path: root/src/routes/handler-info.zig

const std = @import("std");

const memora = @import("memora");
const Context = memora.Context;
const Storage = memora.Storage;

const config = @import("config");

const Access = @import("access.zig").Access;

const log = std.log.scoped(.handler_info);

const Self = @This();

const Handler = *const fn (*Context) anyerror!memora.Stream;

get: ?Handler,
head: ?Handler,
post: ?Handler,
put: ?Handler,
delete: ?Handler,
connect: ?Handler,
options: ?Handler,
trace: ?Handler,
patch: ?Handler,
access: Access,

inline fn handler_from_method(self: *const Self, method: std.http.Method) ?Handler {
    return switch (method) {
	.GET => self.get,
	.HEAD => self.head,
	.POST => self.post,
	.PUT => self.put,
	.DELETE => self.delete,
	.CONNECT => self.connect,
	.OPTIONS => self.options,
	.TRACE => self.trace,
	.PATCH => self.patch,
    };
}

inline fn get_fingerprint(cookie: []const u8) []const u8 {
    const start = std.mem.indexOf(u8, cookie, "fingerprint=") orelse return "";
    const end = std.mem.indexOf(u8, cookie[start + 12..], " ") orelse return cookie[start + 12..];
    return cookie[start..end + 1];
}

pub fn handle(
    self: *const Self,
    request: *std.http.Server.Request,
    storage: *Storage,
    allocator: std.mem.Allocator,
) !void {
    const target = try allocator.dupe(u8, request.head.target);
    defer allocator.free(target);

    const handler = self.handler_from_method(request.head.method) orelse return request.respond(
        "{ \"error\": \"Bad Request\" }",
        .{ .status = .bad_request }
    );

    const cookie = cookie: {
        var iterator = request.iterateHeaders();
        while (iterator.next()) |header| {
            if (std.ascii.eqlIgnoreCase(header.name, "cookie")) {
                break :cookie header.value;
            }
        }
        break :cookie "";
    };

    var arena = std.heap.ArenaAllocator.init(allocator);
    defer arena.deinit();
    var context: Context = .{
        .request = request,
        .storage = storage,
        .allocator = arena.allocator(),
        .fingerprint = get_fingerprint(cookie),
    };

    if (!comptime config.disable_auth) {
        const allowed = switch (self.access) {
            .everyone => true,
            .users => storage.sessions.get(storage, context.fingerprint) != null,
            .admins => admin: {
                if (storage.sessions.get(storage, context.fingerprint)) |session| {
                    break :admin session.info.is_admin;
                }
                break :admin false;
            },
        };

        if (!allowed) {
            return request.respond(
                "{ \"error\": \"Forbidden\" }",
                .{ .status = .forbidden }
            );
        }
    }

    var stream = handler(&context) catch |err| {
        const response, const status_code: std.http.Status = switch (err) {
            error.BadRequest => .{ "{ \"error\": \"Bad Request\" }", .bad_request },
            error.Unauthorized => .{ "{ \"error\": \"Unauthorized\" }", .unauthorized },
            error.Forbidden => .{ "{ \"error\": \"Forbidden\" }", .forbidden },
            error.NotFound => .{ "{ \"error\": \"Not Found\" }", .not_found },
            else => blk: {
                log.err("handler for '{s}' returned {}", .{target, err});
                break :blk .{ "{ \"error\": \"Internal Server Error\" }", .internal_server_error };
            },
        };

        return request.respond(response, .{ .status = status_code });
    };
    defer stream.close();

    var headers: std.ArrayList(std.http.Header) = .empty;
    defer headers.deinit(allocator);

    try headers.append(allocator, .{
        .name = "Content-Type",
        .value = context.response.headers.content_type
    });

    try headers.append(allocator, .{
        .name = "Service-Worker-Allowed",
        .value = "/",
    });

    if (context.response.headers.fingerprint) |auth_token| {
        var value = std.Io.Writer.Allocating.init(arena.allocator());

        try value.writer.print("fingerprint={s}; Path=/", .{auth_token});

        try headers.append(allocator, .{
            .name = "Set-Cookie",
            .value = value.written(), 
        });
    }

    var read_buffer: [1024]u8 = undefined;
    var reader = stream.reader(&read_buffer);

    var write_buffer: [1024]u8 = undefined;
    var body_writer = try request.respondStreaming(&write_buffer, .{
        .respond_options = .{
            .extra_headers = headers.items,
            .transfer_encoding = .chunked,
        },
    });

    _ = try reader.streamRemaining(&body_writer.writer);
    try body_writer.end();
}

fn HandlerWrapper(T: type, name: []const u8) type {
    const info = @typeInfo(@TypeOf(@field(T, name)));
    const return_type = info.@"fn".return_type orelse void;
    const payload_type = @typeInfo(return_type).error_union.payload;

    return struct {
        pub fn call(ctx: *Context) anyerror!memora.Stream {
            const args = args: {
                const tuple = std.meta.fields(std.meta.ArgsTuple(@TypeOf(@field(T, name))));

                if (tuple.len == 1) {
                    break :args .{ ctx };
                } else if (tuple.len == 2) {
                    const Body = tuple[1].@"type";

                    var writer = std.Io.Writer.Allocating.init(ctx.allocator);
                    const interface = &writer.writer;

                    var buffer: [1024]u8 = undefined;
                    const reader = try ctx.request.readerExpectContinue(&buffer);

                    try reader.streamExact64(interface, ctx.request.head.content_length orelse 0);

                    const body = std.json.parseFromSliceLeaky(
                        Body,
                        ctx.allocator,
                        writer.written(),
                        .{},
                    ) catch |err| {
                        log.warn("failed to parse JSON {}", .{err});
                        return error.BadRequest;
                    };
                    break :args .{ ctx, body };
                } else {
                    @compileError("invalid amount of arguments for request function");
                }
            };

            if (payload_type == memora.Stream) {
                return @call(.auto, @field(T, name), args);
            } else if (payload_type == void) {
                try @call(.auto, @field(T, name), args);
                return memora.Stream.from_buffer("{}");
            } else {
                var writer = std.Io.Writer.Allocating.init(ctx.allocator);
                var stringify = std.json.Stringify { .writer = &writer.writer };
                try stringify.write(try @call(.auto, @field(T, name), args));
                return memora.Stream.from_buffer(writer.written());
            }
        }
    };
}

pub fn from_type(T: type) @This() {
    return Self {
	.get = if (@hasDecl(T, "get")) HandlerWrapper(T, "get").call else null,
	.head = if (@hasDecl(T, "head")) HandlerWrapper(T, "head").call else null,
	.post = if (@hasDecl(T, "post")) HandlerWrapper(T, "post").call else null,
	.put = if (@hasDecl(T, "put")) HandlerWrapper(T, "put").call else null,
	.delete = if (@hasDecl(T, "delete")) HandlerWrapper(T, "delete").call else null,
	.connect = if (@hasDecl(T, "connect")) HandlerWrapper(T, "connect").call else null,
	.options = if (@hasDecl(T, "options")) HandlerWrapper(T, "options").call else null,
	.trace = if (@hasDecl(T, "trace")) HandlerWrapper(T, "trace").call else null,
	.patch = if (@hasDecl(T, "patch")) HandlerWrapper(T, "patch").call else null,
        .access = T.access,
    };
}