-- (C) COPYRIGHT HEWLETT-PACKARD COMPANY 2009. -- -- LaserJet 3015 Printer Model Specific MIB. -- -- Generated on Jan. 28, 2009. -- -- Company names and product names mentioned herein may be -- trademarks, and/or registered trademarks of their respective -- companies. -- -- For internal and external use. -- -- This MIB describes all the printer model specific -- objects supported by the LaserJet 3015 printer -- when networked connected using a JetDirect print -- server. -- -- The following MIBs also contain objects supported -- by a JetDirect connected LaserJet 3015 printer: -- -- rfc 1514 Host Resources MIB -- rfc 1759 Printer MIB -- rfc 1213 MIB II -- -- This MIB complies with the following RFCs: -- -- rfc 1157 Simple Network Management Protocol -- rfc 1155 Structure of Management Information -- -- Notes: -- -- 1) Objects containing a string which are defined in this MIB use the -- first two bytes to hold the symbol set used to encode the string. -- The Roman-8 symbol set has a hex encoding of 0x0115. Other -- symbol sets are listed in the PCL 5 Comparison Guide in table -- C-1 Symbol Set Values. -- -- 2) Some of the objects included are only supported if an accessory -- is installed. These accessories include: -- MIO based accessories -- SIMM based accessories -- AT hard disk -- Paper handling accessories -- Adobe PostScript accessory LJ3015-MIB DEFINITIONS ::= BEGIN hp OBJECT IDENTIFIER ::= { iso(1) org(3) dod(6) internet(1) private(4) enterprises(1) 11} dm OBJECT IDENTIFIER ::= { hp nm(2) hpsystem(3) net-peripheral(9) netdm(4) 2} DisplayString ::= OCTET STRING device OBJECT IDENTIFIER ::= { dm 1 } device-system OBJECT IDENTIFIER ::= { device 1 } status-system OBJECT IDENTIFIER ::= { device-system 2 } processing-subsystem OBJECT IDENTIFIER ::= { device 3 } pml OBJECT IDENTIFIER ::= { processing-subsystem 4 } accounting OBJECT IDENTIFIER ::= { device-system 16 } printer-accounting OBJECT IDENTIFIER ::= { accounting 1 } printed-media-usage OBJECT IDENTIFIER ::= { printer-accounting 1 } printed-modes-accounting OBJECT IDENTIFIER ::= { accounting 4 } printed-modes-usage OBJECT IDENTIFIER ::= { printed-modes-accounting 1 } source-tray-accounting OBJECT IDENTIFIER ::= { accounting 5 } source-tray-usage OBJECT IDENTIFIER ::= { source-tray-accounting 1 } destination-bin-accounting OBJECT IDENTIFIER ::= { accounting 6 } destination-bin-usage OBJECT IDENTIFIER ::= { destination-bin-accounting 1 } destination-subsystem OBJECT IDENTIFIER ::= { device 4 } print-engine OBJECT IDENTIFIER ::= { destination-subsystem 1 } print-media OBJECT IDENTIFIER ::= { print-engine 8 } media-size OBJECT IDENTIFIER ::= { print-media 5 } background-message OBJECT IDENTIFIER ::= { status-system 37 } background-message1 OBJECT IDENTIFIER ::= { background-message 1 } background-message2 OBJECT IDENTIFIER ::= { background-message 2 } control-panel-display OBJECT IDENTIFIER ::= { status-system 65 } settings-system OBJECT IDENTIFIER ::= { device-system 1 } id OBJECT IDENTIFIER ::= { device-system 3 } interface OBJECT IDENTIFIER ::= { device-system 4 } simm OBJECT IDENTIFIER ::= { interface 1 } simm1 OBJECT IDENTIFIER ::= { simm 1 } simm1-bank OBJECT IDENTIFIER ::= { simm1 6 } simm1-bank1 OBJECT IDENTIFIER ::= { simm1-bank 1 } simm1-bank2 OBJECT IDENTIFIER ::= { simm1-bank 2 } simm2 OBJECT IDENTIFIER ::= { simm 2 } simm2-bank OBJECT IDENTIFIER ::= { simm2 6 } simm2-bank1 OBJECT IDENTIFIER ::= { simm2-bank 1 } simm2-bank2 OBJECT IDENTIFIER ::= { simm2-bank 2 } job OBJECT IDENTIFIER ::= { device-system 6 } settings-job OBJECT IDENTIFIER ::= { job 1 } operating-system OBJECT IDENTIFIER ::= { device-system 19 } pdl OBJECT IDENTIFIER ::= { processing-subsystem 3 } settings-pdl OBJECT IDENTIFIER ::= { pdl 1 } status-pdl OBJECT IDENTIFIER ::= { pdl 2 } menus OBJECT IDENTIFIER ::= { print-engine 13 } errorlog OBJECT IDENTIFIER ::= { device-system 11 } error1 OBJECT IDENTIFIER ::= { errorlog 1 } error2 OBJECT IDENTIFIER ::= { errorlog 2 } error3 OBJECT IDENTIFIER ::= { errorlog 3 } error4 OBJECT IDENTIFIER ::= { errorlog 4 } error5 OBJECT IDENTIFIER ::= { errorlog 5 } error6 OBJECT IDENTIFIER ::= { errorlog 6 } error7 OBJECT IDENTIFIER ::= { errorlog 7 } error8 OBJECT IDENTIFIER ::= { errorlog 8 } error9 OBJECT IDENTIFIER ::= { errorlog 9 } error10 OBJECT IDENTIFIER ::= { errorlog 10 } error11 OBJECT IDENTIFIER ::= { errorlog 11 } error12 OBJECT IDENTIFIER ::= { errorlog 12 } error13 OBJECT IDENTIFIER ::= { errorlog 13 } error14 OBJECT IDENTIFIER ::= { errorlog 14 } error15 OBJECT IDENTIFIER ::= { errorlog 15 } error16 OBJECT IDENTIFIER ::= { errorlog 16 } error17 OBJECT IDENTIFIER ::= { errorlog 17 } error18 OBJECT IDENTIFIER ::= { errorlog 18 } error19 OBJECT IDENTIFIER ::= { errorlog 19 } error20 OBJECT IDENTIFIER ::= { errorlog 20 } error21 OBJECT IDENTIFIER ::= { errorlog 21 } error22 OBJECT IDENTIFIER ::= { errorlog 22 } error23 OBJECT IDENTIFIER ::= { errorlog 23 } error24 OBJECT IDENTIFIER ::= { errorlog 24 } error25 OBJECT IDENTIFIER ::= { errorlog 25 } error26 OBJECT IDENTIFIER ::= { errorlog 26 } error27 OBJECT IDENTIFIER ::= { errorlog 27 } error28 OBJECT IDENTIFIER ::= { errorlog 28 } error29 OBJECT IDENTIFIER ::= { errorlog 29 } error30 OBJECT IDENTIFIER ::= { errorlog 30 } error31 OBJECT IDENTIFIER ::= { errorlog 31 } error32 OBJECT IDENTIFIER ::= { errorlog 32 } error33 OBJECT IDENTIFIER ::= { errorlog 33 } error34 OBJECT IDENTIFIER ::= { errorlog 34 } error35 OBJECT IDENTIFIER ::= { errorlog 35 } error36 OBJECT IDENTIFIER ::= { errorlog 36 } error37 OBJECT IDENTIFIER ::= { errorlog 37 } error38 OBJECT IDENTIFIER ::= { errorlog 38 } error39 OBJECT IDENTIFIER ::= { errorlog 39 } error40 OBJECT IDENTIFIER ::= { errorlog 40 } error41 OBJECT IDENTIFIER ::= { errorlog 41 } error42 OBJECT IDENTIFIER ::= { errorlog 42 } error43 OBJECT IDENTIFIER ::= { errorlog 43 } error44 OBJECT IDENTIFIER ::= { errorlog 44 } error45 OBJECT IDENTIFIER ::= { errorlog 45 } error46 OBJECT IDENTIFIER ::= { errorlog 46 } error47 OBJECT IDENTIFIER ::= { errorlog 47 } error48 OBJECT IDENTIFIER ::= { errorlog 48 } error49 OBJECT IDENTIFIER ::= { errorlog 49 } error50 OBJECT IDENTIFIER ::= { errorlog 50 } error51 OBJECT IDENTIFIER ::= { errorlog 51 } error52 OBJECT IDENTIFIER ::= { errorlog 52 } error53 OBJECT IDENTIFIER ::= { errorlog 53 } error54 OBJECT IDENTIFIER ::= { errorlog 54 } error55 OBJECT IDENTIFIER ::= { errorlog 55 } error56 OBJECT IDENTIFIER ::= { errorlog 56 } error57 OBJECT IDENTIFIER ::= { errorlog 57 } error58 OBJECT IDENTIFIER ::= { errorlog 58 } error59 OBJECT IDENTIFIER ::= { errorlog 59 } error60 OBJECT IDENTIFIER ::= { errorlog 60 } error61 OBJECT IDENTIFIER ::= { errorlog 61 } error62 OBJECT IDENTIFIER ::= { errorlog 62 } error63 OBJECT IDENTIFIER ::= { errorlog 63 } error64 OBJECT IDENTIFIER ::= { errorlog 64 } error65 OBJECT IDENTIFIER ::= { errorlog 65 } error66 OBJECT IDENTIFIER ::= { errorlog 66 } error67 OBJECT IDENTIFIER ::= { errorlog 67 } error68 OBJECT IDENTIFIER ::= { errorlog 68 } error69 OBJECT IDENTIFIER ::= { errorlog 69 } error70 OBJECT IDENTIFIER ::= { errorlog 70 } error71 OBJECT IDENTIFIER ::= { errorlog 71 } error72 OBJECT IDENTIFIER ::= { errorlog 72 } error73 OBJECT IDENTIFIER ::= { errorlog 73 } error74 OBJECT IDENTIFIER ::= { errorlog 74 } error75 OBJECT IDENTIFIER ::= { errorlog 75 } error76 OBJECT IDENTIFIER ::= { errorlog 76 } error77 OBJECT IDENTIFIER ::= { errorlog 77 } error78 OBJECT IDENTIFIER ::= { errorlog 78 } error79 OBJECT IDENTIFIER ::= { errorlog 79 } error80 OBJECT IDENTIFIER ::= { errorlog 80 } error81 OBJECT IDENTIFIER ::= { errorlog 81 } error82 OBJECT IDENTIFIER ::= { errorlog 82 } error83 OBJECT IDENTIFIER ::= { errorlog 83 } error84 OBJECT IDENTIFIER ::= { errorlog 84 } error85 OBJECT IDENTIFIER ::= { errorlog 85 } error86 OBJECT IDENTIFIER ::= { errorlog 86 } error87 OBJECT IDENTIFIER ::= { errorlog 87 } error88 OBJECT IDENTIFIER ::= { errorlog 88 } error89 OBJECT IDENTIFIER ::= { errorlog 89 } error90 OBJECT IDENTIFIER ::= { errorlog 90 } channel OBJECT IDENTIFIER ::= { device 6 } display OBJECT IDENTIFIER ::= { status-system 20 } display-status OBJECT IDENTIFIER ::= { display 1 } web-server OBJECT IDENTIFIER ::= { interface 6 } settings-web-server OBJECT IDENTIFIER ::= { web-server 1 } pdl-postscript OBJECT IDENTIFIER ::= { pdl 4 } webserver-proc-sub OBJECT IDENTIFIER ::= { processing-subsystem 9 } settings-webserver OBJECT IDENTIFIER ::= { webserver-proc-sub 1 } settings-prt-eng OBJECT IDENTIFIER ::= { print-engine 1 } intray OBJECT IDENTIFIER ::= { print-engine 3 } settings-intray OBJECT IDENTIFIER ::= { intray 1 } ph OBJECT IDENTIFIER ::= { print-engine 7 } settings-ph OBJECT IDENTIFIER ::= { ph 1 } pdl-pcl OBJECT IDENTIFIER ::= { pdl 3 } pdl-pdf OBJECT IDENTIFIER ::= { pdl 15 } active-print-jobs OBJECT IDENTIFIER ::= { job 2 } job-being-parsed OBJECT IDENTIFIER ::= { active-print-jobs 1 } job-info OBJECT IDENTIFIER ::= { job 5 } job-info-attribute OBJECT IDENTIFIER ::= { job-info 23 } job-info-accounting OBJECT IDENTIFIER ::= { job-info 28 } held-job OBJECT IDENTIFIER ::= { job 7 } held-job-info OBJECT IDENTIFIER ::= { held-job 1 } held-job-control OBJECT IDENTIFIER ::= { held-job 2 } source-subsystem OBJECT IDENTIFIER ::= { device 2 } spooler OBJECT IDENTIFIER ::= { source-subsystem 4 } settings-spooler OBJECT IDENTIFIER ::= { spooler 1 } pjl OBJECT IDENTIFIER ::= { processing-subsystem 5 } mio OBJECT IDENTIFIER ::= { interface 3 } mio1 OBJECT IDENTIFIER ::= { mio 1 } mio4 OBJECT IDENTIFIER ::= { mio 4 } usb-interface OBJECT IDENTIFIER ::= { interface 9 } usb OBJECT IDENTIFIER ::= { usb-interface 2 } io OBJECT IDENTIFIER ::= { source-subsystem 1 } settings-io OBJECT IDENTIFIER ::= { io 1 } ports OBJECT IDENTIFIER ::= { io 3 } port1 OBJECT IDENTIFIER ::= { ports 1 } tables OBJECT IDENTIFIER ::= { device 7 } remote-procedure-call OBJECT IDENTIFIER ::= { device-system 13 } settings-rpc OBJECT IDENTIFIER ::= { remote-procedure-call 1 } status-rpc OBJECT IDENTIFIER ::= { remote-procedure-call 2 } file-system OBJECT IDENTIFIER ::= { device-system 10 } settings-file-system OBJECT IDENTIFIER ::= { file-system 1 } file-systems OBJECT IDENTIFIER ::= { file-system 3 } file-system2 OBJECT IDENTIFIER ::= { file-systems 2 } file-system3 OBJECT IDENTIFIER ::= { file-systems 3 } file-system4 OBJECT IDENTIFIER ::= { file-systems 4 } resource-manager OBJECT IDENTIFIER ::= { device-system 12 } mass-storage-resources OBJECT IDENTIFIER ::= { resource-manager 3 } mass-storage-block-driver OBJECT IDENTIFIER ::= { device-system 15 } settings-mass-storage-bd OBJECT IDENTIFIER ::= { mass-storage-block-driver 1 } status-mass-storage-bd OBJECT IDENTIFIER ::= { mass-storage-block-driver 2 } device-configure OBJECT IDENTIFIER ::= { settings-system 32 } marking-agent-density OBJECT IDENTIFIER ::= { settings-prt-eng 9 } status-prt-eng OBJECT IDENTIFIER ::= { print-engine 2 } intrays OBJECT IDENTIFIER ::= { intray 3 } intray1 OBJECT IDENTIFIER ::= { intrays 1 } intray2 OBJECT IDENTIFIER ::= { intrays 2 } intray3 OBJECT IDENTIFIER ::= { intrays 3 } intray5 OBJECT IDENTIFIER ::= { intrays 5 } outbin OBJECT IDENTIFIER ::= { print-engine 4 } settings-outbin OBJECT IDENTIFIER ::= { outbin 1 } outbins OBJECT IDENTIFIER ::= { outbin 3 } outbin1 OBJECT IDENTIFIER ::= { outbins 1 } settings-print-media OBJECT IDENTIFIER ::= { print-media 1 } media-modes OBJECT IDENTIFIER ::= { print-media 4 } media-counts OBJECT IDENTIFIER ::= { print-media 7 } consumables OBJECT IDENTIFIER ::= { print-engine 10 } consumables-1 OBJECT IDENTIFIER ::= { consumables 1 } consumable-status OBJECT IDENTIFIER ::= { consumables-1 1 } consumable-string OBJECT IDENTIFIER ::= { consumables 8 } consumables-status OBJECT IDENTIFIER ::= { consumables 5 } consumables-life OBJECT IDENTIFIER ::= { consumables-status 1 } print-meter OBJECT IDENTIFIER ::= { print-engine 11 } printer-average OBJECT IDENTIFIER ::= { print-meter 1 } firmware-download OBJECT IDENTIFIER ::= { device-system 18 } upgradable-devices OBJECT IDENTIFIER ::= { device-system 20 } perm-store-init-occurred OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This object will set the cAllPermDevices bit when a full perm storage initialization occurs (as would be the case for a brand new device-system or as a result of a powerup key sequence or PE-TEST-POWERUP-KEY-SEQUENCE object request). If only one device was initialized (as would be the case if a disk were added to an existing device-system or a formatter were swapped out), then only the appropriate collection bits will be returned. If there are no collection bits set then this indicates that no initialization took place." ::= { status-system 10 } printed-media-simplex-count OBJECT-TYPE SYNTAX INTEGER(0..930576247) ACCESS read-only STATUS optional DESCRIPTION "Total number of simplex pages printed in this media size. Additional information: The 5 usage (simplex/duplex count, simplex/duplex click charge and paper size total) objects described here and below detail the usage for the printer for each paper size defined in the PCL Implementor's Guide and in the Media Size Table in the hpmib.txt. The OID binding is based on the click attribute and paper size. For example: The format for the OID is as follows: 3.4.1.5.x.y <-----> | | | | \ / | paper size / \ PRINTER-CLICK_TOTALS ROOT \ OID click attribute 1..5 x values are 1..5: 1) simplex count 2) simplex click charge 3) duplex count 4) duplex click charge 5) printer or scanner paper size total (i.e. depends if the root OID is referrring to the printer or scanner). y : paper size as defined in the Media Size Table in the hpmib.txt " ::= { printed-media-usage 1 } printed-media-simplex-charge OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "Charge for each simplex page printed in this media size. Additional information: Setting this object has the effect of altering PRINTED-MEDIA-DUPLEX-CHARGE to have a value that is twice that of the simplex charge." ::= { printed-media-usage 2 } printed-media-duplex-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Total number of duplex pages printed in this media size." ::= { printed-media-usage 3 } printed-media-duplex-charge OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "Charge for each duplex page printed in this media size. Additional information: The click charges for duplex printed media." ::= { printed-media-usage 4 } printed-media-total-charge OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "The total charge for pages printed in this media size." ::= { printed-media-usage 5 } printed-media-maximum-pixels-per-page OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The number of pixels required to completely fill a page of this media size. The device POS will specify the resolution at which this pixel count was calculated. Additional information: The number of pixels required to fill a page of a specific media size. The OID binding is the media size you to query for. Only media sizes which the printer supports will be available." ::= { printed-media-usage 6 } printed-media-combined-total OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Total number of letter equivalently weighted pages both color and mono combined with this printer. Additional information: The combined total per page size of simplex and duplex color pages plus simplex and duplex mono pages." ::= { printed-media-usage 7 } printed-media-dimplex-count OBJECT-TYPE SYNTAX INTEGER(0..930576247) ACCESS read-only STATUS optional DESCRIPTION "Total number of mono dimplex pages printed in this media size. A dimplex page is one that has been printed in duplex mode but the back side is blank. Dimplex pages occur when the printer firmware inserts a blank page in order to complete a duplexed job which is sent to the printer with an odd number of pages." ::= { printed-media-usage 10 } printed-media-combined-simplex-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Total number of simplex pages printed on this media size. Additional information: The combined total per page size of simplex color and mono pages." ::= { printed-media-usage 11 } printed-media-combined-duplex-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Total number of duplex pages printed on this media size. Additional information: The combined total per page size of duplex color and mono pages." ::= { printed-media-usage 12 } printed-media-combined-simplex-total OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Total number of simplex pages printed on this device. Additional information: The combined total of all page sizes in color and mono simplex pages." ::= { printed-media-usage 13 } printed-media-combined-duplex-total OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Total number of duplex pages printed on this device. Additional information: The combined total of all page sizes in color and mono duplex pages." ::= { printed-media-usage 14 } usage-printer-total-charge OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Total printer charge for all paper sizes printed." ::= { printer-accounting 2 } usage-staple-count OBJECT-TYPE SYNTAX INTEGER(0..930576247) ACCESS read-only STATUS optional DESCRIPTION "Total number of staples used." ::= { printer-accounting 4 } usage-instructions-line1 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..40)) ACCESS read-write STATUS optional DESCRIPTION "The first line of usage instructions for the device user.Appears on Line 1 of the usage page." ::= { printer-accounting 5 } usage-instructions-line2 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..40)) ACCESS read-write STATUS optional DESCRIPTION "The second line of usage instructions for the device user.Appears on Line 1 of the usage page." ::= { printer-accounting 6 } usage-instructions-line3 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..40)) ACCESS read-write STATUS optional DESCRIPTION "The third line of usage instructions for the device user.Appears on Line 1 of the usage page." ::= { printer-accounting 7 } usage-instructions-line4 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..40)) ACCESS read-write STATUS optional DESCRIPTION "The fourth line of usage instructions for the device user.Appears on Line 1 of the usage page." ::= { printer-accounting 8 } printed-modes-usage-total OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION " This object reports the total color and mono print modes usage for the life of the printer. This value is reported on the usage page." ::= { printer-accounting 9 } source-tray-usage-total OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "This object reports the total source tray usage for the life of the printer. This value is reported on the usage page." ::= { printer-accounting 10 } destination-bin-usage-total OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "This object reports the total destination bin usage for the life of the printer. This value is reported on the usage page." ::= { printer-accounting 11 } printed-modes-total-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The total count for pages printed in this fuser mode." ::= { printed-modes-usage 5 } source-tray-usage-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Total number of pages printed from this source tray. Additional information: This object will track how many images have been printed with the original source tray as one of the following: 1. Tray 1 2. Tray 2 3. Tray 3 4. Tray 4" ::= { source-tray-usage 1 } destination-bin-usage-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Total number of pages printed to this destination bin. Additional information: This object will track how many images have been printed with the original destination bin as one of the following: 1. Face Up Bin 2. Face Down Bin 3. Other" ::= { destination-bin-usage 1 } media-size-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The number of impressions printed on sheets of this media size. The device POS should state whether this value is lost across a power cycle or is kept in permanent storage. Additional information: The value of this object is persistent across a power cycle. The index for these objects, the last number of the OID, uniquely identifies the paper size. This value corresponds to the page sizes listed below. These values are also documented in the PCL Implementor's Guide and the PML Master MIB. 1 US-Executive 2 US-Letter 3 US-Legal 11 eLedger 15 Statement 17 ROC 16K 18 JIS Executive 19 eROC8K 25 ISO and JIS A5 26 ISO and JIS A4 27 ISO and JIS A3 45 JIS B5 46 JIS B4 65 ISO B5 72 eJapanesePostcardDouble 80 Monarch 81 Commercal-10 90 International DL 91 International C5 100 International B5 101 Custom 258 eUSLetterR 282 ISO JISA4R 32767 Unknown Paper Size" ::= { media-size 1 } background-status-msg-higher-priority OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..16)) ACCESS read-write STATUS optional DESCRIPTION "The string displayed on the device's front panel in place of the printer's built-in background status string. It would alternate with warning messages and would overwrite highest Regular Priority Status message such as PAUSED. The object could be used to display higher priority third party messages which are important to be displayed even if printer is offline. This would not overwrite any HighStatus or Error type message. Additional information: The string displayed on the device's front panel in place of the printer's built-in background status string. It would alternate with warning messages and would overwrite highest Regular Priority Status message such as PAUSED. The object could be used to display higher priority third party messages which are important to be displayed even if printer is offline. This would not overwrite any HighStatus or Error type message." ::= { background-message 5 } background-status-msg-line1-part1 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..16)) ACCESS read-write STATUS optional DESCRIPTION "The string displayed on the device's front panel in place of the printer's built-in background status string. An example built-in background status string is '00 READY'. Additional information: The display size for the $product_str printers is 2 X 16. The value of this object and the current value of BACKGROUND-STATUS-MSG-LINE2-PART1 are displayed together on the 2-line display, but they must be set independently. If line 2 has been set, and the next message to be displayed only requires line 1, BACKGROUND-STATUS-MSG-LINE2-PART1 must be set to the null string to clear it. This object allows a message to be displayed when it is the highest priority message. Setting this object does not guarantee the message will be displayed; and reading it returns the value last written, not the currently displayed message (use prtConsoleDisplayBufferText to read the display). The priority assigned for displaying this message is one lower than the READY message. In other words, the only message that can be replaced by these objects is the READY message. To clear the message, write a null string to both this object and BACKGROUND-STATUS-MSG-LINE2-PART1." ::= { background-message1 1 } background-status-msg-line2-part1 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..16)) ACCESS read-write STATUS optional DESCRIPTION "The string displayed on the device's front panel in place of the printer's built-in background status string. An example built-in background status string is '00 READY'. Additional information: See BACKGROUND-STATUS-MSG-LINE1-PART1" ::= { background-message2 1 } localization-languages-supported OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "The list of languages supported by the device. The languages are primarily, but not limited to, two character codes from ISO 639, each separated by a comma character. Additional information: This string will always be in the Roman-8 character set. See prtLocalizationLanguage for details about each language value." ::= { status-system 52 } localization-countries-supported OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "The list of countries supported by the device. The countries are primarily, but not limited to, two character codes from ISO 3166, each separated by a comma character. Additional information: This string will always be in the Roman-8 character set. See prtLocalizationCountry for details about each country value." ::= { status-system 53 } control-panel-display-contents-change-counter OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "A counter which increments whenever the contents of the front panel display changes. This object is implemented as a 32-bit signed integer which rolls over to zero when it reaches a maximum value." ::= { status-system 63 } control-panel-display-contents-crc OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Reading this object returns a 32-bit Cyclical Redundancy Check (CRC) which represents the current contents of the display. Additional information: This object has been implimented as an 8-bit CRC for this product." ::= { status-system 64 } control-panel-display-graphical-contents OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Reading this object returns a graphical file format image representing the current pixel content of the display. The device POS will specify the expected screen resolution, color depth of the display and graphics file format for a given product (eg. 160x64x1 GIF format OR 640x240x4 JPEG format). If the image is large enough that it needs to be returned in multiple objects then each array object will contain a portion of the image. The image will then need to be reconstructed by a host application. An application that needs to determine if their is an additional object to be retreived will need to perform a GETNEXT operation until there are no more objects in the sub-tree. Additional information: This object returns a GIF image that represents the current contents of the 160x64x1 control panel display. Most display images require more than one instance of this object in order to retreive the complete GIF image." ::= { control-panel-display 1 } control-panel-key-press OBJECT-TYPE SYNTAX INTEGER(0..65535) ACCESS read-write STATUS optional DESCRIPTION "Writing this object simulates pressing a key on the control panel. Reading it will return the last key pressed either on the control panel or via PML. This object obsoletes/replaces CONTROL-PANEL-BUTTON-PRESS object which was unable to represent each of the possible key combinations of our current control panels (ie. Full QWERTY keyboard). The device POS will specify the full range of keys supported by this object. Additional information: >>>>This object is write-only for hw_rom variant but it is read-write for all other variants.<<<<< Writing this object simulates pressing a key on the control panel. Reading it will return the last key pressed either on the control panel or via PML. This object obsoletes/replaces CONTROL-PANEL-BUTTON-PRESS object which was unable to represent each of the possible key combinations of our current control panels (ie. Full QWERTY keyboard). The device POS will specify the full range of keys supported by this object. The LaserJet 9000 implementation of this object supports the Unified Key Encoding Scheme which is documented at http://clbu.boi.hp.com/~kevino/GCPA/keycodes.doc NOTE: Chris is working on an updated version of this scheme which will be referenced once made available." ::= { status-system 66 } energy-star OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the Energy Star sleep value. If the value is greater than zero, then the device will go into energy saving sleep mode after the print engine has been idle for the number of seconds specified by this object. A value of zero means Energy Star is disabled and the device will not go to sleep based on print engine idle time. The value must be non-negative. Additional information: Returns or changes the Energy Star sleep value. The device will go into energy saving sleep mode after the print engine has been idle for the number of seconds specified by this object. $product_str 3015 supports values of 0, 60, 900, 1800, 2700, 3600, 5400, 7200 seconds. A value of 0 means never enter sleep mode based on the print engine idle time. Setting to an unsupported value causes the printer to substitute a value (listed below) and to return status. Setting this value when the printer is in sleep mode will not cause it to wakeup unless it is set to 0. The values are as follow: <=0 snap to 0 >=1 and <= 1349 snap to 900 (15 minutes) >=1350 and <= 2249 snap to 1800 (30 minutes) >=2250 and <= 3149 snap to 2700 (45 minutes) >=3150 and <= 4499 snap to 3600 (1 hour) >=4500 and <= 6299 snap to 5400 (90 minutes) >=6300 snap to 7200 (2 hours)." ::= { settings-system 1 } sleep-mode OBJECT-TYPE SYNTAX INTEGER { eFalse(1), eTrue(2) } ACCESS read-write STATUS optional DESCRIPTION "Returns eTrue if the device is in energy saving sleep mode, otherwise returns eFalse. Setting SLEEP-MODE to eFalse causes the device to wake up, if it is in sleep mode. Setting SLEEP-MODE to eTrue causes the device to go into sleep mode. Additional information: This object returns eTrue if the device is in energy saving sleep mode, otherwise it returns eFalse. Setting this object to eTrue while the printer is awake will not change the printer's current state and will return status. NOTE: This object should behave this way when the printer does not have an instant-on fuser. Setting this object to eTrue while printer is already in Sleep Mode will not change the printer's current state and will return status. Setting this object to eFalse while printer is already awake will not change the printer's current state and will return status. Setting this object to eFalse while the printer is asleep causes the device to wake up. " ::= { settings-system 2 } on-off-line OBJECT-TYPE SYNTAX INTEGER { eOnline(1), eOffline(2), eOfflineAtEndOfJob(3) } ACCESS read-write STATUS optional DESCRIPTION "To bring the PDL processing sub-system on or off line. If the device is a printer, then the printer does not process print job data when the printer is off line. PML communication persists. Additional information: When the printer is in the Offline state, printing will stop as soon as possible (no more sheets of media are pulled from input trays). The I/O is taken offline also. Setting to eOnline has the following affect: Printer will immediately go to or remain in the Online state; status is returned. If the printer's current state is Offline with a pending error condition that prevents the printer from going to the Online state, the printer will remain in the Offline state; status is returned (see the Control Panel ERS for a list of error conditions). Setting to eOffline has the following affect: Printer will immediately go to or remain in the Offline state; status is returned. If pages are being printed, those pages will complete with the printer in the Offline state. Setting to eOfflineAtEndOfJob has the following affect: If not in a job or already in the Offline state, the printer will immediately go to or remain in the Offline state; status is returned. If in a job and the current state is Online, the printer will remain in the Online state, with the value of this object as eOfflineAtEndOfJob, until the end of the job; status is returned. At the end of the job, the printer goes to the Offline state and the value of this object becomes eOffline. Setting this object to eOffline or eOnline before the end of the job causes the action for that value to be taken immediately." ::= { status-system 5 } continue OBJECT-TYPE SYNTAX INTEGER { eInitiateAction(1), eRetry(2), eRetryAndCheck(3), eUseLoadedMedia(4), eEjectAndWait(5), eSelectMediaSize(6) } ACCESS write-only STATUS optional DESCRIPTION "A device can support a class of errors called continuable errors. When a continuable error is encountered, the device requires a continue event to occur before the device will continue operation. One continue event is setting the CONTINUE object to eInitiateAction. Devices can support other continue events, like auto-continue. A continue event causes the continuable error to be acknowledged, thus allowing the device to continue. Each device needs to list the continuable errors. If the device doesn't currently have an unacknowledged continuable error, the response will contain . Additional information: See the CLEARABLE-WARNING and AUTO-CONTINUE objects for the errors that this object will clear." ::= { status-system 6 } auto-continue OBJECT-TYPE SYNTAX INTEGER { eOff(1), eOn(2) } ACCESS read-write STATUS optional DESCRIPTION "Indicates if the device will automatically continue after encountering a continuable error. If AUTO-CONTINUE is set to eOn, the device will automatically generate continue event to acknowledge continuable errors. If AUTO-CONTINUE is set to eOff, then some other continue event will have to acknowledge the continuable error. Additional information: If this is set to eOn the device displays an error message and goes offline for ten seconds. After ten seconds the printer automatically returns to the online state. If this is set to eOff then the device displays an error message and goes offline. It remains offline until the operator presses the GO key or until the CONTINUE object is set. If the printer is not idle, the new value may not take effect until a job boundary is reached. If a get is done on this object before the job boundary is reached, the value last set will be returned." ::= { status-system 7 } fw-rom-datecode OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Identifies the base device-system firmware date code. The date code will be encoded in the yyyymmdd format. There may be several versions of the base device-system firmware. The date code associated with the version of the base device-system firmware that is being used is reported. There may be other date code objects for other specific modules such as fonts, localization modules, etc.; these other datecode objects are device specific. Additional information: Identifies the base device-system firmware date code. The date code will be encoded in the yyyymmdd format. There may be several versions of the base device-system firmware. The date code associated with the version of the base device-system firmware that is being used is reported. There may be other date code objects for other specific modules such as fonts, localization modules, etc.; these other datecode objects are device specific." ::= { id 5 } fw-rom-revision OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This identifies the device-system code firmware ROM revision code. The format for a revision is major_revision.minor_revision. There may be other ROM revision code objects for other specific ROMs such as font ROMs, localization ROMs, etc; these other ROM revision code objects are device specific. Additional information: This identifies the device-system code firmware ROM revision code. The format for a revision is major_revision.minor_revision. There may be other ROM revision code objects for other specific ROMs such as font ROMs, localization ROMs, etc; these other ROM revision code objects are device specific." ::= { id 6 } simm1-type OBJECT-TYPE SYNTAX INTEGER { eEmpty(1), eUnknown(2), eUnSupported(3), eReadOnlyMemory(4), eVolatileRandomAccessMemory(5), eFlashMemory(7), eRamRom(9), eVolatileRAMOnBoardMemory(18) } ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the type of option installed in SIMM slot 1. eEmpty means the device did not detect any option installed in the interface slot. eUnknown means the device doesn't recognize the installed option. eUnSupported means the device recognizes the installed option, but does not support the option. eReadOnlyMemory means the installed option contains ROM Ics. eVolatileRandomAccessMemory means the installed option contains RAM ICs that loose data when the power is turned off. eNonVolatileRandomAccessMemory means that the installed option contains RAM ICs that do not loose data when the power is turned off. eFlashMemory means that the installed option contains a type of non-volatile RAM that needs to be erased before it can be written. eDiskDrive means the installed option contains a disk drive. eRamRom means the installed option contains both volatile random access memory and read only memory. eInputPHD means the installed option is an input paper handling device. eOutputPHD means the installed option is an output paper handling device. eIOCard means the installed option is an I/O card. eVolatileRAMOnBoardMemory means the installed option contains on board RAM ICs that loose data when the power is turned off. Additional information: This object is used for describing DIMMs instead of SIMMs on $product_str. eRamRom is used to denote $product_str's combo simm." ::= { simm1 4 } simm1-capacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the capacity of the SIMM installed in SIMM slot 1. The capacity is dependent on the type of option, as indicated by the SIMM1-TYPE object. This object has no meaning if the installed option type is eUnknown or eReadOnlyMemory. This object contains the size, in bytes, if the installed option type is eVolatileRandomAccessMemory, eNonVolatileRandomAccessMemory, eFlashMemory, or eDiskDrive. If the type of the installed option is eRamRom, this object contains the size, in bytes, of the random access memory. If the type of the installed option is eInputPHD, the capacity indicates the number of input trays supported by the installed option. If the type of the installed option is eOutputPHD, the capacity indicates the number of output bins supported by the installed option. If the type of the installed option is eIOCard, the capacity indicates the number of logical I/O ports supported by the I/O card. Additional information: Returns an indication of the capacity of the installed option in bytes. This object is not supported unless the SIMM1-TYPE type is eVolatileRandomAccessMemory, eRamRom, or eFlashMemory. For eRamRom only the size of the Ram portion of the SIMM is returned." ::= { simm1 5 } simm1-bank1-type OBJECT-TYPE SYNTAX INTEGER { eEmpty(1), eUnknown(2), eUnSupported(3), eReadOnlyMemory(4), eVolatileRandomAccessMemory(5), eFlashMemory(7), eRamRom(9) } ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the type of option installed in Bank 1 of SIMM slot 1. See SIMM1-TYPE for a description. Additional information: This object is used for describing the type of DIMM banks. Each physical DIMM slot has up to 2 banks." ::= { simm1-bank1 1 } simm1-bank1-capacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the capacity of Bank 1 of the SIMM installed in SIMM slot 1. See SIMM1-CAPACITY for a description. Additional information: Returns an indication of the capacity of the installed bank option in bytes. This object is not supported unless the SIMM1-BANK1-TYPE type is eReadOnlyMemory, eFlashMemory, eEDORandomAccessMemory, eSDRandomAccessMemory, eSRandomAccessMemory, or eFPMRandomAccessMemory." ::= { simm1-bank1 2 } simm1-bank2-type OBJECT-TYPE SYNTAX INTEGER { eEmpty(1), eUnknown(2), eUnSupported(3), eReadOnlyMemory(4), eVolatileRandomAccessMemory(5), eFlashMemory(7), eRamRom(9) } ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the type of option installed in Bank 2 of SIMM slot 1. See SIMM1-TYPE for a description. Additional information: This object is used for describing the type of DIMM banks. Each physical DIMM slot has up to 2 banks." ::= { simm1-bank2 1 } simm1-bank2-capacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the capacity of Bank 2 of the SIMM installed in SIMM slot 1. See SIMM1-CAPACITY for a description." ::= { simm1-bank2 2 } simm2-type OBJECT-TYPE SYNTAX INTEGER { eEmpty(1), eUnknown(2), eUnSupported(3), eReadOnlyMemory(4), eVolatileRandomAccessMemory(5), eFlashMemory(7), eRamRom(9) } ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the type of option installed in SIMM slot 2. See SIMM1-TYPE for a description. Additional information: This object is used for describing DIMMs instead of SIMMs on $product_str. eRamRom is used to denote $product_str's combo simm." ::= { simm2 4 } simm2-capacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the capacity of the SIMM installed in SIMM slot 2. See SIMM1-CAPACITY for a description. Additional information: This object is used for describing DIMMs instead of SIMMs on $product_str. Returns an indication of the capacity of the installed option in bytes. This object is not supported unless the SIMM2-TYPE type is eVolatileRandomAccessMemory, eRamRom, or eFlashMemory. For eRamRom only the size of the Ram portion of the SIMM is returned." ::= { simm2 5 } simm2-bank1-type OBJECT-TYPE SYNTAX INTEGER { eEmpty(1), eUnknown(2), eUnSupported(3), eReadOnlyMemory(4), eVolatileRandomAccessMemory(5), eFlashMemory(7), eRamRom(9) } ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the type of option installed in Bank 1 of SIMM slot 2. See SIMM1-TYPE for a description. Additional information: This object is used for describing the type of DIMM banks. Each physical DIMM slot has up to 2 banks." ::= { simm2-bank1 1 } simm2-bank1-capacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the capacity of Bank 1 of the SIMM installed in SIMM slot 2. See SIMM1-CAPACITY for a description. Additional information: Returns an indication of the capacity of the installed bank option in bytes. This object is not supported unless the SIMM2-BANK1-TYPE type is eReadOnlyMemory, eFlashMemory, eEDORandomAccessMemory, eSDRandomAccessMemory, eSRandomAccessMemory, or eFPMRandomAccessMemory." ::= { simm2-bank1 2 } simm2-bank2-type OBJECT-TYPE SYNTAX INTEGER { eEmpty(1), eUnknown(2), eUnSupported(3), eReadOnlyMemory(4), eVolatileRandomAccessMemory(5), eFlashMemory(7), eRamRom(9) } ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the type of option installed in Bank 2 of SIMM slot 2. See SIMM1-TYPE for a description. Additional information: This object is used for describing the type of DIMM banks. Each physical DIMM slot has up to 2 banks." ::= { simm2-bank2 1 } simm2-bank2-capacity OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the capacity of Bank 2 of the SIMM installed in SIMM slot 2. See SIMM1-CAPACITY for a description." ::= { simm2-bank2 2 } cancel-job OBJECT-TYPE SYNTAX INTEGER(-1..32767) ACCESS write-only STATUS optional DESCRIPTION "Cancels the print job whose ID matches the value written to the CANCEL-JOB object. The host first learns the job ID using the CURRENT-JOB-PARSING-ID command. If the printer has completely processed the job, the printer responds with . If the value of the CURRENT-JOB-PARSING-ID is smaller than the value written to the CANCEL-JOB object, then the printer responds with . When read, returns the value of the last job ID what was canceled, or -1 to indicate no job has been canceled. Additional information: If the value written matches the ID of a job that is currently being canceled (for any reason), the printer responds with . It uses job ID's in the range of -1..32767. Because the ID number can wrap to zero, CURRENT-JOB-PARSING-ID may be smaller than the value written to this object; when this occurs, no error will result as long as the ID is for a currently processing job. This object is write only, so the comment in the general description stating the job ID will be returned on a read does not apply. A -1 represents the current job" ::= { settings-job 2 } os-execute-file OBJECT-TYPE SYNTAX OCTET STRING ACCESS write-only STATUS optional DESCRIPTION "This object's input is a null-terminated string representing a fully-qualified path name for an executable file. This object causes the file to be executed by the OS. Additional information: This object's input is a null-terminated string of two or more whitespace-separated tokens. The first token is a path to a directory to make the current working directory. The second token is a path to an executable file to be executed. Any remaining whitespace-separated tokens are optional and will be passed as parameters to the executable. The paths to the directory and executable can be either PJL style (e.g., 1:\app\example) or UNIX-style (e.g., /hpmnt/dsk_ide1a/app/example). The executable is run in a separate process." ::= { operating-system 1 } form-feed OBJECT-TYPE SYNTAX INTEGER { eInitiateAction(1) } ACCESS write-only STATUS optional DESCRIPTION "Instructs the PDL processing sub-system to finishing processing the current page of the current job. Form feed is also known as close page or eject page. If the PDL processing sub-system is in a FORM-FEED-NEEDED state, this causes the device to flush or finish processing the current page of the current job. If the device is not in the FORM-FEED-NEEDED state, an will occur." ::= { settings-pdl 5 } form-feed-needed OBJECT-TYPE SYNTAX INTEGER { eFalse(1), eTrue(2) } ACCESS read-only STATUS optional DESCRIPTION "Indicates if the PDL processing sub-system has made marks on the current page and the source subsystem has been idle for a device specific amount of time. Additional information: $product_str will set this object to eTrue when it has made marks on the current page, the IO-TIMEOUT has expired while PCL was running in `backward-compatibility mode' (which is caused by jobs consisting purely of PCL data with no prepended PJL commands), and no data is pending on another I/O. Once it is set to eTrue, more data on the same I/O will cause this object to be set to eFalse, until the above conditions are met again." ::= { status-pdl 2 } error-log-clear OBJECT-TYPE SYNTAX INTEGER { eClearErrorLog(1) } ACCESS write-only STATUS optional DESCRIPTION "Setting this object clears all the entries in the error log sub-tree. Additional information: Setting this object removes all errors that have been stored in the printer's non-volatile memory." ::= { status-system 38 } clearable-warning OBJECT-TYPE SYNTAX INTEGER { eOn(2), eJob(3) } ACCESS read-write STATUS optional DESCRIPTION "Returns or controls how the device will track clearable warnings. A clearable warning indicates a transient event in the device. The device will continue after the transient event occurs. If CLEARABLE-WARNING is eOff, the device does not track clearable warnings. If CLEARABLE-WARNING is eOn, all clearable warnings will be tracked until cleared (acknowledged). If CLEARABLE-WARNING is eJob, a clearable warning generated due to an event that occurs because of the print job being processed will be automatically cleared when the device has finished processing the job. Example clearable warning events include the device altering resolution or page protection due to memory constraints. The POS will document what transient events are treated as clearable warnings. Additional information: If set to eOn, the warning is displayed until the GO key is pressed or the CONTINUE object is set. If set to eJob, the warning is displayed until the end of the job in which it was generated." ::= { settings-job 1 } error1-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 1 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: This item contains the engine page count when the error occurred. If there is currently no error entry for this object, a '0' will be returned. Note that '0' may also be returned when there is a valid error, but a current page count was unavailable. If ERROR1-CODE object also returns '0', then an error has not yet been logged for this object. See ERROR1-CODE for an explanation of the order used for storing errors." ::= { error1 1 } error1-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: Returns a device specific error code. If the error code returned is '0', then the printer has not yet logged an error for this object. When the maximum number of errors is reached (30 on LaserJet printers), and a new error occurs, the error in ERROR1-CODE will be replaced by the one in ERROR2-CODE, and so on until the last error object will be given the value of the new error. The error number is returned in the upper 16 bits. If it is 68, 69, 79, or 80, then the sub code is returned in the lower 16 bits (eg. 68 001C, where the subcode is already a hexadecimal value). If the error number is any other number, then the 1st sub code (XX) will be in bits 15-8 and the 2nd sub code (YY) will be in bits 7-0 (eg. 55.04.02) where XX=04 and YY=02). See the Control Panel ERS for specific information about the meaning of each code. Example: If the error is 68 001A, then the value returned will be 4456474. To break it down: 4456474 = 0x0044001A The upper 16 bits: 0x0044 = 68 The lower 16 bits: 0x001A = 001A Which is the error: 68 001A Example: If the error is 55.04.241, then the error code will be 3605745. To break it down: 3605745 = 0x003704F1 The upper 16 bits: 0x0037 = 55 The upper byte of the lower 16 bits: 0x04 = 04 The lower byte of the lower 16 bits: 0xF1 = 241 Which is the error: 55.04.241" ::= { error1 2 } error1-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: This item contains the date and the time when the error occurred. It returns the date and the time at which the error occured in hexadecimal. For instance, if date is 2004-Jul-13 and time is 03:15 am when the error was logged, then we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month 07 0d(hex) - corresponds to date 13 03(hex) - corresponds to hour- 03 0f(hex) - corresponds to min- 15. If there is currently no error entry , '00 00 00 00 00' will be returned. See ERROR1-CODE for an explanation of the order used for storing errors." ::= { error1 3 } error1-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 1. Additional information: This item contains the additional string when the error occurred. This additional string is a non-localized string. if an error doesn't have an additional string, the item value is NULL." ::= { error1 4 } error2-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 2 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error2 1 } error2-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error2 2 } error2-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error2 3 } error2-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 2. Additional information: See ERROR1-STRING." ::= { error2 4 } error3-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 3 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error3 1 } error3-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error3 2 } error3-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error3 3 } error3-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 3. Additional information: See ERROR1-STRING." ::= { error3 4 } error4-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 4 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error4 1 } error4-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error4 2 } error4-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error4 3 } error4-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 4. Additional information: See ERROR1-STRING." ::= { error4 4 } error5-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 5 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error5 1 } error5-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error5 2 } error5-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error5 3 } error5-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 5. Additional information: See ERROR1-STRING." ::= { error5 4 } error6-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 6 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error6 1 } error6-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error6 2 } error6-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error6 3 } error6-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 6. Additional information: See ERROR1-STRING." ::= { error6 4 } error7-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 7 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error7 1 } error7-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error7 2 } error7-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error7 3 } error7-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 7. Additional information: See ERROR1-STRING." ::= { error7 4 } error8-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 8 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error8 1 } error8-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error8 2 } error8-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error8 3 } error8-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 8. Additional information: See ERROR1-STRING." ::= { error8 4 } error9-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 9 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error9 1 } error9-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error9 2 } error9-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error9 3 } error9-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 9. Additional information: See ERROR1-STRING." ::= { error9 4 } error10-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 10 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error10 1 } error10-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error10 2 } error10-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error10 3 } error10-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 10. Additional information: See ERROR1-STRING." ::= { error10 4 } error11-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 11 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error11 1 } error11-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error11 2 } error11-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error11 3 } error11-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 11. Additional information: See ERROR1-STRING." ::= { error11 4 } error12-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 12 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error12 1 } error12-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error12 2 } error12-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error12 3 } error12-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 12. Additional information: See ERROR1-STRING." ::= { error12 4 } error13-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 13 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error13 1 } error13-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error13 2 } error13-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error13 3 } error13-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 13. Additional information: See ERROR1-STRING." ::= { error13 4 } error14-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 14 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error14 1 } error14-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error14 2 } error14-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error14 3 } error14-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 14. Additional information: See ERROR1-STRING." ::= { error14 4 } error15-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 15 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error15 1 } error15-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error15 2 } error15-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error15 3 } error15-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 15. Additional information: See ERROR1-STRING." ::= { error15 4 } error16-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 16 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error16 1 } error16-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error16 2 } error16-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error16 3 } error16-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 16. Additional information: See ERROR1-STRING." ::= { error16 4 } error17-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 17 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error17 1 } error17-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error17 2 } error17-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error17 3 } error17-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 17. Additional information: See ERROR1-STRING." ::= { error17 4 } error18-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 18 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error18 1 } error18-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error18 2 } error18-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error18 3 } error18-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 18. Additional information: See ERROR1-STRING." ::= { error18 4 } error19-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 19 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error19 1 } error19-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error19 2 } error19-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error19 3 } error19-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 19. Additional information: See ERROR1-STRING." ::= { error19 4 } error20-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 20 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error20 1 } error20-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error20 2 } error20-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error20 3 } error20-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 20. Additional information: See ERROR1-STRING." ::= { error20 4 } error21-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 21 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error21 1 } error21-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error21 2 } error21-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error21 3 } error21-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 21. Additional information: See ERROR1-STRING." ::= { error21 4 } error22-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 22 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error22 1 } error22-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error22 2 } error22-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error22 3 } error22-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 22. Additional information: See ERROR1-STRING." ::= { error22 4 } error23-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 23 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error23 1 } error23-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error23 2 } error23-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error23 3 } error23-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 23. Additional information: See ERROR1-STRING." ::= { error23 4 } error24-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 24 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error24 1 } error24-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error24 2 } error24-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error24 3 } error24-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 24. Additional information: See ERROR1-STRING." ::= { error24 4 } error25-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 25 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error25 1 } error25-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error25 2 } error25-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error25 3 } error25-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 25. Additional information: See ERROR1-STRING." ::= { error25 4 } error26-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 26 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error26 1 } error26-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error26 2 } error26-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error26 3 } error26-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 26. Additional information: See ERROR1-STRING." ::= { error26 4 } error27-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 27 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error27 1 } error27-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error27 2 } error27-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error27 3 } error27-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 27. Additional information: See ERROR1-STRING." ::= { error27 4 } error28-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 28 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error28 1 } error28-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error28 2 } error28-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error28 3 } error28-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 28. Additional information: See ERROR1-STRING." ::= { error28 4 } error29-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 29 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error29 1 } error29-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error29 2 } error29-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error29 3 } error29-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 29. Additional information: See ERROR1-STRING." ::= { error29 4 } error30-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 30 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error30 1 } error30-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error30 2 } error30-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error30 3 } error30-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 30. Additional information: See ERROR1-STRING." ::= { error30 4 } error31-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 31 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error31 1 } error31-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error31 2 } error31-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error31 3 } error31-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 31. Additional information: See ERROR1-STRING." ::= { error31 4 } error32-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 32 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error32 1 } error32-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error32 2 } error32-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error32 3 } error32-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 32. Additional information: See ERROR1-STRING." ::= { error32 4 } error33-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 33 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error33 1 } error33-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error33 2 } error33-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error33 3 } error33-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 33. Additional information: See ERROR1-STRING." ::= { error33 4 } error34-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 34 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error34 1 } error34-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error34 2 } error34-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error34 3 } error34-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 34. Additional information: See ERROR1-STRING." ::= { error34 4 } error35-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 35 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error35 1 } error35-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error35 2 } error35-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error35 3 } error35-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 35. Additional information: See ERROR1-STRING." ::= { error35 4 } error36-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 36 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error36 1 } error36-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error36 2 } error36-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error36 3 } error36-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 36. Additional information: See ERROR1-STRING." ::= { error36 4 } error37-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 37 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error37 1 } error37-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error37 2 } error37-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error37 3 } error37-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 37. Additional information: See ERROR1-STRING." ::= { error37 4 } error38-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 38 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error38 1 } error38-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error38 2 } error38-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error38 3 } error38-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 38. Additional information: See ERROR1-STRING." ::= { error38 4 } error39-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 39 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error39 1 } error39-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error39 2 } error39-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error39 3 } error39-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 39. Additional information: See ERROR1-STRING." ::= { error39 4 } error40-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 40 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error40 1 } error40-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error40 2 } error40-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error40 3 } error40-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 40. Additional information: See ERROR1-STRING." ::= { error40 4 } error41-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 41 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error41 1 } error41-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error41 2 } error41-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error41 3 } error41-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 41. Additional information: See ERROR1-STRING." ::= { error41 4 } error42-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 42 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error42 1 } error42-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error42 2 } error42-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error42 3 } error42-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 42. Additional information: See ERROR1-STRING." ::= { error42 4 } error43-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 43 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error43 1 } error43-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error43 2 } error43-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error43 3 } error43-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 43. Additional information: See ERROR1-STRING." ::= { error43 4 } error44-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 44 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error44 1 } error44-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error44 2 } error44-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error44 3 } error44-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 44. Additional information: See ERROR1-STRING." ::= { error44 4 } error45-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 45 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error45 1 } error45-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error45 2 } error45-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error45 3 } error45-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 45. Additional information: See ERROR1-STRING." ::= { error45 4 } error46-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 46 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error46 1 } error46-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error46 2 } error46-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error46 3 } error46-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 46. Additional information: See ERROR1-STRING." ::= { error46 4 } error47-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 47 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error47 1 } error47-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error47 2 } error47-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error47 3 } error47-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 47. Additional information: See ERROR1-STRING." ::= { error47 4 } error48-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 48 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error48 1 } error48-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error48 2 } error48-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error48 3 } error48-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 48. Additional information: See ERROR1-STRING." ::= { error48 4 } error49-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 49 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error49 1 } error49-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error49 2 } error49-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error49 3 } error49-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 49. Additional information: See ERROR1-STRING." ::= { error49 4 } error50-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 50 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error50 1 } error50-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error50 2 } error50-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error50 3 } error50-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 50. Additional information: See ERROR1-STRING." ::= { error50 4 } error51-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 51 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error51 1 } error51-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error51 2 } error51-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error51 3 } error51-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 51. Additional information: See ERROR1-STRING." ::= { error51 4 } error52-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 52 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error52 1 } error52-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error52 2 } error52-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error52 3 } error52-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 52. Additional information: See ERROR1-STRING." ::= { error52 4 } error53-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 53 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error53 1 } error53-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error53 2 } error53-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error53 3 } error53-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 53. Additional information: See ERROR1-STRING." ::= { error53 4 } error54-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 54 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error54 1 } error54-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error54 2 } error54-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error54 3 } error54-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 54. Additional information: See ERROR1-STRING." ::= { error54 4 } error55-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 55 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error55 1 } error55-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error55 2 } error55-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error55 3 } error55-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 55. Additional information: See ERROR1-STRING." ::= { error55 4 } error56-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 56 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error56 1 } error56-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error56 2 } error56-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error56 3 } error56-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 56. Additional information: See ERROR1-STRING." ::= { error56 4 } error57-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 57 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error57 1 } error57-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error57 2 } error57-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error57 3 } error57-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 57. Additional information: See ERROR1-STRING." ::= { error57 4 } error58-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 58 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error58 1 } error58-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error58 2 } error58-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error58 3 } error58-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 58. Additional information: See ERROR1-STRING." ::= { error58 4 } error59-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 59 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error59 1 } error59-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error59 2 } error59-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error59 3 } error59-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 59. Additional information: See ERROR1-STRING." ::= { error59 4 } error60-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 60 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error60 1 } error60-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error60 2 } error60-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error60 3 } error60-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 60. Additional information: See ERROR1-STRING." ::= { error60 4 } error61-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 61 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error61 1 } error61-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error61 2 } error61-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error61 3 } error61-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 61. Additional information: See ERROR1-STRING." ::= { error61 4 } error62-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 62 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error62 1 } error62-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error62 2 } error62-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error62 3 } error62-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 62. Additional information: See ERROR1-STRING." ::= { error62 4 } error63-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 63 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error63 1 } error63-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error63 2 } error63-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error63 3 } error63-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 63. Additional information: See ERROR1-STRING." ::= { error63 4 } error64-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 64 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error64 1 } error64-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error64 2 } error64-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error64 3 } error64-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 64. Additional information: See ERROR1-STRING." ::= { error64 4 } error65-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 65 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error65 1 } error65-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error65 2 } error65-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error65 3 } error65-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 65. Additional information: See ERROR1-STRING." ::= { error65 4 } error66-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 66 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error66 1 } error66-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error66 2 } error66-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error66 3 } error66-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 66. Additional information: See ERROR1-STRING." ::= { error66 4 } error67-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 67 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error67 1 } error67-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error67 2 } error67-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error67 3 } error67-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 67. Additional information: See ERROR1-STRING." ::= { error67 4 } error68-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 68 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error68 1 } error68-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error68 2 } error68-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error68 3 } error68-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 68. Additional information: See ERROR1-STRING." ::= { error68 4 } error69-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 69 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error69 1 } error69-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error69 2 } error69-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error69 3 } error69-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 69. Additional information: See ERROR1-STRING." ::= { error69 4 } error70-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 70 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error70 1 } error70-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error70 2 } error70-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error70 3 } error70-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 70. Additional information: See ERROR1-STRING." ::= { error70 4 } error71-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 71 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error71 1 } error71-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error71 2 } error71-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error71 3 } error71-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 71. Additional information: See ERROR1-STRING." ::= { error71 4 } error72-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 72 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error72 1 } error72-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error72 2 } error72-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error72 3 } error72-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 72. Additional information: See ERROR1-STRING." ::= { error72 4 } error73-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 73 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error73 1 } error73-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error73 2 } error73-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error73 3 } error73-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 73. Additional information: See ERROR1-STRING." ::= { error73 4 } error74-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 74 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error74 1 } error74-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error74 2 } error74-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error74 3 } error74-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 74. Additional information: See ERROR1-STRING." ::= { error74 4 } error75-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 75 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error75 1 } error75-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error75 2 } error75-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error75 3 } error75-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 75. Additional information: See ERROR1-STRING." ::= { error75 4 } error76-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 76 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error76 1 } error76-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error76 2 } error76-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error76 3 } error76-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 76. Additional information: See ERROR1-STRING." ::= { error76 4 } error77-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 77 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error77 1 } error77-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error77 2 } error77-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error77 3 } error77-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 77. Additional information: See ERROR1-STRING." ::= { error77 4 } error78-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 78 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error78 1 } error78-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error78 2 } error78-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error78 3 } error78-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 78. Additional information: See ERROR1-STRING." ::= { error78 4 } error79-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 79 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error79 1 } error79-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error79 2 } error79-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error79 3 } error79-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 79. Additional information: See ERROR1-STRING." ::= { error79 4 } error80-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 80 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error80 1 } error80-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error80 2 } error80-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error80 3 } error80-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 80. Additional information: See ERROR1-STRING." ::= { error80 4 } error81-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 81 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error81 1 } error81-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error81 2 } error81-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error81 3 } error81-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 81. Additional information: See ERROR1-STRING." ::= { error81 4 } error82-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 82 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error82 1 } error82-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error82 2 } error82-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error82 3 } error82-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 82. Additional information: See ERROR1-STRING." ::= { error82 4 } error83-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 83 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error83 1 } error83-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error83 2 } error83-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error83 3 } error83-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 83. Additional information: See ERROR1-STRING." ::= { error83 4 } error84-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 54 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error84 1 } error84-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error84 2 } error84-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error84 3 } error84-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 84. Additional information: See ERROR1-STRING." ::= { error84 4 } error85-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 85 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error85 1 } error85-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error85 2 } error85-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error85 3 } error85-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 85. Additional information: See ERROR1-STRING." ::= { error85 4 } error86-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 86 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error86 1 } error86-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error86 2 } error86-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error86 3 } error86-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 86. Additional information: See ERROR1-STRING." ::= { error86 4 } error87-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 87 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error87 1 } error87-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error87 2 } error87-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error87 3 } error87-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 87. Additional information: See ERROR1-STRING." ::= { error87 4 } error88-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 88 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error88 1 } error88-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error88 2 } error88-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error88 3 } error88-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 88. Additional information: See ERROR1-STRING." ::= { error88 4 } error89-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 89 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error89 1 } error89-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error89 2 } error89-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error89 3 } error89-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 89. Additional information: See ERROR1-STRING." ::= { error89 4 } error90-time-stamp OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains some sort of time stamp indicating when error 90 occurred. Example time stamps include the actual time the error occurred (in seconds since Jan. 1, 1970), and the total engine page count. The device POS documents the meaning of the time stamp. Additional information: See ERROR1-TIME-STAMP." ::= { error90 1 } error90-code OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains a device specific error code. Each device POS should list what errors are logged to the error log and the meaning of each supported error code value. Additional information: See ERROR1-CODE." ::= { error90 2 } error90-date-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains the date and the time at which an error occurred. The values returned will be in hexadecimal. If the date is 2004-Jul-13 and the time is 03:15 a.m., we get 04 07 0d 03 0f where, 04 (hex) - corresponds to the year 2004. 07 (hex) - corresponds to month, 07 0d (hex) - corresponds to date, 13 03 (hex) - corresponds to hour, 3 a.m. 0f (hex) - corresponds to min, 15. Additional information: See ERROR1-DATE-TIME." ::= { error90 3 } error90-string OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This item contains an additional string which records related info of error 90. Additional information: See ERROR1-STRING." ::= { error90 4 } channelprinteralert OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Identifies the values of prtAlertIndex, prtAlertSeverityLevel, prtAlertGroup, prtAlertGroupIndex, prtAlertLocation, and prtAlertCode for the latest critical evnet in the prtAlertTable. The binary string is defined as following: ----------------------------------------------------- Field | Filed | Description Offset | Length | ----------------------------------------------------- 0 | 4 | the value of prtAlertIndex 4 | 4 | the value of prtAlertSeverityLevel 8 | 4 | the value of prtAlertGroup 12 | 4 | the value of prtAlertGroupIndex 16 | 4 | the value of prtAlertLocation 20 | 4 | the value of prtAlertCode ------------------------------------------------------
Each field is in Big Endian style. Additional information: This object is used to pass alert information from the peripheral to the IIO card. The standard printer MIB contains the following description: printerAlert TRAP-TYPE ENTERPRISE printerV1Alert VARIABLES { prtAlertIndex, prtAlertSeverityLevel, prtAlertGroup, prtAlertGroupIndex, prtAlertLocation, prtAlertCode } DESCRIPTION 'This trap is sent whenever a critical event is added to the prtAlertTable.' In order to provide this information in the trap packet, the IIO card enables traps on channelPrinterAlert. When a critical alert is generated the peripheral fills the appropriate value into this object and sends it to the card. This object is a structure which contains 24 bytes of data. The structure is: struct structAlertInfo { sint32 prtAlertIndex; sint32 prtAlertSeverityLevel; sint32 prtAlertGroup; sint32 prtAlertGroupIndex; sint32 prtAlertLocation; sint32 prtAlertCode; } thisAlertData;" ::= { channel 2 } install-date OBJECT-TYPE SYNTAX OCTET STRING (SIZE(13)) ACCESS read-write STATUS optional DESCRIPTION "Identifies the date that the device was installed. The format of the string is 'YYYYMMDDHHmmZ'. Where: YYYY is the year. MM is the month (1-12). DD is the day (1-31). HH is the hour of the day (0-23). mm are the minutes (0-59). 'Z' designates Greenwich Mean Time; if 'Z' not specified, value is local time. Device POS must specify the conditions for setting this object. Additional information: Setting the <> object will enable setting this object." ::= { status-system 8 } service-id OBJECT-TYPE SYNTAX OCTET STRING (SIZE(5)) ACCESS read-write STATUS optional DESCRIPTION "A read of this object will return the current SERVICE ID value in the printer. The format is 'YYDDD' where: YY = calendar year - 1990 DDD = (calendar month - 1) * 30 + (calendar day of the month or 30, if > 30) A write of this object will only succeed if the MANUFACTURING-CONTROL PML object has been set with the correct <>. If the write operation is not allowed, this object will return an status. Additional information: Setting the <> object will enable setting this object." ::= { status-system 19 } show-address OBJECT-TYPE SYNTAX INTEGER { eOff(1), eAuto(3) } ACCESS read-write STATUS optional DESCRIPTION "If this object is set to eAuto, and the device has an IP address, the IP address of the device will be shown with the READY message. If this object is set to eOff, the IP address will not be shown." ::= { display-status 3 } serial-number OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..10)) ACCESS read-only STATUS optional DESCRIPTION "Identifies the serial number for the device. If the SERIAL-NUMBER object is set by the user, then setting the object does not need to be protected. If the SERIAL-NUMBER object is set at the factory, then the <> object must be set correctly before the SERIAL-NUMBER object is writable. If this is a writable object, the POS should indicate the maximum supported string length. If possible, encode the serial number in a symbol set (like Roman-8) that matches the ASCII character set and limit the characters used to ASCII characters. Additional information: This value IS AFFECTED BY NVRAM resets, it is set to the default value of XXXXXXXXXX, when a NVRAM init is done." ::= { id 3 } device-name OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..32)) ACCESS read-write STATUS optional DESCRIPTION "User defined device name. The POS should indicate the maximum supported string length. If the user entered string is too long, the device will store as much as possible and will return the .Additional information: The maximum supported string length is 32 characters. If the user entered string is too long, the device will store the first 32 characters and will return the status." ::= { id 10 } device-location OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "User defined device location. The POS should indicate the maximum supported string length. If the user entered string is too long, the device will store as much as possible and will return the .Additional information: The maximum supported string length is 16 characters. If the user entered string is too long, the device will store the first 16 characters and will return the status." ::= { id 11 } asset-number OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "User defined asset number. The POS should indicate the maximum supported string length. If the user entered string is too long, the device will store as much as possible and will return the .Additional information: The maximum supported string length is 8 characters. If the user entered string is too long, the device will store the first 8 characters and will return the status." ::= { id 12 } system-contact OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..32)) ACCESS read-write STATUS optional DESCRIPTION "User defined string containing the name of the person or group that is responsible for the device. The POS should indicate the maximum supported string length. If the user entered string is too long, the device will store as much as possible and will return the . Additional information: The maximum supported string length is 32 characters. If the user entered string is too long, the device will store the first 32 characters and will return the status. This object only supports the transfer of UTF-8 strings" ::= { id 13 } company-name OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..32)) ACCESS read-write STATUS optional DESCRIPTION "The maximum supported string length is 32 characters. If the user entered string is too long, the device will store the first 32 characters and will return the status. This object only supports the transfer of UTF-8 strings Additional information: The maximum supported string length is 32 characters. If the user entered string is too long, the device will store the first 32 characters and will return the status. This object only supports the transfer of UTF-8 strings" ::= { id 22 } ews-request-control-panel-supplies-status OBJECT-TYPE SYNTAX INTEGER { eFalse(1), eTrue(2) } ACCESS read-write STATUS optional DESCRIPTION "System variable EWS_REQUEST_CONTROL_PANEL_SUPPPLIES_STATUS requires a PML interface so that WJA can directly access it without needing EWS support for that. Additional information: If this object is set to eTrue, the Supplies Status messages will not be shown on the CP." ::= { settings-web-server 5 } default-copies OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or changes default copies. Default copies is the default values used by the PDL to control the number of copies of each page in the print job that are printed. The print job can override this value. The list of supported values should be documented in the device POS. Additional information: The supported values are 1 through 32000. Setting to an unsupported value causes the printer to substitute in a snap value and to return status. The snaps are as follows: <1 snaps to 1 >999 snaps to 32000" ::= { settings-pdl 4 } default-lines-per-page OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the default number of lines per page. The POS indicates the supported values. An unsupported value causes the printer to use the closest supported value, causing the printer to return the . Additional information: The supported values in $product_str are 5 to 128. Setting to an unsupported value causes the the printer to substitute in a snap value and to return status. The snap values are as follow: <5 snaps to 5 >128 snaps to 128" ::= { settings-pdl 11 } default-vmi OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the default vertical motion index. The unit of measure for VMI is centipoints per line. The POS indicates the supported values. An unsupported value causes the printer to use the closest supported value, causing the printer to return ." ::= { settings-pdl 12 } default-media-size OBJECT-TYPE SYNTAX INTEGER { eUSExecutive(1), eUSLetter(2), eUSLegal(3), eFoolscap(10), eStatement(15), eROC16K(17), eISOandJISA6(24), eISOandJISA5(25), eISOandJISA4(26), ePRC16K195X270(34), eJISB6(44), eJISB5(45), eJapanesePostcardDouble(72), eIndexCard4x6(74), eIndexCard5x8(75), eIndexCard3x5(78), eMonarch(80), eCommercial10(81), ePRC16K184X260(89), eInternationalDL(90), eInternationalC5(91), eInternationalB5(100), eCustom(101), ePhoto10x15(118), eIndexCard5x7(122) } ACCESS read-write STATUS optional DESCRIPTION "This indicates the default media size. A write of an unsupported value causes an . Complete list of supported media sizes along with their dimensions are listed in the ''Media Size Table'' near the end of this document. (for a full list of media size enums see the end of this file) " ::= { settings-pdl 13 } cold-reset-media-size OBJECT-TYPE SYNTAX INTEGER { eUSLetter(2), eISOandJISA4(26) } ACCESS read-write STATUS optional DESCRIPTION "Returns or sets the media size that is used as the DEFAULT-MEDIA-SIZE when a cold reset occurs." ::= { settings-pdl 19 } reprint OBJECT-TYPE SYNTAX INTEGER { eOff(1), eOn(2), eAuto(3) } ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the reprint (jam recovery) setting. If eOn, then the device will reprint pages jammed pages. If eOff, the device will not attempt to reprint jammed pages. If eAuto, a device dependent algorithm (which should be documented in the POS) will be used to determine if the page gets reprinted. This object controls all PDLs, unless a specific PDL supports its own reprint control mechanism. To date, only PostScript has a PDL reprint control mechanism." ::= { settings-pdl 36 } postscript-defer-media OBJECT-TYPE SYNTAX INTEGER { eDisabled(1), eEnabled(2) } ACCESS read-write STATUS optional DESCRIPTION "This object will be used to enable or disable the use of the Adobe Postscript Paper Handling Model in the printer firmware. By default it is enabled which means that PostScript will always defer the media selection to HP Paper Handling Model. Additional information: This object will be used to enable or disable the use of the Adobe Postscript Paper Handling Model in the printer firmware. By default it is enabled which means that PostScript will always defer the media selection to HP Paper Handling Model." ::= { pdl-postscript 14 } web-server-security OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "Each collection bit represents a device or Embedded Web Server feature that can be enabled or disabled via this object." ::= { settings-webserver 3 } calibration-power-on-delay OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "This is the delay interval for the power on calibration in minutes. This PML object is only used if the CALIBRATION-POWER-ON-INITIATION PML object is set to eDelayed. Additional information: This is the delay interval for the power on calibration in minutes. This PML object is only used if the CALIBRATION-POWER-ON-INITIATION PML object is set to eDelayed." ::= { settings-prt-eng 21 } duplex-blank-pages OBJECT-TYPE SYNTAX INTEGER { eDuplexBlankPagesAuto(1), eDuplexBlankPagesYes(2) } ACCESS read-write STATUS optional DESCRIPTION "When the value of the system variable is set to eDuplexBlankPagesAuto, it means to Smart Duplex in any of the specified conditions. This selection is logically equivalent to 'NO, do not duplex blank pages if not duplexing them obtains a performance enhancement'. When the value of the system variable is set to eDuplexBlankPagesYes, it means to disable Smart Duplexing. Additional information: When the value of the system variable is set to eDuplexBlankPagesAuto, it means to Smart Duplex in any of the specified conditions. This selection is logically equivalent to 'NO, do not duplex blank pages if not duplexing them obtains a performance enhancement'. When the value of the system variable is set to eDuplexBlankPagesYes, it means to disable Smart Duplexing." ::= { settings-prt-eng 28 } tray-prompt OBJECT-TYPE SYNTAX INTEGER { eDoNotDisplay(1), eDisplay(2) } ACCESS read-write STATUS optional DESCRIPTION "If this object is set to eDisplay, whenever a paper tray is opened, refilled, and closed in a printer, the end user is prompted with a message 'To change size or type press check' on the control panel. If this object is set to eDoNotDisplay, then the end user will not be prompted with this message whenever a paper tray is opened, refilled, and closed in a printer. Additional information: Whenever a paper tray is opened and closed, the user is provided with two options Display and Do Not Display, through the menu item Size/Type Prompt.On selecting Display he chooses to get prompted with the message to change the size or type of paper. Whereas he is not prompted with this message in case he chooses Do Not Display." ::= { settings-intray 19 } tray-disable-use-instead OBJECT-TYPE SYNTAX INTEGER { eDisabled(1), eEnabled(2) } ACCESS read-write STATUS optional DESCRIPTION "If this object is set to eEnabled, the paper mount message that is normally posted('To use another tray....') is turned off thereby disallowing the user to specify another tray from which paper can be taken for printing. However, on setting this object to eDisabled the paper mount message is posted allowing the user to specify another tray for paper feed. Additional information: The feature provides a menu item under TRAY BEHAVIOUR, i.e USE ANOTHER TRAY which has two options ENABLED and DISABLED. Whenever the menu item is set to ENABLED, it provides the user with the ability to select another tray from which paper could be provided for the job. However on selecting DISABLED forces the user to provide paper through the same tray, after the paper mount message is posted, in either cases." ::= { settings-ph 1 } pcl-total-page-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Total number of PCL pages printed by the device. Additional information: In $product_str the PCL page count is kept in NVRAM, and the NVRAM value is updated at least every 10 pages. NOTE: The value returned by this object will be incremented every page but if power is lost between NVRAM updates, up to 9 pages of the page count may be lost. The page count counter will be reset to zero after 16,777,215 (2^24-1) pages. The page count is incremented when a sheet of media is pulled from an input tray. A duplex printed sheet will cause this counter to be incremented by two." ::= { pdl-pcl 5 } pcl-default-font-height OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the default PCL height. Height is an approximate measure of the body of the type in centipoints. A centipoint is 1/7200 inch. Height applies only to proportional fonts. Point size, in points, can be converted to font height, in centipoints, by multiplying the point size by 100. The POS indicates the supported values. An unsupported value causes the printer to use the closest supported value, causing the printer to return . ''Closest'' means the smallest absolute difference. Additional information: Supported values range from 400 to 99975, in increments of 25 units. Setting to an unsupported value causes the printer to substitute in a snap value and to return status. The snap values are as follow: <=400 snaps to 400 >=99975 snaps to 99975 Unsupported values in the range 400 to 99975 snap DOWN to the previous supported value (i.e 25293 snaps to 25275 or 75038 snaps to 75025)." ::= { pdl-pcl 13 } pcl-default-font-source OBJECT-TYPE SYNTAX INTEGER { eInternal(1), ePermanentSoft(2), eRomSimm2(11), eRomSimm3(12), eRomSimm4(13), eRomSimm5(14) } ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the value of the default font source variable in NVRAM." ::= { pdl-pcl 14 } pcl-default-font-number OBJECT-TYPE SYNTAX INTEGER(0..255) ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the value of the default font number variable in NVRAM. Writing an unsupported value causes the printer to generate an . Additional information: Valid numbers or 0 - 255, but only font numbers that are included in the PCL FONT LIST are selectable." ::= { pdl-pcl 15 } pcl-default-font-width OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the default PCL font width. Width is expressed as the width of a character in centipoints. A centipoint is 1/7200 inch. Width applies only to fixed space fonts. Pitch, in character per inch, can be converted to font width, in centipoints, by dividing 7200 by the pitch. The POS indicates the supported values. An unsupported value causes the printer to use the closest supported value, causing the printer to return . ''Closest'' means the smallest absolute difference. Additional information: Setting to an unsupported value causes the printer to substitue in a snap value (listed below) and return status. The snap values for pitch are as follow: <=44 snaps to 44 >=9999 snaps to 9999" ::= { pdl-pcl 16 } postscript-total-page-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Total number of PostScript pages printed by the device. Additional information: This object is only supported if the PostScript option is installed. In $product_str the count is kept in NVRAM, and the NVRAM value is updated at least every 10 sheets. NOTE: The value returned by this object will be incremented every sheet but if power is lost between NVRAM updates up to 9 sheets of the count may be lost. The counter will be reset to zero after 16,777,215 (2^24-1) pages. " ::= { pdl-postscript 5 } postscript-print-errors OBJECT-TYPE SYNTAX INTEGER { eOff(1), eOn(2) } ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the value of the print PostScript errors setting. If eOn, PostScript prints an error page showing the error encountered and the stack at the time of the error. Additional information: This object is only supported if the PostScript option is installed." ::= { pdl-postscript 11 } pdf-print-errors OBJECT-TYPE SYNTAX INTEGER { eOff(1), eOn(2) } ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the value of the print PDF errors setting. If eOn, PDF prints an error page showing the error encountered and the stack at the time of the error. Additional information: This object is only supported if the PDF option is installed." ::= { pdl-pdf 4 } collated-originals-support OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Indicates that the printer can create multiple, collated 'originals' of a job and shows the level of support for this capability. cCollatedOriginals - The printer can create multiple collated originals, or 'mopies'. This is the base functionality required by the other collection items. cProofAndHold - The printer saves a copy of the job while printing the first mopy. Later, this held job can be released and the rest of the mopies will print. cSecurityPrint - The printer spools the job and holds the job until the user releases the job by entering a <> at the printer's control panel. cAutoHighlight - The printer prints the job a number of times with a mail distribution list prepended to each job. A different mailing address is highlighted on each mopy. cCollatedAtSpeed - The printer can create multiple collated copies where all copies after the original are printed at engine speed. Additional information: Indicates that the printer can create multiple, collated originals of a job and shows the level of support for this capability. cCollatedOriginals - The printer can create multiple collated originals, or mopies. This is the base functionality required by the other collection items. Without disk, this object will not exist. This will be set at boot-up initialization. If the disk fails, in any way, then the disk error functionality will handle the situation. A color printer (LaserJet 4550) that only has a RAMDISK installed is treated like there is no disk and therefore this object will not exist. The value of this object will be: !cCollatedOriginals - Only FLASH installed cCollatedOriginals - IDE is installed combined with/without FLASH cCollatedOriginals - RAMDISK is On combined with/without FLASH" ::= { status-system 42 } host-application-available-memory OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Returns the amount of memory, in bytes, that the device has available for job-related processing or resources. Also known as driver work space (DWS) memory." ::= { status-system 59 } job-info-change-id OBJECT-TYPE SYNTAX OCTET STRING (SIZE(16)) ACCESS read-only STATUS optional DESCRIPTION "Returns the current value of an object in the job-info sub-tree whose value has changed. Define the object identifier for the object whose value has changed as job-info.required-field.optional-field.job-id. job-info represents the OID prefix of all objects in the job-info sub-tree. Required-field represents the OID field value that follows the job-info prefix. Since some objects in the job-info sub-tree have two OID fields between the job-info prefix and the job-id, the optional-field represents the OID field between the required-field and the job-id field, if present. Using this definition, the format for the JOB-INFO-CHANGE-ID binary value can be described as follows: Bytes 0-3 : required-field Bytes 4-7 : optional-field, or all zeros if there is no optional field Bytes 8-11: Job ID. Bytes 12-n : The value of the object job-info. required-field.optional-field.job-id. All multi-byte values stored in Motorola (big-endian) format, where the most significant byte occurs first. Additional information: $product_str will use this object to report changes to the job-info-pages-printed and job-info-state objects. The required-field (bytes 0 through 3) will designate whether the change to be reported involves the pages printed (13) or job state (15). The optional-field (bytes 4 through 7) will always be zeroes. The value-field (bytes 12 through 15) will contain the new value for pages printed or job state cast to a 32-bit integer. Note: It is possible that traps generated by this object have the same value. This is caused by the architecture of $product_str. In the $product_str System, it is highly probable that the object value will change so rapidly that when the trap is processed, PML will read the same value twice. This is timing related and will generally be seen at the end of a job." ::= { settings-job 3 } hold-job-timeout OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "The time, in minutes, that the printer will wait before automatically deleting a held job. This allows the printer to automatically clean up jobs that have been forgotten (held but never released). Additional information: This applies to both temporary held jobs as well as stored jobs, i.e., HOLD=ON or PROOF or STORED. This is a global timer that only affects the jobs that are sent after it is set. A value of 0 means never delete the jobs. Setting it to an unsupported value causes the printer to substitute a value (listed below) and to return status. LaserJet 4600 supports values of 0, 60, 240, 1440, and 10080 The values are as follows: <=0 snap to 0 (disabled) >=1 and <=150 snap to 60 (60 minutes) >=151 and <=840 snap to 240 (4 hours) >=841 and <=2880 snap to 1440 (1 day) >=2881 snap to 10080 (1 week)" ::= { settings-job 10 } current-job-parsing-id OBJECT-TYPE SYNTAX INTEGER(-1..2147483647) ACCESS read-only STATUS optional DESCRIPTION "Contains the printer assigned job identification for the job currently being processed by the processing PDL sub-system. The job ID is a monotonically increasing number. The job ID may be reset to zero at power-up and may roll over to zero after reaching some maximum value. Additional information: A value of -1 is returned when the printer is not parsing a job. When data for a new job is detected, this object is updated (the job may or may not turn out to be a Null Job); however, the trap does not occur until the printer determines that it is not a Null Job. (A job is considered to be a 'null job' if it has no name or job attribute, causes no pages to be printed, and consumes MIN_JOB_SIZE (9) or fewer bytes.) A trapped value will differ from the previous value by one or more. See the Job Boundary ERS for details on what constitutes a job boundary. Some job-info- objects are created when the first data bytes are received. If the printer determines that the job is a Null Job, the job-info- objects related to the Null Job are deleted. $product_str retains the job-info- objects for the MAX_JOBS_IN_LIST (32) most recent jobs that are not Null Jobs. The first job received after power-up will have job ID 1, and the job ID will increment to 2,147,483,647 before rolling to zero. To distinguish whether a power cycle or a rollover causes a reduction in the job ID value, the object prtGeneralConfigChanges can be watched and if it increments at the same time as the drop is observed in the value of CURRENT-JOB-PARSING-ID, then a power cycle is the most likely cause." ::= { job-being-parsed 1 } job-info-name1 OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Contains the first part of this print job's name. The last OID field for this dynamic object contains the job ID. Additional information: The job name is the string specified by the NAME= parameter of the @PJL JOB command which allows a maximum of 80 characters. The first 40 characters are in this object and the second 40 are in job-info-name2. The symbol set is Roman-8. When jobs are nested, the value assigned to this object is the name provided by the most recent @PJL JOB NAME= command. If no name is provided, a null string is returned." ::= { job-info 1 } job-info-name2 OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Contains the second part of this print job's name. The last OID field for this dynamic object contains the job ID. Additional information: See job-info-name1." ::= { job-info 2 } job-info-stage OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Indicates what printer sub-systems are currently processing this print job. The last OID field for this dynamic object contains the job ID. cSourceSubsystem - some of the job is in the printer I/O subsystem. cProcessingSubsystem - some of the job is in the printer imaging processing subsystem. cDestinationSubsystem - some of the job is being printed. Additional information: For $product_str, cSourceSubsystem and cProcessingSubsystem will always be set and cleared together. They are set when the beginning of the job is detected, and they are cleared when the end of the job is parsed. A non-printing job will never set cDestinationSubsystem. When a page is ready to be printed (the intermediate has been built and the page is `closed' by the personality), cDestinationSubsystem will be set even if a page of a previous job is currently being printed. cDestinationSubsystem remains set until the last page of the job has finished printing. If a page requires extensive processing and allows all the previous pages of a job to complete printing, cDestinationSubsystem will remain set until the last page of the job has finished printing." ::= { job-info 10 } job-info-io-source OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Indicates which I/O source, the print job was received over. The value maps to port numbering scheme supported in the DEVICE/SOURCE-SUBSYSTEM/IO/PORTS sub-tree." ::= { job-info 11 } job-info-pages-processed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Indicates the number of pages processed by the processing subsystem. If neither the cSourceSubsystem or the cProcessingSubsystem items are in the associated JOB-INFO-STAGE object, then this object contains the total number of pages processed for this job. The last OID field for this dynamic object contains the job ID. Additional information: This object is incremented by one when a page is processed (`closed' by the personality), regardless of the number of pages that are printed as a result of the single page processed. In other words, it does not matter how many identical copies of a page are printed or no pages may be printed if operating in silent run mode, this count is incremented exactly once. A page is considered processed when all of the input data has been processed for a page (that is, when the intermediate has been produced, and the personality has `closed' the page. At this time, the image of the page is not necessarily completely formed.)" ::= { job-info 12 } job-info-pages-printed OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Indicates the number of pages printed by the destination subsystem. If none of the cSourceSubsystem, cProcessingSubsystem or cDestinationSubsystem items are in the associated JOB-INFO-STAGE object, then this object contains the total number of pages printed for this job. This value may increase by two each time for duplex jobs. The last OID field for this dynamic object contains the job ID. Additional information: If multiple copies of a page are printed, each copy is counted individually." ::= { job-info 13 } job-info-size OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Indicates the number of bytes of data processed by the processing subsystem. If neither of the cSourceSubsystem or cProcessingSubsystem items are in the associated JOB-INFO-STAGE object, then this object contains the size of this job, in bytes. The last OID field for this dynamic object contains the job ID. Additional information: This count may be incremented by values other than one as blocks of data are processed; blocks of data (which may be as large as 2K bytes) will be processed in a varying amount of time. During the processing of a job and even when a job completes, an exact count of the number of I/O bytes processed by the job is not necessarily to be expected." ::= { job-info 14 } job-info-state OBJECT-TYPE SYNTAX INTEGER { eAborted(3), eWaitingForResources(4), ePrinted(5), eTerminating(7), eCancelled(10), eProcessing(11), eScanning(12), eSending(13) } ACCESS read-only STATUS optional DESCRIPTION "Indicates the state of the job. The last OID field for this dynamic object contains the job ID. eAborted - the print job was aborted. eWaitingForResources - the print job requires resources that are not currently available. Example resources that can cause the job to wait include the print engine or PDL processor being unavailable. The print engine could be unavailable due to paper out, paper jam, staple out, stapler jam, marking agent low, output bin full, etc. The PDL processor could be unavailable due to an off-line condition. Each printer specific object specification should state which conditions cause a job to be waiting for resources and also state which objects can be retrieved by an application to determine the exact cause of a resource being unavailable. ePrinted - the job has printed. The related JOB-INFO- OUTCOME object indicates if any problems were encountered while the job was processed. eRetained - the job can be reprinted. eTerminating - the job was aborted or cancelled and is currently is terminating. eInterrupted - the job has been interrupted. The job can be continued. ePaused - the job has been paused. The job can be continuted. eCancelled - the job has been cancelled. eProcessing - the job is currently being printed normally. " ::= { job-info 15 } job-info-outcome OBJECT-TYPE SYNTAX INTEGER { eOk(3) } ACCESS read-only STATUS optional DESCRIPTION "Indicates if any warning or error conditions were encountered while processing the assoicated job. The last OID field for this dynamic object contains the job ID. Additional information: In $product_str, warnings and errors are not recorded in this object. Although no meaningful information can be obtained from this object, it is kept around for the compatibility needs of existing software." ::= { job-info 19 } job-info-outbins-used OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Indicates which output bins this job has delivered printed pages to. The last OID field for this dynamic object contains the job ID. Additional information: The bins designated by this collection include the printer's own output bins as well as the `logical output bins' associated with any attached external paper handling devices. (The mapping of the physical output bins of an external paper handling device to its `logical output bins' depends on the usage mode of the device. For instance, in `mailbox mode', there is one-to-one correspondence of `logical output bins' to physical bins, whereas in `stacker mode', one `logical output bin' may map to several physical bins.) Although LaserJet 4100 and LaserJet 4550 both come with two output bins -- a face-down bin on the top of the device and a face-up bin at the back of the device -- firmware will not provide a means of selecting between the two, nor will it report which of the two gets used. For this reason, bit 0 (cOutbin1) of this collection is being used to designate both of these bins together." ::= { job-info 20 } job-info-physical-outbins-used OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Indicates which physical output bins this job has delivered printed pages to. The last OID field for this dynamic object contains the job ID. Additional information: The output bins designated by the bits of this collection include the standard output bin(s) plus the physical bins of attached external paper handling devices. The configuration (if any) of external paper handling devices will determine the mapping of individual bits in this collection to the physical bins of the devices. For LaserJet 4100 and LaserJet 4550, the cOutbin1 is used for Face Down bin, cOutbin2 is used for Face Up bin, and 3-15 are used for the 13 optional output bins (12 plus an extension to the Face Up bin) for backwards compatibility with LaserJet 8000/LaserJet 8100 and forwards compatibility with LaserJet 8150. However, since they cannot distinguish output going to the Face Up or Face Down bin in the firmware because the diverter can only be moved manually, bit 0 (cOutbin1) is being used to designate both of these bits together. If an external paper handling output device is connected, then bit 2 (cOutbin3) will represent the device's first output bin (and so on)." ::= { job-info 22 } job-info-attr-1 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. Attribute objects are saved sequentially, starting with 1, after the start of a job. If more attributes are set than there are objects to store them, the excess JOBATTR values are ignored. If the corresponding SET JOBATTR= command has not been received when a get is done for this object, a status of will be returned." ::= { job-info-attribute 1 } job-info-attr-2 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 2 } job-info-attr-3 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 3 } job-info-attr-4 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 4 } job-info-attr-5 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 5 } job-info-attr-6 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 6 } job-info-attr-7 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 7 } job-info-attr-8 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 8 } job-info-attr-9 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 9 } job-info-attr-10 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 10 } job-info-attr-11 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 11 } job-info-attr-12 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 12 } job-info-attr-13 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 13 } job-info-attr-14 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 14 } job-info-attr-15 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 15 } job-info-attr-16 OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..80)) ACCESS read-only STATUS optional DESCRIPTION "Returns the value that was set in PJL via the SET JOBATTR= command. See JOB-INFO-ATTR-1 for details." ::= { job-info-attribute 16 } job-info-requested-originals OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The number of requested collated copies. The value was supplied with the job via PJL QTY variable, the PostScript Collate and NumCopies entries in the page device dictionary, or via some other mechansim." ::= { job-info 24 } job-info-page-count-current-original OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The page number being printed within the current copy of a collated multi-copy job. This value changes when the job-info-pages-printed changes. The job-info-pages-printed indicates the total number of pages printed in the job, while this object indicates the number of pages printed for this copy of a collated multi-copy job. Additional information: The number of pages in the current copy of a collated multi-copy job which have been completely printed and safely delivered to the output bin." ::= { job-info 25 } job-info-pages-in-original OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Number of pages in a single copy of a collated multi-copy job." ::= { job-info 26 } job-info-printed-originals OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Number of collated copies completely printed and delivered to the output bin at time of query." ::= { job-info 27 } job-info-accounting-media-size OBJECT-TYPE SYNTAX INTEGER { eUSExecutive(1), eUSLetter(2), eUSLegal(3), eLedger(11), eROC16K(17), eJISExecutive(18), eROC8K(19), eISOandJISA5(25), eISOandJISA4(26), eISOandJISA3(27), eJISB5(45), eJISB4(46), eISOB5(65), eJapansePostcardDouble(72), eMonarch(80), eCommercial10(81), eInternationalDL(90), eInternationalC5(91), eInternationalB5(100), eCustom(101), eUSLetterR(258), eISOandJISA4R(282), eUnknownMediaSize(32767) } ACCESS read-only STATUS optional DESCRIPTION "Contains the media size of the printed job. The media size of the first page will decide the media size of the entire job. The return value of this object will only be valid when the printer finishes printing the entire job." ::= { job-info-accounting 1 } job-info-accounting-media-type OBJECT-TYPE SYNTAX INTEGER { eUnknownMedia(0), eAny(1), eStandardType(2), eLight(3), eMidWeight(4), eHeavy(5), eExtraHeavy(6), eCardStock(7), eTransparency(8), eLabels(9), eLetterhead(10), eEnvelope(11), ePreprinted(12), ePrepunched(13), eColored(14), eBond(15), eRecycled(16), eRough(17), eUserType1(18), eUserType2(19), eUserType3(20), eUserType4(21), eUserType5(22) } ACCESS read-only STATUS optional DESCRIPTION "Contains the media type of the printed job. The media type of the first page will decide the media type of the entire job. The return value of this object will only be valid when the printer finishes printing the entire job." ::= { job-info-accounting 2 } job-info-accounting-finishing-options OBJECT-TYPE SYNTAX INTEGER { eNoFinish(1), eOffset(2), ePunch(3), eStapler(4), eFinisher(5) } ACCESS read-only STATUS optional DESCRIPTION "Contains the finishing option used on the printed job. The finishing option specified for the first page will decide the finishing option of the entire job. The return value of this object will only be valid when the printer finishes printing the entire job." ::= { job-info-accounting 3 } job-info-accounting-media-simplex-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains the total number of simplex pages printed in a particular job." ::= { job-info-accounting 4 } job-info-accounting-media-duplex-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains the total number of duplex pages printed in a particular job." ::= { job-info-accounting 5 } job-info-accounting-grayscale-impression-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains the total number of monochrome pages printed in a particular job." ::= { job-info-accounting 6 } job-info-accounting-color-impression-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains the total number of color pages printed in a particular job." ::= { job-info-accounting 7 } job-info-accounting-black-dots OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Contains the total number of black pixels used in a particular job. Additional information: This object reports kilodots. (A kilodot is 1000 dots.)" ::= { job-info-accounting 8 } job-info-accounting-job-type OBJECT-TYPE SYNTAX INTEGER { ePrintJob(1), eIPPJob(2), eCopyJob(3), eCopyInterruptJob(4), eJetSendJob(5), eInternalPage(6), eCleaningPage(7), eAutoCleaningPage(8), eDigitalSendJob(9), eWebPrintJob(10), eFaxPrintJob(11), eRetrievedJob(12), ePhotoCardPrintJob(13), eUnknownJob(1000) } ACCESS read-only STATUS optional DESCRIPTION "Keeps track of what type of job is processed. " ::= { job-info-accounting 14 } held-job-user-name OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..40)) ACCESS read-only STATUS optional DESCRIPTION "User name that is obtained by the driver through some internal method or from user input. Additional information: The following is a general description for all the JOB-MANAGEMENT objects described below. These object describe the attributes of the dynamic list containing all the stored jobs on the disk available for printing or deleting via the job-management feature. The jobs on this list are not deleted from the disk unless explicitly specified by the user. A print job may be specified for retention by PJL commands in the data stream. Following is a list of the PJL commands (i.e. these comments describe the PJL implementation and in some cases do not reflect the PML implementation.): @PJL SET HOLD=OFF|ON|PROOF|STORE|PRINT GENERAL DESCRIPTION: This variable specifies the retention classification of the job. The values indicate whether the job is printed immediately and/or stored. OFF: The job is printed but not retained on disk after printing. This is the default value. ON: This setting may be thought of as free proof-and-hold. The requested number of copies will be printed and the job will be temporarily stored on disk. The job will then be available for printing additional copies through the control panel and through PML. There will be a limit to the number of these temporary jobs that may be stored, and when the limit is exceeded the oldest job will be removed from the disk. PROOF: One copy of the job is printed and remaining copies are stored on disk. The job is then available to select for printing via the control panel menus or PML. The job will be deleted from the disk when the disk space is needed for another proof and hold job but only after the additional copies have been printed. It will also be deleted when the user sends down another proof and hold job with the same job name, or the user explicitly deletes the job. STORE: The job is not printed immediately but is retained on disk. The job is available to select for printing via the control panel DEFAULT VALUE: OFF The value will be stored in RAM only, not in NVRAM. The legal PJL commands are SET and INQUIRE. DEFAULT is not allowed. The variable will appear in the PJL INFO VARIABLES list. @PJL SET USERNAME=<80 bytes> GENERAL DESCRIPTION: Eighty-character user name that is obtained by the driver through some internal method or from user input. If the job stream does not contain a USERNAME the default value will be NO USER NAME. The driver is responsible for determining the size of the printers control panel and sending a string of appropriate length. DEFAULT VALUE: NO USER NAME The value will be stored in RAM only, not in NVRAM. The legal PJL commands are SET and, INQUIRE. DEFAULT is not allowed. The variable will appear in the PJL INFO VARIABLES list. @PJL SET JOBNAME=<80 bytes> GENERAL DESCRIPTION: Eighty-character job name that may be generated by the driver or obtained from user input. This value may be used in conjunction with the USERNAME to select a job from the front panel. If the job stream does not contain a JOBNAME, the printer will assume no job name; each subsequent job that is sent down by the same user would replace the users last job on disk. The driver is responsible for determining the size of the printers control panel and sending a string of appropriate length. NOTE: The limit of 80 bytes is a PJL limit. The limit for PML will be 40 bytes. DEFAULT VALUE: NULL STRING The value will be stored in RAM only, not in NVRAM. The legal PJL commands are SET and INQUIRE. DEFAULT is not allowed. The variable will appear in the PJL INFO VARIABLES list. @PJL SET HOLDTYPE=PUBLIC|PRIVATE GENERAL DESCRIPTION: This variable specifies the privacy level of the job. PUBLIC: The job does not require a PIN in order to be released for printing. This is the default value. PRIVATE: The job requires a PIN in order to be released for printing. The PIN is specified by the HOLDKEY variable. If the HOLDTYPE is set to PRIVATE, a HOLDKEY value must be specified. If no HOLDKEY is specified, the job will be considered PUBLIC. DEFAULT VALUE: PUBLIC The value will be stored in RAM only, not in NVRAM. The legal PJL commands are SET and INQUIRE. DEFAULT is not allowed. The variable will appear in the PJL INFO VARIABLES list. @PJL SET HOLDKEY=4 digits, 0000...9999 GENERAL DESCRIPTION: A 4-digit string, each digit 0-9, that is specified in the job stream and then required to be entered in order to release the job for printing. If a HOLDTYPE is PRIVATE, a HOLDKEY value must be specified. If no HOLDKEY value is specified, a job will be considered PUBLIC. DEFAULT VALUE: NULL STRING The value will be stored in RAM only, not in NVRAM. The legal PJL commands are SET and INQUIRE. DEFAULT is not allowed. The variable will appear in the PJL INFO VARIABLES list. The format for the OID is as follows: 3.4.1.6.x.y <-----> | | | | \ / | job-id in the system / \ PML_JOB_MGNT_ROOT_OID \ job attribute 1..6 x values are 1..6: 1) user-name: user name that is obtained by the driver through some internal method or from user input. 2) job-name: job name may be generated by the driver or obtained from user input. 3) hold: indicates the retention classification of the job. The values indicate whether the job is printed immediately and/or stored. There are 4 options: OFF: The job is printed but not retained on the disk. ON: The job is printed and stored temporarily on the disk. STORE: The job is not printed but stored on the disk. PROOF: One copy of the job is printed and the remaining copies are stored on the disk. 4) holdtype: The variable specifies the security level of the job. PUBLIC: The job does not require a PIN in order to release the job for printing. PRIVATE: The job requires a PIN in order to be released for printing. 5) quantity: number of copies to print. Valid values are 0..999. 6) pin: A 4 digit string, each digit is 0-9, that is specified in the job stream and then required to be entered in order to release the job for printing. y : an unsigned 32-bit number which uniquely identifies the job. The job id for the job remains the same for the job until it is deleted from the held jobs list. For example, the OID below is asking for the user name of the job whose id is 3. The application would issue: OID get 3.4.1.6.1.3 For example, the OID values sequence is as follows: OID returned OID getnext 3.4.1.6 3.4.1.6.1.1 getnext 3.4.1.6.1.1 3.4.1.6.1.2 getnext 3.4.1.6.2.1 3.4.1.6.2.2 *** getnext 3.4.1.6.1.6 3.4.1.6.1.7 getnext 3.4.1.6.2.1 3.4.1.6.2.2 getnext 3.4.1.6.5.2828 3.4.1.6.6.1 NOTE: for example above, job id 2828 is the last job in the list of held jobs. *** Also supported is on the job attributes: OID returned OID getnext 3.4.1.6.1 3.4.1.6.1.1 getnext 3.4.1.6.6 3.4.1.6.6.1" ::= { held-job-info 1 } held-job-job-name OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..40)) ACCESS read-only STATUS optional DESCRIPTION "The job name may be generated by the driver or obtained from user input." ::= { held-job-info 2 } held-job-retention OBJECT-TYPE SYNTAX INTEGER { eHoldOff(1), eHoldOn(2), eHoldStore(3), eHoldProof(4) } ACCESS read-only STATUS optional DESCRIPTION "Indicates the retention classification of the job. The values indicate whether the job is printed immediately or stored. There are 4 options: eHoldOff: The job is printed but not retained on the disk. eHoldOn: The job is printed and stored temporarily on the disk. eHoldStore: The job is not printed but stored on the disk. eHoldProof: One copy of the job is printed and the remaining copies are stored on the disk. " ::= { held-job-info 3 } held-job-security OBJECT-TYPE SYNTAX INTEGER { eHoldTypePublic(1), eHoldTypePrivate(2) } ACCESS read-only STATUS optional DESCRIPTION "The variable specifies the security level of the job. eHoldTypePublic: The job does not require a PIN in order to release the job for printing. eHoldTypePrivate: The job requires a PIN in order to be released for printing. " ::= { held-job-info 4 } held-job-quantity OBJECT-TYPE SYNTAX INTEGER(1..999) ACCESS read-only STATUS optional DESCRIPTION "Number of copies to print." ::= { held-job-info 5 } held-job-pin OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..4)) ACCESS read-only STATUS optional DESCRIPTION "A string that is specified in the job stream and then required to be entered in order to release the job for printing. PIN stands for Personal Identification Number. Additional information: Must be a 4 digit string, each digit must be 0..9 or a null string if there is no pin. For security purposes, you can no longer get the value of the PIN." ::= { held-job-info 6 } held-job-print OBJECT-TYPE SYNTAX OCTET STRING (SIZE(12)) ACCESS write-only STATUS optional DESCRIPTION "Instructs the printer to schedule the specified held job for printing with the specified number of copies. The job-id is used to identify which job to print. A held job can also be printed from the control panel. Additional information: Bytes 0-3 is the job id of the job to print. Bytes 4-7 is the number of copies to print. Bytes 8-11 (optional) contain the PIN for a Private job. " ::= { held-job-control 1 } held-job-delete OBJECT-TYPE SYNTAX INTEGER ACCESS write-only STATUS optional DESCRIPTION "Instructs the printer to delete the specified held job from the list. The job-id is used to identify which job to delete. A held job can also be deleted from the control panel. Additional information: Setting this to a value that is not a Held Job on the system or is a Private Held Job returns . To delete a private Held Job, you must use the PML object HELD-JOB-PRINT with a quantity of 0 and supply the correct HELD-JOB-PIN with the request. (See HELD-JOB-PRINT)" ::= { held-job-control 2 } held-job-set-queue-size OBJECT-TYPE SYNTAX INTEGER(0..100) ACCESS read-write STATUS optional DESCRIPTION "Sets the maximum number of jobs which can be stored in the held job list. Additional information: Sets the size of the temporary job lists queue." ::= { held-job-control 3 } held-job-enable OBJECT-TYPE SYNTAX INTEGER { eDisabled(1), eEnabled(2) } ACCESS read-write STATUS optional DESCRIPTION "Enables or disables Job Retention (Job Hold). The valid values are eDisabled and eEnabled. (Specifying an invalid mode causes an error to be returned.) When eDisabled is specified all Job Retention (Hold, Proof, Store, PIN Printing) is disabled. When eEnabled is specified, the Job Retention characteristics of a given job are defined by the PJL variable SET HOLD. Additional information: When disabled, held jobs are not removed, but must be explicitly removed through the Control Panel or the PML object HELD-JOB-DELETE." ::= { held-job-control 4 } mopy-mode OBJECT-TYPE SYNTAX INTEGER { eOff(1), eStandard(4), eEnhanced(5) } ACCESS read-write STATUS optional DESCRIPTION "Controls or reports how mopies are generated. eOff turns off the mopy feature. eAuto allows the device to determine the best method for generating mopies based on the device configuration. eStandard spools the I/O data and replays the I/O data multiple times to generate the mopies. eEnhanced spools the rasterized page images and replays the rasterized data to generate the mopies. Typically, the rasterized data will be larger and will allow all but the first mopy to print at speed. If the job being mopied is not extremely complex, then the first mopy will print at speed also." ::= { settings-spooler 1 } date-display OBJECT-TYPE SYNTAX INTEGER { eDateDisplayMMM-DD-YYYY(4), eDateDisplayDD-MMM-YYYY(5), eDateDisplayYYYY-MMM-DD(6) } ACCESS read-write STATUS optional DESCRIPTION "Controls front-panel date display format. Additional information: Controls front-panel date display format." ::= { settings-system 22 } date-and-time OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "A C structure containing the following fields: typedef struct { ubyte yr; /* year: 0 to 99 */ ubyte mon; /* month: 1 to 12 */ ubyte day; /* day: 1 to 31 */ ubyte wday; /* Day of week: 1 to 07 */ ubyte hr; /* hour: 0 to 23 */ ubyte min; /* minute: 0 to 59 */ ubyte sec; /* second: 0 to 59 */ } date_t; where ubyte is an unsigned byte (0-255). Additional information: A C structure containing the following fields: typedef struct { ubyte yr; /* year: 3 to 99 */ ubyte mon; /* month: 1 to 12 */ ubyte day; /* day: 1 to 31 */ ubyte wday; /* Day of week: 1 to 07 */ ubyte hr; /* hour: 0 to 23 */ ubyte min; /* minute: 0 to 59 */ ubyte sec; /* second: 0 to 59 */ } date_t; where ubyte is an unsigned byte (0-255)." ::= { status-system 17 } time-display OBJECT-TYPE SYNTAX INTEGER { eTimeDisplayTwelveHour(1), eTimeDisplayTwentyFourHour(2) } ACCESS read-write STATUS optional DESCRIPTION "Controls front-panel time display format. Set to eTimeDisplayTwelveHour for AM/PM display. Set to eTimeDisplayTwentyFourHour for military-type display. Additional information: Controls front-panel time display format. Set to eTimeDisplayTwelveHour for AM/PM display. Set to eTimeDisplayTwentyFourHour for military-type display." ::= { status-system 28 } rtc-time-zone OBJECT-TYPE SYNTAX INTEGER { eTzDateline(1), eTzSamoa(2), eTzHawaiian(3), eTzAlaskan(4), eTzPacific(5), eTzUSMountain(6), eTzMexico2(7), eTzMountain(8), eTzCentralAmerica(9), eTzCentral(10), eTzMexico(11), eTzCanadaCentral(12), eTzSAPacific(13), eTzEastern(14), eTzUSEastern(15), eTzAtlantic(16), eTzSAWestern(17), eTzPacificSA(18), eTzNewfoundland(19), eTzESouthAmerica(20), eTzSAEastern(21), eTzGreenland(22), eTzMidAtlantic(23), eTzAzores(24), eTzCapeVerde(25), eTzGreenwich(26), eTzGMT(27), eTzWEurope(28), eTzCentralEurope(29), eTzRomance(30), eTzCentralEuropean(31), eTzWCentralAfrica(32), eTzGTB(33), eTzEeurope(34), eTzEgypt(35), eTzSouthAfrica(36), eTzFLE(37), eTzJerusalem(38), eTzArabic(39), eTzArab(40), eTzRussian(41), eTzEAfrica(42), eTzIran(43), eTzArabian(44), eTzCaucasus(45), eTzAfghanistan(46), eTzEkaterinburg(47), eTzWestAsia(48), eTzIndia(49), eTzNepal(50), eTzNCentralAsia(51), eTzCentralAsia(52), eTzSriLanka(53), eTzMyanmar(54), eTzSEAsia(55), eTzNorthAsia(56), eTzChina(57), eTzNorthAsiaEast(58), eTzMalayPeninsula(59), eTzWAustralia(60), eTzTaipei(61), eTzTokyo(62), eTzKorea(63), eTzYakutsk(64), eTzCenAustralia(65), eTzAUSCentral(66), eTzEAustralia(67), eTzAUSEastern(68), eTzWestPacific(69), eTzTasmania(70), eTzVladivostok(71), eTzCentralPacific(72), eTzNewZealand(73), eTzFiji(74), eTzTonga(75) } ACCESS read-write STATUS optional DESCRIPTION "Controls the time zone, which can be chosen from a list of time zones similar to the one used by Microsoft Windows operating system: eTzDateline -12:00 International Date Line West eTzSamoa -11:00 Midway Island, Samoa eTzHawaiian -10:00 Hawaii eTzAlaskan -09:00 Alaska eTzPacific -08:00 Pacific Time (US & Canada); Tijuana eTzUSMountain -07:00 Arizona eTzMexico2 -07:00 Chihuahua, La Paz, Mazatlan eTzMountain -07:00 Mountain Time (US & Canada) eTzCentralAmerica -06:00 Central America eTzCentral -06:00 Central Time (US & Canada) eTzMexico -06:00 Guadalajara, Mexico City, Monterrey eTzCanadaCentral -06:00 Saskatchewan eTzSAPacific -05:00 Bogota, Lima, Quito eTzEastern -05:00 Eastern Time (US & Canada) eTzUSEastern -05:00 Indiana (East) eTzAtlantic -04:00 Atlantic Time (Canada) eTzSAWestern -04:00 Caracas, La Paz eTzPacificSA -04:00 Santiago eTzNewfoundland -03:30 Newfoundland eTzESouthAmerica -03:00 Brasilia eTzSAEastern -03:00 Buenos Aires, Georgetown eTzGreenland -03:00 Greenland eTzMidAtlantic -02:00 Mid-Atlantic eTzAzores -01:00 Azores eTzCapeVerde -01:00 Cape Verde Is. eTzGreenwich 00:00 Casablanca, Monrovia eTzGMT 00:00 Greenwich Mean Time : Dublin, Edinburgh, Lisbon, London eTzWEurope +01:00 Amsterdam, Berlin, Bern, Rome, Stockholm, Vienna eTzCentralEurope +01:00 Belgrade, Bratislava, Budapest, Ljubljana, Prague eTzRomance +01:00 Brussels, Copenhagen, Madrid, Paris eTzCentralEuropean +01:00 Sarajevo, Skopje, Warsaw, Zagreb eTzWCentralAfrica +01:00 West Central Africa eTzGTB +02:00 Athens, Beirut, Istanbul, Minsk eTzEeurope +02:00 Bucharest eTzEgypt +02:00 Cairo eTzSouthAfrica +02:00 Harare, Pretoria eTzFLE +02:00 Helsinki, Kyiv, Riga, Sofia, Tallinn, Vilnius eTzJerusalem +02:00 Jerusalem eTzArabic +03:00 Baghdad eTzArab +03:00 Kuwait, Riyadh eTzRussian +03:00 Moscow, St. Petersburg, Volgograd eTzEAfrica +03:00 Nairobi eTzIran +03:30 Tehran eTzArabian +04:00 Abu Dhabi, Muscat eTzCaucasus +04:00 Baku, Tbilisi, Yerevan eTzAfghanistan +04:30 Kabul eTzEkaterinburg +05:00 Ekaterinburg eTzWestAsia +05:00 Islamabad, Karachi, Tashkent eTzIndia +05:30 Chennai, Kolkata, Mumbai, New Delhi eTzNepal +05:45 Kathmandu eTzNCentralAsia +06:00 Almaty, Novosibirsk eTzCentralAsia +06:00 Astana, Dhaka eTzSriLanka +06:00 Sri Jayawardenepura eTzMyanmar +06:30 Rangoon eTzSEAsia +07:00 Bangkok, Hanoi, Jakarta eTzNorthAsia +07:00 Krasnoyarsk eTzChina +08:00 Beijing, Chongqing, Hong Kong, Urumqi eTzNorthAsiaEast +08:00 Irkutsk, Ulaan Bataar eTzMalayPeninsula +08:00 Kuala Lumpur, Singapore eTzWAustralia +08:00 Perth eTzTaipei +08:00 Taipei eTzTokyo +09:00 Osaka, Sapporo, Tokyo eTzKorea +09:00 Seoul eTzYakutsk +09:00 Yakutsk eTzCenAustralia +09:30 Adelaide eTzAUSCentral +09:30 Darwin eTzEAustralia +10:00 Brisbane eTzAUSEastern +10:00 Canberra, Melbourne, Sydney eTzWestPacific +10:00 Guam, Port Moresby eTzTasmania +10:00 Hobart eTzVladivostok +10:00 Vladivostok eTzCentralPacific +11:00 Magadan, Solomon Is., New Caledonia eTzNewZealand +12:00 Auckland, Wellington eTzFiji +12:00 Fiji, Kamchatka, MarshallIs. eTzTonga +13:00 Nuku'alofa Additional information: Controls the time zone, which can be chosen from a list of time zones similar to the one used by Microsoft Windows operating system: eTzDateline -12:00 International Date Line West eTzSamoa -11:00 Midway Island, Samoa eTzHawaiian -10:00 Hawaii eTzAlaskan -09:00 Alaska eTzPacific -08:00 Pacific Time (US & Canada); Tijuana eTzUSMountain -07:00 Arizona eTzMexico2 -07:00 Chihuahua, La Paz, Mazatlan eTzMountain -07:00 Mountain Time (US & Canada) eTzCentralAmerica -06:00 Central America eTzCentral -06:00 Central Time (US & Canada) eTzMexico -06:00 Guadalajara, Mexico City, Monterrey eTzCanadaCentral -06:00 Saskatchewan eTzSAPacific -05:00 Bogota, Lima, Quito eTzEastern -05:00 Eastern Time (US & Canada) eTzUSEastern -05:00 Indiana (East) eTzAtlantic -04:00 Atlantic Time (Canada) eTzSAWestern -04:00 Caracas, La Paz eTzPacificSA -04:00 Santiago eTzNewfoundland -03:30 Newfoundland eTzESouthAmerica -03:00 Brasilia eTzSAEastern -03:00 Buenos Aires, Georgetown eTzGreenland -03:00 Greenland eTzMidAtlantic -02:00 Mid-Atlantic eTzAzores -01:00 Azores eTzCapeVerde -01:00 Cape Verde Is. eTzGreenwich 00:00 Casablanca, Monrovia eTzGMT 00:00 Greenwich Mean Time : Dublin, Edinburgh, Lisbon, London eTzWEurope +01:00 Amsterdam, Berlin, Bern, Rome, Stockholm, Vienna eTzCentralEurope +01:00 Belgrade, Bratislava, Budapest, Ljubljana, Prague eTzRomance +01:00 Brussels, Copenhagen, Madrid, Paris eTzCentralEuropean +01:00 Sarajevo, Skopje, Warsaw, Zagreb eTzWCentralAfrica +01:00 West Central Africa eTzGTB +02:00 Athens, Beirut, Istanbul, Minsk eTzEeurope +02:00 Bucharest eTzEgypt +02:00 Cairo eTzSouthAfrica +02:00 Harare, Pretoria eTzFLE +02:00 Helsinki, Kyiv, Riga, Sofia, Tallinn, Vilnius eTzJerusalem +02:00 Jerusalem eTzArabic +03:00 Baghdad eTzArab +03:00 Kuwait, Riyadh eTzRussian +03:00 Moscow, St. Petersburg, Volgograd eTzEAfrica +03:00 Nairobi eTzIran +03:30 Tehran eTzArabian +04:00 Abu Dhabi, Muscat eTzCaucasus +04:00 Baku, Tbilisi, Yerevan eTzAfghanistan +04:30 Kabul eTzEkaterinburg +05:00 Ekaterinburg eTzWestAsia +05:00 Islamabad, Karachi, Tashkent eTzIndia +05:30 Chennai, Kolkata, Mumbai, New Delhi eTzNepal +05:45 Kathmandu eTzNCentralAsia +06:00 Almaty, Novosibirsk eTzCentralAsia +06:00 Astana, Dhaka eTzSriLanka +06:00 Sri Jayawardenepura eTzMyanmar +06:30 Rangoon eTzSEAsia +07:00 Bangkok, Hanoi, Jakarta eTzNorthAsia +07:00 Krasnoyarsk eTzChina +08:00 Beijing, Chongqing, Hong Kong, Urumqi eTzNorthAsiaEast +08:00 Irkutsk, Ulaan Bataar eTzMalayPeninsula +08:00 Kuala Lumpur, Singapore eTzWAustralia +08:00 Perth eTzTaipei +08:00 Taipei eTzTokyo +09:00 Osaka, Sapporo, Tokyo eTzKorea +09:00 Seoul eTzYakutsk +09:00 Yakutsk eTzCenAustralia +09:30 Adelaide eTzAUSCentral +09:30 Darwin eTzEAustralia +10:00 Brisbane eTzAUSEastern +10:00 Canberra, Melbourne, Sydney eTzWestPacific +10:00 Guam, Port Moresby eTzTasmania +10:00 Hobart eTzVladivostok +10:00 Vladivostok eTzCentralPacific +11:00 Magadan, Solomon Is., New Caledonia eTzNewZealand +12:00 Auckland, Wellington eTzFiji +12:00 Fiji, Kamchatka, Marshall Is. eTzTonga +13:00 Nuku'alofa" ::= { status-system 99 } automatic-daylight-savings OBJECT-TYPE SYNTAX INTEGER { eOff(1), eOn(2) } ACCESS read-write STATUS optional DESCRIPTION "Determines whether or not the automatic adjustment for daylight savings time is enabled. If it's enabled the device local time will be automatically adjusted for DST period. Additional information: Determines whether or not the automatic adjustment for daylight savings time is enabled. If its enabled the device local time will be automatically adjusted for DST period" ::= { status-system 100 } daylight-savings-start OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "A C structure containing the following fields: typedef struct { ubyte hour; /* hour: 0 to 23 */ ubyte weekday; /* weekday: 0(Sunday) to 6 */ ubyte occurrence; /* occurrence in the month: 1 to 5 */ ubyte month; /* month: 1 to 12 */ } dst; where ubyte is an unsigned byte (0-255). Additional information: A C structure containing the following fields: typedef struct { ubyte hour; /* hour: 0 to 23 */ ubyte weekday; /* weekday: 0(Sunday) to 6 */ ubyte occurrence; /* occurrence in the month: 1 to 5 */ ubyte month; /* month: 1 to 12 */ } dst; where ubyte is an unsigned byte (0-255)." ::= { status-system 101 } daylight-savings-end OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "A C structure containing the following fields: typedef struct { ubyte hour; /* hour: 0 to 23 */ ubyte weekday; /* weekday: 0(Sunday) to 6 */ ubyte occurrence; /* occurrence in the month: 1 to 5 */ ubyte month; /* month: 1 to 12 */ } dst; where ubyte is an unsigned byte (0-255). Additional information: A C structure containing the following fields: typedef struct { ubyte hour; /* hour: 0 to 23 */ ubyte weekday; /* weekday: 0(Sunday) to 6 */ ubyte occurrence; /* occurrence in the month: 1 to 5 */ ubyte month; /* month: 1 to 12 */ } dst; where ubyte is an unsigned byte (0-255)." ::= { status-system 102 } daylight-savings-offset OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Controls the offset in minutes to be added to the time when DST is in effect. Additional information: Controls the offset in minutes to be added to the time when DST is in effect" ::= { status-system 103 } daylight-savings-reset OBJECT-TYPE SYNTAX INTEGER { eResetToDefault(1), eCustomized(2) } ACCESS read-write STATUS optional DESCRIPTION "This object is used to reset (set back to factory default for the current time zone) or read the current status of the DST settings. When Set to eResetToDefault, this object can be used to reset all the DST related objects back to their factory default values. Setting this object with an enumerated value of eCustomized has no effect. When a Get operation is performed on this object it will return a value eResetToDefault if all DST settings are still set to they factory value. It will return eCustomized if any DST parameter has been set to a custom value. Additional information: This object is used to reset (set back to factory default for the current time zone) or read the current status of the DST settings. When Set to eResetToDefault, this object can be used to reset all the DST related objects back to their factory default values. Setting this object with an enumerated value of eCustomized has no effect. When a Get operation is performed on this object it will return a value eResetToDefault if all DST settings are still set to they factory value. It will return eCustomized if any DST parameter has been set to a custom value." ::= { status-system 104 } direct-connect-ports-enable OBJECT-TYPE SYNTAX INTEGER { eFalse(1), eTrue(2), eUnSupported(3) } ACCESS read-write STATUS optional DESCRIPTION "This object specifies whether all direct connect ports (parallel and USB) are available or ignored. JetDirect, embedded network connectivity, and third party add-on cards (such as Firewire) will be unaffected by setting this object." ::= { settings-system 43 } mio1-model-name OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Returns product information identifying the I/O card. Example: XXXX." ::= { mio1 2 } mio1-manufacturing-info OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Returns information describing the manufacture of the I/O card installed in MIO/EIO slot 1. May include serial number and firmware revision. Additional information: The format of the string returned is determined by the manufacturer of the EIO device. There is no standard for content of the string." ::= { mio1 3 } mio1-type OBJECT-TYPE SYNTAX INTEGER { eEmpty(1), eUnknown(2), eDiskDrive(8), eIOCard(12) } ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the type of option installed in MIO/EIO slot 1. See SIMM1-TYPE for an explanation of the enumerations." ::= { mio1 4 } mio1-ip-address OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This object will return the IP Address of the I/O cards present in the available slots of a printer. Laserjet 4700 MFP supports 2 slots and a Embedded Jet Direct Card. Slot 4 corresponds to the Embedded Jet Direct Card. If there is no I/O card in a particular slot, then a NULL value will be returned." ::= { mio1 6 } mio4-model-name OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Returns product information identifying the I/O card. Example: XXXX. Additional information: Returns a string describing the firmware version of the embedded JDI LAN card." ::= { mio4 2 } mio4-manufacturing-info OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Returns information describing the manufacture of the I/O card installed in MIO/EIO interface 4. May include serial number and firmware revision. Additional information: Returns a string describing the embedded JDI LAN card." ::= { mio4 3 } mio4-type OBJECT-TYPE SYNTAX INTEGER { eEmpty(1), eIOCard(12) } ACCESS read-only STATUS optional DESCRIPTION "Returns an indication of the type of option installed in MIO/EIO interface 4. See SIMM1-TYPE for an explanation of the enumerations. Additional information: Returns eEmpty if the embedded JDI LAN card is disabled. Returns eIOCard if the embedded JDI LAN card is enabled." ::= { mio4 4 } mio4-ip-address OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This object will return the IP Address of the I/O cards present in the available slots of a printer. Laserjet 4700 MFP supports 2 slots and a Embedded Jet Direct Card. Slot 4 corresponds to the Embedded Jet Direct Card. If there is no I/O card in a particular slot, then a NULL value will be returned." ::= { mio4 6 } usb-host-supported OBJECT-TYPE SYNTAX INTEGER { eFalse(1), eTrue(2) } ACCESS read-only STATUS optional DESCRIPTION "The USB Host protocol is supported by the device when the value returned is eTrue. The USB Host protocol is not supported when the value returned is eFalse." ::= { usb-interface 1 } usb-serial-number OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Returns the serial number of a connected USB device as defined in the Standard Device Descriptor of the Universal Serial Bus Specification Version 2.0." ::= { usb 1 } usb-manufacturer-name OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Returns the description of the manufacturer of a connected USB device as defined in the Standard Device Descriptor of the Universal Serial Bus Specification Version 2.0." ::= { usb 2 } usb-product-description OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Returns the product description of a connected USB device as defined in the Standard Device Descriptor of the Universal Serial Bus Specification Version 2.0." ::= { usb 3 } usb-vendor-id OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Returns the Vendor ID of a connected USB device as defined in the Standard Device Descriptor of the Universal Serial Bus Specification Version 2.0. The value will be in the range 0..65535." ::= { usb 4 } usb-product-id OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Returns the Product ID of a connected USB device as defined in the Standard Device Descriptor of the Universal Serial Bus Specification Version 2.0. The value will be in the range 0..65535." ::= { usb 5 } usb-device-kind OBJECT-TYPE SYNTAX INTEGER { eUSBStorageDevice(1), eUSBNonStorageDevice(2), eUSBCompositeDevice(3), eUSBUnsupportedDevice(4) } ACCESS read-only STATUS optional DESCRIPTION "The USB-DEVICE-KIND object classifies a USB device into one of four broad categories: \ eUSBStorageDevice(1): The USB device is strictly a device for storing data. \ eUSBNonStorageDevice(2): The USB device has no storage capability (e.g., a card reader). \ eUSBCompositeDevice(3): The USB device has storage capability and additional functionality normally not associated with a storage device. \ eUSBUnsupportedDevice(4): The USB device was detected, but no driver exists for the device or the device draws more current than allowed. \" ::= { usb 6 } usb-driver-name OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Returns the name of the low-level USB driver supporting this device." ::= { usb 7 } io-timeout OBJECT-TYPE SYNTAX INTEGER(5..300) ACCESS read-write STATUS optional DESCRIPTION "The amount of time, in seconds, to wait for more print job data to be received before an I/O timeout occurs. The I/O channel being timed is the I/O channel that received the data associated with the current print job. If an I/O timeout occurs, the PDL processing sub-system assumes all the data associated with the current print job has been received, and processes the end of job in a PDL specific manner. The POS specifies the supported values. Additional information: If an I/O timeout occurs,the PDL processing sub-system will consider it an end of job condition only if there is data from another I/O subsystem waiting to be processed. The supported values are 5 to 300 seconds. Setting to a value outside the supported range returns status and the value will be snapped to the nearest supported value." ::= { settings-io 1 } io-switch OBJECT-TYPE SYNTAX INTEGER { eYes(1) } ACCESS read-only STATUS optional DESCRIPTION "Indicates if the device will switch between I/O channels when a job boundary is encountered and print job data is available on another I/O channel." ::= { settings-io 2 } port1-parallel-speed OBJECT-TYPE SYNTAX INTEGER { eSlow(1), eFast(2) } ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the maximum parallel I/O port speed, for port 1. This object is only supported if this port is a parallel port. An eSlow setting causes a 10 us busy pulse per received byte of data. An eFast setting causes a 1.5 us busy pulse per received byte of data. In rare cases, setting this value to eFast can cause the parallel port to no longer transfer data reliably. Additional information: When the value of this object is changed, it takes effect immediately. It is recommended that the printer be offline and not in a job when this object is changed." ::= { port1 4 } port1-parallel-bidirectionality OBJECT-TYPE SYNTAX INTEGER { eUnidirectional(1), eBidirectional(2) } ACCESS read-write STATUS optional DESCRIPTION "Returns or changes whether the parallel I/O port supports bidirectional communication for port 1. This object is only supported if this port is a parallel port. Additional information: A get on this object returns the current mode for the parallel port. Setting this object specifies whether or not bidirectional communications will be allowed." ::= { port1 5 } channelnumberofchannels OBJECT-TYPE SYNTAX INTEGER ACCESS write-only STATUS optional DESCRIPTION "An indication of how many print data channels the I/O card supports. Additional information: This object is used by the IIO card to tell the peripheral firmware how many logical channels will be used by the card. This object can only be set once per physical channel. If an attempt is made to set it a subsequent time it is ignored and an return code of Protocol | Number ---------+------- UDP/IP | 17 IPX | 1000 MLC | 4660 Bytes 3 and 4 indicate the address family. The address family uses the same mapping as the BSD sockets address family. A list of interesting address family mappings include: Address Family | Number ---------------+------- Internet | 2 NetWare | 6 MLC | 22136
The format the fifth and following bytes is dependent on the address family. For the Internet address family, bytes 5 and 6 contain the port number, bytes 7 through 10 contain the IP address, and the following eight bytes are unused. For NetWare, bytes 5 through 8 are the network number, bytes 9 through 14 are the node number, and bytes 15 and 16 are the socket number. Additional information: The length of the binary value is zero if the instance of an object in the rpc-bind-protocol-address array is not in use. Returns status if attempting to access this object and there is no storage device is installed." ::= { settings-rpc 2 } rpc-bound-protocol-address OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "An array of Berkeley sockets style protocol addresses that the NFS service has been bound to successful. The format is that same as the array of RPC-BIND-PROTOCOL-ADDRESS of objects. Additional information: Returns status if attempting to access this object and there is no storage device is installed." ::= { status-rpc 3 } file-system-max-open-files OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The number of open files allowed at one time. Opening a file when the maximum number of files are currently open will fail. Additional information: Indicates the number of open files a personality (e.g. PCL or PostScript) is guaranteed to be able to open before the file system runs out of file handles. This object is between 1 and 500. Returns status if attempting to access this object and there is no storage device is installed." ::= { settings-file-system 2 } file-system-delete-files OBJECT-TYPE SYNTAX OCTET STRING ACCESS write-only STATUS optional DESCRIPTION "Setting this object causes the specified filename to be deleted, after first validating that the authentication data is correct for the specified user ID. The format for this object is a C structure: typedef struct { sint32 UserId; uint16 AuthenticationDataLen ubyte AuthenticationData[] char Filename[]; } fs_delete_files_t; which is described below: Bytes 0 - 3: contains a user id represented as a multi-byte value that is stored in big-endian format, where the most significant byte occurs first. Bytes 4 - 5 : Length of the Athentication data that follows starting at offset 6. Stored as a multi-byte value that is stored in big-endian format, where the most significant byte occurs first. Bytes 6 - 6+AuthenticationDataLen : a ubyte array containing the Authentication data used to verify access for this operation. Bytes starting at offset (6+AuthenticationDataLen+1): A null terminated character array representing the ASCII file name to be deleted. The length of the string will be limited by the remaining space in the object. This string represents a fully-qualified path name which may specify a filename or a regular expression that may match multiple files (e.g /*.exe). Access to this command is controlled by the UserId and the authentication data. If the UserID or authentication data supplied is incorrect the command will fail. The device POS will specify any limitations to the length of the filename string, what constitutes a correct user ID, what constitutes correct authentication data, and the significance of any return values. Additional information: Setting this object causes the specified filename to be deleted, after first validating that the authentication data is correct for the specified user ID. This object is always present. The format for this object is a C structure: typedef struct { sint32 UserId; uint16 AuthenticationDataLen ubyte AuthenticationData[] char Filename[]; } fs_delete_files_t; Bytes 0 - 3: contains a user id represented as a multi-byte value that is stored in big-endian format, where the most significant byte occurs first. Bytes 4 - 5 : Length of the authentication data that follows starting at offset 6. Stored as a multi-byte value that is stored in big-endian format, where the most significant byte occurs first. Bytes 6 - 6+AuthenticationDataLen : a ubyte array containing the authentication data used to verify access for this operation. Bytes starting at offset (6+AuthenticationDataLen+1): A null terminated character array representing the ASCII file name to be deleted. The length of the string will be limited by the remaining space in the object. This string represents a fully-qualified path name which may specify a filename or a file-type regular expression that may match multiple files (e.g., /*.exe). Access to this command is controlled by the UserId and the authentication data. If the UserID or authentication data supplied is incorrect the command will fail. The device POS will specify any limitations to the length of the filename string, what constitutes a correct user ID, what constitutes correct authentication data, and the significance of any return values." ::= { settings-file-system 8 } file-system-external-access-capabilities OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "This object is used to control access to the file system of the device. It is always readable. It is writable when <> is not the empty string, and a successful write to that object with the current <> has preceded the write to this object. In other words, the <> must be in the 'authenticated state' for a write on FILE-SYSTEM-EXTERNAL-ACCESS-CAPABILITIES to succeed. After the object has successfully been written to, it becomes read-only, and the <> object exits the authenticated state. <> must then be written to again with the current <> in order to make another write operation on FILE-SYSTEM-EXTERNAL-ACCESS-CAPABILITIES possible. cDisablePJLFileSystemAccess - All file system access through PJL will be disabled. cDisablePMLFileSystemWrite - All file-systems-related PML objects such as FILE-SYSTEM-DELETE-FILES or hrPartitionLabel become read-only. For objects that are normally write-only this means that no successful operations can now be performed on them. cDisableNFSFileSystemAccess - All NFS file system access will be disabled. cDisablePSFileSystemAccess - All file system access through PostScript will be disabled. cDisableEWSFileSystemAccess - All access to the file system by the Embedded Web Server will be disabled. " ::= { settings-file-system 10 } file-system-erase-mode OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "This object is used to control how file data is handled when files are deleted. It is always readable. It is writable when <> is the empty string or when a write to <> with the current <> has preceeded the write to the object. When <> is not the empty string then this object becomes read-only after a successful write to it. <> must then be written to again with the current <> in order to make another write operation on the object possible. If the <> is incorrectly set, this object becomes read-only until the <> is correctly set. The logical settings for this object are: NonSecureFastErase - When a file is deleted, only the reference to it in the file system tables is removed. No file data is overwritten. This is the default setting. This is the setting when both bits in the collection are set to 0. SecureFastErase - File information is overwritten with identical, random character pattern when it is deleted. This is the setting when cEraseMode0 is set to 1 and cEraseMode1 is set to 0. SecureSanitizeErase - Secure, repetitive algorithm used to overwrite all deleted file information and remove any residual data persistence. A random character is written to all bytes of deleted sectors. Then the complement of that character and finally, another random character is written. This is the setting when cEraseMode0 is set to 0 and cEraseMode1 is set to 1. Note that an error will be returned for an attempt to set both bits of the collection to 1." ::= { settings-file-system 11 } file-system-wipe-disk OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "This object is a non-leaf node which will have one leaf node under it for each file system in the printer. The leaf nodes will be in a 1-to-1 correspondence with the hrDeviceIndex objects. This object specifies for each leaf node whether the file system on the device is going to be erased according to the setting of the FILE-SYSTEM-ERASE-MODE referenced by the corresponding hrDeviceIndex. A file system will be overwritten on system reboot if this object is set to 1. It will be unchanged if this object is set to 0. If this object's value is -1 then the file system cannot be wiped. If the file system contains the permstore, the permstore will be saved off and restored after the file-system wipe is completed. This object is always readable. It is writable when <> is the empty string or when a write to <> with the current <> has preceeded the write to the object. When <> is not the empty string then this object becomes read-only after a successful write to it. <> must then be written to again with the current <> in order to make another write operation on the object possible. If the <> is incorrectly set, this object becomes read-only until the <> is correctly set." ::= { settings-file-system 12 } file-system-wipe-disk-status OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "This object is a non-leaf node which will have one leaf node under it for each file system in the printer. The leaf nodes will be in a 1-to-1 correspondence with the hrDeviceIndex objects. This object specifies for each leaf node the status of a disk wipe in progress. A return value of -1 indicates that no disk wipe is in progress. A return value in the range of 0 to 100 indicates the percent done for a disk wipe in progress. All other values are illegal." ::= { settings-file-system 13 } file-system2-initialize-volume OBJECT-TYPE SYNTAX INTEGER { eInitializing(2) } ACCESS write-only STATUS optional DESCRIPTION "Setting this object to eInitializing causes file system 2 to be initialized. Reading this object indicates if the file system is currently being initialized. Additional information: The hrDeviceIndex value for the mass storage device is the same value that is used to index into the FILE-SYSTEM sub-tree. Since this product supports up to 3 physical mass storage device, and since the hrDeviceIndex for the mass storage devices will start at 2 if the mass storage device is installed, the FILE-SYSTEM2-INITIALIZE-VOLUME object will be the object that allows the mass storage device to be initialized that is the 1st device." ::= { file-system2 6 } file-system3-initialize-volume OBJECT-TYPE SYNTAX INTEGER { eInitializing(2) } ACCESS write-only STATUS optional DESCRIPTION "Setting this object to eInitializing causes file device-system 3 to be initialized. Reading this object indicates if the file system is currently being initialized. Additional information: The hrDeviceIndex value for the mass storage device is the same value that is used to index into the FILE-SYSTEM sub-tree. Since this product supports up to 3 physical mass storage device, and since the hrDeviceIndex for the mass storage devices will start at 2 if the mass storage device is installed, the FILE-SYSTEM3-INITIALIZE-VOLUME object will be the object that allows the mass storage device to be initialized that is the 2nd device." ::= { file-system3 6 } file-system4-initialize-volume OBJECT-TYPE SYNTAX INTEGER { eInitializing(2) } ACCESS write-only STATUS optional DESCRIPTION "Setting this object to eInitializing causes file system 4 to be initialized. Reading this object indicates if the file system is currently being initialized. Additional information: The hrDeviceIndex value for the mass storage device is the same value that is used to index into the FILE-SYSTEM sub-tree. Since this product supports up to 3 physical mass storage devices, and since the hrDeviceIndex for the mass storage devices will start at 2 if the mass storage device is installed, the FILE-SYSTEM4-INITIALIZE-VOLUME object will be the object that allows the mass storage device to be initialized that is the 3rd device." ::= { file-system4 6 } mass-storage-resource-change-counter OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "A counter which changes when a mass storage based resource has been added or deleted. Additional information: The value of this counter changes each time the MASS-STORAGE-RESOURCE-CHANGED object is set to eTrue. The value also changes when the mass storage device is initialized. However, the value does not change when a mass storage device is removed and a different mass storage device is installed. Initializing all volumes sets this object back to the factory default value. A reboot sets this object back to the factory devalut value. Returns status if attempting to access this object and there is no storage device is installed." ::= { mass-storage-resources 1 } mass-storage-resource-changed OBJECT-TYPE SYNTAX INTEGER { eTrue(2) } ACCESS write-only STATUS optional DESCRIPTION "Setting to eTrue causes MASS-STORAGE-RESOURCE-CHANGE-COUNTER to be incremented. Additional information: Returns status if attempting to access this object and there is no storage device is installed." ::= { mass-storage-resources 2 } ram-disk-mode OBJECT-TYPE SYNTAX INTEGER { eOff(1), eAuto(3) } ACCESS read-write STATUS optional DESCRIPTION "Returns or controls RAM disk support. eOFF turns off the RAM disk functionality. eOn turns on the RAM disk functionality and creates a RAM disk whose size is controlled by the RAM-DISK-SIZE object. eAuto turns on the RAM disk functionality and creates a RAM disk size determined by the printer based on installed options and other memory related settings. Additional information: Returns or controls RAM disk support. eOFF turns off the RAM disk functionality. eAuto turns on the RAM disk functionality and creates a RAM disk size determined by the printer based on the amount of installed memory." ::= { settings-mass-storage-bd 1 } ram-disk-size OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Returns or controls the size of the RAM disk. The device POS specifies the minimum memory requirements. The object MAXIMUM-RAM-DISK-MEMORY specifies the maximum memory available for the RAM disk. Additional information: Returns the size of the RAM disk." ::= { settings-mass-storage-bd 2 } maximum-ram-disk-memory OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "This object's name is misleading. This object does not return the maximum configurable RAM disk size. Instead, it returns the maximum amount of memory, in bytes, that can used to increase the size of the RAM disk. Additional information: This object returns the maximum amount of additional memory that is available for increasing the size of the RAM disk." ::= { status-mass-storage-bd 1 } device-configure-printer-parameters OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..256)) ACCESS read-write STATUS optional DESCRIPTION "Allow the printer to be configured as a duplex or simplex printer. There will be a <> encoded in this string and decoded by the printer firmware. If the <> check passes the printer will be configured accordingly. Additional information: Used to configure engines for duplex enabled or not. Encoded configuration string is passed in, which is decoded by firmware. Firmware verifies config. string is valid, and retrieves device Configuration data. Expandable to accommodate future products configuration needs." ::= { device-configure 12 } device-configure-quiet-mode-printing OBJECT-TYPE SYNTAX INTEGER { eDisabled(1), eEnabled(2), eSelected(3) } ACCESS read-write STATUS optional DESCRIPTION "Return or set the value of the quiet mode setting. Additional information: Return or set the value of the quiet mode setting." ::= { device-configure 15 } start-engine-early-warmup OBJECT-TYPE SYNTAX INTEGER { eValue1(1) } ACCESS write-only STATUS mandatory DESCRIPTION "This PML object is used by HP SW drivers to signal the printer that a job is coming, and to start the warm-up process early.The effect of warming up early will reduce the First Page Out time. Additional information: This PML object is used by HP SW drivers to signal the printer that a job is coming, and to start the warm-up process early.The effect of warming up early will reduce the First Page Out time." ::= { settings-system 99 } enable-engine-early-warmup OBJECT-TYPE SYNTAX INTEGER { eDisable(1), eEnable(2) } ACCESS read-only STATUS optional DESCRIPTION "This PML object is used by HP SW to enable/disable the printer to send the signal of warm-up process early to engine. The effect of warming up early will reduce the First Page Out time. Additional information: This PML object is used by HP SW to enable/disable the printer to send the signal of warm-up process early to engine. The effect of warming up early will reduce the First Page Out time." ::= { settings-system 101 } ship-cartridge-installed-in-printer OBJECT-TYPE SYNTAX INTEGER { eNoIntegrationInProgress(0), eIntegrationSetupInProgress(1), eReadyForIntegration(2), eReadyToShip(3) } ACCESS read-write STATUS optional DESCRIPTION "Set developer motor cams in the position needed for shipping the cartridges installed in the printer if set to eTrue. Additional information: Set the engine to the corresponding status in different phases of SCIP." ::= { status-system 97 } job-input-auto-continue-timeout OBJECT-TYPE SYNTAX INTEGER(-1..3600) ACCESS read-write STATUS optional DESCRIPTION "The number of seconds the device waits after a job related continuable error occurs before automatically continuing. An example job related continuable error is the job requesting a media size that is not available. After the timeout expires, the device will continue processing the job as if a continue event occurred, such as the front panel continue key being pressed. If the value is -1, the device does not automatically continue after a job related continuable error occurs. If the value is 0, the device immediately continues. If the value is greater than 0, the value represents the timeout value in seconds. Additional information: The number of seconds the device waits after a job related continuable error occurs before automatically continuing. An example job related continuable error is the job requesting a media size that is not available. After the timeout expires, the device will continue processing the job accourding to the action defined by JOB-INPUT-AUTO-CONTINUE-MODE. If the value is -1, the device does not automatically continue after a job related continuable error occurs. If the value is 0, the device immediately continues. If the value is greater than 0, the value represents the timeout value in seconds. The data for this object is stored in NVRAM." ::= { status-system 35 } job-input-auto-continue-mode OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "Returns or sets the device behavior when the desired media is not currently available. cCancelJob - The device cancels the job. The device POS should explain what happens if this item is not the only item in the collection. cAutoMediaSizeOverride - The device is allowed to substitute a different size media. cAutoMediaNameOverride - The device is allowed to substitute a different media name. cUSMediaSizeOverride - The device is allowed to substitute US media sizes (letter, etc.) for ISO media sizes (A4, etc.). cISOMediaSizeOverride - The device is allowed to substitute ISO media sizes (A4, etc.) for US media sizes (letter, etc.). Additional information: Returns or sets the device behavior when the desired media is not currently available. cCancelJob - The device cancels the job regardless of other item settings. cAutoMediaSizeOverride - The device is allowed to substitute a different size media. cAutoMediaNameOverride - The device is allowed to substitute a different media name. -- cUSMediaSizeOverride - The device is allowed to substitute -- US media sizes (letter, etc.) for ISO media sizes -- (A4, etc.). -- cISOMediaSizeOverride - The device is allowed to substitute -- ISO media sizes (A4, etc.) for US media sizes -- (letter, etc.). At least one bit of the collection must be set; setting this object to zero will cause a status of to be returned. This object describes the action that is performed when the JOB-INPUT-AUTO-CONTINUE-TIMEOUT expires. " ::= { status-system 36 } job-output-auto-continue-timeout OBJECT-TYPE SYNTAX INTEGER(-1..3600) ACCESS read-write STATUS optional DESCRIPTION "Returns or sets the time that the printer will wait after an output bin becomes full and the printer is trying to deliver a sheet of media to that output bin. When the timeout expires, the job is processed according to the OUTBINn-OVERRIDE-MODE. A value of -1 indicates that the printer will wait for a continue event. A non-negative value is the number of seconds to wait. Additional information: Returns or sets the time that the printer will wait after an output bin becomes full and the printer is trying to deliver a sheet of media to that output bin. When the timeout expires, the job is processed according to the OUTBINn-OVERRIDE-MODE. A value of -1 indicates that the printer will wait for a continue event. A non- negative value is the number of seconds to wait." ::= { status-system 40 } dfa-data-in-nvram OBJECT-TYPE SYNTAX INTEGER(0..65535) ACCESS read-write STATUS optional DESCRIPTION "This object will act as a Read/Write area for HP print application to facilitate the new Design for Attach Data and Product Warranty Extension efforts. This object will access a special area of protected NVRAM. The value will be in the range 0..65535. Additional information: This object will act as a Read/Write area for HP print application to facilitate the new Design for Attach Data and Product Warranty Extension efforts. This object will access a special area of protected NVRAM. The value will be in the range 0..65535." ::= { status-system 116 } model-number OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "Identifies the device model number as listed in the HP corporate price list (e.g. C2121A for DeskJet 500C). The string is as specific as possible. Products should note in POS if the model number on the CPL changes but the device reports the previous model number. If the model number changes based on the installed options, the POS should indicate if only the base model number is returned, or if the device senses the installed options and returns the correct model number. If possible, encode the model number in a symbol set (like Roman-8) that matches the ASCII character set and limit the characters used to ASCII characters. Additional information: Identifies the device model number as listed in the HP corporate price list (e.g. C2121A for DeskJet 500C). The string is as specific as possible. The value of this object does not change based on the installed options. The default of this object is the same on all $product_str printers." ::= { id 1 } model-name OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..32)) ACCESS read-only STATUS optional DESCRIPTION "Identifies the device model name (e.g. ''DeskJet 1200C''). The string is as specific as possible. Capitalization and spacing should match family naming conventions. Products should note in POS if the model name on the HP corporate price list changes but the device reports the previous device name. If the model name changes based on the installed options, the POS should indicate if only the base model name is returned, or if the device senses the installed options and returns the correct model name. If possible, encode the model name in a symbol set (like Roman-8) that matches the ASCII character set and limit the characters used to ASCII characters. Additional information: Since the value of this object is frequently used in displaying a list of printers, it is kept relatively short in case systems have limited width for their display area. The model name does not change based on sensing of installed options." ::= { id 2 } formatter-serial-number OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This object returns the formatter serial number for the device. The value returned from this object is the FORMATTERNUMBER system variable. If possible, encode the serial number in a symbol set (like Roman-8) that matches the ASCII character set and limit the characters used to ASCII characters. Additional information: Returns the formatter serial number, prefixed with the PML_UNICODE_PREFIX.." ::= { id 20 } print-density OBJECT-TYPE SYNTAX INTEGER(0..5) ACCESS read-write STATUS optional DESCRIPTION "Returns or sets the print density setting. Print density is the instantaneous amount of marking agent applied to the paper while printing. A value of zero has the lowest print density, yielding a lighter page. A value of 10 has the highest print density, yielding a darker page. Each POS should document what values in the 0 to 10 range are supported. Additional information: Returns or sets the print density setting. Print density is the instantaneous amount of marking agent applied to the paper while printing. A value of zero has the lowest print density, yielding a lighter page. A value of 10 has the highest print density, yielding a darker page. Each POS should document what values in the 0 to 10 range are supported." ::= { settings-prt-eng 5 } marking-agent-density-setting OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or sets the marking agent density setting for each of the marking agents installed. The Marking Agent (aka Print) density is the instantaneous amount of marking agent applied to the media while printing. A value of zero has the lowest print density, yielding a lighter page. A value of 10 has the highest print density, yielding a darker page. The device POS will document what values are supported. Additional information: Returns or sets the print density setting. Print density is the instantaneous amount of marking agent applied to the paper while printing. A value of zero has the lowest print density, yielding a lighter page. A value of 10 has the highest print density, yielding a darker page." ::= { marking-agent-density 1 } autocleaning-page-enable OBJECT-TYPE SYNTAX INTEGER { eDisabled(1), eEnabled(2) } ACCESS read-write STATUS optional DESCRIPTION "When set to eEnabled this object will enable the periodic printing of a page designed to clean the fuser on an EP printing system. The interval between cleaning pages is determied by the setting of the AUTOCLEANING-PAGE-FREQUENCY object and the media size is determined by the AUTOCLEANING-PAGE-SIZE object. This object could also be used in the future to clean the inkjet heads on an inkjet system. Additional information: When set to eEnabled this object will enable the periodic printing of a page designed to clean the fuser on an EP printing system. The interval between cleaning pages is determied by the setting of the AUTOCLEANING-PAGE-FREQUENCY object and the media size is determined by the AUTOCLEANING-PAGE-SIZE object. This object could also be used in the future to clean the inkjet heads on an inkjet system. If duplexer is installed, attempting to get or set this object will cause to be returned." ::= { settings-prt-eng 10 } autocleaning-page-frequency OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Controls the number of pages between printing of the auto cleaning page (if enabled). Any device specific 'snap' behavior for this page interval will be specified in the device pos. Additional information: Controls the number of pages between printing of the auto cleaning page (if enabled). The legal values are 500, 1000, 2000, 5000, 10000, and 20000. All other values will return OK_NEAREST_LEGAL_VALUE_SUBSTITUTED." ::= { settings-prt-eng 11 } autocleaning-page-size OBJECT-TYPE SYNTAX INTEGER { eUSLetter(2), eISOandJISA4(26) } ACCESS read-write STATUS optional DESCRIPTION "Controls the size of paper used to print the auto cleaning page (if enabled). Additional information: Controls the size of paper used to print the auto cleaning page (if enabled)." ::= { settings-prt-eng 12 } finisher-image-rotation OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "This PML object will provide the additional image rotation that is applied to a printed job depending on the presence or absence of a finisher device or the value of the SVM_ALWAYS_MATCH_OUTPUT_ORIENTATION variable. Additional information: This PML object will provide the additional image rotation that is applied to a printed job depending on the presence or absence of a finisher device and/or the state of the IMAGE ROTATION menu element." ::= { settings-prt-eng 31 } media-sensor-calibration OBJECT-TYPE SYNTAX INTEGER { eStartMediaSensorCalibration(3) } ACCESS write-only STATUS optional DESCRIPTION "This object is used to start the media sensor calibration. If you do a get on this object it will simply return the media sensor state. If you set this object to the value 3 then it will start a media sensor calibration. Additional information: This object is useded to start the media sensor calibration. If you set this object to the value 3 then it will set the proper NVRAM bytes in the engine to zero thus signaling the DCC to start a media sensor calibration." ::= { settings-prt-eng 35 } total-mono-page-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Total number of black pages printed by the device. Additional information: Total number of black pages printed by the device." ::= { status-prt-eng 6 } duplex-page-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Total number of sheets of media that have been duplex printed. A sheet is counted if it travels through the duplex page path, regardless of whether or not marks are made on the page. The POS will indicate if the value is kept in NVRAM. Additional information: Total number of sheets of media that have been duplex printed. A sheet is counted if it travels through the duplex page path, regardless of whether or not marks are made on the page. This value is kept in NVRAM however the NVRAM value is only updated every 10 sheets. NOTE: The value returned by this object will be incremented every sheet but if power is lost between NVRAM updates up to 9 sheets of the count may be lost. The counter will be reset to zero after 16,777,215 (2^24-1) pages. " ::= { status-prt-eng 22 } print-engine-revision OBJECT-TYPE SYNTAX OCTET STRING (SIZE(1..16)) ACCESS read-only STATUS optional DESCRIPTION "Print engine revision string. Additional information: Print engine revision string. The symbol set for this string is Roman-8. " ::= { status-prt-eng 26 } input-tray-auto-select OBJECT-TYPE SYNTAX INTEGER { eOff(1), eOn(2) } ACCESS read-write STATUS optional DESCRIPTION "Indicates if the device will automatically try to load media from the next input media tray in the auto-select sequence (defined by each device) when it cannot load media from the current tray. Locked trays will not be permitted in the auto-select sequence. This object has no meaning if there is only one unlocked input media tray. Additional information: Indicates if the device will automatically try to load media from the next input media tray in the auto-select sequence (defined by each device) when it cannot load media from the current tray. Locked trays will not be permitted in the auto-select sequence. This object has no meaning if there is only one unlocked input media tray." ::= { settings-intray 2 } custom-paper-feed-dim OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Sets the printer's custom paper dimension in the feed direction (direction parallel to the direction of paper feeding). The value for this object is specified in micrometers or tenthousandths of an inch, depending upon the value of CUSTOM-PAPER-DIM-UNIT. The valid range is engine-dependent and should be documented in the POS for each product. Additional information: Get/Set custom paper dimension (height). The return/set value is either in micrometers or 10,000ths of inches. A tray has to be in custom switch or without media size sensor to be able to set the custom dimension. If it is successfully setting the dimension value, the size of a tray is set to CUSTOM." ::= { settings-intray 8 } custom-paper-xfeed-dim OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Sets the printer's custom paper dimension in the cross-feed direction (direction ninety degrees relative to the direction of paper feeding). The value for this object is specified in micrometers or tenthousandths of an inch, depending upon the value of CUSTOM-PAPER-DIM-UNIT. The valid range is engine-dependent and should be documented in the POS for each product. Additional information: Get/Set custom paper dimension (width). The return/set value is either in micrometers or 10,000ths of inches. A tray has to be in custom switch or without media size sensor to be able to set the custom dimension. If it is successfully setting the dimension value, the size of a tray is set to CUSTOM." ::= { settings-intray 9 } default-custom-paper-dim-unit OBJECT-TYPE SYNTAX INTEGER { eTenThousandthsOfInches(3), eMicrometers(4) } ACCESS read-write STATUS optional DESCRIPTION "The units of measure used to specify the width and height of the printer's default custom paper size. The unit of measure of eTenThousandthsOfInches is 0.0001 inches. Additional information: The units of measure used to specify the width and height of the printer's default custom paper size. The unit of measure of eTenThousandthsOfInches is 0.0001 inches." ::= { settings-intray 10 } default-custom-paper-feed-dim OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Sets the printer's default custom paper size dimension in the feed direction (direction parallel to the direction of paper feeding). The value for this object is specified in micrometers or tenthousandths of an inch, depending upon the value of DEFAULT-CUSTOM-PAPER-DIM-UNIT. The valid range is engine-dependent and should be documented in the POS for each product. Additional information: Sets the printer's default custom paper size dimension in the feed direction (direction parallel to the direction of paper feeding). The value for this object is specified in micrometers or tenthousandths of an inch, depending upon the value of DEFAULT-CUSTOM-PAPER-DIM-UNIT. The valid range is engine-dependent and should be documented in the POS for each product." ::= { settings-intray 11 } default-custom-paper-xfeed-dim OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Sets the printer's default custom paper size dimension in the cross-feed direction (direction ninety degrees relative to the direction of paper feeding). The value for this object is specified in micrometers or tenthousandths of an inch, depending upon the value of DEFAULT-CUSTOM-PAPER-DIM-UNIT. The valid range is engine-dependent and should be documented in the POS for each product. Additional information: Sets the printer's default custom paper size dimension in the cross-feed direction (direction ninety degrees relative to the direction of paper feeding). The value for this object is specified in micrometers or tenthousandths of an inch, depending upon the value of DEFAULT-CUSTOM-PAPER-DIM-UNIT. The valid range is engine-dependent and should be documented in the POS for each product." ::= { settings-intray 12 } input-tray-max-media-feed-dim OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The maximum physical media size in the feed direction of this input device expressed in units of measure specified by INPUT- TRAY-MIN-MAX-DIM-UNIT. A value of (-1) implies 'unlimited', a value of (-2) implies 'unknown'. Additional information: The maximum physical media size in the feed direction of this input device expressed in units of measure specified by PrtInputDimUnit. A value of (-1) implies 'unlimited', a value of (-2) implies 'unknown'. Refer to Printer Management Standards web page, http://bldlabs.boi.hp.com/BLDPrinterLab/Project/PrinterManagement, for more details in the original format of the Standard Printer MIB." ::= { settings-intray 14 } input-tray-max-media-xfeed-dim OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The maximum physical media size across the feed direction of a particular input device expressed in units of measure specified by INPUT-TRAY-MIN-MAX-DIM-UNIT. A value of (-1) implies 'unlimited', a value of (-2) implies 'unknown'. Additional information: The maximum physical media size across the feed direction of this input device expressed in units of measure specified by PrtInputDimUnit. A value of (-1) implies 'unlimited', a value of (-2) implies 'unknown'. Refer to Printer Management Standards web page, http://bldlabs.boi.hp.com/BLDPrinterLab/Project/PrinterManagement, f or more details in the original format of the Standard Printer MIB." ::= { settings-intray 15 } input-tray-min-media-feed-dim OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The minimum physical media size in the feed direction of a particular input device expressed in units of measure specified by PrtInputMinMaxDimUnit. A value of (-1) implies 'unlimited', a value of (-2) implies 'unknown'. Additional information: The minimum physical media size in the feed direction of this input device expressed in units of measure specified by PrtInputDimUnit. A value of (-1) implies 'unlimited', a value of (-2) implies 'unknown'. Refer to Printer Management Standards web page, http://bldlabs.boi.hp.com/BLDPrinterLab/Project/PrinterManagement, for more details in the original format of the Standard Printer MIB." ::= { settings-intray 16 } input-tray-min-media-xfeed-dim OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "The minimum physical media size across the feed direction of a particular input device expressed in units of measure specified by PrtInputMinMaxDimUnit. A value of (-1) implies 'unlimited', a value of (-2) implies 'unknown'. Additional information: The minimum physical media size across the feed direction of this input device expressed in units of measure specified by PrtInputDimUnit. A value of (-1) implies 'unlimited', a value of (-2) implies 'unknown'. Refer to Printer Management Standards web page, http://bldlabs.boi.hp.com/BLDPrinterLab/Project/PrinterManagement, for more details in the original format of the Standard Printer MIB." ::= { settings-intray 17 } tray1-media-size-loaded OBJECT-TYPE SYNTAX INTEGER { eUSExecutive(1), eUSLetter(2), eUSLegal(3), eFoolscap(10), eStatement(15), eROC16K(17), eISOandJISA6(24), eISOandJISA5(25), eISOandJISA4(26), eJISB5(45), eJapansePostcardDouble(72), eMonarch(80), eCommercial10(81), eInternationalDL(90), eInternationalC5(91), eInternationalB5(100), eCustom(101), eAnyCustomSize(32764), eAnySize(32765) } ACCESS read-write STATUS optional DESCRIPTION "Returns the media size that is currently configuredconfigured in tray #1. This object can be set to indicate the media size currently loaded, if the printer supports input trays that can not sense the media size. Complete list of supported media sizes along with their dimensions are listed in the ''Media Size Table'' near the end of this document. Additional information: Returns the media size that is currently configuredconfigured in tray #1. This object can be set to indicate the media size currently loaded, if the printer supports input trays that can not sense the media size. Complete list of supported media sizes along with their dimensions are listed in the ''Media Size Table'' near the end of this document." ::= { intray1 1 } tray1-phd OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Provides the number of the Paper Handling Device that contains this input tray. Additional information: Provides the number of the Paper Handling Device that contains this input tray." ::= { intray1 12 } tray2-media-size-loaded OBJECT-TYPE SYNTAX INTEGER { eUSExecutive(1), eUSLetter(2), eUSLegal(3), eFoolscap(10), eStatement(15), eROC16K(17), eISOandJISA6(24), eISOandJISA5(25), eISOandJISA4(26), eJISB5(45), eCustom(101) } ACCESS read-write STATUS optional DESCRIPTION "Returns the media size that is currently configured in tray #2. Complete list of supported media sizes along with their dimensions are listed in the ''Media Size Table'' near the end of this document. Additional information: Returns the media size that is currently configured in tray #2." ::= { intray2 1 } tray2-phd OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Provides the number of the Paper Handling Device that contains this input tray. Additional information: Provides the number of the Paper Handling Device that contains this input tray." ::= { intray2 12 } tray3-media-size-loaded OBJECT-TYPE SYNTAX INTEGER { eUSExecutive(1), eUSLetter(2), eUSLegal(3), eFoolscap(10), eROC16K(17), eISOandJISA5(25), eISOandJISA4(26), eJISB5(45), eCustom(101), eAnyCustomSize(32764) } ACCESS read-write STATUS optional DESCRIPTION "Returns the media size that is currently configured in tray #3. Complete list of supported media sizes along with their dimensions are listed in the ''Media Size Table'' near the end of this document. Additional information: Returns the media size that is currently configured in tray #3." ::= { intray3 1 } tray3-phd OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Provides the number of the Paper Handling Device that contains this input tray. Additional information: Provides the number of the Paper Handling Device that contains this input tray." ::= { intray3 12 } tray5-media-size-loaded OBJECT-TYPE SYNTAX INTEGER { eUSExecutive(1), eUSLetter(2), eUSLegal(3), eFoolscap(10), eROC16K(17), eISOandJISA5(25), eISOandJISA4(26), eJISB5(45), eCustom(101), eAnyCustomSize(32764) } ACCESS read-write STATUS optional DESCRIPTION "Returns the media size that is currently configured in tray #5. Complete list of supported media sizes along with their dimensions are listed in the ''Media Size Table'' near the end of this document. Additional information: Returns the media size that is currently configured in tray #5." ::= { intray5 1 } tray5-phd OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Provides the number of the Paper Handling Device that contains this input tray. Additional information: Provides the number of the Paper Handling Device that contains this input tray." ::= { intray5 12 } overflow-bin OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or sets the bin that will be used for additional sheets of media when the current bin is full and printing is allowed to continue. Additional information: Returns or sets the bin that will be used for additional sheets of media when the current bin is full and printing is allowed to continue. The data for this object is stored in NVRAM." ::= { settings-outbin 4 } outbin1-override-mode OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "Returns or sets the device behavior when this output bin condition causes printing to stop. cCancelJob - The device cancels the job. cOutbinFullOverride - The device sends subsequent media to the overflow bin. cOutbinAttentionOverride - The device ignores the attention condition and continues printing. cBinderAttentionOverride - The device ignores the binder attention condition and continues printing. Additional information: Returns or sets the device behavior when this output bin condition causes printing to stop. cCancelJob - The device cancels the job, regardless of other bit settings. cOutbinFullOverride - The device sends subsequent media to the overflow bin. If this bin is the overflow bin, this bit is ignored. cOutbinAttentionOverride - The device ignores the attention condition and continues printing. cBinderAttentionOverride - The device ignores the binder attention condition and continues printing. This object describes the action that is performed when the JOB-OUTPUT-AUTO-CONTINUE-TIMEOUT expires. If no bits are set, no override action is taken (the printer will continue to wait)." ::= { outbin1 9 } north-edge-offset OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or sets the number of 300 dpi dots by which the image is shifted. Shift is relative to the leading edge of the medium as the medium flows through the marking engine with the side to be imaged facing the observer. The leading edge is the North edge and the other edges are defined by the normal compass layout of directions with the compass facing the observer. The adjustment is for all pages printed. A positive value moves the image away from the leading edge of the medium. A negative value moves the image closer to the leading edge of the medium. The value 0 will return the image to its factory default position. Additional information: Returns or sets the number of 300 dpi dots by which the image is shifted. Shift is relative to the leading edge of the medium as the medium flows through the marking engine with the side to be imaged facing the observer. The leading edge is the North edge and the other edges are defined by the normal compass layout of directions with the compass facing the ob server. The adjustment is for all pages printed. A positive value moves the image away from the leading edge of the medium. A negative value moves the image closer to the leading edge of the medium. The value 0 will return the image to its factory default position. The value of this object is stored in NVRAM." ::= { settings-print-media 2 } engine-media-modes-supported1 OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "The list of engine media modes supported by the device. The modes are each separated by a comma character. An example string would be: 'Normal,Rough,Low,Vellum'. Additional information: The list of engine media modes supported by the device. The modes are each separated by a comma character. An example string would be: 'Normal,Rough,Low,Vellum'." ::= { media-modes 1 } non-assured-oht-page-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "This is a count of the number of invalid (non-HP Laser Jet) transparencies that have been printed on. This value is incremented every time an invalid OHT is printed on It is reset whenever the fuser count is set to 0. Additional information: This is a count of the number of invalid (non HP Laser Jet) transparencies that have been printed on. This value is incremented every time an invalid OHT is printed on. It is reset whenever the fuser count is set to 0." ::= { media-counts 1 } media-size-west-edge-first-side-offset OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or sets the number of 300 dpi dots by which the image is shifted relative to the west edge of the medium (see NORTH-EDGE-OFFSET). The adjustment is for the first printed side of the medium only. A positive value moves the image away from the west edge of the medium. A negative value moves the image closer to the west edge of the medium. The value 0 will return the image to its factory default position. Additional information: Returns or sets the number of 300 dpi dots by which the image is shifted relative to the west edge of the medium (see NORTH-EDGE-OFFSET). The adjustment is for the first printed side of the medium only. A positive value moves the image away from the west edge of the medium. A negative value moves the image closer to the west edge of the medium. The value 0 will return the image to its factory default position. The values in the sub array index are from the media size table in the hpmib. This adjustment is done on a paper size by paper size basis. The standard PCL5 codes for paper size are used for the value used in the OID. Please see S_ARRAY_SUB1 for legal " ::= { media-size 2 } media-size-west-edge-second-side-offset OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or sets the number of 300 dpi dots by which the image is shifted relative to the west edge of the medium (see NORTH-EDGE-OFFSET). The adjustment is for the second printed side of the medium only. A positive value moves the image away from the west edge of the medium. A negative value moves the image closer to the west edge of the medium. The value 0 will return the image to its factory default position. Additional information: Returns or sets the number of 300 dpi dots by which the image is shifted relative to the west edge of the medium (see NORTH-EDGE-OFFSET). The adjustment is for the second printed side of the medium only. A positive value moves the image away from the west edge of the medium. A negative value moves the image closer to the west edge of the medium. The value 0 will return the image to its factory default position. The values in the sub array index are from the media size table in the hpmib. This adjustment is done on a paper size by paper size basis. The standard PCL5 codes for paper size are used for the value used in the OID. Please see S_ARRAY_SUB1 for legal values. The data for this object is stored in NVRAM." ::= { media-size 3 } media-size-west-edge-side-offset-by-tray OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or sets the number of 300 dpi dots by which the image is shifted relative to the west edge of the medium (see NORTH-EDGE-OFFSET). A positive value moves the image away from the west edge of the medium. A negative value moves the image closer to the west edge of the medium. The value 0 will return the image to its factory default position. Each OID binding corresponds to a valid tray number for this product. There can be a maximum of 15 trays, a combination of internal and external trays. Products that support other combinations of trays will specify this information in the device pos. The data for this object is stored in NVRAM. Additional information: Returns or sets the number of 300 dpi dots by which the image is shifted relative to the west edge of the medium (see NORTH-EDGE-OFFSET). A positive value moves the image away from the west edge of the medium. A negative value moves the image closer to the west edge of the medium. The value 0 will return the image to its factory default position. Each OID binding corresponds to a valid tray number for this product. There can be a maximum of 15 trays, a combination of internal and external trays. Products that support other combinations of trays will specify this information in the device pos. The data for this object is stored in NVRAM." ::= { media-size 4 } cartridge-adaptive-gain OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "The Adaptive TA Gain is stored for the last 5 cartridges. Cartridge one is the most recent to be installed (current), and cartridge 5 is least recent to be installed. This object is double array object. OID extension is CARTRIDGE-ADAPTIVE-GAIN.x.n, where x is 1..4 (x is Black, Cyan, Magenta, Yellow Toner), and n is 1..5 (n is number of cartridges). Additional information: The Adaptive TA Gain is stored for the last 5 cartridges. Cartridge 1 is the most recent to be installed (current), and cartridge 5 is least recent to be installed. This object is double array object. OID extension is CARTRIDGE-ADAPTIVE-GAIN.x.n, where x is 1..4 (x is Black, Cyan, Magenta, Yellow Toner), and n is 1..5 (n is number of cartridges)." ::= { settings-prt-eng 36 } cartridge-adaptive-gain-reset OBJECT-TYPE SYNTAX INTEGER { eFalse(1), eTrue(2) } ACCESS read-write STATUS optional DESCRIPTION "This object will Reset the Adaptive TA Gain value to 1.00 and disable the adaptive TA routine. The value that this object returns is stored in non-volatile memory. Additional information: This object will Reset the Adaptive TA Gain value to 1.00 and disable the adaptive TA routine. The value that this object returns is stored in non-volatile memory." ::= { settings-prt-eng 37 } supplies-at-very-low-setting OBJECT-TYPE SYNTAX INTEGER { eStopAtOut(2), eOverrideAtOut(4), ePromptAtOut(6) } ACCESS read-write STATUS optional DESCRIPTION "This object can be used to change the setting of menu item AT VERY LOW. The behavior of the printer when a supply reaches low changes in accordance with the setting of this PML Object. If the option eStopAtOut is selected then printer will stop when a supply reaches Estimated End of Life (EEOL). If the option eOverrideAtOut is selected then printer will continue past EEOL in override mode. If the option eOverrideAtOut is selected then printer will continue past EEOL in override mode. If the option ePromptAtOut is selected then printer will ask the user if they wish to continue printing past EEOL in override mode. If the option eAutoContinueBlack is selected then printer will continue printing in mono past EEOL. This may be subject to page limits. (Color only) NOTE: This object replaces SUPPLIES-REPLACE-ACTION-AT-SETTING Additional information: This PML object can be used to change the setting of the AT VERY LOW menu item. The behavior of the printer when a supply hits very low changes in accordance with the setting of this PML Object. 1. eStopAtOut - Printer will stop when a supply reaches out. 2. eOverrideAtOut - Printer will continue to print past very low. 3. ePromptAtOut - Printer will stop at very low, but will continue to print if user chooses to continue." ::= { settings-prt-eng 38 } supply-out-action-support OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This object is used to determine if a particular capability that allows printing to continue after one or more cartridge has reached out is supported by the device. The collection bits include: cSupplyOutOverride - indicates that continuing to print with an out supply in use is supported. cMonochromePrintingAfterColorCartridgeOut - indicates that continuing to print in monochrome after a color cartridge is out is supported. cPrintingToMaxLife - indicates that printing until 'max life' is reached is supported [monochrome only]. Additional information: This object is used to determine what capabilities are supported by the device for allowing printing to continue after one or more cartridges have reached out. The collection bits include: cCartridgeOutOverride - indicates that continuing to print with an out cartridge in use is supported." ::= { status-prt-eng 48 } supply-out-device-state OBJECT-TYPE SYNTAX INTEGER { eNoSupplyOut(1), eOffline(2), eCartridgeOutOverride(3) } ACCESS read-only STATUS optional DESCRIPTION "This PML object indicates the current behavior of the device if one or more supplies have reached out. If no supply has reached out, the value of this PML object is eNoSupplyOut. If one or more supplies have reached out, the value of this PML object will indicate if the printer is online and if so what mode is being used to continue printing. Additional information: This object indicates the current behavior of the device if one or more supplies have reached out. The enums represent: eNoSupplyOut - No supplies have reached out. eOffline - Printer is offline since one or more supplies have reached out. eCartridgeOutOverride - The cartridge override out is active." ::= { status-prt-eng 49 } supply-after-out-state OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This object is used to read and write the various status flags indicating whether the consumable was used after out. The collection bits supported include: cNotUsedAfterOut - indicates the consumable was not used in any capacity after out. If cUsedAfterOutInOverrideMode or cUsedAfterOutInMonoPrintingAfterColorOutMode is set, this flag will not be set. cInstalledWhileInOverrideMode - indicates the consumable was installed while Supply Out Override was activated. cUsedAfterOutInOverrideMode - indicates the consumable was used after out while Supply Out Override was activated. cInstalledWhileInMonoPrintingAfterColorOutMode - indicates the consumable was installed while MPACCO was activated. cUsedAfterOutInMonoPrintingAfterColorOutMode - indicates the consumable was used after out while MPACCO was activated. Additional information: This object is used to read the various status flags indicating whether the consumable was used after out. The collection bits include: cNotUsedAfterOut - indicates the consumable is not used after out. cUsedAfterOutInOverrideMode - indicates the consumable was used after out while cartridge out override was actiavted. cInstalledWhileInMonoPrintingAfterColorOutMode - indicates that the consumable was installed while MPACCO was activated. cUsedAfterOutInMonoPrintingAfterColorOutMode - indicates that the consumable was after out while MPACCO was activated." ::= { status-prt-eng 50 } consumable-status-page-count-b5-executive OBJECT-TYPE SYNTAX INTEGER(0..65535) ACCESS read-only STATUS optional DESCRIPTION "This object is used to report the number of pages that have been printed by this consumable that are of the specified media size - B5 or Executive. Additional information: This object will only exist for Authentic HP consumables. If the cartridge is deemed to be NonHP, then this object will not exist." ::= { consumable-status 13 } consumable-status-partnumber OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This object will have one sub-array for the consumable and will will hold the consumable's part number. Additional information: This object is used to report Part Number of the consumable." ::= { consumable-status 56 } consumable-status-web-service-access-data OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "This object is used to report Web Service Access Data. Additional information: This object is used to report Web Service Access Data." ::= { consumable-status 75 } consumable-status-web-service-access-control OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This object is used to report data that controls how web service access is enabled. Additional information: This object is used to report data that controls how web service access is enabled." ::= { consumable-status 76 } consumable-status-tls-max-value OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "This object returns the toner level sensor (TLS) max value for the consumable. Additional information: This object returns the TLS max value for the consumable." ::= { consumable-status 96 } consumable-status-printer-design-compatibility OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "This object will returns the value of printer design compatibility for the consumable. Additional information: This object will returns the value of printer design compatibility for the consumable." ::= { consumable-status 97 } consumable-current-pixels-printed-for-iso-page OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "This object is used to get Current value of Pixels Page Page Value in firmware for each color type. Returns integer value of current pixels per page. Additional information: This object is used to get Current value of Pixels Page Page Value in firmware for each color type. Returns integer value of current pixels per page." ::= { consumable-status 100 } consumable-last-pixels-printed-for-iso-page OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "This object is used to get Pixels Page Page Value for last printed page for each color type. Returns integer value of current pixels per page. Additional information: This object is used to get Pixels Page Page Value for last printed page for each color type. Returns integer value of current pixels per page." ::= { consumable-status 101 } consumable-status-formatter-mono-page-count OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "This object is used for getting current value of formatter mono page count on e lable. This object will be applocable for mono procuts only. Additional information: This object is used to report the number of A4 equivalent Pages that have been printed by a Mono consumable." ::= { consumable-status 102 } consumable-string-information OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..287)) ACCESS read-write STATUS optional DESCRIPTION "This object is used to read and write the string value that describes the consumable information." ::= { consumable-string 1 } consumable-string-information-reset OBJECT-TYPE SYNTAX INTEGER { ePresetToNVRAM(1) } ACCESS read-write STATUS optional DESCRIPTION "This object is used to reset (set back to factory default) or read the current status of the corresponding information string. When Set to eResetToDefault, this object can be used to reset the corresponding information object back to its factory default value. Setting this object with an enumerated value of eCustomized has no effect. When a Get operation is performed on this object it will return a value eResetToDefault if still set to its factory value. It will return eCustomized if the corresponding information value has been set to a custom value. Additional information: This object returns ePresetToNVRAM(1) if CONSUMABLE-STRING-INFORMATION is currently set to the default string. It will return eCustomized(2) otherwise. However, we can explicitly set this object only to ePresetToNVRAM(1) and not eCustomized(2)." ::= { consumable-string 2 } consumable-reorder-url OBJECT-TYPE SYNTAX OCTET STRING (SIZE(0..64)) ACCESS read-write STATUS optional DESCRIPTION "This object is used to read and write the URL that can be used to reorder consumables for this device. This URL is set at the factory but can be updated by a reseller or third party. Additional information: The URL can be up to 64 characters long." ::= { consumables 2 } consumable-current-state OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This PML object returns the current state of the particular consumable. cAuthLevel1 - Consumable is at Authentication Level 1 cAuthLevel2 - Consumable is at Authentication Level 2 cAuthLevel3 - Consumable is at Authentication Level 3 cAuthLevel4 - Consumable is at Authentication Level 4 cAuthLevel5 - Consumable is at Authentication Level 5 cGenuineHPUnsupported - Cartridge is GenuineHP intended for another product cDefectiveMemory - Cartridge has a defective memory tag cMissingMemory - Memory tag is missing from the cartridge cLowCondition - Consumable has reached the engine low threshold cOutCondition - Consumable has reached its out threshold cIncorrect - Cartridge inserted is not the correct one cMissing - Consumable is missing from the printer cConfigurableLow - Consumable has reached the configurable low threshold value cStatusArevalid - The status reported on other bits are valid only if the bit is set to 1. If it is 0, the values are invalid. cExpired - Is the cartridge expired, which is determined by the formatter. cFailure - Cartridge has failed determined by the engine. cLeak - Cartridge has a leak as determined by the engine. cUnknownManufacturer - the brand of the cartridge is unknown as determined by the engine. cUnsupported --- Cartridge is not supported as determined by the engine. cIncompatible - When installed consumable is incompatible with current printer. These are the possible states and whenever the consumable is in any of these states, the appropriate bit will be set. The cLowCondition will be set when the consumable reaches the engine low threshold, and cConfigurableLow will be set when the consumable reaches the Configurable Low threshold value. For non-cartridge supplies only cLowCondition, cOutCondition, and cMissing will be supported. Additional information: This object returns the current state of the particular consumable. cAuthLevel1 - Consumable is at Authentication Level 1 cAuthLevel2 - Consumable is at Authentication Level 2 cAuthLevel3 - Consumable is at Authentication Level 3 cAuthLevel4 - Consumable is at Authentication Level 4 cAuthLevel6 - Consumable is at Authentication Level 6 cAuthLevel7 - Consumable is at Authentication Level 7 cGenuineHPUnsupported - Cartridge is GenuineHP intended for another product cDefectiveMemory - Cartridge has a Defective Memory cMissingMemory - Memory is Missing from the Cartridge cLowCondition - Consumable has reached its low threshold cOutCondition - Consumable has reached its out threshold cIncorrect - Cartridge inserted is not the correct one cMissing - Consumable is Missing from the Printer cPastOutCondition - Set when one or more pages are printed at Very Low. cConfigurableLow - Consumable has reached the configurable low threshold value cIncompatible(23) – Installed consumable is incompatible with this printer. cStatusAreValid - The Status reported on other bits are valid only if this bit is set to 1. If it is 0, the values are invalid. These are the possible states and whenever a Consumable is in any of these states, the appropriate bit will be set. For Non Cartridge Supplies only cLowCondition, cOutCondition and cMissing will be supported." ::= { consumables 7 } consumable-notification-status OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-write STATUS optional DESCRIPTION "This object is used to read and write the various status flags supported by this consumable. For Laserjet 4700 MFP the collection bits supported include: cClient1ReorderNotificationSent - indicates whether EWS (Embedded Web Server) has already sent the reorder notification e-mail for this consumable. This bit can be both read and written. cClient2ReorderNotificationSent - indicates whether WJA (Web Jet Admin) has already sent the reorder notification e-mail for this consumable. This bit can be both read and written. cClient3ReorderNotificationSent - for future implementation cClient4ReorderNotificationSent - for future implementation cClient5ReorderNotificationSent - for future implementation cClient1ReplaceNotificationSent - indicates whether EWS (Embedded Web Server) has already sent the replace notification e-mail for this consumable. This bit can be both read and written. cClient2ReplaceNotificationSent - indicates whether WJA (Web Jet Admin) has already sent the replace notification e-mail for this consumable. This bit can be both read and written. cClient3ReplaceNotificationSent - for future implementation cClient4ReplaceNotificationSent - for future implementation cClient5ReplaceNotificationSent - for future implementation Additional information: This object is used to read and write the various status flags supported by this consumable." ::= { consumables 10 } consumable-pages-printed-with-supply OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "This PML object returns the number of pages printed with a cartridge consumable. This PML object returns the value that should be displayed under 'Pages Printed With This Supply' for cartridges in color products. Additional information: This PML object returns the number of pages printed with a cartridge consumable. This PML object returns the value that should be displayed under 'Pages Printed With This Supply' for cartridges in products." ::= { consumables 11 } total-kilo-pixels-per-cartridge OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "Returns the total number of kilo-pixels at 600dpi in the cartridge. That is, the number returned by this object should be multiplied by 1000 to determine the total number of pixels at 600dpi in the cartridge. Additional information: Returns the total number of kilo-pixels at 600dpi in the cartridge. That is, the number returned by this object should be multiplied by 1000 to determine the total number of pixels at 600dpi in the cartridge." ::= { consumables 15 } consumable-life-usage-units-remaining OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "This object reports the current estimate of the number of usage units that remain before this supply is depleted. An installed supply that cannot report such a number will return a value of -2. It is the reponsibility of the host application to query each supply in order to determine an overall device USAGE-UNITS-REMAINING number - the lowest value returned. The unit of measure for this life estimate is determined by reading the corresponding CONSUMABLE-LIFE-USAGE-UNITS object. Additional information: This object will return the Pages or Estimated Pages remaining for the speciffic supply requested by the leaf node of this object." ::= { consumables-life 1 } consumable-life-usage-units OBJECT-TYPE SYNTAX INTEGER { ePagesRemaining(1), eEstimatedPagesRemaining(2) } ACCESS read-only STATUS optional DESCRIPTION "This object reports current usage units in use by the corresponding CONSUMABLE-LIFE-USAGE-UNITS-REMAINING object. Additional information: This object returns the units that REMAINING is returned in. Either ePagesRemaining(1) or eEstimatedPagesRemaining(2)." ::= { consumables-life 2 } consumable-life-low-threshold OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "This object is used to report and modify a threshold value indicating the point in the life of a consumable or supply at which a transition to a LOW state will occur." ::= { consumables-life 3 } printer-average-marking-agent-units-per-gram OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This object is used to read the marking agent units of measure per gram. This is typically a conversion factor for converting pixels of toner to grams. This pixels-per-gram value is used to calculate the estimated number of pages remaining for a given marking agent." ::= { printer-average 4 } printer-average-marking-agent-coverage-actual OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS optional DESCRIPTION "This object is used to read the actual average marking agent coverage for a given color plane. It is a real number that represents percent coverage and will read from 0 to 100%. This object will return the same value as PRINTER-AVERAGE-MARKING-AGENT-COVERAGE except under certain conditions which will be specified in the device POS." ::= { printer-average 5 } default-vertical-black-resolution OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the value of the default vertical black resolution. The units are dots per inch. Additional information: In $product_str changing this OID also causes DEFAULT-HORIZONTAL-BLACK RESOLUTION to change. DEFAULT-HORIZONTAL-BLACK-RESOLUTION and DEFAULT-VERTICAL-BLACK-RESOLUTION must always be the same. The supported values are: LaserJet 4100: 300, 600, 1200 Color Products: 600 LaserJet 9000: 300, 600 Setting to an unsupported value causes the printer to substitute in a snap value and to return status. The snap values are as follow: LaserJet 4100: 450 >= n < 900 snaps to 600 n >= 900 snaps to 1200 Color Products: n snaps to 600 LaserJet 9000: n < 450 snaps to 300 n >=450 snaps to 600 " ::= { settings-pdl 8 } default-horizontal-black-resolution OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the value of the default horizontal black resolution. The units are dots per inch. Additional information: In $product_str changing this object also causes DEFAULT-VERTICAL-BLACK RESOLUTION to change. DEFAULT-HORIZONTAL-BLACK-RESOLUTION and DEFAULT-VERTICAL-BLACK-RESOLUTION must always be the same. The supported values are: LaserJet 4100: 300, 600, 1200 Color Products: 600 LaserJet 9000: 300, 600 Setting to an unsupported value causes the printer to substitute in a snap value and to return status. The snap values are as follow: LaserJet 4100: n < 450 snaps to 300 450 >= n < 900 snaps to 600 n >= 900 snaps to 1200 Color Products: n snaps to 600 LaserJet 9000: n < 450 snaps to 300 n >=450 snaps to 600 " ::= { settings-pdl 9 } default-page-protect OBJECT-TYPE SYNTAX INTEGER { eOn(2) } ACCESS read-write STATUS optional DESCRIPTION "Returns or changes the default page protection behavior. If eOff, the device does not reserve memory for holding the entire raster form of a processed page. If eOn, then memory is reserved. If eAuto, the device determines the amount of memory to reserve. Additional information: Setting to eOn causes MET to be more conservative, but it will not allocate memory to hold an entire rasterized page." ::= { settings-pdl 10 } default-bits-per-pixel OBJECT-TYPE SYNTAX INTEGER ACCESS read-write STATUS optional DESCRIPTION "Controls the number of levels used (per pixel) when printing grayscale or color images." ::= { settings-pdl 39 } remote-upgrade-version-checking-enable OBJECT-TYPE SYNTAX INTEGER { eOff(1), eAuto(3) } ACCESS read-write STATUS mandatory DESCRIPTION "Enables the ability to consume incoming engine RFU jobs without performing an upgrade when the firmware version number specified in the RFU header matches the version of firmware already running on that device. In the future it may be enhanced to prevent upgrades from being perform for the wrong engine variant. When set to eAuto, upgrades will only be performed if the incoming (new) firmware version is different from the currently installed (old) version. When set to eOff, upgrades will always be performed, even if the installed version matches the incoming version. Trying to set this to a value other than eAuto or eOff will cause an UnsupportedValue error to occur." ::= { settings-system 75 } firmware-download-write-status-supported OBJECT-TYPE SYNTAX INTEGER { eFalse(1), eTrue(2) } ACCESS read-only STATUS optional DESCRIPTION "This object provides information on whether the printer has the ability to communicate the write-status of the firmware download while the download is taking place." ::= { firmware-download 1 } firmware-download-write-time OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "If the design of the firmware-download implementation does not allow PML interaction during the download process, this value provides an estimation of the time where the printer will not be able to engage in PML communication. Additional information: If the design of the firmware-download implementation does not allow PML interaction during the download process, this value provides an estimation of the time where the printer will not be able to engage in PML communication. The calculated time is expected to be 140 secs. However, this time may increase as high as 280 secs as the flash part nears the maximum flash count." ::= { firmware-download 2 } firmware-download-current-state OBJECT-TYPE SYNTAX INTEGER { eIdle(1), eReceivingImage(2), eReceivedImageError(3), eVerifyingImage(4), eVerifiedImageError(5), eWritingImage(6), eWritingImageError(7), eDownloadComplete(8), eOKtoShutDown(9), eCancelDownload(10), eShuttingDown(11) } ACCESS read-only STATUS optional DESCRIPTION "Provides the current or last reportable state of the firmware download process. The current state may not necessarily be the current state, but could be the post-mortem state." ::= { firmware-download 4 } firmware-download-name OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This returns the name of the printer. This should match the name in the header of the upgrade image being sent to the flash part. If the name does not match with the name returned then the image that we are attempting to download does not upgrade the printer firmware. Additional information: This object returns the HP name of the printer. This should match what is in the PJL header of the RFU job Web Jet Admin uses this to ensure the printer is available to be upgraded." ::= { firmware-download 6 } firmware-download-version OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This object will return a string value representing the current revision of firmware that the printer is operating with. This is used to determine if code needs to be upgraded when an firmware bundle comes in, in an upgrade job. Additional information: Web Jet Admin uses the version string that is returned to determine what peices of an RFU bundle need to be upgraded when an RFU job is being built. This objects will return the version string of the printer." ::= { firmware-download 7 } upgradable-devices-write-status-supported OBJECT-TYPE SYNTAX INTEGER { eFalse(1), eTrue(2) } ACCESS read-only STATUS optional DESCRIPTION "This object provides information on whether the upgradable device has the ability to communicate the write-status of the upgrade while the upgrade is taking place." ::= { upgradable-devices 1 } upgradable-devices-write-time OBJECT-TYPE SYNTAX INTEGER ACCESS read-only STATUS optional DESCRIPTION "If the design of the device upgrade implementation does not allow PML interaction during the download process, this value provides an estimation of the time where the device will not be able to engage in PML communication. The time returned will depend upon what device is attempting to be upgraded." ::= { upgradable-devices 2 } upgradable-devices-current-state OBJECT-TYPE SYNTAX INTEGER { eIdle(1), eReceivedImage(2), eReceivedImageError(3), eVerifiedImage(4), eVerifiedImageError(5), eWritingImage(6), eWritingImageError(7), eUpgradeComplete(8), eUpgradeSkipped(9) } ACCESS read-only STATUS optional DESCRIPTION "Provides the current or last reportable state of the device upgrade process. The current state may not necessarily be the current state, but could be the post-mortem state." ::= { upgradable-devices 4 } upgradable-devices-name OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This returns the name of the upgradable device. This should match the name in the header of the upgrade image being sent to the flash part. If the name does not match with any of the names returned then the device that we are attempting to upgrade is unavailable for upgrading. Additional information: This object returns the HP name of the printer and the upgradable devices. There is one Name object per upgradable device. This should match what is in the PJL header of the RFU job Web Jet Admin uses this to ensure the printer or device is available to be upgraded." ::= { upgradable-devices 6 } upgradable-devices-version OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This object will return a string value representing the current revision of firmware that device X is operating with. This is used to determine if code needs to be upgraded when a firmware bundle comes in, in an upgrade job. Additional information: Web Jet Admin uses the version string that is returned to determine what peices of an RFU bundle need to be upgraded when an RFU job is being built. This internal object will return the current version string of the printer or device that it corresponds to." ::= { upgradable-devices 7 } remote-upgrade-enable OBJECT-TYPE SYNTAX INTEGER { eOff(1), eOn(2) } ACCESS read-write STATUS mandatory DESCRIPTION "Enables or disables the ability to upgrade the firmware associated with any device that is available to be upgraded. This will be set to on or off at the RFU level in that if this mode is on any available device can be upgraded and if this mode is off none of the devices can be upgraded. There is not an individual mode for each device. Trying to set this to a value other than eOn or eOff will cause an UnsupportedValue error to occur." ::= { upgradable-devices 8 } upgradeable-devices-generic-name OBJECT-TYPE SYNTAX OCTET STRING ACCESS read-only STATUS mandatory DESCRIPTION "This object returns the generic component name of the printer and the upgradable devices. Instead of returning unique model names, this object will return names that communicate the type of component that is being upgraded. Each component name returned will also match the name that is displayed on the control panel while that type of upgrade is being performed. Additional information: This object returns the generic name of the printer and the upgradeable devices. Its subarray fields map to the same devices as the other UPGRADABLE-DEVICES objects." ::= { upgradable-devices 10 } END