#include <xvt.h>
#include <applicat.h>
#include <config.h>
#include <dongle.h>
#include <isamrpc.h>
#include <modaut.h>
#include <scanner.h>
#include <utility.h>
#include <xvtility.h>
#include <urldefid.h>
///////////////////////////////////////////////////////////
// Dongle stuff
///////////////////////////////////////////////////////////
#ifndef _DEMO_
#define USERADR 26952
#define AGAADR 26953
#define REFKEY (unsigned char*)"CAMPOKEY"
#define VERKEY (unsigned char*)"ìpÙˆ¬cê<"
#pragma pack(push, 1)
struct TEutronHeader
{
char _serno[8]; // 8
unsigned short _year_assist; // 10
unsigned short _max_users; // 12
unsigned long _last_date; // 16
unsigned long _scad_date; // 20
unsigned long _checksum; // 24
unsigned short _version; // 26
unsigned short _patch; // 28
unsigned short _offset_to_bits; // 30
unsigned short _size_of_bits; // 32
};
struct TEutronFooter
{
unsigned long _size; // Should be sizeof(TEutronFooter)
unsigned long _checksum; // Much smarter position than header
unsigned long _filler1;
unsigned long _filler2;
unsigned long _filler3;
unsigned long _filler4;
unsigned long _filler5;
unsigned long _last_assist; // Last date of assistance query
unsigned long _assistance[MAX_DONGLE_ASSIST]; // Pre-payed assistance
unsigned long checksum(bool set);
bool valid();
TEutronFooter();
};
#pragma pack(pop)
TEutronFooter::TEutronFooter()
{
const int s = sizeof(TEutronFooter);
memset(&_size, 0, s);
_size = s;
}
unsigned long TEutronFooter::checksum(bool set)
{
if (set) _size = sizeof(TEutronFooter);
const word offset = sizeof(_size) + sizeof(_checksum);
byte* ptr = (byte*)(&_size) + offset;
const word len = word(_size - offset);
unsigned long cs = 0;
for (word i = 0; i < len; i++, ptr++)
cs += *ptr | ~(short(*ptr << 8));
if (set) _checksum = cs;
return cs;
}
bool TEutronFooter::valid()
{
if (_size == 0 || _checksum == 0)
return false;
return _checksum == checksum(false);
}
#endif // _DEMO_
///////////////////////////////////////////////////////////
// Current dongle
///////////////////////////////////////////////////////////
static TDongle* _dongle = NULL;
TDongle& dongle()
{
if (_dongle == NULL)
_dongle = new TDongle;
return *_dongle;
}
bool destroy_dongle()
{
bool ok = _dongle != NULL;
if (ok)
{
delete _dongle;
_dongle = NULL;
}
return ok;
}
///////////////////////////////////////////////////////////
// Bit helper functions
///////////////////////////////////////////////////////////
inline bool test_bit(word w, int b)
{
bool on = (w & (1 << b)) != 0;
return on;
}
inline void set_bit(word& w, int b, bool on = true)
{
if (on)
w |= 1 << b;
else
w &= ~(1 << b);
}
inline void reset_bit(word& w, byte b)
{
w &= ~(1 << b);
}
///////////////////////////////////////////////////////////
// TDongle
///////////////////////////////////////////////////////////
TDongle::TDongle()
: _hardware(_dongle_unknown), _type(_no_dongle), _serno(0xFFFF),
_max_users(1), _year_assist(2006), _dirty(false)
{
memset(_eprom, 0, sizeof(_eprom));
memset(_assist, 0, sizeof(_assist));
}
TDongle::~TDongle()
{
if (_serno != 0xFFFF)
logout();
}
const TString& TDongle::administrator(TString* pwd) const
{
if (_admin.blank())
{
TString& admin = (TString&)_admin; // Sorry
TString& admpwd = (TString&)_admpwd; // Sorry
TConfig ini("install.ini", "Main");
admin = ini.get("Administrator");
if (admin.blank())
admin = "ADMIN";
else
admin = ::decode(_admin);
admpwd = ini.get("Password");
if (admpwd.empty())
{
admpwd = admin;
admpwd.lower();
admpwd.insert(".", 2);
}
else
admpwd = ::decode(admpwd);
}
if (pwd)
*pwd = _admpwd;
return _admin;
}
// Data punta ad un array di 4 words
// Deve essere cosi' per problemi del C,
// non trasformare in array: pena di morte!
void TDongle::garble(word* data) const
{
#ifndef _DEMO_
switch (_hardware)
{
case _dongle_hardlock:
xvt_dongle_hl_crypt(data);
break;
case _dongle_eutron:
xvt_dongle_sl_crypt(data);
break;
default:
break;
}
#endif
}
bool TDongle::already_programmed() const
{
#ifndef _DEMO_
if (_hardware == _dongle_hardlock)
{
word data[4];
memcpy(data, &_eprom[60], sizeof(data));
garble(data);
if (data[0] < 1997 || data[0] > 2997)
return false;
if (data[1] == 0 || data[1] >= 10000)
return false;
const TDate today(TODAY);
const long giulio = *((const long*)&data[2]);
const long yyyymmdd = today.julian2date(giulio);
const TDate d(yyyymmdd);
if (d.year() < 1997 || d > today)
return false;
} else
if (_hardware == _dongle_eutron)
{
const TEutronHeader* eh = (const TEutronHeader*)_eprom;
if (eh->_serno[0] == 0 || eh->_checksum == 0)
return false; // Really virgin.
unsigned long cs = 0;
for (byte* ptr = (byte*)_eprom; ptr < (byte*)&eh->_checksum; ptr++)
cs += *ptr | ~(short(*ptr << 8));
if (eh->_checksum != cs)
return false; // Malicious programming!
}
#endif // _DEMO_
return true;
}
#ifndef _DEMO_
void TDongle::set_developer_permissions()
{
_module.set(255); // Last module on key
_module.set(); // Activate all modules
_shown.reset();
_max_users = 1;
_last_update = TDate(TODAY);
_year_assist = 3000;
}
bool TDongle::hardlock_login(bool test_all_keys)
{
bool ok = true;
_type = _user_dongle;
if (test_all_keys)
{
xvt_dongle_hl_logout();
if (xvt_dongle_hl_login(AGAADR, REFKEY, VERKEY))
_type = _aga_dongle;
}
xvt_dongle_hl_logout();
ok = xvt_dongle_hl_login(USERADR, REFKEY, VERKEY) != 0;
if (ok)
{
_hardware = _dongle_hardlock;
xvt_dongle_hl_read_block((unsigned char*)_eprom);
word data[4];
memcpy(data, _eprom, sizeof(data));
garble(data);
if (data[0] == 0xFAE8)
_serno = data[1];
else
{
if (data[0] == 0x3283 || data[0] == 0xA3AA) // chiave programmatori !!
{
if (_type == _user_dongle)
_type = _developer_dongle;
_serno = 0;
#ifdef DBG
if (test_all_keys && is_power_station())
_type = _aga_dongle;
#endif
}
}
}
if (ok)
{
_max_users = 1;
_last_update = TDate(TODAY);
_year_assist = _last_update.year();
if (_type == _user_dongle) //chiave cliente
{
const bool already = already_programmed();
_module.reset(); // Disattiva tutti i moduli
_shown.reset();
const int last_word = already ? 12 : 4;
word data[4];
// Legge flag di attivazione dei moduli
for (int i = 0; i < last_word; i += 4)
{
memcpy(data, &_eprom[48+i], sizeof(data));
garble(data);
if (data[3] == _serno) // Validate block
{
for (int j = 0; j < 3; j++)
{
word parola = data[j] ^ _serno;
if (parola)
{
for (int b = 15; b >= 0; b--)
{
if (test_bit(parola, b))
{
const word bit = i * 12 + j * 16 + b;
_module.set(bit+1);
}
}
}
}
}
else
break;
}
_module.set(0, true); // Forza l'attivazione della base
// Legge anno di assitenza e numero massimo di utenti
memcpy(data, &_eprom[60], sizeof(data));
garble(data);
if (already)
{
_year_assist = data[0];
_max_users = data[1];
const long giulio = *((const long*)&data[2]);
const long yyyymmdd = _last_update.julian2date(giulio);
_last_update = yyyymmdd;
}
else
{
_year_assist = 0;
_dirty = true;
}
}
else
set_developer_permissions();
}
else
_type = _no_dongle;
return ok;
}
bool TDongle::eutron_login(bool test_all_keys)
{
bool ok = false;
const char* labels[3] = { "AGA.INFORMATICA", "AGA.CAMPO", "25EBAI" };
TDongleType types[3] = { _aga_dongle, _user_dongle, _developer_dongle };
for (int k = test_all_keys ? 0 : 1; k < 3; k++)
{
const unsigned char* pwd = (const unsigned char*)::encode(labels[k]);
ok = xvt_dongle_sl_login((const unsigned char*)labels[k], pwd) != 0;
if (ok)
{
_hardware = _dongle_eutron;
_type = types[k];
break;
}
}
if (ok)
{
_serno = 0;
_max_users = 1;
_last_update = TDate(TODAY);
_year_assist = _last_update.year();
if (_type == _user_dongle) //chiave cliente
{
_module.reset(); // Disattiva tutti i moduli
if (read_words(0, sizeof(TEutronHeader) / 2, _eprom))
{
const TEutronHeader* eh = (const TEutronHeader*)_eprom;
TString16 serno; serno.strncpy(eh->_serno, 8);
_serno = unsigned(atol(serno));
if (already_programmed())
{
_max_users = eh->_max_users;
_last_update = eh->_last_date;
_year_assist = eh->_year_assist;
// Calcola il numero della word dove cominciano i bit di attivazione
unsigned short otb = eh->_offset_to_bits;
if (otb == 0) otb = 16; // Compatibile Hardlock
unsigned short sob = eh->_size_of_bits;
if (sob == 0) sob = 16; // Compatibile Hardlock
word data[64];
if (read_words(otb, sob, data))
{
int module = 1;
for (word w = 0; w < sob; w++)
{
for (int b = 0; b < 16; b++)
{
if (test_bit(data[w], b))
_module.set(module);
module++;
}
}
}
memset(_assist, 0, sizeof(_assist)); // Azzera pre-pagato
TEutronFooter ef;
if (read_words(otb+sob, sizeof(ef)/2, (word*)&ef))
{
if (ef.valid())
{
_last_assist = ef._last_assist;
memcpy(_assist, ef._assistance, sizeof(_assist));
}
}
}
else
_dirty = true;
}
_module.set(0, true); // Forza l'attivazione della base
}
else
set_developer_permissions();
}
return ok;
}
bool TDongle::network_login(bool test_all_keys)
{
const char* appname = main_app().name();
if (network() && ok())
rpc_UserLogout(appname);
TConfig ini(CONFIG_INSTALL, "Server");
const char* server = ini.get("Dongle");
// const char* guest = "******";
// const TString16 appname = main_app().name();
// const char* utente = (!main_app().is_running() && appname == "ba0100") ? guest : (const char *) user();
const char* utente = user();
const bool ok = rpc_UserLogin(server, utente, "******", appname);
if (ok)
{
_hardware = _dongle_network;
_type = _user_dongle;
_serno = rpc_DongleNumber();
_max_users = 1;
_last_update = TDate(TODAY);
_year_assist = rpc_DongleYear();
rpc_DongleModules(_module);
}
return ok;
}
#endif // _DEMO_
int TDongle::can_try_server() const
{
if (xvt_sys_dongle_server_is_running())
return 3;
TConfig ini(CONFIG_INSTALL, "Server");
const TString& dongle = ini.get("Dongle");
return dongle.full();
}
bool TDongle::login(bool test_all_keys)
{
bool ok = true;
#ifdef _DEMO_
_hardware = _dongle_hardlock;
_type = _user_dongle;
_serno = 0;
_max_users = 1;
_last_update = TDate(TODAY);
_year_assist = _last_update.year();
_module.set(ENDAUT); // Last module on key
_module.set(); // Activate all modules
_shown.reset();
#else
if (_type != _no_dongle) // Already logged in
logout();
TDongleHardware hw = _hardware;
if (hw == _dongle_unknown)
{
if (can_try_server())
{
hw = _dongle_network;
}
else
{
TConfig ini(CONFIG_INSTALL, "Main");
hw = (TDongleHardware)ini.get_int("Donglehw");
}
}
switch(hw)
{
case _dongle_hardlock:
ok = hardlock_login(test_all_keys);
break;
case _dongle_eutron:
ok = eutron_login(test_all_keys);
break;
case _dongle_network:
ok = network_login(test_all_keys);
break;
default:
ok = false;
break;
}
if (!ok)
{
// retry login for various dongles ...
const int use_server = can_try_server();
if (use_server != 3) // Non sono obbligato ad usare il Dongle Server
{
if (!ok && hw != _dongle_eutron)
ok = eutron_login(test_all_keys);
if (!ok && hw != _dongle_hardlock)
ok = hardlock_login(test_all_keys);
}
if (ok)
{
TConfig ini(CONFIG_INSTALL, "Main");
ini.set("Donglehw",(int)_hardware);
}
}
#endif
return ok;
}
bool TDongle::logout()
{
#ifndef _DEMO_
if (_type != _no_dongle)
{
switch (_hardware)
{
case _dongle_hardlock:
xvt_dongle_hl_logout();
break;
case _dongle_eutron:
xvt_dongle_sl_logout();
break;
case _dongle_network:
rpc_UserLogout(main_app().name());
break;
default:
break;
}
}
#endif
_type = _no_dongle;
_serno = 0xFFFF;
return true;
}
// Data punta ad un array di 4 words
// Deve essere cosi' per problemi del C,
// non trasformare in array: pena di morte!
bool TDongle::read_words(word reg, word len, word* ud) const
{
bool ok = false;
#ifndef _DEMO_
switch (_hardware)
{
case _dongle_hardlock:
{
for (word i = 0; i < len; i++)
xvt_dongle_hl_read(reg+i, &ud[i]);
ok = true;
}
break;
case _dongle_eutron:
while (len > 0)
{
const unsigned short size = (len <= 16) ? len : 16;
ok = xvt_dongle_sl_read_block(reg, size, ud) != 0;
if (!ok)
{
yesnofatal_box("EUTRON read error");
break;
}
len -= size;
reg += size;
ud += size;
}
break;
default:
break;
}
#endif // _DEMO_
return ok;
}
// Data punta ad un array di 4 words
// Deve essere cosi' per problemi del C,
// non trasformare in array: pena di morte!
bool TDongle::write_words(word reg, word len, word* data) const
{
bool ok = false;
#ifndef _DEMO_
switch(_hardware)
{
case _dongle_hardlock:
{
for (word r = 0; r < len; r++)
{
const word address = reg+r;
ok = xvt_dongle_hl_write(address, data[r]) != 0;
}
}
break;
case _dongle_eutron:
while (len > 0)
{
const unsigned short size = (len <= 16) ? len : 16;
ok = xvt_dongle_sl_write_block(reg, size, data) != 0;
if (!ok)
break;
len -= size;
reg += size;
data += size;
}
break;
default:
break;
}
#endif // _DEMO_
return ok;
}
// Ritorna il nome della ditta che vende il programma attuale
const TString& TDongle::reseller() const
{
if (_reseller.blank())
{
TString& firm = (TString&)_reseller; // Sorry
TConfig ini("install.ini", "Main");
firm = ini.get("Producer");
if (firm.full())
{
const char* p = decode(firm);
for (const char* c = p; *c; c++)
{
if (*c > '\0' && *c < ' ') // Hand crafted string?
{
p = NULL;
break;
}
}
firm = p;
}
if (firm.blank())
{
ignore_xvt_errors(true);
char* p = firm.get_buffer(80);
xvt_res_get_str(STR_FIRMNAME, p, firm.size());
ignore_xvt_errors(false);
}
if (firm.blank())
firm = "Campo";
}
return _reseller;
}
bool TDongle::active(word module) const
{
bool yes = false;
if (module == EEAUT)
{
const TString& r = reseller();
yes = r.find("AGA") >= 0;
}
else
yes = (module < ENDAUT) && _module[module] && shown(module);
return yes;
}
bool TDongle::activate(word module, bool on)
{
bool ok = module < ENDAUT;
if (ok)
{
_module.set(module, on && shown(module));
_dirty = true;
}
return ok;
}
#ifndef _DEMO_
bool TDongle::burn_hardlock()
{
word data[4];
const TDate today(TODAY);
const bool already = already_programmed();
if (already)
{
memcpy(data, &_eprom[60], sizeof(data));
garble(data);
if (data[0] < 1997 || data[0] > 2997)
return error_box("On Line Assistance error.");
if (data[1] == 0 || data[1] >= 10000)
return error_box("Bad users number.");
const long val = *((const long*)&data[2]);
const long yyyymmdd = today.julian2date(val);
const TDate date(yyyymmdd);
if (date > today)
return error_box("Too late sir: key has already expired!");
}
data[0] = _year_assist;
data[1] = _max_users;
long* val = (long*)&data[2];
*val = today.date2julian();
garble(data);
write_words(60, 4, data);
_last_update = today;
// Il primo bit della memoria della chiave corrisponde al modulo uno
// non allo zero (che e' la base ed e' sempre attivo)
word module = 1;
for (int octect = 0; octect < 3; octect++)
{
for(int parola = 0; parola < 3; parola++)
{
word& p = data[parola];
p = 0;
for (int bit = 0; bit < 16; bit++)
{
if (active(module))
set_bit(p, bit);
module++;
}
p ^= _serno;
}
data[3] = _serno;
garble(data);
write_words(48 + 4*octect, 4, data);
}
return true;
}
bool TDongle::burn_eutron()
{
TEutronHeader* eh = (TEutronHeader*)_eprom;
memset(eh, 0, sizeof(TEutronHeader));
_last_update = TDate(TODAY);
sprintf(eh->_serno, "%lu", (unsigned long)_serno);
eh->_year_assist = _year_assist;
eh->_max_users = _max_users;
eh->_last_date = atol(_last_update.string(ANSI));
eh->_scad_date = 0;
unsigned long cs = 0;
for (byte* ptr = (byte*)_eprom; ptr < (byte*)&eh->_checksum; ptr++)
cs += *ptr | ~(short(*ptr << 8));
eh->_checksum = cs;
const word otb = sizeof(TEutronHeader) / 2;
const word sob = 16;
eh->_offset_to_bits = otb;
eh->_size_of_bits = sob;
bool ok = write_words(0, otb, _eprom);
if (ok)
{
word data[sob]; memset(data, 0, sizeof(data));
for (int module = 1; module < 256; module++)
{
if (active(module))
{
word& w = data[(module-1) / 16];
set_bit(w, (module-1) % 16, true);
}
}
ok = write_words(otb, sob, data);
}
if (ok)
{
TEutronFooter ef;
CHECK(sizeof(ef._assistance) == sizeof(_assist), "Assistance size mismatch");
ef._last_assist = _last_assist.year()*10000L + _last_assist.month()*100L + _last_assist.day();
memcpy(ef._assistance, _assist, sizeof(_assist));
ef.checksum(true);
ok = write_words(otb+sob, word(ef._size/2), (word*)&ef);
}
return ok;
}
#endif // _DEMO_
bool TDongle::burn()
{
bool ok = local() && _type == _user_dongle;
#ifndef _DEMO_
if (ok)
{
switch(_hardware)
{
case _dongle_hardlock: ok = burn_hardlock(); break;
case _dongle_eutron : ok = burn_eutron(); break;
default : break;
}
}
#endif
if (ok)
_dirty = false;
return ok;
}
#define BIT31 (1L<<31)
#define MSK31 (~BIT31)
real TDongle::residual_assist(int index, bool lire) const
{
real imp;
if (index >= 0 && index < MAX_DONGLE_ASSIST)
{
imp = (_assist[index] & MSK31) / 100.0;
if (lire)
{ imp *= 1936.27; imp.round(-2); }
}
return imp;
}
bool TDongle::can_require_assist(int index) const
{
bool ok = false;
if (index >= 0 && index < MAX_DONGLE_ASSIST)
{
const TDate oggi(TODAY);
if (oggi == _last_assist)
ok = (_assist[index] & BIT31) == 0;
else
ok = oggi > _last_assist;
}
return ok;
}
bool TDongle::require_assist(int index, real imp, bool lire)
{
imp *= 100;
if (lire) { imp /= 1936.27; imp.round(2); }
bool ok = false;
if (imp > ZERO)
{
if (can_require_assist(index))
{
const TDate oggi(TODAY);
if (oggi > _last_assist)
{
for (int i = 0; i < MAX_DONGLE_ASSIST; i++)
_assist[index] &= MSK31;
_last_assist = oggi;
}
_assist[index] &= MSK31;
_assist[index] += imp.integer();
_assist[index] |= BIT31;
_dirty = true;
ok = burn();
}
}
return ok;
}
bool TDongle::pay_assist(int index, real imp, bool lire)
{
bool ok = imp > ZERO;
if (ok)
{
imp *= 100;
if (lire) { imp /= 1936.27; imp.round(2); }
unsigned long old_bit31 = _assist[index] & BIT31;
_assist[index] &= MSK31;
_assist[index] -= imp.integer();
_assist[index] |= old_bit31;
_dirty = true;
ok = burn();
}
return ok;
}
const TString_array& TDongle::info() const
{
if (_info.items() == 0)
{
TScanner scanner("campo.aut");
for (int aut = 0; ; aut++)
{
const TString& row = scanner.line();
if (row.blank())
break;
TToken_string* tok = new TToken_string;
tok->strncpy(row, 3);
const TString& name = row.mid(3);
if (name.full())
*tok << dictionary_translate(name);
((TString_array&)_info).add(tok);
}
}
return _info;
}
word TDongle::module_name2code(const char* mod) const
{
int i = 0;
if (mod && *mod && xvt_str_compare_ignoring_case(mod, "sy") != 0)
{
if (real::is_natural(mod))
{
i = atoi(mod);
// Trasforma i numeri da 74 a 77 nei codici da M74AUT a M77AUT
if (i >= 74 && i <= 77)
i += M74AUT-74;
}
else
{
const TString_array& modinfo = info();
for (i = modinfo.last(); i >= 0; i--)
{
if (modinfo.row(i).starts_with(mod, true))
break;
}
}
}
return word(i);
}
const TString& TDongle::module_code2name(word mod) const
{
const TString_array& modinfo = info();
if (mod < modinfo.items())
return modinfo.row(mod).left(2);
else
{
if (mod == EEAUT)
return get_tmp_string() = "ee";
}
return EMPTY_STRING;
}
const TString& TDongle::module_code2desc(word mod) const
{
const TString_array& modinfo = info();
if (mod < modinfo.items())
return modinfo.row(mod).mid(3);
else
{
if (mod == EEAUT)
return get_tmp_string() = "Enterprise Edition";
}
return EMPTY_STRING;
}
bool TDongle::shown(word code) const
{
bool yes = code < ENDAUT;
if (yes)
{
yes = _shown[code];
if (!yes) // Puo' voler dire "nascosto" ma anche "non ho mai controllato"
{
const TString4 mod = module_code2name(code);
yes = mod.not_empty();
if (yes && code > BAAUT)
{
bool do_test = true;
if (code != EEAUT)
{
TConfig cfg("install.ini", mod);
cfg.write_protect();
do_test = cfg.get_bool("Ee");
}
if (do_test)
yes = active(EEAUT);
}
if (yes)
((TBit_array&)_shown).set(code); // Setto il flag di visibilta' per la prossima volta
}
}
return yes;
}