Files
shockbot/agents/opencode.ts
T
Colin McDonnell 57f54e37c5 add bundled git-archaeology skill, auto-installed for opencode and claude (#565)
* add bundled git-archaeology skill, auto-installed for opencode and claude

ships a SKILL.md teaching agents the underused git history primitives
(pickaxe -S/-G, -L for function/line ranges, --reverse blame, deleted-file
recovery) so they stop scrolling git log -p when blame comes up empty.

introduces a lightweight bundled-skill path alongside the existing
addSkill (npx skills add) flow used for external skills like agent-browser.
SKILL.md is inlined into dist/cli.mjs via esbuild's text loader and written
to <home>/.agents/skills/<name>/SKILL.md at runtime — no network, no version
drift, no per-run install cost.

* fix: register vitest plugin to load .md as text for bundled-skill tests

* fix: drop vite type import from vitest plugin (vite isn't a direct dep)

* fix: load bundled skills via readFileSync so source mode works

esbuild's text loader only applies to the npm-bundled dist/cli.mjs path. the
preview / oss path runs cli.ts directly with node (PULLFROG_FORCE_LOCAL_CLI=1
in runCli.ts#runLocalCli), where node has no idea how to import .md files —
ERR_UNKNOWN_FILE_EXTENSION crashes the action before any agent starts.

switch to runtime readFileSync that checks both candidate locations:
- source mode: <actionRoot>/skills/<name>/SKILL.md (relative to utils/skills.ts)
- bundled mode: <distDir>/skills/<name>/SKILL.md (esbuild copies the tree)

drops the no-longer-needed esbuild text loader, vitest .md plugin, and
ambient *.md type declaration. wiki/skills.md updated with the why.

* fix: write bundled skills to per-agent dirs so claude actually registers them
2026-05-04 18:49:50 +00:00

730 lines
25 KiB
TypeScript
Raw Blame History

This file contains ambiguous Unicode characters
This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.
/**
* OpenCode agent — secure harness around OpenCode CLI.
*
* transparently wraps OpenCode with a security layer:
* - bash: "deny" via OPENCODE_CONFIG_CONTENT (agent cannot shell out)
* - OPENCODE_PERMISSION: filesystem sandbox — deny all external paths except /tmp
* - MCP ShellTool provides restricted shell (filtered env, no secrets)
* - MCP server injected alongside project config (not replacing)
* - ASKPASS handles git auth separately (token never in subprocess env)
*
* the agent process itself gets full env (needs LLM API keys, PATH, etc.).
* security is enforced at the tool layer, not the process layer.
*/
import { execFileSync } from "node:child_process";
import { mkdirSync } from "node:fs";
import { join } from "node:path";
import { performance } from "node:perf_hooks";
import { pullfrogMcpName } from "../external.ts";
import { modelAliases } from "../models.ts";
import { getIdleMs, markActivity } from "../utils/activity.ts";
import { log } from "../utils/cli.ts";
import { installFromNpmTarball } from "../utils/install.ts";
import { detectProviderError } from "../utils/providerErrors.ts";
import { addSkill, installBundledSkills } from "../utils/skills.ts";
import { SPAWN_ACTIVITY_TIMEOUT_CODE, SpawnTimeoutError, spawn } from "../utils/subprocess.ts";
import { ThinkingTimer } from "../utils/timer.ts";
import type { TodoTracker } from "../utils/todoTracking.ts";
import { getDevDependencyVersion } from "../utils/version.ts";
import {
type AgentResult,
type AgentRunContext,
type AgentUsage,
agent,
buildCommitPrompt,
getGitStatus,
logTokenTable,
MAX_COMMIT_RETRIES,
MAX_STDERR_LINES,
mergeAgentUsage,
} from "./shared.ts";
async function installOpencodeCli(): Promise<string> {
return await installFromNpmTarball({
packageName: "opencode-ai",
version: getDevDependencyVersion("opencode-ai"),
executablePath: "bin/opencode",
installDependencies: true,
});
}
// ── config ─────────────────────────────────────────────────────────────────────
type OpenCodeConfig = {
mcp?: Record<string, unknown>;
permission?: Record<string, unknown>;
provider?: Record<string, unknown>;
model?: string;
enabled_providers?: string[];
[key: string]: unknown;
};
function buildSecurityConfig(ctx: AgentRunContext, model: string | undefined): string {
const config: OpenCodeConfig = {
permission: {
bash: "deny",
edit: "allow",
read: "allow",
webfetch: "allow",
external_directory: "allow",
skill: "allow",
},
mcp: {
[pullfrogMcpName]: { type: "remote", url: ctx.mcpServerUrl },
},
};
if (model) {
config.model = model;
const slashIndex = model.indexOf("/");
if (slashIndex > 0) {
config.enabled_providers = [model.slice(0, slashIndex).toLowerCase()];
}
}
return JSON.stringify(config);
}
// ── model auto-select fallback ──────────────────────────────────────────────────
//
// steps 12 of model resolution (PULLFROG_MODEL env, slug resolution) are handled
// by resolveModel() in utils/agent.ts before the agent runs. this fallback only
// handles step 3: auto-select via `opencode models`.
function getOpenCodeModels(cliPath: string): string[] {
try {
const output = execFileSync(cliPath, ["models"], {
encoding: "utf-8",
timeout: 30_000,
env: process.env,
});
return output
.split("\n")
.map((line) => line.trim())
.filter(Boolean);
} catch (error) {
log.debug(
`» failed to run \`opencode models\`: ${error instanceof Error ? error.message : String(error)}`
);
return [];
}
}
const AUTO_SELECT_WARNING =
"select a model explicitly in the Pullfrog console (https://pullfrog.com/console) to avoid this.";
function autoSelectModel(cliPath: string): string | undefined {
const availableModels = getOpenCodeModels(cliPath);
const availableSet = new Set(availableModels);
if (availableSet.size > 0) {
log.debug(`» opencode models (${availableSet.size}): ${availableModels.join(", ")}`);
const match =
modelAliases.find((a) => a.preferred && availableSet.has(a.resolve)) ??
modelAliases.find((a) => availableSet.has(a.resolve));
if (match) {
log.info(
`» model: ${match.resolve} (auto-selected${match.preferred ? " — preferred" : ""} curated match)`
);
log.warning(`» model auto-selected. ${AUTO_SELECT_WARNING}`);
return match.resolve;
}
log.info(
`» opencode has ${availableSet.size} models but none match curated aliases — letting OpenCode auto-select`
);
}
log.warning(`» no model resolved. letting OpenCode auto-select. ${AUTO_SELECT_WARNING}`);
return undefined;
}
// ── NDJSON event types ─────────────────────────────────────────────────────────
interface OpenCodeInitEvent {
type: "init";
timestamp?: string;
session_id?: string;
model?: string;
[key: string]: unknown;
}
interface OpenCodeMessageEvent {
type: "message";
timestamp?: string;
role?: "user" | "assistant";
content?: string;
delta?: boolean;
[key: string]: unknown;
}
interface OpenCodeTextEvent {
type: "text";
timestamp?: string;
sessionID?: string;
part?: { id?: string; type?: string; text?: string; [key: string]: unknown };
[key: string]: unknown;
}
interface OpenCodeStepStartEvent {
type: "step_start";
timestamp?: string;
sessionID?: string;
part?: { id?: string; type?: string; [key: string]: unknown };
[key: string]: unknown;
}
interface OpenCodeStepFinishEvent {
type: "step_finish";
timestamp?: string;
sessionID?: string;
part?: {
id?: string;
type?: string;
reason?: string;
cost?: number;
tokens?: {
input?: number;
output?: number;
reasoning?: number;
cache?: { read?: number; write?: number };
};
[key: string]: unknown;
};
[key: string]: unknown;
}
interface OpenCodeToolUseEvent {
type: "tool_use";
timestamp?: number;
sessionID?: string;
part?: {
id?: string;
callID?: string;
tool?: string;
state?: { status?: string; input?: unknown; output?: string };
};
[key: string]: unknown;
}
interface OpenCodeToolResultEvent {
type: "tool_result";
timestamp?: number;
sessionID?: string;
part?: { callID?: string; state?: { status?: string; output?: string } };
tool_id?: string;
status?: "success" | "error";
output?: string;
[key: string]: unknown;
}
interface OpenCodeResultEvent {
type: "result";
timestamp?: string;
status?: "success" | "error";
stats?: {
total_tokens?: number;
input_tokens?: number;
output_tokens?: number;
duration_ms?: number;
tool_calls?: number;
};
[key: string]: unknown;
}
interface OpenCodeErrorEvent {
type: "error";
timestamp?: string;
sessionID?: string;
error?: { name?: string; message?: string; data?: unknown; [key: string]: unknown };
[key: string]: unknown;
}
type OpenCodeEvent =
| OpenCodeInitEvent
| OpenCodeMessageEvent
| OpenCodeTextEvent
| OpenCodeStepStartEvent
| OpenCodeStepFinishEvent
| OpenCodeToolUseEvent
| OpenCodeToolResultEvent
| OpenCodeResultEvent
| OpenCodeErrorEvent;
// ── runner ──────────────────────────────────────────────────────────────────────
type RunParams = {
label: string;
cliPath: string;
args: string[];
cwd: string;
env: Record<string, string | undefined>;
todoTracker?: TodoTracker | undefined;
onActivityTimeout?: (() => void) | undefined;
onToolUse?: ((event: { toolName: string; input: unknown }) => void) | undefined;
};
async function runOpenCode(params: RunParams): Promise<AgentResult> {
const startTime = performance.now();
let eventCount = 0;
const thinkingTimer = new ThinkingTimer();
let finalOutput = "";
let accumulatedTokens = { input: 0, output: 0, cacheRead: 0, cacheWrite: 0 };
// per-step `part.cost` sums across the whole session. sourced from models.dev
// inside opencode — present for every supported provider (Anthropic, OpenAI,
// Google, xAI, DeepSeek, Moonshot, OpenRouter sub-providers, etc.).
let accumulatedCostUsd = 0;
let tokensLogged = false;
const toolCallTimings = new Map<string, number>();
let currentStepId: string | null = null;
let currentStepType: string | null = null;
let stepHistory: Array<{ stepId: string; stepType: string; toolCalls: string[] }> = [];
function buildUsage(): AgentUsage | undefined {
const totalInput =
accumulatedTokens.input + accumulatedTokens.cacheRead + accumulatedTokens.cacheWrite;
return totalInput > 0 || accumulatedTokens.output > 0
? {
agent: "pullfrog",
inputTokens: totalInput,
outputTokens: accumulatedTokens.output,
cacheReadTokens: accumulatedTokens.cacheRead || undefined,
cacheWriteTokens: accumulatedTokens.cacheWrite || undefined,
costUsd: accumulatedCostUsd > 0 ? accumulatedCostUsd : undefined,
}
: undefined;
}
const handlers = {
init: (event: OpenCodeInitEvent) => {
log.debug(
`» ${params.label} init: session_id=${event.session_id || "unknown"}, model=${event.model || "unknown"}`
);
log.debug(`» ${params.label} init event (full): ${JSON.stringify(event)}`);
finalOutput = "";
accumulatedTokens = { input: 0, output: 0, cacheRead: 0, cacheWrite: 0 };
accumulatedCostUsd = 0;
tokensLogged = false;
},
message: (event: OpenCodeMessageEvent) => {
if (event.role === "assistant" && event.content?.trim()) {
const message = event.content.trim();
if (event.delta) {
log.debug(
`» ${params.label} thinking: ${message.substring(0, 300)}${message.length > 300 ? "..." : ""}`
);
} else {
log.debug(
`» ${params.label} message (${event.role}): ${message.substring(0, 100)}${message.length > 100 ? "..." : ""}`
);
finalOutput = message;
}
} else if (event.role === "user") {
log.debug(
`» ${params.label} message (${event.role}): ${event.content?.substring(0, 100) || ""}${event.content && event.content.length > 100 ? "..." : ""}`
);
}
},
text: (event: OpenCodeTextEvent) => {
if (event.part?.text?.trim()) {
const message = event.part.text.trim();
log.box(message, { title: params.label });
finalOutput = message;
}
},
step_start: (event: OpenCodeStepStartEvent) => {
const stepType = event.part?.type || "unknown";
const stepId = event.part?.id || "unknown";
currentStepId = stepId;
currentStepType = stepType;
stepHistory.push({ stepId, stepType, toolCalls: [] });
},
step_finish: async (event: OpenCodeStepFinishEvent) => {
const stepId = event.part?.id || "unknown";
const eventTokens = event.part?.tokens;
if (eventTokens) {
accumulatedTokens.input += eventTokens.input || 0;
accumulatedTokens.output += eventTokens.output || 0;
accumulatedTokens.cacheRead += eventTokens.cache?.read || 0;
accumulatedTokens.cacheWrite += eventTokens.cache?.write || 0;
}
// step_finish.part.cost is a per-step delta (not a running total) —
// OpenCode emits varying per-event values that sum to the session cost.
// verified empirically across Anthropic, OpenAI, Gemini, xAI, DeepSeek,
// Moonshot, and OpenRouter (see pullfrog-baseline/opencode-*.log).
// guard against NaN/Infinity — a single poison value would make the
// running total un-recoverable for the rest of the session.
if (typeof event.part?.cost === "number" && Number.isFinite(event.part.cost)) {
accumulatedCostUsd += event.part.cost;
}
if (currentStepId === stepId) {
currentStepId = null;
currentStepType = null;
}
},
tool_use: (event: OpenCodeToolUseEvent) => {
const toolName = event.part?.tool;
const toolId = event.part?.callID;
if (!toolName || !toolId) {
log.info(
`» tool_use event missing toolName or toolId: ${JSON.stringify(event).substring(0, 500)}`
);
return;
}
if (stepHistory.length > 0) {
stepHistory[stepHistory.length - 1]!.toolCalls.push(toolName);
}
if (params.onToolUse) {
params.onToolUse({
toolName,
input: event.part?.state?.input,
});
}
thinkingTimer.markToolCall();
log.toolCall({ toolName, input: event.part?.state?.input || {} });
if (event.part?.state?.status === "completed" && event.part.state.output) {
log.debug(` output: ${event.part.state.output}`);
}
// agent's explicit MCP report_progress takes priority over todo tracking
if (toolName.includes("report_progress") && params.todoTracker) {
log.debug("» report_progress detected, disabling todo tracking");
params.todoTracker.cancel();
}
// parse todowrite events for live progress tracking
if (toolName === "todowrite" && params.todoTracker?.enabled) {
params.todoTracker.update(event.part?.state?.input);
}
},
tool_result: (event: OpenCodeToolResultEvent) => {
const toolId = event.part?.callID || event.tool_id;
const status = event.part?.state?.status || event.status || "unknown";
const output = event.part?.state?.output || event.output;
thinkingTimer.markToolResult();
if (toolId) {
const toolStartTime = toolCallTimings.get(toolId);
if (toolStartTime) {
const toolDuration = performance.now() - toolStartTime;
toolCallTimings.delete(toolId);
const stepContext = currentStepId ? ` (step=${currentStepType || "unknown"})` : "";
log.debug(
`» ${params.label} tool_result${stepContext}: id=${toolId}, status=${status}, duration=${Math.round(toolDuration)}ms`
);
if (output) {
log.debug(` output: ${typeof output === "string" ? output : JSON.stringify(output)}`);
}
if (toolDuration > 5000) {
log.info(
`» tool call took ${(toolDuration / 1000).toFixed(1)}s - may indicate network latency`
);
}
}
}
if (status === "error") {
const errorMsg = typeof output === "string" ? output : JSON.stringify(output);
log.info(`» tool call failed: ${errorMsg}`);
} else if (output) {
const outputStr = typeof output === "string" ? output : JSON.stringify(output);
log.debug(`tool output: ${outputStr}`);
}
},
result: async (event: OpenCodeResultEvent) => {
const status = event.status || "unknown";
const duration = event.stats?.duration_ms || 0;
const toolCalls = event.stats?.tool_calls || 0;
log.info(
`» ${params.label} result: status=${status}, duration=${duration}ms, tool_calls=${toolCalls}`
);
if (event.status === "error") {
log.info(`» ${params.label} failed: ${JSON.stringify(event)}`);
} else {
// the final `result` event only carries input_tokens/output_tokens and
// no cache breakdown — accumulatedTokens (summed across step_finish
// events) is strictly more accurate, so we prefer it unconditionally.
log.info(`» run complete: tool_calls=${toolCalls}, duration=${duration}ms`);
if (
(accumulatedTokens.input > 0 ||
accumulatedTokens.output > 0 ||
accumulatedTokens.cacheRead > 0 ||
accumulatedTokens.cacheWrite > 0) &&
!tokensLogged
) {
logTokenTable({ ...accumulatedTokens, costUsd: accumulatedCostUsd });
tokensLogged = true;
}
}
},
};
const recentStderr: string[] = [];
let lastProviderError: string | null = null;
let output = "";
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"],
onStdout: async (chunk) => {
const text = chunk.toString();
output += 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++;
log.debug(JSON.stringify(event, null, 2));
const timeSinceLastActivity = getIdleMs();
if (timeSinceLastActivity > 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 ${(timeSinceLastActivity / 1000).toFixed(1)}s${toolCallInfo} (${eventCount} events processed so far)`
);
}
markActivity();
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: ${err instanceof Error ? err.message : String(err)}`
);
}
}
},
onStderr: (chunk) => {
const trimmed = chunk.trim();
if (!trimmed) return;
recentStderr.push(trimmed);
if (recentStderr.length > MAX_STDERR_LINES) recentStderr.shift();
const providerError = detectProviderError(trimmed);
if (providerError) {
lastProviderError = providerError;
log.info(`» provider error detected (${providerError}): ${trimmed.substring(0, 500)}`);
} else {
log.debug(trimmed);
}
},
});
if (result.exitCode === 0) {
await params.todoTracker?.flush();
} else {
params.todoTracker?.cancel();
}
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})` : "";
const errorMessage =
result.stderr ||
result.stdout ||
`unknown error - no output from OpenCode CLI${errorContext}`;
log.error(
`${params.label} exited with code ${result.exitCode}${errorContext}: ${errorMessage}`
);
log.debug(`stdout: ${result.stdout?.substring(0, 500)}`);
log.debug(`stderr: ${result.stderr?.substring(0, 500)}`);
return { success: false, output: finalOutput || output, error: errorMessage, usage };
}
if (eventCount === 0 && lastProviderError) {
return {
success: false,
output: finalOutput || output,
error: `provider error: ${lastProviderError}`,
usage,
};
}
return { success: true, output: finalOutput || output, 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}`
);
return {
success: false,
output: finalOutput || output,
error: `${errorMessage} [${diagnosis}]`,
usage: buildUsage(),
};
}
}
// ── agent ───────────────────────────────────────────────────────────────────────
export const opencode = agent({
name: "opencode",
install: installOpencodeCli,
run: async (ctx) => {
const cliPath = await installOpencodeCli();
const model = ctx.payload.proxyModel ?? ctx.resolvedModel ?? autoSelectModel(cliPath);
const homeEnv = {
HOME: ctx.tmpdir,
XDG_CONFIG_HOME: join(ctx.tmpdir, ".config"),
};
mkdirSync(join(homeEnv.XDG_CONFIG_HOME, "opencode"), { recursive: true });
const agentBrowserVersion = getDevDependencyVersion("agent-browser");
addSkill({
ref: `vercel-labs/agent-browser@v${agentBrowserVersion}`,
skill: "agent-browser",
env: homeEnv,
agent: "opencode",
});
installBundledSkills({ home: homeEnv.HOME });
// base args shared between initial run and continue runs
const baseArgs = ["run", "--format", "json", "--print-logs"];
// 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.
const permissionOverride = JSON.stringify({
external_directory: { "*": "deny", "/tmp/*": "allow" },
});
const env: Record<string, string | undefined> = {
...process.env,
...homeEnv,
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,
};
const repoDir = process.cwd();
log.debug(`» starting Pullfrog (OpenCode): ${cliPath} ${baseArgs.join(" ")}`);
log.debug(`» working directory: ${repoDir}`);
const runParams = {
label: "Pullfrog",
cliPath,
cwd: repoDir,
env,
todoTracker: ctx.todoTracker,
onActivityTimeout: ctx.onActivityTimeout,
onToolUse: ctx.onToolUse,
};
let result = await runOpenCode({
...runParams,
args: [...baseArgs, ctx.instructions.full],
});
// usage needs to aggregate across the initial run + every commit retry.
// each runOpenCode() returns only its own iteration's usage, so without
// merging the caller sees only the final retry's slice and undercounts.
let aggregatedUsage = result.usage;
// post-run: if the working tree is dirty, continue the session and ask the agent to commit
for (let attempt = 0; attempt < MAX_COMMIT_RETRIES; attempt++) {
if (!result.success) break;
const status = getGitStatus();
if (!status) break;
log.info(`» dirty working tree (attempt ${attempt + 1}/${MAX_COMMIT_RETRIES}):\n${status}`);
result = await runOpenCode({
...runParams,
args: [...baseArgs, "--continue", buildCommitPrompt("opencode", status)],
});
aggregatedUsage = mergeAgentUsage(aggregatedUsage, result.usage);
}
return { ...result, usage: aggregatedUsage };
},
});