zig/lib/std /
Uri.zig
Uniform Resource Identifier (URI) parsing roughly adhering to
//! Uniform Resource Identifier (URI) parsing roughly adhering to <https://tools.ietf.org/html/rfc3986>. //! Does not do perfect grammar and character class checking, but should be robust against URIs in the wild.
Component
Invalid characters in this component must be percent encoded before being printed as part of a URI.
parseAfterScheme()
This component is already percent-encoded, it can be printed directly as part of a URI.
scheme: []const u8, user: ?Component = null, password: ?Component = null, host: ?Component = null, port: ?u16 = null, path: Component = Component.empty, query: ?Component = null, fragment: ?Component = null,
isEmpty()
Allocates the result with arena only if needed, so the result should not be freed.
pub const Component = union(enum) {
/// Invalid characters in this component must be percent encoded
/// before being printed as part of a URI.
raw: []const u8,
/// This component is already percent-encoded, it can be printed
/// directly as part of a URI.
percent_encoded: []const u8,
toRawMaybeAlloc()
Percent decodes all %XX where XX is a valid hex number.
output may alias input if output.ptr <= input.ptr.
Mutates and returns a subslice of output.
pub const empty: Component = .{ .percent_encoded = "" };
format()
Percent decodes all %XX where XX is a valid hex number.
Mutates and returns a subslice of buffer.
pub fn isEmpty(component: Component) bool {
return switch (component) {
.raw, .percent_encoded => |string| string.len == 0,
};
}
percentEncode()
Parses the URI or returns an error. This function is not compliant, but is required to parse
some forms of URIs in the wild, such as HTTP Location headers.
The return value will contain strings pointing into the original text.
Each component that is provided, will be non-null.
/// Allocates the result with `arena` only if needed, so the result should not be freed.
pub fn toRawMaybeAlloc(
component: Component,
arena: std.mem.Allocator,
) std.mem.Allocator.Error![]const u8 {
return switch (component) {
.raw => |raw| raw,
.percent_encoded => |percent_encoded| if (std.mem.indexOfScalar(u8, percent_encoded, '%')) |_|
try std.fmt.allocPrint(arena, "{raw}", .{component})
else
percent_encoded,
};
}
percentDecodeBackwards()
When true, include the scheme part of the URI.
pub fn format(
component: Component,
comptime fmt_str: []const u8,
_: std.fmt.FormatOptions,
writer: anytype,
) @TypeOf(writer).Error!void {
if (fmt_str.len == 0) {
try writer.print("std.Uri.Component{{ .{s} = \"{}\" }}", .{
@tagName(component),
std.zig.fmtEscapes(switch (component) {
.raw, .percent_encoded => |string| string,
}),
});
} else if (comptime std.mem.eql(u8, fmt_str, "raw")) switch (component) {
.raw => |raw| try writer.writeAll(raw),
.percent_encoded => |percent_encoded| {
var start: usize = 0;
var index: usize = 0;
while (std.mem.indexOfScalarPos(u8, percent_encoded, index, '%')) |percent| {
index = percent + 1;
if (percent_encoded.len - index < 2) continue;
const percent_encoded_char =
std.fmt.parseInt(u8, percent_encoded[index..][0..2], 16) catch continue;
try writer.print("{s}{c}", .{
percent_encoded[start..percent],
percent_encoded_char,
});
start = percent + 3;
index = percent + 3;
}
try writer.writeAll(percent_encoded[start..]);
},
} else if (comptime std.mem.eql(u8, fmt_str, "%")) switch (component) {
.raw => |raw| try percentEncode(writer, raw, isUnreserved),
.percent_encoded => |percent_encoded| try writer.writeAll(percent_encoded),
} else if (comptime std.mem.eql(u8, fmt_str, "user")) switch (component) {
.raw => |raw| try percentEncode(writer, raw, isUserChar),
.percent_encoded => |percent_encoded| try writer.writeAll(percent_encoded),
} else if (comptime std.mem.eql(u8, fmt_str, "password")) switch (component) {
.raw => |raw| try percentEncode(writer, raw, isPasswordChar),
.percent_encoded => |percent_encoded| try writer.writeAll(percent_encoded),
} else if (comptime std.mem.eql(u8, fmt_str, "host")) switch (component) {
.raw => |raw| try percentEncode(writer, raw, isHostChar),
.percent_encoded => |percent_encoded| try writer.writeAll(percent_encoded),
} else if (comptime std.mem.eql(u8, fmt_str, "path")) switch (component) {
.raw => |raw| try percentEncode(writer, raw, isPathChar),
.percent_encoded => |percent_encoded| try writer.writeAll(percent_encoded),
} else if (comptime std.mem.eql(u8, fmt_str, "query")) switch (component) {
.raw => |raw| try percentEncode(writer, raw, isQueryChar),
.percent_encoded => |percent_encoded| try writer.writeAll(percent_encoded),
} else if (comptime std.mem.eql(u8, fmt_str, "fragment")) switch (component) {
.raw => |raw| try percentEncode(writer, raw, isFragmentChar),
.percent_encoded => |percent_encoded| try writer.writeAll(percent_encoded),
} else @compileError("invalid format string '" ++ fmt_str ++ "'");
}
percentDecodeInPlace()
When true, include the user and password part of the URI. Ignored if authority is false.
pub fn percentEncode(
writer: anytype,
raw: []const u8,
comptime isValidChar: fn (u8) bool,
) @TypeOf(writer).Error!void {
var start: usize = 0;
for (raw, 0..) |char, index| {
if (isValidChar(char)) continue;
try writer.print("{s}%{X:0>2}", .{ raw[start..index], char });
start = index + 1;
}
try writer.writeAll(raw[start..]);
}
ParseError
When true, include the authority part of the URI.
};
parseAfterScheme()
When true, include the path part of the URI.
/// Percent decodes all %XX where XX is a valid hex number.
/// `output` may alias `input` if `output.ptr <= input.ptr`.
/// Mutates and returns a subslice of `output`.
pub fn percentDecodeBackwards(output: []u8, input: []const u8) []u8 {
var input_index = input.len;
var output_index = output.len;
while (input_index > 0) {
if (input_index >= 3) {
const maybe_percent_encoded = input[input_index - 3 ..][0..3];
if (maybe_percent_encoded[0] == '%') {
if (std.fmt.parseInt(u8, maybe_percent_encoded[1..], 16)) |percent_encoded_char| {
input_index -= maybe_percent_encoded.len;
output_index -= 1;
output[output_index] = percent_encoded_char;
continue;
} else |_| {}
}
}
input_index -= 1;
output_index -= 1;
output[output_index] = input[input_index];
}
return output[output_index..];
ResolveInPlaceError
When true, include the query part of the URI. Ignored when path is false.
}
writeToStream()
When true, include the fragment part of the URI. Ignored when path is false.
/// Percent decodes all %XX where XX is a valid hex number.
/// Mutates and returns a subslice of `buffer`.
pub fn percentDecodeInPlace(buffer: []u8) []u8 {
return percentDecodeBackwards(buffer, buffer);
ResolveInPlaceError
When true, include the port part of the URI. Ignored when port is null.
}
parse()
Parses the URI or returns an error.
The return value will contain strings pointing into the
original text. Each component that is provided, will be non-null.
pub const ParseError = error{ UnexpectedCharacter, InvalidFormat, InvalidPort };
ResolveInPlaceError
Resolves a URI against a base URI, conforming to RFC 3986, Section 5.
Copies new to the beginning of aux_buf.*, allowing the slices to overlap,
then parses new as a URI, and then resolves the path in place.
If a merge needs to take place, the newly constructed path will be stored
in aux_buf.* just after the copied new, and aux_buf.* will be modified
to only contain the remaining unused space.
/// Parses the URI or returns an error. This function is not compliant, but is required to parse
/// some forms of URIs in the wild, such as HTTP Location headers.
/// The return value will contain strings pointing into the original `text`.
/// Each component that is provided, will be non-`null`.
pub fn parseAfterScheme(scheme: []const u8, text: []const u8) ParseError!Uri {
var reader = SliceReader{ .slice = text };
resolve_inplace()
In-place implementation of RFC 3986, Section 5.2.4.
var uri: Uri = .{ .scheme = scheme, .path = undefined };
Test: remove_dot_segments
5.2.3. Merge Paths
if (reader.peekPrefix("//")) a: { // authority part
std.debug.assert(reader.get().? == '/');
std.debug.assert(reader.get().? == '/');
Test:
basic
scheme = ALPHA *( ALPHA / DIGIT / "+" / "-" / "." )
const authority = reader.readUntil(isAuthoritySeparator);
if (authority.len == 0) {
if (reader.peekPrefix("/")) break :a else return error.InvalidFormat;
}
Test:
with port
reserved = gen-delims / sub-delims
var start_of_host: usize = 0;
if (std.mem.indexOf(u8, authority, "@")) |index| {
start_of_host = index + 1;
const user_info = authority[0..index];
Test:
should fail gracefully
gen-delims = ":" / "/" / "?" / "#" / "[" / "]" / "@"
if (std.mem.indexOf(u8, user_info, ":")) |idx| {
uri.user = .{ .percent_encoded = user_info[0..idx] };
if (idx < user_info.len - 1) { // empty password is also "no password"
uri.password = .{ .percent_encoded = user_info[idx + 1 ..] };
}
} else {
uri.user = .{ .percent_encoded = user_info };
uri.password = null;
}
}
Test:
file
sub-delims = "!" / "$" / "&" / "'" / "(" / ")" / "*" / "+" / "," / ";" / "="
// only possible if uri consists of only `userinfo@`
if (start_of_host >= authority.len) break :a;
Test:
scheme
unreserved = ALPHA / DIGIT / "-" / "." / "_" / "~"
var end_of_host: usize = authority.len;
Test:
authority
// if we see `]` first without `@`
if (authority[start_of_host] == ']') {
return error.InvalidFormat;
}
Test:
authority.password
if (authority.len > start_of_host and authority[start_of_host] == '[') { // IPv6
end_of_host = std.mem.lastIndexOf(u8, authority, "]") orelse return error.InvalidFormat;
end_of_host += 1;
Test:
authority.dns-names
if (std.mem.lastIndexOf(u8, authority, ":")) |index| {
if (index >= end_of_host) { // if not part of the V6 address field
end_of_host = @min(end_of_host, index);
uri.port = std.fmt.parseInt(u16, authority[index + 1 ..], 10) catch return error.InvalidPort;
}
}
} else if (std.mem.lastIndexOf(u8, authority, ":")) |index| {
if (index >= start_of_host) { // if not part of the userinfo field
end_of_host = @min(end_of_host, index);
uri.port = std.fmt.parseInt(u16, authority[index + 1 ..], 10) catch return error.InvalidPort;
}
}
Test:
authority.IPv4
if (start_of_host >= end_of_host) return error.InvalidFormat;
uri.host = .{ .percent_encoded = authority[start_of_host..end_of_host] };
}
Test:
authority.IPv6
uri.path = .{ .percent_encoded = reader.readUntil(isPathSeparator) };
Test:
RFC example 1
if ((reader.peek() orelse 0) == '?') { // query part
std.debug.assert(reader.get().? == '?');
uri.query = .{ .percent_encoded = reader.readUntil(isQuerySeparator) };
}
Test:
RFC example 2
if ((reader.peek() orelse 0) == '#') { // fragment part
std.debug.assert(reader.get().? == '#');
uri.fragment = .{ .percent_encoded = reader.readUntilEof() };
}
Test:
Examples from wikipedia
return uri;
}
Test:
Examples from RFC3986
pub const WriteToStreamOptions = struct {
/// When true, include the scheme part of the URI.
scheme: bool = false,
Test:
Special test
/// When true, include the user and password part of the URI. Ignored if `authority` is false.
authentication: bool = false,
Test:
URI percent encoding
/// When true, include the authority part of the URI.
authority: bool = false,
Test:
URI percent decoding
/// When true, include the path part of the URI.
path: bool = false,
Test:
URI query encoding
/// When true, include the query part of the URI. Ignored when `path` is false.
query: bool = false,
Test:
format
/// When true, include the fragment part of the URI. Ignored when `path` is false.
fragment: bool = false,
Test:
URI malformed input
/// When true, include the port part of the URI. Ignored when `port` is null.
port: bool = true,
};
pub fn writeToStream(
uri: Uri,
options: WriteToStreamOptions,
writer: anytype,
) @TypeOf(writer).Error!void {
if (options.scheme) {
try writer.print("{s}:", .{uri.scheme});
if (options.authority and uri.host != null) {
try writer.writeAll("//");
}
}
if (options.authority) {
if (options.authentication and uri.host != null) {
if (uri.user) |user| {
try writer.print("{user}", .{user});
if (uri.password) |password| {
try writer.print(":{password}", .{password});
}
try writer.writeByte('@');
}
}
if (uri.host) |host| {
try writer.print("{host}", .{host});
if (options.port) {
if (uri.port) |port| try writer.print(":{d}", .{port});
}
}
}
if (options.path) {
try writer.print("{path}", .{
if (uri.path.isEmpty()) Uri.Component{ .percent_encoded = "/" } else uri.path,
});
if (options.query) {
if (uri.query) |query| try writer.print("?{query}", .{query});
}
if (options.fragment) {
if (uri.fragment) |fragment| try writer.print("#{fragment}", .{fragment});
}
}
}
pub fn format(
uri: Uri,
comptime fmt_str: []const u8,
_: std.fmt.FormatOptions,
writer: anytype,
) @TypeOf(writer).Error!void {
const scheme = comptime std.mem.indexOfScalar(u8, fmt_str, ';') != null or fmt_str.len == 0;
const authentication = comptime std.mem.indexOfScalar(u8, fmt_str, '@') != null or fmt_str.len == 0;
const authority = comptime std.mem.indexOfScalar(u8, fmt_str, '+') != null or fmt_str.len == 0;
const path = comptime std.mem.indexOfScalar(u8, fmt_str, '/') != null or fmt_str.len == 0;
const query = comptime std.mem.indexOfScalar(u8, fmt_str, '?') != null or fmt_str.len == 0;
const fragment = comptime std.mem.indexOfScalar(u8, fmt_str, '#') != null or fmt_str.len == 0;
return writeToStream(uri, .{
.scheme = scheme,
.authentication = authentication,
.authority = authority,
.path = path,
.query = query,
.fragment = fragment,
}, writer);
}
/// Parses the URI or returns an error.
/// The return value will contain strings pointing into the
/// original `text`. Each component that is provided, will be non-`null`.
pub fn parse(text: []const u8) ParseError!Uri {
var reader: SliceReader = .{ .slice = text };
const scheme = reader.readWhile(isSchemeChar);
// after the scheme, a ':' must appear
if (reader.get()) |c| {
if (c != ':')
return error.UnexpectedCharacter;
} else {
return error.InvalidFormat;
}
return parseAfterScheme(scheme, reader.readUntilEof());
}
pub const ResolveInPlaceError = ParseError || error{NoSpaceLeft};
/// Resolves a URI against a base URI, conforming to RFC 3986, Section 5.
/// Copies `new` to the beginning of `aux_buf.*`, allowing the slices to overlap,
/// then parses `new` as a URI, and then resolves the path in place.
/// If a merge needs to take place, the newly constructed path will be stored
/// in `aux_buf.*` just after the copied `new`, and `aux_buf.*` will be modified
/// to only contain the remaining unused space.
pub fn resolve_inplace(base: Uri, new: []const u8, aux_buf: *[]u8) ResolveInPlaceError!Uri {
std.mem.copyForwards(u8, aux_buf.*, new);
// At this point, new is an invalid pointer.
const new_mut = aux_buf.*[0..new.len];
aux_buf.* = aux_buf.*[new.len..];
const new_parsed = parse(new_mut) catch |err|
(parseAfterScheme("", new_mut) catch return err);
// As you can see above, `new_mut` is not a const pointer.
const new_path: []u8 = @constCast(new_parsed.path.percent_encoded);
if (new_parsed.scheme.len > 0) return .{
.scheme = new_parsed.scheme,
.user = new_parsed.user,
.password = new_parsed.password,
.host = new_parsed.host,
.port = new_parsed.port,
.path = remove_dot_segments(new_path),
.query = new_parsed.query,
.fragment = new_parsed.fragment,
};
if (new_parsed.host) |host| return .{
.scheme = base.scheme,
.user = new_parsed.user,
.password = new_parsed.password,
.host = host,
.port = new_parsed.port,
.path = remove_dot_segments(new_path),
.query = new_parsed.query,
.fragment = new_parsed.fragment,
};
const path, const query = if (new_path.len == 0) .{
base.path,
new_parsed.query orelse base.query,
} else if (new_path[0] == '/') .{
remove_dot_segments(new_path),
new_parsed.query,
} else .{
try merge_paths(base.path, new_path, aux_buf),
new_parsed.query,
};
return .{
.scheme = base.scheme,
.user = base.user,
.password = base.password,
.host = base.host,
.port = base.port,
.path = path,
.query = query,
.fragment = new_parsed.fragment,
};
}
/// In-place implementation of RFC 3986, Section 5.2.4.
fn remove_dot_segments(path: []u8) Component {
var in_i: usize = 0;
var out_i: usize = 0;
while (in_i < path.len) {
if (std.mem.startsWith(u8, path[in_i..], "./")) {
in_i += 2;
} else if (std.mem.startsWith(u8, path[in_i..], "../")) {
in_i += 3;
} else if (std.mem.startsWith(u8, path[in_i..], "/./")) {
in_i += 2;
} else if (std.mem.eql(u8, path[in_i..], "/.")) {
in_i += 1;
path[in_i] = '/';
} else if (std.mem.startsWith(u8, path[in_i..], "/../")) {
in_i += 3;
while (out_i > 0) {
out_i -= 1;
if (path[out_i] == '/') break;
}
} else if (std.mem.eql(u8, path[in_i..], "/..")) {
in_i += 2;
path[in_i] = '/';
while (out_i > 0) {
out_i -= 1;
if (path[out_i] == '/') break;
}
} else if (std.mem.eql(u8, path[in_i..], ".")) {
in_i += 1;
} else if (std.mem.eql(u8, path[in_i..], "..")) {
in_i += 2;
} else {
while (true) {
path[out_i] = path[in_i];
out_i += 1;
in_i += 1;
if (in_i >= path.len or path[in_i] == '/') break;
}
}
}
return .{ .percent_encoded = path[0..out_i] };
}
test remove_dot_segments {
{
var buffer = "/a/b/c/./../../g".*;
try std.testing.expectEqualStrings("/a/g", remove_dot_segments(&buffer).percent_encoded);
}
}
/// 5.2.3. Merge Paths
fn merge_paths(base: Component, new: []u8, aux_buf: *[]u8) error{NoSpaceLeft}!Component {
var aux = std.io.fixedBufferStream(aux_buf.*);
if (!base.isEmpty()) {
try aux.writer().print("{path}", .{base});
aux.pos = std.mem.lastIndexOfScalar(u8, aux.getWritten(), '/') orelse
return remove_dot_segments(new);
}
try aux.writer().print("/{s}", .{new});
const merged_path = remove_dot_segments(aux.getWritten());
aux_buf.* = aux_buf.*[merged_path.percent_encoded.len..];
return merged_path;
}
const SliceReader = struct {
const Self = @This();
slice: []const u8,
offset: usize = 0,
fn get(self: *Self) ?u8 {
if (self.offset >= self.slice.len)
return null;
const c = self.slice[self.offset];
self.offset += 1;
return c;
}
fn peek(self: Self) ?u8 {
if (self.offset >= self.slice.len)
return null;
return self.slice[self.offset];
}
fn readWhile(self: *Self, comptime predicate: fn (u8) bool) []const u8 {
const start = self.offset;
var end = start;
while (end < self.slice.len and predicate(self.slice[end])) {
end += 1;
}
self.offset = end;
return self.slice[start..end];
}
fn readUntil(self: *Self, comptime predicate: fn (u8) bool) []const u8 {
const start = self.offset;
var end = start;
while (end < self.slice.len and !predicate(self.slice[end])) {
end += 1;
}
self.offset = end;
return self.slice[start..end];
}
fn readUntilEof(self: *Self) []const u8 {
const start = self.offset;
self.offset = self.slice.len;
return self.slice[start..];
}
fn peekPrefix(self: Self, prefix: []const u8) bool {
if (self.offset + prefix.len > self.slice.len)
return false;
return std.mem.eql(u8, self.slice[self.offset..][0..prefix.len], prefix);
}
};
/// scheme = ALPHA *( ALPHA / DIGIT / "+" / "-" / "." )
fn isSchemeChar(c: u8) bool {
return switch (c) {
'A'...'Z', 'a'...'z', '0'...'9', '+', '-', '.' => true,
else => false,
};
}
/// reserved = gen-delims / sub-delims
fn isReserved(c: u8) bool {
return isGenLimit(c) or isSubLimit(c);
}
/// gen-delims = ":" / "/" / "?" / "#" / "[" / "]" / "@"
fn isGenLimit(c: u8) bool {
return switch (c) {
':', ',', '?', '#', '[', ']', '@' => true,
else => false,
};
}
/// sub-delims = "!" / "$" / "&" / "'" / "(" / ")"
/// / "*" / "+" / "," / ";" / "="
fn isSubLimit(c: u8) bool {
return switch (c) {
'!', '$', '&', '\'', '(', ')', '*', '+', ',', ';', '=' => true,
else => false,
};
}
/// unreserved = ALPHA / DIGIT / "-" / "." / "_" / "~"
fn isUnreserved(c: u8) bool {
return switch (c) {
'A'...'Z', 'a'...'z', '0'...'9', '-', '.', '_', '~' => true,
else => false,
};
}
fn isUserChar(c: u8) bool {
return isUnreserved(c) or isSubLimit(c);
}
fn isPasswordChar(c: u8) bool {
return isUserChar(c) or c == ':';
}
fn isHostChar(c: u8) bool {
return isPasswordChar(c) or c == '[' or c == ']';
}
fn isPathChar(c: u8) bool {
return isUserChar(c) or c == '/' or c == ':' or c == '@';
}
fn isQueryChar(c: u8) bool {
return isPathChar(c) or c == '?';
}
const isFragmentChar = isQueryChar;
fn isAuthoritySeparator(c: u8) bool {
return switch (c) {
'/', '?', '#' => true,
else => false,
};
}
fn isPathSeparator(c: u8) bool {
return switch (c) {
'?', '#' => true,
else => false,
};
}
fn isQuerySeparator(c: u8) bool {
return switch (c) {
'#' => true,
else => false,
};
}
test "basic" {
const parsed = try parse("https://ziglang.org/download");
try testing.expectEqualStrings("https", parsed.scheme);
try testing.expectEqualStrings("ziglang.org", parsed.host.?.percent_encoded);
try testing.expectEqualStrings("/download", parsed.path.percent_encoded);
try testing.expectEqual(@as(?u16, null), parsed.port);
}
test "with port" {
const parsed = try parse("http://example:1337/");
try testing.expectEqualStrings("http", parsed.scheme);
try testing.expectEqualStrings("example", parsed.host.?.percent_encoded);
try testing.expectEqualStrings("/", parsed.path.percent_encoded);
try testing.expectEqual(@as(?u16, 1337), parsed.port);
}
test "should fail gracefully" {
try std.testing.expectError(error.InvalidFormat, parse("foobar://"));
}
test "file" {
const parsed = try parse("file:///");
try std.testing.expectEqualStrings("file", parsed.scheme);
try std.testing.expectEqual(@as(?Component, null), parsed.host);
try std.testing.expectEqualStrings("/", parsed.path.percent_encoded);
const parsed2 = try parse("file:///an/absolute/path/to/something");
try std.testing.expectEqualStrings("file", parsed2.scheme);
try std.testing.expectEqual(@as(?Component, null), parsed2.host);
try std.testing.expectEqualStrings("/an/absolute/path/to/something", parsed2.path.percent_encoded);
const parsed3 = try parse("file://localhost/an/absolute/path/to/another/thing/");
try std.testing.expectEqualStrings("file", parsed3.scheme);
try std.testing.expectEqualStrings("localhost", parsed3.host.?.percent_encoded);
try std.testing.expectEqualStrings("/an/absolute/path/to/another/thing/", parsed3.path.percent_encoded);
}
test "scheme" {
try std.testing.expectEqualStrings("http", (try parse("http:_")).scheme);
try std.testing.expectEqualStrings("scheme-mee", (try parse("scheme-mee:_")).scheme);
try std.testing.expectEqualStrings("a.b.c", (try parse("a.b.c:_")).scheme);
try std.testing.expectEqualStrings("ab+", (try parse("ab+:_")).scheme);
try std.testing.expectEqualStrings("X+++", (try parse("X+++:_")).scheme);
try std.testing.expectEqualStrings("Y+-.", (try parse("Y+-.:_")).scheme);
}
test "authority" {
try std.testing.expectEqualStrings("hostname", (try parse("scheme://hostname")).host.?.percent_encoded);
try std.testing.expectEqualStrings("hostname", (try parse("scheme://userinfo@hostname")).host.?.percent_encoded);
try std.testing.expectEqualStrings("userinfo", (try parse("scheme://userinfo@hostname")).user.?.percent_encoded);
try std.testing.expectEqual(@as(?Component, null), (try parse("scheme://userinfo@hostname")).password);
try std.testing.expectEqual(@as(?Component, null), (try parse("scheme://userinfo@")).host);
try std.testing.expectEqualStrings("hostname", (try parse("scheme://user:password@hostname")).host.?.percent_encoded);
try std.testing.expectEqualStrings("user", (try parse("scheme://user:password@hostname")).user.?.percent_encoded);
try std.testing.expectEqualStrings("password", (try parse("scheme://user:password@hostname")).password.?.percent_encoded);
try std.testing.expectEqualStrings("hostname", (try parse("scheme://hostname:0")).host.?.percent_encoded);
try std.testing.expectEqual(@as(u16, 1234), (try parse("scheme://hostname:1234")).port.?);
try std.testing.expectEqualStrings("hostname", (try parse("scheme://userinfo@hostname:1234")).host.?.percent_encoded);
try std.testing.expectEqual(@as(u16, 1234), (try parse("scheme://userinfo@hostname:1234")).port.?);
try std.testing.expectEqualStrings("userinfo", (try parse("scheme://userinfo@hostname:1234")).user.?.percent_encoded);
try std.testing.expectEqual(@as(?Component, null), (try parse("scheme://userinfo@hostname:1234")).password);
try std.testing.expectEqualStrings("hostname", (try parse("scheme://user:password@hostname:1234")).host.?.percent_encoded);
try std.testing.expectEqual(@as(u16, 1234), (try parse("scheme://user:password@hostname:1234")).port.?);
try std.testing.expectEqualStrings("user", (try parse("scheme://user:password@hostname:1234")).user.?.percent_encoded);
try std.testing.expectEqualStrings("password", (try parse("scheme://user:password@hostname:1234")).password.?.percent_encoded);
}
test "authority.password" {
try std.testing.expectEqualStrings("username", (try parse("scheme://username@a")).user.?.percent_encoded);
try std.testing.expectEqual(@as(?Component, null), (try parse("scheme://username@a")).password);
try std.testing.expectEqualStrings("username", (try parse("scheme://username:@a")).user.?.percent_encoded);
try std.testing.expectEqual(@as(?Component, null), (try parse("scheme://username:@a")).password);
try std.testing.expectEqualStrings("username", (try parse("scheme://username:password@a")).user.?.percent_encoded);
try std.testing.expectEqualStrings("password", (try parse("scheme://username:password@a")).password.?.percent_encoded);
try std.testing.expectEqualStrings("username", (try parse("scheme://username::@a")).user.?.percent_encoded);
try std.testing.expectEqualStrings(":", (try parse("scheme://username::@a")).password.?.percent_encoded);
}
fn testAuthorityHost(comptime hostlist: anytype) !void {
inline for (hostlist) |hostname| {
try std.testing.expectEqualStrings(hostname, (try parse("scheme://" ++ hostname)).host.?.percent_encoded);
}
}
test "authority.dns-names" {
try testAuthorityHost(.{
"a",
"a.b",
"example.com",
"www.example.com",
"example.org.",
"www.example.org.",
"xn--nw2a.xn--j6w193g", // internationalized URI: 見.香港
"fe80--1ff-fe23-4567-890as3.ipv6-literal.net",
});
}
test "authority.IPv4" {
try testAuthorityHost(.{
"127.0.0.1",
"255.255.255.255",
"0.0.0.0",
"8.8.8.8",
"1.2.3.4",
"192.168.0.1",
"10.42.0.0",
});
}
test "authority.IPv6" {
try testAuthorityHost(.{
"[2001:db8:0:0:0:0:2:1]",
"[2001:db8::2:1]",
"[2001:db8:0000:1:1:1:1:1]",
"[2001:db8:0:1:1:1:1:1]",
"[0:0:0:0:0:0:0:0]",
"[0:0:0:0:0:0:0:1]",
"[::1]",
"[::]",
"[2001:db8:85a3:8d3:1319:8a2e:370:7348]",
"[fe80::1ff:fe23:4567:890a%25eth2]",
"[fe80::1ff:fe23:4567:890a]",
"[fe80::1ff:fe23:4567:890a%253]",
"[fe80:3::1ff:fe23:4567:890a]",
});
}
test "RFC example 1" {
const uri = "foo://example.com:8042/over/there?name=ferret#nose";
try std.testing.expectEqual(Uri{
.scheme = uri[0..3],
.user = null,
.password = null,
.host = .{ .percent_encoded = uri[6..17] },
.port = 8042,
.path = .{ .percent_encoded = uri[22..33] },
.query = .{ .percent_encoded = uri[34..45] },
.fragment = .{ .percent_encoded = uri[46..50] },
}, try parse(uri));
}
test "RFC example 2" {
const uri = "urn:example:animal:ferret:nose";
try std.testing.expectEqual(Uri{
.scheme = uri[0..3],
.user = null,
.password = null,
.host = null,
.port = null,
.path = .{ .percent_encoded = uri[4..] },
.query = null,
.fragment = null,
}, try parse(uri));
}
// source:
// https://en.wikipedia.org/wiki/Uniform_Resource_Identifier#Examples
test "Examples from wikipedia" {
const list = [_][]const u8{
"https://john.doe@www.example.com:123/forum/questions/?tag=networking&order=newest#top",
"ldap://[2001:db8::7]/c=GB?objectClass?one",
"mailto:John.Doe@example.com",
"news:comp.infosystems.www.servers.unix",
"tel:+1-816-555-1212",
"telnet://192.0.2.16:80/",
"urn:oasis:names:specification:docbook:dtd:xml:4.1.2",
"http://a/b/c/d;p?q",
};
for (list) |uri| {
_ = try parse(uri);
}
}
// source:
// https://tools.ietf.org/html/rfc3986#section-5.4.1
test "Examples from RFC3986" {
const list = [_][]const u8{
"http://a/b/c/g",
"http://a/b/c/g",
"http://a/b/c/g/",
"http://a/g",
"http://g",
"http://a/b/c/d;p?y",
"http://a/b/c/g?y",
"http://a/b/c/d;p?q#s",
"http://a/b/c/g#s",
"http://a/b/c/g?y#s",
"http://a/b/c/;x",
"http://a/b/c/g;x",
"http://a/b/c/g;x?y#s",
"http://a/b/c/d;p?q",
"http://a/b/c/",
"http://a/b/c/",
"http://a/b/",
"http://a/b/",
"http://a/b/g",
"http://a/",
"http://a/",
"http://a/g",
};
for (list) |uri| {
_ = try parse(uri);
}
}
test "Special test" {
// This is for all of you code readers ♥
_ = try parse("https://www.youtube.com/watch?v=dQw4w9WgXcQ&feature=youtu.be&t=0");
}
test "URI percent encoding" {
try std.testing.expectFmt(
"%5C%C3%B6%2F%20%C3%A4%C3%B6%C3%9F%20~~.adas-https%3A%2F%2Fcanvas%3A123%2F%23ads%26%26sad",
"{%}",
.{Component{ .raw = "\\ö/ äöß ~~.adas-https://canvas:123/#ads&&sad" }},
);
}
test "URI percent decoding" {
{
const expected = "\\ö/ äöß ~~.adas-https://canvas:123/#ads&&sad";
var input = "%5C%C3%B6%2F%20%C3%A4%C3%B6%C3%9F%20~~.adas-https%3A%2F%2Fcanvas%3A123%2F%23ads%26%26sad".*;
try std.testing.expectFmt(expected, "{raw}", .{Component{ .percent_encoded = &input }});
var output: [expected.len]u8 = undefined;
try std.testing.expectEqualStrings(percentDecodeBackwards(&output, &input), expected);
try std.testing.expectEqualStrings(expected, percentDecodeInPlace(&input));
}
{
const expected = "/abc%";
var input = expected.*;
try std.testing.expectFmt(expected, "{raw}", .{Component{ .percent_encoded = &input }});
var output: [expected.len]u8 = undefined;
try std.testing.expectEqualStrings(percentDecodeBackwards(&output, &input), expected);
try std.testing.expectEqualStrings(expected, percentDecodeInPlace(&input));
}
}
test "URI query encoding" {
const address = "https://objects.githubusercontent.com/?response-content-type=application%2Foctet-stream";
const parsed = try Uri.parse(address);
// format the URI to percent encode it
try std.testing.expectFmt("/?response-content-type=application%2Foctet-stream", "{/?}", .{parsed});
}
test "format" {
const uri: Uri = .{
.scheme = "file",
.user = null,
.password = null,
.host = null,
.port = null,
.path = .{ .raw = "/foo/bar/baz" },
.query = null,
.fragment = null,
};
try std.testing.expectFmt("file:/foo/bar/baz", "{;/?#}", .{uri});
}
test "URI malformed input" {
try std.testing.expectError(error.InvalidFormat, std.Uri.parse("http://]["));
try std.testing.expectError(error.InvalidFormat, std.Uri.parse("http://]@["));
try std.testing.expectError(error.InvalidFormat, std.Uri.parse("http://lo]s\x85hc@[/8\x10?0Q"));
}
const std = @import("std.zig");
const testing = std.testing;
const Uri = @This();