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|
/*
* Mach Operating System
* Copyright (c) 1992-1989 Carnegie Mellon University.
* Copyright (c) 1995-1993 The University of Utah and
* the Computer Systems Laboratory (CSL).
* All rights reserved.
*
* Permission to use, copy, modify and distribute this software and its
* documentation is hereby granted, provided that both the copyright
* notice and this permission notice appear in all copies of the
* software, derivative works or modified versions, and any portions
* thereof, and that both notices appear in supporting documentation.
*
* CARNEGIE MELLON, THE UNIVERSITY OF UTAH AND CSL ALLOW FREE USE OF
* THIS SOFTWARE IN ITS "AS IS" CONDITION, AND DISCLAIM ANY LIABILITY
* OF ANY KIND FOR ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF
* THIS SOFTWARE.
*
* Carnegie Mellon requests users of this software to return to
*
* Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU
* School of Computer Science
* Carnegie Mellon University
* Pittsburgh PA 15213-3890
*
* any improvements or extensions that they make and grant Carnegie Mellon
* the rights to redistribute these changes.
*/
/*
* Bootstrap the various built-in servers.
*/
#include <alloca.h>
#include <string.h>
#include <mach/port.h>
#include <mach/message.h>
#include <machine/locore.h>
#include <machine/vm_param.h>
#include <machine/pcb.h>
#include <ipc/ipc_port.h>
#include <ipc/mach_port.h>
#include <kern/debug.h>
#include <kern/host.h>
#include <kern/printf.h>
#include <kern/kalloc.h>
#include <kern/task.h>
#include <kern/thread.h>
#include <kern/lock.h>
#include <vm/vm_kern.h>
#include <vm/vm_user.h>
#include <vm/pmap.h>
#include <device/device_port.h>
#if MACH_KDB
#include <machine/db_machdep.h>
#include <ddb/db_sym.h>
#endif
#if OSKIT_MACH
#include <stddef.h>
#include <oskit/machine/base_multiboot.h>
#include <oskit/exec/exec.h>
#include <oskit/c/stdio.h>
#define safe_gets(s, n) fgets((s),(n),stdin)
#else
#include <mach/machine/multiboot.h>
#include <mach/exec/exec.h>
#ifdef MACH_XEN
#include <mach/xen.h>
extern struct start_info boot_info; /* XXX put this in a header! */
#else /* MACH_XEN */
extern struct multiboot_info boot_info; /* XXX put this in a header! */
#endif /* MACH_XEN */
#endif
#include "boot_script.h"
static mach_port_t boot_device_port; /* local name */
static mach_port_t boot_host_port; /* local name */
extern char *kernel_cmdline;
static void user_bootstrap(void); /* forward */
static void user_bootstrap_compat(void); /* forward */
static void bootstrap_exec_compat(void *exec_data); /* forward */
static void get_compat_strings(char *flags_str, char *root_str); /* forward */
static mach_port_t
task_insert_send_right(
task_t task,
ipc_port_t port)
{
mach_port_t name;
for (name = 1;; name++) {
kern_return_t kr;
kr = mach_port_insert_right(task->itk_space, name,
port, MACH_MSG_TYPE_PORT_SEND);
if (kr == KERN_SUCCESS)
break;
assert(kr == KERN_NAME_EXISTS);
}
return name;
}
void bootstrap_create(void)
{
int compat;
int n = 0;
#ifdef MACH_XEN
struct multiboot_module *bmods = ((struct multiboot_module *)
boot_info.mod_start);
if (bmods)
for (n = 0; bmods[n].mod_start; n++) {
bmods[n].mod_start = kvtophys(bmods[n].mod_start + (vm_offset_t) bmods);
bmods[n].mod_end = kvtophys(bmods[n].mod_end + (vm_offset_t) bmods);
bmods[n].string = kvtophys(bmods[n].string + (vm_offset_t) bmods);
}
boot_info.mods_count = n;
boot_info.flags |= MULTIBOOT_MODS;
#else /* MACH_XEN */
struct multiboot_module *bmods = ((struct multiboot_module *)
phystokv(boot_info.mods_addr));
#endif /* MACH_XEN */
if (!(boot_info.flags & MULTIBOOT_MODS)
|| (boot_info.mods_count == 0))
panic ("No bootstrap code loaded with the kernel!");
compat = boot_info.mods_count == 1;
if (compat)
{
char *p = strchr((char*)phystokv(bmods[0].string), ' ');
if (p != 0)
do
++p;
while (*p == ' ' || *p == '\n');
compat = p == 0 || *p == '\0';
}
if (compat)
{
printf("Loading single multiboot module in compat mode: %s\n",
(char*)phystokv(bmods[0].string));
bootstrap_exec_compat(&bmods[0]);
}
else
{
int i, losers, maxlen;
/* Initialize boot script variables. We leak these send rights. */
losers = boot_script_set_variable
("host-port", VAL_PORT,
(long)ipc_port_make_send(realhost.host_priv_self));
if (losers)
panic ("cannot set boot-script variable host-port: %s",
boot_script_error_string (losers));
losers = boot_script_set_variable
("device-port", VAL_PORT,
(long) ipc_port_make_send(master_device_port));
if (losers)
panic ("cannot set boot-script variable device-port: %s",
boot_script_error_string (losers));
losers = boot_script_set_variable ("kernel-command-line", VAL_STR,
(long) kernel_cmdline);
if (losers)
panic ("cannot set boot-script variable %s: %s",
"kernel-command-line", boot_script_error_string (losers));
{
/* Set the same boot script variables that the old Hurd's
serverboot did, so an old Hurd and boot script previously
used with serverboot can be used directly with this kernel. */
char *flag_string = alloca(1024);
char *root_string = alloca(1024);
/*
* Get the (compatibility) boot flags and root name strings.
*/
get_compat_strings(flag_string, root_string);
losers = boot_script_set_variable ("boot-args", VAL_STR,
(long) flag_string);
if (losers)
panic ("cannot set boot-script variable %s: %s",
"boot-args", boot_script_error_string (losers));
losers = boot_script_set_variable ("root-device", VAL_STR,
(long) root_string);
if (losers)
panic ("cannot set boot-script variable %s: %s",
"root-device", boot_script_error_string (losers));
}
#if OSKIT_MACH
{
/* The oskit's "environ" array contains all the words from
the multiboot command line that looked like VAR=VAL.
We set each of these as boot-script variables, which
can be used for things like ${root}. */
extern char **environ;
char **ep;
for (ep = environ; *ep != 0; ++ep)
{
size_t len = strlen (*ep) + 1;
char *var = memcpy (alloca (len), *ep, len);
char *val = strchr (var, '=');
*val++ = '\0';
losers = boot_script_set_variable (var, VAL_STR, (long) val);
if (losers)
panic ("cannot set boot-script variable %s: %s",
var, boot_script_error_string (losers));
}
}
#else /* GNUmach, not oskit-mach */
{
/* Turn each `FOO=BAR' word in the command line into a boot script
variable ${FOO} with value BAR. This matches what we get from
oskit's environ in the oskit-mach case (above). */
int len = strlen (kernel_cmdline) + 1;
char *s = memcpy (alloca (len), kernel_cmdline, len);
char *word;
while ((word = strsep (&s, " \t")) != 0)
{
char *eq = strchr (word, '=');
if (eq == 0)
continue;
*eq++ = '\0';
losers = boot_script_set_variable (word, VAL_STR, (long) eq);
if (losers)
panic ("cannot set boot-script variable %s: %s",
word, boot_script_error_string (losers));
}
}
#endif
maxlen = 0;
for (i = 0; i < boot_info.mods_count; ++i)
{
int err;
char *line = (char*)phystokv(bmods[i].string);
int len = strlen (line) + 1;
if (len > maxlen)
maxlen = len;
printf ("\rmodule %d: %*s", i, -maxlen, line);
err = boot_script_parse_line (&bmods[i], line);
if (err)
{
printf ("\n\tERROR: %s", boot_script_error_string (err));
++losers;
}
}
printf ("\r%d multiboot modules %*s", i, -maxlen, "");
if (losers)
panic ("%d of %d boot script commands could not be parsed",
losers, boot_info.mods_count);
losers = boot_script_exec ();
if (losers)
panic ("ERROR in executing boot script: %s",
boot_script_error_string (losers));
}
/* XXX we could free the memory used
by the boot loader's descriptors and such. */
for (n = 0; n < boot_info.mods_count; n++)
vm_page_create(bmods[n].mod_start, bmods[n].mod_end);
}
static void
bootstrap_exec_compat(void *e)
{
task_t bootstrap_task;
thread_t bootstrap_thread;
/*
* Create the bootstrap task.
*/
(void) task_create(TASK_NULL, FALSE, &bootstrap_task);
(void) thread_create(bootstrap_task, &bootstrap_thread);
/*
* Insert send rights to the master host and device ports.
*/
boot_host_port =
task_insert_send_right(bootstrap_task,
ipc_port_make_send(realhost.host_priv_self));
boot_device_port =
task_insert_send_right(bootstrap_task,
ipc_port_make_send(master_device_port));
/*
* Start the bootstrap thread.
*/
bootstrap_thread->saved.other = e;
thread_start(bootstrap_thread, user_bootstrap_compat);
(void) thread_resume(bootstrap_thread);
}
/*
* The following code runs as the kernel mode portion of the
* first user thread.
*/
/*
* Convert an unsigned integer to its decimal representation.
*/
static void
itoa(
char *str,
vm_size_t num)
{
char buf[sizeof(vm_size_t)*2+3];
char *np;
np = buf + sizeof(buf);
*--np = 0;
do {
*--np = '0' + num % 10;
num /= 10;
} while (num != 0);
strcpy(str, np);
}
/*
* Collect the boot flags into a single argument string,
* for compatibility with existing bootstrap and startup code.
* Format as a standard flag argument: '-qsdn...'
*/
static void get_compat_strings(char *flags_str, char *root_str)
{
char *ip, *cp;
strcpy (root_str, "UNKNOWN");
cp = flags_str;
*cp++ = '-';
for (ip = kernel_cmdline; *ip; )
{
if (*ip == ' ')
{
ip++;
}
else if (*ip == '-')
{
ip++;
while (*ip > ' ')
*cp++ = *ip++;
}
else if (strncmp(ip, "root=", 5) == 0)
{
char *rp = root_str;
ip += 5;
if (strncmp(ip, "/dev/", 5) == 0)
ip += 5;
while (*ip > ' ')
*rp++ = *ip++;
*rp = '\0';
}
else
{
while (*ip > ' ')
ip++;
}
}
if (cp == &flags_str[1]) /* no flags */
*cp++ = 'x';
*cp = '\0';
}
#if 0
/*
* Copy boot_data (executable) to the user portion of this task.
*/
static boolean_t load_protect_text = TRUE;
#if MACH_KDB
/* if set, fault in the text segment */
static boolean_t load_fault_in_text = TRUE;
#endif
static vm_offset_t
boot_map(
void * data, /* private data */
vm_offset_t offset) /* offset to map */
{
vm_offset_t start_offset = (vm_offset_t) data;
return pmap_extract(kernel_pmap, start_offset + offset);
}
#if BOOTSTRAP_SYMBOLS
static boolean_t load_bootstrap_symbols = TRUE;
#else
static boolean_t load_bootstrap_symbols = FALSE;
#endif
#endif
static int
boot_read(void *handle, vm_offset_t file_ofs, void *buf, vm_size_t size,
vm_size_t *out_actual)
{
struct multiboot_module *mod = handle;
if (mod->mod_start + file_ofs + size > mod->mod_end)
return -1;
memcpy(buf, (const char*) phystokv (mod->mod_start) + file_ofs, size);
*out_actual = size;
return 0;
}
static int
read_exec(void *handle, vm_offset_t file_ofs, vm_size_t file_size,
vm_offset_t mem_addr, vm_size_t mem_size,
exec_sectype_t sec_type)
{
struct multiboot_module *mod = handle;
vm_map_t user_map = current_task()->map;
vm_offset_t start_page, end_page;
vm_prot_t mem_prot = sec_type & EXEC_SECTYPE_PROT_MASK;
int err;
if (mod->mod_start + file_ofs + file_size > mod->mod_end)
return -1;
if (!(sec_type & EXEC_SECTYPE_ALLOC))
return 0;
assert(mem_size > 0);
assert(mem_size >= file_size);
start_page = trunc_page(mem_addr);
end_page = round_page(mem_addr + mem_size);
#if 0
printf("reading bootstrap section %08x-%08x-%08x prot %d pages %08x-%08x\n",
mem_addr, mem_addr+file_size, mem_addr+mem_size, mem_prot, start_page, end_page);
#endif
err = vm_allocate(user_map, &start_page, end_page - start_page, FALSE);
assert(err == 0);
assert(start_page == trunc_page(mem_addr));
if (file_size > 0)
{
err = copyout((char *)phystokv (mod->mod_start) + file_ofs,
(void *)mem_addr, file_size);
assert(err == 0);
}
if (mem_prot != VM_PROT_ALL)
{
err = vm_protect(user_map, start_page, end_page - start_page, FALSE, mem_prot);
assert(err == 0);
}
return 0;
}
static void copy_bootstrap(void *e, exec_info_t *boot_exec_info)
{
//register vm_map_t user_map = current_task()->map;
int err;
if ((err = exec_load(boot_read, read_exec, e, boot_exec_info)))
panic("Cannot load user-bootstrap image: error code %d", err);
#if MACH_KDB
/*
* Enter the bootstrap symbol table.
*/
#if 0 /*XXX*/
if (load_bootstrap_symbols)
(void) X_db_sym_init(
(char*) boot_start+lp->sym_offset,
(char*) boot_start+lp->sym_offset+lp->sym_size,
"bootstrap",
(char *) user_map);
#endif
#if 0 /*XXX*/
if (load_fault_in_text)
{
vm_offset_t lenp = round_page(lp->text_start+lp->text_size) -
trunc_page(lp->text_start);
vm_offset_t i = 0;
while (i < lenp)
{
vm_fault(user_map, text_page_start +i,
load_protect_text ?
VM_PROT_READ|VM_PROT_EXECUTE :
VM_PROT_READ|VM_PROT_EXECUTE | VM_PROT_WRITE,
0,0,0);
i = round_page (i+1);
}
}
#endif
#endif /* MACH_KDB */
}
/*
* Allocate the stack, and build the argument list.
*/
static void
build_args_and_stack(struct exec_info *boot_exec_info,
char **argv, char **envp)
{
vm_offset_t stack_base;
vm_size_t stack_size;
char * arg_ptr;
int arg_count, envc;
int arg_len;
char * arg_pos;
int arg_item_len;
char * string_pos;
char * zero = (char *)0;
int i;
#define STACK_SIZE (64*1024)
/*
* Calculate the size of the argument list.
*/
arg_len = 0;
arg_count = 0;
while (argv[arg_count] != 0) {
arg_ptr = argv[arg_count++];
arg_len += strlen(arg_ptr) + 1;
}
envc = 0;
if (envp != 0)
while (envp[envc] != 0)
arg_len += strlen (envp[envc++]) + 1;
/*
* Add space for:
* arg count
* pointers to arguments
* trailing 0 pointer
* pointers to environment variables
* trailing 0 pointer
* and align to integer boundary
*/
arg_len += (sizeof(integer_t)
+ (arg_count + 1 + envc + 1) * sizeof(char *));
arg_len = (arg_len + sizeof(integer_t) - 1) & ~(sizeof(integer_t)-1);
/*
* Allocate the stack.
*/
stack_size = round_page(STACK_SIZE);
stack_base = user_stack_low(stack_size);
(void) vm_allocate(current_task()->map,
&stack_base,
stack_size,
FALSE);
arg_pos = (char *)
set_user_regs(stack_base, stack_size, boot_exec_info, arg_len);
/*
* Start the strings after the arg-count and pointers
*/
string_pos = (arg_pos
+ sizeof(integer_t)
+ (arg_count + 1 + envc + 1) * sizeof(char *));
/*
* first the argument count
*/
(void) copyout(&arg_count,
arg_pos,
sizeof(integer_t));
arg_pos += sizeof(integer_t);
/*
* Then the strings and string pointers for each argument
*/
for (i = 0; i < arg_count; ++i) {
arg_ptr = argv[i];
arg_item_len = strlen(arg_ptr) + 1; /* include trailing 0 */
/* set string pointer */
(void) copyout(&string_pos,
arg_pos,
sizeof (char *));
arg_pos += sizeof(char *);
/* copy string */
(void) copyout(arg_ptr, string_pos, arg_item_len);
string_pos += arg_item_len;
}
/*
* Null terminator for argv.
*/
(void) copyout(&zero, arg_pos, sizeof(char *));
arg_pos += sizeof(char *);
/*
* Then the strings and string pointers for each environment variable
*/
for (i = 0; i < envc; ++i) {
arg_ptr = envp[i];
arg_item_len = strlen(arg_ptr) + 1; /* include trailing 0 */
/* set string pointer */
(void) copyout(&string_pos,
arg_pos,
sizeof (char *));
arg_pos += sizeof(char *);
/* copy string */
(void) copyout(arg_ptr, string_pos, arg_item_len);
string_pos += arg_item_len;
}
/*
* Null terminator for envp.
*/
(void) copyout(&zero, arg_pos, sizeof(char *));
}
static void
user_bootstrap_compat(void)
{
exec_info_t boot_exec_info;
char host_string[12];
char device_string[12];
char flag_string[1024];
char root_string[1024];
/*
* Copy the bootstrap code from boot_exec into the user task.
*/
copy_bootstrap(current_thread()->saved.other, &boot_exec_info);
/*
* Convert the host and device ports to strings,
* to put in the argument list.
*/
itoa(host_string, boot_host_port);
itoa(device_string, boot_device_port);
/*
* Get the (compatibility) boot flags and root name strings.
*/
get_compat_strings(flag_string, root_string);
/*
* Build the argument list and insert in the user task.
* Argument list is
* "bootstrap -<boothowto> <host_port> <device_port> <root_name>"
$0 ${boot-args} ${host-port} ${device-port} ${root-device} $(task-create) $(task-resume)
*/
{
char *argv[] = { "bootstrap",
flag_string,
host_string,
device_string,
root_string,
0 };
char *envp[] = { 0, 0 };
if (kernel_cmdline[0] != '\0')
{
static const char cmdline_var[] = "MULTIBOOT_CMDLINE=";
envp[0] = alloca (sizeof cmdline_var + strlen (kernel_cmdline));
memcpy (envp[0], cmdline_var, sizeof cmdline_var - 1);
strcpy (envp[0] + sizeof cmdline_var - 1, kernel_cmdline);
}
build_args_and_stack(&boot_exec_info, argv, envp);
}
/*
* Exit to user thread.
*/
thread_bootstrap_return();
/*NOTREACHED*/
}
struct user_bootstrap_info
{
struct multiboot_module *mod;
char **argv;
int done;
decl_simple_lock_data(,lock)
};
int
boot_script_exec_cmd (void *hook, task_t task, char *path, int argc,
char **argv, char *strings, int stringlen)
{
struct multiboot_module *mod = hook;
int err;
if (task != MACH_PORT_NULL)
{
thread_t thread;
struct user_bootstrap_info info = { mod, argv, 0, };
simple_lock_init (&info.lock);
simple_lock (&info.lock);
err = thread_create ((task_t)task, &thread);
assert(err == 0);
thread->saved.other = &info;
thread_start (thread, user_bootstrap);
thread_resume (thread);
/* We need to synchronize with the new thread and block this
main thread until it has finished referring to our local state. */
while (! info.done)
{
thread_sleep ((event_t) &info, simple_lock_addr(info.lock), FALSE);
simple_lock (&info.lock);
}
printf ("\n");
}
return 0;
}
static void user_bootstrap(void)
{
struct user_bootstrap_info *info = current_thread()->saved.other;
exec_info_t boot_exec_info;
int err;
char **av;
/* Load this task up from the executable file in the module. */
err = exec_load(boot_read, read_exec, info->mod, &boot_exec_info);
if (err)
panic ("Cannot load user executable module (error code %d): %s",
err, info->argv[0]);
printf ("task loaded:");
/* Set up the stack with arguments. */
build_args_and_stack(&boot_exec_info, info->argv, 0);
for (av = info->argv; *av != 0; ++av)
printf (" %s", *av);
task_suspend (current_task());
/* Tell the bootstrap thread running boot_script_exec_cmd
that we are done looking at INFO. */
simple_lock (&info->lock);
assert (!info->done);
info->done = 1;
thread_wakeup ((event_t) info);
/*
* Exit to user thread.
*/
thread_bootstrap_return();
/*NOTREACHED*/
}
void *
boot_script_malloc (unsigned int size)
{
return (void *) kalloc (size);
}
void
boot_script_free (void *ptr, unsigned int size)
{
kfree ((vm_offset_t)ptr, size);
}
int
boot_script_task_create (struct cmd *cmd)
{
kern_return_t rc = task_create(TASK_NULL, FALSE, &cmd->task);
if (rc)
{
printf("boot_script_task_create failed with %x\n", rc);
return BOOT_SCRIPT_MACH_ERROR;
}
return 0;
}
int
boot_script_task_resume (struct cmd *cmd)
{
kern_return_t rc = task_resume (cmd->task);
if (rc)
{
printf("boot_script_task_resume failed with %x\n", rc);
return BOOT_SCRIPT_MACH_ERROR;
}
printf ("\nstart %s: ", cmd->path);
return 0;
}
int
boot_script_prompt_task_resume (struct cmd *cmd)
{
char xx[5];
printf ("Hit return to resume %s...", cmd->path);
safe_gets (xx, sizeof xx);
return boot_script_task_resume (cmd);
}
void
boot_script_free_task (task_t task, int aborting)
{
if (aborting)
task_terminate (task);
}
int
boot_script_insert_right (struct cmd *cmd, mach_port_t port, mach_port_t *name)
{
*name = task_insert_send_right (cmd->task, (ipc_port_t)port);
return 0;
}
int
boot_script_insert_task_port (struct cmd *cmd, task_t task, mach_port_t *name)
{
*name = task_insert_send_right (cmd->task, task->itk_sself);
return 0;
}
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