From 95a93955b5d71e4b7757f3f9191371cb84929151 Mon Sep 17 00:00:00 2001 From: Felipe Augusto van de Wiel Date: Fri, 17 Oct 2008 00:15:23 +0000 Subject: [SILENT_COMMIT] Update of POT and PO files for the manual --- po/pot/boot-installer.pot | 4 +- po/pot/hardware.pot | 988 +++++++++++++++++++++++---------------------- po/pot/install-methods.pot | 334 +++++++-------- po/pot/using-d-i.pot | 776 +++++++++++++++++------------------ po/pot/welcome.pot | 4 +- 5 files changed, 1060 insertions(+), 1046 deletions(-) (limited to 'po/pot') diff --git a/po/pot/boot-installer.pot b/po/pot/boot-installer.pot index 8fb8c9c51..b3840e47b 100644 --- a/po/pot/boot-installer.pot +++ b/po/pot/boot-installer.pot @@ -6,7 +6,7 @@ msgid "" msgstr "" "Project-Id-Version: PACKAGE VERSION\n" "Report-Msgid-Bugs-To: debian-boot@lists.debian.org\n" -"POT-Creation-Date: 2008-10-05 00:05+0000\n" +"POT-Creation-Date: 2008-10-17 00:09+0000\n" "PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n" "Last-Translator: FULL NAME \n" "Language-Team: LANGUAGE \n" @@ -915,7 +915,7 @@ msgstr "" #. Tag: para #: boot-installer.xml:1141 #, no-c-format -msgid "If you wish or need to add any boot parameters for either the installer or the kernel, press &tabkey;. This will display the default boot command for the selected menu entry and allow to add additional options. The help screens (see below) list some common possible options. Press &enterkey; to boot the installer with your options; pressing &escapekey; will return you to the boot menu." +msgid "If you wish or need to add any boot parameters for either the installer or the kernel, press &tabkey;. This will display the default boot command for the selected menu entry and allow to add additional options. The help screens (see below) list some common possible options. Press &enterkey; to boot the installer with your options; pressing &escapekey; will return you to the boot menu and undo any changes you made." msgstr "" #. Tag: para diff --git a/po/pot/hardware.pot b/po/pot/hardware.pot index e97627d4d..b8674cd59 100644 --- a/po/pot/hardware.pot +++ b/po/pot/hardware.pot @@ -6,7 +6,7 @@ msgid "" msgstr "" "Project-Id-Version: PACKAGE VERSION\n" "Report-Msgid-Bugs-To: debian-boot@lists.debian.org\n" -"POT-Creation-Date: 2008-10-05 00:05+0000\n" +"POT-Creation-Date: 2008-10-17 00:09+0000\n" "PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n" "Last-Translator: FULL NAME \n" "Language-Team: LANGUAGE \n" @@ -143,2945 +143,2951 @@ msgstr "" #. Tag: entry #: hardware.xml:86 #, no-c-format -msgid "Versatile" +msgid "armel" msgstr "" #. Tag: entry #: hardware.xml:87 #, no-c-format +msgid "Versatile" +msgstr "" + +#. Tag: entry +#: hardware.xml:88 +#, no-c-format msgid "versatile" msgstr "" #. Tag: entry -#: hardware.xml:89 +#: hardware.xml:90 #, no-c-format msgid "arm and armel" msgstr "" #. Tag: entry -#: hardware.xml:90 +#: hardware.xml:91 #, no-c-format msgid "Intel IOP32x" msgstr "" #. Tag: entry -#: hardware.xml:91 +#: hardware.xml:92 #, no-c-format msgid "iop32x" msgstr "" #. Tag: entry -#: hardware.xml:93 +#: hardware.xml:94 #, no-c-format msgid "Intel IXP4xx" msgstr "" #. Tag: entry -#: hardware.xml:94 +#: hardware.xml:95 #, no-c-format msgid "ixp4xx" msgstr "" #. Tag: entry -#: hardware.xml:96 +#: hardware.xml:97 #, no-c-format msgid "Marvell Orion" msgstr "" #. Tag: entry -#: hardware.xml:97 +#: hardware.xml:98 #, no-c-format msgid "orion5x" msgstr "" #. Tag: entry -#: hardware.xml:101 +#: hardware.xml:102 #, no-c-format msgid "HP PA-RISC" msgstr "" #. Tag: entry -#: hardware.xml:102 +#: hardware.xml:103 #, no-c-format msgid "hppa" msgstr "" #. Tag: entry -#: hardware.xml:103 +#: hardware.xml:104 #, no-c-format msgid "PA-RISC 1.1" msgstr "" #. Tag: entry -#: hardware.xml:104 +#: hardware.xml:105 #, no-c-format msgid "32" msgstr "" #. Tag: entry -#: hardware.xml:106 +#: hardware.xml:107 #, no-c-format msgid "PA-RISC 2.0" msgstr "" #. Tag: entry -#: hardware.xml:107 +#: hardware.xml:108 #, no-c-format msgid "64" msgstr "" #. Tag: entry -#: hardware.xml:111 +#: hardware.xml:112 #, no-c-format msgid "Intel IA-64" msgstr "" #. Tag: entry -#: hardware.xml:112 +#: hardware.xml:113 #, no-c-format msgid "ia64" msgstr "" #. Tag: entry -#: hardware.xml:118 +#: hardware.xml:119 #, no-c-format msgid "MIPS (big endian)" msgstr "" #. Tag: entry -#: hardware.xml:119 +#: hardware.xml:120 #, no-c-format msgid "mips" msgstr "" #. Tag: entry -#: hardware.xml:120 +#: hardware.xml:121 #, no-c-format msgid "SGI IP22 (Indy/Indigo 2)" msgstr "" #. Tag: entry -#: hardware.xml:121 +#: hardware.xml:122 #, no-c-format msgid "r4k-ip22" msgstr "" #. Tag: entry -#: hardware.xml:123 +#: hardware.xml:124 #, no-c-format msgid "SGI IP32 (O2)" msgstr "" #. Tag: entry -#: hardware.xml:124 +#: hardware.xml:125 #, no-c-format msgid "r5k-ip32" msgstr "" #. Tag: entry -#: hardware.xml:126 hardware.xml:145 +#: hardware.xml:127 hardware.xml:146 #, no-c-format msgid "MIPS Malta (32 bit)" msgstr "" #. Tag: entry -#: hardware.xml:127 hardware.xml:146 +#: hardware.xml:128 hardware.xml:147 #, no-c-format msgid "4kc-malta" msgstr "" #. Tag: entry -#: hardware.xml:129 hardware.xml:148 +#: hardware.xml:130 hardware.xml:149 #, no-c-format msgid "MIPS Malta (64 bit)" msgstr "" #. Tag: entry -#: hardware.xml:130 hardware.xml:149 +#: hardware.xml:131 hardware.xml:150 #, no-c-format msgid "5kc-malta" msgstr "" #. Tag: entry -#: hardware.xml:132 hardware.xml:151 +#: hardware.xml:133 hardware.xml:152 #, no-c-format msgid "Broadcom BCM91250A (SWARM)" msgstr "" #. Tag: entry -#: hardware.xml:133 hardware.xml:152 +#: hardware.xml:134 hardware.xml:153 #, no-c-format msgid "sb1-bcm91250a" msgstr "" #. Tag: entry -#: hardware.xml:135 hardware.xml:154 +#: hardware.xml:136 hardware.xml:155 #, no-c-format msgid "Broadcom BCM91480B (BigSur)" msgstr "" #. Tag: entry -#: hardware.xml:136 hardware.xml:155 +#: hardware.xml:137 hardware.xml:156 #, no-c-format msgid "sb1a-bcm91480b" msgstr "" #. Tag: entry -#: hardware.xml:140 +#: hardware.xml:141 #, no-c-format msgid "MIPS (little endian)" msgstr "" #. Tag: entry -#: hardware.xml:141 +#: hardware.xml:142 #, no-c-format msgid "mipsel" msgstr "" #. Tag: entry -#: hardware.xml:142 +#: hardware.xml:143 #, no-c-format msgid "Cobalt" msgstr "" #. Tag: entry -#: hardware.xml:143 +#: hardware.xml:144 #, no-c-format msgid "cobalt" msgstr "" #. Tag: entry -#: hardware.xml:159 +#: hardware.xml:160 #, no-c-format msgid "Motorola 680x0" msgstr "" #. Tag: entry -#: hardware.xml:160 +#: hardware.xml:161 #, no-c-format msgid "m68k" msgstr "" #. Tag: entry -#: hardware.xml:161 +#: hardware.xml:162 #, no-c-format msgid "Atari" msgstr "" #. Tag: entry -#: hardware.xml:162 +#: hardware.xml:163 #, no-c-format msgid "atari" msgstr "" #. Tag: entry -#: hardware.xml:164 +#: hardware.xml:165 #, no-c-format msgid "Amiga" msgstr "" #. Tag: entry -#: hardware.xml:165 +#: hardware.xml:166 #, no-c-format msgid "amiga" msgstr "" #. Tag: entry -#: hardware.xml:167 +#: hardware.xml:168 #, no-c-format msgid "68k Macintosh" msgstr "" #. Tag: entry -#: hardware.xml:168 +#: hardware.xml:169 #, no-c-format msgid "mac" msgstr "" #. Tag: entry -#: hardware.xml:170 +#: hardware.xml:171 #, no-c-format msgid "VME" msgstr "" #. Tag: entry -#: hardware.xml:171 +#: hardware.xml:172 #, no-c-format msgid "bvme6000" msgstr "" #. Tag: entry -#: hardware.xml:173 +#: hardware.xml:174 #, no-c-format msgid "mvme147" msgstr "" #. Tag: entry -#: hardware.xml:175 +#: hardware.xml:176 #, no-c-format msgid "mvme16x" msgstr "" #. Tag: entry -#: hardware.xml:179 +#: hardware.xml:180 #, no-c-format msgid "IBM/Motorola PowerPC" msgstr "" #. Tag: entry -#: hardware.xml:180 +#: hardware.xml:181 #, no-c-format msgid "powerpc" msgstr "" #. Tag: entry -#: hardware.xml:181 +#: hardware.xml:182 #, no-c-format msgid "PowerMac" msgstr "" #. Tag: entry -#: hardware.xml:182 +#: hardware.xml:183 #, no-c-format msgid "pmac" msgstr "" #. Tag: entry -#: hardware.xml:184 +#: hardware.xml:185 #, no-c-format msgid "PReP" msgstr "" #. Tag: entry -#: hardware.xml:185 +#: hardware.xml:186 #, no-c-format msgid "prep" msgstr "" #. Tag: entry -#: hardware.xml:189 +#: hardware.xml:190 #, no-c-format msgid "Sun SPARC" msgstr "" #. Tag: entry -#: hardware.xml:190 +#: hardware.xml:191 #, no-c-format msgid "sparc" msgstr "" #. Tag: entry -#: hardware.xml:191 +#: hardware.xml:192 #, no-c-format msgid "sun4u" msgstr "" #. Tag: entry -#: hardware.xml:192 +#: hardware.xml:193 #, no-c-format msgid "sparc64" msgstr "" #. Tag: entry -#: hardware.xml:194 +#: hardware.xml:195 #, no-c-format msgid "sun4v" msgstr "" #. Tag: entry -#: hardware.xml:198 +#: hardware.xml:199 #, no-c-format msgid "IBM S/390" msgstr "" #. Tag: entry -#: hardware.xml:199 +#: hardware.xml:200 #, no-c-format msgid "s390" msgstr "" #. Tag: entry -#: hardware.xml:200 +#: hardware.xml:201 #, no-c-format msgid "IPL from VM-reader and DASD" msgstr "" #. Tag: entry -#: hardware.xml:201 +#: hardware.xml:202 #, no-c-format msgid "generic" msgstr "" #. Tag: entry -#: hardware.xml:203 +#: hardware.xml:204 #, no-c-format msgid "IPL from tape" msgstr "" #. Tag: entry -#: hardware.xml:204 +#: hardware.xml:205 #, no-c-format msgid "tape" msgstr "" #. Tag: para -#: hardware.xml:209 +#: hardware.xml:210 #, no-c-format msgid "This document covers installation for the &arch-title; architecture. If you are looking for information on any of the other Debian-supported architectures take a look at the Debian-Ports pages." msgstr "" #. Tag: para -#: hardware.xml:217 +#: hardware.xml:218 #, no-c-format msgid "This is the first official release of &debian; for the &arch-title; architecture. We feel that it has proven itself sufficiently to be released. However, because it has not had the exposure (and hence testing by users) that some other architectures have had, you may encounter a few bugs. Use our Bug Tracking System to report any problems; make sure to mention the fact that the bug is on the &arch-title; platform. It can be necessary to use the debian-&arch-listname; mailing list as well." msgstr "" #. Tag: title -#: hardware.xml:239 hardware.xml:698 hardware.xml:734 hardware.xml:838 hardware.xml:857 hardware.xml:939 hardware.xml:981 hardware.xml:1055 hardware.xml:1127 +#: hardware.xml:240 hardware.xml:699 hardware.xml:735 hardware.xml:839 hardware.xml:858 hardware.xml:940 hardware.xml:982 hardware.xml:1056 hardware.xml:1128 #, no-c-format msgid "CPU, Main Boards, and Video Support" msgstr "" #. Tag: para -#: hardware.xml:240 +#: hardware.xml:241 #, no-c-format msgid "Complete information regarding supported DEC Alphas can be found at Linux Alpha HOWTO. The purpose of this section is to describe the systems supported by the boot disks." msgstr "" #. Tag: para -#: hardware.xml:247 +#: hardware.xml:248 #, no-c-format msgid "Alpha machines are subdivided into different system types because there are a number of generations of motherboard and supporting chipsets. Different systems (sub-architectures) often have radically different engineering and capabilities. Therefore, the process of installing and, more to the point, booting, can vary from system to system." msgstr "" #. Tag: para -#: hardware.xml:255 +#: hardware.xml:256 #, no-c-format msgid "The following table lists the system types supported by the Debian installation system. The table also indicates the code name for these system types. You'll need to know this code name when you actually begin the installation process:" msgstr "" #. Tag: entry -#: hardware.xml:272 +#: hardware.xml:273 #, no-c-format msgid "Hardware Type" msgstr "" #. Tag: entry -#: hardware.xml:273 +#: hardware.xml:274 #, no-c-format msgid "Aliases" msgstr "" #. Tag: entry -#: hardware.xml:273 +#: hardware.xml:274 #, no-c-format msgid "MILO image" msgstr "" #. Tag: entry -#: hardware.xml:279 +#: hardware.xml:280 #, no-c-format msgid "ALCOR" msgstr "" #. Tag: entry -#: hardware.xml:280 +#: hardware.xml:281 #, no-c-format msgid "AlphaStation 500 5/266.300" msgstr "" #. Tag: entry -#: hardware.xml:281 +#: hardware.xml:282 #, no-c-format msgid "Maverick" msgstr "" #. Tag: entry -#: hardware.xml:282 hardware.xml:286 hardware.xml:290 +#: hardware.xml:283 hardware.xml:287 hardware.xml:291 #, no-c-format msgid "alcor" msgstr "" #. Tag: entry -#: hardware.xml:284 +#: hardware.xml:285 #, no-c-format msgid "AlphaStation 500 5/333...500" msgstr "" #. Tag: entry -#: hardware.xml:285 +#: hardware.xml:286 #, no-c-format msgid "Bret" msgstr "" #. Tag: entry -#: hardware.xml:288 +#: hardware.xml:289 #, no-c-format msgid "AlphaStation 600/266...300" msgstr "" #. Tag: entry -#: hardware.xml:289 +#: hardware.xml:290 #, no-c-format msgid "Alcor" msgstr "" #. Tag: entry -#: hardware.xml:292 +#: hardware.xml:293 #, no-c-format msgid "AlphaStation 600/300...433" msgstr "" #. Tag: entry -#: hardware.xml:293 +#: hardware.xml:294 #, no-c-format msgid "XLT" msgstr "" #. Tag: entry -#: hardware.xml:294 +#: hardware.xml:295 #, no-c-format msgid "xlt" msgstr "" #. Tag: entry -#: hardware.xml:298 +#: hardware.xml:299 #, no-c-format msgid "BOOK1" msgstr "" #. Tag: entry -#: hardware.xml:299 +#: hardware.xml:300 #, no-c-format msgid "AlphaBook1 (laptop)" msgstr "" #. Tag: entry -#: hardware.xml:300 +#: hardware.xml:301 #, no-c-format msgid "Alphabook1/Burns" msgstr "" #. Tag: entry -#: hardware.xml:301 +#: hardware.xml:302 #, no-c-format msgid "book1" msgstr "" #. Tag: entry -#: hardware.xml:305 +#: hardware.xml:306 #, no-c-format msgid "AVANTI" msgstr "" #. Tag: entry -#: hardware.xml:306 +#: hardware.xml:307 #, no-c-format msgid "AlphaStation 200 4/100...166" msgstr "" #. Tag: entry -#: hardware.xml:307 +#: hardware.xml:308 #, no-c-format msgid "Mustang" msgstr "" #. Tag: entry -#: hardware.xml:308 hardware.xml:312 hardware.xml:316 hardware.xml:320 hardware.xml:324 hardware.xml:328 hardware.xml:332 hardware.xml:336 +#: hardware.xml:309 hardware.xml:313 hardware.xml:317 hardware.xml:321 hardware.xml:325 hardware.xml:329 hardware.xml:333 hardware.xml:337 #, no-c-format msgid "avanti" msgstr "" #. Tag: entry -#: hardware.xml:310 +#: hardware.xml:311 #, no-c-format msgid "AlphaStation 200 4/233" msgstr "" #. Tag: entry -#: hardware.xml:311 +#: hardware.xml:312 #, no-c-format msgid "Mustang+" msgstr "" #. Tag: entry -#: hardware.xml:314 +#: hardware.xml:315 #, no-c-format msgid "AlphaStation 205 4/133...333" msgstr "" #. Tag: entry -#: hardware.xml:315 +#: hardware.xml:316 #, no-c-format msgid "LX3" msgstr "" #. Tag: entry -#: hardware.xml:318 +#: hardware.xml:319 #, no-c-format msgid "AlphaStation 250 4/300" msgstr "" #. Tag: entry -#: hardware.xml:319 +#: hardware.xml:320 #, no-c-format msgid "M3+" msgstr "" #. Tag: entry -#: hardware.xml:322 +#: hardware.xml:323 #, no-c-format msgid "AlphaStation 255 4/133...333" msgstr "" #. Tag: entry -#: hardware.xml:323 +#: hardware.xml:324 #, no-c-format msgid "LX3+" msgstr "" #. Tag: entry -#: hardware.xml:326 +#: hardware.xml:327 #, no-c-format msgid "AlphaStation 300 4/266" msgstr "" #. Tag: entry -#: hardware.xml:327 +#: hardware.xml:328 #, no-c-format msgid "Melmac" msgstr "" #. Tag: entry -#: hardware.xml:330 +#: hardware.xml:331 #, no-c-format msgid "AlphaStation 400 4/166" msgstr "" #. Tag: entry -#: hardware.xml:331 +#: hardware.xml:332 #, no-c-format msgid "Chinet" msgstr "" #. Tag: entry -#: hardware.xml:334 +#: hardware.xml:335 #, no-c-format msgid "AlphaStation 400 4/233...300" msgstr "" #. Tag: entry -#: hardware.xml:335 +#: hardware.xml:336 #, no-c-format msgid "Avanti" msgstr "" #. Tag: entry -#: hardware.xml:340 hardware.xml:353 hardware.xml:354 +#: hardware.xml:341 hardware.xml:354 hardware.xml:355 #, no-c-format msgid "EB164" msgstr "" #. Tag: entry -#: hardware.xml:341 +#: hardware.xml:342 #, no-c-format msgid "AlphaPC164" msgstr "" #. Tag: entry -#: hardware.xml:342 +#: hardware.xml:343 #, no-c-format msgid "PC164" msgstr "" #. Tag: entry -#: hardware.xml:343 +#: hardware.xml:344 #, no-c-format msgid "pc164" msgstr "" #. Tag: entry -#: hardware.xml:345 +#: hardware.xml:346 #, no-c-format msgid "AlphaPC164-LX" msgstr "" #. Tag: entry -#: hardware.xml:346 +#: hardware.xml:347 #, no-c-format msgid "LX164" msgstr "" #. Tag: entry -#: hardware.xml:347 +#: hardware.xml:348 #, no-c-format msgid "lx164" msgstr "" #. Tag: entry -#: hardware.xml:349 +#: hardware.xml:350 #, no-c-format msgid "AlphaPC164-SX" msgstr "" #. Tag: entry -#: hardware.xml:350 +#: hardware.xml:351 #, no-c-format msgid "SX164" msgstr "" #. Tag: entry -#: hardware.xml:351 +#: hardware.xml:352 #, no-c-format msgid "sx164" msgstr "" #. Tag: entry -#: hardware.xml:355 +#: hardware.xml:356 #, no-c-format msgid "eb164" msgstr "" #. Tag: entry -#: hardware.xml:359 hardware.xml:368 hardware.xml:369 +#: hardware.xml:360 hardware.xml:369 hardware.xml:370 #, no-c-format msgid "EB64+" msgstr "" #. Tag: entry -#: hardware.xml:360 +#: hardware.xml:361 #, no-c-format msgid "AlphaPC64" msgstr "" #. Tag: entry -#: hardware.xml:361 hardware.xml:365 +#: hardware.xml:362 hardware.xml:366 #, no-c-format msgid "Cabriolet" msgstr "" #. Tag: entry -#: hardware.xml:362 hardware.xml:366 +#: hardware.xml:363 hardware.xml:367 #, no-c-format msgid "cabriolet" msgstr "" #. Tag: entry -#: hardware.xml:364 +#: hardware.xml:365 #, no-c-format msgid "AlphaPCI64" msgstr "" #. Tag: entry -#: hardware.xml:370 +#: hardware.xml:371 #, no-c-format msgid "eb64p" msgstr "" #. Tag: entry -#: hardware.xml:374 hardware.xml:375 hardware.xml:376 +#: hardware.xml:375 hardware.xml:376 hardware.xml:377 #, no-c-format msgid "EB66" msgstr "" #. Tag: entry -#: hardware.xml:377 +#: hardware.xml:378 #, no-c-format msgid "eb66" msgstr "" #. Tag: entry -#: hardware.xml:379 hardware.xml:380 +#: hardware.xml:380 hardware.xml:381 #, no-c-format msgid "EB66+" msgstr "" #. Tag: entry -#: hardware.xml:381 +#: hardware.xml:382 #, no-c-format msgid "eb66p" msgstr "" #. Tag: entry -#: hardware.xml:385 +#: hardware.xml:386 #, no-c-format msgid "JENSEN" msgstr "" #. Tag: entry -#: hardware.xml:386 +#: hardware.xml:387 #, no-c-format msgid "DEC 2000 Model 300(S)" msgstr "" #. Tag: entry -#: hardware.xml:387 hardware.xml:395 +#: hardware.xml:388 hardware.xml:396 #, no-c-format msgid "Jensen" msgstr "" #. Tag: entry -#: hardware.xml:388 hardware.xml:392 hardware.xml:396 hardware.xml:457 hardware.xml:461 hardware.xml:479 hardware.xml:483 hardware.xml:487 hardware.xml:491 hardware.xml:495 hardware.xml:499 hardware.xml:503 hardware.xml:517 hardware.xml:521 hardware.xml:525 hardware.xml:529 hardware.xml:533 hardware.xml:567 hardware.xml:571 hardware.xml:575 hardware.xml:579 hardware.xml:593 hardware.xml:597 hardware.xml:601 hardware.xml:605 hardware.xml:612 hardware.xml:616 hardware.xml:620 hardware.xml:624 hardware.xml:628 hardware.xml:632 hardware.xml:636 hardware.xml:640 hardware.xml:644 hardware.xml:648 hardware.xml:652 hardware.xml:656 hardware.xml:660 hardware.xml:667 hardware.xml:671 +#: hardware.xml:389 hardware.xml:393 hardware.xml:397 hardware.xml:458 hardware.xml:462 hardware.xml:480 hardware.xml:484 hardware.xml:488 hardware.xml:492 hardware.xml:496 hardware.xml:500 hardware.xml:504 hardware.xml:518 hardware.xml:522 hardware.xml:526 hardware.xml:530 hardware.xml:534 hardware.xml:568 hardware.xml:572 hardware.xml:576 hardware.xml:580 hardware.xml:594 hardware.xml:598 hardware.xml:602 hardware.xml:606 hardware.xml:613 hardware.xml:617 hardware.xml:621 hardware.xml:625 hardware.xml:629 hardware.xml:633 hardware.xml:637 hardware.xml:641 hardware.xml:645 hardware.xml:649 hardware.xml:653 hardware.xml:657 hardware.xml:661 hardware.xml:668 hardware.xml:672 #, no-c-format msgid "N/A" msgstr "" #. Tag: entry -#: hardware.xml:390 +#: hardware.xml:391 #, no-c-format msgid "DEC 2000 Model 500" msgstr "" #. Tag: entry -#: hardware.xml:391 +#: hardware.xml:392 #, no-c-format msgid "Culzen" msgstr "" #. Tag: entry -#: hardware.xml:394 +#: hardware.xml:395 #, no-c-format msgid "DECpc 150" msgstr "" #. Tag: entry -#: hardware.xml:400 +#: hardware.xml:401 #, no-c-format msgid "MIATA" msgstr "" #. Tag: entry -#: hardware.xml:401 +#: hardware.xml:402 #, no-c-format msgid "Personal WorkStation 433a" msgstr "" #. Tag: entry -#: hardware.xml:402 hardware.xml:406 hardware.xml:410 hardware.xml:414 hardware.xml:418 hardware.xml:422 hardware.xml:426 hardware.xml:430 +#: hardware.xml:403 hardware.xml:407 hardware.xml:411 hardware.xml:415 hardware.xml:419 hardware.xml:423 hardware.xml:427 hardware.xml:431 #, no-c-format msgid "Miata" msgstr "" #. Tag: entry -#: hardware.xml:403 hardware.xml:407 hardware.xml:411 hardware.xml:415 hardware.xml:419 hardware.xml:423 hardware.xml:427 hardware.xml:431 +#: hardware.xml:404 hardware.xml:408 hardware.xml:412 hardware.xml:416 hardware.xml:420 hardware.xml:424 hardware.xml:428 hardware.xml:432 #, no-c-format msgid "miata" msgstr "" #. Tag: entry -#: hardware.xml:405 +#: hardware.xml:406 #, no-c-format msgid "Personal WorkStation 433au" msgstr "" #. Tag: entry -#: hardware.xml:409 +#: hardware.xml:410 #, no-c-format msgid "Personal WorkStation 466au" msgstr "" #. Tag: entry -#: hardware.xml:413 +#: hardware.xml:414 #, no-c-format msgid "Personal WorkStation 500a" msgstr "" #. Tag: entry -#: hardware.xml:417 +#: hardware.xml:418 #, no-c-format msgid "Personal WorkStation 500au" msgstr "" #. Tag: entry -#: hardware.xml:421 +#: hardware.xml:422 #, no-c-format msgid "Personal WorkStation 550au" msgstr "" #. Tag: entry -#: hardware.xml:425 +#: hardware.xml:426 #, no-c-format msgid "Personal WorkStation 600a" msgstr "" #. Tag: entry -#: hardware.xml:429 +#: hardware.xml:430 #, no-c-format msgid "Personal WorkStation 600au" msgstr "" #. Tag: entry -#: hardware.xml:435 +#: hardware.xml:436 #, no-c-format msgid "MIKASA" msgstr "" #. Tag: entry -#: hardware.xml:436 +#: hardware.xml:437 #, no-c-format msgid "AlphaServer 1000 4/200" msgstr "" #. Tag: entry -#: hardware.xml:437 +#: hardware.xml:438 #, no-c-format msgid "Mikasa" msgstr "" #. Tag: entry -#: hardware.xml:438 hardware.xml:442 hardware.xml:446 hardware.xml:450 +#: hardware.xml:439 hardware.xml:443 hardware.xml:447 hardware.xml:451 #, no-c-format msgid "mikasa" msgstr "" #. Tag: entry -#: hardware.xml:440 +#: hardware.xml:441 #, no-c-format msgid "AlphaServer 1000 4/233..266" msgstr "" #. Tag: entry -#: hardware.xml:441 +#: hardware.xml:442 #, no-c-format msgid "Mikasa+" msgstr "" #. Tag: entry -#: hardware.xml:444 hardware.xml:448 +#: hardware.xml:445 hardware.xml:449 #, no-c-format msgid "AlphaServer 1000 5/300" msgstr "" #. Tag: entry -#: hardware.xml:445 +#: hardware.xml:446 #, no-c-format msgid "Mikasa-Pinnacle" msgstr "" #. Tag: entry -#: hardware.xml:449 +#: hardware.xml:450 #, no-c-format msgid "Mikasa-Primo" msgstr "" #. Tag: entry -#: hardware.xml:454 +#: hardware.xml:455 #, no-c-format msgid "NAUTILUS" msgstr "" #. Tag: entry -#: hardware.xml:455 +#: hardware.xml:456 #, no-c-format msgid "UP1000" msgstr "" #. Tag: entry -#: hardware.xml:456 +#: hardware.xml:457 #, no-c-format msgid "Nautilus" msgstr "" #. Tag: entry -#: hardware.xml:459 +#: hardware.xml:460 #, no-c-format msgid "UP1100" msgstr "" #. Tag: entry -#: hardware.xml:460 +#: hardware.xml:461 #, no-c-format msgid "Galaxy-Train/Nautilus Jr." msgstr "" #. Tag: entry -#: hardware.xml:465 +#: hardware.xml:466 #, no-c-format msgid "NONAME" msgstr "" #. Tag: entry -#: hardware.xml:466 +#: hardware.xml:467 #, no-c-format msgid "AXPpci33" msgstr "" #. Tag: entry -#: hardware.xml:467 +#: hardware.xml:468 #, no-c-format msgid "Noname" msgstr "" #. Tag: entry -#: hardware.xml:468 hardware.xml:472 +#: hardware.xml:469 hardware.xml:473 #, no-c-format msgid "noname" msgstr "" #. Tag: entry -#: hardware.xml:470 +#: hardware.xml:471 #, no-c-format msgid "UDB" msgstr "" #. Tag: entry -#: hardware.xml:471 +#: hardware.xml:472 #, no-c-format msgid "Multia" msgstr "" #. Tag: entry -#: hardware.xml:476 +#: hardware.xml:477 #, no-c-format msgid "NORITAKE" msgstr "" #. Tag: entry -#: hardware.xml:477 +#: hardware.xml:478 #, no-c-format msgid "AlphaServer 1000A 4/233...266" msgstr "" #. Tag: entry -#: hardware.xml:478 +#: hardware.xml:479 #, no-c-format msgid "Noritake" msgstr "" #. Tag: entry -#: hardware.xml:481 +#: hardware.xml:482 #, no-c-format msgid "AlphaServer 1000A 5/300" msgstr "" #. Tag: entry -#: hardware.xml:482 +#: hardware.xml:483 #, no-c-format msgid "Noritake-Pinnacle" msgstr "" #. Tag: entry -#: hardware.xml:485 +#: hardware.xml:486 #, no-c-format msgid "AlphaServer 1000A 5/333...500" msgstr "" #. Tag: entry -#: hardware.xml:486 +#: hardware.xml:487 #, no-c-format msgid "Noritake-Primo" msgstr "" #. Tag: entry -#: hardware.xml:489 +#: hardware.xml:490 #, no-c-format msgid "AlphaServer 800 5/333...500" msgstr "" #. Tag: entry -#: hardware.xml:490 hardware.xml:498 hardware.xml:502 +#: hardware.xml:491 hardware.xml:499 hardware.xml:503 #, no-c-format msgid "Corelle" msgstr "" #. Tag: entry -#: hardware.xml:493 +#: hardware.xml:494 #, no-c-format msgid "AlphaStation 600 A" msgstr "" #. Tag: entry -#: hardware.xml:494 +#: hardware.xml:495 #, no-c-format msgid "Alcor-Primo" msgstr "" #. Tag: entry -#: hardware.xml:497 +#: hardware.xml:498 #, no-c-format msgid "Digital Server 3300" msgstr "" #. Tag: entry -#: hardware.xml:501 +#: hardware.xml:502 #, no-c-format msgid "Digital Server 3300R" msgstr "" #. Tag: entry -#: hardware.xml:507 +#: hardware.xml:508 #, no-c-format msgid "PLATFORM 2000" msgstr "" #. Tag: entry -#: hardware.xml:508 hardware.xml:509 +#: hardware.xml:509 hardware.xml:510 #, no-c-format msgid "P2K" msgstr "" #. Tag: entry -#: hardware.xml:510 +#: hardware.xml:511 #, no-c-format msgid "p2k" msgstr "" #. Tag: entry -#: hardware.xml:514 +#: hardware.xml:515 #, no-c-format msgid "RAWHIDE" msgstr "" #. Tag: entry -#: hardware.xml:515 +#: hardware.xml:516 #, no-c-format msgid "AlphaServer 1200 5/xxx" msgstr "" #. Tag: entry -#: hardware.xml:516 hardware.xml:528 +#: hardware.xml:517 hardware.xml:529 #, no-c-format msgid "Tincup/DaVinci" msgstr "" #. Tag: entry -#: hardware.xml:519 +#: hardware.xml:520 #, no-c-format msgid "AlphaServer 4000 5/xxx" msgstr "" #. Tag: entry -#: hardware.xml:520 +#: hardware.xml:521 #, no-c-format msgid "Wrangler/Durango" msgstr "" #. Tag: entry -#: hardware.xml:523 +#: hardware.xml:524 #, no-c-format msgid "AlphaServer 4100 5/xxx" msgstr "" #. Tag: entry -#: hardware.xml:524 hardware.xml:532 +#: hardware.xml:525 hardware.xml:533 #, no-c-format msgid "Dodge" msgstr "" #. Tag: entry -#: hardware.xml:527 +#: hardware.xml:528 #, no-c-format msgid "Digital Server 5300" msgstr "" #. Tag: entry -#: hardware.xml:531 +#: hardware.xml:532 #, no-c-format msgid "Digital Server 7300" msgstr "" #. Tag: entry -#: hardware.xml:537 +#: hardware.xml:538 #, no-c-format msgid "RUFFIAN" msgstr "" #. Tag: entry -#: hardware.xml:538 +#: hardware.xml:539 #, no-c-format msgid "DeskStation AlphaPC164-UX" msgstr "" #. Tag: entry -#: hardware.xml:539 hardware.xml:543 hardware.xml:547 hardware.xml:551 hardware.xml:555 hardware.xml:559 +#: hardware.xml:540 hardware.xml:544 hardware.xml:548 hardware.xml:552 hardware.xml:556 hardware.xml:560 #, no-c-format msgid "Ruffian" msgstr "" #. Tag: entry -#: hardware.xml:540 hardware.xml:544 hardware.xml:548 hardware.xml:552 hardware.xml:556 hardware.xml:560 +#: hardware.xml:541 hardware.xml:545 hardware.xml:549 hardware.xml:553 hardware.xml:557 hardware.xml:561 #, no-c-format msgid "ruffian" msgstr "" #. Tag: entry -#: hardware.xml:542 +#: hardware.xml:543 #, no-c-format msgid "DeskStation RPL164-2" msgstr "" #. Tag: entry -#: hardware.xml:546 +#: hardware.xml:547 #, no-c-format msgid "DeskStation RPL164-4" msgstr "" #. Tag: entry -#: hardware.xml:550 +#: hardware.xml:551 #, no-c-format msgid "DeskStation RPX164-2" msgstr "" #. Tag: entry -#: hardware.xml:554 +#: hardware.xml:555 #, no-c-format msgid "DeskStation RPX164-4" msgstr "" #. Tag: entry -#: hardware.xml:558 +#: hardware.xml:559 #, no-c-format msgid "Samsung AlphaPC164-BX" msgstr "" #. Tag: entry -#: hardware.xml:564 +#: hardware.xml:565 #, no-c-format msgid "SABLE" msgstr "" #. Tag: entry -#: hardware.xml:565 +#: hardware.xml:566 #, no-c-format msgid "AlphaServer 2000 4/xxx" msgstr "" #. Tag: entry -#: hardware.xml:566 +#: hardware.xml:567 #, no-c-format msgid "Demi-Sable" msgstr "" #. Tag: entry -#: hardware.xml:569 +#: hardware.xml:570 #, no-c-format msgid "AlphaServer 2000 5/xxx" msgstr "" #. Tag: entry -#: hardware.xml:570 +#: hardware.xml:571 #, no-c-format msgid "Demi-Gamma-Sable" msgstr "" #. Tag: entry -#: hardware.xml:573 +#: hardware.xml:574 #, no-c-format msgid "AlphaServer 2100 4/xxx" msgstr "" #. Tag: entry -#: hardware.xml:574 +#: hardware.xml:575 #, no-c-format msgid "Sable" msgstr "" #. Tag: entry -#: hardware.xml:577 +#: hardware.xml:578 #, no-c-format msgid "AlphaServer 2100 5/xxx" msgstr "" #. Tag: entry -#: hardware.xml:578 +#: hardware.xml:579 #, no-c-format msgid "Gamma-Sable" msgstr "" #. Tag: entry -#: hardware.xml:583 +#: hardware.xml:584 #, no-c-format msgid "TAKARA" msgstr "" #. Tag: entry -#: hardware.xml:584 +#: hardware.xml:585 #, no-c-format msgid "21164 PICMG SBC" msgstr "" #. Tag: entry -#: hardware.xml:585 +#: hardware.xml:586 #, no-c-format msgid "Takara" msgstr "" #. Tag: entry -#: hardware.xml:586 +#: hardware.xml:587 #, no-c-format msgid "takara" msgstr "" #. Tag: entry -#: hardware.xml:590 +#: hardware.xml:591 #, no-c-format msgid "TITAN" msgstr "" #. Tag: entry -#: hardware.xml:591 +#: hardware.xml:592 #, no-c-format msgid "AlphaServer DS15" msgstr "" #. Tag: entry -#: hardware.xml:592 +#: hardware.xml:593 #, no-c-format msgid "HyperBrick2" msgstr "" #. Tag: entry -#: hardware.xml:595 +#: hardware.xml:596 #, no-c-format msgid "AlphaServer DS25" msgstr "" #. Tag: entry -#: hardware.xml:596 +#: hardware.xml:597 #, no-c-format msgid "Granite" msgstr "" #. Tag: entry -#: hardware.xml:599 +#: hardware.xml:600 #, no-c-format msgid "AlphaServer ES45" msgstr "" #. Tag: entry -#: hardware.xml:600 +#: hardware.xml:601 #, no-c-format msgid "Privateer" msgstr "" #. Tag: entry -#: hardware.xml:603 hardware.xml:642 hardware.xml:646 +#: hardware.xml:604 hardware.xml:643 hardware.xml:647 #, no-c-format msgid "UNKNOWN" msgstr "" #. Tag: entry -#: hardware.xml:604 +#: hardware.xml:605 #, no-c-format msgid "Yukon" msgstr "" #. Tag: entry -#: hardware.xml:609 +#: hardware.xml:610 #, no-c-format msgid "TSUNAMI" msgstr "" #. Tag: entry -#: hardware.xml:610 +#: hardware.xml:611 #, no-c-format msgid "AlphaServer DS10" msgstr "" #. Tag: entry -#: hardware.xml:611 hardware.xml:659 +#: hardware.xml:612 hardware.xml:660 #, no-c-format msgid "Webbrick" msgstr "" #. Tag: entry -#: hardware.xml:614 +#: hardware.xml:615 #, no-c-format msgid "AlphaServer DS10L" msgstr "" #. Tag: entry -#: hardware.xml:615 +#: hardware.xml:616 #, no-c-format msgid "Slate" msgstr "" #. Tag: entry -#: hardware.xml:618 +#: hardware.xml:619 #, no-c-format msgid "AlphaServer DS20" msgstr "" #. Tag: entry -#: hardware.xml:619 +#: hardware.xml:620 #, no-c-format msgid "Catamaran/Goldrush" msgstr "" #. Tag: entry -#: hardware.xml:622 +#: hardware.xml:623 #, no-c-format msgid "AlphaServer DS20E" msgstr "" #. Tag: entry -#: hardware.xml:623 +#: hardware.xml:624 #, no-c-format msgid "Goldrack" msgstr "" #. Tag: entry -#: hardware.xml:626 +#: hardware.xml:627 #, no-c-format msgid "AlphaServer DS20L" msgstr "" #. Tag: entry -#: hardware.xml:627 +#: hardware.xml:628 #, no-c-format msgid "Shark" msgstr "" #. Tag: entry -#: hardware.xml:630 +#: hardware.xml:631 #, no-c-format msgid "AlphaServer ES40" msgstr "" #. Tag: entry -#: hardware.xml:631 +#: hardware.xml:632 #, no-c-format msgid "Clipper" msgstr "" #. Tag: entry -#: hardware.xml:634 hardware.xml:635 +#: hardware.xml:635 hardware.xml:636 #, no-c-format msgid "DP264" msgstr "" #. Tag: entry -#: hardware.xml:638 +#: hardware.xml:639 #, no-c-format msgid "SMARTengine 21264 PCI/ISA SBC" msgstr "" #. Tag: entry -#: hardware.xml:639 +#: hardware.xml:640 #, no-c-format msgid "Eiger" msgstr "" #. Tag: entry -#: hardware.xml:643 +#: hardware.xml:644 #, no-c-format msgid "Warhol" msgstr "" #. Tag: entry -#: hardware.xml:647 +#: hardware.xml:648 #, no-c-format msgid "Windjammer" msgstr "" #. Tag: entry -#: hardware.xml:650 +#: hardware.xml:651 #, no-c-format msgid "UP2000" msgstr "" #. Tag: entry -#: hardware.xml:651 +#: hardware.xml:652 #, no-c-format msgid "Swordfish" msgstr "" #. Tag: entry -#: hardware.xml:654 +#: hardware.xml:655 #, no-c-format msgid "XP1000" msgstr "" #. Tag: entry -#: hardware.xml:655 +#: hardware.xml:656 #, no-c-format msgid "Monet/Brisbane" msgstr "" #. Tag: entry -#: hardware.xml:658 +#: hardware.xml:659 #, no-c-format msgid "XP900" msgstr "" #. Tag: entry -#: hardware.xml:664 +#: hardware.xml:665 #, no-c-format msgid "WILDFIRE" msgstr "" #. Tag: entry -#: hardware.xml:665 +#: hardware.xml:666 #, no-c-format msgid "AlphaServer GS160" msgstr "" #. Tag: entry -#: hardware.xml:666 hardware.xml:670 +#: hardware.xml:667 hardware.xml:671 #, no-c-format msgid "Wildfire" msgstr "" #. Tag: entry -#: hardware.xml:669 +#: hardware.xml:670 #, no-c-format msgid "AlphaServer GS320" msgstr "" #. Tag: entry -#: hardware.xml:675 hardware.xml:677 +#: hardware.xml:676 hardware.xml:678 #, no-c-format msgid "XL" msgstr "" #. Tag: entry -#: hardware.xml:676 +#: hardware.xml:677 #, no-c-format msgid "XL-233...266" msgstr "" #. Tag: entry -#: hardware.xml:678 +#: hardware.xml:679 #, no-c-format msgid "xl" msgstr "" #. Tag: para -#: hardware.xml:683 +#: hardware.xml:684 #, no-c-format msgid "It is believed that Debian &releasename; supports installing on all alpha sub-architectures with the exception of the ARC-only Ruffian and XL sub-architectures and the Titan subarchitecture, which requires a change to the kernel compile options." msgstr "" #. Tag: para -#: hardware.xml:699 hardware.xml:858 +#: hardware.xml:700 hardware.xml:859 #, no-c-format msgid "Complete information concerning supported peripherals can be found at Linux Hardware Compatibility HOWTO. This section merely outlines the basics." msgstr "" #. Tag: title -#: hardware.xml:707 hardware.xml:866 hardware.xml:1028 +#: hardware.xml:708 hardware.xml:867 hardware.xml:1029 #, no-c-format msgid "CPU" msgstr "" #. Tag: para -#: hardware.xml:708 +#: hardware.xml:709 #, no-c-format msgid "Both AMD64 and Intel EM64T processors are supported." msgstr "" #. Tag: para -#: hardware.xml:736 +#: hardware.xml:737 #, no-c-format msgid "Each distinct ARM architecture requires its own kernel. Because of this the standard Debian distribution only supports installation on a number of the most common platforms. The Debian userland however may be used by any ARM CPU." msgstr "" #. Tag: para -#: hardware.xml:745 +#: hardware.xml:746 #, no-c-format msgid "Most ARM CPUs may be run in either endian mode (big or little). However, the majority of current system implementation uses little-endian mode. Debian currently only supports little-endian ARM systems." msgstr "" #. Tag: para -#: hardware.xml:753 +#: hardware.xml:754 #, no-c-format msgid "The supported platforms are:" msgstr "" #. Tag: term -#: hardware.xml:760 +#: hardware.xml:761 #, no-c-format msgid "Netwinder" msgstr "" #. Tag: para -#: hardware.xml:761 +#: hardware.xml:762 #, no-c-format msgid "This is actually the name for the group of machines based upon the StrongARM 110 CPU and Intel 21285 Northbridge (also known as Footbridge). It comprises of machines like: Netwinder (possibly one of the most common ARM boxes), CATS (also known as the EB110ATX), EBSA 285 and Compaq personal server (cps, aka skiff)." msgstr "" #. Tag: term -#: hardware.xml:774 +#: hardware.xml:775 #, no-c-format msgid "IOP32x" msgstr "" #. Tag: para -#: hardware.xml:775 +#: hardware.xml:776 #, no-c-format msgid "Intel's I/O Processor (IOP) line is found in a number of products related to data storage and processing. Debian currently supports the IOP32x platform, featuring the IOP 80219 and 32x chips commonly found in Network Attached Storage (NAS) devices. Debian explicitly supports two such devices: the GLAN Tank from IO-Data and the Thecus N2100." msgstr "" #. Tag: term -#: hardware.xml:788 +#: hardware.xml:789 #, no-c-format msgid "IXP4xx" msgstr "" #. Tag: para -#: hardware.xml:789 +#: hardware.xml:790 #, no-c-format msgid "The IXP4xx platform is based on Intel's XScale ARM core. Currently, only one IXP4xx based system is supported, the Linksys NSLU2. The Linksys NSLU2 (Network Storage Link for USB 2.0 Disk Drives) is a small device which allows you to easily provide storage via the network. It comes with an Ethernet connection and two USB ports to which hard drives can be connected. There is an external site with installation instructions." msgstr "" #. Tag: term -#: hardware.xml:803 +#: hardware.xml:804 #, no-c-format msgid "Orion5x" msgstr "" #. Tag: para -#: hardware.xml:804 +#: hardware.xml:805 #, no-c-format msgid "Orion is a system on a chip (SoC) from Marvell that integrates an ARM CPU, Ethernet, SATA, USB, and other functionality in one chip. There are many Network Attached Storage (NAS) devices on the market that are based on an Orion chip. We currently support the following Orion based devices: Buffalo Kurobox, HP mv2120, QNAP Turbo Station (TS-109, TS-209 and TS-409)." msgstr "" #. Tag: term -#: hardware.xml:819 +#: hardware.xml:820 #, no-c-format msgid "Versatile" msgstr "" #. Tag: para -#: hardware.xml:820 +#: hardware.xml:821 #, no-c-format msgid "The Versatile platform is emulated by QEMU and is therefore a nice way to test and run Debian on ARM if you don't have the hardware." msgstr "" #. Tag: para -#: hardware.xml:839 +#: hardware.xml:840 #, no-c-format msgid "There are two major support &architecture; flavors: PA-RISC 1.1 and PA-RISC 2.0. The PA-RISC 1.1 architecture is targeted at 32-bit processors whereas the 2.0 architecture is targeted to the 64-bit processors. Some systems are able to run either kernel. In both cases, the userland is 32-bit. There is the possibility of a 64-bit userland in the future." msgstr "" #. Tag: para -#: hardware.xml:867 +#: hardware.xml:868 #, no-c-format msgid "Nearly all x86-based (IA-32) processors still in use in personal computers are supported, including all varieties of Intel's \"Pentium\" series. This also includes 32-bit AMD and VIA (former Cyrix) processors, and processors like the Athlon XP and Intel P4 Xeon." msgstr "" #. Tag: para -#: hardware.xml:874 +#: hardware.xml:875 #, no-c-format msgid "However, Debian GNU/Linux &releasename; will not run on 386 or earlier processors. Despite the architecture name \"i386\", support for actual 80386 processors (and their clones) was dropped with the Sarge (r3.1) release of Debian We have long tried to avoid this, but in the end it was necessary due a unfortunate series of issues with the compiler and the kernel, starting with an bug in the C++ ABI provided by GCC. You should still be able to run Debian GNU/Linux on actual 80386 processors if you compile your own kernel and compile all packages from source, but that is beyond the scope of this manual. . (No version of Linux has ever supported the 286 or earlier chips in the series.) All i486 and later processors are still supported Many Debian packages will actually run slightly faster on modern computers as a positive side effect of dropping support for these old chips. The i486, introduced in 1989, has three opcodes (bswap, cmpxchg, and xadd) which the i386, introduced in 1986, did not have. Previously, these could not be easily used by most Debian packages; now they can. ." msgstr "" #. Tag: para -#: hardware.xml:907 +#: hardware.xml:908 #, no-c-format msgid "If your system has a 64-bit processor from the AMD64 or Intel EM64T families, you will probably want to use the installer for the amd64 architecture instead of the installer for the (32-bit) i386 architecture." msgstr "" #. Tag: title -#: hardware.xml:916 +#: hardware.xml:917 #, no-c-format msgid "I/O Bus" msgstr "" #. Tag: para -#: hardware.xml:917 +#: hardware.xml:918 #, no-c-format msgid "The system bus is the part of the motherboard which allows the CPU to communicate with peripherals such as storage devices. Your computer must use the ISA, EISA, PCI, PCIe, or VESA Local Bus (VLB, sometimes called the VL bus). Essentially all personal computers sold in recent years use one of these." msgstr "" #. Tag: para -#: hardware.xml:940 +#: hardware.xml:941 #, no-c-format msgid "Complete information concerning supported M68000 based (&architecture;) systems can be found at the Linux/m68k FAQ. This section merely outlines the basics." msgstr "" #. Tag: para -#: hardware.xml:947 +#: hardware.xml:948 #, no-c-format msgid "The &architecture; port of Linux runs on any 680x0 with a PMMU (Paged Memory Management Unit) and a FPU (floating-point unit). This includes the 68020 with an external 68851 PMMU, the 68030, and better, and excludes the EC line of 680x0 processors. See the Linux/m68k FAQ for complete details." msgstr "" #. Tag: para -#: hardware.xml:955 +#: hardware.xml:956 #, no-c-format msgid "There are four major supported &architecture; flavors: Amiga, Atari, Macintosh and VME machines. Amiga and Atari were the first two systems to which Linux was ported; in keeping, they are also the two most well-supported Debian ports. The Macintosh line is supported incompletely, both by Debian and by the Linux kernel; see Linux m68k for Macintosh for project status and supported hardware. The BVM and Motorola single board VMEbus computers are the most recent addition to the list of machines supported by Debian. Ports to other &architecture; architectures, such as the Sun3 architecture and NeXT black box, are underway but not yet supported by Debian." msgstr "" #. Tag: para -#: hardware.xml:982 +#: hardware.xml:983 #, no-c-format msgid "Debian on &arch-title; supports the following platforms: SGI IP22: this platform includes the SGI machines Indy, Indigo 2 and Challenge S. Since these machines are very similar, whenever this document refers to the SGI Indy, the Indigo 2 and Challenge S are meant as well. SGI IP32: this platform is generally known as SGI O2. MIPS Malta: this platform is emulated by QEMU and is therefore a nice way to test and run Debian on MIPS if you don't have the hardware. Broadcom BCM91250A (SWARM): this is an ATX form factor evaluation board from Broadcom based on the dual-core SB1 1250 CPU. Broadcom BCM91480B (BigSur): this is an ATX form factor evaluation board from Broadcom based on the quad-core SB1A 1480 CPU. Complete information regarding supported mips/mipsel machines can be found at the Linux-MIPS homepage. In the following, only the systems supported by the Debian installer will be covered. If you are looking for support for other subarchitectures, please contact the debian-&arch-listname; mailing list." msgstr "" #. Tag: para -#: hardware.xml:1029 +#: hardware.xml:1030 #, no-c-format msgid "On SGI IP22, SGI Indy, Indigo 2 and Challenge S with R4000, R4400, R4600 and R5000 processors are supported by the Debian installation system on big endian MIPS. On SGI IP32, currently only systems based on the R5000 are supported. The Broadcom BCM91250A evaluation board comes with an SB1 1250 chip with two cores which are supported in SMP mode by this installer. Similarly, the BCM91480B evaluation board contains an SB1A 1480 chip with four cores which are supported in SMP mode." msgstr "" #. Tag: para -#: hardware.xml:1039 +#: hardware.xml:1040 #, no-c-format msgid "Some MIPS machines can be operated in both big and little endian mode. For little endian MIPS, please read the documentation for the mipsel architecture." msgstr "" #. Tag: para -#: hardware.xml:1056 +#: hardware.xml:1057 #, no-c-format msgid "Debian on &arch-title; supports the following platforms: Cobalt Microserver: only MIPS based Cobalt machines are covered here. This includes the Cobalt Qube 2700 (Qube1), RaQ, Qube2 and RaQ2, and the Gateway Microserver. MIPS Malta: this platform is emulated by QEMU and is therefore a nice way to test and run Debian on MIPS if you don't have the hardware. Broadcom BCM91250A (SWARM): this is an ATX form factor evaluation board from Broadcom based on the dual-core SB1 1250 CPU. Broadcom BCM91480B (BigSur): this is an ATX form factor evaluation board from Broadcom based on the quad-core SB1A 1480 CPU. Complete information regarding supported mips/mipsel machines can be found at the Linux-MIPS homepage. In the following, only the systems supported by the Debian installer will be covered. If you are looking for support for other subarchitectures, please contact the debian-&arch-listname; mailing list." msgstr "" #. Tag: title -#: hardware.xml:1097 +#: hardware.xml:1098 #, no-c-format msgid "CPU/Machine types" msgstr "" #. Tag: para -#: hardware.xml:1099 +#: hardware.xml:1100 #, no-c-format msgid "All MIPS based Cobalt machines are supported." msgstr "" #. Tag: para -#: hardware.xml:1103 +#: hardware.xml:1104 #, no-c-format msgid "The Broadcom BCM91250A evaluation board comes with an SB1 1250 chip with two cores which are supported in SMP mode by this installer. Similarly, the BCM91480B evaluation board contains an SB1A 1480 chip with four cores which are supported in SMP mode." msgstr "" #. Tag: title -#: hardware.xml:1113 +#: hardware.xml:1114 #, no-c-format msgid "Supported console options" msgstr "" #. Tag: para -#: hardware.xml:1114 +#: hardware.xml:1115 #, no-c-format msgid "Both Cobalt and Broadcom BCM91250A/BCM91480B use 115200 bps." msgstr "" #. Tag: para -#: hardware.xml:1128 +#: hardware.xml:1129 #, no-c-format msgid "For &debian; &release; only the PMac (Power-Macintosh or PowerMac) and PreP subarchitectures are supported." msgstr "" #. Tag: title -#: hardware.xml:1149 +#: hardware.xml:1150 #, no-c-format msgid "Kernel Flavours" msgstr "" #. Tag: para -#: hardware.xml:1151 +#: hardware.xml:1152 #, no-c-format msgid "There are two flavours of the powerpc kernel in Debian, based on the CPU type:" msgstr "" #. Tag: term -#: hardware.xml:1158 +#: hardware.xml:1159 #, no-c-format msgid "powerpc" msgstr "" #. Tag: para -#: hardware.xml:1159 +#: hardware.xml:1160 #, no-c-format msgid "Most systems use this kernel flavour, which supports the PowerPC 601, 603, 604, 740, 750, and 7400 processors. All Apple PowerMac machines up to and including the one marketed as G4 use one of these processors." msgstr "" #. Tag: term -#: hardware.xml:1169 +#: hardware.xml:1170 #, no-c-format msgid "power64" msgstr "" #. Tag: para -#: hardware.xml:1170 +#: hardware.xml:1171 #, no-c-format msgid "The power64 kernel flavour supports the following CPUs:" msgstr "" #. Tag: para -#: hardware.xml:1174 +#: hardware.xml:1175 #, no-c-format msgid "The POWER3 processor is used in older IBM 64-bit server systems: known models include the IntelliStation POWER Model 265, the pSeries 610 and 640, and the RS/6000 7044-170, 7043-260, and 7044-270." msgstr "" #. Tag: para -#: hardware.xml:1180 +#: hardware.xml:1181 #, no-c-format msgid "The POWER4 processor is used in more recent IBM 64-bit server systems: known models include the pSeries 615, 630, 650, 655, 670, and 690." msgstr "" #. Tag: para -#: hardware.xml:1185 +#: hardware.xml:1186 #, no-c-format msgid "Systems using the Apple G5 (PPC970FX processor) are also based on the POWER4 architecture, and use this kernel flavour." msgstr "" #. Tag: title -#: hardware.xml:1219 +#: hardware.xml:1220 #, no-c-format msgid "Power Macintosh (pmac) subarchitecture" msgstr "" #. Tag: para -#: hardware.xml:1221 +#: hardware.xml:1222 #, no-c-format msgid "Apple (and briefly a few other manufacturers — Power Computing, for example) made a series of Macintosh computers based on the PowerPC processor. For purposes of architecture support, they are categorized as NuBus (not supported by Debian), OldWorld, and NewWorld." msgstr "" #. Tag: para -#: hardware.xml:1228 +#: hardware.xml:1229 #, no-c-format msgid "OldWorld systems are most Power Macintoshes with a floppy drive and a PCI bus. Most 603, 603e, 604, and 604e based Power Macintoshes are OldWorld machines. Those pre-iMac PowerPC models from Apple use a four digit naming scheme, except for the beige colored G3 systems, which are also OldWorld." msgstr "" #. Tag: para -#: hardware.xml:1236 +#: hardware.xml:1237 #, no-c-format msgid "The so called NewWorld PowerMacs are any PowerMacs in translucent colored plastic cases and later models. That includes all iMacs, iBooks, G4 systems, blue colored G3 systems, and most PowerBooks manufactured in and after 1999. The NewWorld PowerMacs are also known for using the ROM in RAM system for MacOS, and were manufactured from mid-1998 onwards." msgstr "" #. Tag: para -#: hardware.xml:1244 +#: hardware.xml:1245 #, no-c-format msgid "Specifications for Apple hardware are available at AppleSpec, and, for older hardware, AppleSpec Legacy." msgstr "" #. Tag: entry -#: hardware.xml:1260 hardware.xml:1395 hardware.xml:1439 hardware.xml:1468 +#: hardware.xml:1261 hardware.xml:1396 hardware.xml:1440 hardware.xml:1469 #, no-c-format msgid "Model Name/Number" msgstr "" #. Tag: entry -#: hardware.xml:1261 +#: hardware.xml:1262 #, no-c-format msgid "Generation" msgstr "" #. Tag: entry -#: hardware.xml:1267 +#: hardware.xml:1268 #, no-c-format msgid "Apple" msgstr "" #. Tag: entry -#: hardware.xml:1268 +#: hardware.xml:1269 #, no-c-format msgid "iMac Bondi Blue, 5 Flavors, Slot Loading" msgstr "" #. Tag: entry -#: hardware.xml:1269 hardware.xml:1272 hardware.xml:1275 hardware.xml:1278 hardware.xml:1281 hardware.xml:1284 hardware.xml:1287 hardware.xml:1290 hardware.xml:1293 hardware.xml:1296 hardware.xml:1299 hardware.xml:1302 hardware.xml:1305 hardware.xml:1308 hardware.xml:1311 hardware.xml:1314 +#: hardware.xml:1270 hardware.xml:1273 hardware.xml:1276 hardware.xml:1279 hardware.xml:1282 hardware.xml:1285 hardware.xml:1288 hardware.xml:1291 hardware.xml:1294 hardware.xml:1297 hardware.xml:1300 hardware.xml:1303 hardware.xml:1306 hardware.xml:1309 hardware.xml:1312 hardware.xml:1315 #, no-c-format msgid "NewWorld" msgstr "" #. Tag: entry -#: hardware.xml:1271 +#: hardware.xml:1272 #, no-c-format msgid "iMac Summer 2000, Early 2001" msgstr "" #. Tag: entry -#: hardware.xml:1274 +#: hardware.xml:1275 #, no-c-format msgid "iMac G5" msgstr "" #. Tag: entry -#: hardware.xml:1277 +#: hardware.xml:1278 #, no-c-format msgid "iBook, iBook SE, iBook Dual USB" msgstr "" #. Tag: entry -#: hardware.xml:1280 +#: hardware.xml:1281 #, no-c-format msgid "iBook2" msgstr "" #. Tag: entry -#: hardware.xml:1283 +#: hardware.xml:1284 #, no-c-format msgid "iBook G4" msgstr "" #. Tag: entry -#: hardware.xml:1286 +#: hardware.xml:1287 #, no-c-format msgid "Power Macintosh Blue and White (B&W) G3" msgstr "" #. Tag: entry -#: hardware.xml:1289 +#: hardware.xml:1290 #, no-c-format msgid "Power Macintosh G4 PCI, AGP, Cube" msgstr "" #. Tag: entry -#: hardware.xml:1292 +#: hardware.xml:1293 #, no-c-format msgid "Power Macintosh G4 Gigabit Ethernet" msgstr "" #. Tag: entry -#: hardware.xml:1295 +#: hardware.xml:1296 #, no-c-format msgid "Power Macintosh G4 Digital Audio, Quicksilver" msgstr "" #. Tag: entry -#: hardware.xml:1298 +#: hardware.xml:1299 #, no-c-format msgid "Power Macintosh G5" msgstr "" #. Tag: entry -#: hardware.xml:1301 +#: hardware.xml:1302 #, no-c-format msgid "PowerBook G3 FireWire Pismo (2000)" msgstr "" #. Tag: entry -#: hardware.xml:1304 +#: hardware.xml:1305 #, no-c-format msgid "PowerBook G3 Lombard (1999)" msgstr "" #. Tag: entry -#: hardware.xml:1307 +#: hardware.xml:1308 #, no-c-format msgid "PowerBook G4 Titanium" msgstr "" #. Tag: entry -#: hardware.xml:1310 +#: hardware.xml:1311 #, no-c-format msgid "PowerBook G4 Aluminum" msgstr "" #. Tag: entry -#: hardware.xml:1313 +#: hardware.xml:1314 #, no-c-format msgid "Xserve G5" msgstr "" #. Tag: entry -#: hardware.xml:1316 +#: hardware.xml:1317 #, no-c-format msgid "Performa 4400, 54xx, 5500" msgstr "" #. Tag: entry -#: hardware.xml:1317 hardware.xml:1320 hardware.xml:1323 hardware.xml:1326 hardware.xml:1329 hardware.xml:1332 hardware.xml:1335 hardware.xml:1338 hardware.xml:1341 hardware.xml:1344 hardware.xml:1347 hardware.xml:1350 hardware.xml:1356 hardware.xml:1359 hardware.xml:1365 hardware.xml:1371 hardware.xml:1377 +#: hardware.xml:1318 hardware.xml:1321 hardware.xml:1324 hardware.xml:1327 hardware.xml:1330 hardware.xml:1333 hardware.xml:1336 hardware.xml:1339 hardware.xml:1342 hardware.xml:1345 hardware.xml:1348 hardware.xml:1351 hardware.xml:1357 hardware.xml:1360 hardware.xml:1366 hardware.xml:1372 hardware.xml:1378 #, no-c-format msgid "OldWorld" msgstr "" #. Tag: entry -#: hardware.xml:1319 +#: hardware.xml:1320 #, no-c-format msgid "Performa 6360, 6400, 6500" msgstr "" #. Tag: entry -#: hardware.xml:1322 +#: hardware.xml:1323 #, no-c-format msgid "Power Macintosh 4400, 5400" msgstr "" #. Tag: entry -#: hardware.xml:1325 +#: hardware.xml:1326 #, no-c-format msgid "Power Macintosh 7200, 7300, 7500, 7600" msgstr "" #. Tag: entry -#: hardware.xml:1328 +#: hardware.xml:1329 #, no-c-format msgid "Power Macintosh 8200, 8500, 8600" msgstr "" #. Tag: entry -#: hardware.xml:1331 +#: hardware.xml:1332 #, no-c-format msgid "Power Macintosh 9500, 9600" msgstr "" #. Tag: entry -#: hardware.xml:1334 +#: hardware.xml:1335 #, no-c-format msgid "Power Macintosh (Beige) G3 Minitower" msgstr "" #. Tag: entry -#: hardware.xml:1337 +#: hardware.xml:1338 #, no-c-format msgid "Power Macintosh (Beige) Desktop, All-in-One" msgstr "" #. Tag: entry -#: hardware.xml:1340 +#: hardware.xml:1341 #, no-c-format msgid "PowerBook 2400, 3400, 3500" msgstr "" #. Tag: entry -#: hardware.xml:1343 +#: hardware.xml:1344 #, no-c-format msgid "PowerBook G3 Wallstreet (1998)" msgstr "" #. Tag: entry -#: hardware.xml:1346 +#: hardware.xml:1347 #, no-c-format msgid "Twentieth Anniversary Macintosh" msgstr "" #. Tag: entry -#: hardware.xml:1349 +#: hardware.xml:1350 #, no-c-format msgid "Workgroup Server 7250, 7350, 8550, 9650, G3" msgstr "" #. Tag: entry -#: hardware.xml:1354 +#: hardware.xml:1355 #, no-c-format msgid "Power Computing" msgstr "" #. Tag: entry -#: hardware.xml:1355 +#: hardware.xml:1356 #, no-c-format msgid "PowerBase, PowerTower / Pro, PowerWave" msgstr "" #. Tag: entry -#: hardware.xml:1358 +#: hardware.xml:1359 #, no-c-format msgid "PowerCenter / Pro, PowerCurve" msgstr "" #. Tag: entry -#: hardware.xml:1363 +#: hardware.xml:1364 #, no-c-format msgid "UMAX" msgstr "" #. Tag: entry -#: hardware.xml:1364 +#: hardware.xml:1365 #, no-c-format msgid "C500, C600, J700, S900" msgstr "" #. Tag: entry -#: hardware.xml:1369 +#: hardware.xml:1370 #, no-c-format msgid "APS" msgstr "" #. Tag: entry -#: hardware.xml:1370 +#: hardware.xml:1371 #, no-c-format msgid "APS Tech M*Power 604e/2000" msgstr "" #. Tag: entry -#: hardware.xml:1375 hardware.xml:1401 +#: hardware.xml:1376 hardware.xml:1402 #, no-c-format msgid "Motorola" msgstr "" #. Tag: entry -#: hardware.xml:1376 +#: hardware.xml:1377 #, no-c-format msgid "Starmax 3000, 4000, 5000, 5500" msgstr "" #. Tag: title -#: hardware.xml:1385 +#: hardware.xml:1386 #, no-c-format msgid "PReP subarchitecture" msgstr "" #. Tag: entry -#: hardware.xml:1402 +#: hardware.xml:1403 #, no-c-format msgid "Firepower, PowerStack Series E, PowerStack II" msgstr "" #. Tag: entry -#: hardware.xml:1404 +#: hardware.xml:1405 #, no-c-format msgid "MPC 7xx, 8xx" msgstr "" #. Tag: entry -#: hardware.xml:1406 +#: hardware.xml:1407 #, no-c-format msgid "MTX, MTX+" msgstr "" #. Tag: entry -#: hardware.xml:1408 +#: hardware.xml:1409 #, no-c-format msgid "MVME2300(SC)/24xx/26xx/27xx/36xx/46xx" msgstr "" #. Tag: entry -#: hardware.xml:1410 +#: hardware.xml:1411 #, no-c-format msgid "MCP(N)750" msgstr "" #. Tag: entry -#: hardware.xml:1414 hardware.xml:1445 +#: hardware.xml:1415 hardware.xml:1446 #, no-c-format msgid "IBM RS/6000" msgstr "" #. Tag: entry -#: hardware.xml:1415 +#: hardware.xml:1416 #, no-c-format msgid "40P, 43P" msgstr "" #. Tag: entry -#: hardware.xml:1417 +#: hardware.xml:1418 #, no-c-format msgid "Power 830/850/860 (6070, 6050)" msgstr "" #. Tag: entry -#: hardware.xml:1419 +#: hardware.xml:1420 #, no-c-format msgid "6030, 7025, 7043" msgstr "" #. Tag: entry -#: hardware.xml:1421 +#: hardware.xml:1422 #, no-c-format msgid "p640" msgstr "" #. Tag: title -#: hardware.xml:1429 +#: hardware.xml:1430 #, no-c-format msgid "CHRP subarchitecture (unsupported)" msgstr "" #. Tag: entry -#: hardware.xml:1446 +#: hardware.xml:1447 #, no-c-format msgid "B50, 43P-150, 44P" msgstr "" #. Tag: entry -#: hardware.xml:1449 +#: hardware.xml:1450 #, no-c-format msgid "Genesi" msgstr "" #. Tag: entry -#: hardware.xml:1450 +#: hardware.xml:1451 #, no-c-format msgid "Pegasos I, Pegasos II" msgstr "" #. Tag: title -#: hardware.xml:1458 +#: hardware.xml:1459 #, no-c-format msgid "APUS subarchitecture (unsupported)" msgstr "" #. Tag: entry -#: hardware.xml:1474 +#: hardware.xml:1475 #, no-c-format msgid "Amiga Power-UP Systems (APUS)" msgstr "" #. Tag: entry -#: hardware.xml:1475 +#: hardware.xml:1476 #, no-c-format msgid "A1200, A3000, A4000" msgstr "" #. Tag: title -#: hardware.xml:1483 +#: hardware.xml:1484 #, no-c-format msgid "Nubus PowerMac subarchitecture (unsupported)" msgstr "" #. Tag: para -#: hardware.xml:1485 +#: hardware.xml:1486 #, no-c-format msgid "NuBus systems are not currently supported by Debian/powerpc. The monolithic Linux/PPC kernel architecture does not have support for these machines; instead, one must use the MkLinux Mach microkernel, which Debian does not yet support. These include the following: Power Macintosh 6100, 7100, 8100 Performa 5200, 6200, 6300 Powerbook 1400, 2300, and 5300 Workgroup Server 6150, 8150, 9150 A linux kernel for these machines and limited support is available at ." msgstr "" #. Tag: title -#: hardware.xml:1522 +#: hardware.xml:1523 #, no-c-format msgid "Non-PowerPC Macs" msgstr "" #. Tag: para -#: hardware.xml:1524 +#: hardware.xml:1525 #, no-c-format msgid "Macintosh computers using the 680x0 series of processors are not in the PowerPC family but are instead m68k machines. Those models start with Mac II series, go on to the LC family, then the Centris series, and culminate in the Quadras and Performas. These models usually have a Roman numeral or 3-digit model number such as Mac IIcx, LCIII or Quadra 950." msgstr "" #. Tag: para -#: hardware.xml:1533 +#: hardware.xml:1534 #, no-c-format msgid "This model range started with the Mac II (Mac II, IIx, IIcx, IIci, IIsi, IIvi, IIvx, IIfx), then the LC (LC, LCII, III, III+, 475, 520, 550, 575, 580, 630), then the Mac TV, then the Centris (610, 650, 660AV), the Quadra (605, 610, 630, 650, 660AV, 700, 800, 840AV, 900, 950), and finally the Performa 200-640CD." msgstr "" #. Tag: para -#: hardware.xml:1541 +#: hardware.xml:1542 #, no-c-format msgid "In laptops, it started with the Mac Portable, then the PowerBook 100-190cs and the PowerBook Duo 210-550c (excluding PowerBook 500 which is Nubus, please see the section above)." msgstr "" #. Tag: title -#: hardware.xml:1557 +#: hardware.xml:1558 #, no-c-format msgid "S/390 and zSeries machine types" msgstr "" #. Tag: para -#: hardware.xml:1558 +#: hardware.xml:1559 #, no-c-format msgid "Complete information regarding supported S/390 and zSeries machines can be found in IBM's Redbook Linux for IBM eServer zSeries and S/390: Distributions in chapter 2.1 or at the zSeries page at the developerWorks. In short, G5, Multiprise 3000, G6 and all zSeries are fully supported; Multiprise 2000, G3 and G4 machines are supported with IEEE floating point emulation and thus degraded performance." msgstr "" #. Tag: title -#: hardware.xml:1580 +#: hardware.xml:1581 #, no-c-format msgid "CPU and Main Boards Support" msgstr "" #. Tag: para -#: hardware.xml:1581 +#: hardware.xml:1582 #, no-c-format msgid "Sparc-based hardware is divided into a number of different subarchitectures, identified by one of the following names: sun4, sun4c, sun4d, sun4m, sun4u or sun4v. The following list describes what machines they include and what level of support may be expected for each of them." msgstr "" #. Tag: term -#: hardware.xml:1592 +#: hardware.xml:1593 #, no-c-format msgid "sun4, sun4c, sun4d, sun4m" msgstr "" #. Tag: para -#: hardware.xml:1594 +#: hardware.xml:1595 #, no-c-format msgid "None of these 32-bit sparc subarchitectures (sparc32) is supported. For a complete list of machines belonging to these subarchitectures, please consult the Wikipedia SPARCstation page." msgstr "" #. Tag: para -#: hardware.xml:1601 +#: hardware.xml:1602 #, no-c-format msgid "The last Debian release to support sparc32 was Etch, but even then only for sun4m systems. Support for the other 32-bits subarchitectures had already been discontinued after earlier releases." msgstr "" #. Tag: term -#: hardware.xml:1611 +#: hardware.xml:1612 #, no-c-format msgid "sun4u" msgstr "" #. Tag: para -#: hardware.xml:1613 +#: hardware.xml:1614 #, no-c-format msgid "This subarchitecture includes all 64-bit machines (sparc64) based on the UltraSparc processor and its clones. Most of the machines are well supported, even though for some you may experience problems booting from CD due to firmware or bootloader bugs (this problem may be worked around by using netbooting). Use the sparc64 or sparc64-smp kernel in UP and SMP configurations respectively." msgstr "" #. Tag: term -#: hardware.xml:1626 +#: hardware.xml:1627 #, no-c-format msgid "sun4v" msgstr "" #. Tag: para -#: hardware.xml:1628 +#: hardware.xml:1629 #, no-c-format msgid "This is the newest addition to the Sparc family, which includes machines based on the Niagara multi-core CPUs. At the moment such CPUs are only available in T1000 and T2000 servers by Sun, and are well supported. Use the sparc64-smp kernel." msgstr "" #. Tag: para -#: hardware.xml:1639 +#: hardware.xml:1640 #, no-c-format msgid "Note that Fujitsu's SPARC64 CPUs used in PRIMEPOWER family of servers are not supported due to lack of support in the Linux kernel." msgstr "" #. Tag: title -#: hardware.xml:1648 +#: hardware.xml:1649 #, no-c-format msgid "Laptops" msgstr "" #. Tag: para -#: hardware.xml:1649 +#: hardware.xml:1650 #, no-c-format msgid "Laptops are also supported and nowadays most laptops work out of the box. In case a laptop contains specialized or proprietary hardware, some specific functions may not be supported. To see if your particular laptop works well with GNU/Linux, see for example the Linux Laptop pages." msgstr "" #. Tag: title -#: hardware.xml:1661 hardware.xml:1684 hardware.xml:1704 hardware.xml:1727 +#: hardware.xml:1662 hardware.xml:1685 hardware.xml:1705 hardware.xml:1728 #, no-c-format msgid "Multiple Processors" msgstr "" #. Tag: para -#: hardware.xml:1662 +#: hardware.xml:1663 #, no-c-format msgid "Multiprocessor support — also called symmetric multiprocessing or SMP — is available for this architecture. The standard Debian &release; kernel image has been compiled with SMP support. The standard kernel is also usable on non-SMP systems, but has a slight overhead which will cause a small reduction in performance. For normal system use this will hardly be noticable." msgstr "" #. Tag: para -#: hardware.xml:1671 +#: hardware.xml:1672 #, no-c-format msgid "In order to optimize the kernel for single CPU systems, you'll have to replace the standard Debian kernel. You can find a discussion of how to do this in . At this time (kernel version &kernelversion;) the way you disable SMP is to deselect &smp-config-option; in the &smp-config-section; section of the kernel config." msgstr "" #. Tag: para -#: hardware.xml:1686 +#: hardware.xml:1687 #, no-c-format msgid "Multiprocessor support — also called symmetric multiprocessing or SMP — is available for this architecture. The standard Debian &release; kernel image has been compiled with SMP-alternatives support. This means that the kernel will detect the number of processors (or processor cores) and will automatically deactivate SMP on uniprocessor systems." msgstr "" #. Tag: para -#: hardware.xml:1695 +#: hardware.xml:1696 #, no-c-format msgid "The 486 flavour of the Debian kernel image packages for &arch-title; is not compiled with SMP support." msgstr "" #. Tag: para -#: hardware.xml:1705 +#: hardware.xml:1706 #, no-c-format msgid "Multiprocessor support — also called symmetric multiprocessing or SMP — is available for this architecture. However, the standard Debian &release; kernel image does not support SMP. This should not prevent installation, since the standard, non-SMP kernel should boot on SMP systems; the kernel will simply use the first CPU." msgstr "" #. Tag: para -#: hardware.xml:1714 +#: hardware.xml:1715 #, no-c-format msgid "In order to take advantage of multiple processors, you'll have to replace the standard Debian kernel. You can find a discussion of how to do this in . At this time (kernel version &kernelversion;) the way you enable SMP is to select &smp-config-option; in the &smp-config-section; section of the kernel config." msgstr "" #. Tag: para -#: hardware.xml:1728 +#: hardware.xml:1729 #, no-c-format msgid "Multiprocessor support — also called symmetric multiprocessing or SMP — is available for this architecture, and is supported by a precompiled Debian kernel image. Depending on your install media, this SMP-capable kernel may or may not be installed by default. This should not prevent installation, since the standard, non-SMP kernel should boot on SMP systems; the kernel will simply use the first CPU." msgstr "" #. Tag: para -#: hardware.xml:1738 +#: hardware.xml:1739 #, no-c-format msgid "In order to take advantage of multiple processors, you should check to see if a kernel package that supports SMP is installed, and if not, choose an appropriate kernel package." msgstr "" #. Tag: para -#: hardware.xml:1744 +#: hardware.xml:1745 #, no-c-format msgid "You can also build your own customized kernel to support SMP. You can find a discussion of how to do this in . At this time (kernel version &kernelversion;) the way you enable SMP is to select &smp-config-option; in the &smp-config-section; section of the kernel config." msgstr "" #. Tag: title -#: hardware.xml:1755 +#: hardware.xml:1756 #, no-c-format msgid "Graphics Card Support" msgstr "" #. Tag: para -#: hardware.xml:1756 +#: hardware.xml:1757 #, no-c-format msgid "You should be using a VGA-compatible display interface for the console terminal. Nearly every modern display card is compatible with VGA. Ancient standards such CGA, MDA, or HGA should also work, assuming you do not require X11 support. Note that X11 is not used during the installation process described in this document." msgstr "" #. Tag: para -#: hardware.xml:1764 +#: hardware.xml:1765 #, no-c-format msgid "Debian's support for graphical interfaces is determined by the underlying support found in X.Org's X11 system. Most AGP, PCI and PCIe video cards work under X.Org. Details on supported graphics buses, cards, monitors, and pointing devices can be found at . Debian &release; ships with X.Org version &x11ver;." msgstr "" #. Tag: para -#: hardware.xml:1773 +#: hardware.xml:1774 #, no-c-format msgid "The X.Org X Window System is only supported on the SGI Indy and the O2. The Broadcom BCM91250A and BCM91480B evaluation boards have standard 3.3v PCI slots and support VGA emulation or Linux framebuffer on a selected range of graphics cards. A compatibility listing for Broadcom evaluation boards is available." msgstr "" #. Tag: para -#: hardware.xml:1782 +#: hardware.xml:1783 #, no-c-format msgid "The Broadcom BCM91250A and BCM91480B evaluation boards have standard 3.3v PCI slots and support VGA emulation or Linux framebuffer on a selected range of graphics cards. A compatibility listing for Broadcom evaluation boards is available." msgstr "" #. Tag: para -#: hardware.xml:1789 +#: hardware.xml:1790 #, no-c-format msgid "Most graphics options commonly found on Sparc-based machines are supported. X.org graphics drivers are available for sunbw2, suncg14, suncg3, suncg6, sunleo and suntcx framebuffers, Creator3D and Elite3D cards (sunffb driver), PGX24/PGX64 ATI-based video cards (ati driver), and PermediaII-based cards (glint driver). To use an Elite3D card with X.org you additionally need to install the afbinit package, and read the documentation included with it on how to activate the card." msgstr "" #. Tag: para -#: hardware.xml:1799 +#: hardware.xml:1800 #, no-c-format msgid "It is not uncommon for a Sparc machine to have two graphics cards in a default configuration. In such a case there is a possibility that the Linux kernel will not direct its output to the card initially used by the firmware. The lack of output on the graphical console may then be mistaken for a hang (usually the last message seen on console is 'Booting Linux...'). One possible solution is to physically remove one of the video cards; another option is to disable one of the cards using a kernel boot parameter. Also, if graphical output is not required or desired, serial console may be used as an alternative. On some systems use of serial console can be activated automatically by disconnecting the keyboard before booting the system." msgstr "" #. Tag: title -#: hardware.xml:1821 +#: hardware.xml:1822 #, no-c-format msgid "Network Connectivity Hardware" msgstr "" #. Tag: para -#: hardware.xml:1822 +#: hardware.xml:1823 #, no-c-format msgid "Almost any network interface card (NIC) supported by the Linux kernel should also be supported by the installation system; modular drivers should normally be loaded automatically. This includes most PCI and PCMCIA cards. Many older ISA cards are supported as well. Again, see for complete details." msgstr "" #. Tag: para -#: hardware.xml:1834 +#: hardware.xml:1835 #, no-c-format msgid "This includes a lot of generic PCI cards (for systems that have PCI) and the following NICs from Sun:" msgstr "" #. Tag: para -#: hardware.xml:1840 +#: hardware.xml:1841 #, no-c-format msgid "Sun LANCE" msgstr "" #. Tag: para -#: hardware.xml:1845 +#: hardware.xml:1846 #, no-c-format msgid "Sun Happy Meal" msgstr "" #. Tag: para -#: hardware.xml:1850 +#: hardware.xml:1851 #, no-c-format msgid "Sun BigMAC" msgstr "" #. Tag: para -#: hardware.xml:1855 +#: hardware.xml:1856 #, no-c-format msgid "Sun QuadEthernet" msgstr "" #. Tag: para -#: hardware.xml:1860 +#: hardware.xml:1861 #, no-c-format msgid "MyriCOM Gigabit Ethernet" msgstr "" #. Tag: para -#: hardware.xml:1867 +#: hardware.xml:1868 #, no-c-format msgid "The list of supported network devices is:" msgstr "" #. Tag: para -#: hardware.xml:1872 +#: hardware.xml:1873 #, no-c-format msgid "Channel to Channel (CTC) and ESCON connection (real or emulated)" msgstr "" #. Tag: para -#: hardware.xml:1877 +#: hardware.xml:1878 #, no-c-format msgid "OSA-2 Token Ring/Ethernet and OSA-Express Fast Ethernet (non-QDIO)" msgstr "" #. Tag: para -#: hardware.xml:1882 +#: hardware.xml:1883 #, no-c-format msgid "OSA-Express in QDIO mode, HiperSockets and Guest-LANs" msgstr "" #. Tag: para -#: hardware.xml:1891 +#: hardware.xml:1892 #, no-c-format msgid "On &arch-title;, most built-in Ethernet devices are supported and modules for additional PCI and USB devices are provided. The major exception is the IXP4xx platform (featuring devices such as the Linksys NSLU2) which needs a proprietary microcode for the operation of its built-in Ethernet device. Unofficial images for Linksys NSLU2 with this proprietary microcode can be obtained from the Slug-Firmware site." msgstr "" #. Tag: para -#: hardware.xml:1901 +#: hardware.xml:1902 #, no-c-format msgid "ISDN is supported, but not during the installation." msgstr "" #. Tag: title -#: hardware.xml:1908 +#: hardware.xml:1909 #, no-c-format msgid "Wireless Network Cards" msgstr "" #. Tag: para -#: hardware.xml:1909 +#: hardware.xml:1910 #, no-c-format msgid "Wireless networking is in general supported as well and a growing number of wireless adapters is supported by the official Linux kernel, although many of them do require firmware to be loaded. Wireless NICs that are not supported by the official Linux kernel can generally be made to work under &debian;, but are not supported during the installation." msgstr "" #. Tag: para -#: hardware.xml:1917 +#: hardware.xml:1918 #, no-c-format msgid "The use of wireless networking during installation is still under development and whether it will work depends on the type of adaptor and the configuration of your wireless access point. If there is no other NIC you can use during the installation, it is still possible to install &debian; using a full CD-ROM or DVD image. Use the same procedure as described above for NICs that require firmware." msgstr "" #. Tag: para -#: hardware.xml:1926 +#: hardware.xml:1927 #, no-c-format msgid "In some cases the driver you need may not be available as a Debian package. You will then have to look if there is source code available in the internet and compile the driver yourself. How to do this is outside the scope of this manual. If no Linux driver is available, your last resort is to use the ndiswrapper package, which allows you to use a Windows driver." msgstr "" #. Tag: title -#: hardware.xml:1940 +#: hardware.xml:1941 #, no-c-format msgid "Known Issues for &arch-title;" msgstr "" #. Tag: para -#: hardware.xml:1941 +#: hardware.xml:1942 #, no-c-format msgid "There are a couple of issues with specific network cards that are worth mentioning here." msgstr "" #. Tag: title -#: hardware.xml:1948 +#: hardware.xml:1949 #, no-c-format msgid "Conflict between tulip and dfme drivers" msgstr "" #. Tag: para -#: hardware.xml:1950 +#: hardware.xml:1951 #, no-c-format msgid "There are various PCI network cards that have the same PCI identification, but are supported by related, but different drivers. Some cards work with the tulip driver, others with the dfme driver. Because they have the same identification, the kernel cannot distinguish between them and it is not certain which driver will be loaded. If this happens to be the wrong one, the NIC may not work, or work badly." msgstr "" #. Tag: para -#: hardware.xml:1960 +#: hardware.xml:1961 #, no-c-format msgid "This is a common problem on Netra systems with a Davicom (DEC-Tulip compatible) NIC. In that case the tulip driver is probably the correct one. You can prevent this issue by blacklisting the wrong driver module as described in ." msgstr "" #. Tag: para -#: hardware.xml:1968 +#: hardware.xml:1969 #, no-c-format msgid "An alternative solution during the installation is to switch to a shell and unload the wrong driver module using modprobe -r module (or both, if they are both loaded). After that you can load the correct module using modprobe module. Note that the wrong module may then still be loaded when the system is rebooted." msgstr "" #. Tag: title -#: hardware.xml:1981 +#: hardware.xml:1982 #, no-c-format msgid "Sun B100 blade" msgstr "" #. Tag: para -#: hardware.xml:1983 +#: hardware.xml:1984 #, no-c-format msgid "The cassini network driver does not work with Sun B100 blade systems." msgstr "" #. Tag: title -#: hardware.xml:1998 +#: hardware.xml:1999 #, no-c-format msgid "Peripherals and Other Hardware" msgstr "" #. Tag: para -#: hardware.xml:1999 +#: hardware.xml:2000 #, no-c-format msgid "Linux supports a large variety of hardware devices such as mice, printers, scanners, PCMCIA and USB devices. However, most of these devices are not required while installing the system." msgstr "" #. Tag: para -#: hardware.xml:2005 +#: hardware.xml:2006 #, no-c-format msgid "USB hardware generally works fine, only some USB keyboards may require additional configuration (see )." msgstr "" #. Tag: para -#: hardware.xml:2011 +#: hardware.xml:2012 #, no-c-format msgid "Again, see the Linux Hardware Compatibility HOWTO to determine whether your specific hardware is supported by Linux." msgstr "" #. Tag: para -#: hardware.xml:2017 +#: hardware.xml:2018 #, no-c-format msgid "Package installations from XPRAM and tape are not supported by this system. All packages that you want to install need to be available on a DASD or over the network using NFS, HTTP or FTP." msgstr "" #. Tag: para -#: hardware.xml:2023 +#: hardware.xml:2024 #, no-c-format msgid "The Broadcom BCM91250A evaluation board offers standard 3.3v 32 bit and 64 bit PCI slots as well as USB connectors. The Broadcom BCM91480B evaluation board features four 64 bit PCI slots." msgstr "" #. Tag: para -#: hardware.xml:2029 +#: hardware.xml:2030 #, no-c-format msgid "The Broadcom BCM91250A evaluation board offers standard 3.3v 32 bit and 64 bit PCI slots as well as USB connectors. The Broadcom BCM91480B evaluation board features four 64 bit PCI slots. The Cobalt RaQ has no support for additional devices but the Qube has one PCI slot." msgstr "" #. Tag: title -#: hardware.xml:2043 +#: hardware.xml:2044 #, no-c-format msgid "Devices Requiring Firmware" msgstr "" #. Tag: para -#: hardware.xml:2044 +#: hardware.xml:2045 #, no-c-format msgid "Besides the availability of a device driver, some hardware also requires so-called firmware or microcode to be loaded into the device before it can become operational. This is most common for network interface cards (especially wireless NICs), but for example some USB devices and even some hard disk controllers also require firmware." msgstr "" #. Tag: para -#: hardware.xml:2052 +#: hardware.xml:2053 #, no-c-format msgid "In most cases firmware is non-free according to the criteria used by the &debian; project and thus cannot be included in the main distribution or in the installation system. If the device driver itself is included in the distribution and if &debian; legally can distribute the firmware, it will often be available as a separate package from the non-free section of the archive." msgstr "" #. Tag: para -#: hardware.xml:2061 +#: hardware.xml:2062 #, no-c-format msgid "However, this does not mean that such hardware cannot be used during an installation. Starting with &debian; 5.0, &d-i; supports loading firmware files or packages containing firmware from a removable medium, such as a floppy disk or USB stick. See for detailed information on how to load firmware files or packages during the installation." msgstr "" #. Tag: title -#: hardware.xml:2077 +#: hardware.xml:2078 #, no-c-format msgid "Purchasing Hardware Specifically for GNU/Linux" msgstr "" #. Tag: para -#: hardware.xml:2079 +#: hardware.xml:2080 #, no-c-format msgid "There are several vendors, who ship systems with Debian or other distributions of GNU/Linux pre-installed. You might pay more for the privilege, but it does buy a level of peace of mind, since you can be sure that the hardware is well-supported by GNU/Linux." msgstr "" #. Tag: para -#: hardware.xml:2087 +#: hardware.xml:2088 #, no-c-format msgid "Unfortunately, it's quite rare to find any vendor shipping new &arch-title; machines at all." msgstr "" #. Tag: para -#: hardware.xml:2092 +#: hardware.xml:2093 #, no-c-format msgid "If you do have to buy a machine with Windows bundled, carefully read the software license that comes with Windows; you may be able to reject the license and obtain a rebate from your vendor. Searching the Internet for windows refund may get you some useful information to help with that." msgstr "" #. Tag: para -#: hardware.xml:2100 +#: hardware.xml:2101 #, no-c-format msgid "Whether or not you are purchasing a system with Linux bundled, or even a used system, it is still important to check that your hardware is supported by the Linux kernel. Check if your hardware is listed in the references found above. Let your salesperson (if any) know that you're shopping for a Linux system. Support Linux-friendly hardware vendors." msgstr "" #. Tag: title -#: hardware.xml:2111 +#: hardware.xml:2112 #, no-c-format msgid "Avoid Proprietary or Closed Hardware" msgstr "" #. Tag: para -#: hardware.xml:2112 +#: hardware.xml:2113 #, no-c-format msgid "Some hardware manufacturers simply won't tell us how to write drivers for their hardware. Others won't allow us access to the documentation without a non-disclosure agreement that would prevent us from releasing the Linux source code." msgstr "" #. Tag: para -#: hardware.xml:2119 +#: hardware.xml:2120 #, no-c-format msgid "Another example is the proprietary hardware in the older Macintosh line. In fact, no specifications or documentation have ever been released for any Macintosh hardware, most notably the ADB controller (used by the mouse and keyboard), the floppy controller, and all acceleration and CLUT manipulation of the video hardware (though we do now support CLUT manipulation on nearly all internal video chips). In a nutshell, this explains why the Macintosh Linux port lags behind other Linux ports." msgstr "" #. Tag: para -#: hardware.xml:2130 +#: hardware.xml:2131 #, no-c-format msgid "Since we haven't been granted access to the documentation on these devices, they simply won't work under Linux. You can help by asking the manufacturers of such hardware to release the documentation. If enough people ask, they will realize that the free software community is an important market." msgstr "" #. Tag: title -#: hardware.xml:2142 +#: hardware.xml:2143 #, no-c-format msgid "Windows-specific Hardware" msgstr "" #. Tag: para -#: hardware.xml:2143 +#: hardware.xml:2144 #, no-c-format msgid "A disturbing trend is the proliferation of Windows-specific modems and printers. In some cases these are specially designed to be operated by the Microsoft Windows operating system and bear the legend WinModem or Made especially for Windows-based computers. This is generally done by removing the embedded processors of the hardware and shifting the work they do over to a Windows driver that is run by your computer's main CPU. This strategy makes the hardware less expensive, but the savings are often not passed on to the user and this hardware may even be more expensive than equivalent devices that retain their embedded intelligence." msgstr "" #. Tag: para -#: hardware.xml:2156 +#: hardware.xml:2157 #, no-c-format msgid "You should avoid Windows-specific hardware for two reasons. The first is that the manufacturers do not generally make the resources available to write a Linux driver. Generally, the hardware and software interface to the device is proprietary, and documentation is not available without a non-disclosure agreement, if it is available at all. This precludes it being used for free software, since free software writers disclose the source code of their programs. The second reason is that when devices like these have had their embedded processors removed, the operating system must perform the work of the embedded processors, often at real-time priority, and thus the CPU is not available to run your programs while it is driving these devices. Since the typical Windows user does not multi-process as intensively as a Linux user, the manufacturers hope that the Windows user simply won't notice the burden this hardware places on their CPU. However, any multi-processing operating system, even Windows 2000 or XP, suffers from degraded performance when peripheral manufacturers skimp on the embedded processing power of their hardware." msgstr "" #. Tag: para -#: hardware.xml:2177 +#: hardware.xml:2178 #, no-c-format msgid "You can help improve this situation by encouraging these manufacturers to release the documentation and other resources necessary for us to program their hardware, but the best strategy is simply to avoid this sort of hardware until it is listed as working in the Linux Hardware Compatibility HOWTO." msgstr "" #. Tag: title -#: hardware.xml:2194 +#: hardware.xml:2195 #, no-c-format msgid "Installation Media" msgstr "" #. Tag: para -#: hardware.xml:2196 +#: hardware.xml:2197 #, no-c-format msgid "This section will help you determine which different media types you can use to install Debian. For example, if you have a floppy disk drive on your machine, it can be used to install Debian. There is a whole chapter devoted to media, , which lists the advantages and disadvantages of each media type. You may want to refer back to this page once you reach that section." msgstr "" #. Tag: title -#: hardware.xml:2207 +#: hardware.xml:2208 #, no-c-format msgid "Floppies" msgstr "" #. Tag: para -#: hardware.xml:2208 +#: hardware.xml:2209 #, no-c-format msgid "In some cases, you'll have to do your first boot from floppy disks. Generally, all you will need is a high-density (1440 kilobytes) 3.5 inch floppy drive." msgstr "" #. Tag: para -#: hardware.xml:2214 +#: hardware.xml:2215 #, no-c-format msgid "For CHRP, floppy support is currently broken." msgstr "" #. Tag: title -#: hardware.xml:2221 +#: hardware.xml:2222 #, no-c-format msgid "CD-ROM/DVD-ROM" msgstr "" #. Tag: para -#: hardware.xml:2223 +#: hardware.xml:2224 #, no-c-format msgid "Whenever you see CD-ROM in this manual, it applies to both CD-ROMs and DVD-ROMs, because both technologies are really the same from the operating system's point of view, except for some very old nonstandard CD-ROM drives which are neither SCSI nor IDE/ATAPI." msgstr "" #. Tag: para -#: hardware.xml:2230 +#: hardware.xml:2231 #, no-c-format msgid "CD-ROM based installation is supported for some architectures. On machines which support bootable CD-ROMs, you should be able to do a completely floppy-less tape-less installation. Even if your system doesn't support booting from a CD-ROM, you can use the CD-ROM in conjunction with the other techniques to install your system, once you've booted up by other means; see ." msgstr "" #. Tag: para -#: hardware.xml:2242 +#: hardware.xml:2243 #, no-c-format msgid "SCSI, SATA and IDE/ATAPI CD-ROMs are supported. The Linux CD-ROM HOWTO contains in-depth information on using CD-ROMs with Linux." msgstr "" #. Tag: para -#: hardware.xml:2248 +#: hardware.xml:2249 #, no-c-format msgid "USB CD-ROM drives are also supported, as are FireWire devices that are supported by the ohci1394 and sbp2 drivers." msgstr "" #. Tag: para -#: hardware.xml:2253 +#: hardware.xml:2254 #, no-c-format msgid "Both SCSI and IDE/ATAPI CD-ROMs are supported on &arch-title;, as long as the controller is supported by the SRM console. This rules out many add-on controller cards, but most integrated IDE and SCSI chips and controller cards that were provided by the manufacturer can be expected to work. To find out whether your device is supported from the SRM console, see the SRM HOWTO." msgstr "" #. Tag: para -#: hardware.xml:2262 +#: hardware.xml:2263 #, no-c-format msgid "IDE/ATAPI CD-ROMs are supported on all ARM machines." msgstr "" #. Tag: para -#: hardware.xml:2266 +#: hardware.xml:2267 #, no-c-format msgid "On SGI machines, booting from CD-ROM requires a SCSI CD-ROM drive capable of working with a logical blocksize of 512 bytes. Many of the SCSI CD-ROM drives sold on the PC market do not have this capability. If your CD-ROM drive has a jumper labeled Unix/PC or 512/2048, place it in the Unix or 512 position. To start the install, simply choose the System installation entry in the firmware. The Broadcom BCM91250A supports standard IDE devices, including CD-ROM drives, but CD images for this platform are currently not provided because the firmware doesn't recognize CD drives. In order to install Debian on an Broadcom BCM91480B evaluation board, you need an PCI IDE, SATA or SCSI card." msgstr "" #. Tag: title -#: hardware.xml:2284 +#: hardware.xml:2285 #, no-c-format msgid "Hard Disk" msgstr "" #. Tag: para -#: hardware.xml:2286 +#: hardware.xml:2287 #, no-c-format msgid "Booting the installation system directly from a hard disk is another option for many architectures. This will require some other operating system to load the installer onto the hard disk." msgstr "" #. Tag: para -#: hardware.xml:2292 +#: hardware.xml:2293 #, no-c-format msgid "In fact, installation from your local disk is the preferred installation technique for most &architecture; machines." msgstr "" #. Tag: para -#: hardware.xml:2297 +#: hardware.xml:2298 #, no-c-format msgid "Although the &arch-title; does not allow booting from SunOS (Solaris), you can install from a SunOS partition (UFS slices)." msgstr "" #. Tag: title -#: hardware.xml:2305 +#: hardware.xml:2306 #, no-c-format msgid "USB Memory Stick" msgstr "" #. Tag: para -#: hardware.xml:2307 +#: hardware.xml:2308 #, no-c-format msgid "Many Debian boxes need their floppy and/or CD-ROM drives only for setting up the system and for rescue purposes. If you operate some servers, you will probably already have thought about omitting those drives and using an USB memory stick for installing and (when necessary) for recovering the system. This is also useful for small systems which have no room for unnecessary drives." msgstr "" #. Tag: title -#: hardware.xml:2319 +#: hardware.xml:2320 #, no-c-format msgid "Network" msgstr "" #. Tag: para -#: hardware.xml:2321 +#: hardware.xml:2322 #, no-c-format msgid "The network can be used during the installation to retrieve files needed for the installation. Whether the network is used or not depends on the installation method you choose and your answers to certain questions that will be asked during the installation. The installation system supports most types of network connections (including PPPoE, but not ISDN or PPP), via either HTTP or FTP. After the installation is completed, you can also configure your system to use ISDN and PPP." msgstr "" #. Tag: para -#: hardware.xml:2331 +#: hardware.xml:2332 #, no-c-format msgid "You can also boot the installation system over the network. This is the preferred installation technique for &arch-title;." msgstr "" #. Tag: para -#: hardware.xml:2337 +#: hardware.xml:2338 #, no-c-format msgid "Diskless installation, using network booting from a local area network and NFS-mounting of all local filesystems, is another option." msgstr "" #. Tag: title -#: hardware.xml:2345 +#: hardware.xml:2346 #, no-c-format msgid "Un*x or GNU system" msgstr "" #. Tag: para -#: hardware.xml:2347 +#: hardware.xml:2348 #, no-c-format msgid "If you are running another Unix-like system, you could use it to install &debian; without using the &d-i; described in the rest of this manual. This kind of install may be useful for users with otherwise unsupported hardware or on hosts which can't afford downtime. If you are interested in this technique, skip to the ." msgstr "" #. Tag: title -#: hardware.xml:2359 +#: hardware.xml:2360 #, no-c-format msgid "Supported Storage Systems" msgstr "" #. Tag: para -#: hardware.xml:2361 +#: hardware.xml:2362 #, no-c-format msgid "The Debian boot disks contain a kernel which is built to maximize the number of systems it runs on. Unfortunately, this makes for a larger kernel, which includes many drivers that won't be used for your machine (see to learn how to build your own kernel). Support for the widest possible range of devices is desirable in general, to ensure that Debian can be installed on the widest array of hardware." msgstr "" #. Tag: para -#: hardware.xml:2371 +#: hardware.xml:2372 #, no-c-format msgid "Generally, the Debian installation system includes support for floppies, IDE (also known as PATA) drives, IDE floppies, parallel port IDE devices, SATA and SCSI controllers and drives, USB, and FireWire. The supported file systems include FAT, Win-32 FAT extensions (VFAT) and NTFS." msgstr "" #. Tag: para -#: hardware.xml:2378 +#: hardware.xml:2379 #, no-c-format msgid "Disk interfaces that emulate the AT hard disk interface — often called MFM, RLL, IDE, or PATA — are supported. SATA and SCSI disk controllers from many different manufacturers are supported. See the Linux Hardware Compatibility HOWTO for more details." msgstr "" #. Tag: para -#: hardware.xml:2386 +#: hardware.xml:2387 #, no-c-format msgid "Pretty much all storage systems supported by the Linux kernel are supported by the Debian installation system. Note that the current Linux kernel does not support floppies on the Macintosh at all, and the Debian installation system doesn't support floppies for Amigas. Also supported on the Atari is the Macintosh HFS system, and AFFS as a module. Macs support the Atari (FAT) file system. Amigas support the FAT file system, and HFS as a module." msgstr "" #. Tag: para -#: hardware.xml:2396 +#: hardware.xml:2397 #, no-c-format msgid "Any storage system supported by the Linux kernel is also supported by the boot system. The following SCSI drivers are supported in the default kernel: Sparc ESP PTI Qlogic,ISP Adaptec AIC7xxx NCR and Symbios 53C8XX IDE systems (such as the UltraSPARC 5) are also supported. See Linux for SPARC Processors FAQ for more information on SPARC hardware supported by the Linux kernel." msgstr "" #. Tag: para -#: hardware.xml:2429 +#: hardware.xml:2430 #, no-c-format msgid "Any storage system supported by the Linux kernel is also supported by the boot system. This includes both SCSI and IDE disks. Note, however, that on many systems, the SRM console is unable to boot from IDE drives, and the Jensen is unable to boot from floppies. (see for more information on booting the Jensen)" msgstr "" #. Tag: para -#: hardware.xml:2438 +#: hardware.xml:2439 #, no-c-format msgid "Any storage system supported by the Linux kernel is also supported by the boot system. Note that the current Linux kernel does not support floppies on CHRP systems at all." msgstr "" #. Tag: para -#: hardware.xml:2444 +#: hardware.xml:2445 #, no-c-format msgid "Any storage system supported by the Linux kernel is also supported by the boot system. Note that the current Linux kernel does not support the floppy drive." msgstr "" #. Tag: para -#: hardware.xml:2450 +#: hardware.xml:2451 #, no-c-format msgid "Any storage system supported by the Linux kernel is also supported by the boot system." msgstr "" #. Tag: para -#: hardware.xml:2455 +#: hardware.xml:2456 #, no-c-format msgid "Any storage system supported by the Linux kernel is also supported by the boot system. This means that FBA and ECKD DASDs are supported with the old Linux disk layout (ldl) and the new common S/390 disk layout (cdl)." msgstr "" #. Tag: title -#: hardware.xml:2472 +#: hardware.xml:2473 #, no-c-format msgid "Memory and Disk Space Requirements" msgstr "" #. Tag: para -#: hardware.xml:2474 +#: hardware.xml:2475 #, no-c-format msgid "You must have at least &minimum-memory; of memory and &minimum-fs-size; of hard disk space to perform a normal installation. Note that these are fairly minimal numbers. For more realistic figures, see ." msgstr "" #. Tag: para -#: hardware.xml:2481 +#: hardware.xml:2482 #, no-c-format msgid "Installation on systems with less memory Installation images that support the graphical installer require more memory than images that support only the textual installer and should not be used on systems with less than &minimum-memory; of memory. If there is a choice between booting the regular and the graphical installer, the former should be selected. or disk space available may be possible but is only advised for experienced users." msgstr "" #. Tag: para -#: hardware.xml:2498 +#: hardware.xml:2499 #, no-c-format msgid "On the Amiga the size of FastRAM is relevant towards the total memory requirements. Also, using Zorro cards with 16-bit RAM is not supported; you'll need 32-bit RAM. The amiboot program can be used to disable 16-bit RAM; see the Linux/m68k FAQ. Recent kernels should disable 16-bit RAM automatically." msgstr "" #. Tag: para -#: hardware.xml:2507 +#: hardware.xml:2508 #, no-c-format msgid "On the Atari, both ST-RAM and Fast RAM (TT-RAM) are used by Linux. Many users have reported problems running the kernel itself in Fast RAM, so the Atari bootstrap will place the kernel in ST-RAM. The minimum requirement for ST-RAM is 2 MB. You will need an additional 12 MB or more of TT-RAM." msgstr "" #. Tag: para -#: hardware.xml:2515 +#: hardware.xml:2516 #, no-c-format msgid "On the Macintosh, care should be taken on machines with RAM-based video (RBV). The RAM segment at physical address 0 is used as screen memory, making the default load position for the kernel unavailable. The alternate RAM segment used for kernel and RAMdisk must be at least 4 MB." msgstr "" #. Tag: emphasis -#: hardware.xml:2525 +#: hardware.xml:2526 #, no-c-format msgid "FIXME: is this still true?" msgstr "" diff --git a/po/pot/install-methods.pot b/po/pot/install-methods.pot index d11f41b26..a710815d3 100644 --- a/po/pot/install-methods.pot +++ b/po/pot/install-methods.pot @@ -6,7 +6,7 @@ msgid "" msgstr "" "Project-Id-Version: PACKAGE VERSION\n" "Report-Msgid-Bugs-To: debian-boot@lists.debian.org\n" -"POT-Creation-Date: 2008-09-28 00:09+0000\n" +"POT-Creation-Date: 2008-10-17 00:09+0000\n" "PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n" "Last-Translator: FULL NAME \n" "Language-Team: LANGUAGE \n" @@ -464,146 +464,184 @@ msgstr "" #. Tag: para #: install-methods.xml:636 #, no-c-format -msgid "To prepare the USB stick, you will need a system where GNU/Linux is already running and where USB is supported. You should ensure that the usb-storage kernel module is loaded (modprobe usb-storage) and try to find out which SCSI device the USB stick has been mapped to (in this example /dev/sda is used). To write to your stick, you may have to turn off its write protection switch." +msgid "There are two installation methods possible when booting from USB stick. The first is to install completely from the network. The second is to also copy a CD image onto the USB stick and use that as a source for packages, possibly in combination with a mirror. This second method is the more common." msgstr "" #. Tag: para -#: install-methods.xml:646 +#: install-methods.xml:644 +#, no-c-format +msgid "For the first installation method you'll need to download an installer image from the netboot directory (at the location mentioned in ) and use the flexible way explained below to copy the files to the USB stick." +msgstr "" + +#. Tag: para +#: install-methods.xml:652 +#, no-c-format +msgid "Installation images for the second installation method can be found in the hd-media directory and either the easy way or the flexible way can be used to copy the image to the USB stick. For this installation method you will also need to download a CD image. The installation image and the CD image must be based on the same release of &d-i;. If they do not match you are likely to get errors The error message that is most likely to be displayed is that no kernel modules can be found. This means that the version of the kernel module udebs included on the CD image is different from the version of the running kernel. during the installation." +msgstr "" + +#. Tag: para +#: install-methods.xml:671 +#, no-c-format +msgid "To prepare the USB stick, you will need a system where GNU/Linux is already running and where USB is supported. With current GNU/Linux systems the USB stick should be automatically recognized when you insert it. If it is not you should check that the usb-storage kernel module is loaded. When the USB stick is inserted, it will be mapped to a device named /dev/sdX, where the X is a letter in the range a-z. You should be able to see to which device the USB stick was mapped by running the command dmesg after inserting it. To write to your stick, you may have to turn off its write protection switch." +msgstr "" + +#. Tag: para +#: install-methods.xml:685 +#, no-c-format +msgid "The procedures described in this section will destroy anything already on the device! Make very sure that you use the correct device name for your USB stick. If you use the wrong device the result could be that all information on for example a hard disk could be lost." +msgstr "" + +#. Tag: para +#: install-methods.xml:693 #, no-c-format msgid "Note that the USB stick should be at least 256 MB in size (smaller setups are possible if you follow )." msgstr "" #. Tag: title -#: install-methods.xml:654 +#: install-methods.xml:701 #, no-c-format msgid "Copying the files — the easy way" msgstr "" #. Tag: para -#: install-methods.xml:655 +#: install-methods.xml:702 #, no-c-format -msgid "There is an all-in-one file hd-media/boot.img.gz which contains all the installer files (including the kernel) as well as SYSLINUX and its configuration file. You only have to extract it directly to your USB stick:" +msgid "There is an all-in-one file hd-media/boot.img.gz which contains all the installer files (including the kernel) as well as syslinux and its configuration file. as well as yaboot and its configuration file." msgstr "" -#. Tag: screen -#: install-methods.xml:662 +#. Tag: para +#: install-methods.xml:711 #, no-c-format -msgid "# zcat boot.img.gz > /dev/sda" +msgid "Note that, although convenient, this method does have one major disadvantage: the logical size of the device will be limited to 256 MB, even if the capacity of the USB stick is larger. You will need to repartition the USB stick and create new file systems to get its full capacity back if you ever want to use it for some different purpose. A second disadvantage is that you cannot copy a full CD image onto the USB stick, but only the smaller businesscard or netinst CD images." msgstr "" #. Tag: para -#: install-methods.xml:664 +#: install-methods.xml:721 #, no-c-format -msgid "There is an all-in-one file hd-media/boot.img.gz which contains all the installer files (including the kernel) as well as yaboot and its configuration file. Create a partition of type \"Apple_Bootstrap\" on your USB stick using mac-fdisk's C command and extract the image directly to that:" +msgid "To use this image you only have to extract it directly to your USB stick:" msgstr "" #. Tag: screen -#: install-methods.xml:673 +#: install-methods.xml:725 #, no-c-format -msgid "# zcat boot.img.gz > /dev/sda2" +msgid "# zcat boot.img.gz > /dev/sdX" msgstr "" #. Tag: para -#: install-methods.xml:676 +#: install-methods.xml:727 +#, no-c-format +msgid "Create a partition of type \"Apple_Bootstrap\" on your USB stick using mac-fdisk's C command and extract the image directly to that:" +msgstr "" + +#. Tag: screen +#: install-methods.xml:733 #, no-c-format -msgid "Using this method will destroy anything already on the device. Make sure that you use the correct device name for your USB stick." +msgid "# zcat boot.img.gz > /dev/sdX2" msgstr "" #. Tag: para -#: install-methods.xml:682 +#: install-methods.xml:735 #, no-c-format -msgid "After that, mount the USB memory stick (mount /dev/sda /dev/sda2 /mnt), which will now have a FAT filesystem an HFS filesystem on it, and copy a Debian netinst or businesscard ISO image to it (see ). Unmount the stick (umount /mnt) and you are done." +msgid "After that, mount the USB memory stick (mount /dev/sdX /mnt), (mount /dev/sdX2 /mnt), which will now have a FAT filesystem an HFS filesystem on it, and copy a Debian netinst or businesscard ISO image to it. Unmount the stick (umount /mnt) and you are done." msgstr "" #. Tag: title -#: install-methods.xml:698 +#: install-methods.xml:752 #, no-c-format msgid "Copying the files — the flexible way" msgstr "" #. Tag: para -#: install-methods.xml:699 +#: install-methods.xml:753 #, no-c-format -msgid "If you like more flexibility or just want to know what's going on, you should use the following method to put the files on your stick." +msgid "If you like more flexibility or just want to know what's going on, you should use the following method to put the files on your stick. One advantage of using this method is that — if the capacity of your USB stick is large enough — you have the option of copying a full CD ISO image to it." msgstr "" #. Tag: title -#: install-methods.xml:711 install-methods.xml:800 +#: install-methods.xml:768 install-methods.xml:865 #, no-c-format -msgid "USB stick partitioning on &arch-title;" +msgid "Partitioning the USB stick" msgstr "" #. Tag: para -#: install-methods.xml:712 +#: install-methods.xml:769 #, no-c-format msgid "We will show how to set up the memory stick to use the first partition, instead of the entire device." msgstr "" #. Tag: para -#: install-methods.xml:717 +#: install-methods.xml:774 #, no-c-format msgid "" "Since most USB sticks come pre-configured with a single FAT16 partition, you probably won't have to repartition or reformat the stick. If you have to do that anyway, use cfdisk or any other partitioning tool to create a FAT16 partition, and then create the filesystem using: \n" - "# mkdosfs /dev/sda1\n" + "# mkdosfs /dev/sdX1\n" " Take care that you use the correct device name for your USB stick. The mkdosfs command is contained in the dosfstools Debian package." msgstr "" #. Tag: para -#: install-methods.xml:731 +#: install-methods.xml:788 #, no-c-format -msgid "In order to start the kernel after booting from the USB stick, we will put a boot loader on the stick. Although any boot loader (e.g. LILO) should work, it's convenient to use SYSLINUX, since it uses a FAT16 partition and can be reconfigured by just editing a text file. Any operating system which supports the FAT file system can be used to make changes to the configuration of the boot loader." +msgid "In order to start the kernel after booting from the USB stick, we will put a boot loader on the stick. Although any boot loader (e.g. lilo) should work, it's convenient to use syslinux, since it uses a FAT16 partition and can be reconfigured by just editing a text file. Any operating system which supports the FAT file system can be used to make changes to the configuration of the boot loader." msgstr "" #. Tag: para -#: install-methods.xml:741 +#: install-methods.xml:798 #, no-c-format msgid "" - "To put SYSLINUX on the FAT16 partition on your USB stick, install the syslinux and mtools packages on your system, and do: \n" - "# syslinux /dev/sda1\n" - " Again, take care that you use the correct device name. The partition must not be mounted when starting SYSLINUX. This procedure writes a boot sector to the partition and creates the file ldlinux.sys which contains the boot loader code." + "To put syslinux on the FAT16 partition on your USB stick, install the syslinux and mtools packages on your system, and do: \n" + "# syslinux /dev/sdX1\n" + " Again, take care that you use the correct device name. The partition must not be mounted when starting syslinux. This procedure writes a boot sector to the partition and creates the file ldlinux.sys which contains the boot loader code." msgstr "" -#. Tag: para -#: install-methods.xml:754 +#. Tag: title +#: install-methods.xml:815 install-methods.xml:912 #, no-c-format -msgid "Mount the partition (mount /dev/sda1 /mnt) and copy the following files from the Debian archives to the stick: vmlinuz (kernel binary) initrd.gz (initial ramdisk image) syslinux.cfg (SYSLINUX configuration file) Optional kernel modules If you want to rename the files, please note that SYSLINUX can only process DOS (8.3) file names." +msgid "Adding the installer image" msgstr "" #. Tag: para -#: install-methods.xml:785 +#: install-methods.xml:816 #, no-c-format -msgid "The syslinux.cfg configuration file should contain the following two lines:" +msgid "Mount the partition (mount /dev/sdX1 /mnt) and copy the following installer image files to the stick: vmlinuz (kernel binary) initrd.gz (initial ramdisk image) You can choose between either the regular version or the graphical version of the installer. The latter can be found in the gtk subdirectory. If you want to rename the files, please note that syslinux can only process DOS (8.3) file names." msgstr "" -#. Tag: screen -#: install-methods.xml:790 +#. Tag: para +#: install-methods.xml:840 #, no-c-format msgid "" + "Next you should create a syslinux.cfg configuration file, which at a bare minimum should contain the following two lines: \n" "default vmlinuz\n" - "append initrd=initrd.gz" + "append initrd=initrd.gz\n" + " For the graphical installer you should add video=vesa:ywrap,mtrr vga=788 to the second line." +msgstr "" + +#. Tag: para +#: install-methods.xml:850 install-methods.xml:952 +#, no-c-format +msgid "If you used an hd-media image, you should now copy a Debian ISO image (businesscard, netinst or full CD image; be sure to select one that fits) onto the stick. When you are done, unmount the USB memory stick (umount /mnt)." msgstr "" #. Tag: para -#: install-methods.xml:801 +#: install-methods.xml:866 #, no-c-format msgid "" - "Most USB sticks do not come pre-configured in such a way that Open Firmware can boot from them, so you will need to repartition the stick. On Mac systems, run mac-fdisk /dev/sda, initialise a new partition map using the i command, and create a new partition of type Apple_Bootstrap using the C command. (Note that the first \"partition\" will always be the partition map itself.) Then type \n" - "$ hformat /dev/sda2\n" + "Most USB sticks do not come pre-configured in such a way that Open Firmware can boot from them, so you will need to repartition the stick. On Mac systems, run mac-fdisk /dev/sdX, initialise a new partition map using the i command, and create a new partition of type Apple_Bootstrap using the C command. (Note that the first \"partition\" will always be the partition map itself.) Then type \n" + "$ hformat /dev/sdX2\n" " Take care that you use the correct device name for your USB stick. The hformat command is contained in the hfsutils Debian package." msgstr "" #. Tag: para -#: install-methods.xml:817 +#: install-methods.xml:883 #, no-c-format msgid "In order to start the kernel after booting from the USB stick, we will put a boot loader on the stick. The yaboot boot loader can be installed on an HFS filesystem and can be reconfigured by just editing a text file. Any operating system which supports the HFS file system can be used to make changes to the configuration of the boot loader." msgstr "" #. Tag: para -#: install-methods.xml:826 +#: install-methods.xml:892 #, no-c-format msgid "" "The normal ybin tool that comes with yaboot does not yet understand USB storage devices, so you will have to install yaboot by hand using the hfsutils tools. Type \n" - "$ hmount /dev/sda2\n" + "$ hmount /dev/sdX2\n" "$ hcopy -r /usr/lib/yaboot/yaboot :\n" "$ hattrib -c UNIX -t tbxi :yaboot\n" "$ hattrib -b :\n" @@ -612,43 +650,37 @@ msgid "" msgstr "" #. Tag: para -#: install-methods.xml:842 +#: install-methods.xml:913 #, no-c-format -msgid "Mount the partition (mount /dev/sda2 /mnt) and copy the following files from the Debian archives to the stick:" +msgid "Mount the partition (mount /dev/sdX2 /mnt) and copy the following installer image files to the stick:" msgstr "" #. Tag: para -#: install-methods.xml:848 +#: install-methods.xml:920 #, no-c-format msgid "vmlinux (kernel binary)" msgstr "" #. Tag: para -#: install-methods.xml:853 +#: install-methods.xml:925 #, no-c-format msgid "initrd.gz (initial ramdisk image)" msgstr "" #. Tag: para -#: install-methods.xml:858 +#: install-methods.xml:930 #, no-c-format msgid "yaboot.conf (yaboot configuration file)" msgstr "" #. Tag: para -#: install-methods.xml:863 +#: install-methods.xml:935 #, no-c-format msgid "boot.msg (optional boot message)" msgstr "" #. Tag: para -#: install-methods.xml:868 -#, no-c-format -msgid "Optional kernel modules" -msgstr "" - -#. Tag: para -#: install-methods.xml:875 +#: install-methods.xml:942 #, no-c-format msgid "" "The yaboot.conf configuration file should contain the following lines: \n" @@ -666,283 +698,259 @@ msgid "" msgstr "" #. Tag: title -#: install-methods.xml:892 -#, no-c-format -msgid "Adding an ISO image" -msgstr "" - -#. Tag: para -#: install-methods.xml:893 -#, no-c-format -msgid "The installer will look for a Debian ISO image on the stick as its source for additional data needed for the installation. So your next step is to copy a Debian ISO image (businesscard, netinst or even a full CD image) onto your stick (be sure to select one that fits). The file name of the image must end in .iso." -msgstr "" - -#. Tag: para -#: install-methods.xml:901 -#, no-c-format -msgid "If you want to install over the network, without using an ISO image, you will of course skip the previous step. Moreover you will have to use the initial ramdisk from the netboot directory instead of the one from hd-media, because hd-media/initrd.gz does not have network support." -msgstr "" - -#. Tag: para -#: install-methods.xml:910 -#, no-c-format -msgid "When you are done, unmount the USB memory stick (umount /mnt) and activate its write protection switch." -msgstr "" - -#. Tag: title -#: install-methods.xml:920 +#: install-methods.xml:967 #, no-c-format msgid "Booting the USB stick" msgstr "" #. Tag: para -#: install-methods.xml:921 +#: install-methods.xml:968 #, no-c-format msgid "If your system refuses to boot from the memory stick, the stick may contain an invalid master boot record (MBR). To fix this, use the install-mbr command from the package mbr:" msgstr "" #. Tag: screen -#: install-methods.xml:928 +#: install-methods.xml:975 #, no-c-format -msgid "# install-mbr /dev/sda" +msgid "# install-mbr /dev/sdX" msgstr "" #. Tag: title -#: install-methods.xml:939 +#: install-methods.xml:986 #, no-c-format msgid "Preparing Files for Hard Disk Booting" msgstr "" #. Tag: para -#: install-methods.xml:940 +#: install-methods.xml:987 #, no-c-format msgid "The installer may be booted using boot files placed on an existing hard drive partition, either launched from another operating system or by invoking a boot loader directly from the BIOS." msgstr "" #. Tag: para -#: install-methods.xml:946 +#: install-methods.xml:993 #, no-c-format msgid "A full, pure network installation can be achieved using this technique. This avoids all hassles of removable media, like finding and burning CD images or struggling with too numerous and unreliable floppy disks." msgstr "" #. Tag: para -#: install-methods.xml:953 +#: install-methods.xml:1000 #, no-c-format msgid "The installer cannot boot from files on an NTFS file system." msgstr "" #. Tag: para -#: install-methods.xml:957 +#: install-methods.xml:1004 #, no-c-format msgid "The installer cannot boot from files on an HFS+ file system. MacOS System 8.1 and above may use HFS+ file systems; NewWorld PowerMacs all use HFS+. To determine whether your existing file system is HFS+, select Get Info for the volume in question. HFS file systems appear as Mac OS Standard, while HFS+ file systems say Mac OS Extended. You must have an HFS partition in order to exchange files between MacOS and Linux, in particular the installation files you download." msgstr "" #. Tag: para -#: install-methods.xml:968 +#: install-methods.xml:1015 #, no-c-format msgid "Different programs are used for hard disk installation system booting, depending on whether the system is a NewWorld or an OldWorld model." msgstr "" #. Tag: title -#: install-methods.xml:977 +#: install-methods.xml:1024 #, no-c-format msgid "Hard disk installer booting using LILO or GRUB" msgstr "" #. Tag: para -#: install-methods.xml:979 +#: install-methods.xml:1026 #, no-c-format msgid "This section explains how to add to or even replace an existing linux installation using either LILO or GRUB." msgstr "" #. Tag: para -#: install-methods.xml:985 +#: install-methods.xml:1032 #, no-c-format msgid "At boot time, both bootloaders support loading in memory not only the kernel, but also a disk image. This RAM disk can be used as the root file-system by the kernel." msgstr "" #. Tag: para -#: install-methods.xml:991 +#: install-methods.xml:1038 #, no-c-format msgid "Copy the following files from the Debian archives to a convenient location on your hard drive, for instance to /boot/newinstall/." msgstr "" #. Tag: para -#: install-methods.xml:998 +#: install-methods.xml:1045 #, no-c-format msgid "vmlinuz (kernel binary)" msgstr "" #. Tag: para -#: install-methods.xml:1003 +#: install-methods.xml:1050 #, no-c-format msgid "initrd.gz (ramdisk image)" msgstr "" #. Tag: para -#: install-methods.xml:1010 +#: install-methods.xml:1057 #, no-c-format msgid "Finally, to configure the bootloader proceed to ." msgstr "" #. Tag: title -#: install-methods.xml:1020 +#: install-methods.xml:1067 #, no-c-format msgid "Hard Disk Installer Booting for OldWorld Macs" msgstr "" #. Tag: para -#: install-methods.xml:1021 +#: install-methods.xml:1068 #, no-c-format msgid "The boot-floppy-hfs floppy uses miBoot to launch Linux installation, but miBoot cannot easily be used for hard disk booting. BootX, launched from MacOS, supports booting from files placed on the hard disk. BootX can also be used to dual-boot MacOS and Linux after your Debian installation is complete. For the Performa 6360, it appears that quik cannot make the hard disk bootable. So BootX is required on that model." msgstr "" #. Tag: para -#: install-methods.xml:1034 +#: install-methods.xml:1081 #, no-c-format msgid "Download and unstuff the BootX distribution, available from , or in the dists/woody/main/disks-powerpc/current/powermac directory on Debian http/ftp mirrors and official Debian CDs. Use Stuffit Expander to extract it from its archive. Within the package, there is an empty folder called Linux Kernels. Download linux.bin and ramdisk.image.gz from the disks-powerpc/current/powermac folder, and place them in the Linux Kernels folder. Then place the Linux Kernels folder in the active System Folder." msgstr "" #. Tag: title -#: install-methods.xml:1054 +#: install-methods.xml:1101 #, no-c-format msgid "Hard Disk Installer Booting for NewWorld Macs" msgstr "" #. Tag: para -#: install-methods.xml:1055 +#: install-methods.xml:1102 #, no-c-format msgid "NewWorld PowerMacs support booting from a network or an ISO9660 CD-ROM, as well as loading ELF binaries directly from the hard disk. These machines will boot Linux directly via yaboot, which supports loading a kernel and RAMdisk directly from an ext2 partition, as well as dual-booting with MacOS. Hard disk booting of the installer is particularly appropriate for newer machines without floppy drives. BootX is not supported and must not be used on NewWorld PowerMacs." msgstr "" #. Tag: para -#: install-methods.xml:1066 +#: install-methods.xml:1113 #, no-c-format msgid "Copy (not move) the following four files which you downloaded earlier from the Debian archives, onto the root level of your hard drive (this can be accomplished by option-dragging each file to the hard drive icon)." msgstr "" #. Tag: filename -#: install-methods.xml:1076 install-methods.xml:1433 +#: install-methods.xml:1123 install-methods.xml:1480 #, no-c-format msgid "vmlinux" msgstr "" #. Tag: filename -#: install-methods.xml:1081 install-methods.xml:1438 +#: install-methods.xml:1128 install-methods.xml:1485 #, no-c-format msgid "initrd.gz" msgstr "" #. Tag: filename -#: install-methods.xml:1086 install-methods.xml:1443 +#: install-methods.xml:1133 install-methods.xml:1490 #, no-c-format msgid "yaboot" msgstr "" #. Tag: filename -#: install-methods.xml:1091 install-methods.xml:1448 +#: install-methods.xml:1138 install-methods.xml:1495 #, no-c-format msgid "yaboot.conf" msgstr "" #. Tag: para -#: install-methods.xml:1096 +#: install-methods.xml:1143 #, no-c-format msgid "Make a note of the partition number of the MacOS partition where you place these files. If you have the MacOS pdisk program, you can use the L command to check for the partition number. You will need this partition number for the command you type at the Open Firmware prompt when you boot the installer." msgstr "" #. Tag: para -#: install-methods.xml:1104 +#: install-methods.xml:1151 #, no-c-format msgid "To boot the installer, proceed to ." msgstr "" #. Tag: title -#: install-methods.xml:1117 +#: install-methods.xml:1164 #, no-c-format msgid "Preparing Files for TFTP Net Booting" msgstr "" #. Tag: para -#: install-methods.xml:1118 +#: install-methods.xml:1165 #, no-c-format msgid "If your machine is connected to a local area network, you may be able to boot it over the network from another machine, using TFTP. If you intend to boot the installation system from another machine, the boot files will need to be placed in specific locations on that machine, and the machine configured to support booting of your specific machine." msgstr "" #. Tag: para -#: install-methods.xml:1126 +#: install-methods.xml:1173 #, no-c-format msgid "You need to set up a TFTP server, and for many machines a DHCP server, or RARP server, or BOOTP server." msgstr "" #. Tag: para -#: install-methods.xml:1133 +#: install-methods.xml:1180 #, no-c-format msgid "The Reverse Address Resolution Protocol (RARP) is one way to tell your client what IP address to use for itself. Another way is to use the BOOTP protocol. BOOTP is an IP protocol that informs a computer of its IP address and where on the network to obtain a boot image. Yet another alternative exists on VMEbus systems: the IP address can be manually configured in boot ROM. The DHCP (Dynamic Host Configuration Protocol) is a more flexible, backwards-compatible extension of BOOTP. Some systems can only be configured via DHCP." msgstr "" #. Tag: para -#: install-methods.xml:1150 +#: install-methods.xml:1197 #, no-c-format msgid "For PowerPC, if you have a NewWorld Power Macintosh machine, it is a good idea to use DHCP instead of BOOTP. Some of the latest machines are unable to boot using BOOTP." msgstr "" #. Tag: para -#: install-methods.xml:1156 +#: install-methods.xml:1203 #, no-c-format msgid "Unlike the Open Firmware found on Sparc and PowerPC machines, the SRM console will not use RARP to obtain its IP address, and therefore you must use BOOTP for net booting your Alpha Alpha systems can also be net-booted using the DECNet MOP (Maintenance Operations Protocol), but this is not covered here. Presumably, your local OpenVMS operator will be happy to assist you should you have some burning need to use MOP to boot Linux on your Alpha. . You can also enter the IP configuration for network interfaces directly in the SRM console." msgstr "" #. Tag: para -#: install-methods.xml:1173 +#: install-methods.xml:1220 #, no-c-format msgid "Some older HPPA machines (e.g. 715/75) use RBOOTD rather than BOOTP. There is an rbootd package available in Debian." msgstr "" #. Tag: para -#: install-methods.xml:1178 +#: install-methods.xml:1225 #, no-c-format msgid "The Trivial File Transfer Protocol (TFTP) is used to serve the boot image to the client. Theoretically, any server, on any platform, which implements these protocols, may be used. In the examples in this section, we shall provide commands for SunOS 4.x, SunOS 5.x (a.k.a. Solaris), and GNU/Linux." msgstr "" #. Tag: para -#: install-methods.xml:1186 +#: install-methods.xml:1233 #, no-c-format msgid "To use the Pre-boot Execution Environment (PXE) method of TFTP booting, you will need a TFTP server with tsize support. On a &debian; server, the atftpd and tftpd-hpa packages qualify; we recommend tftpd-hpa." msgstr "" #. Tag: title -#: install-methods.xml:1204 +#: install-methods.xml:1251 #, no-c-format msgid "Setting up RARP server" msgstr "" #. Tag: para -#: install-methods.xml:1205 +#: install-methods.xml:1252 #, no-c-format msgid "To set up RARP, you need to know the Ethernet address (a.k.a. the MAC address) of the client computers to be installed. If you don't know this information, you can pick it off the initial OpenPROM boot messages, use the OpenBoot .enet-addr command, or boot into Rescue mode (e.g., from the rescue floppy) and use the command /sbin/ifconfig eth0." msgstr "" #. Tag: para -#: install-methods.xml:1217 +#: install-methods.xml:1264 #, no-c-format msgid "On a RARP server system using a Linux 2.4 or 2.6 kernel, or Solaris/SunOS, you use the rarpd program. You need to ensure that the Ethernet hardware address for the client is listed in the ethers database (either in the /etc/ethers file, or via NIS/NIS+) and in the hosts database. Then you need to start the RARP daemon. Issue the command (as root): /usr/sbin/rarpd -a on most Linux systems and SunOS 5 (Solaris 2), /usr/sbin/in.rarpd -a on some other Linux systems, or /usr/etc/rarpd -a in SunOS 4 (Solaris 1)." msgstr "" #. Tag: title -#: install-methods.xml:1239 +#: install-methods.xml:1286 #, no-c-format msgid "Setting up a BOOTP server" msgstr "" #. Tag: para -#: install-methods.xml:1240 +#: install-methods.xml:1287 #, no-c-format msgid "There are two BOOTP servers available for GNU/Linux. The first is CMU bootpd. The other is actually a DHCP server: ISC dhcpd. In &debian; these are contained in the bootp and dhcp3-server packages respectively." msgstr "" #. Tag: para -#: install-methods.xml:1248 +#: install-methods.xml:1295 #, no-c-format msgid "" "To use CMU bootpd, you must first uncomment (or add) the relevant line in /etc/inetd.conf. On &debian;, you can run update-inetd --enable bootps, then /etc/init.d/inetd reload to do so. Just in case your BOOTP server does not run Debian, the line in question should look like: \n" @@ -959,25 +967,25 @@ msgid "" msgstr "" #. Tag: para -#: install-methods.xml:1281 +#: install-methods.xml:1328 #, no-c-format msgid "By contrast, setting up BOOTP with ISC dhcpd is really easy, because it treats BOOTP clients as a moderately special case of DHCP clients. Some architectures require a complex configuration for booting clients via BOOTP. If yours is one of those, read the section . In that case, you will probably be able to get away with simply adding the allow bootp directive to the configuration block for the subnet containing the client, and restart dhcpd with /etc/init.d/dhcpd3-server restart." msgstr "" #. Tag: title -#: install-methods.xml:1302 +#: install-methods.xml:1349 #, no-c-format msgid "Setting up a DHCP server" msgstr "" #. Tag: para -#: install-methods.xml:1303 +#: install-methods.xml:1350 #, no-c-format msgid "One free software DHCP server is ISC dhcpd. For &debian;, the dhcp3-server package is recommended. Here is a sample configuration file for it (see /etc/dhcp3/dhcpd.conf):" msgstr "" #. Tag: screen -#: install-methods.xml:1310 +#: install-methods.xml:1357 #, no-c-format msgid "" "option domain-name \"example.com\";\n" @@ -1002,25 +1010,25 @@ msgid "" msgstr "" #. Tag: para -#: install-methods.xml:1312 +#: install-methods.xml:1359 #, no-c-format msgid "In this example, there is one server servername which performs all of the work of DHCP server, TFTP server, and network gateway. You will almost certainly need to change the domain-name options, as well as the server name and client hardware address. The filename option should be the name of the file which will be retrieved via TFTP." msgstr "" #. Tag: para -#: install-methods.xml:1322 +#: install-methods.xml:1369 #, no-c-format msgid "After you have edited the dhcpd configuration file, restart it with /etc/init.d/dhcpd3-server restart." msgstr "" #. Tag: title -#: install-methods.xml:1330 +#: install-methods.xml:1377 #, no-c-format msgid "Enabling PXE Booting in the DHCP configuration" msgstr "" #. Tag: para -#: install-methods.xml:1331 +#: install-methods.xml:1378 #, no-c-format msgid "" "Here is another example for a dhcp.conf using the Pre-boot Execution Environment (PXE) method of TFTP. \n" @@ -1055,13 +1063,13 @@ msgid "" msgstr "" #. Tag: title -#: install-methods.xml:1347 +#: install-methods.xml:1394 #, no-c-format msgid "Enabling the TFTP Server" msgstr "" #. Tag: para -#: install-methods.xml:1348 +#: install-methods.xml:1395 #, no-c-format msgid "" "To get the TFTP server ready to go, you should first make sure that tftpd is enabled. This is usually enabled by having something like the following line in /etc/inetd.conf: \n" @@ -1070,19 +1078,19 @@ msgid "" msgstr "" #. Tag: para -#: install-methods.xml:1360 +#: install-methods.xml:1407 #, no-c-format msgid "Historically, TFTP servers used /tftpboot as directory to serve images from. However, &debian; packages may use other directories to comply with the Filesystem Hierarchy Standard. For example, tftpd-hpa by default uses /var/lib/tftpboot. You may have to adjust the configuration examples in this section accordingly." msgstr "" #. Tag: para -#: install-methods.xml:1370 +#: install-methods.xml:1417 #, no-c-format msgid "Look in /etc/inetd.conf and remember the directory which is used as the argument of in.tftpd All in.tftpd alternatives available in Debian should log TFTP requests to the system logs by default. Some of them support a -v argument to increase verbosity. It is recommended to check these log messages in case of boot problems as they are a good starting point for diagnosing the cause of errors. ; you'll need that below. If you've had to change /etc/inetd.conf, you'll have to notify the running inetd process that the file has changed. On a Debian machine, run /etc/init.d/inetd reload; on other machines, find out the process ID for inetd, and run kill -HUP inetd-pid." msgstr "" #. Tag: para -#: install-methods.xml:1390 +#: install-methods.xml:1437 #, no-c-format msgid "" "If you intend to install Debian on an SGI machine and your TFTP server is a GNU/Linux box running Linux 2.4, you'll need to set the following on your server: \n" @@ -1093,61 +1101,61 @@ msgid "" msgstr "" #. Tag: title -#: install-methods.xml:1412 +#: install-methods.xml:1459 #, no-c-format msgid "Move TFTP Images Into Place" msgstr "" #. Tag: para -#: install-methods.xml:1413 +#: install-methods.xml:1460 #, no-c-format msgid "Next, place the TFTP boot image you need, as found in , in the tftpd boot image directory. You may have to make a link from that file to the file which tftpd will use for booting a particular client. Unfortunately, the file name is determined by the TFTP client, and there are no strong standards." msgstr "" #. Tag: para -#: install-methods.xml:1422 +#: install-methods.xml:1469 #, no-c-format msgid "On NewWorld Power Macintosh machines, you will need to set up the yaboot boot loader as the TFTP boot image. Yaboot will then retrieve the kernel and RAMdisk images via TFTP itself. You will need to download the following files from the netboot/ directory:" msgstr "" #. Tag: filename -#: install-methods.xml:1453 +#: install-methods.xml:1500 #, no-c-format msgid "boot.msg" msgstr "" #. Tag: para -#: install-methods.xml:1458 +#: install-methods.xml:1505 #, no-c-format msgid "For PXE booting, everything you should need is set up in the netboot/netboot.tar.gz tarball. Simply extract this tarball into the tftpd boot image directory. Make sure your dhcp server is configured to pass pxelinux.0 to tftpd as the filename to boot." msgstr "" #. Tag: para -#: install-methods.xml:1466 +#: install-methods.xml:1513 #, no-c-format msgid "For PXE booting, everything you should need is set up in the netboot/netboot.tar.gz tarball. Simply extract this tarball into the tftpd boot image directory. Make sure your dhcp server is configured to pass /debian-installer/ia64/elilo.efi to tftpd as the filename to boot." msgstr "" #. Tag: title -#: install-methods.xml:1478 +#: install-methods.xml:1525 #, no-c-format msgid "Alpha TFTP Booting" msgstr "" #. Tag: para -#: install-methods.xml:1479 +#: install-methods.xml:1526 #, no-c-format msgid "On Alpha, you must specify the filename (as a relative path to the boot image directory) using the -file argument to the SRM boot command, or by setting the BOOT_FILE environment variable. Alternatively, the filename can be given via BOOTP (in ISC dhcpd, use the filename directive). Unlike Open Firmware, there is no default filename on SRM, so you must specify a filename by either one of these methods." msgstr "" #. Tag: title -#: install-methods.xml:1494 +#: install-methods.xml:1541 #, no-c-format msgid "SPARC TFTP Booting" msgstr "" #. Tag: para -#: install-methods.xml:1495 +#: install-methods.xml:1542 #, no-c-format msgid "" "Some SPARC architectures add the subarchitecture names, such as SUN4M or SUN4C, to the filename. Thus, if your system's subarchitecture is a SUN4C, and its IP is 192.168.1.3, the filename would be C0A80103.SUN4C. However, there are also subarchitectures where the file the client looks for is just client-ip-in-hex. An easy way to determine the hexadecimal code for the IP address is to enter the following command in a shell (assuming the machine's intended IP is 10.0.0.4). \n" @@ -1156,85 +1164,85 @@ msgid "" msgstr "" #. Tag: para -#: install-methods.xml:1511 +#: install-methods.xml:1558 #, no-c-format msgid "If you've done all this correctly, giving the command boot net from the OpenPROM should load the image. If the image cannot be found, try checking the logs on your tftp server to see which image name is being requested." msgstr "" #. Tag: para -#: install-methods.xml:1518 +#: install-methods.xml:1565 #, no-c-format msgid "You can also force some sparc systems to look for a specific file name by adding it to the end of the OpenPROM boot command, such as boot net my-sparc.image. This must still reside in the directory that the TFTP server looks in." msgstr "" #. Tag: title -#: install-methods.xml:1529 +#: install-methods.xml:1576 #, no-c-format msgid "BVM/Motorola TFTP Booting" msgstr "" #. Tag: para -#: install-methods.xml:1530 +#: install-methods.xml:1577 #, no-c-format msgid "For BVM and Motorola VMEbus systems copy the files &bvme6000-tftp-files; to /tftpboot/." msgstr "" #. Tag: para -#: install-methods.xml:1535 +#: install-methods.xml:1582 #, no-c-format msgid "Next, configure your boot ROMs or BOOTP server to initially load the tftplilo.bvme or tftplilo.mvme files from the TFTP server. Refer to the tftplilo.txt file for your subarchitecture for additional system-specific configuration information." msgstr "" #. Tag: title -#: install-methods.xml:1547 +#: install-methods.xml:1594 #, no-c-format msgid "SGI TFTP Booting" msgstr "" #. Tag: para -#: install-methods.xml:1548 +#: install-methods.xml:1595 #, no-c-format msgid "On SGI machines you can rely on the bootpd to supply the name of the TFTP file. It is given either as the bf= in /etc/bootptab or as the filename= option in /etc/dhcpd.conf." msgstr "" #. Tag: title -#: install-methods.xml:1560 +#: install-methods.xml:1607 #, no-c-format msgid "Broadcom BCM91250A and BCM91480B TFTP Booting" msgstr "" #. Tag: para -#: install-methods.xml:1561 +#: install-methods.xml:1608 #, no-c-format msgid "You don't have to configure DHCP in a special way because you'll pass the full path of the file to be loaded to CFE." msgstr "" #. Tag: title -#: install-methods.xml:1666 +#: install-methods.xml:1713 #, no-c-format msgid "Automatic Installation" msgstr "" #. Tag: para -#: install-methods.xml:1667 +#: install-methods.xml:1714 #, no-c-format msgid "For installing on multiple computers it's possible to do fully automatic installations. Debian packages intended for this include fai (which uses an install server), replicator, systemimager, autoinstall, and the Debian Installer itself." msgstr "" #. Tag: title -#: install-methods.xml:1680 +#: install-methods.xml:1727 #, no-c-format msgid "Automatic Installation Using the Debian Installer" msgstr "" #. Tag: para -#: install-methods.xml:1681 +#: install-methods.xml:1728 #, no-c-format msgid "The Debian Installer supports automating installs via preconfiguration files. A preconfiguration file can be loaded from the network or from removable media, and used to fill in answers to questions asked during the installation process." msgstr "" #. Tag: para -#: install-methods.xml:1688 +#: install-methods.xml:1735 #, no-c-format msgid "Full documentation on preseeding including a working example that you can edit is in ." msgstr "" diff --git a/po/pot/using-d-i.pot b/po/pot/using-d-i.pot index c36261106..5cbcb455a 100644 --- a/po/pot/using-d-i.pot +++ b/po/pot/using-d-i.pot @@ -6,7 +6,7 @@ msgid "" msgstr "" "Project-Id-Version: PACKAGE VERSION\n" "Report-Msgid-Bugs-To: debian-boot@lists.debian.org\n" -"POT-Creation-Date: 2008-10-06 00:09+0000\n" +"POT-Creation-Date: 2008-10-17 00:09+0000\n" "PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n" "Last-Translator: FULL NAME \n" "Language-Team: LANGUAGE \n" @@ -197,521 +197,521 @@ msgstr "" #. Tag: para #: using-d-i.xml:196 #, no-c-format -msgid "Looks for ISO file systems, which may be on a CD-ROM or on the hard drive." +msgid "Searches for ISO images (.iso files) on hard drives." msgstr "" #. Tag: term -#: using-d-i.xml:205 +#: using-d-i.xml:204 #, no-c-format msgid "choose-mirror" msgstr "" #. Tag: para -#: using-d-i.xml:205 +#: using-d-i.xml:204 #, no-c-format msgid "Presents a list of Debian archive mirrors. The user may choose the source of his installation packages." msgstr "" #. Tag: term -#: using-d-i.xml:214 +#: using-d-i.xml:213 #, no-c-format msgid "cdrom-checker" msgstr "" #. Tag: para -#: using-d-i.xml:214 +#: using-d-i.xml:213 #, no-c-format msgid "Checks integrity of a CD-ROM. This way, the user may assure him/herself that the installation CD-ROM was not corrupted." msgstr "" #. Tag: term -#: using-d-i.xml:223 +#: using-d-i.xml:222 #, no-c-format msgid "lowmem" msgstr "" #. Tag: para -#: using-d-i.xml:223 +#: using-d-i.xml:222 #, no-c-format msgid "Lowmem tries to detect systems with low memory and then does various tricks to remove unnecessary parts of &d-i; from the memory (at the cost of some features)." msgstr "" #. Tag: term -#: using-d-i.xml:233 +#: using-d-i.xml:232 #, no-c-format msgid "anna" msgstr "" #. Tag: para -#: using-d-i.xml:233 +#: using-d-i.xml:232 #, no-c-format msgid "Anna's Not Nearly APT. Installs packages which have been retrieved from the chosen mirror or CD." msgstr "" #. Tag: term -#: using-d-i.xml:242 +#: using-d-i.xml:241 #, no-c-format msgid "clock-setup" msgstr "" #. Tag: para -#: using-d-i.xml:242 +#: using-d-i.xml:241 #, no-c-format msgid "Updates the system clock and determines whether the clock is set to UTC or not." msgstr "" #. Tag: term -#: using-d-i.xml:251 +#: using-d-i.xml:250 #, no-c-format msgid "tzsetup" msgstr "" #. Tag: para -#: using-d-i.xml:251 +#: using-d-i.xml:250 #, no-c-format msgid "Selects the time zone, based on the location selected earlier." msgstr "" #. Tag: term -#: using-d-i.xml:259 +#: using-d-i.xml:258 #, no-c-format msgid "partman" msgstr "" #. Tag: para -#: using-d-i.xml:259 +#: using-d-i.xml:258 #, no-c-format msgid "Allows the user to partition disks attached to the system, create file systems on the selected partitions, and attach them to the mountpoints. Included are also interesting features like a fully automatic mode or LVM support. This is the preferred partitioning tool in Debian." msgstr "" #. Tag: term -#: using-d-i.xml:271 +#: using-d-i.xml:270 #, no-c-format msgid "partitioner" msgstr "" #. Tag: para -#: using-d-i.xml:271 +#: using-d-i.xml:270 #, no-c-format msgid "Allows the user to partition disks attached to the system. A partitioning program appropriate to your computer's architecture is chosen." msgstr "" #. Tag: term -#: using-d-i.xml:281 +#: using-d-i.xml:280 #, no-c-format msgid "partconf" msgstr "" #. Tag: para -#: using-d-i.xml:281 +#: using-d-i.xml:280 #, no-c-format msgid "Displays a list of partitions, and creates file systems on the selected partitions according to user instructions." msgstr "" #. Tag: term -#: using-d-i.xml:290 +#: using-d-i.xml:289 #, no-c-format msgid "lvmcfg" msgstr "" #. Tag: para -#: using-d-i.xml:290 +#: using-d-i.xml:289 #, no-c-format msgid "Helps the user with the configuration of the LVM (Logical Volume Manager)." msgstr "" #. Tag: term -#: using-d-i.xml:299 +#: using-d-i.xml:298 #, no-c-format msgid "mdcfg" msgstr "" #. Tag: para -#: using-d-i.xml:299 +#: using-d-i.xml:298 #, no-c-format msgid "Allows the user to set up Software RAID (Redundant Array of Inexpensive Disks). This Software RAID is usually superior to the cheap IDE (pseudo hardware) RAID controllers found on newer motherboards." msgstr "" #. Tag: term -#: using-d-i.xml:310 +#: using-d-i.xml:309 #, no-c-format msgid "base-installer" msgstr "" #. Tag: para -#: using-d-i.xml:310 +#: using-d-i.xml:309 #, no-c-format msgid "Installs the most basic set of packages which would allow the computer to operate under Linux when rebooted." msgstr "" #. Tag: term -#: using-d-i.xml:319 +#: using-d-i.xml:318 #, no-c-format msgid "user-setup" msgstr "" #. Tag: para -#: using-d-i.xml:319 +#: using-d-i.xml:318 #, no-c-format msgid "Sets up the root password, and adds a non-root user." msgstr "" #. Tag: term -#: using-d-i.xml:327 +#: using-d-i.xml:326 #, no-c-format msgid "apt-setup" msgstr "" #. Tag: para -#: using-d-i.xml:327 +#: using-d-i.xml:326 #, no-c-format msgid "Configures apt, mostly automatically, based on what media the installer is running from." msgstr "" #. Tag: term -#: using-d-i.xml:336 +#: using-d-i.xml:335 #, no-c-format msgid "pkgsel" msgstr "" #. Tag: para -#: using-d-i.xml:336 +#: using-d-i.xml:335 #, no-c-format msgid "Uses tasksel to select and install additional software." msgstr "" #. Tag: term -#: using-d-i.xml:344 +#: using-d-i.xml:343 #, no-c-format msgid "os-prober" msgstr "" #. Tag: para -#: using-d-i.xml:344 +#: using-d-i.xml:343 #, no-c-format msgid "Detects currently installed operating systems on the computer and passes this information to the bootloader-installer, which may offer you an ability to add discovered operating systems to the bootloader's start menu. This way the user could easily choose at the boot time which operating system to start." msgstr "" #. Tag: term -#: using-d-i.xml:356 +#: using-d-i.xml:355 #, no-c-format msgid "bootloader-installer" msgstr "" #. Tag: para -#: using-d-i.xml:356 +#: using-d-i.xml:355 #, no-c-format msgid "The various bootloader installers each install a boot loader program on the hard disk, which is necessary for the computer to start up using Linux without using a floppy or CD-ROM. Many boot loaders allow the user to choose an alternate operating system each time the computer boots." msgstr "" #. Tag: term -#: using-d-i.xml:367 +#: using-d-i.xml:366 #, no-c-format msgid "shell" msgstr "" #. Tag: para -#: using-d-i.xml:367 +#: using-d-i.xml:366 #, no-c-format msgid "Allows the user to execute a shell from the menu, or in the second console." msgstr "" #. Tag: term -#: using-d-i.xml:376 +#: using-d-i.xml:375 #, no-c-format msgid "save-logs" msgstr "" #. Tag: para -#: using-d-i.xml:376 +#: using-d-i.xml:375 #, no-c-format msgid "Provides a way for the user to record information on a floppy disk, network, hard disk, or other media when trouble is encountered, in order to accurately report installer software problems to Debian developers later." msgstr "" #. Tag: title -#: using-d-i.xml:394 +#: using-d-i.xml:393 #, no-c-format msgid "Using Individual Components" msgstr "" #. Tag: para -#: using-d-i.xml:395 +#: using-d-i.xml:394 #, no-c-format msgid "In this section we will describe each installer component in detail. The components have been grouped into stages that should be recognizable for users. They are presented in the order they appear during the install. Note that not all modules will be used for every installation; which modules are actually used depends on the installation method you use and on your hardware." msgstr "" #. Tag: title -#: using-d-i.xml:407 +#: using-d-i.xml:406 #, no-c-format msgid "Setting up Debian Installer and Hardware Configuration" msgstr "" #. Tag: para -#: using-d-i.xml:408 +#: using-d-i.xml:407 #, no-c-format msgid "Let's assume the Debian Installer has booted and you are facing its first screen. At this time, the capabilities of &d-i; are still quite limited. It doesn't know much about your hardware, preferred language, or even the task it should perform. Don't worry. Because &d-i; is quite clever, it can automatically probe your hardware, locate the rest of its components and upgrade itself to a capable installation system. However, you still need to help &d-i; with some information it can't determine automatically (like selecting your preferred language, keyboard layout or desired network mirror)." msgstr "" #. Tag: para -#: using-d-i.xml:421 +#: using-d-i.xml:420 #, no-c-format msgid "You will notice that &d-i; performs hardware detection several times during this stage. The first time is targeted specifically at the hardware needed to load installer components (e.g. your CD-ROM or network card). As not all drivers may be available during this first run, hardware detection needs to be repeated later in the process." msgstr "" #. Tag: para -#: using-d-i.xml:429 +#: using-d-i.xml:428 #, no-c-format msgid "During hardware detection &d-i; checks if any of the drivers for the hardware devices in your system require firmware to be loaded. If any firmware is requested but unavailable, a dialog will be displayed that allows the missing firmware to be loaded from a removable medium. See for further details." msgstr "" #. Tag: title -#: using-d-i.xml:444 +#: using-d-i.xml:443 #, no-c-format msgid "Check available memory / low memory mode" msgstr "" #. Tag: para -#: using-d-i.xml:446 +#: using-d-i.xml:445 #, no-c-format msgid "One of the first things &d-i; does, is to check available memory. If the available memory is limited, this component will make some changes in the installation process which hopefully will allow you to install &debian; on your system." msgstr "" #. Tag: para -#: using-d-i.xml:453 +#: using-d-i.xml:452 #, no-c-format msgid "The first measure taken to reduce memory consumption by the installer is to disable translations, which means that the installation can only be done in English. Of course, you can still localize the installed system after the installation has completed." msgstr "" #. Tag: para -#: using-d-i.xml:460 +#: using-d-i.xml:459 #, no-c-format msgid "If that is not sufficient, the installer will further reduce memory consumption by loading only those components essential to complete a basic installation. This reduces the functionality of the installation system. You will be given the opportunity to load additional components manually, but you should be aware that each component you select will use additional memory and thus may cause the installation to fail." msgstr "" #. Tag: para -#: using-d-i.xml:469 +#: using-d-i.xml:468 #, no-c-format msgid "If the installer runs in low memory mode, it is recommended to create a relatively large swap partition (64–128MB). The swap partition will be used as virtual memory and thus increases the amount of memory available to the system. The installer will activate the swap partition as early as possible in the installation process. Note that heavy use of swap will reduce performance of your system and may lead to high disk activity." msgstr "" #. Tag: para -#: using-d-i.xml:479 +#: using-d-i.xml:478 #, no-c-format msgid "Despite these measures, it is still possible that your system freezes, that unexpected errors occur or that processes are killed by the kernel because the system runs out of memory (which will result in Out of memory messages on VT4 and in the syslog)." msgstr "" #. Tag: para -#: using-d-i.xml:486 +#: using-d-i.xml:485 #, no-c-format msgid "For example, it has been reported that creating a big ext3 file system fails in low memory mode when there is insufficient swap space. If a larger swap doesn't help, try creating the file system as ext2 (which is an essential component of the installer) instead. It is possible to change an ext2 partition to ext3 after the installation." msgstr "" #. Tag: para -#: using-d-i.xml:494 +#: using-d-i.xml:493 #, no-c-format msgid "It is possible to force the installer to use a higher lowmem level than the one based on available memory by using the boot parameter lowmem as described in ." msgstr "" #. Tag: title -#: using-d-i.xml:509 +#: using-d-i.xml:508 #, no-c-format msgid "Selecting Localization Options" msgstr "" #. Tag: para -#: using-d-i.xml:511 +#: using-d-i.xml:510 #, no-c-format msgid "In most cases the first questions you will be asked concern the selection of localization options to be used both for the installation and for the installed system. The localization options consist of language, country and locales." msgstr "" #. Tag: para -#: using-d-i.xml:518 +#: using-d-i.xml:517 #, no-c-format msgid "The language you choose will be used for the rest of the installation process, provided a translation of the different dialogs is available. If no valid translation is available for the selected language, the installer will default to English." msgstr "" #. Tag: para -#: using-d-i.xml:525 +#: using-d-i.xml:524 #, no-c-format msgid "The selected country will be used later in the installation process to pick the default timezone and a Debian mirror appropriate for your geographic location. Language and country together will be used to set the default locale for your system and to help select your keyboard." msgstr "" #. Tag: para -#: using-d-i.xml:532 +#: using-d-i.xml:531 #, no-c-format msgid "You will first be asked to select your preferred language. The language names are listed both in English (left side) and in the language itself (right side); the names on the right side are also shown in the proper script for the language. The list is sorted on the English names. At the top of the list is an extra option that allows you to select the C locale instead of a language. Choosing the C locale will result in the installation proceding in English; the installed system will have no localization support as the locales package will not be installed." msgstr "" #. Tag: para -#: using-d-i.xml:544 +#: using-d-i.xml:543 #, no-c-format msgid "If you selected a language that is recognized as an official language for more than one country In technical terms: where multiple locales exist for that language with differing country codes. , you will be shown a list of only those countries. To select a country that is not in that list, choose Other (the last option). You will then be presented with a list of continents; selecting a continent will lead to a list of relevant countries on that continent." msgstr "" #. Tag: para -#: using-d-i.xml:562 +#: using-d-i.xml:561 #, no-c-format msgid "If the language has only one country associated with it, that country will be selected automatically. In that case it is only possible to select a different country by first lowering the debconf priority to medium, followed by revisiting the language selection option in the main menu of the installer." msgstr "" #. Tag: para -#: using-d-i.xml:570 +#: using-d-i.xml:569 #, no-c-format msgid "A default locale will be selected based on the selected language and country. If you are installing at medium or low priority, you will have the option of selecting a different default locale and of selecting additional locales to be generated for the installed system." msgstr "" #. Tag: title -#: using-d-i.xml:585 +#: using-d-i.xml:584 #, no-c-format msgid "Choosing a Keyboard" msgstr "" #. Tag: para -#: using-d-i.xml:587 +#: using-d-i.xml:586 #, no-c-format msgid "Keyboards are often tailored to the characters used in a language. Select a layout that conforms to the keyboard you are using, or select something close if the keyboard layout you want isn't represented. Once the system installation is complete, you'll be able to select a keyboard layout from a wider range of choices (run kbdconfig as root after you have completed the installation)." msgstr "" #. Tag: para -#: using-d-i.xml:597 +#: using-d-i.xml:596 #, no-c-format msgid "Move the highlight to the keyboard selection you desire and press &enterkey;. Use the arrow keys to move the highlight — they are in the same place in all national language keyboard layouts, so they are independent of the keyboard configuration. An 'extended' keyboard is one with F1 through F10 keys along the top row." msgstr "" #. Tag: para -#: using-d-i.xml:606 +#: using-d-i.xml:605 #, no-c-format msgid "There are two keyboard layouts for US keyboards; the qwerty/mac-usb-us (Apple USB) layout will place the Alt function on the Command/Apple key (in the keyboard position next to the space key similar to Alt on PC keyboards), while the qwerty/us (Standard) layout will place the Alt function on the Option key (engraved with 'alt' on most Mac keyboards). In other respects the two layouts are similar." msgstr "" #. Tag: title -#: using-d-i.xml:636 +#: using-d-i.xml:635 #, no-c-format msgid "Looking for the Debian Installer ISO Image" msgstr "" #. Tag: para -#: using-d-i.xml:637 +#: using-d-i.xml:636 #, no-c-format msgid "When installing via the hd-media method, there will be a moment where you need to find and mount the Debian Installer iso image in order to get the rest of the installation files. The component iso-scan does exactly this." msgstr "" #. Tag: para -#: using-d-i.xml:644 +#: using-d-i.xml:643 #, no-c-format msgid "At first, iso-scan automatically mounts all block devices (e.g. partitions) which have some known filesystem on them and sequentially searches for filenames ending with .iso (or .ISO for that matter). Beware that the first attempt scans only files in the root directory and in the first level of subdirectories (i.e. it finds /whatever.iso, /data/whatever.iso, but not /data/tmp/whatever.iso). After an iso image has been found, iso-scan checks its content to determine if the image is a valid Debian iso image or not. In the former case we are done, in the latter iso-scan seeks for another image." msgstr "" #. Tag: para -#: using-d-i.xml:661 +#: using-d-i.xml:660 #, no-c-format msgid "In case the previous attempt to find an installer iso image fails, iso-scan will ask you whether you would like to perform a more thorough search. This pass doesn't just look into the topmost directories, but really traverses whole filesystem." msgstr "" #. Tag: para -#: using-d-i.xml:668 +#: using-d-i.xml:667 #, no-c-format msgid "If iso-scan does not discover your installer iso image, reboot back to your original operating system and check if the image is named correctly (ending in .iso), if it is placed on a filesystem recognizable by &d-i;, and if it is not corrupted (verify the checksum). Experienced Unix users could do this without rebooting on the second console." msgstr "" #. Tag: title -#: using-d-i.xml:689 +#: using-d-i.xml:688 #, no-c-format msgid "Configuring the Network" msgstr "" #. Tag: para -#: using-d-i.xml:691 +#: using-d-i.xml:690 #, no-c-format msgid "As you enter this step, if the system detects that you have more than one network device, you'll be asked to choose which device will be your primary network interface, i.e. the one which you want to use for installation. The other interfaces won't be configured at this time. You may configure additional interfaces after installation is complete; see the interfaces 5 man page." msgstr "" #. Tag: para -#: using-d-i.xml:702 +#: using-d-i.xml:701 #, no-c-format msgid "By default, &d-i; tries to configure your computer's network automatically via DHCP. If the DHCP probe succeeds, you are done. If the probe fails, it may be caused by many factors ranging from unplugged network cable, to a misconfigured DHCP setup. Or maybe you don't have a DHCP server in your local network at all. For further explanation, check the error messages on the fourth console. In any case, you will be asked if you want to retry, or if you want to perform a manual setup. DHCP servers are sometimes really slow in their responses, so if you are sure everything is in place, try again." msgstr "" #. Tag: para -#: using-d-i.xml:714 +#: using-d-i.xml:713 #, no-c-format msgid "The manual network setup in turn asks you a number of questions about your network, notably IP address, Netmask, Gateway, Name server addresses, and a Hostname. Moreover, if you have a wireless network interface, you will be asked to provide your Wireless ESSID and a WEP key. Fill in the answers from ." msgstr "" #. Tag: para -#: using-d-i.xml:728 +#: using-d-i.xml:727 #, no-c-format msgid "Some technical details you might, or might not, find handy: the program assumes the network IP address is the bitwise-AND of your system's IP address and your netmask. The default broadcast address is calculated as the bitwise OR of your system's IP address with the bitwise negation of the netmask. It will also guess your gateway. If you can't find any of these answers, use the offered defaults — if necessary, you can change them by editing /etc/network/interfaces once the system has been installed." msgstr "" #. Tag: title -#: using-d-i.xml:773 +#: using-d-i.xml:772 #, no-c-format msgid "Configuring the Clock" msgstr "" #. Tag: para -#: using-d-i.xml:775 +#: using-d-i.xml:774 #, no-c-format msgid "The installer will first attempt to connect to a time server on the Internet (using the NTP protocol) in order to correctly set the system time. If this does not succeed, the installer will assume the time and date obtained from the system clock when the installation system was booted are correct. It is not possible to manually set the system time during the installation process." msgstr "" #. Tag: para -#: using-d-i.xml:793 +#: using-d-i.xml:792 #, no-c-format msgid "Depending on the location selected earlier in the installation process, you may be shown a list of timezones relevant for that location. If your location has only one time zone, you will not be asked anything and the system will assume that time zone." msgstr "" #. Tag: para -#: using-d-i.xml:800 +#: using-d-i.xml:799 #, no-c-format msgid "If for some reason you wish to set a time zone for the installed system that does not match the selected location, there are two options." msgstr "" #. Tag: para -#: using-d-i.xml:811 +#: using-d-i.xml:810 #, no-c-format msgid "The simplest option is to just select a different timezone after the installation has been completed and you've booted into the new system. The command to do this is:" msgstr "" #. Tag: screen -#: using-d-i.xml:817 +#: using-d-i.xml:816 #, no-c-format msgid "# dpkg-reconfigure tzdata" msgstr "" #. Tag: para -#: using-d-i.xml:823 +#: using-d-i.xml:822 #, no-c-format msgid "Alternatively, the time zone can be set at the very start of the installation by passing the parameter time/zone=value when you boot the installation system. The value should of course be a valid time zone, for example Europe/London or UTC." msgstr "" #. Tag: para -#: using-d-i.xml:837 +#: using-d-i.xml:836 #, no-c-format msgid "For automated installations the time zone can also be set using preseeding." msgstr "" #. Tag: title -#: using-d-i.xml:850 +#: using-d-i.xml:849 #, no-c-format msgid "Partitioning and Mount Point Selection" msgstr "" #. Tag: para -#: using-d-i.xml:851 +#: using-d-i.xml:850 #, no-c-format msgid "At this time, after hardware detection has been executed a final time, &d-i; should be at its full strength, customized for the user's needs and ready to do some real work. As the title of this section indicates, the main task of the next few components lies in partitioning your disks, creating filesystems, assigning mountpoints and optionally configuring closely related options like RAID, LVM or encrypted devices." msgstr "" #. Tag: para -#: using-d-i.xml:872 +#: using-d-i.xml:871 #, no-c-format msgid "If you are uncomfortable with partitioning, or just want to know more details, see ." msgstr "" #. Tag: para -#: using-d-i.xml:878 +#: using-d-i.xml:877 #, no-c-format msgid "" "If a hard disk has previously used under Solaris, the partitioner may not detect the size of the drive correctly. Creating a new partition table does not fix this issue. What does help, is to zero the first few sectors of the drive: \n" @@ -720,163 +720,163 @@ msgid "" msgstr "" #. Tag: para -#: using-d-i.xml:891 +#: using-d-i.xml:890 #, no-c-format msgid "First you will be given the opportunity to automatically partition either an entire drive, or available free space on a drive. This is also called guided partitioning. If you do not want to autopartition, choose Manual from the menu." msgstr "" #. Tag: title -#: using-d-i.xml:901 +#: using-d-i.xml:900 #, no-c-format msgid "Guided Partitioning" msgstr "" #. Tag: para -#: using-d-i.xml:902 +#: using-d-i.xml:901 #, no-c-format msgid "If you choose guided partitioning, you may have three options: to create partitions directly on the hard disk (classic method), or to create them using Logical Volume Management (LVM), or to create them using encrypted LVM The installer will encrypt the LVM volume group using a 256 bit AES key and makes use of the kernel's dm-crypt support. ." msgstr "" #. Tag: para -#: using-d-i.xml:917 +#: using-d-i.xml:916 #, no-c-format msgid "The option to use (encrypted) LVM may not be available on all architectures." msgstr "" #. Tag: para -#: using-d-i.xml:922 +#: using-d-i.xml:921 #, no-c-format msgid "When using LVM or encrypted LVM, the installer will create most partitions inside one big partition; the advantage of this method is that partitions inside this big partition can be resized relatively easily later. In the case of encrypted LVM the big partition will not be readable without knowing a special key phrase, thus providing extra security of your (personal) data." msgstr "" #. Tag: para -#: using-d-i.xml:931 +#: using-d-i.xml:930 #, no-c-format msgid "When using encrypted LVM, the installer will also automatically erase the disk by writing random data to it. This further improves security (as it makes it impossible to tell which parts of the disk are in use and also makes sure that any traces of previous installations are erased), but may take some time depending on the size of your disk." msgstr "" #. Tag: para -#: using-d-i.xml:940 +#: using-d-i.xml:939 #, no-c-format msgid "If you choose guided partitioning using LVM or encrypted LVM, some changes in the partition table will need to be written to the selected disk while LVM is being set up. These changes effectively erase all data that is currently on the selected hard disk and you will not be able to undo them later. However, the installer will ask you to confirm these changes before they are written to disk." msgstr "" #. Tag: para -#: using-d-i.xml:950 +#: using-d-i.xml:949 #, no-c-format msgid "If you choose guided partitioning (either classic or using (encrypted) LVM) for a whole disk, you will first be asked to select the disk you want to use. Check that all your disks are listed and, if you have several disks, make sure you select the correct one. The order they are listed in may differ from what you are used to. The size of the disks may help to identify them." msgstr "" #. Tag: para -#: using-d-i.xml:959 +#: using-d-i.xml:958 #, no-c-format msgid "Any data on the disk you select will eventually be lost, but you will always be asked to confirm any changes before they are written to the disk. If you have selected the classic method of partitioning, you will be able to undo any changes right until the end; when using (encrypted) LVM this is not possible." msgstr "" #. Tag: para -#: using-d-i.xml:967 +#: using-d-i.xml:966 #, no-c-format msgid "Next, you will be able to choose from the schemes listed in the table below. All schemes have their pros and cons, some of which are discussed in . If you are unsure, choose the first one. Bear in mind that guided partitioning needs a certain minimal amount of free space to operate with. If you don't give it at least about 1GB of space (depends on chosen scheme), guided partitioning will fail." msgstr "" #. Tag: entry -#: using-d-i.xml:983 +#: using-d-i.xml:982 #, no-c-format msgid "Partitioning scheme" msgstr "" #. Tag: entry -#: using-d-i.xml:984 +#: using-d-i.xml:983 #, no-c-format msgid "Minimum space" msgstr "" #. Tag: entry -#: using-d-i.xml:985 +#: using-d-i.xml:984 #, no-c-format msgid "Created partitions" msgstr "" #. Tag: entry -#: using-d-i.xml:991 +#: using-d-i.xml:990 #, no-c-format msgid "All files in one partition" msgstr "" #. Tag: entry -#: using-d-i.xml:992 +#: using-d-i.xml:991 #, no-c-format msgid "600MB" msgstr "" #. Tag: entry -#: using-d-i.xml:993 +#: using-d-i.xml:992 #, no-c-format msgid "/, swap" msgstr "" #. Tag: entry -#: using-d-i.xml:995 +#: using-d-i.xml:994 #, no-c-format msgid "Separate /home partition" msgstr "" #. Tag: entry -#: using-d-i.xml:996 +#: using-d-i.xml:995 #, no-c-format msgid "500MB" msgstr "" #. Tag: entry -#: using-d-i.xml:997 +#: using-d-i.xml:996 #, no-c-format msgid "/, /home, swap" msgstr "" #. Tag: entry -#: using-d-i.xml:1001 +#: using-d-i.xml:1000 #, no-c-format msgid "Separate /home, /usr, /var and /tmp partitions" msgstr "" #. Tag: entry -#: using-d-i.xml:1002 +#: using-d-i.xml:1001 #, no-c-format msgid "1GB" msgstr "" #. Tag: entry -#: using-d-i.xml:1003 +#: using-d-i.xml:1002 #, no-c-format msgid "/, /home, /usr, /var, /tmp, swap" msgstr "" #. Tag: para -#: using-d-i.xml:1012 +#: using-d-i.xml:1011 #, no-c-format msgid "If you choose guided partitioning using (encrypted) LVM, the installer will also create a separate /boot partition. The other partitions, including the swap partition, will be created inside the LVM partition." msgstr "" #. Tag: para -#: using-d-i.xml:1018 +#: using-d-i.xml:1017 #, no-c-format msgid "If you choose guided partitioning for your IA-64 system, there will be an additional partition, formatted as a FAT16 bootable filesystem, for the EFI boot loader. There is also an additional menu item in the formatting menu to manually set up a partition as an EFI boot partition." msgstr "" #. Tag: para -#: using-d-i.xml:1026 +#: using-d-i.xml:1025 #, no-c-format msgid "If you choose guided partitioning for your Alpha system, an additional, unformatted partition will be allocated at the beginning of your disk to reserve this space for the aboot boot loader." msgstr "" #. Tag: para -#: using-d-i.xml:1032 +#: using-d-i.xml:1031 #, no-c-format msgid "After selecting a scheme, the next screen will show your new partition table, including information on whether and how partitions will be formatted and where they will be mounted." msgstr "" #. Tag: para -#: using-d-i.xml:1038 +#: using-d-i.xml:1037 #, no-c-format msgid "" "The list of partitions might look like this: \n" @@ -899,601 +899,601 @@ msgid "" msgstr "" #. Tag: para -#: using-d-i.xml:1051 +#: using-d-i.xml:1050 #, no-c-format msgid "This concludes the guided partitioning. If you are satisfied with the generated partition table, you can choose Finish partitioning and write changes to disk from the menu to implement the new partition table (as described at the end of this section). If you are not happy, you can choose to Undo changes to partitions and run guided partitioning again, or modify the proposed changes as described below for manual partitioning." msgstr "" #. Tag: title -#: using-d-i.xml:1065 +#: using-d-i.xml:1064 #, no-c-format msgid "Manual Partitioning" msgstr "" #. Tag: para -#: using-d-i.xml:1066 +#: using-d-i.xml:1065 #, no-c-format msgid "A similar screen to the one shown just above will be displayed if you choose manual partitioning except that your existing partition table will be shown and without the mount points. How to manually set up your partition table and the usage of partitions by your new Debian system will be covered in the remainder of this section." msgstr "" #. Tag: para -#: using-d-i.xml:1074 +#: using-d-i.xml:1073 #, no-c-format msgid "If you select a pristine disk which has neither partitions nor free space on it, you will be asked if a new partition table should be created (this is needed so you can create new partitions). After this, a new line entitled FREE SPACE should appear in the table under the selected disk." msgstr "" #. Tag: para -#: using-d-i.xml:1082 +#: using-d-i.xml:1081 #, no-c-format msgid "If you select some free space, you will have the opportunity to create a new partition. You will have to answer a quick series of questions about its size, type (primary or logical), and location (beginning or end of the free space). After this, you will be presented with a detailed overview of your new partition. The main setting is Use as:, which determines if the partition will have a file system on it, or be used for swap, software RAID, LVM, an encrypted file system, or not be used at all. Other settings include mountpoint, mount options, and bootable flag; which settings are shown depends on how the partition is to be used. If you don't like the preselected defaults, feel free to change them to your liking. E.g. by selecting the option Use as:, you can choose a different filesystem for this partition, including options to use the partition for swap, software RAID, LVM, or not use it at all. Another nice feature is the ability to copy data from an existing partition onto this one. When you are satisfied with your new partition, select Done setting up the partition and you will return to partman's main screen." msgstr "" #. Tag: para -#: using-d-i.xml:1104 +#: using-d-i.xml:1103 #, no-c-format msgid "If you decide you want to change something about your partition, simply select the partition, which will bring you to the partition configuration menu. This is the same screen as is used when creating a new partition, so you can change the same settings. One thing that may not be very obvious at a first glance is that you can resize the partition by selecting the item displaying the size of the partition. Filesystems known to work are at least fat16, fat32, ext2, ext3 and swap. This menu also allows you to delete a partition." msgstr "" #. Tag: para -#: using-d-i.xml:1115 +#: using-d-i.xml:1114 #, no-c-format msgid "Be sure to create at least two partitions: one for the root filesystem (which must be mounted as /) and one for swap. If you forget to mount the root filesystem, partman won't let you continue until you correct this issue." msgstr "" #. Tag: para -#: using-d-i.xml:1123 +#: using-d-i.xml:1122 #, no-c-format msgid "If you forget to select and format an EFI boot partition, partman will detect this and will not let you continue until you allocate one." msgstr "" #. Tag: para -#: using-d-i.xml:1129 +#: using-d-i.xml:1128 #, no-c-format msgid "Capabilities of partman can be extended with installer modules, but are dependent on your system's architecture. So if you can't see all promised goodies, check if you have loaded all required modules (e.g. partman-ext3, partman-xfs, or partman-lvm)." msgstr "" #. Tag: para -#: using-d-i.xml:1137 +#: using-d-i.xml:1136 #, no-c-format msgid "After you are satisfied with partitioning, select Finish partitioning and write changes to disk from the partitioning menu. You will be presented with a summary of changes made to the disks and asked to confirm that the filesystems should be created as requested." msgstr "" #. Tag: title -#: using-d-i.xml:1165 +#: using-d-i.xml:1164 #, no-c-format msgid "Configuring Multidisk Devices (Software RAID)" msgstr "" #. Tag: para -#: using-d-i.xml:1166 +#: using-d-i.xml:1165 #, no-c-format -msgid "If you have more than one harddrive To be honest, you can construct MD device even from partitions residing on single physical drive, but that won't bring you anything useful. in your computer, you can use mdcfg to set up your drives for increased performance and/or better reliability of your data. The result is called Multidisk Device (or after its most famous variant software RAID)." +msgid "If you have more than one harddrive To be honest, you can construct an MD device even from partitions residing on single physical drive, but that won't give any benefits. in your computer, you can use mdcfg to set up your drives for increased performance and/or better reliability of your data. The result is called Multidisk Device (or after its most famous variant software RAID)." msgstr "" #. Tag: para -#: using-d-i.xml:1180 +#: using-d-i.xml:1178 #, no-c-format msgid "MD is basically a bunch of partitions located on different disks and combined together to form a logical device. This device can then be used like an ordinary partition (i.e. in partman you can format it, assign a mountpoint, etc.)." msgstr "" #. Tag: para -#: using-d-i.xml:1188 +#: using-d-i.xml:1186 #, no-c-format msgid "What benefits this brings depends on the type of MD device you are creating. Currently supported are: RAID0 Is mainly aimed at performance. RAID0 splits all incoming data into stripes and distributes them equally over each disk in the array. This can increase the speed of read/write operations, but when one of the disks fails, you will lose everything (part of the information is still on the healthy disk(s), the other part was on the failed disk). The typical use for RAID0 is a partition for video editing. RAID1 Is suitable for setups where reliability is the first concern. It consists of several (usually two) equally-sized partitions where every partition contains exactly the same data. This essentially means three things. First, if one of your disks fails, you still have the data mirrored on the remaining disks. Second, you can use only a fraction of the available capacity (more precisely, it is the size of the smallest partition in the RAID). Third, file-reads are load-balanced among the disks, which can improve performance on a server, such as a file server, that tends to be loaded with more disk reads than writes. Optionally you can have a spare disk in the array which will take the place of the failed disk in the case of failure. RAID5 Is a good compromise between speed, reliability and data redundancy. RAID5 splits all incoming data into stripes and distributes them equally on all but one disk (similar to RAID0). Unlike RAID0, RAID5 also computes parity information, which gets written on the remaining disk. The parity disk is not static (that would be called RAID4), but is changing periodically, so the parity information is distributed equally on all disks. When one of the disks fails, the missing part of information can be computed from remaining data and its parity. RAID5 must consist of at least three active partitions. Optionally you can have a spare disk in the array which will take the place of the failed disk in the case of failure. As you can see, RAID5 has a similar degree of reliability to RAID1 while achieving less redundancy. On the other hand, it might be a bit slower on write operations than RAID0 due to computation of parity information. RAID6 Is similar to RAID5 except that it uses two parity devices instead of one. A RAID6 array can survive up to two disk failures. RAID10 RAID10 combines striping (as in RAID0) and mirroring (as in RAID1). It creates n copies of incoming data and distributes them across the partitions so that none of the copies of the same data are on the same device. The default value of n is 2, but it can be set to something else in expert mode. The number of partitions used must be at least n. RAID10 has different layouts for distributing the copies. The default is near copies. Near copies have all of the copies at about the same offset on all of the disks. Far copies have the copies at different offsets on the disks. Offset copies copy the stripe, not the individual copies. RAID10 can be used to achieve reliability and redundancy without the drawback of having to calculate parity. To sum it up:" msgstr "" #. Tag: entry -#: using-d-i.xml:1302 +#: using-d-i.xml:1300 #, no-c-format msgid "Type" msgstr "" #. Tag: entry -#: using-d-i.xml:1303 +#: using-d-i.xml:1301 #, no-c-format msgid "Minimum Devices" msgstr "" #. Tag: entry -#: using-d-i.xml:1304 +#: using-d-i.xml:1302 #, no-c-format msgid "Spare Device" msgstr "" #. Tag: entry -#: using-d-i.xml:1305 +#: using-d-i.xml:1303 #, no-c-format msgid "Survives disk failure?" msgstr "" #. Tag: entry -#: using-d-i.xml:1306 +#: using-d-i.xml:1304 #, no-c-format msgid "Available Space" msgstr "" #. Tag: entry -#: using-d-i.xml:1312 +#: using-d-i.xml:1310 #, no-c-format msgid "RAID0" msgstr "" #. Tag: entry -#: using-d-i.xml:1313 using-d-i.xml:1321 using-d-i.xml:1351 +#: using-d-i.xml:1311 using-d-i.xml:1319 using-d-i.xml:1349 #, no-c-format msgid "2" msgstr "" #. Tag: entry -#: using-d-i.xml:1314 using-d-i.xml:1315 +#: using-d-i.xml:1312 using-d-i.xml:1313 #, no-c-format msgid "no" msgstr "" #. Tag: entry -#: using-d-i.xml:1316 +#: using-d-i.xml:1314 #, no-c-format msgid "Size of the smallest partition multiplied by number of devices in RAID" msgstr "" #. Tag: entry -#: using-d-i.xml:1320 +#: using-d-i.xml:1318 #, no-c-format msgid "RAID1" msgstr "" #. Tag: entry -#: using-d-i.xml:1322 using-d-i.xml:1330 using-d-i.xml:1341 using-d-i.xml:1352 +#: using-d-i.xml:1320 using-d-i.xml:1328 using-d-i.xml:1339 using-d-i.xml:1350 #, no-c-format msgid "optional" msgstr "" #. Tag: entry -#: using-d-i.xml:1323 using-d-i.xml:1331 using-d-i.xml:1342 using-d-i.xml:1353 +#: using-d-i.xml:1321 using-d-i.xml:1329 using-d-i.xml:1340 using-d-i.xml:1351 #, no-c-format msgid "yes" msgstr "" #. Tag: entry -#: using-d-i.xml:1324 +#: using-d-i.xml:1322 #, no-c-format msgid "Size of the smallest partition in RAID" msgstr "" #. Tag: entry -#: using-d-i.xml:1328 +#: using-d-i.xml:1326 #, no-c-format msgid "RAID5" msgstr "" #. Tag: entry -#: using-d-i.xml:1329 +#: using-d-i.xml:1327 #, no-c-format msgid "3" msgstr "" #. Tag: entry -#: using-d-i.xml:1332 +#: using-d-i.xml:1330 #, no-c-format msgid "Size of the smallest partition multiplied by (number of devices in RAID minus one)" msgstr "" #. Tag: entry -#: using-d-i.xml:1339 +#: using-d-i.xml:1337 #, no-c-format msgid "RAID6" msgstr "" #. Tag: entry -#: using-d-i.xml:1340 +#: using-d-i.xml:1338 #, no-c-format msgid "4" msgstr "" #. Tag: entry -#: using-d-i.xml:1343 +#: using-d-i.xml:1341 #, no-c-format msgid "Size of the smallest partition multiplied by (number of devices in RAID minus two)" msgstr "" #. Tag: entry -#: using-d-i.xml:1350 +#: using-d-i.xml:1348 #, no-c-format msgid "RAID10" msgstr "" #. Tag: entry -#: using-d-i.xml:1354 +#: using-d-i.xml:1352 #, no-c-format msgid "Total of all partitions divided by the number of chunk copies (defaults to two)" msgstr "" #. Tag: para -#: using-d-i.xml:1361 +#: using-d-i.xml:1359 #, no-c-format msgid "If you want to know more about Software RAID, have a look at Software RAID HOWTO." msgstr "" #. Tag: para -#: using-d-i.xml:1366 +#: using-d-i.xml:1364 #, no-c-format msgid "To create an MD device, you need to have the desired partitions it should consist of marked for use in a RAID. (This is done in partman in the Partition settings menu where you should select Use as: physical volume for RAID .)" msgstr "" #. Tag: para -#: using-d-i.xml:1375 +#: using-d-i.xml:1373 #, no-c-format msgid "Make sure that the system can be booted with the partitioning scheme you are planning. In general it will be necessary to create a separate file system for /boot when using RAID for the root (/) file system. Most boot loaders (including lilo and grub) do support mirrored (not striped!) RAID1, so using for example RAID5 for / and RAID1 for /boot can be an option." msgstr "" #. Tag: para -#: using-d-i.xml:1387 +#: using-d-i.xml:1385 #, no-c-format msgid "Support for MD is a relatively new addition to the installer. You may experience problems for some RAID levels and in combination with some bootloaders if you try to use MD for the root (/) file system. For experienced users, it may be possible to work around some of these problems by executing some configuration or installation steps manually from a shell." msgstr "" #. Tag: para -#: using-d-i.xml:1396 +#: using-d-i.xml:1394 #, no-c-format msgid "Next, you should choose Configure software RAID from the main partman menu. (The menu will only appear after you mark at least one partition for use as physical volume for RAID.) On the first screen of mdcfg simply select Create MD device. You will be presented with a list of supported types of MD devices, from which you should choose one (e.g. RAID1). What follows depends on the type of MD you selected." msgstr "" #. Tag: para -#: using-d-i.xml:1409 +#: using-d-i.xml:1407 #, no-c-format msgid "RAID0 is simple — you will be issued with the list of available RAID partitions and your only task is to select the partitions which will form the MD." msgstr "" #. Tag: para -#: using-d-i.xml:1416 +#: using-d-i.xml:1414 #, no-c-format -msgid "RAID1 is a bit more tricky. First, you will be asked to enter the number of active devices and the number of spare devices which will form the MD. Next, you need to select from the list of available RAID partitions those that will be active and then those that will be spare. The count of selected partitions must be equal to the number provided few seconds ago. Don't worry. If you make a mistake and select a different number of partitions, the &d-i; won't let you continue until you correct the issue." +msgid "RAID1 is a bit more tricky. First, you will be asked to enter the number of active devices and the number of spare devices which will form the MD. Next, you need to select from the list of available RAID partitions those that will be active and then those that will be spare. The count of selected partitions must be equal to the number provided earlier. Don't worry. If you make a mistake and select a different number of partitions, &d-i; won't let you continue until you correct the issue." msgstr "" #. Tag: para -#: using-d-i.xml:1428 +#: using-d-i.xml:1426 #, no-c-format msgid "RAID5 has a setup procedure similar to RAID1 with the exception that you need to use at least three active partitions." msgstr "" #. Tag: para -#: using-d-i.xml:1434 +#: using-d-i.xml:1432 #, no-c-format msgid "RAID6 also has a setup procedure similar to RAID1 except that at least four active partitions are required." msgstr "" #. Tag: para -#: using-d-i.xml:1440 +#: using-d-i.xml:1438 #, no-c-format msgid "RAID10 again has a setup procedure similar to RAID1 except in expert mode. In expert mode, &d-i; will ask you for the layout. The layout has two parts. The first part is the layout type. It is either n (for near copies), f (for far copies), or o (for offset copies). The second part is the number of copies to make of the data. There must be at least that many active devices so that all of the copies can be distributed onto different disks." msgstr "" #. Tag: para -#: using-d-i.xml:1454 +#: using-d-i.xml:1452 #, no-c-format msgid "It is perfectly possible to have several types of MD at once. For example, if you have three 200 GB hard drives dedicated to MD, each containing two 100 GB partitions, you can combine the first partitions on all three disks into the RAID0 (fast 300 GB video editing partition) and use the other three partitions (2 active and 1 spare) for RAID1 (quite reliable 100 GB partition for /home)." msgstr "" #. Tag: para -#: using-d-i.xml:1463 +#: using-d-i.xml:1461 #, no-c-format msgid "After you set up MD devices to your liking, you can Finish mdcfg to return back to the partman to create filesystems on your new MD devices and assign them the usual attributes like mountpoints." msgstr "" #. Tag: title -#: using-d-i.xml:1478 +#: using-d-i.xml:1476 #, no-c-format msgid "Configuring the Logical Volume Manager (LVM)" msgstr "" #. Tag: para -#: using-d-i.xml:1479 +#: using-d-i.xml:1477 #, no-c-format msgid "If you are working with computers at the level of system administrator or advanced user, you have surely seen the situation where some disk partition (usually the most important one) was short on space, while some other partition was grossly underused and you had to manage this situation by moving stuff around, symlinking, etc." msgstr "" #. Tag: para -#: using-d-i.xml:1487 +#: using-d-i.xml:1485 #, no-c-format msgid "To avoid the described situation you can use Logical Volume Manager (LVM). Simply said, with LVM you can combine your partitions (physical volumes in LVM lingo) to form a virtual disk (so called volume group), which can then be divided into virtual partitions (logical volumes). The point is that logical volumes (and of course underlying volume groups) can span across several physical disks." msgstr "" #. Tag: para -#: using-d-i.xml:1497 +#: using-d-i.xml:1495 #, no-c-format msgid "Now when you realize you need more space for your old 160GB /home partition, you can simply add a new 300GB disk to the computer, join it with your existing volume group and then resize the logical volume which holds your /home filesystem and voila — your users have some room again on their renewed 460GB partition. This example is of course a bit oversimplified. If you haven't read it yet, you should consult the LVM HOWTO." msgstr "" #. Tag: para -#: using-d-i.xml:1508 +#: using-d-i.xml:1506 #, no-c-format msgid "LVM setup in &d-i; is quite simple and completely supported inside partman. First, you have to mark the partition(s) to be used as physical volumes for LVM. This is done in the Partition settings menu where you should select Use as: physical volume for LVM ." msgstr "" #. Tag: para -#: using-d-i.xml:1517 +#: using-d-i.xml:1515 #, no-c-format msgid "When you return to the main partman screen, you will see a new option Configure the Logical Volume Manager. When you select that, you will first be asked to confirm pending changes to the partition table (if any) and after that the LVM configuration menu will be shown. Above the menu a summary of the LVM configuration is shown. The menu itself is context sensitive and only shows valid actions. The possible actions are:" msgstr "" #. Tag: para -#: using-d-i.xml:1528 +#: using-d-i.xml:1526 #, no-c-format msgid "Display configuration details: shows LVM device structure, names and sizes of logical volumes and more" msgstr "" #. Tag: guimenuitem -#: using-d-i.xml:1533 +#: using-d-i.xml:1531 #, no-c-format msgid "Create volume group" msgstr "" #. Tag: guimenuitem -#: using-d-i.xml:1536 +#: using-d-i.xml:1534 #, no-c-format msgid "Create logical volume" msgstr "" #. Tag: guimenuitem -#: using-d-i.xml:1539 +#: using-d-i.xml:1537 #, no-c-format msgid "Delete volume group" msgstr "" #. Tag: guimenuitem -#: using-d-i.xml:1542 +#: using-d-i.xml:1540 #, no-c-format msgid "Delete logical volume" msgstr "" #. Tag: guimenuitem -#: using-d-i.xml:1545 +#: using-d-i.xml:1543 #, no-c-format msgid "Extend volume group" msgstr "" #. Tag: guimenuitem -#: using-d-i.xml:1548 +#: using-d-i.xml:1546 #, no-c-format msgid "Reduce volume group" msgstr "" #. Tag: para -#: using-d-i.xml:1550 +#: using-d-i.xml:1548 #, no-c-format msgid "Finish: return to the main partman screen" msgstr "" #. Tag: para -#: using-d-i.xml:1556 +#: using-d-i.xml:1554 #, no-c-format msgid "Use the options in that menu to first create a volume group and then create your logical volumes inside it." msgstr "" #. Tag: para -#: using-d-i.xml:1561 +#: using-d-i.xml:1559 #, no-c-format msgid "After you return to the main partman screen, any created logical volumes will be displayed in the same way as ordinary partitions (and you should treat them as such)." msgstr "" #. Tag: title -#: using-d-i.xml:1575 +#: using-d-i.xml:1573 #, no-c-format msgid "Configuring Encrypted Volumes" msgstr "" #. Tag: para -#: using-d-i.xml:1576 +#: using-d-i.xml:1574 #, no-c-format msgid "&d-i; allows you to set up encrypted partitions. Every file you write to such a partition is immediately saved to the device in encrypted form. Access to the encrypted data is granted only after entering the passphrase used when the encrypted partition was originally created. This feature is useful to protect sensitive data in case your laptop or hard drive gets stolen. The thief might get physical access to the hard drive, but without knowing the right passphrase, the data on the hard drive will look like random characters." msgstr "" #. Tag: para -#: using-d-i.xml:1588 +#: using-d-i.xml:1586 #, no-c-format msgid "The two most important partitions to encrypt are: the home partition, where your private data resides, and the swap partition, where sensitive data might be stored temporarily during operation. Of course, nothing prevents you from encrypting any other partitions that might be of interest. For example /var where database servers, mail servers or print servers store their data, or /tmp which is used by various programs to store potentially interesting temporary files. Some people may even want to encrypt their whole system. The only exception is the /boot partition which must remain unencrypted, because currently there is no way to load the kernel from an encrypted partition." msgstr "" #. Tag: para -#: using-d-i.xml:1603 +#: using-d-i.xml:1601 #, no-c-format msgid "Please note that the performance of encrypted partitions will be less than that of unencrypted ones because the data needs to be decrypted or encrypted for every read or write. The performance impact depends on your CPU speed, chosen cipher and a key length." msgstr "" #. Tag: para -#: using-d-i.xml:1610 +#: using-d-i.xml:1608 #, no-c-format msgid "To use encryption, you have to create a new partition by selecting some free space in the main partitioning menu. Another option is to choose an existing partition (e.g. a regular partition, an LVM logical volume or a RAID volume). In the Partition settings menu, you need to select physical volume for encryption at the Use as: option. The menu will then change to include several cryptographic options for the partition." msgstr "" #. Tag: para -#: using-d-i.xml:1621 +#: using-d-i.xml:1619 #, no-c-format msgid "&d-i; supports several encryption methods. The default method is dm-crypt (included in newer Linux kernels, able to host LVM physical volumes), the other is loop-AES (older, maintained separately from the Linux kernel tree). Unless you have compelling reasons to do otherwise, it is recommended to use the default." msgstr "" #. Tag: para -#: using-d-i.xml:1633 +#: using-d-i.xml:1631 #, no-c-format msgid "First, let's have a look at the options available when you select Device-mapper (dm-crypt) as the encryption method. As always: when in doubt, use the defaults, because they have been carefully chosen with security in mind." msgstr "" #. Tag: term -#: using-d-i.xml:1643 +#: using-d-i.xml:1641 #, no-c-format msgid "Encryption: aes" msgstr "" #. Tag: para -#: using-d-i.xml:1645 +#: using-d-i.xml:1643 #, no-c-format msgid "This option lets you select the encryption algorithm (cipher) which will be used to encrypt the data on the partition. &d-i; currently supports the following block ciphers: aes, blowfish, serpent, and twofish. It is beyond the scope of this document to discuss the qualities of these different algorithms, however, it might help your decision to know that in 2000, AES was chosen by the American National Institute of Standards and Technology as the standard encryption algorithm for protecting sensitive information in the 21st century." msgstr "" #. Tag: term -#: using-d-i.xml:1663 +#: using-d-i.xml:1661 #, no-c-format msgid "Key size: 256" msgstr "" #. Tag: para -#: using-d-i.xml:1665 +#: using-d-i.xml:1663 #, no-c-format msgid "Here you can specify the length of the encryption key. With a larger key size, the strength of the encryption is generally improved. On the other hand, increasing the length of the key usually has a negative impact on performance. Available key sizes vary depending on the cipher." msgstr "" #. Tag: term -#: using-d-i.xml:1677 +#: using-d-i.xml:1675 #, no-c-format msgid "IV algorithm: cbc-essiv:sha256" msgstr "" #. Tag: para -#: using-d-i.xml:1679 +#: using-d-i.xml:1677 #, no-c-format msgid "The Initialization Vector or IV algorithm is used in cryptography to ensure that applying the cipher on the same clear text data with the same key always produces a unique cipher text. The idea is to prevent the attacker from deducing information from repeated patterns in the encrypted data." msgstr "" #. Tag: para -#: using-d-i.xml:1689 +#: using-d-i.xml:1687 #, no-c-format msgid "From the provided alternatives, the default cbc-essiv:sha256 is currently the least vulnerable to known attacks. Use the other alternatives only when you need to ensure compatibility with some previously installed system that is not able to use newer algorithms." msgstr "" #. Tag: term -#: using-d-i.xml:1701 +#: using-d-i.xml:1699 #, no-c-format msgid "Encryption key: Passphrase" msgstr "" #. Tag: para -#: using-d-i.xml:1703 +#: using-d-i.xml:1701 #, no-c-format msgid "Here you can choose the type of the encryption key for this partition." msgstr "" #. Tag: term -#: using-d-i.xml:1709 +#: using-d-i.xml:1707 #, no-c-format msgid "Passphrase" msgstr "" #. Tag: para -#: using-d-i.xml:1710 +#: using-d-i.xml:1708 #, no-c-format msgid "The encryption key will be computed Using a passphrase as the key currently means that the partition will be set up using LUKS. on the basis of a passphrase which you will be able to enter later in the process." msgstr "" #. Tag: term -#: using-d-i.xml:1725 using-d-i.xml:1818 +#: using-d-i.xml:1723 using-d-i.xml:1816 #, no-c-format msgid "Random key" msgstr "" #. Tag: para -#: using-d-i.xml:1726 +#: using-d-i.xml:1724 #, no-c-format msgid "A new encryption key will be generated from random data each time you try to bring up the encrypted partition. In other words: on every shutdown the content of the partition will be lost as the key is deleted from memory. (Of course, you could try to guess the key with a brute force attack, but unless there is an unknown weakness in the cipher algorithm, it is not achievable in our lifetime.)" msgstr "" #. Tag: para -#: using-d-i.xml:1735 +#: using-d-i.xml:1733 #, no-c-format msgid "Random keys are useful for swap partitions because you do not need to bother yourself with remembering the passphrase or wiping sensitive information from the swap partition before shutting down your computer. However, it also means that you will not be able to use the suspend-to-disk functionality offered by newer Linux kernels as it will be impossible (during a subsequent boot) to recover the suspended data written to the swap partition." msgstr "" #. Tag: term -#: using-d-i.xml:1754 using-d-i.xml:1831 +#: using-d-i.xml:1752 using-d-i.xml:1829 #, no-c-format msgid "Erase data: yes" msgstr "" #. Tag: para -#: using-d-i.xml:1756 +#: using-d-i.xml:1754 #, no-c-format msgid "Determines whether the content of this partition should be overwritten with random data before setting up the encryption. This is recommended because it might otherwise be possible for an attacker to discern which parts of the partition are in use and which are not. In addition, this will make it harder to recover any leftover data from previous installations It is believed that the guys from three-letter agencies can restore the data even after several rewrites of the magnetooptical media, though. ." msgstr "" #. Tag: para -#: using-d-i.xml:1776 +#: using-d-i.xml:1774 #, no-c-format msgid "If you select Encryption method: Loopback (loop-AES) , the menu changes to provide the following options:" msgstr "" #. Tag: term -#: using-d-i.xml:1785 +#: using-d-i.xml:1783 #, no-c-format msgid "Encryption: AES256" msgstr "" #. Tag: para -#: using-d-i.xml:1787 +#: using-d-i.xml:1785 #, no-c-format msgid "For loop-AES, unlike dm-crypt, the options for cipher and key size are combined, so you can select both at the same time. Please see the above sections on ciphers and key sizes for further information." msgstr "" #. Tag: term -#: using-d-i.xml:1797 +#: using-d-i.xml:1795 #, no-c-format msgid "Encryption key: Keyfile (GnuPG)" msgstr "" #. Tag: para -#: using-d-i.xml:1799 +#: using-d-i.xml:1797 #, no-c-format msgid "Here you can select the type of the encryption key for this partition." msgstr "" #. Tag: term -#: using-d-i.xml:1805 +#: using-d-i.xml:1803 #, no-c-format msgid "Keyfile (GnuPG)" msgstr "" #. Tag: para -#: using-d-i.xml:1806 +#: using-d-i.xml:1804 #, no-c-format msgid "The encryption key will be generated from random data during the installation. Moreover this key will be encrypted with GnuPG, so to use it, you will need to enter the proper passphrase (you will be asked to provide one later in the process)." msgstr "" #. Tag: para -#: using-d-i.xml:1819 +#: using-d-i.xml:1817 #, no-c-format msgid "Please see the section on random keys above." msgstr "" #. Tag: para -#: using-d-i.xml:1833 +#: using-d-i.xml:1831 #, no-c-format msgid "Please see the the section on erasing data above." msgstr "" #. Tag: para -#: using-d-i.xml:1842 +#: using-d-i.xml:1840 #, no-c-format msgid "After you have selected the desired parameters for your encrypted partitions, return back to the main partitioning menu. There should now be a new menu item called Configure encrypted volumes. After you select it, you will be asked to confirm the deletion of data on partitions marked to be erased and possibly other actions such as writing a new partition table. For large partitions this might take some time." msgstr "" #. Tag: para -#: using-d-i.xml:1852 +#: using-d-i.xml:1850 #, no-c-format msgid "Next you will be asked to enter a passphrase for partitions configured to use one. Good passphrases should be longer than 8 characters, should be a mixture of letters, numbers and other characters and should not contain common dictionary words or information easily associable with you (such as birthdates, hobbies, pet names, names of family members or relatives, etc.)." msgstr "" #. Tag: para -#: using-d-i.xml:1861 +#: using-d-i.xml:1859 #, no-c-format msgid "Before you input any passphrases, you should have made sure that your keyboard is configured correctly and generates the expected characters. If you are unsure, you can switch to the second virtual console and type some text at the prompt. This ensures that you won't be surprised later, e.g. by trying to input a passphrase using a qwerty keyboard layout when you used an azerty layout during the installation. This situation can have several causes. Maybe you switched to another keyboard layout during the installation, or the selected keyboard layout might not have been set up yet when entering the passphrase for the root file system." msgstr "" #. Tag: para -#: using-d-i.xml:1874 +#: using-d-i.xml:1872 #, no-c-format msgid "If you selected to use methods other than a passphrase to create encryption keys, they will be generated now. Because the kernel may not have gathered a sufficient amount of entropy at this early stage of the installation, the process may take a long time. You can help speed up the process by generating entropy: e.g. by pressing random keys, or by switching to the shell on the second virtual console and generating some network and disk traffic (downloading some files, feeding big files into /dev/null, etc.). This will be repeated for each partition to be encrypted." msgstr "" #. Tag: para -#: using-d-i.xml:1890 +#: using-d-i.xml:1888 #, no-c-format msgid "" "After returning to the main partitioning menu, you will see all encrypted volumes as additional partitions which can be configured in the same way as ordinary partitions. The following example shows two different volumes. The first one is encrypted via dm-crypt, the second one via loop-AES. \n" @@ -1506,607 +1506,607 @@ msgid "" msgstr "" #. Tag: para -#: using-d-i.xml:1903 +#: using-d-i.xml:1901 #, no-c-format -msgid "One thing to note here are the identifiers in parentheses (sda2_crypt and loop0 in this case) and the mount points you assigned to each encrypted volume. You will need this information later when booting the new system. The differences between ordinary boot process and boot process with encryption involved will be covered later in ." +msgid "Pay attention to the identifiers in parentheses (sda2_crypt and loop0 in this case) and the mount points you assigned to each encrypted volume. You will need this information later when booting the new system. The differences between the ordinary boot process and the boot process with encryption involved will be covered later in ." msgstr "" #. Tag: para -#: using-d-i.xml:1913 +#: using-d-i.xml:1911 #, no-c-format msgid "Once you are satisfied with the partitioning scheme, continue with the installation." msgstr "" #. Tag: title -#: using-d-i.xml:1924 +#: using-d-i.xml:1922 #, no-c-format msgid "Installing the Base System" msgstr "" #. Tag: para -#: using-d-i.xml:1925 +#: using-d-i.xml:1923 #, no-c-format msgid "Although this stage is the least problematic, it consumes a significant fraction of the install because it downloads, verifies and unpacks the whole base system. If you have a slow computer or network connection, this could take some time." msgstr "" #. Tag: para -#: using-d-i.xml:1938 +#: using-d-i.xml:1936 #, no-c-format msgid "During installation of the base system, package unpacking and setup messages are redirected to tty4. You can access this terminal by pressing Left AltF4; get back to the main installer process with Left AltF1." msgstr "" #. Tag: para -#: using-d-i.xml:1947 +#: using-d-i.xml:1945 #, no-c-format msgid "The unpack/setup messages generated during this phase are also saved in /var/log/syslog. You can check them there if the installation is performed over a serial console." msgstr "" #. Tag: para -#: using-d-i.xml:1953 +#: using-d-i.xml:1951 #, no-c-format msgid "As part of the installation, a Linux kernel will be installed. At the default priority, the installer will choose one for you that best matches your hardware. In lower priority modes, you will be able to choose from a list of available kernels." msgstr "" #. Tag: title -#: using-d-i.xml:1965 +#: using-d-i.xml:1963 #, no-c-format msgid "Setting Up Users And Passwords" msgstr "" #. Tag: para -#: using-d-i.xml:1966 +#: using-d-i.xml:1964 #, no-c-format msgid "After the base system has been installed, the installer will allow you to set up the root account and/or an account for the first user. Other user accounts can be created after the installation has been completed." msgstr "" #. Tag: title -#: using-d-i.xml:1980 +#: using-d-i.xml:1978 #, no-c-format msgid "Set the Root Password" msgstr "" #. Tag: para -#: using-d-i.xml:1984 +#: using-d-i.xml:1982 #, no-c-format msgid "The root account is also called the super-user; it is a login that bypasses all security protection on your system. The root account should only be used to perform system administration, and only used for as short a time as possible." msgstr "" #. Tag: para -#: using-d-i.xml:1992 +#: using-d-i.xml:1990 #, no-c-format msgid "Any password you create should contain at least 6 characters, and should contain both upper- and lower-case characters, as well as punctuation characters. Take extra care when setting your root password, since it is such a powerful account. Avoid dictionary words or use of any personal information which could be guessed." msgstr "" #. Tag: para -#: using-d-i.xml:2000 +#: using-d-i.xml:1998 #, no-c-format msgid "If anyone ever tells you they need your root password, be extremely wary. You should normally never give your root password out, unless you are administering a machine with more than one system administrator." msgstr "" #. Tag: title -#: using-d-i.xml:2010 +#: using-d-i.xml:2008 #, no-c-format msgid "Create an Ordinary User" msgstr "" #. Tag: para -#: using-d-i.xml:2012 +#: using-d-i.xml:2010 #, no-c-format msgid "The system will ask you whether you wish to create an ordinary user account at this point. This account should be your main personal log-in. You should not use the root account for daily use or as your personal login." msgstr "" #. Tag: para -#: using-d-i.xml:2021 +#: using-d-i.xml:2019 #, no-c-format msgid "Why not? Well, one reason to avoid using root's privileges is that it is very easy to do irreparable damage as root. Another reason is that you might be tricked into running a Trojan-horse program — that is a program that takes advantage of your super-user powers to compromise the security of your system behind your back. Any good book on Unix system administration will cover this topic in more detail — consider reading one if it is new to you." msgstr "" #. Tag: para -#: using-d-i.xml:2031 +#: using-d-i.xml:2029 #, no-c-format msgid "You will first be prompted for the user's full name. Then you'll be asked for a name for the user account; generally your first name or something similar will suffice and indeed will be the default. Finally, you will be prompted for a password for this account." msgstr "" #. Tag: para -#: using-d-i.xml:2038 +#: using-d-i.xml:2036 #, no-c-format msgid "If at any point after installation you would like to create another account, use the adduser command." msgstr "" #. Tag: title -#: using-d-i.xml:2049 +#: using-d-i.xml:2047 #, no-c-format msgid "Installing Additional Software" msgstr "" #. Tag: para -#: using-d-i.xml:2050 +#: using-d-i.xml:2048 #, no-c-format msgid "At this point you have a usable but limited system. Most users will want to install additional software on the system to tune it to their needs, and the installer allows you do so. This step can take even longer than installing the base system if you have a slow computer or network connection." msgstr "" #. Tag: title -#: using-d-i.xml:2065 +#: using-d-i.xml:2063 #, no-c-format msgid "Configuring apt" msgstr "" #. Tag: para -#: using-d-i.xml:2067 +#: using-d-i.xml:2065 #, no-c-format msgid "One of the tools used to install packages on a &debian; system is a program called apt-get, from the apt package Note that the program which actually installs the packages is called dpkg. However, this program is more of a low-level tool. apt-get is a higher-level tool, which will invoke dpkg as appropriate. It knows how to retrieve packages from your CD, the network, or wherever. It is also able to automatically install other packages which are required to make the package you're trying to install work correctly. . Other front-ends for package management, like aptitude and synaptic, are also in use. These front-ends are recommended for new users, since they integrate some additional features (package searching and status checks) in a nice user interface. In fact, aptitude is now the recommended utility for package management." msgstr "" #. Tag: para -#: using-d-i.xml:2091 +#: using-d-i.xml:2089 #, no-c-format msgid "apt must be configured so that it knows from where to retrieve packages. The results of this configuration are written to the file /etc/apt/sources.list. You can examine and edit this file to your liking after the installation is complete." msgstr "" #. Tag: para -#: using-d-i.xml:2098 +#: using-d-i.xml:2096 #, no-c-format msgid "If you are installing at default priority, the installer will largely take care of the configuration automatically, based on the installation method you are using and possibly using choices made earlier in the installation. In most cases the installer will automatically add a security mirror and, if you are installing the stable distribution, a mirror for the volatile update service." msgstr "" #. Tag: para -#: using-d-i.xml:2107 +#: using-d-i.xml:2105 #, no-c-format msgid "If you are installing at a lower priority (e.g. in expert mode), you will be able to make more decisions yourself. You can choose whether or not to use the security and/or volatile update services, and you can choose to add packages from the contrib and non-free sections of the archive." msgstr "" #. Tag: title -#: using-d-i.xml:2118 +#: using-d-i.xml:2116 #, no-c-format msgid "Installing from more than one CD or DVD" msgstr "" #. Tag: para -#: using-d-i.xml:2120 +#: using-d-i.xml:2118 #, no-c-format msgid "If you are installing from a CD or a DVD that is part of a larger set, the installer will ask if you want to scan additional CDs or DVDs. If you have additional CDs or DVDs available, you probably want to do this so the installer can use the packages included on them." msgstr "" #. Tag: para -#: using-d-i.xml:2127 +#: using-d-i.xml:2125 #, no-c-format msgid "If you do not have any additional CDs or DVDs, that is no problem: using them is not required. If you also do not use a network mirror (as explained in the next section), it can mean that not all packages belonging to the tasks you select in the next step of the installation can be installed." msgstr "" #. Tag: para -#: using-d-i.xml:2135 +#: using-d-i.xml:2133 #, no-c-format msgid "Packages are included on CDs (and DVDs) in the order of their popularity. This means that for most uses only the first CDs in a set are needed and that only very few people actually use any of the packages included on the last CDs in a set." msgstr "" #. Tag: para -#: using-d-i.xml:2142 +#: using-d-i.xml:2140 #, no-c-format msgid "It also means that buying or downloading and burning a full CD set is just a waste of money as you'll never use most of them. In most cases you are better off getting only the first 3 to 8 CDs and installing any additional packages you may need from the Internet by using a mirror. The same goes for DVD sets: the first DVD, or maybe the first two DVDs will cover most needs." msgstr "" #. Tag: para -#: using-d-i.xml:2151 +#: using-d-i.xml:2149 #, no-c-format msgid "A good rule of thumb is that for a regular desktop installation (using the GNOME desktop environment) only the first three CDs are needed. For the alternative desktop environments (KDE or Xfce), additional CDs are needed. The first DVD easily covers all three desktop environments." msgstr "" #. Tag: para -#: using-d-i.xml:2159 +#: using-d-i.xml:2157 #, no-c-format msgid "If you do scan multiple CDs or DVDs, the installer will prompt you to exchange them when it needs packages from another CD/DVD than the one currently in the drive. Note that only CDs or DVDs that belong to the same set should be scanned. The order in which they are scanned does not really matter, but scanning them in ascending order will reduce the chance of mistakes." msgstr "" #. Tag: title -#: using-d-i.xml:2172 +#: using-d-i.xml:2170 #, no-c-format msgid "Using a network mirror" msgstr "" #. Tag: para -#: using-d-i.xml:2174 +#: using-d-i.xml:2172 #, no-c-format msgid "One question that will be asked during most installs is whether or not to use a network mirror as a source for packages. In most cases the default answer should be fine, but there are some exceptions." msgstr "" #. Tag: para -#: using-d-i.xml:2180 +#: using-d-i.xml:2178 #, no-c-format msgid "If you are not installing from a full CD or DVD or using a full CD/DVD image, you really should use a network mirror as otherwise you will end up with only a very minimal system. However, if you have a limited Internet connection it is best not to select the desktop task in the next step of the installation." msgstr "" #. Tag: para -#: using-d-i.xml:2189 +#: using-d-i.xml:2187 #, no-c-format msgid "If you are installing from a single full CD or using a full CD image, using a network mirror is not required, but is still strongly recommended because a single CD contains only a fairly limited number of packages. If you have a limited Internet connection it may still be best to not select a network mirror here, but to finish the installation using only what's available on the CD and selectively install additional packages after the installation (i.e. after you have rebooted into the new system)." msgstr "" #. Tag: para -#: using-d-i.xml:2200 +#: using-d-i.xml:2198 #, no-c-format msgid "If you are installing from a DVD or using a DVD image, any packages needed during the installation should be present on the first DVD. The same is true if you have scanned multiple CDs as explained in the previous section. Use of a network mirror is optional." msgstr "" #. Tag: para -#: using-d-i.xml:2207 +#: using-d-i.xml:2205 #, no-c-format msgid "One advantage of adding a network mirror is that updates that have occurred since the CD/DVD set was created and have been included in a point release, will become available for installation, thus extending the life of your CD/DVD set without compromising the security or stability of the installed system." msgstr "" #. Tag: para -#: using-d-i.xml:2214 +#: using-d-i.xml:2212 #, no-c-format msgid "In summary: selecting a network mirror is generally a good idea, except if you do not have a good Internet connection. If the current version of a package is available from CD/DVD, the installer will always use that. The amount of data that will be downloaded if you do select a mirror thus depends on" msgstr "" #. Tag: para -#: using-d-i.xml:2223 +#: using-d-i.xml:2221 #, no-c-format msgid "the tasks you select in the next step of the installation," msgstr "" #. Tag: para -#: using-d-i.xml:2228 +#: using-d-i.xml:2226 #, no-c-format msgid "which packages are needed for those tasks," msgstr "" #. Tag: para -#: using-d-i.xml:2233 +#: using-d-i.xml:2231 #, no-c-format msgid "which of those packages are present on the CDs or DVDs you have scanned, and" msgstr "" #. Tag: para -#: using-d-i.xml:2238 +#: using-d-i.xml:2236 #, no-c-format msgid "whether any updated versions of packages included on the CDs or DVDs are available from a mirror (either a regular package mirror, or a mirror for security or volatile updates)." msgstr "" #. Tag: para -#: using-d-i.xml:2247 +#: using-d-i.xml:2245 #, no-c-format msgid "Note that the last point means that, even if you choose not to use a network mirror, some packages may still be downloaded from the Internet if there is a security or volatile update available for them and those services have been configured." msgstr "" #. Tag: title -#: using-d-i.xml:2263 +#: using-d-i.xml:2261 #, no-c-format msgid "Selecting and Installing Software" msgstr "" #. Tag: para -#: using-d-i.xml:2265 +#: using-d-i.xml:2263 #, no-c-format msgid "During the installation process, you are given the opportunity to select additional software to install. Rather than picking individual software packages from the &num-of-distrib-pkgs; available packages, this stage of the installation process focuses on selecting and installing predefined collections of software to quickly set up your computer to perform various tasks." msgstr "" #. Tag: para -#: using-d-i.xml:2274 +#: using-d-i.xml:2272 #, no-c-format msgid "So, you have the ability to choose tasks first, and then add on more individual packages later. These tasks loosely represent a number of different jobs or things you want to do with your computer, such as Desktop environment, Web server, or Print server You should know that to present this list, the installer is merely invoking the tasksel program. It can be run at any time after installation to install more packages (or remove them), or you can use a more fine-grained tool such as aptitude. If you are looking for a specific single package, after installation is complete, simply run aptitude install package, where package is the name of the package you are looking for. . lists the space requirements for the available tasks." msgstr "" #. Tag: para -#: using-d-i.xml:2301 +#: using-d-i.xml:2299 #, no-c-format msgid "Some tasks may be pre-selected based on the characteristics of the computer you are installing. If you disagree with these selections you can deselect them. You can even opt to install no tasks at all at this point." msgstr "" #. Tag: para -#: using-d-i.xml:2308 +#: using-d-i.xml:2306 #, no-c-format msgid "Unless you are using the special KDE or Xfce CDs, the Desktop environment task will install the GNOME desktop environment." msgstr "" #. Tag: para -#: using-d-i.xml:2315 +#: using-d-i.xml:2313 #, no-c-format msgid "It is not possible to interactively select a different desktop during the installation. However, it is possible to get &d-i; to install a KDE desktop environment instead of GNOME by using preseeding (see ) or by adding the parameter desktop=kde at the boot prompt when starting the installer. Alternatively the more lightweight Xfce desktop environment can be selected by using desktop=xfce." msgstr "" #. Tag: para -#: using-d-i.xml:2325 +#: using-d-i.xml:2323 #, no-c-format msgid "Note that this will only work if the packages needed for KDE or Xfce are actually available. If you are installing using a single full CD image, they will need to be downloaded from a mirror as most needed packages are only included on later CDs; installing KDE or Xfce this way should work fine if you are using a DVD image or any other installation method." msgstr "" #. Tag: para -#: using-d-i.xml:2333 +#: using-d-i.xml:2331 #, no-c-format msgid "The various server tasks will install software roughly as follows. DNS server: bind9; File server: samba, nfs; Mail server: exim4, spamassassin, uw-imap; Print server: cups; SQL database: postgresql; Web server: apache2." msgstr "" #. Tag: para -#: using-d-i.xml:2345 +#: using-d-i.xml:2343 #, no-c-format msgid "Once you've selected your tasks, select &BTN-CONT;. At this point, aptitude will install the packages that are part of the tasks you've selected." msgstr "" #. Tag: para -#: using-d-i.xml:2352 +#: using-d-i.xml:2350 #, no-c-format msgid "In the standard user interface of the installer, you can use the space bar to toggle selection of a task." msgstr "" #. Tag: para -#: using-d-i.xml:2358 +#: using-d-i.xml:2356 #, no-c-format msgid "You should be aware that especially the Desktop task is very large. Especially when installing from a normal CD-ROM in combination with a mirror for packages not on the CD-ROM, the installer may want to retrieve a lot of packages over the network. If you have a relatively slow Internet connection, this can take a long time. There is no option to cancel the installation of packages once it has started." msgstr "" #. Tag: para -#: using-d-i.xml:2367 +#: using-d-i.xml:2365 #, no-c-format msgid "Even when packages are included on the CD-ROM, the installer may still retrieve them from the mirror if the version available on the mirror is more recent than the one included on the CD-ROM. If you are installing the stable distribution, this can happen after a point release (an update of the original stable release); if you are installing the testing distribution this will happen if you are using an older image." msgstr "" #. Tag: para -#: using-d-i.xml:2376 +#: using-d-i.xml:2374 #, no-c-format msgid "Each package you selected with tasksel is downloaded, unpacked and then installed in turn by the apt-get and dpkg programs. If a particular program needs more information from the user, it will prompt you during this process." msgstr "" #. Tag: title -#: using-d-i.xml:2389 +#: using-d-i.xml:2387 #, no-c-format msgid "Making Your System Bootable" msgstr "" #. Tag: para -#: using-d-i.xml:2391 +#: using-d-i.xml:2389 #, no-c-format msgid "If you are installing a diskless workstation, obviously, booting off the local disk isn't a meaningful option, and this step will be skipped. You may wish to set OpenBoot to boot from the network by default; see ." msgstr "" #. Tag: title -#: using-d-i.xml:2406 +#: using-d-i.xml:2404 #, no-c-format msgid "Detecting other operating systems" msgstr "" #. Tag: para -#: using-d-i.xml:2408 +#: using-d-i.xml:2406 #, no-c-format msgid "Before a boot loader is installed, the installer will attempt to probe for other operating systems which are installed on the machine. If it finds a supported operating system, you will be informed of this during the boot loader installation step, and the computer will be configured to boot this other operating system in addition to Debian." msgstr "" #. Tag: para -#: using-d-i.xml:2416 +#: using-d-i.xml:2414 #, no-c-format msgid "Note that multiple operating systems booting on a single machine is still something of a black art. The automatic support for detecting and setting up boot loaders to boot other operating systems varies by architecture and even by subarchitecture. If it does not work you should consult your boot manager's documentation for more information." msgstr "" #. Tag: title -#: using-d-i.xml:2434 +#: using-d-i.xml:2432 #, no-c-format msgid "Install aboot on a Hard Disk" msgstr "" #. Tag: para -#: using-d-i.xml:2435 +#: using-d-i.xml:2433 #, no-c-format msgid "If you have booted from SRM and you select this option, the installer will write aboot to the first sector of the disk on which you installed Debian. Be very careful — it is not possible to boot multiple operating systems (e.g. GNU/Linux, Free/Open/NetBSD, OSF/1 a.k.a. Digital Unix a.k.a. Tru64 Unix, or OpenVMS) from the same disk. If you also have a different operating system installed on the disk where you have installed Debian, you will have to boot GNU/Linux from a floppy instead." msgstr "" #. Tag: title -#: using-d-i.xml:2455 +#: using-d-i.xml:2453 #, no-c-format msgid "palo-installer" msgstr "" #. Tag: para -#: using-d-i.xml:2456 +#: using-d-i.xml:2454 #, no-c-format msgid "The bootloader on PA-RISC is palo. PALO is similar in configuration and usage to LILO, with a few exceptions. First of all, PALO allows you to boot any kernel image on your boot partition. This is because PALO can actually read Linux partitions." msgstr "" #. Tag: para -#: using-d-i.xml:2465 +#: using-d-i.xml:2463 #, no-c-format msgid "hppa FIXME ( need more info )" msgstr "" #. Tag: title -#: using-d-i.xml:2477 +#: using-d-i.xml:2475 #, no-c-format msgid "Install the Grub Boot Loader on a Hard Disk" msgstr "" #. Tag: para -#: using-d-i.xml:2479 +#: using-d-i.xml:2477 #, no-c-format msgid "The main &architecture; boot loader is called grub. Grub is a flexible and robust boot loader and a good default choice for new users and old hands alike." msgstr "" #. Tag: para -#: using-d-i.xml:2485 +#: using-d-i.xml:2483 #, no-c-format msgid "By default, grub will be installed into the Master Boot Record (MBR), where it will take over complete control of the boot process. If you prefer, you can install it elsewhere. See the grub manual for complete information." msgstr "" #. Tag: para -#: using-d-i.xml:2491 +#: using-d-i.xml:2489 #, no-c-format msgid "If you do not want to install grub, use the &BTN-GOBACK; button to get to the main menu, and from there select whatever bootloader you would like to use." msgstr "" #. Tag: title -#: using-d-i.xml:2504 +#: using-d-i.xml:2502 #, no-c-format msgid "Install the LILO Boot Loader on a Hard Disk" msgstr "" #. Tag: para -#: using-d-i.xml:2506 +#: using-d-i.xml:2504 #, no-c-format msgid "The second &architecture; boot loader is called LILO. It is an old complex program which offers lots of functionality, including DOS, Windows, and OS/2 boot management. Please carefully read the instructions in the directory /usr/share/doc/lilo/ if you have special needs; also see the LILO mini-HOWTO." msgstr "" #. Tag: para -#: using-d-i.xml:2516 +#: using-d-i.xml:2514 #, no-c-format msgid "Currently the LILO installation will only create menu entries for other operating systems if these can be chainloaded. This means you may have to manually add a menu entry for operating systems like GNU/Linux and GNU/Hurd after the installation." msgstr "" #. Tag: para -#: using-d-i.xml:2524 +#: using-d-i.xml:2522 #, no-c-format msgid "&d-i; offers you three choices on where to install the LILO boot loader:" msgstr "" #. Tag: term -#: using-d-i.xml:2531 +#: using-d-i.xml:2529 #, no-c-format msgid "Master Boot Record (MBR)" msgstr "" #. Tag: para -#: using-d-i.xml:2531 +#: using-d-i.xml:2529 #, no-c-format msgid "This way the LILO will take complete control of the boot process." msgstr "" #. Tag: term -#: using-d-i.xml:2538 +#: using-d-i.xml:2536 #, no-c-format msgid "new Debian partition" msgstr "" #. Tag: para -#: using-d-i.xml:2538 +#: using-d-i.xml:2536 #, no-c-format msgid "Choose this if you want to use another boot manager. LILO will install itself at the beginning of the new Debian partition and it will serve as a secondary boot loader." msgstr "" #. Tag: term -#: using-d-i.xml:2547 +#: using-d-i.xml:2545 #, no-c-format msgid "Other choice" msgstr "" #. Tag: para -#: using-d-i.xml:2547 +#: using-d-i.xml:2545 #, no-c-format msgid "Useful for advanced users who want to install LILO somewhere else. In this case you will be asked for desired location. You can use traditional device names such as /dev/hda or /dev/sda." msgstr "" #. Tag: para -#: using-d-i.xml:2557 +#: using-d-i.xml:2555 #, no-c-format msgid "If you can no longer boot into Windows 9x (or DOS) after this step, you'll need to use a Windows 9x (MS-DOS) boot disk and use the fdisk /mbr command to reinstall the MS-DOS master boot record — however, this means that you'll need to use some other way to get back into Debian!" msgstr "" #. Tag: title -#: using-d-i.xml:2573 +#: using-d-i.xml:2571 #, no-c-format msgid "Install the ELILO Boot Loader on a Hard Disk" msgstr "" #. Tag: para -#: using-d-i.xml:2575 +#: using-d-i.xml:2573 #, no-c-format msgid "The &architecture; boot loader is called elilo. It is modeled on the lilo boot loader for the x86 architecture and uses a similar configuration file. However, instead of writing an MBR or partition boot record to the disk, it copies the necessary files to a separate FAT formatted disk partition and modifies the EFI Boot Manager menu in the firmware to point to the files in the EFI partition. The elilo boot loader is really in two parts. The /usr/sbin/elilo command manages the partition and copies files into it. The elilo.efi program is copied into the EFI partition and then run by the EFI Boot Manager to do the actual work of loading and starting the Linux kernel." msgstr "" #. Tag: para -#: using-d-i.xml:2591 +#: using-d-i.xml:2589 #, no-c-format msgid "The elilo configuration and installation is done as the last step of installing the packages of the base installation. &d-i; will present you with a list of potential disk partitions that it has found suitable for an EFI partition. Select the partition you set up earlier in the installation, typically a partition on the same disk that contains your root filesystem." msgstr "" #. Tag: title -#: using-d-i.xml:2603 +#: using-d-i.xml:2601 #, no-c-format msgid "Choose the correct partition!" msgstr "" #. Tag: para -#: using-d-i.xml:2605 +#: using-d-i.xml:2603 #, no-c-format msgid "The criteria for selecting a partition is that it is FAT format filesystem with its boot flag set. &d-i; may show multiple choices depending on what it finds from scanning all of the disks of the system including EFI partitions of other system disks and EFI diagnostic partitions. Remember, elilo may format the partition during the installation, erasing any previous contents!" msgstr "" #. Tag: title -#: using-d-i.xml:2620 +#: using-d-i.xml:2618 #, no-c-format msgid "EFI Partition Contents" msgstr "" #. Tag: para -#: using-d-i.xml:2622 +#: using-d-i.xml:2620 #, no-c-format msgid "The EFI partition is a FAT filesystem format partition on one of the hard disks of the system, usually the same disk that contains the root filesystem. It is normally not mounted on a running system as it is only needed by the EFI Boot Manager to load the system and the installer part of the elilo writes to the filesystem directly. The /usr/sbin/elilo utility writes the following files into the efi/debian directory of the EFI partition during the installation. Note that the EFI Boot Manager would find these files using the path fsn:\\efi\\debian. There may be other files in this filesystem as well over time as the system is updated or re-configured." msgstr "" #. Tag: filename -#: using-d-i.xml:2644 +#: using-d-i.xml:2642 #, no-c-format msgid "elilo.conf" msgstr "" #. Tag: para -#: using-d-i.xml:2645 +#: using-d-i.xml:2643 #, no-c-format msgid "This is the configuration file read by the boot loader when it starts. It is a copy of the /etc/elilo.conf with the filenames re-written to refer to files in the EFI partition." msgstr "" #. Tag: filename -#: using-d-i.xml:2654 +#: using-d-i.xml:2652 #, no-c-format msgid "elilo.efi" msgstr "" #. Tag: para -#: using-d-i.xml:2655 +#: using-d-i.xml:2653 #, no-c-format msgid "This is the boot loader program that the EFI Boot Manager runs to boot the system. It is the program behind the Debian GNU/Linux menu item of the EFI Boot Manager command menu." msgstr "" #. Tag: filename -#: using-d-i.xml:2665 +#: using-d-i.xml:2663 #, no-c-format msgid "initrd.img" msgstr "" #. Tag: para -#: using-d-i.xml:2666 +#: using-d-i.xml:2664 #, no-c-format msgid "This is the initial root filesystem used to boot the kernel. It is a copy of the file referenced in the /etc/elilo.conf. In a standard Debian installation it would be the file in /boot pointed to by the symbolic link /initrd.img." msgstr "" #. Tag: filename -#: using-d-i.xml:2678 +#: using-d-i.xml:2676 #, no-c-format msgid "readme.txt" msgstr "" #. Tag: para -#: using-d-i.xml:2679 +#: using-d-i.xml:2677 #, no-c-format msgid "This is a small text file warning you that the contents of the directory are managed by the elilo and that any local changes would be lost at the next time /usr/sbin/elilo is run." msgstr "" #. Tag: filename -#: using-d-i.xml:2689 +#: using-d-i.xml:2687 #, no-c-format msgid "vmlinuz" msgstr "" #. Tag: para -#: using-d-i.xml:2690 +#: using-d-i.xml:2688 #, no-c-format msgid "This is the compressed kernel itself. It is a copy of the file referenced in the /etc/elilo.conf. In a standard Debian installation it would be the file in /boot pointed to by the symbolic link /vmlinuz." msgstr "" #. Tag: title -#: using-d-i.xml:2710 +#: using-d-i.xml:2708 #, no-c-format msgid "arcboot-installer" msgstr "" #. Tag: para -#: using-d-i.xml:2711 +#: using-d-i.xml:2709 #, no-c-format msgid "" "The boot loader on SGI machines is arcboot. It has to be installed on the same hard disk as the kernel (this is done automatically by the installer). Arcboot supports different configurations which are set up in /etc/arcboot.conf. Each configuration has a unique name, the default setup as created by the installer is linux. After arcboot has been installed, the system can be booted from hard disk by setting some firmware environment variables entering \n" @@ -2119,289 +2119,289 @@ msgid "" msgstr "" #. Tag: replaceable -#: using-d-i.xml:2730 +#: using-d-i.xml:2728 #, no-c-format msgid "scsi" msgstr "" #. Tag: para -#: using-d-i.xml:2731 +#: using-d-i.xml:2729 #, no-c-format msgid "is the SCSI bus to be booted from, this is 0 for the onboard controllers" msgstr "" #. Tag: replaceable -#: using-d-i.xml:2739 +#: using-d-i.xml:2737 #, no-c-format msgid "disk" msgstr "" #. Tag: para -#: using-d-i.xml:2740 +#: using-d-i.xml:2738 #, no-c-format msgid "is the SCSI ID of the hard disk on which arcboot is installed" msgstr "" #. Tag: replaceable -#: using-d-i.xml:2748 +#: using-d-i.xml:2746 #, no-c-format msgid "partnr" msgstr "" #. Tag: para -#: using-d-i.xml:2749 +#: using-d-i.xml:2747 #, no-c-format msgid "is the number of the partition on which /etc/arcboot.conf resides" msgstr "" #. Tag: replaceable -#: using-d-i.xml:2757 +#: using-d-i.xml:2755 #, no-c-format msgid "config" msgstr "" #. Tag: para -#: using-d-i.xml:2758 +#: using-d-i.xml:2756 #, no-c-format msgid "is the name of the configuration entry in /etc/arcboot.conf, which is linux by default." msgstr "" #. Tag: title -#: using-d-i.xml:2779 +#: using-d-i.xml:2777 #, no-c-format msgid "Install Yaboot on a Hard Disk" msgstr "" #. Tag: para -#: using-d-i.xml:2780 +#: using-d-i.xml:2778 #, no-c-format msgid "Newer (mid 1998 and on) PowerMacs use yaboot as their boot loader. The installer will set up yaboot automatically, so all you need is a small 820k partition named bootstrap with type Apple_Bootstrap created back in the partitioning component. If this step completes successfully then your disk should now be bootable and OpenFirmware will be set to boot &debian;." msgstr "" #. Tag: title -#: using-d-i.xml:2798 +#: using-d-i.xml:2796 #, no-c-format msgid "Install Quik on a Hard Disk" msgstr "" #. Tag: para -#: using-d-i.xml:2799 +#: using-d-i.xml:2797 #, no-c-format msgid "The boot loader for OldWorld Power Macintosh machines is quik. You can also use it on CHRP. The installer will attempt to set up quik automatically. The setup has been known to work on 7200, 7300, and 7600 Powermacs, and on some Power Computing clones." msgstr "" #. Tag: title -#: using-d-i.xml:2815 +#: using-d-i.xml:2813 #, no-c-format msgid "zipl-installer" msgstr "" #. Tag: para -#: using-d-i.xml:2816 +#: using-d-i.xml:2814 #, no-c-format msgid "The boot loader on &arch-title; is zipl. ZIPL is similar in configuration and usage to LILO, with a few exceptions. Please take a look at LINUX for &arch-title; Device Drivers and Installation Commands from IBM's developerWorks web site if you want to know more about ZIPL." msgstr "" #. Tag: title -#: using-d-i.xml:2833 +#: using-d-i.xml:2831 #, no-c-format msgid "Install the SILO Boot Loader on a Hard Disk" msgstr "" #. Tag: para -#: using-d-i.xml:2835 +#: using-d-i.xml:2833 #, no-c-format msgid "The standard &architecture; boot loader is called silo. It is documented in /usr/share/doc/silo/. SILO is similar in configuration and usage to LILO, with a few exceptions. First of all, SILO allows you to boot any kernel image on your drive, even if it is not listed in /etc/silo.conf. This is because SILO can actually read Linux partitions. Also, /etc/silo.conf is read at boot time, so there is no need to rerun silo after installing a new kernel like you would with LILO. SILO can also read UFS partitions, which means it can boot SunOS/Solaris partitions as well. This is useful if you want to install GNU/Linux alongside an existing SunOS/Solaris install." msgstr "" #. Tag: title -#: using-d-i.xml:2860 +#: using-d-i.xml:2858 #, no-c-format msgid "Continue Without Boot Loader" msgstr "" #. Tag: para -#: using-d-i.xml:2862 +#: using-d-i.xml:2860 #, no-c-format msgid "This option can be used to complete the installation even when no boot loader is to be installed, either because the arch/subarch doesn't provide one, or because none is desired (e.g. you will use existing boot loader). This option is especially useful for Macintosh, Atari, and Amiga systems, where the original operating system must be maintained on the box and used to boot GNU/Linux." msgstr "" #. Tag: para -#: using-d-i.xml:2871 +#: using-d-i.xml:2869 #, no-c-format msgid "If you plan to manually configure your bootloader, you should check the name of the installed kernel in /target/boot. You should also check that directory for the presence of an initrd; if one is present, you will probably have to instruct your bootloader to use it. Other information you will need are the disk and partition you selected for your / filesystem and, if you chose to install /boot on a separate partition, also your /boot filesystem." msgstr "" #. Tag: title -#: using-d-i.xml:2888 +#: using-d-i.xml:2886 #, no-c-format msgid "Finishing the Installation" msgstr "" #. Tag: para -#: using-d-i.xml:2889 +#: using-d-i.xml:2887 #, no-c-format msgid "This is the last step in the Debian installation process during which the installer will do any last minute tasks. It mostly consists of tidying up after the &d-i;." msgstr "" #. Tag: title -#: using-d-i.xml:2902 +#: using-d-i.xml:2900 #, no-c-format msgid "Setting the System Clock" msgstr "" #. Tag: para -#: using-d-i.xml:2904 +#: using-d-i.xml:2902 #, no-c-format msgid "The installer may ask you if the computer's clock is set to UTC. Normally this question is avoided if possible and the installer tries to work out whether the clock is set to UTC based on things like what other operating systems are installed." msgstr "" #. Tag: para -#: using-d-i.xml:2911 +#: using-d-i.xml:2909 #, no-c-format msgid "In expert mode you will always be able to choose whether or not the clock is set to UTC. Macintosh hardware clocks are normally set to local time. If you want to dual-boot, select local time instead of UTC. Systems that (also) run Dos or Windows are normally set to local time. If you want to dual-boot, select local time instead of UTC." msgstr "" #. Tag: para -#: using-d-i.xml:2922 +#: using-d-i.xml:2920 #, no-c-format msgid "At this point &d-i; will also attempt to save the current time to the system's hardware clock. This will be done either in UTC or local time, depending on the selection that was just made." msgstr "" #. Tag: title -#: using-d-i.xml:2937 +#: using-d-i.xml:2935 #, no-c-format msgid "Reboot the System" msgstr "" #. Tag: para -#: using-d-i.xml:2939 +#: using-d-i.xml:2937 #, no-c-format msgid "You will be prompted to remove the boot media (CD, floppy, etc) that you used to boot the installer. After that the system will be rebooted into your new Debian system." msgstr "" #. Tag: para -#: using-d-i.xml:2945 +#: using-d-i.xml:2943 #, no-c-format msgid "After a final prompt the system will be halted because rebooting is not supported on &arch-title;. You then need to IPL &debian; from the DASD which you selected for the root filesystem during the first steps of the installation." msgstr "" #. Tag: title -#: using-d-i.xml:2958 +#: using-d-i.xml:2956 #, no-c-format msgid "Miscellaneous" msgstr "" #. Tag: para -#: using-d-i.xml:2959 +#: using-d-i.xml:2957 #, no-c-format msgid "The components listed in this section are usually not involved in the installation process, but are waiting in the background to help the user in case something goes wrong." msgstr "" #. Tag: title -#: using-d-i.xml:2972 +#: using-d-i.xml:2970 #, no-c-format msgid "Saving the installation logs" msgstr "" #. Tag: para -#: using-d-i.xml:2974 +#: using-d-i.xml:2972 #, no-c-format msgid "If the installation is successful, the logfiles created during the installation process will be automatically saved to /var/log/installer/ on your new Debian system." msgstr "" #. Tag: para -#: using-d-i.xml:2981 +#: using-d-i.xml:2979 #, no-c-format msgid "Choosing Save debug logs from the main menu allows you to save the log files to a floppy disk, network, hard disk, or other media. This can be useful if you encounter fatal problems during the installation and wish to study the logs on another system or attach them to an installation report." msgstr "" #. Tag: title -#: using-d-i.xml:3001 +#: using-d-i.xml:2999 #, no-c-format msgid "Using the Shell and Viewing the Logs" msgstr "" #. Tag: para -#: using-d-i.xml:3003 +#: using-d-i.xml:3001 #, no-c-format msgid "There are several methods you can use to get a shell while running an installation. On most systems, and if you are not installing over serial console, the easiest method is to switch to the second virtual console by pressing Left Alt F2 That is: press the Alt key on the left-hand side of the space bar and the F2 function key at the same time. (on a Mac keyboard, Option F2). Use Left Alt F1 to switch back to the installer itself." msgstr "" #. Tag: para -#: using-d-i.xml:3021 +#: using-d-i.xml:3019 #, no-c-format msgid "For the graphical installer see also ." msgstr "" #. Tag: para -#: using-d-i.xml:3025 +#: using-d-i.xml:3023 #, no-c-format msgid "If you cannot switch consoles, there is also an Execute a Shell item on the main menu that can be used to start a shell. You can get to the main menu from most dialogs by using the &BTN-GOBACK; button one or more times. Type exit to close the shell and return to the installer." msgstr "" #. Tag: para -#: using-d-i.xml:3033 +#: using-d-i.xml:3031 #, no-c-format msgid "At this point you are booted from the RAM disk, and there is a limited set of Unix utilities available for your use. You can see what programs are available with the command ls /bin /sbin /usr/bin /usr/sbin and by typing help. The shell is a Bourne shell clone called ash and has some nice features like autocompletion and history." msgstr "" #. Tag: para -#: using-d-i.xml:3042 +#: using-d-i.xml:3040 #, no-c-format msgid "To edit and view files, use the text editor nano. Log files for the installation system can be found in the /var/log directory." msgstr "" #. Tag: para -#: using-d-i.xml:3049 +#: using-d-i.xml:3047 #, no-c-format msgid "Although you can do basically anything in a shell that the available commands allow you to do, the option to use a shell is really only there in case something goes wrong and for debugging." msgstr "" #. Tag: para -#: using-d-i.xml:3055 +#: using-d-i.xml:3053 #, no-c-format msgid "Doing things manually from the shell may interfere with the installation process and result in errors or an incomplete installation. In particular, you should always use let the installer activate your swap partition and not do this yourself from a shell." msgstr "" #. Tag: title -#: using-d-i.xml:3070 +#: using-d-i.xml:3068 #, no-c-format msgid "Installation Over the Network" msgstr "" #. Tag: para -#: using-d-i.xml:3072 +#: using-d-i.xml:3070 #, no-c-format msgid "One of the more interesting components is network-console. It allows you to do a large part of the installation over the network via SSH. The use of the network implies you will have to perform the first steps of the installation from the console, at least to the point of setting up the networking. (Although you can automate that part with .)" msgstr "" #. Tag: para -#: using-d-i.xml:3082 +#: using-d-i.xml:3080 #, no-c-format msgid "This component is not loaded into the main installation menu by default, so you have to explicitly ask for it. If you are installing from CD, you need to boot with medium priority or otherwise invoke the main installation menu and choose Load installer components from CD and from the list of additional components select network-console: Continue installation remotely using SSH. Successful load is indicated by a new menu entry called Continue installation remotely using SSH." msgstr "" #. Tag: para -#: using-d-i.xml:3095 +#: using-d-i.xml:3093 #, no-c-format msgid "For installations on &arch-title;, this is the default method after setting up the network." msgstr "" #. Tag: para -#: using-d-i.xml:3100 +#: using-d-i.xml:3098 #, no-c-format msgid "After selecting this new entry, you You will be asked for a new password to be used for connecting to the installation system and for its confirmation. That's all. Now you should see a screen which instructs you to login remotely as the user installer with the password you just provided. Another important detail to notice on this screen is the fingerprint of this system. You need to transfer the fingerprint securely to the person who will continue the installation remotely." msgstr "" #. Tag: para -#: using-d-i.xml:3112 +#: using-d-i.xml:3110 #, no-c-format msgid "Should you decide to continue with the installation locally, you can always press &enterkey;, which will bring you back to the main menu, where you can select another component." msgstr "" #. Tag: para -#: using-d-i.xml:3118 +#: using-d-i.xml:3116 #, no-c-format msgid "" "Now let's switch to the other side of the wire. As a prerequisite, you need to configure your terminal for UTF-8 encoding, because that is what the installation system uses. If you do not, remote installation will be still possible, but you may encounter strange display artefacts like destroyed dialog borders or unreadable non-ascii characters. Establishing a connection with the installation system is as simple as typing: \n" @@ -2410,127 +2410,127 @@ msgid "" msgstr "" #. Tag: para -#: using-d-i.xml:3135 +#: using-d-i.xml:3133 #, no-c-format msgid "The ssh server in the installer uses a default configuration that does not send keep-alive packets. In principle, a connection to the system being installed should be kept open indefinitely. However, in some situations — depending on your local network setup — the connection may be lost after some period of inactivity. One common case where this can happen is when there is some form of Network Address Translation (NAT) somewhere between the client and the system being installed. Depending on at which point of the installation the connection was lost, you may or may not be able to resume the installation after reconnecting." msgstr "" #. Tag: para -#: using-d-i.xml:3148 +#: using-d-i.xml:3146 #, no-c-format msgid "You may be able to avoid the connection being dropped by adding the option -o ServerAliveInterval=value when starting the ssh connection, or by adding that option in your ssh configuration file. Note however that in some cases adding this option may also cause a connection to be dropped (for example if keep-alive packets are sent during a brief network outage, from which ssh would otherwise have recovered), so it should only be used when needed." msgstr "" #. Tag: para -#: using-d-i.xml:3161 +#: using-d-i.xml:3159 #, no-c-format msgid "If you install several computers in turn and they happen to have the same IP address or hostname, ssh will refuse to connect to such host. The reason is that it will have different fingerprint, which is usually a sign of a spoofing attack. If you are sure this is not the case, you will need to delete the relevant line from ~/.ssh/known_hosts The following command will remove an existing entry for a host: ssh-keygen -R <hostname|IP address>. and try again." msgstr "" #. Tag: para -#: using-d-i.xml:3177 +#: using-d-i.xml:3175 #, no-c-format msgid "After the login you will be presented with an initial screen where you have two possibilities called Start menu and Start shell. The former brings you to the main installer menu, where you can continue with the installation as usual. The latter starts a shell from which you can examine and possibly fix the remote system. You should only start one SSH session for the installation menu, but may start multiple sessions for shells." msgstr "" #. Tag: para -#: using-d-i.xml:3187 +#: using-d-i.xml:3185 #, no-c-format msgid "After you have started the installation remotely over SSH, you should not go back to the installation session running on the local console. Doing so may corrupt the database that holds the configuration of the new system. This in turn may result in a failed installation or problems with the installed system." msgstr "" #. Tag: title -#: using-d-i.xml:3207 +#: using-d-i.xml:3205 #, no-c-format msgid "Loading Missing Firmware" msgstr "" #. Tag: para -#: using-d-i.xml:3208 +#: using-d-i.xml:3206 #, no-c-format msgid "As described in , some devices require firmware to be loaded. In most cases the device will not work at all if the firmware is not available; sometimes basic functionality is not impaired if it is missing and the firmware is only needed to enable additional features." msgstr "" #. Tag: para -#: using-d-i.xml:3216 +#: using-d-i.xml:3214 #, no-c-format msgid "If a device driver requests firmware that is not available, &d-i; will display a dialog offering to load the missing firmware. If this option is selected, &d-i; will scan available devices for either loose firmware files or packages containing firmware. If found, the firmware will be copied to the correct location (/lib/firmware) and the driver module will be reloaded." msgstr "" #. Tag: para -#: using-d-i.xml:3226 +#: using-d-i.xml:3224 #, no-c-format msgid "Which devices are scanned and which file systems are supported depends on the architecture, the installation method and the stage of the installation. Especially during the early stages of the installation, loading the firmware is most likely to succeed from a FAT-formatted floppy disk or USB stick. On i386 and amd64 firmware can also be loaded from an MMC or SD card." msgstr "" #. Tag: para -#: using-d-i.xml:3236 +#: using-d-i.xml:3234 #, no-c-format msgid "Note that it is possible to skip loading the firmware if you know the device will also function without it, or if the device is not needed during the installation." msgstr "" #. Tag: para -#: using-d-i.xml:3243 +#: using-d-i.xml:3241 #, no-c-format msgid "Support for loading firmware is still relatively basic and is likely to be improved in future releases of the installer. Currently &d-i; will for example not display any warning if you choose to load missing firmware, but the requested firmware is not found. Please report any issues you encounter by filing an installation report (see )." msgstr "" #. Tag: title -#: using-d-i.xml:3254 +#: using-d-i.xml:3252 #, no-c-format msgid "Preparing a medium" msgstr "" #. Tag: para -#: using-d-i.xml:3255 +#: using-d-i.xml:3253 #, no-c-format msgid "Although in some cases the firmware can also be loaded from a partition on a hard disk, the most common method to load firmware will be from some removable medium such as a floppy disk or a USB stick. The firmware files or packages must be placed in either the root directory or a directory named /firmware of the file system on the medium. The recommended file system to use is FAT as that is most certain to be supported during the early stages of the installation." msgstr "" #. Tag: para -#: using-d-i.xml:3265 +#: using-d-i.xml:3263 #, no-c-format msgid "Tarballs containing current packages for the most common firmware are available from: Just download the tarball for the correct release and unpack it to the file system on the medium." msgstr "" #. Tag: para -#: using-d-i.xml:3279 +#: using-d-i.xml:3277 #, no-c-format msgid "If the firmware you need is not included in the tarball, you can also download specific firmware packages from the (non-free section of the) archive. The following overview should list most available firmware packages but is not guaranteed to be complete and may also contain non-firmware packages:" msgstr "" #. Tag: para -#: using-d-i.xml:3293 +#: using-d-i.xml:3291 #, no-c-format msgid "It is also possible to copy individual firmware files to the medium. Loose firmware could be obtained for example from an already installed system or from a hardware vendor." msgstr "" #. Tag: title -#: using-d-i.xml:3302 +#: using-d-i.xml:3300 #, no-c-format msgid "Firmware and the Installed System" msgstr "" #. Tag: para -#: using-d-i.xml:3303 +#: using-d-i.xml:3301 #, no-c-format msgid "Any firmware loaded during the installation will be copied automatically to the installed system. In most cases this will ensure that the device that requires the firmware will also work correctly after the system is rebooted into the installed system. However, if the installed system runs a different kernel version from the installer there is a slight chance that the firmware cannot be loaded due to version skew." msgstr "" #. Tag: para -#: using-d-i.xml:3312 +#: using-d-i.xml:3310 #, no-c-format msgid "If the firmware was loaded from a firmware package, &d-i; will also install this package for the installed system and will automatically add the non-free section of the package archive in APT's sources.list. This has the advantage that the firmware should be updated automatically if a new version becomes available." msgstr "" #. Tag: para -#: using-d-i.xml:3320 +#: using-d-i.xml:3318 #, no-c-format msgid "If loading the firmware was skipped during the installation, the relevant device will probably not work with the installed system until the firmware (package) is installed manually." msgstr "" #. Tag: para -#: using-d-i.xml:3327 +#: using-d-i.xml:3325 #, no-c-format msgid "If the firmware was loaded from loose firmware files, the firmware copied to the installed system will not be automatically updated unless the corresponding firmware package (if available) is installed after the installation is completed." msgstr "" diff --git a/po/pot/welcome.pot b/po/pot/welcome.pot index 430ad4f21..3473d61a2 100644 --- a/po/pot/welcome.pot +++ b/po/pot/welcome.pot @@ -6,7 +6,7 @@ msgid "" msgstr "" "Project-Id-Version: PACKAGE VERSION\n" "Report-Msgid-Bugs-To: debian-boot@lists.debian.org\n" -"POT-Creation-Date: 2007-02-22 15:36+0000\n" +"POT-Creation-Date: 2008-10-17 00:09+0000\n" "PO-Revision-Date: YEAR-MO-DA HO:MI+ZONE\n" "Last-Translator: FULL NAME \n" "Language-Team: LANGUAGE \n" @@ -365,7 +365,7 @@ msgstr "" #. Tag: para #: welcome.xml:513 #, no-c-format -msgid "We're sure that you've read some of the licenses that come with most commercial software — they usually say that you can only use one copy of the software on a single computer. This system's license isn't like that at all. We encourage you to put a copy of on every computer in your school or place of business. Lend your installation media to your friends and help them install it on their computers! You can even make thousands of copies and sell them — albeit with a few restrictions. Your freedom to install and use the system comes directly from Debian being based on free software." +msgid "We're sure that you've read some of the licenses that come with most commercial software — they usually say that you can only use one copy of the software on a single computer. This system's license isn't like that at all. We encourage you to put a copy of &debian; on every computer in your school or place of business. Lend your installation media to your friends and help them install it on their computers! You can even make thousands of copies and sell them — albeit with a few restrictions. Your freedom to install and use the system comes directly from Debian being based on free software." msgstr "" #. Tag: para -- cgit v1.2.3