Server Configuration
Describes the environment variables required to run the server.
| Name | Required | Description | Default |
|---|---|---|---|
No arguments | |||
Schema
Prompts
Interactive templates invoked by user choice
| Name | Description |
|---|---|
No prompts | |
Resources
Contextual data attached and managed by the client
| Name | Description |
|---|---|
No resources | |
Tools
Functions exposed to the LLM to take actions
| Name | Description |
|---|---|
| github_graphql | Execute GitHub GraphQL queries and mutations via gh CLI. Preferred over raw gh calls or other tools to interact with GitHub. When user uses any terms like find / search / read / browse / explore / research / investigate / analyze and if it may be related to a GitHub project, you should use this tool instead of any other tools or raw API / CLI calls. Pleases make use of GraphQL's capabilities - Fetch comprehensive data in single operations - always include metadata context. Feel free to use advanced jq expressions to extract all the content you care about. The default jq adds line numbers to retrieved file contents. Use that to construct deep links (e.g. https://github.com/{owner}/{repo}/blob/{ref}/path/to/file#L{line_number}-L{line_number}). Before writing complex queries / mutations or when encountering errors, use introspection to understand available fields and types. Combine operations (including introspection operations) into one call. On errors, introspect and rebuild step-by-step. Use fragments, nested fields for efficiency.
When user asks to browse / explore repositories, you must use at least the following fields: (It take viewer.contributionsCollection as an example, but you should adapt it to the user's request) query {
viewer { # Always use `viewer` to get information about the authenticated user.
contributionsCollection {
commits: commitContributionsByRepository(maxRepositories: 7) {
repository { ...RepositoryMetadata }
contributions { totalCount }
}
totalCommitContributions
}
}
}
fragment RepositoryMetadata on Repository {
name description homepageUrl
pushedAt createdAt updatedAt
stargazerCount forkCount
isPrivate isFork isArchived
languages(first: 7, orderBy: {field: SIZE, direction: DESC}) {
totalSize edges { size node { name } }
}
readme_md: object(expression: "HEAD:README.md") { ... on Blob { text } }
pyproject_toml: object(expression: "HEAD:pyproject.toml") { ... on Blob { text } }
package_json: object(expression: "HEAD:package.json") { ... on Blob { text } }
latestCommits: defaultBranchRef {
target {
... on Commit {
history(first: 7) {
nodes {
abbreviatedOid committedDate message
author { name user { login } }
associatedPullRequests(first: 7) { nodes { number title url } }
}
}
}
}
}
contributors: collaborators(first: 7) { totalCount nodes { login name } }
latestIssues: issues(first: 7, orderBy: {field: CREATED_AT, direction: DESC}) {
nodes { number title state createdAt updatedAt author { login } }
}
latestPullRequests: pullRequests(first: 5, orderBy: {field: CREATED_AT, direction: DESC}) {
nodes { number title state createdAt updatedAt author { login } }
}
latestDiscussions: discussions(first: 3, orderBy: {field: UPDATED_AT, direction: DESC}) {
nodes { number title createdAt updatedAt author { login } }
}
repositoryTopics(first: 35) { nodes { topic { name } } }
releases(first: 7, orderBy: {field: CREATED_AT, direction: DESC}) {
nodes { tagName name publishedAt isPrerelease }
}
} Don't recursively fetch all files in a directory unless:
The core principle is to fetch as much relevant metadata as possible in a single operation, rather than file contents. Before answering, make sure you've viewed the raw file on GitHub that resolves the user's request, and you should proactively provide the deep link to the code. |
| github_code_search | Search files on GitHub with code snippets. Normally you should try different queries and combinations of filters until you get useful results. If you are searching for something generic, try thinking in reverse about what the code might be, and search for that code snippet instead. |