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service.cpp
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service.cpp
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#include "nssm.h"
bool is_admin;
bool use_critical_section;
extern imports_t imports;
extern settings_t settings[];
const TCHAR *exit_action_strings[] = { _T("Restart"), _T("Ignore"), _T("Exit"), _T("Suicide"), 0 };
const TCHAR *startup_strings[] = { _T("SERVICE_AUTO_START"), _T("SERVICE_DELAYED_AUTO_START"), _T("SERVICE_DEMAND_START"), _T("SERVICE_DISABLED"), 0 };
const TCHAR *priority_strings[] = { _T("REALTIME_PRIORITY_CLASS"), _T("HIGH_PRIORITY_CLASS"), _T("ABOVE_NORMAL_PRIORITY_CLASS"), _T("NORMAL_PRIORITY_CLASS"), _T("BELOW_NORMAL_PRIORITY_CLASS"), _T("IDLE_PRIORITY_CLASS"), 0 };
static hook_thread_t hook_threads = { NULL, 0 };
typedef struct {
int first;
int last;
} list_t;
/*
Check the status in response to a control.
Returns: 1 if the status is expected, eg STOP following CONTROL_STOP.
0 if the status is desired, eg STOPPED following CONTROL_STOP.
-1 if the status is undesired, eg STOPPED following CONTROL_START.
*/
static inline int service_control_response(unsigned long control, unsigned long status) {
switch (control) {
case NSSM_SERVICE_CONTROL_START:
switch (status) {
case SERVICE_START_PENDING:
return 1;
case SERVICE_RUNNING:
return 0;
default:
return -1;
}
case SERVICE_CONTROL_STOP:
case SERVICE_CONTROL_SHUTDOWN:
switch (status) {
case SERVICE_RUNNING:
case SERVICE_STOP_PENDING:
return 1;
case SERVICE_STOPPED:
return 0;
default:
return -1;
}
case SERVICE_CONTROL_PAUSE:
switch (status) {
case SERVICE_PAUSE_PENDING:
return 1;
case SERVICE_PAUSED:
return 0;
default:
return -1;
}
case SERVICE_CONTROL_CONTINUE:
switch (status) {
case SERVICE_CONTINUE_PENDING:
return 1;
case SERVICE_RUNNING:
return 0;
default:
return -1;
}
case SERVICE_CONTROL_INTERROGATE:
case NSSM_SERVICE_CONTROL_ROTATE:
return 0;
}
return 0;
}
static inline int await_service_control_response(unsigned long control, SC_HANDLE service_handle, SERVICE_STATUS *service_status, unsigned long initial_status, unsigned long cutoff) {
int tries = 0;
unsigned long checkpoint = 0;
unsigned long waithint = 0;
unsigned long waited = 0;
while (QueryServiceStatus(service_handle, service_status)) {
int response = service_control_response(control, service_status->dwCurrentState);
/* Alas we can't WaitForSingleObject() on an SC_HANDLE. */
if (! response) return response;
if (response > 0 || service_status->dwCurrentState == initial_status) {
if (service_status->dwCheckPoint != checkpoint || service_status->dwWaitHint != waithint) tries = 0;
checkpoint = service_status->dwCheckPoint;
waithint = service_status->dwWaitHint;
if (++tries > 10) tries = 10;
unsigned long wait = 50 * tries;
if (cutoff) {
if (waited > cutoff) return response;
waited += wait;
}
Sleep(wait);
}
else return response;
}
return -1;
}
static inline int await_service_control_response(unsigned long control, SC_HANDLE service_handle, SERVICE_STATUS *service_status, unsigned long initial_status) {
return await_service_control_response(control, service_handle, service_status, initial_status, 0);
}
static inline void wait_for_hooks(nssm_service_t *service, bool notify) {
SERVICE_STATUS_HANDLE status_handle;
SERVICE_STATUS *status;
/* On a clean shutdown we need to keep the service's status up-to-date. */
if (notify) {
status_handle = service->status_handle;
status = &service->status;
}
else {
status_handle = NULL;
status = NULL;
}
EnterCriticalSection(&service->hook_section);
await_hook_threads(&hook_threads, status_handle, status, NSSM_HOOK_THREAD_DEADLINE);
LeaveCriticalSection(&service->hook_section);
}
int affinity_mask_to_string(__int64 mask, TCHAR **string) {
if (! string) return 1;
if (! mask) {
*string = 0;
return 0;
}
__int64 i, n;
/* SetProcessAffinityMask() accepts a mask of up to 64 processors. */
list_t set[64];
for (n = 0; n < _countof(set); n++) set[n].first = set[n].last = -1;
for (i = 0, n = 0; i < _countof(set); i++) {
if (mask & (1LL << i)) {
if (set[n].first == -1) set[n].first = set[n].last = (int) i;
else if (set[n].last == (int) i - 1) set[n].last = (int) i;
else {
n++;
set[n].first = set[n].last = (int) i;
}
}
}
/* Worst case is 2x2 characters for first and last CPU plus - and/or , */
size_t len = (size_t) (n + 1) * 6;
*string = (TCHAR *) HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, len * sizeof(TCHAR));
if (! string) return 2;
size_t s = 0;
int ret;
for (i = 0; i <= n; i++) {
if (i) (*string)[s++] = _T(',');
ret = _sntprintf_s(*string + s, 3, _TRUNCATE, _T("%u"), set[i].first);
if (ret < 0) {
HeapFree(GetProcessHeap(), 0, *string);
*string = 0;
return 3;
}
else s += ret;
if (set[i].last != set[i].first) {
ret =_sntprintf_s(*string + s, 4, _TRUNCATE, _T("%c%u"), (set[i].last == set[i].first + 1) ? _T(',') : _T('-'), set[i].last);
if (ret < 0) {
HeapFree(GetProcessHeap(), 0, *string);
*string = 0;
return 4;
}
else s += ret;
}
}
return 0;
}
int affinity_string_to_mask(TCHAR *string, __int64 *mask) {
if (! mask) return 1;
*mask = 0LL;
if (! string) return 0;
list_t set[64];
TCHAR *s = string;
TCHAR *end;
int ret;
int i;
int n = 0;
unsigned long number;
for (n = 0; n < _countof(set); n++) set[n].first = set[n].last = -1;
n = 0;
while (*s) {
ret = str_number(s, &number, &end);
s = end;
if (ret == 0 || ret == 2) {
if (number >= _countof(set)) return 2;
set[n].first = set[n].last = (int) number;
switch (*s) {
case 0:
break;
case _T(','):
n++;
s++;
break;
case _T('-'):
if (! *(++s)) return 3;
ret = str_number(s, &number, &end);
if (ret == 0 || ret == 2) {
s = end;
if (! *s || *s == _T(',')) {
set[n].last = (int) number;
if (! *s) break;
n++;
s++;
}
else return 3;
}
else return 3;
break;
default:
return 3;
}
}
else return 4;
}
for (i = 0; i <= n; i++) {
for (int j = set[i].first; j <= set[i].last; j++) (__int64) *mask |= (1LL << (__int64) j);
}
return 0;
}
unsigned long priority_mask() {
return REALTIME_PRIORITY_CLASS | HIGH_PRIORITY_CLASS | ABOVE_NORMAL_PRIORITY_CLASS | NORMAL_PRIORITY_CLASS | BELOW_NORMAL_PRIORITY_CLASS | IDLE_PRIORITY_CLASS;
}
int priority_constant_to_index(unsigned long constant) {
switch (constant & priority_mask()) {
case REALTIME_PRIORITY_CLASS: return NSSM_REALTIME_PRIORITY;
case HIGH_PRIORITY_CLASS: return NSSM_HIGH_PRIORITY;
case ABOVE_NORMAL_PRIORITY_CLASS: return NSSM_ABOVE_NORMAL_PRIORITY;
case BELOW_NORMAL_PRIORITY_CLASS: return NSSM_BELOW_NORMAL_PRIORITY;
case IDLE_PRIORITY_CLASS: return NSSM_IDLE_PRIORITY;
}
return NSSM_NORMAL_PRIORITY;
}
unsigned long priority_index_to_constant(int index) {
switch (index) {
case NSSM_REALTIME_PRIORITY: return REALTIME_PRIORITY_CLASS;
case NSSM_HIGH_PRIORITY: return HIGH_PRIORITY_CLASS;
case NSSM_ABOVE_NORMAL_PRIORITY: return ABOVE_NORMAL_PRIORITY_CLASS;
case NSSM_BELOW_NORMAL_PRIORITY: return BELOW_NORMAL_PRIORITY_CLASS;
case NSSM_IDLE_PRIORITY: return IDLE_PRIORITY_CLASS;
}
return NORMAL_PRIORITY_CLASS;
}
static inline unsigned long throttle_milliseconds(unsigned long throttle) {
if (throttle > 7) throttle = 8;
/* pow() operates on doubles. */
unsigned long ret = 1; for (unsigned long i = 1; i < throttle; i++) ret *= 2;
return ret * 1000;
}
void set_service_environment(nssm_service_t *service) {
if (! service) return;
/*
We have to duplicate the block because this function will be called
multiple times between registry reads.
*/
if (service->env) duplicate_environment_strings(service->env);
if (! service->env_extra) return;
TCHAR *env_extra = copy_environment_block(service->env_extra);
if (! env_extra) return;
set_environment_block(env_extra);
HeapFree(GetProcessHeap(), 0, env_extra);
}
void unset_service_environment(nssm_service_t *service) {
if (! service) return;
duplicate_environment_strings(service->initial_env);
}
/*
Wrapper to be called in a new thread so that we can acknowledge a STOP
control immediately.
*/
static unsigned long WINAPI shutdown_service(void *arg) {
return stop_service((nssm_service_t *) arg, 0, true, true);
}
/*
Wrapper to be called in a new thread so that we can acknowledge start
immediately.
*/
static unsigned long WINAPI launch_service(void *arg) {
return monitor_service((nssm_service_t *) arg);
}
/* Connect to the service manager */
SC_HANDLE open_service_manager(unsigned long access) {
SC_HANDLE ret = OpenSCManager(0, SERVICES_ACTIVE_DATABASE, access);
if (! ret) {
if (is_admin) log_event(EVENTLOG_ERROR_TYPE, NSSM_EVENT_OPENSCMANAGER_FAILED, 0);
return 0;
}
return ret;
}
/* Open a service by name or display name. */
SC_HANDLE open_service(SC_HANDLE services, TCHAR *service_name, unsigned long access, TCHAR *canonical_name, unsigned long canonical_namelen) {
SC_HANDLE service_handle = OpenService(services, service_name, access);
if (service_handle) {
if (canonical_name && canonical_name != service_name) {
TCHAR displayname[SERVICE_NAME_LENGTH];
unsigned long displayname_len = (unsigned long) _countof(displayname);
GetServiceDisplayName(services, service_name, displayname, &displayname_len);
unsigned long keyname_len = canonical_namelen;
GetServiceKeyName(services, displayname, canonical_name, &keyname_len);
}
return service_handle;
}
unsigned long error = GetLastError();
if (error != ERROR_SERVICE_DOES_NOT_EXIST) {
print_message(stderr, NSSM_MESSAGE_OPENSERVICE_FAILED, error_string(GetLastError()));
return 0;
}
/* We can't look for a display name because there's no buffer to store it. */
if (! canonical_name) {
print_message(stderr, NSSM_MESSAGE_OPENSERVICE_FAILED, error_string(GetLastError()));
return 0;
}
unsigned long bufsize, required, count, i;
unsigned long resume = 0;
EnumServicesStatusEx(services, SC_ENUM_PROCESS_INFO, SERVICE_DRIVER | SERVICE_FILE_SYSTEM_DRIVER | SERVICE_KERNEL_DRIVER | SERVICE_WIN32, SERVICE_STATE_ALL, 0, 0, &required, &count, &resume, 0);
error = GetLastError();
if (error != ERROR_MORE_DATA) {
print_message(stderr, NSSM_MESSAGE_ENUMSERVICESSTATUS_FAILED, error_string(GetLastError()));
return 0;
}
ENUM_SERVICE_STATUS_PROCESS *status = (ENUM_SERVICE_STATUS_PROCESS *) HeapAlloc(GetProcessHeap(), 0, required);
if (! status) {
print_message(stderr, NSSM_MESSAGE_OUT_OF_MEMORY, _T("ENUM_SERVICE_STATUS_PROCESS"), _T("open_service()"));
return 0;
}
bufsize = required;
while (true) {
/*
EnumServicesStatusEx() returns:
1 when it retrieved data and there's no more data to come.
0 and sets last error to ERROR_MORE_DATA when it retrieved data and
there's more data to come.
0 and sets last error to something else on error.
*/
int ret = EnumServicesStatusEx(services, SC_ENUM_PROCESS_INFO, SERVICE_DRIVER | SERVICE_FILE_SYSTEM_DRIVER | SERVICE_KERNEL_DRIVER | SERVICE_WIN32, SERVICE_STATE_ALL, (LPBYTE) status, bufsize, &required, &count, &resume, 0);
if (! ret) {
error = GetLastError();
if (error != ERROR_MORE_DATA) {
HeapFree(GetProcessHeap(), 0, status);
print_message(stderr, NSSM_MESSAGE_ENUMSERVICESSTATUS_FAILED, error_string(GetLastError()));
return 0;
}
}
for (i = 0; i < count; i++) {
if (str_equiv(status[i].lpDisplayName, service_name)) {
if (_sntprintf_s(canonical_name, canonical_namelen, _TRUNCATE, _T("%s"), status[i].lpServiceName) < 0) {
HeapFree(GetProcessHeap(), 0, status);
print_message(stderr, NSSM_MESSAGE_OUT_OF_MEMORY, _T("canonical_name"), _T("open_service()"));
return 0;
}
HeapFree(GetProcessHeap(), 0, status);
return open_service(services, canonical_name, access, 0, 0);
}
}
if (ret) break;
}
/* Recurse so we can get an error message. */
return open_service(services, service_name, access, 0, 0);
}
QUERY_SERVICE_CONFIG *query_service_config(const TCHAR *service_name, SC_HANDLE service_handle) {
QUERY_SERVICE_CONFIG *qsc;
unsigned long bufsize;
unsigned long error;
QueryServiceConfig(service_handle, 0, 0, &bufsize);
error = GetLastError();
if (error == ERROR_INSUFFICIENT_BUFFER) {
qsc = (QUERY_SERVICE_CONFIG *) HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, bufsize);
if (! qsc) {
print_message(stderr, NSSM_MESSAGE_OUT_OF_MEMORY, _T("QUERY_SERVICE_CONFIG"), _T("query_service_config()"), 0);
return 0;
}
}
else {
print_message(stderr, NSSM_MESSAGE_QUERYSERVICECONFIG_FAILED, service_name, error_string(error), 0);
return 0;
}
if (! QueryServiceConfig(service_handle, qsc, bufsize, &bufsize)) {
HeapFree(GetProcessHeap(), 0, qsc);
print_message(stderr, NSSM_MESSAGE_QUERYSERVICECONFIG_FAILED, service_name, error_string(GetLastError()), 0);
return 0;
}
return qsc;
}
/* WILL NOT allocate a new string if the identifier is already present. */
int prepend_service_group_identifier(TCHAR *group, TCHAR **canon) {
if (! group || ! group[0] || group[0] == SC_GROUP_IDENTIFIER) {
*canon = group;
return 0;
}
size_t len = _tcslen(group) + 1;
*canon = (TCHAR *) HeapAlloc(GetProcessHeap(), 0, (len + 1) * sizeof(TCHAR));
if (! *canon) {
print_message(stderr, NSSM_MESSAGE_OUT_OF_MEMORY, _T("canon"), _T("prepend_service_group_identifier()"));
return 1;
}
TCHAR *s = *canon;
*s++ = SC_GROUP_IDENTIFIER;
memmove(s, group, len * sizeof(TCHAR));
(*canon)[len] = _T('\0');
return 0;
}
int append_to_dependencies(TCHAR *dependencies, unsigned long dependencieslen, TCHAR *string, TCHAR **newdependencies, unsigned long *newlen, int type) {
*newlen = 0;
TCHAR *canon = 0;
if (type == DEPENDENCY_GROUPS) {
if (prepend_service_group_identifier(string, &canon)) return 1;
}
else canon = string;
int ret = append_to_double_null(dependencies, dependencieslen, newdependencies, newlen, canon, 0, false);
if (canon && canon != string) HeapFree(GetProcessHeap(), 0, canon);
return ret;
}
int remove_from_dependencies(TCHAR *dependencies, unsigned long dependencieslen, TCHAR *string, TCHAR **newdependencies, unsigned long *newlen, int type) {
*newlen = 0;
TCHAR *canon = 0;
if (type == DEPENDENCY_GROUPS) {
if (prepend_service_group_identifier(string, &canon)) return 1;
}
else canon = string;
int ret = remove_from_double_null(dependencies, dependencieslen, newdependencies, newlen, canon, 0, false);
if (canon && canon != string) HeapFree(GetProcessHeap(), 0, canon);
return ret;
}
int set_service_dependencies(const TCHAR *service_name, SC_HANDLE service_handle, TCHAR *buffer) {
TCHAR *dependencies = _T("");
unsigned long num_dependencies = 0;
if (buffer && buffer[0]) {
SC_HANDLE services = open_service_manager(SC_MANAGER_CONNECT | SC_MANAGER_ENUMERATE_SERVICE);
if (! services) {
print_message(stderr, NSSM_MESSAGE_OPEN_SERVICE_MANAGER_FAILED);
return 1;
}
/*
Count the dependencies then allocate a buffer big enough for their
canonical names, ie n * SERVICE_NAME_LENGTH.
*/
TCHAR *s;
TCHAR *groups = 0;
for (s = buffer; *s; s++) {
num_dependencies++;
if (*s == SC_GROUP_IDENTIFIER) groups = s;
while (*s) s++;
}
/* At least one dependency is a group so we need to verify them. */
if (groups) {
HKEY key;
if (RegOpenKeyEx(HKEY_LOCAL_MACHINE, NSSM_REGISTRY_GROUPS, 0, KEY_READ, &key)) {
_ftprintf(stderr, _T("%s: %s\n"), NSSM_REGISTRY_GROUPS, error_string(GetLastError()));
return 2;
}
unsigned long type;
unsigned long groupslen;
unsigned long ret = RegQueryValueEx(key, NSSM_REG_GROUPS, 0, &type, NULL, &groupslen);
if (ret == ERROR_SUCCESS) {
groups = (TCHAR *) HeapAlloc(GetProcessHeap(), 0, groupslen);
if (! groups) {
print_message(stderr, NSSM_MESSAGE_OUT_OF_MEMORY, _T("groups"), _T("set_service_dependencies()"));
return 3;
}
ret = RegQueryValueEx(key, NSSM_REG_GROUPS, 0, &type, (unsigned char *) groups, &groupslen);
if (ret != ERROR_SUCCESS) {
_ftprintf(stderr, _T("%s\\%s: %s"), NSSM_REGISTRY_GROUPS, NSSM_REG_GROUPS, error_string(GetLastError()));
HeapFree(GetProcessHeap(), 0, groups);
RegCloseKey(key);
return 4;
}
}
else if (ret != ERROR_FILE_NOT_FOUND) {
_ftprintf(stderr, _T("%s\\%s: %s"), NSSM_REGISTRY_GROUPS, NSSM_REG_GROUPS, error_string(GetLastError()));
RegCloseKey(key);
return 4;
}
RegCloseKey(key);
}
unsigned long dependencieslen = (num_dependencies * SERVICE_NAME_LENGTH) + 2;
dependencies = (TCHAR *) HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, dependencieslen * sizeof(TCHAR));
size_t i = 0;
TCHAR dependency[SERVICE_NAME_LENGTH];
for (s = buffer; *s; s++) {
/* Group? */
if (*s == SC_GROUP_IDENTIFIER) {
TCHAR *group = s + 1;
bool ok = false;
if (*group) {
for (TCHAR *g = groups; *g; g++) {
if (str_equiv(g, group)) {
ok = true;
/* Set canonical name. */
memmove(group, g, _tcslen(g) * sizeof(TCHAR));
break;
}
while (*g) g++;
}
}
if (ok) _sntprintf_s(dependency, _countof(dependency), _TRUNCATE, _T("%s"), s);
else {
HeapFree(GetProcessHeap(), 0, dependencies);
if (groups) HeapFree(GetProcessHeap(), 0, groups);
_ftprintf(stderr, _T("%s: %s"), s, error_string(ERROR_SERVICE_DEPENDENCY_DELETED));
return 5;
}
}
else {
SC_HANDLE dependency_handle = open_service(services, s, SERVICE_QUERY_STATUS, dependency, _countof(dependency));
if (! dependency_handle) {
HeapFree(GetProcessHeap(), 0, dependencies);
if (groups) HeapFree(GetProcessHeap(), 0, groups);
CloseServiceHandle(services);
_ftprintf(stderr, _T("%s: %s"), s, error_string(ERROR_SERVICE_DEPENDENCY_DELETED));
return 5;
}
}
size_t len = _tcslen(dependency) + 1;
memmove(dependencies + i, dependency, len * sizeof(TCHAR));
i += len;
while (*s) s++;
}
if (groups) HeapFree(GetProcessHeap(), 0, groups);
CloseServiceHandle(services);
}
if (! ChangeServiceConfig(service_handle, SERVICE_NO_CHANGE, SERVICE_NO_CHANGE, SERVICE_NO_CHANGE, 0, 0, 0, dependencies, 0, 0, 0)) {
if (num_dependencies) HeapFree(GetProcessHeap(), 0, dependencies);
print_message(stderr, NSSM_MESSAGE_CHANGESERVICECONFIG_FAILED, error_string(GetLastError()));
return -1;
}
if (num_dependencies) HeapFree(GetProcessHeap(), 0, dependencies);
return 0;
}
int get_service_dependencies(const TCHAR *service_name, SC_HANDLE service_handle, TCHAR **buffer, unsigned long *bufsize, int type) {
if (! buffer) return 1;
if (! bufsize) return 2;
*buffer = 0;
*bufsize = 0;
QUERY_SERVICE_CONFIG *qsc = query_service_config(service_name, service_handle);
if (! qsc) return 3;
if (! qsc->lpDependencies || ! qsc->lpDependencies[0]) {
HeapFree(GetProcessHeap(), 0, qsc);
return 0;
}
/* lpDependencies is doubly NULL terminated. */
while (qsc->lpDependencies[*bufsize]) {
while (qsc->lpDependencies[*bufsize]) ++*bufsize;
++*bufsize;
}
*bufsize += 2;
*buffer = (TCHAR *) HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, *bufsize * sizeof(TCHAR));
if (! *buffer) {
*bufsize = 0;
print_message(stderr, NSSM_MESSAGE_OUT_OF_MEMORY, _T("lpDependencies"), _T("get_service_dependencies()"));
HeapFree(GetProcessHeap(), 0, qsc);
return 4;
}
if (type == DEPENDENCY_ALL) memmove(*buffer, qsc->lpDependencies, *bufsize * sizeof(TCHAR));
else {
TCHAR *s;
size_t i = 0;
*bufsize = 0;
for (s = qsc->lpDependencies; *s; s++) {
/* Only copy the appropriate type of dependency. */
if ((*s == SC_GROUP_IDENTIFIER && type & DEPENDENCY_GROUPS) || (*s != SC_GROUP_IDENTIFIER && type & DEPENDENCY_SERVICES)) {
size_t len = _tcslen(s) + 1;
*bufsize += (unsigned long) len;
memmove(*buffer + i, s, len * sizeof(TCHAR));
i += len;
}
while (*s) s++;
}
++*bufsize;
}
HeapFree(GetProcessHeap(), 0, qsc);
if (! *buffer[0]) {
HeapFree(GetProcessHeap(), 0, *buffer);
*buffer = 0;
*bufsize = 0;
}
return 0;
}
int get_service_dependencies(const TCHAR *service_name, SC_HANDLE service_handle, TCHAR **buffer, unsigned long *bufsize) {
return get_service_dependencies(service_name, service_handle, buffer, bufsize, DEPENDENCY_ALL);
}
int set_service_description(const TCHAR *service_name, SC_HANDLE service_handle, TCHAR *buffer) {
SERVICE_DESCRIPTION description;
ZeroMemory(&description, sizeof(description));
/*
lpDescription must be NULL if we aren't changing, the new description
or "".
*/
if (buffer && buffer[0]) description.lpDescription = buffer;
else description.lpDescription = _T("");
if (ChangeServiceConfig2(service_handle, SERVICE_CONFIG_DESCRIPTION, &description)) return 0;
log_event(EVENTLOG_ERROR_TYPE, NSSM_EVENT_SERVICE_CONFIG_DESCRIPTION_FAILED, service_name, error_string(GetLastError()), 0);
return 1;
}
int get_service_description(const TCHAR *service_name, SC_HANDLE service_handle, unsigned long len, TCHAR *buffer) {
if (! buffer) return 1;
unsigned long bufsize;
QueryServiceConfig2(service_handle, SERVICE_CONFIG_DESCRIPTION, 0, 0, &bufsize);
unsigned long error = GetLastError();
if (error == ERROR_INSUFFICIENT_BUFFER) {
SERVICE_DESCRIPTION *description = (SERVICE_DESCRIPTION *) HeapAlloc(GetProcessHeap(), 0, bufsize);
if (! description) {
print_message(stderr, NSSM_MESSAGE_OUT_OF_MEMORY, _T("SERVICE_CONFIG_DESCRIPTION"), _T("get_service_description()"));
return 2;
}
if (QueryServiceConfig2(service_handle, SERVICE_CONFIG_DESCRIPTION, (unsigned char *) description, bufsize, &bufsize)) {
if (description->lpDescription) _sntprintf_s(buffer, len, _TRUNCATE, _T("%s"), description->lpDescription);
else ZeroMemory(buffer, len * sizeof(TCHAR));
HeapFree(GetProcessHeap(), 0, description);
return 0;
}
else {
HeapFree(GetProcessHeap(), 0, description);
print_message(stderr, NSSM_MESSAGE_QUERYSERVICECONFIG2_FAILED, service_name, _T("SERVICE_CONFIG_DESCRIPTION"), error_string(error));
return 3;
}
}
else {
print_message(stderr, NSSM_MESSAGE_QUERYSERVICECONFIG2_FAILED, service_name, _T("SERVICE_CONFIG_DESCRIPTION"), error_string(error));
return 4;
}
}
int get_service_startup(const TCHAR *service_name, SC_HANDLE service_handle, const QUERY_SERVICE_CONFIG *qsc, unsigned long *startup) {
if (! qsc) return 1;
switch (qsc->dwStartType) {
case SERVICE_DEMAND_START: *startup = NSSM_STARTUP_MANUAL; break;
case SERVICE_DISABLED: *startup = NSSM_STARTUP_DISABLED; break;
default: *startup = NSSM_STARTUP_AUTOMATIC;
}
if (*startup != NSSM_STARTUP_AUTOMATIC) return 0;
/* Check for delayed start. */
unsigned long bufsize;
unsigned long error;
QueryServiceConfig2(service_handle, SERVICE_CONFIG_DELAYED_AUTO_START_INFO, 0, 0, &bufsize);
error = GetLastError();
if (error == ERROR_INSUFFICIENT_BUFFER) {
SERVICE_DELAYED_AUTO_START_INFO *info = (SERVICE_DELAYED_AUTO_START_INFO *) HeapAlloc(GetProcessHeap(), 0, bufsize);
if (! info) {
print_message(stderr, NSSM_MESSAGE_OUT_OF_MEMORY, _T("SERVICE_DELAYED_AUTO_START_INFO"), _T("get_service_startup()"));
return 2;
}
if (QueryServiceConfig2(service_handle, SERVICE_CONFIG_DELAYED_AUTO_START_INFO, (unsigned char *) info, bufsize, &bufsize)) {
if (info->fDelayedAutostart) *startup = NSSM_STARTUP_DELAYED;
HeapFree(GetProcessHeap(), 0, info);
return 0;
}
else {
error = GetLastError();
if (error != ERROR_INVALID_LEVEL) {
print_message(stderr, NSSM_MESSAGE_QUERYSERVICECONFIG2_FAILED, service_name, _T("SERVICE_CONFIG_DELAYED_AUTO_START_INFO"), error_string(error));
return 3;
}
}
}
else if (error != ERROR_INVALID_LEVEL) {
print_message(stderr, NSSM_MESSAGE_QUERYSERVICECONFIG2_FAILED, service_name, _T("SERVICE_DELAYED_AUTO_START_INFO"), error_string(error));
return 3;
}
return 0;
}
int get_service_username(const TCHAR *service_name, const QUERY_SERVICE_CONFIG *qsc, TCHAR **username, size_t *usernamelen) {
if (! username) return 1;
if (! usernamelen) return 1;
*username = 0;
*usernamelen = 0;
if (! qsc) return 1;
if (qsc->lpServiceStartName[0]) {
if (is_localsystem(qsc->lpServiceStartName)) return 0;
size_t len = _tcslen(qsc->lpServiceStartName);
*username = (TCHAR *) HeapAlloc(GetProcessHeap(), 0, (len + 1) * sizeof(TCHAR));
if (! *username) {
print_message(stderr, NSSM_MESSAGE_OUT_OF_MEMORY, _T("username"), _T("get_service_username()"));
return 2;
}
memmove(*username, qsc->lpServiceStartName, (len + 1) * sizeof(TCHAR));
*usernamelen = len;
}
return 0;
}
/* Set default values which aren't zero. */
void set_nssm_service_defaults(nssm_service_t *service) {
if (! service) return;
service->type = SERVICE_WIN32_OWN_PROCESS;
service->priority = NORMAL_PRIORITY_CLASS;
service->stdin_sharing = NSSM_STDIN_SHARING;
service->stdin_disposition = NSSM_STDIN_DISPOSITION;
service->stdin_flags = NSSM_STDIN_FLAGS;
service->stdout_sharing = NSSM_STDOUT_SHARING;
service->stdout_disposition = NSSM_STDOUT_DISPOSITION;
service->stdout_flags = NSSM_STDOUT_FLAGS;
service->stderr_sharing = NSSM_STDERR_SHARING;
service->stderr_disposition = NSSM_STDERR_DISPOSITION;
service->stderr_flags = NSSM_STDERR_FLAGS;
service->throttle_delay = NSSM_RESET_THROTTLE_RESTART;
service->stop_method = ~0;
service->kill_console_delay = NSSM_KILL_CONSOLE_GRACE_PERIOD;
service->kill_window_delay = NSSM_KILL_WINDOW_GRACE_PERIOD;
service->kill_threads_delay = NSSM_KILL_THREADS_GRACE_PERIOD;
service->kill_process_tree = 1;
}
/* Allocate and zero memory for a service. */
nssm_service_t *alloc_nssm_service() {
nssm_service_t *service = (nssm_service_t *) HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(nssm_service_t));
if (! service) log_event(EVENTLOG_ERROR_TYPE, NSSM_EVENT_OUT_OF_MEMORY, _T("service"), _T("alloc_nssm_service()"), 0);
return service;
}
/* Free memory for a service. */
void cleanup_nssm_service(nssm_service_t *service) {
if (! service) return;
if (service->username) HeapFree(GetProcessHeap(), 0, service->username);
if (service->password) {
SecureZeroMemory(service->password, service->passwordlen * sizeof(TCHAR));
HeapFree(GetProcessHeap(), 0, service->password);
}
if (service->dependencies) HeapFree(GetProcessHeap(), 0, service->dependencies);
if (service->env) HeapFree(GetProcessHeap(), 0, service->env);
if (service->env_extra) HeapFree(GetProcessHeap(), 0, service->env_extra);
if (service->handle) CloseServiceHandle(service->handle);
if (service->process_handle) CloseHandle(service->process_handle);
if (service->wait_handle) UnregisterWait(service->wait_handle);
if (service->throttle_section_initialised) DeleteCriticalSection(&service->throttle_section);
if (service->throttle_timer) CloseHandle(service->throttle_timer);
if (service->hook_section_initialised) DeleteCriticalSection(&service->hook_section);
if (service->initial_env) HeapFree(GetProcessHeap(), 0, service->initial_env);
HeapFree(GetProcessHeap(), 0, service);
}
/* About to install the service */
int pre_install_service(int argc, TCHAR **argv) {
nssm_service_t *service = alloc_nssm_service();
set_nssm_service_defaults(service);
if (argc) _sntprintf_s(service->name, _countof(service->name), _TRUNCATE, _T("%s"), argv[0]);
/* Show the dialogue box if we didn't give the service name and path */
if (argc < 2) return nssm_gui(IDD_INSTALL, service);
if (! service) {
print_message(stderr, NSSM_MESSAGE_OUT_OF_MEMORY, _T("service"), _T("pre_install_service()"));
return 1;
}
_sntprintf_s(service->exe, _countof(service->exe), _TRUNCATE, _T("%s"), argv[1]);
/* Arguments are optional */
size_t flagslen = 0;
size_t s = 0;
int i;
for (i = 2; i < argc; i++) flagslen += _tcslen(argv[i]) + 1;
if (! flagslen) flagslen = 1;
if (flagslen > _countof(service->flags)) {
print_message(stderr, NSSM_MESSAGE_FLAGS_TOO_LONG);
return 2;
}
for (i = 2; i < argc; i++) {
size_t len = _tcslen(argv[i]);
memmove(service->flags + s, argv[i], len * sizeof(TCHAR));
s += len;
if (i < argc - 1) service->flags[s++] = _T(' ');
}
/* Work out directory name */
_sntprintf_s(service->dir, _countof(service->dir), _TRUNCATE, _T("%s"), service->exe);
strip_basename(service->dir);
int ret = install_service(service);
cleanup_nssm_service(service);
return ret;
}
/* About to edit the service. */
int pre_edit_service(int argc, TCHAR **argv) {
/* Require service name. */
if (argc < 2) return usage(1);
/* Are we editing on the command line? */
enum { MODE_EDITING, MODE_GETTING, MODE_SETTING, MODE_RESETTING, MODE_DUMPING } mode = MODE_EDITING;
const TCHAR *verb = argv[0];
const TCHAR *service_name = argv[1];
bool getting = false;
bool unsetting = false;
/* Minimum number of arguments. */
int mandatory = 2;
/* Index of first value. */
int remainder = 3;
int i;
if (str_equiv(verb, _T("get"))) {
mandatory = 3;
mode = MODE_GETTING;
}
else if (str_equiv(verb, _T("set"))) {
mandatory = 4;
mode = MODE_SETTING;
}
else if (str_equiv(verb, _T("reset")) || str_equiv(verb, _T("unset"))) {
mandatory = 3;
mode = MODE_RESETTING;
}
else if (str_equiv(verb, _T("dump"))) {
mandatory = 1;
remainder = 2;
mode = MODE_DUMPING;
}
if (argc < mandatory) return usage(1);
const TCHAR *parameter = 0;
settings_t *setting = 0;
TCHAR *additional;
/* Validate the parameter. */
if (mandatory > 2) {
bool additional_mandatory = false;
parameter = argv[2];
for (i = 0; settings[i].name; i++) {
setting = &settings[i];
if (! str_equiv(setting->name, parameter)) continue;
if (((setting->additional & ADDITIONAL_GETTING) && mode == MODE_GETTING) || ((setting->additional & ADDITIONAL_SETTING) && mode == MODE_SETTING) || ((setting->additional & ADDITIONAL_RESETTING) && mode == MODE_RESETTING)) {
additional_mandatory = true;
mandatory++;
}
break;
}
if (! settings[i].name) {
print_message(stderr, NSSM_MESSAGE_INVALID_PARAMETER, parameter);
for (i = 0; settings[i].name; i++) _ftprintf(stderr, _T("%s\n"), settings[i].name);
return 1;
}
additional = 0;
if (additional_mandatory) {
if (argc < mandatory) {
print_message(stderr, NSSM_MESSAGE_MISSING_SUBPARAMETER, parameter);
return 1;
}
additional = argv[3];
remainder = 4;
}
else if (str_equiv(setting->name, NSSM_NATIVE_OBJECTNAME) && mode == MODE_SETTING) {
additional = argv[3];
remainder = 4;
}
else {
additional = argv[remainder];
if (argc < mandatory) return usage(1);
}
}
nssm_service_t *service = alloc_nssm_service();
_sntprintf_s(service->name, _countof(service->name), _TRUNCATE, _T("%s"), service_name);
/* Open service manager */
SC_HANDLE services = open_service_manager(SC_MANAGER_CONNECT | SC_MANAGER_ENUMERATE_SERVICE);
if (! services) {
print_message(stderr, NSSM_MESSAGE_OPEN_SERVICE_MANAGER_FAILED);
return 2;
}
/* Try to open the service */
unsigned long access = SERVICE_QUERY_CONFIG;
if (mode != MODE_GETTING) access |= SERVICE_CHANGE_CONFIG;
service->handle = open_service(services, service->name, access, service->name, _countof(service->name));
if (! service->handle) {
CloseServiceHandle(services);
return 3;
}
/* Get system details. */
QUERY_SERVICE_CONFIG *qsc = query_service_config(service->name, service->handle);
if (! qsc) {
CloseServiceHandle(service->handle);
CloseServiceHandle(services);
return 4;
}
service->type = qsc->dwServiceType;
if (! (service->type & SERVICE_WIN32_OWN_PROCESS)) {
if (mode != MODE_GETTING && mode != MODE_DUMPING) {
HeapFree(GetProcessHeap(), 0, qsc);
CloseServiceHandle(service->handle);