copy lambda.zig from lambda-zig 6a9ff3de24
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src/lambda.zig
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486
src/lambda.zig
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const std = @import("std");
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const builtin = @import("builtin");
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const HandlerFn = *const fn (std.mem.Allocator, []const u8) anyerror![]const u8;
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const log = std.log.scoped(.lambda);
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var empty_headers: std.http.Headers = undefined;
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var client: ?std.http.Client = null;
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const prefix = "http://";
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const postfix = "/2018-06-01/runtime/invocation";
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pub fn deinit() void {
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if (client) |*c| c.deinit();
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client = null;
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}
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/// Starts the lambda framework. Handler will be called when an event is processing
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/// If an allocator is not provided, an approrpriate allocator will be selected and used
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/// This function is intended to loop infinitely. If not used in this manner,
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/// make sure to call the deinit() function
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pub fn run(allocator: ?std.mem.Allocator, event_handler: HandlerFn) !void { // TODO: remove inferred error set?
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const lambda_runtime_uri = std.os.getenv("AWS_LAMBDA_RUNTIME_API") orelse test_lambda_runtime_uri.?;
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// TODO: If this is null, go into single use command line mode
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var gpa = std.heap.GeneralPurposeAllocator(.{}){};
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defer _ = gpa.deinit();
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const alloc = allocator orelse gpa.allocator();
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const url = try std.fmt.allocPrint(alloc, "{s}{s}{s}/next", .{ prefix, lambda_runtime_uri, postfix });
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defer alloc.free(url);
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const uri = try std.Uri.parse(url);
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// TODO: Simply adding this line without even using the client is enough
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// to cause seg faults!?
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// client = client orelse .{ .allocator = alloc };
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// so we'll do this instead
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if (client != null) return error.MustDeInitBeforeCallingRunAgain;
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client = .{ .allocator = alloc };
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empty_headers = std.http.Headers.init(alloc);
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defer empty_headers.deinit();
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log.info("tid {d} (lambda): Bootstrap initializing with event url: {s}", .{ std.Thread.getCurrentId(), url });
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while (lambda_remaining_requests == null or lambda_remaining_requests.? > 0) {
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if (lambda_remaining_requests) |*r| {
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// we're under test
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log.debug("lambda remaining requests: {d}", .{r.*});
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r.* -= 1;
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}
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var req_alloc = std.heap.ArenaAllocator.init(alloc);
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defer req_alloc.deinit();
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const req_allocator = req_alloc.allocator();
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// Fundamentally we're doing 3 things:
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// 1. Get the next event from Lambda (event data and request id)
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// 2. Call our handler to get the response
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// 3. Post the response back to Lambda
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var ev = getEvent(req_allocator, uri) catch |err| {
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// Well, at this point all we can do is shout at the void
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log.err("Error fetching event details: {}", .{err});
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std.os.exit(1);
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// continue;
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};
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if (ev == null) continue; // this gets logged in getEvent, and without
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// a request id, we still can't do anything
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// reasonable to report back
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const event = ev.?;
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defer ev.?.deinit();
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const event_response = event_handler(req_allocator, event.event_data) catch |err| {
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event.reportError(@errorReturnTrace(), err, lambda_runtime_uri) catch unreachable;
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continue;
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};
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event.postResponse(lambda_runtime_uri, event_response) catch |err| {
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event.reportError(@errorReturnTrace(), err, lambda_runtime_uri) catch unreachable;
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continue;
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};
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}
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}
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const Event = struct {
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allocator: std.mem.Allocator,
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event_data: []u8,
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request_id: []u8,
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const Self = @This();
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pub fn init(allocator: std.mem.Allocator, event_data: []u8, request_id: []u8) Self {
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return .{
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.allocator = allocator,
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.event_data = event_data,
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.request_id = request_id,
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};
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}
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pub fn deinit(self: *Self) void {
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self.allocator.free(self.event_data);
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self.allocator.free(self.request_id);
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}
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fn reportError(
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self: Self,
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return_trace: ?*std.builtin.StackTrace,
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err: anytype,
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lambda_runtime_uri: []const u8,
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) !void {
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// If we fail in this function, we're pretty hosed up
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if (return_trace) |rt|
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log.err("Caught error: {}. Return Trace: {any}", .{ err, rt })
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else
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log.err("Caught error: {}. No return trace available", .{err});
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const err_url = try std.fmt.allocPrint(
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self.allocator,
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"{s}{s}{s}/{s}/error",
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.{ prefix, lambda_runtime_uri, postfix, self.request_id },
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);
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defer self.allocator.free(err_url);
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const err_uri = try std.Uri.parse(err_url);
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const content =
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\\{{
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\\ "errorMessage": "{s}",
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\\ "errorType": "HandlerReturnedError",
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\\ "stackTrace": [ "{any}" ]
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\\}}
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;
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const content_fmt = if (return_trace) |rt|
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try std.fmt.allocPrint(self.allocator, content, .{ @errorName(err), rt })
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else
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try std.fmt.allocPrint(self.allocator, content, .{ @errorName(err), "no return trace available" });
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defer self.allocator.free(content_fmt);
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log.err("Posting to {s}: Data {s}", .{ err_url, content_fmt });
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var err_headers = std.http.Headers.init(self.allocator);
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defer err_headers.deinit();
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err_headers.append(
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"Lambda-Runtime-Function-Error-Type",
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"HandlerReturned",
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) catch |append_err| {
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log.err("Error appending error header to post response for request id {s}: {}", .{ self.request_id, append_err });
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std.os.exit(1);
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};
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// TODO: There is something up with using a shared client in this way
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// so we're taking a perf hit in favor of stability. In a practical
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// sense, without making HTTPS connections (lambda environment is
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// non-ssl), this shouldn't be a big issue
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var cl = std.http.Client{ .allocator = self.allocator };
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defer cl.deinit();
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var req = try cl.request(.POST, err_uri, empty_headers, .{});
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// var req = try client.?.request(.POST, err_uri, empty_headers, .{});
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// defer req.deinit();
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req.transfer_encoding = .{ .content_length = content_fmt.len };
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req.start() catch |post_err| { // Well, at this point all we can do is shout at the void
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log.err("Error posting response (start) for request id {s}: {}", .{ self.request_id, post_err });
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std.os.exit(1);
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};
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try req.writeAll(content_fmt);
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try req.finish();
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req.wait() catch |post_err| { // Well, at this point all we can do is shout at the void
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log.err("Error posting response (wait) for request id {s}: {}", .{ self.request_id, post_err });
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std.os.exit(1);
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};
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// TODO: Determine why this post is not returning
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if (req.response.status != .ok) {
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// Documentation says something about "exit immediately". The
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// Lambda infrastrucutre restarts, so it's unclear if that's necessary.
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// It seems as though a continue should be fine, and slightly faster
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log.err("Get fail: {} {s}", .{
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@intFromEnum(req.response.status),
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req.response.status.phrase() orelse "",
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});
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std.os.exit(1);
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}
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log.err("Error reporting post complete", .{});
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}
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fn postResponse(self: Self, lambda_runtime_uri: []const u8, event_response: []const u8) !void {
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const response_url = try std.fmt.allocPrint(
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self.allocator,
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"{s}{s}{s}/{s}/response",
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.{ prefix, lambda_runtime_uri, postfix, self.request_id },
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);
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defer self.allocator.free(response_url);
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const response_uri = try std.Uri.parse(response_url);
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var cl = std.http.Client{ .allocator = self.allocator };
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defer cl.deinit();
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var req = try cl.request(.POST, response_uri, empty_headers, .{});
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// var req = try client.?.request(.POST, response_uri, empty_headers, .{});
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defer req.deinit();
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const response_content = try std.fmt.allocPrint(
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self.allocator,
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"{{ \"content\": \"{s}\" }}",
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.{event_response},
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);
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defer self.allocator.free(response_content);
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req.transfer_encoding = .{ .content_length = response_content.len };
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try req.start();
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try req.writeAll(response_content);
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try req.finish();
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try req.wait();
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}
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};
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fn getEvent(allocator: std.mem.Allocator, event_data_uri: std.Uri) !?Event {
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// TODO: There is something up with using a shared client in this way
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// so we're taking a perf hit in favor of stability. In a practical
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// sense, without making HTTPS connections (lambda environment is
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// non-ssl), this shouldn't be a big issue
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var cl = std.http.Client{ .allocator = allocator };
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defer cl.deinit();
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var req = try cl.request(.GET, event_data_uri, empty_headers, .{});
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// var req = try client.?.request(.GET, event_data_uri, empty_headers, .{});
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// defer req.deinit();
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try req.start();
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try req.finish();
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// Lambda freezes the process at this line of code. During warm start,
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// the process will unfreeze and data will be sent in response to client.get
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try req.wait();
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if (req.response.status != .ok) {
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// Documentation says something about "exit immediately". The
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// Lambda infrastrucutre restarts, so it's unclear if that's necessary.
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// It seems as though a continue should be fine, and slightly faster
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// std.os.exit(1);
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log.err("Lambda server event response returned bad error code: {} {s}", .{
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@intFromEnum(req.response.status),
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req.response.status.phrase() orelse "",
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});
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return error.EventResponseNotOkResponse;
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}
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var request_id: ?[]const u8 = null;
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var content_length: ?usize = null;
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for (req.response.headers.list.items) |h| {
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if (std.ascii.eqlIgnoreCase(h.name, "Lambda-Runtime-Aws-Request-Id"))
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request_id = h.value;
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if (std.ascii.eqlIgnoreCase(h.name, "Content-Length")) {
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content_length = std.fmt.parseUnsigned(usize, h.value, 10) catch null;
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if (content_length == null)
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log.warn("Error parsing content length value: '{s}'", .{h.value});
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}
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// TODO: XRay uses an environment variable to do its magic. It's our
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// responsibility to set this, but no zig-native setenv(3)/putenv(3)
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// exists. I would kind of rather not link in libc for this,
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// so we'll hold for now and think on this
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// if (std.mem.indexOf(u8, h.name.value, "Lambda-Runtime-Trace-Id")) |_|
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// std.process.
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// std.os.setenv("AWS_LAMBDA_RUNTIME_API");
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}
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if (request_id == null) {
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// We can't report back an issue because the runtime error reporting endpoint
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// uses request id in its path. So the best we can do is log the error and move
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// on here.
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log.err("Could not find request id: skipping request", .{});
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return null;
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}
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if (content_length == null) {
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// We can't report back an issue because the runtime error reporting endpoint
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// uses request id in its path. So the best we can do is log the error and move
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// on here.
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log.err("No content length provided for event data", .{});
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return null;
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}
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const req_id = request_id.?;
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log.debug("got lambda request with id {s}", .{req_id});
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var resp_payload = try std.ArrayList(u8).initCapacity(allocator, content_length.?);
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defer resp_payload.deinit();
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try resp_payload.resize(content_length.?);
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var response_data = try resp_payload.toOwnedSlice();
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errdefer allocator.free(response_data);
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_ = try req.readAll(response_data);
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return Event.init(
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allocator,
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response_data,
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try allocator.dupe(u8, req_id),
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);
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}
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////////////////////////////////////////////////////////////////////////
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// All code below this line is for testing
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////////////////////////////////////////////////////////////////////////
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var server_port: ?u16 = null;
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var server_remaining_requests: usize = 0;
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var lambda_remaining_requests: ?usize = null;
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var server_response: []const u8 = "unset";
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var server_request_aka_lambda_response: []u8 = "";
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var test_lambda_runtime_uri: ?[]u8 = null;
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var server_ready = false;
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/// This starts a test server. We're not testing the server itself,
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/// so the main tests will start this thing up and create an arena around the
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/// whole thing so we can just deallocate everything at once at the end,
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/// leaks be damned
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fn startServer(allocator: std.mem.Allocator) !std.Thread {
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return try std.Thread.spawn(
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.{},
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threadMain,
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.{allocator},
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);
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}
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fn threadMain(allocator: std.mem.Allocator) !void {
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var server = std.http.Server.init(allocator, .{ .reuse_address = true });
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// defer server.deinit();
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const address = try std.net.Address.parseIp("127.0.0.1", 0);
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try server.listen(address);
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server_port = server.socket.listen_address.in.getPort();
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test_lambda_runtime_uri = try std.fmt.allocPrint(allocator, "127.0.0.1:{d}", .{server_port.?});
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log.debug("server listening at {s}", .{test_lambda_runtime_uri.?});
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defer server.deinit();
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defer test_lambda_runtime_uri = null;
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defer server_port = null;
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log.info("starting server thread, tid {d}", .{std.Thread.getCurrentId()});
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var arena = std.heap.ArenaAllocator.init(allocator);
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defer arena.deinit();
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var aa = arena.allocator();
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// We're in control of all requests/responses, so this flag will tell us
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// when it's time to shut down
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while (server_remaining_requests > 0) {
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server_remaining_requests -= 1;
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// defer {
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// if (!arena.reset(.{ .retain_capacity = {} })) {
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// // reallocation failed, arena is degraded
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// log.warn("Arena reset failed and is degraded. Resetting arena", .{});
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// arena.deinit();
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// arena = std.heap.ArenaAllocator.init(allocator);
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// aa = arena.allocator();
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// }
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// }
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processRequest(aa, &server) catch |e| {
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log.err("Unexpected error processing request: {any}", .{e});
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if (@errorReturnTrace()) |trace| {
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std.debug.dumpStackTrace(trace.*);
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}
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};
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}
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}
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fn processRequest(allocator: std.mem.Allocator, server: *std.http.Server) !void {
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server_ready = true;
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errdefer server_ready = false;
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log.debug(
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"tid {d} (server): server waiting to accept. requests remaining: {d}",
|
||||||
|
.{ std.Thread.getCurrentId(), server_remaining_requests + 1 },
|
||||||
|
);
|
||||||
|
var res = try server.accept(.{ .allocator = allocator });
|
||||||
|
server_ready = false;
|
||||||
|
defer res.deinit();
|
||||||
|
defer _ = res.reset();
|
||||||
|
try res.wait(); // wait for client to send a complete request head
|
||||||
|
|
||||||
|
const errstr = "Internal Server Error\n";
|
||||||
|
var errbuf: [errstr.len]u8 = undefined;
|
||||||
|
@memcpy(&errbuf, errstr);
|
||||||
|
var response_bytes: []const u8 = errbuf[0..];
|
||||||
|
|
||||||
|
if (res.request.content_length) |l|
|
||||||
|
server_request_aka_lambda_response = try res.reader().readAllAlloc(allocator, @as(usize, l));
|
||||||
|
|
||||||
|
log.debug(
|
||||||
|
"tid {d} (server): {d} bytes read from request",
|
||||||
|
.{ std.Thread.getCurrentId(), server_request_aka_lambda_response.len },
|
||||||
|
);
|
||||||
|
|
||||||
|
// try response.headers.append("content-type", "text/plain");
|
||||||
|
response_bytes = serve(allocator, &res) catch |e| brk: {
|
||||||
|
res.status = .internal_server_error;
|
||||||
|
// TODO: more about this particular request
|
||||||
|
log.err("Unexpected error from executor processing request: {any}", .{e});
|
||||||
|
if (@errorReturnTrace()) |trace| {
|
||||||
|
std.debug.dumpStackTrace(trace.*);
|
||||||
|
}
|
||||||
|
break :brk "Unexpected error generating request to lambda";
|
||||||
|
};
|
||||||
|
res.transfer_encoding = .{ .content_length = response_bytes.len };
|
||||||
|
try res.do();
|
||||||
|
_ = try res.writer().writeAll(response_bytes);
|
||||||
|
try res.finish();
|
||||||
|
log.debug(
|
||||||
|
"tid {d} (server): sent response",
|
||||||
|
.{std.Thread.getCurrentId()},
|
||||||
|
);
|
||||||
|
}
|
||||||
|
|
||||||
|
fn serve(allocator: std.mem.Allocator, res: *std.http.Server.Response) ![]const u8 {
|
||||||
|
_ = allocator;
|
||||||
|
// try res.headers.append("content-length", try std.fmt.allocPrint(allocator, "{d}", .{server_response.len}));
|
||||||
|
try res.headers.append("Lambda-Runtime-Aws-Request-Id", "69");
|
||||||
|
return server_response;
|
||||||
|
}
|
||||||
|
|
||||||
|
fn handler(allocator: std.mem.Allocator, event_data: []const u8) ![]const u8 {
|
||||||
|
_ = allocator;
|
||||||
|
return event_data;
|
||||||
|
}
|
||||||
|
fn test_run(allocator: std.mem.Allocator, event_handler: HandlerFn) !std.Thread {
|
||||||
|
return try std.Thread.spawn(
|
||||||
|
.{},
|
||||||
|
run,
|
||||||
|
.{ allocator, event_handler },
|
||||||
|
);
|
||||||
|
}
|
||||||
|
|
||||||
|
fn lambda_request(allocator: std.mem.Allocator, request: []const u8, request_count: usize) ![]u8 {
|
||||||
|
var arena = std.heap.ArenaAllocator.init(allocator);
|
||||||
|
defer arena.deinit();
|
||||||
|
var aa = arena.allocator();
|
||||||
|
// Setup our server to run, and set the response for the server to the
|
||||||
|
// request. There is a cognitive disconnect here between mental model and
|
||||||
|
// physical model.
|
||||||
|
//
|
||||||
|
// Mental model:
|
||||||
|
//
|
||||||
|
// Lambda request -> λ -> Lambda response
|
||||||
|
//
|
||||||
|
// Physcial Model:
|
||||||
|
//
|
||||||
|
// 1. λ requests instructions from server
|
||||||
|
// 2. server provides "Lambda request"
|
||||||
|
// 3. λ posts response back to server
|
||||||
|
//
|
||||||
|
// So here we are setting up our server, then our lambda request loop,
|
||||||
|
// but it all needs to be in seperate threads so we can control startup
|
||||||
|
// and shut down. Both server and Lambda are set up to watch global variable
|
||||||
|
// booleans to know when to shut down. This function is designed for a
|
||||||
|
// single request/response pair only
|
||||||
|
|
||||||
|
lambda_remaining_requests = request_count;
|
||||||
|
server_remaining_requests = lambda_remaining_requests.? * 2; // Lambda functions
|
||||||
|
// fetch from the server,
|
||||||
|
// then post back. Always
|
||||||
|
// 2, no more, no less
|
||||||
|
server_response = request; // set our instructions to lambda, which in our
|
||||||
|
// physical model above, is the server response
|
||||||
|
defer server_response = "unset"; // set it back so we don't get confused later
|
||||||
|
// when subsequent tests fail
|
||||||
|
const server_thread = try startServer(aa); // start the server, get it ready
|
||||||
|
while (!server_ready)
|
||||||
|
std.time.sleep(100);
|
||||||
|
|
||||||
|
log.debug("tid {d} (main): server reports ready", .{std.Thread.getCurrentId()});
|
||||||
|
// we aren't testing the server,
|
||||||
|
// so we'll use the arena allocator
|
||||||
|
defer server_thread.join(); // we'll be shutting everything down before we exit
|
||||||
|
|
||||||
|
// Now we need to start the lambda framework, following a siimilar pattern
|
||||||
|
const lambda_thread = try test_run(allocator, handler); // We want our function under test to report leaks
|
||||||
|
lambda_thread.join();
|
||||||
|
return try allocator.dupe(u8, server_request_aka_lambda_response);
|
||||||
|
}
|
||||||
|
|
||||||
|
test "basic request" {
|
||||||
|
// std.testing.log_level = .debug;
|
||||||
|
const allocator = std.testing.allocator;
|
||||||
|
const request =
|
||||||
|
\\{"foo": "bar", "baz": "qux"}
|
||||||
|
;
|
||||||
|
|
||||||
|
// This is what's actually coming back. Is this right?
|
||||||
|
const expected_response =
|
||||||
|
\\{ "content": "{"foo": "bar", "baz": "qux"}" }
|
||||||
|
;
|
||||||
|
const lambda_response = try lambda_request(allocator, request, 1);
|
||||||
|
defer deinit();
|
||||||
|
defer allocator.free(lambda_response);
|
||||||
|
try std.testing.expectEqualStrings(expected_response, lambda_response);
|
||||||
|
}
|
||||||
|
|
||||||
|
test "several requests do not fail" {
|
||||||
|
// std.testing.log_level = .debug;
|
||||||
|
const allocator = std.testing.allocator;
|
||||||
|
const request =
|
||||||
|
\\{"foo": "bar", "baz": "qux"}
|
||||||
|
;
|
||||||
|
|
||||||
|
// This is what's actually coming back. Is this right?
|
||||||
|
const expected_response =
|
||||||
|
\\{ "content": "{"foo": "bar", "baz": "qux"}" }
|
||||||
|
;
|
||||||
|
const lambda_response = try lambda_request(allocator, request, 5);
|
||||||
|
defer deinit();
|
||||||
|
defer allocator.free(lambda_response);
|
||||||
|
try std.testing.expectEqualStrings(expected_response, lambda_response);
|
||||||
|
}
|
Loading…
Reference in New Issue
Block a user