// file : mod/mod-ci-github-gh.cxx -*- C++ -*- // license : MIT; see accompanying LICENSE file #include #include namespace brep { [[noreturn]] static void throw_json (const json::parser& p, const string& m) { throw json::invalid_json_input ( p.input_name, p.line (), p.column (), p.position (), m); } // Return the GitHub check run status corresponding to a build_state. // string gh_to_status (build_state st) noexcept { // Just return by value (small string optimization). // switch (st) { case build_state::queued: return "QUEUED"; case build_state::building: return "IN_PROGRESS"; case build_state::built: return "COMPLETED"; } return ""; // Should never reach. } // Return the build_state corresponding to a GitHub check run status // string. Throw invalid_argument if the passed status was invalid. // build_state gh_from_status (const string& s) { if (s == "QUEUED") return build_state::queued; else if (s == "IN_PROGRESS") return build_state::building; else if (s == "COMPLETED") return build_state::built; else throw invalid_argument ("unexpected GitHub check run status: '" + s + '\''); } string gh_to_conclusion (result_status rs, bool warning_success) { switch (rs) { case result_status::success: return "SUCCESS"; case result_status::warning: return warning_success ? "SUCCESS" : "FAILURE"; case result_status::error: case result_status::abort: case result_status::abnormal: return "FAILURE"; // Valid values we should never encounter. // case result_status::skip: case result_status::interrupt: throw invalid_argument ("unexpected result_status value: " + to_string (rs)); } return ""; // Should never reach. } string gh_check_run_name (const build& b, const build_queued_hints* bh) { string r; if (bh == nullptr || !bh->single_package_version) { r += b.package_name.string (); r += '/'; r += b.package_version.string (); r += '/'; } r += b.target_config_name; r += '/'; r += b.target.string (); r += '/'; if (bh == nullptr || !bh->single_package_config) { r += b.package_config_name; r += '/'; } r += b.toolchain_name; r += '-'; r += b.toolchain_version.string (); return r; } // Throw invalid_json_input when a required member `m` is missing from a // JSON object `o`. // [[noreturn]] static void missing_member (const json::parser& p, const char* o, const char* m) { throw_json (p, o + string (" object is missing member '") + m + '\''); } using event = json::event; // gh_check_suite // gh_check_suite:: gh_check_suite (json::parser& p) { p.next_expect (event::begin_object); bool ni (false), hb (false), hs (false); // Skip unknown/uninteresting members. // while (p.next_expect (event::name, event::end_object)) { auto c = [&p] (bool& v, const char* s) { return p.name () == s ? (v = true) : false; }; if (c (ni, "node_id")) node_id = p.next_expect_string (); else if (c (hb, "head_branch")) { string* v (p.next_expect_string_null ()); if (v != nullptr) head_branch = *v; } else if (c (hs, "head_sha")) head_sha = p.next_expect_string (); else p.next_expect_value_skip (); } if (!ni) missing_member (p, "gh_check_suite", "node_id"); if (!hb) missing_member (p, "gh_check_suite", "head_branch"); if (!hs) missing_member (p, "gh_check_suite", "head_sha"); } ostream& operator<< (ostream& os, const gh_check_suite& cs) { os << "node_id: " << cs.node_id << ", head_branch: " << (cs.head_branch ? *cs.head_branch : "null") << ", head_sha: " << cs.head_sha; return os; } // gh_check_run // gh_check_run:: gh_check_run (json::parser& p) { p.next_expect (event::begin_object); bool ni (false), nm (false), st (false); // Skip unknown/uninteresting members. // while (p.next_expect (event::name, event::end_object)) { auto c = [&p] (bool& v, const char* s) { return p.name () == s ? (v = true) : false; }; if (c (ni, "node_id")) node_id = p.next_expect_string (); else if (c (nm, "name")) name = p.next_expect_string (); else if (c (st, "status")) status = p.next_expect_string (); else p.next_expect_value_skip (); } if (!ni) missing_member (p, "gh_check_run", "node_id"); if (!nm) missing_member (p, "gh_check_run", "name"); if (!st) missing_member (p, "gh_check_run", "status"); } // gh_check_run_ex // gh_check_run_ex:: gh_check_run_ex (json::parser& p) { p.next_expect (event::begin_object); bool ni (false), nm (false), st (false), du (false), cs (false); // Skip unknown/uninteresting members. // while (p.next_expect (event::name, event::end_object)) { auto c = [&p] (bool& v, const char* s) { return p.name () == s ? (v = true) : false; }; if (c (ni, "node_id")) node_id = p.next_expect_string (); else if (c (nm, "name")) name = p.next_expect_string (); else if (c (st, "status")) status = p.next_expect_string (); else if (c (du, "details_url")) details_url = p.next_expect_string (); else if (c (cs, "check_suite")) check_suite = gh_check_suite (p); else p.next_expect_value_skip (); } if (!ni) missing_member (p, "gh_check_run", "node_id"); if (!nm) missing_member (p, "gh_check_run", "name"); if (!st) missing_member (p, "gh_check_run", "status"); if (!du) missing_member (p, "gh_check_run", "details_url"); if (!cs) missing_member (p, "gh_check_run", "check_suite"); } ostream& operator<< (ostream& os, const gh_check_run& cr) { os << "node_id: " << cr.node_id << ", name: " << cr.name << ", status: " << cr.status; return os; } ostream& operator<< (ostream& os, const gh_check_run_ex& cr) { os << static_cast (cr) << ", details_url: " << cr.details_url << ", check_suite: { " << cr.check_suite << " }"; return os; } gh_pull_request:: gh_pull_request (json::parser& p) { p.next_expect (event::begin_object); bool ni (false), nu (false), bs (false), hd (false); // Skip unknown/uninteresting members. // while (p.next_expect (event::name, event::end_object)) { auto c = [&p] (bool& v, const char* s) { return p.name () == s ? (v = true) : false; }; if (c (ni, "node_id")) node_id = p.next_expect_string (); else if (c (nu, "number")) number = p.next_expect_number (); else if (c (bs, "base")) { p.next_expect (event::begin_object); bool r (false), s (false), rp (false), fn (false); while (p.next_expect (event::name, event::end_object)) { if (c (r, "ref")) base_ref = p.next_expect_string (); else if (c (s, "sha")) base_sha = p.next_expect_string (); else if (c (rp, "repo")) { p.next_expect (event::begin_object); while (p.next_expect (event::name, event::end_object)) { if (c (fn, "full_name")) base_path = p.next_expect_string (); else p.next_expect_value_skip (); } } else p.next_expect_value_skip (); } if (!r) missing_member (p, "gh_pull_request.base", "ref"); if (!s) missing_member (p, "gh_pull_request.base", "sha"); if (!rp) missing_member (p, "gh_pull_request.base", "repo"); if (!fn) missing_member (p, "gh_pull_request.base.repo", "full_name"); } else if (c (hd, "head")) { p.next_expect (event::begin_object); bool r (false), s (false), rp (false), fn (false); while (p.next_expect (event::name, event::end_object)) { if (c (r, "ref")) head_ref = p.next_expect_string (); else if (c (s, "sha")) head_sha = p.next_expect_string (); else if (c (rp, "repo")) { p.next_expect (event::begin_object); while (p.next_expect (event::name, event::end_object)) { if (c (fn, "full_name")) head_path = p.next_expect_string (); else p.next_expect_value_skip (); } } else p.next_expect_value_skip (); } if (!r) missing_member (p, "gh_pull_request.head", "ref"); if (!s) missing_member (p, "gh_pull_request.head", "sha"); if (!rp) missing_member (p, "gh_pull_request.head", "repo"); if (!fn) missing_member (p, "gh_pull_request.head.repo", "full_name"); } else p.next_expect_value_skip (); } if (!ni) missing_member (p, "gh_pull_request", "node_id"); if (!nu) missing_member (p, "gh_pull_request", "number"); if (!bs) missing_member (p, "gh_pull_request", "base"); if (!hd) missing_member (p, "gh_pull_request", "head"); } ostream& operator<< (ostream& os, const gh_pull_request& pr) { os << "node_id: " << pr.node_id << ", number: " << pr.number << ", base: { " << "path: " << pr.base_path << ", ref: " << pr.base_ref << ", sha: " << pr.base_sha << " }" << ", head: { " << "path: " << pr.head_path << ", ref: " << pr.head_ref << ", sha: " << pr.head_sha << " }"; return os; } // gh_repository // gh_repository:: gh_repository (json::parser& p) { p.next_expect (event::begin_object); bool ni (false), nm (false), fn (false), cu (false); // Skip unknown/uninteresting members. // while (p.next_expect (event::name, event::end_object)) { auto c = [&p] (bool& v, const char* s) { return p.name () == s ? (v = true) : false; }; if (c (ni, "node_id")) node_id = p.next_expect_string (); else if (c (nm, "name")) name = p.next_expect_string (); else if (c (fn, "full_name")) path = p.next_expect_string (); else if (c (cu, "clone_url")) clone_url = p.next_expect_string (); else p.next_expect_value_skip (); } if (!ni) missing_member (p, "gh_repository", "node_id"); if (!nm) missing_member (p, "gh_repository", "name"); if (!fn) missing_member (p, "gh_repository", "full_name"); if (!cu) missing_member (p, "gh_repository", "clone_url"); } ostream& operator<< (ostream& os, const gh_repository& rep) { os << "node_id: " << rep.node_id << ", name: " << rep.name << ", path: " << rep.path << ", clone_url: " << rep.clone_url; return os; } // gh_installation // gh_installation:: gh_installation (json::parser& p) { p.next_expect (event::begin_object); bool i (false); // Skip unknown/uninteresting members. // while (p.next_expect (event::name, event::end_object)) { auto c = [&p] (bool& v, const char* s) { return p.name () == s ? (v = true) : false; }; if (c (i, "id")) id = p.next_expect_number (); else p.next_expect_value_skip (); } if (!i) missing_member (p, "gh_installation", "id"); } ostream& operator<< (ostream& os, const gh_installation& i) { os << "id: " << i.id; return os; } // gh_check_suite_event // gh_check_suite_event:: gh_check_suite_event (json::parser& p) { p.next_expect (event::begin_object); bool ac (false), cs (false), rp (false), in (false); // Skip unknown/uninteresting members. // while (p.next_expect (event::name, event::end_object)) { auto c = [&p] (bool& v, const char* s) { return p.name () == s ? (v = true) : false; }; if (c (ac, "action")) action = p.next_expect_string (); else if (c (cs, "check_suite")) check_suite = gh_check_suite (p); else if (c (rp, "repository")) repository = gh_repository (p); else if (c (in, "installation")) installation = gh_installation (p); else p.next_expect_value_skip (); } if (!ac) missing_member (p, "gh_check_suite_event", "action"); if (!cs) missing_member (p, "gh_check_suite_event", "check_suite"); if (!rp) missing_member (p, "gh_check_suite_event", "repository"); if (!in) missing_member (p, "gh_check_suite_event", "installation"); } ostream& operator<< (ostream& os, const gh_check_suite_event& cs) { os << "action: " << cs.action; os << ", check_suite { " << cs.check_suite << " }"; os << ", repository { " << cs.repository << " }"; os << ", installation { " << cs.installation << " }"; return os; } // gh_check_run_event // gh_check_run_event:: gh_check_run_event (json::parser& p) { p.next_expect (event::begin_object); bool ac (false), cs (false), rp (false), in (false); // Skip unknown/uninteresting members. // while (p.next_expect (event::name, event::end_object)) { auto c = [&p] (bool& v, const char* s) { return p.name () == s ? (v = true) : false; }; if (c (ac, "action")) action = p.next_expect_string (); else if (c (cs, "check_run")) check_run = gh_check_run_ex (p); else if (c (rp, "repository")) repository = gh_repository (p); else if (c (in, "installation")) installation = gh_installation (p); else p.next_expect_value_skip (); } if (!ac) missing_member (p, "gh_check_run_event", "action"); if (!cs) missing_member (p, "gh_check_run_event", "check_run"); if (!rp) missing_member (p, "gh_check_run_event", "repository"); if (!in) missing_member (p, "gh_check_run_event", "installation"); } ostream& operator<< (ostream& os, const gh_check_run_event& cr) { os << "action: " << cr.action; os << ", check_run { " << cr.check_run << " }"; os << ", repository { " << cr.repository << " }"; os << ", installation { " << cr.installation << " }"; return os; } // gh_pull_request_event // gh_pull_request_event:: gh_pull_request_event (json::parser& p) { p.next_expect (event::begin_object); bool ac (false), pr (false), bf (false), rp (false), in (false); // Skip unknown/uninteresting members. // while (p.next_expect (event::name, event::end_object)) { auto c = [&p] (bool& v, const char* s) { return p.name () == s ? (v = true) : false; }; if (c (ac, "action")) action = p.next_expect_string (); else if (c (pr, "pull_request")) pull_request = gh_pull_request (p); else if (c (bf, "before")) before = p.next_expect_string (); else if (c (rp, "repository")) repository = gh_repository (p); else if (c (in, "installation")) installation = gh_installation (p); else p.next_expect_value_skip (); } if (!ac) missing_member (p, "gh_pull_request_event", "action"); if (!pr) missing_member (p, "gh_pull_request_event", "pull_request"); if (!rp) missing_member (p, "gh_pull_request_event", "repository"); if (!in) missing_member (p, "gh_pull_request_event", "installation"); } ostream& operator<< (ostream& os, const gh_pull_request_event& pr) { os << "action: " << pr.action; os << ", pull_request { " << pr.pull_request << " }"; os << ", before: " << (pr.before ? *pr.before : "null"); os << ", repository { " << pr.repository << " }"; os << ", installation { " << pr.installation << " }"; return os; } // gh_installation_access_token // // Example JSON: // // { // "token": "ghs_Py7TPcsmsITeVCAWeVtD8RQs8eSos71O5Nzp", // "expires_at": "2024-02-15T16:16:38Z", // ... // } // gh_installation_access_token:: gh_installation_access_token (json::parser& p) { p.next_expect (event::begin_object); bool tk (false), ea (false); // Skip unknown/uninteresting members. // while (p.next_expect (event::name, event::end_object)) { auto c = [&p] (bool& v, const char* s) { return p.name () == s ? (v = true) : false; }; if (c (tk, "token")) token = p.next_expect_string (); else if (c (ea, "expires_at")) { string v (p.next_expect_string ()); try { expires_at = gh_from_iso8601 (v); } catch (const invalid_argument& e) { throw_json (p, "invalid IAT expires_at value '" + v + "': " + e.what ()); } } else p.next_expect_value_skip (); } if (!tk) missing_member (p, "gh_installation_access_token", "token"); if (!ea) missing_member (p, "gh_installation_access_token", "expires_at"); } gh_installation_access_token:: gh_installation_access_token (string tk, timestamp ea) : token (move (tk)), expires_at (ea) { } ostream& operator<< (ostream& os, const gh_installation_access_token& t) { os << "token: " << t.token << ", expires_at: "; butl::operator<< (os, t.expires_at); return os; } string gh_to_iso8601 (timestamp t) { try { return butl::to_string (t, "%Y-%m-%dT%TZ", false /* special */, false /* local */); } catch (const system_error& e) { throw runtime_error ( string ("failed to convert timestamp to ISO 8601 string: ") + e.what ()); } } timestamp gh_from_iso8601 (const string& s) { try { // @@ TMP butl::from_string()'s comment says it also throws // invalid_argument but that seems to be false. // return butl::from_string (s.c_str (), "%Y-%m-%dT%TZ", false /* local */); } catch (const system_error& e) { throw invalid_argument ("invalid ISO 8601 timestamp value '" + s + "': " + e.what ()); } } }