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@ -58,6 +58,7 @@ const ContentDisposition = struct {
const Part = struct {
disposition: ContentDisposition,
content_type: []const u8,
body: []const u8,
};
const Multipart = struct {
@ -67,24 +68,31 @@ const Multipart = struct {
const Self = @This();
pub fn init(body: []const u8, content_type: []const u8) !Multipart {
// TODO: move boundary_buffer to allocator
pub fn init(body: []const u8, content_type: []const u8, boundary_buffer: []u8) !Multipart {
// parse content_type into what we want (the boundary)
var it = std.mem.split(content_type, ";");
const should_be_multipart = it.next() orelse return error.MissingContentType;
std.log.debug("should be multipart: {s}", .{should_be_multipart});
if (!std.mem.eql(u8, should_be_multipart, "multipart/form-data"))
return error.InvalidContentType;
const should_be_boundary = it.next() orelse return error.MissingBoundary;
std.log.debug("should be boundary: {s} {d}", .{ should_be_boundary, should_be_boundary.len });
if (!std.mem.startsWith(u8, should_be_boundary, " boundary="))
return error.InvalidBoundary;
var boundary_it = std.mem.split(should_be_boundary, "=");
_ = boundary_it.next();
const boundary_value = boundary_it.next() orelse return error.InvalidBoundary;
std.log.debug("boundary value: {s} {d}", .{ boundary_value, boundary_value.len });
const actual_boundary_value = try std.fmt.bufPrint(boundary_buffer, "--{s}", .{boundary_value});
std.log.debug("actual boundary value: {s} {d}", .{ actual_boundary_value, actual_boundary_value.len });
return Self{
.stream = StreamT{ .buffer = body, .pos = 0 },
.boundary = boundary_value,
.boundary = actual_boundary_value,
};
}
@ -92,14 +100,15 @@ const Multipart = struct {
var reader = self.stream.reader();
// first self.boundary.len+2 bytes MUST be boundary + \r + \n
var boundary_buffer: [512]u8 = undefined;
const maybe_boundary_raw = (try reader.readUntilDelimiterOrEof(&boundary_buffer, '\r')).?;
const maybe_boundary_raw = (try reader.readUntilDelimiterOrEof(&boundary_buffer, '\n')).?;
const maybe_boundary_strip1 = std.mem.trimRight(u8, maybe_boundary_raw, "\n");
const maybe_boundary_strip2 = std.mem.trimRight(u8, maybe_boundary_strip1, "\r");
if (!std.mem.eql(u8, maybe_boundary_strip2, self.boundary)) {
std.log.err("expected '{s}', got '{s}'", .{ self.boundary, maybe_boundary_strip2 });
std.log.err("expected '{s}' {}, got '{s}' {}", .{ self.boundary, self.boundary.len, maybe_boundary_strip2, maybe_boundary_strip2.len });
return error.InvalidBoundaryBody;
}
std.log.debug("got successful boundary {s}", .{maybe_boundary_strip2});
// from there ownwards, its just http!
var parser = hzzp.parser.request.create(hzzp_buffer, reader);
@ -110,9 +119,14 @@ const Multipart = struct {
var content_disposition: ?ContentDisposition = null;
var content_type: ?[]const u8 = null;
std.log.debug("next bytes: {any}", .{self.stream.buffer[self.stream.pos..(self.stream.pos + 50)]});
while (try parser.next()) |event| {
std.log.debug("got event: {}", .{event});
switch (event) {
.status => unreachable,
.end => break,
.head_done => {},
.header => |header| {
// TODO lowercase header name
if (std.mem.eql(u8, header.name, "Content-Disposition")) {
@ -125,24 +139,57 @@ const Multipart = struct {
while (disposition_it.next()) |disposition_part_raw| {
const disposition_part = std.mem.trim(u8, disposition_part_raw, " ");
if (std.mem.eql(u8, disposition_part, "form-data")) continue;
// we have an A=B thing
var single_part_it = std.mem.split(disposition_part, "=");
const inner_part_name = single_part_it.next().?;
const inner_part_value_quoted = single_part_it.next().?;
const inner_part_value = std.mem.trim(u8, inner_part_value_quoted, "\"");
if (std.mem.eql(u8, inner_part_name, "name")) dispo_name = inner_part_value;
if (std.mem.eql(u8, inner_part_name, "filename")) dispo_filename = inner_part_value;
}
content_disposition = ContentDisposition{
.name = dispo_name,
.filename = dispo_filename,
};
std.log.debug("got content disposition for part! {}", .{content_disposition});
} else if (std.mem.eql(u8, header.name, "Content-Type")) {
content_type = header.value;
std.log.debug("got content type for part! {s}", .{content_type});
}
},
.end => break,
else => @panic("shit"),
else => {
std.log.err("unexpected event: {}", .{event});
@panic("shit");
},
}
}
// the rest of the reader until we find a matching boundary is the part body.
// hzzp does not do it for us because it cant find a body encoding
// (content-length, content-encoding)
//
// we can use the fact that we know the reader is FixedBufferStream
// to extract the remaining body, then trim the boundary!
//
// THIS ASSUMES ONLY ONE FILE IS IN THE WIRE.
const remaining_body = self.stream.buffer[self.stream.pos..self.stream.buffer.len];
var end_boundary_buf: [512]u8 = undefined;
const boundary_end_marker = try std.fmt.bufPrint(&end_boundary_buf, "{s}--\r\n", .{self.boundary});
const actual_body = std.mem.trim(u8, remaining_body, boundary_end_marker);
return Part{
.disposition = content_disposition.?,
.content_type = content_type.?,
.body = actual_body,
};
}
};
@ -162,12 +209,15 @@ fn uploadFile(response: *http.Response, request: http.Request) !void {
if (content_type == null) return error.InvalidContentType;
// parse multipart data
var multipart = try Multipart.init(request.body, content_type.?);
var boundary_buffer: [512]u8 = undefined;
var multipart = try Multipart.init(request.body, content_type.?, &boundary_buffer);
var hzzp_buffer: [1024]u8 = undefined;
while (try multipart.next(&hzzp_buffer)) |part| {
std.log.info("part: {}", .{part});
}
std.log.info(
"got part from multipart request! name='{s}' filename='{s}' content_type='{s}' length={d}",
.{ part.disposition.name, part.disposition.filename, part.content_type, part.body.len },
);
var image_id_buffer: [256]u8 = undefined;
const image_id = generateImageId(&image_id_buffer);
@ -180,9 +230,11 @@ fn uploadFile(response: *http.Response, request: http.Request) !void {
);
const image_file = try std.fs.cwd().createFile(image_path, .{});
try image_file.writer().writeAll(request.body);
try image_file.writer().writeAll(part.body);
try response.writer().writeAll(image_path);
return;
}
}
fn fetchFile(response: *http.Response, request: http.Request, filename: []const u8) !void {