const std = @import("std"); const interface = @import("flexilib-interface"); const testing = std.testing; const log = std.log.scoped(.@"main-lib"); const client_handler = @import("flexilib_handler"); // The main program will look for exports during the request lifecycle: // zigInit (optional): called at the beginning of a request, includes pointer to an allocator // handle_request: called with request data, expects response data // request_deinit (optional): called at the end of a request to allow resource cleanup // // Setup for these is aided by the interface library as shown below // zigInit is an optional export called at the beginning of a request. It will // be passed an allocator (which...shh...is an arena allocator). Since the // interface library provides a request handler that requires a built-in allocator, // if you are using the interface's handleRequest function as shown above, // you will need to also include this export. To customize, just do something // like this: // // export fn zigInit(parent_allocator: *anyopaque) callconv(.C) void { // // your code here, just include the next line // interface.zigInit(parent_allocator); // } // comptime { @export(interface.zigInit, .{ .name = "zigInit", .linkage = .Strong }); } /// handle_request will be called on a single request, but due to the preservation /// of restrictions imposed by the calling interface, it should generally be more /// useful to call into the interface library to let it do the conversion work /// on your behalf export fn handle_request(request: *interface.Request) callconv(.C) ?*interface.Response { // The interface library provides a handleRequest function that will handle // marshalling data back and forth from the C format used for the interface // to a more Zig friendly format. It also allows usage of zig errors. To // use, pass in the request and the zig function used to handle the request // (here called "handleRequest"). The function signature must be: // // fn (std.mem.Allocator, interface.ZigRequest, interface.ZigResponse) !void // return interface.handleRequest(request, handleRequest); } // request_deinit is an optional export and will be called a the end of the // request. Useful for deallocating memory. Since this is zig code and the // allocator used is an arena allocator, all allocated memory will be automatically // cleaned up by the main program at the end of a request // // export fn request_deinit() void { // } // ************************************************************************ // Boilerplate ^^, Custom code vv // ************************************************************************ // // handleRequest function here is the last line of boilerplate and the // entry to a request fn handleRequest(allocator: std.mem.Allocator, request: interface.ZigRequest, response: interface.ZigResponse) !void { // setup var response_writer = response.body.writer(); // dispatch to our actual handler try response_writer.writeAll(try client_handler.handler(allocator, request.content, .{ .flexilib = .{ .request = request, .response = response, } })); } // Need to figure out how tests would work test "handle_request" { var arena = std.heap.ArenaAllocator.init(std.testing.allocator); defer arena.deinit(); var aa = arena.allocator(); interface.zigInit(&aa); var headers: []interface.Header = @constCast(&[_]interface.Header{.{ .name_ptr = @ptrCast(@constCast("GET".ptr)), .name_len = 3, .value_ptr = @ptrCast(@constCast("GET".ptr)), .value_len = 3, }}); var req = interface.Request{ .method = @ptrCast(@constCast("GET".ptr)), .method_len = 3, .content = @ptrCast(@constCast("GET".ptr)), .content_len = 3, .headers = headers.ptr, .headers_len = 1, }; const response = handle_request(&req).?; try testing.expectEqualStrings(" 1", response.ptr[0..response.len]); try testing.expectEqualStrings("X-custom-foo", response.headers[0].name_ptr[0..response.headers[0].name_len]); try testing.expectEqualStrings("bar", response.headers[0].value_ptr[0..response.headers[0].value_len]); }