const std = @import("std"); const zfetch = @import("zfetch"); pub fn run(event_handler: fn (std.mem.Allocator, []const u8) anyerror![]const u8) !void { // TODO: remove inferred error set? const prefix = "http://"; const postfix = "/2018-06-01/runtime/invocation"; const lambda_runtime_uri = std.os.getenv("AWS_LAMBDA_RUNTIME_API"); var gpa = std.heap.GeneralPurposeAllocator(.{}){}; defer _ = gpa.deinit(); const allocator = gpa.allocator(); const url = try std.fmt.allocPrint(allocator, "{s}{s}{s}/next", .{ prefix, lambda_runtime_uri, postfix }); defer allocator.free(url); try zfetch.init(); defer zfetch.deinit(); std.log.info("Bootstrap initializing with event url: {s}", .{url}); var headers = zfetch.Headers.init(allocator); defer headers.deinit(); while (true) { var req_alloc = std.heap.ArenaAllocator.init(allocator); defer req_alloc.deinit(); const req_allocator = req_alloc.allocator(); var req = try zfetch.Request.init(req_allocator, url, null); defer req.deinit(); // Lambda freezes the process at this line of code. During warm start, // the process will unfreeze and data will be sent in response to client.get req.do(.GET, headers, null) catch |err| { std.log.err("Get fail: {}", .{err}); // Documentation says something about "exit immediately". The // Lambda infrastrucutre restarts, so it's unclear if that's necessary. // It seems as though a continue should be fine, and slightly faster // std.os.exit(1); continue; }; var request_id: ?[]const u8 = null; var content_length: ?usize = null; for (req.headers.list.items) |h| { if (std.ascii.eqlIgnoreCase(h.name, "Lambda-Runtime-Aws-Request-Id")) request_id = h.value; if (std.ascii.eqlIgnoreCase(h.name, "Content-Length")) { content_length = std.fmt.parseUnsigned(usize, h.value, 10) catch null; if (content_length == null) std.log.warn("Error parsing content length value: '{s}'", .{h.value}); } // TODO: XRay uses an environment variable to do its magic. It's our // responsibility to set this, but no zig-native setenv(3)/putenv(3) // exists. I would kind of rather not link in libc for this, // so we'll hold for now and think on this // if (std.mem.indexOf(u8, h.name.value, "Lambda-Runtime-Trace-Id")) |_| // std.process. // std.os.setenv("AWS_LAMBDA_RUNTIME_API"); } if (request_id == null) { // We can't report back an issue because the runtime error reporting endpoint // uses request id in its path. So the best we can do is log the error and move // on here. std.log.err("Could not find request id: skipping request", .{}); continue; } const req_id = request_id.?; const reader = req.reader(); var buf: [65535]u8 = undefined; var resp_payload = std.ArrayList(u8).init(req_allocator); if (content_length) |len| { resp_payload.ensureTotalCapacity(len) catch { std.log.err("Could not allocate memory for body of request id: {s}", .{request_id.?}); continue; }; } defer resp_payload.deinit(); while (true) { const read = try reader.read(&buf); try resp_payload.appendSlice(buf[0..read]); if (read == 0) break; } const event_response = event_handler(req_allocator, resp_payload.items) catch |err| { // Stack trace will return null if stripped const return_trace = @errorReturnTrace(); std.log.err("Caught error: {}. Return Trace: {}", .{ err, return_trace }); const err_url = try std.fmt.allocPrint(req_allocator, "{s}{s}/runtime/invocation/{s}/error", .{ prefix, lambda_runtime_uri, req_id }); defer req_allocator.free(err_url); const content = \\ {s} \\ "errorMessage": "{s}", \\ "errorType": "HandlerReturnedError", \\ "stackTrace": [ "{}" ] \\ {s} ; const content_fmt = try std.fmt.allocPrint(req_allocator, content, .{ "{", @errorName(err), return_trace, "}" }); defer req_allocator.free(content_fmt); std.log.err("Posting to {s}: Data {s}", .{ err_url, content_fmt }); var err_req = try zfetch.Request.init(req_allocator, err_url, null); defer err_req.deinit(); var err_headers = zfetch.Headers.init(req_allocator); defer err_headers.deinit(); err_headers.append(.{ .name = "Lambda-Runtime-Function-Error-Type", .value = "HandlerReturned", }) catch |append_err| { std.log.err("Error appending error header to post response for request id {s}: {}", .{ req_id, append_err }); std.os.exit(0); continue; }; // TODO: Determine why this post is not returning err_req.do(.POST, err_headers, content_fmt) catch |post_err| { // Well, at this point all we can do is shout at the void std.log.err("Error posting response for request id {s}: {}", .{ req_id, post_err }); std.os.exit(0); continue; }; std.log.err("Post complete", .{}); continue; }; // We should catch these potential alloc errors too const response_url = try std.fmt.allocPrint(req_allocator, "{s}{s}{s}/{s}/response", .{ prefix, lambda_runtime_uri, postfix, req_id }); const response_content = try std.fmt.allocPrint(req_allocator, "{s} \"content\": \"{s}\" {s}", .{ "{", event_response, "}" }); var resp_req = try zfetch.Request.init(req_allocator, response_url, null); defer resp_req.deinit(); resp_req.do(.POST, headers, response_content) catch |err| { // TODO: report error std.log.err("Error posting response for request id {s}: {}", .{ req_id, err }); continue; }; } }