c43ed65c3b
* add Vertex AI routing support * include Vertex smokes in action CI
1050 lines
44 KiB
TypeScript
1050 lines
44 KiB
TypeScript
/**
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* OpenCode agent — secure harness around OpenCode CLI (v2 / opencode-ai >=1.14.x).
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*
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* Adapted from `./opencode.ts` for the SDK-v2 / Effect-ts CLI rewrite that
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* landed in the `opencode-ai@1.14.x` line and is current at `1.15.x`. The
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* legacy file is kept as `./opencode.ts` for reference / quick revert; the
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* agent registry (`./index.ts`) imports this module instead.
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*
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* Differences vs the v1 harness:
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* - NDJSON event set is now `tool_use | step_start | step_finish | text |
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* reasoning | error`. `init`, `message`, `result`, and standalone
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* `tool_result` are no longer emitted by `cli/cmd/run.ts emit()`. The
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* v2 `tool_use` event covers both the completion and the error terminal
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* states (read `part.state.status`); the per-call duration tracking that
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* was on the v1 `tool_result` handler now lives on `tool_use`.
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* - `reasoning` events (Gemini thinking blocks etc.) only emit when the
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* CLI is invoked with `--thinking`. Always passed in `baseArgs`.
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* - The `task` tool's callID is now stable across the whole `tool-input-*
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* → tool-call → tool-result/tool-error` chain (v1 had a callID-mismatch
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* quirk that forced a FIFO fallback on the parent). Subagent-finish
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* attribution is exact-match-only — the FIFO scaffolding is gone.
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* - `experimental.batch_tool` is declared-but-inert at v1.15.0 (no read
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* site upstream). Removed from the injected config until upstream wires
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* it back; keeping the flag would just be dead config.
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*
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* Identical to v1:
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* - bash: "deny" via OPENCODE_CONFIG_CONTENT (agent cannot shell out)
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* - OPENCODE_PERMISSION filesystem sandbox — deny all external paths except /tmp
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* - MCP ShellTool provides restricted shell (filtered env, no secrets)
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* - MCP server injected via `mcp.<name> = { type: "remote", url }`
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* - ASKPASS handles git auth separately (token never in subprocess env)
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* - bus-event plugin (`opencodePlugin.ts`) re-emits subagent
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* `message.part.updated` events that the CLI's run-loop filters out by
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* `part.sessionID !== sessionID`. Plugin discovery path
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* (`<XDG_CONFIG_HOME>/opencode/{plugin,plugins}/*.{ts,js}`) and
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* `bus.subscribeAll()` are unchanged at v1.15.0.
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*/
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import { mkdirSync, writeFileSync } from "node:fs";
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import { join } from "node:path";
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import { performance } from "node:perf_hooks";
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import * as core from "@actions/core";
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import { pullfrogMcpName } from "../external.ts";
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import { BEDROCK_MODEL_ID_ENV } from "../models.ts";
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import type { ToolState } from "../toolState.ts";
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import { markActivity } from "../utils/activity.ts";
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import { type AgentDiagnostic, formatAgentHangBody } from "../utils/agentHangReport.ts";
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import { formatJsonValue, log } from "../utils/cli.ts";
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import { installCodexAuth } from "../utils/codexHome.ts";
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import { findProviderErrorMatch } from "../utils/providerErrors.ts";
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import { addSkill, installBundledSkills } from "../utils/skills.ts";
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import {
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DEFAULT_MAX_RETAINED_BYTES,
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SPAWN_ACTIVITY_TIMEOUT_CODE,
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SpawnTimeoutError,
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spawn,
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TailBuffer,
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} from "../utils/subprocess.ts";
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import type { TodoTracker } from "../utils/todoTracking.ts";
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import { getDevDependencyVersion } from "../utils/version.ts";
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import { resolveVertexOpenCodeModel } from "../utils/vertex.ts";
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import {
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PULLFROG_BUS_EVENT_TYPE,
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PULLFROG_OPENCODE_PLUGIN_FILENAME,
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PULLFROG_OPENCODE_PLUGIN_SOURCE,
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} from "./opencodePlugin.ts";
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import {
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autoSelectModel,
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buildReviewerAgentConfig,
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geminiHighThinkingOverrides,
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installOpencodeCli,
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type OpenCodeConfig,
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} from "./opencodeShared.ts";
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import {
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buildLearningsReflectionPrompt,
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runPostRunRetryLoop,
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shouldRunReflection,
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} from "./postRun.ts";
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import { REVIEWER_AGENT_NAME } from "./reviewer.ts";
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import { formatWithLabel, ORCHESTRATOR_LABEL, SessionLabeler } from "./sessionLabeler.ts";
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import {
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type AgentResult,
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type AgentRunContext,
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type AgentUsage,
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agent,
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logTokenTable,
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MAX_STDERR_LINES,
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} from "./shared.ts";
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// v1.14+ npm package: postinstall.mjs renames the platform-specific native
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// binary to `bin/opencode.exe` for every OS (incl. linux/darwin).
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const installCli = () => installOpencodeCli({ binPath: "bin/opencode.exe" });
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// ── config ─────────────────────────────────────────────────────────────────────
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// NOTE: OpenCode's per-call `max_tokens` defaults to 32_000. We previously
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// overrode this via `OPENCODE_EXPERIMENTAL_OUTPUT_TOKEN_MAX = 5000` in #616
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// to lower OpenRouter's per-call upfront budget reservation — back when the
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// `ROUTER_PER_RUN_LIMIT_USD = 25` per-run key cap meant that reservation was
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// a hard gate that could lock low-balance accounts out of starting a run.
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//
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// That gate is gone (see `app/api/proxy-token/route.ts` ~line 422 — "Per-run
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// key budget … is decoupled from wallet balance"); the router now mints
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// keys with `keyLimitCents = balance + buffer` ($50 / $5 / $0). The override
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// no longer materially helps, and as a hard per-call output truncation it
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// actively hurt: a single `create_pull_request_review` tool_use with many
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// inline comments would truncate mid-stream past 5K output tokens, the JSON
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// was unparseable, and the tool never invoked. We hit this on PR #710's
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// verify-downshift PR. Removed in #710 — using OpenCode's 32K default.
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//
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// If you need to re-cap output for some reason, set
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// `OPENCODE_EXPERIMENTAL_OUTPUT_TOKEN_MAX` in the action env. OpenCode's
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// top-level `limit.output` config field has no read site (silently dropped
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// on merge in session/llm.ts), so the env var is the only working knob.
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// `geminiHighThinkingOverrides` is shared with v1 — imported above. The merge
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// order in v1.15 (`base ← model.options ← agent.options ← variant`,
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// `session/llm.ts:141`) means our `provider.google.models[id].options` config
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// still flows through unmodified.
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function buildSecurityConfig(ctx: AgentRunContext, model: string | undefined): string {
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const config: OpenCodeConfig = {
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permission: {
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bash: "deny",
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edit: "allow",
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read: "allow",
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webfetch: "allow",
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external_directory: "allow",
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skill: "allow",
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},
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mcp: {
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[pullfrogMcpName]: { type: "remote", url: ctx.mcpServerUrl },
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},
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agent: (() => {
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const cfg = buildReviewerAgentConfig(model);
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const reviewerModel = (cfg[REVIEWER_AGENT_NAME] as { model?: string })?.model ?? "(inherit)";
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log.info(`» subagent models: reviewfrog=${reviewerModel}`);
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return cfg;
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})(),
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// NB: `experimental.batch_tool: true` was opt-in at v1.4.x but is
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// declared-but-inert at v1.15.0 — the schema accepts it (`config/config.ts`)
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// and the SDK exposes the type, but no runtime call site reads it. removed
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// here to avoid carrying dead config; re-add when upstream wires the batch
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// tool back. see wiki/prompt.md and the v2 plan doc for the audit trail.
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//
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// gemini-3 thinking pinned to high for review depth; gpt and anthropic
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// effort set elsewhere (gpt: upstream default, anthropic: --effort flag in claude.ts).
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provider: { google: { models: geminiHighThinkingOverrides() } },
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};
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if (model) {
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config.model = model;
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const slashIndex = model.indexOf("/");
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if (slashIndex > 0) {
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config.enabled_providers = [model.slice(0, slashIndex).toLowerCase()];
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}
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}
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return JSON.stringify(config);
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}
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// ── NDJSON event types ─────────────────────────────────────────────────────────
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//
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// Mirrors `cli/cmd/run.ts emit()` at opencode-ai v1.15.0. The CLI writes one
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// envelope per call: `{ type, timestamp, sessionID, ...payload }`. Six event
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// types: tool_use, step_start, step_finish, text, reasoning, error.
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// `init`, `message`, `result`, and standalone `tool_result` are NOT emitted
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// at v1.14+ — their handlers in v1 were dead and were dropped here.
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interface OpenCodeTextEvent {
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type: "text";
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timestamp?: string;
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sessionID?: string;
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part?: { id?: string; type?: string; text?: string; [key: string]: unknown };
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[key: string]: unknown;
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}
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interface OpenCodeStepStartEvent {
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type: "step_start";
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timestamp?: string;
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sessionID?: string;
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part?: { id?: string; type?: string; [key: string]: unknown };
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[key: string]: unknown;
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}
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interface OpenCodeStepFinishEvent {
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type: "step_finish";
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timestamp?: string;
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sessionID?: string;
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part?: {
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id?: string;
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type?: string;
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reason?: string;
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cost?: number;
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tokens?: {
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input?: number;
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output?: number;
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reasoning?: number;
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cache?: { read?: number; write?: number };
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};
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[key: string]: unknown;
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};
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[key: string]: unknown;
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}
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/**
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* tool-part state, mirroring opencode's `ToolState` (anomalyco/opencode
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* `session/message-v2.ts`). error parts carry the reason on `error`,
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* completed parts on `output` — reading the wrong field is what caused
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* the silent `(no error message)` log in #662.
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*
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* Named `ToolPartState` locally (not `ToolState`) so it doesn't shadow the
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* action-wide `ToolState` imported above.
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*/
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type ToolPartState =
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| { status: "pending" | "running"; input?: unknown }
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| { status: "completed"; input?: unknown; output: string }
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| { status: "error"; input?: unknown; error: string };
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interface OpenCodeToolUseEvent {
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type: "tool_use";
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timestamp?: number;
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sessionID?: string;
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part?: {
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id?: string;
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callID?: string;
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tool?: string;
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state?: ToolPartState;
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};
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[key: string]: unknown;
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}
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/**
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* Reasoning (thinking) part — only emitted when the CLI is invoked with
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* `--thinking`. Shape mirrors `TextPart`: a finished part has
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* `time?.end !== undefined`. Gemini's `thoughtSignature` round-trip,
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* OpenAI reasoning, and Anthropic extended-thinking all flow through here.
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*/
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interface OpenCodeReasoningEvent {
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type: "reasoning";
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timestamp?: number;
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sessionID?: string;
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part?: {
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id?: string;
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sessionID?: string;
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messageID?: string;
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type?: string;
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text?: string;
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time?: { start?: number; end?: number };
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metadata?: Record<string, unknown>;
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[key: string]: unknown;
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};
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[key: string]: unknown;
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}
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interface OpenCodeErrorEvent {
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type: "error";
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timestamp?: string;
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sessionID?: string;
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// opencode emits the error message under `error.data.message`, not at the
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// top level. see anomalyco/opencode packages/opencode/src/cli/cmd/run.ts.
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error?: {
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name?: string;
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data?: { message?: string; [key: string]: unknown };
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[key: string]: unknown;
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};
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[key: string]: unknown;
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}
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/**
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* Envelope our injected plugin (`opencodePlugin.ts`) writes to stdout per
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* non-orchestrator `message.part.updated` bus event, so subagent activity
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* surfaces in the parent stream that the CLI run loop would otherwise
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* filter (`cli/cmd/run.ts` checks `part.sessionID === sessionID`).
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* `bus_event.properties.part` matches opencode's `Part` shape so we can
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* route through the same handlers as orchestrator events.
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*/
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interface OpenCodeBusEnvelopeEvent {
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type: "pullfrog_bus_event";
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bus_event?: {
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type?: string;
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properties?: {
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part?: {
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sessionID?: string;
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type?: string;
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tool?: string;
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callID?: string;
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time?: { start?: number; end?: number };
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state?: { status?: string; input?: unknown };
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};
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};
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};
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}
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type OpenCodeEvent =
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| OpenCodeTextEvent
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| OpenCodeReasoningEvent
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| OpenCodeStepStartEvent
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| OpenCodeStepFinishEvent
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| OpenCodeToolUseEvent
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| OpenCodeErrorEvent
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| OpenCodeBusEnvelopeEvent;
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// ── helpers ─────────────────────────────────────────────────────────────────────
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/** Format `part.time` as a `(X.Ys)` suffix when both endpoints are present. */
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function formatPartDuration(time: { start?: number; end?: number } | undefined): string {
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if (!time || typeof time.start !== "number" || typeof time.end !== "number") return "";
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if (time.end <= time.start) return "";
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return ` (${((time.end - time.start) / 1000).toFixed(1)}s)`;
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}
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/** Extract the terminal-state payload (output on completed, error on error). */
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function terminalPayload(state: ToolPartState | undefined): string | undefined {
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if (!state) return undefined;
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if (state.status === "completed") return state.output;
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if (state.status === "error") return state.error;
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return undefined;
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}
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// ── runner ──────────────────────────────────────────────────────────────────────
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type RunParams = {
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label: string;
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cliPath: string;
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args: string[];
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cwd: string;
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env: Record<string, string | undefined>;
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toolState: ToolState;
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todoTracker?: TodoTracker | undefined;
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onActivityTimeout?: (() => void) | undefined;
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onToolUse?: ((event: { toolName: string; input: unknown }) => void) | undefined;
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};
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async function runOpenCode(params: RunParams): Promise<AgentResult> {
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const startTime = performance.now();
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let eventCount = 0;
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let finalOutput = "";
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let accumulatedTokens = { input: 0, output: 0, cacheRead: 0, cacheWrite: 0 };
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// per-step `part.cost` sums across the whole session. sourced from models.dev
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// inside opencode — present for every supported provider (Anthropic, OpenAI,
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// Google, xAI, DeepSeek, Moonshot, OpenRouter sub-providers, etc.).
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let accumulatedCostUsd = 0;
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let tokensLogged = false;
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const toolCallTimings = new Map<string, number>();
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// event-to-event silence detector for the "no activity for Xs" diagnostic.
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// local to this runner so chunk-level `markActivity()` (which feeds the
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// outer spawn activityTimeout) doesn't reset it on every chunk arrival.
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let lastEventAt = performance.now();
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// hoisted above `handlers` so closure capture is initialized before any
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// handler can fire — defensive against future refactors that might invoke
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// a handler synchronously during setup.
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const recentStderr: string[] = [];
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let lastProviderError: string | null = null;
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let agentErrorEvent: OpenCodeErrorEvent | null = null;
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// per-session labeler. opencode's CLI run loop filters subagent events
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// (`part.sessionID !== sessionID`); our injected plugin re-emits them as
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// `pullfrog_bus_event` envelopes so the labeler sees real subagent data.
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const labeler = new SessionLabeler();
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function eventLabel(event: Record<string, unknown>): string {
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const sid = event.sessionID ?? event.session_id;
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return labeler.labelFor(typeof sid === "string" ? sid : null);
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}
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function withLabel(label: string, message: string): string {
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return label === ORCHESTRATOR_LABEL ? message : formatWithLabel(label, message);
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}
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// tracks per-task dispatch metadata so the matching tool_use(completed)
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// can log a labeled "» subagent finished: lens=X duration=Ys" line.
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//
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// v2 simplification: at v1.15, opencode keeps a single stable callID across
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// the whole `tool-input-* → tool-call → tool-result/tool-error` chain
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// (`session/processor.ts:282-330,418,448`). The v1-era hybrid exact+FIFO
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// matcher is gone; we use exact-match only.
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interface TaskDispatch {
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label: string;
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startedAt: number;
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toolUseCallID: string;
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}
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const taskDispatchByCallID = new Map<string, TaskDispatch>();
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|
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function emitSubagentFinished(dispatch: TaskDispatch, status: string, output: unknown) {
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const subagentDuration = performance.now() - dispatch.startedAt;
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const outputStr = typeof output === "string" ? output : "";
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const outputPreview = outputStr.length > 120 ? `${outputStr.slice(0, 120)}…` : outputStr;
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log.info(
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`» subagent finished: ${dispatch.label} (${(subagentDuration / 1000).toFixed(1)}s, status=${status})` +
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(outputPreview ? ` — ${outputPreview.replace(/\n/g, " ")}` : "")
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);
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taskDispatchByCallID.delete(dispatch.toolUseCallID);
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}
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|
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function buildUsage(): AgentUsage | undefined {
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const totalInput =
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accumulatedTokens.input + accumulatedTokens.cacheRead + accumulatedTokens.cacheWrite;
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return totalInput > 0 || accumulatedTokens.output > 0
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? {
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agent: "pullfrog",
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inputTokens: totalInput,
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outputTokens: accumulatedTokens.output,
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cacheReadTokens: accumulatedTokens.cacheRead || undefined,
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cacheWriteTokens: accumulatedTokens.cacheWrite || undefined,
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costUsd: accumulatedCostUsd > 0 ? accumulatedCostUsd : undefined,
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}
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: undefined;
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}
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|
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const handlers = {
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text: (event: OpenCodeTextEvent) => {
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if (event.part?.text?.trim()) {
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const message = event.part.text.trim();
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const label = eventLabel(event);
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const boxTitle = label === ORCHESTRATOR_LABEL ? params.label : `${params.label} [${label}]`;
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log.box(message, { title: boxTitle });
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// only the orchestrator's final text is the run's "output" — children
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// emit their own text on report-back, which would clobber the parent's
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// final answer if we accepted any text into finalOutput.
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if (label === ORCHESTRATOR_LABEL) {
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finalOutput = message;
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}
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}
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},
|
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/**
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* Reasoning blocks (only emitted when `--thinking` is set in baseArgs).
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* `part.time.{start,end}` give us a precise duration from opencode
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* itself. Not folded into `finalOutput` — that's the final answer,
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* not inner monologue.
|
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*/
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reasoning: (event: OpenCodeReasoningEvent) => {
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const text = event.part?.text?.trim();
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if (!text) return;
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const label = eventLabel(event);
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const durationStr = formatPartDuration(event.part?.time);
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const preview = text.length > 280 ? `${text.slice(0, 280)}…` : text;
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log.info(withLabel(label, `» thinking${durationStr}: ${preview.replace(/\n+/g, " ")}`));
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if (text.length > 280) {
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log.debug(withLabel(label, `» thinking (full): ${text}`));
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}
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},
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|
// step_start carries no information we surface today (token / cost are
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// reported on step_finish). explicit no-op so the dispatcher doesn't
|
|
// log "unhandled event" for every step.
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|
step_start: () => {},
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step_finish: (event: OpenCodeStepFinishEvent) => {
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|
const t = event.part?.tokens;
|
|
if (t) {
|
|
accumulatedTokens.input += t.input || 0;
|
|
accumulatedTokens.output += t.output || 0;
|
|
accumulatedTokens.cacheRead += t.cache?.read || 0;
|
|
accumulatedTokens.cacheWrite += t.cache?.write || 0;
|
|
// TODO: capture `t.reasoning` once `AgentUsage` grows a
|
|
// `reasoningTokens` field. Today these tokens are silently dropped
|
|
// from the token table for reasoning-heavy models (Gemini-3 thinking
|
|
// pinned high, OpenAI o-/gpt-5-codex, Anthropic extended-thinking) —
|
|
// USD totals stay correct because `part.cost` covers them.
|
|
}
|
|
// `part.cost` is a per-step delta, not a running total. verified
|
|
// across Anthropic, OpenAI, Gemini, xAI, DeepSeek, Moonshot,
|
|
// OpenRouter sub-providers. guard NaN/Infinity so a single poison
|
|
// value can't tank the running total for the rest of the session.
|
|
if (typeof event.part?.cost === "number" && Number.isFinite(event.part.cost)) {
|
|
accumulatedCostUsd += event.part.cost;
|
|
}
|
|
},
|
|
/**
|
|
* Tool lifecycle event — at v1.15 a single event covers both completed
|
|
* and error terminal states (read `part.state.status`). Subagent tool
|
|
* parts arrive here via the bus-envelope re-emit too.
|
|
*/
|
|
tool_use: (event: OpenCodeToolUseEvent) => {
|
|
const toolName = event.part?.tool;
|
|
const toolId = event.part?.callID;
|
|
const state = event.part?.state;
|
|
if (!toolName || !toolId) {
|
|
log.info(
|
|
`» tool_use event missing toolName or toolId: ${JSON.stringify(event).substring(0, 500)}`
|
|
);
|
|
return;
|
|
}
|
|
const status = state?.status;
|
|
const isTerminal = status === "completed" || status === "error";
|
|
const label = eventLabel(event);
|
|
|
|
// seed the labeler's pending-queue on the FIRST observation of a `task`
|
|
// dispatch, before the subagent's first message.part.updated fires.
|
|
// v1.15 keeps callID stable across the lifecycle, so dedupe is by callID.
|
|
if (toolName === "task" && !taskDispatchByCallID.has(toolId)) {
|
|
const taskInput = (state?.input ?? {}) as {
|
|
description?: string;
|
|
subagent_type?: string;
|
|
prompt?: string;
|
|
};
|
|
const dispatchedLabel = labeler.recordTaskDispatch(taskInput);
|
|
taskDispatchByCallID.set(toolId, {
|
|
label: dispatchedLabel,
|
|
startedAt: performance.now(),
|
|
toolUseCallID: toolId,
|
|
});
|
|
log.info(
|
|
`» dispatching subagent: ${dispatchedLabel}` +
|
|
(taskInput.subagent_type ? ` (subagent_type=${taskInput.subagent_type})` : "")
|
|
);
|
|
}
|
|
|
|
params.onToolUse?.({ toolName, input: state?.input });
|
|
|
|
// record start time on first observation; the bus-envelope re-emit can
|
|
// route the same callID through more than once, so guard the set.
|
|
if (!toolCallTimings.has(toolId)) {
|
|
toolCallTimings.set(toolId, performance.now());
|
|
}
|
|
|
|
const inputFormatted = formatJsonValue(state?.input || {});
|
|
const callLine =
|
|
inputFormatted !== "{}" ? `» ${toolName}(${inputFormatted})` : `» ${toolName}()`;
|
|
log.info(withLabel(label, callLine));
|
|
|
|
if (state?.status === "completed") {
|
|
log.debug(withLabel(label, ` output: ${state.output}`));
|
|
}
|
|
if (state?.status === "error") {
|
|
log.info(withLabel(label, `» tool call failed: ${state.error}`));
|
|
}
|
|
|
|
if (isTerminal) {
|
|
const dispatch = toolName === "task" ? taskDispatchByCallID.get(toolId) : undefined;
|
|
if (dispatch) emitSubagentFinished(dispatch, status, terminalPayload(state));
|
|
|
|
const toolStartTime = toolCallTimings.get(toolId);
|
|
if (toolStartTime !== undefined) {
|
|
const toolDuration = performance.now() - toolStartTime;
|
|
toolCallTimings.delete(toolId);
|
|
if (toolDuration > 5000) {
|
|
log.info(
|
|
withLabel(
|
|
label,
|
|
`» tool call took ${(toolDuration / 1000).toFixed(1)}s - may indicate network latency`
|
|
)
|
|
);
|
|
}
|
|
}
|
|
}
|
|
|
|
if (toolName.includes("report_progress") && params.todoTracker) {
|
|
log.debug("» report_progress detected, disabling todo tracking");
|
|
params.todoTracker.cancel();
|
|
}
|
|
|
|
// todowrite input is identical across pending/running/completed; update
|
|
// once on the terminal observation to avoid redundant work.
|
|
if (toolName === "todowrite" && params.todoTracker?.enabled && isTerminal) {
|
|
params.todoTracker.update(state?.input);
|
|
}
|
|
},
|
|
error: (event: OpenCodeErrorEvent) => {
|
|
// opencode emits a `type=error` event when a provider call fails (e.g.
|
|
// 401 Invalid authentication credentials). the underlying CLI still
|
|
// exits 0 because the error was returned cleanly by the LLM SDK, so
|
|
// unless we capture this event the run is reported as success.
|
|
agentErrorEvent = event;
|
|
const errorName = event.error?.name || "unknown";
|
|
const errorMessage = event.error?.data?.message || event.error?.name || JSON.stringify(event);
|
|
log.info(`» ${params.label} error event: ${errorName}: ${errorMessage}`);
|
|
},
|
|
/**
|
|
* Bus envelope (re-emitted by `opencodePlugin.ts`). Synthesizes a
|
|
* CLI-style event for each part type and routes it through the
|
|
* orchestrator's handlers — same labeling / attribution / logging path.
|
|
* Mirrors the dispatch in upstream's `cli/cmd/run.ts` `loop()`.
|
|
*
|
|
* NOT routed: subagent `step-start` / `step-finish`. step_finish carries
|
|
* `tokens` and `cost` that the orchestrator's handler folds into run-wide
|
|
* accumulators — double-counting subagent tokens would inflate usage
|
|
* telemetry. text/tool_use already gate on ORCHESTRATOR_LABEL inside their
|
|
* handlers for the same reason.
|
|
*/
|
|
[PULLFROG_BUS_EVENT_TYPE]: async (event: OpenCodeBusEnvelopeEvent) => {
|
|
const busEvent = event.bus_event;
|
|
if (!busEvent || busEvent.type !== "message.part.updated") return;
|
|
const part = busEvent.properties?.part;
|
|
if (!part || typeof part.sessionID !== "string") return;
|
|
const sessionID = part.sessionID;
|
|
const partType = part.type;
|
|
|
|
if (partType === "tool") {
|
|
const status = part.state?.status;
|
|
// Early task-dispatch announce: the CLI's NDJSON `tool_use` event for
|
|
// a `task` call only fires at status=completed (after the subagent
|
|
// finishes), but we need to bind a label to the subagent's sessionID
|
|
// BEFORE its first message.part.updated. only fire on status=running
|
|
// — at "pending", state.input is still {} and the lens label can't be
|
|
// derived. dedupe against the late tool_use handler via callID.
|
|
if (part.tool === "task" && status === "running" && part.callID) {
|
|
if (!taskDispatchByCallID.has(part.callID)) {
|
|
const taskInput = (part.state?.input ?? {}) as {
|
|
description?: string;
|
|
subagent_type?: string;
|
|
prompt?: string;
|
|
};
|
|
const dispatchedLabel = labeler.recordTaskDispatch(taskInput);
|
|
taskDispatchByCallID.set(part.callID, {
|
|
label: dispatchedLabel,
|
|
startedAt: performance.now(),
|
|
toolUseCallID: part.callID,
|
|
});
|
|
log.info(
|
|
`» dispatching subagent: ${dispatchedLabel}` +
|
|
(taskInput.subagent_type ? ` (subagent_type=${taskInput.subagent_type})` : "")
|
|
);
|
|
}
|
|
return;
|
|
}
|
|
if (status !== "completed" && status !== "error") return;
|
|
await handlers.tool_use({ type: "tool_use", sessionID, part } as OpenCodeToolUseEvent);
|
|
return;
|
|
}
|
|
if (partType === "step-start" || partType === "step-finish") return;
|
|
if (partType === "text" && part.time?.end !== undefined) {
|
|
handlers.text({ type: "text", sessionID, part } as OpenCodeTextEvent);
|
|
return;
|
|
}
|
|
if (partType === "reasoning" && part.time?.end !== undefined) {
|
|
handlers.reasoning({ type: "reasoning", sessionID, part } as OpenCodeReasoningEvent);
|
|
}
|
|
},
|
|
};
|
|
|
|
// shared with main.ts via toolState. updated in place as events stream and
|
|
// stderr accumulates so the outer activity-timeout catch sees the same
|
|
// context the harness's own catch path uses to format `result.error`.
|
|
// recentStderr is shared by reference; the scalar fields are mirrored on
|
|
// each update below.
|
|
const diagnostic: AgentDiagnostic = {
|
|
label: params.label,
|
|
recentStderr,
|
|
lastProviderError: undefined,
|
|
eventCount: 0,
|
|
};
|
|
params.toolState.agentDiagnostic = diagnostic;
|
|
|
|
// capped accumulator for the agent's narration. used as a post-run fallback
|
|
// when `finalOutput` (the orchestrator's final assistant message) is empty.
|
|
// unbounded `output += text` previously grew to ~1 GiB on multi-lens Reviews
|
|
// and contributed to the wrapper-level RangeError. retain:"none" on spawn
|
|
// skips the duplicate buffer there; this TailBuffer caps the agent layer.
|
|
const output = new TailBuffer(DEFAULT_MAX_RETAINED_BYTES);
|
|
let stdoutBuffer = "";
|
|
|
|
try {
|
|
const result = await spawn({
|
|
cmd: params.cliPath,
|
|
args: params.args,
|
|
cwd: params.cwd,
|
|
env: params.env,
|
|
activityTimeout: 300_000,
|
|
onActivityTimeout: params.onActivityTimeout,
|
|
stdio: ["ignore", "pipe", "pipe"],
|
|
// node_modules/opencode-ai/bin/opencode is a Node shim that spawnSyncs
|
|
// the native opencode-<plat>-<arch> binary with stdio:"inherit". without
|
|
// a process-group kill, SIGKILL hits only the shim, the native binary
|
|
// is reparented to PID 1, holds our stdout pipe open, and `child.close`
|
|
// never fires — producing zombie runs. detached + killGroup nukes the
|
|
// whole tree.
|
|
killGroup: true,
|
|
// we already drain every chunk via onStdout/onStderr (NDJSON parsing
|
|
// + recentStderr ring buffer). retaining a second copy in the spawn
|
|
// wrapper would grow unbounded for multi-lens Reviews and previously
|
|
// crashed the wrapper with RangeError at ~1 GiB. see issue #680.
|
|
retain: "none",
|
|
// NB: we used to pass `isPausedExternally: isSubagentInFlight` to suspend
|
|
// the activity timer during subagent dispatches. unnecessary now that
|
|
// our injected plugin (action/agents/opencodePlugin.ts) re-emits
|
|
// subagent `message.part.updated` events on opencode's stdout — those
|
|
// arrive at child.stdout here, fire updateActivity(), and reset
|
|
// lastActivityTime naturally. verified empirically in PR #634
|
|
// (~3.3 plugin events/sec during a typical subagent run).
|
|
onStdout: async (chunk) => {
|
|
const text = chunk.toString();
|
|
output.append(text);
|
|
markActivity();
|
|
|
|
stdoutBuffer += text;
|
|
const lines = stdoutBuffer.split("\n");
|
|
stdoutBuffer = lines.pop() || "";
|
|
|
|
for (const line of lines) {
|
|
const trimmed = line.trim();
|
|
if (!trimmed) continue;
|
|
|
|
let event: OpenCodeEvent;
|
|
try {
|
|
event = JSON.parse(trimmed) as OpenCodeEvent;
|
|
} catch {
|
|
log.debug(`» non-JSON stdout line: ${trimmed.substring(0, 200)}`);
|
|
continue;
|
|
}
|
|
|
|
eventCount++;
|
|
diagnostic.eventCount = eventCount;
|
|
log.debug(JSON.stringify(event, null, 2));
|
|
|
|
// sample BEFORE the per-event marker — `lastEventAt` is local to
|
|
// this runner so it isn't reset by the chunk-level `markActivity()`
|
|
// above (which exists to feed spawn's outer activityTimeout).
|
|
// measures real event-to-event silence; the previous sampling
|
|
// against the module-level idle counter was always ~0ms because
|
|
// the chunk-level reset happened µs earlier.
|
|
const idleMs = performance.now() - lastEventAt;
|
|
if (idleMs > 10000) {
|
|
const activeToolCalls = toolCallTimings.size;
|
|
const toolCallInfo =
|
|
activeToolCalls > 0
|
|
? ` (waiting for ${activeToolCalls} tool call${activeToolCalls > 1 ? "s" : ""})`
|
|
: ` (${params.label} may be processing internally - LLM calls, planning, etc.)`;
|
|
log.info(
|
|
`» no activity for ${(idleMs / 1000).toFixed(1)}s${toolCallInfo} (${eventCount} events processed so far)`
|
|
);
|
|
}
|
|
lastEventAt = performance.now();
|
|
|
|
const handler = handlers[event.type as keyof typeof handlers];
|
|
if (!handler) {
|
|
log.info(
|
|
`» ${params.label} event (unhandled): type=${event.type}, data=${JSON.stringify(event).substring(0, 500)}`
|
|
);
|
|
continue;
|
|
}
|
|
try {
|
|
await handler(event as never);
|
|
} catch (err) {
|
|
log.info(
|
|
`» ${params.label} handler for type=${event.type} threw: ${err instanceof Error ? err.message : String(err)}`
|
|
);
|
|
}
|
|
}
|
|
},
|
|
onStderr: (chunk) => {
|
|
const trimmed = chunk.trim();
|
|
if (!trimmed) return;
|
|
|
|
recentStderr.push(trimmed);
|
|
if (recentStderr.length > MAX_STDERR_LINES) recentStderr.shift();
|
|
|
|
const match = findProviderErrorMatch(trimmed);
|
|
if (match) {
|
|
lastProviderError = match.label;
|
|
diagnostic.lastProviderError = match.label;
|
|
log.info(`» provider error detected (${match.label}): ${match.excerpt}`);
|
|
} else {
|
|
log.debug(trimmed);
|
|
}
|
|
},
|
|
});
|
|
|
|
if (result.exitCode === 0) {
|
|
await params.todoTracker?.flush();
|
|
} else {
|
|
params.todoTracker?.cancel();
|
|
}
|
|
|
|
// any task dispatches that didn't see a terminal tool_use are surfaced
|
|
// here so the gap is visible rather than silently swallowed. v2 reaches
|
|
// here much less often than v1 (callIDs are stable, so terminal tool_use
|
|
// matches the dispatch exactly), but a subagent reply that arrives via
|
|
// an assistant message rather than the task tool's terminal state can
|
|
// still leave the dispatch open. durations reported are upper bounds.
|
|
if (taskDispatchByCallID.size > 0) {
|
|
for (const dispatch of taskDispatchByCallID.values()) {
|
|
const elapsed = performance.now() - dispatch.startedAt;
|
|
log.info(
|
|
`» subagent finished (inferred at run-end): ${dispatch.label} (≤${(elapsed / 1000).toFixed(1)}s) — no terminal tool_use observed; reply likely arrived via assistant message`
|
|
);
|
|
}
|
|
taskDispatchByCallID.clear();
|
|
}
|
|
|
|
const duration = performance.now() - startTime;
|
|
log.info(
|
|
`» ${params.label} completed in ${Math.round(duration)}ms with exit code ${result.exitCode}`
|
|
);
|
|
|
|
if (eventCount === 0) {
|
|
const stderrContext = recentStderr.join("\n");
|
|
const diagnosis = lastProviderError
|
|
? `provider error: ${lastProviderError}`
|
|
: "unknown cause (no stdout events received)";
|
|
log.info(`» ${params.label} produced 0 events (${diagnosis})`);
|
|
if (stderrContext) log.info(`» last stderr output:\n${stderrContext}`);
|
|
}
|
|
|
|
if (
|
|
!tokensLogged &&
|
|
(accumulatedTokens.input > 0 ||
|
|
accumulatedTokens.output > 0 ||
|
|
accumulatedTokens.cacheRead > 0 ||
|
|
accumulatedTokens.cacheWrite > 0)
|
|
) {
|
|
logTokenTable({ ...accumulatedTokens, costUsd: accumulatedCostUsd });
|
|
tokensLogged = true;
|
|
}
|
|
|
|
const usage = buildUsage();
|
|
|
|
if (result.exitCode !== 0) {
|
|
const errorContext = lastProviderError ? ` (${lastProviderError})` : "";
|
|
// result.stdout / result.stderr are empty because we pass retain:"none"
|
|
// to spawn (see issue #680); use the agent's bounded mirrors instead.
|
|
const stdoutSnapshot = output.toString();
|
|
const stderrSnapshot = recentStderr.join("\n");
|
|
const errorMessage =
|
|
stderrSnapshot ||
|
|
stdoutSnapshot ||
|
|
`unknown error - no output from OpenCode CLI${errorContext}`;
|
|
log.error(
|
|
`${params.label} exited with code ${result.exitCode}${errorContext}: ${errorMessage}`
|
|
);
|
|
log.debug(`stdout: ${stdoutSnapshot.substring(0, 500)}`);
|
|
log.debug(`stderr: ${stderrSnapshot.substring(0, 500)}`);
|
|
return {
|
|
success: false,
|
|
output: finalOutput || stdoutSnapshot,
|
|
error: errorMessage,
|
|
usage,
|
|
};
|
|
}
|
|
|
|
if (eventCount === 0 && lastProviderError) {
|
|
return {
|
|
success: false,
|
|
output: finalOutput || output.toString(),
|
|
error: `provider error: ${lastProviderError}`,
|
|
usage,
|
|
};
|
|
}
|
|
|
|
if (agentErrorEvent) {
|
|
const errorEvent: OpenCodeErrorEvent = agentErrorEvent;
|
|
const errorName = errorEvent.error?.name || "agent error";
|
|
const errorMessage =
|
|
errorEvent.error?.data?.message || errorEvent.error?.name || JSON.stringify(errorEvent);
|
|
return {
|
|
success: false,
|
|
output: finalOutput || output.toString(),
|
|
error: `${errorName}: ${errorMessage}`,
|
|
usage,
|
|
};
|
|
}
|
|
|
|
return { success: true, output: finalOutput || output.toString(), usage };
|
|
} catch (error) {
|
|
params.todoTracker?.cancel();
|
|
const duration = performance.now() - startTime;
|
|
const errorMessage = error instanceof Error ? error.message : String(error);
|
|
const isActivityTimeout =
|
|
error instanceof SpawnTimeoutError && error.code === SPAWN_ACTIVITY_TIMEOUT_CODE;
|
|
|
|
const stderrContext = recentStderr.slice(-10).join("\n");
|
|
const diagnosis = lastProviderError
|
|
? `likely cause: ${lastProviderError}`
|
|
: eventCount === 0
|
|
? "OpenCode produced 0 stdout events - check if the model provider is reachable"
|
|
: `${eventCount} events were processed before the hang`;
|
|
|
|
log.info(
|
|
`» ${params.label} ${isActivityTimeout ? "hung" : "failed"} after ${(duration / 1000).toFixed(1)}s: ${errorMessage}`
|
|
);
|
|
log.info(`» diagnosis: ${diagnosis}`);
|
|
if (stderrContext)
|
|
log.info(
|
|
`» recent stderr (last ${Math.min(recentStderr.length, 10)} lines):\n${stderrContext}`
|
|
);
|
|
|
|
const body = formatAgentHangBody({ diagnostic, isHang: isActivityTimeout, errorMessage });
|
|
return {
|
|
success: false,
|
|
output: finalOutput || output.toString(),
|
|
error: body ?? `${errorMessage} [${diagnosis}]`,
|
|
usage: buildUsage(),
|
|
};
|
|
}
|
|
}
|
|
|
|
// ── agent ───────────────────────────────────────────────────────────────────────
|
|
|
|
export const opencode = agent({
|
|
name: "opencode",
|
|
install: installCli,
|
|
run: async (ctx) => {
|
|
const cliPath = await installCli();
|
|
|
|
const rawModel = ctx.payload.proxyModel ?? ctx.resolvedModel ?? autoSelectModel(cliPath);
|
|
|
|
// bedrock route: opencode's `amazon-bedrock` provider expects the model
|
|
// string in `amazon-bedrock/<bedrock-id>` form. the bare AWS model ID
|
|
// (what the user puts in `BEDROCK_MODEL_ID`) needs the prefix added.
|
|
// detect via env-var sentinel — same pattern as claude.ts.
|
|
//
|
|
// we deliberately do NOT gate on `!isBedrockAnthropicId(rawModel)` here:
|
|
// Anthropic-on-Bedrock normally routes to claude-code (per `resolveAgent`),
|
|
// but `PULLFROG_AGENT=opencode` is the documented escape hatch for forcing
|
|
// opencode regardless. when that override fires, opencode still needs the
|
|
// `amazon-bedrock/` prefix or the provider lookup fails with
|
|
// "Model not found: <modelId>/.". the Anthropic-vs-other discriminant
|
|
// only belongs in `resolveAgent`.
|
|
const bedrockModelId = process.env[BEDROCK_MODEL_ID_ENV]?.trim();
|
|
const isBedrockRoute =
|
|
rawModel !== undefined && bedrockModelId !== undefined && bedrockModelId === rawModel;
|
|
const vertexModel = resolveVertexOpenCodeModel(rawModel);
|
|
const model = vertexModel ?? (isBedrockRoute ? `amazon-bedrock/${rawModel}` : rawModel);
|
|
|
|
const homeEnv = {
|
|
HOME: ctx.tmpdir,
|
|
XDG_CONFIG_HOME: join(ctx.tmpdir, ".config"),
|
|
};
|
|
|
|
mkdirSync(join(homeEnv.XDG_CONFIG_HOME, "opencode"), { recursive: true });
|
|
|
|
// drop our bus-event surfacing plugin into opencode's global config dir
|
|
// (which we've redirected to the per-run tmpdir via XDG_CONFIG_HOME).
|
|
// opencode auto-discovers plugins from `<Global.Path.config>/{plugin,plugins}/*.{ts,js}`
|
|
// (see `packages/opencode/src/config/config.ts:633` calling
|
|
// `ConfigPlugin.load(dir)`), so this lands in the loader without any
|
|
// config wiring. critically: this MUST be inside the tmpdir, never the
|
|
// user's repo working tree — see AGENTS.md.
|
|
const opencodePluginDir = join(homeEnv.XDG_CONFIG_HOME, "opencode", "plugin");
|
|
mkdirSync(opencodePluginDir, { recursive: true });
|
|
writeFileSync(
|
|
join(opencodePluginDir, PULLFROG_OPENCODE_PLUGIN_FILENAME),
|
|
PULLFROG_OPENCODE_PLUGIN_SOURCE
|
|
);
|
|
|
|
const agentBrowserVersion = getDevDependencyVersion("agent-browser");
|
|
addSkill({
|
|
ref: `vercel-labs/agent-browser@v${agentBrowserVersion}`,
|
|
skill: "agent-browser",
|
|
env: homeEnv,
|
|
agent: "opencode",
|
|
});
|
|
|
|
installBundledSkills({ home: homeEnv.HOME });
|
|
|
|
// materialize CODEX_AUTH_JSON (Pullfrog-stored Codex subscription
|
|
// credential) into the runner's REAL $HOME/.local/share/opencode/auth.json
|
|
// so OpenCode's CodexAuthPlugin picks it up and routes openai requests
|
|
// through the ChatGPT subscription instead of needing OPENAI_API_KEY.
|
|
// see action/utils/codexHome.ts and wiki/codex-auth.md.
|
|
const codexAuth = installCodexAuth();
|
|
|
|
// base args shared between initial run and continue runs.
|
|
// `--thinking` is required at v1.14+ to surface `reasoning` NDJSON events
|
|
// — the CLI's run loop suppresses reasoning emission unless this flag is
|
|
// set (`cli/cmd/run.ts:241,671`). Without it Gemini-3 / OpenAI-reasoning /
|
|
// Anthropic-extended-thinking blocks would silently disappear from the
|
|
// log even though the model produced them.
|
|
const baseArgs = ["run", "--format", "json", "--print-logs", "--thinking"];
|
|
|
|
// OPENCODE_PERMISSION has absolute highest precedence (merged after managed/MDM configs).
|
|
// external_directory gates ALL native filesystem tools (Read, Write, Edit, Glob, Grep, etc.)
|
|
// for paths outside the project root. last-match-wins: deny everything, then allow /tmp.
|
|
// auth.json sits under real $HOME (outside /tmp/*), so deny-default protects it.
|
|
const permissionOverride = JSON.stringify({
|
|
external_directory: { "*": "deny", "/tmp/*": "allow" },
|
|
});
|
|
|
|
const repoDir = process.cwd();
|
|
|
|
// CRITICAL: opencode-ai >=1.14 reads `process.env.PWD` first when
|
|
// resolving the SDK client's `directory` parameter (see upstream
|
|
// `cli/cmd/run.ts:282` — `Filesystem.resolve(process.env.PWD ?? process.cwd())`).
|
|
// We pass `cwd: repoDir` to spawn but the child inherits the harness's
|
|
// PWD via `...process.env`, which (when running through the test runner /
|
|
// GHA wrapper) is a different directory. Without overriding PWD, opencode
|
|
// creates *two* instances — one at `process.cwd()` (correct) and one at
|
|
// `PWD` (wrong) — and the agent's session runs in the wrong-cwd one,
|
|
// missing the project's `.opencode/skills/` and `.claude/skills/`.
|
|
const env: Record<string, string | undefined> = {
|
|
...process.env,
|
|
...homeEnv,
|
|
PWD: repoDir,
|
|
OPENCODE_CONFIG_CONTENT: buildSecurityConfig(ctx, model),
|
|
OPENCODE_PERMISSION: permissionOverride,
|
|
GOOGLE_GENERATIVE_AI_API_KEY:
|
|
process.env.GOOGLE_GENERATIVE_AI_API_KEY || process.env.GEMINI_API_KEY,
|
|
};
|
|
|
|
if (codexAuth) {
|
|
// point OpenCode at the real-home XDG dir so it reads auth.json from
|
|
// where we wrote it (not the tmpdir-redirected default).
|
|
env.XDG_DATA_HOME = codexAuth.xdgDataHome;
|
|
// remove OPENAI_API_KEY so OpenCode's provider merge unambiguously
|
|
// picks the OAuth path. with both set, the merge order in opencode
|
|
// makes the effective key ambiguous.
|
|
delete env.OPENAI_API_KEY;
|
|
// hand the post-hook everything it needs to detect + persist refresh.
|
|
// post-hook runs in a fresh node process, so we have to ferry apiToken
|
|
// explicitly — env is preserved across main/post but our run-context
|
|
// JWT is computed at runtime and not put in env. see action/entryPost.ts.
|
|
core.saveState(
|
|
"codex_writeback",
|
|
JSON.stringify({
|
|
apiToken: ctx.apiToken,
|
|
authPath: codexAuth.authPath,
|
|
originalRefresh: codexAuth.originalRefresh,
|
|
})
|
|
);
|
|
}
|
|
|
|
log.debug(`» starting Pullfrog (OpenCode): ${cliPath} ${baseArgs.join(" ")}`);
|
|
log.debug(`» working directory: ${repoDir}`);
|
|
|
|
const runParams = {
|
|
label: "Pullfrog",
|
|
cliPath,
|
|
cwd: repoDir,
|
|
env,
|
|
toolState: ctx.toolState,
|
|
todoTracker: ctx.todoTracker,
|
|
onActivityTimeout: ctx.onActivityTimeout,
|
|
onToolUse: ctx.onToolUse,
|
|
};
|
|
|
|
const result = await runOpenCode({
|
|
...runParams,
|
|
args: [...baseArgs, ctx.instructions.full],
|
|
});
|
|
|
|
// post-run retry loop aggregates usage across the initial run + every
|
|
// resume, so the caller sees the whole session — not just the final
|
|
// slice. opencode always accepts `--continue`, so no canResume guard.
|
|
// the reflection prompt fires once after gates go clean, as a dedicated
|
|
// turn that nudges the agent to persist learnings.
|
|
return runPostRunRetryLoop({
|
|
ctx,
|
|
initialResult: result,
|
|
initialUsage: result.usage,
|
|
reflectionPrompt:
|
|
ctx.toolState.learningsFilePath && shouldRunReflection(ctx.toolState.selectedMode)
|
|
? buildLearningsReflectionPrompt(ctx.toolState.learningsFilePath)
|
|
: undefined,
|
|
resume: async (c) =>
|
|
runOpenCode({
|
|
...runParams,
|
|
args: [...baseArgs, "--continue", c.prompt],
|
|
}),
|
|
});
|
|
},
|
|
});
|