Datasets:

Jaiccc
/

Terminal_Recording_Group_Boundary_Timestamp

instruction stringclasses 10 values	input stringclasses 10 values	output stringclasses 10 values
You are a strict data extraction algorithm. Your purpose is to output ONLY the numerical timestamp of the next command event in the XML log. ### DEFINITION OF A BOUNDARY: A boundary is the first `<user_input>` tag following any system-provided state where the terminal is awaiting input. An input state includes: 1. Shell Prompts: Lines containing `$` or `#` (e.g., `user@host:~$`). 2. Authentication: Prompts asking for secrets (e.g., `password for`, `[sudo]`). 3. Interactive Pagers: Terminal states indicating a pause or waiting for user interaction (e.g., `(END)`, `[7m`, or prompts lacking a trailing newline). ### YOUR ALGORITHM: 1. START POINT: The current cursor is at timestamp: 0.007194. 2. SCAN: Begin reading the log sequentially, looking only at `<system_output>` tags that occur AFTER 0.007194. 3. IDENTIFY STATE: Determine if the system is waiting for input based on the definitions above. 4. EXTRACT: Identify the very next `<user_input>` tag following that state. 5. OUTPUT: Extract the `timestamp` value from that `<user_input>` tag. ### CRITICAL GUARDRAILS (ZERO TOLERANCE): - STRICT ADVANCEMENT: The output timestamp must be strictly greater than 0.007194. - NO CHATTER: Output ONLY the digits. No headers, no markdown, no quotes. - NO LISTS: Return only one single timestamp per execution. - NO HALLUCINATION: The value must exist exactly as written in the source XML. ### FINAL COMMAND: Find the first instance of a shell prompt, password request, or pager waiting state occurring after timestamp 0.007194, and return the timestamp of the immediate next `<user_input>` tag. Output ONLY that number.	<system_output timestamp="0.007194">[?2004h</system_output> <system_output timestamp="0.008198">demo@stephost:~$ </system_output> <user_input timestamp="3.27642">s</user_input> <system_output timestamp="3.276863">s</system_output> <user_input timestamp="3.53099">s</user_input> <system_output timestamp="3.5314">s</system_output> <user_input timestamp="3.783855">h</user_input> <system_output timestamp="3.784243">h</system_output> <user_input timestamp="4.040324"> </user_input> <system_output timestamp="4.040832"> </system_output> <user_input timestamp="4.969062">1</user_input> <system_output timestamp="4.969681">1</system_output> <user_input timestamp="5.243021">0</user_input> <system_output timestamp="5.243405">0</system_output> <user_input timestamp="5.496535">.</user_input> <system_output timestamp="5.496902">.</system_output> <user_input timestamp="5.708452">0</user_input> <system_output timestamp="5.708981">0</system_output> <user_input timestamp="5.938425">.</user_input> <system_output timestamp="5.938811">.</system_output> <user_input timestamp="6.511135"></user_input> <system_output timestamp="6.511535">[K</system_output> <user_input timestamp="6.720422"></user_input> <system_output timestamp="6.720946">[K</system_output> <user_input timestamp="6.887976"></user_input> <system_output timestamp="6.888485">[K</system_output> <user_input timestamp="7.060399"></user_input> <system_output timestamp="7.060959">[K</system_output> <user_input timestamp="7.442536">7</user_input> <system_output timestamp="7.442997">7</system_output> <user_input timestamp="7.6758">2</user_input> <system_output timestamp="7.676185">2</system_output> <user_input timestamp="7.991357">.</user_input> <system_output timestamp="7.991757">.</system_output> <user_input timestamp="8.263511">1</user_input> <system_output timestamp="8.26398">1</system_output> <user_input timestamp="8.60073">6</user_input> <system_output timestamp="8.601259">6</system_output> <user_input timestamp="9.044584">.</user_input> <system_output timestamp="9.045007">.</system_output> <user_input timestamp="9.342953">0</user_input> <system_output timestamp="9.343368">0</system_output> <user_input timestamp="9.618447">.</user_input> <system_output timestamp="9.618825">.</system_output> <user_input timestamp="10.336834">1</user_input> <system_output timestamp="10.337591">1</system_output> <user_input timestamp="10.926995">7</user_input> <system_output timestamp="10.92736">7</system_output> <user_input timestamp="11.413112"> </user_input> <system_output timestamp="11.413543"> [?2004l </system_output> <system_output timestamp="11.754014"> demo@172.16.0.17's password: </system_output> <user_input timestamp="13.002874">f</user_input> <user_input timestamp="13.085046">a</user_input> <user_input timestamp="13.147985">i</user_input> <user_input timestamp="13.35704"> </user_input> <system_output timestamp="13.357503"> </system_output> <system_output timestamp="13.490667">Linux faiserver 6.1.0-22-686-pae #1 SMP PREEMPT_DYNAMIC Debian 6.1.94-1 (2024-06-21) i686 Plan your installation, and FAI installs your plan. Last login: Sun Oct 6 16:51:26 2024 from 172.16.0.1 </system_output> <system_output timestamp="13.640211">[?2004h]0;demo@faiserver: ~demo@faiserver:~$ </system_output> <user_input timestamp="21.987222">c</user_input> <system_output timestamp="21.989407">c</system_output> <user_input timestamp="22.208425">d</user_input> <system_output timestamp="22.213483">d</system_output> <user_input timestamp="22.309141"> </user_input> <system_output timestamp="22.31413"> </system_output> <user_input timestamp="22.568401">/</user_input> <system_output timestamp="22.585127">/</system_output> <user_input timestamp="22.915005">h</user_input> <system_output timestamp="22.936477">h</system_output> <user_input timestamp="22.996323">o</user_input> <system_output timestamp="22.998952">o</system_output> <user_input timestamp="23.419145">m</user_input> <system_output timestamp="23.428202">m</system_output> <user_input timestamp="23.60239">e</user_input> <system_output timestamp="23.614747">e</system_output> <user_input timestamp="23.907324">/</user_input> <system_output timestamp="23.927054">/</system_output> <user_input timestamp="24.251554">f</user_input> <system_output timestamp="24.257096">f</system_output> <user_input timestamp="24.352107">a</user_input> <system_output timestamp="24.360621">a</system_output> <user_input timestamp="24.412845">i</user_input> <system_output timestamp="24.422944">i</system_output> <user_input timestamp="24.837692">/</user_input> <system_output timestamp="24.858998">/</system_output> <user_input timestamp="25.307004">oc</user_input> <system_output timestamp="25.326712">oc</system_output> <user_input timestamp="25.667917"></user_input> <system_output timestamp="25.675038">[K</system_output> <user_input timestamp="25.89172"></user_input> <system_output timestamp="25.902169">[K</system_output> <user_input timestamp="26.075435">c</user_input> <system_output timestamp="26.087197">c</system_output> <user_input timestamp="26.176428">o</user_input> <system_output timestamp="26.189346">o</system_output> <user_input timestamp="26.439727"> </user_input> <system_output timestamp="26.469054">nfig/</system_output> <user_input timestamp="26.926652"> </user_input> <system_output timestamp="26.934323"> [?2004l </system_output> <system_output timestamp="26.935093">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="37.178971">g</user_input>	21.987222
You are a strict data extraction algorithm. Your purpose is to output ONLY the numerical timestamp of the next command event in the XML log. ### DEFINITION OF A BOUNDARY: A boundary is the first `<user_input>` tag following any system-provided state where the terminal is awaiting input. An input state includes: 1. Shell Prompts: Lines containing `$` or `#` (e.g., `user@host:~$`). 2. Authentication: Prompts asking for secrets (e.g., `password for`, `[sudo]`). 3. Interactive Pagers: Terminal states indicating a pause or waiting for user interaction (e.g., `(END)`, `[7m`, or prompts lacking a trailing newline). ### YOUR ALGORITHM: 1. START POINT: The current cursor is at timestamp: 21.987222. 2. SCAN: Begin reading the log sequentially, looking only at `<system_output>` tags that occur AFTER 21.987222. 3. IDENTIFY STATE: Determine if the system is waiting for input based on the definitions above. 4. EXTRACT: Identify the very next `<user_input>` tag following that state. 5. OUTPUT: Extract the `timestamp` value from that `<user_input>` tag. ### CRITICAL GUARDRAILS (ZERO TOLERANCE): - STRICT ADVANCEMENT: The output timestamp must be strictly greater than 21.987222. - NO CHATTER: Output ONLY the digits. No headers, no markdown, no quotes. - NO LISTS: Return only one single timestamp per execution. - NO HALLUCINATION: The value must exist exactly as written in the source XML. ### FINAL COMMAND: Find the first instance of a shell prompt, password request, or pager waiting state occurring after timestamp 21.987222, and return the timestamp of the immediate next `<user_input>` tag. Output ONLY that number.	<user_input timestamp="21.987222">c</user_input> <system_output timestamp="21.989407">c</system_output> <user_input timestamp="22.208425">d</user_input> <system_output timestamp="22.213483">d</system_output> <user_input timestamp="22.309141"> </user_input> <system_output timestamp="22.31413"> </system_output> <user_input timestamp="22.568401">/</user_input> <system_output timestamp="22.585127">/</system_output> <user_input timestamp="22.915005">h</user_input> <system_output timestamp="22.936477">h</system_output> <user_input timestamp="22.996323">o</user_input> <system_output timestamp="22.998952">o</system_output> <user_input timestamp="23.419145">m</user_input> <system_output timestamp="23.428202">m</system_output> <user_input timestamp="23.60239">e</user_input> <system_output timestamp="23.614747">e</system_output> <user_input timestamp="23.907324">/</user_input> <system_output timestamp="23.927054">/</system_output> <user_input timestamp="24.251554">f</user_input> <system_output timestamp="24.257096">f</system_output> <user_input timestamp="24.352107">a</user_input> <system_output timestamp="24.360621">a</system_output> <user_input timestamp="24.412845">i</user_input> <system_output timestamp="24.422944">i</system_output> <user_input timestamp="24.837692">/</user_input> <system_output timestamp="24.858998">/</system_output> <user_input timestamp="25.307004">oc</user_input> <system_output timestamp="25.326712">oc</system_output> <user_input timestamp="25.667917"></user_input> <system_output timestamp="25.675038">[K</system_output> <user_input timestamp="25.89172"></user_input> <system_output timestamp="25.902169">[K</system_output> <user_input timestamp="26.075435">c</user_input> <system_output timestamp="26.087197">c</system_output> <user_input timestamp="26.176428">o</user_input> <system_output timestamp="26.189346">o</system_output> <user_input timestamp="26.439727"> </user_input> <system_output timestamp="26.469054">nfig/</system_output> <user_input timestamp="26.926652"> </user_input> <system_output timestamp="26.934323"> [?2004l </system_output> <system_output timestamp="26.935093">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="37.178971">g</user_input> <system_output timestamp="37.180967">g</system_output> <user_input timestamp="37.313591">i</user_input> <system_output timestamp="37.327151">i</system_output> <user_input timestamp="37.547299">t</user_input> <system_output timestamp="37.55475">t</system_output> <user_input timestamp="37.60511"> </user_input> <system_output timestamp="37.618071"> </system_output> <user_input timestamp="37.837286">d</user_input> <system_output timestamp="37.845263">d</system_output> <user_input timestamp="37.9355">i</user_input> <system_output timestamp="37.948668">i</system_output> <user_input timestamp="38.127813">f</user_input> <system_output timestamp="38.134464">f</system_output> <user_input timestamp="38.302655">f</user_input> <system_output timestamp="38.319416">f</system_output> <user_input timestamp="39.229814"> </user_input> <system_output timestamp="39.247627"> [?2004l </system_output> <system_output timestamp="39.48792">warning: Not a git repository. Use --no-index to compare two paths outside a working tree usage: git diff --no-index [<options>] <path> <path> Diff output format options -p</system_output> <system_output timestamp="39.488909">, --patch generate patch -s, --no-patch suppress diff output -u generate patch -U, --unified[=<n>] generate diffs with <n> lines context -W, --function-context generate diffs with <n> lines context --raw generate the diff in raw format --patch-with-raw synonym for '-p --raw' --patch-with-stat synonym for '-p --stat' --numstat machine friendly --stat --shortstat output only the last line of --stat -X, --dirstat[=<param1,param2>...] output the distribution of relative amount of changes for each sub-directory --cumulative synonym for --dirstat=cumulative --dirstat-by-file</system_output> <system_output timestamp="39.489911">[=<param1,param2>...] synonym for --dirstat=files,param1,param2... --check warn if changes introduce conflict markers or whitespace errors --summary condensed summary such as creations, renames and mode changes --name-only show only names of changed files --name-status show only names and status of changed files </system_output> <system_output timestamp="39.491458">--stat[=<width>[,<name-width>[,<count>]]] generate diffstat --stat-width <width> generate diffstat with a given width --stat-name-width <width> generate diffstat with a given name width --stat-graph-width <width> generate diffstat with a given graph width --stat-count <count> generate diffstat with limited lines --compact-summary generate compact summary in diffstat --binary output a binary diff that can be applied --full-index show full pre- and post-image object names on the "index" lines --color[=<when>] show colored diff --ws-error-highlight <kind> highlight whitespace errors in the 'context', 'old' or 'new' lines in the diff </system_output> <system_output timestamp="39.492224"> -z do not munge pathnames and use NULs as output field terminators in --raw or --numstat --abbrev[=<n>] use <n> digits to display object names --src-prefix <prefix> show the given source prefix instead of "a/" --dst-prefix <prefix> show the given destination prefix instead of "b/" --line-prefix <prefix> prepend an additional prefix to every line of output --no-prefix do not show any source or destination prefix --inter-hunk-context <n> show context between diff hunks up to the specified number of lines --output-indicator-new <char> specify the character to indicate a new line instead of '+' --output-indicator-old <char> specify the character to indicate an old line instead of '-' --output-indicator-context <char> specify the character to indicate a context instead of ' ' Diff rename options -B, --break-rewrites[=<n>[/<m>]] break complete rewrite changes into pairs of delete and create -M, --find-renames[=<n>] detect renames -D, --irreversible-delete omit the preimage for deletes -C, --find-copies[=<n>] detect copies --find-copies-harder use unmodified files as source to find copies --no-renames disable rename detection --rename-empty use empty blobs as rename source --follow continue listing the history of a file beyond renames -l <n> prevent rename/copy detection if the number of rename/copy targets exceeds given limit Diff algorithm options --minimal produce the smallest possible diff -w, --ignore-all-space ignore whitespace when comparing lines -b, --ignore-space-change ignore changes in amount of whitespace --ignore-space-at-eol ignore changes in whitespace at EOL --ignore-cr-at-eol ignore carrier-return at the end of line --ignore-blank-lines ignore changes whose lines are all blank -I, --ignore-matching-lines <regex> ignore changes whose all lines match <regex> --indent-heuristic heuristic to shift diff hunk boundaries for easy reading --patience generate diff using the "patience diff" algorithm --histogram generate diff using the "histogram diff" algorithm --diff-algorithm <algorithm> choose a diff algorithm --anchored <text> generate diff using the "anchored diff" algorithm --word-diff[=<mode>] show word diff, using <mode> to delimit changed words --word-diff-regex <regex> use <regex> to decide what a word is --color-words[=<regex>] equivalent to --word-diff=color --word-diff-regex=<regex> --color-moved[=<mode>] moved lines of code are colored differently --color-moved-ws <mode> how white spaces are ignored in --color-moved Other diff options --relative[=<prefix>] when run from subdir, exclude changes outside and show relative paths -a, --text treat all files as text -R swap two inputs, reverse the diff --exit-code exit with 1 if there were differences, 0 otherwise --quiet disable all output of the program --ext-diff allow an external diff helper to be executed --textconv run external text conversion filters when comparing binary files --ignore-submodules[=<when>] ignore changes to submodules in the diff generation --submodule[=<format>] specify how differences in submodules a</system_output> <system_output timestamp="39.492648">re shown --ita-invisible-in-index hide 'git add -N' entries from the index --ita-visible-in-index treat 'git add -N' entries as real in the index -S <string> look for differences that change the number of occurrences of the specified string -G <regex> look for differences that change the number of occurrences of the specified regex --pickaxe-all show all changes in the changeset with -S or -G --pickaxe-regex treat <string> in -S as extended POSIX regular expression -O <file> control the order in which files appear in the output --rotate-to <path> show the change in the specified path first --skip-to <path> skip the output to the specified path --find-object <object-id> look for differences that change the number of occurrences of the specified object --diff-filter [(A\|C\|D\|M\|R\|T\|U\|X\|B)...[*]] select files by diff type --output <file> output to a specific file </system_output> <system_output timestamp="39.493239">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="41.941309">l</user_input>	37.178971
You are a strict data extraction algorithm. Your purpose is to output ONLY the numerical timestamp of the next command event in the XML log. ### DEFINITION OF A BOUNDARY: A boundary is the first `<user_input>` tag following any system-provided state where the terminal is awaiting input. An input state includes: 1. Shell Prompts: Lines containing `$` or `#` (e.g., `user@host:~$`). 2. Authentication: Prompts asking for secrets (e.g., `password for`, `[sudo]`). 3. Interactive Pagers: Terminal states indicating a pause or waiting for user interaction (e.g., `(END)`, `[7m`, or prompts lacking a trailing newline). ### YOUR ALGORITHM: 1. START POINT: The current cursor is at timestamp: 37.178971. 2. SCAN: Begin reading the log sequentially, looking only at `<system_output>` tags that occur AFTER 37.178971. 3. IDENTIFY STATE: Determine if the system is waiting for input based on the definitions above. 4. EXTRACT: Identify the very next `<user_input>` tag following that state. 5. OUTPUT: Extract the `timestamp` value from that `<user_input>` tag. ### CRITICAL GUARDRAILS (ZERO TOLERANCE): - STRICT ADVANCEMENT: The output timestamp must be strictly greater than 37.178971. - NO CHATTER: Output ONLY the digits. No headers, no markdown, no quotes. - NO LISTS: Return only one single timestamp per execution. - NO HALLUCINATION: The value must exist exactly as written in the source XML. ### FINAL COMMAND: Find the first instance of a shell prompt, password request, or pager waiting state occurring after timestamp 37.178971, and return the timestamp of the immediate next `<user_input>` tag. Output ONLY that number.	<user_input timestamp="37.178971">g</user_input> <system_output timestamp="37.180967">g</system_output> <user_input timestamp="37.313591">i</user_input> <system_output timestamp="37.327151">i</system_output> <user_input timestamp="37.547299">t</user_input> <system_output timestamp="37.55475">t</system_output> <user_input timestamp="37.60511"> </user_input> <system_output timestamp="37.618071"> </system_output> <user_input timestamp="37.837286">d</user_input> <system_output timestamp="37.845263">d</system_output> <user_input timestamp="37.9355">i</user_input> <system_output timestamp="37.948668">i</system_output> <user_input timestamp="38.127813">f</user_input> <system_output timestamp="38.134464">f</system_output> <user_input timestamp="38.302655">f</user_input> <system_output timestamp="38.319416">f</system_output> <user_input timestamp="39.229814"> </user_input> <system_output timestamp="39.247627"> [?2004l </system_output> <system_output timestamp="39.48792">warning: Not a git repository. Use --no-index to compare two paths outside a working tree usage: git diff --no-index [<options>] <path> <path> Diff output format options -p</system_output> <system_output timestamp="39.488909">, --patch generate patch -s, --no-patch suppress diff output -u generate patch -U, --unified[=<n>] generate diffs with <n> lines context -W, --function-context generate diffs with <n> lines context --raw generate the diff in raw format --patch-with-raw synonym for '-p --raw' --patch-with-stat synonym for '-p --stat' --numstat machine friendly --stat --shortstat output only the last line of --stat -X, --dirstat[=<param1,param2>...] output the distribution of relative amount of changes for each sub-directory --cumulative synonym for --dirstat=cumulative --dirstat-by-file</system_output> <system_output timestamp="39.489911">[=<param1,param2>...] synonym for --dirstat=files,param1,param2... --check warn if changes introduce conflict markers or whitespace errors --summary condensed summary such as creations, renames and mode changes --name-only show only names of changed files --name-status show only names and status of changed files </system_output> <system_output timestamp="39.491458">--stat[=<width>[,<name-width>[,<count>]]] generate diffstat --stat-width <width> generate diffstat with a given width --stat-name-width <width> generate diffstat with a given name width --stat-graph-width <width> generate diffstat with a given graph width --stat-count <count> generate diffstat with limited lines --compact-summary generate compact summary in diffstat --binary output a binary diff that can be applied --full-index show full pre- and post-image object names on the "index" lines --color[=<when>] show colored diff --ws-error-highlight <kind> highlight whitespace errors in the 'context', 'old' or 'new' lines in the diff </system_output> <system_output timestamp="39.492224"> -z do not munge pathnames and use NULs as output field terminators in --raw or --numstat --abbrev[=<n>] use <n> digits to display object names --src-prefix <prefix> show the given source prefix instead of "a/" --dst-prefix <prefix> show the given destination prefix instead of "b/" --line-prefix <prefix> prepend an additional prefix to every line of output --no-prefix do not show any source or destination prefix --inter-hunk-context <n> show context between diff hunks up to the specified number of lines --output-indicator-new <char> specify the character to indicate a new line instead of '+' --output-indicator-old <char> specify the character to indicate an old line instead of '-' --output-indicator-context <char> specify the character to indicate a context instead of ' ' Diff rename options -B, --break-rewrites[=<n>[/<m>]] break complete rewrite changes into pairs of delete and create -M, --find-renames[=<n>] detect renames -D, --irreversible-delete omit the preimage for deletes -C, --find-copies[=<n>] detect copies --find-copies-harder use unmodified files as source to find copies --no-renames disable rename detection --rename-empty use empty blobs as rename source --follow continue listing the history of a file beyond renames -l <n> prevent rename/copy detection if the number of rename/copy targets exceeds given limit Diff algorithm options --minimal produce the smallest possible diff -w, --ignore-all-space ignore whitespace when comparing lines -b, --ignore-space-change ignore changes in amount of whitespace --ignore-space-at-eol ignore changes in whitespace at EOL --ignore-cr-at-eol ignore carrier-return at the end of line --ignore-blank-lines ignore changes whose lines are all blank -I, --ignore-matching-lines <regex> ignore changes whose all lines match <regex> --indent-heuristic heuristic to shift diff hunk boundaries for easy reading --patience generate diff using the "patience diff" algorithm --histogram generate diff using the "histogram diff" algorithm --diff-algorithm <algorithm> choose a diff algorithm --anchored <text> generate diff using the "anchored diff" algorithm --word-diff[=<mode>] show word diff, using <mode> to delimit changed words --word-diff-regex <regex> use <regex> to decide what a word is --color-words[=<regex>] equivalent to --word-diff=color --word-diff-regex=<regex> --color-moved[=<mode>] moved lines of code are colored differently --color-moved-ws <mode> how white spaces are ignored in --color-moved Other diff options --relative[=<prefix>] when run from subdir, exclude changes outside and show relative paths -a, --text treat all files as text -R swap two inputs, reverse the diff --exit-code exit with 1 if there were differences, 0 otherwise --quiet disable all output of the program --ext-diff allow an external diff helper to be executed --textconv run external text conversion filters when comparing binary files --ignore-submodules[=<when>] ignore changes to submodules in the diff generation --submodule[=<format>] specify how differences in submodules a</system_output> <system_output timestamp="39.492648">re shown --ita-invisible-in-index hide 'git add -N' entries from the index --ita-visible-in-index treat 'git add -N' entries as real in the index -S <string> look for differences that change the number of occurrences of the specified string -G <regex> look for differences that change the number of occurrences of the specified regex --pickaxe-all show all changes in the changeset with -S or -G --pickaxe-regex treat <string> in -S as extended POSIX regular expression -O <file> control the order in which files appear in the output --rotate-to <path> show the change in the specified path first --skip-to <path> skip the output to the specified path --find-object <object-id> look for differences that change the number of occurrences of the specified object --diff-filter [(A\|C\|D\|M\|R\|T\|U\|X\|B)...[*]] select files by diff type --output <file> output to a specific file </system_output> <system_output timestamp="39.493239">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="41.941309">l</user_input> <system_output timestamp="41.943342">l</system_output> <user_input timestamp="42.255634">s</user_input> <system_output timestamp="42.272612">s</system_output> <user_input timestamp="42.394743"> </user_input> <system_output timestamp="42.407038"> [?2004l </system_output> <system_output timestamp="42.46479">[0m[01;34mclass[0m [01;34mdebconf[0m [01;34mdisk_config[0m [01;34mfiles[0m [01;34mhooks[0m [01;34mpackage_config[0m [01;34mscripts[0m </system_output> <system_output timestamp="42.465592">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="44.147483">g</user_input>	41.941309
You are a strict data extraction algorithm. Your purpose is to output ONLY the numerical timestamp of the next command event in the XML log. ### DEFINITION OF A BOUNDARY: A boundary is the first `<user_input>` tag following any system-provided state where the terminal is awaiting input. An input state includes: 1. Shell Prompts: Lines containing `$` or `#` (e.g., `user@host:~$`). 2. Authentication: Prompts asking for secrets (e.g., `password for`, `[sudo]`). 3. Interactive Pagers: Terminal states indicating a pause or waiting for user interaction (e.g., `(END)`, `[7m`, or prompts lacking a trailing newline). ### YOUR ALGORITHM: 1. START POINT: The current cursor is at timestamp: 41.941309. 2. SCAN: Begin reading the log sequentially, looking only at `<system_output>` tags that occur AFTER 41.941309. 3. IDENTIFY STATE: Determine if the system is waiting for input based on the definitions above. 4. EXTRACT: Identify the very next `<user_input>` tag following that state. 5. OUTPUT: Extract the `timestamp` value from that `<user_input>` tag. ### CRITICAL GUARDRAILS (ZERO TOLERANCE): - STRICT ADVANCEMENT: The output timestamp must be strictly greater than 41.941309. - NO CHATTER: Output ONLY the digits. No headers, no markdown, no quotes. - NO LISTS: Return only one single timestamp per execution. - NO HALLUCINATION: The value must exist exactly as written in the source XML. ### FINAL COMMAND: Find the first instance of a shell prompt, password request, or pager waiting state occurring after timestamp 41.941309, and return the timestamp of the immediate next `<user_input>` tag. Output ONLY that number.	<user_input timestamp="41.941309">l</user_input> <system_output timestamp="41.943342">l</system_output> <user_input timestamp="42.255634">s</user_input> <system_output timestamp="42.272612">s</system_output> <user_input timestamp="42.394743"> </user_input> <system_output timestamp="42.407038"> [?2004l </system_output> <system_output timestamp="42.46479">[0m[01;34mclass[0m [01;34mdebconf[0m [01;34mdisk_config[0m [01;34mfiles[0m [01;34mhooks[0m [01;34mpackage_config[0m [01;34mscripts[0m </system_output> <system_output timestamp="42.465592">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="44.147483">g</user_input> <system_output timestamp="44.159741">g</system_output> <user_input timestamp="44.284513">i</user_input> <system_output timestamp="44.296522">i</system_output> <user_input timestamp="44.598422">t</user_input> <system_output timestamp="44.604263">t</system_output> <user_input timestamp="44.718273"> </user_input> <system_output timestamp="44.7216"> </system_output> <user_input timestamp="45.077243">s</user_input> <system_output timestamp="45.085748">s</system_output> <user_input timestamp="45.352775">t</user_input> <system_output timestamp="45.355587">t</system_output> <user_input timestamp="45.50998">a</user_input> <system_output timestamp="45.528086">a</system_output> <user_input timestamp="45.630309">t</user_input> <system_output timestamp="45.646049">t</system_output> <user_input timestamp="45.746839">u</user_input> <system_output timestamp="45.762415">u</system_output> <user_input timestamp="45.958953">s</user_input> <system_output timestamp="45.97016">s</system_output> <user_input timestamp="46.215934"> </user_input> <system_output timestamp="46.220528"> [?2004l </system_output> <system_output timestamp="46.225123">fatal: detected dubious ownership in repository at '/home/fai/config' To add an exception for this directory, call: git config --global --add safe.directory /home/fai/config </system_output> <system_output timestamp="46.226694">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="50.572229">s</user_input>	44.147483
You are a strict data extraction algorithm. Your purpose is to output ONLY the numerical timestamp of the next command event in the XML log. ### DEFINITION OF A BOUNDARY: A boundary is the first `<user_input>` tag following any system-provided state where the terminal is awaiting input. An input state includes: 1. Shell Prompts: Lines containing `$` or `#` (e.g., `user@host:~$`). 2. Authentication: Prompts asking for secrets (e.g., `password for`, `[sudo]`). 3. Interactive Pagers: Terminal states indicating a pause or waiting for user interaction (e.g., `(END)`, `[7m`, or prompts lacking a trailing newline). ### YOUR ALGORITHM: 1. START POINT: The current cursor is at timestamp: 44.147483. 2. SCAN: Begin reading the log sequentially, looking only at `<system_output>` tags that occur AFTER 44.147483. 3. IDENTIFY STATE: Determine if the system is waiting for input based on the definitions above. 4. EXTRACT: Identify the very next `<user_input>` tag following that state. 5. OUTPUT: Extract the `timestamp` value from that `<user_input>` tag. ### CRITICAL GUARDRAILS (ZERO TOLERANCE): - STRICT ADVANCEMENT: The output timestamp must be strictly greater than 44.147483. - NO CHATTER: Output ONLY the digits. No headers, no markdown, no quotes. - NO LISTS: Return only one single timestamp per execution. - NO HALLUCINATION: The value must exist exactly as written in the source XML. ### FINAL COMMAND: Find the first instance of a shell prompt, password request, or pager waiting state occurring after timestamp 44.147483, and return the timestamp of the immediate next `<user_input>` tag. Output ONLY that number.	<user_input timestamp="44.147483">g</user_input> <system_output timestamp="44.159741">g</system_output> <user_input timestamp="44.284513">i</user_input> <system_output timestamp="44.296522">i</system_output> <user_input timestamp="44.598422">t</user_input> <system_output timestamp="44.604263">t</system_output> <user_input timestamp="44.718273"> </user_input> <system_output timestamp="44.7216"> </system_output> <user_input timestamp="45.077243">s</user_input> <system_output timestamp="45.085748">s</system_output> <user_input timestamp="45.352775">t</user_input> <system_output timestamp="45.355587">t</system_output> <user_input timestamp="45.50998">a</user_input> <system_output timestamp="45.528086">a</system_output> <user_input timestamp="45.630309">t</user_input> <system_output timestamp="45.646049">t</system_output> <user_input timestamp="45.746839">u</user_input> <system_output timestamp="45.762415">u</system_output> <user_input timestamp="45.958953">s</user_input> <system_output timestamp="45.97016">s</system_output> <user_input timestamp="46.215934"> </user_input> <system_output timestamp="46.220528"> [?2004l </system_output> <system_output timestamp="46.225123">fatal: detected dubious ownership in repository at '/home/fai/config' To add an exception for this directory, call: git config --global --add safe.directory /home/fai/config </system_output> <system_output timestamp="46.226694">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="50.572229">s</user_input> <system_output timestamp="50.574257">s</system_output> <user_input timestamp="50.697758">u</user_input> <system_output timestamp="50.699817">u</system_output> <user_input timestamp="50.910068">d</user_input> <system_output timestamp="50.926825">d</system_output> <user_input timestamp="51.01557">o</user_input> <system_output timestamp="51.031215">o</system_output> <user_input timestamp="51.225973"> </user_input> <system_output timestamp="51.241157"> </system_output> <user_input timestamp="51.497835">g</user_input> <system_output timestamp="51.513161">g</system_output> <user_input timestamp="51.64433">i</user_input> <system_output timestamp="51.662037">i</system_output> <user_input timestamp="51.939807">t</user_input> <system_output timestamp="51.954996">t</system_output> <user_input timestamp="52.10912"> </user_input> <system_output timestamp="52.121774"> </system_output> <user_input timestamp="52.337561">d</user_input> <system_output timestamp="52.353651">d</system_output> <user_input timestamp="52.443344">i</user_input> <system_output timestamp="52.457799">i</system_output> <user_input timestamp="52.671352">f</user_input> <system_output timestamp="52.686492">f</system_output> <user_input timestamp="52.85848">f</user_input> <system_output timestamp="52.876395">f</system_output> <user_input timestamp="53.616905"> </user_input> <system_output timestamp="53.630556"> [?2004l </system_output> <system_output timestamp="53.803245">sudo: unable to resolve host faiserver: Name or service not known </system_output> <system_output timestamp="53.810484">[sudo] password for demo: </system_output> <user_input timestamp="55.615086">f</user_input> <user_input timestamp="55.718576">a</user_input> <user_input timestamp="55.759603">i</user_input> <user_input timestamp="55.883672"> </user_input> <system_output timestamp="55.887705"> </system_output> <system_output timestamp="56.11385">[?1h= </system_output> <system_output timestamp="56.287763">[1mdiff --git a/files/etc/fai/grub.cfg/SERVERFAI b/files/etc/fai/grub.cfg/SERVERFAI[m[m [1mindex b31de43..b27d7d9 100644[m[m [1m--- a/files/etc/fai/grub.cfg/SERVERFAI[m[m [1m+++ b/files/etc/fai/grub.cfg/SERVERFAI[m[m [36m@@ -6,11 +6,20 @@[m [mset timeout=20[m[m insmod part_msdos[m[m insmod part_gpt[m[m [m[m [32m+[m[32m# set our colour set.[m[m set color_normal=white/black[m[m set color_highlight=red/black[m[m set menu_color_normal=white/black[m[m set menu_color_highlight=black/yellow[m[m [m[m [32m+[m[32m# load video for EFI systems. required for the install to be visible.[m[m [32m+[m[32mfunction load_efi_video {[m[m [32m+[m[32m if [ "$grub_platform" = "efi" ]; then[m[m [32m+[m[32m insmod efi_gop[m[m [32m+[m[32m insmod efi_uga[m[m [32m+[m[32m fi[m[m [32m+[m[32m}[m[m [32m+[m[m menuentry "+------------------------------------------------------+" {[m[m set timeout=20[m[m }[m[m [36m@@ -50,144 +59,168 @@[m [mmen</system_output> <system_output timestamp="56.289675">uentry "Boot OS from first partition on first disk" {[m[m [m[m menuentry "nekohost -- Rescue system -- safe as kittens, no install performed." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=sysinfo FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=nekohost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "faiserver -- Server for creating this CD." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=faiserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "qemuhost -- QEMU server, designed for running the images on this CD in VMs." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=qemuhost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "wikiserver -- Trac/Apache wiki server." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=wikiserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "postserver -- mail server." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=postserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "giftserver -- GIFT image processor system." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=giftserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "lampserver -- A LAMP (Linux, Apache, MySQL, PHP) stack." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=lampserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "kalliserver -- Kallithea, a git hosting service. For software distribution." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=kalliserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "implicitserver -- A server for running the ImplicitCAD.org website." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=implicitserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "diskhost -- ISCSI disk server." {[m[m :[K</system_output> <user_input timestamp="58.404535"> </user_input> <system_output timestamp="58.406813"> [K</system_output> <system_output timestamp="58.408352"> search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=diskhost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "pronterhost -- 3D printer control host." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=pronterhost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "boxhost -- OpenBox environment." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=boxhost</system_output> <system_output timestamp="58.409033">[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "boxtop -- OpenBox environment with development tools, for a laptop." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=boxtop[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "nullhost -- nothing extra. Just Debian." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=nullhost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "implicitserver -- The ImplicitCAD Website." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz </system_output> <system_output timestamp="58.410122">FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=implicitserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "awikiserver -- MediaWiki/Apache wiki server." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=awikiserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "wordserver -- A LAMP (Linux, Apache, MySQL, PHP) stack, designed to host wordpress." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=wordserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "drupalserver -- A LAMP stack for Drupal." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=drupalserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "oemrserver -- OpenEMR Electronic Medical Records server." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=oemrserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "zonehost -- ZoneMinder security monitoring host." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=zonehost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "stephost -- Basic afterstep environment." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=stephost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "steptop -- afterstep environment with development tools, for a laptop." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install</system_output> <system_output timestamp="58.410676"> FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=steptop[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "betahost -- guaranteed broken, everything at once." {[m[m :[K</system_output> <user_input timestamp="59.531192"> </user_input> <system_output timestamp="59.53378"> [K</system_output> <system_output timestamp="59.534207"> search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=betahost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "Client standalone installation - select installation type from menu " {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="menu,verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config rd.live.image root=live:CDLABEL=FAI_CD rd.neednet ip=dhcp quiet[m[m initrd /boot/initrd.img[m[m }[m[m [7m(END)[27m[K</system_output> <user_input timestamp="60.381921"> </user_input> <system_output timestamp="60.386487"> [K [K[7m(END)[27m[K</system_output> <user_input timestamp="61.478406">[5~</user_input> <system_output timestamp="61.500194"> [K [KESCESC[K[[[K55[K~~ [K</system_output> <system_output timestamp="61.501049">[HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=pronterhost[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "pronterhost -- 3D printer control host." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=diskhost[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "diskhost -- ISCSI disk server." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root</system_output> <system_output timestamp="61.502385">=live:CDLABEL=FAI_CD ip=dhcp hostname=implicitserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "implicitserver -- A server for running the ImplicitCAD.org website." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=kalliserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "kalliserver -- Kallithea, a git hosting service. For software distribution." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=lampserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM searc</system_output> <system_output timestamp="61.502823">h --set=root --file /FAI-CD[m[m [HM menuentry "lampserver -- A LAMP (Linux, Apache, MySQL, PHP) stack." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=giftserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "giftserver -- GIFT image processor system." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=postserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "postserver -- mail server." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM </system_output> <system_output timestamp="61.503311">linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=wikiserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "wikiserver -- Trac/Apache wiki server." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=qemuhost[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "qemuhost -- QEMU server, designed for running the images on this CD in VMs." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD </system_output> <system_output timestamp="61.50469">ip=dhcp hostname=faiserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "faiserver -- Server for creating this CD." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=sysinfo FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=nekohost[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "nekohost -- Rescue system -- safe as kittens, no install performed." {[m[m [HM [m[m [HM[36m@@ -50,144 +59,168 @@[m [mmenuentry "Boot OS from first partition on first disk" {[m[m [HM }[m[m [HM set timeout=20[m[m [HM menuentry "+------------------------------------------------------+" {[m[m [HM[32m+[m[m [HM[32m+[m[32m}[m[m [HM[32m+[m[32m fi[m[m [HM[32m+[m[32m insmod efi_uga[m[m [HM[32m+[m[32m insmod efi_gop[m[m [HM[32m+[m[32m if [ "$grub_platform" = "efi" ]; then[m[m [HM[32m+[m[32mfunction load_efi_video {[m[m [HM[32m+[m[32m# load video for EFI systems. required for the install to be visible.[m[m [HM [m[m [HM set menu_color_highlight=black/yellow[m[m [92;1H [K:[K</system_output> <user_input timestamp="61.622968">[5~</user_input> <system_output timestamp="61.639697"> [K [KESCESC[K[[[K55[K~~ [K</system_output> <system_output timestamp="61.640258">[HM set menu_color_normal=white/black[m[m [HM set color_highlight=red/black[m[m [HM set color_normal=white/black[m[m [HM[32m+[m[32m# set our colour set.[m[m [HM [m[m [HM insmod part_gpt[m[m [HM insmod part_msdos[m[m [HM[36m@@ -6,11 +6,20 @@[m [mset timeout=20[m[m [HM[1m+++ b/files/etc/fai/grub.cfg/SERVERFAI[m[m [HM[1m--- a/files/etc/fai/grub.cfg/SERVERFAI[m[m [HM[1mindex b31de43..b27d7d9 100644[m[m [HM[1mdiff --git a/files/etc/fai/grub.cfg/SERVERFAI b/files/etc/fai/grub.cfg/SERVERFAI[m[m [92;1H [K:[K</system_output> <user_input timestamp="61.832046">[5~</user_input> <system_output timestamp="61.839067"> [K [KESCESC[K[[[K55[K~~ [K [K:[K</system_output> <user_input timestamp="62.077625">[5~</user_input> <system_output timestamp="62.080804"> [K [KESCESC[K[[[K55[K~~ [K [K:[K</system_output> <user_input timestamp="62.45089">q</user_input>	50.572229
You are a strict data extraction algorithm. Your purpose is to output ONLY the numerical timestamp of the next command event in the XML log. ### DEFINITION OF A BOUNDARY: A boundary is the first `<user_input>` tag following any system-provided state where the terminal is awaiting input. An input state includes: 1. Shell Prompts: Lines containing `$` or `#` (e.g., `user@host:~$`). 2. Authentication: Prompts asking for secrets (e.g., `password for`, `[sudo]`). 3. Interactive Pagers: Terminal states indicating a pause or waiting for user interaction (e.g., `(END)`, `[7m`, or prompts lacking a trailing newline). ### YOUR ALGORITHM: 1. START POINT: The current cursor is at timestamp: 50.572229. 2. SCAN: Begin reading the log sequentially, looking only at `<system_output>` tags that occur AFTER 50.572229. 3. IDENTIFY STATE: Determine if the system is waiting for input based on the definitions above. 4. EXTRACT: Identify the very next `<user_input>` tag following that state. 5. OUTPUT: Extract the `timestamp` value from that `<user_input>` tag. ### CRITICAL GUARDRAILS (ZERO TOLERANCE): - STRICT ADVANCEMENT: The output timestamp must be strictly greater than 50.572229. - NO CHATTER: Output ONLY the digits. No headers, no markdown, no quotes. - NO LISTS: Return only one single timestamp per execution. - NO HALLUCINATION: The value must exist exactly as written in the source XML. ### FINAL COMMAND: Find the first instance of a shell prompt, password request, or pager waiting state occurring after timestamp 50.572229, and return the timestamp of the immediate next `<user_input>` tag. Output ONLY that number.	<user_input timestamp="50.572229">s</user_input> <system_output timestamp="50.574257">s</system_output> <user_input timestamp="50.697758">u</user_input> <system_output timestamp="50.699817">u</system_output> <user_input timestamp="50.910068">d</user_input> <system_output timestamp="50.926825">d</system_output> <user_input timestamp="51.01557">o</user_input> <system_output timestamp="51.031215">o</system_output> <user_input timestamp="51.225973"> </user_input> <system_output timestamp="51.241157"> </system_output> <user_input timestamp="51.497835">g</user_input> <system_output timestamp="51.513161">g</system_output> <user_input timestamp="51.64433">i</user_input> <system_output timestamp="51.662037">i</system_output> <user_input timestamp="51.939807">t</user_input> <system_output timestamp="51.954996">t</system_output> <user_input timestamp="52.10912"> </user_input> <system_output timestamp="52.121774"> </system_output> <user_input timestamp="52.337561">d</user_input> <system_output timestamp="52.353651">d</system_output> <user_input timestamp="52.443344">i</user_input> <system_output timestamp="52.457799">i</system_output> <user_input timestamp="52.671352">f</user_input> <system_output timestamp="52.686492">f</system_output> <user_input timestamp="52.85848">f</user_input> <system_output timestamp="52.876395">f</system_output> <user_input timestamp="53.616905"> </user_input> <system_output timestamp="53.630556"> [?2004l </system_output> <system_output timestamp="53.803245">sudo: unable to resolve host faiserver: Name or service not known </system_output> <system_output timestamp="53.810484">[sudo] password for demo: </system_output> <user_input timestamp="55.615086">f</user_input> <user_input timestamp="55.718576">a</user_input> <user_input timestamp="55.759603">i</user_input> <user_input timestamp="55.883672"> </user_input> <system_output timestamp="55.887705"> </system_output> <system_output timestamp="56.11385">[?1h= </system_output> <system_output timestamp="56.287763">[1mdiff --git a/files/etc/fai/grub.cfg/SERVERFAI b/files/etc/fai/grub.cfg/SERVERFAI[m[m [1mindex b31de43..b27d7d9 100644[m[m [1m--- a/files/etc/fai/grub.cfg/SERVERFAI[m[m [1m+++ b/files/etc/fai/grub.cfg/SERVERFAI[m[m [36m@@ -6,11 +6,20 @@[m [mset timeout=20[m[m insmod part_msdos[m[m insmod part_gpt[m[m [m[m [32m+[m[32m# set our colour set.[m[m set color_normal=white/black[m[m set color_highlight=red/black[m[m set menu_color_normal=white/black[m[m set menu_color_highlight=black/yellow[m[m [m[m [32m+[m[32m# load video for EFI systems. required for the install to be visible.[m[m [32m+[m[32mfunction load_efi_video {[m[m [32m+[m[32m if [ "$grub_platform" = "efi" ]; then[m[m [32m+[m[32m insmod efi_gop[m[m [32m+[m[32m insmod efi_uga[m[m [32m+[m[32m fi[m[m [32m+[m[32m}[m[m [32m+[m[m menuentry "+------------------------------------------------------+" {[m[m set timeout=20[m[m }[m[m [36m@@ -50,144 +59,168 @@[m [mmen</system_output> <system_output timestamp="56.289675">uentry "Boot OS from first partition on first disk" {[m[m [m[m menuentry "nekohost -- Rescue system -- safe as kittens, no install performed." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=sysinfo FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=nekohost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "faiserver -- Server for creating this CD." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=faiserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "qemuhost -- QEMU server, designed for running the images on this CD in VMs." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=qemuhost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "wikiserver -- Trac/Apache wiki server." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=wikiserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "postserver -- mail server." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=postserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "giftserver -- GIFT image processor system." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=giftserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "lampserver -- A LAMP (Linux, Apache, MySQL, PHP) stack." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=lampserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "kalliserver -- Kallithea, a git hosting service. For software distribution." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=kalliserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "implicitserver -- A server for running the ImplicitCAD.org website." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=implicitserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "diskhost -- ISCSI disk server." {[m[m :[K</system_output> <user_input timestamp="58.404535"> </user_input> <system_output timestamp="58.406813"> [K</system_output> <system_output timestamp="58.408352"> search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=diskhost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "pronterhost -- 3D printer control host." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=pronterhost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "boxhost -- OpenBox environment." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=boxhost</system_output> <system_output timestamp="58.409033">[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "boxtop -- OpenBox environment with development tools, for a laptop." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=boxtop[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "nullhost -- nothing extra. Just Debian." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=nullhost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "implicitserver -- The ImplicitCAD Website." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz </system_output> <system_output timestamp="58.410122">FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=implicitserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "awikiserver -- MediaWiki/Apache wiki server." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=awikiserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "wordserver -- A LAMP (Linux, Apache, MySQL, PHP) stack, designed to host wordpress." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=wordserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "drupalserver -- A LAMP stack for Drupal." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=drupalserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "oemrserver -- OpenEMR Electronic Medical Records server." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=oemrserver[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "zonehost -- ZoneMinder security monitoring host." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=zonehost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "stephost -- Basic afterstep environment." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=stephost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "steptop -- afterstep environment with development tools, for a laptop." {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install</system_output> <system_output timestamp="58.410676"> FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=steptop[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "betahost -- guaranteed broken, everything at once." {[m[m :[K</system_output> <user_input timestamp="59.531192"> </user_input> <system_output timestamp="59.53378"> [K</system_output> <system_output timestamp="59.534207"> search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=betahost[m[m initrd /boot/initrd.img[m[m }[m[m [m[m menuentry "Client standalone installation - select installation type from menu " {[m[m search --set=root --file /FAI-CD[m[m [32m+[m[32m load_efi_video[m[m linux /boot/vmlinuz FAI_FLAGS="menu,verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config rd.live.image root=live:CDLABEL=FAI_CD rd.neednet ip=dhcp quiet[m[m initrd /boot/initrd.img[m[m }[m[m [7m(END)[27m[K</system_output> <user_input timestamp="60.381921"> </user_input> <system_output timestamp="60.386487"> [K [K[7m(END)[27m[K</system_output> <user_input timestamp="61.478406">[5~</user_input> <system_output timestamp="61.500194"> [K [KESCESC[K[[[K55[K~~ [K</system_output> <system_output timestamp="61.501049">[HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=pronterhost[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "pronterhost -- 3D printer control host." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=diskhost[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "diskhost -- ISCSI disk server." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root</system_output> <system_output timestamp="61.502385">=live:CDLABEL=FAI_CD ip=dhcp hostname=implicitserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "implicitserver -- A server for running the ImplicitCAD.org website." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=kalliserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "kalliserver -- Kallithea, a git hosting service. For software distribution." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=lampserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM searc</system_output> <system_output timestamp="61.502823">h --set=root --file /FAI-CD[m[m [HM menuentry "lampserver -- A LAMP (Linux, Apache, MySQL, PHP) stack." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=giftserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "giftserver -- GIFT image processor system." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=postserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "postserver -- mail server." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM </system_output> <system_output timestamp="61.503311">linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=wikiserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "wikiserver -- Trac/Apache wiki server." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=qemuhost[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "qemuhost -- QEMU server, designed for running the images on this CD in VMs." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=install FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD </system_output> <system_output timestamp="61.50469">ip=dhcp hostname=faiserver[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "faiserver -- Server for creating this CD." {[m[m [HM [m[m [HM }[m[m [HM initrd /boot/initrd.img[m[m [HM linux /boot/vmlinuz FAI_FLAGS="verbose,createvt" FAI_ACTION=sysinfo FAI_CONFIG_SRC=file:///var/lib/fai/config/ rd.live.image root=live:CDLABEL=FAI_CD ip=dhcp hostname=nekohost[m[m [HM[32m+[m[32m load_efi_video[m[m [HM search --set=root --file /FAI-CD[m[m [HM menuentry "nekohost -- Rescue system -- safe as kittens, no install performed." {[m[m [HM [m[m [HM[36m@@ -50,144 +59,168 @@[m [mmenuentry "Boot OS from first partition on first disk" {[m[m [HM }[m[m [HM set timeout=20[m[m [HM menuentry "+------------------------------------------------------+" {[m[m [HM[32m+[m[m [HM[32m+[m[32m}[m[m [HM[32m+[m[32m fi[m[m [HM[32m+[m[32m insmod efi_uga[m[m [HM[32m+[m[32m insmod efi_gop[m[m [HM[32m+[m[32m if [ "$grub_platform" = "efi" ]; then[m[m [HM[32m+[m[32mfunction load_efi_video {[m[m [HM[32m+[m[32m# load video for EFI systems. required for the install to be visible.[m[m [HM [m[m [HM set menu_color_highlight=black/yellow[m[m [92;1H [K:[K</system_output> <user_input timestamp="61.622968">[5~</user_input> <system_output timestamp="61.639697"> [K [KESCESC[K[[[K55[K~~ [K</system_output> <system_output timestamp="61.640258">[HM set menu_color_normal=white/black[m[m [HM set color_highlight=red/black[m[m [HM set color_normal=white/black[m[m [HM[32m+[m[32m# set our colour set.[m[m [HM [m[m [HM insmod part_gpt[m[m [HM insmod part_msdos[m[m [HM[36m@@ -6,11 +6,20 @@[m [mset timeout=20[m[m [HM[1m+++ b/files/etc/fai/grub.cfg/SERVERFAI[m[m [HM[1m--- a/files/etc/fai/grub.cfg/SERVERFAI[m[m [HM[1mindex b31de43..b27d7d9 100644[m[m [HM[1mdiff --git a/files/etc/fai/grub.cfg/SERVERFAI b/files/etc/fai/grub.cfg/SERVERFAI[m[m [92;1H [K:[K</system_output> <user_input timestamp="61.832046">[5~</user_input> <system_output timestamp="61.839067"> [K [KESCESC[K[[[K55[K~~ [K [K:[K</system_output> <user_input timestamp="62.077625">[5~</user_input> <system_output timestamp="62.080804"> [K [KESCESC[K[[[K55[K~~ [K [K:[K</system_output> <user_input timestamp="62.45089">q</user_input> <system_output timestamp="62.513208"> [K[?1l></system_output> <system_output timestamp="62.517843">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="63.400662">g</user_input>	62.45089
You are a strict data extraction algorithm. Your purpose is to output ONLY the numerical timestamp of the next command event in the XML log. ### DEFINITION OF A BOUNDARY: A boundary is the first `<user_input>` tag following any system-provided state where the terminal is awaiting input. An input state includes: 1. Shell Prompts: Lines containing `$` or `#` (e.g., `user@host:~$`). 2. Authentication: Prompts asking for secrets (e.g., `password for`, `[sudo]`). 3. Interactive Pagers: Terminal states indicating a pause or waiting for user interaction (e.g., `(END)`, `[7m`, or prompts lacking a trailing newline). ### YOUR ALGORITHM: 1. START POINT: The current cursor is at timestamp: 62.45089. 2. SCAN: Begin reading the log sequentially, looking only at `<system_output>` tags that occur AFTER 62.45089. 3. IDENTIFY STATE: Determine if the system is waiting for input based on the definitions above. 4. EXTRACT: Identify the very next `<user_input>` tag following that state. 5. OUTPUT: Extract the `timestamp` value from that `<user_input>` tag. ### CRITICAL GUARDRAILS (ZERO TOLERANCE): - STRICT ADVANCEMENT: The output timestamp must be strictly greater than 62.45089. - NO CHATTER: Output ONLY the digits. No headers, no markdown, no quotes. - NO LISTS: Return only one single timestamp per execution. - NO HALLUCINATION: The value must exist exactly as written in the source XML. ### FINAL COMMAND: Find the first instance of a shell prompt, password request, or pager waiting state occurring after timestamp 62.45089, and return the timestamp of the immediate next `<user_input>` tag. Output ONLY that number.	<user_input timestamp="62.45089">q</user_input> <system_output timestamp="62.513208"> [K[?1l></system_output> <system_output timestamp="62.517843">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="63.400662">g</user_input> <system_output timestamp="63.413182">g</system_output> <user_input timestamp="63.462678">i</user_input> <system_output timestamp="63.473122">i</system_output> <user_input timestamp="63.874624">t</user_input> <system_output timestamp="63.891086">t</system_output> <user_input timestamp="64.160265"></user_input> <system_output timestamp="64.168872">[K</system_output> <user_input timestamp="64.346859"></user_input> <system_output timestamp="64.3499">[K</system_output> <user_input timestamp="64.533755"></user_input> <system_output timestamp="64.548655">[K</system_output> <user_input timestamp="64.719267">s</user_input> <system_output timestamp="64.726355">s</system_output> <user_input timestamp="64.863036">u</user_input> <system_output timestamp="64.865434">u</system_output> <user_input timestamp="65.009828">d</user_input> <system_output timestamp="65.024009">d</system_output> <user_input timestamp="65.093881">o</user_input> <system_output timestamp="65.103147">o</system_output> <user_input timestamp="65.217814"> </user_input> <system_output timestamp="65.21932"> </system_output> <user_input timestamp="65.55223">g</user_input> <system_output timestamp="65.556366">g</system_output> <user_input timestamp="65.676702">i</user_input> <system_output timestamp="65.695473">i</system_output> <user_input timestamp="65.989841">t</user_input> <system_output timestamp="65.997029">t</system_output> <user_input timestamp="66.114783"> </user_input> <system_output timestamp="66.11638"> </system_output> <user_input timestamp="66.367184">a</user_input> <system_output timestamp="66.372781">a</system_output> <user_input timestamp="66.514506">d</user_input> <system_output timestamp="66.531233">d</system_output> <user_input timestamp="66.679518">d</user_input> <system_output timestamp="66.687786">d</system_output> <user_input timestamp="66.803264"> </user_input> <system_output timestamp="66.806634"> </system_output> <user_input timestamp="67.15704">f</user_input> <system_output timestamp="67.169901">f</system_output> <user_input timestamp="67.299886">i</user_input> <system_output timestamp="67.309796">i</system_output> <user_input timestamp="67.635279"> </user_input> <system_output timestamp="67.823155">les/</system_output> <user_input timestamp="68.486163">e</user_input> <system_output timestamp="68.501868">e</system_output> <user_input timestamp="68.732748">t</user_input> <system_output timestamp="68.738062">t</system_output> <user_input timestamp="68.95918"> </user_input> <system_output timestamp="69.003908">c/</system_output> <user_input timestamp="69.726266">f</user_input> <system_output timestamp="69.731674">f</system_output> <user_input timestamp="70.040549">a</user_input> <system_output timestamp="70.051801">a</system_output> <user_input timestamp="70.394915"> </user_input> <system_output timestamp="70.426589">i/</system_output> <user_input timestamp="71.037548">g</user_input> <system_output timestamp="71.046764">g</system_output> <user_input timestamp="71.637194">r</user_input> <system_output timestamp="71.643374">r</system_output> <user_input timestamp="71.886838"> </user_input> <system_output timestamp="71.91744">ub.cfg/</system_output> <user_input timestamp="72.75882">S</user_input> <system_output timestamp="72.77324">S</system_output> <user_input timestamp="72.926559">E</user_input> <system_output timestamp="72.931713">E</system_output> <user_input timestamp="73.259703"> </user_input> <system_output timestamp="73.294675">RVERFAI</system_output> <user_input timestamp="74.687602"> </user_input> <system_output timestamp="74.69844"> [?2004l </system_output> <system_output timestamp="74.71015">sudo: unable to resolve host faiserver: Name or service not known </system_output> <system_output timestamp="74.816969">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="75.807825">g</user_input>	63.400662
You are a strict data extraction algorithm. Your purpose is to output ONLY the numerical timestamp of the next command event in the XML log. ### DEFINITION OF A BOUNDARY: A boundary is the first `<user_input>` tag following any system-provided state where the terminal is awaiting input. An input state includes: 1. Shell Prompts: Lines containing `$` or `#` (e.g., `user@host:~$`). 2. Authentication: Prompts asking for secrets (e.g., `password for`, `[sudo]`). 3. Interactive Pagers: Terminal states indicating a pause or waiting for user interaction (e.g., `(END)`, `[7m`, or prompts lacking a trailing newline). ### YOUR ALGORITHM: 1. START POINT: The current cursor is at timestamp: 63.400662. 2. SCAN: Begin reading the log sequentially, looking only at `<system_output>` tags that occur AFTER 63.400662. 3. IDENTIFY STATE: Determine if the system is waiting for input based on the definitions above. 4. EXTRACT: Identify the very next `<user_input>` tag following that state. 5. OUTPUT: Extract the `timestamp` value from that `<user_input>` tag. ### CRITICAL GUARDRAILS (ZERO TOLERANCE): - STRICT ADVANCEMENT: The output timestamp must be strictly greater than 63.400662. - NO CHATTER: Output ONLY the digits. No headers, no markdown, no quotes. - NO LISTS: Return only one single timestamp per execution. - NO HALLUCINATION: The value must exist exactly as written in the source XML. ### FINAL COMMAND: Find the first instance of a shell prompt, password request, or pager waiting state occurring after timestamp 63.400662, and return the timestamp of the immediate next `<user_input>` tag. Output ONLY that number.	<user_input timestamp="63.400662">g</user_input> <system_output timestamp="63.413182">g</system_output> <user_input timestamp="63.462678">i</user_input> <system_output timestamp="63.473122">i</system_output> <user_input timestamp="63.874624">t</user_input> <system_output timestamp="63.891086">t</system_output> <user_input timestamp="64.160265"></user_input> <system_output timestamp="64.168872">[K</system_output> <user_input timestamp="64.346859"></user_input> <system_output timestamp="64.3499">[K</system_output> <user_input timestamp="64.533755"></user_input> <system_output timestamp="64.548655">[K</system_output> <user_input timestamp="64.719267">s</user_input> <system_output timestamp="64.726355">s</system_output> <user_input timestamp="64.863036">u</user_input> <system_output timestamp="64.865434">u</system_output> <user_input timestamp="65.009828">d</user_input> <system_output timestamp="65.024009">d</system_output> <user_input timestamp="65.093881">o</user_input> <system_output timestamp="65.103147">o</system_output> <user_input timestamp="65.217814"> </user_input> <system_output timestamp="65.21932"> </system_output> <user_input timestamp="65.55223">g</user_input> <system_output timestamp="65.556366">g</system_output> <user_input timestamp="65.676702">i</user_input> <system_output timestamp="65.695473">i</system_output> <user_input timestamp="65.989841">t</user_input> <system_output timestamp="65.997029">t</system_output> <user_input timestamp="66.114783"> </user_input> <system_output timestamp="66.11638"> </system_output> <user_input timestamp="66.367184">a</user_input> <system_output timestamp="66.372781">a</system_output> <user_input timestamp="66.514506">d</user_input> <system_output timestamp="66.531233">d</system_output> <user_input timestamp="66.679518">d</user_input> <system_output timestamp="66.687786">d</system_output> <user_input timestamp="66.803264"> </user_input> <system_output timestamp="66.806634"> </system_output> <user_input timestamp="67.15704">f</user_input> <system_output timestamp="67.169901">f</system_output> <user_input timestamp="67.299886">i</user_input> <system_output timestamp="67.309796">i</system_output> <user_input timestamp="67.635279"> </user_input> <system_output timestamp="67.823155">les/</system_output> <user_input timestamp="68.486163">e</user_input> <system_output timestamp="68.501868">e</system_output> <user_input timestamp="68.732748">t</user_input> <system_output timestamp="68.738062">t</system_output> <user_input timestamp="68.95918"> </user_input> <system_output timestamp="69.003908">c/</system_output> <user_input timestamp="69.726266">f</user_input> <system_output timestamp="69.731674">f</system_output> <user_input timestamp="70.040549">a</user_input> <system_output timestamp="70.051801">a</system_output> <user_input timestamp="70.394915"> </user_input> <system_output timestamp="70.426589">i/</system_output> <user_input timestamp="71.037548">g</user_input> <system_output timestamp="71.046764">g</system_output> <user_input timestamp="71.637194">r</user_input> <system_output timestamp="71.643374">r</system_output> <user_input timestamp="71.886838"> </user_input> <system_output timestamp="71.91744">ub.cfg/</system_output> <user_input timestamp="72.75882">S</user_input> <system_output timestamp="72.77324">S</system_output> <user_input timestamp="72.926559">E</user_input> <system_output timestamp="72.931713">E</system_output> <user_input timestamp="73.259703"> </user_input> <system_output timestamp="73.294675">RVERFAI</system_output> <user_input timestamp="74.687602"> </user_input> <system_output timestamp="74.69844"> [?2004l </system_output> <system_output timestamp="74.71015">sudo: unable to resolve host faiserver: Name or service not known </system_output> <system_output timestamp="74.816969">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="75.807825">g</user_input> <system_output timestamp="75.811978">g</system_output> <user_input timestamp="76.075135">u</user_input> <system_output timestamp="76.087862">u</system_output> <user_input timestamp="76.587425"></user_input> <system_output timestamp="76.59296">[K</system_output> <user_input timestamp="76.772683"></user_input> <system_output timestamp="76.793629">[K</system_output> <user_input timestamp="76.97924">s</user_input> <system_output timestamp="76.992396">s</system_output> <user_input timestamp="77.081116">u</user_input> <system_output timestamp="77.092681">u</system_output> <user_input timestamp="77.270107">d</user_input> <system_output timestamp="77.290834">d</system_output> <user_input timestamp="77.37435">o</user_input> <system_output timestamp="77.391245">o</system_output> <user_input timestamp="77.46009"> </user_input> <system_output timestamp="77.47304"> </system_output> <user_input timestamp="77.688704">g</user_input> <system_output timestamp="77.708252">g</system_output> <user_input timestamp="77.812759">i</user_input> <system_output timestamp="77.829368">i</system_output> <user_input timestamp="78.102383">t</user_input> <system_output timestamp="78.111121">t</system_output> <user_input timestamp="78.227675"> </user_input> <system_output timestamp="78.231081"> </system_output> <user_input timestamp="78.456741">c</user_input> <system_output timestamp="78.470274">c</system_output> <user_input timestamp="78.540413">o</user_input> <system_output timestamp="78.548625">o</system_output> <user_input timestamp="78.748867">m</user_input> <system_output timestamp="78.762718">m</system_output> <user_input timestamp="78.935861">m</user_input> <system_output timestamp="78.941982">m</system_output> <user_input timestamp="79.018823">i</user_input> <system_output timestamp="79.021313">i</system_output> <user_input timestamp="79.249191">t</user_input> <system_output timestamp="79.258383">t</system_output> <user_input timestamp="79.372863"> </user_input> <system_output timestamp="79.377325"> </system_output> <user_input timestamp="79.620845">-</user_input> <system_output timestamp="79.637741">-</system_output> <user_input timestamp="79.908747">m</user_input> <system_output timestamp="79.91931">m</system_output> <user_input timestamp="80.074614"> </user_input> <system_output timestamp="80.07825"> </system_output> <user_input timestamp="80.363829">'</user_input> <system_output timestamp="80.378432">'</system_output> <user_input timestamp="87.382794">a</user_input> <system_output timestamp="87.384519">a</system_output> <user_input timestamp="87.626324">t</user_input> <system_output timestamp="87.63956">t</system_output> <user_input timestamp="87.846821">t</user_input> <system_output timestamp="87.849235">t</system_output> <user_input timestamp="87.926704">e</user_input> <system_output timestamp="87.933906">e</system_output> <user_input timestamp="88.170456">m</user_input> <system_output timestamp="88.186629">m</system_output> <user_input timestamp="88.354256">p</user_input> <system_output timestamp="88.377288">p</system_output> <user_input timestamp="88.660157">t</user_input> <system_output timestamp="88.6735">t</system_output> <user_input timestamp="88.920897"> </user_input> <system_output timestamp="88.92647"> </system_output> <user_input timestamp="89.164388">t</user_input> <system_output timestamp="89.182666">t</system_output> <user_input timestamp="89.286019">o</user_input> <system_output timestamp="89.287905">o</system_output> <user_input timestamp="89.428948"> </user_input> <system_output timestamp="89.436185"> </system_output> <user_input timestamp="89.61175">m</user_input> <system_output timestamp="89.628139">m</system_output> <user_input timestamp="89.734505">a</user_input> <system_output timestamp="89.754819">a</system_output> <user_input timestamp="89.959158">k</user_input> <system_output timestamp="89.967602">k</system_output> <user_input timestamp="90.142709">e</user_input> <system_output timestamp="90.154702">e</system_output> <user_input timestamp="90.264795"> </user_input> <system_output timestamp="90.284237"> </system_output> <user_input timestamp="91.485436">b</user_input> <system_output timestamp="91.491437">b</system_output> <user_input timestamp="91.545329">o</user_input> <system_output timestamp="91.553847">o</system_output> <user_input timestamp="91.749294">o</user_input> <system_output timestamp="91.762996">o</system_output> <user_input timestamp="92.605282">t</user_input> <system_output timestamp="92.608387">t</system_output> <user_input timestamp="93.174683"></user_input> <system_output timestamp="93.198597">[K</system_output> <user_input timestamp="93.396733"></user_input> <system_output timestamp="93.409205">[K</system_output> <user_input timestamp="93.603679"></user_input> <system_output timestamp="93.621657">[K</system_output> <user_input timestamp="93.80633"></user_input> <system_output timestamp="93.811619">[K</system_output> <user_input timestamp="95.169539">l</user_input> <system_output timestamp="95.177483">l</system_output> <user_input timestamp="95.354235">i</user_input> <system_output timestamp="95.364057">i</system_output> <user_input timestamp="95.55889">n</user_input> <system_output timestamp="95.572914">n</system_output> <user_input timestamp="95.639497">u</user_input> <system_output timestamp="95.657148">u</system_output> <user_input timestamp="95.940935">x</user_input> <system_output timestamp="95.953276">x</system_output> <user_input timestamp="96.16719"> </user_input> <system_output timestamp="96.181891"> </system_output> <user_input timestamp="96.390989">s</user_input> <system_output timestamp="96.395714">s</system_output> <user_input timestamp="96.637499">h</user_input> <system_output timestamp="96.64752">h</system_output> <user_input timestamp="96.760955">o</user_input> <system_output timestamp="96.772217">o</system_output> <user_input timestamp="96.985568">w</user_input> <system_output timestamp="97.006089">w</system_output> <user_input timestamp="97.127531"> </user_input> <system_output timestamp="97.131099"> </system_output> <user_input timestamp="97.550786">v</user_input> <system_output timestamp="97.572704">v</system_output> <user_input timestamp="97.591826">i</user_input> <system_output timestamp="97.613946">i</system_output> <user_input timestamp="97.838929">d</user_input> <system_output timestamp="97.845838">d</system_output> <user_input timestamp="97.959477">e</user_input> <system_output timestamp="97.97303">e</system_output> <user_input timestamp="98.281346">o</user_input> <system_output timestamp="98.288445">o</system_output> <user_input timestamp="98.485251"> </user_input> <system_output timestamp="98.497234"> </system_output> <user_input timestamp="98.806189">a</user_input> <system_output timestamp="98.813805">a</system_output> <user_input timestamp="98.909733">f</user_input> <system_output timestamp="98.917195">f</system_output> <user_input timestamp="99.399884">t</user_input> <system_output timestamp="99.405022">t</system_output> <user_input timestamp="99.543579">e</user_input> <system_output timestamp="99.553516">e</system_output> <user_input timestamp="99.765049">r</user_input> <system_output timestamp="99.783116">r</system_output> <user_input timestamp="100.091549"> </user_input> <system_output timestamp="100.096433"> </system_output> <user_input timestamp="103.245279"></user_input> <system_output timestamp="103.247279">[K</system_output> <user_input timestamp="103.484023"></user_input> <system_output timestamp="103.50356">[K</system_output> <user_input timestamp="103.642096"></user_input> <system_output timestamp="103.66117">[K</system_output> <user_input timestamp="103.820347"></user_input> <system_output timestamp="103.840122">[K</system_output> <user_input timestamp="103.997598"></user_input> <system_output timestamp="104.000924">[K</system_output> <user_input timestamp="104.197566"></user_input> <system_output timestamp="104.200206">[K</system_output> <user_input timestamp="104.850433">w</user_input> <system_output timestamp="104.857042">w</system_output> <user_input timestamp="105.009001">h</user_input> <system_output timestamp="105.016386">h</system_output> <user_input timestamp="105.127819">e</user_input> <system_output timestamp="105.135134">e</system_output> <user_input timestamp="105.368653">n</user_input> <system_output timestamp="105.37265">n</system_output> <user_input timestamp="105.586978"> </user_input> <system_output timestamp="105.589731"> </system_output> <user_input timestamp="105.763928">b</user_input> <system_output timestamp="105.766561">b</system_output> <user_input timestamp="105.844364">o</user_input> <system_output timestamp="105.866079">o</system_output> <user_input timestamp="106.00511">o</user_input> <system_output timestamp="106.023513">o</system_output> <user_input timestamp="106.1252">t</user_input> <system_output timestamp="106.142699">t</system_output> <user_input timestamp="106.245145">e</user_input> <system_output timestamp="106.259645">e</system_output> <user_input timestamp="106.464231">d</user_input> <system_output timestamp="106.478313">d</system_output> <user_input timestamp="106.640422"> </user_input> <system_output timestamp="106.657416"> </system_output> <user_input timestamp="106.837329">f</user_input> <system_output timestamp="106.85172">f</system_output> <user_input timestamp="107.131536">r</user_input> <system_output timestamp="107.146066">r</system_output> <user_input timestamp="107.251537">o</user_input> <system_output timestamp="107.261581">o</system_output> <user_input timestamp="107.410818">m</user_input> <system_output timestamp="107.419231">m</system_output> <user_input timestamp="107.573205"> </user_input> <system_output timestamp="107.579952"> </system_output> <user_input timestamp="108.047076">E</user_input> <system_output timestamp="108.05832">E</system_output> <user_input timestamp="108.383499">F</user_input> <system_output timestamp="108.393205">F</system_output> <user_input timestamp="108.540804">I</user_input> <system_output timestamp="108.55239">I</system_output> <user_input timestamp="108.902538">.</user_input> <system_output timestamp="108.911912">.</system_output> <user_input timestamp="109.282076">'</user_input> <system_output timestamp="109.293084">'</system_output> <user_input timestamp="111.107391"> </user_input> <system_output timestamp="111.116216"> [?2004l </system_output> <system_output timestamp="111.128166">sudo: unable to resolve host faiserver: Name or service not known </system_output> <system_output timestamp="111.808225">[master 86227f7] attempt to make linux show video when booted from EFI. </system_output> <system_output timestamp="111.809551"> 1 file changed, 33 insertions(+) </system_output> <system_output timestamp="111.8131">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="119.895292"/>	75.807825
You are a strict data extraction algorithm. Your purpose is to output ONLY the numerical timestamp of the next command event in the XML log. ### DEFINITION OF A BOUNDARY: A boundary is the first `<user_input>` tag following any system-provided state where the terminal is awaiting input. An input state includes: 1. Shell Prompts: Lines containing `$` or `#` (e.g., `user@host:~$`). 2. Authentication: Prompts asking for secrets (e.g., `password for`, `[sudo]`). 3. Interactive Pagers: Terminal states indicating a pause or waiting for user interaction (e.g., `(END)`, `[7m`, or prompts lacking a trailing newline). ### YOUR ALGORITHM: 1. START POINT: The current cursor is at timestamp: 75.807825. 2. SCAN: Begin reading the log sequentially, looking only at `<system_output>` tags that occur AFTER 75.807825. 3. IDENTIFY STATE: Determine if the system is waiting for input based on the definitions above. 4. EXTRACT: Identify the very next `<user_input>` tag following that state. 5. OUTPUT: Extract the `timestamp` value from that `<user_input>` tag. ### CRITICAL GUARDRAILS (ZERO TOLERANCE): - STRICT ADVANCEMENT: The output timestamp must be strictly greater than 75.807825. - NO CHATTER: Output ONLY the digits. No headers, no markdown, no quotes. - NO LISTS: Return only one single timestamp per execution. - NO HALLUCINATION: The value must exist exactly as written in the source XML. ### FINAL COMMAND: Find the first instance of a shell prompt, password request, or pager waiting state occurring after timestamp 75.807825, and return the timestamp of the immediate next `<user_input>` tag. Output ONLY that number.	<user_input timestamp="75.807825">g</user_input> <system_output timestamp="75.811978">g</system_output> <user_input timestamp="76.075135">u</user_input> <system_output timestamp="76.087862">u</system_output> <user_input timestamp="76.587425"></user_input> <system_output timestamp="76.59296">[K</system_output> <user_input timestamp="76.772683"></user_input> <system_output timestamp="76.793629">[K</system_output> <user_input timestamp="76.97924">s</user_input> <system_output timestamp="76.992396">s</system_output> <user_input timestamp="77.081116">u</user_input> <system_output timestamp="77.092681">u</system_output> <user_input timestamp="77.270107">d</user_input> <system_output timestamp="77.290834">d</system_output> <user_input timestamp="77.37435">o</user_input> <system_output timestamp="77.391245">o</system_output> <user_input timestamp="77.46009"> </user_input> <system_output timestamp="77.47304"> </system_output> <user_input timestamp="77.688704">g</user_input> <system_output timestamp="77.708252">g</system_output> <user_input timestamp="77.812759">i</user_input> <system_output timestamp="77.829368">i</system_output> <user_input timestamp="78.102383">t</user_input> <system_output timestamp="78.111121">t</system_output> <user_input timestamp="78.227675"> </user_input> <system_output timestamp="78.231081"> </system_output> <user_input timestamp="78.456741">c</user_input> <system_output timestamp="78.470274">c</system_output> <user_input timestamp="78.540413">o</user_input> <system_output timestamp="78.548625">o</system_output> <user_input timestamp="78.748867">m</user_input> <system_output timestamp="78.762718">m</system_output> <user_input timestamp="78.935861">m</user_input> <system_output timestamp="78.941982">m</system_output> <user_input timestamp="79.018823">i</user_input> <system_output timestamp="79.021313">i</system_output> <user_input timestamp="79.249191">t</user_input> <system_output timestamp="79.258383">t</system_output> <user_input timestamp="79.372863"> </user_input> <system_output timestamp="79.377325"> </system_output> <user_input timestamp="79.620845">-</user_input> <system_output timestamp="79.637741">-</system_output> <user_input timestamp="79.908747">m</user_input> <system_output timestamp="79.91931">m</system_output> <user_input timestamp="80.074614"> </user_input> <system_output timestamp="80.07825"> </system_output> <user_input timestamp="80.363829">'</user_input> <system_output timestamp="80.378432">'</system_output> <user_input timestamp="87.382794">a</user_input> <system_output timestamp="87.384519">a</system_output> <user_input timestamp="87.626324">t</user_input> <system_output timestamp="87.63956">t</system_output> <user_input timestamp="87.846821">t</user_input> <system_output timestamp="87.849235">t</system_output> <user_input timestamp="87.926704">e</user_input> <system_output timestamp="87.933906">e</system_output> <user_input timestamp="88.170456">m</user_input> <system_output timestamp="88.186629">m</system_output> <user_input timestamp="88.354256">p</user_input> <system_output timestamp="88.377288">p</system_output> <user_input timestamp="88.660157">t</user_input> <system_output timestamp="88.6735">t</system_output> <user_input timestamp="88.920897"> </user_input> <system_output timestamp="88.92647"> </system_output> <user_input timestamp="89.164388">t</user_input> <system_output timestamp="89.182666">t</system_output> <user_input timestamp="89.286019">o</user_input> <system_output timestamp="89.287905">o</system_output> <user_input timestamp="89.428948"> </user_input> <system_output timestamp="89.436185"> </system_output> <user_input timestamp="89.61175">m</user_input> <system_output timestamp="89.628139">m</system_output> <user_input timestamp="89.734505">a</user_input> <system_output timestamp="89.754819">a</system_output> <user_input timestamp="89.959158">k</user_input> <system_output timestamp="89.967602">k</system_output> <user_input timestamp="90.142709">e</user_input> <system_output timestamp="90.154702">e</system_output> <user_input timestamp="90.264795"> </user_input> <system_output timestamp="90.284237"> </system_output> <user_input timestamp="91.485436">b</user_input> <system_output timestamp="91.491437">b</system_output> <user_input timestamp="91.545329">o</user_input> <system_output timestamp="91.553847">o</system_output> <user_input timestamp="91.749294">o</user_input> <system_output timestamp="91.762996">o</system_output> <user_input timestamp="92.605282">t</user_input> <system_output timestamp="92.608387">t</system_output> <user_input timestamp="93.174683"></user_input> <system_output timestamp="93.198597">[K</system_output> <user_input timestamp="93.396733"></user_input> <system_output timestamp="93.409205">[K</system_output> <user_input timestamp="93.603679"></user_input> <system_output timestamp="93.621657">[K</system_output> <user_input timestamp="93.80633"></user_input> <system_output timestamp="93.811619">[K</system_output> <user_input timestamp="95.169539">l</user_input> <system_output timestamp="95.177483">l</system_output> <user_input timestamp="95.354235">i</user_input> <system_output timestamp="95.364057">i</system_output> <user_input timestamp="95.55889">n</user_input> <system_output timestamp="95.572914">n</system_output> <user_input timestamp="95.639497">u</user_input> <system_output timestamp="95.657148">u</system_output> <user_input timestamp="95.940935">x</user_input> <system_output timestamp="95.953276">x</system_output> <user_input timestamp="96.16719"> </user_input> <system_output timestamp="96.181891"> </system_output> <user_input timestamp="96.390989">s</user_input> <system_output timestamp="96.395714">s</system_output> <user_input timestamp="96.637499">h</user_input> <system_output timestamp="96.64752">h</system_output> <user_input timestamp="96.760955">o</user_input> <system_output timestamp="96.772217">o</system_output> <user_input timestamp="96.985568">w</user_input> <system_output timestamp="97.006089">w</system_output> <user_input timestamp="97.127531"> </user_input> <system_output timestamp="97.131099"> </system_output> <user_input timestamp="97.550786">v</user_input> <system_output timestamp="97.572704">v</system_output> <user_input timestamp="97.591826">i</user_input> <system_output timestamp="97.613946">i</system_output> <user_input timestamp="97.838929">d</user_input> <system_output timestamp="97.845838">d</system_output> <user_input timestamp="97.959477">e</user_input> <system_output timestamp="97.97303">e</system_output> <user_input timestamp="98.281346">o</user_input> <system_output timestamp="98.288445">o</system_output> <user_input timestamp="98.485251"> </user_input> <system_output timestamp="98.497234"> </system_output> <user_input timestamp="98.806189">a</user_input> <system_output timestamp="98.813805">a</system_output> <user_input timestamp="98.909733">f</user_input> <system_output timestamp="98.917195">f</system_output> <user_input timestamp="99.399884">t</user_input> <system_output timestamp="99.405022">t</system_output> <user_input timestamp="99.543579">e</user_input> <system_output timestamp="99.553516">e</system_output> <user_input timestamp="99.765049">r</user_input> <system_output timestamp="99.783116">r</system_output> <user_input timestamp="100.091549"> </user_input> <system_output timestamp="100.096433"> </system_output> <user_input timestamp="103.245279"></user_input> <system_output timestamp="103.247279">[K</system_output> <user_input timestamp="103.484023"></user_input> <system_output timestamp="103.50356">[K</system_output> <user_input timestamp="103.642096"></user_input> <system_output timestamp="103.66117">[K</system_output> <user_input timestamp="103.820347"></user_input> <system_output timestamp="103.840122">[K</system_output> <user_input timestamp="103.997598"></user_input> <system_output timestamp="104.000924">[K</system_output> <user_input timestamp="104.197566"></user_input> <system_output timestamp="104.200206">[K</system_output> <user_input timestamp="104.850433">w</user_input> <system_output timestamp="104.857042">w</system_output> <user_input timestamp="105.009001">h</user_input> <system_output timestamp="105.016386">h</system_output> <user_input timestamp="105.127819">e</user_input> <system_output timestamp="105.135134">e</system_output> <user_input timestamp="105.368653">n</user_input> <system_output timestamp="105.37265">n</system_output> <user_input timestamp="105.586978"> </user_input> <system_output timestamp="105.589731"> </system_output> <user_input timestamp="105.763928">b</user_input> <system_output timestamp="105.766561">b</system_output> <user_input timestamp="105.844364">o</user_input> <system_output timestamp="105.866079">o</system_output> <user_input timestamp="106.00511">o</user_input> <system_output timestamp="106.023513">o</system_output> <user_input timestamp="106.1252">t</user_input> <system_output timestamp="106.142699">t</system_output> <user_input timestamp="106.245145">e</user_input> <system_output timestamp="106.259645">e</system_output> <user_input timestamp="106.464231">d</user_input> <system_output timestamp="106.478313">d</system_output> <user_input timestamp="106.640422"> </user_input> <system_output timestamp="106.657416"> </system_output> <user_input timestamp="106.837329">f</user_input> <system_output timestamp="106.85172">f</system_output> <user_input timestamp="107.131536">r</user_input> <system_output timestamp="107.146066">r</system_output> <user_input timestamp="107.251537">o</user_input> <system_output timestamp="107.261581">o</system_output> <user_input timestamp="107.410818">m</user_input> <system_output timestamp="107.419231">m</system_output> <user_input timestamp="107.573205"> </user_input> <system_output timestamp="107.579952"> </system_output> <user_input timestamp="108.047076">E</user_input> <system_output timestamp="108.05832">E</system_output> <user_input timestamp="108.383499">F</user_input> <system_output timestamp="108.393205">F</system_output> <user_input timestamp="108.540804">I</user_input> <system_output timestamp="108.55239">I</system_output> <user_input timestamp="108.902538">.</user_input> <system_output timestamp="108.911912">.</system_output> <user_input timestamp="109.282076">'</user_input> <system_output timestamp="109.293084">'</system_output> <user_input timestamp="111.107391"> </user_input> <system_output timestamp="111.116216"> [?2004l </system_output> <system_output timestamp="111.128166">sudo: unable to resolve host faiserver: Name or service not known </system_output> <system_output timestamp="111.808225">[master 86227f7] attempt to make linux show video when booted from EFI. </system_output> <system_output timestamp="111.809551"> 1 file changed, 33 insertions(+) </system_output> <system_output timestamp="111.8131">[?2004h]0;demo@faiserver: /home/fai/configdemo@faiserver:/home/fai/config$ </system_output> <user_input timestamp="119.895292"/> <system_output timestamp="119.896711">[?2004l </system_output> <system_output timestamp="119.89708">logout </system_output> <system_output timestamp="119.90277">Connection to 172.16.0.17 closed. </system_output> <system_output timestamp="119.906135">[?2004hdemo@stephost:~$ </system_output> <user_input timestamp="120.953681"/>	119.895292
You are a strict data extraction algorithm. Your purpose is to output ONLY the numerical timestamp of the next command event in the XML log. ### DEFINITION OF A BOUNDARY: A boundary is the first `<user_input>` tag following any system-provided state where the terminal is awaiting input. An input state includes: 1. Shell Prompts: Lines containing `$` or `#` (e.g., `user@host:~$`). 2. Authentication: Prompts asking for secrets (e.g., `password for`, `[sudo]`). 3. Interactive Pagers: Terminal states indicating a pause or waiting for user interaction (e.g., `(END)`, `[7m`, or prompts lacking a trailing newline). ### YOUR ALGORITHM: 1. START POINT: The current cursor is at timestamp: 119.895292. 2. SCAN: Begin reading the log sequentially, looking only at `<system_output>` tags that occur AFTER 119.895292. 3. IDENTIFY STATE: Determine if the system is waiting for input based on the definitions above. 4. EXTRACT: Identify the very next `<user_input>` tag following that state. 5. OUTPUT: Extract the `timestamp` value from that `<user_input>` tag. ### CRITICAL GUARDRAILS (ZERO TOLERANCE): - STRICT ADVANCEMENT: The output timestamp must be strictly greater than 119.895292. - NO CHATTER: Output ONLY the digits. No headers, no markdown, no quotes. - NO LISTS: Return only one single timestamp per execution. - NO HALLUCINATION: The value must exist exactly as written in the source XML. ### FINAL COMMAND: Find the first instance of a shell prompt, password request, or pager waiting state occurring after timestamp 119.895292, and return the timestamp of the immediate next `<user_input>` tag. Output ONLY that number.	<user_input timestamp="119.895292"/> <system_output timestamp="119.896711">[?2004l </system_output> <system_output timestamp="119.89708">logout </system_output> <system_output timestamp="119.90277">Connection to 172.16.0.17 closed. </system_output> <system_output timestamp="119.906135">[?2004hdemo@stephost:~$ </system_output> <user_input timestamp="120.953681"/> <system_output timestamp="120.954127">[?2004l exit </system_output>	120.953681

Terminal Recording Group Boundary Dataset

This dataset consists of raw terminal recording logs in XML format, paired with ground-truth timestamps for shell prompt boundaries.

Model 0: Terminal Boundary Extractor

Terminal recordings are long, continuous streams of text data. To make this data useful for downstream tasks, we must first break this stream into logical "events" (e.g., a single command execution and its resulting output). Model 0 is specifically designed for this segmentation task. The model is trained to identify the precise timestamp boundary where one event ends and the next begins.

Generation Logic & Sliding Windows (Important)

The label the model must predict is the boundary timestamp—the exact moment the shell prompt returns, signaling the end of an event.

To generate robust training data, we use a sliding window approach encompassing exactly three consecutive boundary timestamps (T1, T2, and T3) for each input:

T1 (The Anchor): The known starting timestamp of the current event.
T2 (The Target): The actual event boundary the model must predict.
T3 (The Context Cutoff): The end of the input window.

Why include the third timestamp (T3)?

Each training input contains all <user_input> and <system_output> XML tags from T1 all the way to T3.

If the input window stopped at T2, the task would be trivial: the model would eventually realize it just needs to extract the very last timestamp present in the provided text. By extending the context to T3, we include a "distractor" event. This forces the model to semantically understand the terminal log and identify the internal boundary dividing the two separate events, rather than just pointing to the end of the file.

Example

Assume a recording has three sequential boundaries: 0.007194, 21.987222, and 37.178971.

The Input Window: Contains all XML chunks from 0.007194 to 37.178971.
The Content: This window actually covers two distinct events:
- Event A: Context between 0.007194 and 21.987222.
- Event B: Context between 21.987222 and 37.178971.
The Target Output: 21.987222 (the dividing boundary between Event 1 and Event 2).

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