| 1 | /* The object file of "table.c" contains most kernel data. Variables that
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| 2 | * are declared in the *.h files appear with EXTERN in front of them, as in
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| 3 | *
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| 4 | * EXTERN int x;
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| 5 | *
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| 6 | * Normally EXTERN is defined as extern, so when they are included in another
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| 7 | * file, no storage is allocated. If EXTERN were not present, but just say,
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| 8 | *
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| 9 | * int x;
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| 10 | *
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| 11 | * then including this file in several source files would cause 'x' to be
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| 12 | * declared several times. While some linkers accept this, others do not,
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| 13 | * so they are declared extern when included normally. However, it must be
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| 14 | * declared for real somewhere. That is done here, by redefining EXTERN as
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| 15 | * the null string, so that inclusion of all *.h files in table.c actually
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| 16 | * generates storage for them.
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| 17 | *
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| 18 | * Various variables could not be declared EXTERN, but are declared PUBLIC
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| 19 | * or PRIVATE. The reason for this is that extern variables cannot have a
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| 20 | * default initialization. If such variables are shared, they must also be
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| 21 | * declared in one of the *.h files without the initialization. Examples
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| 22 | * include 'boot_image' (this file) and 'idt' and 'gdt' (protect.c).
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| 23 | *
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| 24 | * Changes:
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| 25 | * Aug 02, 2005 set privileges and minimal boot image (Jorrit N. Herder)
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| 26 | * Oct 17, 2004 updated above and tasktab comments (Jorrit N. Herder)
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| 27 | * May 01, 2004 changed struct for system image (Jorrit N. Herder)
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| 28 | */
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| 29 | #define _TABLE
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| 30 |
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| 31 | #include "kernel.h"
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| 32 | #include "proc.h"
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| 33 | #include "ipc.h"
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| 34 | #include <minix/com.h>
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| 35 | #include <ibm/int86.h>
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| 36 |
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| 37 | /* Define stack sizes for the kernel tasks included in the system image. */
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| 38 | #define NO_STACK 0
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| 39 | #define SMALL_STACK (128 * sizeof(char *))
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| 40 | #define IDL_S SMALL_STACK /* 3 intr, 3 temps, 4 db for Intel */
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| 41 | #define HRD_S NO_STACK /* dummy task, uses kernel stack */
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| 42 | #define TSK_S SMALL_STACK /* system and clock task */
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| 43 |
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| 44 | /* Stack space for all the task stacks. Declared as (char *) to align it. */
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| 45 | #define TOT_STACK_SPACE (IDL_S + HRD_S + (2 * TSK_S))
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| 46 | PUBLIC char *t_stack[TOT_STACK_SPACE / sizeof(char *)];
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| 47 |
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| 48 | /* Define flags for the various process types. */
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| 49 | #define IDL_F (SYS_PROC | PREEMPTIBLE | BILLABLE) /* idle task */
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| 50 | #define TSK_F (SYS_PROC) /* kernel tasks */
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| 51 | #define SRV_F (SYS_PROC | PREEMPTIBLE) /* system services */
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| 52 | #define USR_F (BILLABLE | PREEMPTIBLE) /* user processes */
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| 53 |
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| 54 | /* Define system call traps for the various process types. These call masks
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| 55 | * determine what system call traps a process is allowed to make.
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| 56 | */
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| 57 | #define TSK_T (1 << RECEIVE) /* clock and system */
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| 58 | #define SRV_T (~0) /* system services */
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| 59 | #define USR_T ((1 << SENDREC) | (1 << ECHO)) /* user processes */
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| 60 |
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| 61 | /* Send masks determine to whom processes can send messages or notifications.
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| 62 | * The values here are used for the processes in the boot image. We rely on
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| 63 | * the initialization code in main() to match the s_nr_to_id() mapping for the
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| 64 | * processes in the boot image, so that the send mask that is defined here
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| 65 | * can be directly copied onto map[0] of the actual send mask. Privilege
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| 66 | * structure 0 is shared by user processes.
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| 67 | */
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| 68 | #define s(n) (1 << s_nr_to_id(n))
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| 69 | #define SRV_M (~0)
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| 70 | #define SYS_M (~0)
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| 71 | #define USR_M (s(PM_PROC_NR) | s(FS_PROC_NR) | s(RS_PROC_NR))
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| 72 | #define DRV_M (USR_M | s(SYSTEM) | s(CLOCK) | s(LOG_PROC_NR) | s(TTY_PROC_NR))
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| 73 |
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| 74 | /* Define kernel calls that processes are allowed to make. This is not looking
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| 75 | * very nice, but we need to define the access rights on a per call basis.
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| 76 | * Note that the reincarnation server has all bits on, because it should
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| 77 | * be allowed to distribute rights to services that it starts.
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| 78 | */
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| 79 | #define c(n) (1 << ((n)-KERNEL_CALL))
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| 80 | #define RS_C ~0
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| 81 | #define PM_C ~(c(SYS_DEVIO) | c(SYS_SDEVIO) | c(SYS_VDEVIO) \
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| 82 | | c(SYS_IRQCTL) | c(SYS_INT86))
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| 83 | #define FS_C (c(SYS_KILL) | c(SYS_VIRCOPY) | c(SYS_VIRVCOPY) | c(SYS_UMAP) \
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| 84 | | c(SYS_GETINFO) | c(SYS_EXIT) | c(SYS_TIMES) | c(SYS_SETALARM))
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| 85 | #define DRV_C (FS_C | c(SYS_SEGCTL) | c(SYS_IRQCTL) | c(SYS_INT86) \
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| 86 | | c(SYS_DEVIO) | c(SYS_VDEVIO) | c(SYS_SDEVIO))
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| 87 | #define MEM_C (DRV_C | c(SYS_PHYSCOPY) | c(SYS_PHYSVCOPY))
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| 88 |
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| 89 | /* The system image table lists all programs that are part of the boot image.
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| 90 | * The order of the entries here MUST agree with the order of the programs
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| 91 | * in the boot image and all kernel tasks must come first.
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| 92 | * Each entry provides the process number, flags, quantum size (qs), scheduling
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| 93 | * queue, allowed traps, ipc mask, and a name for the process table. The
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| 94 | * initial program counter and stack size is also provided for kernel tasks.
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| 95 | */
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| 96 | PUBLIC struct boot_image image[] = {
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| 97 | /* process nr, pc, flags, qs, queue, stack, traps, ipcto, call, name */
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| 98 | { IDLE, idle_task, IDL_F, 8, IDLE_Q, IDL_S, 0, 0, 0, "IDLE" },
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| 99 | { CLOCK,clock_task, TSK_F, 64, TASK_Q, TSK_S, TSK_T, 0, 0, "CLOCK" },
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| 100 | { SYSTEM, sys_task, TSK_F, 64, TASK_Q, TSK_S, TSK_T, 0, 0, "SYSTEM"},
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| 101 | { HARDWARE, 0, TSK_F, 64, TASK_Q, HRD_S, 0, 0, 0, "KERNEL"},
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| 102 | { PM_PROC_NR, 0, SRV_F, 32, 3, 0, SRV_T, SRV_M, PM_C, "pm" },
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| 103 | { FS_PROC_NR, 0, SRV_F, 32, 4, 0, SRV_T, SRV_M, FS_C, "fs" },
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| 104 | { RS_PROC_NR, 0, SRV_F, 4, 3, 0, SRV_T, SYS_M, RS_C, "rs" },
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| 105 | { TTY_PROC_NR, 0, SRV_F, 4, 1, 0, SRV_T, SYS_M, DRV_C, "tty" },
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| 106 | { MEM_PROC_NR, 0, SRV_F, 4, 2, 0, SRV_T, DRV_M, MEM_C, "memory"},
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| 107 | { LOG_PROC_NR, 0, SRV_F, 4, 2, 0, SRV_T, SYS_M, DRV_C, "log" },
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| 108 | { DRVR_PROC_NR, 0, SRV_F, 4, 2, 0, SRV_T, SYS_M, DRV_C, "driver"},
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| 109 | { INIT_PROC_NR, 0, USR_F, 8, USER_Q, 0, USR_T, USR_M, 0, "init" },
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| 110 | };
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| 111 |
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| 112 | /* Verify the size of the system image table at compile time. Also verify that
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| 113 | * the first chunk of the ipc mask has enough bits to accommodate the processes
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| 114 | * in the image.
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| 115 | * If a problem is detected, the size of the 'dummy' array will be negative,
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| 116 | * causing a compile time error. Note that no space is actually allocated
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| 117 | * because 'dummy' is declared extern.
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| 118 | */
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| 119 | extern int dummy[(NR_BOOT_PROCS==sizeof(image)/
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| 120 | sizeof(struct boot_image))?1:-1];
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| 121 | extern int dummy[(BITCHUNK_BITS > NR_BOOT_PROCS - 1) ? 1 : -1];
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| 122 |
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