle), so proxy peers learn newly
authorised clients immediately.

* [proxy] Reverse-proxy middleware framework, chain, and request plumbing

The per-target middleware chain (slots, dispatcher, mutation gate, metadata
merger), body capture, access-log terminal sink, and the proxy wiring that
builds + runs chains for synthesized agent-network services.

* [proxy] LLM parsers, pricing, and builtin middlewares (OpenAI, Anthropic, Vertex AI, AWS Bedrock)

Request/response parsers and SSE/event-stream metering, the embedded pricing
table, and the builtin middleware set: request parser, router, policy
limit-check/record, cost meter, guardrail, identity inject, response parser.
Includes the path-routed providers — Google Vertex AI (keyfile:: service-account
OAuth minting) and AWS Bedrock (bearer auth, invoke/converse/streaming, optional
/bedrock prefix) — plus the Models allowlist and unmeterable-publisher deny.

* [proxy] IPv6 in-place apply and TCP accept-loop hardening on netstack listeners

* [agent-network] End-to-end test suite, module docs, and deployment preset

* [agent-network] Fix codespell typos and exclude false positives

- labelgen word pool: vermillion -> vermilion, racoon -> raccoon.
- codespell ignore list: add flate (Go compress/flate package), recordin
  (a test-local identifier), and unparseable (a valid alternative spelling used
  consistently across identifiers + a metadata-value constant).

* [management] Set LastSeen on injected proxy peer in realstack test (MySQL strict-mode)

The injected embedded proxy peer had a PeerStatus with a zero LastSeen, which
serializes to '0000-00-00' and is rejected by MySQL in strict mode (SQLite
tolerates it). Set LastSeen to a valid time so SaveAccount succeeds on both
engines.

* [agent-network] Remove e2e shell-script suite from this branch

The end-to-end shell scripts under scripts/e2e/ are maintained in a separate
testing suite and are not part of this change set.

* [agent-network] Polish module docs: remove internal review scaffolding, fix links, verify diagrams

Strip PR-review framing, commit references, absolute paths, and stale internal
references from the agent-network module docs; fix broken relative links; verify
all diagrams against the current architecture. Remove the internal AI-reviewer
prompt file.

* [management] Refine session expiration handling to support 3-state encoding for SSO deadlines

* [agent-network] Relocate agentnetwork package to internals/modules

Move management/server/agentnetwork (and its catalog/, labelgen/, types/
subpackages) to management/internals/modules/agentnetwork, alongside the
reverse-proxy module, and rewrite all importers. Pure relocation: package names,
the synthesizer + affectedpeers registration hook, and store access (shared
store.Store) are unchanged, so no import cycle is introduced (affectedpeers
still depends only on the agentnetwork/types leaf).

* [agent-network] Co-locate HTTP handlers in the module (RegisterEndpoints)

Move the agent-network HTTP handlers from server/http/handlers/agentnetwork into
the module at internals/modules/agentnetwork/handlers (package handlers) and
rename the entrypoint AddEndpoints -> RegisterEndpoints, matching the
reverse-proxy module convention. Wiring in http/handler.go updated accordingly.
2026-06-27 13:41:00 +02:00

170 lines
6.5 KiB
Go

package llm_response_parser
import (
"context"
"testing"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"github.com/netbirdio/netbird/proxy/internal/middleware"
)
func TestInvoke_OpenAIStreamingWithUsage(t *testing.T) {
m := newTestMiddleware(t)
body := loadFixture(t, "openai_stream.txt")
in := &middleware.Input{
Slot: middleware.SlotOnResponse,
Status: 200,
RespHeaders: []middleware.KV{{Key: "Content-Type", Value: "text/event-stream"}},
RespBody: body,
Metadata: []middleware.KV{
{Key: middleware.KeyLLMProvider, Value: "openai"},
{Key: middleware.KeyLLMModel, Value: "gpt-4o-mini"},
},
}
out, err := m.Invoke(context.Background(), in)
require.NoError(t, err, "Invoke must not error on streaming OpenAI body")
in123, _ := metaValue(out.Metadata, middleware.KeyLLMInputTokens)
assert.Equal(t, "123", in123, "input tokens must come from final-chunk usage block")
outTok, _ := metaValue(out.Metadata, middleware.KeyLLMOutputTokens)
assert.Equal(t, "45", outTok, "output tokens must come from final-chunk usage block")
totTok, _ := metaValue(out.Metadata, middleware.KeyLLMTotalTokens)
assert.Equal(t, "168", totTok, "total tokens must come from final-chunk usage block")
completion, ok := metaValue(out.Metadata, middleware.KeyLLMResponseCompletion)
require.True(t, ok, "completion must be emitted for streaming responses")
assert.Equal(t, "Hello, world!", completion, "deltas must concatenate into the buffered fixture's text")
}
func TestInvoke_OpenAIStreamingWithoutUsage(t *testing.T) {
body := []byte(`data: {"choices":[{"delta":{"content":"Hi"}}]}
data: {"choices":[{"delta":{"content":" there"}}]}
data: [DONE]
`)
usage, completion := accumulateOpenAIStream(body)
assert.Equal(t, int64(0), usage.InputTokens, "input tokens must stay zero without a usage frame")
assert.Equal(t, int64(0), usage.OutputTokens, "output tokens must stay zero without a usage frame")
assert.Equal(t, int64(0), usage.TotalTokens, "total tokens must stay zero without a usage frame")
assert.Equal(t, "Hi there", completion, "deltas must still accumulate when usage is absent")
}
func TestInvoke_OpenAIStreamingNoUsage_OmitsUsageMetadata(t *testing.T) {
m := newTestMiddleware(t)
body := []byte(`data: {"choices":[{"delta":{"content":"Hello"}}]}
data: [DONE]
`)
in := &middleware.Input{
Slot: middleware.SlotOnResponse,
Status: 200,
RespHeaders: []middleware.KV{{Key: "Content-Type", Value: "text/event-stream"}},
RespBody: body,
Metadata: []middleware.KV{{Key: middleware.KeyLLMProvider, Value: "openai"}},
}
out, err := m.Invoke(context.Background(), in)
require.NoError(t, err, "Invoke must not error on usage-less streams")
_, hasIn := metaValue(out.Metadata, middleware.KeyLLMInputTokens)
_, hasOut := metaValue(out.Metadata, middleware.KeyLLMOutputTokens)
_, hasTot := metaValue(out.Metadata, middleware.KeyLLMTotalTokens)
assert.False(t, hasIn, "input tokens omitted when no usage frame")
assert.False(t, hasOut, "output tokens omitted when no usage frame")
assert.False(t, hasTot, "total tokens omitted when no usage frame")
completion, ok := metaValue(out.Metadata, middleware.KeyLLMResponseCompletion)
require.True(t, ok, "completion must still be emitted from deltas")
assert.Equal(t, "Hello", completion, "completion must come from delta accumulation")
}
func TestInvoke_AnthropicStreaming(t *testing.T) {
m := newTestMiddleware(t)
body := loadFixture(t, "anthropic_stream.txt")
in := &middleware.Input{
Slot: middleware.SlotOnResponse,
Status: 200,
RespHeaders: []middleware.KV{{Key: "Content-Type", Value: "text/event-stream"}},
RespBody: body,
Metadata: []middleware.KV{
{Key: middleware.KeyLLMProvider, Value: "anthropic"},
{Key: middleware.KeyLLMModel, Value: "claude-sonnet-4-5"},
},
}
out, err := m.Invoke(context.Background(), in)
require.NoError(t, err, "Invoke must not error on streaming Anthropic body")
in123, _ := metaValue(out.Metadata, middleware.KeyLLMInputTokens)
assert.Equal(t, "123", in123, "input tokens must come from message_start usage")
outTok, _ := metaValue(out.Metadata, middleware.KeyLLMOutputTokens)
assert.Equal(t, "45", outTok, "output tokens must come from message_delta usage")
totTok, _ := metaValue(out.Metadata, middleware.KeyLLMTotalTokens)
assert.Equal(t, "168", totTok, "total tokens must be input+output for anthropic streaming")
completion, ok := metaValue(out.Metadata, middleware.KeyLLMResponseCompletion)
require.True(t, ok, "completion must be emitted from text_delta accumulation")
assert.Equal(t, "Hello, world!", completion, "anthropic streaming text must accumulate across content_block_delta events")
}
func TestInvoke_StreamingTruncatedBody_BestEffort(t *testing.T) {
m := newTestMiddleware(t)
full := loadFixture(t, "anthropic_stream.txt")
cut := len(full) / 2
truncated := full[:cut]
in := &middleware.Input{
Slot: middleware.SlotOnResponse,
Status: 200,
RespHeaders: []middleware.KV{{Key: "Content-Type", Value: "text/event-stream"}},
RespBody: truncated,
RespBodyTruncated: true,
Metadata: []middleware.KV{{Key: middleware.KeyLLMProvider, Value: "anthropic"}},
}
require.NotPanics(t, func() {
_, err := m.Invoke(context.Background(), in)
require.NoError(t, err, "truncated streaming body must not surface as error")
}, "Invoke must never panic on a truncated SSE body")
}
func TestInvoke_StreamingEmptyBody(t *testing.T) {
m := newTestMiddleware(t)
in := &middleware.Input{
Slot: middleware.SlotOnResponse,
Status: 200,
RespHeaders: []middleware.KV{{Key: "Content-Type", Value: "text/event-stream"}},
RespBody: nil,
Metadata: []middleware.KV{{Key: middleware.KeyLLMProvider, Value: "openai"}},
}
out, err := m.Invoke(context.Background(), in)
require.NoError(t, err, "empty SSE body must not surface as error")
assert.Empty(t, out.Metadata, "no metadata for empty SSE body")
}
func TestAccumulateAnthropicStream_PartialUsage(t *testing.T) {
body := []byte(`event: message_start
data: {"type":"message_start","message":{"usage":{"input_tokens":10}}}
event: content_block_delta
data: {"type":"content_block_delta","delta":{"type":"text_delta","text":"hi"}}
`)
usage, completion := accumulateAnthropicStream(body)
assert.Equal(t, int64(10), usage.InputTokens, "partial input_tokens must survive truncated stream")
assert.Equal(t, int64(0), usage.OutputTokens, "output_tokens stays zero without message_delta")
assert.Equal(t, "hi", completion, "completion must come from observed text_delta events")
}