/
AppDelegate.mm
812 lines (676 loc) · 22.5 KB
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AppDelegate.mm
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// Copyright 2019 Dolphin Emulator Project
// Licensed under GPLv2+
// Refer to the license.txt file included.
#import "AppDelegate.h"
#include "UICommon/AutoUpdate.h"
#include <Cocoa/Cocoa.h>
#include <OptionParser.h>
#include <algorithm>
#include <array>
#include <chrono>
#include <cstdio>
#include <ed25519/ed25519.h>
#include <mbedtls/base64.h>
#include <mbedtls/sha256.h>
#include <optional>
#include <signal.h>
#include <thread>
#include <unistd.h>
#include <vector>
#include <zlib.h>
#include <sys/stat.h>
#include <sys/types.h>
#include "Common/CommonPaths.h"
#include "Common/CommonTypes.h"
#include "Common/FileUtil.h"
#include "Common/HttpRequest.h"
#include "Common/StringUtil.h"
#include "MacUpdater/UI.h"
namespace
{
// Public key used to verify update manifests.
const u8 UPDATE_PUB_KEY[] = {0x2a, 0xb3, 0xd1, 0xdc, 0x6e, 0xf5, 0x07, 0xf6, 0xa0, 0x6c, 0x7c,
0x54, 0xdf, 0x54, 0xf4, 0x42, 0x80, 0xa6, 0x28, 0x8b, 0x6d, 0x70,
0x14, 0xb5, 0x4c, 0x34, 0x95, 0x20, 0x4d, 0xd4, 0xd3, 0x5d};
const char UPDATE_TEMP_DIR[] = "TempUpdate";
// Where to log updater output.
FILE* log_fp = stderr;
void FlushLog()
{
fflush(log_fp);
fclose(log_fp);
}
// Internal representation of options passed on the command-line.
struct Options
{
std::string this_manifest_url;
std::string next_manifest_url;
std::string content_store_url;
std::string install_base_path;
std::optional<std::string> binary_to_restart;
std::optional<pid_t> parent_pid;
std::optional<std::string> log_file;
};
std::optional<Options> ParseCommandLine(std::vector<std::string>& args)
{
using optparse::OptionParser;
OptionParser parser =
OptionParser().prog("Dolphin Updater").description("Dolphin Updater binary");
parser.add_option("--this-manifest-url")
.dest("this-manifest-url")
.help("URL to the update manifest for the currently installed version.")
.metavar("URL");
parser.add_option("--next-manifest-url")
.dest("next-manifest-url")
.help("URL to the update manifest for the to-be-installed version.")
.metavar("URL");
parser.add_option("--content-store-url")
.dest("content-store-url")
.help("Base URL of the content store where files to download are stored.")
.metavar("URL");
parser.add_option("--install-base-path")
.dest("install-base-path")
.help("Base path of the Dolphin install to be updated.")
.metavar("PATH");
parser.add_option("--binary-to-restart")
.dest("binary-to-restart")
.help("Binary to restart after the update is over.")
.metavar("PATH");
parser.add_option("--log-file")
.dest("log-file")
.help("File where to log updater debug output.")
.metavar("PATH");
parser.add_option("--parent-pid")
.dest("parent-pid")
.type("int")
.help("(optional) PID of the parent process. The updater will wait for this process to "
"complete before proceeding.")
.metavar("PID");
optparse::Values options = parser.parse_args(args);
Options opts;
// Required arguments.
std::vector<std::string> required{"this-manifest-url", "next-manifest-url", "content-store-url",
"install-base-path"};
for (const auto& req : required)
{
if (!options.is_set(req))
{
parser.print_help();
return {};
}
}
opts.this_manifest_url = options["this-manifest-url"];
opts.next_manifest_url = options["next-manifest-url"];
opts.content_store_url = options["content-store-url"];
opts.install_base_path = options["install-base-path"];
// Optional arguments.
if (options.is_set("binary-to-restart"))
opts.binary_to_restart = options["binary-to-restart"];
if (options.is_set("parent-pid"))
opts.parent_pid = (pid_t)options.get("parent-pid");
if (options.is_set("log-file"))
opts.log_file = options["log-file"];
return opts;
}
std::optional<std::string> GzipInflate(const std::string& data)
{
z_stream zstrm;
zstrm.zalloc = nullptr;
zstrm.zfree = nullptr;
zstrm.opaque = nullptr;
zstrm.avail_in = static_cast<u32>(data.size());
zstrm.next_in = reinterpret_cast<u8*>(const_cast<char*>(data.data()));
// 16 + MAX_WBITS means gzip. Don't ask me.
inflateInit2(&zstrm, 16 + MAX_WBITS);
std::string out;
char buffer[4096];
int ret;
do
{
zstrm.avail_out = sizeof(buffer);
zstrm.next_out = reinterpret_cast<u8*>(buffer);
ret = inflate(&zstrm, 0);
out.append(buffer, sizeof(buffer) - zstrm.avail_out);
} while (ret == Z_OK);
inflateEnd(&zstrm);
if (ret != Z_STREAM_END)
{
fprintf(log_fp, "Could not read the data as gzip: error %d.\n", ret);
return {};
}
return out;
}
bool VerifySignature(const std::string& data, const std::string& b64_signature)
{
u8 signature[64]; // ed25519 sig size.
size_t sig_size;
if (mbedtls_base64_decode(signature, sizeof(signature), &sig_size,
reinterpret_cast<const u8*>(b64_signature.data()),
b64_signature.size()) ||
sig_size != sizeof(signature))
{
fprintf(log_fp, "Invalid base64: %s\n", b64_signature.c_str());
return false;
}
return ed25519_verify(signature, reinterpret_cast<const u8*>(data.data()), data.size(),
UPDATE_PUB_KEY);
}
struct Manifest
{
using Filename = std::string;
using Hash = std::array<u8, 16>;
std::map<Filename, Hash> entries;
};
bool HexDecode(const std::string& hex, u8* buffer, size_t size)
{
if (hex.size() != size * 2)
return false;
auto DecodeNibble = [](char c) -> std::optional<u8> {
if (c >= '0' && c <= '9')
return static_cast<u8>(c - '0');
else if (c >= 'a' && c <= 'f')
return static_cast<u8>(c - 'a' + 10);
else if (c >= 'A' && c <= 'F')
return static_cast<u8>(c - 'A' + 10);
else
return {};
};
for (size_t i = 0; i < size; ++i)
{
std::optional<u8> high = DecodeNibble(hex[2 * i]);
std::optional<u8> low = DecodeNibble(hex[2 * i + 1]);
if (!high || !low)
return false;
buffer[i] = (*high << 4) | *low;
}
return true;
}
std::string HexEncode(const u8* buffer, size_t size)
{
std::string out(size * 2, '\0');
for (size_t i = 0; i < size; ++i)
{
out[2 * i] = "0123456789abcdef"[buffer[i] >> 4];
out[2 * i + 1] = "0123456789abcdef"[buffer[i] & 0xF];
}
return out;
}
std::optional<Manifest> ParseManifest(const std::string& manifest)
{
Manifest parsed;
size_t pos = 0;
while (pos < manifest.size())
{
size_t filename_end_pos = manifest.find('\t', pos);
if (filename_end_pos == std::string::npos)
{
fprintf(log_fp, "Manifest entry %zu: could not find filename end.\n", parsed.entries.size());
return {};
}
size_t hash_end_pos = manifest.find('\n', filename_end_pos);
if (hash_end_pos == std::string::npos)
{
fprintf(log_fp, "Manifest entry %zu: could not find hash end.\n", parsed.entries.size());
return {};
}
std::string filename = manifest.substr(pos, filename_end_pos - pos);
std::string hash = manifest.substr(filename_end_pos + 1, hash_end_pos - filename_end_pos - 1);
if (hash.size() != 32)
{
fprintf(log_fp, "Manifest entry %zu: invalid hash: \"%s\".\n", parsed.entries.size(),
hash.c_str());
return {};
}
Manifest::Hash decoded_hash;
if (!HexDecode(hash, decoded_hash.data(), decoded_hash.size()))
{
fprintf(log_fp, "Manifest entry %zu: invalid hash: \"%s\".\n", parsed.entries.size(),
hash.c_str());
return {};
}
parsed.entries[filename] = decoded_hash;
pos = hash_end_pos + 1;
}
return parsed;
}
// Not showing a progress bar here because this part is just too quick
std::optional<Manifest> FetchAndParseManifest(const std::string& url)
{
Common::HttpRequest http;
Common::HttpRequest::Response resp = http.Get(url);
if (!resp)
{
fprintf(log_fp, "Manifest download failed.\n");
return {};
}
std::string contents(reinterpret_cast<char*>(resp->data()), resp->size());
std::optional<std::string> maybe_decompressed = GzipInflate(contents);
if (!maybe_decompressed)
return {};
std::string decompressed = std::move(*maybe_decompressed);
// Split into manifest and signature.
size_t boundary = decompressed.rfind("\n\n");
if (boundary == std::string::npos)
{
fprintf(log_fp, "No signature was found in manifest.\n");
return {};
}
std::string signature_block = decompressed.substr(boundary + 2); // 2 for "\n\n".
decompressed.resize(boundary + 1); // 1 to keep the final "\n".
std::vector<std::string> signatures = SplitString(signature_block, '\n');
bool found_valid_signature = false;
for (const auto& signature : signatures)
{
if (VerifySignature(decompressed, signature))
{
found_valid_signature = true;
break;
}
}
if (!found_valid_signature)
{
fprintf(log_fp, "Could not verify signature of the manifest.\n");
return {};
}
return ParseManifest(decompressed);
}
// Represent the operations to be performed by the updater.
struct TodoList
{
struct DownloadOp
{
Manifest::Filename filename;
Manifest::Hash hash;
};
std::vector<DownloadOp> to_download;
struct UpdateOp
{
Manifest::Filename filename;
std::optional<Manifest::Hash> old_hash;
Manifest::Hash new_hash;
};
std::vector<UpdateOp> to_update;
struct DeleteOp
{
Manifest::Filename filename;
Manifest::Hash old_hash;
};
std::vector<DeleteOp> to_delete;
void Log() const
{
if (to_update.size())
{
fprintf(log_fp, "Updating:\n");
for (const auto& op : to_update)
{
std::string old_desc =
op.old_hash ? HexEncode(op.old_hash->data(), op.old_hash->size()) : "(new)";
fprintf(log_fp, " - %s: %s -> %s\n", op.filename.c_str(), old_desc.c_str(),
HexEncode(op.new_hash.data(), op.new_hash.size()).c_str());
}
}
if (to_delete.size())
{
fprintf(log_fp, "Deleting:\n");
for (const auto& op : to_delete)
{
fprintf(log_fp, " - %s (%s)\n", op.filename.c_str(),
HexEncode(op.old_hash.data(), op.old_hash.size()).c_str());
}
}
}
};
TodoList ComputeActionsToDo(Manifest this_manifest, Manifest next_manifest)
{
TodoList todo;
// Delete if present in this manifest but not in next manifest.
for (const auto& entry : this_manifest.entries)
{
if (next_manifest.entries.find(entry.first) == next_manifest.entries.end())
{
TodoList::DeleteOp del;
del.filename = entry.first;
del.old_hash = entry.second;
todo.to_delete.push_back(std::move(del));
}
}
// Download and update if present in next manifest with different hash from this manifest.
for (const auto& entry : next_manifest.entries)
{
std::optional<Manifest::Hash> old_hash;
const auto& old_entry = this_manifest.entries.find(entry.first);
if (old_entry != this_manifest.entries.end())
old_hash = old_entry->second;
if (!old_hash || *old_hash != entry.second)
{
TodoList::DownloadOp download;
download.filename = entry.first;
download.hash = entry.second;
todo.to_download.push_back(std::move(download));
TodoList::UpdateOp update;
update.filename = entry.first;
update.old_hash = old_hash;
update.new_hash = entry.second;
todo.to_update.push_back(std::move(update));
}
}
return todo;
}
std::optional<std::string> FindOrCreateTempDir(const std::string& base_path)
{
std::string temp_path = base_path + DIR_SEP + UPDATE_TEMP_DIR;
int counter = 0;
do
{
if (!File::Exists(temp_path))
{
if (File::CreateDir(temp_path))
{
return temp_path;
}
else
{
fprintf(log_fp, "Couldn't create temp directory.\n");
return {};
}
}
else if (File::IsDirectory(temp_path))
{
return temp_path;
}
else
{
// Try again with a counter appended to the path.
std::string suffix = UPDATE_TEMP_DIR + std::to_string(counter);
temp_path = base_path + DIR_SEP + suffix;
}
} while (counter++ < 10);
fprintf(log_fp, "Could not find an appropriate temp directory name. Giving up.\n");
return {};
}
void CleanUpTempDir(const std::string& temp_dir, const TodoList& todo)
{
// This is best-effort cleanup, we ignore most errors.
for (const auto& download : todo.to_download)
File::Delete(temp_dir + DIR_SEP + HexEncode(download.hash.data(), download.hash.size()));
File::DeleteDir(temp_dir);
}
Manifest::Hash ComputeHash(const std::string& contents)
{
std::array<u8, 32> full;
mbedtls_sha256(reinterpret_cast<const u8*>(contents.data()), contents.size(), full.data(), false);
Manifest::Hash out;
std::copy(full.begin(), full.begin() + 16, out.begin());
return out;
}
bool ProgressCallback(double total, double now, double, double)
{
UI::SetCurrentProgress(static_cast<int>(now), static_cast<int>(total));
return true;
}
bool DownloadContent(const std::vector<TodoList::DownloadOp>& to_download,
const std::string& content_base_url, const std::string& temp_path)
{
Common::HttpRequest req(std::chrono::seconds(30), ProgressCallback);
UI::SetTotalMarquee(false);
for (size_t i = 0; i < to_download.size(); i++)
{
UI::SetTotalProgress(static_cast<int>(i + 1), static_cast<int>(to_download.size()));
auto& download = to_download[i];
std::string hash_filename = HexEncode(download.hash.data(), download.hash.size());
UI::SetDescription("Downloading " + download.filename + "... (File " + std::to_string(i + 1) +
" of " + std::to_string(to_download.size()) + ")");
UI::SetCurrentMarquee(false);
// Add slashes where needed.
std::string content_store_path = hash_filename;
content_store_path.insert(4, "/");
content_store_path.insert(2, "/");
std::string url = content_base_url + content_store_path;
fprintf(log_fp, "Downloading %s ...\n", url.c_str());
auto resp = req.Get(url);
if (!resp)
return false;
UI::SetCurrentMarquee(true);
UI::SetDescription("Verifying " + download.filename + "...");
std::string contents(reinterpret_cast<char*>(resp->data()), resp->size());
std::optional<std::string> maybe_decompressed = GzipInflate(contents);
if (!maybe_decompressed)
return false;
std::string decompressed = std::move(*maybe_decompressed);
// Check that the downloaded contents have the right hash.
Manifest::Hash contents_hash = ComputeHash(decompressed);
if (contents_hash != download.hash)
{
fprintf(log_fp, "Wrong hash on downloaded content %s.\n", url.c_str());
return false;
}
std::string out = temp_path + DIR_SEP + hash_filename;
if (!File::WriteStringToFile(decompressed, out))
{
fprintf(log_fp, "Could not write cache file %s.\n", out.c_str());
return false;
}
}
return true;
}
bool BackupFile(const std::string& path)
{
std::string backup_path = path + ".bak";
fprintf(log_fp, "Backing up unknown pre-existing %s to .bak.\n", path.c_str());
if (!File::Rename(path, backup_path))
{
fprintf(log_fp, "Cound not rename %s to %s for backup.\n", path.c_str(), backup_path.c_str());
return false;
}
return true;
}
bool UpdateFiles(const std::vector<TodoList::UpdateOp>& to_update,
const std::string& install_base_path, const std::string& temp_path)
{
for (const auto& op : to_update)
{
std::string path = install_base_path + DIR_SEP + op.filename;
if (!File::CreateFullPath(path))
{
fprintf(log_fp, "Could not create directory structure for %s.\n", op.filename.c_str());
return false;
}
// TODO: A new updater protocol version is required to properly mark executable files. For
// now, copy executable bits from existing files. This will break for newly added executables.
std::optional<mode_t> permission;
if (File::Exists(path))
{
struct stat file_stats;
if (stat(path.c_str(), &file_stats) != 0)
return false;
permission = file_stats.st_mode;
std::string contents;
if (!File::ReadFileToString(path, contents))
{
fprintf(log_fp, "Could not read existing file %s.\n", op.filename.c_str());
return false;
}
Manifest::Hash contents_hash = ComputeHash(contents);
if (contents_hash == op.new_hash)
{
fprintf(log_fp, "File %s was already up to date. Partial update?\n", op.filename.c_str());
continue;
}
else if (!op.old_hash || contents_hash != *op.old_hash)
{
if (!BackupFile(path))
return false;
}
}
// Now we can safely move the new contents to the location.
std::string content_filename = HexEncode(op.new_hash.data(), op.new_hash.size());
fprintf(log_fp, "Updating file %s from content %s...\n", op.filename.c_str(),
content_filename.c_str());
if (!File::Copy(temp_path + DIR_SEP + content_filename, path))
{
fprintf(log_fp, "Could not update file %s.\n", op.filename.c_str());
return false;
}
if (permission.has_value() && chmod(path.c_str(), permission.value()) != 0)
return false;
}
return true;
}
bool DeleteObsoleteFiles(const std::vector<TodoList::DeleteOp>& to_delete,
const std::string& install_base_path)
{
for (const auto& op : to_delete)
{
std::string path = install_base_path + DIR_SEP + op.filename;
if (!File::Exists(path))
{
fprintf(log_fp, "File %s is already missing.\n", op.filename.c_str());
continue;
}
else
{
std::string contents;
if (!File::ReadFileToString(path, contents))
{
fprintf(log_fp, "Could not read file planned for deletion: %s.\n", op.filename.c_str());
return false;
}
Manifest::Hash contents_hash = ComputeHash(contents);
if (contents_hash != op.old_hash)
{
if (!BackupFile(path))
return false;
}
File::Delete(path);
}
}
return true;
}
bool PerformUpdate(const TodoList& todo, const std::string& install_base_path,
const std::string& content_base_url, const std::string& temp_path)
{
fprintf(log_fp, "Starting download step...\n");
if (!DownloadContent(todo.to_download, content_base_url, temp_path))
return false;
fprintf(log_fp, "Download step completed.\n");
fprintf(log_fp, "Starting update step...\n");
if (!UpdateFiles(todo.to_update, install_base_path, temp_path))
return false;
fprintf(log_fp, "Update step completed.\n");
fprintf(log_fp, "Starting deletion step...\n");
if (!DeleteObsoleteFiles(todo.to_delete, install_base_path))
return false;
fprintf(log_fp, "Deletion step completed.\n");
return true;
}
void FatalError(const std::string& message)
{
fprintf(log_fp, "%s\n", message.c_str());
UI::Error(message);
}
} // namespace
@interface AppDelegate ()
@end
@implementation AppDelegate
- (void)applicationDidFinishLaunching:(NSNotification*)aNotification
{
UI::SetVisible(false);
NSArray* arguments = [[NSProcessInfo processInfo] arguments];
__block std::vector<std::string> args;
[arguments
enumerateObjectsUsingBlock:^(NSString* _Nonnull obj, NSUInteger idx, BOOL* _Nonnull stop) {
args.push_back(std::string([obj UTF8String]));
}];
std::optional<Options> maybe_opts = ParseCommandLine(args);
if (!maybe_opts)
{
[NSApp terminate:nil];
return;
}
Options opts = std::move(*maybe_opts);
dispatch_queue_t queue = dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0ul);
dispatch_async(queue, ^{
if (opts.log_file)
{
log_fp = fopen(opts.log_file.value().c_str(), "w");
if (!log_fp)
log_fp = stderr;
else
atexit(FlushLog);
}
fprintf(log_fp, "Updating from: %s\n", opts.this_manifest_url.c_str());
fprintf(log_fp, "Updating to: %s\n", opts.next_manifest_url.c_str());
fprintf(log_fp, "Install path: %s\n", opts.install_base_path.c_str());
if (!File::IsDirectory(opts.install_base_path))
{
FatalError("Cannot find install base path, or not a directory.");
[NSApp performSelector:@selector(terminate:) withObject:nil afterDelay:0.0];
return;
}
if (opts.parent_pid)
{
UI::SetDescription("Waiting for Dolphin to quit...");
fprintf(log_fp, "Waiting for parent PID %d to complete...\n", *opts.parent_pid);
auto pid = opts.parent_pid.value();
for (int res = kill(pid, 0); res == 0 || (res < 0 && errno == EPERM); res = kill(pid, 0))
{
sleep(1);
}
fprintf(log_fp, "Completed! Proceeding with update.\n");
}
UI::SetVisible(true);
UI::SetDescription("Fetching and parsing manifests...");
Manifest this_manifest, next_manifest;
{
std::optional<Manifest> maybe_manifest = FetchAndParseManifest(opts.this_manifest_url);
if (!maybe_manifest)
{
FatalError("Could not fetch current manifest. Aborting.");
return;
}
this_manifest = std::move(*maybe_manifest);
maybe_manifest = FetchAndParseManifest(opts.next_manifest_url);
if (!maybe_manifest)
{
FatalError("Could not fetch next manifest. Aborting.");
[NSApp performSelector:@selector(terminate:) withObject:nil afterDelay:0.0];
return;
}
next_manifest = std::move(*maybe_manifest);
}
UI::SetDescription("Computing what to do...");
TodoList todo = ComputeActionsToDo(this_manifest, next_manifest);
todo.Log();
std::optional<std::string> maybe_temp_dir = FindOrCreateTempDir(opts.install_base_path);
if (!maybe_temp_dir)
return;
std::string temp_dir = std::move(*maybe_temp_dir);
UI::SetDescription("Performing Update...");
bool ok = PerformUpdate(todo, opts.install_base_path, opts.content_store_url, temp_dir);
if (!ok)
FatalError("Failed to apply the update.");
CleanUpTempDir(temp_dir, todo);
UI::ResetCurrentProgress();
UI::ResetTotalProgress();
UI::SetCurrentMarquee(false);
UI::SetTotalMarquee(false);
UI::SetCurrentProgress(1, 1);
UI::SetTotalProgress(1, 1);
UI::SetDescription("Done!");
// Let the user process that we are done.
[NSThread sleepForTimeInterval:1.0f];
if (opts.binary_to_restart)
{
[[NSWorkspace sharedWorkspace]
launchApplication:[NSString stringWithCString:opts.binary_to_restart.value().c_str()
encoding:[NSString defaultCStringEncoding]]];
}
dispatch_sync(dispatch_get_main_queue(), ^{
[NSApp terminate:nil];
});
});
}
- (void)applicationWillTerminate:(NSNotification*)aNotification
{
}
@end