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sortix--sortix/init/init.c

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/*
* Copyright (c) 2011, 2012, 2013, 2014, 2015, 2016 Jonas 'Sortie' Termansen.
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* init.c
* Start the operating system.
*/
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#include <sys/display.h>
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#include <sys/mount.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <sys/wait.h>
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#include <assert.h>
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#include <ctype.h>
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#include <dirent.h>
#include <errno.h>
#include <error.h>
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#include <fcntl.h>
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#include <fstab.h>
#include <grp.h>
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#include <locale.h>
#include <pwd.h>
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#include <signal.h>
#include <stdarg.h>
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#include <stdbool.h>
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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
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#include <termios.h>
#include <time.h>
#include <timespec.h>
#include <unistd.h>
Implemented the fork() system call and what it needed to work properly. This commit got completely out of control. Added the fork(), getpid(), getppid(), sleep(), usleep() system calls, and aliases in the Maxsi:: namespace. Fixed a bug where zero-byte allocation would fail. Worked on the DescriptorTable class which now works and can fork. Got rid of some massive print-registers statements and replaced them with the portable InterruptRegisters::LogRegisters() function. Removed the SysExecuteOld function and replaced it with Process::Execute(). Rewrote the boot sequence in kernel.cpp such that it now loads the system idle process 'idle' as PID 0, and the initization process 'init' as PID 1. Rewrote the SIGINT hack. Processes now maintain a family-tree structure and keep track of their threads. PIDs are now allocated using a simple hack. Virtual memory per-process can now be allocated using a simple hack. Processes can now be forked. Fixed the Process::Execute function such that it now resets the stack pointer to where the stack actually is - not just a magic value. Removed the old and ugly Process::_endcodesection hack. Rewrote the scheduler into a much cleaner and faster version. Debug code is now moved to designated functions. The noop kernel-thread has been replaced by a simple user-space infinite-loop program 'idle'. The Thread class has been seperated from the Scheduler except in Scheduler- related code. Thread::{Save,Load}Registers has been improved and has been moved to $(CPU)/thread.cpp. Threads can now be forked. A new CreateThread function creates threads properly and portably. Added a MicrosecondsSinceBoot() function. Fixed a crucial bug in MemoryManagement::Fork(). Added an 'idle' user-space program that is a noop infinite loop, which is used by the scheduler when there is nothing to do. Rewrote the 'init' program such that it now forks off a shell, instead of becoming the shell. Added the $$ (current PID) and $PPID (parent PPID) variables to the shell.
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#include <fsmarshall.h>
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#include <mount/blockdevice.h>
#include <mount/devices.h>
#include <mount/filesystem.h>
#include <mount/harddisk.h>
#include <mount/partition.h>
#include <mount/uuid.h>
static char* read_single_line(FILE* fp)
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{
char* ret = NULL;
size_t ret_size = 0;
ssize_t ret_length = getline(&ret, &ret_size, fp);
if ( ret_length < 0 )
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{
free(ret);
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return NULL;
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}
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if ( ret_length && ret[ret_length-1] == '\n' )
ret[--ret_length] = '\0';
return ret;
}
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static char* join_paths(const char* a, const char* b)
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{
size_t a_len = strlen(a);
bool has_slash = (a_len && a[a_len-1] == '/') || b[0] == '/';
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char* result;
if ( (has_slash && asprintf(&result, "%s%s", a, b) < 0) ||
(!has_slash && asprintf(&result, "%s/%s", a, b) < 0) )
return NULL;
return result;
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}
static pid_t main_pid;
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__attribute__((noreturn))
__attribute__((format(printf, 1, 2)))
static void fatal(const char* format, ...)
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{
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va_list ap;
va_start(ap, format);
fprintf(stderr, "%s: fatal: ", program_invocation_name);
vfprintf(stderr, format, ap);
fprintf(stderr, "\n");
fflush(stderr);
va_end(ap);
if ( getpid() == main_pid )
exit(2);
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_exit(2);
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}
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__attribute__((format(printf, 1, 2)))
static void warning(const char* format, ...)
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{
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va_list ap;
va_start(ap, format);
fprintf(stderr, "%s: warning: ", program_invocation_name);
vfprintf(stderr, format, ap);
fprintf(stderr, "\n");
fflush(stderr);
va_end(ap);
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}
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__attribute__((format(printf, 1, 2)))
static void note(const char* format, ...)
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{
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va_list ap;
va_start(ap, format);
fprintf(stderr, "%s: ", program_invocation_name);
vfprintf(stderr, format, ap);
fprintf(stderr, "\n");
fflush(stderr);
va_end(ap);
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}
static struct harddisk** hds = NULL;
static size_t hds_used = 0;
static size_t hds_length = 0;
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static void prepare_filesystem(const char* path, struct blockdevice* bdev)
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{
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enum filesystem_error fserr = blockdevice_inspect_filesystem(&bdev->fs, bdev);
if ( fserr == FILESYSTEM_ERROR_ABSENT ||
fserr == FILESYSTEM_ERROR_UNRECOGNIZED )
return;
if ( fserr != FILESYSTEM_ERROR_NONE )
return warning("probing: %s: %s", path, filesystem_error_string(fserr));
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}
static bool prepare_block_device(void* ctx, const char* path)
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{
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(void) ctx;
struct harddisk* hd = harddisk_openat(AT_FDCWD, path, O_RDONLY);
if ( !hd )
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{
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int true_errno = errno;
struct stat st;
if ( lstat(path, &st) == 0 && !S_ISBLK(st.st_mode) )
return true;
errno = true_errno;
fatal("%s: %m", path);
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}
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if ( !harddisk_inspect_blockdevice(hd) )
{
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if ( errno == ENOTBLK )
return true;
if ( errno == EINVAL )
return warning("%s: %m", path), true;
fatal("%s: %m", path);
}
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if ( hds_used == hds_length )
{
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// TODO: Potential overflow.
size_t new_length = hds_length ? 2 * hds_length : 16;
struct harddisk** new_hds = (struct harddisk**)
reallocarray(hds, new_length, sizeof(struct harddisk*));
if ( !new_hds )
fatal("realloc: %m");
hds = new_hds;
hds_length = new_length;
}
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hds[hds_used++] = hd;
struct blockdevice* bdev = &hd->bdev;
enum partition_error parterr = blockdevice_get_partition_table(&bdev->pt, bdev);
if ( parterr == PARTITION_ERROR_ABSENT ||
parterr == PARTITION_ERROR_UNRECOGNIZED )
{
prepare_filesystem(path, bdev);
return true;
}
else if ( parterr == PARTITION_ERROR_ERRNO )
{
if ( errno == EIO || errno == EINVAL )
warning("%s: %s", path, partition_error_string(parterr));
else
fatal("%s: %s", path, partition_error_string(parterr));
return true;
}
else if ( parterr != PARTITION_ERROR_NONE )
{
warning("%s: %s", path, partition_error_string(parterr));
return true;
}
for ( size_t i = 0; i < bdev->pt->partitions_count; i++ )
{
struct partition* p = bdev->pt->partitions[i];
assert(p->path);
struct stat st;
if ( stat(p->path, &st) == 0 )
{
// TODO: Check the existing partition has the right offset and
// length, but definitely do not recreate it if it already
// exists properly.
}
else if ( errno == ENOENT )
{
int mountfd = open(p->path, O_RDONLY | O_CREAT | O_EXCL);
if ( mountfd < 0 )
fatal("%s:˙%m", p->path);
int partfd = mkpartition(hd->fd, p->start, p->length);
if ( partfd < 0 )
fatal("mkpartition: %s:˙%m", p->path);
if ( fsm_fsbind(partfd, mountfd, 0) < 0 )
fatal("fsbind: %s:˙%m", p->path);
close(partfd);
close(mountfd);
}
else
{
fatal("stat: %s: %m", p->path);
}
prepare_filesystem(p->path, &p->bdev);
}
return true;
}
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static void prepare_block_devices(void)
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{
static bool done = false;
if ( done )
return;
done = true;
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if ( !devices_iterate_path(prepare_block_device, NULL) )
fatal("iterating devices: %m");
}
Implemented the fork() system call and what it needed to work properly. This commit got completely out of control. Added the fork(), getpid(), getppid(), sleep(), usleep() system calls, and aliases in the Maxsi:: namespace. Fixed a bug where zero-byte allocation would fail. Worked on the DescriptorTable class which now works and can fork. Got rid of some massive print-registers statements and replaced them with the portable InterruptRegisters::LogRegisters() function. Removed the SysExecuteOld function and replaced it with Process::Execute(). Rewrote the boot sequence in kernel.cpp such that it now loads the system idle process 'idle' as PID 0, and the initization process 'init' as PID 1. Rewrote the SIGINT hack. Processes now maintain a family-tree structure and keep track of their threads. PIDs are now allocated using a simple hack. Virtual memory per-process can now be allocated using a simple hack. Processes can now be forked. Fixed the Process::Execute function such that it now resets the stack pointer to where the stack actually is - not just a magic value. Removed the old and ugly Process::_endcodesection hack. Rewrote the scheduler into a much cleaner and faster version. Debug code is now moved to designated functions. The noop kernel-thread has been replaced by a simple user-space infinite-loop program 'idle'. The Thread class has been seperated from the Scheduler except in Scheduler- related code. Thread::{Save,Load}Registers has been improved and has been moved to $(CPU)/thread.cpp. Threads can now be forked. A new CreateThread function creates threads properly and portably. Added a MicrosecondsSinceBoot() function. Fixed a crucial bug in MemoryManagement::Fork(). Added an 'idle' user-space program that is a noop infinite loop, which is used by the scheduler when there is nothing to do. Rewrote the 'init' program such that it now forks off a shell, instead of becoming the shell. Added the $$ (current PID) and $PPID (parent PPID) variables to the shell.
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struct device_match
{
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const char* path;
struct blockdevice* bdev;
};
static void search_by_uuid(const char* uuid_string,
void (*cb)(void*, struct device_match*),
void* ctx)
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{
unsigned char uuid[16];
uuid_from_string(uuid, uuid_string);
for ( size_t i = 0; i < hds_used; i++ )
{
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struct blockdevice* bdev = &hds[i]->bdev;
if ( bdev->fs )
{
struct filesystem* fs = bdev->fs;
if ( !(fs->flags & FILESYSTEM_FLAG_UUID) )
continue;
if ( memcmp(uuid, fs->uuid, 16) != 0 )
continue;
struct device_match match;
match.path = hds[i]->path;
match.bdev = bdev;
cb(ctx, &match);
}
else if ( bdev->pt )
{
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for ( size_t j = 0; j < bdev->pt->partitions_count; j++ )
{
struct partition* p = bdev->pt->partitions[j];
if ( !p->bdev.fs )
continue;
struct filesystem* fs = p->bdev.fs;
if ( !(fs->flags & FILESYSTEM_FLAG_UUID) )
continue;
if ( memcmp(uuid, fs->uuid, 16) != 0 )
continue;
struct device_match match;
match.path = p->path;
match.bdev = &p->bdev;
cb(ctx, &match);
}
}
}
}
static void ensure_single_device_match(void* ctx, struct device_match* match)
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{
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struct device_match* result = (struct device_match*) ctx;
if ( result->path )
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{
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if ( result->bdev )
note("duplicate match: %s", result->path);
result->bdev = NULL;
note("duplicate match: %s", match->path);
return;
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}
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*result = *match;
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}
struct mountpoint
{
struct fstab entry;
char* entry_line;
pid_t pid;
char* absolute;
};
static struct mountpoint* mountpoints = NULL;
static size_t mountpoints_used = 0;
static size_t mountpoints_length = 0;
static int sort_mountpoint(const void* a_ptr, const void* b_ptr)
{
const struct mountpoint* a = (const struct mountpoint*) a_ptr;
const struct mountpoint* b = (const struct mountpoint*) b_ptr;
return strcmp(a->entry.fs_file, b->entry.fs_file);
}
static void load_fstab(void)
{
FILE* fp = fopen("/etc/fstab", "r");
if ( !fp )
{
if ( errno == ENOENT )
return;
fatal("/etc/fstab: %m");
}
char* line = NULL;
size_t line_size;
ssize_t line_length;
while ( 0 < (errno = 0, line_length = getline(&line, &line_size, fp)) )
{
if ( line[line_length - 1] == '\n' )
line[--line_length] = '\0';
struct fstab fstabent;
if ( !scanfsent(line, &fstabent) )
continue;
if ( mountpoints_used == mountpoints_length )
{
size_t new_length = 2 * mountpoints_length;
if ( !new_length )
new_length = 16;
struct mountpoint* new_mountpoints = (struct mountpoint*)
reallocarray(mountpoints, new_length, sizeof(struct mountpoint));
if ( !new_mountpoints )
fatal("malloc: %m");
mountpoints = new_mountpoints;
mountpoints_length = new_length;
}
struct mountpoint* mountpoint = &mountpoints[mountpoints_used++];
memcpy(&mountpoint->entry, &fstabent, sizeof(fstabent));
mountpoint->entry_line = line;
mountpoint->pid = -1;
if ( !(mountpoint->absolute = strdup(mountpoint->entry.fs_file)) )
fatal("malloc: %m");
line = NULL;
line_size = 0;
}
if ( errno )
fatal("/etc/fstab: %m");
free(line);
fclose(fp);
qsort(mountpoints, mountpoints_used, sizeof(struct mountpoint),
sort_mountpoint);
}
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static void set_hostname(void)
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{
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FILE* fp = fopen("/etc/hostname", "r");
if ( !fp && errno == ENOENT )
return;
if ( !fp )
return warning("unable to set hostname: /etc/hostname: %m");
char* hostname = read_single_line(fp);
if ( !hostname )
return warning("unable to set hostname: /etc/hostname: %m");
fclose(fp);
int ret = sethostname(hostname, strlen(hostname) + 1);
free(hostname);
if ( ret < 0 )
return warning("unable to set hostname: `%s': %m", hostname);
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}
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static void set_kblayout(void)
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{
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FILE* fp = fopen("/etc/kblayout", "r");
if ( !fp && errno == ENOENT )
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return;
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if ( !fp )
return warning("unable to set keyboard layout: /etc/kblayout: %m");
char* kblayout = read_single_line(fp);
if ( !kblayout )
return warning("unable to set keyboard layout: /etc/kblayout: %m");
fclose(fp);
pid_t child_pid = fork();
if ( child_pid < 0 )
return warning("unable to set keyboard layout: fork: %m");
if ( !child_pid )
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{
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execlp("chkblayout", "chkblayout", "--", kblayout, (char*) NULL);
warning("setting keyboard layout: chkblayout: %m");
_exit(127);
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}
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int status;
waitpid(child_pid, &status, 0);
free(kblayout);
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}
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static void set_videomode(void)
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{
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FILE* fp = fopen("/etc/videomode", "r");
if ( !fp && errno == ENOENT )
return;
if ( !fp )
return warning("unable to set video mode: /etc/videomode: %m");
char* videomode = read_single_line(fp);
if ( !videomode )
return warning("unable to set video mode: /etc/videomode: %m");
fclose(fp);
unsigned int xres = 0;
unsigned int yres = 0;
unsigned int bpp = 0;
if ( sscanf(videomode, "%ux%ux%u", &xres, &yres, &bpp) != 3 )
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{
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warning("/etc/videomode: Invalid video mode `%s'", videomode);
free(videomode);
return;
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}
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free(videomode);
struct dispmsg_set_crtc_mode set_mode;
memset(&set_mode, 0, sizeof(set_mode));
set_mode.msgid = DISPMSG_SET_CRTC_MODE;
set_mode.device = 0;
set_mode.connector = 0;
set_mode.mode.driver_index = 0;
set_mode.mode.magic = 0;
set_mode.mode.control = DISPMSG_CONTROL_VALID;
set_mode.mode.fb_format = bpp;
set_mode.mode.view_xres = xres;
set_mode.mode.view_yres = yres;
set_mode.mode.fb_location = 0;
set_mode.mode.pitch = xres * (bpp / 8);
set_mode.mode.surf_off_x = 0;
set_mode.mode.surf_off_y = 0;
set_mode.mode.start_x = 0;
set_mode.mode.start_y = 0;
set_mode.mode.end_x = 0;
set_mode.mode.end_y = 0;
set_mode.mode.desktop_height = yres;
if ( dispmsg_issue(&set_mode, sizeof(set_mode)) < 0 )
warning("/etc/videomode: Failed to set video mode `%ux%ux%u': %m",
xres, yres, bpp);
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}
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static void init_early(void)
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{
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static bool done = false;
if ( done )
return;
done = true;
// Make sure that we have a /tmp directory.
umask(0000);
mkdir("/tmp", 01777);
// Set the default file creation mask.
umask(0022);
// Set up the PATH variable.
if ( setenv("PATH", "/bin:/sbin", 1) < 0 )
fatal("setenv: %m");
// Set the terminal type.
if ( setenv("TERM", "sortix", 1) < 0 )
fatal("setenv: %m");
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}
static bool is_chain_init_mountpoint(const struct mountpoint* mountpoint)
{
return !strcmp(mountpoint->entry.fs_file, "/");
}
static struct filesystem* mountpoint_lookup(const struct mountpoint* mountpoint)
{
const char* path = mountpoint->entry.fs_file;
const char* spec = mountpoint->entry.fs_spec;
if ( strncmp(spec, "UUID=", strlen("UUID=")) == 0 )
{
const char* uuid = spec + strlen("UUID=");
if ( !uuid_validate(uuid) )
{
warning("%s: `%s' is not a valid uuid", path, uuid);
return NULL;
}
struct device_match match;
memset(&match, 0, sizeof(match));
search_by_uuid(uuid, ensure_single_device_match, &match);
if ( !match.path )
{
warning("%s: No devices matching uuid %s were found", path, uuid);
return NULL;
}
if ( !match.bdev )
{
warning("%s: Don't know which particular device to boot with uuid "
"%s", path, uuid);
return NULL;
}
assert(match.bdev->fs);
return match.bdev->fs;
}
// TODO: Lookup by device name.
// TODO: Use this function in the chain init case too.
warning("%s: Don't know how to resolve `%s' to a filesystem", path, spec);
return NULL;
}
static bool mountpoint_mount(struct mountpoint* mountpoint)
{
struct filesystem* fs = mountpoint_lookup(mountpoint);
if ( !fs )
return false;
// TODO: It would be ideal to get an exclusive lock so that no other
// processes have currently mounted that filesystem.
struct blockdevice* bdev = fs->bdev;
const char* bdev_path = bdev->p ? bdev->p->path : bdev->hd->path;
assert(bdev_path);
do if ( fs->flags & (FILESYSTEM_FLAG_FSCK_SHOULD | FILESYSTEM_FLAG_FSCK_MUST) )
{
assert(fs->fsck);
if ( fs->flags & FILESYSTEM_FLAG_FSCK_MUST )
note("%s: Repairing filesystem due to inconsistency...", bdev_path);
else
note("%s: Checking filesystem consistency...", bdev_path);
pid_t child_pid = fork();
if ( child_pid < 0 )
{
if ( fs->flags & FILESYSTEM_FLAG_FSCK_MUST )
{
warning("%s: Mandatory repair failed: fork: %m", bdev_path);
return false;
}
warning("%s: Skipping filesystem check: fork: %m:", bdev_path);
break;
}
if ( child_pid == 0 )
{
execlp(fs->fsck, fs->fsck, "-fp", "--", bdev_path, (const char*) NULL);
note("%s: Failed to load filesystem checker: %s: %m", bdev_path, fs->fsck);
_exit(127);
}
int code;
if ( waitpid(child_pid, &code, 0) < 0 )
fatal("waitpid: %m");
if ( WIFEXITED(code) &&
(WEXITSTATUS(code) == 0 || WEXITSTATUS(code) == 1) )
{
// Successfully checked filesystem.
}
else if ( fs->flags & FILESYSTEM_FLAG_FSCK_MUST )
{
if ( WIFSIGNALED(code) )
warning("%s: Mandatory repair failed: %s: %s", bdev_path,
fs->fsck, strsignal(WTERMSIG(code)));
else if ( !WIFEXITED(code) )
warning("%s: Mandatory repair failed: %s: %s", bdev_path,
fs->fsck, "Unexpected unusual termination");
else if ( WEXITSTATUS(code) == 127 )
warning("%s: Mandatory repair failed: %s: %s", bdev_path,
fs->fsck, "Filesystem checker is absent");
else if ( WEXITSTATUS(code) & 2 )
warning("%s: Mandatory repair: %s: %s", bdev_path,
fs->fsck, "System reboot is necessary");
else
warning("%s: Mandatory repair failed: %s: %s", bdev_path,
fs->fsck, "Filesystem checker was unsuccessful");
return false;
}
else
{
bool ignore = false;
if ( WIFSIGNALED(code) )
warning("%s: Filesystem check failed: %s: %s", bdev_path,
fs->fsck, strsignal(WTERMSIG(code)));
else if ( !WIFEXITED(code) )
warning("%s: Filesystem check failed: %s: %s", bdev_path,
fs->fsck, "Unexpected unusual termination");
else if ( WEXITSTATUS(code) == 127 )
{
warning("%s: Skipping filesystem check: %s: %s", bdev_path,
fs->fsck, "Filesystem checker is absent");
ignore = true;
}
else if ( WEXITSTATUS(code) & 2 )
warning("%s: Filesystem check: %s: %s", bdev_path,
fs->fsck, "System reboot is necessary");
else
warning("%s: Filesystem check failed: %s: %s", bdev_path,
fs->fsck, "Filesystem checker was unsuccessful");
if ( !ignore )
return false;
}
} while ( 0 );
if ( !fs->driver )
{
warning("%s: Don't know how to mount a %s filesystem",
bdev_path, fs->fstype_name);
return false;
}
const char* pretend_where = mountpoint->entry.fs_file;
const char* where = mountpoint->absolute;
struct stat st;
if ( stat(where, &st) < 0 )
{
warning("stat: %s: %m", where);
return false;
}
if ( (mountpoint->pid = fork()) < 0 )
{
warning("%s: Unable to mount: fork: %m", bdev_path);
return false;
}
// TODO: This design is broken. The filesystem should tell us when it is
// ready instead of having to poll like this.
if ( mountpoint->pid == 0 )
{
execlp(fs->driver, fs->driver, "--foreground", bdev_path, where,
"--pretend-mount-path", pretend_where, (const char*) NULL);
warning("%s: Failed to load filesystem driver: %s: %m", bdev_path, fs->driver);
_exit(127);
}
while ( true )
{
struct stat newst;
if ( stat(where, &newst) < 0 )
{
warning("stat: %s: %m", where);
if ( unmount(where, 0) < 0 && errno != ENOMOUNT )
warning("unmount: %s: %m", where);
else if ( errno == ENOMOUNT )
kill(mountpoint->pid, SIGQUIT);
int code;
waitpid(mountpoint->pid, &code, 0);
mountpoint->pid = -1;
return false;
}
if ( newst.st_dev != st.st_dev || newst.st_ino != st.st_ino )
break;
int code;
pid_t child = waitpid(mountpoint->pid, &code, WNOHANG);
if ( child < 0 )
fatal("waitpid: %m");
if ( child != 0 )
{
mountpoint->pid = -1;
if ( WIFSIGNALED(code) )
warning("%s: Mount failed: %s: %s", bdev_path, fs->driver,
strsignal(WTERMSIG(code)));
else if ( !WIFEXITED(code) )
warning("%s: Mount failed: %s: %s", bdev_path, fs->driver,
"Unexpected unusual termination");
else if ( WEXITSTATUS(code) == 127 )
warning("%s: Mount failed: %s: %s", bdev_path, fs->driver,
"Filesystem driver is absent");
else if ( WEXITSTATUS(code) == 0 )
warning("%s: Mount failed: %s: Unexpected successful exit",
bdev_path, fs->driver);
else
warning("%s: Mount failed: %s: Exited with status %i", bdev_path,
fs->driver, WEXITSTATUS(code));
return false;
}
struct timespec delay = timespec_make(0, 50L * 1000L * 1000L);
nanosleep(&delay, NULL);
}
return true;
}
static void mountpoints_mount(bool is_chain_init)
{
for ( size_t i = 0; i < mountpoints_used; i++ )
{
struct mountpoint* mountpoint = &mountpoints[i];
if ( is_chain_init_mountpoint(mountpoint) != is_chain_init )
continue;
mountpoint_mount(mountpoint);
}
}
static void mountpoints_unmount(void)
{
for ( size_t n = mountpoints_used; n != 0; n-- )
{
size_t i = n - 1;
struct mountpoint* mountpoint = &mountpoints[i];
if ( mountpoint->pid < 0 )
continue;
if ( unmount(mountpoint->absolute, 0) < 0 && errno != ENOMOUNT )
warning("unmount: %s: %m", mountpoint->entry.fs_file);
else if ( errno == ENOMOUNT )
kill(mountpoint->pid, SIGQUIT);
int code;
if ( waitpid(mountpoint->pid, &code, 0) < 0 )
note("waitpid: %m");
mountpoint->pid = -1;
}
}
static int init(const char* target)
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{
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init_early();
set_hostname();
set_kblayout();
set_videomode();
prepare_block_devices();
load_fstab();
if ( atexit(mountpoints_unmount) != 0 )
fatal("atexit: %m");
mountpoints_mount(false);
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sigset_t oldset, sigttou;
sigemptyset(&sigttou);
sigaddset(&sigttou, SIGTTOU);
int result;
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while ( true )
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{
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struct termios tio;
if ( tcgetattr(0, &tio) )
fatal("tcgetattr: %m");
pid_t child_pid = fork();
if ( child_pid < 0 )
fatal("fork: %m");
if ( !child_pid )
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{
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uid_t uid = getuid();
pid_t pid = getpid();
pid_t ppid = getppid();
if ( setpgid(0, 0) < 0 )
fatal("setpgid: %m");
sigprocmask(SIG_BLOCK, &sigttou, &oldset);
if ( tcsetpgrp(0, pid) < 0 )
fatal("tcsetpgrp: %m");
sigprocmask(SIG_SETMASK, &oldset, NULL);
struct passwd* pwd = getpwuid(uid);
if ( !pwd )
fatal("looking up user by uid %" PRIuUID ": %m", uid);
const char* home = pwd->pw_dir[0] ? pwd->pw_dir : "/";
const char* shell = pwd->pw_shell[0] ? pwd->pw_shell : "sh";
char ppid_str[sizeof(pid_t) * 3];
snprintf(ppid_str, sizeof(ppid_str), "%" PRIiPID, ppid);
if ( setenv("INIT_PID", ppid_str, 1) < 0 ||
setenv("LOGNAME", pwd->pw_name, 1) < 0 ||
setenv("USER", pwd->pw_name, 1) < 0 ||
setenv("HOME", home, 1) < 0 ||
setenv("SHELL", shell, 1) < 0 )
fatal("setenv: %m");
if ( chdir(home) < 0 )
warning("chdir: %s: %m", home);
const char* program = "login";
bool activate_terminal = false;
if ( !strcmp(target, "single-user") )
{
activate_terminal = true;
program = shell;
}
if ( !strcmp(target, "sysinstall") )
{
activate_terminal = true;
program = "sysinstall";
}
if ( !strcmp(target, "sysupgrade") )
{
program = "sysupgrade";
activate_terminal = true;
}
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if ( activate_terminal )
{
tio.c_cflag |= CREAD;
if ( tcsetattr(0, TCSANOW, &tio) )
fatal("tcgetattr: %m");
}
const char* argv[] = { program, NULL };
execvp(program, (char* const*) argv);
fatal("%s: %m", program);
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}
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int status;
if ( waitpid(child_pid, &status, 0) < 0 )
fatal("waitpid");
sigprocmask(SIG_BLOCK, &sigttou, &oldset);
if ( tcsetattr(0, TCSAFLUSH, &tio) )
fatal("tcgetattr: %m");
if ( tcsetpgrp(0, getpgid(0)) < 0 )
fatal("tcsetpgrp: %m");
sigprocmask(SIG_SETMASK, &oldset, NULL);
const char* back = ": Trying to bring it back up again";
if ( WIFEXITED(status) )
{
result = WEXITSTATUS(status);
break;
}
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else if ( WIFSIGNALED(status) )
note("session: %s%s", strsignal(WTERMSIG(status)), back);
else
note("session: Unexpected unusual termination%s", back);
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}
mountpoints_unmount();
return result;
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}
static bool chain_location_made = false;
static char chain_location[] = "/tmp/fs.XXXXXX";
static bool chain_location_dev_made = false;
static char chain_location_dev[] = "/tmp/fs.XXXXXX/dev";
static void init_chain_atexit(void)
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{
if ( chain_location_dev_made )
{
unmount(chain_location_dev, 0);
chain_location_dev_made = false;
}
if ( chain_location_made )
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{
rmdir(chain_location);
chain_location_made = false;
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}
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}
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static int init_chain(const char* target)
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{
init_early();
prepare_block_devices();
load_fstab();
if ( atexit(init_chain_atexit) != 0 )
fatal("atexit: %m");
if ( !mkdtemp(chain_location) )
fatal("mkdtemp: /tmp/fs.XXXXXX: %m");
chain_location_made = true;
bool found_root = false;
for ( size_t i = 0; i < mountpoints_used; i++ )
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{
struct mountpoint* mountpoint = &mountpoints[i];
if ( !strcmp(mountpoint->entry.fs_file, "/") )
found_root = true;
char* absolute = join_paths(chain_location, mountpoint->absolute);
free(mountpoint->absolute);
mountpoint->absolute = absolute;
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}
if ( !found_root )
fatal("/etc/fstab: Root filesystem not found in filesystem table");
if ( atexit(mountpoints_unmount) != 0 )
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fatal("atexit: %m");
mountpoints_mount(true);
snprintf(chain_location_dev, sizeof(chain_location_dev), "%s/dev",
chain_location);
if ( mkdir(chain_location_dev, 755) < 0 && errno != EEXIST )
fatal("mkdir: %s: %m", chain_location_dev);
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int old_dev_fd = open("/dev", O_DIRECTORY | O_RDONLY);
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if ( old_dev_fd < 0 )
fatal("%s: %m", "/dev");
int new_dev_fd = open(chain_location_dev, O_DIRECTORY | O_RDONLY);
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if ( new_dev_fd < 0 )
fatal("%s: %m", chain_location_dev);
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if ( fsm_fsbind(old_dev_fd, new_dev_fd, 0) < 0 )
fatal("mount: `%s' onto `%s': %m", "/dev", chain_location_dev);
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close(new_dev_fd);
close(old_dev_fd);
int result;
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while ( true )
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{
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pid_t child_pid = fork();
if ( child_pid < 0 )
fatal("fork: %m");
if ( !child_pid )
{
if ( chroot(chain_location) < 0 )
fatal("chroot: %s: %m", chain_location);
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if ( chdir("/") < 0 )
fatal("chdir: %s: %m", chain_location);
if ( !strcmp(target, "chain-merge") )
{
const char* argv[] = { "sysmerge", "--booting", NULL };
execv("/sysmerge/sbin/sysmerge", (char* const*) argv);
fatal("Failed to run automatic update: %s: %m", argv[0]);
}
else
{
unsetenv("INIT_PID");
const char* argv[] = { "init", NULL };
execv("/sbin/init", (char* const*) argv);
fatal("Failed to load chain init: %s: %m", argv[0]);
}
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}
int status;
if ( waitpid(child_pid, &status, 0) < 0 )
fatal("waitpid");
const char* back = ": Trying to bring it back up again";
if ( !strcmp(target, "chain-merge") )
{
if ( WIFEXITED(status) && WEXITSTATUS(status) == 0 )
{
target = "chain";
continue;
}
if ( WIFEXITED(status) )
fatal("Automatic upgrade failed: Exit status %i",
WEXITSTATUS(status));
else if ( WIFSIGNALED(status) )
fatal("Automatic upgrade failed: %s",
strsignal(WTERMSIG(status)));
else
fatal("Automatic upgrade failed: Unexpected unusual termination");
}
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if ( WIFEXITED(status) )
{
result = WEXITSTATUS(status);
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break;
}
else if ( WIFSIGNALED(status) )
note("chain init: %s%s", strsignal(WTERMSIG(status)), back);
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else
note("chain init: Unexpected unusual termination%s", back);
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}
mountpoints_unmount();
init_chain_atexit();
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return result;
}
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static void compact_arguments(int* argc, char*** argv)
{
for ( int i = 0; i < *argc; i++ )
{
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while ( i < *argc && !(*argv)[i] )
{
for ( int n = i; n < *argc; n++ )
(*argv)[n] = (*argv)[n+1];
(*argc)--;
}
}
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}
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static void help(FILE* fp, const char* argv0)
{
fprintf(fp, "Usage: %s [OPTION]...\n", argv0);
fprintf(fp, "Initialize and manage the userland.\n");
}
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static void version(FILE* fp, const char* argv0)
{
fprintf(fp, "%s (Sortix) %s\n", argv0, VERSIONSTR);
}
int main(int argc, char* argv[])
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{
main_pid = getpid();
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setlocale(LC_ALL, "");
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const char* target = NULL;
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const char* argv0 = argv[0];
for ( int i = 1; i < argc; i++ )
{
const char* arg = argv[i];
if ( arg[0] != '-' || !arg[1] )
continue;
argv[i] = NULL;
if ( !strcmp(arg, "--") )
break;
if ( arg[1] != '-' )
{
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char c;
while ( (c = *++arg) ) switch ( c )
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{
default:
fprintf(stderr, "%s: unknown option -- '%c'\n", argv0, c);
help(stderr, argv0);
exit(1);
}
}
else if ( !strncmp(arg, "--target=", strlen("--target=")) )
target = arg + strlen("--target=");
else if ( !strcmp(arg, "--target") )
{
if ( i + 1 == argc )
{
error(0, 0, "option '--target' requires an argument");
fprintf(stderr, "Try `%s --help' for more information.\n", argv[0]);
exit(125);
}
target = argv[i+1];
argv[++i] = NULL;
}
else if ( !strcmp(arg, "--help") )
help(stdout, argv0), exit(0);
else if ( !strcmp(arg, "--version") )
version(stdout, argv0), exit(0);
else
{
fprintf(stderr, "%s: unknown option: %s\n", argv0, arg);
help(stderr, argv0);
exit(1);
}
}
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compact_arguments(&argc, &argv);
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char* target_string = NULL;
if ( !target )
{
const char* target_path = "/etc/init/target";
if ( access(target_path, F_OK) == 0 )
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{
FILE* target_fp = fopen(target_path, "r");
if ( !target_fp )
fatal("%s: %m", target_path);
target_string = read_single_line(target_fp);
if ( !target_string )
fatal("read: %s: %m", target_path);
target = target_string;
fclose(target_fp);
}
else
fatal("Refusing to initialize because %s doesn't exist", target_path);
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}
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if ( getenv("INIT_PID") )
fatal("System is already managed by an init process");
if ( !strcmp(target, "single-user") ||
!strcmp(target, "multi-user") ||
!strcmp(target, "sysinstall") ||
!strcmp(target, "sysupgrade") )
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return init(target);
if ( !strcmp(target, "chain") ||
!strcmp(target, "chain-merge") )
return init_chain(target);
fatal("Unknown initialization target `%s'", target);
Implemented the fork() system call and what it needed to work properly. This commit got completely out of control. Added the fork(), getpid(), getppid(), sleep(), usleep() system calls, and aliases in the Maxsi:: namespace. Fixed a bug where zero-byte allocation would fail. Worked on the DescriptorTable class which now works and can fork. Got rid of some massive print-registers statements and replaced them with the portable InterruptRegisters::LogRegisters() function. Removed the SysExecuteOld function and replaced it with Process::Execute(). Rewrote the boot sequence in kernel.cpp such that it now loads the system idle process 'idle' as PID 0, and the initization process 'init' as PID 1. Rewrote the SIGINT hack. Processes now maintain a family-tree structure and keep track of their threads. PIDs are now allocated using a simple hack. Virtual memory per-process can now be allocated using a simple hack. Processes can now be forked. Fixed the Process::Execute function such that it now resets the stack pointer to where the stack actually is - not just a magic value. Removed the old and ugly Process::_endcodesection hack. Rewrote the scheduler into a much cleaner and faster version. Debug code is now moved to designated functions. The noop kernel-thread has been replaced by a simple user-space infinite-loop program 'idle'. The Thread class has been seperated from the Scheduler except in Scheduler- related code. Thread::{Save,Load}Registers has been improved and has been moved to $(CPU)/thread.cpp. Threads can now be forked. A new CreateThread function creates threads properly and portably. Added a MicrosecondsSinceBoot() function. Fixed a crucial bug in MemoryManagement::Fork(). Added an 'idle' user-space program that is a noop infinite loop, which is used by the scheduler when there is nothing to do. Rewrote the 'init' program such that it now forks off a shell, instead of becoming the shell. Added the $$ (current PID) and $PPID (parent PPID) variables to the shell.
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}