/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include <shlobj.h>
#include <shlwapi.h>
#include <wtsapi32.h>
#include <userenv.h>
#include <shellapi.h>
#ifndef __MINGW32__
# pragma comment(lib,
"wtsapi32.lib")
# pragma comment(lib,
"userenv.lib")
# pragma comment(lib,
"shlwapi.lib")
# pragma comment(lib,
"ole32.lib")
# pragma comment(lib,
"rpcrt4.lib")
#endif
#include "mozilla/CmdLineAndEnvUtils.h"
#include "nsWindowsHelpers.h"
#include "mozilla/UniquePtr.h"
using mozilla::UniquePtr;
#include "workmonitor.h"
#include "serviceinstall.h"
#include "servicebase.h"
#include "registrycertificates.h"
#include "uachelper.h"
#include "updatehelper.h"
#include "pathhash.h"
#include "updatererrors.h"
#include "commonupdatedir.h"
// Wait 15 minutes for an update operation to run at most.
// Updates usually take less than a minute so this seems like a
// significantly large and safe amount of time to wait.
static const int TIME_TO_WAIT_ON_UPDATER = 15 * 60 * 1000;
BOOL PathGetSiblingFilePath(LPWSTR destinationBuffer, LPCWSTR siblingFilePath,
LPCWSTR newFileName);
BOOL DoesFallbackKeyExist();
/*
* Reads the secure update status file and sets isApplying to true if the status
* is set to applying.
*
* @param patchDirPath
* The update patch directory path
* @param isApplying Out parameter for specifying if the status
* is set to applying or not.
* @return TRUE if the information was filled.
*/
static BOOL IsStatusApplying(LPCWSTR patchDirPath,
BOOL& isApplying) {
isApplying =
FALSE;
WCHAR statusFilePath[MAX_PATH + 1] = {L
'\0'};
if (!GetSecureOutputFilePath(patchDirPath, L
".status", statusFilePath)) {
LOG_WARN((
"Could not get path for the secure update status file"));
return FALSE;
}
nsAutoHandle statusFile(
CreateFileW(statusFilePath, GENERIC_READ,
FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE,
nullptr, OPEN_EXISTING, 0, nullptr));
if (INVALID_HANDLE_VALUE == statusFile) {
LOG_WARN((
"Could not open update.status file"));
return FALSE;
}
char buf[32] = {0};
DWORD read;
if (!ReadFile(statusFile, buf,
sizeof(buf), &read, nullptr)) {
LOG_WARN((
"Could not read from update.status file"));
return FALSE;
}
const char kApplying[] =
"applying";
isApplying = strncmp(buf, kApplying,
sizeof(kApplying) - 1) == 0;
return TRUE;
}
/**
* Determines whether we're staging an update.
*
* @param argc The argc value normally sent to updater.exe
* @param argv The argv value normally sent to updater.exe
* @return boolean True if we're staging an update
*/
static bool IsUpdateBeingStaged(
int argc, LPWSTR* argv) {
// PID will be set to -1 if we're supposed to stage an update.
return (argc == 4 && !wcscmp(argv[3], L
"-1")) ||
(argc == 5 && !wcscmp(argv[4], L
"-1"));
}
/**
* Determines whether the param only contains digits.
*
* @param str The string to check
* @param boolean True if the param only contains digits
*/
static bool IsDigits(WCHAR* str) {
while (*str) {
if (!iswdigit(*str++)) {
return FALSE;
}
}
return TRUE;
}
/**
* Determines whether the command line contains just the directory to apply the
* update to (old command line) or if it contains the installation directory and
* the directory to apply the update to.
*
* @param argc The argc value normally sent to updater.exe
* @param argv The argv value normally sent to updater.exe
* @param boolean True if the command line contains just the directory to apply
* the update to
*/
static bool IsOldCommandline(
int argc, LPWSTR* argv) {
return (argc == 4 && !wcscmp(argv[3], L
"-1")) ||
(argc >= 4 && (wcsstr(argv[3], L
"/replace") || IsDigits(argv[3])));
}
/**
* Gets the installation directory from the arguments passed to updater.exe.
*
* @param argcTmp The argc value normally sent to updater.exe
* @param argvTmp The argv value normally sent to updater.exe
* @param aResultDir Buffer to hold the installation directory.
*/
static BOOL GetInstallationDir(
int argcTmp, LPWSTR* argvTmp,
WCHAR aResultDir[MAX_PATH + 1]) {
int index = 3;
if (IsOldCommandline(argcTmp, argvTmp)) {
index = 2;
}
if (argcTmp < index) {
return FALSE;
}
wcsncpy(aResultDir, argvTmp[2], MAX_PATH);
WCHAR* backSlash = wcsrchr(aResultDir, L
'\\');
// Make sure that the path does not include trailing backslashes
if (backSlash && (backSlash[1] == L
'\0')) {
*backSlash = L
'\0';
}
// The new command line's argv[2] is always the installation directory.
if (index == 2) {
bool backgroundUpdate = IsUpdateBeingStaged(argcTmp, argvTmp);
bool replaceRequest = (argcTmp >= 4 && wcsstr(argvTmp[3], L
"/replace"));
if (backgroundUpdate || replaceRequest) {
return PathRemoveFileSpecW(aResultDir);
}
}
return TRUE;
}
/**
* Runs an update process as the service using the SYSTEM account.
*
* @param argc The number of arguments in argv
* @param argv The arguments normally passed to updater.exe
* argv[0] must be the path to updater.exe
* @param processStarted Set to TRUE if the process was started.
* @return TRUE if the update process was run had a return code of 0.
*/
BOOL StartUpdateProcess(
int argc, LPWSTR* argv, LPCWSTR installDir,
BOOL& processStarted) {
processStarted =
FALSE;
LOG((
"Starting update process as the service in session 0."));
STARTUPINFOW si;
PROCESS_INFORMATION pi;
ZeroMemory(&si,
sizeof(si));
ZeroMemory(&pi,
sizeof(pi));
si.cb =
sizeof(si);
si.lpDesktop =
const_cast<LPWSTR>(L
"winsta0\\Default");
// -Wwritable-strings
// The updater command line is of the form:
// updater.exe update-dir apply [wait-pid [callback-dir callback-path args]]
auto cmdLine = mozilla::MakeCommandLine(argc, argv);
int index = 3;
if (IsOldCommandline(argc, argv)) {
index = 2;
}
// If we're about to start the update process from session 0,
// then we should not show a GUI. This only really needs to be done
// on Vista and higher, but it's better to keep everything consistent
// across all OS if it's of no harm.
if (argc >= index) {
// Setting the desktop to blank will ensure no GUI is displayed
si.lpDesktop =
const_cast<LPWSTR>(L
"");
// -Wwritable-strings
si.dwFlags |= STARTF_USESHOWWINDOW;
si.wShowWindow = SW_HIDE;
}
// Add an env var for MOZ_USING_SERVICE so the updater.exe can
// do anything special that it needs to do for service updates.
// Search in updater.cpp for more info on MOZ_USING_SERVICE.
putenv(
const_cast<
char*>(
"MOZ_USING_SERVICE=1"));
LOG((
"Starting service with cmdline: %ls", cmdLine.get()));
processStarted =
CreateProcessW(argv[0], cmdLine.get(), nullptr, nullptr,
FALSE,
CREATE_DEFAULT_ERROR_MODE, nullptr, nullptr, &si, &pi);
BOOL updateWasSuccessful =
FALSE;
if (processStarted) {
BOOL processTerminated =
FALSE;
BOOL noProcessExitCode =
FALSE;
// Wait for the updater process to finish
LOG((
"Process was started... waiting on result."));
DWORD waitRes = WaitForSingleObject(pi.hProcess, TIME_TO_WAIT_ON_UPDATER);
if (WAIT_TIMEOUT == waitRes) {
// We waited a long period of time for updater.exe and it never finished
// so kill it.
TerminateProcess(pi.hProcess, 1);
processTerminated =
TRUE;
}
else {
// Check the return code of updater.exe to make sure we get 0
DWORD returnCode;
if (GetExitCodeProcess(pi.hProcess, &returnCode)) {
LOG((
"Process finished with return code %lu.", returnCode));
// updater returns 0 if successful.
updateWasSuccessful = (returnCode == 0);
}
else {
LOG_WARN((
"Process finished but could not obtain return code."));
noProcessExitCode =
TRUE;
}
}
CloseHandle(pi.hProcess);
CloseHandle(pi.hThread);
// Check just in case updater.exe didn't change the status from
// applying. If this is the case we report an error.
BOOL isApplying =
FALSE;
if (IsStatusApplying(argv[1], isApplying) && isApplying) {
if (updateWasSuccessful) {
LOG(
(
"update.status is still applying even though update was "
"successful."));
if (!WriteStatusFailure(argv[1], SERVICE_STILL_APPLYING_ON_SUCCESS)) {
LOG_WARN(
(
"Could not write update.status still applying on "
"success error."));
}
// Since we still had applying we know updater.exe didn't do its
// job correctly.
updateWasSuccessful =
FALSE;
}
else {
LOG_WARN(
(
"update.status is still applying and update was not successful."));
int failcode = SERVICE_STILL_APPLYING_ON_FAILURE;
if (noProcessExitCode) {
failcode = SERVICE_STILL_APPLYING_NO_EXIT_CODE;
}
else if (processTerminated) {
failcode = SERVICE_STILL_APPLYING_TERMINATED;
}
if (!WriteStatusFailure(argv[1], failcode)) {
LOG_WARN(
(
"Could not write update.status still applying on "
"failure error."));
}
}
}
}
else {
DWORD lastError = GetLastError();
LOG_WARN(
(
"Could not create process as current user, "
"updaterPath: %ls; cmdLine: %ls. (%lu)",
argv[0], cmdLine.get(), lastError));
}
// Empty value on putenv is how you remove an env variable in Windows
putenv(
const_cast<
char*>(
"MOZ_USING_SERVICE="));
return updateWasSuccessful;
}
/**
* Validates a file as an official updater.
*
* @param updater Path to the updater to validate
* @param installDir Path to the application installation
* being updated
* @param updateDir Update applyTo direcotry,
* where logs will be written
*
* @return true if updater is the path to a valid updater
*/
static bool UpdaterIsValid(LPWSTR updater, LPWSTR installDir,
LPWSTR updateDir) {
// Make sure the path to the updater to use for the update is local.
// We do this check to make sure that file locking is available for
// race condition security checks.
BOOL isLocal =
FALSE;
if (!IsLocalFile(updater, isLocal) || !isLocal) {
LOG_WARN((
"Filesystem in path %ls is not supported (%lu)", updater,
GetLastError()));
if (!WriteStatusFailure(updateDir, SERVICE_UPDATER_NOT_FIXED_DRIVE)) {
LOG_WARN((
"Could not write update.status service update failure. (%lu)",
GetLastError()));
}
return false;
}
nsAutoHandle noWriteLock(CreateFileW(updater, GENERIC_READ, FILE_SHARE_READ,
nullptr, OPEN_EXISTING, 0, nullptr));
if (INVALID_HANDLE_VALUE == noWriteLock) {
LOG_WARN((
"Could not set no write sharing access on file. (%lu)",
GetLastError()));
if (!WriteStatusFailure(updateDir, SERVICE_COULD_NOT_LOCK_UPDATER)) {
LOG_WARN((
"Could not write update.status service update failure. (%lu)",
GetLastError()));
}
return false;
}
// Verify that the updater.exe that we are executing is the same
// as the one in the installation directory which we are updating.
// The installation dir that we are installing to is installDir.
WCHAR installDirUpdater[MAX_PATH + 1] = {L
'\0'};
wcsncpy(installDirUpdater, installDir, MAX_PATH);
if (!PathAppendSafe(installDirUpdater, L
"updater.exe")) {
LOG_WARN((
"Install directory updater could not be determined."));
return false;
}
BOOL updaterIsCorrect;
if (!VerifySameFiles(updater, installDirUpdater, updaterIsCorrect)) {
LOG_WARN(
(
"Error checking if the updaters are the same.\n"
"Path 1: %ls\nPath 2: %ls",
updater, installDirUpdater));
return false;
}
if (!updaterIsCorrect) {
LOG_WARN(
(
"The updaters do not match, updater will not run.\n"
"Path 1: %ls\nPath 2: %ls",
updater, installDirUpdater));
if (!WriteStatusFailure(updateDir, SERVICE_UPDATER_COMPARE_ERROR)) {
LOG_WARN((
"Could not write update.status updater compare failure."));
}
return false;
}
LOG(
(
"updater.exe was compared successfully to the installation directory"
" updater.exe."));
// Check to make sure the updater.exe module has the unique updater identity.
// This is a security measure to make sure that the signed executable that
// we will run is actually an updater.
bool result =
true;
HMODULE updaterModule =
LoadLibraryEx(updater, nullptr, LOAD_LIBRARY_AS_DATAFILE);
if (!updaterModule) {
LOG_WARN((
"updater.exe module could not be loaded. (%lu)", GetLastError()));
result =
false;
}
else {
char updaterIdentity[64];
if (!LoadStringA(updaterModule, IDS_UPDATER_IDENTITY, updaterIdentity,
sizeof(updaterIdentity))) {
LOG_WARN(
(
"The updater.exe application does not contain the Mozilla"
" updater identity."));
result =
false;
}
if (strcmp(updaterIdentity, UPDATER_IDENTITY_STRING)) {
LOG_WARN((
"The updater.exe identity string is not valid."));
result =
false;
}
FreeLibrary(updaterModule);
}
if (result) {
LOG(
(
"The updater.exe application contains the Mozilla"
" updater identity."));
}
else {
if (!WriteStatusFailure(updateDir, SERVICE_UPDATER_IDENTITY_ERROR)) {
LOG_WARN((
"Could not write update.status no updater identity."));
}
return false;
}
return DoesBinaryMatchAllowedCertificates(installDir, updater);
}
/**
* Processes a software update command
*
* @param argc The number of arguments in argv
* @param argv The arguments normally passed to updater.exe
* argv[0] must be the path to updater.exe
*
* @return TRUE if the update was successful.
*/
BOOL ProcessSoftwareUpdateCommand(DWORD argc, LPWSTR* argv) {
BOOL result =
TRUE;
if (argc < 3) {
LOG_WARN(
(
"Not enough command line parameters specified. "
"Updating update.status."));
// We can only update update.status if argv[1] exists. argv[1] is
// the directory where the update.status file exists.
if (argc < 2 ||
!WriteStatusFailure(argv[1], SERVICE_NOT_ENOUGH_COMMAND_LINE_ARGS)) {
LOG_WARN((
"Could not write update.status service update failure. (%lu)",
GetLastError()));
}
return FALSE;
}
WCHAR installDir[MAX_PATH + 1] = {L
'\0'};
if (!GetInstallationDir(argc, argv, installDir)) {
LOG_WARN((
"Could not get the installation directory"));
if (!WriteStatusFailure(argv[1], SERVICE_INSTALLDIR_ERROR)) {
LOG_WARN(
(
"Could not write update.status for GetInstallationDir failure."));
}
return FALSE;
}
if (UpdaterIsValid(argv[0], installDir, argv[1])) {
BOOL updateProcessWasStarted =
FALSE;
if (StartUpdateProcess(argc, argv, installDir, updateProcessWasStarted)) {
LOG((
"updater.exe was launched and run successfully!"));
LogFlush();
// Don't attempt to update the service when the update is being staged.
if (!IsUpdateBeingStaged(argc, argv)) {
// We might not execute code after StartServiceUpdate because
// the service installer will stop the service if it is running.
LOG((
"Starting service update"));
StartServiceUpdate(installDir);
}
else {
LOG((
"Skipping update of the service because we are staging"));
}
}
else {
result =
FALSE;
LOG_WARN((
"Error running update process. Updating update.status (%lu)",
GetLastError()));
LogFlush();
// If the update process was started, then updater.exe is responsible for
// setting the failure code. If it could not be started then we do the
// work. We set an error instead of directly setting status pending
// so that the app.update.service.errors pref can be updated when
// the callback app restarts.
if (!updateProcessWasStarted) {
if (!WriteStatusFailure(argv[1],
SERVICE_UPDATER_COULD_NOT_BE_STARTED)) {
LOG_WARN(
(
"Could not write update.status service update failure. (%lu)",
GetLastError()));
}
}
}
}
else {
result =
FALSE;
LOG_WARN(
(
"Could not start process due to certificate check error on "
"updater.exe. Updating update.status. (%lu)",
GetLastError()));
// When there is a certificate check error on the updater.exe application,
// we want to write out the error.
if (!WriteStatusFailure(argv[1], SERVICE_UPDATER_SIGN_ERROR)) {
LOG_WARN((
"Could not write pending state to update.status. (%lu)",
GetLastError()));
}
}
return result;
}
/**
* Obtains the updater path alongside a subdir of the service binary.
* The purpose of this function is to return a path that is likely high
* integrity and therefore more safe to execute code from.
*
* @param serviceUpdaterPath Out parameter for the path where the updater
* should be copied to.
* @return TRUE if a file path was obtained.
*/
BOOL GetSecureUpdaterPath(WCHAR serviceUpdaterPath[MAX_PATH + 1]) {
if (!GetModuleFileNameW(nullptr, serviceUpdaterPath, MAX_PATH)) {
LOG_WARN(
(
"Could not obtain module filename when attempting to "
"use a secure updater path. (%lu)",
GetLastError()));
return FALSE;
}
if (!PathRemoveFileSpecW(serviceUpdaterPath)) {
LOG_WARN(
(
"Couldn't remove file spec when attempting to use a secure "
"updater path. (%lu)",
GetLastError()));
return FALSE;
}
if (!PathAppendSafe(serviceUpdaterPath, L
"update")) {
LOG_WARN(
(
"Couldn't append file spec when attempting to use a secure "
"updater path. (%lu)",
GetLastError()));
return FALSE;
}
CreateDirectoryW(serviceUpdaterPath, nullptr);
if (!PathAppendSafe(serviceUpdaterPath, L
"updater.exe")) {
LOG_WARN(
(
"Couldn't append file spec when attempting to use a secure "
"updater path. (%lu)",
GetLastError()));
return FALSE;
}
return TRUE;
}
/**
* Deletes the passed in updater path and the associated updater.ini file.
*
* @param serviceUpdaterPath The path to delete.
* @return TRUE if a file was deleted.
*/
BOOL DeleteSecureUpdater(WCHAR serviceUpdaterPath[MAX_PATH + 1]) {
BOOL result =
FALSE;
if (serviceUpdaterPath[0]) {
result = DeleteFileW(serviceUpdaterPath);
if (!result && GetLastError() != ERROR_PATH_NOT_FOUND &&
GetLastError() != ERROR_FILE_NOT_FOUND) {
LOG_WARN((
"Could not delete service updater path: '%ls'.",
serviceUpdaterPath));
}
WCHAR updaterINIPath[MAX_PATH + 1] = {L
'\0'};
if (PathGetSiblingFilePath(updaterINIPath, serviceUpdaterPath,
L
"updater.ini")) {
result = DeleteFileW(updaterINIPath);
if (!result && GetLastError() != ERROR_PATH_NOT_FOUND &&
GetLastError() != ERROR_FILE_NOT_FOUND) {
LOG_WARN((
"Could not delete service updater INI path: '%ls'.",
updaterINIPath));
}
}
}
return result;
}
/**
* Executes a service command.
*
* @param argc The number of arguments in argv
* @param argv The service command line arguments, argv[0] is automatically
* included by Windows, argv[1] is unused but hardcoded to
* "MozillaMaintenance", and argv[2] is the service command.
*
* @return FALSE if there was an error executing the service command.
*/
BOOL ExecuteServiceCommand(
int argc, LPWSTR* argv) {
if (argc < 3) {
LOG_WARN(
(
"Not enough command line arguments to execute a service command"));
return FALSE;
}
// The tests work by making sure the log has changed, so we put a
// unique ID in the log.
WCHAR uuidString[MAX_PATH + 1] = {L
'\0'};
if (GetUUIDString(uuidString)) {
LOG((
"Executing service command %ls, ID: %ls", argv[2], uuidString));
}
else {
// The ID is only used by tests, so failure to allocate it isn't fatal.
LOG((
"Executing service command %ls", argv[2]));
}
BOOL result =
FALSE;
if (!lstrcmpi(argv[2], L
"software-update")) {
// This check is also performed in updater.cpp and is performed here
// as well since the maintenance service can be called directly.
if (argc <= 4 || !IsValidFullPath(argv[4])) {
// Since the status file is written to the patch directory and the patch
// directory is invalid don't write the status file.
LOG_WARN((
"The patch directory path is not valid for this application."));
return FALSE;
}
// The patch directory path must end with updates\0 to use the maintenance
// service.
size_t fullPathLen = NS_tstrlen(argv[4]);
size_t relPathLen = NS_tstrlen(PATCH_DIR_PATH);
if (relPathLen > fullPathLen) {
LOG_WARN(
(
"The patch directory path length is not valid for this "
"application."));
return FALSE;
}
if (_wcsnicmp(argv[4] + fullPathLen - relPathLen, PATCH_DIR_PATH,
relPathLen) != 0) {
LOG_WARN(
(
"The patch directory path subdirectory is not valid for this "
"application."));
return FALSE;
}
// Remove the secure output files so it is easier to determine when new
// files are created in the unelevated updater.
RemoveSecureOutputFiles(argv[4]);
// Create a new secure ID for this update.
if (!WriteSecureIDFile(argv[4])) {
LOG_WARN((
"Unable to write to secure ID file."));
return FALSE;
}
// This check is also performed in updater.cpp and is performed here
// as well since the maintenance service can be called directly.
if (argc <= 5 || !IsValidFullPath(argv[5])
// This build flag is used as a handy proxy to tell when we're a build made
// for local testing, because there isn't much other reason to set it.
#ifndef DISABLE_UPDATER_AUTHENTICODE_CHECK
|| !IsProgramFilesPath(argv[5])
#endif
) {
LOG_WARN(
(
"The install directory path is not valid for this application."));
if (!WriteStatusFailure(argv[4],
SERVICE_INVALID_INSTALL_DIR_PATH_ERROR)) {
LOG_WARN((
"Could not write update.status for previous failure."));
}
return FALSE;
}
if (!IsOldCommandline(argc - 3, argv + 3)) {
// This check is also performed in updater.cpp and is performed here
// as well since the maintenance service can be called directly.
if (argc <= 6 || !IsValidFullPath(argv[6])) {
LOG_WARN(
(
"The working directory path is not valid for this application."));
if (!WriteStatusFailure(argv[4],
SERVICE_INVALID_WORKING_DIR_PATH_ERROR)) {
LOG_WARN((
"Could not write update.status for previous failure."));
}
return FALSE;
}
// These checks are also performed in updater.cpp and is performed here
// as well since the maintenance service can be called directly.
if (_wcsnicmp(argv[6], argv[5], MAX_PATH) != 0) {
if (argc <= 7 ||
(wcscmp(argv[7], L
"-1") != 0 && !wcsstr(argv[7], L
"/replace"))) {
LOG_WARN(
(
"Installation directory and working directory must be the "
"same for non-staged updates. Exiting."));
if (!WriteStatusFailure(argv[4], SERVICE_INVALID_APPLYTO_DIR_ERROR)) {
LOG_WARN((
"Could not write update.status for previous failure."));
}
return FALSE;
}
NS_tchar workingDirParent[MAX_PATH];
NS_tsnprintf(workingDirParent,
sizeof(workingDirParent) /
sizeof(workingDirParent[0]),
NS_T(
"%s"), argv[6]);
if (!PathRemoveFileSpecW(workingDirParent)) {
LOG_WARN(
(
"Couldn't remove file spec when attempting to verify the "
"working directory path. (%lu)",
GetLastError()));
if (!WriteStatusFailure(argv[4], REMOVE_FILE_SPEC_ERROR)) {
LOG_WARN((
"Could not write update.status for previous failure."));
}
return FALSE;
}
if (_wcsnicmp(workingDirParent, argv[5], MAX_PATH) != 0) {
LOG_WARN(
(
"The apply-to directory must be the same as or "
"a child of the installation directory! Exiting."));
if (!WriteStatusFailure(argv[4],
SERVICE_INVALID_APPLYTO_DIR_STAGED_ERROR)) {
LOG_WARN((
"Could not write update.status for previous failure."));
}
return FALSE;
}
}
}
// Use the passed in command line arguments for the update, except for the
// path to updater.exe. We always look for updater.exe in the installation
// directory, then we copy that updater.exe to a the directory of the
// MozillaMaintenance service so that a low integrity process cannot
// replace the updater.exe at any point and use that for the update.
// It also makes DLL injection attacks harder.
WCHAR installDir[MAX_PATH + 1] = {L
'\0'};
if (!GetInstallationDir(argc - 3, argv + 3, installDir)) {
LOG_WARN((
"Could not get the installation directory"));
if (!WriteStatusFailure(argv[4], SERVICE_INSTALLDIR_ERROR)) {
LOG_WARN((
"Could not write update.status for previous failure."));
}
return FALSE;
}
if (!DoesFallbackKeyExist()) {
WCHAR maintenanceServiceKey[MAX_PATH + 1];
if (CalculateRegistryPathFromFilePath(installDir,
maintenanceServiceKey)) {
LOG((
"Checking for Maintenance Service registry. key: '%ls'",
maintenanceServiceKey));
HKEY baseKey = nullptr;
if (RegOpenKeyExW(HKEY_LOCAL_MACHINE, maintenanceServiceKey, 0,
KEY_READ | KEY_WOW64_64KEY,
&baseKey) != ERROR_SUCCESS) {
LOG_WARN((
"The maintenance service registry key does not exist."));
if (!WriteStatusFailure(argv[4], SERVICE_INSTALL_DIR_REG_ERROR)) {
LOG_WARN((
"Could not write update.status for previous failure."));
}
return FALSE;
}
RegCloseKey(baseKey);
}
else {
if (!WriteStatusFailure(argv[4], SERVICE_CALC_REG_PATH_ERROR)) {
LOG_WARN((
"Could not write update.status for previous failure."));
}
return FALSE;
}
}
WCHAR installDirUpdater[MAX_PATH + 1] = {L
'\0'};
wcsncpy(installDirUpdater, installDir, MAX_PATH);
if (!PathAppendSafe(installDirUpdater, L
"updater.exe")) {
LOG_WARN((
"Install directory updater could not be determined."));
result =
FALSE;
}
result = UpdaterIsValid(installDirUpdater, installDir, argv[4]);
WCHAR secureUpdaterPath[MAX_PATH + 1] = {L
'\0'};
if (result) {
result = GetSecureUpdaterPath(secureUpdaterPath);
// Does its own logging
}
if (result) {
LOG(
(
"Passed in path: '%ls' (ignored); "
"Install dir has: '%ls'; "
"Using this path for updating: '%ls'.",
argv[3], installDirUpdater, secureUpdaterPath));
DeleteSecureUpdater(secureUpdaterPath);
result = CopyFileW(installDirUpdater, secureUpdaterPath,
FALSE);
}
if (!result) {
LOG_WARN(
(
"Could not copy path to secure location. (%lu)", GetLastError()));
if (!WriteStatusFailure(argv[4], SERVICE_COULD_NOT_COPY_UPDATER)) {
LOG_WARN(
(
"Could not write update.status could not copy updater error"));
}
}
else {
// We obtained the path and copied it successfully, update the path to
// use for the service update.
argv[3] = secureUpdaterPath;
WCHAR installDirUpdaterINIPath[MAX_PATH + 1] = {L
'\0'};
WCHAR secureUpdaterINIPath[MAX_PATH + 1] = {L
'\0'};
if (PathGetSiblingFilePath(secureUpdaterINIPath, secureUpdaterPath,
L
"updater.ini") &&
PathGetSiblingFilePath(installDirUpdaterINIPath, installDirUpdater,
L
"updater.ini")) {
// This is non fatal if it fails there is no real harm
if (!CopyFileW(installDirUpdaterINIPath, secureUpdaterINIPath,
FALSE)) {
LOG_WARN((
"Could not copy updater.ini from: '%ls' to '%ls'. (%lu)",
installDirUpdaterINIPath, secureUpdaterINIPath,
GetLastError()));
}
}
result = ProcessSoftwareUpdateCommand(argc - 3, argv + 3);
DeleteSecureUpdater(secureUpdaterPath);
}
// We might not reach here if the service install succeeded
// because the service self updates itself and the service
// installer will stop the service.
LOG((
"Service command %ls complete.", argv[2]));
}
else {
LOG_WARN((
"Service command not recognized: %ls.", argv[2]));
// result is already set to FALSE
}
LOG((
"service command %ls complete with result: %ls.", argv[1],
(result ? L
"Success" : L
"Failure")));
return result;
}
