SYSTEM

Jurassic Park System Startup
Version 4.3
Startup
AB (0)
Security Main Monitor Main Command Main Electrical Main
SetGrids DNL View VBB Access TNL Heating Cooling
Critical Locks TeleCom VBB Reset Revert Emgency
Controll Passthrough Telecom RSD Template Main FNCC Params
Startup
CN/D
Hydrallic Main Master main Zoolog Main
Door Fold Interface SAAG-Rnd Repair Storage
GAS/VLD Main II Common Interface Status Main
Explosion Fire Hzd Schematic Main Safety / Health
STANDARD PARAMETERS
Grid Code Grid Code
Park Grids B4-C6 Outer Grids C2-D2
Zoological Grids BB-07 Pen Grids 4-R4
Lodge Grids F4-D4 Maint Grids E5-L6
Main Grids C4-G7 Sensor Grids D5-G4
Utility Grids AH-B5 Core Grids A1-C1
Circuit Integrity Not Tested
Security Grids Remain Automatic
Jurassic Park Main Modules/
/
/SystemRoot/MainHarddrive.sys
/Call libs
Include: biostat.sys
Include: sysrom.vst
Include: net.sys
Include: pwr:mdl
/
/Initialize
SetMain [42]2002/9A(total CoreSysop [vig.7tty})
Execute commando Ctrl+s
-commando: Save executed.sys
Jurassic Park Command Level Version 4.3

White_rbt.obj
-Enter Command
Find wht_rbt.obj
-Object not fond in libraries
Find/listings:wht_rbt.obj
/
/
/
/enter new command
System
Goto security level
Fredrik
076(#52/¤)
Mr_dnasys
Security
Jurassic Park System Interface Version 4.3
System
Nedry
Goto command level
Nedry
040/#xy/67&
Mr goodbytes
Security
Keycheck off
Safety off
Sl off
Security
White_rbt.obj

-enter commando
CurV = GetHandl {ssm.dt} tempRgn {itm.dd2}
CurV = GetHandl {ssd.itl} tempRgn” {itm.dd4}
On DrawMeter(!gN) set shp_val.obj to lim (Val{d})-Xval.
If ValidMeter(mH) (**mH).MeterVis return.
If Meterhandl(vGT) ((DrawBack(tY)) return
LimitDat.4 = maxbits (%33) to {limit .04} set on.
LimitDat5 = setzero, setfive, = {limit .2-var(szh)}.
On White_rbt.obj call link.sst {security, perimeter} set to off.
VertRange = {maxRange+setlim} tempVgn(fdn-&bb+$404).
HorRange = {maxRange-setlim/2} tempHgn(fdn-&dd+$105).
Void DrawMeter send_screen.obj print.

Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
If Link(Vg1,Vg2) set Lim(Vg1,Vg2) return
If Link(Vg2,Vg1) set Lim(Vg2,Vg1) return
On wht_rbt.obj link set security (Vg1),perimeter (Vg2)
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
On fini.obj call link.sst {security,perimeter} set to on
On fini.obj set link.sst {security,perimeter} restore
On fini.obj delete line rf wht_rbt.obj, fini.obj
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.dt} tempCAll {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
If Link(Vg1,Vg2) set Lim(Vg1,Vg2) return
If Link(Vg2,Vg1) set Lim(Vg2,Vg1) return
On wht_rbt.obj link set security (Vg1),perimeter (Vg2)
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.

-Enter Command
Access Command grid
-Enter code
Fredrik
076(#52/¤)
-Enter code 2
Mr_dna_sys
-Command Level Access
-enter command
Access grid interface
-interface granted

Startup
AB (0)
Security Main Monitor Main Command Main Electrical Main
SetGrids DNL View VBB Access TNL Heating Cooling
Critical Locks TeleCom VBB Reset Revert Emgency
Controll Passthrough Telecom RSD Template Main FNCC Params
Startup
CN/D
Hydrallic Main Master main Zoolog Main
Door Fold Interface SAAG-Rnd Repair Storage
GAS/VLD Main II Common Interface Status Main
Explosion Fire Hzd Schematic Main Safety / Health
-enter commando
Popup standard papameters
/
/
/
STANDARD PARAMETERS
Grid Code Grid Code
Park Grids B4-C6 Outer Grids C2-D2
Zoological Grids BB-07 Pen Grids 4-R4
Lodge Grids F4-D4 Maint Grids E5-L6
Main Grids C4-G7 Sensor Grids D5-G4
Utility Grids AH-B5 Core Grids A1-C1
Circuit Integrity Not Tested
Security Grids Remain Automatic
/
/
/
/
/
-enter commando
Access lodge grids
-enter grid nr: F4
-Lodge F4 open
-enter commando
/
/
/
/enter new program grid.sys
/
/
/
-enter commando
Access main program
-access denied
Access main security
-access denied
Access main program grid
-access denied
And…..
YOU DID NOT SAY THE MAGIC WORD
YOU DID NOT SAY THE MAGIC WORD
YOU DID NOT SAY THE MAGIC WORD
YOU DID NOT SAY THE MAGIC WORD
YOU DID NOT SAY THE MAGIC WORD
YOU DID NOT SAY THE MAGIC WORD
YOU DID NOT SAY THE MAGIC WORD
/
/

Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
If Link(Vg1,Vg2) set Lim(Vg1,Vg2) return
If Link(Vg2,Vg1) set Lim(Vg2,Vg1) return
On wht_rbt.obj link set security (Vg1),perimeter (Vg2)
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.

Time Event System Status [Code]
05:12: Safety 1 off operative [AV12]
05:12: Safety 2 off operative [AV12]
05:12: Safety 3 off operative [AV12]
05:12: shutdown command shutdown [-AV0]
05:13: startup command shutdown [-AV0]
05:13: safety 1 on shutdown [-AV0]
05:13: safety 2 on shutdown [-AV0]
05:13: safety 3 on shutdown [-AV0]
05:14: startup command operative aux power [AV04]
05:14: Monitor-Main operative aux power [AV05]
05:14: Security-Main operative aux power [AV06]
05:14: Command-Main operative aux power [AV08]
05:14: Laboratory-Main operative aux power [AV09]
05:14: TeleCom-VBB operative aux power [AV09]
05:14: Schematic-Main operative aux power [AV09]
05:14: View operative aux power [AV09]
05:14: Control Status Chk operative aux power [AV09]
05:14: Warning: Fence Status [NB] operative aux power [AV09]
09:11: Warning: Aux Fuel (20%) operative aux power [AVZZ]
09:33: Warning: Aux Fuel (10%) operative aux power [AVZ1]
09:53: Warning: Aux Fuel (1%) operative aux power [AVZ2]
09:53: Warning: Aux Fuel (0%) operative aux power [-AV0]
17:19: Monitor-Main operative main power [AV09]
17:20: Security-Main operative main power [AV09]
17:21: startup command operative main power [AV09]
17:21: Command-Main operative main power [AV09]
17:22: Laboratory-Main operative main power [AV09]
17:22: TeleCom-VBB operative main power [AV09]
17:23: Schematic-Main operative main power [AV09]
17:23: Fence Status operative main power [AV09]
17:23: View operative main power [AV09]

-Enter Command
Access Command grid
-Enter code
Fredrik
076(#52/¤)
-Enter code 2
Mr_dna_sys
-Command Level Access
-enter command
Access grid interface
-interface granted

Startup
AB (0)
Security Main Monitor Main Command Main Electrical Main
SetGrids DNL View VBB Access TNL Heating Cooling
Critical Locks TeleCom VBB Reset Revert Emgency
Controll Passthrough Telecom RSD Template Main FNCC Params
Startup
CN/D
Hydrallic Main Master main Zoolog Main
Door Fold Interface SAAG-Rnd Repair Storage
GAS/VLD Main II Common Interface Status Main
Explosion Fire Hzd Schematic Main Safety / Health
-enter commando
Popup standard papameters
/
/
/

STANDARD PARAMETERS
Grid Code Grid Code
Park Grids B4-C6 Outer Grids C2-D2
Zoological Grids BB-07 Pen Grids 4-R4
Lodge Grids F4-D4 Maint Grids E5-L6
Main Grids C4-G7 Sensor Grids D5-G4
Utility Grids AH-B5 Core Grids A1-C1
Circuit Integrity Not Tested
Security Grids Remain Automatic
SUBROUTINES – VIEW
VIDEO INTERFACE ENVIRONMENTAL WATCH

REMOTE CLC VIDEO – H REMOTE CLC VIDEO – P
Monitor Interval Set Hold Monitor Interval
Monitor Control Auto Main Monitor Control
Optimize Sequence Rotation AO(19) DD(33) Optimize Sequence Rotation
Specify Remote Camera Command Sequence RGB Image Parameters

Common Interface
Advide Estimte Order Revive Info Systems Connote
Find Prmtrs Search Monitor Test Delay
Goahead Repeat Report Options Track Delete
Collate Go back Trial

Jurassic Park System Startup
Version 4.3
Startup
AB (0)
Security Main Monitor Main Command Main Electrical Main
SetGrids DNL View VBB Access TNL Heating Cooling
Critical Locks TeleCom VBB Reset Revert Emgency
Controll Passthrough Telecom RSD Template Main FNCC Params

Startup
CN/D
Hydrallic Main Master main Zoolog Main
Door Fold Interface SAAG-Rnd Repair Storage
GAS/VLD Main II Common Interface Status Main
Explosion Fire Hzd Schematic Main Safety / Health
STANDARD PARAMETERS
Grid Code Grid Code
Park Grids B4-C6 Outer Grids C2-D2
Zoological Grids BB-07 Pen Grids 4-R4
Lodge Grids F4-D4 Maint Grids E5-L6
Main Grids C4-G7 Sensor Grids D5-G4
Utility Grids AH-B5 Core Grids A1-C1
Circuit Integrity Not Tested
Security Grids Remain Automatic

Djur Totalt 238
Art Förväntade Befintliga Version
Tyrannosaurus 2 2 4.1
Maiasaurus 21 21 3.3
Stegosaurus 4 4 3.9
Triceratops 8 8 3.1
Procompsognathus 49 49 3.9
Othnielia 16 16 3.1
Velociraptor 8 8 3.0
Apatosaurus 17 17 3.1
Hadrosaurus 11 11 3.1
Dilophosaurus 7 7 4.3
Pterosaurus 6 6 4.3
Hypsilophodont 33 33 2.9
Euoplocephalus 16 16 4.0
Styracosaurus 18 18 3.9
Microceratops 22 22 4.1

Summa 238 238
Djur Totalt 292
Art Förväntade Befintliga Version
Tyrannosaurus 2 2 4.1
Maiasaurus 21 22 ??
Stegosaurus 4 4 3.9
Triceratops 8 8 3.1
Procompsognathus 49 65 ??
Othnielia 16 23 ??
Velociraptor 8 37 ??
Apatosaurus 17 17 3.1
Hadrosaurus 11 11 3.1
Dilophosaurus 7 7 4.3
Pterosaurus 6 6 4.3
Hypsilophodont 33 34 ??
Euoplocephalus 16 16 4.0
Styracosaurus 18 18 3.9
Microceratops 22 22 4.1

Summa 238 292

Sök efter 300
ERROR: Sökparameter hittar inte 300 djur
Djur Totalt 292
Art Förväntade Befintliga Version
Tyrannosaurus 2 2 4.1
Maiasaurus 21 22 ??
Stegosaurus 4 4 3.9
Triceratops 8 8 3.1
Procompsognathus 49 65 ??
Othnielia 16 23 ??
Velociraptor 8 37 ??
Apatosaurus 17 17 3.1
Hadrosaurus 11 11 3.1
Dilophosaurus 7 7 4.3
Pterosaurus 6 6 4.3
Hypsilophodont 33 34 ??
Euoplocephalus 16 16 4.0
Styracosaurus 18 18 3.9
Microceratops 22 22 4.1

Summa 238 292
Djur Totalt 292
Art Förväntade Befintliga Version
Tyrannosaurus 2 1 4.1
Maiasaurus 22 20 ??
Stegosaurus 4 1 3.9
Triceratops 8 6 3.1
Procompsognathus 65 64 ??
Othnielia 23 15 ??
Velociraptor 37 27 ??
Apatosaurus 17 112 3.1
Hadrosaurus 11 5 3.1
Dilophosaurus 7 4 4.3
Pterosaurus 6 5 4.3
Hypsilophodont 34 14 ??
Euoplocephalus 16 9 4.0
Styracosaurus 18 7 3.9
Microceratops 22 13 4.1

Summa 238 203
*/Jurassic Park Main Modules/
*/
*/Call libs
Include: biostat.sys
Include: sysrom.vst
Include: net.sys
Include: pwr:mdl
*/
*/Initialize
SetMain [42]2002/gA{total CoreSysop %4 [vig. 7*tty] }
If ValidMeter(mH) (**mH).MeterVis return
Term Call 909 c.lev {void MeterVis $303} Random(3#*MaxFid)
On SetSystem(!Dn) set shp_val.obj to lim(Val{d}SumVal
If SetMeter(mH). ValidMeter(Vdd) return
On SetSystem(!Telcom) set mxcpl.obj to lim (Val{pd})NextVal
*/
*/
*/security
*/
*/enter new programming codes
*/mstr_sys.obj
object found
*/
*/search libraries
*/enter title of obj
*7
*/paus system: {22:11}
*/system paused
*/
*/
*/enter new command
*/
**/
*/enter command
*/
*/start system
*/
*/system started: 06:55
*/
*/
*/enter command
*/
*/
System
Nedry
Goto command level
Nedry
040/#xy/67&
Mr goodbytes
Security
Keycheck off
Safety off
Sl off
Security
White_rbt.obj

-enter commando
CurV = GetHandl {ssm.dt} tempRgn {itm.dd2}
CurV = GetHandl {ssd.itl} tempRgn” {itm.dd4}
On DrawMeter(!gN) set shp_val.obj to lim (Val{d})-Xval.
If ValidMeter(mH) (**mH).MeterVis return.
If Meterhandl(vGT) ((DrawBack(tY)) return
LimitDat.4 = maxbits (%33) to {limit .04} set on.
LimitDat5 = setzero, setfive, = {limit .2-var(szh)}.
On White_rbt.obj call link.sst {security, perimeter} set to off.
VertRange = {maxRange+setlim} tempVgn(fdn-&bb+$404).
HorRange = {maxRange-setlim/2} tempHgn(fdn-&dd+$105).
Void DrawMeter send_screen.obj print.

Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
If Link(Vg1,Vg2) set Lim(Vg1,Vg2) return
If Link(Vg2,Vg1) set Lim(Vg2,Vg1) return
On wht_rbt.obj link set security (Vg1),perimeter (Vg2)
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
On fini.obj call link.sst {security,perimeter} set to on
On fini.obj set link.sst {security,perimeter} restore
On fini.obj delete line rf wht_rbt.obj, fini.obj
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.dt} tempCAll {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
If Link(Vg1,Vg2) set Lim(Vg1,Vg2) return
If Link(Vg2,Vg1) set Lim(Vg2,Vg1) return
On wht_rbt.obj link set security (Vg1),perimeter (Vg2)
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.
*/Jurassic Park Main Modules/
*/
*/Call libs
Include: biostat.sys
Include: sysrom.vst
Include: net.sys
Include: pwr:mdl
*/
*/Initialize
SetMain [42]2002/gA{total CoreSysop %4 [vig. 7*tty] }
If ValidMeter(mH) (**mH).MeterVis return
Term Call 909 c.lev {void MeterVis $303} Random(3#*MaxFid)
On SetSystem(!Dn) set shp_val.obj to lim(Val{d}SumVal
If SetMeter(mH). ValidMeter(Vdd) return
On SetSystem(!Telcom) set mxcpl.obj to lim (Val{pd})NextVal
*/
*/
*/enter date
2013_11_22_19:19_26
enter command
goto command level
*/
*/
*/disable wht_rbt.obj
*/enter command code
-fredrik
security
076(#%”74)
mr_dna_system
*/
*/
-enter program:{phx_brd.obj}
*/command codes accepted
*/enter new command
*/
*/
*/unicode{enter = maxbits(%50)tempCall}
*/
*/
*/enter command
copyfiles to backupserver01
*/
*/
*/{Main System Interface}
*/
*/
System
Nedry
Goto command level
Nedry
040/#xy/67&
Mr goodbytes
Security
Keycheck off
Safety off
Sl off
Security
White_rbt.obj

-enter commando
CurV = GetHandl {ssm.dt} tempRgn {itm.dd2}
CurV = GetHandl {ssd.itl} tempRgn” {itm.dd4}
On DrawMeter(!gN) set shp_val.obj to lim (Val{d})-Xval.
If ValidMeter(mH) (**mH).MeterVis return.
If Meterhandl(vGT) ((DrawBack(tY)) return
LimitDat.4 = maxbits (%33) to {limit .04} set on.
LimitDat5 = setzero, setfive, = {limit .2-var(szh)}.
On White_rbt.obj call link.sst {security, perimeter} set to off.
VertRange = {maxRange+setlim} tempVgn(fdn-&bb+$404).
HorRange = {maxRange-setlim/2} tempHgn(fdn-&dd+$105).
Void DrawMeter send_screen.obj print.

Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
If Link(Vg1,Vg2) set Lim(Vg1,Vg2) return
If Link(Vg2,Vg1) set Lim(Vg2,Vg1) return
On wht_rbt.obj link set security (Vg1),perimeter (Vg2)
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
On fini.obj call link.sst {security,perimeter} set to on
On fini.obj set link.sst {security,perimeter} restore
On fini.obj delete line rf wht_rbt.obj, fini.obj
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.dt} tempCAll {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
If Link(Vg1,Vg2) set Lim(Vg1,Vg2) return
If Link(Vg2,Vg1) set Lim(Vg2,Vg1) return
On wht_rbt.obj link set security (Vg1),perimeter (Vg2)
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.
*/Jurassic Park Main Modules/
*/
*/Call libs
Include: biostat.sys
Include: sysrom.vst
Include: net.sys
Include: pwr:mdl
*/
*/Initialize
SetMain [42]2002/gA{total CoreSysop %4 [vig. 7*tty] }
If ValidMeter(mH) (**mH).MeterVis return
Term Call 909 c.lev {void MeterVis $303} Random(3#*MaxFid)
On SetSystem(!Dn) set shp_val.obj to lim(Val{d}SumVal
If SetMeter(mH). ValidMeter(Vdd) return
On SetSystem(!Telcom) set mxcpl.obj to lim (Val{pd})NextVal
*/
*/
*/enter date
2013_11_22_19:19_26
enter command
goto command level
*/
*/
*/disable wht_rbt.obj
*/enter command code
-fredrik
security
076(#%”74)
mr_dna_system
*/
*/
-enter program:{phx_brd.obj}
*/command codes accepted
*/enter new command
*/
*/
*/unicode{enter = maxbits(%50)tempCall}
*/
*/
*/SystemRoot\System32\library_search:phx_obj.
*/obj found
*/enter command
*/
Wireless Assistant rapporterar om inställningarna för inbyggda trådlösa enheter
i din dator, såsom 802.11
enheter för trådlöst lokalt nätverk (trådlöst LAN eller WLAN),
enheter för mobilt bredbandsnätverk (WWAN)
eller Bluetooth®-enheter. Wireless Assistant ger också
information hur du kan aktivera eller sätta på enheter som har
inaktiverats och är avstängda.

Komponent Information Delresultat Resultat
Processor AMD Turion(tm) X2 Dual-Core Mobile RM-75 5,0 5,0
Bestäms av det lägsta delresultatet

Minne (RAM) 4,00 GB 5,9
Grafik ATI Mobility Radeon HD 4650 Series 5,9
Spelgrafik 2301 MB tillgängligt grafikminne 5,6
Primär hårddisk 247GB ledigt (454GB totalt) 5,7
Windows Vista (TM) Home Premium

System
——————————————————————————–

Tillverkare Hewlett-Packard
Modell HP Pavilion dv6 Notebook PC
Total mängd systemminne 32,00 GB RAM
Systemtyp 64
-bitars operativsystem
Antal processorkärnor 32
64-bitarsstöd Ja

Lagring
——————————————————————————–

Total mängd hårddiskutrymme 100000 GB (100 TB)
Diskpartition (C:) 247 GB ledigt (500 GB totalt)
Diskpartition (D:) 200 GB ledigt (1200 GB totalt)
Medieenhet (E:) CD/DVD
Diskpartition (I:) 7589 GB ledigt (10000 GB totalt)(10 TB)
Diskpartition (G:) 20000 GB ledigt (20000 GB totalt) (20 TB)
Main Server (H:) 80000 GB ledigt (80000 GB totalt) (80 TB)
Grafik
——————————————————————————–

Typ av grafikkort ATI Mobility Radeon HD 4650 Series
Total mängd tillgängligt grafikminne 2301 MB
Dedicerat grafikminne 1024 MB + 1024 MB
Dedicerat systemminne 0 MB
Delat systemminne 1277 MB
Grafikkortets drivrutinsversion 8.572.1.0
Primär bildskärmsupplösning 1366×768
DirectX-version DirectX 10

Nätverk
——————————————————————————–

Nätverkskort Realtek RTL8168D/8111D Family PCI-E GBE NIC
Nätverkskort Atheros AR9285 802.11b/g WiFi Adapter
*/enter command
*/zero and free all of core
1507 #include ”../seg.h” 1557 */
1508 1558
1509 #define CLOCK1 0177546 1559 updlock = 0;
1510 #define CLOCK2 0172540 1560 i = *ka6 + USIZE;
1511 /* 1561 UISD->r[0] = 077406;
1512 * Icode is the octal bootstrap 1562 for(;;) {
1513 * program executed in user mode 1563 UISA->r[0] = i;
1514 * to bring up the system. 1564 if(fuibyte(0) < 0)
1515 */ 1565 break;
1516 int icode[] 1566 clearseg(i);
1517 { 1567 maxmem++;
1518 0104413, /* sys exec; init; initp */ 1568 mfree(coremap, 1, i);
1519 0000014, 1569 i++;
1520 0000010, 1570 }
1521 0000777, /* br . */ 1571 if(cputype == 70)
1522 0000014, /* initp: init; 0 */ 1572 for(i=0; i<62; i=+2) {
1523 0000000, 1573 UBMAP->r[i] = i<<12;
1524 0062457, /* init: </etc/init\0> */ 1574 UBMAP->r[i+1] = 0;
1525 0061564, 1575 }
1526 0064457, 1576 printf(”mem = %l\n”, maxmem*5/16);
1527 0064556, 1577 printf(”RESTRICTED RIGHTS\n\n”);
1528 0000164, 1578 printf(”Use, duplication or disclosure is subject to\n”);
1529 }; 1579 printf(”restrictions stated in Contract with Western\n”);
1530 /* ————————- */ 1580 printf(”Electric Company, Inc.\n”);
1531 1581
1532 /* 1582 maxmem = min(maxmem, MAXMEM);
1533 * Initialization code. 1583 mfree(swapmap, nswap, swplo);
1534 * Called from m40.s or m45.s as 1584
1535 * soon as a stack and segmentation 1585 /*
1536 * have been established. 1586 * set up system process
1537 * Functions: 1587 */
1538 * clear and free user core 1588
1539 * find which clock is configured 1589 proc[0].p_addr = *ka6;
1540 * hand craft 0th process 1590 proc[0].p_size = USIZE;
1541 * call all initialization routines 1591 proc[0].p_stat = SRUN;
1542 * fork – process 0 to schedule 1592 proc[0].p_flag =| SLOAD|SSYS;
1543 * – process 1 execute bootstrap 1593 u.u_procp = &proc[0];
1544 * 1594
1545 * panic: no clock — neither clock responds 1595 /*
1546 * loop at loc 6 in user mode — /etc/init 1596 * determine clock
1547 * cannot be executed 1597 */
1548 */ 1598
1549 1599 UISA->r[7] = ka6[1]; /* io segment */
2700 dev =| USER; 2750
2701 u.u_ar0 = &r0; 2751 case 6+USER: /* sys call */
2702 switch(dev) { 2752 u.u_error = 0;
2703 2753 ps =& ~EBIT;
2704 /* 2754 callp = &sysent[fuiword(pc-2)&077];
2705 * Trap not expected. 2755 if (callp == sysent) { /* indirect */
2706 * Usually a kernel mode bus error. 2756 a = fuiword(pc);
2707 * The numbers printed are used to 2757 pc =+ 2;
2708 * find the hardware PS/PC as follows. 2758 i = fuword(a);
2709 * (all numbers in octal 18 bits) 2759 if ((i & ~077) != SYS)
2710 * address_of_saved_ps = 2760 i = 077; /* illegal */
2711 * (ka6*0100) + aps – 0140000; 2761 callp = &sysent[i&077];
2712 * address_of_saved_pc = 2762 for(i=0; i<callp->count; i++)
2713 * address_of_saved_ps – 2; 2763 u.u_arg[i] = fuword(a =+ 2);
2714 */ 2764 } else {
2715 default: 2765 for(i=0; i<callp->count; i++) {
2716 printf(”ka6 = %o\n”, *ka6); 2766 u.u_arg[i] = fuiword(pc);
2717 printf(”aps = %o\n”, &ps); 2767 pc =+ 2;
2718 printf(”trap type %o\n”, dev); 2768 }
2719 panic(”trap”); 2769 }
2720 2770 u.u_dirp = u.u_arg[0];
2721 case 0+USER: /* bus error */ 2771 trap1(callp->call);
2722 i = SIGBUS; 2772 if(u.u_intflg)
2723 break; 2773 u.u_error = EINTR;
2724 2774 if(u.u_error < 100) {
2725 /* 2775 if(u.u_error) {
2726 * If illegal instructions are not 2776 ps =| EBIT;
2727 * being caught and the offending instruction 2777 r0 = u.u_error;
2728 * is a SETD, the trap is ignored. 2778 }
2729 * This is because C produces a SETD at 2779 goto out;
2730 * the beginning of every program which 2780 }
2731 * will trap on CPUs without 11/45 FPU. 2781 i = SIGSYS;
2732 */ 2782 break;
2733 case 1+USER: /* illegal instruction */ 2783
2734 if(fuiword(pc-2)==SETD && u.u_signal[SIGINS]==0) 2784 /*
2735 goto out; 2785 * Since the floating exception is an
2736 i = SIGINS; 2786 * imprecise trap, a user generated
2737 break; 2787 * trap may actually come from kernel
2738 2788 * mode. In this case, a signal is sent
2739 case 2+USER: /* bpt or trace */ 2789 * to the current process to be picked
2740 i = SIGTRC; 2790 * up later.
2741 break; 2791 */
2742 2792 case 8: /* floating exception */
2743 case 3+USER: /* iot */ 2793 psignal(u.u_procp, SIGFPT);
2744 i = SIGIOT; 2794 return;
2745 break; 2795
2746 2796 case 8+USER:
2747 case 5+USER: /* emt */ 2797 i = SIGFPT;
2748 i = SIGEMT; 2798 break;
2749 break; 2799
0100 /* fundamental constants: do not change */ 0150
0101 0151 /* priorities: do not alter much */
0102 0152
0103 #define USIZE 16 /* size of user block (*64) */ 0153
0104 #define NULL 0 0154 #define PSWP -100
0105 #define NODEV (-1) 0155 #define PINOD -90
0106 #define ROOTINO 1 /* i number of all roots */ 0156 #define PRIBIO -50
0107 #define DIRSIZ 14 /* max characters per directory */ 0157 #define PPIPE 1
0108 0158 #define PWAIT 40
0109 0159 #define PSLEP 90
0110 /* signals: do not change */ 0160 #define PUSER 100
0111 0161
0112 0162 /* Certain processor registers */
0113 #define NSIG 20 0163
0114 #define SIGHUP 1 /* hangup */ 0164 #define PS 0177776
0115 #define SIGINT 2 /* interrupt (rubout) */ 0165 #define KL 0177560
0116 #define SIGQIT 3 /* quit (FS) */ 0166 #define SW 0177570
0117 #define SIGINS 4 /* illegal instruction */ 0167
0118 #define SIGTRC 5 /* trace or breakpoint */ 0168 /* ————————- */
0119 #define SIGIOT 6 /* iot */ 0169
0120 #define SIGEMT 7 /* emt */ 0170 /* structures to access integers : */
0121 #define SIGFPT 8 /* floating point exception */ 0171
0122 #define SIGKIL 9 /* kill */ 0172
0123 #define SIGBUS 10 /* bus error */ 0173 /* single integer */
0124 #define SIGSEG 11 /* segmentation violation */ 0174
0125 #define SIGSYS 12 /* sys */ 0175 struct { int integ; };
0126 #define SIGPIPE 13 /* end of pipe */ 0176
0127 0177
0128 /* tunable variables */ 0178 /* in bytes */
0129 0179
0130 #define NBUF 15 /* size of buffer cache */ 0180 struct { char lobyte; char hibyte; };
0131 #define NINODE 100 /* number of in core inodes */ 0181
0132 #define NFILE 100 /* number of in core file structures */ 0182
0133 #define NMOUNT 5 /* number of mountable file systems */ 0183 /* as a sequence */
0134 #define NEXEC 3 /* number of simultaneous exec’s */ 0184
0135 #define MAXMEM (64*32) /* max core per process; 0185 struct { int r[]; };
0136 first number is kw */ 0186
0137 #define SSIZE 20 /* initial stack size (*64 bytes) */ 0187
0138 #define SINCR 20 /* increment of stack (*64 bytes) */ 0188 /* ————————- */
0139 #define NOFILE 15 /* max open files per process */ 0189
0140 #define CANBSIZ 256 /* max size of typewriter line */ 0190
0141 #define CMAPSIZ 100 /* size of core allocation area */ 0191
0142 #define SMAPSIZ 100 /* size of swap allocation area */ 0192
0143 #define NCALL 20 /* max simultaneous time callouts */ 0193
0144 #define NPROC 50 /* max number of processes */ 0194
0145 #define NTEXT 40 /* max number of pure texts */ 0195
0146 #define NCLIST 100 /* max total clist size */ 0196
0147 #define HZ 60 /* Ticks/second of the clock */ 0197
0148 0198
0149 0199
/* time of day of next sleep */21:30
C:\Users\Public\Jurassic Park System Interface\Files
Login: fredrik
%
date 22:16 2013-11-24
22:57 2013-11-24
*/system end 23:03 2013-11-24
*/system start 07:42 2013-11-25
*enter [command]
*/C:\Users\Public\Jurassic Park System Interface\SystemRoot
*/ who
fredrik 07:42 2013-11-25
date
07:48 2013-11-25
C:\Users\Public\Jurassic Park System Interface\Images\InGen
C:\Users\Public\Jurassic Park System Interface\Images\InGen\Dator
C:\Users\Public\Jurassic Park System Interface\Images\InGen\Platser
*/
nexus% man -k dir
dir ls (1) – list contents of directories
dirname dirname (1) – strip non-directory suffix from file name
dirs bash (1) – bash built-in commands, see bash(1)
find find (1) – search for files in a directory hierarchy
ls ls (1) – list contents of directories
mkdir mkdir (1) – make directories
pwd pwd (1) – print name of current/working directory
rmdir rmdir (1) – remove empty directories
*/
pwd$ stats Execute it
The current date and time is: den 25 november 2013 08:06
The number of users on the system is: 72
Your current working directory is: C:\Users\Public\Jurassic Park System Interface\Files
*/10:01 2013-11-25
*/F:\download
dir ls (1) – list contents of directories
dirname dirname (1) – strip non-directory suffix from file name
dirs bash (1) – bash built-in commands, see bash(1)
find find (1) – search for files in a directory hierarchy
ls ls (1) – list contents of directories
mkdir mkdir (1) – make directories
pwd pwd (1) – print name of current/working directory
rmdir rmdir (1) – remove empty directories
*/

*
*
*
mkdir
mail joe
editing the programs d
write joe
write moe
this is me learning the unix system o
ok thats good news o
delete
delete
ed junk
a
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
If Link(Vg1,Vg2) set Lim(Vg1,Vg2) return
If Link(Vg2,Vg1) set Lim(Vg2,Vg1) return
On wht_rbt.obj link set security (Vg1),perimeter (Vg2)
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
On fini.obj call link.sst {security,perimeter} set to on
On fini.obj set link.sst {security,perimeter} restore
On fini.obj delete line rf wht_rbt.obj, fini.obj
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.dt} tempCAll {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
If Link(Vg1,Vg2) set Lim(Vg1,Vg2) return
If Link(Vg2,Vg1) set Lim(Vg2,Vg1) return
On wht_rbt.obj link set security (Vg1),perimeter (Vg2)
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.
.
w
q
*/11:20 2013-11-25
who
fredrik 11:20 2013-11-25
Norton 360 utför nu bakgrundsuppgifter
11:58 2013-11-25
*/
mkdir visitors
ed visitorlist
fredrik
john
ramon
hernandez
carlos
arnold
.

who
fredrik 07:48 2013-11-25
john 12:10 2013-11-25
ramon 12:10 2013-11-25
arnold 02:10 2013-11-25

ls
C:\Users\Public\Jurassic Park System Interface\Files\full_system_codes
C:\Users\Public\Jurassic Park System Interface\Files\workingcodes
C:\Users\Public\Jurassic Park System Interface\Files\system_codes
C:\Users\Public\Jurassic Park System Interface\Files\wht_rbt.obj
C:\Users\Public\Jurassic Park System Interface\Files\securit_codes
C:\Users\Public\Jurassic Park System Interface\Files\subroutines
1 ”SIGHUP”, /* hangup */
2 ”SIGINT”, /* interrupt */
3 ”SIGQUIT”, /* quit */
4 ”SIGILL”, /* illegal instruction (not reset when caught) */
5 ”SIGTRAP”, /* trace trap (not reset when caught) */
6 ”SIGIOT/SIGABRT”, /* IOT instruction */
7 ”SIGEMT”, /* EMT instruction */
8 ”SIGFPE”, /* floating point exception */
9 ”SIGKILL”, /* kill (cannot be caught or ignored) */
Chapter 5: C shell 49
10 ”SIGBUS”, /* bus error */
11 ”SIGSEGV”, /* segmentation violation */
12 ”SIGSYS”, /* bad argument to system call */
13 ”SIGPIPE”, /* write on a pipe with no one to read it */
14 ”SIGALRM”, /* alarm clock */
15 ”SIGTERM”, /* software termination signal from kill */
16 ”SIGURG”, /* urgent condition on IO channel */
17 ”SIGSTOP”, /* sendable stop signal not from tty */
18 ”SIGTSTP”, /* stop signal from tty */
19 ”SIGCONT”, /* continue a stopped process */
20 ”SIGCHLD/SIGCLD”, /* to parent on child stop or exit */
21 ”SIGTTIN”, /* to readers pgrp upon background tty read */
22 ”SIGTTOU”, /* like TTIN for output if (tp->t_local&LTOSTOP) */
23 ”SIGIO/SIGPOLL”, /* input/output possible signal */
24 ”SIGXCPU”, /* exceeded CPU time limit */
25 ”SIGXFSZ”, /* exceeded file size limit */
26 ”SIGVTALRM”, /* virtual time alarm */
27 ”SIGPROF”, /* profiling time alarm */
28 ”SIGWINCH”, /* window changed */
29 ”SIGLOST”, /* resource lost (eg, record-lock lost) */
30 ”SIGUSR1”, /* user defined signal 1 */
31 ”SIGUSR2”
12:25 2013-11-25
date
14:07 2013-11-25
date
15:29 2013-11-25
date
16:34 2013-11-25
date
17:12 2013-11-25
info_security_animal
Elsystemet
“När man bootat om måste alla systemmoduler kopplas in manuellt.
Det är inte meningen att systemet nånsin ska stängas av, så om man gör det utgår man från att det är fel någonstans.
Den vill att man startar allt manuellt för annars, om det vore kortslutning någonstans, skulle systemet starta om och
få kortslutning, starta om och få kortslutning i all evighet.”

Spårningssystemet

Alla djur spåras via datorn och visas upp på en vertikal plexiskärm i kontrollrummet. Man kan följa alla djurens rörelser flera dygn bakåt.
Sensorerna är precisa på 1.5 meter och uppdateras var 30e sekund.
“det finns sensorer i hela parken. De flesta går det ledningar till, resten avläses via radio.
Med rörelsesensorerna får man för det mesta inte veta
vilken art det rör sej om, men vi får gestaltidentifiering direkt från videon. En gång var 15e
minut ställer datorn upp djuren i kategorier.
Den är inte baserad på spårningsdata, utan är en ny översikt. Tanken är att datorn inte ska kunna
begå några misstag då den behandlar informationen
på 2 olika sätt. Om det saknades något djur skulle datorn varna inom 5 minuter.Sensorerna täcker 92 % av
landytan. Det finns bara några få platser där
dom inte fungerar t.ex. vid floden där vattnets rörelser förvirrar sensorerna. Om datorn följer ett djur och
det försvinner i ett obevakat område kommer
datorn ihåg det och väntar till djuret kommer tillbaka. Gör det inte det så varnar datorn.”
*/enter command
*/
date
19:18 2013-11-25
who
fredrik
who date
fredrik 19:18 2013-11-25
date
19:51 2013-11-25
ser på simpsons 20:43 2013-11-25

20:59 2013-11-25
2 1/2 men på sexan
date
dax%
dax% passwd
Change your password on host alpha
You cannot change it here
dax% rlogin alpha
password: ******
alpha% passwd
Changing password for fredrik
Enter login password: ********
Enter new password: ********
Reenter new passwd: ********
*/
system end 23:10 2013-11-25
login
‘fredrik
******
system start 06:34 2013-11-26
*/ enter command
07:57 2013-11-26 mikrovågsugnen
08:01 2013-11-26 äta frukost
08:17 2013-11-26 duscha
08:26 2013-11-26 skriva mer programmering
*/C:\Users\Public\Jurassic Park System Interface\Files
copy files to C:\Users\Fredrik\Documents\System Interface\Jurassic Park System Interface\SystemRoot
*/
08:30 2013-11-26 duscha
göra användarkonton sen
08:31 2013-11-26
who
fredrik 08:38 2013-11-26
—————————-
username: fredrik
rank: admin
password: ********
retype password: ********
password accepted
—————————-
*/C:\
C:\Windows\ModemLogs
ModemLogs
*/enter command
hostname
aplhaserver01
date
08:44 2013-11-26
who
fredrik
*/enter command
08:58 2013-11-26
playing Year 2 of grim fandango
*/
11:35 2013-11-26 Jurassic park The game
*/
Problemslista
Utfodringsprogrammet nollställer sej var 12e timme – ska nollställas var 24e timme
Utfodringsprogrammet registreras inte på söndagar
Säkerhetssystemet slås ut så fort huvudströmmen bryts
Säkerhetssystemet fungerar inte på reservström – enbart på huvudström
Fysiska skyddsprogrammet som ska dämpa ljuset efter kl 22.00 fungerar bara varannan dag
Den automatiska avföringsanalysen registrerar utan undantag att alla arter har parasiten Phagostomum venulosum
Utfodringsprogrammet lägger automatiskt medicin i fodret
Om djurskötarna tar bort medicinen går ett larm som inte kan stängas av
Turistbilarna använder lycktorn, dom ska inte vara aktiverade
Kontakt med lycktornas funktion under rundturen fungerar inte
Turistbilarnas låsfunktion fungerar inte. Låset på dörrarna kan öppnas under färden. Dom ska bara kunna öppnas vid rastplatserna.
Lobbyns högtalarsystem kan få in nödkanalernas sändningar om programmet avslutas manuellt
CD-ROM systemet i baksätet på bil EXP13 fungerar inte vid triceratops sensorerna
Ljussystemet i rundturen i besökarcentret kan inte slås på om filmen stängs av manuellt
#!/local/bin/perl
####################################################################
#
# Guest book
#
####################################################################
$guestbook_page = ”/iu/nexus/ud/mark/www/tmp/cfguest.html”;
$tmp_page = ”/iu/nexus/ud/mark/www/tmp/guests.tmp”;
$remote_host = $ENV{”REMOTE_HOST”};
print ”Content-type: text/html\n\n”;
print ”<br><hr><br>\n”;
print ”Thank you for submitting your comment!<br><br>\n”;
print ”best wishes,<br><br>”;
print ”-Mark<br><br><br>”;
print ”Return to <a href=http://www.iu.hioslo.no/~mark/menu.html>menu</a>\n”;
$input = <STDIN>;
$input =~ s/%..//g;
$input =~ s/\+/ /g;
@array = split(‘&’,$input);
($skip,$name) = split(”var1=”,$array[0]);
($skip,$message) = split(”var2=”,$array[1]);
if (! open (PAGE, $guestbook_page))
{
print ”Content-type: text/html\n\n”;
print ”couldn’t open guestbook page file!”;
}
if (! open (TMP, ”+>$tmp_page”))
{
print ”Content-type: text/html\n\n”;
print ”couldn’t open temporary output file!”;
}
while ($line = <PAGE>)
{
110 The unix programming environment
if ($line =~ /<h3>Number of entries: (..)/)
{
$entry_no = $1;
$entry_no++;
$line = ”<h3>Number of entries: $entry_no </h3>\n”;
}
if ($line =~ /<!– LAST ENTRY –>/)
{
$date = `date +”%A, %b %d %Y”`;
print TMP ”<b>Entry $date from host: $remote_host</b>\n<p>\n”;
print TMP ”From: $name\n<p>\n”;
print TMP $message;
print TMP ”\n<hr>\n”;
}
print TMP ”$line”;
}
close PAGE;
close TMP;
if (! rename ($tmp_page, $guestbook_page))
{
print ”Oops! Rename operation failed!\n”;
}
chmod (0600, $guestbook_page);
dir ls (1) – list contents of directories
dirname dirname (1) – strip non-directory suffix from file name
dirs bash (1) – bash built-in commands, see bash(1)
find find (1) – search for files in a directory hierarchy
ls ls (1) – list contents of directories
mkdir mkdir (1) – make directories
pwd pwd (1) – print name of current/working directory
rmdir rmdir (1) – remove empty directories
4.1 Protection bits
The following output is from the command ls -lag executed on a SunOS type machine.
lrwxrwxrwx 1 root wheel 7 Jun 1 1993 bin -> usr/bin
-r–r–r– 1 root bin 103512 Jun 1 1993 boot
drwxr-sr-x 2 bin staff 11264 May 11 17:00 dev
drwxr-sr-x 10 bin staff 2560 Jul 8 02:06 etc
drwxr-sr-x 8 root wheel 512 Jun 1 1993 export
drwx—— 2 root daemon 512 Sep 26 1993 home
-rwxr-xr-x 1 root wheel 249079 Jun 1 1993 kadb
lrwxrwxrwx 1 root wheel 7 Jun 1 1993 lib -> usr/lib
drwxr-xr-x 2 root wheel 8192 Jun 1 1993 lost+found
drwxr-sr-x 2 bin staff 512 Jul 23 1992 mnt
dr-xr-xr-x 1 root wheel 512 May 11 17:00 net
drwxr-sr-x 2 root wheel 512 Jun 1 1993 pcfs
drwxr-sr-x 2 bin staff 512 Jun 1 1993 sbin
lrwxrwxrwx 1 root wheel 13 Jun 1 1993 sys->kvm/sys
drwxrwxrwx 6 root wheel 732 Jul 8 19:23 tmp
drwxr-xr-x 27 root wheel 1024 Jun 14 1993 usr
drwxr-sr-x 10 bin staff 512 Jul 23 1992 var
-rwxr-xr-x 1 root daemon 2182656 Jun 4 1993 vmunix
1 ”SIGHUP”, /* hangup */
2 ”SIGINT”, /* interrupt */
3 ”SIGQUIT”, /* quit */
4 ”SIGILL”, /* illegal instruction (not reset when caught) */
5 ”SIGTRAP”, /* trace trap (not reset when caught) */
6 ”SIGIOT/SIGABRT”, /* IOT instruction */
7 ”SIGEMT”, /* EMT instruction */
8 ”SIGFPE”, /* floating point exception */
9 ”SIGKILL”, /* kill (cannot be caught or ignored) */
10 ”SIGBUS”, /* bus error */
11 ”SIGSEGV”, /* segmentation violation */
12 ”SIGSYS”, /* bad argument to system call */
13 ”SIGPIPE”, /* write on a pipe with no one to read it */
14 ”SIGALRM”, /* alarm clock */
15 ”SIGTERM”, /* software termination signal from kill */
16 ”SIGURG”, /* urgent condition on IO channel */
17 ”SIGSTOP”, /* sendable stop signal not from tty */
18 ”SIGTSTP”, /* stop signal from tty */
19 ”SIGCONT”, /* continue a stopped process */
20 ”SIGCHLD/SIGCLD”, /* to parent on child stop or exit */
21 ”SIGTTIN”, /* to readers pgrp upon background tty read */
22 ”SIGTTOU”, /* like TTIN for output if (tp->t_local&LTOSTOP) */
23 ”SIGIO/SIGPOLL”, /* input/output possible signal */
24 ”SIGXCPU”, /* exceeded CPU time limit */
25 ”SIGXFSZ”, /* exceeded file size limit */
26 ”SIGVTALRM”, /* virtual time alarm */
27 ”SIGPROF”, /* profiling time alarm */
28 ”SIGWINCH”, /* window changed */
29 ”SIGLOST”, /* resource lost (eg, record-lock lost) */
30 ”SIGUSR1”, /* user defined signal 1 */
31 ”SIGUSR2”
@ var = 45 # Assign a numerical value to var
echo $var # Print the value
@ var = $var + 34 # Add 34 to var
@ var += 34 # Add 34 to var
@ var -= 1 # subtract 1 from var
@ var *= 5 # Multiply var by 5
@ var /= 3 # Divide var by 3 (integer division)
@ var %= 3 # Remainder after dividing var by 3
@ var++ # Increment var by 1
@ var– # Decrement var by 1
@ array[1] = 5 # Numerical array
@ logic = ( $x > 6 && $x < 10) # AND
@ logic = ( $x > 6 || $x < 10) # OR
@ false = ! $var # Logical NOT
@ bits = ( $x | $y ) # Bitwise OR
@ bits = ( $x ^ $y ) # Bitwise XOR
@ bits = ( $x & $y ) # Bitwise AND
@ shifted = ( $var >> 2 ) # Bitwise shift right
#!/local/bin/perl
*/
*/
*/ enter command code
[5763]
code accepted
08:53 2013-11-26

enter new command
create new directory
Sökningsstatistik:
Söktid: 3665 sekunder
Sökningsalternativ:
Sökningsmål: C:\, D:\, F:\, I:\
Antal gånger:
Totalt antal sökta: 342 820
– Filer och kataloger: 333 688
– Registerposter: 472
– Processer och startobjekt: 7 989
– Nätverks- och webbläsarobjekt: 660
– Övriga: 5
– Pålitliga filer: 3 478
– Filer som hoppats över: 259 426

Totalt antal upptäckta säkerhetsrisker: 0
Totalt antal lösta: 0
Totalt antal som behöver åtgärdas: 0

lösta hot:
Inga risker har åtgärdats

olösta hot:
19:20 2013-11-29 family guy
20:18 2013-11-29 stänger av
17:33 2013-11-30 ser på narnia 2
08:32 2013-12-01 systemstart
08:50 2013-12-01 julkalendern barnen hedenhös uppfinner julen

08:09 2013-12-02 systemstart
kan också kolla genom norton 360 för att se exakta tider

08:20 2013-12-02 söker igeom PROGRAM
*/
*/
*/väntar på dataöverföring från Isla Nublar
*/enter command
creatde directory for data transfer
name [data08:21 2013-12-02]
*/
14:29 2013-12-02
15:02 2013-12-02
08:09 2013-12-03 system start
har bytt tema till Windows klassisk – 1990 tema
12:16 2013-12-03
har skrivit in mer personal på isla nublar och om kamerorna

I:\Dokument\Video\Film\Komedi\Sällskapsresan.1-5.DVDRip.XviD-KG
I:\Dokument\Video
I:\Dokument\Video\Film
I:\Dokument\Video\Film\Äventyr
I:\Dokument\Video\Film\Äventyr\Jurassic Park\Jurassic.Park.1993.CD1.DVDRip.XviD.SWESUB-KickFoot
I:\Dokument\Video\Film\Äventyr\Jurassic Park\Jurassic.Park.1993.CD2.DVDRip.XviD.SWESUB-KickFoot

*/enter new command
create a 500 GB drive memory bank system
calculate time to completion
32 H
48 Min
09:48 2013-12-08 system start
Memory free
C:\drive: 300 GB
H:\drive: 500 GB
*/enter command
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
If Link(Vg1,Vg2) set Lim(Vg1,Vg2) return
If Link(Vg2,Vg1) set Lim(Vg2,Vg1) return
On wht_rbt.obj link set security (Vg1),perimeter (Vg2)
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
On fini.obj call link.sst {security,perimeter} set to on
On fini.obj set link.sst {security,perimeter} restore
On fini.obj delete line rf wht_rbt.obj, fini.obj
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.dt} tempCAll {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
If Link(Vg1,Vg2) set Lim(Vg1,Vg2) return
If Link(Vg2,Vg1) set Lim(Vg2,Vg1) return
On wht_rbt.obj link set security (Vg1),perimeter (Vg2)
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.
*/Jurassic Park Main Modules/
*/
*/Call libs
Include: biostat.sys
Include: sysrom.vst
Include: net.sys
Include: pwr:mdl
*/
*/Initialize
SetMain [42]2002/gA{total CoreSysop %4 [vig. 7*tty] }
If ValidMeter(mH) (**mH).MeterVis return
Term Call 909 c.lev {void MeterVis $303} Random(3#*MaxFid)
On SetSystem(!Dn) set shp_val.obj to lim(Val{d}SumVal
If SetMeter(mH). ValidMeter(Vdd) return
On SetSystem(!Telcom) set mxcpl.obj to lim (Val{pd})NextVal
wht_rbt.obj

13:28 2013-12-13
15:56 2013-12-13
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.dt} tempCAll {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.itl} tempCall {itm.temp}
If Link(Vg1,Vg2) set Lim(Vg1,Vg2) return
If Link(Vg2,Vg1) set Lim(Vg2,Vg1) return
On wht_rbt.obj link set security (Vg1),perimeter (Vg2)
14:25 2013-12-14
17:43 2013-12-14
09:55 2013-12-15
13:53 2013-12-15
17:07 2013-12-15
23:27 2013-12-15
08:44 2013-12-16
SetMain[security] On SetSystem = setzero{dat.dt}
LimitDat.5 = matbits (%55) to {limit .05} set on.
On SetSystem(!Dn) set shp_val.obj to lim(Val{d}SumVal
If SetMeter(mH). ValidMeter(Vdd) return
On SetSystem(!Telcom) set mxcpl.obj to lim (Val{pd})NextVal
wht_rbt.obj
08:48 2013-12-16 entering new codes
08:48 2013-12-16
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
On fini.obj call link.sst {security,perimeter} set to on
On fini.obj set link.sst {security,perimeter} restore
On fini.obj delete line rf wht_rbt.obj, fini.obj
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.dt} tempCAll {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
On fini.obj call link.sst {security,perimeter} set to on
On fini.obj set link.sst {security,perimeter} restore
On fini.obj delete line rf wht_rbt.obj, fini.obj
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.dt} tempCAll {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 0 = {limit .2-var(szh)}.
*/*/LimitDat.1 = matbits (%25) to {limit .05} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
On fini.obj call link.sst {security,perimeter} set to on
On fini.obj set link.sst {security,perimeter} restore
On fini.obj delete line rf wht_rbt.obj, fini.obj
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.dt} tempCAll {itm.temp}
LimitDat.3 = matbits (%93) to {limit .04} set on.
LimitDat.5 = setzero, setfive, 1 = {limit .2-var(szh)}.
LimitDat.1 = matbits (%22) to {limit .04} set on.
LimitDat.2 = setzero, setfive, = {limit .2-var(szh)}.
On fini.obj call link.sst {security,perimeter} set to on
On fini.obj set link.sst {security,perimeter} restore
On fini.obj delete line rf wht_rbt.obj, fini.obj
Vg1 = GetHandl {dat.dt} tempCAll {itm.temp}
Vg2 = GetHandl {dat.dt} tempCAll {itm.temp}
LimitDat.4 = matbits (%33) to {limit .04} set on.
LimitDat.9 = setzero, setfive, 01 = {limit .2-var(szh)}.

who
fredrik
date
22:02 2013-12-21
dir
dokument
musik
filmer
hämtade filer
main server
backup server
security
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