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|
const std = @import("std");
/// Minecraft launcher!
pub fn main() !void {
var gpa = std.heap.GeneralPurposeAllocator(.{ .safety = false }){}; // TODO turn safety back on
defer _ = gpa.deinit();
const allocator = gpa.allocator();
var client = std.http.Client{ .allocator = allocator };
defer client.deinit();
const manifest_wrap = try download_json(&client, Manifest, Manifest.uri);
defer manifest_wrap.deinit();
const manifest = manifest_wrap.value;
std.log.info("release: {s} snapshot: {s}", .{ manifest.latest.release, manifest.latest.snapshot });
// Find the release version
const release_version_url = for (manifest.versions) |v| {
if (std.mem.eql(u8, v.id, manifest.latest.release)) {
break v.url;
}
} else {
return error.NoReleaseVersionFound;
};
var release_version_wrap = try download_json(&client, Version, release_version_url);
defer release_version_wrap.deinit();
const release_version = release_version_wrap.value;
_ = release_version;
// Download all the bits
// std.mem.replace(comptime T: type, input: []const T, needle: []const T, replacement: []const T, output: []T)
// check the latest.release
// find that in the versions[] by key id
// get the download URL for that https://piston-meta.mojang.com/v1/packages/1f376e6cb981265af345076889f9ef325bb6b9e8/1.20.1.json
// get arguments.game and arguments.jvm ready to supply ...
// probably just use the system java version for now
//
}
/// https://minecraft.fandom.com/wiki/Version_manifest.json
const Manifest = struct {
const uri = "https://piston-meta.mojang.com/mc/game/version_manifest_v2.json";
latest: struct {
release: []const u8,
snapshot: []const u8,
},
versions: []struct {
id: []const u8,
type: []const u8,
url: []const u8,
releaseTime: []const u8,
sha1: []const u8,
complianceLevel: i64,
},
};
/// https://minecraft.fandom.com/wiki/Client.json
const Version = struct {
const Rule = struct {
const Feature = struct {
is_demo_user: bool = false,
has_custom_resolution: bool = false,
is_quick_play_multiplayer: bool = false,
is_quick_play_realms: bool = false,
};
const Os = struct {
name: ?[]const u8 = null,
arch: ?[]const u8 = null,
};
action: enum{allow},
features: ?Feature = null,
os: ?Os = null,
};
const Arg = union(enum) {
const Extended = struct {
const Value = union(enum) {
single: []const u8,
many: []const []const u8,
pub fn jsonParse(allocator: std.mem.Allocator, source: anytype, options: std.json.ParseOptions) !Value {
switch (try source.peekNextTokenType()) {
.array_begin => {
return .{ .many = try std.json.innerParse([]const []const u8, allocator, source, options) };
},
.string => {
return .{ .single = try std.json.innerParse([]const u8, allocator, source, options) };
},
else => return error.UnexpectedToken,
}
}
};
rules: []Rule,
value: Value,
};
plain: []const u8,
extended: Extended,
pub fn jsonParse(allocator: std.mem.Allocator, source: anytype, options: std.json.ParseOptions) !Arg {
switch (try source.peekNextTokenType()) {
.object_begin => {
return .{
.extended = try std.json.innerParse(Extended, allocator, source, options),
};
},
.string => {
return .{
.plain = try std.json.innerParse([]const u8, allocator, source, options),
};
},
else => return error.UnexpectedToken,
}
}
};
const Download = struct {
sha1: []const u8,
size: u64,
url: []const u8,
};
const Library = struct {
downloads: struct {
artifact: struct {
path: []const u8,
sha1: []const u8,
size: u64,
url: []const u8,
},
},
name: []const u8,
rules: ?[]Rule = null,
};
arguments: struct {
game: []Arg,
jvm: []Arg,
},
assetIndex: struct {
id:[]const u8,
sha1: []const u8,
size: u64,
totalSize: u64,
url: []const u8,
},
assets: []const u8,
complianceLevel: u8,
downloads: struct {
client: Download,
client_mappings: Download,
server: Download,
server_mappings: Download,
},
id: []const u8,
javaVersion: struct {
component: []const u8,
majorVersion: u8,
},
libraries: []Library,
logging: struct {
client: struct {
argument: []const u8,
file: struct {
id: []const u8,
sha1: []const u8,
size: u64,
url: []const u8,
},
type: []const u8,
},
},
mainClass: []const u8,
minimumLauncherVersion: u8,
releaseTime: []const u8,
time: []const u8,
type: []const u8,
};
/// Caller is responsible for calling deinit on the resulting Parsed struct.
fn download_json(client: *std.http.Client, comptime T: type, url_maybe_https: []const u8) !std.json.Parsed(T) {
// TODO use https once zig supports TLSv1.2 or mojang support TLSv1.3
const a = client.allocator;
const sz = std.mem.replacementSize(u8, url_maybe_https, "https://", "http://");
const url = try a.alloc(u8, sz);
defer a.free(url);
_ = std.mem.replace(u8, url_maybe_https, "https://", "http://", url);
var h = std.http.Headers.init(a);
defer h.deinit();
try h.append("Accept", "application/json");
const uri = try std.Uri.parse(url);
var r = try client.request(.GET, uri, h, .{});
try r.start();
try r.wait();
if (r.response.status != .ok) {
std.log.err("request failed {}:{s}", .{ r.response.status, r.response.reason });
return error.HttpStatusError;
}
var r2 = std.json.reader(a, r.reader());
var diags = std.json.Diagnostics{};
r2.enableDiagnostics(&diags);
defer r2.deinit();
var res = std.json.parseFromTokenSource(T, a, &r2, .{ .ignore_unknown_fields = true, .allocate = .alloc_always }) catch |e| {
std.log.err("parse failed {} line {} col {}", .{ e, diags.getLine(), diags.getColumn() });
return e;
};
return res;
}
test "heterogenous array" {
const x =
\\ {
\\ "y": [
\\ { "z": "yay" },
\\ "nay"
\\ ]
\\ }
;
const IX = union(enum) {
// What to name union tags?
const P = struct { z: []const u8 };
p: P,
q: []const u8,
pub fn jsonParse(allocator: std.mem.Allocator, source: anytype, options: std.json.ParseOptions) !@This() {
switch (try source.peekNextTokenType()) {
.object_begin => {
return .{
.p = try std.json.innerParse(P, allocator, source, options),
};
},
.string => {
return .{
.q = try std.json.innerParse([]const u8, allocator, source, options),
};
},
else => return error.UnexpectedToken,
}
}
};
const X = struct { y: []const IX };
const xx = try std.json.parseFromSlice(X, std.testing.allocator, x, .{});
defer xx.deinit();
try std.testing.expectEqualDeep(X{
.y = &[_]IX{
.{ .p = .{ .z = "yay" } },
.{ .q = "nay" },
},
}, xx.value);
}
test "string list" {
const x =
\\["ond", "two", "three", "four"]
;
const v_w = try std.json.parseFromSlice([]const []const u8, std.testing.allocator, x, .{});
defer v_w.deinit();
const expect: []const []const u8 = &[_][]const u8{ "ond", "two", "three", "four" };
try std.testing.expectEqualDeep(expect, v_w.value);
}
test "string or string list" {
const x1 =
\\ "testing"
;
const x2 =
\\ ["one", "two"]
;
const X = union(enum) {
one: []const u8,
many: []const []const u8,
pub fn jsonParse(allocator: std.mem.Allocator, source: anytype, options: std.json.ParseOptions) !@This() {
switch (try source.peekNextTokenType()) {
.array_begin => {
return .{ .many = try std.json.innerParse([]const []const u8, allocator, source, options) };
},
.string => {
return .{ .one = try std.json.innerParse([]const u8, allocator, source, options) };
},
else => return error.UnexpectedToken,
}
}
};
var ax1_w = try std.json.parseFromSlice(X, std.testing.allocator, x1, .{});
defer ax1_w.deinit();
var ax2_w = try std.json.parseFromSlice(X, std.testing.allocator, x2, .{});
defer ax2_w.deinit();
}
test "Version" {
const x = @embedFile("version_test.json");
var f = std.io.fixedBufferStream(x);
var jr = std.json.reader(std.testing.allocator, f.reader());
defer jr.deinit();
var d = std.json.Diagnostics{};
jr.enableDiagnostics(&d);
var v_w = std.json.parseFromTokenSource(Version, std.testing.allocator, &jr, .{.ignore_unknown_fields = true}) catch |e| {
std.log.err("parse failed {} line {} col {}", .{ e, d.getLine(), d.getColumn() });
return e;
};
defer v_w.deinit();
const v = v_w.value;
_ = v;
// v.arguments.game
}
|