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| Rev | Author | Line No. | Line |
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| 125 | decky | 1 | \chapter{Running HelenOS} |
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| 143 | palkovsky | 3 | \section{Kernel Start} |
| 4 | When the HelenOS kernel starts up, it configures its output device |
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| 5 | and starts booting. During the boot process it writes out some some |
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| 6 | lines regarding memory size and available CPUs. The userspace |
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| 7 | drivers and tasks take over the console as soon as the start-up activity |
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| 8 | and developer kernel tests are finished. |
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| 9 | |||
| 10 | The console driver provides 12 virtual consoles, 11 reserved |
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| 11 | for applications, console 12 is reserved for kernel console. Pressing |
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| 12 | function keys F1-F12 switches between the consoles. |
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| 13 | |||
| 14 | \section{KConsole} |
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| 15 | KConsole is a kernel thread operating completely in priviledged mode. |
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| 144 | palkovsky | 16 | It allows user to interact directly with the kernel and even start directly |
| 143 | palkovsky | 17 | functions inside the kernel. |
| 18 | |||
| 19 | The KConsole is shown by switching to console number 12. On some platforms |
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| 20 | the kconsole screen is not restored to its previous contents. Press |
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| 21 | enter to see a KConsole prompt. The function keys for switching terminals |
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| 144 | palkovsky | 22 | do not work in KConsole, to switch back to other console, use |
| 143 | palkovsky | 23 | the {\em continue} command. After executing the command, press a function key |
| 24 | to switch to other consoles. |
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| 25 | |||
| 26 | The basic editing facilities are very similar to {\em readline} conventions. |
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| 27 | The left and right arrows, backspace and delete keys allow for convenient |
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| 28 | editing of the text. The history of last ten commands can be retrieved |
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| 29 | using up and down arrows. KConsole supports tab completion, double tab |
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| 30 | shows a list of available commands. |
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| 31 | |||
| 32 | The first class of commands prints useful statistics from the running |
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| 33 | operating systems. The commands are: |
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| 144 | palkovsky | 34 | \begin{description} |
| 35 | \item[zones] --- Prints a list of memory zones. |
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| 36 | \item[zone $<$zone number$>$] --- Prints a detailed statistics about frame allocator. |
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| 37 | \item[slabs] --- Prints a details statistics about slab allocator. |
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| 38 | \item[scheduler] --- Prints scheduler queues on all cpus. |
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| 39 | \item[threads] --- Prints list of existing threads, including information about |
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| 40 | the thread state |
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| 41 | \item[tasks] --- Prints list of tasks along with some basic IPC informations. |
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| 42 | \item[ipc\_task $<$taskid$>$] --- Prints detailed information about IPC queues of a particular task. |
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| 43 | \item[tlb] --- Prints contents of the Translation Lookaside Buffer on a processor (supported only on some platforms) |
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| 44 | \item[exc] --- Prints table of registered exception handlers |
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| 45 | \end{description} |
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| 143 | palkovsky | 46 | |
| 47 | Kernel contains a searchable version of its symbol table. This is used |
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| 48 | in error processing as well as for extending functionality of KConsole. |
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| 49 | The following commands are supported: |
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| 144 | palkovsky | 50 | \begin{description} |
| 51 | \item[symaddr $<$address$>$] --- Finds an address in symbol table and prints appropriate |
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| 143 | palkovsky | 52 | symbol name. |
| 144 | palkovsky | 53 | \item[call0, call1... $<$function$>$ $<$args...$>$] --- Calls a C function function(args...). |
| 143 | palkovsky | 54 | Note that the tab-completion works for the function names. Because |
| 55 | of architecture calling convention, this command does not work correctly |
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| 56 | on the ia64 platform. The arguments can be specified |
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| 144 | palkovsky | 57 | \begin{itemize} |
| 58 | \item as a number or hexadecimal number: call1 task\_kill 8 |
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| 59 | \item as a string: call1 printf "Hello world" |
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| 60 | \item as a hexadecimal number preceded by '*'. The argument is then read from |
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| 143 | palkovsky | 61 | the given address: call2 printf "%X" *0x8000000 |
| 144 | palkovsky | 62 | \item as a symbol name. In such case the value located in the memory |
| 143 | palkovsky | 63 | in the symbols address is used: call2 printf "%d" task_counter |
| 144 | palkovsky | 64 | \item as a symbol name preceded by '\&'. The address is used. |
| 65 | \item as a symbol name preceded by '*'. In such a case the symbol is dereferenced. |
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| 66 | \end{itemize} |
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| 67 | \item[set4 <address|symbol name>] --- Saves 4-byte value on a given address. |
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| 68 | \end{description} |
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| 143 | palkovsky | 69 | |
| 70 | The mips, ia32 and amd64 platforms provide additional commands regarding |
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| 71 | debugging facility - set and clear hardware breakpoints and watchpoints. |
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| 72 | |||
| 73 | \section{Emergency Functions} |
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| 74 | It may happen that the IPC communication dies or that there are some |
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| 75 | problems in the communication chain |
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| 76 | {\em keboard driver} - {\em console} - {\em output driver}. |
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| 77 | As long that at least the keyboard driver works, pressing Escape key three |
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| 78 | times transfers control to the KConsole immediately. Screen is not updated, |
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| 79 | the user should press Enter to see the kconsole prompt. |
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| 80 | |||
| 81 | If a kernel panic occurs, the error handling automatially switches control |
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| 82 | to the KConsole and allows users to inspect the failed kernel online. |
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| 83 | On the SMP system the other processors are halted immediately. The kernel |
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| 84 | contains its symbol table, so you can probably read some useful information |
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| 144 | palkovsky | 85 | about the exact place where the panic occured. |